articles/WHAT DOES THE INDIAN ECONOMY NEED RIGHT NOW.html

<html lang="en">
                        <head>
                            <meta charset="UTF-8">
                            <title>RanchiMall Content Collaboration Output</title>
                            <meta name="viewport" content="width=device-width, initial-scale=1.0">
                            <link
                                href="https://fonts.googleapis.com/css2?family=Playfair+Display:ital,wght@0,400;0,500;0,600;0,700;0,900;1,400;1,700;1,900&family=Poppins:wght@400;500;600;700&display=swap"
                                rel="stylesheet">
                            <link href="https://fonts.googleapis.com/css2?family=Lora:wght@400;500;600;700&display=swap" rel="stylesheet">
                            <style>
                                * {
                                    padding: 0;
                                    margin: 0;
                                    box-sizing: border-box;
                                }

                                .hide {
                                    display: none !important;
                                }

                                body {
                                    font-family: 'lora', serif;
                                    font-size: 16px;
                                    color: #2f2f2f;
                                    background-color: #f9f7f1;
                                    --accent-color: teal;
                                    --text-color: 24, 24, 24;
                                    --foreground-color: 255, 255, 255;
                                    --error-color: #E53935;
                                }

                                header {
                                    font-family: 'Playfair Display', serif;
                                    font-weight: 900;
                                    text-align: center;
                                    font-size: 4rem;
                                    text-transform: uppercase;
                                    padding: 1rem 0;
                                    letter-spacing: 6;
                                }

                                p {
                                    margin: 1.2rem 0;
                                    overflow-wrap: break-word;
                                    word-wrap: break-word;
                                }

                                p:not(:first-of-type)::first-letter {
                                    margin-left: 4rem;
                                }

                                #homepage {
                                    display: grid;
                                }

                                .content {
                                    display: grid;
                                    max-width: calc(100% - 2.4rem);
                                }

                                .head {
                                    display: flex;
                                    flex-direction: column;
                                    text-align: center;
                                    justify-content: center;
                                    position: relative;
                                    margin-bottom: 1rem;

                                }

                                .subhead {
                                    display: flex;
                                    flex-direction: column;
                                    align-items: center;
                                    text-transform: uppercase;
                                    padding: 0.6rem 0;
                                }

                                .subhead::after {
                                    content: '';
                                    position: absolute;
                                    bottom: 0;
                                    width: 10%;
                                    height: 0.1rem;
                                    background: #2f2f2f;
                                }

                                .columns {
                                    padding-top: 2rem;
                                    display: grid;
                                    width: calc(100% - 3rem);
                                    grid-template-columns: repeat(auto-fit, minmax(26rem, 1fr));
                                }

                                .column {
                                    font-size: 1.2rem;
                                    line-height: 1.8;
                                    display: flex;
                                    flex-direction: column;
                                    padding: 0 1.5rem;
                                    width: calc(100% - 3rem);
                                }

                                .column .headline {
                                    text-align: center;
                                    line-height: normal;
                                    font-family: 'lora', serif;
                                    display: flex;
                                }

                                .column .headline.hl1 {
                                    font-weight: 700;
                                    font-size: 30px;
                                    text-transform: uppercase;
                                    padding: 0.8rem 0;

                                }

                                .column .headline.hl2 {
                                    font-weight: 400;
                                    font-size: 24px;
                                    padding: 0.8rem 0;
                                }

                                .column .headline.hl2:before {
                                    border-top: 1px solid #2f2f2f;
                                    content: '';
                                    width: 100px;
                                    height: 7px;
                                    display: flex;
                                    margin: 0 auto;
                                }

                                .column .headline.hl2:after {
                                    border-bottom: 1px solid #2f2f2f;
                                    content: '';
                                    width: 100px;
                                    height: 13px;
                                    display: flex;
                                    margin: 0 auto;

                                }

                                .column .headline.hl3 {
                                    font-weight: 400;
                                    font-size: 36px;
                                    padding: 0.8rem 0;
                                    font-style: italic;
                                    font-family: 'Playfair Display', serif;
                                }

                                .column .headline.hl4 {
                                    font-weight: 500;
                                    font-size: 0.9rem;
                                    padding: 0.8rem 0;
                                }

                                .column .headline.hl4:before {
                                    border-top: 1px solid #2f2f2f;
                                    content: '';
                                    width: 100px;
                                    height: 7px;
                                    display: flex;
                                    margin: 0 auto;
                                }

                                .column .headline.hl4:after {
                                    border-bottom: 1px solid #2f2f2f;
                                    content: '';
                                    width: 100px;
                                    height: 10px;
                                    display: flex;
                                    margin: 0 auto;

                                }

                                .topnav {
                                    overflow: hidden;
                                    display: flex;
                                    justify-content: space-between;
                                    align-items: center;
                                }

                                /* Style the links inside the navigation bar */
                                .topnav a {
                                    float: left;
                                    text-align: center;
                                    padding: 14px 16px;
                                    text-decoration: none;
                                    font-size: 17px;
                                }

                                .topnav a img {
                                    width: 14rem;
                                }

                                /*________________________________________________________________________________________________________________________________*/
                                /*MEDIAQUERIES*/

                                @media all and (max-width: 640px) {
                                    header {
                                        font-size: 2.5rem;
                                    }

                                    .topnav a img {
                                        width: 4rem;
                                    }
                                }

                                @media all and (min-width: 640px) {
                                    #bodydiv {
                                        margin: 0 12vw;
                                    }

                                    .columns {
                                        margin: 0 2vw;
                                    }
                                }

                                @media all and (min-width: 1280px) {
                                    #bodydiv {
                                        margin: 0 20vw;
                                    }

                                    .columns {
                                        margin: 0 2vw;
                                    }
                                }

                                @media all and (min-width: 1920px) {
                                    #bodydiv {
                                        margin: 0 32vw;
                                    }

                                    .columns {
                                        margin: 0 4vw;
                                    }
                                }
                            </style>
                        </head>
                        <body translate="no" onload="onLoadStartUp()">

                            <sm-notifications id="sm-notifications"></sm-notifications>

                            <nav class="topnav">
                                <a id='ranchimalltimes-logo' style="cursor:pointer">
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                                            <header id='title' data-articleName='What does the Indian Economy need right now?' data-exportTime='1614789755412' data-randomNumber='0.45754771070633815'>What does the Indian Economy need right now?</header>
                                        </div>
                                        <div class="subhead" id='subtitle'>Exported by RanchiMall Content Collaboration on FLO Blockchain</div>
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                                    <div class="content" id='sectionmaster'><div class="columns">
                            <div class="column" id='section1'><div class="head"><span class="headline hl3">Healthcare</span></div><p>The Indian Economy is distinguished as an expanding market economy. According to the Nominal GDP, India comes under the sixth-largest economy and the third-largest according to Purchasing Power Parity (PPP).

However, India is facing multiple terrible crises, presently including the COVID-19 pandemic which has resulted in economic crises followed by problems in healthcare, infrastructure, and many more

                Healthcare - The healthcare industry is facing great difficulties at this instant. Let’s have a glimpse of its problems and try to understand them.

                                   Problems

NEGLECT OF RURAL POPULATION - A rural district is commonly defined as large and separated districts of a county, often with a low population consistency. Before the beginning of enterprises, there was nothing like cities and villages. The immense inflow of community from villages to cities slowly changed the common belief towards the villages. Eventually, rural areas, where the business was set up, slowly became heavier in population and thus were coined the term "Urban Areas".

A serious obstacle to India's health custom is the neglect of rural gatherings. It is vastly a service based on city hospitals. Although there are a huge number of PHC's and rural hospitals, urban intolerance is obvious. According to health data, 31.5% of hospitals and 16% of hospital beds are positioned in rural areas where 75% of the total population occupies.

 

Besides, doctors are hesitant to operate in rural areas. Instead of developing a health procedure associate with paramedical to enhance the periphery.

 

The problem is very unpleasant and shocking. The very fact that villages seem less lucrative and inadequate, the ability to be the dealers of gain has kept the corporate area at a distance. And since corporate growth is absent in villages, there is no flowable currency. Rural areas have become correspondent to the abject shortage. The problem expects a holistic method. Logical use of technology fastened with really realistic strategies can only help stretch the gap between village and city.

 

 

EXPENSIVE HEALTH SOURCE - In India, health sources, especially allopathic, are quite rare. It hits hard the ordinary people. Prices of several fundamental drugs have gone up. 

The average cost of a therapy contest in a community in India is around Rs.1500. The fees are sufficient to make an individual think twice or thrice before addressing mental health assistance in the country. 'The Mint' says there is about one mental state trained per 100,000 population in India. A lot of young communities are also scared of accessing the benefits because of their increased expenditure. The embarrassment of mental health enhances more to the crisis since a lot of managers do not want to 'feed the need' to invest their children with the mental health benefits that they might assign. Also, mental health crises are a part of every category of society. But despite that, lesser earning people do not have a choice to opt-out for mental health maintenance even when they compel the most.

 

SHORTAGE OF MEDICAL PERSONNEL - In India, a shortage of medical personnel such as doctors, nurses, etc. is a vital problem in the health area. In 1999-2000, while there were only 5.5 doctors per 10,000 civilizations in India, the exact is 25 in the USA and 20 in China. Likewise, the volume of hospitals and dispensaries is inadequate in comparison to our huge community.

 

A 2016 study assigned by the World Health Organization found that the " lack of trained fitness specialists was the main limitation on our capacity to achieve health delivery."

 

There is a health procedures crisis, said global health and bioethics researcher Anant Bhan. With the much-touted national health purpose too, human reserves have been avoided.

 

LACK OF MEDICAL RESEARCH - Medical Research in the nation needs to be concentrated on drugs and vaccines for low diseases which are commonly overlooked by International Pharmaceutical Companies on account of their insufficient profitability conceivable. The National Health Policy (NHP) 2002 recommends distributing more budgets to improve medical research in this distribution.

 

Presently, the state of medical research in India is deep. There is a hidden issue observing the command over English as a language. We all know that the ability to speak and write in good English is no barrier to the incredible clinical and surgical abilities of Indian doctors across all professions. It is not a requirement for practising good medicines. Though, the International language for research is severe English. It is the de-facto criterion of transmission in the administered medical literature. Therefore, the incapability to communicate in proper English due to the weak power of the language creates an extra difficulty whether it is similar to writing for commissions, conveying with investigators abroad, or clearly in composing an edition using the correct language.

 

INADEQUATE INFRASTRUCTURE - Many problems need to be recognized in different infrastructural areas. To start with the gap between electricity output and pressure is impacting both manufacturing and overall development. Another problem is the transport area, while the road carrier is the resolution of the Indian transport infrastructure, it is insufficient in terms of integrity, amount, and connectivity. Also, civil flying and landings desperately need modernization. It is predicted that the public area will continue to play a significant part in the manufacturing transport infrastructure. However, the substitutes wanted are much larger than what the public region can contribute.

 

According to the National Health Policy 2002, the government donation to the health area composes only 0.9% of the GDP. This is quite inadequate. In India, public maintenance of health is 17.3% of the total health maintenance. While in India, the exact is 24.9% and in Sri Lanka and the USA, the exact is 45.4 and 44.4 respectively. This is the major problem of low health criteria in the country.

 

 

                                                                                  Solutions

 

MORE HOSPITALS IN RURAL AREAS - This problem can only be solved by an adequate number of hospitals in rural areas. As we know, we do not have the proper infrastructure of hospitals and clinics in villages where almost 75% of the Indian population. We cannot possibly dream of having top health quality in our country when 75% of the population in our country is vulnerable and not provided with good hospitals.

 

We can improve healthcare in rural areas by organizing operations with transportation benefits such as taxis, hiring with bus services. Apart from this, it can also be improved by working with constituency supporters such as nursing homes when performing community needs analyses. Also, it can be proved by leveraging paramedics and other organization health employees.

 

LOWERING THE COST OF TREATMENT - The expensive health source problem can be solved by lowering the cost of treatment in hospitals. As this is a well-known fact, not many people in our country are good enough to be able to pay the amount of money that a big hospital asks for.

Therefore, we can introduce new schemes for destitute and poverty-stricken people to make it easier for them. The expensive health source problem can be solved by giving clients and health care clients more power, reducing the number of medical tests for sufferers, improving pursuits among health care providers.

 

A LARGE NUMBER OF RECRUITMENTS OF MEDICAL PERSONNEL - This can be solved by recruiting more health personnel. This is because we just have 10 doctors in every 1000 people in our country.

 

With a size of over 1 billion population, this much is never going to be enough. So, if more health personnel are hired, the load on the existing personnel will be reduced, and hence, they would be offered better treatment.

 

MORE INVESTMENT IN CAPITAL FOR MEDICAL RESEARCH - This can be solved by using more capital in the research done for medical treatments. This can benefit from making India more independent and could also be very cost-effective for many diseases that have been cured now.

 

Medical research also provides an opportunity for a young person to be better at their job and hence would always improve the quality of treatment.

 

HUGE SPENDING IN IMPROVING THE POOR INFRASTRUCTURE OF GOVERNMENT HOSPITALS - The infrastructure of our government hospitals is below average. We can improve this by huge spending to improve their infrastructure because government hospitals are very affordable and for a country like India it's important to strengthen it.

 

Poor infrastructure of hospitals also means less maintenance and cleanliness of that government hospitals. Hence, they are more captive to diseases.</p></div></div><div class="columns">
                            <div class="column" id='section2'><div class="head"><span class="headline hl3">Infrastructure</span></div><p>Infrastructure has a direct impact on the growth and overall development of a country.  India is the fourth largest economy but the biggest hindrance to growth and development is the lack of world-class Infrastructures. Lack of proper infrastructure tools down India's GDP growth by 1 to 2% every year.

 

                                  Problems

IRRIGATION - Despite having a large-scale investment for irrigation facilities, it is a matter of serious concern that about 60% of the total cultivated area is still dependent on rain. There are delays in the completion of irrigation projects. The development of water resources is planned by the State individually according to their requirements. All major rivers are interstate so the storage and use of water arise state rivalries over water supply. They have been a steady decline in the water table in recent years in several parts of the country, especially in the western dry regions due to the exploitation of groundwater and insufficient storage of rainwater.

ELECTRICITY - Electricity is a very important form of energy used in home, office, industry for enhancing production. Electric power transmission losses reflect technical inefficiency. While the distribution of electricity in the form of unauthorized use and over-usage is frequently reported. The financial loss per year due to theft of electricity is about 16 billion dollars. The gap between the production of electricity and its demand. There are 0.6 million households that don't have access to electricity. The production of India's electricity infrastructure is seen to be one of the weakest. It fares badly not only in comparison to the developed countries but also in comparison to emerging countries.

TRANSPORTATION - Transportation is considered the backbone of a country. The quality and connectivity of Indians transportation are inadequate. India's performance regarding Railways and road transportation looks better than air transportation and seaports. The road dynasty of India is relatively better than other countries but the quality of Indian roads looks relatively inferior. Most of the national highways are less than two lanes so the roads are conducted. The quality of transportation affects the GDP of the country as in export and supply chain transportation ads cost. Constructions are going on in the country but the pace is low.

SANITATION - Sanitation is considered the first impression of a country. Poor sanitation links to the transmission of diseases such as Cholera, diarrhoea, hepatitis. Sanitation reduces human well-being and socio-economic development. One of the basic reasons is contaminated groundwater children pick up the various infections that impair their body and ability to absorb nutrition. Less than 50% of the population has access to sadly managed drinking water in the country. There is no proper disposal system for waste generated. The growth rate of India in sanitation over the last few years has been inspiring. The various schemes like Swachh Bharat mission, customer financing scheme led by MFIs and banks, and innovation and incubation across the private sector and academic Institution.

PUBLIC SUPPORT - Public support plays an important role in the growth of a country. Common people should work and support hand-in-hand with the government. It is often seen in India that people are not supportive of the government in the infrastructure construction plans. In rural India, people object to construction work like dams, roads, poles for electricity, etc. As they do not want to give up their land and property for construction. Moreover, not all Indian customers are willing to pay for the usage of roads and water. This becomes a huge obstacle for further development.

 

                                 SOLUTIONS

MUTUAL AGREEMENT AMONG STATES - During the planning, the government should invest in such a way that the aim of agriculture irrigation can be fulfilled. Irrigation Canal should be linked to the flowing river. The canal linked to the interstate river should be mutually planned among the states. About 89% of total water is consumed in agriculture so the modern method should be promoted to save water which can be used in irrigation. Like sprinkle and drip methods should be promoted for irrigation.

PRIVATE AND PUBLIC SECTORS WORKING TOGETHER - The government sector can play a role in the development of electricity but it doesn't have to play the central role. Electricity can be handled mutually by the private and government sectors to reform the state electricity boards (SEBs) than has been attempted so far. More power plants should be set up to meet the high electricity demand. And aged machines should be replaced with the latest technology to avoid wastage of energy due to frequent breakdown. As renewables are a larger share of power generation, the transmission grid will need to be updated appropriately.

INCREASE PACE IN CONSTRUCTION - A modern nation is built upon a smart and efficient transportation system the government is already working on an Rs.10 lakh crore National transport master plan which aims to provide shameless movement for passengers across on multi Modes of transport. To reduce the travel time in railways with the safety of passengers requires an up-gradation of railway tracks, engine, coaches, and improved capacity utilization. Establish an independent regulator that has the power to fix fares and goods tariff rates as well as fair access regulation, licensing, and technical standards.  The construction work for roads should be faster than today's pace. And the government should impose reasonable tariffs upon airlines and waterways.

WASTE MANAGEMENT - Sustainable environmentally friendly toilet technologies should be used. People should be made aware of the importance of hygiene. Every household should be provided with clean drinking water. And strict action should be taken against people who violate cleanliness. Solutions for a proper drainage system is needed for the hour. A long-term waste management solution is required to minimize the spread of disease.

 

GENERATING EMPLOYMENT OPPORTUNITIES - No Country can succeed until people work hand in hand with the government. The lack of support for the government is a major problem for the country, to reduce this the government should provide employment opportunities while construction work in rural areas. Switching government expenditure from current expenditure, on such things as wages and salaries. Raising revenues by removing the many exemptions and distortions in the current GST structure. There should be transparency in every deal of construction for infrastructure. This will help with picking up the trust of the general population. More subsidies should be provided to the lower-income group on water and electricity.</p></div></div><div class="columns">
                            <div class="column" id='section3'><div class="head"><span class="headline hl3">Welfare Reforms</span></div><p>Social programmes and welfare investments of the Central Government are an abundant portion of the official budget. Both the state and local governments perform vital roles in developing and executing social security policies. However, some welfare measures are distinctly operated by state governments. Each government uses Aadhar Card (which has a unique identification number which every Indian has its own) to distribute welfare measures in India. According to the Directive Principle of State Policy, engraved in Part IV of the Indian Constitution, India is a welfare state. Scheduled Caste and Scheduled Tribes are given special preferences in government jobs, educational systems, and also in Upper and Lower House (Lok Sabha and Rajya Sabha). The Federal government has passed numerous welfare programmes like the Employees' Provident Fund Organization, National Health Insurances, Atal Pension Yojana, Free School Meals (Midday Meals), Pradhan Mantri Gramin Awaas Yojana, Pradhan Mantri Matri Vandana Yojana, Integrated Child Development Services, National Rural Employment Guarantee Scheme, National Social Assistance Scheme, Accident Assurance Scheme, etc.
 
                                                                                  Problems
Welfare Reforms are intended to improve the general prosperity of the citizens particularly poor people and the marginalized. Each new system accompanies new welfare plans or with the repackaging of old plans. The administration has been taking different measures yet they have neglected to give solid outcomes because of different reasons. Despite quick financial development in the last two decades with much success in the manufacturing and service areas, the nation keeps on being largely agrarian. Plans for social protection have been able to meet the expectation of the individuals, and in many cases have drastically underperformed. 270 million individuals in India live below the poverty line. Many youngsters have low access to proper and feasible education, families live without essential medical care, the older struggle without annuities, and the jobless face an uncertain future. The pandemic situation makes it even worse. Although various government schemes address these issues, a significant number of them have ended up underachieving their objectives and have proved to be ineffective. Let’s try to understand these problems extensively.


FLAWED GRASS-ROOT LEVEL INSTITUTIONS - Various Anganwadi Centers (ACWs) in different parts of India operate without proper functioning. Many observations on the ACWs have been carried out. The observations came under three categories, manpower resource, material resource, and functional aspects. There is inadequate staff, half of them are educated while most of them are uneducated. The buildings of the AWCs are not maintained properly. The facilities of water, toilet, and electricity are non-existent. Indoor air pollution poses a serious threat to one's health.
 
EXTREME POVERTY - Poverty is a major drawback in India. The growing population in India is 10% with the major population living in abject poverty. More than 800 million people are considered below the poverty line in India. The "lack of employment" is a major reason for the condition of extreme poverty. Half of the people prefer the slum areas because of the high livable wage that they cannot afford in the metropolitan cities. The poor hygiene conditions in these areas lead to several diseases.
 
TOO MANY YET TOO INEFFECTIVE - India’s social protection or ‘welfare’ schemes are plenty yet too inefficient. States are unable to realize such a high number of centrally sponsored schemes. The reason being the lack of resources to implement them on such a large scale. Each of these schemes requires detailed planning and thorough research regarding the ground report of the citizen or a particular section of citizens who require these schemes. It is important to understand the demographic nature of a state before offering them the utilities. A crowded number of schemes hinders the government from focusing on quality and efficient delivery of the amenities to the right people, leading to the ‘Problem of Eligibility’. It means people who should not be getting a benefit get it (inclusion errors), while those who should be getting it don’t get it (exclusion errors). India doesn't need new schemes instead, it requires strengthening and stabilization among competing welfare strategies. Making this right will need vital investments and research in state capacity, which it lacks at this instant.
ELIGIBILITY ISSUE
In a nation of 1.3 billion individuals, many of whom are poor, it is a test to distinguish who is qualified for which advantage. For example, with the lockdown and Covid-19, since enormous numbers of individuals have unexpectedly gotten jobless, the pay levels of people and families have dropped, and a lot more have gotten qualified for benefits. Many have additionally moved from metropolitan to rustic regions, making qualification criteria much more troublesome. This implies the legislature will be unable to precisely distinguish if an individual is qualified for a provincial plan or a metropolitan one, or is qualified by any stretch of the imagination. Regularly, the individuals who ought not to be getting an advantage get it. These are incorporation blunders. While the individuals who ought to get it don't get it. These are prohibition mistakes. Different services that offer such plans have their information bases. Be that as it may, there is neither a central information base nor an instrument for information bases to converse with one another to comprehend who is getting what.
 
CASH TRANSFER DILEMMA - There is no consensus among politicians and activists on whether cash transfers can effectively replace schemes such as the public distribution system, which distributes food rations. The government was running an experimental project in three Union Territories to distribute cash instead of subsidized food grains, a third of beneficiaries surveyed said they either had not got any money at all (with or without proof) or was not aware if they had received it. However, the government insists that 99% of the cash transfers were successful. The Abdul Latif Jameel Poverty Action Lab’s researchers were responsible for these findings, which were approved by the government policy Niti Aayog to assess the pilot project.
The project was firstly launched in the Union Territories of Chandigarh and Puducherry in September 2015, and later in Dadra and Nagar Haveli in March 2016. After that, the government has been transferring cash into the bank accounts of beneficiaries rather than giving them food grains by ration shops. These cash transfers are also known as Direct Benefit Transfers (DBT). The study reported that two-thirds of the beneficiaries choose cash transfers over food grains through ration shops, as now they can buy higher-grade quality food grains. However, it was not able to evaluate if the overall food consumption by these households had sunk since the price of food grains is more expensive in the marketplace compared to subsidized ration shops.
 
CRIPPLING CORRUPTION - Greed and Corruption are amongst the greatest reasons for the failure of welfare plans. The funds are designated, and the states need to request for these funds, which is subject to the numbers of beneficiaries who are tallied during the BPL (Below Poverty Line) surveys. These BPL records are rarely finished because the whole cycle is hectic and time-consuming. This leads to incorrect information. Corruption makes huge obstructions for poorer sections to avail benefits. This has created an environment where individuals are led to believe that to avail of government benefits, money has to be spent. For example, the cut money scandal that came into the limelight in West Bengal where the ruling party member must be paid to get government benefits.
 
CENTRALISATION VS DECENTRALISATION - The prime lapse in India’s financial federal design is fiscal centralization. It is arguably critical for poorer states like Bihar or Madhya Pradesh and has served richer states to more development. High-income states like Kerala can invent and execute their schemes and can considerably leverage fiscal decentralisation to their maximum benefits. However, low-income states are not well-equipped with proper facilitation and expert researchers to undertake such projects by themselves. They need CSS with their centralized design and implementation structure, solely due to their limitations in planning capabilities. The primary challenge for fiscal federalism in India arises from India’s thriving regional disparities between states in terms of various aspects like literacy, infrastructure, and more. Governance capability is the primary reason behind these expanding disparities The States have criticized fiscal centralisation for a long time. Since 1969, the National Development Council has had discussions with the Fourteenth Finance Commission in 2013. State governments objected vigorously against the centralised nature of the CSS, the Chief Ministers especially disliked asking Planning Commission approval for state plans every time. There were several negative consequences, as articulated by state governments, of the proliferation of CSSs and urged a reduction in their quantity and more elevated elasticity in their design structure.
 
GOVERNMENT'S STRUGGLE IN INTRODUCING WELL-DESIGNED SCHEMES - While the government copes to discover the resources to propose better-designed schemes without having to end the earlier ones, closing off existing schemes will create political discontent. Some of these schemes include subsidies that deteriorate the allocation of resources. For instance, subsidies for water and electricity arguably cause environmental harm and supply-side difficulties (depleting water table level and power blackouts). Besides, they mostly benefit the higher income classes more than they do the poor – as the poor consume less of the relevant goods or services compared to the upper-income classes. Also, power subsidies favour those who have access to electricity and it’s a fact that the rich possess more electrical appliances or equipment, therefore getting most of the benefits of the subsidies. The poor have considerably little to minimum electrical consumption. There is also a primary problem that subsidies or in-kind transfers inhabit- they do not leave the decision to the recipients as to what their specific needs are.
 
 
PUBLIC’S ROLE IN ACTION - Many individuals are not even mindful of different plans due to which they can't use the advantages of the schemes. Further ignorance is one of the fundamental explanations behind this. For example, in the midday meal scheme, numerous students go to class just for having meals, uniform dresses, and so on however they don't attend the classes. To accuse the Government alone is unjustifiable. An information drought happens despite the administration's earnest attempts in creating awareness through radio, TV, print, or online media. Unfortunately, these communication efforts regularly don't reach rural regions. For instance, in Uttar Pradesh, perhaps the least fortunate state, somewhere in the range of 2013 and 2017, there was more than $1.3 billion in unspent assets for minority government assistance plans. In Karnataka, even though $735 million was gathered to be utilized as government assistance plans for labourers, just 2.44 percent was utilized because of an absence of consciousness of such projects. The story is more or less the same across other Indian states. Even though there are government plans accessible, the information deficit is extreme.
 
                                                                                Solutions
 
OPTIMIZATION OF THE SCHEMES - The government should strive to reduce the number of schemes drastically to a manageable figure, all of which are aimed at the most critical risks. However, discarding any particular scheme, despite being ineffective, will harm some vulnerable groups. Therefore, there has to be a concrete plan for coverage for sufferers in the process of reforming the social protection system, along the lines of the direct benefits transfer (DBT). Any welfare reform that ends a particular social protection scheme should be followed by an endeavour to directly compensate the ‘losers' from the policy change.


A COMMON SOCIAL REGISTRY - Building a common social registry could be the answer to this eligibility problem. This registry can provide a door for potential inclusion of qualified people particularly if numerous social projects utilize one basic registry. However, the task of making a common social registry is tedious as the experience of nations, for example, Turkey and the Philippines show. Yet, it is not impossible. The central, state governments, just as well as regional administration already have multiple databases. The first step would be to go over these information bases and discover approaches to combine it with huge data sets, for example, the Public Distribution System (PDS) and Mahatma Gandhi National Rural Employment Guarantee Scheme (MGNREGS).
 
OPTING FOR A CHOICE-BASED APPROACH - We should be centring on beneficiary preferences and taking a choice-based approach. For instance, in the context of food distribution through the PDS, we should propose giving beneficiaries the choice of opting for a cash transfer, instead of policymakers deciding between the form of a transfer (e.g., PDS and DBT). For instance, cash transfers run favourably if there are good banking services accessible including markets, which is not the case for outlying rural areas. However, with the introduction of mobile banking and the PDS being digitized with e-PoS machines, facilitating the portability of benefits, the choice-based approach then sounds like a feasible option. Eventually, this would also put pressure on PDS owners to halt the diversion of their stock to the open market and to maintain quality checks of the rations they supply to the public.


FOCUS ON CITIZEN’S CHOICE & EVALUATION OF PLANS - Regular monitoring for each plan at each level should be done on ordinary premises and corrupt ones should be taken care of with an iron hand. Schemes can make more success if they are planned, keeping in mind all prerequisites of the country. The Government should focus on permitting families to decide for themselves whether they need their food ration in cash or kind. Better adaptability in financial and administrative parts, incorporation of local overviews, demographic demands, political, administrative, and local bodies agreement can make schemes more productive. Cash transfers reduce managerial costs, corruption, and various distortions associated with in-kind exchanges. Generally, cash transfers to the poor don't make them work less or spend their money on inessential utilization, which is the usual concern that is raised about cash transfers.
 
CREATION OF INSTITUTIONAL SPACE FOR CENTRE-STATE DELIBERATION - The centre is required to reorient itself as a “micromanager” of schemes and programs to perform a far prominent strategic role. By developing national policy structures and rendering technical potential to States to equip and empower them to plan, design, and implement social policy programs. The creation of institutional spaces for centre-state deliberations will assist in balancing these tensions and re-shaping the role of the centre. A revitalized Inter-state council (ISC) tasked particularly with designing a deliberative space for centre-state dialogues on welfare policy and settling the strains that have come to mould centre-state fiscal relations. The 14th Finance Commission had prescribed the formulation of such a body.
 
AN AUTOMATION INDEXATION TO INFLATION - We are restraining ourselves mainly to the forms of delivery of existing welfare schemes as opposed to offering new schemes, like a fully-fledged universal basic income scheme, given the fiscal realities. However, we are not opposed to a general means-tested cash transfer scheme (as opposed to a universal or non-means-tested one) or schemes intended at particular demographic sections. A pivotal component of composing such schemes useful would be an automatic indexation to inflation to ensure that their value or utility is not corroded with time. These schemes are vital as they are aimed at the most vulnerable segments of society.
 
 
CREATING AWARENESS - The public should be made mindful of the currently running schemes in their regions as these plans are intended for them. This should be possible through papers, radio, TV advertising. The administration should allocate specific areas to the officials so that with their help individuals can be made aware and they can maximize the advantage of government assistance plans. Each individual must know his/her rights and entitlements. This lack of awareness of the government's welfare plans can be explained through productive collaboration between the legislature and private enterprise. At the state and national level, there should be a platform that gives simple, precise, and solid data about the welfare schemes, the qualification process, and the application cycle. In India, we have Common Service Centers, which give data about central and state government plans and administrations. However, the information provided by them is limited to a small number of schemes. So, there is a need for such a platform that covers all the schemes.</p></div></div><div class="columns">
                            <div class="column" id='section4'><div class="head"><span class="headline hl3">Farms and Farmers</span></div><p>Problems

 

HIGHER EMPLOYMENT, LOWER PRODUCTIVITY - India has too many people cultivating too little. Recent surveys show that more than 40 percent of India's workforce is deployed in agriculture but contributes only one-sixth of the GDP of the country. Low soil fertility, lack of use of scientific crop rotation, using low-quality seeds, using degraded pesticides and fertilizers, crop failure due to natural calamities are some of the main causes of low yield per unit of land. Low productivity leads to low profitability. It leads to a reduction in the income per labour force. Due to this, many farmers want to shift to other fields but because of a lack of employment opportunities, they are bound to continue with farming only.

 

LAND OWNERSHIP - From farm contributions to farm loan releases, the Indian Government consumes crores on farmer interest, but these efforts will be inappropriate unless they can undertake an increasingly discouraging barrier: lack of land. The temporary figures from the latest agriculture survey indicate how land, the most significant information about agriculture, is getting more fragmented. Although the privilege of farming land in India is legally widely circulated, there is some extent of concentration of land carrying. Inequality in land measurement is also due to the proof that there are systematic changes in land ownership in India. It is acknowledged that large areas of land in India are held by a reasonably small category of rich farmers, landowners, and money-lenders, while the huge majority of farmers control a very minor amount of area or no area at all.

 

Additionally, most holdings are minor and uneconomic. So, the benefits of large-scale agriculture cannot be developed and cost per division with 'uneconomic ' claims is increased, output per hectare is incomplete. As a consequence, peasants cannot generate a substantially commercial abundance. So, they are not only inadequate but are always an obligation.

 

NO IDEA OF CROP ROTATION - The products that are evolved in India are divided into two large sectors: food crops and non-food crops. While the abandoned comprise food grains, sugarcane, and liquids, the recent contains several kinds of fibres and oilseeds.

In recent years, there has arisen a fall in agricultural output mainly due to a fall in the production of non-food articles. Additionally, the rabi output has become as important as the Kharif output in the late 1990s. In 1999-2000, for instance, the total seed output of 209 mn. tones. This reflects a structural change in farming output.

 

INVOLVEMENT OF MIDDLEMEN DUE TO POOR AGRI-INFRASTRUCTURE

 

Agri-infrastructure like cold storage, warehouses, transportation facilities, etc are not developed in many parts of the country. Due to the unavailability of transportation facilities, farmers do not have access to nation-wide or even distant market places. And because of a lack of proper storage facilities, farmers are forced to sell their crops to local traders or middlemen at whatever price is offered to them.

Farmers get a too-small share of the eventual price of the produce and middlemen to gallop too much of it.

Also, India incurs a loss of around 3 lakh crores of rupees due to the absence of food processing units and modern cold storage facilities.

 

USE OF POOR-QUALITY SEEDS - Seeds are the basic information of natural material for the farmers to grow products. But there is a lack of availability of good integrity of grains in the market. And if the good quality grains are accessible, they are so costly that the poor and frontier farmers are not able to afford it. Due to this, farmers are bound to use the formal seeds, the conventional seeds which are less valuable and yield fewer productions. Most of the certified cereals trades in India are personal companies. In India, not much purpose has been made of modified categories of grains. The main grains such as rice, millets, and pulses are still evolved generally with unimproved grains.

 

PRIMITIVE TECHNOLOGY - Majority of farmers in India, especially in unsophisticated areas, use draught animals like buffaloes, bullocks, and camels for ploughing and rest agricultural operations. Also, activities like ploughing, levelling, sowing, weeding, spraying, harvesting, and threshing are mainly done by human hands. This leads to wastage of energy and manpower and reduces efficiency and becomes costlier in the long run.

 

TOO MUCH FOCUS ON CEREALS - Food demand in India is stagnant and supply is exceeding demand. So now India has surpluses in most of the food categories. Due to this, farmers do not get a fair amount for their produce. Government policies have been too focused on food grains, which are only one-fifth of the total agricultural production.

 

RISK IN PRODUCTION - The quantity and quality of goods are highly affected by various uncontrollable factors like weather, disease, pests, labour strike, price fluctuations, etc. As the agricultural output is the main source of income for the farmers, they have to bear a very high risk as its failure may take away everything. Due to the deprivation of knowledge, less than 2% of farming is only insured under crop insurance schemes.

 

AGRICULTURAL MARKETING - The Indian farmer has no awareness of marketing. He believes in evidence obtained from the businessmen and money lenders of the community. Generally, the Indian farmers are uneducated and cannot read the newspaper. Thus, they do not have adequate information about the market. One of the crucial reasons for the low revenue of Indian farmers is the problem in marketing their products. Due to the minor size and circulated nature of farming holdings, productivity per acre is poor. Therefore, the compilation of these sediments for the motive of trade presents a severe difficulty. Agricultural transaction difficulties arose due to the lack of transmissions, i.e., linking the manufacturing centres with the urban sectors which are the main centres of consumption. The complication of transmission prevents the farmer from trading his goods. So, he has to depend on the number of intermediaries for the removal of his products at reasonable prices. Also, the lack of standardization and estimating is obvious in the Indian Agricultural dealing, due to which fixing a deal in association with these stocks becomes complicated. Due to the lack of reasonable standardization and estimating the consumers have a problem in obtaining the product.

 

                                                                                             Solutions

 

ADEQUATE EMPLOYMENT, HIGHER PRODUCTIVITY - The productivity of land can be increased by using new and high-quality seeds, increasing soil fertility by the implementation of crop rotation practice, and by using good quality manure, fertilizers, and pesticides. Labour intensive techniques of agriculture should be shifted to capital intensive techniques. By using modern machines like tractors, balers, combiner, ploughs, mowers, planters, and sprayers, labour dependency can be reduced and at the same time, it saves time and cost as well in the long-run. Lesser the people, the higher the per-capita income. The farmers should also be engaged in other sources of income like horticulture, Vermiculture, Poultry farm, livestock. New employment opportunities should be generated for the surplus workforce. Their energy and enthusiasm should be tapped in a better productive way.

 

INTRODUCING REFORMS FOR EQUAL OWNERSHIP - Introducing reforms and ensuring that it is implemented properly for the poor can solve this problem. It is because, in our country, a lot of zamindars procure the lands of the poor peasants and them and they are not able to fight their cases properly. Therefore, it is a must to make sure that their agricultural lands are with them so that they can farm easily over there and increase the output of agricultural production.

 

PRACTICING THE CROP ROTATION TECHNIQUES - In our country, very few people are aware of crop rotation. Crop Rotation is a technique in which we plant different crops on the same plot for different seasons. This improves the health of the soil, optimizes nutrients in the soil, and conflicts pest and weed pressure. If our farmers start doing this, then this will yield more agricultural production and that too of high production.

 

REMOVING INTERMEDIARIES - Improving farmers’ share in revenue is nearly impossible without eliminating intermediaries. The government should open national markets for farmers. Cartel, middlemen, and monopolies must be diluted through legal interventions. Good and cheap transportation facilities should be provided to help the farmers in reaching the markets. National level storage chains should be created by the government.

 

USE OF HIGH-QUALITY SEEDS - In our country, poor farmers are not aware of the fact that seeds play a very crucial role in the output of any agricultural land. Poor quality seeds kill the crop quality a lot and hence make it less useful. But if high-quality seeds are used, it produces strong and more uniform plants. Plants grow faster and they are more resistant to distress and disease. Therefore, the end product will always be much better than a poor-quality seed.

 

IMPROVE TECHNOLOGY ACTION - Technology can be used to record, monitor, and analyse the allocation of funds released for the relief of farmers. An open, digital, and transparent platform is needed for this purpose. Direct benefits transfer, whether cash payment for insurance payment, fertilizer subsidy or minimum income guarantee, helps in piping the funds in the right hands.

 

SHIFT FOCUS FROM FOOD CROPS TO COMMERCIAL CROPS - The government should now shift its focus to commercial crops, high-value crops, crop substitution, and exports to lift farmers' incomes. The central government as well as the state government must provide financial as well as non-financial incentives to boost up the production of cash crops. Agricultural surpluses must be exported to increase farmer's income.

 

INSURANCE OF AGRICULTURAL RISKS - Farmers should take insurance for their crops under Pradhan Mantri Fasal Bima Yojana. Although the compensation paid to them is not sufficient. The government should launch a scheme that covers production as well as price risk.

Contract Farming can also be a solution. In this, the contractor and farmer come into a contract for a fixed period, in which all the input requirements are met by the contractor. He is the buyer of the entire production and is the sole risk bearer. Facilities like cold storage, food processing, etc are also provided by the contractor

 

MARKETING OF CROPS DIRECTLY TO THE COMPANIES - In our country, the intermediaries are very much responsible for the poor condition of our farmers. This is because they earn all the profits by selling the vegetables and fruits at a higher price and giving just a penny to these farmers. But if the farmers directly market their ground vegetables and fruits to the market, then they will be able to decide the price they want and not the intermediaries. This can improve the financial conditions of our farmers to a great extent.</p></div></div><div class="columns">
                            <div class="column" id='section5'><div class="head"><span class="headline hl3">Deficit and Debt</span></div><p>Problems

 

The government spends more, earns less - The expenditure of the government is more than its income. The combined fiscal deficit of the centre and the state is around 7% of the GDP, which stands as the second-highest across the emerging markets, only after Brazil. Government generates revenues from various sources like taxation, running Public Sector Undertakings (PSUs), etc. The income from taxation and PSUs are not sufficient to meet the growing expenditure. Even though the revenues are not very high, the government had to overrun its revenue to meet problems like poverty, unemployment, illiteracy, etc. The continued spending on development programmes by the government does not generate any additional income. Moreover, it increases the deficit. To finance this deficit, the government borrows money from national and international financial institutions. Higher deficits tend to increase the cost of borrowing and lower private investment.

 

States overspend and their budgeting lacks transparency - In recent years, states have overspent and consolidated huge outstanding debts. The financial budgets of states lack accountability and transparency. Recently India's central government has decided to borrow a large sum of Rs. 1 lakh crore from the bond market and pass it on to the states to compensate their losses related to the GST. Despite a significant increase in state funds, its fiscal situation is a cause of concern.

 

 

 When the deficit increases, the share of capital formation out of budget decreases - The capital increase signifies the rise in physical capital such as machinery, factories, transport equipment, bridges, dams, power projects, irrigation systems, etc., to imply the creation of real assets. Capital formation also leads to the development of human capital such as education, health, developing skills, etc. Thus, it has become a prerequisite to maintain capital formation to achieve a stable economy.

 

Government debt dynamics is unstable with large variability - Therefore, it lacks credible future predictability. It has been stipulated that the rise in the deficit will make the debt dynamics more unstable. The debt to GDP ratio being unstable and very high India faces a probable risk of sovereign default. Growing globalization has resulted in the rise of external vulnerability as a short-term component of total external debt is accelerating sharply.

 

When the deficit rises, debt increases with an added value of interest - The deficit is the amount of money borrowed by the government in a single year. The national debt is the cumulative amount of money that the government borrowed throughout the nation's history. The interest paid on this deficit is the expense of government borrowing. Significantly, it increases spending without beaming any benefits. If a deficit isn't paid, it becomes debt.

 

When the deficit increases, the government slices salaries - The increasing deficit has already affected negotiations over whether to approve additional spending. Thus, spending exceeds income and each year's deficit adds to the debt.

 

As the deficit rises, the interest rate increases - Each year interest rate increases which result in greater demand. The interest must be paid each year and it becomes difficult to raise funds as well. An increase in the budget deficit results in a large number of bonds to be sold to finance the deficit. The government is thus forced to offer high rates of interest.

 

                                                                                                                      Solutions

 

The government should take measures to increase its income and cut down expenditures - FRBM Review Committee has recommended that the Union government fiscal deficit as well as a combined fiscal deficit of all states, should be brought down to 25 percent of GDP by 2022-23. Sticking to the path of fiscal prudence is very important for India. As the government generally spends a large part of its income in areas that do not generate an immediate return like the social sector, defence, etc, it should spend the rest of its income highly efficiently. Sufficient attention should be given to boost exports. The government should improve financial discipline and facilitate modernization in the PSUs. Private investment and managerial capabilities should also be utilized effectively to improve the performance of the PSUs.

An independent Fiscal Council should be set up to monitor the fiscal deficit, analyze, and identify the areas where spending should be increased and decreased accordingly.

 

Review the accounts - The capacity of the state government should be pushed so that they can dig into the details of finances at their level and be able to identify and curb the unnecessariness to bring fruitful results. The state government must achieve its predetermined targets at the time to earn positive revenue. Compulsory metering, up-gradation in technology, revision of period tariffs, and implementation should be taken seriously. Notably raising tariffs will lead to rising fraudulent, theft, and other malpractices which will result in aggregate commercial losses. Therefore, adequate measures should be taken by states to check such losses. State-level fiscal responsibility must be updated. State government must curb its primary expenditure to avoid their increasing dependence on borrowed funds.

 

Increase tax rates and cut government expenses - Higher tax rates help to reduce the budget deficit. It depends on the time a tax rate is increased. During a recession, an increase in tax rates will result in a significant drop in spending. During high growth, increased tax rates won't harm much spending. The certitude depends on the type of tax, chosen to increase.

 

 A research team can make a list of future contingencies - This would help India to be ready for the upcoming ambiguities. The only solution to this discernible fact is the creation of savings, effective mobilization of savings, and investment of savings. It is the savings that save us in the real life of drama as well as the economy of India. The savings are transformed into capital.

 

The government can issue bonds to borrow money - It may be convenient for countries to borrow by issuing government bonds. If a country has material imports that they need to pay for in foreign currencies, it would require foreign reserves to do so.

 

It might be controlled through money printed by the RBI - It directly depends on the taxation policy of the government and the income of individuals. Higher-income people help them to save more as compared to lower-income. In the long run, government spending must be controlled with low spending commitments and by remarkably reducing spending to sustainable levels.</p></div></div>
                                    </div>
                                </div>
                            </div>

                            <div id="settings-page" class='hide' style='margin:2rem'>
                                <h2>Settings</h2>
                                <p style='max-width:50ch; line-height: 1.7; margin-bottom:2rem'>
                                    Losing your Private Key means losing all the data &amp; money attached to your
                                    FLO ID. Private Key once lost can <strong>NEVER</strong> be recovered. Please store
                                    it safely.
                                </p>
                                <div style="display:flex; flex-direction: column; max-width: 37rem">
                                    <sm-input id='gen-floid' disabled placeholder="Blockchain ID" animate readonly
                                        style="margin-bottom: 1rem; display:flex"></sm-input>
                                    <sm-input id='gen-privateKey' disabled placeholder="Private Key" animate readonly
                                        style="margin-bottom: 1rem; display:flex">
                                    </sm-input>
                                </div>
                                <sm-button id='logout-button' style="margin-top:2rem">Logout</sm-button>
                            </div>
                            <span style="padding-left:10rem;cursor:pointer;border: black solid 2px;padding: 6px;margin-left: 10rem;" id="column${
                                i + 1
                              }_thumbs" class="fa fa-thumbs-o-up"
                             onclick="clickProcess(this)"> Upvote 
                              <!--<i class="fa fa-thumbs-o-up" aria-hidden="true" style="padding-left:1rem;cursor:pointer;"></i>-->
                              <span style="font-weight:bold;padding-left: 5px;" id="num"> </span></span>
                               <!-- <div><img src="https://cdn-icons-png.flaticon.com/512/25/25423.png" alt="" style="height: 25px;margin-left: 30%;">Upvote</div>-->
                            <br><br>
                            <script src="https://use.fontawesome.com/41cc35d596.js"></script>
                        
                            <script>
                              function clickProcess(element) {
                                let columnName =`column${col}_count`;
                                console.log(element)
                                console.log(element.classList)
                                if (myFloID1!=undefined) {
                                  if (element.classList.value  == "fa fa-thumbs-o-up")
                                   {
                                    let articlekey =articlekeey
                                    let mainObj = {
                                      floID: myFloID1,
                                      articlekey: articlekey,
                                    };
                                    console.log("mainObj")
                                   floCloudAPI.sendGeneralData(JSON.stringify(mainObj), "test")
                                      .then((result, mainObj) => {
                                        element.classList.value = "fa fa-thumbs-up";
                            
                                        if(document.getElementById('num').textContent==" "){
                                  document.getElementById('num').textContent="1";
                                  }
                                  else{
                                    num1=Number(document.getElementById('num').textContent)
                                    document.getElementById('num').textContent=num1+1;
                            
                                  }
                                      });
                                  }
                                } else {
                                  document.getElementById('notify').push("Please login to upvote",{pinned:true});
                                }
                                  }
                        
                            </script>
                        
                            <script id="onLoadStartUp">
                                  var myFloID,col,articlekeey,myPrivKey;
                                  function onLoadStartUp(){
                                    floDapps.launchStartUp().then(result => {
                                        console.log(result)
                                        console.log(`Welcome FLO_ID: ${myFloID}`)
                                        //App functions....
                                    }).catch(error => console.error(error))
                                
                                  var  b=JSON.parse(sessionStorage.getItem("z"))
                                    myFloID=(sessionStorage.getItem("m"))
                                    col=(sessionStorage.getItem("col"))
                                    console.log(col)
                                    articlekeey=(sessionStorage.getItem("articlename"))
                                    myPrivKey=sessionStorage.getItem("myprivkey");
                                    myPubKey=sessionStorage.getItem("mypubkey");
                                   document.getElementById('num').textContent=b;
                                   //console.log(b+" "+col+" "+myFloID)
                                  //sessionStorage.removeItem('z');
                                  }
                            </script>
                        <script src="./components.min.js"></script>
                        <script id="floGlobals">
                          /* Constants for FLO blockchain operations !!Make sure to add this at begining!! */
                          const floGlobals = {
                            //Required for all
                            blockchain: "FLO",
                        
                            //Required for blockchain API operators
                            apiURL: {
                              FLO: ["https://flosight.duckdns.org/", "https://livenet.flocha.in/"],
                              FLO_TEST: [
                                "https://testnet-flosight.duckdns.org/",
                                "https://testnet.flocha.in/",
                              ],
                            },
                            adminID: "F9Cs1wF7BS8fDj1gmCsuQ3kpBWRwQj7B2o",
                            sendAmt: 0.001,
                            fee: 0.0005,
                        
                            //Required for Supernode operations
                            SNStorageID: "FEzk75EGMPEQMrCuPosGiwuK162hcEu49E",
                            supernodes: {}, //each supnernode must be stored as floID : {uri:<uri>,pubKey:<publicKey>}
                        
                            //for cloud apps
                            subAdmins: [],
                            webAppURL: "ranchimalltimes-webappserver.duckdns.org",
                            application: "TestApp",
                            vectorClock: {},
                            appObjects: {},
                            generalData: {},
                            generalVC: {},
                          };
                        </script>
                        
                        <script id="init_lib">
                          //All util libraries required for Standard operations (DO NOT EDIT ANY)
                        
                          /* Reactor Event handling */
                          if (typeof reactor == "undefined" || !reactor) {
                            (function () {
                              function Event(name) {
                                this.name = name;
                                this.callbacks = [];
                              }
                        
                              Event.prototype.registerCallback = function (callback) {
                                this.callbacks.push(callback);
                              };
                        
                              function Reactor() {
                                this.events = {};
                              }
                        
                              Reactor.prototype.registerEvent = function (eventName) {
                                var event = new Event(eventName);
                                this.events[eventName] = event;
                              };
                        
                              Reactor.prototype.dispatchEvent = function (eventName, eventArgs) {
                                this.events[eventName].callbacks.forEach(function (callback) {
                                  callback(eventArgs);
                                });
                              };
                        
                              Reactor.prototype.addEventListener = function (eventName, callback) {
                                this.events[eventName].registerCallback(callback);
                              };
                        
                              window.reactor = new Reactor();
                            })();
                          }
                        
                          /* Sample Usage
                            --Creating and defining the event--
                            reactor.registerEvent('<eventName>');
                            reactor.addEventListener('<eventName>', function(someObject){
                              do something...
                            });
                            --Firing the event--
                            reactor.dispatchEvent('<eventName>',<someObject>);
                          */
                        
                          /*!
                           * Crypto-JS v2.5.4  Crypto.js
                           * http://code.google.com/p/crypto-js/
                           * Copyright (c) 2009-2013, Jeff Mott. All rights reserved.
                           * http://code.google.com/p/crypto-js/wiki/License
                           */
                          if (typeof Crypto == "undefined" || !Crypto.util) {
                            (function () {
                              var base64map =
                                "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/";
                        
                              // Global Crypto object
                              var Crypto = (window.Crypto = {});
                        
                              // Crypto utilities
                              var util = (Crypto.util = {
                                // Bit-wise rotate left
                                rotl: function (n, b) {
                                  return (n << b) | (n >>> (32 - b));
                                },
                        
                                // Bit-wise rotate right
                                rotr: function (n, b) {
                                  return (n << (32 - b)) | (n >>> b);
                                },
                        
                                // Swap big-endian to little-endian and vice versa
                                endian: function (n) {
                                  // If number given, swap endian
                                  if (n.constructor == Number) {
                                    return (
                                      (util.rotl(n, 8) & 0x00ff00ff) | (util.rotl(n, 24) & 0xff00ff00)
                                    );
                                  }
                        
                                  // Else, assume array and swap all items
                                  for (var i = 0; i < n.length; i++) n[i] = util.endian(n[i]);
                                  return n;
                                },
                        
                                // Generate an array of any length of random bytes
                                randomBytes: function (n) {
                                  for (var bytes = []; n > 0; n--)
                                    bytes.push(Math.floor(Math.random() * 256));
                                  return bytes;
                                },
                        
                                // Convert a byte array to big-endian 32-bit words
                                bytesToWords: function (bytes) {
                                  for (var words = [], i = 0, b = 0; i < bytes.length; i++, b += 8)
                                    words[b >>> 5] |= (bytes[i] & 0xff) << (24 - (b % 32));
                                  return words;
                                },
                        
                                // Convert big-endian 32-bit words to a byte array
                                wordsToBytes: function (words) {
                                  for (var bytes = [], b = 0; b < words.length * 32; b += 8)
                                    bytes.push((words[b >>> 5] >>> (24 - (b % 32))) & 0xff);
                                  return bytes;
                                },
                        
                                // Convert a byte array to a hex string
                                bytesToHex: function (bytes) {
                                  for (var hex = [], i = 0; i < bytes.length; i++) {
                                    hex.push((bytes[i] >>> 4).toString(16));
                                    hex.push((bytes[i] & 0xf).toString(16));
                                  }
                                  return hex.join("");
                                },
                        
                                // Convert a hex string to a byte array
                                hexToBytes: function (hex) {
                                  for (var bytes = [], c = 0; c < hex.length; c += 2)
                                    bytes.push(parseInt(hex.substr(c, 2), 16));
                                  return bytes;
                                },
                        
                                // Convert a byte array to a base-64 string
                                bytesToBase64: function (bytes) {
                                  for (var base64 = [], i = 0; i < bytes.length; i += 3) {
                                    var triplet =
                                      (bytes[i] << 16) | (bytes[i + 1] << 8) | bytes[i + 2];
                                    for (var j = 0; j < 4; j++) {
                                      if (i * 8 + j * 6 <= bytes.length * 8)
                                        base64.push(
                                          base64map.charAt((triplet >>> (6 * (3 - j))) & 0x3f)
                                        );
                                      else base64.push("=");
                                    }
                                  }
                        
                                  return base64.join("");
                                },
                        
                                // Convert a base-64 string to a byte array
                                base64ToBytes: function (base64) {
                                  // Remove non-base-64 characters
                                  base64 = base64.replace(/[^A-Z0-9+\/]/gi, "");
                        
                                  for (
                                    var bytes = [], i = 0, imod4 = 0;
                                    i < base64.length;
                                    imod4 = ++i % 4
                                  ) {
                                    if (imod4 == 0) continue;
                                    bytes.push(
                                      ((base64map.indexOf(base64.charAt(i - 1)) &
                                        (Math.pow(2, -2 * imod4 + 8) - 1)) <<
                                        (imod4 * 2)) |
                                        (base64map.indexOf(base64.charAt(i)) >>> (6 - imod4 * 2))
                                    );
                                  }
                        
                                  return bytes;
                                },
                              });
                        
                              // Crypto character encodings
                              var charenc = (Crypto.charenc = {});
                        
                              // UTF-8 encoding
                              var UTF8 = (charenc.UTF8 = {
                                // Convert a string to a byte array
                                stringToBytes: function (str) {
                                  return Binary.stringToBytes(unescape(encodeURIComponent(str)));
                                },
                        
                                // Convert a byte array to a string
                                bytesToString: function (bytes) {
                                  return decodeURIComponent(escape(Binary.bytesToString(bytes)));
                                },
                              });
                        
                              // Binary encoding
                              var Binary = (charenc.Binary = {
                                // Convert a string to a byte array
                                stringToBytes: function (str) {
                                  for (var bytes = [], i = 0; i < str.length; i++)
                                    bytes.push(str.charCodeAt(i) & 0xff);
                                  return bytes;
                                },
                        
                                // Convert a byte array to a string
                                bytesToString: function (bytes) {
                                  for (var str = [], i = 0; i < bytes.length; i++)
                                    str.push(String.fromCharCode(bytes[i]));
                                  return str.join("");
                                },
                              });
                            })();
                          }
                        
                          //Adding SHA1 to fix basic PKBDF2
                          /*
                           * Crypto-JS v2.5.4
                           * http://code.google.com/p/crypto-js/
                           * (c) 2009-2012 by Jeff Mott. All rights reserved.
                           * http://code.google.com/p/crypto-js/wiki/License
                           */
                          (function () {
                            // Shortcuts
                            var C = Crypto,
                              util = C.util,
                              charenc = C.charenc,
                              UTF8 = charenc.UTF8,
                              Binary = charenc.Binary;
                        
                            // Public API
                            var SHA1 = (C.SHA1 = function (message, options) {
                              var digestbytes = util.wordsToBytes(SHA1._sha1(message));
                              return options && options.asBytes
                                ? digestbytes
                                : options && options.asString
                                ? Binary.bytesToString(digestbytes)
                                : util.bytesToHex(digestbytes);
                            });
                        
                            // The core
                            SHA1._sha1 = function (message) {
                              // Convert to byte array
                              if (message.constructor == String)
                                message = UTF8.stringToBytes(message);
                              /* else, assume byte array already */
                        
                              var m = util.bytesToWords(message),
                                l = message.length * 8,
                                w = [],
                                H0 = 1732584193,
                                H1 = -271733879,
                                H2 = -1732584194,
                                H3 = 271733878,
                                H4 = -1009589776;
                        
                              // Padding
                              m[l >> 5] |= 0x80 << (24 - (l % 32));
                              m[(((l + 64) >>> 9) << 4) + 15] = l;
                        
                              for (var i = 0; i < m.length; i += 16) {
                                var a = H0,
                                  b = H1,
                                  c = H2,
                                  d = H3,
                                  e = H4;
                        
                                for (var j = 0; j < 80; j++) {
                                  if (j < 16) w[j] = m[i + j];
                                  else {
                                    var n = w[j - 3] ^ w[j - 8] ^ w[j - 14] ^ w[j - 16];
                                    w[j] = (n << 1) | (n >>> 31);
                                  }
                        
                                  var t =
                                    ((H0 << 5) | (H0 >>> 27)) +
                                    H4 +
                                    (w[j] >>> 0) +
                                    (j < 20
                                      ? ((H1 & H2) | (~H1 & H3)) + 1518500249
                                      : j < 40
                                      ? (H1 ^ H2 ^ H3) + 1859775393
                                      : j < 60
                                      ? ((H1 & H2) | (H1 & H3) | (H2 & H3)) - 1894007588
                                      : (H1 ^ H2 ^ H3) - 899497514);
                        
                                  H4 = H3;
                                  H3 = H2;
                                  H2 = (H1 << 30) | (H1 >>> 2);
                                  H1 = H0;
                                  H0 = t;
                                }
                        
                                H0 += a;
                                H1 += b;
                                H2 += c;
                                H3 += d;
                                H4 += e;
                              }
                        
                              return [H0, H1, H2, H3, H4];
                            };
                        
                            // Package private blocksize
                            SHA1._blocksize = 16;
                        
                            SHA1._digestsize = 20;
                          })();
                        
                          //Added to make PKBDF2 work
                          /*
                           * Crypto-JS v2.5.4
                           * http://code.google.com/p/crypto-js/
                           * (c) 2009-2012 by Jeff Mott. All rights reserved.
                           * http://code.google.com/p/crypto-js/wiki/License
                           */
                          (function () {
                            // Shortcuts
                            var C = Crypto,
                              util = C.util,
                              charenc = C.charenc,
                              UTF8 = charenc.UTF8,
                              Binary = charenc.Binary;
                        
                            C.HMAC = function (hasher, message, key, options) {
                              // Convert to byte arrays
                              if (message.constructor == String)
                                message = UTF8.stringToBytes(message);
                              if (key.constructor == String) key = UTF8.stringToBytes(key);
                              /* else, assume byte arrays already */
                        
                              // Allow arbitrary length keys
                              if (key.length > hasher._blocksize * 4)
                                key = hasher(key, {
                                  asBytes: true,
                                });
                        
                              // XOR keys with pad constants
                              var okey = key.slice(0),
                                ikey = key.slice(0);
                              for (var i = 0; i < hasher._blocksize * 4; i++) {
                                okey[i] ^= 0x5c;
                                ikey[i] ^= 0x36;
                              }
                        
                              var hmacbytes = hasher(
                                okey.concat(
                                  hasher(ikey.concat(message), {
                                    asBytes: true,
                                  })
                                ),
                                {
                                  asBytes: true,
                                }
                              );
                        
                              return options && options.asBytes
                                ? hmacbytes
                                : options && options.asString
                                ? Binary.bytesToString(hmacbytes)
                                : util.bytesToHex(hmacbytes);
                            };
                          })();
                        
                          //crypto-sha256-hmac.js
                          /*
                           * Crypto-JS v2.5.4
                           * http://code.google.com/p/crypto-js/
                           * (c) 2009-2012 by Jeff Mott. All rights reserved.
                           * http://code.google.com/p/crypto-js/wiki/License
                           */
                        
                          function ascii_to_hexa(str) {
                            var arr1 = [];
                            for (var n = 0, l = str.length; n < l; n++) {
                              var hex = Number(str.charCodeAt(n)).toString(16);
                              arr1.push(hex);
                            }
                            return arr1.join("");
                          }
                        
                          (typeof Crypto == "undefined" || !Crypto.util) &&
                            (function () {
                              var d = (window.Crypto = {}),
                                k = (d.util = {
                                  rotl: function (b, a) {
                                    return (b << a) | (b >>> (32 - a));
                                  },
                                  rotr: function (b, a) {
                                    return (b << (32 - a)) | (b >>> a);
                                  },
                                  endian: function (b) {
                                    if (b.constructor == Number)
                                      return (k.rotl(b, 8) & 16711935) | (k.rotl(b, 24) & 4278255360);
                                    for (var a = 0; a < b.length; a++) b[a] = k.endian(b[a]);
                                    return b;
                                  },
                                  randomBytes: function (b) {
                                    for (var a = []; b > 0; b--)
                                      a.push(Math.floor(Math.random() * 256));
                                    return a;
                                  },
                                  bytesToWords: function (b) {
                                    for (var a = [], c = 0, e = 0; c < b.length; c++, e += 8)
                                      a[e >>> 5] |= (b[c] & 255) << (24 - (e % 32));
                                    return a;
                                  },
                                  wordsToBytes: function (b) {
                                    for (var a = [], c = 0; c < b.length * 32; c += 8)
                                      a.push((b[c >>> 5] >>> (24 - (c % 32))) & 255);
                                    return a;
                                  },
                                  bytesToHex: function (b) {
                                    for (var a = [], c = 0; c < b.length; c++)
                                      a.push((b[c] >>> 4).toString(16)),
                                        a.push((b[c] & 15).toString(16));
                                    return a.join("");
                                  },
                                  hexToBytes: function (b) {
                                    for (var a = [], c = 0; c < b.length; c += 2)
                                      a.push(parseInt(b.substr(c, 2), 16));
                                    return a;
                                  },
                                  bytesToBase64: function (b) {
                                    for (var a = [], c = 0; c < b.length; c += 3)
                                      for (
                                        var e = (b[c] << 16) | (b[c + 1] << 8) | b[c + 2], p = 0;
                                        p < 4;
                                        p++
                                      )
                                        c * 8 + p * 6 <= b.length * 8
                                          ? a.push(
                                              "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/".charAt(
                                                (e >>> (6 * (3 - p))) & 63
                                              )
                                            )
                                          : a.push("=");
                                    return a.join("");
                                  },
                                  base64ToBytes: function (b) {
                                    for (
                                      var b = b.replace(/[^A-Z0-9+\/]/gi, ""), a = [], c = 0, e = 0;
                                      c < b.length;
                                      e = ++c % 4
                                    )
                                      e != 0 &&
                                        a.push(
                                          (("ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/".indexOf(
                                            b.charAt(c - 1)
                                          ) &
                                            (Math.pow(2, -2 * e + 8) - 1)) <<
                                            (e * 2)) |
                                            ("ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/".indexOf(
                                              b.charAt(c)
                                            ) >>>
                                              (6 - e * 2))
                                        );
                                    return a;
                                  },
                                }),
                                d = (d.charenc = {});
                              d.UTF8 = {
                                stringToBytes: function (b) {
                                  return g.stringToBytes(unescape(encodeURIComponent(b)));
                                },
                                bytesToString: function (b) {
                                  return decodeURIComponent(escape(g.bytesToString(b)));
                                },
                              };
                              var g = (d.Binary = {
                                stringToBytes: function (b) {
                                  for (var a = [], c = 0; c < b.length; c++)
                                    a.push(b.charCodeAt(c) & 255);
                                  return a;
                                },
                                bytesToString: function (b) {
                                  for (var a = [], c = 0; c < b.length; c++)
                                    a.push(String.fromCharCode(b[c]));
                                  return a.join("");
                                },
                              });
                            })();
                          (function () {
                            var d = Crypto,
                              k = d.util,
                              g = d.charenc,
                              b = g.UTF8,
                              a = g.Binary,
                              c = [
                                1116352408, 1899447441, 3049323471, 3921009573, 961987163, 1508970993,
                                2453635748, 2870763221, 3624381080, 310598401, 607225278, 1426881987,
                                1925078388, 2162078206, 2614888103, 3248222580, 3835390401,
                                4022224774, 264347078, 604807628, 770255983, 1249150122, 1555081692,
                                1996064986, 2554220882, 2821834349, 2952996808, 3210313671,
                                3336571891, 3584528711, 113926993, 338241895, 666307205, 773529912,
                                1294757372, 1396182291, 1695183700, 1986661051, 2177026350,
                                2456956037, 2730485921, 2820302411, 3259730800, 3345764771,
                                3516065817, 3600352804, 4094571909, 275423344, 430227734, 506948616,
                                659060556, 883997877, 958139571, 1322822218, 1537002063, 1747873779,
                                1955562222, 2024104815, 2227730452, 2361852424, 2428436474,
                                2756734187, 3204031479, 3329325298,
                              ],
                              e = (d.SHA256 = function (b, c) {
                                var f = k.wordsToBytes(e._sha256(b));
                                return c && c.asBytes
                                  ? f
                                  : c && c.asString
                                  ? a.bytesToString(f)
                                  : k.bytesToHex(f);
                              });
                            e._sha256 = function (a) {
                              a.constructor == String && (a = b.stringToBytes(a));
                              var e = k.bytesToWords(a),
                                f = a.length * 8,
                                a = [
                                  1779033703, 3144134277, 1013904242, 2773480762, 1359893119,
                                  2600822924, 528734635, 1541459225,
                                ],
                                d = [],
                                g,
                                m,
                                r,
                                i,
                                n,
                                o,
                                s,
                                t,
                                h,
                                l,
                                j;
                              e[f >> 5] |= 128 << (24 - (f % 32));
                              e[(((f + 64) >> 9) << 4) + 15] = f;
                              for (t = 0; t < e.length; t += 16) {
                                f = a[0];
                                g = a[1];
                                m = a[2];
                                r = a[3];
                                i = a[4];
                                n = a[5];
                                o = a[6];
                                s = a[7];
                                for (h = 0; h < 64; h++) {
                                  h < 16
                                    ? (d[h] = e[h + t])
                                    : ((l = d[h - 15]),
                                      (j = d[h - 2]),
                                      (d[h] =
                                        (((l << 25) | (l >>> 7)) ^
                                          ((l << 14) | (l >>> 18)) ^
                                          (l >>> 3)) +
                                        (d[h - 7] >>> 0) +
                                        (((j << 15) | (j >>> 17)) ^
                                          ((j << 13) | (j >>> 19)) ^
                                          (j >>> 10)) +
                                        (d[h - 16] >>> 0)));
                                  j = (f & g) ^ (f & m) ^ (g & m);
                                  var u =
                                    ((f << 30) | (f >>> 2)) ^
                                    ((f << 19) | (f >>> 13)) ^
                                    ((f << 10) | (f >>> 22));
                                  l =
                                    (s >>> 0) +
                                    (((i << 26) | (i >>> 6)) ^
                                      ((i << 21) | (i >>> 11)) ^
                                      ((i << 7) | (i >>> 25))) +
                                    ((i & n) ^ (~i & o)) +
                                    c[h] +
                                    (d[h] >>> 0);
                                  j = u + j;
                                  s = o;
                                  o = n;
                                  n = i;
                                  i = (r + l) >>> 0;
                                  r = m;
                                  m = g;
                                  g = f;
                                  f = (l + j) >>> 0;
                                }
                                a[0] += f;
                                a[1] += g;
                                a[2] += m;
                                a[3] += r;
                                a[4] += i;
                                a[5] += n;
                                a[6] += o;
                                a[7] += s;
                              }
                              return a;
                            };
                            e._blocksize = 16;
                            e._digestsize = 32;
                          })();
                          (function () {
                            var d = Crypto,
                              k = d.util,
                              g = d.charenc,
                              b = g.UTF8,
                              a = g.Binary;
                            d.HMAC = function (c, e, d, g) {
                              e.constructor == String && (e = b.stringToBytes(e));
                              d.constructor == String && (d = b.stringToBytes(d));
                              d.length > c._blocksize * 4 &&
                                (d = c(d, {
                                  asBytes: !0,
                                }));
                              for (
                                var f = d.slice(0), d = d.slice(0), q = 0;
                                q < c._blocksize * 4;
                                q++
                              )
                                (f[q] ^= 92), (d[q] ^= 54);
                              c = c(
                                f.concat(
                                  c(d.concat(e), {
                                    asBytes: !0,
                                  })
                                ),
                                {
                                  asBytes: !0,
                                }
                              );
                              return g && g.asBytes
                                ? c
                                : g && g.asString
                                ? a.bytesToString(c)
                                : k.bytesToHex(c);
                            };
                          })();
                        
                          /*!
                           * Random number generator with ArcFour PRNG
                           *
                           * NOTE: For best results, put code like
                           * <body onclick='SecureRandom.seedTime();' onkeypress='SecureRandom.seedTime();'>
                           * in your main HTML document.
                           *
                           * Copyright Tom Wu, bitaddress.org  BSD License.
                           * http://www-cs-students.stanford.edu/~tjw/jsbn/LICENSE
                           */
                          (function () {
                            // Constructor function of Global SecureRandom object
                            var sr = (window.SecureRandom = function () {});
                        
                            // Properties
                            sr.state;
                            sr.pool;
                            sr.pptr;
                            sr.poolCopyOnInit;
                        
                            // Pool size must be a multiple of 4 and greater than 32.
                            // An array of bytes the size of the pool will be passed to init()
                            sr.poolSize = 256;
                        
                            // --- object methods ---
                        
                            // public method
                            // ba: byte array
                            sr.prototype.nextBytes = function (ba) {
                              var i;
                              if (
                                window.crypto &&
                                window.crypto.getRandomValues &&
                                window.Uint8Array
                              ) {
                                try {
                                  var rvBytes = new Uint8Array(ba.length);
                                  window.crypto.getRandomValues(rvBytes);
                                  for (i = 0; i < ba.length; ++i) ba[i] = sr.getByte() ^ rvBytes[i];
                                  return;
                                } catch (e) {
                                  alert(e);
                                }
                              }
                              for (i = 0; i < ba.length; ++i) ba[i] = sr.getByte();
                            };
                        
                            // --- static methods ---
                        
                            // Mix in the current time (w/milliseconds) into the pool
                            // NOTE: this method should be called from body click/keypress event handlers to increase entropy
                            sr.seedTime = function () {
                              sr.seedInt(new Date().getTime());
                            };
                        
                            sr.getByte = function () {
                              if (sr.state == null) {
                                sr.seedTime();
                                sr.state = sr.ArcFour(); // Plug in your RNG constructor here
                                sr.state.init(sr.pool);
                                sr.poolCopyOnInit = [];
                                for (sr.pptr = 0; sr.pptr < sr.pool.length; ++sr.pptr)
                                  sr.poolCopyOnInit[sr.pptr] = sr.pool[sr.pptr];
                                sr.pptr = 0;
                              }
                              // TODO: allow reseeding after first request
                              return sr.state.next();
                            };
                        
                            // Mix in a 32-bit integer into the pool
                            sr.seedInt = function (x) {
                              sr.seedInt8(x);
                              sr.seedInt8(x >> 8);
                              sr.seedInt8(x >> 16);
                              sr.seedInt8(x >> 24);
                            };
                        
                            // Mix in a 16-bit integer into the pool
                            sr.seedInt16 = function (x) {
                              sr.seedInt8(x);
                              sr.seedInt8(x >> 8);
                            };
                        
                            // Mix in a 8-bit integer into the pool
                            sr.seedInt8 = function (x) {
                              sr.pool[sr.pptr++] ^= x & 255;
                              if (sr.pptr >= sr.poolSize) sr.pptr -= sr.poolSize;
                            };
                        
                            // Arcfour is a PRNG
                            sr.ArcFour = function () {
                              function Arcfour() {
                                this.i = 0;
                                this.j = 0;
                                this.S = new Array();
                              }
                        
                              // Initialize arcfour context from key, an array of ints, each from [0..255]
                              function ARC4init(key) {
                                var i, j, t;
                                for (i = 0; i < 256; ++i) this.S[i] = i;
                                j = 0;
                                for (i = 0; i < 256; ++i) {
                                  j = (j + this.S[i] + key[i % key.length]) & 255;
                                  t = this.S[i];
                                  this.S[i] = this.S[j];
                                  this.S[j] = t;
                                }
                                this.i = 0;
                                this.j = 0;
                              }
                        
                              function ARC4next() {
                                var t;
                                this.i = (this.i + 1) & 255;
                                this.j = (this.j + this.S[this.i]) & 255;
                                t = this.S[this.i];
                                this.S[this.i] = this.S[this.j];
                                this.S[this.j] = t;
                                return this.S[(t + this.S[this.i]) & 255];
                              }
                        
                              Arcfour.prototype.init = ARC4init;
                              Arcfour.prototype.next = ARC4next;
                        
                              return new Arcfour();
                            };
                        
                            // Initialize the pool with junk if needed.
                            if (sr.pool == null) {
                              sr.pool = new Array();
                              sr.pptr = 0;
                              var t;
                              if (
                                window.crypto &&
                                window.crypto.getRandomValues &&
                                window.Uint8Array
                              ) {
                                try {
                                  // Use webcrypto if available
                                  var ua = new Uint8Array(sr.poolSize);
                                  window.crypto.getRandomValues(ua);
                                  for (t = 0; t < sr.poolSize; ++t) sr.pool[sr.pptr++] = ua[t];
                                } catch (e) {
                                  alert(e);
                                }
                              }
                              while (sr.pptr < sr.poolSize) {
                                // extract some randomness from Math.random()
                                t = Math.floor(65536 * Math.random());
                                sr.pool[sr.pptr++] = t >>> 8;
                                sr.pool[sr.pptr++] = t & 255;
                              }
                              sr.pptr = Math.floor(sr.poolSize * Math.random());
                              sr.seedTime();
                              // entropy
                              var entropyStr = "";
                              // screen size and color depth: ~4.8 to ~5.4 bits
                              entropyStr +=
                                window.screen.height * window.screen.width * window.screen.colorDepth;
                              entropyStr +=
                                window.screen.availHeight *
                                window.screen.availWidth *
                                window.screen.pixelDepth;
                              // time zone offset: ~4 bits
                              var dateObj = new Date();
                              var timeZoneOffset = dateObj.getTimezoneOffset();
                              entropyStr += timeZoneOffset;
                              // user agent: ~8.3 to ~11.6 bits
                              entropyStr += navigator.userAgent;
                              // browser plugin details: ~16.2 to ~21.8 bits
                              var pluginsStr = "";
                              for (var i = 0; i < navigator.plugins.length; i++) {
                                pluginsStr +=
                                  navigator.plugins[i].name +
                                  " " +
                                  navigator.plugins[i].filename +
                                  " " +
                                  navigator.plugins[i].description +
                                  " " +
                                  navigator.plugins[i].version +
                                  ", ";
                              }
                              var mimeTypesStr = "";
                              for (var i = 0; i < navigator.mimeTypes.length; i++) {
                                mimeTypesStr +=
                                  navigator.mimeTypes[i].description +
                                  " " +
                                  navigator.mimeTypes[i].type +
                                  " " +
                                  navigator.mimeTypes[i].suffixes +
                                  ", ";
                              }
                              entropyStr += pluginsStr + mimeTypesStr;
                              // cookies and storage: 1 bit
                              entropyStr +=
                                navigator.cookieEnabled + typeof sessionStorage + typeof localStorage;
                              // language: ~7 bit
                              entropyStr += navigator.language;
                              // history: ~2 bit
                              entropyStr += window.history.length;
                              // location
                              entropyStr += window.location;
                        
                              var entropyBytes = Crypto.SHA256(entropyStr, {
                                asBytes: true,
                              });
                              for (var i = 0; i < entropyBytes.length; i++) {
                                sr.seedInt8(entropyBytes[i]);
                              }
                            }
                          })();
                        
                          //ripemd160.js
                          /*
                          CryptoJS v3.1.2
                          code.google.com/p/crypto-js
                          (c) 2009-2013 by Jeff Mott. All rights reserved.
                          code.google.com/p/crypto-js/wiki/License
                          */
                          /** @preserve
                          (c) 2012 by Cédric Mesnil. All rights reserved.
                          Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met:
                              - Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer.
                              - Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution.
                          THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
                          */
                        
                          // Constants table
                          var zl = [
                            0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 7, 4, 13, 1, 10, 6,
                            15, 3, 12, 0, 9, 5, 2, 14, 11, 8, 3, 10, 14, 4, 9, 15, 8, 1, 2, 7, 0, 6,
                            13, 11, 5, 12, 1, 9, 11, 10, 0, 8, 12, 4, 13, 3, 7, 15, 14, 5, 6, 2, 4, 0,
                            5, 9, 7, 12, 2, 10, 14, 1, 3, 8, 11, 6, 15, 13,
                          ];
                          var zr = [
                            5, 14, 7, 0, 9, 2, 11, 4, 13, 6, 15, 8, 1, 10, 3, 12, 6, 11, 3, 7, 0, 13,
                            5, 10, 14, 15, 8, 12, 4, 9, 1, 2, 15, 5, 1, 3, 7, 14, 6, 9, 11, 8, 12, 2,
                            10, 0, 4, 13, 8, 6, 4, 1, 3, 11, 15, 0, 5, 12, 2, 13, 9, 7, 10, 14, 12,
                            15, 10, 4, 1, 5, 8, 7, 6, 2, 13, 14, 0, 3, 9, 11,
                          ];
                          var sl = [
                            11, 14, 15, 12, 5, 8, 7, 9, 11, 13, 14, 15, 6, 7, 9, 8, 7, 6, 8, 13, 11,
                            9, 7, 15, 7, 12, 15, 9, 11, 7, 13, 12, 11, 13, 6, 7, 14, 9, 13, 15, 14, 8,
                            13, 6, 5, 12, 7, 5, 11, 12, 14, 15, 14, 15, 9, 8, 9, 14, 5, 6, 8, 6, 5,
                            12, 9, 15, 5, 11, 6, 8, 13, 12, 5, 12, 13, 14, 11, 8, 5, 6,
                          ];
                          var sr = [
                            8, 9, 9, 11, 13, 15, 15, 5, 7, 7, 8, 11, 14, 14, 12, 6, 9, 13, 15, 7, 12,
                            8, 9, 11, 7, 7, 12, 7, 6, 15, 13, 11, 9, 7, 15, 11, 8, 6, 6, 14, 12, 13,
                            5, 14, 13, 13, 7, 5, 15, 5, 8, 11, 14, 14, 6, 14, 6, 9, 12, 9, 12, 5, 15,
                            8, 8, 5, 12, 9, 12, 5, 14, 6, 8, 13, 6, 5, 15, 13, 11, 11,
                          ];
                        
                          var hl = [0x00000000, 0x5a827999, 0x6ed9eba1, 0x8f1bbcdc, 0xa953fd4e];
                          var hr = [0x50a28be6, 0x5c4dd124, 0x6d703ef3, 0x7a6d76e9, 0x00000000];
                        
                          var bytesToWords = function (bytes) {
                            var words = [];
                            for (var i = 0, b = 0; i < bytes.length; i++, b += 8) {
                              words[b >>> 5] |= bytes[i] << (24 - (b % 32));
                            }
                            return words;
                          };
                        
                          var wordsToBytes = function (words) {
                            var bytes = [];
                            for (var b = 0; b < words.length * 32; b += 8) {
                              bytes.push((words[b >>> 5] >>> (24 - (b % 32))) & 0xff);
                            }
                            return bytes;
                          };
                        
                          var processBlock = function (H, M, offset) {
                            // Swap endian
                            for (var i = 0; i < 16; i++) {
                              var offset_i = offset + i;
                              var M_offset_i = M[offset_i];
                        
                              // Swap
                              M[offset_i] =
                                (((M_offset_i << 8) | (M_offset_i >>> 24)) & 0x00ff00ff) |
                                (((M_offset_i << 24) | (M_offset_i >>> 8)) & 0xff00ff00);
                            }
                        
                            // Working variables
                            var al, bl, cl, dl, el;
                            var ar, br, cr, dr, er;
                        
                            ar = al = H[0];
                            br = bl = H[1];
                            cr = cl = H[2];
                            dr = dl = H[3];
                            er = el = H[4];
                            // Computation
                            var t;
                            for (var i = 0; i < 80; i += 1) {
                              t = (al + M[offset + zl[i]]) | 0;
                              if (i < 16) {
                                t += f1(bl, cl, dl) + hl[0];
                              } else if (i < 32) {
                                t += f2(bl, cl, dl) + hl[1];
                              } else if (i < 48) {
                                t += f3(bl, cl, dl) + hl[2];
                              } else if (i < 64) {
                                t += f4(bl, cl, dl) + hl[3];
                              } else {
                                // if (i<80) {
                                t += f5(bl, cl, dl) + hl[4];
                              }
                              t = t | 0;
                              t = rotl(t, sl[i]);
                              t = (t + el) | 0;
                              al = el;
                              el = dl;
                              dl = rotl(cl, 10);
                              cl = bl;
                              bl = t;
                        
                              t = (ar + M[offset + zr[i]]) | 0;
                              if (i < 16) {
                                t += f5(br, cr, dr) + hr[0];
                              } else if (i < 32) {
                                t += f4(br, cr, dr) + hr[1];
                              } else if (i < 48) {
                                t += f3(br, cr, dr) + hr[2];
                              } else if (i < 64) {
                                t += f2(br, cr, dr) + hr[3];
                              } else {
                                // if (i<80) {
                                t += f1(br, cr, dr) + hr[4];
                              }
                              t = t | 0;
                              t = rotl(t, sr[i]);
                              t = (t + er) | 0;
                              ar = er;
                              er = dr;
                              dr = rotl(cr, 10);
                              cr = br;
                              br = t;
                            }
                            // Intermediate hash value
                            t = (H[1] + cl + dr) | 0;
                            H[1] = (H[2] + dl + er) | 0;
                            H[2] = (H[3] + el + ar) | 0;
                            H[3] = (H[4] + al + br) | 0;
                            H[4] = (H[0] + bl + cr) | 0;
                            H[0] = t;
                          };
                        
                          function f1(x, y, z) {
                            return x ^ y ^ z;
                          }
                        
                          function f2(x, y, z) {
                            return (x & y) | (~x & z);
                          }
                        
                          function f3(x, y, z) {
                            return (x | ~y) ^ z;
                          }
                        
                          function f4(x, y, z) {
                            return (x & z) | (y & ~z);
                          }
                        
                          function f5(x, y, z) {
                            return x ^ (y | ~z);
                          }
                        
                          function rotl(x, n) {
                            return (x << n) | (x >>> (32 - n));
                          }
                        
                          function ripemd160(message) {
                            var H = [0x67452301, 0xefcdab89, 0x98badcfe, 0x10325476, 0xc3d2e1f0];
                        
                            var m = bytesToWords(message);
                        
                            var nBitsLeft = message.length * 8;
                            var nBitsTotal = message.length * 8;
                        
                            // Add padding
                            m[nBitsLeft >>> 5] |= 0x80 << (24 - (nBitsLeft % 32));
                            m[(((nBitsLeft + 64) >>> 9) << 4) + 14] =
                              (((nBitsTotal << 8) | (nBitsTotal >>> 24)) & 0x00ff00ff) |
                              (((nBitsTotal << 24) | (nBitsTotal >>> 8)) & 0xff00ff00);
                        
                            for (var i = 0; i < m.length; i += 16) {
                              processBlock(H, m, i);
                            }
                        
                            // Swap endian
                            for (var i = 0; i < 5; i++) {
                              // Shortcut
                              var H_i = H[i];
                        
                              // Swap
                              H[i] =
                                (((H_i << 8) | (H_i >>> 24)) & 0x00ff00ff) |
                                (((H_i << 24) | (H_i >>> 8)) & 0xff00ff00);
                            }
                        
                            var digestbytes = wordsToBytes(H);
                            return digestbytes;
                          }
                        
                          // Upstream 'BigInteger' here:
                          // Original Author: http://www-cs-students.stanford.edu/~tjw/jsbn/
                          // Follows 'jsbn' on Github: https://github.com/jasondavies/jsbn
                          // Review and Testing: https://github.com/cryptocoinjs/bigi/
                          /*!
                           * Basic JavaScript BN library - subset useful for RSA encryption. v1.4
                           *
                           * Copyright (c) 2005  Tom Wu
                           * All Rights Reserved.
                           * BSD License
                           * http://www-cs-students.stanford.edu/~tjw/jsbn/LICENSE
                           *
                           * Copyright Stephan Thomas
                           * Copyright pointbiz
                           */
                        
                          (function () {
                            // (public) Constructor function of Global BigInteger object
                            var BigInteger = (window.BigInteger = function BigInteger(a, b, c) {
                              if (!(this instanceof BigInteger)) return new BigInteger(a, b, c);
                        
                              if (a != null)
                                if ("number" == typeof a) this.fromNumber(a, b, c);
                                else if (b == null && "string" != typeof a) this.fromString(a, 256);
                                else this.fromString(a, b);
                            });
                        
                            // Bits per digit
                            var dbits;
                        
                            // JavaScript engine analysis
                            var canary = 0xdeadbeefcafe;
                            var j_lm = (canary & 0xffffff) == 0xefcafe;
                        
                            // return new, unset BigInteger
                            function nbi() {
                              return new BigInteger(null);
                            }
                        
                            // am: Compute w_j += (x*this_i), propagate carries,
                            // c is initial carry, returns final carry.
                            // c < 3*dvalue, x < 2*dvalue, this_i < dvalue
                            // We need to select the fastest one that works in this environment.
                        
                            // am1: use a single mult and divide to get the high bits,
                            // max digit bits should be 26 because
                            // max internal value = 2*dvalue^2-2*dvalue (< 2^53)
                            function am1(i, x, w, j, c, n) {
                              while (--n >= 0) {
                                var v = x * this[i++] + w[j] + c;
                                c = Math.floor(v / 0x4000000);
                                w[j++] = v & 0x3ffffff;
                              }
                              return c;
                            }
                            // am2 avoids a big mult-and-extract completely.
                            // Max digit bits should be <= 30 because we do bitwise ops
                            // on values up to 2*hdvalue^2-hdvalue-1 (< 2^31)
                            function am2(i, x, w, j, c, n) {
                              var xl = x & 0x7fff,
                                xh = x >> 15;
                              while (--n >= 0) {
                                var l = this[i] & 0x7fff;
                                var h = this[i++] >> 15;
                                var m = xh * l + h * xl;
                                l = xl * l + ((m & 0x7fff) << 15) + w[j] + (c & 0x3fffffff);
                                c = (l >>> 30) + (m >>> 15) + xh * h + (c >>> 30);
                                w[j++] = l & 0x3fffffff;
                              }
                              return c;
                            }
                            // Alternately, set max digit bits to 28 since some
                            // browsers slow down when dealing with 32-bit numbers.
                            function am3(i, x, w, j, c, n) {
                              var xl = x & 0x3fff,
                                xh = x >> 14;
                              while (--n >= 0) {
                                var l = this[i] & 0x3fff;
                                var h = this[i++] >> 14;
                                var m = xh * l + h * xl;
                                l = xl * l + ((m & 0x3fff) << 14) + w[j] + c;
                                c = (l >> 28) + (m >> 14) + xh * h;
                                w[j++] = l & 0xfffffff;
                              }
                              return c;
                            }
                            if (j_lm && navigator.appName == "Microsoft Internet Explorer") {
                              BigInteger.prototype.am = am2;
                              dbits = 30;
                            } else if (j_lm && navigator.appName != "Netscape") {
                              BigInteger.prototype.am = am1;
                              dbits = 26;
                            } else {
                              // Mozilla/Netscape seems to prefer am3
                              BigInteger.prototype.am = am3;
                              dbits = 28;
                            }
                        
                            BigInteger.prototype.DB = dbits;
                            BigInteger.prototype.DM = (1 << dbits) - 1;
                            BigInteger.prototype.DV = 1 << dbits;
                        
                            var BI_FP = 52;
                            BigInteger.prototype.FV = Math.pow(2, BI_FP);
                            BigInteger.prototype.F1 = BI_FP - dbits;
                            BigInteger.prototype.F2 = 2 * dbits - BI_FP;
                        
                            // Digit conversions
                            var BI_RM = "0123456789abcdefghijklmnopqrstuvwxyz";
                            var BI_RC = new Array();
                            var rr, vv;
                            rr = "0".charCodeAt(0);
                            for (vv = 0; vv <= 9; ++vv) BI_RC[rr++] = vv;
                            rr = "a".charCodeAt(0);
                            for (vv = 10; vv < 36; ++vv) BI_RC[rr++] = vv;
                            rr = "A".charCodeAt(0);
                            for (vv = 10; vv < 36; ++vv) BI_RC[rr++] = vv;
                        
                            function int2char(n) {
                              return BI_RM.charAt(n);
                            }
                        
                            function intAt(s, i) {
                              var c = BI_RC[s.charCodeAt(i)];
                              return c == null ? -1 : c;
                            }
                        
                            // return bigint initialized to value
                            function nbv(i) {
                              var r = nbi();
                              r.fromInt(i);
                              return r;
                            }
                        
                            // returns bit length of the integer x
                            function nbits(x) {
                              var r = 1,
                                t;
                              if ((t = x >>> 16) != 0) {
                                x = t;
                                r += 16;
                              }
                              if ((t = x >> 8) != 0) {
                                x = t;
                                r += 8;
                              }
                              if ((t = x >> 4) != 0) {
                                x = t;
                                r += 4;
                              }
                              if ((t = x >> 2) != 0) {
                                x = t;
                                r += 2;
                              }
                              if ((t = x >> 1) != 0) {
                                x = t;
                                r += 1;
                              }
                              return r;
                            }
                        
                            // (protected) copy this to r
                            BigInteger.prototype.copyTo = function (r) {
                              for (var i = this.t - 1; i >= 0; --i) r[i] = this[i];
                              r.t = this.t;
                              r.s = this.s;
                            };
                        
                            // (protected) set from integer value x, -DV <= x < DV
                            BigInteger.prototype.fromInt = function (x) {
                              this.t = 1;
                              this.s = x < 0 ? -1 : 0;
                              if (x > 0) this[0] = x;
                              else if (x < -1) this[0] = x + this.DV;
                              else this.t = 0;
                            };
                        
                            // (protected) set from string and radix
                            BigInteger.prototype.fromString = function (s, b) {
                              var k;
                              if (b == 16) k = 4;
                              else if (b == 8) k = 3;
                              else if (b == 256) k = 8;
                              // byte array
                              else if (b == 2) k = 1;
                              else if (b == 32) k = 5;
                              else if (b == 4) k = 2;
                              else {
                                this.fromRadix(s, b);
                                return;
                              }
                              this.t = 0;
                              this.s = 0;
                              var i = s.length,
                                mi = false,
                                sh = 0;
                              while (--i >= 0) {
                                var x = k == 8 ? s[i] & 0xff : intAt(s, i);
                                if (x < 0) {
                                  if (s.charAt(i) == "-") mi = true;
                                  continue;
                                }
                                mi = false;
                                if (sh == 0) this[this.t++] = x;
                                else if (sh + k > this.DB) {
                                  this[this.t - 1] |= (x & ((1 << (this.DB - sh)) - 1)) << sh;
                                  this[this.t++] = x >> (this.DB - sh);
                                } else this[this.t - 1] |= x << sh;
                                sh += k;
                                if (sh >= this.DB) sh -= this.DB;
                              }
                              if (k == 8 && (s[0] & 0x80) != 0) {
                                this.s = -1;
                                if (sh > 0) this[this.t - 1] |= ((1 << (this.DB - sh)) - 1) << sh;
                              }
                              this.clamp();
                              if (mi) BigInteger.ZERO.subTo(this, this);
                            };
                        
                            // (protected) clamp off excess high words
                            BigInteger.prototype.clamp = function () {
                              var c = this.s & this.DM;
                              while (this.t > 0 && this[this.t - 1] == c) --this.t;
                            };
                        
                            // (protected) r = this << n*DB
                            BigInteger.prototype.dlShiftTo = function (n, r) {
                              var i;
                              for (i = this.t - 1; i >= 0; --i) r[i + n] = this[i];
                              for (i = n - 1; i >= 0; --i) r[i] = 0;
                              r.t = this.t + n;
                              r.s = this.s;
                            };
                        
                            // (protected) r = this >> n*DB
                            BigInteger.prototype.drShiftTo = function (n, r) {
                              for (var i = n; i < this.t; ++i) r[i - n] = this[i];
                              r.t = Math.max(this.t - n, 0);
                              r.s = this.s;
                            };
                        
                            // (protected) r = this << n
                            BigInteger.prototype.lShiftTo = function (n, r) {
                              var bs = n % this.DB;
                              var cbs = this.DB - bs;
                              var bm = (1 << cbs) - 1;
                              var ds = Math.floor(n / this.DB),
                                c = (this.s << bs) & this.DM,
                                i;
                              for (i = this.t - 1; i >= 0; --i) {
                                r[i + ds + 1] = (this[i] >> cbs) | c;
                                c = (this[i] & bm) << bs;
                              }
                              for (i = ds - 1; i >= 0; --i) r[i] = 0;
                              r[ds] = c;
                              r.t = this.t + ds + 1;
                              r.s = this.s;
                              r.clamp();
                            };
                        
                            // (protected) r = this >> n
                            BigInteger.prototype.rShiftTo = function (n, r) {
                              r.s = this.s;
                              var ds = Math.floor(n / this.DB);
                              if (ds >= this.t) {
                                r.t = 0;
                                return;
                              }
                              var bs = n % this.DB;
                              var cbs = this.DB - bs;
                              var bm = (1 << bs) - 1;
                              r[0] = this[ds] >> bs;
                              for (var i = ds + 1; i < this.t; ++i) {
                                r[i - ds - 1] |= (this[i] & bm) << cbs;
                                r[i - ds] = this[i] >> bs;
                              }
                              if (bs > 0) r[this.t - ds - 1] |= (this.s & bm) << cbs;
                              r.t = this.t - ds;
                              r.clamp();
                            };
                        
                            // (protected) r = this - a
                            BigInteger.prototype.subTo = function (a, r) {
                              var i = 0,
                                c = 0,
                                m = Math.min(a.t, this.t);
                              while (i < m) {
                                c += this[i] - a[i];
                                r[i++] = c & this.DM;
                                c >>= this.DB;
                              }
                              if (a.t < this.t) {
                                c -= a.s;
                                while (i < this.t) {
                                  c += this[i];
                                  r[i++] = c & this.DM;
                                  c >>= this.DB;
                                }
                                c += this.s;
                              } else {
                                c += this.s;
                                while (i < a.t) {
                                  c -= a[i];
                                  r[i++] = c & this.DM;
                                  c >>= this.DB;
                                }
                                c -= a.s;
                              }
                              r.s = c < 0 ? -1 : 0;
                              if (c < -1) r[i++] = this.DV + c;
                              else if (c > 0) r[i++] = c;
                              r.t = i;
                              r.clamp();
                            };
                        
                            // (protected) r = this * a, r != this,a (HAC 14.12)
                            // "this" should be the larger one if appropriate.
                            BigInteger.prototype.multiplyTo = function (a, r) {
                              var x = this.abs(),
                                y = a.abs();
                              var i = x.t;
                              r.t = i + y.t;
                              while (--i >= 0) r[i] = 0;
                              for (i = 0; i < y.t; ++i) r[i + x.t] = x.am(0, y[i], r, i, 0, x.t);
                              r.s = 0;
                              r.clamp();
                              if (this.s != a.s) BigInteger.ZERO.subTo(r, r);
                            };
                        
                            // (protected) r = this^2, r != this (HAC 14.16)
                            BigInteger.prototype.squareTo = function (r) {
                              var x = this.abs();
                              var i = (r.t = 2 * x.t);
                              while (--i >= 0) r[i] = 0;
                              for (i = 0; i < x.t - 1; ++i) {
                                var c = x.am(i, x[i], r, 2 * i, 0, 1);
                                if (
                                  (r[i + x.t] += x.am(
                                    i + 1,
                                    2 * x[i],
                                    r,
                                    2 * i + 1,
                                    c,
                                    x.t - i - 1
                                  )) >= x.DV
                                ) {
                                  r[i + x.t] -= x.DV;
                                  r[i + x.t + 1] = 1;
                                }
                              }
                              if (r.t > 0) r[r.t - 1] += x.am(i, x[i], r, 2 * i, 0, 1);
                              r.s = 0;
                              r.clamp();
                            };
                        
                            // (protected) divide this by m, quotient and remainder to q, r (HAC 14.20)
                            // r != q, this != m.  q or r may be null.
                            BigInteger.prototype.divRemTo = function (m, q, r) {
                              var pm = m.abs();
                              if (pm.t <= 0) return;
                              var pt = this.abs();
                              if (pt.t < pm.t) {
                                if (q != null) q.fromInt(0);
                                if (r != null) this.copyTo(r);
                                return;
                              }
                              if (r == null) r = nbi();
                              var y = nbi(),
                                ts = this.s,
                                ms = m.s;
                              var nsh = this.DB - nbits(pm[pm.t - 1]); // normalize modulus
                              if (nsh > 0) {
                                pm.lShiftTo(nsh, y);
                                pt.lShiftTo(nsh, r);
                              } else {
                                pm.copyTo(y);
                                pt.copyTo(r);
                              }
                              var ys = y.t;
                              var y0 = y[ys - 1];
                              if (y0 == 0) return;
                              var yt = y0 * (1 << this.F1) + (ys > 1 ? y[ys - 2] >> this.F2 : 0);
                              var d1 = this.FV / yt,
                                d2 = (1 << this.F1) / yt,
                                e = 1 << this.F2;
                              var i = r.t,
                                j = i - ys,
                                t = q == null ? nbi() : q;
                              y.dlShiftTo(j, t);
                              if (r.compareTo(t) >= 0) {
                                r[r.t++] = 1;
                                r.subTo(t, r);
                              }
                              BigInteger.ONE.dlShiftTo(ys, t);
                              t.subTo(y, y); // "negative" y so we can replace sub with am later
                              while (y.t < ys) y[y.t++] = 0;
                              while (--j >= 0) {
                                // Estimate quotient digit
                                var qd =
                                  r[--i] == y0
                                    ? this.DM
                                    : Math.floor(r[i] * d1 + (r[i - 1] + e) * d2);
                                if ((r[i] += y.am(0, qd, r, j, 0, ys)) < qd) {
                                  // Try it out
                                  y.dlShiftTo(j, t);
                                  r.subTo(t, r);
                                  while (r[i] < --qd) r.subTo(t, r);
                                }
                              }
                              if (q != null) {
                                r.drShiftTo(ys, q);
                                if (ts != ms) BigInteger.ZERO.subTo(q, q);
                              }
                              r.t = ys;
                              r.clamp();
                              if (nsh > 0) r.rShiftTo(nsh, r); // Denormalize remainder
                              if (ts < 0) BigInteger.ZERO.subTo(r, r);
                            };
                        
                            // (protected) return "-1/this % 2^DB"; useful for Mont. reduction
                            // justification:
                            //         xy == 1 (mod m)
                            //         xy =  1+km
                            //   xy(2-xy) = (1+km)(1-km)
                            // x[y(2-xy)] = 1-k^2m^2
                            // x[y(2-xy)] == 1 (mod m^2)
                            // if y is 1/x mod m, then y(2-xy) is 1/x mod m^2
                            // should reduce x and y(2-xy) by m^2 at each step to keep size bounded.
                            // JS multiply "overflows" differently from C/C++, so care is needed here.
                            BigInteger.prototype.invDigit = function () {
                              if (this.t < 1) return 0;
                              var x = this[0];
                              if ((x & 1) == 0) return 0;
                              var y = x & 3; // y == 1/x mod 2^2
                              y = (y * (2 - (x & 0xf) * y)) & 0xf; // y == 1/x mod 2^4
                              y = (y * (2 - (x & 0xff) * y)) & 0xff; // y == 1/x mod 2^8
                              y = (y * (2 - (((x & 0xffff) * y) & 0xffff))) & 0xffff; // y == 1/x mod 2^16
                              // last step - calculate inverse mod DV directly;
                              // assumes 16 < DB <= 32 and assumes ability to handle 48-bit ints
                              y = (y * (2 - ((x * y) % this.DV))) % this.DV; // y == 1/x mod 2^dbits
                              // we really want the negative inverse, and -DV < y < DV
                              return y > 0 ? this.DV - y : -y;
                            };
                        
                            // (protected) true iff this is even
                            BigInteger.prototype.isEven = function () {
                              return (this.t > 0 ? this[0] & 1 : this.s) == 0;
                            };
                        
                            // (protected) this^e, e < 2^32, doing sqr and mul with "r" (HAC 14.79)
                            BigInteger.prototype.exp = function (e, z) {
                              if (e > 0xffffffff || e < 1) return BigInteger.ONE;
                              var r = nbi(),
                                r2 = nbi(),
                                g = z.convert(this),
                                i = nbits(e) - 1;
                              g.copyTo(r);
                              while (--i >= 0) {
                                z.sqrTo(r, r2);
                                if ((e & (1 << i)) > 0) z.mulTo(r2, g, r);
                                else {
                                  var t = r;
                                  r = r2;
                                  r2 = t;
                                }
                              }
                              return z.revert(r);
                            };
                        
                            // (public) return string representation in given radix
                            BigInteger.prototype.toString = function (b) {
                              if (this.s < 0) return "-" + this.negate().toString(b);
                              var k;
                              if (b == 16) k = 4;
                              else if (b == 8) k = 3;
                              else if (b == 2) k = 1;
                              else if (b == 32) k = 5;
                              else if (b == 4) k = 2;
                              else return this.toRadix(b);
                              var km = (1 << k) - 1,
                                d,
                                m = false,
                                r = "",
                                i = this.t;
                              var p = this.DB - ((i * this.DB) % k);
                              if (i-- > 0) {
                                if (p < this.DB && (d = this[i] >> p) > 0) {
                                  m = true;
                                  r = int2char(d);
                                }
                                while (i >= 0) {
                                  if (p < k) {
                                    d = (this[i] & ((1 << p) - 1)) << (k - p);
                                    d |= this[--i] >> (p += this.DB - k);
                                  } else {
                                    d = (this[i] >> (p -= k)) & km;
                                    if (p <= 0) {
                                      p += this.DB;
                                      --i;
                                    }
                                  }
                                  if (d > 0) m = true;
                                  if (m) r += int2char(d);
                                }
                              }
                              return m ? r : "0";
                            };
                        
                            // (public) -this
                            BigInteger.prototype.negate = function () {
                              var r = nbi();
                              BigInteger.ZERO.subTo(this, r);
                              return r;
                            };
                        
                            // (public) |this|
                            BigInteger.prototype.abs = function () {
                              return this.s < 0 ? this.negate() : this;
                            };
                        
                            // (public) return + if this > a, - if this < a, 0 if equal
                            BigInteger.prototype.compareTo = function (a) {
                              var r = this.s - a.s;
                              if (r != 0) return r;
                              var i = this.t;
                              r = i - a.t;
                              if (r != 0) return this.s < 0 ? -r : r;
                              while (--i >= 0) if ((r = this[i] - a[i]) != 0) return r;
                              return 0;
                            };
                        
                            // (public) return the number of bits in "this"
                            BigInteger.prototype.bitLength = function () {
                              if (this.t <= 0) return 0;
                              return (
                                this.DB * (this.t - 1) + nbits(this[this.t - 1] ^ (this.s & this.DM))
                              );
                            };
                        
                            // (public) this mod a
                            BigInteger.prototype.mod = function (a) {
                              var r = nbi();
                              this.abs().divRemTo(a, null, r);
                              if (this.s < 0 && r.compareTo(BigInteger.ZERO) > 0) a.subTo(r, r);
                              return r;
                            };
                        
                            // (public) this^e % m, 0 <= e < 2^32
                            BigInteger.prototype.modPowInt = function (e, m) {
                              var z;
                              if (e < 256 || m.isEven()) z = new Classic(m);
                              else z = new Montgomery(m);
                              return this.exp(e, z);
                            };
                        
                            // "constants"
                            BigInteger.ZERO = nbv(0);
                            BigInteger.ONE = nbv(1);
                        
                            // Copyright (c) 2005-2009  Tom Wu
                            // All Rights Reserved.
                            // See "LICENSE" for details.
                            // Extended JavaScript BN functions, required for RSA private ops.
                            // Version 1.1: new BigInteger("0", 10) returns "proper" zero
                            // Version 1.2: square() API, isProbablePrime fix
                        
                            // return index of lowest 1-bit in x, x < 2^31
                            function lbit(x) {
                              if (x == 0) return -1;
                              var r = 0;
                              if ((x & 0xffff) == 0) {
                                x >>= 16;
                                r += 16;
                              }
                              if ((x & 0xff) == 0) {
                                x >>= 8;
                                r += 8;
                              }
                              if ((x & 0xf) == 0) {
                                x >>= 4;
                                r += 4;
                              }
                              if ((x & 3) == 0) {
                                x >>= 2;
                                r += 2;
                              }
                              if ((x & 1) == 0) ++r;
                              return r;
                            }
                        
                            // return number of 1 bits in x
                            function cbit(x) {
                              var r = 0;
                              while (x != 0) {
                                x &= x - 1;
                                ++r;
                              }
                              return r;
                            }
                        
                            var lowprimes = [
                              2, 3, 5, 7, 11, 13, 17, 19, 23, 29, 31, 37, 41, 43, 47, 53, 59, 61, 67,
                              71, 73, 79, 83, 89, 97, 101, 103, 107, 109, 113, 127, 131, 137, 139,
                              149, 151, 157, 163, 167, 173, 179, 181, 191, 193, 197, 199, 211, 223,
                              227, 229, 233, 239, 241, 251, 257, 263, 269, 271, 277, 281, 283, 293,
                              307, 311, 313, 317, 331, 337, 347, 349, 353, 359, 367, 373, 379, 383,
                              389, 397, 401, 409, 419, 421, 431, 433, 439, 443, 449, 457, 461, 463,
                              467, 479, 487, 491, 499, 503, 509, 521, 523, 541, 547, 557, 563, 569,
                              571, 577, 587, 593, 599, 601, 607, 613, 617, 619, 631, 641, 643, 647,
                              653, 659, 661, 673, 677, 683, 691, 701, 709, 719, 727, 733, 739, 743,
                              751, 757, 761, 769, 773, 787, 797, 809, 811, 821, 823, 827, 829, 839,
                              853, 857, 859, 863, 877, 881, 883, 887, 907, 911, 919, 929, 937, 941,
                              947, 953, 967, 971, 977, 983, 991, 997,
                            ];
                            var lplim = (1 << 26) / lowprimes[lowprimes.length - 1];
                        
                            // (protected) return x s.t. r^x < DV
                            BigInteger.prototype.chunkSize = function (r) {
                              return Math.floor((Math.LN2 * this.DB) / Math.log(r));
                            };
                        
                            // (protected) convert to radix string
                            BigInteger.prototype.toRadix = function (b) {
                              if (b == null) b = 10;
                              if (this.signum() == 0 || b < 2 || b > 36) return "0";
                              var cs = this.chunkSize(b);
                              var a = Math.pow(b, cs);
                              var d = nbv(a),
                                y = nbi(),
                                z = nbi(),
                                r = "";
                              this.divRemTo(d, y, z);
                              while (y.signum() > 0) {
                                r = (a + z.intValue()).toString(b).substr(1) + r;
                                y.divRemTo(d, y, z);
                              }
                              return z.intValue().toString(b) + r;
                            };
                        
                            // (protected) convert from radix string
                            BigInteger.prototype.fromRadix = function (s, b) {
                              this.fromInt(0);
                              if (b == null) b = 10;
                              var cs = this.chunkSize(b);
                              var d = Math.pow(b, cs),
                                mi = false,
                                j = 0,
                                w = 0;
                              for (var i = 0; i < s.length; ++i) {
                                var x = intAt(s, i);
                                if (x < 0) {
                                  if (s.charAt(i) == "-" && this.signum() == 0) mi = true;
                                  continue;
                                }
                                w = b * w + x;
                                if (++j >= cs) {
                                  this.dMultiply(d);
                                  this.dAddOffset(w, 0);
                                  j = 0;
                                  w = 0;
                                }
                              }
                              if (j > 0) {
                                this.dMultiply(Math.pow(b, j));
                                this.dAddOffset(w, 0);
                              }
                              if (mi) BigInteger.ZERO.subTo(this, this);
                            };
                        
                            // (protected) alternate constructor
                            BigInteger.prototype.fromNumber = function (a, b, c) {
                              if ("number" == typeof b) {
                                // new BigInteger(int,int,RNG)
                                if (a < 2) this.fromInt(1);
                                else {
                                  this.fromNumber(a, c);
                                  if (!this.testBit(a - 1))
                                    // force MSB set
                                    this.bitwiseTo(BigInteger.ONE.shiftLeft(a - 1), op_or, this);
                                  if (this.isEven()) this.dAddOffset(1, 0); // force odd
                                  while (!this.isProbablePrime(b)) {
                                    this.dAddOffset(2, 0);
                                    if (this.bitLength() > a)
                                      this.subTo(BigInteger.ONE.shiftLeft(a - 1), this);
                                  }
                                }
                              } else {
                                // new BigInteger(int,RNG)
                                var x = new Array(),
                                  t = a & 7;
                                x.length = (a >> 3) + 1;
                                b.nextBytes(x);
                                if (t > 0) x[0] &= (1 << t) - 1;
                                else x[0] = 0;
                                this.fromString(x, 256);
                              }
                            };
                        
                            // (protected) r = this op a (bitwise)
                            BigInteger.prototype.bitwiseTo = function (a, op, r) {
                              var i,
                                f,
                                m = Math.min(a.t, this.t);
                              for (i = 0; i < m; ++i) r[i] = op(this[i], a[i]);
                              if (a.t < this.t) {
                                f = a.s & this.DM;
                                for (i = m; i < this.t; ++i) r[i] = op(this[i], f);
                                r.t = this.t;
                              } else {
                                f = this.s & this.DM;
                                for (i = m; i < a.t; ++i) r[i] = op(f, a[i]);
                                r.t = a.t;
                              }
                              r.s = op(this.s, a.s);
                              r.clamp();
                            };
                        
                            // (protected) this op (1<<n)
                            BigInteger.prototype.changeBit = function (n, op) {
                              var r = BigInteger.ONE.shiftLeft(n);
                              this.bitwiseTo(r, op, r);
                              return r;
                            };
                        
                            // (protected) r = this + a
                            BigInteger.prototype.addTo = function (a, r) {
                              var i = 0,
                                c = 0,
                                m = Math.min(a.t, this.t);
                              while (i < m) {
                                c += this[i] + a[i];
                                r[i++] = c & this.DM;
                                c >>= this.DB;
                              }
                              if (a.t < this.t) {
                                c += a.s;
                                while (i < this.t) {
                                  c += this[i];
                                  r[i++] = c & this.DM;
                                  c >>= this.DB;
                                }
                                c += this.s;
                              } else {
                                c += this.s;
                                while (i < a.t) {
                                  c += a[i];
                                  r[i++] = c & this.DM;
                                  c >>= this.DB;
                                }
                                c += a.s;
                              }
                              r.s = c < 0 ? -1 : 0;
                              if (c > 0) r[i++] = c;
                              else if (c < -1) r[i++] = this.DV + c;
                              r.t = i;
                              r.clamp();
                            };
                        
                            // (protected) this *= n, this >= 0, 1 < n < DV
                            BigInteger.prototype.dMultiply = function (n) {
                              this[this.t] = this.am(0, n - 1, this, 0, 0, this.t);
                              ++this.t;
                              this.clamp();
                            };
                        
                            // (protected) this += n << w words, this >= 0
                            BigInteger.prototype.dAddOffset = function (n, w) {
                              if (n == 0) return;
                              while (this.t <= w) this[this.t++] = 0;
                              this[w] += n;
                              while (this[w] >= this.DV) {
                                this[w] -= this.DV;
                                if (++w >= this.t) this[this.t++] = 0;
                                ++this[w];
                              }
                            };
                        
                            // (protected) r = lower n words of "this * a", a.t <= n
                            // "this" should be the larger one if appropriate.
                            BigInteger.prototype.multiplyLowerTo = function (a, n, r) {
                              var i = Math.min(this.t + a.t, n);
                              r.s = 0; // assumes a,this >= 0
                              r.t = i;
                              while (i > 0) r[--i] = 0;
                              var j;
                              for (j = r.t - this.t; i < j; ++i)
                                r[i + this.t] = this.am(0, a[i], r, i, 0, this.t);
                              for (j = Math.min(a.t, n); i < j; ++i) this.am(0, a[i], r, i, 0, n - i);
                              r.clamp();
                            };
                        
                            // (protected) r = "this * a" without lower n words, n > 0
                            // "this" should be the larger one if appropriate.
                            BigInteger.prototype.multiplyUpperTo = function (a, n, r) {
                              --n;
                              var i = (r.t = this.t + a.t - n);
                              r.s = 0; // assumes a,this >= 0
                              while (--i >= 0) r[i] = 0;
                              for (i = Math.max(n - this.t, 0); i < a.t; ++i)
                                r[this.t + i - n] = this.am(n - i, a[i], r, 0, 0, this.t + i - n);
                              r.clamp();
                              r.drShiftTo(1, r);
                            };
                        
                            // (protected) this % n, n < 2^26
                            BigInteger.prototype.modInt = function (n) {
                              if (n <= 0) return 0;
                              var d = this.DV % n,
                                r = this.s < 0 ? n - 1 : 0;
                              if (this.t > 0)
                                if (d == 0) r = this[0] % n;
                                else for (var i = this.t - 1; i >= 0; --i) r = (d * r + this[i]) % n;
                              return r;
                            };
                        
                            // (protected) true if probably prime (HAC 4.24, Miller-Rabin)
                            BigInteger.prototype.millerRabin = function (t) {
                              var n1 = this.subtract(BigInteger.ONE);
                              var k = n1.getLowestSetBit();
                              if (k <= 0) return false;
                              var r = n1.shiftRight(k);
                              t = (t + 1) >> 1;
                              if (t > lowprimes.length) t = lowprimes.length;
                              var a = nbi();
                              for (var i = 0; i < t; ++i) {
                                //Pick bases at random, instead of starting at 2
                                a.fromInt(lowprimes[Math.floor(Math.random() * lowprimes.length)]);
                                var y = a.modPow(r, this);
                                if (y.compareTo(BigInteger.ONE) != 0 && y.compareTo(n1) != 0) {
                                  var j = 1;
                                  while (j++ < k && y.compareTo(n1) != 0) {
                                    y = y.modPowInt(2, this);
                                    if (y.compareTo(BigInteger.ONE) == 0) return false;
                                  }
                                  if (y.compareTo(n1) != 0) return false;
                                }
                              }
                              return true;
                            };
                        
                            // (public)
                            BigInteger.prototype.clone = function () {
                              var r = nbi();
                              this.copyTo(r);
                              return r;
                            };
                        
                            // (public) return value as integer
                            BigInteger.prototype.intValue = function () {
                              if (this.s < 0) {
                                if (this.t == 1) return this[0] - this.DV;
                                else if (this.t == 0) return -1;
                              } else if (this.t == 1) return this[0];
                              else if (this.t == 0) return 0;
                              // assumes 16 < DB < 32
                              return ((this[1] & ((1 << (32 - this.DB)) - 1)) << this.DB) | this[0];
                            };
                        
                            // (public) return value as byte
                            BigInteger.prototype.byteValue = function () {
                              return this.t == 0 ? this.s : (this[0] << 24) >> 24;
                            };
                        
                            // (public) return value as short (assumes DB>=16)
                            BigInteger.prototype.shortValue = function () {
                              return this.t == 0 ? this.s : (this[0] << 16) >> 16;
                            };
                        
                            // (public) 0 if this == 0, 1 if this > 0
                            BigInteger.prototype.signum = function () {
                              if (this.s < 0) return -1;
                              else if (this.t <= 0 || (this.t == 1 && this[0] <= 0)) return 0;
                              else return 1;
                            };
                        
                            // (public) convert to bigendian byte array
                            BigInteger.prototype.toByteArray = function () {
                              var i = this.t,
                                r = new Array();
                              r[0] = this.s;
                              var p = this.DB - ((i * this.DB) % 8),
                                d,
                                k = 0;
                              if (i-- > 0) {
                                if (p < this.DB && (d = this[i] >> p) != (this.s & this.DM) >> p)
                                  r[k++] = d | (this.s << (this.DB - p));
                                while (i >= 0) {
                                  if (p < 8) {
                                    d = (this[i] & ((1 << p) - 1)) << (8 - p);
                                    d |= this[--i] >> (p += this.DB - 8);
                                  } else {
                                    d = (this[i] >> (p -= 8)) & 0xff;
                                    if (p <= 0) {
                                      p += this.DB;
                                      --i;
                                    }
                                  }
                                  if ((d & 0x80) != 0) d |= -256;
                                  if (k == 0 && (this.s & 0x80) != (d & 0x80)) ++k;
                                  if (k > 0 || d != this.s) r[k++] = d;
                                }
                              }
                              return r;
                            };
                        
                            BigInteger.prototype.equals = function (a) {
                              return this.compareTo(a) == 0;
                            };
                            BigInteger.prototype.min = function (a) {
                              return this.compareTo(a) < 0 ? this : a;
                            };
                            BigInteger.prototype.max = function (a) {
                              return this.compareTo(a) > 0 ? this : a;
                            };
                        
                            // (public) this & a
                            function op_and(x, y) {
                              return x & y;
                            }
                            BigInteger.prototype.and = function (a) {
                              var r = nbi();
                              this.bitwiseTo(a, op_and, r);
                              return r;
                            };
                        
                            // (public) this | a
                            function op_or(x, y) {
                              return x | y;
                            }
                            BigInteger.prototype.or = function (a) {
                              var r = nbi();
                              this.bitwiseTo(a, op_or, r);
                              return r;
                            };
                        
                            // (public) this ^ a
                            function op_xor(x, y) {
                              return x ^ y;
                            }
                            BigInteger.prototype.xor = function (a) {
                              var r = nbi();
                              this.bitwiseTo(a, op_xor, r);
                              return r;
                            };
                        
                            // (public) this & ~a
                            function op_andnot(x, y) {
                              return x & ~y;
                            }
                            BigInteger.prototype.andNot = function (a) {
                              var r = nbi();
                              this.bitwiseTo(a, op_andnot, r);
                              return r;
                            };
                        
                            // (public) ~this
                            BigInteger.prototype.not = function () {
                              var r = nbi();
                              for (var i = 0; i < this.t; ++i) r[i] = this.DM & ~this[i];
                              r.t = this.t;
                              r.s = ~this.s;
                              return r;
                            };
                        
                            // (public) this << n
                            BigInteger.prototype.shiftLeft = function (n) {
                              var r = nbi();
                              if (n < 0) this.rShiftTo(-n, r);
                              else this.lShiftTo(n, r);
                              return r;
                            };
                        
                            // (public) this >> n
                            BigInteger.prototype.shiftRight = function (n) {
                              var r = nbi();
                              if (n < 0) this.lShiftTo(-n, r);
                              else this.rShiftTo(n, r);
                              return r;
                            };
                        
                            // (public) returns index of lowest 1-bit (or -1 if none)
                            BigInteger.prototype.getLowestSetBit = function () {
                              for (var i = 0; i < this.t; ++i)
                                if (this[i] != 0) return i * this.DB + lbit(this[i]);
                              if (this.s < 0) return this.t * this.DB;
                              return -1;
                            };
                        
                            // (public) return number of set bits
                            BigInteger.prototype.bitCount = function () {
                              var r = 0,
                                x = this.s & this.DM;
                              for (var i = 0; i < this.t; ++i) r += cbit(this[i] ^ x);
                              return r;
                            };
                        
                            // (public) true iff nth bit is set
                            BigInteger.prototype.testBit = function (n) {
                              var j = Math.floor(n / this.DB);
                              if (j >= this.t) return this.s != 0;
                              return (this[j] & (1 << n % this.DB)) != 0;
                            };
                        
                            // (public) this | (1<<n)
                            BigInteger.prototype.setBit = function (n) {
                              return this.changeBit(n, op_or);
                            };
                            // (public) this & ~(1<<n)
                            BigInteger.prototype.clearBit = function (n) {
                              return this.changeBit(n, op_andnot);
                            };
                            // (public) this ^ (1<<n)
                            BigInteger.prototype.flipBit = function (n) {
                              return this.changeBit(n, op_xor);
                            };
                            // (public) this + a
                            BigInteger.prototype.add = function (a) {
                              var r = nbi();
                              this.addTo(a, r);
                              return r;
                            };
                            // (public) this - a
                            BigInteger.prototype.subtract = function (a) {
                              var r = nbi();
                              this.subTo(a, r);
                              return r;
                            };
                            // (public) this * a
                            BigInteger.prototype.multiply = function (a) {
                              var r = nbi();
                              this.multiplyTo(a, r);
                              return r;
                            };
                            // (public) this / a
                            BigInteger.prototype.divide = function (a) {
                              var r = nbi();
                              this.divRemTo(a, r, null);
                              return r;
                            };
                            // (public) this % a
                            BigInteger.prototype.remainder = function (a) {
                              var r = nbi();
                              this.divRemTo(a, null, r);
                              return r;
                            };
                            // (public) [this/a,this%a]
                            BigInteger.prototype.divideAndRemainder = function (a) {
                              var q = nbi(),
                                r = nbi();
                              this.divRemTo(a, q, r);
                              return new Array(q, r);
                            };
                        
                            // (public) this^e % m (HAC 14.85)
                            BigInteger.prototype.modPow = function (e, m) {
                              var i = e.bitLength(),
                                k,
                                r = nbv(1),
                                z;
                              if (i <= 0) return r;
                              else if (i < 18) k = 1;
                              else if (i < 48) k = 3;
                              else if (i < 144) k = 4;
                              else if (i < 768) k = 5;
                              else k = 6;
                              if (i < 8) z = new Classic(m);
                              else if (m.isEven()) z = new Barrett(m);
                              else z = new Montgomery(m);
                        
                              // precomputation
                              var g = new Array(),
                                n = 3,
                                k1 = k - 1,
                                km = (1 << k) - 1;
                              g[1] = z.convert(this);
                              if (k > 1) {
                                var g2 = nbi();
                                z.sqrTo(g[1], g2);
                                while (n <= km) {
                                  g[n] = nbi();
                                  z.mulTo(g2, g[n - 2], g[n]);
                                  n += 2;
                                }
                              }
                        
                              var j = e.t - 1,
                                w,
                                is1 = true,
                                r2 = nbi(),
                                t;
                              i = nbits(e[j]) - 1;
                              while (j >= 0) {
                                if (i >= k1) w = (e[j] >> (i - k1)) & km;
                                else {
                                  w = (e[j] & ((1 << (i + 1)) - 1)) << (k1 - i);
                                  if (j > 0) w |= e[j - 1] >> (this.DB + i - k1);
                                }
                        
                                n = k;
                                while ((w & 1) == 0) {
                                  w >>= 1;
                                  --n;
                                }
                                if ((i -= n) < 0) {
                                  i += this.DB;
                                  --j;
                                }
                                if (is1) {
                                  // ret == 1, don't bother squaring or multiplying it
                                  g[w].copyTo(r);
                                  is1 = false;
                                } else {
                                  while (n > 1) {
                                    z.sqrTo(r, r2);
                                    z.sqrTo(r2, r);
                                    n -= 2;
                                  }
                                  if (n > 0) z.sqrTo(r, r2);
                                  else {
                                    t = r;
                                    r = r2;
                                    r2 = t;
                                  }
                                  z.mulTo(r2, g[w], r);
                                }
                        
                                while (j >= 0 && (e[j] & (1 << i)) == 0) {
                                  z.sqrTo(r, r2);
                                  t = r;
                                  r = r2;
                                  r2 = t;
                                  if (--i < 0) {
                                    i = this.DB - 1;
                                    --j;
                                  }
                                }
                              }
                              return z.revert(r);
                            };
                        
                            // (public) 1/this % m (HAC 14.61)
                            BigInteger.prototype.modInverse = function (m) {
                              var ac = m.isEven();
                              if (this.signum() === 0) throw new Error("division by zero");
                              if ((this.isEven() && ac) || m.signum() == 0) return BigInteger.ZERO;
                              var u = m.clone(),
                                v = this.clone();
                              var a = nbv(1),
                                b = nbv(0),
                                c = nbv(0),
                                d = nbv(1);
                              while (u.signum() != 0) {
                                while (u.isEven()) {
                                  u.rShiftTo(1, u);
                                  if (ac) {
                                    if (!a.isEven() || !b.isEven()) {
                                      a.addTo(this, a);
                                      b.subTo(m, b);
                                    }
                                    a.rShiftTo(1, a);
                                  } else if (!b.isEven()) b.subTo(m, b);
                                  b.rShiftTo(1, b);
                                }
                                while (v.isEven()) {
                                  v.rShiftTo(1, v);
                                  if (ac) {
                                    if (!c.isEven() || !d.isEven()) {
                                      c.addTo(this, c);
                                      d.subTo(m, d);
                                    }
                                    c.rShiftTo(1, c);
                                  } else if (!d.isEven()) d.subTo(m, d);
                                  d.rShiftTo(1, d);
                                }
                                if (u.compareTo(v) >= 0) {
                                  u.subTo(v, u);
                                  if (ac) a.subTo(c, a);
                                  b.subTo(d, b);
                                } else {
                                  v.subTo(u, v);
                                  if (ac) c.subTo(a, c);
                                  d.subTo(b, d);
                                }
                              }
                              if (v.compareTo(BigInteger.ONE) != 0) return BigInteger.ZERO;
                              while (d.compareTo(m) >= 0) d.subTo(m, d);
                              while (d.signum() < 0) d.addTo(m, d);
                              return d;
                            };
                        
                            // (public) this^e
                            BigInteger.prototype.pow = function (e) {
                              return this.exp(e, new NullExp());
                            };
                        
                            // (public) gcd(this,a) (HAC 14.54)
                            BigInteger.prototype.gcd = function (a) {
                              var x = this.s < 0 ? this.negate() : this.clone();
                              var y = a.s < 0 ? a.negate() : a.clone();
                              if (x.compareTo(y) < 0) {
                                var t = x;
                                x = y;
                                y = t;
                              }
                              var i = x.getLowestSetBit(),
                                g = y.getLowestSetBit();
                              if (g < 0) return x;
                              if (i < g) g = i;
                              if (g > 0) {
                                x.rShiftTo(g, x);
                                y.rShiftTo(g, y);
                              }
                              while (x.signum() > 0) {
                                if ((i = x.getLowestSetBit()) > 0) x.rShiftTo(i, x);
                                if ((i = y.getLowestSetBit()) > 0) y.rShiftTo(i, y);
                                if (x.compareTo(y) >= 0) {
                                  x.subTo(y, x);
                                  x.rShiftTo(1, x);
                                } else {
                                  y.subTo(x, y);
                                  y.rShiftTo(1, y);
                                }
                              }
                              if (g > 0) y.lShiftTo(g, y);
                              return y;
                            };
                        
                            // (public) test primality with certainty >= 1-.5^t
                            BigInteger.prototype.isProbablePrime = function (t) {
                              var i,
                                x = this.abs();
                              if (x.t == 1 && x[0] <= lowprimes[lowprimes.length - 1]) {
                                for (i = 0; i < lowprimes.length; ++i)
                                  if (x[0] == lowprimes[i]) return true;
                                return false;
                              }
                              if (x.isEven()) return false;
                              i = 1;
                              while (i < lowprimes.length) {
                                var m = lowprimes[i],
                                  j = i + 1;
                                while (j < lowprimes.length && m < lplim) m *= lowprimes[j++];
                                m = x.modInt(m);
                                while (i < j) if (m % lowprimes[i++] == 0) return false;
                              }
                              return x.millerRabin(t);
                            };
                        
                            // JSBN-specific extension
                        
                            // (public) this^2
                            BigInteger.prototype.square = function () {
                              var r = nbi();
                              this.squareTo(r);
                              return r;
                            };
                        
                            // NOTE: BigInteger interfaces not implemented in jsbn:
                            // BigInteger(int signum, byte[] magnitude)
                            // double doubleValue()
                            // float floatValue()
                            // int hashCode()
                            // long longValue()
                            // static BigInteger valueOf(long val)
                        
                            // Copyright Stephan Thomas (start) --- //
                            // https://raw.github.com/bitcoinjs/bitcoinjs-lib/07f9d55ccb6abd962efb6befdd37671f85ea4ff9/src/util.js
                            // BigInteger monkey patching
                            BigInteger.valueOf = nbv;
                        
                            /**
                             * Returns a byte array representation of the big integer.
                             *
                             * This returns the absolute of the contained value in big endian
                             * form. A value of zero results in an empty array.
                             */
                            BigInteger.prototype.toByteArrayUnsigned = function () {
                              var ba = this.abs().toByteArray();
                              if (ba.length) {
                                if (ba[0] == 0) {
                                  ba = ba.slice(1);
                                }
                                return ba.map(function (v) {
                                  return v < 0 ? v + 256 : v;
                                });
                              } else {
                                // Empty array, nothing to do
                                return ba;
                              }
                            };
                        
                            /**
                             * Turns a byte array into a big integer.
                             *
                             * This function will interpret a byte array as a big integer in big
                             * endian notation and ignore leading zeros.
                             */
                            BigInteger.fromByteArrayUnsigned = function (ba) {
                              if (!ba.length) {
                                return ba.valueOf(0);
                              } else if (ba[0] & 0x80) {
                                // Prepend a zero so the BigInteger class doesn't mistake this
                                // for a negative integer.
                                return new BigInteger([0].concat(ba));
                              } else {
                                return new BigInteger(ba);
                              }
                            };
                        
                            /**
                             * Converts big integer to signed byte representation.
                             *
                             * The format for this value uses a the most significant bit as a sign
                             * bit. If the most significant bit is already occupied by the
                             * absolute value, an extra byte is prepended and the sign bit is set
                             * there.
                             *
                             * Examples:
                             *
                             *      0 =>     0x00
                             *      1 =>     0x01
                             *     -1 =>     0x81
                             *    127 =>     0x7f
                             *   -127 =>     0xff
                             *    128 =>   0x0080
                             *   -128 =>   0x8080
                             *    255 =>   0x00ff
                             *   -255 =>   0x80ff
                             *  16300 =>   0x3fac
                             * -16300 =>   0xbfac
                             *  62300 => 0x00f35c
                             * -62300 => 0x80f35c
                             */
                            BigInteger.prototype.toByteArraySigned = function () {
                              var val = this.abs().toByteArrayUnsigned();
                              var neg = this.compareTo(BigInteger.ZERO) < 0;
                        
                              if (neg) {
                                if (val[0] & 0x80) {
                                  val.unshift(0x80);
                                } else {
                                  val[0] |= 0x80;
                                }
                              } else {
                                if (val[0] & 0x80) {
                                  val.unshift(0x00);
                                }
                              }
                        
                              return val;
                            };
                        
                            /**
                             * Parse a signed big integer byte representation.
                             *
                             * For details on the format please see BigInteger.toByteArraySigned.
                             */
                            BigInteger.fromByteArraySigned = function (ba) {
                              // Check for negative value
                              if (ba[0] & 0x80) {
                                // Remove sign bit
                                ba[0] &= 0x7f;
                        
                                return BigInteger.fromByteArrayUnsigned(ba).negate();
                              } else {
                                return BigInteger.fromByteArrayUnsigned(ba);
                              }
                            };
                            // Copyright Stephan Thomas (end) --- //
                        
                            // ****** REDUCTION ******* //
                        
                            // Modular reduction using "classic" algorithm
                            var Classic = (window.Classic = function Classic(m) {
                              this.m = m;
                            });
                            Classic.prototype.convert = function (x) {
                              if (x.s < 0 || x.compareTo(this.m) >= 0) return x.mod(this.m);
                              else return x;
                            };
                            Classic.prototype.revert = function (x) {
                              return x;
                            };
                            Classic.prototype.reduce = function (x) {
                              x.divRemTo(this.m, null, x);
                            };
                            Classic.prototype.mulTo = function (x, y, r) {
                              x.multiplyTo(y, r);
                              this.reduce(r);
                            };
                            Classic.prototype.sqrTo = function (x, r) {
                              x.squareTo(r);
                              this.reduce(r);
                            };
                        
                            // Montgomery reduction
                            var Montgomery = (window.Montgomery = function Montgomery(m) {
                              this.m = m;
                              this.mp = m.invDigit();
                              this.mpl = this.mp & 0x7fff;
                              this.mph = this.mp >> 15;
                              this.um = (1 << (m.DB - 15)) - 1;
                              this.mt2 = 2 * m.t;
                            });
                            // xR mod m
                            Montgomery.prototype.convert = function (x) {
                              var r = nbi();
                              x.abs().dlShiftTo(this.m.t, r);
                              r.divRemTo(this.m, null, r);
                              if (x.s < 0 && r.compareTo(BigInteger.ZERO) > 0) this.m.subTo(r, r);
                              return r;
                            };
                            // x/R mod m
                            Montgomery.prototype.revert = function (x) {
                              var r = nbi();
                              x.copyTo(r);
                              this.reduce(r);
                              return r;
                            };
                            // x = x/R mod m (HAC 14.32)
                            Montgomery.prototype.reduce = function (x) {
                              while (x.t <= this.mt2)
                                // pad x so am has enough room later
                                x[x.t++] = 0;
                              for (var i = 0; i < this.m.t; ++i) {
                                // faster way of calculating u0 = x[i]*mp mod DV
                                var j = x[i] & 0x7fff;
                                var u0 =
                                  (j * this.mpl +
                                    (((j * this.mph + (x[i] >> 15) * this.mpl) & this.um) << 15)) &
                                  x.DM;
                                // use am to combine the multiply-shift-add into one call
                                j = i + this.m.t;
                                x[j] += this.m.am(0, u0, x, i, 0, this.m.t);
                                // propagate carry
                                while (x[j] >= x.DV) {
                                  x[j] -= x.DV;
                                  x[++j]++;
                                }
                              }
                              x.clamp();
                              x.drShiftTo(this.m.t, x);
                              if (x.compareTo(this.m) >= 0) x.subTo(this.m, x);
                            };
                            // r = "xy/R mod m"; x,y != r
                            Montgomery.prototype.mulTo = function (x, y, r) {
                              x.multiplyTo(y, r);
                              this.reduce(r);
                            };
                            // r = "x^2/R mod m"; x != r
                            Montgomery.prototype.sqrTo = function (x, r) {
                              x.squareTo(r);
                              this.reduce(r);
                            };
                        
                            // A "null" reducer
                            var NullExp = (window.NullExp = function NullExp() {});
                            NullExp.prototype.convert = function (x) {
                              return x;
                            };
                            NullExp.prototype.revert = function (x) {
                              return x;
                            };
                            NullExp.prototype.mulTo = function (x, y, r) {
                              x.multiplyTo(y, r);
                            };
                            NullExp.prototype.sqrTo = function (x, r) {
                              x.squareTo(r);
                            };
                        
                            // Barrett modular reduction
                            var Barrett = (window.Barrett = function Barrett(m) {
                              // setup Barrett
                              this.r2 = nbi();
                              this.q3 = nbi();
                              BigInteger.ONE.dlShiftTo(2 * m.t, this.r2);
                              this.mu = this.r2.divide(m);
                              this.m = m;
                            });
                            Barrett.prototype.convert = function (x) {
                              if (x.s < 0 || x.t > 2 * this.m.t) return x.mod(this.m);
                              else if (x.compareTo(this.m) < 0) return x;
                              else {
                                var r = nbi();
                                x.copyTo(r);
                                this.reduce(r);
                                return r;
                              }
                            };
                            Barrett.prototype.revert = function (x) {
                              return x;
                            };
                            // x = x mod m (HAC 14.42)
                            Barrett.prototype.reduce = function (x) {
                              x.drShiftTo(this.m.t - 1, this.r2);
                              if (x.t > this.m.t + 1) {
                                x.t = this.m.t + 1;
                                x.clamp();
                              }
                              this.mu.multiplyUpperTo(this.r2, this.m.t + 1, this.q3);
                              this.m.multiplyLowerTo(this.q3, this.m.t + 1, this.r2);
                              while (x.compareTo(this.r2) < 0) x.dAddOffset(1, this.m.t + 1);
                              x.subTo(this.r2, x);
                              while (x.compareTo(this.m) >= 0) x.subTo(this.m, x);
                            };
                            // r = x*y mod m; x,y != r
                            Barrett.prototype.mulTo = function (x, y, r) {
                              x.multiplyTo(y, r);
                              this.reduce(r);
                            };
                            // r = x^2 mod m; x != r
                            Barrett.prototype.sqrTo = function (x, r) {
                              x.squareTo(r);
                              this.reduce(r);
                            };
                          })();
                        
                          // BigInteger interfaces not implemented in jsbn:
                        
                          // BigInteger(int signum, byte[] magnitude)
                          // double doubleValue()
                          // float floatValue()
                          // int hashCode()
                          // long longValue()
                          // static BigInteger valueOf(long val)
                        
                          //ellipticcurve.js
                          /*!
                           * Basic Javascript Elliptic Curve implementation
                           * Ported loosely from BouncyCastle's Java EC code
                           * Only Fp curves implemented for now
                           *
                           * Copyright Tom Wu, bitaddress.org  BSD License.
                           * http://www-cs-students.stanford.edu/~tjw/jsbn/LICENSE
                           */
                          (function () {
                            // Constructor function of Global EllipticCurve object
                            var ec = (window.EllipticCurve = function () {});
                        
                            // ----------------
                            // ECFieldElementFp constructor
                            // q instanceof BigInteger
                            // x instanceof BigInteger
                            ec.FieldElementFp = function (q, x) {
                              this.x = x;
                              // TODO if(x.compareTo(q) >= 0) error
                              this.q = q;
                            };
                        
                            ec.FieldElementFp.prototype.equals = function (other) {
                              if (other == this) return true;
                              return this.q.equals(other.q) && this.x.equals(other.x);
                            };
                        
                            ec.FieldElementFp.prototype.toBigInteger = function () {
                              return this.x;
                            };
                        
                            ec.FieldElementFp.prototype.negate = function () {
                              return new ec.FieldElementFp(this.q, this.x.negate().mod(this.q));
                            };
                        
                            ec.FieldElementFp.prototype.add = function (b) {
                              return new ec.FieldElementFp(
                                this.q,
                                this.x.add(b.toBigInteger()).mod(this.q)
                              );
                            };
                        
                            ec.FieldElementFp.prototype.subtract = function (b) {
                              return new ec.FieldElementFp(
                                this.q,
                                this.x.subtract(b.toBigInteger()).mod(this.q)
                              );
                            };
                        
                            ec.FieldElementFp.prototype.multiply = function (b) {
                              return new ec.FieldElementFp(
                                this.q,
                                this.x.multiply(b.toBigInteger()).mod(this.q)
                              );
                            };
                        
                            ec.FieldElementFp.prototype.square = function () {
                              return new ec.FieldElementFp(this.q, this.x.square().mod(this.q));
                            };
                        
                            ec.FieldElementFp.prototype.divide = function (b) {
                              return new ec.FieldElementFp(
                                this.q,
                                this.x.multiply(b.toBigInteger().modInverse(this.q)).mod(this.q)
                              );
                            };
                        
                            ec.FieldElementFp.prototype.getByteLength = function () {
                              return Math.floor((this.toBigInteger().bitLength() + 7) / 8);
                            };
                        
                            // D.1.4 91
                            /**
                             * return a sqrt root - the routine verifies that the calculation
                             * returns the right value - if none exists it returns null.
                             *
                             * Copyright (c) 2000 - 2011 The Legion Of The Bouncy Castle (http://www.bouncycastle.org)
                             * Ported to JavaScript by bitaddress.org
                             */
                            ec.FieldElementFp.prototype.sqrt = function () {
                              if (!this.q.testBit(0)) throw new Error("even value of q");
                        
                              // p mod 4 == 3
                              if (this.q.testBit(1)) {
                                // z = g^(u+1) + p, p = 4u + 3
                                var z = new ec.FieldElementFp(
                                  this.q,
                                  this.x.modPow(this.q.shiftRight(2).add(BigInteger.ONE), this.q)
                                );
                                return z.square().equals(this) ? z : null;
                              }
                        
                              // p mod 4 == 1
                              var qMinusOne = this.q.subtract(BigInteger.ONE);
                              var legendreExponent = qMinusOne.shiftRight(1);
                              if (!this.x.modPow(legendreExponent, this.q).equals(BigInteger.ONE))
                                return null;
                              var u = qMinusOne.shiftRight(2);
                              var k = u.shiftLeft(1).add(BigInteger.ONE);
                              var Q = this.x;
                              var fourQ = Q.shiftLeft(2).mod(this.q);
                              var U, V;
                        
                              do {
                                var rand = new SecureRandom();
                                var P;
                                do {
                                  P = new BigInteger(this.q.bitLength(), rand);
                                } while (
                                  P.compareTo(this.q) >= 0 ||
                                  !P.multiply(P)
                                    .subtract(fourQ)
                                    .modPow(legendreExponent, this.q)
                                    .equals(qMinusOne)
                                );
                        
                                var result = ec.FieldElementFp.fastLucasSequence(this.q, P, Q, k);
                        
                                U = result[0];
                                V = result[1];
                                if (V.multiply(V).mod(this.q).equals(fourQ)) {
                                  // Integer division by 2, mod q
                                  if (V.testBit(0)) {
                                    V = V.add(this.q);
                                  }
                                  V = V.shiftRight(1);
                                  return new ec.FieldElementFp(this.q, V);
                                }
                              } while (U.equals(BigInteger.ONE) || U.equals(qMinusOne));
                        
                              return null;
                            };
                            /*!
                             * Crypto-JS 2.5.4 BlockModes.js
                             * contribution from Simon Greatrix
                             */
                        
                            (function (C) {
                              // Create pad namespace
                              var C_pad = (C.pad = {});
                        
                              // Calculate the number of padding bytes required.
                              function _requiredPadding(cipher, message) {
                                var blockSizeInBytes = cipher._blocksize * 4;
                                var reqd = blockSizeInBytes - (message.length % blockSizeInBytes);
                                return reqd;
                              }
                        
                              // Remove padding when the final byte gives the number of padding bytes.
                              var _unpadLength = function (cipher, message, alg, padding) {
                                var pad = message.pop();
                                if (pad == 0) {
                                  throw new Error(
                                    "Invalid zero-length padding specified for " +
                                      alg +
                                      ". Wrong cipher specification or key used?"
                                  );
                                }
                                var maxPad = cipher._blocksize * 4;
                                if (pad > maxPad) {
                                  throw new Error(
                                    "Invalid padding length of " +
                                      pad +
                                      " specified for " +
                                      alg +
                                      ". Wrong cipher specification or key used?"
                                  );
                                }
                                for (var i = 1; i < pad; i++) {
                                  var b = message.pop();
                                  if (padding != undefined && padding != b) {
                                    throw new Error(
                                      "Invalid padding byte of 0x" +
                                        b.toString(16) +
                                        " specified for " +
                                        alg +
                                        ". Wrong cipher specification or key used?"
                                    );
                                  }
                                }
                              };
                        
                              // No-operation padding, used for stream ciphers
                              C_pad.NoPadding = {
                                pad: function (cipher, message) {},
                                unpad: function (cipher, message) {},
                              };
                        
                              // Zero Padding.
                              //
                              // If the message is not an exact number of blocks, the final block is
                              // completed with 0x00 bytes. There is no unpadding.
                              C_pad.ZeroPadding = {
                                pad: function (cipher, message) {
                                  var blockSizeInBytes = cipher._blocksize * 4;
                                  var reqd = message.length % blockSizeInBytes;
                                  if (reqd != 0) {
                                    for (reqd = blockSizeInBytes - reqd; reqd > 0; reqd--) {
                                      message.push(0x00);
                                    }
                                  }
                                },
                        
                                unpad: function (cipher, message) {
                                  while (message[message.length - 1] == 0) {
                                    message.pop();
                                  }
                                },
                              };
                        
                              // ISO/IEC 7816-4 padding.
                              //
                              // Pads the plain text with an 0x80 byte followed by as many 0x00
                              // bytes are required to complete the block.
                              C_pad.iso7816 = {
                                pad: function (cipher, message) {
                                  var reqd = _requiredPadding(cipher, message);
                                  message.push(0x80);
                                  for (; reqd > 1; reqd--) {
                                    message.push(0x00);
                                  }
                                },
                        
                                unpad: function (cipher, message) {
                                  var padLength;
                                  for (
                                    padLength = cipher._blocksize * 4;
                                    padLength > 0;
                                    padLength--
                                  ) {
                                    var b = message.pop();
                                    if (b == 0x80) return;
                                    if (b != 0x00) {
                                      throw new Error(
                                        "ISO-7816 padding byte must be 0, not 0x" +
                                          b.toString(16) +
                                          ". Wrong cipher specification or key used?"
                                      );
                                    }
                                  }
                                  throw new Error(
                                    "ISO-7816 padded beyond cipher block size. Wrong cipher specification or key used?"
                                  );
                                },
                              };
                        
                              // ANSI X.923 padding
                              //
                              // The final block is padded with zeros except for the last byte of the
                              // last block which contains the number of padding bytes.
                              C_pad.ansix923 = {
                                pad: function (cipher, message) {
                                  var reqd = _requiredPadding(cipher, message);
                                  for (var i = 1; i < reqd; i++) {
                                    message.push(0x00);
                                  }
                                  message.push(reqd);
                                },
                        
                                unpad: function (cipher, message) {
                                  _unpadLength(cipher, message, "ANSI X.923", 0);
                                },
                              };
                        
                              // ISO 10126
                              //
                              // The final block is padded with random bytes except for the last
                              // byte of the last block which contains the number of padding bytes.
                              C_pad.iso10126 = {
                                pad: function (cipher, message) {
                                  var reqd = _requiredPadding(cipher, message);
                                  for (var i = 1; i < reqd; i++) {
                                    message.push(Math.floor(Math.random() * 256));
                                  }
                                  message.push(reqd);
                                },
                        
                                unpad: function (cipher, message) {
                                  _unpadLength(cipher, message, "ISO 10126", undefined);
                                },
                              };
                        
                              // PKCS7 padding
                              //
                              // PKCS7 is described in RFC 5652. Padding is in whole bytes. The
                              // value of each added byte is the number of bytes that are added,
                              // i.e. N bytes, each of value N are added.
                              C_pad.pkcs7 = {
                                pad: function (cipher, message) {
                                  var reqd = _requiredPadding(cipher, message);
                                  for (var i = 0; i < reqd; i++) {
                                    message.push(reqd);
                                  }
                                },
                        
                                unpad: function (cipher, message) {
                                  _unpadLength(
                                    cipher,
                                    message,
                                    "PKCS 7",
                                    message[message.length - 1]
                                  );
                                },
                              };
                        
                              // Create mode namespace
                              var C_mode = (C.mode = {});
                        
                              /**
                               * Mode base "class".
                               */
                              var Mode = (C_mode.Mode = function (padding) {
                                if (padding) {
                                  this._padding = padding;
                                }
                              });
                        
                              Mode.prototype = {
                                encrypt: function (cipher, m, iv) {
                                  this._padding.pad(cipher, m);
                                  this._doEncrypt(cipher, m, iv);
                                },
                        
                                decrypt: function (cipher, m, iv) {
                                  this._doDecrypt(cipher, m, iv);
                                  this._padding.unpad(cipher, m);
                                },
                        
                                // Default padding
                                _padding: C_pad.iso7816,
                              };
                        
                              /**
                               * Electronic Code Book mode.
                               *
                               * ECB applies the cipher directly against each block of the input.
                               *
                               * ECB does not require an initialization vector.
                               */
                              var ECB = (C_mode.ECB = function () {
                                // Call parent constructor
                                Mode.apply(this, arguments);
                              });
                        
                              // Inherit from Mode
                              var ECB_prototype = (ECB.prototype = new Mode());
                        
                              // Concrete steps for Mode template
                              ECB_prototype._doEncrypt = function (cipher, m, iv) {
                                var blockSizeInBytes = cipher._blocksize * 4;
                                // Encrypt each block
                                for (var offset = 0; offset < m.length; offset += blockSizeInBytes) {
                                  cipher._encryptblock(m, offset);
                                }
                              };
                              ECB_prototype._doDecrypt = function (cipher, c, iv) {
                                var blockSizeInBytes = cipher._blocksize * 4;
                                // Decrypt each block
                                for (var offset = 0; offset < c.length; offset += blockSizeInBytes) {
                                  cipher._decryptblock(c, offset);
                                }
                              };
                        
                              // ECB never uses an IV
                              ECB_prototype.fixOptions = function (options) {
                                options.iv = [];
                              };
                        
                              /**
                               * Cipher block chaining
                               *
                               * The first block is XORed with the IV. Subsequent blocks are XOR with the
                               * previous cipher output.
                               */
                              var CBC = (C_mode.CBC = function () {
                                // Call parent constructor
                                Mode.apply(this, arguments);
                              });
                        
                              // Inherit from Mode
                              var CBC_prototype = (CBC.prototype = new Mode());
                        
                              // Concrete steps for Mode template
                              CBC_prototype._doEncrypt = function (cipher, m, iv) {
                                var blockSizeInBytes = cipher._blocksize * 4;
                        
                                // Encrypt each block
                                for (var offset = 0; offset < m.length; offset += blockSizeInBytes) {
                                  if (offset == 0) {
                                    // XOR first block using IV
                                    for (var i = 0; i < blockSizeInBytes; i++) m[i] ^= iv[i];
                                  } else {
                                    // XOR this block using previous crypted block
                                    for (var i = 0; i < blockSizeInBytes; i++)
                                      m[offset + i] ^= m[offset + i - blockSizeInBytes];
                                  }
                                  // Encrypt block
                                  cipher._encryptblock(m, offset);
                                }
                              };
                              CBC_prototype._doDecrypt = function (cipher, c, iv) {
                                var blockSizeInBytes = cipher._blocksize * 4;
                        
                                // At the start, the previously crypted block is the IV
                                var prevCryptedBlock = iv;
                        
                                // Decrypt each block
                                for (var offset = 0; offset < c.length; offset += blockSizeInBytes) {
                                  // Save this crypted block
                                  var thisCryptedBlock = c.slice(offset, offset + blockSizeInBytes);
                                  // Decrypt block
                                  cipher._decryptblock(c, offset);
                                  // XOR decrypted block using previous crypted block
                                  for (var i = 0; i < blockSizeInBytes; i++) {
                                    c[offset + i] ^= prevCryptedBlock[i];
                                  }
                                  prevCryptedBlock = thisCryptedBlock;
                                }
                              };
                        
                              /**
                               * Cipher feed back
                               *
                               * The cipher output is XORed with the plain text to produce the cipher output,
                               * which is then fed back into the cipher to produce a bit pattern to XOR the
                               * next block with.
                               *
                               * This is a stream cipher mode and does not require padding.
                               */
                              var CFB = (C_mode.CFB = function () {
                                // Call parent constructor
                                Mode.apply(this, arguments);
                              });
                        
                              // Inherit from Mode
                              var CFB_prototype = (CFB.prototype = new Mode());
                        
                              // Override padding
                              CFB_prototype._padding = C_pad.NoPadding;
                        
                              // Concrete steps for Mode template
                              CFB_prototype._doEncrypt = function (cipher, m, iv) {
                                var blockSizeInBytes = cipher._blocksize * 4,
                                  keystream = iv.slice(0);
                        
                                // Encrypt each byte
                                for (var i = 0; i < m.length; i++) {
                                  var j = i % blockSizeInBytes;
                                  if (j == 0) cipher._encryptblock(keystream, 0);
                        
                                  m[i] ^= keystream[j];
                                  keystream[j] = m[i];
                                }
                              };
                              CFB_prototype._doDecrypt = function (cipher, c, iv) {
                                var blockSizeInBytes = cipher._blocksize * 4,
                                  keystream = iv.slice(0);
                        
                                // Encrypt each byte
                                for (var i = 0; i < c.length; i++) {
                                  var j = i % blockSizeInBytes;
                                  if (j == 0) cipher._encryptblock(keystream, 0);
                        
                                  var b = c[i];
                                  c[i] ^= keystream[j];
                                  keystream[j] = b;
                                }
                              };
                        
                              /**
                               * Output feed back
                               *
                               * The cipher repeatedly encrypts its own output. The output is XORed with the
                               * plain text to produce the cipher text.
                               *
                               * This is a stream cipher mode and does not require padding.
                               */
                              var OFB = (C_mode.OFB = function () {
                                // Call parent constructor
                                Mode.apply(this, arguments);
                              });
                        
                              // Inherit from Mode
                              var OFB_prototype = (OFB.prototype = new Mode());
                        
                              // Override padding
                              OFB_prototype._padding = C_pad.NoPadding;
                        
                              // Concrete steps for Mode template
                              OFB_prototype._doEncrypt = function (cipher, m, iv) {
                                var blockSizeInBytes = cipher._blocksize * 4,
                                  keystream = iv.slice(0);
                        
                                // Encrypt each byte
                                for (var i = 0; i < m.length; i++) {
                                  // Generate keystream
                                  if (i % blockSizeInBytes == 0) cipher._encryptblock(keystream, 0);
                        
                                  // Encrypt byte
                                  m[i] ^= keystream[i % blockSizeInBytes];
                                }
                              };
                              OFB_prototype._doDecrypt = OFB_prototype._doEncrypt;
                        
                              /**
                               * Counter
                               * @author Gergely Risko
                               *
                               * After every block the last 4 bytes of the IV is increased by one
                               * with carry and that IV is used for the next block.
                               *
                               * This is a stream cipher mode and does not require padding.
                               */
                              var CTR = (C_mode.CTR = function () {
                                // Call parent constructor
                                Mode.apply(this, arguments);
                              });
                        
                              // Inherit from Mode
                              var CTR_prototype = (CTR.prototype = new Mode());
                        
                              // Override padding
                              CTR_prototype._padding = C_pad.NoPadding;
                        
                              CTR_prototype._doEncrypt = function (cipher, m, iv) {
                                var blockSizeInBytes = cipher._blocksize * 4;
                                var counter = iv.slice(0);
                        
                                for (var i = 0; i < m.length; ) {
                                  // do not lose iv
                                  var keystream = counter.slice(0);
                        
                                  // Generate keystream for next block
                                  cipher._encryptblock(keystream, 0);
                        
                                  // XOR keystream with block
                                  for (var j = 0; i < m.length && j < blockSizeInBytes; j++, i++) {
                                    m[i] ^= keystream[j];
                                  }
                        
                                  // Increase counter
                                  if (++counter[blockSizeInBytes - 1] == 256) {
                                    counter[blockSizeInBytes - 1] = 0;
                                    if (++counter[blockSizeInBytes - 2] == 256) {
                                      counter[blockSizeInBytes - 2] = 0;
                                      if (++counter[blockSizeInBytes - 3] == 256) {
                                        counter[blockSizeInBytes - 3] = 0;
                                        ++counter[blockSizeInBytes - 4];
                                      }
                                    }
                                  }
                                }
                              };
                              CTR_prototype._doDecrypt = CTR_prototype._doEncrypt;
                            })(Crypto);
                        
                            /*!
                             * Crypto-JS v2.5.4  PBKDF2.js
                             * http://code.google.com/p/crypto-js/
                             * Copyright (c) 2009-2013, Jeff Mott. All rights reserved.
                             * http://code.google.com/p/crypto-js/wiki/License
                             */
                            (function () {
                              // Shortcuts
                              var C = Crypto,
                                util = C.util,
                                charenc = C.charenc,
                                UTF8 = charenc.UTF8,
                                Binary = charenc.Binary;
                        
                              C.PBKDF2 = function (password, salt, keylen, options) {
                                // Convert to byte arrays
                                if (password.constructor == String)
                                  password = UTF8.stringToBytes(password);
                                if (salt.constructor == String) salt = UTF8.stringToBytes(salt);
                                /* else, assume byte arrays already */
                        
                                // Defaults
                                var hasher = (options && options.hasher) || C.SHA1,
                                  iterations = (options && options.iterations) || 1;
                        
                                // Pseudo-random function
                                function PRF(password, salt) {
                                  return C.HMAC(hasher, salt, password, {
                                    asBytes: true,
                                  });
                                }
                        
                                // Generate key
                                var derivedKeyBytes = [],
                                  blockindex = 1;
                                while (derivedKeyBytes.length < keylen) {
                                  var block = PRF(
                                    password,
                                    salt.concat(util.wordsToBytes([blockindex]))
                                  );
                                  for (var u = block, i = 1; i < iterations; i++) {
                                    u = PRF(password, u);
                                    for (var j = 0; j < block.length; j++) block[j] ^= u[j];
                                  }
                                  derivedKeyBytes = derivedKeyBytes.concat(block);
                                  blockindex++;
                                }
                        
                                // Truncate excess bytes
                                derivedKeyBytes.length = keylen;
                        
                                return options && options.asBytes
                                  ? derivedKeyBytes
                                  : options && options.asString
                                  ? Binary.bytesToString(derivedKeyBytes)
                                  : util.bytesToHex(derivedKeyBytes);
                              };
                            })();
                        
                            /*
                             * Copyright (c) 2010-2011 Intalio Pte, All Rights Reserved
                             *
                             * Permission is hereby granted, free of charge, to any person obtaining a copy
                             * of this software and associated documentation files (the "Software"), to deal
                             * in the Software without restriction, including without limitation the rights
                             * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
                             * copies of the Software, and to permit persons to whom the Software is
                             * furnished to do so, subject to the following conditions:
                             *
                             * The above copyright notice and this permission notice shall be included in
                             * all copies or substantial portions of the Software.
                             *
                             * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
                             * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
                             * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
                             * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
                             * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
                             * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
                             * THE SOFTWARE.
                             */
                            // https://github.com/cheongwy/node-scrypt-js
                            (function () {
                              var MAX_VALUE = 2147483647;
                              var workerUrl = null;
                        
                              //function scrypt(byte[] passwd, byte[] salt, int N, int r, int p, int dkLen)
                              /*
                               * N = Cpu cost
                               * r = Memory cost
                               * p = parallelization cost
                               *
                               */
                              window.Crypto_scrypt = function (
                                passwd,
                                salt,
                                N,
                                r,
                                p,
                                dkLen,
                                callback
                              ) {
                                if (N == 0 || (N & (N - 1)) != 0)
                                  throw Error("N must be > 0 and a power of 2");
                        
                                if (N > MAX_VALUE / 128 / r) throw Error("Parameter N is too large");
                                if (r > MAX_VALUE / 128 / p) throw Error("Parameter r is too large");
                        
                                var PBKDF2_opts = {
                                  iterations: 1,
                                  hasher: Crypto.SHA256,
                                  asBytes: true,
                                };
                        
                                var B = Crypto.PBKDF2(passwd, salt, p * 128 * r, PBKDF2_opts);
                        
                                try {
                                  var i = 0;
                                  var worksDone = 0;
                                  var makeWorker = function () {
                                    if (!workerUrl) {
                                      var code = "(" + scryptCore.toString() + ")()";
                                      var blob;
                                      try {
                                        blob = new Blob([code], {
                                          type: "text/javascript",
                                        });
                                      } catch (e) {
                                        window.BlobBuilder =
                                          window.BlobBuilder ||
                                          window.WebKitBlobBuilder ||
                                          window.MozBlobBuilder ||
                                          window.MSBlobBuilder;
                                        blob = new BlobBuilder();
                                        blob.append(code);
                                        blob = blob.getBlob("text/javascript");
                                      }
                                      workerUrl = URL.createObjectURL(blob);
                                    }
                                    var worker = new Worker(workerUrl);
                                    worker.onmessage = function (event) {
                                      var Bi = event.data[0],
                                        Bslice = event.data[1];
                                      worksDone++;
                        
                                      if (i < p) {
                                        worker.postMessage([N, r, p, B, i++]);
                                      }
                        
                                      var length = Bslice.length,
                                        destPos = Bi * 128 * r,
                                        srcPos = 0;
                                      while (length--) {
                                        B[destPos++] = Bslice[srcPos++];
                                      }
                        
                                      if (worksDone == p) {
                                        callback(Crypto.PBKDF2(passwd, B, dkLen, PBKDF2_opts));
                                      }
                                    };
                                    return worker;
                                  };
                                  var workers = [makeWorker(), makeWorker()];
                                  workers[0].postMessage([N, r, p, B, i++]);
                                  if (p > 1) {
                                    workers[1].postMessage([N, r, p, B, i++]);
                                  }
                                } catch (e) {
                                  window.setTimeout(function () {
                                    scryptCore();
                                    callback(Crypto.PBKDF2(passwd, B, dkLen, PBKDF2_opts));
                                  }, 0);
                                }
                        
                                // using this function to enclose everything needed to create a worker (but also invokable directly for synchronous use)
                                function scryptCore() {
                                  var XY = [],
                                    V = [];
                        
                                  if (typeof B === "undefined") {
                                    onmessage = function (event) {
                                      var data = event.data;
                                      var N = data[0],
                                        r = data[1],
                                        p = data[2],
                                        B = data[3],
                                        i = data[4];
                        
                                      var Bslice = [];
                                      arraycopy32(B, i * 128 * r, Bslice, 0, 128 * r);
                                      smix(Bslice, 0, r, N, V, XY);
                        
                                      postMessage([i, Bslice]);
                                    };
                                  } else {
                                    for (var i = 0; i < p; i++) {
                                      smix(B, i * 128 * r, r, N, V, XY);
                                    }
                                  }
                        
                                  function smix(B, Bi, r, N, V, XY) {
                                    var Xi = 0;
                                    var Yi = 128 * r;
                                    var i;
                        
                                    arraycopy32(B, Bi, XY, Xi, Yi);
                        
                                    for (i = 0; i < N; i++) {
                                      arraycopy32(XY, Xi, V, i * Yi, Yi);
                                      blockmix_salsa8(XY, Xi, Yi, r);
                                    }
                        
                                    for (i = 0; i < N; i++) {
                                      var j = integerify(XY, Xi, r) & (N - 1);
                                      blockxor(V, j * Yi, XY, Xi, Yi);
                                      blockmix_salsa8(XY, Xi, Yi, r);
                                    }
                        
                                    arraycopy32(XY, Xi, B, Bi, Yi);
                                  }
                        
                                  function blockmix_salsa8(BY, Bi, Yi, r) {
                                    var X = [];
                                    var i;
                        
                                    arraycopy32(BY, Bi + (2 * r - 1) * 64, X, 0, 64);
                        
                                    for (i = 0; i < 2 * r; i++) {
                                      blockxor(BY, i * 64, X, 0, 64);
                                      salsa20_8(X);
                                      arraycopy32(X, 0, BY, Yi + i * 64, 64);
                                    }
                        
                                    for (i = 0; i < r; i++) {
                                      arraycopy32(BY, Yi + i * 2 * 64, BY, Bi + i * 64, 64);
                                    }
                        
                                    for (i = 0; i < r; i++) {
                                      arraycopy32(
                                        BY,
                                        Yi + (i * 2 + 1) * 64,
                                        BY,
                                        Bi + (i + r) * 64,
                                        64
                                      );
                                    }
                                  }
                        
                                  function R(a, b) {
                                    return (a << b) | (a >>> (32 - b));
                                  }
                        
                                  function salsa20_8(B) {
                                    var B32 = new Array(32);
                                    var x = new Array(32);
                                    var i;
                        
                                    for (i = 0; i < 16; i++) {
                                      B32[i] = (B[i * 4 + 0] & 0xff) << 0;
                                      B32[i] |= (B[i * 4 + 1] & 0xff) << 8;
                                      B32[i] |= (B[i * 4 + 2] & 0xff) << 16;
                                      B32[i] |= (B[i * 4 + 3] & 0xff) << 24;
                                    }
                        
                                    arraycopy(B32, 0, x, 0, 16);
                        
                                    for (i = 8; i > 0; i -= 2) {
                                      x[4] ^= R(x[0] + x[12], 7);
                                      x[8] ^= R(x[4] + x[0], 9);
                                      x[12] ^= R(x[8] + x[4], 13);
                                      x[0] ^= R(x[12] + x[8], 18);
                                      x[9] ^= R(x[5] + x[1], 7);
                                      x[13] ^= R(x[9] + x[5], 9);
                                      x[1] ^= R(x[13] + x[9], 13);
                                      x[5] ^= R(x[1] + x[13], 18);
                                      x[14] ^= R(x[10] + x[6], 7);
                                      x[2] ^= R(x[14] + x[10], 9);
                                      x[6] ^= R(x[2] + x[14], 13);
                                      x[10] ^= R(x[6] + x[2], 18);
                                      x[3] ^= R(x[15] + x[11], 7);
                                      x[7] ^= R(x[3] + x[15], 9);
                                      x[11] ^= R(x[7] + x[3], 13);
                                      x[15] ^= R(x[11] + x[7], 18);
                                      x[1] ^= R(x[0] + x[3], 7);
                                      x[2] ^= R(x[1] + x[0], 9);
                                      x[3] ^= R(x[2] + x[1], 13);
                                      x[0] ^= R(x[3] + x[2], 18);
                                      x[6] ^= R(x[5] + x[4], 7);
                                      x[7] ^= R(x[6] + x[5], 9);
                                      x[4] ^= R(x[7] + x[6], 13);
                                      x[5] ^= R(x[4] + x[7], 18);
                                      x[11] ^= R(x[10] + x[9], 7);
                                      x[8] ^= R(x[11] + x[10], 9);
                                      x[9] ^= R(x[8] + x[11], 13);
                                      x[10] ^= R(x[9] + x[8], 18);
                                      x[12] ^= R(x[15] + x[14], 7);
                                      x[13] ^= R(x[12] + x[15], 9);
                                      x[14] ^= R(x[13] + x[12], 13);
                                      x[15] ^= R(x[14] + x[13], 18);
                                    }
                        
                                    for (i = 0; i < 16; ++i) B32[i] = x[i] + B32[i];
                        
                                    for (i = 0; i < 16; i++) {
                                      var bi = i * 4;
                                      B[bi + 0] = (B32[i] >> 0) & 0xff;
                                      B[bi + 1] = (B32[i] >> 8) & 0xff;
                                      B[bi + 2] = (B32[i] >> 16) & 0xff;
                                      B[bi + 3] = (B32[i] >> 24) & 0xff;
                                    }
                                  }
                        
                                  function blockxor(S, Si, D, Di, len) {
                                    var i = len >> 6;
                                    while (i--) {
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                        
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                        
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                        
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                        
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                        
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                        
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                        
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                      D[Di++] ^= S[Si++];
                                    }
                                  }
                        
                                  function integerify(B, bi, r) {
                                    var n;
                        
                                    bi += (2 * r - 1) * 64;
                        
                                    n = (B[bi + 0] & 0xff) << 0;
                                    n |= (B[bi + 1] & 0xff) << 8;
                                    n |= (B[bi + 2] & 0xff) << 16;
                                    n |= (B[bi + 3] & 0xff) << 24;
                        
                                    return n;
                                  }
                        
                                  function arraycopy(src, srcPos, dest, destPos, length) {
                                    while (length--) {
                                      dest[destPos++] = src[srcPos++];
                                    }
                                  }
                        
                                  function arraycopy32(src, srcPos, dest, destPos, length) {
                                    var i = length >> 5;
                                    while (i--) {
                                      dest[destPos++] = src[srcPos++];
                                      dest[destPos++] = src[srcPos++];
                                      dest[destPos++] = src[srcPos++];
                                      dest[destPos++] = src[srcPos++];
                                      dest[destPos++] = src[srcPos++];
                                      dest[destPos++] = src[srcPos++];
                                      dest[destPos++] = src[srcPos++];
                                      dest[destPos++] = src[srcPos++];
                        
                                      dest[destPos++] = src[srcPos++];
                                      dest[destPos++] = src[srcPos++];
                                      dest[destPos++] = src[srcPos++];
                                      dest[destPos++] = src[srcPos++];
                                      dest[destPos++] = src[srcPos++];
                                      dest[destPos++] = src[srcPos++];
                                      dest[destPos++] = src[srcPos++];
                                      dest[destPos++] = src[srcPos++];
                        
                                      dest[destPos++] = src[srcPos++];
                                      dest[destPos++] = src[srcPos++];
                                      dest[destPos++] = src[srcPos++];
                                      dest[destPos++] = src[srcPos++];
                                      dest[destPos++] = src[srcPos++];
                                      dest[destPos++] = src[srcPos++];
                                      dest[destPos++] = src[srcPos++];
                                      dest[destPos++] = src[srcPos++];
                        
                                      dest[destPos++] = src[srcPos++];
                                      dest[destPos++] = src[srcPos++];
                                      dest[destPos++] = src[srcPos++];
                                      dest[destPos++] = src[srcPos++];
                                      dest[destPos++] = src[srcPos++];
                                      dest[destPos++] = src[srcPos++];
                                      dest[destPos++] = src[srcPos++];
                                      dest[destPos++] = src[srcPos++];
                                    }
                                  }
                                } // scryptCore
                              }; // window.Crypto_scrypt
                            })();
                        
                            /*!
                             * Crypto-JS v2.5.4  AES.js
                             * http://code.google.com/p/crypto-js/
                             * Copyright (c) 2009-2013, Jeff Mott. All rights reserved.
                             * http://code.google.com/p/crypto-js/wiki/License
                             */
                            (function () {
                              // Shortcuts
                              var C = Crypto,
                                util = C.util,
                                charenc = C.charenc,
                                UTF8 = charenc.UTF8;
                        
                              // Precomputed SBOX
                              var SBOX = [
                                0x63, 0x7c, 0x77, 0x7b, 0xf2, 0x6b, 0x6f, 0xc5, 0x30, 0x01, 0x67,
                                0x2b, 0xfe, 0xd7, 0xab, 0x76, 0xca, 0x82, 0xc9, 0x7d, 0xfa, 0x59,
                                0x47, 0xf0, 0xad, 0xd4, 0xa2, 0xaf, 0x9c, 0xa4, 0x72, 0xc0, 0xb7,
                                0xfd, 0x93, 0x26, 0x36, 0x3f, 0xf7, 0xcc, 0x34, 0xa5, 0xe5, 0xf1,
                                0x71, 0xd8, 0x31, 0x15, 0x04, 0xc7, 0x23, 0xc3, 0x18, 0x96, 0x05,
                                0x9a, 0x07, 0x12, 0x80, 0xe2, 0xeb, 0x27, 0xb2, 0x75, 0x09, 0x83,
                                0x2c, 0x1a, 0x1b, 0x6e, 0x5a, 0xa0, 0x52, 0x3b, 0xd6, 0xb3, 0x29,
                                0xe3, 0x2f, 0x84, 0x53, 0xd1, 0x00, 0xed, 0x20, 0xfc, 0xb1, 0x5b,
                                0x6a, 0xcb, 0xbe, 0x39, 0x4a, 0x4c, 0x58, 0xcf, 0xd0, 0xef, 0xaa,
                                0xfb, 0x43, 0x4d, 0x33, 0x85, 0x45, 0xf9, 0x02, 0x7f, 0x50, 0x3c,
                                0x9f, 0xa8, 0x51, 0xa3, 0x40, 0x8f, 0x92, 0x9d, 0x38, 0xf5, 0xbc,
                                0xb6, 0xda, 0x21, 0x10, 0xff, 0xf3, 0xd2, 0xcd, 0x0c, 0x13, 0xec,
                                0x5f, 0x97, 0x44, 0x17, 0xc4, 0xa7, 0x7e, 0x3d, 0x64, 0x5d, 0x19,
                                0x73, 0x60, 0x81, 0x4f, 0xdc, 0x22, 0x2a, 0x90, 0x88, 0x46, 0xee,
                                0xb8, 0x14, 0xde, 0x5e, 0x0b, 0xdb, 0xe0, 0x32, 0x3a, 0x0a, 0x49,
                                0x06, 0x24, 0x5c, 0xc2, 0xd3, 0xac, 0x62, 0x91, 0x95, 0xe4, 0x79,
                                0xe7, 0xc8, 0x37, 0x6d, 0x8d, 0xd5, 0x4e, 0xa9, 0x6c, 0x56, 0xf4,
                                0xea, 0x65, 0x7a, 0xae, 0x08, 0xba, 0x78, 0x25, 0x2e, 0x1c, 0xa6,
                                0xb4, 0xc6, 0xe8, 0xdd, 0x74, 0x1f, 0x4b, 0xbd, 0x8b, 0x8a, 0x70,
                                0x3e, 0xb5, 0x66, 0x48, 0x03, 0xf6, 0x0e, 0x61, 0x35, 0x57, 0xb9,
                                0x86, 0xc1, 0x1d, 0x9e, 0xe1, 0xf8, 0x98, 0x11, 0x69, 0xd9, 0x8e,
                                0x94, 0x9b, 0x1e, 0x87, 0xe9, 0xce, 0x55, 0x28, 0xdf, 0x8c, 0xa1,
                                0x89, 0x0d, 0xbf, 0xe6, 0x42, 0x68, 0x41, 0x99, 0x2d, 0x0f, 0xb0,
                                0x54, 0xbb, 0x16,
                              ];
                        
                              // Compute inverse SBOX lookup table
                              for (var INVSBOX = [], i = 0; i < 256; i++) INVSBOX[SBOX[i]] = i;
                        
                              // Compute multiplication in GF(2^8) lookup tables
                              var MULT2 = [],
                                MULT3 = [],
                                MULT9 = [],
                                MULTB = [],
                                MULTD = [],
                                MULTE = [];
                        
                              function xtime(a, b) {
                                for (var result = 0, i = 0; i < 8; i++) {
                                  if (b & 1) result ^= a;
                                  var hiBitSet = a & 0x80;
                                  a = (a << 1) & 0xff;
                                  if (hiBitSet) a ^= 0x1b;
                                  b >>>= 1;
                                }
                                return result;
                              }
                        
                              for (var i = 0; i < 256; i++) {
                                MULT2[i] = xtime(i, 2);
                                MULT3[i] = xtime(i, 3);
                                MULT9[i] = xtime(i, 9);
                                MULTB[i] = xtime(i, 0xb);
                                MULTD[i] = xtime(i, 0xd);
                                MULTE[i] = xtime(i, 0xe);
                              }
                        
                              // Precomputed RCon lookup
                              var RCON = [
                                0x00, 0x01, 0x02, 0x04, 0x08, 0x10, 0x20, 0x40, 0x80, 0x1b, 0x36,
                              ];
                        
                              // Inner state
                              var state = [[], [], [], []],
                                keylength,
                                nrounds,
                                keyschedule;
                        
                              var AES = (C.AES = {
                                /**
                                 * Public API
                                 */
                        
                                encrypt: function (message, password, options) {
                                  options = options || {};
                        
                                  // Determine mode
                                  var mode = options.mode || new C.mode.OFB();
                        
                                  // Allow mode to override options
                                  if (mode.fixOptions) mode.fixOptions(options);
                        
                                  var // Convert to bytes if message is a string
                                    m =
                                      message.constructor == String
                                        ? UTF8.stringToBytes(message)
                                        : message,
                                    // Generate random IV
                                    iv = options.iv || util.randomBytes(AES._blocksize * 4),
                                    // Generate key
                                    k =
                                      password.constructor == String
                                        ? // Derive key from pass-phrase
                                          C.PBKDF2(password, iv, 32, {
                                            asBytes: true,
                                          })
                                        : // else, assume byte array representing cryptographic key
                                          password;
                        
                                  // Encrypt
                                  AES._init(k);
                                  mode.encrypt(AES, m, iv);
                        
                                  // Return ciphertext
                                  m = options.iv ? m : iv.concat(m);
                                  return options && options.asBytes ? m : util.bytesToBase64(m);
                                },
                        
                                decrypt: function (ciphertext, password, options) {
                                  options = options || {};
                        
                                  // Determine mode
                                  var mode = options.mode || new C.mode.OFB();
                        
                                  // Allow mode to override options
                                  if (mode.fixOptions) mode.fixOptions(options);
                        
                                  var // Convert to bytes if ciphertext is a string
                                    c =
                                      ciphertext.constructor == String
                                        ? util.base64ToBytes(ciphertext)
                                        : ciphertext,
                                    // Separate IV and message
                                    iv = options.iv || c.splice(0, AES._blocksize * 4),
                                    // Generate key
                                    k =
                                      password.constructor == String
                                        ? // Derive key from pass-phrase
                                          C.PBKDF2(password, iv, 32, {
                                            asBytes: true,
                                          })
                                        : // else, assume byte array representing cryptographic key
                                          password;
                        
                                  // Decrypt
                                  AES._init(k);
                                  mode.decrypt(AES, c, iv);
                        
                                  // Return plaintext
                                  return options && options.asBytes ? c : UTF8.bytesToString(c);
                                },
                        
                                /**
                                 * Package private methods and properties
                                 */
                        
                                _blocksize: 4,
                        
                                _encryptblock: function (m, offset) {
                                  // Set input
                                  for (var row = 0; row < AES._blocksize; row++) {
                                    for (var col = 0; col < 4; col++)
                                      state[row][col] = m[offset + col * 4 + row];
                                  }
                        
                                  // Add round key
                                  for (var row = 0; row < 4; row++) {
                                    for (var col = 0; col < 4; col++)
                                      state[row][col] ^= keyschedule[col][row];
                                  }
                        
                                  for (var round = 1; round < nrounds; round++) {
                                    // Sub bytes
                                    for (var row = 0; row < 4; row++) {
                                      for (var col = 0; col < 4; col++)
                                        state[row][col] = SBOX[state[row][col]];
                                    }
                        
                                    // Shift rows
                                    state[1].push(state[1].shift());
                                    state[2].push(state[2].shift());
                                    state[2].push(state[2].shift());
                                    state[3].unshift(state[3].pop());
                        
                                    // Mix columns
                                    for (var col = 0; col < 4; col++) {
                                      var s0 = state[0][col],
                                        s1 = state[1][col],
                                        s2 = state[2][col],
                                        s3 = state[3][col];
                        
                                      state[0][col] = MULT2[s0] ^ MULT3[s1] ^ s2 ^ s3;
                                      state[1][col] = s0 ^ MULT2[s1] ^ MULT3[s2] ^ s3;
                                      state[2][col] = s0 ^ s1 ^ MULT2[s2] ^ MULT3[s3];
                                      state[3][col] = MULT3[s0] ^ s1 ^ s2 ^ MULT2[s3];
                                    }
                        
                                    // Add round key
                                    for (var row = 0; row < 4; row++) {
                                      for (var col = 0; col < 4; col++)
                                        state[row][col] ^= keyschedule[round * 4 + col][row];
                                    }
                                  }
                        
                                  // Sub bytes
                                  for (var row = 0; row < 4; row++) {
                                    for (var col = 0; col < 4; col++)
                                      state[row][col] = SBOX[state[row][col]];
                                  }
                        
                                  // Shift rows
                                  state[1].push(state[1].shift());
                                  state[2].push(state[2].shift());
                                  state[2].push(state[2].shift());
                                  state[3].unshift(state[3].pop());
                        
                                  // Add round key
                                  for (var row = 0; row < 4; row++) {
                                    for (var col = 0; col < 4; col++)
                                      state[row][col] ^= keyschedule[nrounds * 4 + col][row];
                                  }
                        
                                  // Set output
                                  for (var row = 0; row < AES._blocksize; row++) {
                                    for (var col = 0; col < 4; col++)
                                      m[offset + col * 4 + row] = state[row][col];
                                  }
                                },
                        
                                _decryptblock: function (c, offset) {
                                  // Set input
                                  for (var row = 0; row < AES._blocksize; row++) {
                                    for (var col = 0; col < 4; col++)
                                      state[row][col] = c[offset + col * 4 + row];
                                  }
                        
                                  // Add round key
                                  for (var row = 0; row < 4; row++) {
                                    for (var col = 0; col < 4; col++)
                                      state[row][col] ^= keyschedule[nrounds * 4 + col][row];
                                  }
                        
                                  for (var round = 1; round < nrounds; round++) {
                                    // Inv shift rows
                                    state[1].unshift(state[1].pop());
                                    state[2].push(state[2].shift());
                                    state[2].push(state[2].shift());
                                    state[3].push(state[3].shift());
                        
                                    // Inv sub bytes
                                    for (var row = 0; row < 4; row++) {
                                      for (var col = 0; col < 4; col++)
                                        state[row][col] = INVSBOX[state[row][col]];
                                    }
                        
                                    // Add round key
                                    for (var row = 0; row < 4; row++) {
                                      for (var col = 0; col < 4; col++)
                                        state[row][col] ^=
                                          keyschedule[(nrounds - round) * 4 + col][row];
                                    }
                        
                                    // Inv mix columns
                                    for (var col = 0; col < 4; col++) {
                                      var s0 = state[0][col],
                                        s1 = state[1][col],
                                        s2 = state[2][col],
                                        s3 = state[3][col];
                        
                                      state[0][col] = MULTE[s0] ^ MULTB[s1] ^ MULTD[s2] ^ MULT9[s3];
                                      state[1][col] = MULT9[s0] ^ MULTE[s1] ^ MULTB[s2] ^ MULTD[s3];
                                      state[2][col] = MULTD[s0] ^ MULT9[s1] ^ MULTE[s2] ^ MULTB[s3];
                                      state[3][col] = MULTB[s0] ^ MULTD[s1] ^ MULT9[s2] ^ MULTE[s3];
                                    }
                                  }
                        
                                  // Inv shift rows
                                  state[1].unshift(state[1].pop());
                                  state[2].push(state[2].shift());
                                  state[2].push(state[2].shift());
                                  state[3].push(state[3].shift());
                        
                                  // Inv sub bytes
                                  for (var row = 0; row < 4; row++) {
                                    for (var col = 0; col < 4; col++)
                                      state[row][col] = INVSBOX[state[row][col]];
                                  }
                        
                                  // Add round key
                                  for (var row = 0; row < 4; row++) {
                                    for (var col = 0; col < 4; col++)
                                      state[row][col] ^= keyschedule[col][row];
                                  }
                        
                                  // Set output
                                  for (var row = 0; row < AES._blocksize; row++) {
                                    for (var col = 0; col < 4; col++)
                                      c[offset + col * 4 + row] = state[row][col];
                                  }
                                },
                        
                                /**
                                 * Private methods
                                 */
                        
                                _init: function (k) {
                                  keylength = k.length / 4;
                                  nrounds = keylength + 6;
                                  AES._keyexpansion(k);
                                },
                        
                                // Generate a key schedule
                                _keyexpansion: function (k) {
                                  keyschedule = [];
                        
                                  for (var row = 0; row < keylength; row++) {
                                    keyschedule[row] = [
                                      k[row * 4],
                                      k[row * 4 + 1],
                                      k[row * 4 + 2],
                                      k[row * 4 + 3],
                                    ];
                                  }
                        
                                  for (
                                    var row = keylength;
                                    row < AES._blocksize * (nrounds + 1);
                                    row++
                                  ) {
                                    var temp = [
                                      keyschedule[row - 1][0],
                                      keyschedule[row - 1][1],
                                      keyschedule[row - 1][2],
                                      keyschedule[row - 1][3],
                                    ];
                        
                                    if (row % keylength == 0) {
                                      // Rot word
                                      temp.push(temp.shift());
                        
                                      // Sub word
                                      temp[0] = SBOX[temp[0]];
                                      temp[1] = SBOX[temp[1]];
                                      temp[2] = SBOX[temp[2]];
                                      temp[3] = SBOX[temp[3]];
                        
                                      temp[0] ^= RCON[row / keylength];
                                    } else if (keylength > 6 && row % keylength == 4) {
                                      // Sub word
                                      temp[0] = SBOX[temp[0]];
                                      temp[1] = SBOX[temp[1]];
                                      temp[2] = SBOX[temp[2]];
                                      temp[3] = SBOX[temp[3]];
                                    }
                        
                                    keyschedule[row] = [
                                      keyschedule[row - keylength][0] ^ temp[0],
                                      keyschedule[row - keylength][1] ^ temp[1],
                                      keyschedule[row - keylength][2] ^ temp[2],
                                      keyschedule[row - keylength][3] ^ temp[3],
                                    ];
                                  }
                                },
                              });
                            })();
                        
                            /*
                             * Copyright (c) 2000 - 2011 The Legion Of The Bouncy Castle (http://www.bouncycastle.org)
                             * Ported to JavaScript by bitaddress.org
                             */
                            ec.FieldElementFp.fastLucasSequence = function (p, P, Q, k) {
                              // TODO Research and apply "common-multiplicand multiplication here"
                        
                              var n = k.bitLength();
                              var s = k.getLowestSetBit();
                              var Uh = BigInteger.ONE;
                              var Vl = BigInteger.TWO;
                              var Vh = P;
                              var Ql = BigInteger.ONE;
                              var Qh = BigInteger.ONE;
                        
                              for (var j = n - 1; j >= s + 1; --j) {
                                Ql = Ql.multiply(Qh).mod(p);
                                if (k.testBit(j)) {
                                  Qh = Ql.multiply(Q).mod(p);
                                  Uh = Uh.multiply(Vh).mod(p);
                                  Vl = Vh.multiply(Vl).subtract(P.multiply(Ql)).mod(p);
                                  Vh = Vh.multiply(Vh).subtract(Qh.shiftLeft(1)).mod(p);
                                } else {
                                  Qh = Ql;
                                  Uh = Uh.multiply(Vl).subtract(Ql).mod(p);
                                  Vh = Vh.multiply(Vl).subtract(P.multiply(Ql)).mod(p);
                                  Vl = Vl.multiply(Vl).subtract(Ql.shiftLeft(1)).mod(p);
                                }
                              }
                        
                              Ql = Ql.multiply(Qh).mod(p);
                              Qh = Ql.multiply(Q).mod(p);
                              Uh = Uh.multiply(Vl).subtract(Ql).mod(p);
                              Vl = Vh.multiply(Vl).subtract(P.multiply(Ql)).mod(p);
                              Ql = Ql.multiply(Qh).mod(p);
                        
                              for (var j = 1; j <= s; ++j) {
                                Uh = Uh.multiply(Vl).mod(p);
                                Vl = Vl.multiply(Vl).subtract(Ql.shiftLeft(1)).mod(p);
                                Ql = Ql.multiply(Ql).mod(p);
                              }
                        
                              return [Uh, Vl];
                            };
                        
                            // ----------------
                            // ECPointFp constructor
                            ec.PointFp = function (curve, x, y, z, compressed) {
                              this.curve = curve;
                              this.x = x;
                              this.y = y;
                              // Projective coordinates: either zinv == null or z * zinv == 1
                              // z and zinv are just BigIntegers, not fieldElements
                              if (z == null) {
                                this.z = BigInteger.ONE;
                              } else {
                                this.z = z;
                              }
                              this.zinv = null;
                              // compression flag
                              this.compressed = !!compressed;
                            };
                        
                            ec.PointFp.prototype.getX = function () {
                              if (this.zinv == null) {
                                this.zinv = this.z.modInverse(this.curve.q);
                              }
                              var r = this.x.toBigInteger().multiply(this.zinv);
                              this.curve.reduce(r);
                              return this.curve.fromBigInteger(r);
                            };
                        
                            ec.PointFp.prototype.getY = function () {
                              if (this.zinv == null) {
                                this.zinv = this.z.modInverse(this.curve.q);
                              }
                              var r = this.y.toBigInteger().multiply(this.zinv);
                              this.curve.reduce(r);
                              return this.curve.fromBigInteger(r);
                            };
                        
                            ec.PointFp.prototype.equals = function (other) {
                              if (other == this) return true;
                              if (this.isInfinity()) return other.isInfinity();
                              if (other.isInfinity()) return this.isInfinity();
                              var u, v;
                              // u = Y2 * Z1 - Y1 * Z2
                              u = other.y
                                .toBigInteger()
                                .multiply(this.z)
                                .subtract(this.y.toBigInteger().multiply(other.z))
                                .mod(this.curve.q);
                              if (!u.equals(BigInteger.ZERO)) return false;
                              // v = X2 * Z1 - X1 * Z2
                              v = other.x
                                .toBigInteger()
                                .multiply(this.z)
                                .subtract(this.x.toBigInteger().multiply(other.z))
                                .mod(this.curve.q);
                              return v.equals(BigInteger.ZERO);
                            };
                        
                            ec.PointFp.prototype.isInfinity = function () {
                              if (this.x == null && this.y == null) return true;
                              return (
                                this.z.equals(BigInteger.ZERO) &&
                                !this.y.toBigInteger().equals(BigInteger.ZERO)
                              );
                            };
                        
                            ec.PointFp.prototype.negate = function () {
                              return new ec.PointFp(this.curve, this.x, this.y.negate(), this.z);
                            };
                        
                            ec.PointFp.prototype.add = function (b) {
                              if (this.isInfinity()) return b;
                              if (b.isInfinity()) return this;
                        
                              // u = Y2 * Z1 - Y1 * Z2
                              var u = b.y
                                .toBigInteger()
                                .multiply(this.z)
                                .subtract(this.y.toBigInteger().multiply(b.z))
                                .mod(this.curve.q);
                              // v = X2 * Z1 - X1 * Z2
                              var v = b.x
                                .toBigInteger()
                                .multiply(this.z)
                                .subtract(this.x.toBigInteger().multiply(b.z))
                                .mod(this.curve.q);
                        
                              if (BigInteger.ZERO.equals(v)) {
                                if (BigInteger.ZERO.equals(u)) {
                                  return this.twice(); // this == b, so double
                                }
                                return this.curve.getInfinity(); // this = -b, so infinity
                              }
                        
                              var THREE = new BigInteger("3");
                              var x1 = this.x.toBigInteger();
                              var y1 = this.y.toBigInteger();
                              var x2 = b.x.toBigInteger();
                              var y2 = b.y.toBigInteger();
                        
                              var v2 = v.square();
                              var v3 = v2.multiply(v);
                              var x1v2 = x1.multiply(v2);
                              var zu2 = u.square().multiply(this.z);
                        
                              // x3 = v * (z2 * (z1 * u^2 - 2 * x1 * v^2) - v^3)
                              var x3 = zu2
                                .subtract(x1v2.shiftLeft(1))
                                .multiply(b.z)
                                .subtract(v3)
                                .multiply(v)
                                .mod(this.curve.q);
                              // y3 = z2 * (3 * x1 * u * v^2 - y1 * v^3 - z1 * u^3) + u * v^3
                              var y3 = x1v2
                                .multiply(THREE)
                                .multiply(u)
                                .subtract(y1.multiply(v3))
                                .subtract(zu2.multiply(u))
                                .multiply(b.z)
                                .add(u.multiply(v3))
                                .mod(this.curve.q);
                              // z3 = v^3 * z1 * z2
                              var z3 = v3.multiply(this.z).multiply(b.z).mod(this.curve.q);
                        
                              return new ec.PointFp(
                                this.curve,
                                this.curve.fromBigInteger(x3),
                                this.curve.fromBigInteger(y3),
                                z3
                              );
                            };
                        
                            ec.PointFp.prototype.twice = function () {
                              if (this.isInfinity()) return this;
                              if (this.y.toBigInteger().signum() == 0)
                                return this.curve.getInfinity();
                        
                              // TODO: optimized handling of constants
                              var THREE = new BigInteger("3");
                              var x1 = this.x.toBigInteger();
                              var y1 = this.y.toBigInteger();
                        
                              var y1z1 = y1.multiply(this.z);
                              var y1sqz1 = y1z1.multiply(y1).mod(this.curve.q);
                              var a = this.curve.a.toBigInteger();
                        
                              // w = 3 * x1^2 + a * z1^2
                              var w = x1.square().multiply(THREE);
                              if (!BigInteger.ZERO.equals(a)) {
                                w = w.add(this.z.square().multiply(a));
                              }
                              w = w.mod(this.curve.q);
                              //this.curve.reduce(w);
                              // x3 = 2 * y1 * z1 * (w^2 - 8 * x1 * y1^2 * z1)
                              var x3 = w
                                .square()
                                .subtract(x1.shiftLeft(3).multiply(y1sqz1))
                                .shiftLeft(1)
                                .multiply(y1z1)
                                .mod(this.curve.q);
                              // y3 = 4 * y1^2 * z1 * (3 * w * x1 - 2 * y1^2 * z1) - w^3
                              var y3 = w
                                .multiply(THREE)
                                .multiply(x1)
                                .subtract(y1sqz1.shiftLeft(1))
                                .shiftLeft(2)
                                .multiply(y1sqz1)
                                .subtract(w.square().multiply(w))
                                .mod(this.curve.q);
                              // z3 = 8 * (y1 * z1)^3
                              var z3 = y1z1.square().multiply(y1z1).shiftLeft(3).mod(this.curve.q);
                        
                              return new ec.PointFp(
                                this.curve,
                                this.curve.fromBigInteger(x3),
                                this.curve.fromBigInteger(y3),
                                z3
                              );
                            };
                        
                            // Simple NAF (Non-Adjacent Form) multiplication algorithm
                            // TODO: modularize the multiplication algorithm
                            ec.PointFp.prototype.multiply = function (k) {
                              if (this.isInfinity()) return this;
                              if (k.signum() == 0) return this.curve.getInfinity();
                        
                              var e = k;
                              var h = e.multiply(new BigInteger("3"));
                        
                              var neg = this.negate();
                              var R = this;
                        
                              var i;
                              for (i = h.bitLength() - 2; i > 0; --i) {
                                R = R.twice();
                        
                                var hBit = h.testBit(i);
                                var eBit = e.testBit(i);
                        
                                if (hBit != eBit) {
                                  R = R.add(hBit ? this : neg);
                                }
                              }
                        
                              return R;
                            };
                        
                            // Compute this*j + x*k (simultaneous multiplication)
                            ec.PointFp.prototype.multiplyTwo = function (j, x, k) {
                              var i;
                              if (j.bitLength() > k.bitLength()) i = j.bitLength() - 1;
                              else i = k.bitLength() - 1;
                        
                              var R = this.curve.getInfinity();
                              var both = this.add(x);
                              while (i >= 0) {
                                R = R.twice();
                                if (j.testBit(i)) {
                                  if (k.testBit(i)) {
                                    R = R.add(both);
                                  } else {
                                    R = R.add(this);
                                  }
                                } else {
                                  if (k.testBit(i)) {
                                    R = R.add(x);
                                  }
                                }
                                --i;
                              }
                        
                              return R;
                            };
                        
                            // patched by bitaddress.org and Casascius for use with Bitcoin.ECKey
                            // patched by coretechs to support compressed public keys
                            ec.PointFp.prototype.getEncoded = function (compressed) {
                              var x = this.getX().toBigInteger();
                              var y = this.getY().toBigInteger();
                              var len = 32; // integerToBytes will zero pad if integer is less than 32 bytes. 32 bytes length is required by the Bitcoin protocol.
                              var enc = ec.integerToBytes(x, len);
                        
                              // when compressed prepend byte depending if y point is even or odd
                              if (compressed) {
                                if (y.isEven()) {
                                  enc.unshift(0x02);
                                } else {
                                  enc.unshift(0x03);
                                }
                              } else {
                                enc.unshift(0x04);
                                enc = enc.concat(ec.integerToBytes(y, len)); // uncompressed public key appends the bytes of the y point
                              }
                              return enc;
                            };
                        
                            ec.PointFp.decodeFrom = function (curve, enc) {
                              var type = enc[0];
                              var dataLen = enc.length - 1;
                        
                              // Extract x and y as byte arrays
                              var xBa = enc.slice(1, 1 + dataLen / 2);
                              var yBa = enc.slice(1 + dataLen / 2, 1 + dataLen);
                        
                              // Prepend zero byte to prevent interpretation as negative integer
                              xBa.unshift(0);
                              yBa.unshift(0);
                        
                              // Convert to BigIntegers
                              var x = new BigInteger(xBa);
                              var y = new BigInteger(yBa);
                        
                              // Return point
                              return new ec.PointFp(
                                curve,
                                curve.fromBigInteger(x),
                                curve.fromBigInteger(y)
                              );
                            };
                        
                            ec.PointFp.prototype.add2D = function (b) {
                              if (this.isInfinity()) return b;
                              if (b.isInfinity()) return this;
                        
                              if (this.x.equals(b.x)) {
                                if (this.y.equals(b.y)) {
                                  // this = b, i.e. this must be doubled
                                  return this.twice();
                                }
                                // this = -b, i.e. the result is the point at infinity
                                return this.curve.getInfinity();
                              }
                        
                              var x_x = b.x.subtract(this.x);
                              var y_y = b.y.subtract(this.y);
                              var gamma = y_y.divide(x_x);
                        
                              var x3 = gamma.square().subtract(this.x).subtract(b.x);
                              var y3 = gamma.multiply(this.x.subtract(x3)).subtract(this.y);
                        
                              return new ec.PointFp(this.curve, x3, y3);
                            };
                        
                            ec.PointFp.prototype.twice2D = function () {
                              if (this.isInfinity()) return this;
                              if (this.y.toBigInteger().signum() == 0) {
                                // if y1 == 0, then (x1, y1) == (x1, -y1)
                                // and hence this = -this and thus 2(x1, y1) == infinity
                                return this.curve.getInfinity();
                              }
                        
                              var TWO = this.curve.fromBigInteger(BigInteger.valueOf(2));
                              var THREE = this.curve.fromBigInteger(BigInteger.valueOf(3));
                              var gamma = this.x
                                .square()
                                .multiply(THREE)
                                .add(this.curve.a)
                                .divide(this.y.multiply(TWO));
                        
                              var x3 = gamma.square().subtract(this.x.multiply(TWO));
                              var y3 = gamma.multiply(this.x.subtract(x3)).subtract(this.y);
                        
                              return new ec.PointFp(this.curve, x3, y3);
                            };
                        
                            ec.PointFp.prototype.multiply2D = function (k) {
                              if (this.isInfinity()) return this;
                              if (k.signum() == 0) return this.curve.getInfinity();
                        
                              var e = k;
                              var h = e.multiply(new BigInteger("3"));
                        
                              var neg = this.negate();
                              var R = this;
                        
                              var i;
                              for (i = h.bitLength() - 2; i > 0; --i) {
                                R = R.twice();
                        
                                var hBit = h.testBit(i);
                                var eBit = e.testBit(i);
                        
                                if (hBit != eBit) {
                                  R = R.add2D(hBit ? this : neg);
                                }
                              }
                        
                              return R;
                            };
                        
                            ec.PointFp.prototype.isOnCurve = function () {
                              var x = this.getX().toBigInteger();
                              var y = this.getY().toBigInteger();
                              var a = this.curve.getA().toBigInteger();
                              var b = this.curve.getB().toBigInteger();
                              var n = this.curve.getQ();
                              var lhs = y.multiply(y).mod(n);
                              var rhs = x.multiply(x).multiply(x).add(a.multiply(x)).add(b).mod(n);
                              return lhs.equals(rhs);
                            };
                        
                            ec.PointFp.prototype.toString = function () {
                              return (
                                "(" +
                                this.getX().toBigInteger().toString() +
                                "," +
                                this.getY().toBigInteger().toString() +
                                ")"
                              );
                            };
                        
                            /**
                             * Validate an elliptic curve point.
                             *
                             * See SEC 1, section 3.2.2.1: Elliptic Curve Public Key Validation Primitive
                             */
                            ec.PointFp.prototype.validate = function () {
                              var n = this.curve.getQ();
                        
                              // Check Q != O
                              if (this.isInfinity()) {
                                throw new Error("Point is at infinity.");
                              }
                        
                              // Check coordinate bounds
                              var x = this.getX().toBigInteger();
                              var y = this.getY().toBigInteger();
                              if (
                                x.compareTo(BigInteger.ONE) < 0 ||
                                x.compareTo(n.subtract(BigInteger.ONE)) > 0
                              ) {
                                throw new Error("x coordinate out of bounds");
                              }
                              if (
                                y.compareTo(BigInteger.ONE) < 0 ||
                                y.compareTo(n.subtract(BigInteger.ONE)) > 0
                              ) {
                                throw new Error("y coordinate out of bounds");
                              }
                        
                              // Check y^2 = x^3 + ax + b (mod n)
                              if (!this.isOnCurve()) {
                                throw new Error("Point is not on the curve.");
                              }
                        
                              // Check nQ = 0 (Q is a scalar multiple of G)
                              if (this.multiply(n).isInfinity()) {
                                // TODO: This check doesn't work - fix.
                                throw new Error("Point is not a scalar multiple of G.");
                              }
                        
                              return true;
                            };
                        
                            // ----------------
                            // ECCurveFp constructor
                            ec.CurveFp = function (q, a, b) {
                              this.q = q;
                              this.a = this.fromBigInteger(a);
                              this.b = this.fromBigInteger(b);
                              this.infinity = new ec.PointFp(this, null, null);
                              this.reducer = new Barrett(this.q);
                            };
                        
                            ec.CurveFp.prototype.getQ = function () {
                              return this.q;
                            };
                        
                            ec.CurveFp.prototype.getA = function () {
                              return this.a;
                            };
                        
                            ec.CurveFp.prototype.getB = function () {
                              return this.b;
                            };
                        
                            ec.CurveFp.prototype.equals = function (other) {
                              if (other == this) return true;
                              return (
                                this.q.equals(other.q) &&
                                this.a.equals(other.a) &&
                                this.b.equals(other.b)
                              );
                            };
                        
                            ec.CurveFp.prototype.getInfinity = function () {
                              return this.infinity;
                            };
                        
                            ec.CurveFp.prototype.fromBigInteger = function (x) {
                              return new ec.FieldElementFp(this.q, x);
                            };
                        
                            ec.CurveFp.prototype.reduce = function (x) {
                              this.reducer.reduce(x);
                            };
                        
                            // for now, work with hex strings because they're easier in JS
                            // compressed support added by bitaddress.org
                            ec.CurveFp.prototype.decodePointHex = function (s) {
                              var firstByte = parseInt(s.substr(0, 2), 16);
                              switch (
                                firstByte // first byte
                              ) {
                                case 0:
                                  return this.infinity;
                                case 2: // compressed
                                case 3: // compressed
                                  var yTilde = firstByte & 1;
                                  var xHex = s.substr(2, s.length - 2);
                                  var X1 = new BigInteger(xHex, 16);
                                  return this.decompressPoint(yTilde, X1);
                                case 4: // uncompressed
                                case 6: // hybrid
                                case 7: // hybrid
                                  var len = (s.length - 2) / 2;
                                  var xHex = s.substr(2, len);
                                  var yHex = s.substr(len + 2, len);
                        
                                  return new ec.PointFp(
                                    this,
                                    this.fromBigInteger(new BigInteger(xHex, 16)),
                                    this.fromBigInteger(new BigInteger(yHex, 16))
                                  );
                        
                                default:
                                  // unsupported
                                  return null;
                              }
                            };
                        
                            ec.CurveFp.prototype.encodePointHex = function (p) {
                              if (p.isInfinity()) return "00";
                              var xHex = p.getX().toBigInteger().toString(16);
                              var yHex = p.getY().toBigInteger().toString(16);
                              var oLen = this.getQ().toString(16).length;
                              if (oLen % 2 != 0) oLen++;
                              while (xHex.length < oLen) {
                                xHex = "0" + xHex;
                              }
                              while (yHex.length < oLen) {
                                yHex = "0" + yHex;
                              }
                              return "04" + xHex + yHex;
                            };
                        
                            /*
                             * Copyright (c) 2000 - 2011 The Legion Of The Bouncy Castle (http://www.bouncycastle.org)
                             * Ported to JavaScript by bitaddress.org
                             *
                             * Number yTilde
                             * BigInteger X1
                             */
                            ec.CurveFp.prototype.decompressPoint = function (yTilde, X1) {
                              var x = this.fromBigInteger(X1);
                              var alpha = x.multiply(x.square().add(this.getA())).add(this.getB());
                              var beta = alpha.sqrt();
                              // if we can't find a sqrt we haven't got a point on the curve - run!
                              if (beta == null) throw new Error("Invalid point compression");
                              var betaValue = beta.toBigInteger();
                              var bit0 = betaValue.testBit(0) ? 1 : 0;
                              if (bit0 != yTilde) {
                                // Use the other root
                                beta = this.fromBigInteger(this.getQ().subtract(betaValue));
                              }
                              return new ec.PointFp(this, x, beta, null, true);
                            };
                        
                            ec.fromHex = function (s) {
                              return new BigInteger(s, 16);
                            };
                        
                            ec.integerToBytes = function (i, len) {
                              var bytes = i.toByteArrayUnsigned();
                              if (len < bytes.length) {
                                bytes = bytes.slice(bytes.length - len);
                              } else
                                while (len > bytes.length) {
                                  bytes.unshift(0);
                                }
                              return bytes;
                            };
                        
                            // Named EC curves
                            // ----------------
                            // X9ECParameters constructor
                            ec.X9Parameters = function (curve, g, n, h) {
                              this.curve = curve;
                              this.g = g;
                              this.n = n;
                              this.h = h;
                            };
                            ec.X9Parameters.prototype.getCurve = function () {
                              return this.curve;
                            };
                            ec.X9Parameters.prototype.getG = function () {
                              return this.g;
                            };
                            ec.X9Parameters.prototype.getN = function () {
                              return this.n;
                            };
                            ec.X9Parameters.prototype.getH = function () {
                              return this.h;
                            };
                        
                            // secp256k1 is the Curve used by Bitcoin
                            ec.secNamedCurves = {
                              // used by Bitcoin
                              secp256k1: function () {
                                // p = 2^256 - 2^32 - 2^9 - 2^8 - 2^7 - 2^6 - 2^4 - 1
                                var p = ec.fromHex(
                                  "FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEFFFFFC2F"
                                );
                                var a = BigInteger.ZERO;
                                var b = ec.fromHex("7");
                                var n = ec.fromHex(
                                  "FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEBAAEDCE6AF48A03BBFD25E8CD0364141"
                                );
                                var h = BigInteger.ONE;
                                var curve = new ec.CurveFp(p, a, b);
                                var G = curve.decodePointHex(
                                  "04" +
                                    "79BE667EF9DCBBAC55A06295CE870B07029BFCDB2DCE28D959F2815B16F81798" +
                                    "483ADA7726A3C4655DA4FBFC0E1108A8FD17B448A68554199C47D08FFB10D4B8"
                                );
                                return new ec.X9Parameters(curve, G, n, h);
                              },
                            };
                        
                            // secp256k1 called by Bitcoin's ECKEY
                            ec.getSECCurveByName = function (name) {
                              if (ec.secNamedCurves[name] == undefined) return null;
                              return ec.secNamedCurves[name]();
                            };
                          })();
                        
                          //bitTrx.js
                          (function () {
                            var bitjs = (window.bitjs = function () {});
                        
                            /* public vars */
                            bitjs.pub = 0x23; // flochange - changed the prefix to FLO Mainnet PublicKey Prefix 0x23
                            bitjs.priv = 0xa3; //flochange - changed the prefix to FLO Mainnet Private key prefix 0xa3
                            bitjs.compressed = false;
                        
                            /* provide a privkey and return an WIF  */
                            bitjs.privkey2wif = function (h) {
                              var r = Crypto.util.hexToBytes(h);
                        
                              if (bitjs.compressed == true) {
                                r.push(0x01);
                              }
                        
                              r.unshift(bitjs.priv);
                              var hash = Crypto.SHA256(
                                Crypto.SHA256(r, {
                                  asBytes: true,
                                }),
                                {
                                  asBytes: true,
                                }
                              );
                              var checksum = hash.slice(0, 4);
                        
                              return B58.encode(r.concat(checksum));
                            };
                        
                            /* convert a wif key back to a private key */
                            bitjs.wif2privkey = function (wif) {
                              var compressed = false;
                              var decode = B58.decode(wif);
                              var key = decode.slice(0, decode.length - 4);
                              key = key.slice(1, key.length);
                              if (key.length >= 33 && key[key.length - 1] == 0x01) {
                                key = key.slice(0, key.length - 1);
                                compressed = true;
                              }
                              return {
                                privkey: Crypto.util.bytesToHex(key),
                                compressed: compressed,
                              };
                            };
                        
                            /* convert a wif to a pubkey */
                            bitjs.wif2pubkey = function (wif) {
                              var compressed = bitjs.compressed;
                              var r = bitjs.wif2privkey(wif);
                              bitjs.compressed = r["compressed"];
                              var pubkey = bitjs.newPubkey(r["privkey"]);
                              bitjs.compressed = compressed;
                              return {
                                pubkey: pubkey,
                                compressed: r["compressed"],
                              };
                            };
                        
                            /* convert a wif to a address */
                            bitjs.wif2address = function (wif) {
                              var r = bitjs.wif2pubkey(wif);
                              return {
                                address: bitjs.pubkey2address(r["pubkey"]),
                                compressed: r["compressed"],
                              };
                            };
                        
                            /* generate a public key from a private key */
                            bitjs.newPubkey = function (hash) {
                              var privateKeyBigInt = BigInteger.fromByteArrayUnsigned(
                                Crypto.util.hexToBytes(hash)
                              );
                              var curve = EllipticCurve.getSECCurveByName("secp256k1");
                        
                              var curvePt = curve.getG().multiply(privateKeyBigInt);
                              var x = curvePt.getX().toBigInteger();
                              var y = curvePt.getY().toBigInteger();
                        
                              var publicKeyBytes = EllipticCurve.integerToBytes(x, 32);
                              publicKeyBytes = publicKeyBytes.concat(
                                EllipticCurve.integerToBytes(y, 32)
                              );
                              publicKeyBytes.unshift(0x04);
                        
                              if (bitjs.compressed == true) {
                                var publicKeyBytesCompressed = EllipticCurve.integerToBytes(x, 32);
                                if (y.isEven()) {
                                  publicKeyBytesCompressed.unshift(0x02);
                                } else {
                                  publicKeyBytesCompressed.unshift(0x03);
                                }
                                return Crypto.util.bytesToHex(publicKeyBytesCompressed);
                              } else {
                                return Crypto.util.bytesToHex(publicKeyBytes);
                              }
                            };
                        
                            /* provide a public key and return address */
                            bitjs.pubkey2address = function (h, byte) {
                              var r = ripemd160(
                                Crypto.SHA256(Crypto.util.hexToBytes(h), {
                                  asBytes: true,
                                })
                              );
                              r.unshift(byte || bitjs.pub);
                              var hash = Crypto.SHA256(
                                Crypto.SHA256(r, {
                                  asBytes: true,
                                }),
                                {
                                  asBytes: true,
                                }
                              );
                              var checksum = hash.slice(0, 4);
                              return B58.encode(r.concat(checksum));
                            };
                        
                            bitjs.transaction = function () {
                              var btrx = {};
                              btrx.version = 2; //flochange look at this version
                              btrx.inputs = [];
                              btrx.outputs = [];
                              btrx.locktime = 0;
                              btrx.floData = ""; //flochange .. look at this
                        
                              btrx.addinput = function (txid, index, scriptPubKey, sequence) {
                                var o = {};
                                o.outpoint = {
                                  hash: txid,
                                  index: index,
                                };
                                //o.script = []; Signature and Public Key should be added after singning
                                o.script = Crypto.util.hexToBytes(scriptPubKey); //push previous output pubkey script
                                o.sequence = sequence || (btrx.locktime == 0 ? 4294967295 : 0);
                                return this.inputs.push(o);
                              };
                        
                              btrx.addoutput = function (address, value) {
                                var o = {};
                                var buf = [];
                                var addrDecoded = btrx.addressDecode(address);
                                o.value = new BigInteger("" + Math.round(value * 1 * 1e8), 10);
                                buf.push(118); //OP_DUP
                                buf.push(169); //OP_HASH160
                                buf.push(addrDecoded.length);
                                buf = buf.concat(addrDecoded); // address in bytes
                                buf.push(136); //OP_EQUALVERIFY
                                buf.push(172); //  OP_CHECKSIG
                                o.script = buf;
                                return this.outputs.push(o);
                              };
                        
                              btrx.addflodata = function (txcomments) {
                                // flochange - this whole function needs to be done
                                this.floData = txcomments;
                                return this.floData; //flochange .. returning the txcomments -- check if the function return will assign
                              };
                        
                              // Only standard addresses
                              btrx.addressDecode = function (address) {
                                var bytes = B58.decode(address);
                                var front = bytes.slice(0, bytes.length - 4);
                                var back = bytes.slice(bytes.length - 4);
                                var checksum = Crypto.SHA256(
                                  Crypto.SHA256(front, {
                                    asBytes: true,
                                  }),
                                  {
                                    asBytes: true,
                                  }
                                ).slice(0, 4);
                                if (checksum + "" == back + "") {
                                  return front.slice(1);
                                }
                              };
                        
                              /* generate the transaction hash to sign from a transaction input */
                              btrx.transactionHash = function (index, sigHashType) {
                                var clone = bitjs.clone(this);
                                var shType = sigHashType || 1;
                        
                                /* black out all other ins, except this one */
                                for (var i = 0; i < clone.inputs.length; i++) {
                                  if (index != i) {
                                    clone.inputs[i].script = [];
                                  }
                                }
                        
                                if (clone.inputs && clone.inputs[index]) {
                                  /* SIGHASH : For more info on sig hashs see https://en.bitcoin.it/wiki/OP_CHECKSIG
                                              and https://bitcoin.org/en/developer-guide#signature-hash-type */
                        
                                  if (shType == 1) {
                                    //SIGHASH_ALL 0x01
                                  } else if (shType == 2) {
                                    //SIGHASH_NONE 0x02
                                    clone.outputs = [];
                                    for (var i = 0; i < clone.inputs.length; i++) {
                                      if (index != i) {
                                        clone.inputs[i].sequence = 0;
                                      }
                                    }
                                  } else if (shType == 3) {
                                    //SIGHASH_SINGLE 0x03
                                    clone.outputs.length = index + 1;
                        
                                    for (var i = 0; i < index; i++) {
                                      clone.outputs[i].value = -1;
                                      clone.outputs[i].script = [];
                                    }
                        
                                    for (var i = 0; i < clone.inputs.length; i++) {
                                      if (index != i) {
                                        clone.inputs[i].sequence = 0;
                                      }
                                    }
                                  } else if (shType >= 128) {
                                    //SIGHASH_ANYONECANPAY 0x80
                                    clone.inputs = [clone.inputs[index]];
                        
                                    if (shType == 129) {
                                      // SIGHASH_ALL + SIGHASH_ANYONECANPAY
                                    } else if (shType == 130) {
                                      // SIGHASH_NONE + SIGHASH_ANYONECANPAY
                                      clone.outputs = [];
                                    } else if (shType == 131) {
                                      // SIGHASH_SINGLE + SIGHASH_ANYONECANPAY
                                      clone.outputs.length = index + 1;
                                      for (var i = 0; i < index; i++) {
                                        clone.outputs[i].value = -1;
                                        clone.outputs[i].script = [];
                                      }
                                    }
                                  }
                        
                                  var buffer = Crypto.util.hexToBytes(clone.serialize());
                                  buffer = buffer.concat(bitjs.numToBytes(parseInt(shType), 4));
                                  var hash = Crypto.SHA256(buffer, {
                                    asBytes: true,
                                  });
                                  var r = Crypto.util.bytesToHex(
                                    Crypto.SHA256(hash, {
                                      asBytes: true,
                                    })
                                  );
                                  return r;
                                } else {
                                  return false;
                                }
                              };
                        
                              /* generate a signature from a transaction hash */
                              btrx.transactionSig = function (index, wif, sigHashType, txhash) {
                                function serializeSig(r, s) {
                                  var rBa = r.toByteArraySigned();
                                  var sBa = s.toByteArraySigned();
                        
                                  var sequence = [];
                                  sequence.push(0x02); // INTEGER
                                  sequence.push(rBa.length);
                                  sequence = sequence.concat(rBa);
                        
                                  sequence.push(0x02); // INTEGER
                                  sequence.push(sBa.length);
                                  sequence = sequence.concat(sBa);
                        
                                  sequence.unshift(sequence.length);
                                  sequence.unshift(0x30); // SEQUENCE
                        
                                  return sequence;
                                }
                        
                                var shType = sigHashType || 1;
                                var hash =
                                  txhash ||
                                  Crypto.util.hexToBytes(this.transactionHash(index, shType));
                        
                                if (hash) {
                                  var curve = EllipticCurve.getSECCurveByName("secp256k1");
                                  var key = bitjs.wif2privkey(wif);
                                  var priv = BigInteger.fromByteArrayUnsigned(
                                    Crypto.util.hexToBytes(key["privkey"])
                                  );
                                  var n = curve.getN();
                                  var e = BigInteger.fromByteArrayUnsigned(hash);
                                  var badrs = 0;
                                  do {
                                    var k = this.deterministicK(wif, hash, badrs);
                                    var G = curve.getG();
                                    var Q = G.multiply(k);
                                    var r = Q.getX().toBigInteger().mod(n);
                                    var s = k
                                      .modInverse(n)
                                      .multiply(e.add(priv.multiply(r)))
                                      .mod(n);
                                    badrs++;
                                  } while (
                                    r.compareTo(BigInteger.ZERO) <= 0 ||
                                    s.compareTo(BigInteger.ZERO) <= 0
                                  );
                        
                                  // Force lower s values per BIP62
                                  var halfn = n.shiftRight(1);
                                  if (s.compareTo(halfn) > 0) {
                                    s = n.subtract(s);
                                  }
                        
                                  var sig = serializeSig(r, s);
                                  sig.push(parseInt(shType, 10));
                        
                                  return Crypto.util.bytesToHex(sig);
                                } else {
                                  return false;
                                }
                              };
                        
                              // https://tools.ietf.org/html/rfc6979#section-3.2
                              btrx.deterministicK = function (wif, hash, badrs) {
                                // if r or s were invalid when this function was used in signing,
                                // we do not want to actually compute r, s here for efficiency, so,
                                // we can increment badrs. explained at end of RFC 6979 section 3.2
                        
                                // wif is b58check encoded wif privkey.
                                // hash is byte array of transaction digest.
                                // badrs is used only if the k resulted in bad r or s.
                        
                                // some necessary things out of the way for clarity.
                                badrs = badrs || 0;
                                var key = bitjs.wif2privkey(wif);
                                var x = Crypto.util.hexToBytes(key["privkey"]);
                                var curve = EllipticCurve.getSECCurveByName("secp256k1");
                                var N = curve.getN();
                        
                                // Step: a
                                // hash is a byteArray of the message digest. so h1 == hash in our case
                        
                                // Step: b
                                var v = [
                                  1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
                                  1, 1, 1, 1, 1, 1, 1, 1, 1,
                                ];
                        
                                // Step: c
                                var k = [
                                  0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
                                  0, 0, 0, 0, 0, 0, 0, 0, 0,
                                ];
                        
                                // Step: d
                                k = Crypto.HMAC(
                                  Crypto.SHA256,
                                  v.concat([0]).concat(x).concat(hash),
                                  k,
                                  {
                                    asBytes: true,
                                  }
                                );
                        
                                // Step: e
                                v = Crypto.HMAC(Crypto.SHA256, v, k, {
                                  asBytes: true,
                                });
                        
                                // Step: f
                                k = Crypto.HMAC(
                                  Crypto.SHA256,
                                  v.concat([1]).concat(x).concat(hash),
                                  k,
                                  {
                                    asBytes: true,
                                  }
                                );
                        
                                // Step: g
                                v = Crypto.HMAC(Crypto.SHA256, v, k, {
                                  asBytes: true,
                                });
                        
                                // Step: h1
                                var T = [];
                        
                                // Step: h2 (since we know tlen = qlen, just copy v to T.)
                                v = Crypto.HMAC(Crypto.SHA256, v, k, {
                                  asBytes: true,
                                });
                                T = v;
                        
                                // Step: h3
                                var KBigInt = BigInteger.fromByteArrayUnsigned(T);
                        
                                // loop if KBigInt is not in the range of [1, N-1] or if badrs needs incrementing.
                                var i = 0;
                                while (
                                  KBigInt.compareTo(N) >= 0 ||
                                  KBigInt.compareTo(BigInteger.ZERO) <= 0 ||
                                  i < badrs
                                ) {
                                  k = Crypto.HMAC(Crypto.SHA256, v.concat([0]), k, {
                                    asBytes: true,
                                  });
                                  v = Crypto.HMAC(Crypto.SHA256, v, k, {
                                    asBytes: true,
                                  });
                                  v = Crypto.HMAC(Crypto.SHA256, v, k, {
                                    asBytes: true,
                                  });
                                  T = v;
                                  KBigInt = BigInteger.fromByteArrayUnsigned(T);
                                  i++;
                                }
                        
                                return KBigInt;
                              };
                        
                              /* sign a "standard" input */
                              btrx.signinput = function (index, wif, sigHashType) {
                                var key = bitjs.wif2pubkey(wif);
                                var shType = sigHashType || 1;
                                var signature = this.transactionSig(index, wif, shType);
                                var buf = [];
                                var sigBytes = Crypto.util.hexToBytes(signature);
                                buf.push(sigBytes.length);
                                buf = buf.concat(sigBytes);
                                var pubKeyBytes = Crypto.util.hexToBytes(key["pubkey"]);
                                buf.push(pubKeyBytes.length);
                                buf = buf.concat(pubKeyBytes);
                                this.inputs[index].script = buf;
                                return true;
                              };
                        
                              /* sign inputs */
                              btrx.sign = function (wif, sigHashType) {
                                var shType = sigHashType || 1;
                                for (var i = 0; i < this.inputs.length; i++) {
                                  this.signinput(i, wif, shType);
                                }
                                return this.serialize();
                              };
                        
                              /* serialize a transaction */
                              btrx.serialize = function () {
                                var buffer = [];
                                buffer = buffer.concat(bitjs.numToBytes(parseInt(this.version), 4));
                        
                                buffer = buffer.concat(bitjs.numToVarInt(this.inputs.length));
                                for (var i = 0; i < this.inputs.length; i++) {
                                  var txin = this.inputs[i];
                                  buffer = buffer.concat(
                                    Crypto.util.hexToBytes(txin.outpoint.hash).reverse()
                                  );
                                  buffer = buffer.concat(
                                    bitjs.numToBytes(parseInt(txin.outpoint.index), 4)
                                  );
                                  var scriptBytes = txin.script;
                                  buffer = buffer.concat(bitjs.numToVarInt(scriptBytes.length));
                                  buffer = buffer.concat(scriptBytes);
                                  buffer = buffer.concat(
                                    bitjs.numToBytes(parseInt(txin.sequence), 4)
                                  );
                                }
                                buffer = buffer.concat(bitjs.numToVarInt(this.outputs.length));
                        
                                for (var i = 0; i < this.outputs.length; i++) {
                                  var txout = this.outputs[i];
                                  buffer = buffer.concat(bitjs.numToBytes(txout.value, 8));
                                  var scriptBytes = txout.script;
                                  buffer = buffer.concat(bitjs.numToVarInt(scriptBytes.length));
                                  buffer = buffer.concat(scriptBytes);
                                }
                        
                                buffer = buffer.concat(bitjs.numToBytes(parseInt(this.locktime), 4));
                                flohex = ascii_to_hexa(this.floData);
                                floDataCount = this.floData.length;
                        
                                //flochange -- creating unique data character count logic for floData. This string is prefixed before actual floData string in Raw Transaction
                                if (floDataCount <= 16) {
                                  floDataCountString = floDataCount.toString(16);
                                  floDataCountString = "0" + floDataCountString;
                                } else if (floDataCount < 253) {
                                  floDataCountString = floDataCount.toString(16);
                                } else if (floDataCount <= 1023) {
                                  floDataCountAdjusted = floDataCount - 253 + parseInt("0xfd00fd");
                                  floDataCountStringAdjusted = floDataCountAdjusted.toString(16);
                                  floDataCountString =
                                    floDataCountStringAdjusted.substr(0, 2) +
                                    floDataCountStringAdjusted.substr(4, 2) +
                                    floDataCountStringAdjusted.substr(2, 2);
                                } else {
                                  floDataCountString = "Character Limit Exceeded";
                                }
                        
                                return Crypto.util.bytesToHex(buffer) + floDataCountString + flohex; // flochange -- Addition of floDataCountString and floData in serialization
                              };
                        
                              return btrx;
                            };
                        
                            bitjs.numToBytes = function (num, bytes) {
                              if (typeof bytes === "undefined") bytes = 8;
                              if (bytes == 0) {
                                return [];
                              } else if (num == -1) {
                                return Crypto.util.hexToBytes("ffffffffffffffff");
                              } else {
                                return [num % 256].concat(
                                  bitjs.numToBytes(Math.floor(num / 256), bytes - 1)
                                );
                              }
                            };
                        
                            bitjs.numToByteArray = function (num) {
                              if (num <= 256) {
                                return [num];
                              } else {
                                return [num % 256].concat(
                                  bitjs.numToByteArray(Math.floor(num / 256))
                                );
                              }
                            };
                        
                            bitjs.numToVarInt = function (num) {
                              if (num < 253) {
                                return [num];
                              } else if (num < 65536) {
                                return [253].concat(bitjs.numToBytes(num, 2));
                              } else if (num < 4294967296) {
                                return [254].concat(bitjs.numToBytes(num, 4));
                              } else {
                                return [255].concat(bitjs.numToBytes(num, 8));
                              }
                            };
                        
                            bitjs.bytesToNum = function (bytes) {
                              if (bytes.length == 0) return 0;
                              else return bytes[0] + 256 * bitjs.bytesToNum(bytes.slice(1));
                            };
                        
                            /* clone an object */
                            bitjs.clone = function (obj) {
                              if (obj == null || typeof obj != "object") return obj;
                              var temp = new obj.constructor();
                        
                              for (var key in obj) {
                                if (obj.hasOwnProperty(key)) {
                                  temp[key] = bitjs.clone(obj[key]);
                                }
                              }
                              return temp;
                            };
                        
                            var B58 = (bitjs.Base58 = {
                              alphabet: "123456789ABCDEFGHJKLMNPQRSTUVWXYZabcdefghijkmnopqrstuvwxyz",
                              validRegex: /^[1-9A-HJ-NP-Za-km-z]+$/,
                              base: BigInteger.valueOf(58),
                        
                              /**
                               * Convert a byte array to a base58-encoded string.
                               *
                               * Written by Mike Hearn for BitcoinJ.
                               *   Copyright (c) 2011 Google Inc.
                               *
                               * Ported to JavaScript by Stefan Thomas.
                               */
                              encode: function (input) {
                                var bi = BigInteger.fromByteArrayUnsigned(input);
                                var chars = [];
                        
                                while (bi.compareTo(B58.base) >= 0) {
                                  var mod = bi.mod(B58.base);
                                  chars.unshift(B58.alphabet[mod.intValue()]);
                                  bi = bi.subtract(mod).divide(B58.base);
                                }
                                chars.unshift(B58.alphabet[bi.intValue()]);
                        
                                // Convert leading zeros too.
                                for (var i = 0; i < input.length; i++) {
                                  if (input[i] == 0x00) {
                                    chars.unshift(B58.alphabet[0]);
                                  } else break;
                                }
                        
                                return chars.join("");
                              },
                        
                              /**
                               * Convert a base58-encoded string to a byte array.
                               *
                               * Written by Mike Hearn for BitcoinJ.
                               *   Copyright (c) 2011 Google Inc.
                               *
                               * Ported to JavaScript by Stefan Thomas.
                               */
                              decode: function (input) {
                                var bi = BigInteger.valueOf(0);
                                var leadingZerosNum = 0;
                                for (var i = input.length - 1; i >= 0; i--) {
                                  var alphaIndex = B58.alphabet.indexOf(input[i]);
                                  if (alphaIndex < 0) {
                                    throw "Invalid character";
                                  }
                                  bi = bi.add(
                                    BigInteger.valueOf(alphaIndex).multiply(
                                      B58.base.pow(input.length - 1 - i)
                                    )
                                  );
                        
                                  // This counts leading zero bytes
                                  if (input[i] == "1") leadingZerosNum++;
                                  else leadingZerosNum = 0;
                                }
                                var bytes = bi.toByteArrayUnsigned();
                        
                                // Add leading zeros
                                while (leadingZerosNum-- > 0) bytes.unshift(0);
                        
                                return bytes;
                              },
                            });
                            return bitjs;
                          })();
                        
                          /*
                          Copyright (c) 2011 Stefan Thomas
                          
                          Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:
                          
                          The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.
                          
                          THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
                          */
                        
                          //https://raw.github.com/bitcoinjs/bitcoinjs-lib/1a7fc9d063f864058809d06ef4542af40be3558f/src/bitcoin.js
                          (function (exports) {
                            var Bitcoin = exports;
                          })("object" === typeof module ? module.exports : (window.Bitcoin = {}));
                        
                          //https://raw.github.com/bitcoinjs/bitcoinjs-lib/c952aaeb3ee472e3776655b8ea07299ebed702c7/src/base58.js
                          (function (Bitcoin) {
                            Bitcoin.Base58 = {
                              alphabet: "123456789ABCDEFGHJKLMNPQRSTUVWXYZabcdefghijkmnopqrstuvwxyz",
                              validRegex: /^[1-9A-HJ-NP-Za-km-z]+$/,
                              base: BigInteger.valueOf(58),
                        
                              /**
                               * Convert a byte array to a base58-encoded string.
                               *
                               * Written by Mike Hearn for BitcoinJ.
                               *   Copyright (c) 2011 Google Inc.
                               *
                               * Ported to JavaScript by Stefan Thomas.
                               */
                              encode: function (input) {
                                var bi = BigInteger.fromByteArrayUnsigned(input);
                                var chars = [];
                        
                                while (bi.compareTo(B58.base) >= 0) {
                                  var mod = bi.mod(B58.base);
                                  chars.unshift(B58.alphabet[mod.intValue()]);
                                  bi = bi.subtract(mod).divide(B58.base);
                                }
                                chars.unshift(B58.alphabet[bi.intValue()]);
                        
                                // Convert leading zeros too.
                                for (var i = 0; i < input.length; i++) {
                                  if (input[i] == 0x00) {
                                    chars.unshift(B58.alphabet[0]);
                                  } else break;
                                }
                        
                                return chars.join("");
                              },
                        
                              /**
                               * Convert a base58-encoded string to a byte array.
                               *
                               * Written by Mike Hearn for BitcoinJ.
                               *   Copyright (c) 2011 Google Inc.
                               *
                               * Ported to JavaScript by Stefan Thomas.
                               */
                              decode: function (input) {
                                var bi = BigInteger.valueOf(0);
                                var leadingZerosNum = 0;
                                for (var i = input.length - 1; i >= 0; i--) {
                                  var alphaIndex = B58.alphabet.indexOf(input[i]);
                                  if (alphaIndex < 0) {
                                    throw "Invalid character";
                                  }
                                  bi = bi.add(
                                    BigInteger.valueOf(alphaIndex).multiply(
                                      B58.base.pow(input.length - 1 - i)
                                    )
                                  );
                        
                                  // This counts leading zero bytes
                                  if (input[i] == "1") leadingZerosNum++;
                                  else leadingZerosNum = 0;
                                }
                                var bytes = bi.toByteArrayUnsigned();
                        
                                // Add leading zeros
                                while (leadingZerosNum-- > 0) bytes.unshift(0);
                        
                                return bytes;
                              },
                            };
                        
                            var B58 = Bitcoin.Base58;
                          })("undefined" != typeof Bitcoin ? Bitcoin : module.exports);
                          //https://raw.github.com/bitcoinjs/bitcoinjs-lib/09e8c6e184d6501a0c2c59d73ca64db5c0d3eb95/src/address.js
                          Bitcoin.Address = function (bytes) {
                            if (floGlobals.blockchain == "FLO") this.version = 0x23;
                            // FLO mainnet public address
                            else if (floGlobals.blockchain == "FLO_TEST") this.version = 0x73; // FLO testnet public address
                            if ("string" == typeof bytes) {
                              bytes = Bitcoin.Address.decodeString(bytes, this.version);
                            }
                            this.hash = bytes;
                          };
                        
                          Bitcoin.Address.networkVersion = 0x23; // (FLO mainnet 0x23, 35D), (Bitcoin Mainnet, 0x00, 0D) // *this has no effect *
                        
                          /**
                           * Serialize this object as a standard Bitcoin address.
                           *
                           * Returns the address as a base58-encoded string in the standardized format.
                           */
                          Bitcoin.Address.prototype.toString = function () {
                            // Get a copy of the hash
                            var hash = this.hash.slice(0);
                        
                            // Version
                            hash.unshift(this.version);
                            var checksum = Crypto.SHA256(
                              Crypto.SHA256(hash, {
                                asBytes: true,
                              }),
                              {
                                asBytes: true,
                              }
                            );
                            var bytes = hash.concat(checksum.slice(0, 4));
                            return Bitcoin.Base58.encode(bytes);
                          };
                        
                          Bitcoin.Address.prototype.getHashBase64 = function () {
                            return Crypto.util.bytesToBase64(this.hash);
                          };
                        
                          /**
                           * Parse a Bitcoin address contained in a string.
                           */
                          Bitcoin.Address.decodeString = function (string, version) {
                            var bytes = Bitcoin.Base58.decode(string);
                            var hash = bytes.slice(0, 21);
                            var checksum = Crypto.SHA256(
                              Crypto.SHA256(hash, {
                                asBytes: true,
                              }),
                              {
                                asBytes: true,
                              }
                            );
                        
                            if (
                              checksum[0] != bytes[21] ||
                              checksum[1] != bytes[22] ||
                              checksum[2] != bytes[23] ||
                              checksum[3] != bytes[24]
                            ) {
                              throw "Checksum validation failed!";
                            }
                        
                            if (version != hash.shift()) {
                              throw "Version " + hash.shift() + " not supported!";
                            }
                        
                            return hash;
                          };
                          //https://raw.github.com/bitcoinjs/bitcoinjs-lib/e90780d3d3b8fc0d027d2bcb38b80479902f223e/src/ecdsa.js
                          Bitcoin.ECDSA = (function () {
                            var ecparams = EllipticCurve.getSECCurveByName("secp256k1");
                            var rng = new SecureRandom();
                        
                            var P_OVER_FOUR = null;
                        
                            function implShamirsTrick(P, k, Q, l) {
                              var m = Math.max(k.bitLength(), l.bitLength());
                              var Z = P.add2D(Q);
                              var R = P.curve.getInfinity();
                        
                              for (var i = m - 1; i >= 0; --i) {
                                R = R.twice2D();
                        
                                R.z = BigInteger.ONE;
                        
                                if (k.testBit(i)) {
                                  if (l.testBit(i)) {
                                    R = R.add2D(Z);
                                  } else {
                                    R = R.add2D(P);
                                  }
                                } else {
                                  if (l.testBit(i)) {
                                    R = R.add2D(Q);
                                  }
                                }
                              }
                        
                              return R;
                            }
                        
                            var ECDSA = {
                              getBigRandom: function (limit) {
                                return new BigInteger(limit.bitLength(), rng)
                                  .mod(limit.subtract(BigInteger.ONE))
                                  .add(BigInteger.ONE);
                              },
                              sign: function (hash, priv) {
                                var d = priv;
                                var n = ecparams.getN();
                                var e = BigInteger.fromByteArrayUnsigned(hash);
                        
                                do {
                                  var k = ECDSA.getBigRandom(n);
                                  var G = ecparams.getG();
                                  var Q = G.multiply(k);
                                  var r = Q.getX().toBigInteger().mod(n);
                                } while (r.compareTo(BigInteger.ZERO) <= 0);
                        
                                var s = k
                                  .modInverse(n)
                                  .multiply(e.add(d.multiply(r)))
                                  .mod(n);
                        
                                return ECDSA.serializeSig(r, s);
                              },
                        
                              verify: function (hash, sig, pubkey) {
                                var r, s;
                                if (Bitcoin.Util.isArray(sig)) {
                                  var obj = ECDSA.parseSig(sig);
                                  r = obj.r;
                                  s = obj.s;
                                } else if ("object" === typeof sig && sig.r && sig.s) {
                                  r = sig.r;
                                  s = sig.s;
                                } else {
                                  throw "Invalid value for signature";
                                }
                        
                                var Q;
                                if (pubkey instanceof ec.PointFp) {
                                  Q = pubkey;
                                } else if (Bitcoin.Util.isArray(pubkey)) {
                                  Q = EllipticCurve.PointFp.decodeFrom(ecparams.getCurve(), pubkey);
                                } else {
                                  throw "Invalid format for pubkey value, must be byte array or ec.PointFp";
                                }
                                var e = BigInteger.fromByteArrayUnsigned(hash);
                        
                                return ECDSA.verifyRaw(e, r, s, Q);
                              },
                        
                              verifyRaw: function (e, r, s, Q) {
                                var n = ecparams.getN();
                                var G = ecparams.getG();
                        
                                if (r.compareTo(BigInteger.ONE) < 0 || r.compareTo(n) >= 0)
                                  return false;
                        
                                if (s.compareTo(BigInteger.ONE) < 0 || s.compareTo(n) >= 0)
                                  return false;
                        
                                var c = s.modInverse(n);
                        
                                var u1 = e.multiply(c).mod(n);
                                var u2 = r.multiply(c).mod(n);
                        
                                // TODO(!!!): For some reason Shamir's trick isn't working with
                                // signed message verification!? Probably an implementation
                                // error!
                                //var point = implShamirsTrick(G, u1, Q, u2);
                                var point = G.multiply(u1).add(Q.multiply(u2));
                        
                                var v = point.getX().toBigInteger().mod(n);
                        
                                return v.equals(r);
                              },
                        
                              /**
                               * Serialize a signature into DER format.
                               *
                               * Takes two BigIntegers representing r and s and returns a byte array.
                               */
                              serializeSig: function (r, s) {
                                var rBa = r.toByteArraySigned();
                                var sBa = s.toByteArraySigned();
                        
                                var sequence = [];
                                sequence.push(0x02); // INTEGER
                                sequence.push(rBa.length);
                                sequence = sequence.concat(rBa);
                        
                                sequence.push(0x02); // INTEGER
                                sequence.push(sBa.length);
                                sequence = sequence.concat(sBa);
                        
                                sequence.unshift(sequence.length);
                                sequence.unshift(0x30); // SEQUENCE
                        
                                return sequence;
                              },
                        
                              /**
                               * Parses a byte array containing a DER-encoded signature.
                               *
                               * This function will return an object of the form:
                               *
                               * {
                               *   r: BigInteger,
                               *   s: BigInteger
                               * }
                               */
                              parseSig: function (sig) {
                                var cursor;
                                if (sig[0] != 0x30)
                                  throw new Error("Signature not a valid DERSequence");
                        
                                cursor = 2;
                                if (sig[cursor] != 0x02)
                                  throw new Error("First element in signature must be a DERInteger");
                                var rBa = sig.slice(cursor + 2, cursor + 2 + sig[cursor + 1]);
                        
                                cursor += 2 + sig[cursor + 1];
                                if (sig[cursor] != 0x02)
                                  throw new Error("Second element in signature must be a DERInteger");
                                var sBa = sig.slice(cursor + 2, cursor + 2 + sig[cursor + 1]);
                        
                                cursor += 2 + sig[cursor + 1];
                        
                                //if (cursor != sig.length)
                                //  throw new Error("Extra bytes in signature");
                        
                                var r = BigInteger.fromByteArrayUnsigned(rBa);
                                var s = BigInteger.fromByteArrayUnsigned(sBa);
                        
                                return {
                                  r: r,
                                  s: s,
                                };
                              },
                        
                              parseSigCompact: function (sig) {
                                if (sig.length !== 65) {
                                  throw "Signature has the wrong length";
                                }
                        
                                // Signature is prefixed with a type byte storing three bits of
                                // information.
                                var i = sig[0] - 27;
                                if (i < 0 || i > 7) {
                                  throw "Invalid signature type";
                                }
                        
                                var n = ecparams.getN();
                                var r = BigInteger.fromByteArrayUnsigned(sig.slice(1, 33)).mod(n);
                                var s = BigInteger.fromByteArrayUnsigned(sig.slice(33, 65)).mod(n);
                        
                                return {
                                  r: r,
                                  s: s,
                                  i: i,
                                };
                              },
                        
                              /**
                               * Recover a public key from a signature.
                               *
                               * See SEC 1: Elliptic Curve Cryptography, section 4.1.6, "Public
                               * Key Recovery Operation".
                               *
                               * http://www.secg.org/download/aid-780/sec1-v2.pdf
                               */
                              recoverPubKey: function (r, s, hash, i) {
                                // The recovery parameter i has two bits.
                                i = i & 3;
                        
                                // The less significant bit specifies whether the y coordinate
                                // of the compressed point is even or not.
                                var isYEven = i & 1;
                        
                                // The more significant bit specifies whether we should use the
                                // first or second candidate key.
                                var isSecondKey = i >> 1;
                        
                                var n = ecparams.getN();
                                var G = ecparams.getG();
                                var curve = ecparams.getCurve();
                                var p = curve.getQ();
                                var a = curve.getA().toBigInteger();
                                var b = curve.getB().toBigInteger();
                        
                                // We precalculate (p + 1) / 4 where p is if the field order
                                if (!P_OVER_FOUR) {
                                  P_OVER_FOUR = p.add(BigInteger.ONE).divide(BigInteger.valueOf(4));
                                }
                        
                                // 1.1 Compute x
                                var x = isSecondKey ? r.add(n) : r;
                        
                                // 1.3 Convert x to point
                                var alpha = x
                                  .multiply(x)
                                  .multiply(x)
                                  .add(a.multiply(x))
                                  .add(b)
                                  .mod(p);
                                var beta = alpha.modPow(P_OVER_FOUR, p);
                        
                                var xorOdd = beta.isEven() ? i % 2 : (i + 1) % 2;
                                // If beta is even, but y isn't or vice versa, then convert it,
                                // otherwise we're done and y == beta.
                                var y = (beta.isEven() ? !isYEven : isYEven)
                                  ? beta
                                  : p.subtract(beta);
                        
                                // 1.4 Check that nR is at infinity
                                var R = new EllipticCurve.PointFp(
                                  curve,
                                  curve.fromBigInteger(x),
                                  curve.fromBigInteger(y)
                                );
                                R.validate();
                        
                                // 1.5 Compute e from M
                                var e = BigInteger.fromByteArrayUnsigned(hash);
                                var eNeg = BigInteger.ZERO.subtract(e).mod(n);
                        
                                // 1.6 Compute Q = r^-1 (sR - eG)
                                var rInv = r.modInverse(n);
                                var Q = implShamirsTrick(R, s, G, eNeg).multiply(rInv);
                        
                                Q.validate();
                                if (!ECDSA.verifyRaw(e, r, s, Q)) {
                                  throw "Pubkey recovery unsuccessful";
                                }
                        
                                var pubKey = new Bitcoin.ECKey();
                                pubKey.pub = Q;
                                return pubKey;
                              },
                        
                              /**
                               * Calculate pubkey extraction parameter.
                               *
                               * When extracting a pubkey from a signature, we have to
                               * distinguish four different cases. Rather than putting this
                               * burden on the verifier, Bitcoin includes a 2-bit value with the
                               * signature.
                               *
                               * This function simply tries all four cases and returns the value
                               * that resulted in a successful pubkey recovery.
                               */
                              calcPubkeyRecoveryParam: function (address, r, s, hash) {
                                for (var i = 0; i < 4; i++) {
                                  try {
                                    var pubkey = Bitcoin.ECDSA.recoverPubKey(r, s, hash, i);
                                    if (pubkey.getBitcoinAddress().toString() == address) {
                                      return i;
                                    }
                                  } catch (e) {}
                                }
                                throw "Unable to find valid recovery factor";
                              },
                            };
                        
                            return ECDSA;
                          })();
                          Bitcoin.KeyPool = (function () {
                            var KeyPool = function () {
                              this.keyArray = [];
                        
                              this.push = function (item) {
                                if (item == null || item.priv == null) return;
                                var doAdd = true;
                                // prevent duplicates from being added to the array
                                for (var index in this.keyArray) {
                                  var currentItem = this.keyArray[index];
                                  if (
                                    currentItem != null &&
                                    currentItem.priv != null &&
                                    item.getBitcoinAddress() == currentItem.getBitcoinAddress()
                                  ) {
                                    doAdd = false;
                                    break;
                                  }
                                }
                                if (doAdd) this.keyArray.push(item);
                              };
                        
                              this.reset = function () {
                                this.keyArray = [];
                              };
                        
                              this.getArray = function () {
                                // copy array
                                return this.keyArray.slice(0);
                              };
                        
                              this.setArray = function (ka) {
                                this.keyArray = ka;
                              };
                        
                              this.length = function () {
                                return this.keyArray.length;
                              };
                        
                              this.toString = function () {
                                var keyPoolString = "# = " + this.length() + "\n";
                                var pool = this.getArray();
                                for (var index in pool) {
                                  var item = pool[index];
                                  if (
                                    Bitcoin.Util.hasMethods(item, "getBitcoinAddress", "toString")
                                  ) {
                                    if (item != null) {
                                      keyPoolString +=
                                        '"' +
                                        item.getBitcoinAddress() +
                                        '"' +
                                        ', "' +
                                        item.toString("wif") +
                                        '"\n';
                                    }
                                  }
                                }
                        
                                return keyPoolString;
                              };
                        
                              return this;
                            };
                        
                            return new KeyPool();
                          })();
                        
                          Bitcoin.Bip38Key = (function () {
                            var Bip38 = function (address, encryptedKey) {
                              this.address = address;
                              this.priv = encryptedKey;
                            };
                        
                            Bip38.prototype.getBitcoinAddress = function () {
                              return this.address;
                            };
                        
                            Bip38.prototype.toString = function () {
                              return this.priv;
                            };
                        
                            return Bip38;
                          })();
                        
                          //https://raw.github.com/pointbiz/bitcoinjs-lib/9b2f94a028a7bc9bed94e0722563e9ff1d8e8db8/src/eckey.js
                          Bitcoin.ECKey = (function () {
                            var ECDSA = Bitcoin.ECDSA;
                            var KeyPool = Bitcoin.KeyPool;
                            var ecparams = EllipticCurve.getSECCurveByName("secp256k1");
                        
                            var ECKey = function (input) {
                              if (!input) {
                                // Generate new key
                                var n = ecparams.getN();
                                this.priv = ECDSA.getBigRandom(n);
                              } else if (input instanceof BigInteger) {
                                // Input is a private key value
                                this.priv = input;
                              } else if (Bitcoin.Util.isArray(input)) {
                                // Prepend zero byte to prevent interpretation as negative integer
                                this.priv = BigInteger.fromByteArrayUnsigned(input);
                              } else if ("string" == typeof input) {
                                var bytes = null;
                                try {
                                  // This part is edited for FLO. FLO WIF are always compressed WIF. FLO WIF (private key) starts with R for mainnet and c for testnet.
                                  if (
                                    (floGlobals.blockchain == "FLO" &&
                                      /^R[123456789ABCDEFGHJKLMNPQRSTUVWXYZabcdefghijkmnopqrstuvwxyz]{51}$/.test(
                                        input
                                      )) ||
                                    (floGlobals.blockchain == "FLO_TEST" &&
                                      /^c[123456789ABCDEFGHJKLMNPQRSTUVWXYZabcdefghijkmnopqrstuvwxyz]{51}$/.test(
                                        input
                                      ))
                                  ) {
                                    bytes = ECKey.decodeCompressedWalletImportFormat(input);
                                    this.compressed = true;
                                  } else if (ECKey.isHexFormat(input)) {
                                    bytes = Crypto.util.hexToBytes(input);
                                  }
                        
                                  /*
                                              if (ECKey.isWalletImportFormat(input)) {
                                                  bytes = ECKey.decodeWalletImportFormat(input);
                                              } else if (ECKey.isCompressedWalletImportFormat(input)) {
                                                  bytes = ECKey.decodeCompressedWalletImportFormat(input);
                                                  this.compressed = true;
                                              } else if (ECKey.isMiniFormat(input)) {
                                                  bytes = Crypto.SHA256(input, { asBytes: true });
                                              } else if (ECKey.isHexFormat(input)) {
                                                  bytes = Crypto.util.hexToBytes(input);
                                              } else if (ECKey.isBase64Format(input)) {
                                                  bytes = Crypto.util.base64ToBytes(input);
                                              }
                                              */
                                } catch (exc1) {
                                  this.setError(exc1);
                                }
                        
                                if (ECKey.isBase6Format(input)) {
                                  this.priv = new BigInteger(input, 6);
                                } else if (bytes == null || bytes.length != 32) {
                                  this.priv = null;
                                } else {
                                  // Prepend zero byte to prevent interpretation as negative integer
                                  this.priv = BigInteger.fromByteArrayUnsigned(bytes);
                                }
                              }
                        
                              this.compressed =
                                this.compressed == undefined
                                  ? !!ECKey.compressByDefault
                                  : this.compressed;
                              try {
                                // check not zero
                                if (this.priv != null && BigInteger.ZERO.compareTo(this.priv) == 0)
                                  this.setError("Error: BigInteger equal to zero.");
                                // valid range [0x1, 0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEBAAEDCE6AF48A03BBFD25E8CD0364140])
                                var hexKeyRangeLimit =
                                  "FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEBAAEDCE6AF48A03BBFD25E8CD0364140";
                                var rangeLimitBytes = Crypto.util.hexToBytes(hexKeyRangeLimit);
                                var limitBigInt = BigInteger.fromByteArrayUnsigned(rangeLimitBytes);
                                if (this.priv != null && limitBigInt.compareTo(this.priv) < 0)
                                  this.setError("Error: BigInteger outside of curve range.");
                        
                                if (this.priv != null) {
                                  KeyPool.push(this);
                                }
                              } catch (exc2) {
                                this.setError(exc2);
                              }
                            };
                        
                            if (floGlobals.blockchain == "FLO") ECKey.privateKeyPrefix = 0xa3;
                            //(Bitcoin mainnet 0x80    testnet 0xEF) (FLO mainnet 0xA3 163 D)
                            else if (floGlobals.blockchain == "FLO_TEST")
                              ECKey.privateKeyPrefix = 0xef; //FLO testnet
                        
                            /**
                             * Whether public keys should be returned compressed by default.
                             */
                            ECKey.compressByDefault = false;
                        
                            /**
                             * Set whether the public key should be returned compressed or not.
                             */
                            ECKey.prototype.setError = function (err) {
                              this.error = err;
                              this.priv = null;
                              return this;
                            };
                        
                            /**
                             * Set whether the public key should be returned compressed or not.
                             */
                            ECKey.prototype.setCompressed = function (v) {
                              this.compressed = !!v;
                              if (this.pubPoint) this.pubPoint.compressed = this.compressed;
                              return this;
                            };
                        
                            /*
                             * Return public key as a byte array in DER encoding
                             */
                            ECKey.prototype.getPub = function () {
                              if (this.compressed) {
                                if (this.pubComp) return this.pubComp;
                                return (this.pubComp = this.getPubPoint().getEncoded(1));
                              } else {
                                if (this.pubUncomp) return this.pubUncomp;
                                return (this.pubUncomp = this.getPubPoint().getEncoded(0));
                              }
                            };
                        
                            /**
                             * Return public point as ECPoint object.
                             */
                            ECKey.prototype.getPubPoint = function () {
                              if (!this.pubPoint) {
                                this.pubPoint = ecparams.getG().multiply(this.priv);
                                this.pubPoint.compressed = this.compressed;
                              }
                              return this.pubPoint;
                            };
                        
                            ECKey.prototype.getPubKeyHex = function () {
                              if (this.compressed) {
                                if (this.pubKeyHexComp) return this.pubKeyHexComp;
                                return (this.pubKeyHexComp = Crypto.util
                                  .bytesToHex(this.getPub())
                                  .toString()
                                  .toUpperCase());
                              } else {
                                if (this.pubKeyHexUncomp) return this.pubKeyHexUncomp;
                                return (this.pubKeyHexUncomp = Crypto.util
                                  .bytesToHex(this.getPub())
                                  .toString()
                                  .toUpperCase());
                              }
                            };
                        
                            /**
                             * Get the pubKeyHash for this key.
                             *
                             * This is calculated as RIPE160(SHA256([encoded pubkey])) and returned as
                             * a byte array.
                             */
                            ECKey.prototype.getPubKeyHash = function () {
                              if (this.compressed) {
                                if (this.pubKeyHashComp) return this.pubKeyHashComp;
                                return (this.pubKeyHashComp = Bitcoin.Util.sha256ripe160(
                                  this.getPub()
                                ));
                              } else {
                                if (this.pubKeyHashUncomp) return this.pubKeyHashUncomp;
                                return (this.pubKeyHashUncomp = Bitcoin.Util.sha256ripe160(
                                  this.getPub()
                                ));
                              }
                            };
                        
                            ECKey.prototype.getBitcoinAddress = function () {
                              var hash = this.getPubKeyHash();
                              var addr = new Bitcoin.Address(hash);
                              return addr.toString();
                            };
                        
                            /*
                             * Takes a public point as a hex string or byte array
                             */
                            ECKey.prototype.setPub = function (pub) {
                              // byte array
                              if (Bitcoin.Util.isArray(pub)) {
                                pub = Crypto.util.bytesToHex(pub).toString().toUpperCase();
                              }
                              var ecPoint = ecparams.getCurve().decodePointHex(pub);
                              this.setCompressed(ecPoint.compressed);
                              this.pubPoint = ecPoint;
                              return this;
                            };
                        
                            // Sipa Private Key Wallet Import Format
                            ECKey.prototype.getBitcoinWalletImportFormat = function () {
                              var bytes = this.getBitcoinPrivateKeyByteArray();
                              if (bytes == null) return "";
                              bytes.unshift(ECKey.privateKeyPrefix); // prepend 0x80 byte
                              if (this.compressed) bytes.push(0x01); // append 0x01 byte for compressed format
                              var checksum = Crypto.SHA256(
                                Crypto.SHA256(bytes, {
                                  asBytes: true,
                                }),
                                {
                                  asBytes: true,
                                }
                              );
                              bytes = bytes.concat(checksum.slice(0, 4));
                              var privWif = Bitcoin.Base58.encode(bytes);
                              return privWif;
                            };
                        
                            // Private Key Hex Format
                            ECKey.prototype.getBitcoinHexFormat = function () {
                              return Crypto.util
                                .bytesToHex(this.getBitcoinPrivateKeyByteArray())
                                .toString()
                                .toUpperCase();
                            };
                        
                            // Private Key Base64 Format
                            ECKey.prototype.getBitcoinBase64Format = function () {
                              return Crypto.util.bytesToBase64(this.getBitcoinPrivateKeyByteArray());
                            };
                        
                            ECKey.prototype.getBitcoinPrivateKeyByteArray = function () {
                              if (this.priv == null) return null;
                              // Get a copy of private key as a byte array
                              var bytes = this.priv.toByteArrayUnsigned();
                              // zero pad if private key is less than 32 bytes
                              while (bytes.length < 32) bytes.unshift(0x00);
                              return bytes;
                            };
                        
                            ECKey.prototype.toString = function (format) {
                              format = format || "";
                              if (
                                format.toString().toLowerCase() == "base64" ||
                                format.toString().toLowerCase() == "b64"
                              ) {
                                return this.getBitcoinBase64Format();
                              }
                              // Wallet Import Format
                              else if (format.toString().toLowerCase() == "wif") {
                                return this.getBitcoinWalletImportFormat();
                              } else {
                                return this.getBitcoinHexFormat();
                              }
                            };
                        
                            ECKey.prototype.sign = function (hash) {
                              return ECDSA.sign(hash, this.priv);
                            };
                        
                            ECKey.prototype.verify = function (hash, sig) {
                              return ECDSA.verify(hash, sig, this.getPub());
                            };
                        
                            /**
                             * Parse a wallet import format private key contained in a string.
                             */
                            ECKey.decodeWalletImportFormat = function (privStr) {
                              var bytes = Bitcoin.Base58.decode(privStr);
                              var hash = bytes.slice(0, 33);
                              var checksum = Crypto.SHA256(
                                Crypto.SHA256(hash, {
                                  asBytes: true,
                                }),
                                {
                                  asBytes: true,
                                }
                              );
                              if (
                                checksum[0] != bytes[33] ||
                                checksum[1] != bytes[34] ||
                                checksum[2] != bytes[35] ||
                                checksum[3] != bytes[36]
                              ) {
                                throw "Checksum validation failed!";
                              }
                              var version = hash.shift();
                              if (version != ECKey.privateKeyPrefix) {
                                throw "Version " + version + " not supported!";
                              }
                              return hash;
                            };
                        
                            /**
                             * Parse a compressed wallet import format private key contained in a string.
                             */
                            ECKey.decodeCompressedWalletImportFormat = function (privStr) {
                              var bytes = Bitcoin.Base58.decode(privStr);
                              var hash = bytes.slice(0, 34);
                              var checksum = Crypto.SHA256(
                                Crypto.SHA256(hash, {
                                  asBytes: true,
                                }),
                                {
                                  asBytes: true,
                                }
                              );
                              if (
                                checksum[0] != bytes[34] ||
                                checksum[1] != bytes[35] ||
                                checksum[2] != bytes[36] ||
                                checksum[3] != bytes[37]
                              ) {
                                throw "Checksum validation failed!";
                              }
                              var version = hash.shift();
                              if (version != ECKey.privateKeyPrefix) {
                                throw "Version " + version + " not supported!";
                              }
                              hash.pop();
                              return hash;
                            };
                        
                            // 64 characters [0-9A-F]
                            ECKey.isHexFormat = function (key) {
                              key = key.toString();
                              return /^[A-Fa-f0-9]{64}$/.test(key);
                            };
                        
                            // 51 characters base58, always starts with a '5'
                            ECKey.isWalletImportFormat = function (key) {
                              key = key.toString();
                              return ECKey.privateKeyPrefix == 0x80
                                ? /^5[123456789ABCDEFGHJKLMNPQRSTUVWXYZabcdefghijkmnopqrstuvwxyz]{50}$/.test(
                                    key
                                  )
                                : /^R[123456789ABCDEFGHJKLMNPQRSTUVWXYZabcdefghijkmnopqrstuvwxyz]{50}$/.test(
                                    key
                                  );
                            };
                        
                            // 52 characters base58
                            ECKey.isCompressedWalletImportFormat = function (key) {
                              key = key.toString();
                              return ECKey.privateKeyPrefix == 0x80
                                ? /^[LK][123456789ABCDEFGHJKLMNPQRSTUVWXYZabcdefghijkmnopqrstuvwxyz]{51}$/.test(
                                    key
                                  )
                                : /^R[123456789ABCDEFGHJKLMNPQRSTUVWXYZabcdefghijkmnopqrstuvwxyz]{51}$/.test(
                                    key
                                  );
                            };
                        
                            // 44 characters
                            ECKey.isBase64Format = function (key) {
                              key = key.toString();
                              return /^[ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789=+\/]{44}$/.test(
                                key
                              );
                            };
                        
                            // 99 characters, 1=1, if using dice convert 6 to 0
                            ECKey.isBase6Format = function (key) {
                              key = key.toString();
                              return /^[012345]{99}$/.test(key);
                            };
                        
                            // 22, 26 or 30 characters, always starts with an 'S'
                            ECKey.isMiniFormat = function (key) {
                              key = key.toString();
                              var validChars22 =
                                /^S[123456789ABCDEFGHJKLMNPQRSTUVWXYZabcdefghijkmnopqrstuvwxyz]{21}$/.test(
                                  key
                                );
                              var validChars26 =
                                /^S[123456789ABCDEFGHJKLMNPQRSTUVWXYZabcdefghijkmnopqrstuvwxyz]{25}$/.test(
                                  key
                                );
                              var validChars30 =
                                /^S[123456789ABCDEFGHJKLMNPQRSTUVWXYZabcdefghijkmnopqrstuvwxyz]{29}$/.test(
                                  key
                                );
                              var testBytes = Crypto.SHA256(key + "?", {
                                asBytes: true,
                              });
                        
                              return (
                                (testBytes[0] === 0x00 || testBytes[0] === 0x01) &&
                                (validChars22 || validChars26 || validChars30)
                              );
                            };
                        
                            return ECKey;
                          })();
                          //https://raw.github.com/bitcoinjs/bitcoinjs-lib/09e8c6e184d6501a0c2c59d73ca64db5c0d3eb95/src/util.js
                          // Bitcoin utility functions
                          Bitcoin.Util = {
                            /**
                             * Cross-browser compatibility version of Array.isArray.
                             */
                            isArray:
                              Array.isArray ||
                              function (o) {
                                return Object.prototype.toString.call(o) === "[object Array]";
                              },
                            /**
                             * Create an array of a certain length filled with a specific value.
                             */
                            makeFilledArray: function (len, val) {
                              var array = [];
                              var i = 0;
                              while (i < len) {
                                array[i++] = val;
                              }
                              return array;
                            },
                            /**
                             * Turn an integer into a "var_int".
                             *
                             * "var_int" is a variable length integer used by Bitcoin's binary format.
                             *
                             * Returns a byte array.
                             */
                            numToVarInt: function (i) {
                              if (i < 0xfd) {
                                // unsigned char
                                return [i];
                              } else if (i <= 1 << 16) {
                                // unsigned short (LE)
                                return [0xfd, i >>> 8, i & 255];
                              } else if (i <= 1 << 32) {
                                // unsigned int (LE)
                                return [0xfe].concat(Crypto.util.wordsToBytes([i]));
                              } else {
                                // unsigned long long (LE)
                                return [0xff].concat(Crypto.util.wordsToBytes([i >>> 32, i]));
                              }
                            },
                            /**
                             * Parse a Bitcoin value byte array, returning a BigInteger.
                             */
                            valueToBigInt: function (valueBuffer) {
                              if (valueBuffer instanceof BigInteger) return valueBuffer;
                        
                              // Prepend zero byte to prevent interpretation as negative integer
                              return BigInteger.fromByteArrayUnsigned(valueBuffer);
                            },
                            /**
                             * Format a Bitcoin value as a string.
                             *
                             * Takes a BigInteger or byte-array and returns that amount of Bitcoins in a
                             * nice standard formatting.
                             *
                             * Examples:
                             * 12.3555
                             * 0.1234
                             * 900.99998888
                             * 34.00
                             */
                            formatValue: function (valueBuffer) {
                              var value = this.valueToBigInt(valueBuffer).toString();
                              var integerPart =
                                value.length > 8 ? value.substr(0, value.length - 8) : "0";
                              var decimalPart =
                                value.length > 8 ? value.substr(value.length - 8) : value;
                              while (decimalPart.length < 8) decimalPart = "0" + decimalPart;
                              decimalPart = decimalPart.replace(/0*$/, "");
                              while (decimalPart.length < 2) decimalPart += "0";
                              return integerPart + "." + decimalPart;
                            },
                            /**
                             * Parse a floating point string as a Bitcoin value.
                             *
                             * Keep in mind that parsing user input is messy. You should always display
                             * the parsed value back to the user to make sure we understood his input
                             * correctly.
                             */
                            parseValue: function (valueString) {
                              // TODO: Detect other number formats (e.g. comma as decimal separator)
                              var valueComp = valueString.split(".");
                              var integralPart = valueComp[0];
                              var fractionalPart = valueComp[1] || "0";
                              while (fractionalPart.length < 8) fractionalPart += "0";
                              fractionalPart = fractionalPart.replace(/^0+/g, "");
                              var value = BigInteger.valueOf(parseInt(integralPart));
                              value = value.multiply(BigInteger.valueOf(100000000));
                              value = value.add(BigInteger.valueOf(parseInt(fractionalPart)));
                              return value;
                            },
                            /**
                             * Calculate RIPEMD160(SHA256(data)).
                             *
                             * Takes an arbitrary byte array as inputs and returns the hash as a byte
                             * array.
                             */
                            sha256ripe160: function (data) {
                              return ripemd160(
                                Crypto.SHA256(data, {
                                  asBytes: true,
                                }),
                                {
                                  asBytes: true,
                                }
                              );
                            },
                            // double sha256
                            dsha256: function (data) {
                              return Crypto.SHA256(
                                Crypto.SHA256(data, {
                                  asBytes: true,
                                }),
                                {
                                  asBytes: true,
                                }
                              );
                            },
                            // duck typing method
                            hasMethods: function (obj /*, method list as strings */) {
                              var i = 1,
                                methodName;
                              while ((methodName = arguments[i++])) {
                                if (typeof obj[methodName] != "function") {
                                  return false;
                                }
                              }
                              return true;
                            },
                          };
                        
                          (function (ellipticCurveType) {
                            //Defining Elliptic Encryption Object
                            var ellipticEncryption = (window.ellipticCurveEncryption =
                              function () {});
                        
                            ellipticEncryption.rng = new SecureRandom();
                        
                            ellipticEncryption.getCurveParameters = function (curveName) {
                              //Default is secp256k1
                              curveName = typeof curveName !== "undefined" ? curveName : "secp256k1";
                        
                              var c = EllipticCurve.getSECCurveByName(curveName);
                              var curveDetails = {
                                Q: "",
                                A: "",
                                B: "",
                                GX: "",
                                GY: "",
                                N: "",
                              };
                        
                              curveDetails.Q = c.getCurve().getQ().toString();
                              curveDetails.A = c.getCurve().getA().toBigInteger().toString();
                              curveDetails.B = c.getCurve().getB().toBigInteger().toString();
                              curveDetails.GX = c.getG().getX().toBigInteger().toString();
                              curveDetails.GY = c.getG().getY().toBigInteger().toString();
                              curveDetails.N = c.getN().toString();
                        
                              return curveDetails;
                            };
                        
                            ellipticEncryption.selectedCurve =
                              ellipticEncryption.getCurveParameters(ellipticCurveType);
                        
                            ellipticEncryption.get_curve = function () {
                              return new EllipticCurve.CurveFp(
                                new BigInteger(this.selectedCurve.Q),
                                new BigInteger(this.selectedCurve.A),
                                new BigInteger(this.selectedCurve.B)
                              );
                            };
                        
                            ellipticEncryption.get_G = function (curve) {
                              return new EllipticCurve.PointFp(
                                curve,
                                curve.fromBigInteger(new BigInteger(this.selectedCurve.GX)),
                                curve.fromBigInteger(new BigInteger(this.selectedCurve.GY))
                              );
                            };
                        
                            ellipticEncryption.pick_rand = function () {
                              var n = new BigInteger(this.selectedCurve.N);
                              var n1 = n.subtract(BigInteger.ONE);
                              var r = new BigInteger(n.bitLength(), this.rng);
                              return r.mod(n1).add(BigInteger.ONE);
                            };
                        
                            ellipticEncryption.senderRandom = function () {
                              var r = this.pick_rand();
                              return r.toString();
                            };
                        
                            ellipticEncryption.receiverRandom = function () {
                              //This is receivers private key. For now we will use random. CHANGE IT LATER
                              var r = this.pick_rand();
                              return r.toString();
                            };
                        
                            ellipticEncryption.senderPublicString = function (senderPrivateKey) {
                              var senderKeyECData = {};
                        
                              var curve = this.get_curve();
                              var G = this.get_G(curve);
                              var a = new BigInteger(senderPrivateKey);
                              var P = G.multiply(a);
                              senderKeyECData.XValuePublicString = P.getX().toBigInteger().toString();
                              senderKeyECData.YValuePublicString = P.getY().toBigInteger().toString();
                        
                              return senderKeyECData;
                            };
                        
                            //In real life ellipticEncryption.receiverPublicString is the public key of the receiver.
                            //you don't have to run receiverRandom and the bottom function
                            ellipticEncryption.receiverPublicString = function (receiverPublicKey) {
                              var receiverKeyECData = {};
                        
                              var curve = this.get_curve();
                              var G = this.get_G(curve);
                              var a = new BigInteger(receiverPublicKey);
                              var P = G.multiply(a);
                              receiverKeyECData.XValuePublicString = P.getX()
                                .toBigInteger()
                                .toString();
                              receiverKeyECData.YValuePublicString = P.getY()
                                .toBigInteger()
                                .toString();
                        
                              return receiverKeyECData;
                            };
                        
                            ellipticEncryption.senderSharedKeyDerivation = function (
                              receiverPublicStringXValue,
                              receiverPublicStringYValue,
                              senderPrivateKey
                            ) {
                              var senderDerivedKey = {};
                              var curve = this.get_curve();
                              var P = new EllipticCurve.PointFp(
                                curve,
                                curve.fromBigInteger(new BigInteger(receiverPublicStringXValue)),
                                curve.fromBigInteger(new BigInteger(receiverPublicStringYValue))
                              );
                              var a = new BigInteger(senderPrivateKey);
                              var S = P.multiply(a);
                        
                              senderDerivedKey.XValue = S.getX().toBigInteger().toString();
                              senderDerivedKey.YValue = S.getY().toBigInteger().toString();
                        
                              return senderDerivedKey;
                            };
                        
                            ellipticEncryption.receiverSharedKeyDerivation = function (
                              senderPublicStringXValue,
                              senderPublicStringYValue,
                              receiverPrivateKey
                            ) {
                              var receiverDerivedKey = {};
                              var curve = this.get_curve();
                              var P = new EllipticCurve.PointFp(
                                curve,
                                curve.fromBigInteger(new BigInteger(senderPublicStringXValue)),
                                curve.fromBigInteger(new BigInteger(senderPublicStringYValue))
                              );
                              var a = new BigInteger(receiverPrivateKey);
                              var S = P.multiply(a);
                        
                              receiverDerivedKey.XValue = S.getX().toBigInteger().toString();
                              receiverDerivedKey.YValue = S.getY().toBigInteger().toString();
                        
                              return receiverDerivedKey;
                            };
                          })("secp256k1");
                        
                          // secrets.js - by Alexander Stetsyuk - released under MIT License
                          (function (exports, global) {
                            var defaults = {
                              bits: 8, // default number of bits
                              radix: 16, // work with HEX by default
                              minBits: 3,
                              maxBits: 20, // this permits 1,048,575 shares, though going this high is NOT recommended in JS!
                        
                              bytesPerChar: 2,
                              maxBytesPerChar: 6, // Math.pow(256,7) > Math.pow(2,53)
                        
                              // Primitive polynomials (in decimal form) for Galois Fields GF(2^n), for 2 <= n <= 30
                              // The index of each term in the array corresponds to the n for that polynomial
                              // i.e. to get the polynomial for n=16, use primitivePolynomials[16]
                              primitivePolynomials: [
                                null,
                                null,
                                1,
                                3,
                                3,
                                5,
                                3,
                                3,
                                29,
                                17,
                                9,
                                5,
                                83,
                                27,
                                43,
                                3,
                                45,
                                9,
                                39,
                                39,
                                9,
                                5,
                                3,
                                33,
                                27,
                                9,
                                71,
                                39,
                                9,
                                5,
                                83,
                              ],
                        
                              // warning for insecure PRNG
                              warning:
                                "WARNING:\nA secure random number generator was not found.\nUsing Math.random(), which is NOT cryptographically strong!",
                            };
                        
                            // Protected settings object
                            var config = {};
                        
                            /** @expose **/
                            exports.getConfig = function () {
                              return {
                                bits: config.bits,
                                unsafePRNG: config.unsafePRNG,
                              };
                            };
                        
                            function init(bits) {
                              if (
                                bits &&
                                (typeof bits !== "number" ||
                                  bits % 1 !== 0 ||
                                  bits < defaults.minBits ||
                                  bits > defaults.maxBits)
                              ) {
                                throw new Error(
                                  "Number of bits must be an integer between " +
                                    defaults.minBits +
                                    " and " +
                                    defaults.maxBits +
                                    ", inclusive."
                                );
                              }
                        
                              config.radix = defaults.radix;
                              config.bits = bits || defaults.bits;
                              config.size = Math.pow(2, config.bits);
                              config.max = config.size - 1;
                        
                              // Construct the exp and log tables for multiplication.
                              var logs = [],
                                exps = [],
                                x = 1,
                                primitive = defaults.primitivePolynomials[config.bits];
                              for (var i = 0; i < config.size; i++) {
                                exps[i] = x;
                                logs[x] = i;
                                x <<= 1;
                                if (x >= config.size) {
                                  x ^= primitive;
                                  x &= config.max;
                                }
                              }
                        
                              config.logs = logs;
                              config.exps = exps;
                            }
                        
                            /** @expose **/
                            exports.init = init;
                        
                            function isInited() {
                              if (
                                !config.bits ||
                                !config.size ||
                                !config.max ||
                                !config.logs ||
                                !config.exps ||
                                config.logs.length !== config.size ||
                                config.exps.length !== config.size
                              ) {
                                return false;
                              }
                              return true;
                            }
                        
                            // Returns a pseudo-random number generator of the form function(bits){}
                            // which should output a random string of 1's and 0's of length `bits`
                            function getRNG() {
                              var randomBits, crypto;
                        
                              function construct(bits, arr, radix, size) {
                                var str = "",
                                  i = 0,
                                  len = arr.length - 1;
                                while (i < len || str.length < bits) {
                                  str += padLeft(parseInt(arr[i], radix).toString(2), size);
                                  i++;
                                }
                                str = str.substr(-bits);
                                if ((str.match(/0/g) || []).length === str.length) {
                                  // all zeros?
                                  return null;
                                } else {
                                  return str;
                                }
                              }
                        
                              // node.js crypto.randomBytes()
                              if (
                                typeof require === "function" &&
                                (crypto = require("crypto")) &&
                                (randomBits = crypto["randomBytes"])
                              ) {
                                return function (bits) {
                                  var bytes = Math.ceil(bits / 8),
                                    str = null;
                        
                                  while (str === null) {
                                    str = construct(bits, randomBits(bytes).toString("hex"), 16, 4);
                                  }
                                  return str;
                                };
                              }
                        
                              // browsers with window.crypto.getRandomValues()
                              if (
                                global["crypto"] &&
                                typeof global["crypto"]["getRandomValues"] === "function" &&
                                typeof global["Uint32Array"] === "function"
                              ) {
                                crypto = global["crypto"];
                                return function (bits) {
                                  var elems = Math.ceil(bits / 32),
                                    str = null,
                                    arr = new global["Uint32Array"](elems);
                        
                                  while (str === null) {
                                    crypto["getRandomValues"](arr);
                                    str = construct(bits, arr, 10, 32);
                                  }
                        
                                  return str;
                                };
                              }
                        
                              // A totally insecure RNG!!! (except in Safari)
                              // Will produce a warning every time it is called.
                              config.unsafePRNG = true;
                              warn();
                        
                              var bitsPerNum = 32;
                              var max = Math.pow(2, bitsPerNum) - 1;
                              return function (bits) {
                                var elems = Math.ceil(bits / bitsPerNum);
                                var arr = [],
                                  str = null;
                                while (str === null) {
                                  for (var i = 0; i < elems; i++) {
                                    arr[i] = Math.floor(Math.random() * max + 1);
                                  }
                                  str = construct(bits, arr, 10, bitsPerNum);
                                }
                                return str;
                              };
                            }
                        
                            // Warn about using insecure rng.
                            // Called when Math.random() is being used.
                            function warn() {
                              global["console"]["warn"](defaults.warning);
                              if (typeof global["alert"] === "function" && config.alert) {
                                global["alert"](defaults.warning);
                              }
                            }
                        
                            // Set the PRNG to use. If no RNG function is supplied, pick a default using getRNG()
                            /** @expose **/
                            exports.setRNG = function (rng, alert) {
                              if (!isInited()) {
                                this.init();
                              }
                              config.unsafePRNG = false;
                              rng = rng || getRNG();
                        
                              // test the RNG (5 times)
                              if (
                                typeof rng !== "function" ||
                                typeof rng(config.bits) !== "string" ||
                                !parseInt(rng(config.bits), 2) ||
                                rng(config.bits).length > config.bits ||
                                rng(config.bits).length < config.bits
                              ) {
                                throw new Error(
                                  "Random number generator is invalid. Supply an RNG of the form function(bits){} that returns a string containing 'bits' number of random 1's and 0's."
                                );
                              } else {
                                config.rng = rng;
                              }
                              config.alert = !!alert;
                        
                              return !!config.unsafePRNG;
                            };
                        
                            function isSetRNG() {
                              return typeof config.rng === "function";
                            }
                        
                            // Generates a random bits-length number string using the PRNG
                            /** @expose **/
                            exports.random = function (bits) {
                              if (!isSetRNG()) {
                                this.setRNG();
                              }
                        
                              if (typeof bits !== "number" || bits % 1 !== 0 || bits < 2) {
                                throw new Error("Number of bits must be an integer greater than 1.");
                              }
                        
                              if (config.unsafePRNG) {
                                warn();
                              }
                              return bin2hex(config.rng(bits));
                            };
                        
                            // Divides a `secret` number String str expressed in radix `inputRadix` (optional, default 16)
                            // into `numShares` shares, each expressed in radix `outputRadix` (optional, default to `inputRadix`),
                            // requiring `threshold` number of shares to reconstruct the secret.
                            // Optionally, zero-pads the secret to a length that is a multiple of padLength before sharing.
                            /** @expose **/
                            exports.share = function (
                              secret,
                              numShares,
                              threshold,
                              padLength,
                              withoutPrefix
                            ) {
                              if (!isInited()) {
                                this.init();
                              }
                              if (!isSetRNG()) {
                                this.setRNG();
                              }
                        
                              padLength = padLength || 0;
                        
                              if (typeof secret !== "string") {
                                throw new Error("Secret must be a string.");
                              }
                              if (
                                typeof numShares !== "number" ||
                                numShares % 1 !== 0 ||
                                numShares < 2
                              ) {
                                throw new Error(
                                  "Number of shares must be an integer between 2 and 2^bits-1 (" +
                                    config.max +
                                    "), inclusive."
                                );
                              }
                              if (numShares > config.max) {
                                var neededBits = Math.ceil(Math.log(numShares + 1) / Math.LN2);
                                throw new Error(
                                  "Number of shares must be an integer between 2 and 2^bits-1 (" +
                                    config.max +
                                    "), inclusive. To create " +
                                    numShares +
                                    " shares, use at least " +
                                    neededBits +
                                    " bits."
                                );
                              }
                              if (
                                typeof threshold !== "number" ||
                                threshold % 1 !== 0 ||
                                threshold < 2
                              ) {
                                throw new Error(
                                  "Threshold number of shares must be an integer between 2 and 2^bits-1 (" +
                                    config.max +
                                    "), inclusive."
                                );
                              }
                              if (threshold > config.max) {
                                var neededBits = Math.ceil(Math.log(threshold + 1) / Math.LN2);
                                throw new Error(
                                  "Threshold number of shares must be an integer between 2 and 2^bits-1 (" +
                                    config.max +
                                    "), inclusive.  To use a threshold of " +
                                    threshold +
                                    ", use at least " +
                                    neededBits +
                                    " bits."
                                );
                              }
                              if (typeof padLength !== "number" || padLength % 1 !== 0) {
                                throw new Error("Zero-pad length must be an integer greater than 1.");
                              }
                        
                              if (config.unsafePRNG) {
                                warn();
                              }
                        
                              secret = "1" + hex2bin(secret); // append a 1 so that we can preserve the correct number of leading zeros in our secret
                              secret = split(secret, padLength);
                              var x = new Array(numShares),
                                y = new Array(numShares);
                              for (var i = 0, len = secret.length; i < len; i++) {
                                var subShares = this._getShares(secret[i], numShares, threshold);
                                for (var j = 0; j < numShares; j++) {
                                  x[j] = x[j] || subShares[j].x.toString(config.radix);
                                  y[j] = padLeft(subShares[j].y.toString(2)) + (y[j] ? y[j] : "");
                                }
                              }
                              var padding = config.max.toString(config.radix).length;
                              if (withoutPrefix) {
                                for (var i = 0; i < numShares; i++) {
                                  x[i] = bin2hex(y[i]);
                                }
                              } else {
                                for (var i = 0; i < numShares; i++) {
                                  x[i] =
                                    config.bits.toString(36).toUpperCase() +
                                    padLeft(x[i], padding) +
                                    bin2hex(y[i]);
                                }
                              }
                        
                              return x;
                            };
                        
                            // This is the basic polynomial generation and evaluation function
                            // for a `config.bits`-length secret (NOT an arbitrary length)
                            // Note: no error-checking at this stage! If `secrets` is NOT
                            // a NUMBER less than 2^bits-1, the output will be incorrect!
                            /** @expose **/
                            exports._getShares = function (secret, numShares, threshold) {
                              var shares = [];
                              var coeffs = [secret];
                        
                              for (var i = 1; i < threshold; i++) {
                                coeffs[i] = parseInt(config.rng(config.bits), 2);
                              }
                              for (var i = 1, len = numShares + 1; i < len; i++) {
                                shares[i - 1] = {
                                  x: i,
                                  y: horner(i, coeffs),
                                };
                              }
                              return shares;
                            };
                        
                            // Polynomial evaluation at `x` using Horner's Method
                            // TODO: this can possibly be sped up using other methods
                            // NOTE: fx=fx * x + coeff[i] ->  exp(log(fx) + log(x)) + coeff[i],
                            //       so if fx===0, just set fx to coeff[i] because
                            //       using the exp/log form will result in incorrect value
                            function horner(x, coeffs) {
                              var logx = config.logs[x];
                              var fx = 0;
                              for (var i = coeffs.length - 1; i >= 0; i--) {
                                if (fx === 0) {
                                  fx = coeffs[i];
                                  continue;
                                }
                                fx = config.exps[(logx + config.logs[fx]) % config.max] ^ coeffs[i];
                              }
                              return fx;
                            }
                        
                            function inArray(arr, val) {
                              for (var i = 0, len = arr.length; i < len; i++) {
                                if (arr[i] === val) {
                                  return true;
                                }
                              }
                              return false;
                            }
                        
                            function processShare(share) {
                              var bits = parseInt(share[0], 36);
                              if (
                                bits &&
                                (typeof bits !== "number" ||
                                  bits % 1 !== 0 ||
                                  bits < defaults.minBits ||
                                  bits > defaults.maxBits)
                              ) {
                                throw new Error(
                                  "Number of bits must be an integer between " +
                                    defaults.minBits +
                                    " and " +
                                    defaults.maxBits +
                                    ", inclusive."
                                );
                              }
                        
                              var max = Math.pow(2, bits) - 1;
                              var idLength = max.toString(config.radix).length;
                        
                              var id = parseInt(share.substr(1, idLength), config.radix);
                              if (typeof id !== "number" || id % 1 !== 0 || id < 1 || id > max) {
                                throw new Error(
                                  "Share id must be an integer between 1 and " +
                                    config.max +
                                    ", inclusive."
                                );
                              }
                              share = share.substr(idLength + 1);
                              if (!share.length) {
                                throw new Error("Invalid share: zero-length share.");
                              }
                              return {
                                bits: bits,
                                id: id,
                                value: share,
                              };
                            }
                        
                            /** @expose **/
                            exports._processShare = processShare;
                        
                            // Protected method that evaluates the Lagrange interpolation
                            // polynomial at x=`at` for individual config.bits-length
                            // segments of each share in the `shares` Array.
                            // Each share is expressed in base `inputRadix`. The output
                            // is expressed in base `outputRadix'
                            function combine(at, shares) {
                              var setBits,
                                share,
                                x = [],
                                y = [],
                                result = "",
                                idx;
                        
                              for (var i = 0, len = shares.length; i < len; i++) {
                                share = processShare(shares[i]);
                                if (typeof setBits === "undefined") {
                                  setBits = share["bits"];
                                } else if (share["bits"] !== setBits) {
                                  throw new Error("Mismatched shares: Different bit settings.");
                                }
                        
                                if (config.bits !== setBits) {
                                  init(setBits);
                                }
                        
                                if (inArray(x, share["id"])) {
                                  // repeated x value?
                                  continue;
                                }
                        
                                idx = x.push(share["id"]) - 1;
                                share = split(hex2bin(share["value"]));
                                for (var j = 0, len2 = share.length; j < len2; j++) {
                                  y[j] = y[j] || [];
                                  y[j][idx] = share[j];
                                }
                              }
                        
                              for (var i = 0, len = y.length; i < len; i++) {
                                result = padLeft(lagrange(at, x, y[i]).toString(2)) + result;
                              }
                        
                              if (at === 0) {
                                // reconstructing the secret
                                var idx = result.indexOf("1"); //find the first 1
                                return bin2hex(result.slice(idx + 1));
                              } else {
                                // generating a new share
                                return bin2hex(result);
                              }
                            }
                        
                            // Combine `shares` Array into the original secret
                            /** @expose **/
                            exports.combine = function (shares) {
                              return combine(0, shares);
                            };
                        
                            // Generate a new share with id `id` (a number between 1 and 2^bits-1)
                            // `id` can be a Number or a String in the default radix (16)
                            /** @expose **/
                            exports.newShare = function (id, shares) {
                              if (typeof id === "string") {
                                id = parseInt(id, config.radix);
                              }
                        
                              var share = processShare(shares[0]);
                              var max = Math.pow(2, share["bits"]) - 1;
                        
                              if (typeof id !== "number" || id % 1 !== 0 || id < 1 || id > max) {
                                throw new Error(
                                  "Share id must be an integer between 1 and " +
                                    config.max +
                                    ", inclusive."
                                );
                              }
                        
                              var padding = max.toString(config.radix).length;
                              return (
                                config.bits.toString(36).toUpperCase() +
                                padLeft(id.toString(config.radix), padding) +
                                combine(id, shares)
                              );
                            };
                        
                            // Evaluate the Lagrange interpolation polynomial at x = `at`
                            // using x and y Arrays that are of the same length, with
                            // corresponding elements constituting points on the polynomial.
                            function lagrange(at, x, y) {
                              var sum = 0,
                                product,
                                i,
                                j;
                        
                              for (var i = 0, len = x.length; i < len; i++) {
                                if (!y[i]) {
                                  continue;
                                }
                        
                                product = config.logs[y[i]];
                                for (var j = 0; j < len; j++) {
                                  if (i === j) {
                                    continue;
                                  }
                                  if (at === x[j]) {
                                    // happens when computing a share that is in the list of shares used to compute it
                                    product = -1; // fix for a zero product term, after which the sum should be sum^0 = sum, not sum^1
                                    break;
                                  }
                                  product =
                                    (product +
                                      config.logs[at ^ x[j]] -
                                      config.logs[x[i] ^ x[j]] +
                                      config.max) /* to make sure it's not negative */ %
                                    config.max;
                                }
                        
                                sum = product === -1 ? sum : sum ^ config.exps[product]; // though exps[-1]= undefined and undefined ^ anything = anything in chrome, this behavior may not hold everywhere, so do the check
                              }
                              return sum;
                            }
                        
                            /** @expose **/
                            exports._lagrange = lagrange;
                        
                            // Splits a number string `bits`-length segments, after first
                            // optionally zero-padding it to a length that is a multiple of `padLength.
                            // Returns array of integers (each less than 2^bits-1), with each element
                            // representing a `bits`-length segment of the input string from right to left,
                            // i.e. parts[0] represents the right-most `bits`-length segment of the input string.
                            function split(str, padLength) {
                              if (padLength) {
                                str = padLeft(str, padLength);
                              }
                              var parts = [];
                              for (var i = str.length; i > config.bits; i -= config.bits) {
                                parts.push(parseInt(str.slice(i - config.bits, i), 2));
                              }
                              parts.push(parseInt(str.slice(0, i), 2));
                              return parts;
                            }
                        
                            // Pads a string `str` with zeros on the left so that its length is a multiple of `bits`
                            function padLeft(str, bits) {
                              bits = bits || config.bits;
                              var missing = str.length % bits;
                              return (missing ? new Array(bits - missing + 1).join("0") : "") + str;
                            }
                        
                            function hex2bin(str) {
                              var bin = "",
                                num;
                              for (var i = str.length - 1; i >= 0; i--) {
                                num = parseInt(str[i], 16);
                                if (isNaN(num)) {
                                  throw new Error("Invalid hex character.");
                                }
                                bin = padLeft(num.toString(2), 4) + bin;
                              }
                              return bin;
                            }
                        
                            function bin2hex(str) {
                              var hex = "",
                                num;
                              str = padLeft(str, 4);
                              for (var i = str.length; i >= 4; i -= 4) {
                                num = parseInt(str.slice(i - 4, i), 2);
                                if (isNaN(num)) {
                                  throw new Error("Invalid binary character.");
                                }
                                hex = num.toString(16) + hex;
                              }
                              return hex;
                            }
                        
                            // Converts a given UTF16 character string to the HEX representation.
                            // Each character of the input string is represented by
                            // `bytesPerChar` bytes in the output string.
                            /** @expose **/
                            exports.str2hex = function (str, bytesPerChar) {
                              if (typeof str !== "string") {
                                throw new Error("Input must be a character string.");
                              }
                              bytesPerChar = bytesPerChar || defaults.bytesPerChar;
                        
                              if (
                                typeof bytesPerChar !== "number" ||
                                bytesPerChar % 1 !== 0 ||
                                bytesPerChar < 1 ||
                                bytesPerChar > defaults.maxBytesPerChar
                              ) {
                                throw new Error(
                                  "Bytes per character must be an integer between 1 and " +
                                    defaults.maxBytesPerChar +
                                    ", inclusive."
                                );
                              }
                        
                              var hexChars = 2 * bytesPerChar;
                              var max = Math.pow(16, hexChars) - 1;
                              var out = "",
                                num;
                              for (var i = 0, len = str.length; i < len; i++) {
                                num = str[i].charCodeAt();
                                if (isNaN(num)) {
                                  throw new Error("Invalid character: " + str[i]);
                                } else if (num > max) {
                                  var neededBytes = Math.ceil(Math.log(num + 1) / Math.log(256));
                                  throw new Error(
                                    "Invalid character code (" +
                                      num +
                                      "). Maximum allowable is 256^bytes-1 (" +
                                      max +
                                      "). To convert this character, use at least " +
                                      neededBytes +
                                      " bytes."
                                  );
                                } else {
                                  out = padLeft(num.toString(16), hexChars) + out;
                                }
                              }
                              return out;
                            };
                        
                            // Converts a given HEX number string to a UTF16 character string.
                            /** @expose **/
                            exports.hex2str = function (str, bytesPerChar) {
                              if (typeof str !== "string") {
                                throw new Error("Input must be a hexadecimal string.");
                              }
                              bytesPerChar = bytesPerChar || defaults.bytesPerChar;
                        
                              if (
                                typeof bytesPerChar !== "number" ||
                                bytesPerChar % 1 !== 0 ||
                                bytesPerChar < 1 ||
                                bytesPerChar > defaults.maxBytesPerChar
                              ) {
                                throw new Error(
                                  "Bytes per character must be an integer between 1 and " +
                                    defaults.maxBytesPerChar +
                                    ", inclusive."
                                );
                              }
                        
                              var hexChars = 2 * bytesPerChar;
                              var out = "";
                              str = padLeft(str, hexChars);
                              for (var i = 0, len = str.length; i < len; i += hexChars) {
                                out =
                                  String.fromCharCode(parseInt(str.slice(i, i + hexChars), 16)) + out;
                              }
                              return out;
                            };
                        
                            // by default, initialize without an RNG
                            exports.init();
                          })(
                            typeof module !== "undefined" && module["exports"]
                              ? module["exports"]
                              : (window["shamirSecretShare"] = {}),
                            typeof global !== "undefined" ? global : window
                          );
                        
                          //For diff base
                          /*
                          Functions available:
                          diff(originalObj, updatedObj) returns the difference of the original and updated objects
                          addedDiff(original, updatedObj) returns only the values added to the updated object
                          deletedDiff(original, updatedObj) returns only the values deleted in the updated object
                          updatedDiff(original, updatedObj) returns only the values that have been changed in the updated object
                          findDifference(original, updatedObj) returns an object with the added, deleted and updated differences  
                          mergeRecurcive(original, diff) this will get you a new object that will merge all the changes between the old object and the new object
                          */
                          (function () {
                            const isDate = (d) => d instanceof Date;
                            const isEmpty = (o) => Object.keys(o).length === 0;
                            const isObject = (o) => o != null && typeof o === "object";
                            const properObject = (o) =>
                              isObject(o) && !o.hasOwnProperty
                                ? {
                                    ...o,
                                  }
                                : o;
                        
                            const getLargerArray = (l, r) => (l.length > r.length ? l : r);
                        
                            const preserve = (diff, left, right) => {
                              if (!isObject(diff)) return diff;
                        
                              return Object.keys(diff).reduce((acc, key) => {
                                const leftArray = left[key];
                                const rightArray = right[key];
                        
                                if (Array.isArray(leftArray) && Array.isArray(rightArray)) {
                                  const array = [...getLargerArray(leftArray, rightArray)];
                                  return {
                                    ...acc,
                                    [key]: array.reduce((acc2, item, index) => {
                                      if (diff[key].hasOwnProperty(index)) {
                                        acc2[index] = preserve(
                                          diff[key][index],
                                          leftArray[index],
                                          rightArray[index]
                                        ); // diff recurse and check for nested arrays
                                        return acc2;
                                      }
                        
                                      delete acc2[index]; // no diff aka empty
                                      return acc2;
                                    }, array),
                                  };
                                }
                        
                                return {
                                  ...acc,
                                  [key]: diff[key],
                                };
                              }, {});
                            };
                        
                            const updatedDiff = (lhs, rhs) => {
                              if (lhs === rhs) return {};
                        
                              if (!isObject(lhs) || !isObject(rhs)) return rhs;
                        
                              const l = properObject(lhs);
                              const r = properObject(rhs);
                        
                              if (isDate(l) || isDate(r)) {
                                if (l.valueOf() == r.valueOf()) return {};
                                return r;
                              }
                        
                              return Object.keys(r).reduce((acc, key) => {
                                if (l.hasOwnProperty(key)) {
                                  const difference = updatedDiff(l[key], r[key]);
                        
                                  if (
                                    isObject(difference) &&
                                    isEmpty(difference) &&
                                    !isDate(difference)
                                  )
                                    return acc;
                        
                                  return {
                                    ...acc,
                                    [key]: difference,
                                  };
                                }
                        
                                return acc;
                              }, {});
                            };
                        
                            const diff = (lhs, rhs) => {
                              if (lhs === rhs) return {}; // equal return no diff
                        
                              if (!isObject(lhs) || !isObject(rhs)) return rhs; // return updated rhs
                        
                              const l = properObject(lhs);
                              const r = properObject(rhs);
                        
                              const deletedValues = Object.keys(l).reduce((acc, key) => {
                                return r.hasOwnProperty(key)
                                  ? acc
                                  : {
                                      ...acc,
                                      [key]: null,
                                    };
                              }, {});
                        
                              if (isDate(l) || isDate(r)) {
                                if (l.valueOf() == r.valueOf()) return {};
                                return r;
                              }
                        
                              return Object.keys(r).reduce((acc, key) => {
                                if (!l.hasOwnProperty(key))
                                  return {
                                    ...acc,
                                    [key]: r[key],
                                  }; // return added r key
                        
                                const difference = diff(l[key], r[key]);
                        
                                if (
                                  isObject(difference) &&
                                  isEmpty(difference) &&
                                  !isDate(difference)
                                )
                                  return acc; // return no diff
                        
                                return {
                                  ...acc,
                                  [key]: difference,
                                }; // return updated key
                              }, deletedValues);
                            };
                        
                            const addedDiff = (lhs, rhs) => {
                              if (lhs === rhs || !isObject(lhs) || !isObject(rhs)) return {};
                        
                              const l = properObject(lhs);
                              const r = properObject(rhs);
                        
                              return Object.keys(r).reduce((acc, key) => {
                                if (l.hasOwnProperty(key)) {
                                  const difference = addedDiff(l[key], r[key]);
                        
                                  if (isObject(difference) && isEmpty(difference)) return acc;
                        
                                  return {
                                    ...acc,
                                    [key]: difference,
                                  };
                                }
                        
                                return {
                                  ...acc,
                                  [key]: r[key],
                                };
                              }, {});
                            };
                        
                            const arrayDiff = (lhs, rhs) => {
                              if (lhs === rhs) return {}; // equal return no diff
                        
                              if (!isObject(lhs) || !isObject(rhs)) return rhs; // return updated rhs
                        
                              const l = properObject(lhs);
                              const r = properObject(rhs);
                        
                              const deletedValues = Object.keys(l).reduce((acc, key) => {
                                return r.hasOwnProperty(key)
                                  ? acc
                                  : {
                                      ...acc,
                                      [key]: null,
                                    };
                              }, {});
                        
                              if (isDate(l) || isDate(r)) {
                                if (l.valueOf() == r.valueOf()) return {};
                                return r;
                              }
                        
                              if (Array.isArray(r) && Array.isArray(l)) {
                                const deletedValues = l.reduce((acc, item, index) => {
                                  return r.hasOwnProperty(index)
                                    ? acc.concat(item)
                                    : acc.concat(null);
                                }, []);
                        
                                return r.reduce((acc, rightItem, index) => {
                                  if (!deletedValues.hasOwnProperty(index)) {
                                    return acc.concat(rightItem);
                                  }
                        
                                  const leftItem = l[index];
                                  const difference = diff(rightItem, leftItem);
                        
                                  if (
                                    isObject(difference) &&
                                    isEmpty(difference) &&
                                    !isDate(difference)
                                  ) {
                                    delete acc[index];
                                    return acc; // return no diff
                                  }
                        
                                  return acc
                                    .slice(0, index)
                                    .concat(rightItem)
                                    .concat(acc.slice(index + 1)); // return updated key
                                }, deletedValues);
                              }
                        
                              return Object.keys(r).reduce((acc, key) => {
                                if (!l.hasOwnProperty(key))
                                  return {
                                    ...acc,
                                    [key]: r[key],
                                  }; // return added r key
                        
                                const difference = diff(l[key], r[key]);
                        
                                if (
                                  isObject(difference) &&
                                  isEmpty(difference) &&
                                  !isDate(difference)
                                )
                                  return acc; // return no diff
                        
                                return {
                                  ...acc,
                                  [key]: difference,
                                }; // return updated key
                              }, deletedValues);
                            };
                        
                            const deletedDiff = (lhs, rhs) => {
                              if (lhs === rhs || !isObject(lhs) || !isObject(rhs)) return {};
                        
                              const l = properObject(lhs);
                              const r = properObject(rhs);
                        
                              return Object.keys(l).reduce((acc, key) => {
                                if (r.hasOwnProperty(key)) {
                                  const difference = deletedDiff(l[key], r[key]);
                        
                                  if (isObject(difference) && isEmpty(difference)) return acc;
                        
                                  return {
                                    ...acc,
                                    [key]: difference,
                                  };
                                }
                        
                                return {
                                  ...acc,
                                  [key]: null,
                                };
                              }, {});
                            };
                        
                            window.findDifference = (lhs, rhs) => ({
                              added: addedDiff(lhs, rhs),
                              deleted: deletedDiff(lhs, rhs),
                              updated: updatedDiff(lhs, rhs),
                            });
                        
                            const mergeRecursive = (obj1, obj2) => {
                              for (var p in obj2) {
                                try {
                                  if (obj2[p].constructor == Object) {
                                    obj1[p] = mergeRecursive(obj1[p], obj2[p]);
                                  }
                                  // Property in destination object set; update its value.
                                  else if (Ext.isArray(obj2[p])) {
                                    // obj1[p] = [];
                                    if (obj2[p].length < 1) {
                                      obj1[p] = obj2[p];
                                    } else {
                                      obj1[p] = mergeRecursive(obj1[p], obj2[p]);
                                    }
                                  } else {
                                    obj1[p] = obj2[p];
                                  }
                                } catch (e) {
                                  // Property in destination object not set; create it and set its value.
                                  obj1[p] = obj2[p];
                                }
                              }
                              return obj1;
                            };
                        
                            /*
                              var test = {
                                foo : {
                                  bar : {
                                    baz : null
                                  }
                                },
                                bar : 1
                              };
                              cleanse(test);
                              
                              Rohit: Added a small fix for object being entered as Array*/
                        
                            const cleanse = (obj) => {
                              Object.keys(obj).forEach((key) => {
                                var value = obj[key];
                                if (typeof value === "object" && value !== null) {
                                  // Recurse...
                                  cleanse(value);
                                  // ...and remove if now "empty" (NOTE: insert your definition of "empty" here)
                                  if (!Object.keys(value).length) {
                                    delete obj[key];
                                  }
                                } else if (value === null) {
                                  // null, remove it
                                  delete obj[key];
                                }
                              });
                        
                              if (obj.constructor.toString().indexOf("Array") != -1) {
                                obj = obj.filter(function (el) {
                                  return el != null;
                                });
                              }
                        
                              return obj;
                            };
                        
                            /*obj is original object or array, diff is the output of findDifference */
                            window.mergeDifference = (obj, diff) => {
                              if (Object.keys(diff.updated).length !== 0)
                                obj = mergeRecursive(obj, diff.updated);
                              if (Object.keys(diff.deleted).length !== 0) {
                                obj = mergeRecursive(obj, diff.deleted);
                                obj = cleanse(obj);
                              }
                              if (Object.keys(diff.added).length !== 0)
                                obj = mergeRecursive(obj, diff.added);
                              return obj;
                            };
                          })();
                        </script>
                        
                        <script id="floCrypto">
                          /* FLO Crypto Operators*/
                          const floCrypto = {
                            util: {
                              p: BigInteger(
                                "FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEFFFFFC2F",
                                16
                              ),
                        
                              ecparams: EllipticCurve.getSECCurveByName("secp256k1"),
                        
                              exponent1: function () {
                                return this.p.add(BigInteger.ONE).divide(BigInteger("4"));
                              },
                        
                              calculateY: function (x) {
                                let p = this.p;
                                let exp = this.exponent1();
                                // x is x value of public key in BigInteger format without 02 or 03 or 04 prefix
                                return x
                                  .modPow(BigInteger("3"), p)
                                  .add(BigInteger("7"))
                                  .mod(p)
                                  .modPow(exp, p);
                              },
                              getUncompressedPublicKey: function (compressedPublicKey) {
                                const p = this.p;
                                // Fetch x from compressedPublicKey
                                let pubKeyBytes = Crypto.util.hexToBytes(compressedPublicKey);
                                const prefix = pubKeyBytes.shift(); // remove prefix
                                let prefix_modulus = prefix % 2;
                                pubKeyBytes.unshift(0); // add prefix 0
                                let x = new BigInteger(pubKeyBytes);
                                let xDecimalValue = x.toString();
                                // Fetch y
                                let y = this.calculateY(x);
                                let yDecimalValue = y.toString();
                                // verify y value
                                let resultBigInt = y.mod(BigInteger("2"));
                                let check = resultBigInt.toString() % 2;
                                if (prefix_modulus !== check) {
                                  yDecimalValue = y.negate().mod(p).toString();
                                }
                                return {
                                  x: xDecimalValue,
                                  y: yDecimalValue,
                                };
                              },
                        
                              getSenderPublicKeyString: function () {
                                privateKey = ellipticCurveEncryption.senderRandom();
                                senderPublicKeyString =
                                  ellipticCurveEncryption.senderPublicString(privateKey);
                                return {
                                  privateKey: privateKey,
                                  senderPublicKeyString: senderPublicKeyString,
                                };
                              },
                        
                              deriveSharedKeySender: function (
                                receiverCompressedPublicKey,
                                senderPrivateKey
                              ) {
                                try {
                                  let receiverPublicKeyString = this.getUncompressedPublicKey(
                                    receiverCompressedPublicKey
                                  );
                                  var senderDerivedKey =
                                    ellipticCurveEncryption.senderSharedKeyDerivation(
                                      receiverPublicKeyString.x,
                                      receiverPublicKeyString.y,
                                      senderPrivateKey
                                    );
                                  return senderDerivedKey;
                                } catch (error) {
                                  return new Error(error);
                                }
                              },
                        
                              deriveReceiverSharedKey: function (
                                senderPublicKeyString,
                                receiverPrivateKey
                              ) {
                                return ellipticCurveEncryption.receiverSharedKeyDerivation(
                                  senderPublicKeyString.XValuePublicString,
                                  senderPublicKeyString.YValuePublicString,
                                  receiverPrivateKey
                                );
                              },
                        
                              getReceiverPublicKeyString: function (privateKey) {
                                return ellipticCurveEncryption.receiverPublicString(privateKey);
                              },
                        
                              deriveSharedKeyReceiver: function (
                                senderPublicKeyString,
                                receiverPrivateKey
                              ) {
                                try {
                                  return ellipticCurveEncryption.receiverSharedKeyDerivation(
                                    senderPublicKeyString.XValuePublicString,
                                    senderPublicKeyString.YValuePublicString,
                                    receiverPrivateKey
                                  );
                                } catch (error) {
                                  return new Error(error);
                                }
                              },
                        
                              wifToDecimal: function (pk_wif, isPubKeyCompressed = false) {
                                let pk = Bitcoin.Base58.decode(pk_wif);
                                pk.shift();
                                pk.splice(-4, 4);
                                //If the private key corresponded to a compressed public key, also drop the last byte (it should be 0x01).
                                if (isPubKeyCompressed == true) pk.pop();
                                pk.unshift(0);
                                privateKeyDecimal = BigInteger(pk).toString();
                                privateKeyHex = Crypto.util.bytesToHex(pk);
                                return {
                                  privateKeyDecimal: privateKeyDecimal,
                                  privateKeyHex: privateKeyHex,
                                };
                              },
                            },
                        
                            //generate a random Interger within range
                            randInt: function (min, max) {
                              min = Math.ceil(min);
                              max = Math.floor(max);
                              return Math.floor(Math.random() * (max - min + 1)) + min;
                            },
                        
                            //generate a random String within length (options : alphaNumeric chars only)
                            randString: function (length, alphaNumeric = false) {
                              var result = "";
                              if (alphaNumeric)
                                var characters =
                                  "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789";
                              else
                                var characters =
                                  "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789_+-./*?@#&$<>=[]{}():";
                              for (var i = 0; i < length; i++)
                                result += characters.charAt(
                                  Math.floor(Math.random() * characters.length)
                                );
                              return result;
                            },
                        
                            //Encrypt Data using public-key
                            encryptData: function (data, receiverCompressedPublicKey) {
                              var senderECKeyData = this.util.getSenderPublicKeyString();
                              var senderDerivedKey = this.util.deriveSharedKeySender(
                                receiverCompressedPublicKey,
                                senderECKeyData.privateKey
                              );
                              let senderKey = senderDerivedKey.XValue + senderDerivedKey.YValue;
                              let secret = Crypto.AES.encrypt(data, senderKey);
                              return {
                                secret: secret,
                                senderPublicKeyString: senderECKeyData.senderPublicKeyString,
                              };
                            },
                        
                            //Decrypt Data using private-key
                            decryptData: function (data, myPrivateKey) {
                              var receiverECKeyData = {};
                              if (typeof myPrivateKey !== "string")
                                throw new Error("No private key found.");
                        
                              let privateKey = this.util.wifToDecimal(myPrivateKey, true);
                              if (typeof privateKey.privateKeyDecimal !== "string")
                                throw new Error("Failed to detremine your private key.");
                              receiverECKeyData.privateKey = privateKey.privateKeyDecimal;
                        
                              var receiverDerivedKey = this.util.deriveReceiverSharedKey(
                                data.senderPublicKeyString,
                                receiverECKeyData.privateKey
                              );
                        
                              let receiverKey = receiverDerivedKey.XValue + receiverDerivedKey.YValue;
                              let decryptMsg = Crypto.AES.decrypt(data.secret, receiverKey);
                              return decryptMsg;
                            },
                        
                            //Sign data using private-key
                            signData: function (data, privateKeyHex) {
                              var key = new Bitcoin.ECKey(privateKeyHex);
                              key.setCompressed(true);
                        
                              var privateKeyArr = key.getBitcoinPrivateKeyByteArray();
                              privateKey = BigInteger.fromByteArrayUnsigned(privateKeyArr);
                              var messageHash = Crypto.SHA256(data);
                        
                              var messageHashBigInteger = new BigInteger(messageHash);
                              var messageSign = Bitcoin.ECDSA.sign(messageHashBigInteger, key.priv);
                        
                              var sighex = Crypto.util.bytesToHex(messageSign);
                              return sighex;
                            },
                        
                            //Verify signatue of the data using public-key
                            verifySign: function (data, signatureHex, publicKeyHex) {
                              var msgHash = Crypto.SHA256(data);
                              var messageHashBigInteger = new BigInteger(msgHash);
                        
                              var sigBytes = Crypto.util.hexToBytes(signatureHex);
                              var signature = Bitcoin.ECDSA.parseSig(sigBytes);
                        
                              var publicKeyPoint = this.util.ecparams
                                .getCurve()
                                .decodePointHex(publicKeyHex);
                        
                              var verify = Bitcoin.ECDSA.verifyRaw(
                                messageHashBigInteger,
                                signature.r,
                                signature.s,
                                publicKeyPoint
                              );
                              return verify;
                            },
                        
                            //Generates a new flo ID and returns private-key, public-key and floID
                            generateNewID: function () {
                              try {
                                var key = new Bitcoin.ECKey(false);
                                key.setCompressed(true);
                                return {
                                  floID: key.getBitcoinAddress(),
                                  pubKey: key.getPubKeyHex(),
                                  privKey: key.getBitcoinWalletImportFormat(),
                                };
                              } catch (e) {
                                console.error(e);
                              }
                            },
                        
                            //Returns public-key from private-key
                            getPubKeyHex: function (privateKeyHex) {
                              if (!privateKeyHex) return null;
                              var key = new Bitcoin.ECKey(privateKeyHex);
                              if (key.priv == null) return null;
                              key.setCompressed(true);
                              var pubkeyHex = key.getPubKeyHex();
                              return pubkeyHex;
                            },
                        
                            //Returns flo-ID from public-key
                            getFloIDfromPubkeyHex: function (pubkeyHex) {
                              try {
                                var key = new Bitcoin.ECKey().setPub(pubkeyHex);
                                var floID = key.getBitcoinAddress();
                                return floID;
                              } catch (e) {
                                console.error(e);
                              }
                            },
                        
                            //Verify the private-key for the given public-key or flo-ID
                            verifyPrivKey: function (privateKeyHex, pubKey_floID, isfloID = true) {
                              try {
                                var key = new Bitcoin.ECKey(privateKeyHex);
                                if (key.priv == null) return false;
                                key.setCompressed(true);
                                if (isfloID && pubKey_floID == key.getBitcoinAddress()) return true;
                                else if (!isfloID && pubKey_floID == key.getPubKeyHex()) return true;
                                else return false;
                              } catch (e) {
                                console.error(e);
                              }
                            },
                        
                            //Check if the given Address is valid or not
                            validateAddr: function (inpAddr) {
                              try {
                                var addr = new Bitcoin.Address(inpAddr);
                                return true;
                              } catch {
                                return false;
                              }
                            },
                        
                            //Split the str using shamir's Secret and Returns the shares
                            createShamirsSecretShares: function (str, total_shares, threshold_limit) {
                              try {
                                if (str.length > 0) {
                                  var strHex = shamirSecretShare.str2hex(str);
                                  var shares = shamirSecretShare.share(
                                    strHex,
                                    total_shares,
                                    threshold_limit
                                  );
                                  return shares;
                                }
                                return false;
                              } catch {
                                return false;
                              }
                            },
                        
                            //Verifies the shares and str
                            verifyShamirsSecret: function (sharesArray, str) {
                              return str && this.retrieveShamirSecret(sharesArray) === str;
                            },
                        
                            //Returns the retrived secret by combining the shamirs shares
                            retrieveShamirSecret: function (sharesArray) {
                              try {
                                if (sharesArray.length > 0) {
                                  var comb = shamirSecretShare.combine(
                                    sharesArray.slice(0, sharesArray.length)
                                  );
                                  comb = shamirSecretShare.hex2str(comb);
                                  return comb;
                                }
                                return false;
                              } catch {
                                return false;
                              }
                            },
                          };
                        </script>
                        
                        <script id="floBlockchainAPI">
                          /* FLO Blockchain Operator to send/receive data from blockchain using API calls*/
                          const floBlockchainAPI = {
                            util: {
                              serverList: floGlobals.apiURL[floGlobals.blockchain].slice(0),
                              curPos: floCrypto.randInt(
                                0,
                                floGlobals.apiURL[floGlobals.blockchain].length
                              ),
                              fetch_retry: function (apicall, rm_flosight) {
                                return new Promise((resolve, reject) => {
                                  let i = this.serverList.indexOf(rm_flosight);
                                  if (i != -1) this.serverList.splice(i, 1);
                                  this.curPos = floCrypto.randInt(0, this.serverList.length);
                                  this.fetch_api(apicall)
                                    .then((result) => resolve(result))
                                    .catch((error) => reject(error));
                                });
                              },
                              fetch_api: function (apicall) {
                                return new Promise((resolve, reject) => {
                                  if (this.serverList.length === 0)
                                    reject("No floSight server working");
                                  else {
                                    let flosight = this.serverList[this.curPos];
                                    fetch(flosight + apicall)
                                      .then((response) => {
                                        if (response.ok)
                                          response.json().then((data) => resolve(data));
                                        else {
                                          this.fetch_retry(apicall, flosight)
                                            .then((result) => resolve(result))
                                            .catch((error) => reject(error));
                                        }
                                      })
                                      .catch((error) => {
                                        this.fetch_retry(apicall, flosight)
                                          .then((result) => resolve(result))
                                          .catch((error) => reject(error));
                                      });
                                  }
                                });
                              },
                            },
                        
                            //Promised function to get data from API
                            promisedAPI: function (apicall) {
                              return new Promise((resolve, reject) => {
                                console.log(apicall);
                                this.util
                                  .fetch_api(apicall)
                                  .then((result) => resolve(result))
                                  .catch((error) => reject(error));
                              });
                            },
                        
                            //Get balance for the given Address
                            getBalance: function (addr) {
                              return new Promise((resolve, reject) => {
                                this.promisedAPI(`api/addr/${addr}/balance`)
                                  .then((balance) => resolve(parseFloat(balance)))
                                  .catch((error) => reject(error));
                              });
                            },
                        
                            //Write Data into blockchain
                            writeData: function (
                              senderAddr,
                              data,
                              privKey,
                              receiverAddr = floGlobals.adminID
                            ) {
                              return new Promise((resolve, reject) => {
                                if (typeof data != "string") data = JSON.stringify(data);
                                this.sendTx(
                                  senderAddr,
                                  receiverAddr,
                                  floGlobals.sendAmt,
                                  privKey,
                                  data
                                )
                                  .then((txid) => resolve(txid))
                                  .catch((error) => reject(error));
                              });
                            },
                        
                            //Send Tx to blockchain
                            sendTx: function (
                              senderAddr,
                              receiverAddr,
                              sendAmt,
                              privKey,
                              floData = ""
                            ) {
                              return new Promise((resolve, reject) => {
                                if (!floCrypto.validateAddr(senderAddr))
                                  reject(`Invalid address : ${senderAddr}`);
                                else if (!floCrypto.validateAddr(receiverAddr))
                                  reject(`Invalid address : ${receiverAddr}`);
                                if (
                                  privKey.length < 1 ||
                                  !floCrypto.verifyPrivKey(privKey, senderAddr)
                                )
                                  reject("Invalid Private key!");
                                else if (typeof sendAmt !== "number" || sendAmt <= 0)
                                  reject(`Invalid sendAmt : ${sendAmt}`);
                                else {
                                  var trx = bitjs.transaction();
                                  var utxoAmt = 0.0;
                                  var fee = floGlobals.fee;
                                  this.promisedAPI(`api/addr/${senderAddr}/utxo`)
                                    .then((utxos) => {
                                      for (
                                        var i = utxos.length - 1;
                                        i >= 0 && utxoAmt < sendAmt + fee;
                                        i--
                                      ) {
                                        if (utxos[i].confirmations) {
                                          trx.addinput(
                                            utxos[i].txid,
                                            utxos[i].vout,
                                            utxos[i].scriptPubKey
                                          );
                                          utxoAmt += utxos[i].amount;
                                        } else break;
                                      }
                                      if (utxoAmt < sendAmt + fee) reject("Insufficient balance!");
                                      else {
                                        trx.addoutput(receiverAddr, sendAmt);
                                        var change = utxoAmt - sendAmt - fee;
                                        if (change > 0) trx.addoutput(senderAddr, change);
                                        trx.addflodata(floData);
                                        var signedTxHash = trx.sign(privKey, 1);
                                        this.broadcastTx(signedTxHash)
                                          .then((txid) => resolve(txid))
                                          .catch((error) => reject(error));
                                      }
                                    })
                                    .catch((error) => reject(error));
                                }
                              });
                            },
                        
                            //merge all UTXOs of a given floID into a single UTXO
                            mergeUTXOs: function (floID, privKey, floData = "") {
                              return new Promise((resolve, reject) => {
                                if (!floCrypto.validateAddr(floID)) return reject(`Invalid floID`);
                                if (!floCrypto.verifyPrivKey(privKey, floID))
                                  return reject("Invalid Private Key");
                        
                                var trx = bitjs.transaction();
                                var utxoAmt = 0.0;
                                var fee = floGlobals.fee;
                                this.promisedAPI(`api/addr/${floID}/utxo`)
                                  .then((utxos) => {
                                    for (var i = utxos.length - 1; i >= 0; i--) {
                                      if (utxos[i].confirmations) {
                                        trx.addinput(
                                          utxos[i].txid,
                                          utxos[i].vout,
                                          utxos[i].scriptPubKey
                                        );
                                        utxoAmt += utxos[i].amount;
                                      }
                                    }
                                    trx.addoutput(floID, utxoAmt - fee);
                                    trx.addflodata(floData);
                                    var signedTxHash = trx.sign(privKey, 1);
                                    this.broadcastTx(signedTxHash)
                                      .then((txid) => resolve(txid))
                                      .catch((error) => reject(error));
                                  })
                                  .catch((error) => reject(error));
                              });
                            },
                        
                            /**Write data into blockchain from (and/or) to multiple floID
                             * @param  {Array} senderPrivKeys List of sender private-keys
                             * @param  {string} data FLO data of the txn
                             * @param  {Array} receivers List of receivers
                             * @param  {boolean} preserveRatio (optional) preserve ratio or equal contribution
                             * @return {Promise}
                             */
                            writeDataMultiple: function (
                              senderPrivKeys,
                              data,
                              receivers = [floGlobals.adminID],
                              preserveRatio = true
                            ) {
                              return new Promise((resolve, reject) => {
                                if (!Array.isArray(senderPrivKeys))
                                  return reject(
                                    "Invalid senderPrivKeys: SenderPrivKeys must be Array"
                                  );
                                if (!preserveRatio) {
                                  let tmp = {};
                                  let amount =
                                    (floGlobals.sendAmt * receivers.length) / senderPrivKeys.length;
                                  senderPrivKeys.forEach((key) => (tmp[key] = amount));
                                  senderPrivKeys = tmp;
                                }
                                if (!Array.isArray(receivers))
                                  return reject("Invalid receivers: Receivers must be Array");
                                else {
                                  let tmp = {};
                                  let amount = floGlobals.sendAmt;
                                  receivers.forEach((floID) => (tmp[floID] = amount));
                                  receivers = tmp;
                                }
                                if (typeof data != "string") data = JSON.stringify(data);
                                this.sendTxMultiple(senderPrivKeys, receivers, data)
                                  .then((txid) => resolve(txid))
                                  .catch((error) => reject(error));
                              });
                            },
                        
                            /**Send Tx from (and/or) to multiple floID
                             * @param  {Array or Object} senderPrivKeys List of sender private-key (optional: with coins to be sent)
                             * @param  {Object} receivers List of receivers with respective amount to be sent
                             * @param  {string} floData FLO data of the txn
                             * @return {Promise}
                             */
                            sendTxMultiple: function (senderPrivKeys, receivers, floData = "") {
                              return new Promise((resolve, reject) => {
                                let senders = {},
                                  preserveRatio;
                                //check for argument validations
                                try {
                                  let invalids = {
                                    InvalidSenderPrivKeys: [],
                                    InvalidSenderAmountFor: [],
                                    InvalidReceiverIDs: [],
                                    InvalidReceiveAmountFor: [],
                                  };
                                  let inputVal = 0,
                                    outputVal = 0;
                                  //Validate sender privatekeys (and send amount if passed)
                                  //conversion when only privateKeys are passed (preserveRatio mode)
                                  if (Array.isArray(senderPrivKeys)) {
                                    senderPrivKeys.forEach((key) => {
                                      try {
                                        if (!key) invalids.InvalidSenderPrivKeys.push(key);
                                        else {
                                          let floID = floCrypto.getFloIDfromPubkeyHex(
                                            floCrypto.getPubKeyHex(key)
                                          );
                                          senders[floID] = {
                                            wif: key,
                                          };
                                        }
                                      } catch (error) {
                                        invalids.InvalidSenderPrivKeys.push(key);
                                      }
                                    });
                                    preserveRatio = true;
                                  }
                                  //conversion when privatekeys are passed with send amount
                                  else {
                                    for (let key in senderPrivKeys) {
                                      try {
                                        if (!key) invalids.InvalidSenderPrivKeys.push(key);
                                        else {
                                          if (
                                            typeof senderPrivKeys[key] !== "number" ||
                                            senderPrivKeys[key] <= 0
                                          )
                                            invalids.InvalidSenderAmountFor.push(key);
                                          else inputVal += senderPrivKeys[key];
                                          let floID = floCrypto.getFloIDfromPubkeyHex(
                                            floCrypto.getPubKeyHex(key)
                                          );
                                          senders[floID] = {
                                            wif: key,
                                            coins: senderPrivKeys[key],
                                          };
                                        }
                                      } catch (error) {
                                        invalids.InvalidSenderPrivKeys.push(key);
                                      }
                                    }
                                    preserveRatio = false;
                                  }
                                  //Validate the receiver IDs and receive amount
                                  for (let floID in receivers) {
                                    if (!floCrypto.validateAddr(floID))
                                      invalids.InvalidReceiverIDs.push(floID);
                                    if (typeof receivers[floID] !== "number" || receivers[floID] <= 0)
                                      invalids.InvalidReceiveAmountFor.push(floID);
                                    else outputVal += receivers[floID];
                                  }
                                  //Reject if any invalids are found
                                  for (let i in invalids) if (!invalids[i].length) delete invalids[i];
                                  if (Object.keys(invalids).length) return reject(invalids);
                                  //Reject if given inputVal and outputVal are not equal
                                  if (!preserveRatio && inputVal != outputVal)
                                    return reject(
                                      `Input Amount (${inputVal}) not equal to Output Amount (${outputVal})`
                                    );
                                } catch (error) {
                                  return reject(error);
                                }
                                //Get balance of senders
                                let promises = [];
                                for (let floID in senders) promises.push(this.getBalance(floID));
                                Promise.all(promises)
                                  .then((results) => {
                                    let totalBalance = 0,
                                      totalFee = floGlobals.fee,
                                      balance = {};
                                    //Divide fee among sender if not for preserveRatio
                                    if (!preserveRatio)
                                      var dividedFee = totalFee / Object.keys(senders).length;
                                    //Check if balance of each sender is sufficient enough
                                    let insufficient = [];
                                    for (let floID in senders) {
                                      balance[floID] = parseFloat(results.shift());
                                      if (
                                        isNaN(balance[floID]) ||
                                        (preserveRatio && balance[floID] <= totalFee) ||
                                        (!preserveRatio &&
                                          balance[floID] < senders[floID].coins + dividedFee)
                                      )
                                        insufficient.push(floID);
                                      totalBalance += balance[floID];
                                    }
                                    if (insufficient.length)
                                      return reject({
                                        InsufficientBalance: insufficient,
                                      });
                                    //Calculate totalSentAmount and check if totalBalance is sufficient
                                    let totalSendAmt = totalFee;
                                    for (floID in receivers) totalSendAmt += receivers[floID];
                                    if (totalBalance < totalSendAmt)
                                      return reject("Insufficient total Balance");
                                    //Get the UTXOs of the senders
                                    let promises = [];
                                    for (floID in senders)
                                      promises.push(this.promisedAPI(`api/addr/${floID}/utxo`));
                                    Promise.all(promises)
                                      .then((results) => {
                                        let wifSeq = [];
                                        var trx = bitjs.transaction();
                                        for (floID in senders) {
                                          let utxos = results.shift();
                                          let sendAmt;
                                          if (preserveRatio) {
                                            let ratio = balance[floID] / totalBalance;
                                            sendAmt = totalSendAmt * ratio;
                                          } else sendAmt = senders[floID].coins + dividedFee;
                                          let wif = senders[floID].wif;
                                          let utxoAmt = 0.0;
                                          for (
                                            let i = utxos.length - 1;
                                            i >= 0 && utxoAmt < sendAmt;
                                            i--
                                          ) {
                                            if (utxos[i].confirmations) {
                                              trx.addinput(
                                                utxos[i].txid,
                                                utxos[i].vout,
                                                utxos[i].scriptPubKey
                                              );
                                              wifSeq.push(wif);
                                              utxoAmt += utxos[i].amount;
                                            }
                                          }
                                          if (utxoAmt < sendAmt)
                                            return reject("Insufficient balance:" + floID);
                                          let change = utxoAmt - sendAmt;
                                          if (change > 0) trx.addoutput(floID, change);
                                        }
                                        for (floID in receivers)
                                          trx.addoutput(floID, receivers[floID]);
                                        trx.addflodata(floData);
                                        for (let i = 0; i < wifSeq.length; i++)
                                          trx.signinput(i, wifSeq[i], 1);
                                        var signedTxHash = trx.serialize();
                                        this.broadcastTx(signedTxHash)
                                          .then((txid) => resolve(txid))
                                          .catch((error) => reject(error));
                                      })
                                      .catch((error) => reject(error));
                                  })
                                  .catch((error) => reject(error));
                              });
                            },
                        
                            //Broadcast signed Tx in blockchain using API
                            broadcastTx: function (signedTxHash) {
                              return new Promise((resolve, reject) => {
                                var request = new XMLHttpRequest();
                                var url = this.util.serverList[this.util.curPos] + "api/tx/send";
                                console.log(url);
                                if (signedTxHash.length < 1) reject("Empty Signature");
                                else {
                                  var params = `{"rawtx":"${signedTxHash}"}`;
                                  request.open("POST", url, true);
                                  //Send the proper header information along with the request
                                  request.setRequestHeader("Content-type", "application/json");
                                  request.onload = function () {
                                    if (request.readyState == 4 && request.status == 200) {
                                      console.log(request.response);
                                      resolve(JSON.parse(request.response).txid.result);
                                    } else reject(request.responseText);
                                  };
                                  request.send(params);
                                }
                              });
                            },
                        
                            //Read Txs of Address between from and to
                            readTxs: function (addr, from, to) {
                              return new Promise((resolve, reject) => {
                                this.promisedAPI(`api/addrs/${addr}/txs?from=${from}&to=${to}`)
                                  .then((response) => resolve(response))
                                  .catch((error) => reject(error));
                              });
                            },
                        
                            //Read All Txs of Address (newest first)
                            readAllTxs: function (addr) {
                              return new Promise((resolve, reject) => {
                                this.promisedAPI(`api/addrs/${addr}/txs?from=0&to=1`)
                                  .then((response) => {
                                    this.promisedAPI(
                                      `api/addrs/${addr}/txs?from=0&to=${response.totalItems}0`
                                    )
                                      .then((response) => resolve(response.items))
                                      .catch((error) => reject(error));
                                  })
                                  .catch((error) => reject(error));
                              });
                            },
                        
                            /*Read flo Data from txs of given Address
                              options can be used to filter data
                              limit       : maximum number of filtered data (default = 1000, negative  = no limit)
                              ignoreOld   : ignore old txs (default = 0)
                              sentOnly    : filters only sent data
                              pattern     : filters data that starts with a pattern
                              contains    : filters data that contains a string
                              filter      : custom filter funtion for floData (eg . filter: d => {return d[0] == '$'})
                              */
                            readData: function (addr, options = {}) {
                              options.limit = options.limit | 1000;
                              options.ignoreOld = options.ignoreOld | 0;
                              return new Promise((resolve, reject) => {
                                this.promisedAPI(`api/addrs/${addr}/txs?from=0&to=1`)
                                  .then((response) => {
                                    var newItems = response.totalItems - options.ignoreOld;
                                    this.promisedAPI(
                                      `api/addrs/${addr}/txs?from=0&to=${newItems * 2}`
                                    )
                                      .then((response) => {
                                        if (options.limit <= 0) options.limit = response.items.length;
                                        var filteredData = [];
                                        for (
                                          i = 0;
                                          i < response.totalItems - options.ignoreOld &&
                                          filteredData.length < options.limit;
                                          i++
                                        ) {
                                          if (
                                            options.sentOnly &&
                                            response.items[i].vin[0].addr !== addr
                                          )
                                            continue;
                                          if (
                                            options.pattern &&
                                            !response.items[i].floData.startsWith(
                                              options.pattern,
                                              0
                                            ) &&
                                            !response.items[i].floData.startsWith(options.pattern, 2)
                                          )
                                            continue;
                                          if (
                                            options.contains &&
                                            !response.items[i].floData.includes(options.contains)
                                          )
                                            continue;
                                          if (
                                            options.filter &&
                                            !options.filter(response.items[i].floData)
                                          )
                                            continue;
                                          filteredData.push(response.items[i].floData);
                                        }
                                        resolve({
                                          totalTxs: response.totalItems,
                                          data: filteredData,
                                        });
                                      })
                                      .catch((error) => {
                                        reject(error);
                                      });
                                  })
                                  .catch((error) => {
                                    reject(error);
                                  });
                              });
                            },
                          };
                        </script>
                        
                        <script id="floSupernode">
                          /* flo Supernode Operators to send/receive data from supernodes using websocket */
                          const floSupernode = {
                            //kBucket object
                            kBucket: {
                              supernodeKBucket: null,
                              decodeBase58Address: function (address) {
                                let k = bitjs.Base58.decode(address);
                                k.shift();
                                k.splice(-4, 4);
                                return Crypto.util.bytesToHex(k);
                              },
                              floIdToKbucketId: function (address) {
                                const decodedId = this.decodeBase58Address(address);
                                const nodeIdBigInt = new BigInteger(decodedId, 16);
                                const nodeIdBytes = nodeIdBigInt.toByteArrayUnsigned();
                                const nodeIdNewInt8Array = new Uint8Array(nodeIdBytes);
                                return nodeIdNewInt8Array;
                              },
                              launch: function (
                                superNodeList = Object.keys(floGlobals.supernodes),
                                master_floID = floGlobals.adminID
                              ) {
                                return new Promise((resolve, reject) => {
                                  try {
                                    const SuKBucketId = this.floIdToKbucketId(master_floID);
                                    const SukbOptions = {
                                      localNodeId: SuKBucketId,
                                    };
                                    this.supernodeKBucket = new BuildKBucket(SukbOptions);
                                    for (var i = 0; i < superNodeList.length; i++) {
                                      this.addNewNode(superNodeList[i]);
                                    }
                                    resolve("SuperNode KBucket formed");
                                  } catch (error) {
                                    reject(error);
                                  }
                                });
                              },
                              addContact: function (id, floID, KB = this.supernodeKBucket) {
                                const contact = {
                                  id: id,
                                  floID: floID,
                                };
                                KB.add(contact);
                              },
                              addNewNode: function (address, KB = this.supernodeKBucket) {
                                let decodedId = address;
                                try {
                                  decodedId = this.floIdToKbucketId(address);
                                } catch (e) {
                                  decodedId = address;
                                }
                                this.addContact(decodedId, address, KB);
                              },
                              isNodePresent: function (flo_id, KB = this.supernodeKBucket) {
                                let kArray = KB.toArray();
                                let kArrayFloIds = kArray.map((k) => k.floID);
                                if (kArrayFloIds.includes(flo_id)) return true;
                                else return false;
                              },
                        
                              getInnerNodes: function (
                                flo_addr1,
                                flo_addr2,
                                KB = this.supernodeKBucket
                              ) {
                                return new Promise((resolve, reject) => {
                                  let kArrayFloIds = KB.toArray().map((k) => k.floID);
                                  var innerNodes = [];
                                  if (
                                    kArrayFloIds.includes(flo_addr1) &&
                                    kArrayFloIds.includes(flo_addr2)
                                  ) {
                                    for (
                                      var i = kArrayFloIds.indexOf(flo_addr1);
                                      i != flo_addr2;
                                      i++
                                    ) {
                                      if (i >= kArrayFloIds.length) i = -1;
                                      else innerNodes.push(kArrayFloIds[i]);
                                    }
                                    resolve(innerNodes);
                                  } else reject("Given nodes are not in KBucket");
                                });
                              },
                        
                              getOuterNodes: function (
                                flo_addr1,
                                flo_addr2,
                                KB = this.supernodeKBucket
                              ) {
                                return new Promise((resolve, reject) => {
                                  let kArrayFloIds = KB.toArray().map((k) => k.floID);
                                  var outterNodes = [];
                                  if (
                                    kArrayFloIds.includes(flo_addr1) &&
                                    kArrayFloIds.includes(flo_addr2)
                                  ) {
                                    for (
                                      var i = kArrayFloIds.indexOf(flo_addr2);
                                      i != flo_addr1;
                                      i++
                                    ) {
                                      if (i >= kArrayFloIds.length) i = -1;
                                      else outterNodes.push(kArrayFloIds[i]);
                                    }
                                    resolve(outterNodes);
                                  } else reject("Given nodes are not in KBucket");
                                });
                              },
                        
                              getPrevSupernode: function (
                                flo_addr,
                                n = 1,
                                KB = this.supernodeKBucket
                              ) {
                                return new Promise((resolve, reject) => {
                                  try {
                                    let kArrayFloIds = KB.toArray().map((k) => k.floID);
                                    let pos = kArrayFloIds.indexOf(flo_addr);
                                    var prevSupernode = [];
                                    for (var i = 1; i <= n; i++) {
                                      if (pos - i < 0) var prev = pos - i + kArrayFloIds.length;
                                      else var prev = pos - i;
                                      prevSupernode.push(kArrayFloIds[prev]);
                                    }
                                    resolve(prevSupernode);
                                  } catch (error) {
                                    reject(error);
                                  }
                                });
                              },
                        
                              getNextSupernode: function (
                                flo_addr,
                                n = 1,
                                KB = this.supernodeKBucket
                              ) {
                                return new Promise((resolve, reject) => {
                                  try {
                                    let kArrayFloIds = KB.toArray().map((k) => k.floID);
                                    let pos = kArrayFloIds.indexOf(flo_addr);
                                    var nextSupernode = [];
                                    for (var i = 1; i <= n; i++) {
                                      if (pos + i >= kArrayFloIds.length)
                                        var next = pos + i - kArrayFloIds.length;
                                      else var next = pos + i;
                                      nextSupernode.push(kArrayFloIds[next]);
                                    }
                                    resolve(nextSupernode);
                                  } catch (error) {
                                    reject(error);
                                  }
                                });
                              },
                        
                              determineClosestSupernode: function (
                                flo_addr,
                                n = 1,
                                KB = this.supernodeKBucket
                              ) {
                                return new Promise((resolve, reject) => {
                                  try {
                                    let isFloIdUint8 = flo_addr instanceof Uint8Array;
                                    if (!isFloIdUint8) flo_addr = this.floIdToKbucketId(flo_addr);
                                    var closestSupernode = KB.closest(flo_addr, n);
                                    closestSupernode = closestSupernode.map((k) => k.floID);
                                    resolve(closestSupernode);
                                  } catch (error) {
                                    reject(error);
                                  }
                                });
                              },
                            },
                        
                            sendDataToSN(data, snfloID) {
                              return new Promise((resolve, reject) => {
                                var websocket = new WebSocket(
                                  "wss://" + floGlobals.supernodes[snfloID].uri + "/ws"
                                );
                                websocket.onmessage = (evt) => {
                                  if (evt.data == "$+") {
                                    websocket.send(data);
                                    resolve(`Data sent to supernode : ${snfloID}`);
                                  } else if (evt.data == "$-") {
                                    this.kBucket
                                      .getNextSupernode(snfloID)
                                      .then((nextNode) => {
                                        this.sendDataToSN(data, nextNode[0])
                                          .then((result) => resolve(result))
                                          .catch((error) => reject(error));
                                      })
                                      .catch((error) => reject(error));
                                  } else {
                                    console.log(evt.data);
                                    reject(evt.data);
                                  }
                                  websocket.close();
                                };
                                websocket.onerror = (evt) => {
                                  this.kBucket
                                    .getNextSupernode(snfloID)
                                    .then((nextNode) => {
                                      this.sendDataToSN(data, nextNode[0])
                                        .then((result) => resolve(result))
                                        .catch((error) => reject(error));
                                    })
                                    .catch((error) => reject(error));
                                };
                              });
                            },
                        
                            //Sends data to the supernode
                            sendData: function (data, floID) {
                              return new Promise((resolve, reject) => {
                                this.kBucket
                                  .determineClosestSupernode(floID)
                                  .then((closestNode) => {
                                    this.sendDataToSN(data, closestNode[0])
                                      .then((result) => resolve(result))
                                      .catch((error) => reject(error));
                                  })
                                  .catch((error) => {
                                    reject(error);
                                  });
                              });
                            },
                        
                            requestDataFromSN(request, snfloID) {
                              return new Promise((resolve, reject) => {
                                var websocket = new WebSocket(
                                  "wss://" + floGlobals.supernodes[snfloID].uri + "/ws"
                                );
                                websocket.onmessage = (evt) => {
                                  if (evt.data == "$+") {
                                    websocket.send(`?${request}`);
                                  } else if (evt.data == "$-") {
                                    this.kBucket
                                      .getNextSupernode(snfloID)
                                      .then((nextNode) => {
                                        this.requestDataFromSN(request, nextNode[0])
                                          .then((result) => resolve(result))
                                          .catch((error) => reject(error));
                                      })
                                      .catch((error) => reject(error));
                                    websocket.close();
                                  } else {
                                    resolve(evt.data);
                                    websocket.close();
                                  }
                                };
                                websocket.onerror = (evt) => {
                                  this.kBucket
                                    .getNextSupernode(snfloID)
                                    .then((nextNode) => {
                                      this.requestDataFromSN(request, nextNode[0])
                                        .then((result) => resolve(result))
                                        .catch((error) => reject(error));
                                    })
                                    .catch((error) => reject(error));
                                };
                              });
                            },
                        
                            //Request data from supernode
                            requestData: function (request, floID) {
                              return new Promise((resolve, reject) => {
                                this.kBucket
                                  .determineClosestSupernode(floID)
                                  .then((closestNode) => {
                                    this.requestDataFromSN(request, closestNode[0])
                                      .then((result) => resolve(result))
                                      .catch((error) => reject(error));
                                  })
                                  .catch((error) => {
                                    reject(error);
                                  });
                              });
                            },
                          };
                        
                          /**Kademlia DHT K-bucket implementation as a binary tree.
                           * Implementation of a Kademlia DHT k-bucket used for storing
                           * contact (peer node) information.
                           *
                           * @extends EventEmitter
                           */
                          function BuildKBucket(options = {}) {
                            /**
                             * `options`:
                             *   `distance`: Function
                             *     `function (firstId, secondId) { return distance }` An optional
                             *     `distance` function that gets two `id` Uint8Arrays
                             *     and return distance (as number) between them.
                             *   `arbiter`: Function (Default: vectorClock arbiter)
                             *     `function (incumbent, candidate) { return contact; }` An optional
                             *     `arbiter` function that givent two `contact` objects with the same `id`
                             *     returns the desired object to be used for updating the k-bucket. For
                             *     more details, see [arbiter function](#arbiter-function).
                             *   `localNodeId`: Uint8Array An optional Uint8Array representing the local node id.
                             *     If not provided, a local node id will be created via `randomBytes(20)`.
                             *     `metadata`: Object (Default: {}) Optional satellite data to include
                             *     with the k-bucket. `metadata` property is guaranteed not be altered by,
                             *     it is provided as an explicit container for users of k-bucket to store
                             *     implementation-specific data.
                             *   `numberOfNodesPerKBucket`: Integer (Default: 20) The number of nodes
                             *     that a k-bucket can contain before being full or split.
                             *     `numberOfNodesToPing`: Integer (Default: 3) The number of nodes to
                             *     ping when a bucket that should not be split becomes full. KBucket will
                             *     emit a `ping` event that contains `numberOfNodesToPing` nodes that have
                             *     not been contacted the longest.
                             *
                             * @param {Object=} options optional
                             */
                        
                            this.localNodeId =
                              options.localNodeId ||
                              window.crypto.getRandomValues(new Uint8Array(20));
                            this.numberOfNodesPerKBucket = options.numberOfNodesPerKBucket || 20;
                            this.numberOfNodesToPing = options.numberOfNodesToPing || 3;
                            this.distance = options.distance || this.distance;
                            // use an arbiter from options or vectorClock arbiter by default
                            this.arbiter = options.arbiter || this.arbiter;
                            this.metadata = Object.assign({}, options.metadata);
                        
                            this.createNode = function () {
                              return {
                                contacts: [],
                                dontSplit: false,
                                left: null,
                                right: null,
                              };
                            };
                        
                            this.ensureInt8 = function (name, val) {
                              if (!(val instanceof Uint8Array)) {
                                throw new TypeError(name + " is not a Uint8Array");
                              }
                            };
                        
                            /**
                             * @param  {Uint8Array} array1
                             * @param  {Uint8Array} array2
                             * @return {Boolean}
                             */
                            this.arrayEquals = function (array1, array2) {
                              if (array1 === array2) {
                                return true;
                              }
                              if (array1.length !== array2.length) {
                                return false;
                              }
                              for (let i = 0, length = array1.length; i < length; ++i) {
                                if (array1[i] !== array2[i]) {
                                  return false;
                                }
                              }
                              return true;
                            };
                        
                            this.ensureInt8("option.localNodeId as parameter 1", this.localNodeId);
                            this.root = this.createNode();
                        
                            /**
                             * Default arbiter function for contacts with the same id. Uses
                             * contact.vectorClock to select which contact to update the k-bucket with.
                             * Contact with larger vectorClock field will be selected. If vectorClock is
                             * the same, candidat will be selected.
                             *
                             * @param  {Object} incumbent Contact currently stored in the k-bucket.
                             * @param  {Object} candidate Contact being added to the k-bucket.
                             * @return {Object}           Contact to updated the k-bucket with.
                             */
                            this.arbiter = function (incumbent, candidate) {
                              return incumbent.vectorClock > candidate.vectorClock
                                ? incumbent
                                : candidate;
                            };
                        
                            /**
                             * Default distance function. Finds the XOR
                             * distance between firstId and secondId.
                             *
                             * @param  {Uint8Array} firstId  Uint8Array containing first id.
                             * @param  {Uint8Array} secondId Uint8Array containing second id.
                             * @return {Number}              Integer The XOR distance between firstId
                             *                               and secondId.
                             */
                            this.distance = function (firstId, secondId) {
                              let distance = 0;
                              let i = 0;
                              const min = Math.min(firstId.length, secondId.length);
                              const max = Math.max(firstId.length, secondId.length);
                              for (; i < min; ++i) {
                                distance = distance * 256 + (firstId[i] ^ secondId[i]);
                              }
                              for (; i < max; ++i) distance = distance * 256 + 255;
                              return distance;
                            };
                        
                            /**
                             * Adds a contact to the k-bucket.
                             *
                             * @param {Object} contact the contact object to add
                             */
                            this.add = function (contact) {
                              this.ensureInt8("contact.id", (contact || {}).id);
                        
                              let bitIndex = 0;
                              let node = this.root;
                        
                              while (node.contacts === null) {
                                // this is not a leaf node but an inner node with 'low' and 'high'
                                // branches; we will check the appropriate bit of the identifier and
                                // delegate to the appropriate node for further processing
                                node = this._determineNode(node, contact.id, bitIndex++);
                              }
                        
                              // check if the contact already exists
                              const index = this._indexOf(node, contact.id);
                              if (index >= 0) {
                                this._update(node, index, contact);
                                return this;
                              }
                        
                              if (node.contacts.length < this.numberOfNodesPerKBucket) {
                                node.contacts.push(contact);
                                return this;
                              }
                        
                              // the bucket is full
                              if (node.dontSplit) {
                                // we are not allowed to split the bucket
                                // we need to ping the first this.numberOfNodesToPing
                                // in order to determine if they are alive
                                // only if one of the pinged nodes does not respond, can the new contact
                                // be added (this prevents DoS flodding with new invalid contacts)
                                return this;
                              }
                        
                              this._split(node, bitIndex);
                              return this.add(contact);
                            };
                        
                            /**
                             * Get the n closest contacts to the provided node id. "Closest" here means:
                             * closest according to the XOR metric of the contact node id.
                             *
                             * @param  {Uint8Array} id  Contact node id
                             * @param  {Number=} n      Integer (Default: Infinity) The maximum number of
                             *                          closest contacts to return
                             * @return {Array}          Array Maximum of n closest contacts to the node id
                             */
                            this.closest = function (id, n = Infinity) {
                              this.ensureInt8("id", id);
                        
                              if ((!Number.isInteger(n) && n !== Infinity) || n <= 0) {
                                throw new TypeError("n is not positive number");
                              }
                        
                              let contacts = [];
                        
                              for (
                                let nodes = [this.root], bitIndex = 0;
                                nodes.length > 0 && contacts.length < n;
                        
                              ) {
                                const node = nodes.pop();
                                if (node.contacts === null) {
                                  const detNode = this._determineNode(node, id, bitIndex++);
                                  nodes.push(node.left === detNode ? node.right : node.left);
                                  nodes.push(detNode);
                                } else {
                                  contacts = contacts.concat(node.contacts);
                                }
                              }
                        
                              return contacts
                                .map((a) => [this.distance(a.id, id), a])
                                .sort((a, b) => a[0] - b[0])
                                .slice(0, n)
                                .map((a) => a[1]);
                            };
                        
                            /**
                             * Counts the total number of contacts in the tree.
                             *
                             * @return {Number} The number of contacts held in the tree
                             */
                            this.count = function () {
                              // return this.toArray().length
                              let count = 0;
                              for (const nodes = [this.root]; nodes.length > 0; ) {
                                const node = nodes.pop();
                                if (node.contacts === null) nodes.push(node.right, node.left);
                                else count += node.contacts.length;
                              }
                              return count;
                            };
                        
                            /**
                             * Determines whether the id at the bitIndex is 0 or 1.
                             * Return left leaf if `id` at `bitIndex` is 0, right leaf otherwise
                             *
                             * @param  {Object} node     internal object that has 2 leafs: left and right
                             * @param  {Uint8Array} id   Id to compare localNodeId with.
                             * @param  {Number} bitIndex Integer (Default: 0) The bit index to which bit
                             *                           to check in the id Uint8Array.
                             * @return {Object}          left leaf if id at bitIndex is 0, right leaf otherwise.
                             */
                            this._determineNode = function (node, id, bitIndex) {
                              // *NOTE* remember that id is a Uint8Array and has granularity of
                              // bytes (8 bits), whereas the bitIndex is the bit index (not byte)
                        
                              // id's that are too short are put in low bucket (1 byte = 8 bits)
                              // (bitIndex >> 3) finds how many bytes the bitIndex describes
                              // bitIndex % 8 checks if we have extra bits beyond byte multiples
                              // if number of bytes is <= no. of bytes described by bitIndex and there
                              // are extra bits to consider, this means id has less bits than what
                              // bitIndex describes, id therefore is too short, and will be put in low
                              // bucket
                              const bytesDescribedByBitIndex = bitIndex >> 3;
                              const bitIndexWithinByte = bitIndex % 8;
                              if (id.length <= bytesDescribedByBitIndex && bitIndexWithinByte !== 0) {
                                return node.left;
                              }
                        
                              const byteUnderConsideration = id[bytesDescribedByBitIndex];
                        
                              // byteUnderConsideration is an integer from 0 to 255 represented by 8 bits
                              // where 255 is 11111111 and 0 is 00000000
                              // in order to find out whether the bit at bitIndexWithinByte is set
                              // we construct (1 << (7 - bitIndexWithinByte)) which will consist
                              // of all bits being 0, with only one bit set to 1
                              // for example, if bitIndexWithinByte is 3, we will construct 00010000 by
                              // (1 << (7 - 3)) -> (1 << 4) -> 16
                              if (byteUnderConsideration & (1 << (7 - bitIndexWithinByte))) {
                                return node.right;
                              }
                        
                              return node.left;
                            };
                        
                            /**
                             * Get a contact by its exact ID.
                             * If this is a leaf, loop through the bucket contents and return the correct
                             * contact if we have it or null if not. If this is an inner node, determine
                             * which branch of the tree to traverse and repeat.
                             *
                             * @param  {Uint8Array} id The ID of the contact to fetch.
                             * @return {Object|Null}   The contact if available, otherwise null
                             */
                            this.get = function (id) {
                              this.ensureInt8("id", id);
                        
                              let bitIndex = 0;
                        
                              let node = this.root;
                              while (node.contacts === null) {
                                node = this._determineNode(node, id, bitIndex++);
                              }
                        
                              // index of uses contact id for matching
                              const index = this._indexOf(node, id);
                              return index >= 0 ? node.contacts[index] : null;
                            };
                        
                            /**
                             * Returns the index of the contact with provided
                             * id if it exists, returns -1 otherwise.
                             *
                             * @param  {Object} node    internal object that has 2 leafs: left and right
                             * @param  {Uint8Array} id  Contact node id.
                             * @return {Number}         Integer Index of contact with provided id if it
                             *                          exists, -1 otherwise.
                             */
                            this._indexOf = function (node, id) {
                              for (let i = 0; i < node.contacts.length; ++i) {
                                if (this.arrayEquals(node.contacts[i].id, id)) return i;
                              }
                        
                              return -1;
                            };
                        
                            /**
                             * Removes contact with the provided id.
                             *
                             * @param  {Uint8Array} id The ID of the contact to remove.
                             * @return {Object}        The k-bucket itself.
                             */
                            this.remove = function (id) {
                              this.ensureInt8("the id as parameter 1", id);
                        
                              let bitIndex = 0;
                              let node = this.root;
                        
                              while (node.contacts === null) {
                                node = this._determineNode(node, id, bitIndex++);
                              }
                        
                              const index = this._indexOf(node, id);
                              if (index >= 0) {
                                const contact = node.contacts.splice(index, 1)[0];
                              }
                        
                              return this;
                            };
                        
                            /**
                             * Splits the node, redistributes contacts to the new nodes, and marks the
                             * node that was split as an inner node of the binary tree of nodes by
                             * setting this.root.contacts = null
                             *
                             * @param  {Object} node     node for splitting
                             * @param  {Number} bitIndex the bitIndex to which byte to check in the
                             *                           Uint8Array for navigating the binary tree
                             */
                            this._split = function (node, bitIndex) {
                              node.left = this.createNode();
                              node.right = this.createNode();
                        
                              // redistribute existing contacts amongst the two newly created nodes
                              for (const contact of node.contacts) {
                                this._determineNode(node, contact.id, bitIndex).contacts.push(
                                  contact
                                );
                              }
                        
                              node.contacts = null; // mark as inner tree node
                        
                              // don't split the "far away" node
                              // we check where the local node would end up and mark the other one as
                              // "dontSplit" (i.e. "far away")
                              const detNode = this._determineNode(node, this.localNodeId, bitIndex);
                              const otherNode = node.left === detNode ? node.right : node.left;
                              otherNode.dontSplit = true;
                            };
                        
                            /**
                             * Returns all the contacts contained in the tree as an array.
                             * If this is a leaf, return a copy of the bucket. `slice` is used so that we
                             * don't accidentally leak an internal reference out that might be
                             * accidentally misused. If this is not a leaf, return the union of the low
                             * and high branches (themselves also as arrays).
                             *
                             * @return {Array} All of the contacts in the tree, as an array
                             */
                            this.toArray = function () {
                              let result = [];
                              for (const nodes = [this.root]; nodes.length > 0; ) {
                                const node = nodes.pop();
                                if (node.contacts === null) nodes.push(node.right, node.left);
                                else result = result.concat(node.contacts);
                              }
                              return result;
                            };
                        
                            /**
                             * Updates the contact selected by the arbiter.
                             * If the selection is our old contact and the candidate is some new contact
                             * then the new contact is abandoned (not added).
                             * If the selection is our old contact and the candidate is our old contact
                             * then we are refreshing the contact and it is marked as most recently
                             * contacted (by being moved to the right/end of the bucket array).
                             * If the selection is our new contact, the old contact is removed and the new
                             * contact is marked as most recently contacted.
                             *
                             * @param  {Object} node    internal object that has 2 leafs: left and right
                             * @param  {Number} index   the index in the bucket where contact exists
                             *                          (index has already been computed in a previous
                             *                          calculation)
                             * @param  {Object} contact The contact object to update.
                             */
                            this._update = function (node, index, contact) {
                              // sanity check
                              if (!this.arrayEquals(node.contacts[index].id, contact.id)) {
                                throw new Error("wrong index for _update");
                              }
                        
                              const incumbent = node.contacts[index];
                              const selection = this.arbiter(incumbent, contact);
                              // if the selection is our old contact and the candidate is some new
                              // contact, then there is nothing to do
                              if (selection === incumbent && incumbent !== contact) return;
                        
                              node.contacts.splice(index, 1); // remove old contact
                              node.contacts.push(selection); // add more recent contact version
                            };
                          }
                        </script>
                        
                        <script id="compactIDB">
                          /* Compact IndexedDB operations */
                        
                          window.indexedDB =
                            window.indexedDB ||
                            window.mozIndexedDB ||
                            window.webkitIndexedDB ||
                            window.msIndexedDB;
                          window.IDBTransaction =
                            window.IDBTransaction ||
                            window.webkitIDBTransaction ||
                            window.msIDBTransaction;
                          window.IDBKeyRange =
                            window.IDBKeyRange || window.webkitIDBKeyRange || window.msIDBKeyRange;
                        
                          if (!window.indexedDB)
                            window.alert(
                              "Your browser doesn't support a stable version of IndexedDB."
                            );
                        
                          const compactIDB = {
                            setDefaultDB: function (dbName) {
                              this.defaultDB = dbName;
                            },
                        
                            initDB: function (
                              dbName,
                              objectStores = {},
                              version = null,
                              removeStores = []
                            ) {
                              return new Promise((resolve, reject) => {
                                this.defaultDB = this.defaultDB || dbName;
                                var idb = version
                                  ? indexedDB.open(dbName, version)
                                  : indexedDB.open(dbName);
                                idb.onerror = (event) => {
                                  reject("Error in opening IndexedDB!");
                                };
                                idb.onupgradeneeded = (event) => {
                                  var db = event.target.result;
                                  for (let obs in objectStores) {
                                    var objectStore = db.createObjectStore(
                                      obs,
                                      objectStores[obs].options || {}
                                    );
                                    if (
                                      objectStores[obs].indexes &&
                                      typeof objectStores[obs].indexes === "object"
                                    )
                                      for (let i in objectStores[obs].indexes)
                                        objectStore.createIndex(
                                          i,
                                          i,
                                          objectStores[obs].indexes[i] || {}
                                        );
                                  }
                                  if (version)
                                    removeStores.forEach((obs) => db.deleteObjectStore(obs));
                                };
                                idb.onsuccess = (event) => {
                                  var db = event.target.result;
                                  if (
                                    JSON.stringify(Object.values(db.objectStoreNames).sort()) ===
                                    JSON.stringify(Object.keys(objectStores).sort())
                                  )
                                    resolve("Initiated IndexedDB");
                                  else {
                                    let removeObs = [];
                                    Object.values(db.objectStoreNames).forEach((obs) => {
                                      if (obs in objectStores) delete objectStores[obs];
                                      else removeObs.push(obs);
                                    });
                                    this.initDB(dbName, objectStores, db.version + 1, removeObs)
                                      .then((result) => resolve(result))
                                      .catch((error) => reject(error));
                                  }
                                  db.close();
                                };
                              });
                            },
                        
                            openDB: function (dbName = this.defaultDB) {
                              return new Promise((resolve, reject) => {
                                var idb = indexedDB.open(dbName);
                                idb.onerror = (event) => reject("Error in opening IndexedDB!");
                                idb.onsuccess = (event) => resolve(event.target.result);
                              });
                            },
                        
                            deleteDB: function (dbName = this.defaultDB) {
                              return new Promise((resolve, reject) => {
                                var deleteReq = indexedDB.deleteDatabase(dbName);
                                deleteReq.onerror = (event) => reject("Error deleting database!");
                                deleteReq.onsuccess = (event) =>
                                  resolve("Database deleted successfully");
                              });
                            },
                        
                            writeData: function (
                              obsName,
                              data,
                              key = false,
                              dbName = this.defaultDB
                            ) {
                              return new Promise((resolve, reject) => {
                                this.openDB(dbName)
                                  .then((db) => {
                                    var obs = db
                                      .transaction(obsName, "readwrite")
                                      .objectStore(obsName);
                                    let writeReq = key ? obs.put(data, key) : obs.put(data);
                                    writeReq.onsuccess = (evt) => resolve(`Write data Successful`);
                                    writeReq.onerror = (evt) =>
                                      reject(
                                        `Write data unsuccessful [${evt.target.error.name}] ${evt.target.error.message}`
                                      );
                                    db.close();
                                  })
                                  .catch((error) => reject(error));
                              });
                            },
                        
                            addData: function (obsName, data, key = false, dbName = this.defaultDB) {
                              return new Promise((resolve, reject) => {
                                this.openDB(dbName)
                                  .then((db) => {
                                    var obs = db
                                      .transaction(obsName, "readwrite")
                                      .objectStore(obsName);
                                    let addReq = key ? obs.add(data, key) : obs.add(data);
                                    addReq.onsuccess = (evt) => resolve(`Add data successful`);
                                    addReq.onerror = (evt) =>
                                      reject(
                                        `Add data unsuccessful [${evt.target.error.name}] ${evt.target.error.message}`
                                      );
                                    db.close();
                                  })
                                  .catch((error) => reject(error));
                              });
                            },
                        
                            removeData: function (obsName, key, dbName = this.defaultDB) {
                              return new Promise((resolve, reject) => {
                                this.openDB(dbName)
                                  .then((db) => {
                                    var obs = db
                                      .transaction(obsName, "readwrite")
                                      .objectStore(obsName);
                                    let delReq = obs.delete(key);
                                    delReq.onsuccess = (evt) => resolve(`Removed Data ${key}`);
                                    delReq.onerror = (evt) =>
                                      reject(
                                        `Remove data unsuccessful [${evt.target.error.name}] ${evt.target.error.message}`
                                      );
                                    db.close();
                                  })
                                  .catch((error) => reject(error));
                              });
                            },
                        
                            clearData: function (obsName, dbName = this.defaultDB) {
                              return new Promise((resolve, reject) => {
                                this.openDB(dbName)
                                  .then((db) => {
                                    var obs = db
                                      .transaction(obsName, "readwrite")
                                      .objectStore(obsName);
                                    let clearReq = obs.clear();
                                    clearReq.onsuccess = (evt) => resolve(`Clear data Successful`);
                                    clearReq.onerror = (evt) => reject(`Clear data Unsuccessful`);
                                    db.close();
                                  })
                                  .catch((error) => reject(error));
                              });
                            },
                        
                            readData: function (obsName, key, dbName = this.defaultDB) {
                              return new Promise((resolve, reject) => {
                                this.openDB(dbName)
                                  .then((db) => {
                                    var obs = db
                                      .transaction(obsName, "readonly")
                                      .objectStore(obsName);
                                    let getReq = obs.get(key);
                                    getReq.onsuccess = (evt) => resolve(evt.target.result);
                                    getReq.onerror = (evt) =>
                                      reject(
                                        `Read data unsuccessful [${evt.target.error.name}] ${evt.target.error.message}`
                                      );
                                    db.close();
                                  })
                                  .catch((error) => reject(error));
                              });
                            },
                        
                            readAllData: function (obsName, dbName = this.defaultDB) {
                              return new Promise((resolve, reject) => {
                                this.openDB(dbName)
                                  .then((db) => {
                                    var obs = db
                                      .transaction(obsName, "readonly")
                                      .objectStore(obsName);
                                    var tmpResult = {};
                                    let curReq = obs.openCursor();
                                    curReq.onsuccess = (evt) => {
                                      var cursor = evt.target.result;
                                      if (cursor) {
                                        tmpResult[cursor.primaryKey] = cursor.value;
                                        cursor.continue();
                                      } else resolve(tmpResult);
                                    };
                                    curReq.onerror = (evt) =>
                                      reject(
                                        `Read-All data unsuccessful [${evt.target.error.name}] ${evt.target.error.message}`
                                      );
                                    db.close();
                                  })
                                  .catch((error) => reject(error));
                              });
                            },
                        
                            searchData: function (obsName, patternEval, dbName = this.defaultDB) {
                              return new Promise((resolve, reject) => {
                                this.openDB(dbName)
                                  .then((db) => {
                                    var obs = db
                                      .transaction(obsName, "readonly")
                                      .objectStore(obsName);
                                    var filteredResult = {};
                                    let curReq = obs.openCursor();
                                    curReq.onsuccess = (evt) => {
                                      var cursor = evt.target.result;
                                      if (cursor) {
                                        if (patternEval(cursor.primaryKey, cursor.value))
                                          filteredResult[cursor.primaryKey] = cursor.value;
                                        cursor.continue();
                                      } else resolve(filteredResult);
                                    };
                                    curReq.onerror = (evt) =>
                                      reject(
                                        `Search unsuccessful [${evt.target.error.name}] ${evt.target.error.message}`
                                      );
                                    db.close();
                                  })
                                  .catch((error) => reject(error));
                              });
                            },
                          };
                        </script>
                        
                        <script id="floCloudAPI">
                          /* FLO Cloud operations to send/request application data*/
                          const floCloudAPI = {
                            util: {
                              lastCommit: {},
                        
                              resetData: function (dataSet) {
                                try {
                                  dataSet = JSON.parse(dataSet);
                                  console.log(dataSet);
                                  for (vc in dataSet) {
                                    var message = dataSet[vc].message;
                                    if (message.reset) {
                                      floGlobals.appObjects[message.object] = message.reset;
                                      floGlobals.vectorClock[message.object] = vc;
                                      compactIDB.writeData(
                                        "appObjects",
                                        floGlobals.appObjects[message.object],
                                        message.object
                                      );
                                      compactIDB.writeData("vectorClock", vc, message.object);
                                    }
                                  }
                                } catch (error) {
                                  console.error(error);
                                }
                              },
                        
                              updateData: function (dataSet) {
                                try {
                                  dataSet = JSON.parse(dataSet);
                                  console.log(dataSet);
                                  for (vc in dataSet) {
                                    var message = dataSet[vc].message;
                                    if (message.diff) {
                                      floGlobals.appObjects[message.object] = mergeDifference(
                                        floGlobals.appObjects[message.object],
                                        message.diff
                                      );
                                      compactIDB.writeData(
                                        "appObjects",
                                        floGlobals.appObjects[message.object],
                                        message.object
                                      );
                                    }
                                    floGlobals.vectorClock[message.object] = vc;
                                    compactIDB.writeData("vectorClock", vc, message.object);
                                  }
                                } catch (error) {
                                  console.error(error);
                                }
                              },
                        
                              storeGeneralData: function (filterStr, dataSet) {
                                try {
                                  dataSet = JSON.parse(dataSet);
                                  console.log(dataSet);
                                  if (!Array.isArray(floGlobals.generalData[filterStr]))
                                    floGlobals.generalData[filterStr] = [];
                                  for (vc in dataSet) {
                                    floGlobals.generalData[filterStr].push({
                                      sender: dataSet[vc].senderID,
                                      vectorClock: vc,
                                      message: dataSet[vc].message,
                                    });
                                    compactIDB.writeData(
                                      "generalData",
                                      floGlobals.generalData[filterStr],
                                      filterStr
                                    );
                                    floGlobals.generalVC[filterStr] = vc;
                                    compactIDB.writeData("generalVC", vc, filterStr);
                                  }
                                } catch (error) {
                                  console.error(error);
                                }
                              },
                            },
                        
                            //send Any message to supernode cloud storage
                            sendApplicationData: function (message, type, options = {}) {
                              return new Promise((resolve, reject) => {
                                var data = {
                                  senderID: myFloID,
                                  receiverID: options.receiverID || floGlobals.adminID,
                                  pubKey: floCrypto.getPubKeyHex(myPrivKey),
                                  message: message,
                                  sign: floCrypto.signData(JSON.stringify(message), myPrivKey),
                                  application: options.application || floGlobals.application,
                                  type: type,
                                  comment: options.comment || "",
                                };
                                floSupernode
                                  .sendData(JSON.stringify(data), data.receiverID)
                                  .then((result) => resolve(result))
                                  .catch((error) => reject(error));
                              });
                            },
                        
                            //request any data from supernode cloud
                            requestApplicationData: function (options = {}) {
                              return new Promise((resolve, reject) => {
                                var request = {
                                  receiverID: options.receiverID || floGlobals.adminID,
                                  senderIDs: options.senderIDs || undefined,
                                  application: options.application || floGlobals.application,
                                  type: options.type || undefined,
                                  comment: options.comment || undefined,
                                  lowerVectorClock: options.lowerVectorClock || undefined,
                                  upperVectorClock: options.upperVectorClock || undefined,
                                  atVectorClock: options.atVectorClock || undefined,
                                  mostRecent: options.mostRecent || undefined,
                                };
                                floSupernode
                                  .requestData(JSON.stringify(request), request.receiverID)
                                  .then((response) => resolve(response))
                                  .catch((error) => reject(error));
                              });
                            },
                        
                            //send General Data
                            sendGeneralData: function (message, type, options = {}) {
                              return new Promise((resolve, reject) => {
                                this.sendApplicationData(message, type, options)
                                  .then((result) => resolve(result))
                                  .catch((error) => reject(error));
                              });
                            },
                        
                            //request General Data
                            requestGeneralData: function (type, options = {}) {
                              return new Promise((resolve, reject) => {
                                var filterStr = JSON.stringify({
                                  application: options.application || floGlobals.application,
                                  type: type,
                                  comment: options.comment,
                                });
                                options.type = type;
                                options.lowerVectorClock =
                                  options.lowerVectorClock || floGlobals.generalVC[filterStr] + 1;
                                this.requestApplicationData(options)
                                  .then((dataSet) => {
                                    this.util.storeGeneralData(filterStr, dataSet);
                                    resolve("General Data Updated");
                                  })
                                  .catch((error) => reject(error));
                              });
                            },
                        
                            //request an object data from supernode cloud
                            requestObjectData: function (objectName, options = {}) {
                              return new Promise((resolve, reject) => {
                                var request = {
                                  receiverID: options.receiverID || floGlobals.adminID,
                                  senderIDs:
                                    options.senderIDs === false
                                      ? false
                                      : options.senderIDs || floGlobals.subAdmins,
                                  application: options.application || floGlobals.application,
                                  comment: options.comment,
                                  type: `${objectName}@Reset`,
                                  lowerVectorClock: floGlobals.vectorClock[objectName] + 1,
                                  mostRecent: true,
                                };
                                floSupernode
                                  .requestData(JSON.stringify(request), request.receiverID)
                                  .then((dataSet) => {
                                    this.util.resetData(dataSet);
                                    request.type = `${objectName}@Update`;
                                    request.lowerVectorClock = floGlobals.vectorClock[objectName] + 1;
                                    request.mostRecent = false;
                                    floSupernode
                                      .requestData(JSON.stringify(request), request.receiverID)
                                      .then((dataSet) => {
                                        this.util.updateData(dataSet);
                                        this.util.lastCommit[objectName] = JSON.stringify(
                                          floGlobals.appObjects[objectName]
                                        );
                                        resolve("Object Data Updated");
                                      })
                                      .catch((error) => reject(error));
                                  })
                                  .catch((error) => reject(error));
                              });
                            },
                        
                            //reset or initialize an object and send it to cloud
                            resetObjectData: function (objectName, options = {}) {
                              return new Promise((resolve, reject) => {
                                var message = {
                                  division: options.division || floGlobals.division,
                                  object: objectName,
                                  vectorClock: floGlobals.vectorClock[objectName],
                                  reset: floGlobals.appObjects[objectName],
                                };
                                this.sendApplicationData(message, `${objectName}@Reset`, options)
                                  .then((result) => {
                                    this.util.lastCommit[objectName] = JSON.stringify(
                                      floGlobals.appObjects[objectName]
                                    );
                                    resolve(result);
                                  })
                                  .catch((error) => reject(error));
                              });
                            },
                        
                            //update the diff and send it to cloud
                            updateObjectData: function (objectName, options = {}) {
                              return new Promise((resolve, reject) => {
                                var message = {
                                  division: options.division || floGlobals.division,
                                  object: objectName,
                                  vectorClock: floGlobals.vectorClock[objectName],
                                  diff: findDifference(
                                    JSON.parse(this.util.lastCommit[objectName]),
                                    floGlobals.appObjects[objectName]
                                  ),
                                };
                                this.sendApplicationData(message, `${objectName}@Update`, options)
                                  .then((result) => {
                                    this.util.lastCommit[objectName] = JSON.stringify(
                                      floGlobals.appObjects[objectName]
                                    );
                                    resolve(result);
                                  })
                                  .catch((error) => reject(error));
                              });
                            },
                          };
                        </script>
                        
                        <script id="floDapps">
                          /* General functions for FLO Dapps*/
                          const floDapps = {
                            util: {
                              appObs: {},
                        
                              initIndexedDB: function () {
                                return new Promise((resolve, reject) => {
                                  var obj = {
                                    //general
                                    lastTx: {},
                                    //supernode (cloud list)
                                    supernodes: {
                                      indexes: {
                                        uri: null,
                                        pubKey: null,
                                      },
                                    },
                                    //login credentials
                                    credentials: {},
                                    //for Dapps
                                    subAdmins: {},
                                    appObjects: {},
                                    vectorClock: {},
                                    generalData: {},
                                    generalVC: {},
                                  };
                                  //add other given objectStores
                                  for (o in this.appObs) if (!(o in obj)) obj[o] = this.appObs[o];
                                  compactIDB
                                    .initDB(floGlobals.application, obj)
                                    .then((result) => {
                                      resolve("IndexedDB App Storage Initated Successfully");
                                    })
                                    .catch((error) => reject(error));
                                });
                              },
                        
                              startUpFunctions: {
                                readSupernodeListFromAPI: function () {
                                  return new Promise((resolve, reject) => {
                                    compactIDB
                                      .readData("lastTx", floGlobals.SNStorageID)
                                      .then((lastTx) => {
                                        floBlockchainAPI
                                          .readData(floGlobals.SNStorageID, {
                                            ignoreOld: lastTx,
                                            sentOnly: true,
                                            pattern: "SuperNodeStorage",
                                          })
                                          .then((result) => {
                                            for (var i = result.data.length - 1; i >= 0; i--) {
                                              var content = JSON.parse(
                                                result.data[i]
                                              ).SuperNodeStorage;
                                              for (sn in content.removeNodes)
                                                compactIDB.removeData("supernodes", sn);
                                              for (sn in content.addNodes)
                                                compactIDB.writeData(
                                                  "supernodes",
                                                  content.addNodes[sn],
                                                  sn
                                                );
                                            }
                                            compactIDB.writeData(
                                              "lastTx",
                                              result.totalTxs,
                                              floGlobals.SNStorageID
                                            );
                                            compactIDB.readAllData("supernodes").then((result) => {
                                              floGlobals.supernodes = result;
                        
                                              floSupernode.kBucket
                                                .launch(
                                                  Object.keys(floGlobals.supernodes),
                                                  floGlobals.SNStorageID
                                                )
                                                .then((result) =>
                                                  resolve("Loaded Supernode list\n" + result)
                                                );
                                            });
                                          });
                                      })
                                      .catch((error) => reject(error));
                                  });
                                },
                        
                                readSubAdminListFromAPI: function () {
                                  return new Promise((resolve, reject) => {
                                    compactIDB
                                      .readData("lastTx", floGlobals.adminID)
                                      .then((lastTx) => {
                                        floBlockchainAPI
                                          .readData(floGlobals.adminID, {
                                            ignoreOld: lastTx,
                                            sentOnly: true,
                                            pattern: floGlobals.application,
                                          })
                                          .then((result) => {
                                            for (var i = result.data.length - 1; i >= 0; i--) {
                                              var content = JSON.parse(result.data[i])[
                                                floGlobals.application
                                              ];
                                              if (Array.isArray(content.removeSubAdmin))
                                                for (
                                                  var j = 0;
                                                  j < content.removeSubAdmin.length;
                                                  j++
                                                )
                                                  compactIDB.removeData(
                                                    "subAdmins",
                                                    content.removeSubAdmin[j]
                                                  );
                                              if (Array.isArray(content.addSubAdmin))
                                                for (var k = 0; k < content.addSubAdmin.length; k++)
                                                  compactIDB.writeData(
                                                    "subAdmins",
                                                    true,
                                                    content.addSubAdmin[k]
                                                  );
                                            }
                                            compactIDB.writeData(
                                              "lastTx",
                                              result.totalTxs,
                                              floGlobals.adminID
                                            );
                                            compactIDB.readAllData("subAdmins").then((result) => {
                                              floGlobals.subAdmins = Object.keys(result);
                                              resolve("Read subAdmins from blockchain");
                                            });
                                          });
                                      })
                                      .catch((error) => reject(error));
                                  });
                                },
                        
                                loadDataFromIDB: function () {
                                  return new Promise((resolve, reject) => {
                                    var loadData = [
                                      "appObjects",
                                      "vectorClock",
                                      "generalData",
                                      "generalVC",
                                    ];
                                    var promises = [];
                                    for (var i = 0; i < loadData.length; i++)
                                      promises[i] = compactIDB.readAllData(loadData[i]);
                                    Promise.all(promises)
                                      .then((results) => {
                                        for (var i = 0; i < loadData.length; i++)
                                          floGlobals[loadData[i]] = results[i];
                                        resolve("Loaded Data from IDB");
                                      })
                                      .catch((error) => reject(error));
                                  });
                                },
                        
                                getCredentials: function () {
                                  const defaultInput = function (type) {
                                    return new Promise((resolve, reject) => {
                                     // let inputVal = prompt(`Enter ${type}: `);
                                     // if (inputVal === null) reject(null);
                                     // else resolve(inputVal);
                                    });
                                  };
                        
                                  const inputFn = this.getCredentials.privKeyInput || defaultInput;
                        
                                  const readSharesFromIDB = function (indexArr) {
                                    return new Promise((resolve, reject) => {
                                      var promises = [];
                                      for (var i = 0; i < indexArr.length; i++)
                                        promises.push(
                                          compactIDB.readData("credentials", indexArr[i])
                                        );
                                      Promise.all(promises)
                                        .then((shares) => {
                                          var secret = floCrypto.retrieveShamirSecret(shares);
                                          if (secret) resolve(secret);
                                          else reject("Shares are insufficient or incorrect");
                                        })
                                        .catch((error) => reject(error));
                                    });
                                  };
                        
                                  const writeSharesToIDB = function (
                                    shares,
                                    i = 0,
                                    resultIndexes = []
                                  ) {
                                    return new Promise((resolve, reject) => {
                                      if (i >= shares.length) return resolve(resultIndexes);
                                      var n = floCrypto.randInt(0, 100000);
                                      compactIDB
                                        .addData("credentials", shares[i], n)
                                        .then((res) => {
                                          resultIndexes.push(n);
                                          writeSharesToIDB(shares, i + 1, resultIndexes).then(
                                            (result) => resolve(result)
                                          );
                                        })
                                        .catch((error) => {
                                          writeSharesToIDB(shares, i, resultIndexes).then((result) =>
                                            resolve(result)
                                          );
                                        });
                                    });
                                  };
                        
                                  const getPrivateKeyCredentials = function () {
                                    return new Promise((resolve, reject) => {
                                      var indexArr = localStorage.getItem(
                                        `${floGlobals.application}#privKey`
                                      );
                                      if (indexArr) {
                                        readSharesFromIDB(JSON.parse(indexArr))
                                          .then((result) => resolve(result))
                                          .catch((error) => reject(error));
                                      } else {
                                        var privKey;
                                        inputFn("PRIVATE_KEY")
                                          .then((result) => {
                                            try {
                                              if (!result) return reject("Empty Private Key");
                                              var floID = floCrypto.getFloIDfromPubkeyHex(
                                                floCrypto.getPubKeyHex(result)
                                              );
                                              privKey = result;
                                            } catch (error) {
                                              console.error(error);
                                              return reject("Invalid Private Key");
                                            }
                                          })
                                          .catch((error) => {
                                            console.log(error, "Generating Random Keys");
                                            privKey = floCrypto.generateNewID().privKey;
                                          })
                                          .finally((_) => {
                                            var threshold = floCrypto.randInt(10, 20);
                                            writeSharesToIDB(
                                              floCrypto.createShamirsSecretShares(
                                                privKey,
                                                threshold,
                                                threshold
                                              )
                                            )
                                              .then((resultIndexes) => {
                                                //store index keys in localStorage
                                                localStorage.setItem(
                                                  `${floGlobals.application}#privKey`,
                                                  JSON.stringify(resultIndexes)
                                                );
                                                //also add a dummy privatekey to the IDB
                                                var randomPrivKey = floCrypto.generateNewID().privKey;
                                                var randomThreshold = floCrypto.randInt(10, 20);
                                                writeSharesToIDB(
                                                  floCrypto.createShamirsSecretShares(
                                                    randomPrivKey,
                                                    randomThreshold,
                                                    randomThreshold
                                                  )
                                                );
                                                //resolve private Key
                                                resolve(privKey);
                                              })
                                              .catch((error) => reject(error));
                                          });
                                      }
                                    });
                                  };
                        
                                  const checkIfPinRequired = function (key) {
                                    return new Promise((resolve, reject) => {
                                      if (key.length == 52) resolve(key);
                                      else {
                                        inputFn("PIN/Password")
                                          .then((pwd) => {
                                            try {
                                              let privKey = Crypto.AES.decrypt(key, pwd);
                                              resolve(privKey);
                                            } catch (error) {
                                              reject("Access Denied: Incorrect PIN/Password");
                                            }
                                          })
                                          .catch((error) =>
                                            reject("Access Denied: PIN/Password required")
                                          );
                                      }
                                    });
                                  };
                        
                                  return new Promise((resolve, reject) => {
                                    getPrivateKeyCredentials()
                                      .then((key) => {
                                        checkIfPinRequired(key)
                                          .then((privKey) => {
                                            try {
                                              myPrivKey = privKey;
                                              myPubKey = floCrypto.getPubKeyHex(myPrivKey);
                                              myFloID = floCrypto.getFloIDfromPubkeyHex(myPubKey);
                                              resolve("Login Credentials loaded successful");
                                            } catch (error) {
                                              reject("Corrupted Private Key");
                                            }
                                          })
                                          .catch((error) => reject(error));
                                      })
                                      .catch((error) => reject(error));
                                  });
                                },
                              },
                        
                              callStartUpFunction: function (fname) {
                                return new Promise((resolve, reject) => {
                                  this.startUpFunctions[fname]()
                                    .then((result) => {
                                      this.callStartUpFunction.completed += 1;
                                      reactor.dispatchEvent(
                                        "startUpSuccessLog",
                                        `${result}\nCompleted ${this.callStartUpFunction.completed}/${this.callStartUpFunction.total} Startup functions`
                                      );
                                      resolve(true);
                                    })
                                    .catch((error) => {
                                      this.callStartUpFunction.failed += 1;
                                      reactor.dispatchEvent(
                                        "startUpErrorLog",
                                        `${error}\nFailed ${this.callStartUpFunction.failed}/${this.callStartUpFunction.total} Startup functions`
                                      );
                                      reject(false);
                                    });
                                });
                              },
                        
                              getFilterString: function (type, options = {}) {
                                var filterStr = JSON.stringify({
                                  application: options.application || floGlobals.application,
                                  type: type,
                                  comment: options.comment,
                                });
                                return filterStr;
                              },
                            },
                        
                            launchStartUp: function () {
                              return new Promise((resolve, reject) => {
                                this.util.initIndexedDB().then((log) => {
                                  console.log(log);
                                  this.util.callStartUpFunction.total = Object.keys(
                                    this.util.startUpFunctions
                                  ).length;
                                  this.util.callStartUpFunction.completed = 0;
                                  this.util.callStartUpFunction.failed = 0;
                                  var promises = [];
                                  for (fn in this.util.startUpFunctions)
                                    promises.push(this.util.callStartUpFunction(fn));
                                  Promise.all(promises)
                                    .then((results) => resolve("App Startup finished successful"))
                                    .catch((errors) => reject("App StartUp failed"));
                                });
                              });
                            },
                        
                            addStartUpFunction: function (fname, fn) {
                              if (fname in this.util.startUpFunctions)
                                throw `Function ${fname} already defined`;
                              this.util.startUpFunctions[fname] = fn;
                            },
                        
                            setCustomPrivKeyInput: function (customFn) {
                              this.util.startUpFunctions.getCredentials.privKeyInput = customFn;
                            },
                        
                            setAppObjectStores: function (appObs) {
                              this.util.appObs = appObs;
                            },
                        
                            manageSubAdmins(adminPrivKey, addList, rmList) {
                              return new Promise((resolve, reject) => {
                                if (!Array.isArray(addList)) addList = undefined;
                                if (!Array.isArray(rmList)) rmList = undefined;
                                var floData = {
                                  [floGlobals.application]: {
                                    addSubAdmin: addList,
                                    removeSubAdmin: rmList,
                                  },
                                };
                                var floID = floCrypto.getFloIDfromPubkeyHex(
                                  floCrypto.getPubKeyHex(adminPrivKey)
                                );
                                if (floID != floGlobals.adminID)
                                  reject("Access Denied for Admin privilege");
                                else
                                  floBlockchainAPI
                                    .writeData(floID, JSON.stringify(floData), adminPrivKey)
                                    .then((result) => resolve(["Updated SubAdmin List", result]))
                                    .catch((error) => reject(error));
                              });
                            },
                        
                            clearCredentials: function () {
                              return new Promise((resolve, reject) => {
                                compactIDB
                                  .clearData("credentials")
                                  .then((result) => {
                                    localStorage.removeItem(`${floGlobals.application}#privKey`);
                                    myPrivKey = myPubKey = myFloID = undefined;
                                    resolve("privKey credentials deleted!");
                                  })
                                  .catch((error) => reject(error));
                              });
                            },
                        
                            securePrivKey: function (pwd) {
                              return new Promise((resolve, reject) => {
                                let indexArr = localStorage.getItem(
                                  `${floGlobals.application}#privKey`
                                );
                                if (!indexArr) return reject("PrivKey not found");
                                indexArr = JSON.parse(indexArr);
                                let encryptedKey = Crypto.AES.encrypt(myPrivKey, pwd);
                                let threshold = indexArr.length;
                                let shares = floCrypto.createShamirsSecretShares(
                                  encryptedKey,
                                  threshold,
                                  threshold
                                );
                                let promises = [];
                                for (var i = 0; i < threshold; i++)
                                  promises.push(
                                    compactIDB.writeData(
                                      "credentials",
                                      shares[i],
                                      indexArr[i],
                                      floGlobals.application
                                    )
                                  );
                                Promise.all(promises)
                                  .then((results) => resolve("Private Key Secured"))
                                  .catch((error) => reject(error));
                              });
                            },
                        
                            objectDataMapper: function (object, path, data) {
                              var resObject = JSON.parse(JSON.stringify(object));
                              var pos = resObject;
                              path.forEach((p) => (pos = pos[p]));
                              if (Array.isArray(pos)) {
                                pos.push(data);
                                return resObject;
                              } else throw "Path is not an Array";
                            },
                        
                            getNextGeneralData: function (type, vectorClock, options = {}) {
                              var filter = this.util.getFilterString(type, options);
                              var filteredResult = [];
                              for (var i = 0; i < floGlobals.generalData[filter].length; i++)
                                if (floGlobals.generalData[filter][i].vectorClock > vectorClock)
                                  filteredResult.push(floGlobals.generalData[filter][i]);
                              return filteredResult;
                            },
                          };
                        
                          reactor.registerEvent("startUpSuccessLog");
                          reactor.addEventListener("startUpSuccessLog", (log) => console.log(log));
                        
                          reactor.registerEvent("startUpErrorLog");
                          reactor.addEventListener("startUpErrorLog", (log) => console.error(log));
                        </script>
                        
                          <script id="webAppClient">
                            //Add this to the client script to request data from floWebappServer
                            const webAppClient = {
                              util: {
                                requestData(request = []) {
                                  return new Promise((resolve, reject) => {
                                    var websocket = new WebSocket(
                                      "wss://" + floGlobals.webAppURL + "/ws"
                                    );
                                    websocket.onmessage = (evt) => {
                                      if (evt.data == "$+") {
                                        websocket.send(`?${JSON.stringify(request)}`);
                                      } else if (evt.data == "$-") {
                                        reject(`webApp not available`);
                                        websocket.close();
                                      } else {
                                        resolve(JSON.parse(evt.data));
                                        websocket.close();
                                      }
                                    };
                                    websocket.onerror = (evt) => {
                                      reject(`webApp server not found`);
                                    };
                                  });
                                },
                              },
                        
                              requestGeneralData: function (type, vectorClock = "0") {
                                if (typeof vectorClock !== "string") vectorClock.toString();
                                return new Promise((resolve, reject) => {
                                  this.util
                                    .requestData([
                                      floGlobals.application,
                                      "generalData",
                                      type,
                                      vectorClock,
                                    ])
                                    .then((result) => {
                                      if (result[0]) resolve(result[1]);
                                      else reject(result[1]);
                                    })
                                    .catch((error) => reject(error));
                                });
                              },
                        
                              requestObjectData: function (keyPath) {
                                return new Promise((resolve, reject) => {
                                  this.util
                                    .requestData([floGlobals.application, "appObjects"].concat(keyPath))
                                    .then((result) => {
                                      if (result[0]) resolve(result[1]);
                                      else reject(result[1]);
                                    })
                                    .catch((error) => reject(error));
                                });
                              },
                        
                              requestSubAdminList: function () {
                                return new Promise((resolve, reject) => {
                                  this.util
                                    .requestData([floGlobals.application, "subAdmins"])
                                    .then((result) => {
                                      if (result[0]) resolve(result[1]);
                                      else reject(result[1]);
                                    })
                                    .catch((error) => reject(error));
                                });
                              },
                            };
                          </script>
                        </body>
                        </html>