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LICENCE
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MIT License
Copyright (c) 2023 Sai Raj
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.

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README.md
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@ -9,21 +9,18 @@ We are offering methods simplifying access to inbuilt browser database IndexedDB
Last but not the least, we are also providing methods for simplying common operations for FLO based Distributed Application Development.
# IMPORTANT
We have two versions of cloud: old cloud version is 2.0.x in floCloudAPI, and new cloud version is >2.1.0 in floCloudAPI. Please check that the version in floCloudAPI is >2.1.0 whenever you use floCloudAPI as we are deprecating version 2.0.x
# Background on FLO Distributed Applications
FLO distibuted applications use the FLO Blockchain to store core data, and FLO Blockchain Cloud for other data. The data is accessed directly by browser based clients. No other component or servers are needed typically.
Every application has a role called the Master Admin. The clients trust anything that the Master Admin declares in the FLO Blockchain. Usually Master Admin will only declare the FLO IDs that will have operational roles in the application. These FLO IDs are called SubAdmins. The browser based clients trust actions only and only from subAdmins and no one else. That creates the trust model. First trust the Master Admin. Then find out who the master admin has authorized to act as SubAdmins in the FLO blockchain. Then trust the data and actions signed by approved SubAdmins. Since the entire chain of trust is blockchain based, it enables a blockchain driven trust model. As the blockchain data is immutable and permanent, so long as users can trust the Master Admin, blockchain will ensure that the trust is efficiently transmitted.
Every application has a role called the Master Admin. The clients trust anything that the Master Admin declares in the FLO Blockchain. Usually Master Admin will only declare the FLO IDs that will have operational roles in the application. These FLO IDs are called SubAdmins. The browser based clients trust actions only and only from subAdmins and no one else. That creates the trust model. First trust the Master Admin. Then find out who the master admin has authorized to act as SubAdmins in the FLO blockchain. Then trust the data and actions signed by approved SubAdmins. Since the entire chain of trust is blockchain based, it enables a blockchain driven trust model. As the blockchain data is immutable and permanent, so long as users can trust the Master Admin, blockchain will ensure that the turst is efficiently transmitted.
This approach decentralizes the trust process totally and extends the capacity of the blockchain to model almost any server based IT application.
## RanchiMall recommended approach to create a FLO Distributed Application
1. Create Master Admin FLO ID and private key
2. Role Modeling: Create SubAdmins by having Master Admin declare it in the FLO Blockchain, and decide what roles will different kind of SubAdmins play
2. Role Modeling: Create SubAdmins by having Master Admin declare it in the FLO Blockchain, and decide what roles will differnent kind of SubAdmins play
3. Data Modeling: Create Blockchain cloud data formats for your application. Do it twice: One for system trusted users like SubAdmins using Object Data. And again for normal untrusted users using General Data
4. Define core business functionalities of the app, and create Javascript methods to model it
5. Secure the user Private Key (and other sensitive data, if any)
@ -62,89 +59,6 @@ This approach decentralizes the trust process totally and extends the capacity o
* Consumers of data can ask for data by receiver ID, or filter it by application, type, or comment. They can also ask for data for a given type before and after a certain vector clock.
## Common examples in usage of Standard Operations
* Sends "Hello World" message to the cloud as General Data with type1 as `type` with `myFloID` as default sender and `floGlobals.adminID` as receiver. This has vectorClock support, our the client side will automatically synchronise all the relevant data stored in cloud.
```
floCloudAPI.sendGeneralData("Hello World", "type1")
```
* Request general data of type1 type, but filtered by senderIDs being floGlobals.subAdmins
```
floCloudAPI.requestGeneralData("type1", { senderIDs: floGlobals.subAdmins })
```
* Usage of sendGeneralData from RIBC dApp
```
//take name and comments as function parameters, and sendGeneralData of InternRequests type
applyForIntern: function (name, comments = '') {
return floCloudAPI.sendGeneralData([name, comments], "InternRequests")
},
//take updates as function parameter, and return a promise that sends general data of type "InternUpdates"
postInternUpdate: function (updates) {
return new Promise((resolve, reject) => {
floCloudAPI.sendGeneralData(updates, "InternUpdates")
.then(results => resolve(results))
.catch(error => reject(error))
})
applyForTask: function (projectCode, branch, task, comments = '') {
return floCloudAPI.sendGeneralData([projectCode, branch, task, comments], "TaskRequests")
},
setRequestStatus: function (vectorClock, status) {
return floCloudAPI.sendGeneralData({ vectorClock, status }, "RequestStatus")
},
```
* Object Data handling is automated in Standard operations unlike General data. Define, update and reset, these are only object data operations possible, yet they are very powerful in data capabilities.
```
//Initiates "myFirstObject" with {a:1,b:2}, and sends to cloud with myFloID
as default sender and floGlobals.adminID as receiver
floGlobals.appObjects["myFirstObject"] = {a:1,b:2}
floCloudAPI.resetObjectData("myFirstObject")
//Updates the old value of "myFirstObject" with {a:1,b:2}, and sends to cloud with myFloID as default sender
and floGlobals.adminID as receiver. In case of update, only the object diff will be sent
floGlobals.appObjects["myFirstObject"] = {a:1,c:3,d:4}
floCloudAPI.updateObjectData("myFirstObject")
```
* floGlobals usage from RIBC dApp
```
floGlobals.vectorClock
= {RIBC: '1637841611864_FCja6sLv58e3RMy41T5AmWyvXEWesqBCkX'}
floGlobals.generalVC["{\"application\":\"RIBC\",\"type\":\"InternUpdates\"}"]
= '1640106537305_FSdjJCJdU43a1dyWY6dRES1ekoupEjFPqQ'
floGlobals.vectorClock.RIBC
= '1637841611864_FCja6sLv58e3RMy41T5AmWyvXEWesqBCkX'
floGlobals.generalVC["{\"application\":\"RIBC\",\"type\":\"InternUpdates\"}"]
= '1640106537305_FSdjJCJdU43a1dyWY6dRES1ekoupEjFPqQ'
floGlobals.generalData["{\"application\":\"RIBC\",\"type\":\"InternUpdates\"}"][2]
= {sender: 'FPFeL5PXzW9bGosUjQYCxTHSMHidnygvvd',
vectorClock: '1580815876258_FPFeL5PXzW9bGosUjQYCxTHSMHidnygvvd', message: {…}}
floGlobals.generalData["{\"application\":\"RIBC\",\"type\":\"InternUpdates\"}"][2]["vectorClock"]
= '1580815876258_FPFeL5PXzW9bGosUjQYCxTHSMHidnygvvd'
floGlobals.generalData["{\"application\":\"RIBC\",\"type\":\"InternUpdates\"}"][2]["message"]["sender"]
= 'FPFeL5PXzW9bGosUjQYCxTHSMHidnygvvd'
floGlobals.generalData["{\"application\":\"RIBC\",\"type\":\"InternUpdates\"}"][808]["message"]["description"]
= 'Working on the flow and structure of Pearl Harbor topic'
floGlobals.appObjects.RIBC.internList.F7HVKrF68Y6YKE9XXpHhAcxt6MwRLcUD67
= 'Salomi Sarkar'
```
# Technical Details of standard operations
@ -208,13 +122,6 @@ In addition, we have these system variables outside FLO Globals but used globall
1. publickey_or_privateKey - public key or private key hex value
* Returns : floID (string)
#### Calculate Address
floCrypto.getAddress(privateKey, *strict)
`getAddress` returns respective address from given private-key
1. privateKey - private key in WIF format
2. strict - boolean value (optional, default=false) (false: return flo-id if no prefix match is found)
* Returns : address (string)
#### Verify Private Key
floCrypto.verifyPrivKey(privateKey, pubKey_floID, *isfloID)
`verifyPrivKey` verify the private-key for the given public-key or flo-ID
@ -223,27 +130,12 @@ In addition, we have these system variables outside FLO Globals but used globall
3. isfloID - boolean value (true: compare as flo ID, false: compare as public key) (optional, default is true)
* Returns : boolen (true or false)
#### Validate Address
floCrypto.validateAddr(address, *std, *bech)
`validateAddr` check if the given Address (any blockchain) is valid or not
1. address - address to validate
2. std - checks for legacy version (optional, default=true) (true: allow any, array: list of versions, value: one version only, false: allow none)
3. bech - checks for bech version (optional, default=true) (true: allow any, array: list of versions, value: one version only, false: allow none)
* Returns : boolen (true or false)
#### Validate FLO ID
floCrypto.validateFloID(floID)
`validateFloID` check if the given floID is valid or not
floCrypto.validateAddr(floID)
`validateAddr` check if the given Address is valid or not
1. floID - flo ID to validate
* Returns : boolen (true or false)
#### Verify Public Key
floCrypto.verifyPubKey(publicKey, address)
`verifyPubKey` verify the public key for the given address (any blockchain)
1. publicKey - public key
2. address - address to verify
* Returns : boolen (true or false)
#### Data Encryption
floCrypto.encryptData(data, publicKey)
`encryptData` encrypts the given data using public-key
@ -477,47 +369,12 @@ Note: If passed as Array, then ratio of the balance of the senders are preserved
2. dbName - Name of the database (optional, uses defaultDB if not specified)
* Resolves: data (Object) | Rejects: error
## FLO Supernode module
This module contains functions that interact with the supernode to send and retrive data in the backend. Use floClouldAPI operations to send and receive data for application.
## FLO Cloud API operations
`floCloudAPI` operations can interact with floSupernode cloud to send and retrieve data for applications. floCloudAPI uses floSupernode module for backend interactions. FLO Cloud API functions are promisified and resolves the data or status.
#### NEW providing callback as a new option for automatic refresh of data in browser
We have implemented a new feature where Standard Operations page can listen to any new general data or new object data and request for new data will be automatic. As soon as a new data is available in a cloud address, it will be notified to listening clients. This has been achieved by expanding `options` in `requestGeneralData` and `requestObjectData`
A blank callback function can be provided as an option in `requestGeneralData` in which case the `floGlobals.generalData` will be automatically updated with new generalData relevant to that `requestGeneralData` whenever such data is available with the cloud.
A blank callback function when added as an option to `requestObjectData` will automatically update `floGlobals.appObjects` with all refreshes ar available to that `requestObjectData` without calling `requestObjectData` again explicitly.
You can also specify an actual function name in callback, in which case that function will also be executed in addition to automatic data refreshes. This is usually for UI refresh needs. Alternately, one can monitor changes to `floGlobals.generalData` and `floGlobals.appObjects` via an event mechanism, and update UI whenever there are changes, in which case blank callback function is sufficient.
Note: Callbacks have been implemented using persistent listening websockets in both browsers and the cloud. So it will load the cloud with persistent memory requirements. Use it only when it is absolutely needed.
```javascript
//Requesting general data of type1 with calls in two equivalent ways using callback option for automatic refresh
floCloudAPI.requestGeneralData("type1", {callback(){}})
floCloudAPI.requestGeneralData("type1", {callback: _=> null})
//Requesting Object data for article_valuation_individual object using callback option for automatic refresh
floCloudAPI.requestObjectData("article_valuation_individual", {callback: _=> null) })
//They are all equivalent
floCloudAPI.requestGeneralData("type1", {senderID:[x,y,z], callback: ()=>{} })
floCloudAPI.requestGeneralData("type1", {senderID:[x,y,z], callback(){} })
floCloudAPI.requestGeneralData("type1", {senderID:[x,y,z], callback: _=> null })
//Implementation of a callback function that will update the UI and display data in console
floCloudAPI.requestObjectData("article_valuation_individual", {callback: fnToUseTheData} )
fnToUseTheData example:
fnToUseTheData: function (data, error) {
if(!error) {
console.log(data);
//Add Update UI function
}
}
```
#### sendApplicationData
floCloudAPI.sendApplicationData(message, type, options = {})
`sendApplicationData` sends application data to the cloud.
@ -552,10 +409,9 @@ Sends "Hello World" message to the cloud as General Data with type1 as `type` wi
* Resolves: Status (string) | Rejects: error
###### Minimal Example:
```
floCloudAPI.requestGeneralData("type1")
Requests all messages of General Data nature from the cloud with type1 as `type` sent by anyone and `floGlobals.adminID` as default receiverID
```
#### resetObjectData
floCloudAPI.resetObjectData("objectName", options = {})
`resetObjectData` resets the objectData to cloud.
@ -624,14 +480,12 @@ Note: Application Data results are not stored in local IndexedDB by Standard Op
Note: If a blank REQUEST APPLICATION DATA is made, then cloud will give all application data at the admin ID of the application
###### Minimal Example:
```
floCloudAPI.requestApplicationData()
Requests all messages of Apllication Data nature from the cloud with any `type` sent by anyone and `floGlobals.adminID` as receiverID
```
## 4. GENERAL DATA PARAMETERS AND OPTIONS
### SEND GENERAL DATA PARAMETERS AND OPTIONS
### SEND GENERAL DATA
Parameters while sending
* `Message`: Actual Message to be sent
@ -648,12 +502,7 @@ Type is mandatory in SEND GENERAL DATA because without at least one data identif
Application field is used by the Cloud to judge whether this message should be deleted after 7 days, or stored permanently. Developers should be careful not to change value of application field if the default value enables the message to be stored permanently. Currently messages sent from subadmins to any receiverID for applications notified by the cloud in the FLO Blockchain are stored permanently. So do not change application field as a caution. Use the comment field.
###### Minimal Example:
```
floCloudAPI.sendGeneralData("Hello World", "type1")
Sends "Hello World" message to the cloud as General Data with type1 as `type` with `myFloID` as default sender and `floGlobals.adminID` as receiver
```
### REQUEST GENERAL DATA PARAMETERS AND OPTIONS
### REQUEST GENERAL DATA
Parameters while requesting
@ -668,8 +517,6 @@ Parameters while requesting
* `upperVectorClock` - VC till which the data is to be requested
* `atVectorClock` - VC at which the data is to requested
* `mostRecent` - boolean (true: request only the recent data matching the pattern. Just the last one)
* `callback(){}` - will initialize websocket for automatic updates.
* `callback: fnToUseTheData` - will initialize websocket for automatic updates, and will alse execute fnToUseTheData
The results are available in floGlobals.generalData after the request promise has been resolved
@ -681,26 +528,9 @@ If you want to use requests to give results from all types at one go, use Applic
Application field is used by the Cloud to judge whether this message should be deleted after 7 days, or stored permanently. Developers should be careful not to change value of application field if the default value enables the message to be stored permanently. Currently messages sent from subadmins to any receiverID for applications notified by the cloud in the FLO Blockchain are stored permanently. So do not change application field as a caution. Use the comment field.
###### Minimal Example:
```
floCloudAPI.requestGeneralData("type1")
Requests all messages of General Data nature from the cloud with type1 as `type` sent by anyone and `floGlobals.adminID` as default receiverID
floCloudAPI.requestGeneralData("type1", {senderID:[x,y,z], callback: ()=>{}})
floCloudAPI.requestGeneralData("type1", {senderID:[x,y,z], callback(){}})
floCloudAPI.requestGeneralData("type1", {senderID:[x,y,z], callback: _=> null})
floCloudAPI.requestObjectData("article_valuation_individual", {callback: fnToUseTheData})
fnToUseTheData example:
fnToUseTheData: function (data, error) {
if(!error) console.log(data)
}
```
## 5. OBJECT DATA PARAMETERS AND OPTIONS
### RESET or UPDATE OBJECT DATA PARAMETERS AND OPTIONS
### RESET or UPDATE OBJECT DATA
Parameters while resetting or updating
* `Object Name`: Name of the object with data populated in floGlobals.appObjects[objectName]
@ -715,7 +545,7 @@ Note: Never use senderIDs in RESET and UPDATE. The system automatically picks th
Note: Type field is never used in RESET, UPDATE or REQUEST operations in Object Data. Type field is internally blocked for Object Data.
### REQUEST OBJECT DATA PARAMETERS AND OPTIONS
### REQUEST OBJECT DATA
#### Mandatory
`Object Name`
@ -729,8 +559,6 @@ Note: Type field is never used in RESET, UPDATE or REQUEST operations in Object
* `upperVectorClock` - VC till which the data is to be requested
* `atVectorClock` - VC at which the data is to requested
* `mostRecent` - boolean (true: request only the recent data matching the pattern. Just the last one.)
* `callback(){}` - will initialize websocket for automatic updates.
* `callback: fnToUseTheData` - will initialize websocket for automatic updates, and will alse execute fnToUseTheData
The output is available in floGlobals.appObjects[objectName] after request Object Data promise is resolved
@ -740,7 +568,7 @@ Application field is used by the Cloud to judge whether this message should be d
## 6. APPLICATION DATA PARAMETERS, OPTIONS AND EXPLANATIONS
### SEND APPLICATION DATA PARAMETERS AND OPTIONS
### SEND APPLICATION DATA
Parameters while sending
* `Message`: Actual Message to be sent
@ -757,7 +585,7 @@ Type is mandatory in SEND APPLICATION DATA because without at least one data ide
Application field is used by the Cloud to judge whether this message should be deleted after 7 days, or stored permanently. Developers should be careful not to change value of application field if the default value enables the message to be stored permanently. Currently messages sent from subadmins to any receiverID for applications notified by the cloud in the FLO Blockchain are stored permanently. So do not change application field as a caution. Use the comment field.
### REQUEST APPLICATION DATA PARAMETERS AND OPTIONS
### REQUEST APPLICATION DATA
#### Mandatory Parameters while requesting
None
@ -772,8 +600,6 @@ None
* `upperVectorClock` - VC till which the data is to be requested
* `atVectorClock` - VC at which the data is to requested
* `mostRecent` - boolean (true: request only the recent data matching the pattern. Just the last one)
* `callback(){}` - will initialize websocket for automatic updates.
* `callback: fnToUseTheData` - will initialize websocket for automatic updates, and will alse execute fnToUseTheData
Note: Results will be available in promise.resolve(requestApplicationData(..)), and user will have to handle the response himself.
@ -789,6 +615,39 @@ Note: Application field is used by the Cloud to judge whether this message shoul
# Examples for FLO Cloud data operations
# Basic Concepts of RanchiMall Blockchain Cloud for developers
* RanchiMall blockchain cloud is a service to provide a set of decentralized servers that will provide data storage to users. These decentralized servers are listed in the FLO Blockchain under an authorized FLO address. This gives the assurance to the users that those data servers can be trusted.
* The user can store his data in these servers freely. RanchiMall cloud service also provides facilities to store Javascript Objects directly. Storage in JavaScript object form makes it easier for JavaScript based applications to process the data.
* The cloud servers provide automatic backup and restoration for each other.
* Using the blockchain based data cloud, users will not need any database to store their data. The cloud will provide data storage, backup and restoration facilites.
* RanchiMall Blockchain Cloud is a password less system. Every sender has to digitally sign his data with the private key associated with its FLO ID. The cloud verifies the digital signature of the sender before storing sender data.
* Since the blockchain cloud is an ensemble of servers, we need a method to pick the right server to store the data. For this purpose, we find the a server closest to receipient of the data according to an artificial distance measure.
* Every client of the cloud can automatically compute the correct server where the data needs to be stored, and sends the message directly to that server.
* Every client of the cloud is the consumer of the data. It can ask the cloud for data sorted by a recipient, or by various options we provide like name of application, type of data, or by specific comments. The client can can also ask for all data after or before a certain point of time using a concept called Vector Clock.
* The cloud attaches the exact epoch time to any message given by a sender, and using the combination of epoch time, and sender FLO ID, the vector clock is constructed.
* The two basic forms in which users can submit data to the cloud are `General Data` and `Object Data`. `General Data` is freely flowing data, and `Object Data` is stored directly as pure Javascript Object.
* Both `General Data` and `Object Data` have been derived from `Application Data` which is the basic system data type in the cloud. Normal users will never need to use Application Data. But for documentation purposes, we are providing the technical details for Application Data as well.
- `General Data` = `Application Data` + User level Vector Clock filtering facilities
- `Object Data` = `Application Data` + Message field modified to handle Javascript Object + User level Vector Clock filtering facilities
* Consistent with blockchain data principles, RanchiMall blockchain cloud will also provide data to everyone who asks for it. So sensitive data should be encrypted using the receiver's public key using Crypto functions of FLO Standard Operations.
* Consumers of data can ask for data by receiver ID, or filter it by application, type, or comment. They can also ask for data for a given type before and after a certain vector clock.
## 1. Data fields stored in each of decentralised servers
vectorClock, senderID, receiverID, pubKey, message, sign, application, type, comment
@ -839,7 +698,7 @@ Application data system is original data field system that we created for our c
Even ObjectData was created on top of Application Data. ObjectData is a special construction provided by framework so that Javacript objects can directly be stored and retrieved from the cloud
#### Vector Clock issues in Application Data
Application data supports Vector clock in REQUEST option, but it is not mandatory. Since Application Data system has no mandatory vector clock requirement in REQUEST OPTIONS, it will always give the entire data set stored in the cloud since start if invoked without vectorClock, and user will have to custom handle the request output himself at client end. Our client side framework will not store it for the user. However the application data request invoked with vectorClock, then our cloud will give data after the vectorClock
Application data supports Vector clock in REQUEST option, but it is not mandatory. Since Application Data system has no mandatory vector clock requirement in REQUEST OPTIONS, it will always give the entire data set stored in the cloud since start if invoked without vectorClock, and user will have to custom handle the request output himself at client end. Our client side framework will not store it for the user.
Usually ObjectData and GeneralData systems will support most of user needs. But for cases when the user wants the entire cloud data set, and no client side framework handling, he should use ApplicationData. Although Application Data system supports lower vectorClock, upper vectorClock, at vectorClock and mostRecentvectorClock as a REQUEST option, but the processing of these have to be done by user. Unlike in case of ObjectData and GeneralData, the output of Request Application Data is not available in floGlobals.
@ -910,23 +769,6 @@ Sample startup is defined in onLoadStartUp function
2. fn - body of the function
Note: startup funtions are called in parallel. Therefore only add custom startup funtion only if it can run in parallel with other startup functions. (default startup funtions are read supernode list and subAdmin list from blockchain API, load data from indexedDB, get login credentials)
```javascript
//Executes automatically on startup before anything else executes
floDapps.addStartUpFunction("myFirstFunction",
function (){
return new Promise (
(resolve,reject)=>{
console.log("First function Executed before everything else");
resolve("My First Function executed")
});
});
// Manual execution on console
floDapps.util.startUpFunctions.myFirstFunction();
```
Philosophy: Suppose you want a function that must run before any of standard operation function runs. Then you need to first create a promisified version of that function
### Advanced Dapp functions usually not needed for users
#### setAppObjectStores
@ -934,6 +776,12 @@ Philosophy: Suppose you want a function that must run before any of standard ope
`setAppObjectStores` adds additionals objectstores for the app
1. appObs - additionals objects for the app
#### objectDataMapper
floDapps.objectDataMapper(object, path, data)
`objectDataMapper` maps the object and data via path
1. object - object to be mapped
2. path - end path for the data holder
3. data - data to be pushed in map

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@ -1,257 +0,0 @@
(function (EXPORTS) { //compactIDB v2.1.2
/* Compact IndexedDB operations */
'use strict';
const compactIDB = EXPORTS;
var defaultDB;
const indexedDB = window.indexedDB || window.mozIndexedDB || window.webkitIndexedDB || window.msIndexedDB;
const IDBTransaction = window.IDBTransaction || window.webkitIDBTransaction || window.msIDBTransaction;
const IDBKeyRange = window.IDBKeyRange || window.webkitIDBKeyRange || window.msIDBKeyRange;
if (!indexedDB) {
console.error("Your browser doesn't support a stable version of IndexedDB.");
return;
}
compactIDB.setDefaultDB = dbName => defaultDB = dbName;
Object.defineProperty(compactIDB, 'default', {
get: () => defaultDB,
set: dbName => defaultDB = dbName
});
function getDBversion(dbName = defaultDB) {
return new Promise((resolve, reject) => {
openDB(dbName).then(db => {
resolve(db.version)
db.close()
}).catch(error => reject(error))
})
}
function upgradeDB(dbName, createList = null, deleteList = null) {
return new Promise((resolve, reject) => {
getDBversion(dbName).then(version => {
var idb = indexedDB.open(dbName, version + 1);
idb.onerror = (event) => reject("Error in opening IndexedDB");
idb.onupgradeneeded = (event) => {
let db = event.target.result;
if (createList instanceof Object) {
if (Array.isArray(createList)) {
let tmp = {}
createList.forEach(o => tmp[o] = {})
createList = tmp
}
for (let o in createList) {
let obs = db.createObjectStore(o, createList[o].options || {});
if (createList[o].indexes instanceof Object)
for (let i in createList[o].indexes)
obs.createIndex(i, i, createList[o].indexes || {});
}
}
if (Array.isArray(deleteList))
deleteList.forEach(o => db.deleteObjectStore(o));
resolve('Database upgraded')
}
idb.onsuccess = (event) => event.target.result.close();
}).catch(error => reject(error))
})
}
compactIDB.initDB = function (dbName, objectStores = {}) {
return new Promise((resolve, reject) => {
if (!(objectStores instanceof Object))
return reject('ObjectStores must be an object or array')
defaultDB = defaultDB || dbName;
var idb = indexedDB.open(dbName);
idb.onerror = (event) => reject("Error in opening IndexedDB");
idb.onsuccess = (event) => {
var db = event.target.result;
let cList = Object.values(db.objectStoreNames);
var obs = {},
a_obs = {},
d_obs = [];
if (!Array.isArray(objectStores))
var obs = objectStores
else
objectStores.forEach(o => obs[o] = {})
let nList = Object.keys(obs)
for (let o of nList)
if (!cList.includes(o))
a_obs[o] = obs[o]
for (let o of cList)
if (!nList.includes(o))
d_obs.push(o)
if (!Object.keys(a_obs).length && !d_obs.length)
resolve("Initiated IndexedDB");
else
upgradeDB(dbName, a_obs, d_obs)
.then(result => resolve(result))
.catch(error => reject(error))
db.close();
}
});
}
const openDB = compactIDB.openDB = function (dbName = defaultDB) {
return new Promise((resolve, reject) => {
var idb = indexedDB.open(dbName);
idb.onerror = (event) => reject("Error in opening IndexedDB");
idb.onupgradeneeded = (event) => {
event.target.result.close();
deleteDB(dbName).then(_ => null).catch(_ => null).finally(_ => reject("Datebase not found"))
}
idb.onsuccess = (event) => resolve(event.target.result);
});
}
const deleteDB = compactIDB.deleteDB = function (dbName = 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");
});
}
compactIDB.writeData = function (obsName, data, key = false, dbName = defaultDB) {
return new Promise((resolve, reject) => {
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}] ${evt.target.error.message}`
);
db.close();
}).catch(error => reject(error));
});
}
compactIDB.addData = function (obsName, data, key = false, dbName = defaultDB) {
return new Promise((resolve, reject) => {
openDB(dbName).then(db => {
var obs = db.transaction(obsName, "readwrite").objectStore(obsName);
let addReq = (key ? obs.add(data, key) : obs.add(data));
addReq.onsuccess = (evt) => resolve(`Add data successful`);
addReq.onerror = (evt) => reject(
`Add data unsuccessful [${evt.target.error.name}] ${evt.target.error.message}`
);
db.close();
}).catch(error => reject(error));
});
}
compactIDB.removeData = function (obsName, key, dbName = defaultDB) {
return new Promise((resolve, reject) => {
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}] ${evt.target.error.message}`
);
db.close();
}).catch(error => reject(error));
});
}
compactIDB.clearData = function (obsName, dbName = defaultDB) {
return new Promise((resolve, reject) => {
openDB(dbName).then(db => {
var obs = db.transaction(obsName, "readwrite").objectStore(obsName);
let clearReq = obs.clear();
clearReq.onsuccess = (evt) => resolve(`Clear data Successful`);
clearReq.onerror = (evt) => reject(`Clear data Unsuccessful`);
db.close();
}).catch(error => reject(error));
});
}
compactIDB.readData = function (obsName, key, dbName = defaultDB) {
return new Promise((resolve, reject) => {
openDB(dbName).then(db => {
var obs = db.transaction(obsName, "readonly").objectStore(obsName);
let getReq = obs.get(key);
getReq.onsuccess = (evt) => resolve(evt.target.result);
getReq.onerror = (evt) => reject(
`Read data unsuccessful [${evt.target.error.name}] ${evt.target.error.message}`
);
db.close();
}).catch(error => reject(error));
});
}
compactIDB.readAllData = function (obsName, dbName = defaultDB) {
return new Promise((resolve, reject) => {
openDB(dbName).then(db => {
var obs = db.transaction(obsName, "readonly").objectStore(obsName);
var tmpResult = {}
let curReq = obs.openCursor();
curReq.onsuccess = (evt) => {
var cursor = evt.target.result;
if (cursor) {
tmpResult[cursor.primaryKey] = cursor.value;
cursor.continue();
} else
resolve(tmpResult);
}
curReq.onerror = (evt) => reject(
`Read-All data unsuccessful [${evt.target.error.name}] ${evt.target.error.message}`
);
db.close();
}).catch(error => reject(error));
});
}
/* compactIDB.searchData = function (obsName, options = {}, dbName = defaultDB) {
return new Promise((resolve, reject) => {
openDB(dbName).then(db => {
var obs = db.transaction(obsName, "readonly").objectStore(obsName);
var filteredResult = {}
let keyRange;
if(options.lowerKey!==null && options.upperKey!==null)
keyRange = IDBKeyRange.bound(options.lowerKey, options.upperKey);
else if(options.lowerKey!==null)
keyRange = IDBKeyRange.lowerBound(options.lowerKey);
else if (options.upperKey!==null)
keyRange = IDBKeyRange.upperBound(options.upperBound);
else if (options.atKey)
let curReq = obs.openCursor(keyRange, )
}).catch(error => reject(error))
})
}*/
compactIDB.searchData = function (obsName, options = {}, dbName = defaultDB) {
options.lowerKey = options.atKey || options.lowerKey || 0
options.upperKey = options.atKey || options.upperKey || false
options.patternEval = options.patternEval || ((k, v) => true);
options.limit = options.limit || false;
options.reverse = options.reverse || false;
options.lastOnly = options.lastOnly || false
return new Promise((resolve, reject) => {
openDB(dbName).then(db => {
var obs = db.transaction(obsName, "readonly").objectStore(obsName);
var filteredResult = {}
let curReq = obs.openCursor(
options.upperKey ? IDBKeyRange.bound(options.lowerKey, options.upperKey) : IDBKeyRange.lowerBound(options.lowerKey),
options.lastOnly || options.reverse ? "prev" : "next");
curReq.onsuccess = (evt) => {
var cursor = evt.target.result;
if (!cursor || (options.limit && options.limit <= Object.keys(filteredResult).length))
return resolve(filteredResult); //reached end of key list or limit reached
else if (options.patternEval(cursor.primaryKey, cursor.value)) {
filteredResult[cursor.primaryKey] = cursor.value;
options.lastOnly ? resolve(filteredResult) : cursor.continue();
} else
cursor.continue();
}
curReq.onerror = (evt) => reject(`Search unsuccessful [${evt.target.error.name}] ${evt.target.error.message}`);
db.close();
}).catch(error => reject(error));
});
}
})(window.compactIDB = {});

1044
floBlockchainAPI.js
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1106
floCloudAPI.js
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530
floCrypto.js
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@ -1,530 +0,0 @@
(function (EXPORTS) { //floCrypto v2.3.6a
/* FLO Crypto Operators */
'use strict';
const floCrypto = EXPORTS;
const p = BigInteger("FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEFFFFFC2F", 16);
const ecparams = EllipticCurve.getSECCurveByName("secp256k1");
const ascii_alternatives = ` '\n '\n“ "\n” "\n --\n— ---\n≥ >=\n≤ <=\n≠ !=\n× *\n÷ /\n← <-\n→ ->\n↔ <->\n⇒ =>\n⇐ <=\n⇔ <=>`;
const exponent1 = () => p.add(BigInteger.ONE).divide(BigInteger("4"));
coinjs.compressed = true; //defaulting coinjs compressed to true;
function calculateY(x) {
let exp = 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)
}
function getUncompressedPublicKey(compressedPublicKey) {
// 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 = 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
};
}
function getSenderPublicKeyString() {
let privateKey = ellipticCurveEncryption.senderRandom();
var senderPublicKeyString = ellipticCurveEncryption.senderPublicString(privateKey);
return {
privateKey: privateKey,
senderPublicKeyString: senderPublicKeyString
}
}
function deriveSharedKeySender(receiverPublicKeyHex, senderPrivateKey) {
let receiverPublicKeyString = getUncompressedPublicKey(receiverPublicKeyHex);
var senderDerivedKey = ellipticCurveEncryption.senderSharedKeyDerivation(
receiverPublicKeyString.x, receiverPublicKeyString.y, senderPrivateKey);
return senderDerivedKey;
}
function deriveSharedKeyReceiver(senderPublicKeyString, receiverPrivateKey) {
return ellipticCurveEncryption.receiverSharedKeyDerivation(
senderPublicKeyString.XValuePublicString, senderPublicKeyString.YValuePublicString, receiverPrivateKey);
}
function getReceiverPublicKeyString(privateKey) {
return ellipticCurveEncryption.receiverPublicString(privateKey);
}
function wifToDecimal(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)
let privateKeyDecimal = BigInteger(pk).toString()
let privateKeyHex = Crypto.util.bytesToHex(pk)
return {
privateKeyDecimal: privateKeyDecimal,
privateKeyHex: privateKeyHex
}
}
//generate a random Interger within range
floCrypto.randInt = function (min, max) {
min = Math.ceil(min);
max = Math.floor(max);
return Math.floor(securedMathRandom() * (max - min + 1)) + min;
}
//generate a random String within length (options : alphaNumeric chars only)
floCrypto.randString = function (length, alphaNumeric = true) {
var result = '';
var characters = alphaNumeric ? 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789' :
'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789_+-./*?@#&$<>=[]{}():';
for (var i = 0; i < length; i++)
result += characters.charAt(Math.floor(securedMathRandom() * characters.length));
return result;
}
//Encrypt Data using public-key
floCrypto.encryptData = function (data, receiverPublicKeyHex) {
var senderECKeyData = getSenderPublicKeyString();
var senderDerivedKey = deriveSharedKeySender(receiverPublicKeyHex, 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
floCrypto.decryptData = function (data, privateKeyHex) {
var receiverECKeyData = {};
if (typeof privateKeyHex !== "string") throw new Error("No private key found.");
let privateKey = wifToDecimal(privateKeyHex, true);
if (typeof privateKey.privateKeyDecimal !== "string") throw new Error("Failed to detremine your private key.");
receiverECKeyData.privateKey = privateKey.privateKeyDecimal;
var receiverDerivedKey = deriveSharedKeyReceiver(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
floCrypto.signData = function (data, privateKeyHex) {
var key = new Bitcoin.ECKey(privateKeyHex);
var messageHash = Crypto.SHA256(data);
var messageSign = Bitcoin.ECDSA.sign(messageHash, key.priv);
var sighex = Crypto.util.bytesToHex(messageSign);
return sighex;
}
//Verify signatue of the data using public-key
floCrypto.verifySign = function (data, signatureHex, publicKeyHex) {
var msgHash = Crypto.SHA256(data);
var sigBytes = Crypto.util.hexToBytes(signatureHex);
var publicKeyPoint = ecparams.getCurve().decodePointHex(publicKeyHex);
var verify = Bitcoin.ECDSA.verify(msgHash, sigBytes, publicKeyPoint);
return verify;
}
//Generates a new flo ID and returns private-key, public-key and floID
const generateNewID = floCrypto.generateNewID = function () {
var key = new Bitcoin.ECKey(false);
key.setCompressed(true);
return {
floID: key.getBitcoinAddress(),
pubKey: key.getPubKeyHex(),
privKey: key.getBitcoinWalletImportFormat()
}
}
Object.defineProperties(floCrypto, {
newID: {
get: () => generateNewID()
},
hashID: {
value: (str) => {
let bytes = ripemd160(Crypto.SHA256(str, { asBytes: true }), { asBytes: true });
bytes.unshift(bitjs.pub);
var hash = Crypto.SHA256(Crypto.SHA256(bytes, {
asBytes: true
}), {
asBytes: true
});
var checksum = hash.slice(0, 4);
return bitjs.Base58.encode(bytes.concat(checksum));
}
},
tmpID: {
get: () => {
let bytes = Crypto.util.randomBytes(20);
bytes.unshift(bitjs.pub);
var hash = Crypto.SHA256(Crypto.SHA256(bytes, {
asBytes: true
}), {
asBytes: true
});
var checksum = hash.slice(0, 4);
return bitjs.Base58.encode(bytes.concat(checksum));
}
}
});
//Returns public-key from private-key
floCrypto.getPubKeyHex = function (privateKeyHex) {
if (!privateKeyHex)
return null;
var key = new Bitcoin.ECKey(privateKeyHex);
if (key.priv == null)
return null;
key.setCompressed(true);
return key.getPubKeyHex();
}
//Returns flo-ID from public-key or private-key
floCrypto.getFloID = function (keyHex) {
if (!keyHex)
return null;
try {
var key = new Bitcoin.ECKey(keyHex);
if (key.priv == null)
key.setPub(keyHex);
return key.getBitcoinAddress();
} catch {
return null;
}
}
floCrypto.getAddress = function (privateKeyHex, strict = false) {
if (!privateKeyHex)
return;
var key = new Bitcoin.ECKey(privateKeyHex);
if (key.priv == null)
return null;
key.setCompressed(true);
let pubKey = key.getPubKeyHex(),
version = bitjs.Base58.decode(privateKeyHex)[0];
switch (version) {
case coinjs.priv: //BTC
return coinjs.bech32Address(pubKey).address;
case bitjs.priv: //FLO
return bitjs.pubkey2address(pubKey);
default:
return strict ? false : bitjs.pubkey2address(pubKey); //default to FLO address (if strict=false)
}
}
//Verify the private-key for the given public-key or flo-ID
floCrypto.verifyPrivKey = function (privateKeyHex, pubKey_floID, isfloID = true) {
if (!privateKeyHex || !pubKey_floID)
return false;
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.toUpperCase() == key.getPubKeyHex().toUpperCase())
return true;
else
return false;
} catch {
return null;
}
}
floCrypto.getMultisigAddress = function (publicKeyList, requiredSignatures) {
if (!Array.isArray(publicKeyList) || !publicKeyList.length)
return null;
if (!Number.isInteger(requiredSignatures) || requiredSignatures < 1 || requiredSignatures > publicKeyList.length)
return null;
try {
var multisig = bitjs.pubkeys2multisig(publicKeyList, requiredSignatures);
return multisig;
} catch {
return null;
}
}
floCrypto.decodeRedeemScript = function (redeemScript) {
try {
var decoded = bitjs.transaction().decodeRedeemScript(redeemScript);
return decoded;
} catch {
return null;
}
}
//Check if the given flo-id is valid or not
floCrypto.validateFloID = function (floID, regularOnly = false) {
if (!floID)
return false;
try {
let addr = new Bitcoin.Address(floID);
if (regularOnly && addr.version != Bitcoin.Address.standardVersion)
return false;
return true;
} catch {
return false;
}
}
//Check if the given address (any blockchain) is valid or not
floCrypto.validateAddr = function (address, std = true, bech = true) {
let raw = decodeAddress(address);
if (!raw)
return false;
if (typeof raw.version !== 'undefined') { //legacy or segwit
if (std == false)
return false;
else if (std === true || (!Array.isArray(std) && std === raw.version) || (Array.isArray(std) && std.includes(raw.version)))
return true;
else
return false;
} else if (typeof raw.bech_version !== 'undefined') { //bech32
if (bech === false)
return false;
else if (bech === true || (!Array.isArray(bech) && bech === raw.bech_version) || (Array.isArray(bech) && bech.includes(raw.bech_version)))
return true;
else
return false;
} else //unknown
return false;
}
//Check the public-key (or redeem-script) for the address (any blockchain)
floCrypto.verifyPubKey = function (pubKeyHex, address) {
let raw = decodeAddress(address);
if (!raw)
return;
let pub_hash = Crypto.util.bytesToHex(ripemd160(Crypto.SHA256(Crypto.util.hexToBytes(pubKeyHex), { asBytes: true })));
if (typeof raw.bech_version !== 'undefined' && raw.bytes.length == 32) //bech32-multisig
raw.hex = Crypto.util.bytesToHex(ripemd160(raw.bytes, { asBytes: true }));
return pub_hash === raw.hex;
}
//Convert the given address (any blockchain) to equivalent floID
floCrypto.toFloID = function (address, options = null) {
if (!address)
return;
let raw = decodeAddress(address);
if (!raw)
return;
else if (options) { //if (optional) version check is passed
if (typeof raw.version !== 'undefined' && (!options.std || !options.std.includes(raw.version)))
return;
if (typeof raw.bech_version !== 'undefined' && (!options.bech || !options.bech.includes(raw.bech_version)))
return;
}
raw.bytes.unshift(bitjs.pub);
let hash = Crypto.SHA256(Crypto.SHA256(raw.bytes, {
asBytes: true
}), {
asBytes: true
});
return bitjs.Base58.encode(raw.bytes.concat(hash.slice(0, 4)));
}
//Convert raw address bytes to floID
floCrypto.rawToFloID = function (raw_bytes) {
if (typeof raw_bytes === 'string')
raw_bytes = Crypto.util.hexToBytes(raw_bytes);
if (raw_bytes.length != 20)
return null;
raw_bytes.unshift(bitjs.pub);
let hash = Crypto.SHA256(Crypto.SHA256(raw_bytes, {
asBytes: true
}), {
asBytes: true
});
return bitjs.Base58.encode(raw_bytes.concat(hash.slice(0, 4)));
}
//Convert the given multisig address (any blockchain) to equivalent multisig floID
floCrypto.toMultisigFloID = function (address, options = null) {
if (!address)
return;
let raw = decodeAddress(address);
if (!raw)
return;
else if (options) { //if (optional) version check is passed
if (typeof raw.version !== 'undefined' && (!options.std || !options.std.includes(raw.version)))
return;
if (typeof raw.bech_version !== 'undefined' && (!options.bech || !options.bech.includes(raw.bech_version)))
return;
}
if (typeof raw.bech_version !== 'undefined') {
if (raw.bytes.length != 32) return; //multisig bech address have 32 bytes
//multisig-bech:hash=SHA256 whereas multisig:hash=r160(SHA265), thus ripemd160 the bytes from multisig-bech
raw.bytes = ripemd160(raw.bytes, {
asBytes: true
});
}
raw.bytes.unshift(bitjs.multisig);
let hash = Crypto.SHA256(Crypto.SHA256(raw.bytes, {
asBytes: true
}), {
asBytes: true
});
return bitjs.Base58.encode(raw.bytes.concat(hash.slice(0, 4)));
}
//Checks if the given addresses (any blockchain) are same (w.r.t keys)
floCrypto.isSameAddr = function (addr1, addr2) {
if (!addr1 || !addr2)
return;
let raw1 = decodeAddress(addr1),
raw2 = decodeAddress(addr2);
if (!raw1 || !raw2)
return false;
else {
if (typeof raw1.bech_version !== 'undefined' && raw1.bytes.length == 32) //bech32-multisig
raw1.hex = Crypto.util.bytesToHex(ripemd160(raw1.bytes, { asBytes: true }));
if (typeof raw2.bech_version !== 'undefined' && raw2.bytes.length == 32) //bech32-multisig
raw2.hex = Crypto.util.bytesToHex(ripemd160(raw2.bytes, { asBytes: true }));
return raw1.hex === raw2.hex;
}
}
const decodeAddress = floCrypto.decodeAddr = function (address) {
if (!address)
return;
else if (address.length == 33 || address.length == 34) { //legacy encoding
let decode = bitjs.Base58.decode(address);
let bytes = decode.slice(0, decode.length - 4);
let checksum = decode.slice(decode.length - 4),
hash = Crypto.SHA256(Crypto.SHA256(bytes, {
asBytes: true
}), {
asBytes: true
});
return (hash[0] != checksum[0] || hash[1] != checksum[1] || hash[2] != checksum[2] || hash[3] != checksum[3]) ? null : {
version: bytes.shift(),
hex: Crypto.util.bytesToHex(bytes),
bytes
}
} else if (address.length == 42 || address.length == 62) { //bech encoding
let decode = coinjs.bech32_decode(address);
if (decode) {
let bytes = decode.data;
let bech_version = bytes.shift();
bytes = coinjs.bech32_convert(bytes, 5, 8, false);
return {
bech_version,
hrp: decode.hrp,
hex: Crypto.util.bytesToHex(bytes),
bytes
}
} else
return null;
}
}
//Split the str using shamir's Secret and Returns the shares
floCrypto.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
}
}
//Returns the retrived secret by combining the shamirs shares
const retrieveShamirSecret = floCrypto.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;
}
}
//Verifies the shares and str
floCrypto.verifyShamirsSecret = function (sharesArray, str) {
if (!str)
return null;
else if (retrieveShamirSecret(sharesArray) === str)
return true;
else
return false;
}
const validateASCII = floCrypto.validateASCII = function (string, bool = true) {
if (typeof string !== "string")
return null;
if (bool) {
let x;
for (let i = 0; i < string.length; i++) {
x = string.charCodeAt(i);
if (x < 32 || x > 127)
return false;
}
return true;
} else {
let x, invalids = {};
for (let i = 0; i < string.length; i++) {
x = string.charCodeAt(i);
if (x < 32 || x > 127)
if (x in invalids)
invalids[string[i]].push(i)
else
invalids[string[i]] = [i];
}
if (Object.keys(invalids).length)
return invalids;
else
return true;
}
}
floCrypto.convertToASCII = function (string, mode = 'soft-remove') {
let chars = validateASCII(string, false);
if (chars === true)
return string;
else if (chars === null)
return null;
let convertor, result = string,
refAlt = {};
ascii_alternatives.split('\n').forEach(a => refAlt[a[0]] = a.slice(2));
mode = mode.toLowerCase();
if (mode === "hard-unicode")
convertor = (c) => `\\u${('000' + c.charCodeAt().toString(16)).slice(-4)}`;
else if (mode === "soft-unicode")
convertor = (c) => refAlt[c] || `\\u${('000' + c.charCodeAt().toString(16)).slice(-4)}`;
else if (mode === "hard-remove")
convertor = c => "";
else if (mode === "soft-remove")
convertor = c => refAlt[c] || "";
else
return null;
for (let c in chars)
result = result.replaceAll(c, convertor(c));
return result;
}
floCrypto.revertUnicode = function (string) {
return string.replace(/\\u[\dA-F]{4}/gi,
m => String.fromCharCode(parseInt(m.replace(/\\u/g, ''), 16)));
}
})('object' === typeof module ? module.exports : window.floCrypto = {});

843
floDapps.js
View File

@ -1,843 +0,0 @@
(function (EXPORTS) { //floDapps v2.4.1
/* General functions for FLO Dapps*/
'use strict';
const floDapps = EXPORTS;
const DEFAULT = {
root: "floDapps",
application: floGlobals.application,
adminID: floGlobals.adminID
};
Object.defineProperties(floDapps, {
application: {
get: () => DEFAULT.application
},
adminID: {
get: () => DEFAULT.adminID
},
root: {
get: () => DEFAULT.root
}
});
var user_priv_raw, aes_key, user_priv_wrap; //private variable inside capsule
const raw_user = {
get private() {
if (!user_priv_raw)
throw "User not logged in";
return Crypto.AES.decrypt(user_priv_raw, aes_key);
}
}
var user_id, user_public, user_private;
const user = floDapps.user = {
get id() {
if (!user_id)
throw "User not logged in";
return user_id;
},
get public() {
if (!user_public)
throw "User not logged in";
return user_public;
},
get private() {
if (!user_private)
throw "User not logged in";
else if (user_private instanceof Function)
return user_private();
else
return Crypto.AES.decrypt(user_private, aes_key);
},
sign(message) {
return floCrypto.signData(message, raw_user.private);
},
decrypt(data) {
return floCrypto.decryptData(data, raw_user.private);
},
encipher(message) {
return Crypto.AES.encrypt(message, raw_user.private);
},
decipher(data) {
return Crypto.AES.decrypt(data, raw_user.private);
},
get db_name() {
return "floDapps#" + floCrypto.toFloID(user.id);
},
lock() {
user_private = user_priv_wrap;
},
async unlock() {
if (await user.private === raw_user.private)
user_private = user_priv_raw;
},
get_contact(id) {
if (!user.contacts)
throw "Contacts not available";
else if (user.contacts[id])
return user.contacts[id];
else {
let id_raw = floCrypto.decodeAddr(id).hex;
for (let i in user.contacts)
if (floCrypto.decodeAddr(i).hex == id_raw)
return user.contacts[i];
}
},
get_pubKey(id) {
if (!user.pubKeys)
throw "Contacts not available";
else if (user.pubKeys[id])
return user.pubKeys[id];
else {
let id_raw = floCrypto.decodeAddr(id).hex;
for (let i in user.pubKeys)
if (floCrypto.decodeAddr(i).hex == id_raw)
return user.pubKeys[i];
}
},
clear() {
user_id = user_public = user_private = undefined;
user_priv_raw = aes_key = undefined;
delete user.contacts;
delete user.pubKeys;
delete user.messages;
}
};
Object.defineProperties(window, {
myFloID: {
get: () => {
try {
return user.id;
} catch {
return;
}
}
},
myUserID: {
get: () => {
try {
return user.id;
} catch {
return;
}
}
},
myPubKey: {
get: () => {
try {
return user.public;
} catch {
return;
}
}
},
myPrivKey: {
get: () => {
try {
return user.private;
} catch {
return;
}
}
}
});
var subAdmins, trustedIDs, settings;
Object.defineProperties(floGlobals, {
subAdmins: {
get: () => subAdmins
},
trustedIDs: {
get: () => trustedIDs
},
settings: {
get: () => settings
},
contacts: {
get: () => user.contacts
},
pubKeys: {
get: () => user.pubKeys
},
messages: {
get: () => user.messages
}
})
function initIndexedDB() {
return new Promise((resolve, reject) => {
var obs_g = {
//general
lastTx: {},
//supernode (cloud list)
supernodes: {}
}
var obs_a = {
//login credentials
credentials: {},
//for Dapps
subAdmins: {},
trustedIDs: {},
settings: {},
appObjects: {},
generalData: {},
lastVC: {}
}
//add other given objectStores
initIndexedDB.appObs = initIndexedDB.appObs || {}
for (let o in initIndexedDB.appObs)
if (!(o in obs_a))
obs_a[o] = initIndexedDB.appObs[o]
Promise.all([
compactIDB.initDB(DEFAULT.application, obs_a),
compactIDB.initDB(DEFAULT.root, obs_g)
]).then(result => {
compactIDB.setDefaultDB(DEFAULT.application)
resolve("IndexedDB App Storage Initated Successfully")
}).catch(error => reject(error));
})
}
function initUserDB() {
return new Promise((resolve, reject) => {
var obs = {
contacts: {},
pubKeys: {},
messages: {}
}
compactIDB.initDB(user.db_name, obs).then(result => {
resolve("UserDB Initated Successfully")
}).catch(error => reject('Init userDB failed'));
})
}
function loadUserDB() {
return new Promise((resolve, reject) => {
var loadData = ["contacts", "pubKeys", "messages"]
var promises = []
for (var i = 0; i < loadData.length; i++)
promises[i] = compactIDB.readAllData(loadData[i], user.db_name)
Promise.all(promises).then(results => {
for (var i = 0; i < loadData.length; i++)
user[loadData[i]] = results[i]
resolve("Loaded Data from userDB")
}).catch(error => reject('Load userDB failed'))
})
}
const startUpOptions = {
cloud: true,
app_config: true,
}
floDapps.startUpOptions = {
set app_config(val) {
if (val === true || val === false)
startUpOptions.app_config = val;
},
get app_config() { return startUpOptions.app_config },
set cloud(val) {
if (val === true || val === false)
startUpOptions.cloud = val;
},
get cloud() { return startUpOptions.cloud },
}
const startUpFunctions = [];
startUpFunctions.push(function readSupernodeListFromAPI() {
return new Promise((resolve, reject) => {
if (!startUpOptions.cloud)
return resolve("No cloud for this app");
const CLOUD_KEY = "floCloudAPI#" + floCloudAPI.SNStorageID;
compactIDB.readData("lastTx", CLOUD_KEY, DEFAULT.root).then(lastTx => {
var query_options = { sentOnly: true, pattern: floCloudAPI.SNStorageName };
if (typeof lastTx == 'number') //lastTx is tx count (*backward support)
query_options.ignoreOld = lastTx;
else if (typeof lastTx == 'string') //lastTx is txid of last tx
query_options.after = lastTx;
//fetch data from flosight
floBlockchainAPI.readData(floCloudAPI.SNStorageID, query_options).then(result => {
compactIDB.readData("supernodes", CLOUD_KEY, DEFAULT.root).then(nodes => {
nodes = nodes || {};
for (var i = result.data.length - 1; i >= 0; i--) {
var content = JSON.parse(result.data[i])[floCloudAPI.SNStorageName];
for (let sn in content.removeNodes)
delete nodes[sn];
for (let sn in content.newNodes)
nodes[sn] = content.newNodes[sn];
for (let sn in content.updateNodes)
if (sn in nodes) //check if node is listed
nodes[sn].uri = content.updateNodes[sn];
}
Promise.all([
compactIDB.writeData("lastTx", result.lastItem, CLOUD_KEY, DEFAULT.root),
compactIDB.writeData("supernodes", nodes, CLOUD_KEY, DEFAULT.root)
]).then(_ => {
floCloudAPI.init(nodes)
.then(result => resolve("Loaded Supernode list\n" + result))
.catch(error => reject(error))
}).catch(error => reject(error))
}).catch(error => reject(error))
})
}).catch(error => reject(error))
})
});
startUpFunctions.push(function readAppConfigFromAPI() {
return new Promise((resolve, reject) => {
if (!startUpOptions.app_config)
return resolve("No configs for this app");
compactIDB.readData("lastTx", `${DEFAULT.application}|${DEFAULT.adminID}`, DEFAULT.root).then(lastTx => {
var query_options = { sentOnly: true, pattern: DEFAULT.application };
if (typeof lastTx == 'number') //lastTx is tx count (*backward support)
query_options.ignoreOld = lastTx;
else if (typeof lastTx == 'string') //lastTx is txid of last tx
query_options.after = lastTx;
//fetch data from flosight
floBlockchainAPI.readData(DEFAULT.adminID, query_options).then(result => {
for (var i = result.data.length - 1; i >= 0; i--) {
var content = JSON.parse(result.data[i])[DEFAULT.application];
if (!content || typeof content !== "object")
continue;
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]);
if (Array.isArray(content.removeTrustedID))
for (var j = 0; j < content.removeTrustedID.length; j++)
compactIDB.removeData("trustedIDs", content.removeTrustedID[j]);
if (Array.isArray(content.addTrustedID))
for (var k = 0; k < content.addTrustedID.length; k++)
compactIDB.writeData("trustedIDs", true, content.addTrustedID[k]);
if (content.settings)
for (let l in content.settings)
compactIDB.writeData("settings", content.settings[l], l)
}
compactIDB.writeData("lastTx", result.lastItem, `${DEFAULT.application}|${DEFAULT.adminID}`, DEFAULT.root);
compactIDB.readAllData("subAdmins").then(result => {
subAdmins = Object.keys(result);
compactIDB.readAllData("trustedIDs").then(result => {
trustedIDs = Object.keys(result);
compactIDB.readAllData("settings").then(result => {
settings = result;
resolve("Read app configuration from blockchain");
})
})
})
})
}).catch(error => reject(error))
})
});
startUpFunctions.push(function loadDataFromAppIDB() {
return new Promise((resolve, reject) => {
if (!startUpOptions.cloud)
return resolve("No cloud for this app");
var loadData = ["appObjects", "generalData", "lastVC"]
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 app IDB")
}).catch(error => reject(error))
})
});
var keyInput = type => new Promise((resolve, reject) => {
let inputVal = prompt(`Enter ${type}: `)
if (inputVal === null)
reject(null)
else
resolve(inputVal)
});
function getCredentials() {
const readSharesFromIDB = indexArr => new Promise((resolve, reject) => {
var promises = []
for (var i = 0; i < indexArr.length; i++)
promises.push(compactIDB.readData('credentials', indexArr[i]))
Promise.all(promises).then(shares => {
var secret = floCrypto.retrieveShamirSecret(shares)
if (secret)
resolve(secret)
else
reject("Shares are insufficient or incorrect")
}).catch(error => {
clearCredentials();
location.reload();
})
});
const writeSharesToIDB = (shares, i = 0, resultIndexes = []) => new Promise(resolve => {
if (i >= shares.length)
return resolve(resultIndexes)
var n = floCrypto.randInt(0, 100000)
compactIDB.addData("credentials", shares[i], n).then(res => {
resultIndexes.push(n)
writeSharesToIDB(shares, i + 1, resultIndexes)
.then(result => resolve(result))
}).catch(error => {
writeSharesToIDB(shares, i, resultIndexes)
.then(result => resolve(result))
})
});
const getPrivateKeyCredentials = () => new Promise((resolve, reject) => {
var indexArr = localStorage.getItem(`${DEFAULT.application}#privKey`)
if (indexArr) {
readSharesFromIDB(JSON.parse(indexArr))
.then(result => resolve(result))
.catch(error => reject(error))
} else {
var privKey;
keyInput("PRIVATE_KEY").then(result => {
if (!result)
return reject("Empty Private Key")
var floID = floCrypto.getFloID(result)
if (!floID || !floCrypto.validateFloID(floID))
return reject("Invalid Private Key")
privKey = result;
}).catch(error => {
console.log(error, "Generating Random Keys")
privKey = floCrypto.generateNewID().privKey
}).finally(_ => {
if (!privKey)
return;
var threshold = floCrypto.randInt(10, 20)
var shares = floCrypto.createShamirsSecretShares(privKey, threshold, threshold)
writeSharesToIDB(shares).then(resultIndexes => {
//store index keys in localStorage
localStorage.setItem(`${DEFAULT.application}#privKey`, JSON.stringify(resultIndexes))
//also add a dummy privatekey to the IDB
var randomPrivKey = floCrypto.generateNewID().privKey
var randomThreshold = floCrypto.randInt(10, 20)
var randomShares = floCrypto.createShamirsSecretShares(randomPrivKey, randomThreshold, randomThreshold)
writeSharesToIDB(randomShares)
//resolve private Key
resolve(privKey)
})
})
}
});
const checkIfPinRequired = key => new Promise((resolve, reject) => {
if (key.length == 52)
resolve(key)
else {
keyInput("PIN/Password").then(pwd => {
try {
let privKey = Crypto.AES.decrypt(key, pwd);
resolve(privKey)
} catch (error) {
reject("Access Denied: Incorrect PIN/Password")
}
}).catch(error => reject("Access Denied: PIN/Password required"))
}
});
return new Promise((resolve, reject) => {
getPrivateKeyCredentials().then(key => {
checkIfPinRequired(key).then(privKey => {
try {
user_public = floCrypto.getPubKeyHex(privKey);
user_id = floCrypto.getAddress(privKey);
if (startUpOptions.cloud)
floCloudAPI.user(user_id, privKey); //Set user for floCloudAPI
user_priv_wrap = () => checkIfPinRequired(key);
let n = floCrypto.randInt(12, 20);
aes_key = floCrypto.randString(n);
user_priv_raw = Crypto.AES.encrypt(privKey, aes_key);
user_private = user_priv_wrap;
resolve('Login Credentials loaded successful')
} catch (error) {
console.log(error)
reject("Corrupted Private Key")
}
}).catch(error => reject(error))
}).catch(error => reject(error))
})
}
var startUpLog = (status, log) => status ? console.log(log) : console.error(log);
const callStartUpFunction = i => new Promise((resolve, reject) => {
startUpFunctions[i]().then(result => {
callStartUpFunction.completed += 1;
startUpLog(true, `${result}\nCompleted ${callStartUpFunction.completed}/${callStartUpFunction.total} Startup functions`)
resolve(true)
}).catch(error => {
callStartUpFunction.failed += 1;
startUpLog(false, `${error}\nFailed ${callStartUpFunction.failed}/${callStartUpFunction.total} Startup functions`)
reject(false)
})
});
var _midFunction;
const midStartUp = () => new Promise((res, rej) => {
if (_midFunction instanceof Function) {
_midFunction()
.then(r => res("Mid startup function completed"))
.catch(e => rej("Mid startup function failed"))
} else
res("No mid startup function")
});
const callAndLog = p => new Promise((res, rej) => {
p.then(r => {
startUpLog(true, r)
res(r)
}).catch(e => {
startUpLog(false, e)
rej(e)
})
});
floDapps.launchStartUp = function () {
return new Promise((resolve, reject) => {
initIndexedDB().then(log => {
console.log(log)
callStartUpFunction.total = startUpFunctions.length;
callStartUpFunction.completed = 0;
callStartUpFunction.failed = 0;
let p1 = new Promise((res, rej) => {
Promise.all(startUpFunctions.map((f, i) => callStartUpFunction(i))).then(r => {
callAndLog(midStartUp())
.then(r => res(true))
.catch(e => rej(false))
})
});
let p2 = new Promise((res, rej) => {
callAndLog(getCredentials()).then(r => {
callAndLog(initUserDB()).then(r => {
callAndLog(loadUserDB())
.then(r => res(true))
.catch(e => rej(false))
}).catch(e => rej(false))
}).catch(e => rej(false))
})
Promise.all([p1, p2])
.then(r => resolve('App Startup finished successful'))
.catch(e => reject('App Startup failed'))
}).catch(error => {
startUpLog(false, error);
reject("App database initiation failed")
})
})
}
floDapps.addStartUpFunction = fn => fn instanceof Function && !startUpFunctions.includes(fn) ? startUpFunctions.push(fn) : false;
floDapps.setMidStartup = fn => fn instanceof Function ? _midFunction = fn : false;
floDapps.setCustomStartupLogger = fn => fn instanceof Function ? startUpLog = fn : false;
floDapps.setCustomPrivKeyInput = fn => fn instanceof Function ? keyInput = fn : false;
floDapps.setAppObjectStores = appObs => initIndexedDB.appObs = appObs;
floDapps.storeContact = function (floID, name) {
return new Promise((resolve, reject) => {
if (!floCrypto.validateAddr(floID))
return reject("Invalid floID!")
compactIDB.writeData("contacts", name, floID, user.db_name).then(result => {
user.contacts[floID] = name;
resolve("Contact stored")
}).catch(error => reject(error))
});
}
floDapps.storePubKey = function (floID, pubKey) {
return new Promise((resolve, reject) => {
if (floID in user.pubKeys)
return resolve("pubKey already stored")
if (!floCrypto.validateAddr(floID))
return reject("Invalid floID!")
if (!floCrypto.verifyPubKey(pubKey, floID))
return reject("Incorrect pubKey")
compactIDB.writeData("pubKeys", pubKey, floID, user.db_name).then(result => {
user.pubKeys[floID] = pubKey;
resolve("pubKey stored")
}).catch(error => reject(error))
});
}
floDapps.sendMessage = function (floID, message) {
return new Promise((resolve, reject) => {
let options = {
receiverID: floID,
application: DEFAULT.root,
comment: DEFAULT.application
}
if (floID in user.pubKeys)
message = floCrypto.encryptData(JSON.stringify(message), user.pubKeys[floID])
floCloudAPI.sendApplicationData(message, "Message", options)
.then(result => resolve(result))
.catch(error => reject(error))
})
}
floDapps.requestInbox = function (callback) {
return new Promise((resolve, reject) => {
let lastVC = Object.keys(user.messages).sort().pop()
let options = {
receiverID: user.id,
application: DEFAULT.root,
lowerVectorClock: lastVC + 1
}
let privKey = raw_user.private;
options.callback = (d, e) => {
for (let v in d) {
try {
if (d[v].message instanceof Object && "secret" in d[v].message)
d[v].message = floCrypto.decryptData(d[v].message, privKey)
} catch (error) { }
compactIDB.writeData("messages", d[v], v, user.db_name)
user.messages[v] = d[v]
}
if (callback instanceof Function)
callback(d, e)
}
floCloudAPI.requestApplicationData("Message", options)
.then(result => resolve(result))
.catch(error => reject(error))
})
}
floDapps.manageAppConfig = function (adminPrivKey, addList, rmList, settings) {
return new Promise((resolve, reject) => {
if (!startUpOptions.app_config)
return reject("No configs for this app");
if (!Array.isArray(addList) || !addList.length) addList = undefined;
if (!Array.isArray(rmList) || !rmList.length) rmList = undefined;
if (!settings || typeof settings !== "object" || !Object.keys(settings).length) settings = undefined;
if (!addList && !rmList && !settings)
return reject("No configuration change")
var floData = {
[DEFAULT.application]: {
addSubAdmin: addList,
removeSubAdmin: rmList,
settings: settings
}
}
var floID = floCrypto.getFloID(adminPrivKey)
if (floID != DEFAULT.adminID)
reject('Access Denied for Admin privilege')
else
floBlockchainAPI.writeData(floID, JSON.stringify(floData), adminPrivKey)
.then(result => resolve(['Updated App Configuration', result]))
.catch(error => reject(error))
})
}
floDapps.manageAppTrustedIDs = function (adminPrivKey, addList, rmList) {
return new Promise((resolve, reject) => {
if (!startUpOptions.app_config)
return reject("No configs for this app");
if (!Array.isArray(addList) || !addList.length) addList = undefined;
if (!Array.isArray(rmList) || !rmList.length) rmList = undefined;
if (!addList && !rmList)
return reject("No change in list")
var floData = {
[DEFAULT.application]: {
addTrustedID: addList,
removeTrustedID: rmList
}
}
var floID = floCrypto.getFloID(adminPrivKey)
if (floID != DEFAULT.adminID)
reject('Access Denied for Admin privilege')
else
floBlockchainAPI.writeData(floID, JSON.stringify(floData), adminPrivKey)
.then(result => resolve(['Updated App Configuration', result]))
.catch(error => reject(error))
})
}
const clearCredentials = floDapps.clearCredentials = function () {
return new Promise((resolve, reject) => {
compactIDB.clearData('credentials', DEFAULT.application).then(result => {
localStorage.removeItem(`${DEFAULT.application}#privKey`);
user.clear();
resolve("privKey credentials deleted!")
}).catch(error => reject(error))
})
}
floDapps.deleteUserData = function (credentials = false) {
return new Promise((resolve, reject) => {
let p = []
p.push(compactIDB.deleteDB(user.db_name))
if (credentials)
p.push(clearCredentials())
Promise.all(p)
.then(result => resolve('User database(local) deleted'))
.catch(error => reject(error))
})
}
floDapps.deleteAppData = function () {
return new Promise((resolve, reject) => {
compactIDB.deleteDB(DEFAULT.application).then(result => {
localStorage.removeItem(`${DEFAULT.application}#privKey`)
user.clear();
compactIDB.removeData('lastTx', `${DEFAULT.application}|${DEFAULT.adminID}`, DEFAULT.root)
.then(result => resolve("App database(local) deleted"))
.catch(error => reject(error))
}).catch(error => reject(error))
})
}
floDapps.securePrivKey = function (pwd) {
return new Promise(async (resolve, reject) => {
let indexArr = localStorage.getItem(`${DEFAULT.application}#privKey`)
if (!indexArr)
return reject("PrivKey not found");
indexArr = JSON.parse(indexArr)
let encryptedKey = Crypto.AES.encrypt(await user.private, pwd);
let threshold = indexArr.length;
let shares = floCrypto.createShamirsSecretShares(encryptedKey, threshold, threshold)
let promises = [];
let overwriteFn = (share, index) =>
compactIDB.writeData("credentials", share, index, DEFAULT.application);
for (var i = 0; i < threshold; i++)
promises.push(overwriteFn(shares[i], indexArr[i]));
Promise.all(promises)
.then(results => resolve("Private Key Secured"))
.catch(error => reject(error))
})
}
floDapps.verifyPin = function (pin = null) {
const readSharesFromIDB = function (indexArr) {
return new Promise((resolve, reject) => {
var promises = []
for (var i = 0; i < indexArr.length; i++)
promises.push(compactIDB.readData('credentials', indexArr[i]))
Promise.all(promises).then(shares => {
var secret = floCrypto.retrieveShamirSecret(shares)
console.info(shares, secret)
if (secret)
resolve(secret)
else
reject("Shares are insufficient or incorrect")
}).catch(error => {
clearCredentials();
location.reload();
})
})
}
return new Promise((resolve, reject) => {
var indexArr = localStorage.getItem(`${DEFAULT.application}#privKey`)
console.info(indexArr)
if (!indexArr)
reject('No login credentials found')
readSharesFromIDB(JSON.parse(indexArr)).then(key => {
if (key.length == 52) {
if (pin === null)
resolve("Private key not secured")
else
reject("Private key not secured")
} else {
if (pin === null)
return reject("PIN/Password required")
try {
let privKey = Crypto.AES.decrypt(key, pin);
resolve("PIN/Password verified")
} catch (error) {
reject("Incorrect PIN/Password")
}
}
}).catch(error => reject(error))
})
}
const getNextGeneralData = floDapps.getNextGeneralData = function (type, vectorClock = null, options = {}) {
var fk = floCloudAPI.util.filterKey(type, options)
vectorClock = vectorClock || getNextGeneralData[fk] || '0';
var filteredResult = {}
if (floGlobals.generalData[fk]) {
for (let d in floGlobals.generalData[fk])
if (d > vectorClock)
filteredResult[d] = JSON.parse(JSON.stringify(floGlobals.generalData[fk][d]))
} else if (options.comment) {
let comment = options.comment;
delete options.comment;
let fk = floCloudAPI.util.filterKey(type, options);
for (let d in floGlobals.generalData[fk])
if (d > vectorClock && floGlobals.generalData[fk][d].comment == comment)
filteredResult[d] = JSON.parse(JSON.stringify(floGlobals.generalData[fk][d]))
}
if (options.decrypt) {
let decryptionKey = (options.decrypt === true) ? raw_user.private : options.decrypt;
if (!Array.isArray(decryptionKey))
decryptionKey = [decryptionKey];
for (let f in filteredResult) {
let data = filteredResult[f]
try {
if (data.message instanceof Object && "secret" in data.message) {
for (let key of decryptionKey) {
try {
let tmp = floCrypto.decryptData(data.message, key)
data.message = JSON.parse(tmp)
break;
} catch (error) { }
}
}
} catch (error) { }
}
}
getNextGeneralData[fk] = Object.keys(filteredResult).sort().pop();
return filteredResult;
}
const syncData = floDapps.syncData = {};
syncData.oldDevice = () => new Promise((resolve, reject) => {
let sync = {
contacts: user.contacts,
pubKeys: user.pubKeys,
messages: user.messages
}
let message = Crypto.AES.encrypt(JSON.stringify(sync), raw_user.private)
let options = {
receiverID: user.id,
application: DEFAULT.root
}
floCloudAPI.sendApplicationData(message, "syncData", options)
.then(result => resolve(result))
.catch(error => reject(error))
});
syncData.newDevice = () => new Promise((resolve, reject) => {
var options = {
receiverID: user.id,
senderID: user.id,
application: DEFAULT.root,
mostRecent: true,
}
floCloudAPI.requestApplicationData("syncData", options).then(response => {
let vc = Object.keys(response).sort().pop()
let sync = JSON.parse(Crypto.AES.decrypt(response[vc].message, raw_user.private))
let promises = []
let store = (key, val, obs) => promises.push(compactIDB.writeData(obs, val, key, user.db_name));
["contacts", "pubKeys", "messages"].forEach(c => {
for (let i in sync[c]) {
store(i, sync[c][i], c)
user[c][i] = sync[c][i]
}
})
Promise.all(promises)
.then(results => resolve("Sync data successful"))
.catch(error => reject(error))
}).catch(error => reject(error))
});
})('object' === typeof module ? module.exports : window.floDapps = {});

166
floTokenAPI.js
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(function (EXPORTS) { //floTokenAPI v1.0.4a
/* Token Operator to send/receive tokens via blockchain using API calls*/
'use strict';
const tokenAPI = EXPORTS;
const DEFAULT = {
apiURL: floGlobals.tokenURL || "https://ranchimallflo.duckdns.org/",
currency: floGlobals.currency || "rupee"
}
Object.defineProperties(tokenAPI, {
URL: {
get: () => DEFAULT.apiURL
},
currency: {
get: () => DEFAULT.currency,
set: currency => DEFAULT.currency = currency
}
});
if (floGlobals.currency) tokenAPI.currency = floGlobals.currency;
Object.defineProperties(floGlobals, {
currency: {
get: () => DEFAULT.currency,
set: currency => DEFAULT.currency = currency
}
});
const fetch_api = tokenAPI.fetch = function (apicall) {
return new Promise((resolve, reject) => {
console.debug(DEFAULT.apiURL + apicall);
fetch(DEFAULT.apiURL + apicall).then(response => {
if (response.ok)
response.json().then(data => resolve(data));
else
reject(response)
}).catch(error => reject(error))
})
}
const getBalance = tokenAPI.getBalance = function (floID, token = DEFAULT.currency) {
return new Promise((resolve, reject) => {
fetch_api(`api/v1.0/getFloAddressBalance?token=${token}&floAddress=${floID}`)
.then(result => resolve(result.balance || 0))
.catch(error => reject(error))
})
}
tokenAPI.getTx = function (txID) {
return new Promise((resolve, reject) => {
fetch_api(`api/v1.0/getTransactionDetails/${txID}`).then(res => {
if (res.result === "error")
reject(res.description);
else if (!res.parsedFloData)
reject("Data piece (parsedFloData) missing");
else if (!res.transactionDetails)
reject("Data piece (transactionDetails) missing");
else
resolve(res);
}).catch(error => reject(error))
})
}
tokenAPI.sendToken = function (privKey, amount, receiverID, message = "", token = DEFAULT.currency, options = {}) {
return new Promise((resolve, reject) => {
let senderID = floCrypto.getFloID(privKey);
if (typeof amount !== "number" || isNaN(amount) || amount <= 0)
return reject("Invalid amount");
getBalance(senderID, token).then(bal => {
if (amount > bal)
return reject(`Insufficient ${token}# balance`);
floBlockchainAPI.writeData(senderID, `send ${amount} ${token}# ${message}`, privKey, receiverID, options)
.then(txid => resolve(txid))
.catch(error => reject(error))
}).catch(error => reject(error))
});
}
function sendTokens_raw(privKey, receiverID, token, amount, utxo, vout, scriptPubKey) {
return new Promise((resolve, reject) => {
var trx = bitjs.transaction();
trx.addinput(utxo, vout, scriptPubKey)
trx.addoutput(receiverID, floBlockchainAPI.sendAmt);
trx.addflodata(`send ${amount} ${token}#`);
var signedTxHash = trx.sign(privKey, 1);
floBlockchainAPI.broadcastTx(signedTxHash)
.then(txid => resolve([receiverID, txid]))
.catch(error => reject([receiverID, error]))
})
}
//bulk transfer tokens
tokenAPI.bulkTransferTokens = function (sender, privKey, token, receivers) {
return new Promise((resolve, reject) => {
if (typeof receivers !== 'object')
return reject("receivers must be object in format {receiver1: amount1, receiver2:amount2...}")
let receiver_list = Object.keys(receivers), amount_list = Object.values(receivers);
let invalidReceivers = receiver_list.filter(id => !floCrypto.validateFloID(id));
let invalidAmount = amount_list.filter(val => typeof val !== 'number' || val <= 0);
if (invalidReceivers.length)
return reject(`Invalid receivers: ${invalidReceivers}`);
else if (invalidAmount.length)
return reject(`Invalid amounts: ${invalidAmount}`);
if (receiver_list.length == 0)
return reject("Receivers cannot be empty");
if (receiver_list.length == 1) {
let receiver = receiver_list[0], amount = amount_list[0];
floTokenAPI.sendToken(privKey, amount, receiver, "", token)
.then(txid => resolve({ success: { [receiver]: txid } }))
.catch(error => reject(error))
} else {
//check for token balance
floTokenAPI.getBalance(sender, token).then(token_balance => {
let total_token_amout = amount_list.reduce((a, e) => a + e, 0);
if (total_token_amout > token_balance)
return reject(`Insufficient ${token}# balance`);
//split utxos
floBlockchainAPI.splitUTXOs(sender, privKey, receiver_list.length).then(split_txid => {
//wait for the split utxo to get confirmation
floBlockchainAPI.waitForConfirmation(split_txid).then(split_tx => {
//send tokens using the split-utxo
var scriptPubKey = split_tx.vout[0].scriptPubKey.hex;
let promises = [];
for (let i in receiver_list)
promises.push(sendTokens_raw(privKey, receiver_list[i], token, amount_list[i], split_txid, i, scriptPubKey));
Promise.allSettled(promises).then(results => {
let success = Object.fromEntries(results.filter(r => r.status == 'fulfilled').map(r => r.value));
let failed = Object.fromEntries(results.filter(r => r.status == 'rejected').map(r => r.reason));
resolve({ success, failed });
})
}).catch(error => reject(error))
}).catch(error => reject(error))
}).catch(error => reject(error))
}
})
}
tokenAPI.getAllTxs = function (floID, token = DEFAULT.currency) {
return new Promise((resolve, reject) => {
fetch_api(`api/v1.0/getFloAddressTransactions?token=${token}&floAddress=${floID}`)
.then(result => resolve(result))
.catch(error => reject(error))
})
}
const util = tokenAPI.util = {};
util.parseTxData = function (txData) {
let parsedData = {};
for (let p in txData.parsedFloData)
parsedData[p] = txData.parsedFloData[p];
parsedData.sender = txData.transactionDetails.vin[0].addr;
for (let vout of txData.transactionDetails.vout)
if (vout.scriptPubKey.addresses[0] !== parsedData.sender)
parsedData.receiver = vout.scriptPubKey.addresses[0];
parsedData.time = txData.transactionDetails.time;
return parsedData;
}
})('object' === typeof module ? module.exports : window.floTokenAPI = {});

57
index.html
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<!DOCTYPE html>
<html lang="en">
<head>
<title>FLO Standard Operators</title>
<script id="floGlobals">
/* Constants for FLO blockchain operations !!Make sure to add this at beginning!! */
const floGlobals = {
blockchain: "FLO_TEST",
adminID: "oKKHdK5uYAJ52U91sYsWhnEaEAAhZP779B",
application: "TEST_MODE_testnet",
}
</script>
<script>
(function () {
const urlSearchParams = new URLSearchParams(window.location.search);
const params = Object.fromEntries(urlSearchParams.entries());
if ('testnet' in params) {
floGlobals.blockchain = "FLO_TEST";
floGlobals.adminID = "oKKHdK5uYAJ52U91sYsWhnEaEAAhZP779B";
floGlobals.application = "TEST_MODE_testnet";
}
if ('quick' in params)
window.quick = true;
})();
</script>
<script src="lib.js"></script>
<script src="floCrypto.js"></script>
<script src="btcOperator.js"></script>
<script src="floBlockchainAPI.js"></script>
<script src="floTokenAPI.js"></script>
<script src="compactIDB.js"></script>
<script src="floCloudAPI.js"></script>
<script src="floDapps.js"></script>
<script id="onLoadStartUp">
function onLoadStartUp() {
if (window.quick) return;
//floDapps.addStartUpFunction('Sample', Promised Function)
//floDapps.setAppObjectStores({sampleObs1:{}, sampleObs2:{options{autoIncrement:true, keyPath:'SampleKey'}, Indexes:{sampleIndex:{}}}})
//floDapps.setCustomPrivKeyInput( () => { FUNCTION BODY *must resolve private key* } )
floDapps.launchStartUp().then(result => {
console.log(result)
alert(`Welcome FLO_ID: ${myFloID}`)
//App functions....
}).catch(error => console.error(error))
}
</script>
</head>
<body onload="onLoadStartUp()">
TEST_MODE
(use console)
</body>
</html>

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