962 lines
26 KiB
Python
Executable File
962 lines
26 KiB
Python
Executable File
#!/usr/bin/env python
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# pywallet.py 1.1
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# based on http://github.com/gavinandresen/bitcointools
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#
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from bsddb.db import *
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import os, sys, time
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import json
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import logging
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import struct
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import StringIO
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import traceback
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import socket
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import types
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import string
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import exceptions
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import hashlib
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import random
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import urllib
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max_version = 32500
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addrtype = 0
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json_db = {}
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private_keys = []
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private_hex_keys = []
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balance_site = 'http://bitcoin.site50.net/balance.php?adresse'
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aversions = {};
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for i in range(256):
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aversions[i] = "version %d" % i;
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aversions[0] = 'Bitcoin';
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aversions[52] = 'Namecoin';
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aversions[111] = 'Bitcoin testnet';
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def determine_db_dir():
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import os
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import os.path
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import platform
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if platform.system() == "Darwin":
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return os.path.expanduser("~/Library/Application Support/Bitcoin/")
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elif platform.system() == "Windows":
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return os.path.join(os.environ['APPDATA'], "Bitcoin")
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return os.path.expanduser("~/.bitcoin")
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# secp256k1
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_p = 0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEFFFFFC2FL
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_r = 0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEBAAEDCE6AF48A03BBFD25E8CD0364141L
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_b = 0x0000000000000000000000000000000000000000000000000000000000000007L
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_a = 0x0000000000000000000000000000000000000000000000000000000000000000L
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_Gx = 0x79BE667EF9DCBBAC55A06295CE870B07029BFCDB2DCE28D959F2815B16F81798L
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_Gy = 0x483ada7726a3c4655da4fbfc0e1108a8fd17b448a68554199c47d08ffb10d4b8L
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class CurveFp( object ):
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def __init__( self, p, a, b ):
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self.__p = p
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self.__a = a
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self.__b = b
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def p( self ):
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return self.__p
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def a( self ):
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return self.__a
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def b( self ):
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return self.__b
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def contains_point( self, x, y ):
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return ( y * y - ( x * x * x + self.__a * x + self.__b ) ) % self.__p == 0
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class Point( object ):
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def __init__( self, curve, x, y, order = None ):
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self.__curve = curve
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self.__x = x
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self.__y = y
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self.__order = order
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if self.__curve: assert self.__curve.contains_point( x, y )
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if order: assert self * order == INFINITY
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def __add__( self, other ):
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if other == INFINITY: return self
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if self == INFINITY: return other
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assert self.__curve == other.__curve
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if self.__x == other.__x:
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if ( self.__y + other.__y ) % self.__curve.p() == 0:
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return INFINITY
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else:
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return self.double()
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p = self.__curve.p()
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l = ( ( other.__y - self.__y ) * \
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inverse_mod( other.__x - self.__x, p ) ) % p
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x3 = ( l * l - self.__x - other.__x ) % p
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y3 = ( l * ( self.__x - x3 ) - self.__y ) % p
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return Point( self.__curve, x3, y3 )
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def __mul__( self, other ):
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def leftmost_bit( x ):
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assert x > 0
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result = 1L
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while result <= x: result = 2 * result
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return result / 2
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e = other
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if self.__order: e = e % self.__order
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if e == 0: return INFINITY
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if self == INFINITY: return INFINITY
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assert e > 0
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e3 = 3 * e
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negative_self = Point( self.__curve, self.__x, -self.__y, self.__order )
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i = leftmost_bit( e3 ) / 2
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result = self
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while i > 1:
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result = result.double()
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if ( e3 & i ) != 0 and ( e & i ) == 0: result = result + self
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if ( e3 & i ) == 0 and ( e & i ) != 0: result = result + negative_self
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i = i / 2
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return result
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def __rmul__( self, other ):
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return self * other
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def __str__( self ):
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if self == INFINITY: return "infinity"
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return "(%d,%d)" % ( self.__x, self.__y )
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def double( self ):
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if self == INFINITY:
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return INFINITY
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p = self.__curve.p()
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a = self.__curve.a()
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l = ( ( 3 * self.__x * self.__x + a ) * \
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inverse_mod( 2 * self.__y, p ) ) % p
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x3 = ( l * l - 2 * self.__x ) % p
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y3 = ( l * ( self.__x - x3 ) - self.__y ) % p
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return Point( self.__curve, x3, y3 )
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def x( self ):
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return self.__x
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def y( self ):
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return self.__y
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def curve( self ):
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return self.__curve
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def order( self ):
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return self.__order
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INFINITY = Point( None, None, None )
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def inverse_mod( a, m ):
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if a < 0 or m <= a: a = a % m
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c, d = a, m
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uc, vc, ud, vd = 1, 0, 0, 1
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while c != 0:
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q, c, d = divmod( d, c ) + ( c, )
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uc, vc, ud, vd = ud - q*uc, vd - q*vc, uc, vc
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assert d == 1
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if ud > 0: return ud
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else: return ud + m
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class Signature( object ):
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def __init__( self, r, s ):
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self.r = r
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self.s = s
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class Public_key( object ):
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def __init__( self, generator, point ):
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self.curve = generator.curve()
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self.generator = generator
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self.point = point
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n = generator.order()
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if not n:
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raise RuntimeError, "Generator point must have order."
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if not n * point == INFINITY:
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raise RuntimeError, "Generator point order is bad."
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if point.x() < 0 or n <= point.x() or point.y() < 0 or n <= point.y():
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raise RuntimeError, "Generator point has x or y out of range."
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def verifies( self, hash, signature ):
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G = self.generator
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n = G.order()
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r = signature.r
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s = signature.s
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if r < 1 or r > n-1: return False
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if s < 1 or s > n-1: return False
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c = inverse_mod( s, n )
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u1 = ( hash * c ) % n
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u2 = ( r * c ) % n
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xy = u1 * G + u2 * self.point
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v = xy.x() % n
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return v == r
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class Private_key( object ):
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def __init__( self, public_key, secret_multiplier ):
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self.public_key = public_key
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self.secret_multiplier = secret_multiplier
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def der( self ):
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hex_der_key = '06052b8104000a30740201010420' + \
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'%064x' % self.secret_multiplier + \
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'a00706052b8104000aa14403420004' + \
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'%064x' % self.public_key.point.x() + \
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'%064x' % self.public_key.point.y()
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return hex_der_key.decode('hex')
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def sign( self, hash, random_k ):
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G = self.public_key.generator
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n = G.order()
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k = random_k % n
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p1 = k * G
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r = p1.x()
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if r == 0: raise RuntimeError, "amazingly unlucky random number r"
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s = ( inverse_mod( k, n ) * \
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( hash + ( self.secret_multiplier * r ) % n ) ) % n
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if s == 0: raise RuntimeError, "amazingly unlucky random number s"
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return Signature( r, s )
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class EC_KEY(object):
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def __init__( self, secret ):
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curve = CurveFp( _p, _a, _b )
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generator = Point( curve, _Gx, _Gy, _r )
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self.pubkey = Public_key( generator, generator * secret )
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self.privkey = Private_key( self.pubkey, secret )
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self.secret = secret
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def i2d_ECPrivateKey(pkey):
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# private keys are 279 bytes long (see crypto/ec/cec_asn1.c)
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# ASN1_SIMPLE(EC_PRIVATEKEY, version, LONG),
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# ASN1_SIMPLE(EC_PRIVATEKEY, privateKey, ASN1_OCTET_STRING),
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# ASN1_EXP_OPT(EC_PRIVATEKEY, parameters, ECPKPARAMETERS, 0),
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# ASN1_EXP_OPT(EC_PRIVATEKEY, publicKey, ASN1_BIT_STRING, 1)
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hex_i2d_key = '308201130201010420' + \
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'%064x' % pkey.secret + \
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'a081a53081a2020101302c06072a8648ce3d0101022100' + \
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'%064x' % _p + \
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'3006040100040107044104' + \
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'%064x' % _Gx + \
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'%064x' % _Gy + \
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'022100' + \
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'%064x' % _r + \
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'020101a14403420004' + \
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'%064x' % pkey.pubkey.point.x() + \
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'%064x' % pkey.pubkey.point.y()
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return hex_i2d_key.decode('hex')
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def i2o_ECPublicKey(pkey):
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# public keys are 65 bytes long (520 bits)
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# 0x04 + 32-byte X-coordinate + 32-byte Y-coordinate
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hex_i2o_key = '04' + \
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'%064x' % pkey.pubkey.point.x() + \
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'%064x' % pkey.pubkey.point.y()
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return hex_i2o_key.decode('hex')
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# hashes
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def hash_160(public_key):
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md = hashlib.new('ripemd160')
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md.update(hashlib.sha256(public_key).digest())
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return md.digest()
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def public_key_to_bc_address(public_key):
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h160 = hash_160(public_key)
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return hash_160_to_bc_address(h160)
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def hash_160_to_bc_address(h160):
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vh160 = chr(addrtype) + h160
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h = Hash(vh160)
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addr = vh160 + h[0:4]
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return b58encode(addr)
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def bc_address_to_hash_160(addr):
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bytes = b58decode(addr, 25)
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return bytes[1:21]
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__b58chars = '123456789ABCDEFGHJKLMNPQRSTUVWXYZabcdefghijkmnopqrstuvwxyz'
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__b58base = len(__b58chars)
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def b58encode(v):
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""" encode v, which is a string of bytes, to base58.
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"""
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long_value = 0L
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for (i, c) in enumerate(v[::-1]):
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long_value += (256**i) * ord(c)
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result = ''
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while long_value >= __b58base:
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div, mod = divmod(long_value, __b58base)
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result = __b58chars[mod] + result
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long_value = div
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result = __b58chars[long_value] + result
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# Bitcoin does a little leading-zero-compression:
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# leading 0-bytes in the input become leading-1s
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nPad = 0
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for c in v:
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if c == '\0': nPad += 1
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else: break
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return (__b58chars[0]*nPad) + result
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def b58decode(v, length):
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""" decode v into a string of len bytes
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"""
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long_value = 0L
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for (i, c) in enumerate(v[::-1]):
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long_value += __b58chars.find(c) * (__b58base**i)
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result = ''
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while long_value >= 256:
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div, mod = divmod(long_value, 256)
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result = chr(mod) + result
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long_value = div
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result = chr(long_value) + result
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nPad = 0
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for c in v:
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if c == __b58chars[0]: nPad += 1
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else: break
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result = chr(0)*nPad + result
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if length is not None and len(result) != length:
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return None
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return result
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def long_hex(bytes):
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return bytes.encode('hex_codec')
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def Hash(data):
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return hashlib.sha256(hashlib.sha256(data).digest()).digest()
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def EncodeBase58Check(vchIn):
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hash = Hash(vchIn)
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return b58encode(vchIn + hash[0:4])
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def DecodeBase58Check(psz):
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vchRet = b58decode(psz, None)
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key = vchRet[0:-4]
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csum = vchRet[-4:]
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hash = Hash(key)
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cs32 = hash[0:4]
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if cs32 != csum:
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return None
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else:
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return key
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def str_to_long(b):
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res = 0
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pos = 1
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for a in reversed(b):
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res += ord(a) * pos
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pos *= 256
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return res
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def PrivKeyToSecret(privkey):
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return privkey[9:9+32]
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def SecretToASecret(secret):
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vchIn = chr(addrtype+128) + secret
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return EncodeBase58Check(vchIn)
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def ASecretToSecret(key):
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vch = DecodeBase58Check(key)
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if vch and vch[0] == chr(addrtype+128):
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return vch[1:]
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else:
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return False
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def regenerate_key(sec):
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b = ASecretToSecret(sec)
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if not b:
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return False
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secret = str_to_long(b)
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return EC_KEY(secret)
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def GetPubKey(pkey):
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return i2o_ECPublicKey(pkey)
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def GetPrivKey(pkey):
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return i2d_ECPrivateKey(pkey)
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def GetSecret(pkey):
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return ('%064x' % pkey.secret).decode('hex')
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# parser
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def create_env(db_dir):
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db_env = DBEnv(0)
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r = db_env.open(db_dir, (DB_CREATE|DB_INIT_LOCK|DB_INIT_LOG|DB_INIT_MPOOL|DB_INIT_TXN|DB_THREAD|DB_RECOVER))
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return db_env
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def parse_CAddress(vds):
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d = {'ip':'0.0.0.0','port':0,'nTime': 0}
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try:
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d['nVersion'] = vds.read_int32()
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d['nTime'] = vds.read_uint32()
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d['nServices'] = vds.read_uint64()
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d['pchReserved'] = vds.read_bytes(12)
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d['ip'] = socket.inet_ntoa(vds.read_bytes(4))
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d['port'] = vds.read_uint16()
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except:
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pass
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return d
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def deserialize_CAddress(d):
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return d['ip']+":"+str(d['port'])
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def parse_BlockLocator(vds):
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d = { 'hashes' : [] }
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nHashes = vds.read_compact_size()
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for i in xrange(nHashes):
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d['hashes'].append(vds.read_bytes(32))
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return d
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def deserialize_BlockLocator(d):
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result = "Block Locator top: "+d['hashes'][0][::-1].encode('hex_codec')
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return result
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def parse_setting(setting, vds):
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if setting[0] == "f": # flag (boolean) settings
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return str(vds.read_boolean())
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elif setting[0:4] == "addr": # CAddress
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d = parse_CAddress(vds)
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return deserialize_CAddress(d)
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elif setting == "nTransactionFee":
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return vds.read_int64()
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elif setting == "nLimitProcessors":
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return vds.read_int32()
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return 'unknown setting'
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|
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class SerializationError(Exception):
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""" Thrown when there's a problem deserializing or serializing """
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class BCDataStream(object):
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def __init__(self):
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self.input = None
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self.read_cursor = 0
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def clear(self):
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self.input = None
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self.read_cursor = 0
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def write(self, bytes): # Initialize with string of bytes
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if self.input is None:
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self.input = bytes
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else:
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self.input += bytes
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def map_file(self, file, start): # Initialize with bytes from file
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self.input = mmap.mmap(file.fileno(), 0, access=mmap.ACCESS_READ)
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self.read_cursor = start
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def seek_file(self, position):
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self.read_cursor = position
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def close_file(self):
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self.input.close()
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def read_string(self):
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# Strings are encoded depending on length:
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# 0 to 252 : 1-byte-length followed by bytes (if any)
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# 253 to 65,535 : byte'253' 2-byte-length followed by bytes
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# 65,536 to 4,294,967,295 : byte '254' 4-byte-length followed by bytes
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# ... and the Bitcoin client is coded to understand:
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# greater than 4,294,967,295 : byte '255' 8-byte-length followed by bytes of string
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# ... but I don't think it actually handles any strings that big.
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if self.input is None:
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raise SerializationError("call write(bytes) before trying to deserialize")
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try:
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length = self.read_compact_size()
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except IndexError:
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raise SerializationError("attempt to read past end of buffer")
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return self.read_bytes(length)
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def write_string(self, string):
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# Length-encoded as with read-string
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self.write_compact_size(len(string))
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self.write(string)
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def read_bytes(self, length):
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try:
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result = self.input[self.read_cursor:self.read_cursor+length]
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self.read_cursor += length
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return result
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except IndexError:
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raise SerializationError("attempt to read past end of buffer")
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return ''
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def read_boolean(self): return self.read_bytes(1)[0] != chr(0)
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def read_int16(self): return self._read_num('<h')
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def read_uint16(self): return self._read_num('<H')
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def read_int32(self): return self._read_num('<i')
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def read_uint32(self): return self._read_num('<I')
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def read_int64(self): return self._read_num('<q')
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def read_uint64(self): return self._read_num('<Q')
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def write_boolean(self, val): return self.write(chr(1) if val else chr(0))
|
|
def write_int16(self, val): return self._write_num('<h', val)
|
|
def write_uint16(self, val): return self._write_num('<H', val)
|
|
def write_int32(self, val): return self._write_num('<i', val)
|
|
def write_uint32(self, val): return self._write_num('<I', val)
|
|
def write_int64(self, val): return self._write_num('<q', val)
|
|
def write_uint64(self, val): return self._write_num('<Q', val)
|
|
|
|
def read_compact_size(self):
|
|
size = ord(self.input[self.read_cursor])
|
|
self.read_cursor += 1
|
|
if size == 253:
|
|
size = self._read_num('<H')
|
|
elif size == 254:
|
|
size = self._read_num('<I')
|
|
elif size == 255:
|
|
size = self._read_num('<Q')
|
|
return size
|
|
|
|
def write_compact_size(self, size):
|
|
if size < 0:
|
|
raise SerializationError("attempt to write size < 0")
|
|
elif size < 253:
|
|
self.write(chr(size))
|
|
elif size < 2**16:
|
|
self.write('\xfd')
|
|
self._write_num('<H', size)
|
|
elif size < 2**32:
|
|
self.write('\xfe')
|
|
self._write_num('<I', size)
|
|
elif size < 2**64:
|
|
self.write('\xff')
|
|
self._write_num('<Q', size)
|
|
|
|
def _read_num(self, format):
|
|
(i,) = struct.unpack_from(format, self.input, self.read_cursor)
|
|
self.read_cursor += struct.calcsize(format)
|
|
return i
|
|
|
|
def _write_num(self, format, num):
|
|
s = struct.pack(format, num)
|
|
self.write(s)
|
|
|
|
def open_wallet(db_env, walletfile, writable=False):
|
|
db = DB(db_env)
|
|
flags = DB_THREAD | (DB_CREATE if writable else DB_RDONLY)
|
|
try:
|
|
r = db.open(walletfile, "main", DB_BTREE, flags)
|
|
except DBError:
|
|
r = True
|
|
|
|
if r is not None:
|
|
logging.error("Couldn't open wallet.dat/main. Try quitting Bitcoin and running this again.")
|
|
sys.exit(1)
|
|
|
|
return db
|
|
|
|
def parse_wallet(db, item_callback):
|
|
kds = BCDataStream()
|
|
vds = BCDataStream()
|
|
|
|
for (key, value) in db.items():
|
|
d = { }
|
|
|
|
kds.clear(); kds.write(key)
|
|
vds.clear(); vds.write(value)
|
|
|
|
type = kds.read_string()
|
|
|
|
d["__key__"] = key
|
|
d["__value__"] = value
|
|
d["__type__"] = type
|
|
|
|
try:
|
|
if type == "tx":
|
|
d["tx_id"] = kds.read_bytes(32)
|
|
elif type == "name":
|
|
d['hash'] = kds.read_string()
|
|
d['name'] = vds.read_string()
|
|
elif type == "version":
|
|
d['version'] = vds.read_uint32()
|
|
elif type == "setting":
|
|
d['setting'] = kds.read_string()
|
|
d['value'] = parse_setting(d['setting'], vds)
|
|
elif type == "key":
|
|
d['public_key'] = kds.read_bytes(kds.read_compact_size())
|
|
d['private_key'] = vds.read_bytes(vds.read_compact_size())
|
|
elif type == "wkey":
|
|
d['public_key'] = kds.read_bytes(kds.read_compact_size())
|
|
d['private_key'] = vds.read_bytes(vds.read_compact_size())
|
|
d['created'] = vds.read_int64()
|
|
d['expires'] = vds.read_int64()
|
|
d['comment'] = vds.read_string()
|
|
elif type == "defaultkey":
|
|
d['key'] = vds.read_bytes(vds.read_compact_size())
|
|
elif type == "pool":
|
|
d['n'] = kds.read_int64()
|
|
d['nVersion'] = vds.read_int32()
|
|
d['nTime'] = vds.read_int64()
|
|
d['public_key'] = vds.read_bytes(vds.read_compact_size())
|
|
elif type == "acc":
|
|
d['account'] = kds.read_string()
|
|
d['nVersion'] = vds.read_int32()
|
|
d['public_key'] = vds.read_bytes(vds.read_compact_size())
|
|
elif type == "acentry":
|
|
d['account'] = kds.read_string()
|
|
d['n'] = kds.read_uint64()
|
|
d['nVersion'] = vds.read_int32()
|
|
d['nCreditDebit'] = vds.read_int64()
|
|
d['nTime'] = vds.read_int64()
|
|
d['otherAccount'] = vds.read_string()
|
|
d['comment'] = vds.read_string()
|
|
elif type == "bestblock":
|
|
d['nVersion'] = vds.read_int32()
|
|
d.update(parse_BlockLocator(vds))
|
|
|
|
item_callback(type, d)
|
|
|
|
except Exception, e:
|
|
traceback.print_exc()
|
|
print("ERROR parsing wallet.dat, type %s" % type)
|
|
print("key data in hex: %s"%key.encode('hex_codec'))
|
|
print("value data in hex: %s"%value.encode('hex_codec'))
|
|
sys.exit(1)
|
|
|
|
def update_wallet(db, type, data):
|
|
"""Write a single item to the wallet.
|
|
db must be open with writable=True.
|
|
type and data are the type code and data dictionary as parse_wallet would
|
|
give to item_callback.
|
|
data's __key__, __value__ and __type__ are ignored; only the primary data
|
|
fields are used.
|
|
"""
|
|
d = data
|
|
kds = BCDataStream()
|
|
vds = BCDataStream()
|
|
|
|
# Write the type code to the key
|
|
kds.write_string(type)
|
|
vds.write("") # Ensure there is something
|
|
|
|
try:
|
|
if type == "tx":
|
|
raise NotImplementedError("Writing items of type 'tx'")
|
|
kds.write(d['tx_id'])
|
|
elif type == "name":
|
|
kds.write_string(d['hash'])
|
|
vds.write_string(d['name'])
|
|
elif type == "version":
|
|
vds.write_uint32(d['version'])
|
|
elif type == "setting":
|
|
raise NotImplementedError("Writing items of type 'setting'")
|
|
kds.write_string(d['setting'])
|
|
#d['value'] = parse_setting(d['setting'], vds)
|
|
elif type == "key":
|
|
kds.write_string(d['public_key'])
|
|
vds.write_string(d['private_key'])
|
|
elif type == "wkey":
|
|
kds.write_string(d['public_key'])
|
|
vds.write_string(d['private_key'])
|
|
vds.write_int64(d['created'])
|
|
vds.write_int64(d['expires'])
|
|
vds.write_string(d['comment'])
|
|
elif type == "defaultkey":
|
|
vds.write_string(d['key'])
|
|
elif type == "pool":
|
|
kds.write_int64(d['n'])
|
|
vds.write_int32(d['nVersion'])
|
|
vds.write_int64(d['nTime'])
|
|
vds.write_string(d['public_key'])
|
|
elif type == "acc":
|
|
kds.write_string(d['account'])
|
|
vds.write_int32(d['nVersion'])
|
|
vds.write_string(d['public_key'])
|
|
elif type == "acentry":
|
|
kds.write_string(d['account'])
|
|
kds.write_uint64(d['n'])
|
|
vds.write_int32(d['nVersion'])
|
|
vds.write_int64(d['nCreditDebit'])
|
|
vds.write_int64(d['nTime'])
|
|
vds.write_string(d['otherAccount'])
|
|
vds.write_string(d['comment'])
|
|
elif type == "bestblock":
|
|
vds.write_int32(d['nVersion'])
|
|
vds.write_compact_size(len(d['hashes']))
|
|
for h in d['hashes']:
|
|
vds.write(h)
|
|
else:
|
|
print "Unknown key type: "+type
|
|
|
|
# Write the key/value pair to the database
|
|
db.put(kds.input, vds.input)
|
|
|
|
except Exception, e:
|
|
print("ERROR writing to wallet.dat, type %s"%type)
|
|
print("data dictionary: %r"%data)
|
|
traceback.print_exc()
|
|
|
|
def rewrite_wallet(db_env, walletfile, destFileName, pre_put_callback=None):
|
|
db = open_wallet(db_env, walletfile)
|
|
|
|
db_out = DB(db_env)
|
|
try:
|
|
r = db_out.open(destFileName, "main", DB_BTREE, DB_CREATE)
|
|
except DBError:
|
|
r = True
|
|
|
|
if r is not None:
|
|
logging.error("Couldn't open %s."%destFileName)
|
|
sys.exit(1)
|
|
|
|
def item_callback(type, d):
|
|
if (pre_put_callback is None or pre_put_callback(type, d)):
|
|
db_out.put(d["__key__"], d["__value__"])
|
|
|
|
parse_wallet(db, item_callback)
|
|
db_out.close()
|
|
db.close()
|
|
|
|
def read_wallet(json_db, db_env, walletfile, print_wallet, print_wallet_transactions, transaction_filter, include_balance):
|
|
db = open_wallet(db_env, walletfile)
|
|
|
|
json_db['keys'] = []
|
|
json_db['pool'] = []
|
|
json_db['names'] = {}
|
|
|
|
def item_callback(type, d):
|
|
|
|
if type == "name":
|
|
json_db['names'][d['hash']] = d['name']
|
|
|
|
elif type == "version":
|
|
json_db['version'] = d['version']
|
|
|
|
elif type == "setting":
|
|
if not json_db.has_key('settings'): json_db['settings'] = {}
|
|
json_db["settings"][d['setting']] = d['value']
|
|
|
|
elif type == "defaultkey":
|
|
json_db['defaultkey'] = public_key_to_bc_address(d['key'])
|
|
|
|
elif type == "key":
|
|
addr = public_key_to_bc_address(d['public_key'])
|
|
secret = PrivKeyToSecret(d['private_key'])
|
|
hexsec = secret.encode('hex')
|
|
sec = SecretToASecret(secret)
|
|
private_keys.append(sec)
|
|
private_hex_keys.append(hexsec)
|
|
json_db['keys'].append({'addr' : addr, 'sec' : sec, 'hexsec' : hexsec})
|
|
|
|
elif type == "wkey":
|
|
if not json_db.has_key('wkey'): json_db['wkey'] = []
|
|
json_db['wkey']['created'] = d['created']
|
|
|
|
elif type == "pool":
|
|
json_db['pool'].append( {'n': d['n'], 'addr': public_key_to_bc_address(d['public_key']), 'nTime' : d['nTime'] } )
|
|
|
|
elif type == "acc":
|
|
json_db['acc'] = d['account']
|
|
print("Account %s (current key: %s)"%(d['account'], public_key_to_bc_address(d['public_key'])))
|
|
|
|
elif type == "acentry":
|
|
json_db['acentry'] = (d['account'], d['nCreditDebit'], d['otherAccount'], time.ctime(d['nTime']), d['n'], d['comment'])
|
|
|
|
elif type == "bestblock":
|
|
json_db['bestblock'] = d['hashes'][0][::-1].encode('hex_codec')
|
|
|
|
else:
|
|
json_db[type] = 'unsupported'
|
|
|
|
|
|
parse_wallet(db, item_callback)
|
|
|
|
db.close()
|
|
|
|
nkeys = len(json_db['keys'])
|
|
i = 0
|
|
for k in json_db['keys']:
|
|
i+=1
|
|
addr = k['addr']
|
|
if include_balance is not None:
|
|
# print("%3d/%d %s" % (i, nkeys, k["addr"]))
|
|
k["balance"] = balance(balance_site, k["addr"])
|
|
# print(" %s" % (i, nkeys, k["addr"], k["balance"]))
|
|
if addr in json_db['names'].keys():
|
|
k["label"] = json_db['names'][addr]
|
|
else:
|
|
k["reserve"] = 1
|
|
|
|
del(json_db['pool'])
|
|
del(json_db['names'])
|
|
|
|
def importprivkey(db, sec, label, reserve, keyishex):
|
|
if keyishex is None:
|
|
pkey = regenerate_key(sec)
|
|
elif len(sec) == 64:
|
|
pkey = EC_KEY(str_to_long(sec.decode('hex')))
|
|
else:
|
|
print("Hexadecimal private keys must be 64 characters long")
|
|
exit(0)
|
|
|
|
if not pkey:
|
|
return False
|
|
|
|
secret = GetSecret(pkey)
|
|
private_key = GetPrivKey(pkey)
|
|
public_key = GetPubKey(pkey)
|
|
addr = public_key_to_bc_address(public_key)
|
|
|
|
print "Address: %s" % addr
|
|
print "Privkey: %s" % SecretToASecret(secret)
|
|
|
|
update_wallet(db, 'key', { 'public_key' : public_key, 'private_key' : private_key })
|
|
if not reserve:
|
|
update_wallet(db, 'name', { 'hash' : addr, 'name' : label })
|
|
|
|
return True
|
|
|
|
def balance(site, address):
|
|
page=urllib.urlopen("%s=%s" % (site, address))
|
|
json_acc = json.loads(page.read().split("<end>")[0])
|
|
if json_acc['0'] == 0:
|
|
return "Invalid address"
|
|
elif json_acc['0'] == 2:
|
|
return "Never used"
|
|
else:
|
|
return json_acc['balance']
|
|
|
|
from optparse import OptionParser
|
|
|
|
def keyinfo(sec, keyishex):
|
|
if keyishex is None:
|
|
pkey = regenerate_key(sec)
|
|
elif len(sec) == 64:
|
|
pkey = EC_KEY(str_to_long(sec.decode('hex')))
|
|
else:
|
|
print("Hexadecimal private keys must be 64 characters long")
|
|
exit(0)
|
|
|
|
if not pkey:
|
|
return False
|
|
|
|
secret = GetSecret(pkey)
|
|
private_key = GetPrivKey(pkey)
|
|
public_key = GetPubKey(pkey)
|
|
addr = public_key_to_bc_address(public_key)
|
|
|
|
print "Address (%s): %s" % ( aversions[addrtype], addr )
|
|
print "Privkey (%s): %s" % ( aversions[addrtype], SecretToASecret(secret) )
|
|
print "Hexprivkey: %s" % secret.encode('hex')
|
|
|
|
return True
|
|
|
|
def main():
|
|
|
|
global max_version, addrtype
|
|
|
|
parser = OptionParser(usage="%prog [options]", version="%prog 1.1")
|
|
|
|
parser.add_option("--dumpwallet", dest="dump", action="store_true",
|
|
help="dump wallet in json format")
|
|
|
|
# parser.add_option("--dumpwithbalance", dest="dumpbalance", action="store_true",
|
|
# help="includes balance of each address in the json dump, can take a *LONG* time and might experience timeouts or bans")
|
|
|
|
parser.add_option("--importprivkey", dest="key",
|
|
help="import private key from vanitygen")
|
|
|
|
parser.add_option("--importhex", dest="keyishex", action="store_true",
|
|
help="KEY is in hexadecimal format")
|
|
|
|
parser.add_option("--datadir", dest="datadir",
|
|
help="wallet directory (defaults to bitcoin default)")
|
|
|
|
parser.add_option("--wallet", dest="walletfile",
|
|
help="wallet filename (defaults to wallet.dat)",
|
|
default="wallet.dat")
|
|
|
|
parser.add_option("--label", dest="label",
|
|
help="label shown in the adress book (defaults to '')",
|
|
default="")
|
|
|
|
parser.add_option("--testnet", dest="testnet", action="store_true",
|
|
help="use testnet subdirectory and address type")
|
|
|
|
parser.add_option("--namecoin", dest="namecoin", action="store_true",
|
|
help="use namecoin address type")
|
|
|
|
parser.add_option("--othernetwork", dest="otherversion",
|
|
help="use other network address type, whose version is OTHERVERSION")
|
|
|
|
parser.add_option("--info", dest="keyinfo", action="store_true",
|
|
help="display pubkey, privkey (both depending on the network) and hexkey")
|
|
|
|
parser.add_option("--reserve", dest="reserve", action="store_true",
|
|
help="import as a reserve key, i.e. it won't show in the adress book")
|
|
|
|
parser.add_option("--balance", dest="key_balance",
|
|
help="prints balance of KEY_BALANCE")
|
|
|
|
(options, args) = parser.parse_args()
|
|
|
|
if options.key_balance is not None:
|
|
print(balance(balance_site, options.key_balance))
|
|
exit(0)
|
|
|
|
if options.dump is None and options.key is None:
|
|
print "A mandatory option is missing\n"
|
|
parser.print_help()
|
|
exit(0)
|
|
|
|
if options.datadir is None:
|
|
db_dir = determine_db_dir()
|
|
else:
|
|
db_dir = options.datadir
|
|
|
|
if options.testnet:
|
|
db_dir += "/testnet"
|
|
addrtype = 111
|
|
|
|
if options.namecoin or options.otherversion is not None:
|
|
if options.datadir is None and options.keyinfo is None:
|
|
print("You MUST provide your wallet directory")
|
|
exit(0)
|
|
else:
|
|
if options.namecoin:
|
|
addrtype = 52
|
|
else:
|
|
addrtype = int(options.otherversion)
|
|
|
|
if options.keyinfo is not None:
|
|
if not keyinfo(options.key, options.keyishex):
|
|
print "Bad private key"
|
|
exit(0)
|
|
|
|
db_env = create_env(db_dir)
|
|
|
|
read_wallet(json_db, db_env, options.walletfile, True, True, "", None)
|
|
|
|
if options.dump:
|
|
print json.dumps(json_db, sort_keys=True, indent=4)
|
|
elif options.key:
|
|
if json_db['version'] > max_version:
|
|
print "Version mismatch (must be <= %d)" % max_version
|
|
elif (options.keyishex is None and options.key in private_keys) or (options.keyishex is not None and options.key in private_hex_keys):
|
|
print "Already exists"
|
|
else:
|
|
db = open_wallet(db_env, options.walletfile, writable=True)
|
|
|
|
if importprivkey(db, options.key, options.label, options.reserve, options.keyishex):
|
|
print "Imported successfully"
|
|
else:
|
|
print "Bad private key"
|
|
|
|
db.close()
|
|
|
|
if __name__ == '__main__':
|
|
main()
|
|
|