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849 lines
29 KiB
849 lines
29 KiB
#!/usr/bin/env python
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#
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# Electrum - lightweight Bitcoin client
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# Copyright (C) 2011 thomasv@gitorious
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#
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# This program is free software: you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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# the Free Software Foundation, either version 3 of the License, or
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# (at your option) any later version.
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#
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# This program is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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#
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# You should have received a copy of the GNU General Public License
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# along with this program. If not, see <http://www.gnu.org/licenses/>.
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# Note: The deserialization code originally comes from ABE.
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import bitcoin
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from bitcoin import *
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from util import print_error
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import time
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import struct
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#
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# Workalike python implementation of Bitcoin's CDataStream class.
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#
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import struct
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import StringIO
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import mmap
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import random
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NO_SIGNATURE = 'ff'
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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))
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def write_int16(self, val): return self._write_num('<h', val)
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def write_uint16(self, val): return self._write_num('<H', val)
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def write_int32(self, val): return self._write_num('<i', val)
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def write_uint32(self, val): return self._write_num('<I', val)
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def write_int64(self, val): return self._write_num('<q', val)
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def write_uint64(self, val): return self._write_num('<Q', val)
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def read_compact_size(self):
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size = ord(self.input[self.read_cursor])
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self.read_cursor += 1
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if size == 253:
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size = self._read_num('<H')
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elif size == 254:
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size = self._read_num('<I')
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elif size == 255:
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size = self._read_num('<Q')
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return size
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def write_compact_size(self, size):
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if size < 0:
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raise SerializationError("attempt to write size < 0")
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elif size < 253:
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self.write(chr(size))
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elif size < 2**16:
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self.write('\xfd')
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self._write_num('<H', size)
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elif size < 2**32:
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self.write('\xfe')
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self._write_num('<I', size)
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elif size < 2**64:
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self.write('\xff')
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self._write_num('<Q', size)
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def _read_num(self, format):
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(i,) = struct.unpack_from(format, self.input, self.read_cursor)
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self.read_cursor += struct.calcsize(format)
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return i
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def _write_num(self, format, num):
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s = struct.pack(format, num)
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self.write(s)
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#
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# enum-like type
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# From the Python Cookbook, downloaded from http://code.activestate.com/recipes/67107/
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#
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import types, string, exceptions
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class EnumException(exceptions.Exception):
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pass
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class Enumeration:
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def __init__(self, name, enumList):
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self.__doc__ = name
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lookup = { }
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reverseLookup = { }
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i = 0
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uniqueNames = [ ]
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uniqueValues = [ ]
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for x in enumList:
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if type(x) == types.TupleType:
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x, i = x
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if type(x) != types.StringType:
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raise EnumException, "enum name is not a string: " + x
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if type(i) != types.IntType:
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raise EnumException, "enum value is not an integer: " + i
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if x in uniqueNames:
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raise EnumException, "enum name is not unique: " + x
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if i in uniqueValues:
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raise EnumException, "enum value is not unique for " + x
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uniqueNames.append(x)
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uniqueValues.append(i)
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lookup[x] = i
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reverseLookup[i] = x
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i = i + 1
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self.lookup = lookup
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self.reverseLookup = reverseLookup
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def __getattr__(self, attr):
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if not self.lookup.has_key(attr):
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raise AttributeError
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return self.lookup[attr]
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def whatis(self, value):
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return self.reverseLookup[value]
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# This function comes from bitcointools, bct-LICENSE.txt.
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def long_hex(bytes):
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return bytes.encode('hex_codec')
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# This function comes from bitcointools, bct-LICENSE.txt.
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def short_hex(bytes):
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t = bytes.encode('hex_codec')
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if len(t) < 11:
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return t
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return t[0:4]+"..."+t[-4:]
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opcodes = Enumeration("Opcodes", [
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("OP_0", 0), ("OP_PUSHDATA1",76), "OP_PUSHDATA2", "OP_PUSHDATA4", "OP_1NEGATE", "OP_RESERVED",
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"OP_1", "OP_2", "OP_3", "OP_4", "OP_5", "OP_6", "OP_7",
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"OP_8", "OP_9", "OP_10", "OP_11", "OP_12", "OP_13", "OP_14", "OP_15", "OP_16",
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"OP_NOP", "OP_VER", "OP_IF", "OP_NOTIF", "OP_VERIF", "OP_VERNOTIF", "OP_ELSE", "OP_ENDIF", "OP_VERIFY",
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"OP_RETURN", "OP_TOALTSTACK", "OP_FROMALTSTACK", "OP_2DROP", "OP_2DUP", "OP_3DUP", "OP_2OVER", "OP_2ROT", "OP_2SWAP",
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"OP_IFDUP", "OP_DEPTH", "OP_DROP", "OP_DUP", "OP_NIP", "OP_OVER", "OP_PICK", "OP_ROLL", "OP_ROT",
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"OP_SWAP", "OP_TUCK", "OP_CAT", "OP_SUBSTR", "OP_LEFT", "OP_RIGHT", "OP_SIZE", "OP_INVERT", "OP_AND",
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"OP_OR", "OP_XOR", "OP_EQUAL", "OP_EQUALVERIFY", "OP_RESERVED1", "OP_RESERVED2", "OP_1ADD", "OP_1SUB", "OP_2MUL",
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"OP_2DIV", "OP_NEGATE", "OP_ABS", "OP_NOT", "OP_0NOTEQUAL", "OP_ADD", "OP_SUB", "OP_MUL", "OP_DIV",
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"OP_MOD", "OP_LSHIFT", "OP_RSHIFT", "OP_BOOLAND", "OP_BOOLOR",
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"OP_NUMEQUAL", "OP_NUMEQUALVERIFY", "OP_NUMNOTEQUAL", "OP_LESSTHAN",
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"OP_GREATERTHAN", "OP_LESSTHANOREQUAL", "OP_GREATERTHANOREQUAL", "OP_MIN", "OP_MAX",
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"OP_WITHIN", "OP_RIPEMD160", "OP_SHA1", "OP_SHA256", "OP_HASH160",
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"OP_HASH256", "OP_CODESEPARATOR", "OP_CHECKSIG", "OP_CHECKSIGVERIFY", "OP_CHECKMULTISIG",
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"OP_CHECKMULTISIGVERIFY",
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("OP_SINGLEBYTE_END", 0xF0),
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("OP_DOUBLEBYTE_BEGIN", 0xF000),
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"OP_PUBKEY", "OP_PUBKEYHASH",
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("OP_INVALIDOPCODE", 0xFFFF),
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])
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def script_GetOp(bytes):
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i = 0
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while i < len(bytes):
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vch = None
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opcode = ord(bytes[i])
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i += 1
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if opcode >= opcodes.OP_SINGLEBYTE_END:
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opcode <<= 8
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opcode |= ord(bytes[i])
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i += 1
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if opcode <= opcodes.OP_PUSHDATA4:
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nSize = opcode
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if opcode == opcodes.OP_PUSHDATA1:
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nSize = ord(bytes[i])
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i += 1
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elif opcode == opcodes.OP_PUSHDATA2:
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(nSize,) = struct.unpack_from('<H', bytes, i)
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i += 2
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elif opcode == opcodes.OP_PUSHDATA4:
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(nSize,) = struct.unpack_from('<I', bytes, i)
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i += 4
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vch = bytes[i:i+nSize]
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i += nSize
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yield (opcode, vch, i)
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def script_GetOpName(opcode):
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return (opcodes.whatis(opcode)).replace("OP_", "")
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def decode_script(bytes):
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result = ''
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for (opcode, vch, i) in script_GetOp(bytes):
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if len(result) > 0: result += " "
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if opcode <= opcodes.OP_PUSHDATA4:
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result += "%d:"%(opcode,)
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result += short_hex(vch)
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else:
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result += script_GetOpName(opcode)
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return result
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def match_decoded(decoded, to_match):
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if len(decoded) != len(to_match):
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return False;
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for i in range(len(decoded)):
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if to_match[i] == opcodes.OP_PUSHDATA4 and decoded[i][0] <= opcodes.OP_PUSHDATA4 and decoded[i][0]>0:
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continue # Opcodes below OP_PUSHDATA4 all just push data onto stack, and are equivalent.
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if to_match[i] != decoded[i][0]:
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return False
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return True
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def parse_sig(x_sig):
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s = []
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for sig in x_sig:
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if sig[-2:] == '01':
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s.append(sig[:-2])
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else:
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assert sig == NO_SIGNATURE
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s.append(None)
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return s
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def is_extended_pubkey(x_pubkey):
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return x_pubkey[0:2] in ['fe', 'ff']
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def x_to_xpub(x_pubkey):
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if x_pubkey[0:2] == 'ff':
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from account import BIP32_Account
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xpub, s = BIP32_Account.parse_xpubkey(x_pubkey)
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return xpub
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def parse_xpub(x_pubkey):
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if x_pubkey[0:2] in ['02','03','04']:
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pubkey = x_pubkey
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elif x_pubkey[0:2] == 'ff':
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from account import BIP32_Account
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xpub, s = BIP32_Account.parse_xpubkey(x_pubkey)
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pubkey = BIP32_Account.derive_pubkey_from_xpub(xpub, s[0], s[1])
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elif x_pubkey[0:2] == 'fe':
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from account import OldAccount
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mpk, s = OldAccount.parse_xpubkey(x_pubkey)
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pubkey = OldAccount.get_pubkey_from_mpk(mpk.decode('hex'), s[0], s[1])
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elif x_pubkey[0:2] == 'fd':
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addrtype = ord(x_pubkey[2:4].decode('hex'))
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hash160 = x_pubkey[4:].decode('hex')
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pubkey = None
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address = hash_160_to_bc_address(hash160, addrtype)
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else:
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raise BaseException("Cannnot parse pubkey")
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if pubkey:
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address = public_key_to_bc_address(pubkey.decode('hex'))
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return pubkey, address
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def parse_scriptSig(d, bytes):
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try:
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decoded = [ x for x in script_GetOp(bytes) ]
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except Exception:
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# coinbase transactions raise an exception
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print_error("cannot find address in input script", bytes.encode('hex'))
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return
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# payto_pubkey
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match = [ opcodes.OP_PUSHDATA4 ]
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if match_decoded(decoded, match):
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sig = decoded[0][1].encode('hex')
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d['address'] = "(pubkey)"
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d['signatures'] = [sig]
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d['num_sig'] = 1
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d['x_pubkeys'] = ["(pubkey)"]
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d['pubkeys'] = ["(pubkey)"]
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return
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# non-generated TxIn transactions push a signature
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# (seventy-something bytes) and then their public key
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# (65 bytes) onto the stack:
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match = [ opcodes.OP_PUSHDATA4, opcodes.OP_PUSHDATA4 ]
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if match_decoded(decoded, match):
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sig = decoded[0][1].encode('hex')
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x_pubkey = decoded[1][1].encode('hex')
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try:
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signatures = parse_sig([sig])
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pubkey, address = parse_xpub(x_pubkey)
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except:
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import traceback
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traceback.print_exc(file=sys.stdout)
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print_error("cannot find address in input script", bytes.encode('hex'))
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return
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d['signatures'] = signatures
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d['x_pubkeys'] = [x_pubkey]
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d['num_sig'] = 1
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d['pubkeys'] = [pubkey]
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d['address'] = address
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return
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# p2sh transaction, 2 of n
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match = [ opcodes.OP_0 ] + [ opcodes.OP_PUSHDATA4 ] * (len(decoded) - 1)
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if not match_decoded(decoded, match):
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print_error("cannot find address in input script", bytes.encode('hex'))
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return
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x_sig = [x[1].encode('hex') for x in decoded[1:-1]]
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d['signatures'] = parse_sig(x_sig)
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d['num_sig'] = 2
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dec2 = [ x for x in script_GetOp(decoded[-1][1]) ]
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match_2of2 = [ opcodes.OP_2, opcodes.OP_PUSHDATA4, opcodes.OP_PUSHDATA4, opcodes.OP_2, opcodes.OP_CHECKMULTISIG ]
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match_2of3 = [ opcodes.OP_2, opcodes.OP_PUSHDATA4, opcodes.OP_PUSHDATA4, opcodes.OP_PUSHDATA4, opcodes.OP_3, opcodes.OP_CHECKMULTISIG ]
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if match_decoded(dec2, match_2of2):
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x_pubkeys = [ dec2[1][1].encode('hex'), dec2[2][1].encode('hex') ]
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elif match_decoded(dec2, match_2of3):
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x_pubkeys = [ dec2[1][1].encode('hex'), dec2[2][1].encode('hex'), dec2[3][1].encode('hex') ]
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else:
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print_error("cannot find address in input script", bytes.encode('hex'))
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return
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d['x_pubkeys'] = x_pubkeys
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pubkeys = [parse_xpub(x)[0] for x in x_pubkeys] # xpub, addr = parse_xpub()
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d['pubkeys'] = pubkeys
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redeemScript = Transaction.multisig_script(pubkeys,2)
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d['redeemScript'] = redeemScript
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d['address'] = hash_160_to_bc_address(hash_160(redeemScript.decode('hex')), 5)
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def get_address_from_output_script(bytes):
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decoded = [ x for x in script_GetOp(bytes) ]
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# The Genesis Block, self-payments, and pay-by-IP-address payments look like:
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# 65 BYTES:... CHECKSIG
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match = [ opcodes.OP_PUSHDATA4, opcodes.OP_CHECKSIG ]
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if match_decoded(decoded, match):
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return 'pubkey', decoded[0][1].encode('hex')
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# Pay-by-Bitcoin-address TxOuts look like:
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# DUP HASH160 20 BYTES:... EQUALVERIFY CHECKSIG
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match = [ opcodes.OP_DUP, opcodes.OP_HASH160, opcodes.OP_PUSHDATA4, opcodes.OP_EQUALVERIFY, opcodes.OP_CHECKSIG ]
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if match_decoded(decoded, match):
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return 'address', hash_160_to_bc_address(decoded[2][1])
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# p2sh
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match = [ opcodes.OP_HASH160, opcodes.OP_PUSHDATA4, opcodes.OP_EQUAL ]
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if match_decoded(decoded, match):
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return 'address', hash_160_to_bc_address(decoded[1][1],5)
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return 'script', bytes
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def parse_input(vds):
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d = {}
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prevout_hash = hash_encode(vds.read_bytes(32))
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prevout_n = vds.read_uint32()
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scriptSig = vds.read_bytes(vds.read_compact_size())
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d['scriptSig'] = scriptSig.encode('hex')
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sequence = vds.read_uint32()
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if prevout_hash == '00'*32:
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d['is_coinbase'] = True
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else:
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d['is_coinbase'] = False
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d['prevout_hash'] = prevout_hash
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d['prevout_n'] = prevout_n
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d['sequence'] = sequence
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d['pubkeys'] = []
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d['signatures'] = {}
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d['address'] = None
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if scriptSig:
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parse_scriptSig(d, scriptSig)
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return d
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def parse_output(vds, i):
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d = {}
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d['value'] = vds.read_int64()
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scriptPubKey = vds.read_bytes(vds.read_compact_size())
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d['type'], d['address'] = get_address_from_output_script(scriptPubKey)
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d['scriptPubKey'] = scriptPubKey.encode('hex')
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d['prevout_n'] = i
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return d
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|
|
def deserialize(raw):
|
|
vds = BCDataStream()
|
|
vds.write(raw.decode('hex'))
|
|
d = {}
|
|
start = vds.read_cursor
|
|
d['version'] = vds.read_int32()
|
|
n_vin = vds.read_compact_size()
|
|
d['inputs'] = list(parse_input(vds) for i in xrange(n_vin))
|
|
n_vout = vds.read_compact_size()
|
|
d['outputs'] = list(parse_output(vds,i) for i in xrange(n_vout))
|
|
d['lockTime'] = vds.read_uint32()
|
|
return d
|
|
|
|
|
|
def push_script(x):
|
|
return op_push(len(x)/2) + x
|
|
|
|
|
|
class Transaction:
|
|
|
|
def __str__(self):
|
|
if self.raw is None:
|
|
self.raw = self.serialize()
|
|
return self.raw
|
|
|
|
def __init__(self, inputs, outputs, locktime=0):
|
|
self.inputs = inputs
|
|
self.outputs = outputs
|
|
self.locktime = locktime
|
|
self.raw = None
|
|
|
|
@classmethod
|
|
def deserialize(klass, raw):
|
|
self = klass([],[])
|
|
self.update(raw)
|
|
return self
|
|
|
|
def update(self, raw):
|
|
d = deserialize(raw)
|
|
self.raw = raw
|
|
self.inputs = d['inputs']
|
|
self.outputs = [(x['type'], x['address'], x['value']) for x in d['outputs']]
|
|
self.locktime = d['lockTime']
|
|
|
|
@classmethod
|
|
def sweep(klass, privkeys, network, to_address, fee):
|
|
inputs = []
|
|
for privkey in privkeys:
|
|
pubkey = public_key_from_private_key(privkey)
|
|
address = address_from_private_key(privkey)
|
|
u = network.synchronous_get([ ('blockchain.address.listunspent',[address])])[0]
|
|
pay_script = klass.pay_script('address', address)
|
|
for item in u:
|
|
item['scriptPubKey'] = pay_script
|
|
item['redeemPubkey'] = pubkey
|
|
item['address'] = address
|
|
item['prevout_hash'] = item['tx_hash']
|
|
item['prevout_n'] = item['tx_pos']
|
|
item['pubkeys'] = [pubkey]
|
|
item['x_pubkeys'] = [None]
|
|
item['signatures'] = [None]
|
|
item['num_sig'] = 1
|
|
inputs += u
|
|
|
|
if not inputs:
|
|
return
|
|
|
|
total = sum(i.get('value') for i in inputs) - fee
|
|
outputs = [('address', to_address, total)]
|
|
self = klass(inputs, outputs)
|
|
self.sign({ pubkey:privkey })
|
|
return self
|
|
|
|
@classmethod
|
|
def multisig_script(klass, public_keys, num=None):
|
|
n = len(public_keys)
|
|
if num is None: num = n
|
|
|
|
assert num <= n and n in [2,3] , 'Only "2 of 2", and "2 of 3" transactions are supported'
|
|
|
|
if num==2:
|
|
s = '52'
|
|
elif num == 3:
|
|
s = '53'
|
|
else:
|
|
raise
|
|
|
|
for k in public_keys:
|
|
s += op_push(len(k)/2) + k
|
|
if n==2:
|
|
s += '52'
|
|
elif n==3:
|
|
s += '53'
|
|
else:
|
|
raise
|
|
s += 'ae'
|
|
|
|
return s
|
|
|
|
|
|
@classmethod
|
|
def pay_script(self, output_type, addr):
|
|
if output_type == 'script':
|
|
return addr.encode('hex')
|
|
elif output_type == 'address':
|
|
addrtype, hash_160 = bc_address_to_hash_160(addr)
|
|
if addrtype == 0:
|
|
script = '76a9' # op_dup, op_hash_160
|
|
script += push_script(hash_160.encode('hex'))
|
|
script += '88ac' # op_equalverify, op_checksig
|
|
elif addrtype == 5:
|
|
script = 'a9' # op_hash_160
|
|
script += push_script(hash_160.encode('hex'))
|
|
script += '87' # op_equal
|
|
else:
|
|
raise
|
|
else:
|
|
raise
|
|
return script
|
|
|
|
def input_script(self, txin, i, for_sig):
|
|
# for_sig:
|
|
# -1 : do not sign, estimate length
|
|
# i>=0 : serialized tx for signing input i
|
|
# None : add all known signatures
|
|
|
|
p2sh = txin.get('redeemScript') is not None
|
|
num_sig = txin['num_sig'] if p2sh else 1
|
|
address = txin['address']
|
|
|
|
x_signatures = txin['signatures']
|
|
signatures = filter(None, x_signatures)
|
|
is_complete = len(signatures) == num_sig
|
|
|
|
if for_sig in [-1, None]:
|
|
# if we have enough signatures, we use the actual pubkeys
|
|
# use extended pubkeys (with bip32 derivation)
|
|
if for_sig == -1:
|
|
# we assume that signature will be 0x48 bytes long
|
|
pubkeys = txin['pubkeys']
|
|
sig_list = [ "00" * 0x48 ] * num_sig
|
|
elif is_complete:
|
|
pubkeys = txin['pubkeys']
|
|
sig_list = ((sig + '01') for sig in signatures)
|
|
else:
|
|
pubkeys = txin['x_pubkeys']
|
|
sig_list = ((sig + '01') if sig else NO_SIGNATURE for sig in x_signatures)
|
|
script = ''.join(push_script(x) for x in sig_list)
|
|
if not p2sh:
|
|
x_pubkey = pubkeys[0]
|
|
if x_pubkey is None:
|
|
addrtype, h160 = bc_address_to_hash_160(txin['address'])
|
|
x_pubkey = 'fd' + (chr(addrtype) + h160).encode('hex')
|
|
script += push_script(x_pubkey)
|
|
else:
|
|
script = '00' + script # put op_0 in front of script
|
|
redeem_script = self.multisig_script(pubkeys,2)
|
|
script += push_script(redeem_script)
|
|
|
|
elif for_sig==i:
|
|
script = txin['redeemScript'] if p2sh else self.pay_script('address', address)
|
|
else:
|
|
script = ''
|
|
|
|
return script
|
|
|
|
|
|
def serialize(self, for_sig=None):
|
|
inputs = self.inputs
|
|
outputs = self.outputs
|
|
s = int_to_hex(1,4) # version
|
|
s += var_int( len(inputs) ) # number of inputs
|
|
for i, txin in enumerate(inputs):
|
|
s += txin['prevout_hash'].decode('hex')[::-1].encode('hex') # prev hash
|
|
s += int_to_hex(txin['prevout_n'], 4) # prev index
|
|
script = self.input_script(txin, i, for_sig)
|
|
s += var_int( len(script)/2 ) # script length
|
|
s += script
|
|
s += "ffffffff" # sequence
|
|
s += var_int( len(outputs) ) # number of outputs
|
|
for output in outputs:
|
|
output_type, addr, amount = output
|
|
s += int_to_hex( amount, 8) # amount
|
|
script = self.pay_script(output_type, addr)
|
|
s += var_int( len(script)/2 ) # script length
|
|
s += script # script
|
|
s += int_to_hex(0,4) # lock time
|
|
if for_sig is not None and for_sig != -1:
|
|
s += int_to_hex(1, 4) # hash type
|
|
return s
|
|
|
|
def tx_for_sig(self,i):
|
|
return self.serialize(for_sig = i)
|
|
|
|
def hash(self):
|
|
return Hash(self.raw.decode('hex') )[::-1].encode('hex')
|
|
|
|
def add_input(self, input):
|
|
self.inputs.append(input)
|
|
self.raw = None
|
|
|
|
def input_value(self):
|
|
return sum(x['value'] for x in self.inputs)
|
|
|
|
def output_value(self):
|
|
return sum( val for tp,addr,val in self.outputs)
|
|
|
|
def get_fee(self):
|
|
return self.input_value() - self.output_value()
|
|
|
|
def signature_count(self):
|
|
r = 0
|
|
s = 0
|
|
for txin in self.inputs:
|
|
if txin.get('is_coinbase'):
|
|
continue
|
|
signatures = filter(None, txin.get('signatures',[]))
|
|
s += len(signatures)
|
|
r += txin.get('num_sig',-1)
|
|
return s, r
|
|
|
|
def is_complete(self):
|
|
s, r = self.signature_count()
|
|
return r == s
|
|
|
|
def inputs_to_sign(self):
|
|
out = set()
|
|
for txin in self.inputs:
|
|
x_signatures = txin['signatures']
|
|
signatures = filter(None, x_signatures)
|
|
if len(signatures) == txin['num_sig']:
|
|
# input is complete
|
|
continue
|
|
for k, x_pubkey in enumerate(txin['x_pubkeys']):
|
|
if x_signatures[k] is not None:
|
|
# this pubkey already signed
|
|
continue
|
|
out.add(x_pubkey)
|
|
return out
|
|
|
|
def sign(self, keypairs):
|
|
print_error("tx.sign(), keypairs:", keypairs)
|
|
for i, txin in enumerate(self.inputs):
|
|
signatures = filter(None, txin['signatures'])
|
|
num = txin['num_sig']
|
|
if len(signatures) == num:
|
|
# continue if this txin is complete
|
|
continue
|
|
|
|
for x_pubkey in txin['x_pubkeys']:
|
|
if x_pubkey in keypairs.keys():
|
|
print_error("adding signature for", x_pubkey)
|
|
# add pubkey to txin
|
|
txin = self.inputs[i]
|
|
x_pubkeys = txin['x_pubkeys']
|
|
ii = x_pubkeys.index(x_pubkey)
|
|
sec = keypairs[x_pubkey]
|
|
pubkey = public_key_from_private_key(sec)
|
|
txin['x_pubkeys'][ii] = pubkey
|
|
txin['pubkeys'][ii] = pubkey
|
|
self.inputs[i] = txin
|
|
# add signature
|
|
for_sig = Hash(self.tx_for_sig(i).decode('hex'))
|
|
pkey = regenerate_key(sec)
|
|
secexp = pkey.secret
|
|
private_key = ecdsa.SigningKey.from_secret_exponent( secexp, curve = SECP256k1 )
|
|
public_key = private_key.get_verifying_key()
|
|
sig = private_key.sign_digest_deterministic( for_sig, hashfunc=hashlib.sha256, sigencode = ecdsa.util.sigencode_der )
|
|
assert public_key.verify_digest( sig, for_sig, sigdecode = ecdsa.util.sigdecode_der)
|
|
txin['signatures'][ii] = sig.encode('hex')
|
|
self.inputs[i] = txin
|
|
|
|
print_error("is_complete", self.is_complete())
|
|
self.raw = self.serialize()
|
|
|
|
|
|
def add_pubkey_addresses(self, txdict):
|
|
for txin in self.inputs:
|
|
if txin.get('address') == "(pubkey)":
|
|
prev_tx = txdict.get(txin.get('prevout_hash'))
|
|
if prev_tx:
|
|
address, value = prev_tx.get_outputs()[txin.get('prevout_n')]
|
|
print_error("found pay-to-pubkey address:", address)
|
|
txin["address"] = address
|
|
|
|
|
|
def get_outputs(self):
|
|
"""convert pubkeys to addresses"""
|
|
o = []
|
|
for type, x, v in self.outputs:
|
|
if type == 'address':
|
|
addr = x
|
|
elif type == 'pubkey':
|
|
addr = public_key_to_bc_address(x.decode('hex'))
|
|
else:
|
|
addr = 'SCRIPT ' + x.encode('hex')
|
|
o.append((addr,v)) # consider using yield (addr, v)
|
|
return o
|
|
|
|
def get_output_addresses(self):
|
|
return [addr for addr, val in self.get_outputs()]
|
|
|
|
|
|
def has_address(self, addr):
|
|
return (addr in self.get_output_addresses()) or (addr in (tx.get("address") for tx in self.inputs))
|
|
|
|
|
|
def get_value(self, addresses, prevout_values):
|
|
# return the balance for that tx
|
|
is_relevant = False
|
|
is_send = False
|
|
is_pruned = False
|
|
is_partial = False
|
|
v_in = v_out = v_out_mine = 0
|
|
|
|
for item in self.inputs:
|
|
addr = item.get('address')
|
|
if addr in addresses:
|
|
is_send = True
|
|
is_relevant = True
|
|
key = item['prevout_hash'] + ':%d'%item['prevout_n']
|
|
value = prevout_values.get( key )
|
|
if value is None:
|
|
is_pruned = True
|
|
else:
|
|
v_in += value
|
|
else:
|
|
is_partial = True
|
|
|
|
if not is_send: is_partial = False
|
|
|
|
for addr, value in self.get_outputs():
|
|
v_out += value
|
|
if addr in addresses:
|
|
v_out_mine += value
|
|
is_relevant = True
|
|
|
|
if is_pruned:
|
|
# some inputs are mine:
|
|
fee = None
|
|
if is_send:
|
|
v = v_out_mine - v_out
|
|
else:
|
|
# no input is mine
|
|
v = v_out_mine
|
|
|
|
else:
|
|
v = v_out_mine - v_in
|
|
|
|
if is_partial:
|
|
# some inputs are mine, but not all
|
|
fee = None
|
|
is_send = v < 0
|
|
else:
|
|
# all inputs are mine
|
|
fee = v_out - v_in
|
|
|
|
return is_relevant, is_send, v, fee
|
|
|
|
|
|
def as_dict(self):
|
|
import json
|
|
out = {
|
|
"hex":str(self),
|
|
"complete":self.is_complete()
|
|
}
|
|
return out
|
|
|
|
|
|
def requires_fee(self, verifier):
|
|
# see https://en.bitcoin.it/wiki/Transaction_fees
|
|
#
|
|
# size must be smaller than 1 kbyte for free tx
|
|
size = len(self.serialize(-1))/2
|
|
if size >= 10000:
|
|
return True
|
|
# all outputs must be 0.01 BTC or larger for free tx
|
|
for addr, value in self.get_outputs():
|
|
if value < 1000000:
|
|
return True
|
|
# priority must be large enough for free tx
|
|
threshold = 57600000
|
|
weight = 0
|
|
for txin in self.inputs:
|
|
age = verifier.get_confirmations(txin["prevout_hash"])[0]
|
|
weight += txin["value"] * age
|
|
priority = weight / size
|
|
print_error(priority, threshold)
|
|
|
|
return priority < threshold
|
|
|