thomasv
11 years ago
8 changed files with 747 additions and 701 deletions
@ -1,392 +0,0 @@ |
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# this code comes from ABE. it can probably be simplified |
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# |
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# |
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|
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from bitcoin import public_key_to_bc_address, hash_160_to_bc_address, hash_encode, hash_160 |
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from util import print_error |
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#import socket |
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import time |
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import struct |
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|
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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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|
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class SerializationError(Exception): |
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""" Thrown when there's a problem deserializing or serializing """ |
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|
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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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|
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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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|
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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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|
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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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|
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def seek_file(self, position): |
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self.read_cursor = position |
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|
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def close_file(self): |
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self.input.close() |
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|
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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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|
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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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|
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return self.read_bytes(length) |
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|
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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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|
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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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|
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return '' |
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|
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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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|
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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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|
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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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|
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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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|
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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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|
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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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# |
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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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|
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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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def parse_TxIn(vds): |
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d = {} |
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d['prevout_hash'] = hash_encode(vds.read_bytes(32)) |
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d['prevout_n'] = vds.read_uint32() |
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scriptSig = vds.read_bytes(vds.read_compact_size()) |
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d['sequence'] = vds.read_uint32() |
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if scriptSig: |
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pubkeys, signatures, address = get_address_from_input_script(scriptSig) |
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else: |
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pubkeys = [] |
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signatures = [] |
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address = None |
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d['address'] = address |
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d['signatures'] = signatures |
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return d |
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|
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|
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def parse_TxOut(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['address'] = get_address_from_output_script(scriptPubKey) |
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d['raw_output_script'] = scriptPubKey.encode('hex') |
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d['index'] = i |
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return d |
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|
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|
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def parse_Transaction(vds): |
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d = {} |
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start = vds.read_cursor |
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d['version'] = vds.read_int32() |
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n_vin = vds.read_compact_size() |
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d['inputs'] = [] |
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for i in xrange(n_vin): |
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d['inputs'].append(parse_TxIn(vds)) |
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n_vout = vds.read_compact_size() |
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d['outputs'] = [] |
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for i in xrange(n_vout): |
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d['outputs'].append(parse_TxOut(vds, i)) |
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d['lockTime'] = vds.read_uint32() |
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return d |
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|
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def parse_redeemScript(bytes): |
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dec = [ x for x in script_GetOp(bytes.decode('hex')) ] |
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|
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# 2 of 2 |
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match = [ opcodes.OP_2, opcodes.OP_PUSHDATA4, opcodes.OP_PUSHDATA4, opcodes.OP_2, opcodes.OP_CHECKMULTISIG ] |
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if match_decoded(dec, match): |
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pubkeys = [ dec[1][1].encode('hex'), dec[2][1].encode('hex') ] |
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return 2, pubkeys |
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|
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# 2 of 3 |
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match = [ 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(dec, match): |
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pubkeys = [ dec[1][1].encode('hex'), dec[2][1].encode('hex'), dec[3][1].encode('hex') ] |
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return 2, pubkeys |
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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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|
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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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|
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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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|
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def get_address_from_input_script(bytes): |
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try: |
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decoded = [ x for x in script_GetOp(bytes) ] |
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except: |
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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 [], [], "(None)" |
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|
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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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return None, None, public_key_to_bc_address(decoded[1][1]) |
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|
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# p2sh transaction, 2 of n |
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match = [ opcodes.OP_0 ] |
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while len(match) < len(decoded): |
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match.append(opcodes.OP_PUSHDATA4) |
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if match_decoded(decoded, match): |
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redeemScript = decoded[-1][1] |
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num = len(match) - 2 |
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signatures = map(lambda x:x[1][:-1].encode('hex'), decoded[1:-1]) |
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dec2 = [ x for x in script_GetOp(redeemScript) ] |
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# 2 of 2 |
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match2 = [ opcodes.OP_2, opcodes.OP_PUSHDATA4, opcodes.OP_PUSHDATA4, opcodes.OP_2, opcodes.OP_CHECKMULTISIG ] |
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if match_decoded(dec2, match2): |
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pubkeys = [ dec2[1][1].encode('hex'), dec2[2][1].encode('hex') ] |
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return pubkeys, signatures, hash_160_to_bc_address(hash_160(redeemScript), 5) |
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|
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# 2 of 3 |
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match2 = [ 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, match2): |
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pubkeys = [ dec2[1][1].encode('hex'), dec2[2][1].encode('hex'), dec2[3][1].encode('hex') ] |
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return pubkeys, signatures, hash_160_to_bc_address(hash_160(redeemScript), 5) |
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print_error("cannot find address in input script", bytes.encode('hex')) |
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return [], [], "(None)" |
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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 public_key_to_bc_address(decoded[0][1]) |
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|
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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 hash_160_to_bc_address(decoded[2][1]) |
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|
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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 hash_160_to_bc_address(decoded[1][1],5) |
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return "(None)" |
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@ -0,0 +1,715 @@ |
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#!/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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|
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|
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# Note: The deserialization code originally comes from ABE. |
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|
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|
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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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# |
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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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|
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class SerializationError(Exception): |
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""" Thrown when there's a problem deserializing or serializing """ |
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|
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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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|
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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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|
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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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|
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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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|
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def seek_file(self, position): |
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self.read_cursor = position |
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|
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def close_file(self): |
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self.input.close() |
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|
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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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|
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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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|
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return self.read_bytes(length) |
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|
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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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|
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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") |
|||
|
|||
return '' |
|||
|
|||
def read_boolean(self): return self.read_bytes(1)[0] != chr(0) |
|||
def read_int16(self): return self._read_num('<h') |
|||
def read_uint16(self): return self._read_num('<H') |
|||
def read_int32(self): return self._read_num('<i') |
|||
def read_uint32(self): return self._read_num('<I') |
|||
def read_int64(self): return self._read_num('<q') |
|||
def read_uint64(self): return self._read_num('<Q') |
|||
|
|||
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) |
|||
|
|||
# |
|||
# enum-like type |
|||
# From the Python Cookbook, downloaded from http://code.activestate.com/recipes/67107/ |
|||
# |
|||
import types, string, exceptions |
|||
|
|||
class EnumException(exceptions.Exception): |
|||
pass |
|||
|
|||
class Enumeration: |
|||
def __init__(self, name, enumList): |
|||
self.__doc__ = name |
|||
lookup = { } |
|||
reverseLookup = { } |
|||
i = 0 |
|||
uniqueNames = [ ] |
|||
uniqueValues = [ ] |
|||
for x in enumList: |
|||
if type(x) == types.TupleType: |
|||
x, i = x |
|||
if type(x) != types.StringType: |
|||
raise EnumException, "enum name is not a string: " + x |
|||
if type(i) != types.IntType: |
|||
raise EnumException, "enum value is not an integer: " + i |
|||
if x in uniqueNames: |
|||
raise EnumException, "enum name is not unique: " + x |
|||
if i in uniqueValues: |
|||
raise EnumException, "enum value is not unique for " + x |
|||
uniqueNames.append(x) |
|||
uniqueValues.append(i) |
|||
lookup[x] = i |
|||
reverseLookup[i] = x |
|||
i = i + 1 |
|||
self.lookup = lookup |
|||
self.reverseLookup = reverseLookup |
|||
def __getattr__(self, attr): |
|||
if not self.lookup.has_key(attr): |
|||
raise AttributeError |
|||
return self.lookup[attr] |
|||
def whatis(self, value): |
|||
return self.reverseLookup[value] |
|||
|
|||
|
|||
# This function comes from bitcointools, bct-LICENSE.txt. |
|||
def long_hex(bytes): |
|||
return bytes.encode('hex_codec') |
|||
|
|||
# This function comes from bitcointools, bct-LICENSE.txt. |
|||
def short_hex(bytes): |
|||
t = bytes.encode('hex_codec') |
|||
if len(t) < 11: |
|||
return t |
|||
return t[0:4]+"..."+t[-4:] |
|||
|
|||
|
|||
|
|||
|
|||
def parse_redeemScript(bytes): |
|||
dec = [ x for x in script_GetOp(bytes.decode('hex')) ] |
|||
|
|||
# 2 of 2 |
|||
match = [ opcodes.OP_2, opcodes.OP_PUSHDATA4, opcodes.OP_PUSHDATA4, opcodes.OP_2, opcodes.OP_CHECKMULTISIG ] |
|||
if match_decoded(dec, match): |
|||
pubkeys = [ dec[1][1].encode('hex'), dec[2][1].encode('hex') ] |
|||
return 2, pubkeys |
|||
|
|||
# 2 of 3 |
|||
match = [ opcodes.OP_2, opcodes.OP_PUSHDATA4, opcodes.OP_PUSHDATA4, opcodes.OP_PUSHDATA4, opcodes.OP_3, opcodes.OP_CHECKMULTISIG ] |
|||
if match_decoded(dec, match): |
|||
pubkeys = [ dec[1][1].encode('hex'), dec[2][1].encode('hex'), dec[3][1].encode('hex') ] |
|||
return 2, pubkeys |
|||
|
|||
|
|||
|
|||
opcodes = Enumeration("Opcodes", [ |
|||
("OP_0", 0), ("OP_PUSHDATA1",76), "OP_PUSHDATA2", "OP_PUSHDATA4", "OP_1NEGATE", "OP_RESERVED", |
|||
"OP_1", "OP_2", "OP_3", "OP_4", "OP_5", "OP_6", "OP_7", |
|||
"OP_8", "OP_9", "OP_10", "OP_11", "OP_12", "OP_13", "OP_14", "OP_15", "OP_16", |
|||
"OP_NOP", "OP_VER", "OP_IF", "OP_NOTIF", "OP_VERIF", "OP_VERNOTIF", "OP_ELSE", "OP_ENDIF", "OP_VERIFY", |
|||
"OP_RETURN", "OP_TOALTSTACK", "OP_FROMALTSTACK", "OP_2DROP", "OP_2DUP", "OP_3DUP", "OP_2OVER", "OP_2ROT", "OP_2SWAP", |
|||
"OP_IFDUP", "OP_DEPTH", "OP_DROP", "OP_DUP", "OP_NIP", "OP_OVER", "OP_PICK", "OP_ROLL", "OP_ROT", |
|||
"OP_SWAP", "OP_TUCK", "OP_CAT", "OP_SUBSTR", "OP_LEFT", "OP_RIGHT", "OP_SIZE", "OP_INVERT", "OP_AND", |
|||
"OP_OR", "OP_XOR", "OP_EQUAL", "OP_EQUALVERIFY", "OP_RESERVED1", "OP_RESERVED2", "OP_1ADD", "OP_1SUB", "OP_2MUL", |
|||
"OP_2DIV", "OP_NEGATE", "OP_ABS", "OP_NOT", "OP_0NOTEQUAL", "OP_ADD", "OP_SUB", "OP_MUL", "OP_DIV", |
|||
"OP_MOD", "OP_LSHIFT", "OP_RSHIFT", "OP_BOOLAND", "OP_BOOLOR", |
|||
"OP_NUMEQUAL", "OP_NUMEQUALVERIFY", "OP_NUMNOTEQUAL", "OP_LESSTHAN", |
|||
"OP_GREATERTHAN", "OP_LESSTHANOREQUAL", "OP_GREATERTHANOREQUAL", "OP_MIN", "OP_MAX", |
|||
"OP_WITHIN", "OP_RIPEMD160", "OP_SHA1", "OP_SHA256", "OP_HASH160", |
|||
"OP_HASH256", "OP_CODESEPARATOR", "OP_CHECKSIG", "OP_CHECKSIGVERIFY", "OP_CHECKMULTISIG", |
|||
"OP_CHECKMULTISIGVERIFY", |
|||
("OP_SINGLEBYTE_END", 0xF0), |
|||
("OP_DOUBLEBYTE_BEGIN", 0xF000), |
|||
"OP_PUBKEY", "OP_PUBKEYHASH", |
|||
("OP_INVALIDOPCODE", 0xFFFF), |
|||
]) |
|||
|
|||
|
|||
def script_GetOp(bytes): |
|||
i = 0 |
|||
while i < len(bytes): |
|||
vch = None |
|||
opcode = ord(bytes[i]) |
|||
i += 1 |
|||
if opcode >= opcodes.OP_SINGLEBYTE_END: |
|||
opcode <<= 8 |
|||
opcode |= ord(bytes[i]) |
|||
i += 1 |
|||
|
|||
if opcode <= opcodes.OP_PUSHDATA4: |
|||
nSize = opcode |
|||
if opcode == opcodes.OP_PUSHDATA1: |
|||
nSize = ord(bytes[i]) |
|||
i += 1 |
|||
elif opcode == opcodes.OP_PUSHDATA2: |
|||
(nSize,) = struct.unpack_from('<H', bytes, i) |
|||
i += 2 |
|||
elif opcode == opcodes.OP_PUSHDATA4: |
|||
(nSize,) = struct.unpack_from('<I', bytes, i) |
|||
i += 4 |
|||
vch = bytes[i:i+nSize] |
|||
i += nSize |
|||
|
|||
yield (opcode, vch, i) |
|||
|
|||
|
|||
def script_GetOpName(opcode): |
|||
return (opcodes.whatis(opcode)).replace("OP_", "") |
|||
|
|||
|
|||
def decode_script(bytes): |
|||
result = '' |
|||
for (opcode, vch, i) in script_GetOp(bytes): |
|||
if len(result) > 0: result += " " |
|||
if opcode <= opcodes.OP_PUSHDATA4: |
|||
result += "%d:"%(opcode,) |
|||
result += short_hex(vch) |
|||
else: |
|||
result += script_GetOpName(opcode) |
|||
return result |
|||
|
|||
|
|||
def match_decoded(decoded, to_match): |
|||
if len(decoded) != len(to_match): |
|||
return False; |
|||
for i in range(len(decoded)): |
|||
if to_match[i] == opcodes.OP_PUSHDATA4 and decoded[i][0] <= opcodes.OP_PUSHDATA4 and decoded[i][0]>0: |
|||
continue # Opcodes below OP_PUSHDATA4 all just push data onto stack, and are equivalent. |
|||
if to_match[i] != decoded[i][0]: |
|||
return False |
|||
return True |
|||
|
|||
def get_address_from_input_script(bytes): |
|||
try: |
|||
decoded = [ x for x in script_GetOp(bytes) ] |
|||
except: |
|||
# coinbase transactions raise an exception |
|||
print_error("cannot find address in input script", bytes.encode('hex')) |
|||
return [], [], "(None)" |
|||
|
|||
# payto_pubkey |
|||
match = [ opcodes.OP_PUSHDATA4 ] |
|||
if match_decoded(decoded, match): |
|||
return None, None, "(pubkey)" |
|||
|
|||
# non-generated TxIn transactions push a signature |
|||
# (seventy-something bytes) and then their public key |
|||
# (65 bytes) onto the stack: |
|||
match = [ opcodes.OP_PUSHDATA4, opcodes.OP_PUSHDATA4 ] |
|||
if match_decoded(decoded, match): |
|||
return None, None, public_key_to_bc_address(decoded[1][1]) |
|||
|
|||
# p2sh transaction, 2 of n |
|||
match = [ opcodes.OP_0 ] |
|||
while len(match) < len(decoded): |
|||
match.append(opcodes.OP_PUSHDATA4) |
|||
|
|||
if match_decoded(decoded, match): |
|||
|
|||
redeemScript = decoded[-1][1] |
|||
num = len(match) - 2 |
|||
signatures = map(lambda x:x[1][:-1].encode('hex'), decoded[1:-1]) |
|||
|
|||
dec2 = [ x for x in script_GetOp(redeemScript) ] |
|||
|
|||
# 2 of 2 |
|||
match2 = [ opcodes.OP_2, opcodes.OP_PUSHDATA4, opcodes.OP_PUSHDATA4, opcodes.OP_2, opcodes.OP_CHECKMULTISIG ] |
|||
if match_decoded(dec2, match2): |
|||
pubkeys = [ dec2[1][1].encode('hex'), dec2[2][1].encode('hex') ] |
|||
return pubkeys, signatures, hash_160_to_bc_address(hash_160(redeemScript), 5) |
|||
|
|||
# 2 of 3 |
|||
match2 = [ opcodes.OP_2, opcodes.OP_PUSHDATA4, opcodes.OP_PUSHDATA4, opcodes.OP_PUSHDATA4, opcodes.OP_3, opcodes.OP_CHECKMULTISIG ] |
|||
if match_decoded(dec2, match2): |
|||
pubkeys = [ dec2[1][1].encode('hex'), dec2[2][1].encode('hex'), dec2[3][1].encode('hex') ] |
|||
return pubkeys, signatures, hash_160_to_bc_address(hash_160(redeemScript), 5) |
|||
|
|||
print_error("cannot find address in input script", bytes.encode('hex')) |
|||
return [], [], "(None)" |
|||
|
|||
|
|||
|
|||
def get_address_from_output_script(bytes): |
|||
decoded = [ x for x in script_GetOp(bytes) ] |
|||
|
|||
# The Genesis Block, self-payments, and pay-by-IP-address payments look like: |
|||
# 65 BYTES:... CHECKSIG |
|||
match = [ opcodes.OP_PUSHDATA4, opcodes.OP_CHECKSIG ] |
|||
if match_decoded(decoded, match): |
|||
return True, public_key_to_bc_address(decoded[0][1]) |
|||
|
|||
# Pay-by-Bitcoin-address TxOuts look like: |
|||
# DUP HASH160 20 BYTES:... EQUALVERIFY CHECKSIG |
|||
match = [ opcodes.OP_DUP, opcodes.OP_HASH160, opcodes.OP_PUSHDATA4, opcodes.OP_EQUALVERIFY, opcodes.OP_CHECKSIG ] |
|||
if match_decoded(decoded, match): |
|||
return False, hash_160_to_bc_address(decoded[2][1]) |
|||
|
|||
# p2sh |
|||
match = [ opcodes.OP_HASH160, opcodes.OP_PUSHDATA4, opcodes.OP_EQUAL ] |
|||
if match_decoded(decoded, match): |
|||
return False, hash_160_to_bc_address(decoded[1][1],5) |
|||
|
|||
return False, "(None)" |
|||
|
|||
|
|||
class Transaction: |
|||
|
|||
def __init__(self, raw): |
|||
self.raw = raw |
|||
self.deserialize() |
|||
self.inputs = self.d['inputs'] |
|||
self.outputs = self.d['outputs'] |
|||
self.outputs = map(lambda x: (x['address'],x['value']), self.outputs) |
|||
self.input_info = None |
|||
self.is_complete = True |
|||
|
|||
@classmethod |
|||
def from_io(klass, inputs, outputs): |
|||
raw = klass.serialize(inputs, outputs, for_sig = -1) # for_sig=-1 means do not sign |
|||
self = klass(raw) |
|||
self.is_complete = False |
|||
self.inputs = inputs |
|||
self.outputs = outputs |
|||
extras = [] |
|||
for i in self.inputs: |
|||
e = { 'txid':i['tx_hash'], 'vout':i['index'], 'scriptPubKey':i.get('raw_output_script') } |
|||
extras.append(e) |
|||
self.input_info = extras |
|||
return self |
|||
|
|||
def __str__(self): |
|||
return self.raw |
|||
|
|||
@classmethod |
|||
def multisig_script(klass, public_keys, num=None): |
|||
n = len(public_keys) |
|||
if num is None: num = n |
|||
# supports only "2 of 2", and "2 of 3" transactions |
|||
assert num <= n and n in [2,3] |
|||
|
|||
if num==2: |
|||
s = '52' |
|||
elif num == 3: |
|||
s = '53' |
|||
else: |
|||
raise |
|||
|
|||
for k in public_keys: |
|||
s += var_int(len(k)/2) |
|||
s += k |
|||
if n==2: |
|||
s += '52' |
|||
elif n==3: |
|||
s += '53' |
|||
else: |
|||
raise |
|||
s += 'ae' |
|||
|
|||
return s |
|||
|
|||
@classmethod |
|||
def serialize( klass, inputs, outputs, for_sig = None ): |
|||
|
|||
s = int_to_hex(1,4) # version |
|||
s += var_int( len(inputs) ) # number of inputs |
|||
for i in range(len(inputs)): |
|||
txin = inputs[i] |
|||
s += txin['tx_hash'].decode('hex')[::-1].encode('hex') # prev hash |
|||
s += int_to_hex(txin['index'],4) # prev index |
|||
|
|||
if for_sig is None: |
|||
signatures = txin['signatures'] |
|||
pubkeys = txin['pubkeys'] |
|||
if not txin.get('redeemScript'): |
|||
pubkey = pubkeys[0] |
|||
sig = signatures[0] |
|||
sig = sig + '01' # hashtype |
|||
script = op_push(len(sig)/2) |
|||
script += sig |
|||
script += op_push(len(pubkey)/2) |
|||
script += pubkey |
|||
else: |
|||
script = '00' # op_0 |
|||
for sig in signatures: |
|||
sig = sig + '01' |
|||
script += op_push(len(sig)/2) |
|||
script += sig |
|||
|
|||
redeem_script = klass.multisig_script(pubkeys,2) |
|||
script += op_push(len(redeem_script)/2) |
|||
script += redeem_script |
|||
|
|||
elif for_sig==i: |
|||
if txin.get('redeemScript'): |
|||
script = txin['redeemScript'] # p2sh uses the inner script |
|||
else: |
|||
script = txin['raw_output_script'] # scriptsig |
|||
else: |
|||
script='' |
|||
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: |
|||
addr, amount = output |
|||
s += int_to_hex( amount, 8) # amount |
|||
addrtype, hash_160 = bc_address_to_hash_160(addr) |
|||
if addrtype == 0: |
|||
script = '76a9' # op_dup, op_hash_160 |
|||
script += '14' # push 0x14 bytes |
|||
script += hash_160.encode('hex') |
|||
script += '88ac' # op_equalverify, op_checksig |
|||
elif addrtype == 5: |
|||
script = 'a9' # op_hash_160 |
|||
script += '14' # push 0x14 bytes |
|||
script += hash_160.encode('hex') |
|||
script += '87' # op_equal |
|||
else: |
|||
raise |
|||
|
|||
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 for_sig(self,i): |
|||
return self.serialize(self.inputs, self.outputs, for_sig = i) |
|||
|
|||
|
|||
def hash(self): |
|||
return Hash(self.raw.decode('hex') )[::-1].encode('hex') |
|||
|
|||
|
|||
|
|||
def sign(self, keypairs): |
|||
is_complete = True |
|||
print_error("tx.sign(), keypairs:", keypairs) |
|||
|
|||
for i, txin in enumerate(self.inputs): |
|||
|
|||
# if the input is multisig, parse redeem script |
|||
redeem_script = txin.get('redeemScript') |
|||
num, redeem_pubkeys = parse_redeemScript(redeem_script) if redeem_script else (1, [txin.get('redeemPubkey')]) |
|||
|
|||
# add pubkeys |
|||
txin["pubkeys"] = redeem_pubkeys |
|||
# get list of already existing signatures |
|||
signatures = txin.get("signatures",[]) |
|||
# continue if this txin is complete |
|||
if len(signatures) == num: |
|||
continue |
|||
|
|||
tx_for_sig = self.serialize( self.inputs, self.outputs, for_sig = i ) |
|||
for pubkey in redeem_pubkeys: |
|||
# check if we have the corresponding private key |
|||
if pubkey in keypairs.keys(): |
|||
# add signature |
|||
sec = keypairs[pubkey] |
|||
compressed = is_compressed(sec) |
|||
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( Hash( tx_for_sig.decode('hex') ), sigencode = ecdsa.util.sigencode_der ) |
|||
assert public_key.verify_digest( sig, Hash( tx_for_sig.decode('hex') ), sigdecode = ecdsa.util.sigdecode_der) |
|||
signatures.append( sig.encode('hex') ) |
|||
print_error("adding signature for", pubkey) |
|||
|
|||
txin["signatures"] = signatures |
|||
is_complete = is_complete and len(signatures) == num |
|||
|
|||
self.is_complete = is_complete |
|||
self.raw = self.serialize( self.inputs, self.outputs ) |
|||
|
|||
|
|||
def deserialize(self): |
|||
vds = BCDataStream() |
|||
vds.write(self.raw.decode('hex')) |
|||
d = {} |
|||
start = vds.read_cursor |
|||
d['version'] = vds.read_int32() |
|||
n_vin = vds.read_compact_size() |
|||
d['inputs'] = [] |
|||
for i in xrange(n_vin): |
|||
d['inputs'].append(self.parse_input(vds)) |
|||
n_vout = vds.read_compact_size() |
|||
d['outputs'] = [] |
|||
for i in xrange(n_vout): |
|||
d['outputs'].append(self.parse_output(vds, i)) |
|||
d['lockTime'] = vds.read_uint32() |
|||
self.d = d |
|||
return self.d |
|||
|
|||
|
|||
def parse_input(self, vds): |
|||
d = {} |
|||
d['prevout_hash'] = hash_encode(vds.read_bytes(32)) |
|||
d['prevout_n'] = vds.read_uint32() |
|||
scriptSig = vds.read_bytes(vds.read_compact_size()) |
|||
d['sequence'] = vds.read_uint32() |
|||
|
|||
if scriptSig: |
|||
pubkeys, signatures, address = get_address_from_input_script(scriptSig) |
|||
else: |
|||
pubkeys = [] |
|||
signatures = [] |
|||
address = None |
|||
|
|||
d['address'] = address |
|||
d['signatures'] = signatures |
|||
return d |
|||
|
|||
|
|||
def parse_output(self, vds, i): |
|||
d = {} |
|||
d['value'] = vds.read_int64() |
|||
scriptPubKey = vds.read_bytes(vds.read_compact_size()) |
|||
is_pubkey, address = get_address_from_output_script(scriptPubKey) |
|||
d['is_pubkey'] = is_pubkey |
|||
d['address'] = address |
|||
d['raw_output_script'] = scriptPubKey.encode('hex') |
|||
d['index'] = i |
|||
return d |
|||
|
|||
|
|||
def add_extra_addresses(self, txlist): |
|||
for i in self.inputs: |
|||
if i.get("address") == "(pubkey)": |
|||
prev_tx = txlist.get(i.get('prevout_hash')) |
|||
if prev_tx: |
|||
address, value = prev_tx.outputs[i.get('prevout_n')] |
|||
print_error("found pay-to-pubkey address:", address) |
|||
i["address"] = address |
|||
|
|||
|
|||
def has_address(self, addr): |
|||
found = False |
|||
for txin in self.inputs: |
|||
if addr == txin.get('address'): |
|||
found = True |
|||
break |
|||
for txout in self.outputs: |
|||
if addr == txout[0]: |
|||
found = True |
|||
break |
|||
return found |
|||
|
|||
|
|||
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 item in self.outputs: |
|||
addr, value = item |
|||
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":self.raw, |
|||
"complete":self.is_complete |
|||
} |
|||
if not self.is_complete: |
|||
extras = [] |
|||
for i in self.inputs: |
|||
e = { 'txid':i['tx_hash'], 'vout':i['index'], |
|||
'scriptPubKey':i.get('raw_output_script'), |
|||
'KeyID':i.get('KeyID'), |
|||
'redeemScript':i.get('redeemScript'), |
|||
'signatures':i.get('signatures'), |
|||
'pubkeys':i.get('pubkeys'), |
|||
} |
|||
extras.append(e) |
|||
self.input_info = extras |
|||
|
|||
if self.input_info: |
|||
out['input_info'] = json.dumps(self.input_info).replace(' ','') |
|||
|
|||
return out |
|||
|
|||
|
|||
def requires_fee(self, verifier): |
|||
# see https://en.bitcoin.it/wiki/Transaction_fees |
|||
threshold = 57600000 |
|||
size = len(self.raw)/2 |
|||
if size >= 10000: |
|||
return True |
|||
|
|||
for o in self.outputs: |
|||
value = o[1] |
|||
if value < 1000000: |
|||
return True |
|||
sum = 0 |
|||
for i in self.inputs: |
|||
age = verifier.get_confirmations(i["tx_hash"])[0] |
|||
sum += i["value"] * age |
|||
priority = sum / size |
|||
print_error(priority, threshold) |
|||
return priority < threshold |
|||
|
|||
|
|||
Loading…
Reference in new issue