346 lines
11 KiB
Python
346 lines
11 KiB
Python
import hashlib
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from struct import pack, unpack
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from pyelliptic import arithmetic
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from binascii import hexlify, unhexlify
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from debug import logger
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# There is another copy of this function in Bitmessagemain.py
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def convertIntToString(n):
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a = __builtins__.hex(n)
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if a[-1:] == 'L':
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a = a[:-1]
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if (len(a) % 2) == 0:
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return unhexlify(a[2:])
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else:
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return unhexlify('0'+a[2:])
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ALPHABET = "123456789ABCDEFGHJKLMNPQRSTUVWXYZabcdefghijkmnopqrstuvwxyz"
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def encodeBase58(num, alphabet=ALPHABET):
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"""Encode a number in Base X
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`num`: The number to encode
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`alphabet`: The alphabet to use for encoding
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"""
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if (num == 0):
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return alphabet[0]
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arr = []
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base = len(alphabet)
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while num:
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rem = num % base
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# print 'num is:', num
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num = num // base
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arr.append(alphabet[rem])
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arr.reverse()
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return ''.join(arr)
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def decodeBase58(string, alphabet=ALPHABET):
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"""Decode a Base X encoded string into the number
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Arguments:
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- `string`: The encoded string
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- `alphabet`: The alphabet to use for encoding
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"""
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base = len(alphabet)
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num = 0
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try:
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for char in string:
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num *= base
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num += alphabet.index(char)
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except: # ValueError
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# character not found (like a space character or a 0)
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return 0
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return num
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def encodeVarint(integer):
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if integer < 0:
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logger.error('varint cannot be < 0')
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raise SystemExit
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if integer < 253:
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return pack('>B', integer)
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if integer >= 253 and integer < 65536:
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return pack('>B', 253) + pack('>H', integer)
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if integer >= 65536 and integer < 4294967296:
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return pack('>B', 254) + pack('>I', integer)
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if integer >= 4294967296 and integer < 18446744073709551616:
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return pack('>B', 255) + pack('>Q', integer)
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if integer >= 18446744073709551616:
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logger.error('varint cannot be >= 18446744073709551616')
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raise SystemExit
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class varintDecodeError(Exception):
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pass
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def decodeVarint(data):
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"""
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Decodes an encoded varint to an integer and returns it.
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Per protocol v3, the encoded value must be encoded with
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the minimum amount of data possible or else it is malformed.
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Returns a tuple: (theEncodedValue, theSizeOfTheVarintInBytes)
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"""
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if len(data) == 0:
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return (0, 0)
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firstByte, = unpack('>B', data[0:1])
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if firstByte < 253:
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# encodes 0 to 252
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return (firstByte, 1) # the 1 is the length of the varint
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if firstByte == 253:
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# encodes 253 to 65535
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if len(data) < 3:
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raise varintDecodeError(
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'The first byte of this varint as an integer is %s'
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' but the total length is only %s. It needs to be'
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' at least 3.' % (firstByte, len(data)))
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encodedValue, = unpack('>H', data[1:3])
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if encodedValue < 253:
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raise varintDecodeError(
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'This varint does not encode the value with the lowest'
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' possible number of bytes.')
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return (encodedValue, 3)
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if firstByte == 254:
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# encodes 65536 to 4294967295
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if len(data) < 5:
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raise varintDecodeError(
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'The first byte of this varint as an integer is %s'
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' but the total length is only %s. It needs to be'
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' at least 5.' % (firstByte, len(data)))
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encodedValue, = unpack('>I', data[1:5])
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if encodedValue < 65536:
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raise varintDecodeError(
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'This varint does not encode the value with the lowest'
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' possible number of bytes.')
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return (encodedValue, 5)
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if firstByte == 255:
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# encodes 4294967296 to 18446744073709551615
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if len(data) < 9:
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raise varintDecodeError(
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'The first byte of this varint as an integer is %s'
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' but the total length is only %s. It needs to be'
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' at least 9.' % (firstByte, len(data)))
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encodedValue, = unpack('>Q', data[1:9])
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if encodedValue < 4294967296:
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raise varintDecodeError(
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'This varint does not encode the value with the lowest'
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' possible number of bytes.')
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return (encodedValue, 9)
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def calculateInventoryHash(data):
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sha = hashlib.new('sha512')
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sha2 = hashlib.new('sha512')
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sha.update(data)
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sha2.update(sha.digest())
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return sha2.digest()[0:32]
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def encodeAddress(version, stream, ripe):
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if version >= 2 and version < 4:
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if len(ripe) != 20:
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raise Exception(
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'Programming error in encodeAddress: The length of'
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' a given ripe hash was not 20.'
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)
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if ripe[:2] == '\x00\x00':
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ripe = ripe[2:]
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elif ripe[:1] == '\x00':
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ripe = ripe[1:]
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elif version == 4:
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if len(ripe) != 20:
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raise Exception(
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'Programming error in encodeAddress: The length of'
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' a given ripe hash was not 20.')
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ripe = ripe.lstrip('\x00')
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storedBinaryData = encodeVarint(version) + encodeVarint(stream) + ripe
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# Generate the checksum
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sha = hashlib.new('sha512')
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sha.update(storedBinaryData)
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currentHash = sha.digest()
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sha = hashlib.new('sha512')
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sha.update(currentHash)
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checksum = sha.digest()[0:4]
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asInt = int(hexlify(storedBinaryData) + hexlify(checksum), 16)
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return 'BM-' + encodeBase58(asInt)
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def decodeAddress(address):
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# returns (status, address version number, stream number,
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# data (almost certainly a ripe hash))
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address = str(address).strip()
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if address[:3] == 'BM-':
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integer = decodeBase58(address[3:])
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else:
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integer = decodeBase58(address)
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if integer == 0:
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status = 'invalidcharacters'
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return status, 0, 0, ''
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# after converting to hex, the string will be prepended
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# with a 0x and appended with a L
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hexdata = hex(integer)[2:-1]
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if len(hexdata) % 2 != 0:
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hexdata = '0' + hexdata
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# print 'hexdata', hexdata
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data = unhexlify(hexdata)
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checksum = data[-4:]
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sha = hashlib.new('sha512')
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sha.update(data[:-4])
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currentHash = sha.digest()
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# print 'sha after first hashing: ', sha.hexdigest()
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sha = hashlib.new('sha512')
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sha.update(currentHash)
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# print 'sha after second hashing: ', sha.hexdigest()
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if checksum != sha.digest()[0:4]:
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status = 'checksumfailed'
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return status, 0, 0, ''
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# else:
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# print 'checksum PASSED'
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try:
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addressVersionNumber, bytesUsedByVersionNumber = decodeVarint(data[:9])
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except varintDecodeError as e:
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logger.error(str(e))
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status = 'varintmalformed'
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return status, 0, 0, ''
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# print 'addressVersionNumber', addressVersionNumber
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# print 'bytesUsedByVersionNumber', bytesUsedByVersionNumber
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if addressVersionNumber > 4:
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logger.error('cannot decode address version numbers this high')
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status = 'versiontoohigh'
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return status, 0, 0, ''
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elif addressVersionNumber == 0:
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logger.error('cannot decode address version numbers of zero.')
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status = 'versiontoohigh'
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return status, 0, 0, ''
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try:
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streamNumber, bytesUsedByStreamNumber = \
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decodeVarint(data[bytesUsedByVersionNumber:])
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except varintDecodeError as e:
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logger.error(str(e))
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status = 'varintmalformed'
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return status, 0, 0, ''
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# print streamNumber
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status = 'success'
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if addressVersionNumber == 1:
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return status, addressVersionNumber, streamNumber, data[-24:-4]
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elif addressVersionNumber == 2 or addressVersionNumber == 3:
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embeddedRipeData = \
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data[bytesUsedByVersionNumber + bytesUsedByStreamNumber:-4]
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if len(embeddedRipeData) == 19:
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return status, addressVersionNumber, streamNumber, \
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'\x00'+embeddedRipeData
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elif len(embeddedRipeData) == 20:
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return status, addressVersionNumber, streamNumber, \
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embeddedRipeData
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elif len(embeddedRipeData) == 18:
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return status, addressVersionNumber, streamNumber, \
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'\x00\x00' + embeddedRipeData
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elif len(embeddedRipeData) < 18:
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return 'ripetooshort', 0, 0, ''
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elif len(embeddedRipeData) > 20:
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return 'ripetoolong', 0, 0, ''
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else:
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return 'otherproblem', 0, 0, ''
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elif addressVersionNumber == 4:
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embeddedRipeData = \
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data[bytesUsedByVersionNumber + bytesUsedByStreamNumber:-4]
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if embeddedRipeData[0:1] == '\x00':
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# In order to enforce address non-malleability, encoded
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# RIPE data must have NULL bytes removed from the front
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return 'encodingproblem', 0, 0, ''
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elif len(embeddedRipeData) > 20:
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return 'ripetoolong', 0, 0, ''
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elif len(embeddedRipeData) < 4:
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return 'ripetooshort', 0, 0, ''
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else:
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x00string = '\x00' * (20 - len(embeddedRipeData))
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return status, addressVersionNumber, streamNumber, \
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x00string + embeddedRipeData
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def addBMIfNotPresent(address):
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address = str(address).strip()
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return address if address[:3] == 'BM-' else 'BM-' + address
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if __name__ == "__main__":
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print(
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'\nLet us make an address from scratch. Suppose we generate two'
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' random 32 byte values and call the first one the signing key'
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' and the second one the encryption key:'
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)
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privateSigningKey = \
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'93d0b61371a54b53df143b954035d612f8efa8a3ed1cf842c2186bfd8f876665'
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privateEncryptionKey = \
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'4b0b73a54e19b059dc274ab69df095fe699f43b17397bca26fdf40f4d7400a3a'
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print(
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'\nprivateSigningKey = %s\nprivateEncryptionKey = %s' %
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(privateSigningKey, privateEncryptionKey)
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)
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print(
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'\nNow let us convert them to public keys by doing'
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' an elliptic curve point multiplication.'
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)
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publicSigningKey = arithmetic.privtopub(privateSigningKey)
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publicEncryptionKey = arithmetic.privtopub(privateEncryptionKey)
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print(
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'\npublicSigningKey = %s\npublicEncryptionKey = %s' %
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(publicSigningKey, publicEncryptionKey)
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)
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print(
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'\nNotice that they both begin with the \\x04 which specifies'
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' the encoding type. This prefix is not send over the wire.'
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' You must strip if off before you send your public key across'
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' the wire, and you must add it back when you receive a public key.'
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)
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publicSigningKeyBinary = \
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arithmetic.changebase(publicSigningKey, 16, 256, minlen=64)
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publicEncryptionKeyBinary = \
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arithmetic.changebase(publicEncryptionKey, 16, 256, minlen=64)
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ripe = hashlib.new('ripemd160')
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sha = hashlib.new('sha512')
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sha.update(publicSigningKeyBinary + publicEncryptionKeyBinary)
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ripe.update(sha.digest())
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addressVersionNumber = 2
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streamNumber = 1
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print(
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'\nRipe digest that we will encode in the address: %s' %
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hexlify(ripe.digest())
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)
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returnedAddress = \
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encodeAddress(addressVersionNumber, streamNumber, ripe.digest())
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print('Encoded address: %s' % returnedAddress)
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status, addressVersionNumber, streamNumber, data = \
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decodeAddress(returnedAddress)
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print(
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'\nAfter decoding address:\n\tStatus: %s'
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'\n\taddressVersionNumber %s'
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'\n\tstreamNumber %s'
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'\n\tlength of data (the ripe hash): %s'
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'\n\tripe data: %s' %
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(status, addressVersionNumber, streamNumber, len(data), hexlify(data))
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)
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