python Genesis哈希与X16R算法
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import hashlib, binascii, struct, array, os, time, sys, optparse
import scrypt
import x16r_hash
from construct import *
def main():
options = get_args()
algorithm = get_algorithm(options)
input_script = create_input_script(options.timestamp)
output_script = create_output_script(options.pubkey)
# hash merkle root is the double sha256 hash of the transaction(s)
tx = create_transaction(input_script, output_script,options)
hash_merkle_root = hashlib.sha256(hashlib.sha256(tx).digest()).digest()
print_block_info(options, hash_merkle_root)
block_header = create_block_header(hash_merkle_root, options.time, options.bits, options.nonce)
genesis_hash, nonce = generate_hash(block_header, algorithm, options.nonce, options.bits)
announce_found_genesis(genesis_hash, nonce)
def get_args():
parser = optparse.OptionParser()
parser.add_option("-t", "--time", dest="time", default=int(time.time()),
type="int", help="the (unix) time when the genesisblock is created")
parser.add_option("-z", "--timestamp", dest="timestamp", default="The Times 03/Jan/2009 Chancellor on brink of second bailout for banks",
type="string", help="the pszTimestamp found in the coinbase of the genesisblock")
parser.add_option("-n", "--nonce", dest="nonce", default=0,
type="int", help="the first value of the nonce that will be incremented when searching the genesis hash")
parser.add_option("-a", "--algorithm", dest="algorithm", default="SHA256",
help="the PoW algorithm: [SHA256|scrypt|X11|X13|X15|X16R]")
parser.add_option("-p", "--pubkey", dest="pubkey", default="04678afdb0fe5548271967f1a67130b7105cd6a828e03909a67962e0ea1f61deb649f6bc3f4cef38c4f35504e51ec112de5c384df7ba0b8d578a4c702b6bf11d5f",
type="string", help="the pubkey found in the output script")
parser.add_option("-v", "--value", dest="value", default=5000000000,
type="int", help="the value in coins for the output, full value (exp. in bitcoin 5000000000 - To get other coins value: Block Value * 100000000)")
parser.add_option("-b", "--bits", dest="bits",
type="int", help="the target in compact representation, associated to a difficulty of 1")
(options, args) = parser.parse_args()
if not options.bits:
if options.algorithm == "scrypt" or options.algorithm == "X11" or options.algorithm == "X13" or options.algorithm == "X15" or options.algorithm == "X16":
options.bits = 0x1e0ffff0
else:
options.bits = 0x1d00ffff
return options
def get_algorithm(options):
supported_algorithms = ["SHA256", "scrypt", "X11", "X13", "X15", "X16"]
if options.algorithm in supported_algorithms:
return options.algorithm
else:
sys.exit("Error: Given algorithm must be one of: " + str(supported_algorithms))
def create_input_script(psz_timestamp):
psz_prefix = ""
#use OP_PUSHDATA1 if required
if len(psz_timestamp) > 76: psz_prefix = '4c'
script_prefix = '04ffff001d0104' + psz_prefix + chr(len(psz_timestamp)).encode('hex')
print (script_prefix + psz_timestamp.encode('hex'))
return (script_prefix + psz_timestamp.encode('hex')).decode('hex')
def create_output_script(pubkey):
script_len = '41'
OP_CHECKSIG = 'ac'
return (script_len + pubkey + OP_CHECKSIG).decode('hex')
def create_transaction(input_script, output_script,options):
transaction = Struct("transaction",
Bytes("version", 4),
Byte("num_inputs"),
StaticField("prev_output", 32),
UBInt32('prev_out_idx'),
Byte('input_script_len'),
Bytes('input_script', len(input_script)),
UBInt32('sequence'),
Byte('num_outputs'),
Bytes('out_value', 8),
Byte('output_script_len'),
Bytes('output_script', 0x43),
UBInt32('locktime'))
tx = transaction.parse('\x00'*(127 + len(input_script)))
tx.version = struct.pack('<I', 1)
tx.num_inputs = 1
tx.prev_output = struct.pack('<qqqq', 0,0,0,0)
tx.prev_out_idx = 0xFFFFFFFF
tx.input_script_len = len(input_script)
tx.input_script = input_script
tx.sequence = 0xFFFFFFFF
tx.num_outputs = 1
tx.out_value = struct.pack('<q' ,options.value)#0x000005f5e100)#012a05f200) #50 coins
#tx.out_value = struct.pack('<q' ,0x000000012a05f200) #50 coins
tx.output_script_len = 0x43
tx.output_script = output_script
tx.locktime = 0
return transaction.build(tx)
def create_block_header(hash_merkle_root, time, bits, nonce):
block_header = Struct("block_header",
Bytes("version",4),
Bytes("hash_prev_block", 32),
Bytes("hash_merkle_root", 32),
Bytes("time", 4),
Bytes("bits", 4),
Bytes("nonce", 4))
genesisblock = block_header.parse('\x00'*80)
genesisblock.version = struct.pack('<I', 1)
genesisblock.hash_prev_block = struct.pack('<qqqq', 0,0,0,0)
genesisblock.hash_merkle_root = hash_merkle_root
genesisblock.time = struct.pack('<I', time)
genesisblock.bits = struct.pack('<I', bits)
genesisblock.nonce = struct.pack('<I', nonce)
return block_header.build(genesisblock)
# https://en.bitcoin.it/wiki/Block_hashing_algorithm
def generate_hash(data_block, algorithm, start_nonce, bits):
print 'Searching for genesis hash..'
nonce = start_nonce
last_updated = time.time()
# https://en.bitcoin.it/wiki/Difficulty
target = (bits & 0xffffff) * 2**(8*((bits >> 24) - 3))
while True:
sha256_hash, header_hash = generate_hashes_from_block(data_block, algorithm)
last_updated = calculate_hashrate(nonce, last_updated)
if is_genesis_hash(header_hash, target):
if algorithm == "X11" or algorithm == "X13" or algorithm == "X15" or algorithm == "X16":
return (header_hash, nonce)
return (sha256_hash, nonce)
else:
nonce = nonce + 1
data_block = data_block[0:len(data_block) - 4] + struct.pack('<I', nonce)
def generate_hashes_from_block(data_block, algorithm):
sha256_hash = hashlib.sha256(hashlib.sha256(data_block).digest()).digest()[::-1]
header_hash = ""
if algorithm == 'scrypt':
header_hash = scrypt.hash(data_block,data_block,1024,1,1,32)[::-1]
elif algorithm == 'SHA256':
header_hash = sha256_hash
elif algorithm == 'X11':
try:
exec('import %s' % "xcoin_hash")
except ImportError:
sys.exit("Cannot run X11 algorithm: module xcoin_hash not found")
header_hash = xcoin_hash.getPoWHash(data_block)[::-1]
elif algorithm == 'X13':
try:
exec('import %s' % "x13_hash")
except ImportError:
sys.exit("Cannot run X13 algorithm: module x13_hash not found")
header_hash = x13_hash.getPoWHash(data_block)[::-1]
elif algorithm == 'X15':
try:
exec('import %s' % "x15_hash")
except ImportError:
sys.exit("Cannot run X15 algorithm: module x15_hash not found")
header_hash = x15_hash.getPoWHash(data_block)[::-1]
elif algorithm == 'X16':
try:
exec('import %s' % "x16r_hash")
except ImportError:
sys.exit("Cannot run X16 algorithm: module x15_hash not found")
header_hash = x16r_hash.getPoWHash(data_block)[::-1]
return sha256_hash, header_hash
def is_genesis_hash(header_hash, target):
return int(header_hash.encode('hex_codec'), 16) < target
def calculate_hashrate(nonce, last_updated):
if nonce % 1000000 == 999999:
now = time.time()
hashrate = round(1000000/(now - last_updated))
generation_time = round(pow(2, 32) / hashrate / 3600, 1)
sys.stdout.write("\r%s hash/s, estimate: %s h"%(str(hashrate), str(generation_time)))
sys.stdout.flush()
return now
else:
return last_updated
def print_block_info(options, hash_merkle_root):
print "algorithm: " + (options.algorithm)
print "merkle hash: " + hash_merkle_root[::-1].encode('hex_codec')
print "pszTimestamp: " + options.timestamp
print "pubkey: " + options.pubkey
print "time: " + str(options.time)
print "bits: " + str(hex(options.bits))
def announce_found_genesis(genesis_hash, nonce):
print "genesis hash found!"
print "nonce: " + str(nonce)
print "genesis hash: " + genesis_hash.encode('hex_codec')
# GOGOGO!
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