def calc_skein(self): if self.skein is None: r = [] r.append(struct.pack("<i", self.nVersion)) r.append(ser_uint256(self.hashPrevBlock)) r.append(ser_uint256(self.hashMerkleRoot)) r.append(struct.pack("<I", self.nTime)) r.append(struct.pack("<I", self.nBits)) r.append(struct.pack("<I", self.nNonce)) self.skein = uint256_from_str(skeinhash.skeinhash(''.join(r))) return self.skein
def send(self, result, send_callback): for nonce in result.miner.nonce_generator(result.nonces): # h = hash(result.state, result.merkle_end, result.time, result.difficulty, nonce) hx = ''.join(pack('>19I', *result.dataX)) qh = skeinhash(''.join([hx, pack('>I', long(nonce))])) h = unpack('>8I', qh) #if h[6] & 0xf == 0: # say_line('Nonce: %08x, hash: %s, h6: %08x', (nonce, qh.encode('hex'), h[6])) if qh[-3:] != '\x00\x00\x00': hash7 = pack('<I', long(h[7])).encode('hex') say_line('Verification failed, check hardware! (%s, %s, %08x)', (result.miner.id(), hash7, nonce)) say_line('data %s' % ''.join([hx, pack('>I', long(nonce))]).encode('hex')) return True # consume this particular result else: self.diff1_found(bytereverse(h[6]), result.target[6]) if belowOrEquals(h[:7], result.target[:7]): is_block = belowOrEquals(h[:7], self.true_target[:7]) hash6 = pack('<I', long(h[6])).encode('hex') hash5 = pack('<I', long(h[5])).encode('hex') self.sent[nonce] = (is_block, hash6, hash5) if not send_callback(result, nonce): return False return True
def submit_share(self, job_id, worker_name, session, extranonce1_bin, extranonce2, ntime, nonce, difficulty): '''Check parameters and finalize block template. If it leads to valid block candidate, asynchronously submits the block back to the bitcoin network. - extranonce1_bin is binary. No checks performed, it should be from session data - job_id, extranonce2, ntime, nonce - in hex form sent by the client - difficulty - decimal number from session, again no checks performed - submitblock_callback - reference to method which receive result of submitblock() ''' # Check if extranonce2 looks correctly. extranonce2 is in hex form... if len(extranonce2) != self.extranonce2_size * 2: raise SubmitException( "Incorrect size of extranonce2. Expected %d chars" % (self.extranonce2_size * 2)) # Check for job job = self.get_job(job_id) if job == None: raise SubmitException("Job '%s' not found" % job_id) # Check if ntime looks correct if len(ntime) != 8: raise SubmitException("Incorrect size of ntime. Expected 8 chars") if not job.check_ntime(int(ntime, 16)): raise SubmitException("Ntime out of range") # Check nonce if len(nonce) != 8: raise SubmitException("Incorrect size of nonce. Expected 8 chars") # Check for duplicated submit if not job.register_submit(extranonce1_bin, extranonce2, ntime, nonce): log.info("Duplicate from %s, (%s %s %s %s)" % \ (worker_name, binascii.hexlify(extranonce1_bin), extranonce2, ntime, nonce)) raise SubmitException("Duplicate share") # Now let's do the hard work! # --------------------------- # 0. Some sugar extranonce2_bin = binascii.unhexlify(extranonce2) ntime_bin = binascii.unhexlify(ntime) nonce_bin = binascii.unhexlify(nonce) # 1. Build coinbase coinbase_bin = job.serialize_coinbase(extranonce1_bin, extranonce2_bin) coinbase_hash = util.doublesha(coinbase_bin) # 2. Calculate merkle root merkle_root_bin = job.merkletree.withFirst(coinbase_hash) merkle_root_int = util.uint256_from_str(merkle_root_bin) # 3. Serialize header with given merkle, ntime and nonce header_bin = job.serialize_header(merkle_root_int, ntime_bin, nonce_bin) # 4. Reverse header and compare it with target of the user if settings.COINDAEMON_ALGO == 'scrypt': hash_bin = vtc_scrypt.getPoWHash(''.join( [header_bin[i * 4:i * 4 + 4][::-1] for i in range(0, 20)])) elif settings.COINDAEMON_ALGO == 'scrypt-jane': if settings.SCRYPTJANE_NAME == 'vtc_scrypt': hash_bin = scryptjane.getPoWHash(''.join( [header_bin[i * 4:i * 4 + 4][::-1] for i in range(0, 20)])) else: hash_bin = scryptjane.getPoWHash(''.join([ header_bin[i * 4:i * 4 + 4][::-1] for i in range(0, 20) ])), int(ntime, 16) elif settings.COINDAEMON_ALGO == 'quark': hash_bin = quark_hash.getPoWHash(''.join( [header_bin[i * 4:i * 4 + 4][::-1] for i in range(0, 20)])) elif settings.COINDAEMON_ALGO == 'skeinhash': hash_bin = skeinhash.skeinhash(''.join( [header_bin[i * 4:i * 4 + 4][::-1] for i in range(0, 20)])) else: hash_bin = util.doublesha(''.join( [header_bin[i * 4:i * 4 + 4][::-1] for i in range(0, 20)])) hash_int = util.uint256_from_str(hash_bin) scrypt_hash_hex = "%064x" % hash_int header_hex = binascii.hexlify(header_bin) if settings.COINDAEMON_ALGO == 'scrypt' or settings.COINDAEMON_ALGO == 'scrypt-jane': header_hex = header_hex + "000000800000000000000000000000000000000000000000000000000000000000000000000000000000000080020000" elif settings.COINDAEMON_ALGO == 'quark': header_hex = header_hex + "000000800000000000000000000000000000000000000000000000000000000000000000000000000000000080020000" else: pass target_user = self.diff_to_target(difficulty) if hash_int > target_user: raise SubmitException("Share is above target") # Mostly for debugging purposes target_info = self.diff_to_target(100000) if hash_int <= target_info: log.info("Yay, share with diff above 100000") # Algebra tells us the diff_to_target is the same as hash_to_diff share_diff = int(self.diff_to_target(hash_int)) # 5. Compare hash with target of the network if hash_int <= job.target: # Yay! It is block candidate! log.info("We found a block candidate! %s" % scrypt_hash_hex) # Reverse the header and get the potential block hash (for scrypt only) #if settings.COINDAEMON_ALGO == 'scrypt' or settings.COINDAEMON_ALGO == 'sha256d': # if settings.COINDAEMON_Reward == 'POW': block_hash_bin = util.doublesha(''.join( [header_bin[i * 4:i * 4 + 4][::-1] for i in range(0, 20)])) block_hash_hex = block_hash_bin[::-1].encode('hex_codec') #else: block_hash_hex = hash_bin[::-1].encode('hex_codec') #else: block_hash_hex = hash_bin[::-1].encode('hex_codec') # 6. Finalize and serialize block object job.finalize(merkle_root_int, extranonce1_bin, extranonce2_bin, int(ntime, 16), int(nonce, 16)) if not job.is_valid(): # Should not happen log.exception( "FINAL JOB VALIDATION FAILED!(Try enabling/disabling tx messages)" ) # 7. Submit block to the network serialized = binascii.hexlify(job.serialize()) on_submit = self.bitcoin_rpc.submitblock(serialized, block_hash_hex, scrypt_hash_hex) if on_submit: self.update_block() if settings.SOLUTION_BLOCK_HASH: return (header_hex, block_hash_hex, share_diff, on_submit) else: return (header_hex, scrypt_hash_hex, share_diff, on_submit) if settings.SOLUTION_BLOCK_HASH: # Reverse the header and get the potential block hash (for scrypt only) only do this if we want to send in the block hash to the shares table block_hash_bin = util.doublesha(''.join( [header_bin[i * 4:i * 4 + 4][::-1] for i in range(0, 20)])) block_hash_hex = block_hash_bin[::-1].encode('hex_codec') return (header_hex, block_hash_hex, share_diff, None) else: return (header_hex, scrypt_hash_hex, share_diff, None)
def submit_share(self, job_id, worker_name, session, extranonce1_bin, extranonce2, ntime, nonce, difficulty, ip=False): '''Check parameters and finalize block template. If it leads to valid block candidate, asynchronously submits the block back to the bitcoin network. - extranonce1_bin is binary. No checks performed, it should be from session data - job_id, extranonce2, ntime, nonce - in hex form sent by the client - difficulty - decimal number from session - submitblock_callback - reference to method which receive result of submitblock() - difficulty is checked to see if its lower than the vardiff minimum target or pool target from conf/config.py and if it is the share is rejected due to it not meeting the requirements for a share ''' if settings.VARIABLE_DIFF == True: # Share Diff Should never be 0 if difficulty < settings.VDIFF_MIN_TARGET : log.exception("Worker %s @ IP: %s seems to be submitting Fake Shares"%(worker_name,ip)) raise SubmitException("Diff is %s Share Rejected Reporting to Admin"%(difficulty)) else: if difficulty < settings.POOL_TARGET: log.exception("Worker %s @ IP: %s seems to be submitting Fake Shares"%(worker_name,ip)) raise SubmitException("Diff is %s Share Rejected Reporting to Admin"%(difficulty)) # Check if extranonce2 looks correctly. extranonce2 is in hex form... if len(extranonce2) != self.extranonce2_size * 2: raise SubmitException("Incorrect size of extranonce2. Expected %d chars" % (self.extranonce2_size*2)) # Check for job job = self.get_job(job_id, worker_name, ip) if job == None: raise SubmitException("Job '%s' not found" % job_id) # Check if ntime looks correct if len(ntime) != 8: raise SubmitException("Incorrect size of ntime. Expected 8 chars") if not job.check_ntime(int(ntime, 16)): raise SubmitException("Ntime out of range") # Check nonce if len(nonce) != 8: raise SubmitException("Incorrect size of nonce. Expected 8 chars") # Check for duplicated submit if not job.register_submit(extranonce1_bin, extranonce2, ntime, nonce): log.info("Duplicate from %s, (%s %s %s %s)" % \ (worker_name, binascii.hexlify(extranonce1_bin), extranonce2, ntime, nonce)) raise SubmitException("Duplicate share") # Now let's do the hard work! # --------------------------- # 0. Some sugar extranonce2_bin = binascii.unhexlify(extranonce2) ntime_bin = binascii.unhexlify(ntime) nonce_bin = binascii.unhexlify(nonce) # 1. Build coinbase coinbase_bin = job.serialize_coinbase(extranonce1_bin, extranonce2_bin) coinbase_hash = util.doublesha(coinbase_bin) # 2. Calculate merkle root merkle_root_bin = job.merkletree.withFirst(coinbase_hash) merkle_root_int = util.uint256_from_str(merkle_root_bin) # 3. Serialize header with given merkle, ntime and nonce header_bin = job.serialize_header(merkle_root_int, ntime_bin, nonce_bin) # 4. Reverse header and compare it with target of the user if settings.COINDAEMON_ALGO == 'scrypt': hash_bin = ltc_scrypt.getPoWHash(''.join([ header_bin[i*4:i*4+4][::-1] for i in range(0, 20) ])) elif settings.COINDAEMON_ALGO == 'scrypt-jane': if settings.SCRYPTJANE_NAME == 'vtc_scrypt': hash_bin = scryptjane.getPoWHash(''.join([ header_bin[i*4:i*4+4][::-1] for i in range(0, 20) ])) else: hash_bin = scryptjane.getPoWHash(''.join([ header_bin[i*4:i*4+4][::-1] for i in range(0, 20) ]), int(ntime, 16)) elif settings.COINDAEMON_ALGO == 'quark': hash_bin = quark_hash.getPoWHash(''.join([ header_bin[i*4:i*4+4][::-1] for i in range(0, 20) ])) elif settings.COINDAEMON_ALGO == 'nist5': hash_bin = nist5_hash.getPoWHash(''.join([ header_bin[i*4:i*4+4][::-1] for i in range(0, 20) ])) elif settings.COINDAEMON_ALGO == 'xcoin': hash_bin = xcoin_hash.getPoWHash(''.join([ header_bin[i*4:i*4+4][::-1] for i in range(0, 20) ])) elif settings.COINDAEMON_ALGO == 'x13': hash_bin = x13_hash.getPoWHash(''.join([ header_bin[i*4:i*4+4][::-1] for i in range(0, 20) ])) elif settings.COINDAEMON_ALGO == 'x14': hash_bin = x14_hash.getPoWHash(''.join([ header_bin[i*4:i*4+4][::-1] for i in range(0, 20) ])) elif settings.COINDAEMON_ALGO == 'x15': hash_bin = bitblock_hash.getPoWHash(''.join([ header_bin[i*4:i*4+4][::-1] for i in range(0, 20) ])) elif settings.COINDAEMON_ALGO == 'x17': hash_bin = crypto_hash.getPoWHash(''.join([ header_bin[i*4:i*4+4][::-1] for i in range(0, 20) ])) elif settings.COINDAEMON_ALGO == 'fresh': hash_bin = fresh_hash.getPoWHash(''.join([ header_bin[i*4:i*4+4][::-1] for i in range(0, 20) ])) elif settings.COINDAEMON_ALGO == 'skeinhash': hash_bin = skeinhash.skeinhash(''.join([ header_bin[i*4:i*4+4][::-1] for i in range(0, 20) ])) else: hash_bin = util.doublesha(''.join([ header_bin[i*4:i*4+4][::-1] for i in range(0, 20) ])) hash_int = util.uint256_from_str(hash_bin) scrypt_hash_hex = "%064x" % hash_int header_hex = binascii.hexlify(header_bin) if settings.COINDAEMON_ALGO == 'scrypt' or settings.COINDAEMON_ALGO == 'scrypt-jane': header_hex = header_hex+"000000800000000000000000000000000000000000000000000000000000000000000000000000000000000080020000" elif settings.COINDAEMON_ALGO == 'quark': header_hex = header_hex+"000000800000000000000000000000000000000000000000000000000000000000000000000000000000000080020000" elif settings.COINDAEMON_ALGO == 'nist5': header_hex = header_hex+"000000800000000000000000000000000000000000000000000000000000000000000000000000000000000080020000" elif settings.COINDAEMON_ALGO == 'xcoin': header_hex = header_hex+"000000800000000000000000000000000000000000000000000000000000000000000000000000000000000080020000" elif settings.COINDAEMON_ALGO == 'x13': header_hex = header_hex+"000000800000000000000000000000000000000000000000000000000000000000000000000000000000000080020000" elif settings.COINDAEMON_ALGO == 'x14': header_hex = header_hex+"000000800000000000000000000000000000000000000000000000000000000000000000000000000000000080020000" elif settings.COINDAEMON_ALGO == 'x15': header_hex = header_hex+"000000800000000000000000000000000000000000000000000000000000000000000000000000000000000080020000" elif settings.COINDAEMON_ALGO == 'x17': header_hex = header_hex+"000000800000000000000000000000000000000000000000000000000000000000000000000000000000000080020000" elif settings.COINDAEMON_ALGO == 'fresh': header_hex = header_hex+"000000800000000000000000000000000000000000000000000000000000000000000000000000000000000080020000" else: pass target_user = self.diff_to_target(difficulty) if hash_int > target_user: raise SubmitException("Share is above target") # Mostly for debugging purposes target_info = self.diff_to_target(100000) if hash_int <= target_info: log.info("Yay, share with diff above 100000") # Algebra tells us the diff_to_target is the same as hash_to_diff share_diff = int(self.diff_to_target(hash_int)) # 5. Compare hash with target of the network if hash_int <= job.target: # Yay! It is block candidate! log.info("We found a block candidate! %s" % scrypt_hash_hex) # Reverse the header and get the potential block hash (for scrypt only) #if settings.COINDAEMON_ALGO == 'scrypt' or settings.COINDAEMON_ALGO == 'sha256d': # if settings.COINDAEMON_Reward == 'POW': block_hash_bin = util.doublesha(''.join([ header_bin[i*4:i*4+4][::-1] for i in range(0, 20) ])) block_hash_hex = block_hash_bin[::-1].encode('hex_codec') #else: block_hash_hex = hash_bin[::-1].encode('hex_codec') #else: block_hash_hex = hash_bin[::-1].encode('hex_codec') # 6. Finalize and serialize block object job.finalize(merkle_root_int, extranonce1_bin, extranonce2_bin, int(ntime, 16), int(nonce, 16)) if not job.is_valid(): # Should not happen log.exception("FINAL JOB VALIDATION FAILED!(Try enabling/disabling tx messages)") # 7. Submit block to the network serialized = binascii.hexlify(job.serialize()) on_submit = self.bitcoin_rpc.submitblock(serialized, block_hash_hex, scrypt_hash_hex) if on_submit: self.update_block() if settings.SOLUTION_BLOCK_HASH: return (header_hex, block_hash_hex, share_diff, on_submit) else: return (header_hex, scrypt_hash_hex, share_diff, on_submit) if settings.SOLUTION_BLOCK_HASH: # Reverse the header and get the potential block hash (for scrypt only) only do this if we want to send in the block hash to the shares table block_hash_bin = util.doublesha(''.join([ header_bin[i*4:i*4+4][::-1] for i in range(0, 20) ])) block_hash_hex = block_hash_bin[::-1].encode('hex_codec') return (header_hex, block_hash_hex, share_diff, None) else: return (header_hex, scrypt_hash_hex, share_diff, None)
def submit_share(self, job_id, worker_name, session, extranonce1_bin, extranonce2, ntime, nonce, difficulty): '''Check parameters and finalize block template. If it leads to valid block candidate, asynchronously submits the block back to the bitcoin network. - extranonce1_bin is binary. No checks performed, it should be from session data - job_id, extranonce2, ntime, nonce - in hex form sent by the client - difficulty - decimal number from session, again no checks performed - submitblock_callback - reference to method which receive result of submitblock() ''' # Check if extranonce2 looks correctly. extranonce2 is in hex form... if len(extranonce2) != self.extranonce2_size * 2: raise SubmitException("Incorrect size of extranonce2. Expected %d chars" % (self.extranonce2_size*2)) # Check for job job = self.get_job(job_id) if job == None: raise SubmitException("Job '%s' not found" % job_id) # Check if ntime looks correct if len(ntime) != 8: raise SubmitException("Incorrect size of ntime. Expected 8 chars") if not job.check_ntime(int(ntime, 16)): raise SubmitException("Ntime out of range") # Check nonce if len(nonce) != 8: raise SubmitException("Incorrect size of nonce. Expected 8 chars") # Check for duplicated submit if not job.register_submit(extranonce1_bin, extranonce2, ntime, nonce): log.info("Duplicate from %s, (%s %s %s %s)" % \ (worker_name, binascii.hexlify(extranonce1_bin), extranonce2, ntime, nonce)) raise SubmitException("Duplicate share") # Now let's do the hard work! # --------------------------- # 0. Some sugar extranonce2_bin = binascii.unhexlify(extranonce2) ntime_bin = binascii.unhexlify(ntime) nonce_bin = binascii.unhexlify(nonce) # 1. Build coinbase coinbase_bin = job.serialize_coinbase(extranonce1_bin, extranonce2_bin) if settings.COINDAEMON_ALGO == 'max' or settings.COINDAEMON_ALGO == 'blake': coinbase_hash = sha256(coinbase_bin).digest() else: coinbase_hash = util.doublesha(coinbase_bin) # 2. Calculate merkle root merkle_root_bin = job.merkletree.withFirst(coinbase_hash) merkle_root_int = util.uint256_from_str(merkle_root_bin) # 3. Serialize header with given merkle, ntime and nonce header_bin = job.serialize_header(merkle_root_int, ntime_bin, nonce_bin) # 4. Reverse header and compare it with target of the user if settings.COINDAEMON_ALGO == 'scrypt': hash_bin = ltc_scrypt.getPoWHash(''.join([ header_bin[i*4:i*4+4][::-1] for i in range(0, 20) ])) elif settings.COINDAEMON_ALGO == 'scrypt-jane': hash_bin = yac_scrypt.getPoWHash(''.join([ header_bin[i*4:i*4+4][::-1] for i in range(0, 20) ]), int(ntime, 16)) elif settings.COINDAEMON_ALGO == 'quark': hash_bin = quark_hash.getPoWHash(''.join([ header_bin[i*4:i*4+4][::-1] for i in range(0, 20) ])) elif settings.COINDAEMON_ALGO == 'max': hash_bin = max_hash.getPoWHash(''.join([ header_bin[i*4:i*4+4][::-1] for i in range(0, 20) ])) hash_bin = sha3_256(''.join([ header_bin[i*4:i*4+4][::-1] for i in range(0, 20) ])).digest()[0:33] elif settings.COINDAEMON_ALGO == 'blake': hash_bin = blake_hash.getPoWHash80(''.join([ header_bin[i*4:i*4+4][::-1] for i in range(0, 20) ]))#.digest()[0:33] elif settings.COINDAEMON_ALGO == 'skeinhash': hash_bin = skeinhash.skeinhash(''.join([ header_bin[i*4:i*4+4][::-1] for i in range(0, 20) ])) elif settings.COINDAEMON_ALGO == 'keccak': s = sha3.sha3_256() ntime1 = str(int(ntime, 16)) s.update(''.join([ header_bin[i*4:i*4+4][::-1] for i in range(0, 20) ]) + ntime1) hash_bin = s.hexdigest() else: hash_bin = util.doublesha(''.join([ header_bin[i*4:i*4+4][::-1] for i in range(0, 20) ])) hash_int = util.uint256_from_str(hash_bin) scrypt_hash_hex = "%064x" % hash_int header_hex = binascii.hexlify(header_bin) if settings.COINDAEMON_ALGO == 'scrypt' or settings.COINDAEMON_ALGO == 'scrypt-jane': header_hex = header_hex+"000000800000000000000000000000000000000000000000000000000000000000000000000000000000000080020000" elif settings.COINDAEMON_ALGO == 'quark': header_hex = header_hex+"000000800000000000000000000000000000000000000000000000000000000000000000000000000000000080020000" #elif settings.COINDAEMON_ALGO == 'max': #header_hex = header_hex+"000000800000000000000000000000000000000000000000000000000000000000000000000000000000000080020000" else: pass #target_user = self.diff_to_target(difficulty) target_user = self.diff_to_target(difficulty) #print(self.diff_to_target(target_user)) if hash_int > target_user: raise SubmitException("Share is above target. Hash: %s", scrypt_hash_hex) # Mostly for debugging purposes target_info = self.diff_to_target(100000) if hash_int <= target_info: log.info("Yay, share with diff above 100000") # Algebra tells us the diff_to_target is the same as hash_to_diff share_diff = int(self.diff_to_target(hash_int)) # 5. Compare hash with target of the network if hash_int <= job.target: # Yay! It is block candidate! log.info("We found a block candidate! %s" % scrypt_hash_hex) # Reverse the header and get the potential block hash (for scrypt only) if settings.COINDAEMON_ALGO == 'max': block_hash_bin = sha3_256(''.join([ header_bin[i*4:i*4+4][::-1] for i in range(0, 20) ])).digest()[0:33] block_hash_bin = sha3_256(''.join([ header_bin[i*4:i*4+4][::-1] for i in range(0, 20) ]) + str(int(ntime, 16))).hexdigest() elif settings.COINDAEMON_ALGO == 'blake': block_hash_bin = blake_hash.getPoWHash80(''.join([ header_bin[i*4:i*4+4][::-1] for i in range(0, 20) ])) #.digest()[0:33] #''.join([ header_bin[i*4:i*4+4][::-1] for i in range(0, 20) ]) + str(int(ntime, 16))).hexdigest() elif settings.COINDAEMON_ALGO == 'keccak': s = sha3.SHA3256() ntime1 = str(int(ntime, 16)) s.update(''.join([ header_bin[i*4:i*4+4][::-1] for i in range(0, 20) ]) + ntime1) else: block_hash_bin = util.doublesha(''.join([ header_bin[i*4:i*4+4][::-1] for i in range(0, 20) ])) block_hash_hex = block_hash_bin[::-1].encode('hex_codec') if settings.COINDAEMON_ALGO != 'max': block_hash_hex = hash_bin[::-1].encode('hex_codec') # 6. Finalize and serialize block object job.finalize(merkle_root_int, extranonce1_bin, extranonce2_bin, int(ntime, 16), int(nonce, 16)) if not job.is_valid(): # Should not happen log.exception("FINAL JOB VALIDATION FAILED!(Try enabling/disabling tx messages)") # 7. Submit block to the network serialized = binascii.hexlify(job.serialize()) on_submit = self.bitcoin_rpc.submitblock(serialized, block_hash_hex, scrypt_hash_hex) if on_submit: self.update_block() if settings.SOLUTION_BLOCK_HASH: return (header_hex, block_hash_hex, share_diff, on_submit) else: return (header_hex, scrypt_hash_hex, share_diff, on_submit) if settings.SOLUTION_BLOCK_HASH: # Reverse the header and get the potential block hash (for scrypt only) only do this if we want to send in the block hash to the shares table if settings.COINDAEMON_ALGO == 'keccak': s = sha3.sha3_256() ntime1 = str(int(ntime, 16)) s.update(''.join([ header_bin[i*4:i*4+4][::-1] for i in range(0, 20) ]) + ntime1) block_hash_bin = s.hexdigest() else: block_hash_bin = util.doublesha(''.join([ header_bin[i*4:i*4+4][::-1] for i in range(0, 20) ])) block_hash_hex = block_hash_bin[::-1].encode('hex_codec') return (header_hex, block_hash_hex, share_diff, None) else: return (header_hex, scrypt_hash_hex, share_diff, None)
def make_header_hash_skeinhash(header): return skeinhash.skeinhash(header)