def test_tx_hash(self): assert data.hash256( data.tx_type.pack( dict( version=1, tx_ins=[ dict( previous_output=None, sequence=None, script= '70736a0468860e1a0452389500522cfabe6d6d2b2f33cf8f6291b184f1b291d24d82229463fcec239afea0ee34b4bfc622f62401000000000000004d696e656420627920425443204775696c6420ac1eeeed88' .decode('hex'), ) ], tx_outs=[ dict( value=5003880250, script=data.pubkey_hash_to_script2( pack.IntType(160).unpack( 'ca975b00a8c203b8692f5a18d92dc5c2d2ebc57b'. decode('hex'))), ) ], lock_time=0, )) ) == 0xb53802b2333e828d6532059f46ecf6b313a42d79f97925e457fbbfda45367e5c
def __init__(self, net, peer_addr, contents): self.net = net self.peer_addr = peer_addr self.contents = contents self.min_header = contents['min_header'] self.share_info = contents['share_info'] self.hash_link = contents['hash_link'] self.merkle_link = contents['merkle_link'] if not (2 <= len(self.share_info['share_data']['coinbase']) <= 100): raise ValueError( '''bad coinbase size! %i bytes''' % (len(self.share_info['share_data']['coinbase']), )) if len(self.merkle_link['branch']) > 16: raise ValueError('merkle branch too long!') assert not self.hash_link['extra_data'], repr( self.hash_link['extra_data']) self.share_data = self.share_info['share_data'] self.max_target = self.share_info['max_bits'].target self.target = self.share_info['bits'].target self.timestamp = self.share_info['timestamp'] self.previous_hash = self.share_data['previous_share_hash'] self.new_script = axe_data.pubkey_hash_to_script2( self.share_data['pubkey_hash']) self.desired_version = self.share_data['desired_version'] self.absheight = self.share_info['absheight'] self.abswork = self.share_info['abswork'] n = set() for share_count, tx_count in self.iter_transaction_hash_refs(): assert share_count < 110 if share_count == 0: n.add(tx_count) assert n == set(xrange(len(self.share_info['new_transaction_hashes']))) self.gentx_hash = check_hash_link( self.hash_link, self.get_ref_hash(net, self.share_info, contents['ref_merkle_link']) + pack.IntType(64).pack(self.contents['last_txout_nonce']) + pack.IntType(32).pack(0), self.gentx_before_refhash, ) merkle_root = axe_data.check_merkle_link(self.gentx_hash, self.merkle_link) self.header = dict(self.min_header, merkle_root=merkle_root) self.pow_hash = net.PARENT.POW_FUNC( axe_data.block_header_type.pack(self.header)) self.hash = self.header_hash = net.PARENT.BLOCKHASH_FUNC( axe_data.block_header_type.pack(self.header)) if self.target > net.MAX_TARGET: from p2pool import p2p raise p2p.PeerMisbehavingError('share target invalid') if self.pow_hash > self.target: from p2pool import p2p raise p2p.PeerMisbehavingError('share PoW invalid') self.new_transaction_hashes = self.share_info['new_transaction_hashes'] # XXX eww self.time_seen = time.time()
def generate_transaction(cls, tracker, share_data, block_target, desired_timestamp, desired_target, ref_merkle_link, desired_other_transaction_hashes_and_fees, net, known_txs=None, last_txout_nonce=0, base_subsidy=None): previous_share = tracker.items[ share_data['previous_share_hash']] if share_data[ 'previous_share_hash'] is not None else None height, last = tracker.get_height_and_last( share_data['previous_share_hash']) assert height >= net.REAL_CHAIN_LENGTH or last is None if height < net.TARGET_LOOKBEHIND: pre_target3 = net.MAX_TARGET else: attempts_per_second = get_pool_attempts_per_second( tracker, share_data['previous_share_hash'], net.TARGET_LOOKBEHIND, min_work=True, integer=True) pre_target = 2**256 // ( net.SHARE_PERIOD * attempts_per_second) - 1 if attempts_per_second else 2**256 - 1 pre_target2 = math.clip(pre_target, (previous_share.max_target * 9 // 10, previous_share.max_target * 11 // 10)) pre_target3 = math.clip(pre_target2, (net.MIN_TARGET, net.MAX_TARGET)) max_bits = axe_data.FloatingInteger.from_target_upper_bound( pre_target3) bits = axe_data.FloatingInteger.from_target_upper_bound( math.clip(desired_target, (pre_target3 // 30, pre_target3))) new_transaction_hashes = [] new_transaction_size = 0 transaction_hash_refs = [] other_transaction_hashes = [] past_shares = list( tracker.get_chain(share_data['previous_share_hash'], min(height, 100))) tx_hash_to_this = {} for i, share in enumerate(past_shares): for j, tx_hash in enumerate(share.new_transaction_hashes): if tx_hash not in tx_hash_to_this: tx_hash_to_this[tx_hash] = [1 + i, j] # share_count, tx_count for tx_hash, fee in desired_other_transaction_hashes_and_fees: if tx_hash in tx_hash_to_this: this = tx_hash_to_this[tx_hash] else: if known_txs is not None: this_size = axe_data.tx_type.packed_size( known_txs[tx_hash]) #if new_transaction_size + this_size > 50000: # only allow 50 kB of new txns/share # break new_transaction_size += this_size new_transaction_hashes.append(tx_hash) this = [0, len(new_transaction_hashes) - 1] transaction_hash_refs.extend(this) other_transaction_hashes.append(tx_hash) included_transactions = set(other_transaction_hashes) removed_fees = [ fee for tx_hash, fee in desired_other_transaction_hashes_and_fees if tx_hash not in included_transactions ] definite_fees = sum( 0 if fee is None else fee for tx_hash, fee in desired_other_transaction_hashes_and_fees if tx_hash in included_transactions) if None not in removed_fees: share_data = dict(share_data, subsidy=share_data['subsidy'] - sum(removed_fees)) else: assert base_subsidy is not None share_data = dict(share_data, subsidy=base_subsidy + definite_fees) weights, total_weight, donation_weight = tracker.get_cumulative_weights( previous_share.share_data['previous_share_hash'] if previous_share is not None else None, max(0, min(height, net.REAL_CHAIN_LENGTH) - 1), 65535 * net.SPREAD * axe_data.target_to_average_attempts(block_target), ) assert total_weight == sum(weights.itervalues()) + donation_weight, ( total_weight, sum(weights.itervalues()) + donation_weight) worker_payout = share_data['subsidy'] payments = share_data['packed_payments'] payments_tx = [] if payments is not None: for obj in payments: pm_script = axe_data.address_to_script2( obj['payee'], net.PARENT) pm_payout = obj['amount'] if pm_payout > 0: payments_tx += [dict(value=pm_payout, script=pm_script)] worker_payout -= pm_payout amounts = dict( (script, worker_payout * (49 * weight) // (50 * total_weight)) for script, weight in weights.iteritems( )) # 98% goes according to weights prior to this share this_script = axe_data.pubkey_hash_to_script2( share_data['pubkey_hash']) amounts[this_script] = amounts.get( this_script, 0) + worker_payout // 50 # 2% goes to block finder amounts[DONATION_SCRIPT] = amounts.get( DONATION_SCRIPT, 0 ) + worker_payout - sum( amounts.itervalues() ) # all that's left over is the donation weight and some extra satoshis due to rounding if sum(amounts.itervalues()) != worker_payout or any( x < 0 for x in amounts.itervalues()): raise ValueError() worker_scripts = sorted( [k for k in amounts.iterkeys() if k != DONATION_SCRIPT]) worker_tx = [ dict(value=amounts[script], script=script) for script in worker_scripts if amounts[script] ] donation_tx = [ dict(value=amounts[DONATION_SCRIPT], script=DONATION_SCRIPT) ] share_info = dict( share_data=share_data, far_share_hash=None if last is None and height < 99 else tracker.get_nth_parent_hash(share_data['previous_share_hash'], 99), max_bits=max_bits, bits=bits, timestamp=math.clip( desired_timestamp, ( (previous_share.timestamp + net.SHARE_PERIOD) - (net.SHARE_PERIOD - 1), # = previous_share.timestamp + 1 (previous_share.timestamp + net.SHARE_PERIOD) + (net.SHARE_PERIOD - 1), )) if previous_share is not None else desired_timestamp, new_transaction_hashes=new_transaction_hashes, transaction_hash_refs=transaction_hash_refs, absheight=((previous_share.absheight if previous_share is not None else 0) + 1) % 2**32, abswork=( (previous_share.abswork if previous_share is not None else 0) + axe_data.target_to_average_attempts(bits.target)) % 2**128, ) gentx = dict( version=1, tx_ins=[ dict( previous_output=None, sequence=None, script=share_data['coinbase'], ) ], tx_outs=worker_tx + payments_tx + donation_tx + [ dict( value=0, script='\x6a\x28' + cls.get_ref_hash(net, share_info, ref_merkle_link) + pack.IntType(64).pack(last_txout_nonce), ) ], lock_time=0, ) def get_share(header, last_txout_nonce=last_txout_nonce): min_header = dict(header) del min_header['merkle_root'] share = cls( net, None, dict( min_header=min_header, share_info=share_info, ref_merkle_link=dict(branch=[], index=0), last_txout_nonce=last_txout_nonce, hash_link=prefix_to_hash_link( axe_data.tx_type.pack(gentx)[:-32 - 8 - 4], cls.gentx_before_refhash), merkle_link=axe_data.calculate_merkle_link( [None] + other_transaction_hashes, 0), )) assert share.header == header # checks merkle_root return share return share_info, gentx, other_transaction_hashes, get_share