# shares
-share_data_type = pack.ComposedType([
- ('previous_share_hash', pack.PossiblyNoneType(0, pack.IntType(256))),
- ('coinbase', pack.VarStrType()),
- ('nonce', pack.VarStrType()),
- ('new_script', pack.VarStrType()),
- ('subsidy', pack.IntType(64)),
- ('donation', pack.IntType(16)),
- ('stale_info', pack.IntType(8)), # 0 nothing, 253 orphan, 254 doa
-])
-
-share_info_type = pack.ComposedType([
- ('share_data', share_data_type),
- ('bits', bitcoin_data.FloatingIntegerType()),
- ('timestamp', pack.IntType(32)),
-])
-
-share1a_type = pack.ComposedType([
- ('header', bitcoin_data.block_header_type),
- ('share_info', share_info_type),
- ('merkle_branch', bitcoin_data.merkle_branch_type),
-])
-
-share1b_type = pack.ComposedType([
- ('header', bitcoin_data.block_header_type),
- ('share_info', share_info_type),
- ('other_txs', pack.ListType(bitcoin_data.tx_type)),
-])
-
-# new
-
small_block_header_type = pack.ComposedType([
('version', pack.VarIntType()), # XXX must be constrained to 32 bits
('previous_block', pack.PossiblyNoneType(0, pack.IntType(256))),
('nonce', pack.IntType(32)),
])
-new_share_data_type = pack.ComposedType([
+share_data_type = pack.ComposedType([
('previous_share_hash', pack.PossiblyNoneType(0, pack.IntType(256))),
('coinbase', pack.VarStrType()),
('nonce', pack.IntType(32)),
('stale_info', pack.IntType(8)), # 0 nothing, 253 orphan, 254 doa
])
-new_share_info_type = pack.ComposedType([
- ('share_data', new_share_data_type),
+share_info_type = pack.ComposedType([
+ ('share_data', share_data_type),
('max_bits', bitcoin_data.FloatingIntegerType()),
('bits', bitcoin_data.FloatingIntegerType()),
('timestamp', pack.IntType(32)),
])
-new_share1a_type = pack.ComposedType([
+share1a_type = pack.ComposedType([
('min_header', small_block_header_type),
- ('share_info', new_share_info_type),
+ ('share_info', share_info_type),
('hash_link', hash_link_type),
('merkle_branch', bitcoin_data.merkle_branch_type),
])
-new_share1b_type = pack.ComposedType([
+share1b_type = pack.ComposedType([
('min_header', small_block_header_type),
- ('share_info', new_share_info_type),
+ ('share_info', share_info_type),
('hash_link', hash_link_type),
('other_txs', pack.ListType(bitcoin_data.tx_type)),
])
# type:
-# 0: share1a
-# 1: share1b
-# 2: new_share1a
-# 3: new_share1b
+# 2: share1a
+# 3: share1b
share_type = pack.ComposedType([
('type', pack.VarIntType()),
('contents', pack.VarStrType()),
])
-class Share(object):
- __slots__ = 'header share_info merkle_branch other_txs timestamp share_data previous_hash target pow_hash header_hash hash time_seen peer net new_script max_target'.split(' ')
-
- @classmethod
- def from_share(cls, share, net, peer):
- if share['type'] == 0:
- res = cls(net, peer, **share1a_type.unpack(share['contents']))
- if not (res.pow_hash > res.header['bits'].target):
- raise ValueError('invalid share type')
- return res
- elif share['type'] == 1:
- share1b = share1b_type.unpack(share['contents'])
- res = cls(net, peer, merkle_branch=bitcoin_data.calculate_merkle_branch([0] + [bitcoin_data.hash256(bitcoin_data.tx_type.pack(x)) for x in share1b['other_txs']], 0), **share1b)
- if not (res.pow_hash <= res.header['bits'].target):
- raise ValueError('invalid share type')
- return res
- elif share['type'] == 2:
- res = NewShare(net, peer, **new_share1a_type.unpack(share['contents']))
- if not (res.pow_hash > res.header['bits'].target):
- raise ValueError('invalid share type')
- return res
- elif share['type'] == 3:
- share1b = new_share1b_type.unpack(share['contents'])
- res = NewShare(net, peer, merkle_branch=bitcoin_data.calculate_merkle_branch([0] + [bitcoin_data.hash256(bitcoin_data.tx_type.pack(x)) for x in share1b['other_txs']], 0), **share1b)
- if not (res.pow_hash <= res.header['bits'].target):
- raise ValueError('invalid share type')
- return res
- else:
- raise ValueError('unknown share type: %r' % (share['type'],))
-
- def __init__(self, net, peer, header, share_info, merkle_branch, other_txs=None):
- self.net = net
- self.peer = peer
-
- if p2pool.DEBUG and other_txs is not None and bitcoin_data.calculate_merkle_branch([0] + [bitcoin_data.hash256(bitcoin_data.tx_type.pack(x)) for x in other_txs], 0) != merkle_branch:
- raise ValueError('merkle_branch and other_txs do not match')
-
- if len(merkle_branch) > 16:
- raise ValueError('merkle_branch too long!')
-
- self.header = header
- self.share_info = share_info
- self.merkle_branch = merkle_branch
-
- self.share_data = self.share_info['share_data']
- self.target = self.max_target = self.share_info['bits'].target
- self.timestamp = self.share_info['timestamp']
- if self.timestamp > net.SWITCH_TIME + 60*60:
- raise ValueError('old share an hour after switch time')
-
- if len(self.share_data['new_script']) > 100:
- raise ValueError('new_script too long!')
- if script.get_sigop_count(self.share_data['new_script']) > 1:
- raise ValueError('too many sigops!')
- self.new_script = self.share_data['new_script']
-
- self.previous_hash = self.share_data['previous_share_hash']
-
- if len(self.share_data['nonce']) > 100:
- raise ValueError('nonce too long!')
-
- if len(self.share_data['coinbase']) > 100:
- raise ValueError('''coinbase too large! %i bytes''' % (len(self.share_data['coinbase']),))
-
- self.pow_hash = net.PARENT.POW_FUNC(bitcoin_data.block_header_type.pack(header))
- self.header_hash = bitcoin_data.hash256(bitcoin_data.block_header_type.pack(header))
-
- self.hash = bitcoin_data.hash256(share1a_type.pack(self.as_share1a()))
-
- if self.pow_hash > self.target:
- print 'hash %x' % self.pow_hash
- print 'targ %x' % self.target
- raise ValueError('not enough work!')
-
- if other_txs is not None and not self.pow_hash <= self.header['bits'].target:
- raise ValueError('other_txs provided when not a block solution')
- if other_txs is None and self.pow_hash <= self.header['bits'].target:
- raise ValueError('other_txs not provided when a block solution')
-
- self.other_txs = other_txs
-
- # XXX eww
- self.time_seen = time.time()
-
- def __repr__(self):
- return '<Share %s>' % (' '.join('%s=%r' % (k, getattr(self, k)) for k in self.__slots__),)
-
- def check(self, tracker):
- share_info, gentx = generate_transaction(tracker, self.share_info['share_data'], self.header['bits'].target, self.share_info['timestamp'], self.net)
- if share_info != self.share_info:
- raise ValueError('share difficulty invalid')
-
- if bitcoin_data.check_merkle_branch(bitcoin_data.hash256(bitcoin_data.tx_type.pack(gentx)), 0, self.merkle_branch) != self.header['merkle_root']:
- raise ValueError('''gentx doesn't match header via merkle_branch''')
-
- def as_share(self):
- if self.pow_hash > self.header['bits'].target: # share1a
- return dict(type=0, contents=share1a_type.pack(self.as_share1a()))
- elif self.pow_hash <= self.header['bits'].target: # share1b
- if self.other_txs is None:
- raise ValueError('share does not contain all txs')
- return dict(type=1, contents=share1b_type.pack(dict(header=self.header, share_info=self.share_info, other_txs=self.other_txs)))
- else:
- raise AssertionError()
-
- def as_share1a(self):
- return dict(header=self.header, share_info=self.share_info, merkle_branch=self.merkle_branch)
-
- def as_block(self, tracker):
- if self.other_txs is None:
- raise ValueError('share does not contain all txs')
-
- share_info, gentx = generate_transaction(tracker, self.share_info['share_data'], self.header['bits'].target, self.share_info['timestamp'], self.net)
- assert share_info == self.share_info
-
- return dict(header=self.header, txs=[gentx] + self.other_txs)
def get_pool_attempts_per_second(tracker, previous_share_hash, dist, min_work=False):
assert dist >= 2
DONATION_SCRIPT = '4104ffd03de44a6e11b9917f3a29f9443283d9871c9d743ef30d5eddcd37094b64d1b3d8090496b53256786bf5c82932ec23c3b74d9f05a6f95a8b5529352656664bac'.decode('hex')
-def generate_transaction(tracker, share_data, block_target, desired_timestamp, net):
- previous_share_hash = share_data['previous_share_hash']
- new_script = share_data['new_script']
- subsidy = share_data['subsidy']
- donation = share_data['donation']
- assert 0 <= donation <= 65535
-
- if len(share_data['coinbase']) > 100:
- raise ValueError('coinbase too long!')
-
- previous_share = tracker.shares[previous_share_hash] if previous_share_hash is not None else None
-
- chain_length = getattr(net, 'REAL_CHAIN_LENGTH_FUNC', lambda _: net.REAL_CHAIN_LENGTH)(previous_share.timestamp if previous_share is not None else None)
-
- height, last = tracker.get_height_and_last(previous_share_hash)
- assert height >= chain_length or last is None
- if height < net.TARGET_LOOKBEHIND:
- bits = bitcoin_data.FloatingInteger.from_target_upper_bound(net.MAX_TARGET)
- else:
- attempts_per_second = get_pool_attempts_per_second(tracker, previous_share_hash, net.TARGET_LOOKBEHIND)
- pre_target = 2**256//(net.SHARE_PERIOD*attempts_per_second) - 1
- pre_target2 = math.clip(pre_target, (previous_share.target*9//10, previous_share.target*11//10))
- pre_target3 = math.clip(pre_target2, (0, net.MAX_TARGET))
- bits = bitcoin_data.FloatingInteger.from_target_upper_bound(pre_target3)
-
- attempts_to_block = bitcoin_data.target_to_average_attempts(block_target)
- max_att = net.SPREAD * attempts_to_block
-
- this_att = min(bitcoin_data.target_to_average_attempts(bits.target), max_att)
- other_weights, other_total_weight, other_donation_weight = tracker.get_cumulative_weights(previous_share_hash, min(height, chain_length), 65535*max(0, max_att - this_att))
- assert other_total_weight == sum(other_weights.itervalues()) + other_donation_weight, (other_total_weight, sum(other_weights.itervalues()) + other_donation_weight)
- weights, total_weight, donation_weight = math.add_dicts({new_script: this_att*(65535-donation)}, other_weights), this_att*65535 + other_total_weight, this_att*donation + other_donation_weight
- assert total_weight == sum(weights.itervalues()) + donation_weight, (total_weight, sum(weights.itervalues()) + donation_weight)
-
- # 1 satoshi is always donated so that a list of p2pool generated blocks can be easily found by looking at the donation address
- amounts = dict((script, (subsidy-1)*(199*weight)//(200*total_weight)) for (script, weight) in weights.iteritems())
- amounts[new_script] = amounts.get(new_script, 0) + (subsidy-1)//200
- amounts[DONATION_SCRIPT] = amounts.get(DONATION_SCRIPT, 0) + (subsidy-1)*(199*donation_weight)//(200*total_weight)
- amounts[DONATION_SCRIPT] = amounts.get(DONATION_SCRIPT, 0) + subsidy - sum(amounts.itervalues()) # collect any extra satoshis :P
-
- if sum(amounts.itervalues()) != subsidy:
- raise ValueError()
- if any(x < 0 for x in amounts.itervalues()):
- raise ValueError()
-
- dests = sorted(amounts.iterkeys(), key=lambda script: (amounts[script], script))
- dests = dests[-4000:] # block length limit, unlikely to ever be hit
-
- share_info = dict(
- share_data=share_data,
- bits=bits,
- timestamp=math.clip(desired_timestamp, (previous_share.timestamp - 60, previous_share.timestamp + 60)) if previous_share is not None else desired_timestamp,
- )
-
- return share_info, dict(
- version=1,
- tx_ins=[dict(
- previous_output=None,
- sequence=None,
- script=share_data['coinbase'].ljust(2, '\x00'),
- )],
- tx_outs=[dict(value=0, script='\x20' + pack.IntType(256).pack(bitcoin_data.hash256(share_info_type.pack(share_info))))] + [dict(value=amounts[script], script=script) for script in dests if amounts[script]],
- lock_time=0,
- )
-
ref_type = pack.ComposedType([
('identifier', pack.FixedStrType(64//8)),
- ('share_info', new_share_info_type),
+ ('share_info', share_info_type),
])
gentx_before_refhash = pack.VarStrType().pack(DONATION_SCRIPT) + pack.IntType(64).pack(0) + pack.VarStrType().pack('\x20' + pack.IntType(256).pack(0))[:2]
-def new_generate_transaction(tracker, share_data, block_target, desired_timestamp, desired_target, net):
+def generate_transaction(tracker, share_data, block_target, desired_timestamp, desired_target, net):
previous_share = tracker.shares[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'])
res[DONATION_SCRIPT] = res.get(DONATION_SCRIPT, 0) + subsidy - sum(res.itervalues())
return res
-class NewShare(object):
+class Share(object):
__slots__ = 'net min_header share_info hash_link merkle_branch other_txs hash share_data max_target target timestamp previous_hash new_script gentx_hash header pow_hash header_hash time_seen peer'.split(' ')
+ @classmethod
+ def from_share(cls, share, net, peer):
+ if share['type'] == 2:
+ res = cls(net, peer, **share1a_type.unpack(share['contents']))
+ if not (res.pow_hash > res.header['bits'].target):
+ raise ValueError('invalid share type')
+ return res
+ elif share['type'] == 3:
+ share1b = share1b_type.unpack(share['contents'])
+ res = cls(net, peer, merkle_branch=bitcoin_data.calculate_merkle_branch([0] + [bitcoin_data.hash256(bitcoin_data.tx_type.pack(x)) for x in share1b['other_txs']], 0), **share1b)
+ if not (res.pow_hash <= res.header['bits'].target):
+ raise ValueError('invalid share type')
+ return res
+ else:
+ raise ValueError('unknown share type: %r' % (share['type'],))
+
def __init__(self, net, peer, min_header, share_info, hash_link, merkle_branch, other_txs=None):
if len(share_info['share_data']['coinbase']) > 100:
raise ValueError('''coinbase too large! %i bytes''' % (len(self.share_data['coinbase']),))
self.timestamp = self.share_info['timestamp']
self.previous_hash = self.share_data['previous_share_hash']
self.new_script = bitcoin_data.pubkey_hash_to_script2(self.share_data['pubkey_hash'])
- if self.timestamp < net.SWITCH_TIME - 60*60:
- raise ValueError('new share an hour before switch time')
self.gentx_hash = check_hash_link(
hash_link,
return '<Share %s>' % (' '.join('%s=%r' % (k, getattr(self, k)) for k in self.__slots__),)
def check(self, tracker):
- share_info, gentx = new_generate_transaction(tracker, self.share_info['share_data'], self.header['bits'].target, self.share_info['timestamp'], self.share_info['bits'].target, self.net)
+ share_info, gentx = generate_transaction(tracker, self.share_info['share_data'], self.header['bits'].target, self.share_info['timestamp'], self.share_info['bits'].target, self.net)
if share_info != self.share_info:
raise ValueError('share difficulty invalid')
if bitcoin_data.hash256(bitcoin_data.tx_type.pack(gentx)) != self.gentx_hash:
if block_hint is None:
block_hint = self.pow_hash <= self.header['bits'].target
if not block_hint: # share1a
- return dict(type=2, contents=new_share1a_type.pack(dict(min_header=self.min_header, share_info=self.share_info, hash_link=self.hash_link, merkle_branch=self.merkle_branch)))
+ return dict(type=2, contents=share1a_type.pack(dict(min_header=self.min_header, share_info=self.share_info, hash_link=self.hash_link, merkle_branch=self.merkle_branch)))
else: # share1b
if self.other_txs is None:
raise ValueError('share does not contain all txs')
- return dict(type=3, contents=new_share1b_type.pack(dict(min_header=self.min_header, share_info=self.share_info, hash_link=self.hash_link, other_txs=self.other_txs)))
+ return dict(type=3, contents=share1b_type.pack(dict(min_header=self.min_header, share_info=self.share_info, hash_link=self.hash_link, other_txs=self.other_txs)))
def as_block(self, tracker):
if self.other_txs is None:
raise ValueError('share does not contain all txs')
- share_info, gentx = new_generate_transaction(tracker, self.share_info['share_data'], self.header['bits'].target, self.share_info['timestamp'], self.share_info['bits'].target, self.net)
+ share_info, gentx = generate_transaction(tracker, self.share_info['share_data'], self.header['bits'].target, self.share_info['timestamp'], self.share_info['bits'].target, self.net)
assert share_info == self.share_info
return dict(header=self.header, txs=[gentx] + self.other_txs)
mm_data = ''
mm_later = []
- new = (tracker.shares[current_work.value['best_share_hash']].timestamp if current_work.value['best_share_hash'] is not None else time.time()) > net.SWITCH_TIME
-
- if new:
- share_info, generate_tx = p2pool_data.new_generate_transaction(
- tracker=tracker,
- share_data=dict(
- previous_share_hash=current_work.value['best_share_hash'],
- coinbase=(mm_data + current_work.value['coinbaseflags'])[:100],
- nonce=random.randrange(2**32),
- pubkey_hash=pubkey_hash,
- subsidy=current_work2.value['subsidy'],
- donation=math.perfect_round(65535*args.donation_percentage/100),
- stale_info=(lambda (orphans, doas), total, (orphans_recorded_in_chain, doas_recorded_in_chain):
- 253 if orphans > orphans_recorded_in_chain else
- 254 if doas > doas_recorded_in_chain else
- 0
- )(*get_stale_counts()),
- ),
- block_target=current_work.value['bits'].target,
- desired_timestamp=int(time.time() - current_work2.value['clock_offset']),
- desired_target=desired_share_target,
- net=net,
- )
- else:
- share_info, generate_tx = p2pool_data.generate_transaction(
- tracker=tracker,
- share_data=dict(
- previous_share_hash=current_work.value['best_share_hash'],
- coinbase=(mm_data + current_work.value['coinbaseflags'])[:100],
- nonce=struct.pack('<Q', random.randrange(2**64)),
- new_script=bitcoin_data.pubkey_hash_to_script2(pubkey_hash),
- subsidy=current_work2.value['subsidy'],
- donation=math.perfect_round(65535*args.donation_percentage/100),
- stale_info=(lambda (orphans, doas), total, (orphans_recorded_in_chain, doas_recorded_in_chain):
- 253 if orphans > orphans_recorded_in_chain else
- 254 if doas > doas_recorded_in_chain else
- 0
- )(*get_stale_counts()),
- ),
- block_target=current_work.value['bits'].target,
- desired_timestamp=int(time.time() - current_work2.value['clock_offset']),
- net=net,
- )
+ share_info, generate_tx = p2pool_data.generate_transaction(
+ tracker=tracker,
+ share_data=dict(
+ previous_share_hash=current_work.value['best_share_hash'],
+ coinbase=(mm_data + current_work.value['coinbaseflags'])[:100],
+ nonce=random.randrange(2**32),
+ pubkey_hash=pubkey_hash,
+ subsidy=current_work2.value['subsidy'],
+ donation=math.perfect_round(65535*args.donation_percentage/100),
+ stale_info=(lambda (orphans, doas), total, (orphans_recorded_in_chain, doas_recorded_in_chain):
+ 253 if orphans > orphans_recorded_in_chain else
+ 254 if doas > doas_recorded_in_chain else
+ 0
+ )(*get_stale_counts()),
+ ),
+ block_target=current_work.value['bits'].target,
+ desired_timestamp=int(time.time() - current_work2.value['clock_offset']),
+ desired_target=desired_share_target,
+ net=net,
+ )
target = net.PARENT.SANE_MAX_TARGET
if desired_pseudoshare_target is None:
log.err(None, 'Error while processing merged mining POW:')
if pow_hash <= share_info['bits'].target:
- if new:
- min_header = dict(header);del min_header['merkle_root']
- hash_link = p2pool_data.prefix_to_hash_link(packed_generate_tx[:-32-4], p2pool_data.gentx_before_refhash)
- share = p2pool_data.NewShare(net, None, min_header, share_info, hash_link=hash_link, merkle_branch=merkle_branch, other_txs=transactions[1:] if pow_hash <= header['bits'].target else None)
- else:
- share = p2pool_data.Share(net, None, header, share_info, merkle_branch=merkle_branch, other_txs=transactions[1:] if pow_hash <= header['bits'].target else None)
+ min_header = dict(header);del min_header['merkle_root']
+ hash_link = p2pool_data.prefix_to_hash_link(packed_generate_tx[:-32-4], p2pool_data.gentx_before_refhash)
+ share = p2pool_data.Share(net, None, min_header, share_info, hash_link=hash_link, merkle_branch=merkle_branch, other_txs=transactions[1:] if pow_hash <= header['bits'].target else None)
+
print 'GOT SHARE! %s %s prev %s age %.2fs%s' % (
request.getUser(),
p2pool_data.format_hash(share.hash),