from twisted.python import log
-from p2pool.bitcoin import data as bitcoin_data
-from p2pool.bitcoin import script
-from p2pool.util import memoize, expiring_dict, math, skiplist
-
-class CompressedList(bitcoin_data.Type):
- def __init__(self, inner):
- self.inner = inner
-
- def read(self, file):
- values, file = bitcoin_data.ListType(self.inner).read(file)
- if values != sorted(set(values)):
- raise ValueError('invalid values')
- references, file = bitcoin_data.ListType(bitcoin_data.VarIntType()).read(file)
- return [values[reference] for reference in references], file
-
- def write(self, file, item):
- values = sorted(set(item))
- values_map = dict((value, i) for i, value in enumerate(values))
- file = bitcoin_data.ListType(self.inner).write(file, values)
- return bitcoin_data.ListType(bitcoin_data.VarIntType()).write(file, [values_map[subitem] for subitem in item])
+import p2pool
+from p2pool import skiplists
+from p2pool.bitcoin import data as bitcoin_data, script
+from p2pool.util import memoize, expiring_dict, math
merkle_branch_type = bitcoin_data.ListType(bitcoin_data.ComposedType([
share_data_type = bitcoin_data.ComposedType([
('previous_share_hash', bitcoin_data.PossiblyNone(0, bitcoin_data.HashType())),
- ('target2', bitcoin_data.FloatingIntegerType()),
+ ('target', bitcoin_data.FloatingIntegerType()),
('nonce', bitcoin_data.VarStrType()),
])
('other_txs', bitcoin_data.ListType(bitcoin_data.tx_type)),
])
-shares_type = CompressedList(bitcoin_data.VarStrType())
-
def calculate_merkle_branch(txs, index):
hash_list = [(bitcoin_data.tx_type.hash256(tx), i == index, []) for i, tx in enumerate(txs)]
)
class Share(object):
- peer = None
- gentx = None
-
@classmethod
def from_block(cls, block):
return cls(block['header'], gentx_to_share_info(block['txs'][0]), other_txs=block['txs'][1:])
def from_share1b(cls, share1b):
return cls(**share1b)
+ __slots__ = 'header previous_block share_info merkle_branch other_txs timestamp share_data new_script subsidy previous_hash previous_share_hash target nonce bitcoin_hash hash time_seen shared peer'.split(' ')
+
def __init__(self, header, share_info, merkle_branch=None, other_txs=None):
if merkle_branch is None and other_txs is None:
raise ValueError('need either merkle_branch or other_txs')
raise ValueError('merkle_branch too long!')
self.header = header
+ self.previous_block = header['previous_block']
self.share_info = share_info
self.merkle_branch = merkle_branch
self.other_txs = other_txs
raise ValueError('new_script too long!')
self.previous_hash = self.previous_share_hash = self.share_data['previous_share_hash']
- self.target2 = self.share_data['target2']
+ self.target = self.share_data['target']
self.nonce = self.share_data['nonce']
- if len(self.nonce) > 20:
+ if len(self.nonce) > 100:
raise ValueError('nonce too long!')
- self.hash = bitcoin_data.block_header_type.hash256(header)
+ self.bitcoin_hash = bitcoin_data.block_header_type.hash256(header)
+ self.hash = share1a_type.hash256(self.as_share1a())
- if self.hash > self.target2:
- print 'hash', hex(self.hash)
- print 'targ', hex(self.target2)
+ if self.bitcoin_hash > self.target:
+ print 'hash', hex(self.bitcoin_hash)
+ print 'targ', hex(self.target)
raise ValueError('not enough work!')
if script.get_sigop_count(self.new_script) > 1:
raise ValueError('too many sigops!')
+ # XXX eww
self.time_seen = time.time()
self.shared = False
+ self.peer = None
- def as_block(self):
+ def as_block(self, tracker, net):
if self.other_txs is None:
raise ValueError('share does not contain all txs')
- return dict(header=self.header, txs=[self.gentx] + self.other_txs)
+ gentx = share_info_to_gentx(self.share_info, self.header['target'], tracker, net)
+
+ return dict(header=self.header, txs=[gentx] + self.other_txs)
def as_share1a(self):
return dict(header=self.header, share_info=self.share_info, merkle_branch=self.merkle_branch)
gentx = share_info_to_gentx(self.share_info, self.header['target'], tracker, net)
+ if len(gentx['tx_ins'][0]['script']) > 100:
+ raise ValueError('''coinbase too large!''')
+
if check_merkle_branch(gentx, self.merkle_branch) != self.header['merkle_root']:
raise ValueError('''gentx doesn't match header via merkle_branch''')
if len(bitcoin_data.block_type.pack(dict(header=self.header, txs=[gentx] + self.other_txs))) > 1000000 - 1000:
raise ValueError('''block size too large''')
-
- self.gentx = gentx
-
- return Share2(self)
def flag_shared(self):
self.shared = True
def __repr__(self):
return '<Share %s>' % (' '.join('%s=%r' % (k, v) for k, v in self.__dict__.iteritems()),)
-class Share2(object):
- '''Share with associated data'''
-
- def __init__(self, share):
- self.share = share
-
- self.shared = False
-
- def flag_shared(self):
- self.shared = True
-
-def get_pool_attempts_per_second(tracker, previous_share_hash, net):
- chain = list(itertools.islice(tracker.get_chain_to_root(previous_share_hash), net.TARGET_LOOKBEHIND))
- attempts = sum(bitcoin_data.target_to_average_attempts(share.target2) for share in chain[:-1])
- time = chain[0].timestamp - chain[-1].timestamp
+def get_pool_attempts_per_second(tracker, previous_share_hash, net, dist=None):
+ if dist is None:
+ dist = net.TARGET_LOOKBEHIND
+ near = tracker.shares[previous_share_hash]
+ far = tracker.shares[tracker.get_nth_parent_hash(previous_share_hash, dist - 1)]
+ attempts = tracker.get_work(near.hash) - tracker.get_work(far.hash)
+ time = near.timestamp - far.timestamp
if time == 0:
time = 1
return attempts//time
def generate_transaction(tracker, previous_share_hash, new_script, subsidy, nonce, block_target, net):
- if __debug__:
- print "start generate_transaction"
height, last = tracker.get_height_and_last(previous_share_hash)
if height < net.TARGET_LOOKBEHIND:
- target2 = bitcoin_data.FloatingIntegerType().truncate_to(2**256//2**20 - 1)
+ target = bitcoin_data.FloatingIntegerType().truncate_to(2**256//2**20 - 1)
else:
attempts_per_second = get_pool_attempts_per_second(tracker, previous_share_hash, net)
pre_target = 2**256//(net.SHARE_PERIOD*attempts_per_second) - 1
previous_share = tracker.shares[previous_share_hash] if previous_share_hash is not None else None
- pre_target2 = math.clip(pre_target, (previous_share.target2*9//10, previous_share.target2*11//10))
- pre_target3 = math.clip(pre_target2, (0, 2**256//2**32 - 1))
- target2 = bitcoin_data.FloatingIntegerType().truncate_to(pre_target3)
+ 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))
+ target = bitcoin_data.FloatingIntegerType().truncate_to(pre_target3)
attempts_to_block = bitcoin_data.target_to_average_attempts(block_target)
max_weight = net.SPREAD * attempts_to_block
- '''
- class fake_share(object):
- pass
- fake_share.new_script = new_script
- fake_share.target2 = target2
-
- dest_weights = {}
- total_weight = 0
- for share in itertools.chain([fake_share], itertools.islice(tracker.get_chain_to_root(previous_share_hash), net.CHAIN_LENGTH)):
- weight = bitcoin_data.target_to_average_attempts(share.target2)
- if weight > max_weight - total_weight:
- weight = max_weight - total_weight
-
- dest_weights[share.new_script] = dest_weights.get(share.new_script, 0) + weight
- total_weight += weight
-
- if total_weight == max_weight:
- break
- '''
-
- this_weight = min(bitcoin_data.target_to_average_attempts(target2), max_weight)
- dest_weights = math.add_dicts([{new_script: this_weight}, tracker.get_cumulative_weights(previous_share_hash, min(tracker.get_height_and_last(previous_share_hash)[0], net.CHAIN_LENGTH), max(0, max_weight - this_weight))[0]])
- total_weight = sum(dest_weights.itervalues())
- #assert dest_weights == dest_weights2
+ this_weight = min(bitcoin_data.target_to_average_attempts(target), max_weight)
+ other_weights, other_weights_total = tracker.get_cumulative_weights(previous_share_hash, min(height, net.CHAIN_LENGTH), max(0, max_weight - this_weight))
+ dest_weights, total_weight = math.add_dicts([{new_script: this_weight}, other_weights]), this_weight + other_weights_total
+ assert total_weight == sum(dest_weights.itervalues())
- amounts = dict((script, subsidy*(198*weight)//(200*total_weight)) for (script, weight) in dest_weights.iteritems())
- amounts[new_script] = amounts.get(new_script, 0) + subsidy*1//200
- amounts[net.SCRIPT] = amounts.get(net.SCRIPT, 0) + subsidy*1//200
+ amounts = dict((script, subsidy*(396*weight)//(400*total_weight)) for (script, weight) in dest_weights.iteritems())
+ amounts[new_script] = amounts.get(new_script, 0) + subsidy*2//400
+ amounts[net.SCRIPT] = amounts.get(net.SCRIPT, 0) + subsidy*2//400
amounts[net.SCRIPT] = amounts.get(net.SCRIPT, 0) + subsidy - sum(amounts.itervalues()) # collect any extra
if sum(amounts.itervalues()) != subsidy:
raise ValueError()
dests = sorted(pre_dests, key=lambda script: (script == new_script, script))
assert dests[-1] == new_script
- if __debug__:
- print "end generate_transaction"
-
return dict(
version=1,
tx_ins=[dict(
share_data=dict(
previous_share_hash=previous_share_hash,
nonce=nonce,
- target2=target2,
+ target=target,
),
)),
)],
self.net = net
self.verified = bitcoin_data.Tracker()
- self.get_cumulative_weights = skiplist.WeightsSkipList(self)
+ self.get_cumulative_weights = skiplists.WeightsSkipList(self)
+
+ def add(self, share, known_verified=False):
+ bitcoin_data.Tracker.add(self, share)
+ if known_verified:
+ self.verified.add(share)
def attempt_verify(self, share, now):
if share.hash in self.verified.shares:
try:
share.check(self, now, self.net)
except:
- print
- print 'Share check failed:'
- log.err()
- print
+ log.err(None, 'Share check failed:')
return False
else:
self.verified.add(share)
return True
- def think(self, ht, now):
- if __debug__:
- print "start think"
-
+ def think(self, ht, previous_block, now):
desired = set()
# O(len(self.heads))
for head in set(self.heads) - set(self.verified.heads):
head_height, last = self.get_height_and_last(head)
- for share in itertools.islice(self.get_chain_known(head), None if last is None else max(0, head_height - self.net.CHAIN_LENGTH)):
+ for share in itertools.islice(self.get_chain_known(head), None if last is None else min(5, max(0, head_height - self.net.CHAIN_LENGTH))):
if self.attempt_verify(share, now):
break
if share.hash in self.heads:
if head_height < self.net.CHAIN_LENGTH and last_last_hash is not None:
desired.add((self.verified.shares[random.choice(list(self.verified.reverse_shares[last_hash]))].peer, last_last_hash))
+ # decide best tree
+ best_tail = max(self.verified.tails, key=lambda h: self.score(max(self.verified.tails[h], key=self.verified.get_height), ht)) if self.verified.tails else None
# decide best verified head
- scores = sorted(self.verified.heads, key=lambda h: self.score(h, ht))
+ scores = sorted(self.verified.tails.get(best_tail, []), key=lambda h: (
+ self.verified.get_work(self.verified.get_nth_parent_hash(h, min(5, self.verified.get_height(h)))),
+ ht.get_min_height(self.verified.shares[h].previous_block),
+ self.verified.shares[h].peer is None,
+ -self.verified.shares[h].time_seen
+ ))
- if __debug__:
- for a in scores:
- print ' ', '%x'%a, self.score(a, ht)
- for share_hash in scores[:-5]:
- if self.shares[share_hash].time_seen > time.time() - 30:
- continue
- self.remove(share_hash)
- self.verified.remove(share_hash)
+ if p2pool.DEBUG:
+ print len(self.verified.tails.get(best_tail, []))
+ for h in scores:
+ print ' ', format_hash(h), format_hash(self.verified.shares[h].previous_hash), (
+ self.verified.get_work(self.verified.get_nth_parent_hash(h, min(5, self.verified.get_height(h)))),
+ ht.get_min_height(self.verified.shares[h].previous_block),
+ self.verified.shares[h].peer is None,
+ -self.verified.shares[h].time_seen
+ )
+
+ # eat away at heads
+ if scores:
+ while True:
+ to_remove = set()
+ for share_hash, tail in self.heads.iteritems():
+ if share_hash in scores[-5:]:
+ continue
+ if self.shares[share_hash].time_seen > time.time() - 30:
+ continue
+ if max(self.shares[before_tail_hash].time_seen for before_tail_hash in self.reverse_shares.get(tail)) > time.time() - 120:
+ continue
+ to_remove.add(share_hash)
+ for share_hash in to_remove:
+ self.remove(share_hash)
+ if share_hash in self.verified.shares:
+ self.verified.remove(share_hash)
+ if not to_remove:
+ break
+
+ # drop tails
+ while True:
+ removed = False
+ # if removed from this, it must be removed from verified
+ for tail, heads in list(self.tails.iteritems()):
+ if min(self.get_height(head) for head in heads) < 2*self.net.CHAIN_LENGTH + 10:
+ continue
+ start = time.time()
+ for aftertail in list(self.reverse_shares.get(tail, set())):
+ self.remove(aftertail)
+ if aftertail in self.verified.shares:
+ self.verified.remove(aftertail)
+ removed = True
+ end = time.time()
+ print "removed! %x %f" % (tail, end - start)
+ if not removed:
+ break
best = scores[-1] if scores else None
- if __debug__:
- print "end think"
+ if best is not None:
+ best_share = self.verified.shares[best]
+ if ht.get_min_height(best_share.header['previous_block']) < ht.get_min_height(previous_block) and best_share.bitcoin_hash != previous_block and best_share.peer is not None:
+ if p2pool.DEBUG:
+ print 'Stale detected!'
+ best = best_share.previous_hash
return best, desired
score2 = 0
attempts = 0
max_height = 0
- # XXX should only look past a certain share, not at recent ones
share2_hash = self.verified.get_nth_parent_hash(share_hash, min(self.net.CHAIN_LENGTH//2, head_height//2)) if last is not None else share_hash
- # XXX this must go in the opposite direction for max_height to make sense
for share in reversed(list(itertools.islice(self.verified.get_chain_known(share2_hash), self.net.CHAIN_LENGTH))):
max_height = max(max_height, ht.get_min_height(share.header['previous_block']))
- attempts += bitcoin_data.target_to_average_attempts(share.target2)
+ attempts += bitcoin_data.target_to_average_attempts(share.target)
this_score = attempts//(ht.get_highest_height() - max_height + 1)
- #this_score = -(ht.get_highest_height() - max_height + 1)//attempts
if this_score > score2:
score2 = this_score
- res = (min(head_height, self.net.CHAIN_LENGTH), score2, -self.verified.shares[share_hash].time_seen)
- #print res
- return res
+ return min(head_height, self.net.CHAIN_LENGTH), score2
+def format_hash(x):
+ if x is None:
+ return 'xxxxxxxx'
+ return '%08x' % (x % 2**32)
class Mainnet(bitcoin_data.Mainnet):
SHARE_PERIOD = 5 # seconds
TARGET_LOOKBEHIND = 200 # shares
SPREAD = 3 # blocks
SCRIPT = '4104ffd03de44a6e11b9917f3a29f9443283d9871c9d743ef30d5eddcd37094b64d1b3d8090496b53256786bf5c82932ec23c3b74d9f05a6f95a8b5529352656664bac'.decode('hex')
- IDENTIFIER = '7452839666e1f8f8'.decode('hex')
- PREFIX = '2d4224bf18c87b87'.decode('hex')
+ IDENTIFIER = 'fc70035c7a81bc6f'.decode('hex')
+ PREFIX = '2472ef181efcd37b'.decode('hex')
ADDRS_TABLE = 'addrs'
P2P_PORT = 9333
+ MAX_TARGET = 2**256//2**32 - 1
+ PERSIST = True
+ HEADERSTORE_FILENAME = 'headers.dat'
class Testnet(bitcoin_data.Testnet):
SHARE_PERIOD = 1 # seconds
TARGET_LOOKBEHIND = 200 # shares
SPREAD = 3 # blocks
SCRIPT = '410403ad3dee8ab3d8a9ce5dd2abfbe7364ccd9413df1d279bf1a207849310465b0956e5904b1155ecd17574778f9949589ebfd4fb33ce837c241474a225cf08d85dac'.decode('hex')
- IDENTIFIER = '1ae3479e4eb6700a'.decode('hex')
- PREFIX = 'd19778c812754854'.decode('hex')
+ IDENTIFIER = '5fc2be2d4f0d6bfb'.decode('hex')
+ PREFIX = '3f6057a15036f441'.decode('hex')
ADDRS_TABLE = 'addrs_testnet'
P2P_PORT = 19333
+ MAX_TARGET = 2**256//2**20 - 1
+ PERSIST = False
+ HEADERSTORE_FILENAME = 'testnet_headers.dat'