1 from __future__ import division
5 from bitcoin import data as bitcoin_data
7 class CompressedList(bitcoin_data.Type):
8 def __init__(self, inner):
12 values = bitcoin_data.ListType(self.inner).read(file)
13 if values != sorted(set(values)):
14 raise ValueError("invalid values")
15 references = bitcoin_data.ListType(bitcoin_data.VarIntType()).read(file)
16 return [values[reference] for reference in references]
18 def write(self, file, item):
19 values = sorted(set(item))
20 values_map = dict((value, i) for i, value in enumerate(values))
21 bitcoin_data.ListType(self.inner).write(file, values)
22 bitcoin_data.ListType(bitcoin_data.VarIntType()).write(file, [values_map[subitem] for subitem in item])
25 merkle_branch_type = bitcoin_data.ListType(bitcoin_data.ComposedType([
26 ('side', bitcoin_data.StructType('<B')), # enum?
27 ('hash', bitcoin_data.HashType()),
31 share_data_type = bitcoin_data.ComposedType([
32 ('previous_share_hash', bitcoin_data.PossiblyNone(0, bitcoin_data.HashType())),
33 ('previous_shares_hash', bitcoin_data.HashType()),
34 ('target2', bitcoin_data.FloatingIntegerType()),
35 ('nonce', bitcoin_data.VarStrType()),
39 coinbase_type = bitcoin_data.ComposedType([
40 ('identifier', bitcoin_data.FixedStrType(8)),
41 ('share_data', share_data_type),
44 share_info_type = bitcoin_data.ComposedType([
45 ('share_data', share_data_type),
46 ('new_script', bitcoin_data.VarStrType()),
47 ('subsidy', bitcoin_data.StructType('<Q')),
51 share1a_type = bitcoin_data.ComposedType([
52 ('header', bitcoin_data.block_header_type), # merkle_header not completely needed
53 ('share_info', share_info_type),
54 ('merkle_branch', merkle_branch_type),
57 share1b_type = bitcoin_data.ComposedType([
58 ('header', bitcoin_data.block_header_type),
59 ('share_info', share_info_type),
60 ('other_txs', bitcoin_data.ListType(bitcoin_data.tx_type)),
63 shares_type = CompressedList(bitcoin_data.VarStrType())
65 def calculate_merkle_branch(txs, index):
66 hash_list = [(bitcoin_data.tx_type.hash256(tx), i == index, []) for i, tx in enumerate(txs)]
68 while len(hash_list) > 1:
71 bitcoin_data.merkle_record_type.hash256(dict(left=left, right=right)),
73 (left_l if left_f else right_l) + [dict(side=1, hash=right) if left_f else dict(side=0, hash=left)],
75 for (left, left_f, left_l), (right, right_f, right_l) in
76 zip(hash_list[::2], hash_list[1::2] + [hash_list[::2][-1]])
79 assert hash_list[0][1]
80 assert check_merkle_branch(txs[index], hash_list[0][2]) == hash_list[0][0]
82 return hash_list[0][2]
84 def check_merkle_branch(tx, branch):
85 hash_ = bitcoin_data.tx_type.hash256(tx)
88 hash_ = bitcoin_data.merkle_record_type.hash256(dict(left=step['hash'], right=hash_))
90 hash_ = bitcoin_data.merkle_record_type.hash256(dict(left=hash_, right=step['hash']))
93 def gentx_to_share_info(gentx):
95 share_data=coinbase_type.unpack(gentx['tx_ins'][0]['script'])['share_data'],
96 subsidy=sum(tx_out['value'] for tx_out in gentx['tx_outs']),
97 new_script=gentx['tx_outs'][-1]['script'],
100 def share_info_to_gentx(share_info, chain, net):
101 return generate_transaction(
102 previous_share2=chain.share2s[share_info['share_data']['previous_share_hash']],
103 nonce=share_info['share_data']['nonce'],
104 new_script=share_info['new_script'],
105 subsidy=share_info['subsidy'],
111 def from_block(cls, block):
112 return cls(block['header'], gentx_to_share_info(block['txs'][0]), other_txs=block['txs'][1:])
115 def from_share1a(cls, share1a):
116 return cls(**share1a)
119 def from_share1b(cls, share1b):
120 return cls(**share1b)
122 def __init__(self, header, share_info, merkle_branch=None, other_txs=None):
123 if merkle_branch is None and other_txs is None:
124 raise ValueError('need either merkle_branch or other_txs')
127 self.share_info = share_info
128 self.merkle_branch = merkle_branch
129 self.other_txs = other_txs
131 self.share_data = self.share_info['share_data']
132 self.new_script = self.share_info['new_script']
133 self.subsidy = self.share_info['subsidy']
135 self.previous_share_hash = self.share_data['previous_share_hash']
136 self.previous_shares_hash = self.share_data['previous_shares_hash']
137 self.target2 = self.share_data['target2']
139 self.hash = bitcoin_data.block_header_type.hash256(header)
141 if self.hash > self.target2:
142 raise ValueError('not enough work!')
146 raise ValueError('share does not contain all txs')
148 return dict(header=self.header, txs=self.txs)
150 def as_share1a(self):
151 return dict(header=self.header, share_info=self.share_info, merkle_branch=self.merkle_branch)
153 def as_share1b(self):
154 return dict(header=self.header, share_info=self.share_info, other_txs=self.other_txs)
156 def check(self, tracker, net):
157 gentx = share_info_to_gentx(self.share_info, tracker, net)
159 if self.merkle_branch is not None:
160 if check_merkle_branch(gentx, self.merkle_branch) != self.header['merkle_root']:
161 raise ValueError("gentx doesn't match header via merkle_branch")
163 if self.other_txs is not None:
164 if bitcoin_data.merkle_hash([gentx] + self.other_txs) != self.header['merkle_root']:
165 raise ValueError("gentx doesn't match header via other_txs")
169 class Share2(object):
170 '''Share with associated data'''
172 def __init__(self, share):
177 def flag_shared(self):
180 def generate_transaction(tracker, previous_share_hash, new_script, subsidy, nonce, block_target, net):
181 previous_share2 = tracker.shares[previous_share_hash] if previous_share_hash is not None else None
182 #previous_share2 = chain.shares
185 #shares = (previous_share2.shares if previous_share2 is not None else [net.SCRIPT]*net.SPREAD)[1:-1] + [new_script, new_script]
187 chain = list(itertools.islice(tracker.get_chain(previous_share_hash), net.CHAIN_LENGTH))
189 target2 = bitcoin_data.FloatingIntegerType().truncate_to(2**256//2**32 - 1)
191 attempts_per_second = sum(bitcoin_data.target_to_average_attempts(share.target) for share in itertools.islice(chain, 0, max(0, len(chain) - 1)))//(chain[0].timestamp - chain[-1].timestamp)
192 pre_target = 2**256*net.SHARE_PERIOD//attempts_per_second
193 pre_target2 = math.clip(pre_target, (previous_share2.target*9//10, previous_share2.target*11//10))
194 pre_target3 = math.clip(pre_target2, (0, 2**256//2**32 - 1))
195 target2 = bitcoin_data.FloatingIntegerType().truncate_to(pre_target3)
198 attempts_to_block = bitcoin_data.target_to_average_attempts(block_target)
201 class fake_share(object):
203 share = dict(target=target2)
206 for share in itertools.chain([fake_share], itertools.islice(tracker.get_chain(previous_share_hash), net.CHAIN_LENGTH)):
207 weight = bitcoin_data.target_to_average_attempts(share.share['target'])
208 weight = max(weight, attempts_to_block - total_weight)
210 dest_weights[share.script] = dest_weights.get(share.script, 0) + weight
211 total_weight += weight
213 if total_weight == attempts_to_block:
216 amounts = dict((script, subsidy*(199*weight)//(200*total_weight)) for (script, weight) in dest_weights.iteritems())
217 amounts[net.SCRIPT] = amounts.get(net.SCRIPT, 0) + subsidy*1//200 # prevent fake previous p2pool blocks
218 amounts[net.SCRIPT] = amounts.get(net.SCRIPT, 0) + subsidy - sum(amounts.itervalues()) # collect any extra
220 dests = sorted(amounts.iterkeys(), key=lambda script: (script == new_script, script))
221 assert dests[-1] == new_script
223 previous_shares = [] # XXX
228 previous_output=None,
230 script=coinbase_type.pack(dict(
231 identifier=net.IDENTIFIER,
233 previous_share_hash=previous_share_hash,
234 previous_shares_hash=shares_type.hash256(previous_shares),
240 tx_outs=[dict(value=amounts[script], script=script) for script in dests if amounts[script]],
245 class Tracker(object):
247 self.shares = {} # hash -> share
248 self.reverse_shares = {} # previous_share_hash -> share_hash
250 self.heads = {} # head hash -> tail_hash
251 self.tails = {} # tail hash -> set of head hashes
252 self.heights = {} # share hash -> height, to_share_hash
254 def add_share(self, share):
255 if share.hash in self.shares:
256 return # XXX raise exception?
258 self.shares[share.hash] = share
259 self.reverse_shares.setdefault(share.previous_share_hash, set()).add(share.hash)
261 if share.hash in self.tails:
262 heads = self.tails.pop(share.hash)
264 heads = set([share.hash])
266 if share.previous_share_hash in self.heads:
267 tail = self.heads.pop(share.previous_share_hash)
269 tail = share.previous_share_hash
271 self.tails.setdefault(tail, set()).update(heads)
272 if share.previous_share_hash in self.tails[tail]:
273 self.tails[tail].remove(share.previous_share_hash)
276 self.heads[head] = tail
278 def get_height_and_last(self, share_hash):
282 if share_hash is None or share_hash not in self.shares:
284 updates.append((share_hash, height))
285 if share_hash in self.heights:
286 height_inc, share_hash = self.heights[share_hash]
288 height_inc, share_hash = 1, self.shares[share_hash].previous_share_hash
290 for update_hash, height_then in updates:
291 self.heights[update_hash] = height - height_then, share_hash
292 return height, share_hash
294 def get_chain(self, start):
295 share_hash_to_get = start
296 while share_hash_to_get in self.shares:
297 share = self.shares[share_hash_to_get]
299 share_hash_to_get = share.previous_share_hash
302 def get_best_share_hash(self):
303 return max(self.heads, key=self.score_chain)
305 def score_chain(self, start):
306 length = len(self.get_chain(start))
309 for share in itertools.islice(self.get_chain(start), self.net.CHAIN_LENGTH):
312 return (min(length, 1000), score)
315 if __name__ == '__main__':
316 class FakeShare(object):
317 def __init__(self, hash, previous_share_hash):
319 self.previous_share_hash = previous_share_hash
323 t.add_share(FakeShare(1, 2))
324 print t.heads, t.tails
325 t.add_share(FakeShare(4, 0))
326 print t.heads, t.tails
327 t.add_share(FakeShare(3, 4))
328 print t.heads, t.tails
329 t.add_share(FakeShare(5, 0))
330 print t.heads, t.tails
331 t.add_share(FakeShare(0, 1))
332 print t.heads, t.tails
334 for share_hash in t.shares:
335 print share_hash, t.get_height_and_last(share_hash)
337 class OkayTracker(Tracker):
339 Tracker.__init__(self)
340 self.okay_cache = {} # hash -> height
342 def is_okay(self, start, _height_after=0):
345 {'result': 'okay', verified_height: ...} # if share has an okay parent or if share has CHAIN_LENGTH children and CHAIN_LENTH parents that it verified with
346 {'result': 'needs_share', 'share_hash': ...} # if share doesn't have CHAIN_LENGTH parents
347 #{'result': 'needs_share_shares', 'share_hash': ...} # if share has CHAIN_LENGTH children and needs its shares to
348 {'result': 'not_okay'} # if the share has a not okay parent or if the share has an okay parent and failed validation
351 if start in self.okay_cache:
352 return dict(result='okay', verified_height=self.okay_cache['start'])
354 share = self.shares[start]
355 if start not in self.shares:
356 return dict(result='needs_share', share_hash=start)
360 for share in itertools.islice(self.get_chain(start), self.net.CHAIN_LENGTH):
361 if share in self.okay_cache:
362 return validate(share, to_end_rev[::-1])
363 to_end_rev.append(share)
364 # picking up last share from for loop, ew
365 self.okay_cache.add(share)
366 return validate(share, to_end_rev[::-1])
368 def accept_share(self, share):
369 self.add_share(share)
371 for head in self.heads:
372 height, last = self.get_height(head)
373 if last is None or height >= 2*self.net.CHAIN_LENGTH:
380 def get_chain_descriptor(tracker, start):
381 for item in tracker.get_chain(self.net.CHAIN_LENGTH):
386 class Mainnet(bitcoin_data.Mainnet):
387 SHARE_PERIOD = 5 # seconds
388 CHAIN_LENGTH = 24*60*60//5 # shares
390 SCRIPT = '4104ffd03de44a6e11b9917f3a29f9443283d9871c9d743ef30d5eddcd37094b64d1b3d8090496b53256786bf5c82932ec23c3b74d9f05a6f95a8b5529352656664bac'.decode('hex')
391 IDENTIFIER = '7452839666e1f8f8'.decode('hex')
392 PREFIX = '2d4224bf18c87b87'.decode('hex')
393 ADDRS_TABLE = 'addrs'
396 class Testnet(bitcoin_data.Testnet):
397 SHARE_PERIOD = 5 # seconds
398 CHAIN_LENGTH = 24*60*60//5 # shares
400 SCRIPT = '410403ad3dee8ab3d8a9ce5dd2abfbe7364ccd9413df1d279bf1a207849310465b0956e5904b1155ecd17574778f9949589ebfd4fb33ce837c241474a225cf08d85dac'.decode('hex')
401 IDENTIFIER = '1ae3479e4eb6700a'.decode('hex')
402 PREFIX = 'd19778c812754854'.decode('hex')
403 ADDRS_TABLE = 'addrs_testnet'