lbry-sdk/lbrynet/extras/wallet/account.py
2019-01-04 03:14:37 -05:00

241 lines
9.6 KiB
Python

import json
import logging
import binascii
from lbrynet.schema.validator import validate_claim_id
from torba.client.baseaccount import BaseAccount
from torba.client.basetransaction import TXORef
from lbrynet.schema.claim import ClaimDict
from lbrynet.schema.signer import SECP256k1, get_signer
log = logging.getLogger(__name__)
def generate_certificate():
secp256k1_private_key = get_signer(SECP256k1).generate().private_key.to_pem()
return ClaimDict.generate_certificate(secp256k1_private_key, curve=SECP256k1), secp256k1_private_key
class Account(BaseAccount):
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
self.certificates = {}
def add_certificate_private_key(self, ref: TXORef, private_key):
assert ref.id not in self.certificates, 'Trying to add a duplicate certificate.'
self.certificates[ref.id] = private_key
def get_certificate_private_key(self, ref: TXORef):
return self.certificates.get(ref.id)
async def maybe_migrate_certificates(self):
if not self.certificates:
return
addresses = {}
results = {
'total': 0,
'not-a-claim-tx': 0,
'migrate-success': 0,
'migrate-failed': 0,
'previous-success': 0,
'previous-corrupted': 0
}
double_hex_encoded_to_pop = []
for maybe_claim_id in list(self.certificates):
if ':' not in maybe_claim_id:
try:
validate_claim_id(maybe_claim_id)
continue
except Exception:
try:
maybe_claim_id_bytes = maybe_claim_id
if isinstance(maybe_claim_id_bytes, str):
maybe_claim_id_bytes = maybe_claim_id_bytes.encode()
decoded_double_hex = binascii.unhexlify(maybe_claim_id_bytes).decode()
validate_claim_id(decoded_double_hex)
if decoded_double_hex in self.certificates:
log.warning("don't know how to migrate certificate %s", decoded_double_hex)
else:
log.info("claim id was double hex encoded, fixing it")
double_hex_encoded_to_pop.append((maybe_claim_id, decoded_double_hex))
except Exception:
continue
for double_encoded_claim_id, correct_claim_id in double_hex_encoded_to_pop:
self.certificates[correct_claim_id] = self.certificates.pop(double_encoded_claim_id)
for maybe_claim_id in list(self.certificates):
results['total'] += 1
if ':' not in maybe_claim_id:
try:
validate_claim_id(maybe_claim_id)
except Exception as e:
log.warning(
"Failed to migrate claim '%s': %s",
maybe_claim_id, str(e)
)
results['migrate-failed'] += 1
continue
claims = await self.ledger.network.get_claims_by_ids(maybe_claim_id)
if maybe_claim_id not in claims:
log.warning(
"Failed to migrate claim '%s', server did not return any claim information.",
maybe_claim_id
)
results['migrate-failed'] += 1
continue
claim = claims[maybe_claim_id]
tx = None
if claim:
tx = await self.ledger.db.get_transaction(txid=claim['txid'])
else:
log.warning(maybe_claim_id)
if tx is not None:
txo = tx.outputs[claim['nout']]
if not txo.script.is_claim_involved:
results['not-a-claim-tx'] += 1
raise ValueError(
"Certificate with claim_id {} doesn't point to a valid transaction."
.format(maybe_claim_id)
)
tx_nout = '{txid}:{nout}'.format(**claim)
self.certificates[tx_nout] = self.certificates[maybe_claim_id]
del self.certificates[maybe_claim_id]
log.info(
"Migrated certificate with claim_id '%s' ('%s') to a new look up key %s.",
maybe_claim_id, txo.script.values['claim_name'], tx_nout
)
results['migrate-success'] += 1
else:
if claim:
addresses.setdefault(claim['address'], 0)
addresses[claim['address']] += 1
log.warning(
"Failed to migrate claim '%s', it's not associated with any of your addresses.",
maybe_claim_id
)
else:
log.warning(
"Failed to migrate claim '%s', it appears abandoned.",
maybe_claim_id
)
results['migrate-failed'] += 1
else:
try:
txid, nout = maybe_claim_id.split(':')
tx = await self.ledger.db.get_transaction(txid=txid)
if not tx:
log.warning(
"Claim migration failed to find a transaction for outpoint %s", maybe_claim_id
)
results['previous-corrupted'] += 1
continue
if tx.outputs[int(nout)].script.is_claim_involved:
results['previous-success'] += 1
else:
results['previous-corrupted'] += 1
except Exception:
log.exception("Couldn't verify certificate with look up key: %s", maybe_claim_id)
results['previous-corrupted'] += 1
self.wallet.save()
log.info('verifying and possibly migrating certificates:')
log.info(json.dumps(results, indent=2))
if addresses:
log.warning('failed for addresses:')
log.warning(json.dumps(
[{'address': a, 'number of certificates': c} for a, c in addresses.items()],
indent=2
))
async def save_max_gap(self):
gap = await self.get_max_gap()
self.receiving.gap = max(20, gap['max_receiving_gap'] + 1)
self.change.gap = max(6, gap['max_change_gap'] + 1)
self.wallet.save()
def get_balance(self, confirmations=0, include_claims=False, **constraints):
if not include_claims:
constraints.update({'is_claim': 0, 'is_update': 0, 'is_support': 0})
return super().get_balance(confirmations, **constraints)
@classmethod
def get_private_key_from_seed(cls, ledger: 'baseledger.BaseLedger', seed: str, password: str):
return super().get_private_key_from_seed(
ledger, seed, password or 'lbryum'
)
@classmethod
def from_dict(cls, ledger, wallet, d: dict) -> 'Account':
account = super().from_dict(ledger, wallet, d)
account.certificates = d.get('certificates', {})
return account
def to_dict(self):
d = super().to_dict()
d['certificates'] = self.certificates
return d
async def get_details(self, **kwargs):
details = await super().get_details(**kwargs)
details['certificates'] = len(self.certificates)
return details
def get_claim(self, claim_id=None, txid=None, nout=None):
if claim_id is not None:
return self.ledger.db.get_claims(account=self, claim_id=claim_id)
elif txid is not None and nout is not None:
return self.ledger.db.get_claims(**{'account': self, 'txo.txid': txid, 'txo.position': nout})
@staticmethod
def constraint_utxos_sans_claims(constraints):
constraints.update({'is_claim': 0, 'is_update': 0, 'is_support': 0})
def get_utxos(self, **constraints):
self.constraint_utxos_sans_claims(constraints)
return super().get_utxos(**constraints)
def get_utxo_count(self, **constraints):
self.constraint_utxos_sans_claims(constraints)
return super().get_utxo_count(**constraints)
def get_claims(self, **constraints):
return self.ledger.db.get_claims(account=self, **constraints)
def get_claim_count(self, **constraints):
return self.ledger.db.get_claim_count(account=self, **constraints)
def get_channels(self, **constraints):
return self.ledger.db.get_channels(account=self, **constraints)
def get_channel_count(self, **constraints):
return self.ledger.db.get_channel_count(account=self, **constraints)
async def send_to_addresses(self, amount, addresses, broadcast=False):
tx_class = self.ledger.transaction_class
tx = await tx_class.create(
inputs=[],
outputs=[
tx_class.output_class.pay_pubkey_hash(amount, self.ledger.address_to_hash160(address))
for address in addresses
],
funding_accounts=[self],
change_account=self
)
if broadcast:
await self.ledger.broadcast(tx)
else:
await self.ledger.release_outputs(
[txi.txo_ref.txo for txi in tx.inputs]
)
return tx
async def release_all_outputs(self):
await self.ledger.db.release_all_outputs(self)