lbry-sdk/lbrynet/core/Wallet.py

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import datetime
import logging
import os
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from twisted.internet import threads, reactor, defer, task
from twisted.python.failure import Failure
from twisted.enterprise import adbapi
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from collections import defaultdict, deque
from zope.interface import implements
from decimal import Decimal
from lbryum import SimpleConfig, Network
from lbryum.lbrycrd import COIN
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import lbryum.wallet
from lbryum.commands import known_commands, Commands
from lbryschema.uri import parse_lbry_uri
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from lbryschema.claim import ClaimDict
from lbryschema.error import DecodeError
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from lbryschema.decode import smart_decode
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from lbrynet.core.sqlite_helpers import rerun_if_locked
from lbrynet.interfaces import IRequestCreator, IQueryHandlerFactory, IQueryHandler, IWallet
from lbrynet.core.client.ClientRequest import ClientRequest
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from lbrynet.core.Error import RequestCanceledError, InsufficientFundsError, UnknownNameError
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from lbrynet.db_migrator.migrate1to2 import UNSET_NOUT
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log = logging.getLogger(__name__)
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class ReservedPoints(object):
def __init__(self, identifier, amount):
self.identifier = identifier
self.amount = amount
class ClaimOutpoint(dict):
def __init__(self, txid, nout):
if len(txid) != 64:
raise TypeError('{} is not a txid'.format(txid))
self['txid'] = txid
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self['nout'] = nout
def __repr__(self):
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return "{}:{}".format(self['txid'], self['nout'])
def __eq__(self, compare):
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if isinstance(compare, dict):
# TODO: lbryum returns nout's in dicts as "nOut" , need to fix this
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if 'nOut' in compare:
return (self['txid'], self['nout']) == (compare['txid'], compare['nOut'])
elif 'nout' in compare:
return (self['txid'], self['nout']) == (compare['txid'], compare['nout'])
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elif isinstance(compare, (str, unicode)):
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return compare == self.__repr__()
else:
raise TypeError('cannot compare {}'.format(type(compare)))
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def __ne__(self, compare):
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return not self.__eq__(compare)
class MetaDataStorage(object):
def load(self):
return defer.succeed(True)
def clean_bad_records(self):
return defer.succeed(True)
def save_name_metadata(self, name, claim_outpoint, sd_hash):
return defer.succeed(True)
def get_claim_metadata_for_sd_hash(self, sd_hash):
return defer.succeed(True)
def update_claimid(self, claim_id, name, claim_outpoint):
return defer.succeed(True)
def get_claimid_for_tx(self, name, claim_outpoint):
return defer.succeed(True)
class InMemoryStorage(MetaDataStorage):
def __init__(self):
self.metadata = {}
self.claimids = {}
MetaDataStorage.__init__(self)
def save_name_metadata(self, name, claim_outpoint, sd_hash):
self.metadata[sd_hash] = (name, claim_outpoint)
return defer.succeed(True)
def get_claim_metadata_for_sd_hash(self, sd_hash):
try:
name, claim_outpoint = self.metadata[sd_hash]
return defer.succeed((name, claim_outpoint['txid'], claim_outpoint['nout']))
except KeyError:
return defer.succeed(None)
def update_claimid(self, claim_id, name, claim_outpoint):
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self.claimids[(name, claim_outpoint['txid'], claim_outpoint['nout'])] = claim_id
return defer.succeed(True)
def get_claimid_for_tx(self, name, claim_outpoint):
try:
return defer.succeed(
self.claimids[(name, claim_outpoint['txid'], claim_outpoint['nout'])])
except KeyError:
return defer.succeed(None)
class SqliteStorage(MetaDataStorage):
def __init__(self, db_dir):
self.db_dir = db_dir
self.db = None
MetaDataStorage.__init__(self)
def load(self):
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self.db = adbapi.ConnectionPool('sqlite3', os.path.join(self.db_dir, "blockchainname.db"),
check_same_thread=False)
def create_tables(transaction):
transaction.execute("create table if not exists name_metadata (" +
" name text, " +
" txid text, " +
" n integer, " +
" sd_hash text)")
transaction.execute("create table if not exists claim_ids (" +
" claimId text, " +
" name text, " +
" txid text, " +
" n integer)")
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return self.db.runInteraction(create_tables)
def clean_bad_records(self):
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d = self.db.runQuery("delete from name_metadata where length(txid) > 64 or txid is null")
return d
def save_name_metadata(self, name, claim_outpoint, sd_hash):
d = self.db.runQuery(
"delete from name_metadata where name=? and txid=? and n=? and sd_hash=?",
(name, claim_outpoint['txid'], claim_outpoint['nout'], sd_hash))
d.addCallback(
lambda _: self.db.runQuery(
"delete from name_metadata where name=? and txid=? and n=? and sd_hash=?",
(name, claim_outpoint['txid'], UNSET_NOUT, sd_hash)))
d.addCallback(
lambda _: self.db.runQuery(
"insert into name_metadata values (?, ?, ?, ?)",
(name, claim_outpoint['txid'], claim_outpoint['nout'], sd_hash)))
return d
@rerun_if_locked
def get_claim_metadata_for_sd_hash(self, sd_hash):
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d = self.db.runQuery("select name, txid, n from name_metadata where sd_hash=?", (sd_hash,))
d.addCallback(lambda r: r[0] if r else None)
return d
def update_claimid(self, claim_id, name, claim_outpoint):
d = self.db.runQuery(
"delete from claim_ids where claimId=? and name=? and txid=? and n=?",
(claim_id, name, claim_outpoint['txid'], claim_outpoint['nout']))
d.addCallback(
lambda _: self.db.runQuery(
"delete from claim_ids where claimId=? and name=? and txid=? and n=?",
(claim_id, name, claim_outpoint['txid'], UNSET_NOUT)))
d.addCallback(
lambda r: self.db.runQuery(
"insert into claim_ids values (?, ?, ?, ?)",
(claim_id, name, claim_outpoint['txid'], claim_outpoint['nout'])))
d.addCallback(lambda _: claim_id)
return d
def get_claimid_for_tx(self, name, claim_outpoint):
d = self.db.runQuery(
"select claimId from claim_ids where name=? and txid=? and n=?",
(name, claim_outpoint['txid'], claim_outpoint['nout']))
d.addCallback(lambda r: r[0][0] if r else None)
return d
class Wallet(object):
"""This class implements the Wallet interface for the LBRYcrd payment system"""
implements(IWallet)
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def __init__(self, storage):
if not isinstance(storage, MetaDataStorage):
raise ValueError('storage must be an instance of MetaDataStorage')
self._storage = storage
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self.next_manage_call = None
self.wallet_balance = Decimal(0.0)
self.total_reserved_points = Decimal(0.0)
self.peer_addresses = {} # {Peer: string}
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self.queued_payments = defaultdict(Decimal) # {address(string): amount(Decimal)}
self.expected_balances = defaultdict(Decimal) # {address(string): amount(Decimal)}
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self.current_address_given_to_peer = {} # {Peer: address(string)}
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# (Peer, address(string), amount(Decimal), time(datetime), count(int),
# incremental_amount(float))
self.expected_balance_at_time = deque()
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self.max_expected_payment_time = datetime.timedelta(minutes=3)
self.stopped = True
self.manage_running = False
self._manage_count = 0
self._balance_refresh_time = 3
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self._batch_count = 20
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def start(self):
def start_manage():
self.stopped = False
self.manage()
return True
d = self._storage.load()
d.addCallback(lambda _: self._clean_bad_records())
d.addCallback(lambda _: self._start())
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d.addCallback(lambda _: start_manage())
return d
def _clean_bad_records(self):
self._storage.clean_bad_records()
def _save_name_metadata(self, name, claim_outpoint, sd_hash):
return self._storage.save_name_metadata(name, claim_outpoint, sd_hash)
def _get_claim_metadata_for_sd_hash(self, sd_hash):
return self._storage.get_claim_metadata_for_sd_hash(sd_hash)
def _update_claimid(self, claim_id, name, claim_outpoint):
return self._storage.update_claimid(claim_id, name, claim_outpoint)
def _get_claimid_for_tx(self, name, claim_outpoint):
return self._storage.get_claimid_for_tx(name, claim_outpoint)
@staticmethod
def log_stop_error(err):
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log.error("An error occurred stopping the wallet: %s", err.getTraceback())
def stop(self):
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log.info("Stopping %s", self)
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self.stopped = True
# If self.next_manage_call is None, then manage is currently running or else
# start has not been called, so set stopped and do nothing else.
if self.next_manage_call is not None:
self.next_manage_call.cancel()
self.next_manage_call = None
d = self.manage(do_full=True)
d.addErrback(self.log_stop_error)
d.addCallback(lambda _: self._stop())
d.addErrback(self.log_stop_error)
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return d
def manage(self, do_full=False):
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self.next_manage_call = None
have_set_manage_running = [False]
self._manage_count += 1
if self._manage_count % self._batch_count == 0:
self._manage_count = 0
do_full = True
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def check_if_manage_running():
d = defer.Deferred()
def fire_if_not_running():
if self.manage_running is False:
self.manage_running = True
have_set_manage_running[0] = True
d.callback(True)
elif do_full is False:
d.callback(False)
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else:
task.deferLater(reactor, 1, fire_if_not_running)
fire_if_not_running()
return d
d = check_if_manage_running()
def do_manage():
if do_full:
d = self._check_expected_balances()
d.addCallback(lambda _: self._send_payments())
else:
d = defer.succeed(True)
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def log_error(err):
if isinstance(err, AttributeError):
log.warning("Failed to get an updated balance")
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log.warning("Last balance update: %s", str(self.wallet_balance))
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d.addCallbacks(lambda _: self.update_balance(), log_error)
return d
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d.addCallback(lambda should_run: do_manage() if should_run else None)
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def set_next_manage_call():
if not self.stopped:
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self.next_manage_call = reactor.callLater(self._balance_refresh_time, self.manage)
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d.addCallback(lambda _: set_next_manage_call())
def log_error(err):
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log.error("Something went wrong during manage. Error message: %s",
err.getErrorMessage())
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return err
d.addErrback(log_error)
def set_manage_not_running(arg):
if have_set_manage_running[0] is True:
self.manage_running = False
return arg
d.addBoth(set_manage_not_running)
return d
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@defer.inlineCallbacks
def update_balance(self):
""" obtain balance from lbryum wallet and set self.wallet_balance
"""
balance = yield self._update_balance()
if self.wallet_balance != balance:
log.debug("Got a new balance: %s", balance)
self.wallet_balance = balance
def get_info_exchanger(self):
return LBRYcrdAddressRequester(self)
def get_wallet_info_query_handler_factory(self):
return LBRYcrdAddressQueryHandlerFactory(self)
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def reserve_points(self, identifier, amount):
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"""Ensure a certain amount of points are available to be sent as
payment, before the service is rendered
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@param identifier: The peer to which the payment will ultimately be sent
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@param amount: The amount of points to reserve
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@return: A ReservedPoints object which is given to send_points
once the service has been rendered
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"""
rounded_amount = Decimal(str(round(amount, 8)))
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if self.get_balance() >= rounded_amount:
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self.total_reserved_points += rounded_amount
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return ReservedPoints(identifier, rounded_amount)
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return None
def cancel_point_reservation(self, reserved_points):
"""
Return all of the points that were reserved previously for some ReservedPoints object
@param reserved_points: ReservedPoints previously returned by reserve_points
@return: None
"""
self.total_reserved_points -= reserved_points.amount
def send_points(self, reserved_points, amount):
"""
Schedule a payment to be sent to a peer
@param reserved_points: ReservedPoints object previously returned by reserve_points
@param amount: amount of points to actually send, must be less than or equal to the
amount reserved in reserved_points
@return: Deferred which fires when the payment has been scheduled
"""
rounded_amount = Decimal(str(round(amount, 8)))
peer = reserved_points.identifier
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assert rounded_amount <= reserved_points.amount
assert peer in self.peer_addresses
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self.queued_payments[self.peer_addresses[peer]] += rounded_amount
# make any unused points available
self.total_reserved_points -= (reserved_points.amount - rounded_amount)
log.debug("ordering that %s points be sent to %s", str(rounded_amount),
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str(self.peer_addresses[peer]))
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peer.update_stats('points_sent', amount)
return defer.succeed(True)
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def send_points_to_address(self, reserved_points, amount):
"""
Schedule a payment to be sent to an address
@param reserved_points: ReservedPoints object previously returned by reserve_points
@param amount: amount of points to actually send. must be less than or equal to the
amount reselved in reserved_points
@return: Deferred which fires when the payment has been scheduled
"""
rounded_amount = Decimal(str(round(amount, 8)))
address = reserved_points.identifier
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assert rounded_amount <= reserved_points.amount
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self.queued_payments[address] += rounded_amount
self.total_reserved_points -= (reserved_points.amount - rounded_amount)
log.debug("Ordering that %s points be sent to %s", str(rounded_amount),
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str(address))
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return defer.succeed(True)
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def add_expected_payment(self, peer, amount):
"""Increase the number of points expected to be paid by a peer"""
rounded_amount = Decimal(str(round(amount, 8)))
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assert peer in self.current_address_given_to_peer
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address = self.current_address_given_to_peer[peer]
log.debug("expecting a payment at address %s in the amount of %s",
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str(address), str(rounded_amount))
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self.expected_balances[address] += rounded_amount
expected_balance = self.expected_balances[address]
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expected_time = datetime.datetime.now() + self.max_expected_payment_time
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self.expected_balance_at_time.append(
(peer, address, expected_balance, expected_time, 0, amount))
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peer.update_stats('expected_points', amount)
def update_peer_address(self, peer, address):
self.peer_addresses[peer] = address
def get_unused_address_for_peer(self, peer):
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def set_address_for_peer(address):
self.current_address_given_to_peer[peer] = address
return address
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d = self.get_unused_address()
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d.addCallback(set_address_for_peer)
return d
def _send_payments(self):
payments_to_send = {}
for address, points in self.queued_payments.items():
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if points > 0:
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log.debug("Should be sending %s points to %s", str(points), str(address))
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payments_to_send[address] = points
self.total_reserved_points -= points
else:
log.info("Skipping dust")
del self.queued_payments[address]
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if payments_to_send:
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log.debug("Creating a transaction with outputs %s", str(payments_to_send))
d = self._do_send_many(payments_to_send)
d.addCallback(lambda txid: log.debug("Sent transaction %s", txid))
return d
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log.debug("There were no payments to send")
return defer.succeed(True)
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######
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@defer.inlineCallbacks
def get_claim(self, claim_id):
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claim = yield self._get_claim_by_claimid(claim_id)
if not claim:
log.warning("Claim does not exist: %s", claim_id)
defer.returnValue(None)
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try:
decoded = smart_decode(claim['value'])
claim['value'] = decoded.claim_dict
claim['hex'] = decoded.serialized.encode('hex')
except DecodeError:
claim['hex'] = claim['value']
claim['value'] = None
claim['error'] = "Failed to decode"
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log.warning("Failed to decode claim value for lbry://%s#%s", claim['name'],
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claim['claim_id'])
defer.returnValue(claim)
def get_claimid(self, name, txid, nout):
def _get_id_for_return(claim_id):
if claim_id:
return defer.succeed(claim_id)
else:
d = self.get_claims_from_tx(txid)
d.addCallback(
lambda claims: next(
c for c in claims if c['name'] == name and
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c['nout'] == claim_outpoint['nout']))
d.addCallback(
lambda claim: self._update_claimid(
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claim['claim_id'], name, ClaimOutpoint(txid, claim['nout'])))
return d
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claim_outpoint = ClaimOutpoint(txid, nout)
d = self._get_claimid_for_tx(name, claim_outpoint)
d.addCallback(_get_id_for_return)
return d
@defer.inlineCallbacks
def get_my_claim(self, name):
my_claims = yield self.get_name_claims()
my_claim = False
for claim in my_claims:
if claim['name'] == name:
claim['value'] = ClaimDict.load_dict(claim['value'])
my_claim = claim
break
defer.returnValue(my_claim)
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@defer.inlineCallbacks
def get_claim_info(self, name, txid=None, nout=None, claim_id=None):
if claim_id is not None:
results = yield self.get_claim(claim_id)
if results['name'] != name:
raise Exception("Name does not match claim referenced by id")
elif txid is None or nout is None:
results = yield self.get_claim_by_name(name)
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else:
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results = yield self.get_claim_by_outpoint(ClaimOutpoint(txid, nout))
defer.returnValue(results)
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@defer.inlineCallbacks
def _handle_claim_result(self, results):
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if not results:
raise UnknownNameError("No results to return")
if 'error' in results:
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if results['error'] == 'name is not claimed':
raise UnknownNameError(results['error'])
else:
raise Exception(results['error'])
if 'claim' in results:
claim = results['claim']
if 'has_signature' in claim and claim['has_signature']:
if not claim['signature_is_valid']:
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log.warning("lbry://%s#%s has an invalid signature",
claim['name'], claim['claim_id'])
decoded = ClaimDict.load_dict(claim['value'])
claim_dict = decoded.claim_dict
claim['value'] = claim_dict
defer.returnValue(claim)
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try:
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decoded = smart_decode(claim['value'])
claim_dict = decoded.claim_dict
outpoint = ClaimOutpoint(claim['txid'], claim['nout'])
name = claim['name']
claim['value'] = claim_dict
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claim['hex'] = decoded.serialized.encode('hex')
yield self._save_name_metadata(name, outpoint, decoded.source_hash)
yield self._update_claimid(claim['claim_id'], name, outpoint)
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except DecodeError:
claim['hex'] = claim['value']
claim['value'] = None
claim['error'] = "Failed to decode value"
results = claim
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elif 'value' in results:
if 'has_signature' in results and results['has_signature']:
if not results['signature_is_valid']:
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log.warning("lbry://%s#%s has an invalid signature",
results['name'], results['claim_id'])
decoded = ClaimDict.load_dict(results['value'])
claim_dict = decoded.claim_dict
results['value'] = claim_dict
defer.returnValue(results)
try:
decoded = ClaimDict.load_dict(results['value'])
claim_dict = decoded.claim_dict
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claim_hex = decoded.serialized.encode('hex')
claim_err = None
outpoint = ClaimOutpoint(results['txid'], results['nout'])
name = results['name']
yield self._save_name_metadata(name, outpoint, decoded.source_hash)
yield self._update_claimid(results['claim_id'], name, outpoint)
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except DecodeError:
claim_dict = None
claim_hex = results['value']
claim_err = "Failed to decode value"
if claim_err:
results['error'] = claim_err
results['hex'] = claim_hex
results['value'] = claim_dict
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log.info("get claim info lbry://%s#%s", results['name'], results['claim_id'])
defer.returnValue(results)
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@defer.inlineCallbacks
def resolve_uri(self, uri):
resolve_results = yield self._get_value_for_uri(uri)
if 'claim' in resolve_results:
formatted = yield self._handle_claim_result(resolve_results)
resolve_results['claim'] = formatted
result = resolve_results
elif 'claims_in_channel' in resolve_results:
claims_for_return = []
for claim in resolve_results['claims_in_channel']:
formatted = yield self._handle_claim_result(claim)
claims_for_return.append(formatted)
resolve_results['claims_in_channel'] = claims_for_return
result = resolve_results
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elif 'error' in resolve_results:
raise Exception(resolve_results['error'])
else:
result = None
defer.returnValue(result)
@defer.inlineCallbacks
def get_claim_by_outpoint(self, claim_outpoint):
claim = yield self._get_claim_by_outpoint(claim_outpoint['txid'], claim_outpoint['nout'])
result = yield self._handle_claim_result(claim)
defer.returnValue(result)
@defer.inlineCallbacks
def get_claim_by_name(self, name):
get_name_result = yield self._get_value_for_name(name)
result = yield self._handle_claim_result(get_name_result)
defer.returnValue(result)
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@defer.inlineCallbacks
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def get_claims_for_name(self, name):
result = yield self._get_claims_for_name(name)
claims = result['claims']
claims_for_return = []
for claim in claims:
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try:
decoded = smart_decode(claim['value'])
claim['value'] = decoded.claim_dict
claim['hex'] = decoded.serialized.encode('hex')
claims_for_return.append(claim)
except DecodeError:
claim['hex'] = claim['value']
claim['value'] = None
claim['error'] = "Failed to decode"
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log.warning("Failed to decode claim value for lbry://%s#%s", claim['name'],
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claim['claim_id'])
claims_for_return.append(claim)
result['claims'] = claims_for_return
defer.returnValue(result)
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def _process_claim_out(self, claim_out):
claim_out.pop('success')
claim_out['fee'] = float(claim_out['fee'])
return claim_out
def claim_new_channel(self, channel_name, amount):
parsed_channel_name = parse_lbry_uri(channel_name)
if not parsed_channel_name.is_channel:
raise Exception("Invalid channel name")
elif (parsed_channel_name.path or parsed_channel_name.claim_id or
parsed_channel_name.bid_position or parsed_channel_name.claim_sequence):
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raise Exception("New channel claim should have no fields other than name")
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log.info("Preparing to make certificate claim for %s", channel_name)
return self._claim_certificate(parsed_channel_name.name, amount)
@defer.inlineCallbacks
def channel_list(self):
certificates = yield self._get_certificate_claims()
results = []
for claim in certificates:
formatted = yield self._handle_claim_result(claim)
results.append(formatted)
defer.returnValue(results)
@defer.inlineCallbacks
def claim_name(self, name, bid, metadata, certificate_id=None):
"""
Claim a name, or update if name already claimed by user
@param name: str, name to claim
@param bid: float, bid amount
@param metadata: ClaimDict compliant dict
@param certificate_id: str (optional), claim id of channel certificate
@return: Deferred which returns a dict containing below items
txid - txid of the resulting transaction
nout - nout of the resulting claim
fee - transaction fee paid to make claim
claim_id - claim id of the claim
"""
decoded = ClaimDict.load_dict(metadata)
serialized = decoded.serialized
if self.get_balance() < Decimal(bid):
raise InsufficientFundsError()
claim = yield self._send_name_claim(name, serialized.encode('hex'), bid, certificate_id)
if not claim['success']:
msg = 'Claim to name {} failed: {}'.format(name, claim['reason'])
raise Exception(msg)
claim = self._process_claim_out(claim)
claim_outpoint = ClaimOutpoint(claim['txid'], claim['nout'])
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log.info("Saving metadata for claim %s %d", claim['txid'], claim['nout'])
yield self._update_claimid(claim['claim_id'], name, claim_outpoint)
yield self._save_name_metadata(name, claim_outpoint, decoded.source_hash)
defer.returnValue(claim)
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@defer.inlineCallbacks
def abandon_claim(self, claim_id):
claim_out = yield self._abandon_claim(claim_id)
if not claim_out['success']:
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msg = 'Abandon of {} failed: {}'.format(claim_id, claim_out['reason'])
raise Exception(msg)
claim_out = self._process_claim_out(claim_out)
defer.returnValue(claim_out)
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def support_claim(self, name, claim_id, amount):
def _parse_support_claim_out(claim_out):
if not claim_out['success']:
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msg = 'Support of {}:{} failed: {}'.format(name, claim_id, claim_out['reason'])
raise Exception(msg)
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claim_out = self._process_claim_out(claim_out)
return defer.succeed(claim_out)
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if self.get_balance() < amount:
raise InsufficientFundsError()
d = self._support_claim(name, claim_id, amount)
d.addCallback(lambda claim_out: _parse_support_claim_out(claim_out))
return d
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def get_block_info(self, height):
d = self._get_blockhash(height)
return d
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def get_history(self):
d = self._get_history()
return d
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def address_is_mine(self, address):
d = self._address_is_mine(address)
return d
def get_transaction(self, txid):
d = self._get_transaction(txid)
return d
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def get_claim_metadata_for_sd_hash(self, sd_hash):
return self._get_claim_metadata_for_sd_hash(sd_hash)
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def get_balance(self):
return self.wallet_balance - self.total_reserved_points - sum(self.queued_payments.values())
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def _check_expected_balances(self):
now = datetime.datetime.now()
balances_to_check = []
try:
while self.expected_balance_at_time[0][3] < now:
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balances_to_check.append(self.expected_balance_at_time.popleft())
except IndexError:
pass
ds = []
for balance_to_check in balances_to_check:
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log.debug("Checking balance of address %s", str(balance_to_check[1]))
d = self._get_balance_for_address(balance_to_check[1])
d.addCallback(lambda bal: bal >= balance_to_check[2])
ds.append(d)
dl = defer.DeferredList(ds)
def handle_checks(results):
from future_builtins import zip
for balance, (success, result) in zip(balances_to_check, results):
peer = balance[0]
if success is True:
if result is False:
if balance[4] <= 1: # first or second strike, give them another chance
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new_expected_balance = (
balance[0],
balance[1],
balance[2],
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datetime.datetime.now() + self.max_expected_payment_time,
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balance[4] + 1,
balance[5]
)
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self.expected_balance_at_time.append(new_expected_balance)
peer.update_score(-5.0)
else:
peer.update_score(-50.0)
else:
if balance[4] == 0:
peer.update_score(balance[5])
peer.update_stats('points_received', balance[5])
else:
log.warning("Something went wrong checking a balance. Peer: %s, account: %s,"
"expected balance: %s, expected time: %s, count: %s, error: %s",
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str(balance[0]), str(balance[1]), str(balance[2]), str(balance[3]),
str(balance[4]), str(result.getErrorMessage()))
dl.addCallback(handle_checks)
return dl
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# ======== Must be overridden ======== #
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def _update_balance(self):
return defer.fail(NotImplementedError())
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def get_new_address(self):
return defer.fail(NotImplementedError())
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def get_address_balance(self, address):
return defer.fail(NotImplementedError())
def get_block(self, blockhash):
return defer.fail(NotImplementedError())
def get_most_recent_blocktime(self):
return defer.fail(NotImplementedError())
def get_best_blockhash(self):
return defer.fail(NotImplementedError())
def get_name_claims(self):
return defer.fail(NotImplementedError())
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def _get_claims_for_name(self, name):
return defer.fail(NotImplementedError())
def _claim_certificate(self, name, amount):
return defer.fail(NotImplementedError())
def _send_name_claim(self, name, val, amount, certificate_id=None):
return defer.fail(NotImplementedError())
def _abandon_claim(self, claim_id):
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return defer.fail(NotImplementedError())
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def _support_claim(self, name, claim_id, amount):
return defer.fail(NotImplementedError())
def _do_send_many(self, payments_to_send):
return defer.fail(NotImplementedError())
def _get_value_for_name(self, name):
return defer.fail(NotImplementedError())
def get_claims_from_tx(self, txid):
return defer.fail(NotImplementedError())
def _get_balance_for_address(self, address):
return defer.fail(NotImplementedError())
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def _get_history(self):
return defer.fail(NotImplementedError())
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def _address_is_mine(self, address):
return defer.fail(NotImplementedError())
def _get_value_for_uri(self, uri):
return defer.fail(NotImplementedError())
def _get_certificate_claims(self):
return defer.fail(NotImplementedError())
def _get_claim_by_outpoint(self, txid, nout):
return defer.fail(NotImplementedError())
def _get_claim_by_claimid(self, claim_id):
return defer.fail(NotImplementedError())
def _start(self):
pass
def _stop(self):
pass
class LBRYumWallet(Wallet):
def __init__(self, storage, config=None):
Wallet.__init__(self, storage)
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self._config = config
self.network = None
self.wallet = None
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self.is_first_run = False
self.printed_retrieving_headers = False
self._start_check = None
self._catch_up_check = None
self._caught_up_counter = 0
self._lag_counter = 0
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self.blocks_behind = 0
self.catchup_progress = 0
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def _is_first_run(self):
return (not self.printed_retrieving_headers and
self.network.blockchain.retrieving_headers)
def _start(self):
network_start_d = defer.Deferred()
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self.config = make_config(self._config)
def setup_network():
self.network = Network(self.config)
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log.info("Loading the wallet")
return defer.succeed(self.network.start())
def check_started():
if self.network.is_connecting():
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if self._is_first_run():
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log.info("Running the wallet for the first time. This may take a moment.")
self.printed_retrieving_headers = True
return False
self._start_check.stop()
self._start_check = None
if self.network.is_connected():
network_start_d.callback(True)
else:
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network_start_d.errback(ValueError("Failed to connect to network."))
self._start_check = task.LoopingCall(check_started)
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d = setup_network()
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d.addCallback(lambda _: self._load_wallet())
d.addCallback(self._save_wallet)
d.addCallback(lambda _: self._start_check.start(.1))
d.addCallback(lambda _: network_start_d)
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d.addCallback(lambda _: self._load_blockchain())
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d.addCallback(lambda _: log.info("Subscribing to addresses"))
d.addCallback(lambda _: self.wallet.wait_until_synchronized(lambda _: None))
d.addCallback(lambda _: log.info("Synchronized wallet"))
return d
def _stop(self):
if self._start_check is not None:
self._start_check.stop()
self._start_check = None
if self._catch_up_check is not None:
if self._catch_up_check.running:
self._catch_up_check.stop()
self._catch_up_check = None
d = defer.Deferred()
def check_stopped():
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if self.network:
if self.network.is_connected():
return False
stop_check.stop()
self.network = None
d.callback(True)
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if self.network:
self.network.stop()
stop_check = task.LoopingCall(check_stopped)
stop_check.start(.1)
return d
def _load_wallet(self):
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path = self.config.get_wallet_path()
storage = lbryum.wallet.WalletStorage(path)
wallet = lbryum.wallet.Wallet(storage)
if not storage.file_exists:
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self.is_first_run = True
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seed = wallet.make_seed()
wallet.add_seed(seed, None)
wallet.create_master_keys(None)
wallet.create_main_account()
wallet.synchronize()
self.wallet = wallet
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self._check_large_wallet()
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return defer.succeed(True)
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def _check_large_wallet(self):
if len(self.wallet.addresses(include_change=False)) > 1000:
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log.warning(("Your wallet is excessively large, please follow instructions here: ",
"https://github.com/lbryio/lbry/issues/437 to reduce your wallet size"))
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def _load_blockchain(self):
blockchain_caught_d = defer.Deferred()
def on_update_callback(event, *args):
# This callback is called by lbryum when something chain
# related has happened
local_height = self.network.get_local_height()
remote_height = self.network.get_server_height()
updated_blocks_behind = self.network.get_blocks_behind()
log.info(
'Local Height: %s, remote height: %s, behind: %s',
local_height, remote_height, updated_blocks_behind)
self.blocks_behind = updated_blocks_behind
if local_height != remote_height:
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return
assert self.blocks_behind == 0
self.network.unregister_callback(on_update_callback)
log.info("Wallet Loaded")
reactor.callFromThread(blockchain_caught_d.callback, True)
self.network.register_callback(on_update_callback, ['updated'])
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d = defer.succeed(self.wallet.start_threads(self.network))
d.addCallback(lambda _: blockchain_caught_d)
return d
def _get_cmd_runner(self):
return Commands(self.config, self.wallet, self.network)
# run commands as a defer.succeed,
# lbryum commands should be run this way , unless if the command
# only makes a lbrum server query, use _run_cmd_as_defer_to_thread()
def _run_cmd_as_defer_succeed(self, command_name, *args, **kwargs):
cmd_runner = self._get_cmd_runner()
cmd = known_commands[command_name]
func = getattr(cmd_runner, cmd.name)
return defer.succeed(func(*args, **kwargs))
# run commands as a deferToThread, lbryum commands that only make
# queries to lbryum server should be run this way
# TODO: keep track of running threads and cancel them on `stop`
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# otherwise the application will hang, waiting for threads to complete
def _run_cmd_as_defer_to_thread(self, command_name, *args, **kwargs):
cmd_runner = self._get_cmd_runner()
cmd = known_commands[command_name]
func = getattr(cmd_runner, cmd.name)
return threads.deferToThread(func, *args, **kwargs)
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def _update_balance(self):
accounts = None
exclude_claimtrietx = True
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d = self._run_cmd_as_defer_succeed('getbalance', accounts, exclude_claimtrietx)
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d.addCallback(
lambda result: Decimal(result['confirmed']) + Decimal(result.get('unconfirmed', 0.0)))
return d
# Always create and return a brand new address
@defer.inlineCallbacks
def get_new_address(self):
addr = self.wallet.create_new_address(account=None)
yield self._save_wallet()
defer.returnValue(addr)
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# Get the balance of a given address.
def get_address_balance(self, address, include_balance=False):
c, u, x = self.wallet.get_addr_balance(address)
if include_balance is False:
return Decimal(float(c) / COIN)
else:
return Decimal((float(c) + float(u) + float(x)) / COIN)
# Return an address with no balance in it, if
# there is none, create a brand new address
@defer.inlineCallbacks
def get_unused_address(self):
addr = self.wallet.get_unused_address(account=None)
if addr is None:
addr = self.wallet.create_new_address()
yield self._save_wallet()
defer.returnValue(addr)
def get_block(self, blockhash):
return self._run_cmd_as_defer_to_thread('getblock', blockhash)
def get_most_recent_blocktime(self):
height = self.network.get_local_height()
if height < 0:
return defer.succeed(None)
header = self.network.get_header(self.network.get_local_height())
return defer.succeed(header['timestamp'])
def get_best_blockhash(self):
height = self.network.get_local_height()
if height < 0:
return defer.succeed(None)
header = self.network.blockchain.read_header(height)
return defer.succeed(self.network.blockchain.hash_header(header))
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def _get_blockhash(self, height):
header = self.network.blockchain.read_header(height)
return defer.succeed(self.network.blockchain.hash_header(header))
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def _get_transaction(self, txid):
return self._run_cmd_as_defer_to_thread("gettransaction", txid)
def get_name_claims(self):
return self._run_cmd_as_defer_succeed('getnameclaims')
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def _get_claims_for_name(self, name):
return self._run_cmd_as_defer_to_thread('getclaimsforname', name)
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@defer.inlineCallbacks
def _send_name_claim(self, name, value, amount, certificate_id=None):
log.info("Send claim: %s for %s: %s ", name, amount, value)
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claim_out = yield self._run_cmd_as_defer_succeed('claim', name, value, amount,
certificate_id=certificate_id)
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defer.returnValue(claim_out)
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@defer.inlineCallbacks
def _abandon_claim(self, claim_id):
log.debug("Abandon %s" % claim_id)
tx_out = yield self._run_cmd_as_defer_succeed('abandon', claim_id)
defer.returnValue(tx_out)
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@defer.inlineCallbacks
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def _support_claim(self, name, claim_id, amount):
log.debug("Support %s %s %f" % (name, claim_id, amount))
broadcast = False
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tx = yield self._run_cmd_as_defer_succeed('support', name, claim_id, amount, broadcast)
claim_out = yield self._broadcast_claim_transaction(tx)
defer.returnValue(claim_out)
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@defer.inlineCallbacks
def _broadcast_claim_transaction(self, claim_out):
if 'success' not in claim_out:
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raise Exception('Unexpected claim command output: {}'.format(claim_out))
if claim_out['success']:
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yield self._broadcast_transaction(claim_out['tx'])
defer.returnValue(claim_out)
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@defer.inlineCallbacks
def _broadcast_transaction(self, raw_tx):
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txid = yield self._run_cmd_as_defer_to_thread('broadcast', raw_tx)
log.info("Broadcast tx: %s", txid)
if len(txid) != 64:
raise Exception("Transaction rejected. Raw tx: {}".format(raw_tx))
defer.returnValue(txid)
def _do_send_many(self, payments_to_send):
def broadcast_send_many(paytomany_out):
if 'hex' not in paytomany_out:
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raise Exception('Unepxected paytomany output:{}'.format(paytomany_out))
return self._broadcast_transaction(paytomany_out['hex'])
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log.debug("Doing send many. payments to send: %s", str(payments_to_send))
d = self._run_cmd_as_defer_succeed('paytomany', payments_to_send.iteritems())
d.addCallback(lambda out: broadcast_send_many(out))
return d
def _get_value_for_name(self, name):
if not name:
raise Exception("No name given")
return self._run_cmd_as_defer_to_thread('getvalueforname', name)
def _get_value_for_uri(self, uri):
if not uri:
raise Exception("No uri given")
return self._run_cmd_as_defer_to_thread('getvalueforuri', uri)
def _claim_certificate(self, name, amount):
return self._run_cmd_as_defer_to_thread('claimcertificate', name, amount)
def _get_certificate_claims(self):
return self._run_cmd_as_defer_succeed('getcertificateclaims')
def get_claims_from_tx(self, txid):
return self._run_cmd_as_defer_to_thread('getclaimsfromtx', txid)
def _get_claim_by_outpoint(self, txid, nout):
return self._run_cmd_as_defer_to_thread('getclaimbyoutpoint', txid, nout)
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def _get_claim_by_claimid(self, claim_id):
return self._run_cmd_as_defer_to_thread('getclaimbyid', claim_id)
def _get_balance_for_address(self, address):
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return defer.succeed(Decimal(self.wallet.get_addr_received(address)) / COIN)
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def get_nametrie(self):
return self._run_cmd_as_defer_to_thread('getclaimtrie')
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def _get_history(self):
return self._run_cmd_as_defer_succeed('history')
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def _address_is_mine(self, address):
return self._run_cmd_as_defer_succeed('ismine', address)
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# returns a list of public keys associated with address
# (could be multiple public keys if a multisig address)
def get_pub_keys(self, address):
return self._run_cmd_as_defer_succeed('getpubkeys', address)
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def list_addresses(self):
return self._run_cmd_as_defer_succeed('listaddresses')
def _save_wallet(self, val=None):
self.wallet.storage.write()
return defer.succeed(val)
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class LBRYcrdAddressRequester(object):
implements([IRequestCreator])
def __init__(self, wallet):
self.wallet = wallet
self._protocols = []
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# ======== IRequestCreator ======== #
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def send_next_request(self, peer, protocol):
if not protocol in self._protocols:
r = ClientRequest({'lbrycrd_address': True}, 'lbrycrd_address')
d = protocol.add_request(r)
d.addCallback(self._handle_address_response, peer, r, protocol)
d.addErrback(self._request_failed, peer)
self._protocols.append(protocol)
return defer.succeed(True)
else:
return defer.succeed(False)
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# ======== internal calls ======== #
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def _handle_address_response(self, response_dict, peer, request, protocol):
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if request.response_identifier not in response_dict:
raise ValueError(
"Expected {} in response but did not get it".format(request.response_identifier))
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assert protocol in self._protocols, "Responding protocol is not in our list of protocols"
address = response_dict[request.response_identifier]
self.wallet.update_peer_address(peer, address)
def _request_failed(self, err, peer):
if not err.check(RequestCanceledError):
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log.warning("A peer failed to send a valid public key response. Error: %s, peer: %s",
err.getErrorMessage(), str(peer))
return err
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class LBRYcrdAddressQueryHandlerFactory(object):
implements(IQueryHandlerFactory)
def __init__(self, wallet):
self.wallet = wallet
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# ======== IQueryHandlerFactory ======== #
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def build_query_handler(self):
q_h = LBRYcrdAddressQueryHandler(self.wallet)
return q_h
def get_primary_query_identifier(self):
return 'lbrycrd_address'
def get_description(self):
return "LBRYcrd Address - an address for receiving payments via LBRYcrd"
class LBRYcrdAddressQueryHandler(object):
implements(IQueryHandler)
def __init__(self, wallet):
self.wallet = wallet
self.query_identifiers = ['lbrycrd_address']
self.address = None
self.peer = None
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# ======== IQueryHandler ======== #
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def register_with_request_handler(self, request_handler, peer):
self.peer = peer
request_handler.register_query_handler(self, self.query_identifiers)
def handle_queries(self, queries):
def create_response(address):
self.address = address
fields = {'lbrycrd_address': address}
return fields
if self.query_identifiers[0] in queries:
d = self.wallet.get_unused_address_for_peer(self.peer)
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d.addCallback(create_response)
return d
if self.address is None:
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log.warning("Expected a request for an address, but did not receive one")
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return defer.fail(
Failure(ValueError("Expected but did not receive an address request")))
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else:
return defer.succeed({})
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def make_config(config=None):
if config is None:
config = {}
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return SimpleConfig(config) if isinstance(config, dict) else config