import time import asyncio import typing from bisect import bisect_right from struct import pack, unpack from typing import Optional, List, Tuple, Set, DefaultDict, Dict, NamedTuple from prometheus_client import Gauge, Histogram from collections import defaultdict import lbry from lbry.schema.claim import Claim from lbry.wallet.ledger import Ledger, TestNetLedger, RegTestLedger from lbry.wallet.transaction import OutputScript, Output, Transaction from lbry.wallet.server.tx import Tx, TxOutput, TxInput from lbry.wallet.server.daemon import DaemonError from lbry.wallet.server.hash import hash_to_hex_str, HASHX_LEN from lbry.wallet.server.util import chunks, class_logger from lbry.crypto.hash import hash160 from lbry.wallet.server.leveldb import FlushData from lbry.wallet.server.mempool import MemPool from lbry.wallet.server.db.claimtrie import StagedClaimtrieItem, StagedClaimtrieSupport from lbry.wallet.server.db.claimtrie import get_takeover_name_ops, StagedActivation, get_add_effective_amount_ops from lbry.wallet.server.db.claimtrie import get_remove_name_ops, get_remove_effective_amount_ops from lbry.wallet.server.db.prefixes import ACTIVATED_SUPPORT_TXO_TYPE, ACTIVATED_CLAIM_TXO_TYPE from lbry.wallet.server.db.prefixes import PendingActivationKey, PendingActivationValue, Prefixes, ClaimToTXOValue from lbry.wallet.server.udp import StatusServer from lbry.wallet.server.db.revertable import RevertableOp, RevertablePut, RevertableDelete, RevertableOpStack if typing.TYPE_CHECKING: from lbry.wallet.server.leveldb import LevelDB class TrendingNotification(NamedTuple): height: int added: bool prev_amount: int new_amount: int class Prefetcher: """Prefetches blocks (in the forward direction only).""" def __init__(self, daemon, coin, blocks_event): self.logger = class_logger(__name__, self.__class__.__name__) self.daemon = daemon self.coin = coin self.blocks_event = blocks_event self.blocks = [] self.caught_up = False # Access to fetched_height should be protected by the semaphore self.fetched_height = None self.semaphore = asyncio.Semaphore() self.refill_event = asyncio.Event() # The prefetched block cache size. The min cache size has # little effect on sync time. self.cache_size = 0 self.min_cache_size = 10 * 1024 * 1024 # This makes the first fetch be 10 blocks self.ave_size = self.min_cache_size // 10 self.polling_delay = 5 async def main_loop(self, bp_height): """Loop forever polling for more blocks.""" await self.reset_height(bp_height) while True: try: # Sleep a while if there is nothing to prefetch await self.refill_event.wait() if not await self._prefetch_blocks(): await asyncio.sleep(self.polling_delay) except DaemonError as e: self.logger.info(f'ignoring daemon error: {e}') def get_prefetched_blocks(self): """Called by block processor when it is processing queued blocks.""" blocks = self.blocks self.blocks = [] self.cache_size = 0 self.refill_event.set() return blocks async def reset_height(self, height): """Reset to prefetch blocks from the block processor's height. Used in blockchain reorganisations. This coroutine can be called asynchronously to the _prefetch_blocks coroutine so we must synchronize with a semaphore. """ async with self.semaphore: self.blocks.clear() self.cache_size = 0 self.fetched_height = height self.refill_event.set() daemon_height = await self.daemon.height() behind = daemon_height - height if behind > 0: self.logger.info(f'catching up to daemon height {daemon_height:,d} ' f'({behind:,d} blocks behind)') else: self.logger.info(f'caught up to daemon height {daemon_height:,d}') async def _prefetch_blocks(self): """Prefetch some blocks and put them on the queue. Repeats until the queue is full or caught up. """ daemon = self.daemon daemon_height = await daemon.height() async with self.semaphore: while self.cache_size < self.min_cache_size: # Try and catch up all blocks but limit to room in cache. # Constrain fetch count to between 0 and 500 regardless; # testnet can be lumpy. cache_room = self.min_cache_size // self.ave_size count = min(daemon_height - self.fetched_height, cache_room) count = min(500, max(count, 0)) if not count: self.caught_up = True return False first = self.fetched_height + 1 hex_hashes = await daemon.block_hex_hashes(first, count) if self.caught_up: self.logger.info('new block height {:,d} hash {}' .format(first + count-1, hex_hashes[-1])) blocks = await daemon.raw_blocks(hex_hashes) assert count == len(blocks) # Special handling for genesis block if first == 0: blocks[0] = self.coin.genesis_block(blocks[0]) self.logger.info(f'verified genesis block with hash {hex_hashes[0]}') # Update our recent average block size estimate size = sum(len(block) for block in blocks) if count >= 10: self.ave_size = size // count else: self.ave_size = (size + (10 - count) * self.ave_size) // 10 self.blocks.extend(blocks) self.cache_size += size self.fetched_height += count self.blocks_event.set() self.refill_event.clear() return True class ChainError(Exception): """Raised on error processing blocks.""" NAMESPACE = "wallet_server" HISTOGRAM_BUCKETS = ( .005, .01, .025, .05, .075, .1, .25, .5, .75, 1.0, 2.5, 5.0, 7.5, 10.0, 15.0, 20.0, 30.0, 60.0, float('inf') ) class BlockProcessor: """Process blocks and update the DB state to match. Employ a prefetcher to prefetch blocks in batches for processing. Coordinate backing up in case of chain reorganisations. """ block_count_metric = Gauge( "block_count", "Number of processed blocks", namespace=NAMESPACE ) block_update_time_metric = Histogram( "block_time", "Block update times", namespace=NAMESPACE, buckets=HISTOGRAM_BUCKETS ) reorg_count_metric = Gauge( "reorg_count", "Number of reorgs", namespace=NAMESPACE ) def __init__(self, env, db: 'LevelDB', daemon, shutdown_event: asyncio.Event): self.state_lock = asyncio.Lock() self.env = env self.db = db self.daemon = daemon self.mempool = MemPool(env.coin, daemon, db, self.state_lock) self.shutdown_event = shutdown_event self.coin = env.coin if env.coin.NET == 'mainnet': self.ledger = Ledger elif env.coin.NET == 'testnet': self.ledger = TestNetLedger else: self.ledger = RegTestLedger self._caught_up_event: Optional[asyncio.Event] = None self.height = 0 self.tip = bytes.fromhex(self.coin.GENESIS_HASH)[::-1] self.tx_count = 0 self.blocks_event = asyncio.Event() self.prefetcher = Prefetcher(daemon, env.coin, self.blocks_event) self.logger = class_logger(__name__, self.__class__.__name__) # Meta self.touched_hashXs: Set[bytes] = set() # UTXO cache self.utxo_cache: Dict[Tuple[bytes, int], Tuple[bytes, int]] = {} # Claimtrie cache self.db_op_stack: Optional[RevertableOpStack] = None # self.search_cache = {} self.history_cache = {} self.status_server = StatusServer() ################################# # attributes used for calculating stake activations and takeovers per block ################################# self.taken_over_names: Set[str] = set() # txo to pending claim self.txo_to_claim: Dict[Tuple[int, int], StagedClaimtrieItem] = {} # claim hash to pending claim txo self.claim_hash_to_txo: Dict[bytes, Tuple[int, int]] = {} # claim hash to lists of pending support txos self.support_txos_by_claim: DefaultDict[bytes, List[Tuple[int, int]]] = defaultdict(list) # support txo: (supported claim hash, support amount) self.support_txo_to_claim: Dict[Tuple[int, int], Tuple[bytes, int]] = {} # removed supports {name: {claim_hash: [(tx_num, nout), ...]}} self.removed_support_txos_by_name_by_claim: DefaultDict[str, DefaultDict[bytes, List[Tuple[int, int]]]] = \ defaultdict(lambda: defaultdict(list)) self.abandoned_claims: Dict[bytes, StagedClaimtrieItem] = {} self.updated_claims: Set[bytes] = set() # removed activated support amounts by claim hash self.removed_active_support_amount_by_claim: DefaultDict[bytes, List[int]] = defaultdict(list) # pending activated support amounts by claim hash self.activated_support_amount_by_claim: DefaultDict[bytes, List[int]] = defaultdict(list) # pending activated name and claim hash to claim/update txo amount self.activated_claim_amount_by_name_and_hash: Dict[Tuple[str, bytes], int] = {} # pending claim and support activations per claim hash per name, # used to process takeovers due to added activations activation_by_claim_by_name_type = DefaultDict[str, DefaultDict[bytes, List[Tuple[PendingActivationKey, int]]]] self.activation_by_claim_by_name: activation_by_claim_by_name_type = defaultdict(lambda: defaultdict(list)) # these are used for detecting early takeovers by not yet activated claims/supports self.possible_future_support_amounts_by_claim_hash: DefaultDict[bytes, List[int]] = defaultdict(list) self.possible_future_claim_amount_by_name_and_hash: Dict[Tuple[str, bytes], int] = {} self.possible_future_support_txos_by_claim_hash: DefaultDict[bytes, List[Tuple[int, int]]] = defaultdict(list) self.removed_claims_to_send_es = set() # cumulative changes across blocks to send ES self.touched_claims_to_send_es = set() self.activation_info_to_send_es: DefaultDict[str, List[TrendingNotification]] = defaultdict(list) self.removed_claim_hashes: Set[bytes] = set() # per block changes self.touched_claim_hashes: Set[bytes] = set() self.signatures_changed = set() self.pending_reposted = set() self.pending_channel_counts = defaultdict(lambda: 0) self.pending_channels = {} self.amount_cache = {} self.expired_claim_hashes: Set[bytes] = set() self.doesnt_have_valid_signature: Set[bytes] = set() self.claim_channels: Dict[bytes, bytes] = {} self.hashXs_by_tx: DefaultDict[bytes, List[int]] = defaultdict(list) async def claim_producer(self): if self.db.db_height <= 1: return for claim_hash in self.removed_claims_to_send_es: yield 'delete', claim_hash.hex() async for claim in self.db.claims_producer(self.touched_claims_to_send_es): yield 'update', claim async def run_in_thread_with_lock(self, func, *args): # Run in a thread to prevent blocking. Shielded so that # cancellations from shutdown don't lose work - when the task # completes the data will be flushed and then we shut down. # Take the state lock to be certain in-memory state is # consistent and not being updated elsewhere. async def run_in_thread_locked(): async with self.state_lock: return await asyncio.get_event_loop().run_in_executor(None, func, *args) return await asyncio.shield(run_in_thread_locked()) @staticmethod async def run_in_thread(func, *args): async def run_in_thread(): return await asyncio.get_event_loop().run_in_executor(None, func, *args) return await asyncio.shield(run_in_thread()) async def check_and_advance_blocks(self, raw_blocks): """Process the list of raw blocks passed. Detects and handles reorgs. """ if not raw_blocks: return first = self.height + 1 blocks = [self.coin.block(raw_block, first + n) for n, raw_block in enumerate(raw_blocks)] headers = [block.header for block in blocks] hprevs = [self.coin.header_prevhash(h) for h in headers] chain = [self.tip] + [self.coin.header_hash(h) for h in headers[:-1]] if hprevs == chain: total_start = time.perf_counter() try: for block in blocks: start = time.perf_counter() await self.run_in_thread(self.advance_block, block) await self.flush() self.logger.info("advanced to %i in %0.3fs", self.height, time.perf_counter() - start) if self.height == self.coin.nExtendedClaimExpirationForkHeight: self.logger.warning( "applying extended claim expiration fork on claims accepted by, %i", self.height ) await self.run_in_thread(self.db.apply_expiration_extension_fork) # TODO: we shouldnt wait on the search index updating before advancing to the next block if not self.db.first_sync: await self.db.reload_blocking_filtering_streams() await self.db.search_index.claim_consumer(self.claim_producer()) await self.db.search_index.apply_filters(self.db.blocked_streams, self.db.blocked_channels, self.db.filtered_streams, self.db.filtered_channels) await self.db.search_index.update_trending_score(self.activation_info_to_send_es) self.db.search_index.clear_caches() self.touched_claims_to_send_es.clear() self.removed_claims_to_send_es.clear() self.activation_info_to_send_es.clear() # print("******************\n") except: self.logger.exception("advance blocks failed") raise processed_time = time.perf_counter() - total_start self.block_count_metric.set(self.height) self.block_update_time_metric.observe(processed_time) self.status_server.set_height(self.db.fs_height, self.db.db_tip) if not self.db.first_sync: s = '' if len(blocks) == 1 else 's' self.logger.info('processed {:,d} block{} in {:.1f}s'.format(len(blocks), s, processed_time)) if self._caught_up_event.is_set(): await self.mempool.on_block(self.touched_hashXs, self.height) self.touched_hashXs.clear() elif hprevs[0] != chain[0]: min_start_height = max(self.height - self.coin.REORG_LIMIT, 0) count = 1 block_hashes_from_lbrycrd = await self.daemon.block_hex_hashes( min_start_height, self.coin.REORG_LIMIT ) for height, block_hash in zip( reversed(range(min_start_height, min_start_height + self.coin.REORG_LIMIT)), reversed(block_hashes_from_lbrycrd)): if self.db.get_block_hash(height)[::-1].hex() == block_hash: break count += 1 self.logger.warning(f"blockchain reorg detected at {self.height}, unwinding last {count} blocks") try: assert count > 0, count for _ in range(count): await self.backup_block() await self.flush() self.logger.info(f'backed up to height {self.height:,d}') await self.db._read_claim_txos() # TODO: don't do this for touched in self.touched_claims_to_send_es: if not self.db.get_claim_txo(touched): self.removed_claims_to_send_es.add(touched) self.touched_claims_to_send_es.difference_update(self.removed_claims_to_send_es) await self.db.search_index.claim_consumer(self.claim_producer()) self.db.search_index.clear_caches() self.touched_claims_to_send_es.clear() self.removed_claims_to_send_es.clear() self.activation_info_to_send_es.clear() await self.prefetcher.reset_height(self.height) self.reorg_count_metric.inc() except: self.logger.exception("reorg blocks failed") raise finally: self.logger.info("backed up to block %i", self.height) else: # It is probably possible but extremely rare that what # bitcoind returns doesn't form a chain because it # reorg-ed the chain as it was processing the batched # block hash requests. Should this happen it's simplest # just to reset the prefetcher and try again. self.logger.warning('daemon blocks do not form a chain; ' 'resetting the prefetcher') await self.prefetcher.reset_height(self.height) # - Flushing def flush_data(self): """The data for a flush. The lock must be taken.""" assert self.state_lock.locked() return FlushData(self.height, self.tx_count, self.db_op_stack, self.tip) async def flush(self): def flush(): self.db.flush_dbs(self.flush_data()) self.clear_after_advance_or_reorg() await self.run_in_thread_with_lock(flush) async def write_state(self): def flush(): with self.db.db.write_batch(transaction=True) as batch: self.db.write_db_state(batch) await self.run_in_thread_with_lock(flush) def _add_claim_or_update(self, height: int, txo: 'Output', tx_hash: bytes, tx_num: int, nout: int, spent_claims: typing.Dict[bytes, typing.Tuple[int, int, str]]): try: claim_name = txo.script.values['claim_name'].decode() except UnicodeDecodeError: claim_name = ''.join(chr(c) for c in txo.script.values['claim_name']) try: normalized_name = txo.normalized_name except UnicodeDecodeError: normalized_name = claim_name if txo.script.is_claim_name: claim_hash = hash160(tx_hash + pack('>I', nout))[::-1] # print(f"\tnew {claim_hash.hex()} ({tx_num} {txo.amount})") else: claim_hash = txo.claim_hash[::-1] # print(f"\tupdate {claim_hash.hex()} ({tx_num} {txo.amount})") signing_channel_hash = None channel_signature_is_valid = False try: signable = txo.signable is_repost = txo.claim.is_repost is_channel = txo.claim.is_channel if txo.claim.is_signed: signing_channel_hash = txo.signable.signing_channel_hash[::-1] except: # google.protobuf.message.DecodeError: Could not parse JSON. signable = None is_repost = False is_channel = False reposted_claim_hash = None if is_repost: reposted_claim_hash = txo.claim.repost.reference.claim_hash[::-1] self.pending_reposted.add(reposted_claim_hash) if is_channel: self.pending_channels[claim_hash] = txo.claim.channel.public_key_bytes self.doesnt_have_valid_signature.add(claim_hash) raw_channel_tx = None if signable and signable.signing_channel_hash: signing_channel = self.db.get_claim_txo(signing_channel_hash) if signing_channel: raw_channel_tx = self.db.prefix_db.tx.get(self.db.total_transactions[signing_channel.tx_num]).raw_tx channel_pub_key_bytes = None try: if not signing_channel: if txo.signable.signing_channel_hash[::-1] in self.pending_channels: channel_pub_key_bytes = self.pending_channels[signing_channel_hash] elif raw_channel_tx: chan_output = self.coin.transaction(raw_channel_tx).outputs[signing_channel.position] chan_script = OutputScript(chan_output.pk_script) chan_script.parse() channel_meta = Claim.from_bytes(chan_script.values['claim']) channel_pub_key_bytes = channel_meta.channel.public_key_bytes if channel_pub_key_bytes: channel_signature_is_valid = Output.is_signature_valid( txo.get_encoded_signature(), txo.get_signature_digest(self.ledger), channel_pub_key_bytes ) if channel_signature_is_valid: self.pending_channel_counts[signing_channel_hash] += 1 self.doesnt_have_valid_signature.remove(claim_hash) self.claim_channels[claim_hash] = signing_channel_hash except: self.logger.exception(f"error validating channel signature for %s:%i", tx_hash[::-1].hex(), nout) if txo.script.is_claim_name: # it's a root claim root_tx_num, root_idx = tx_num, nout previous_amount = 0 else: # it's a claim update if claim_hash not in spent_claims: # print(f"\tthis is a wonky tx, contains unlinked claim update {claim_hash.hex()}") return if normalized_name != spent_claims[claim_hash][2]: self.logger.warning( f"{tx_hash[::-1].hex()} contains mismatched name for claim update {claim_hash.hex()}" ) return (prev_tx_num, prev_idx, _) = spent_claims.pop(claim_hash) # print(f"\tupdate {claim_hash.hex()} {tx_hash[::-1].hex()} {txo.amount}") if (prev_tx_num, prev_idx) in self.txo_to_claim: previous_claim = self.txo_to_claim.pop((prev_tx_num, prev_idx)) self.claim_hash_to_txo.pop(claim_hash) root_tx_num, root_idx = previous_claim.root_tx_num, previous_claim.root_position else: previous_claim = self._make_pending_claim_txo(claim_hash) root_tx_num, root_idx = previous_claim.root_tx_num, previous_claim.root_position activation = self.db.get_activation(prev_tx_num, prev_idx) claim_name = previous_claim.name self.db_op_stack.extend_ops( StagedActivation( ACTIVATED_CLAIM_TXO_TYPE, claim_hash, prev_tx_num, prev_idx, activation, normalized_name, previous_claim.amount ).get_remove_activate_ops() ) previous_amount = previous_claim.amount self.updated_claims.add(claim_hash) self.db.claim_to_txo[claim_hash] = ClaimToTXOValue( tx_num, nout, root_tx_num, root_idx, txo.amount, channel_signature_is_valid, claim_name ) self.db.txo_to_claim[tx_num][nout] = claim_hash pending = StagedClaimtrieItem( claim_name, normalized_name, claim_hash, txo.amount, self.coin.get_expiration_height(height), tx_num, nout, root_tx_num, root_idx, channel_signature_is_valid, signing_channel_hash, reposted_claim_hash ) self.txo_to_claim[(tx_num, nout)] = pending self.claim_hash_to_txo[claim_hash] = (tx_num, nout) self.db_op_stack.extend_ops(pending.get_add_claim_utxo_ops()) def _add_support(self, height: int, txo: 'Output', tx_num: int, nout: int): supported_claim_hash = txo.claim_hash[::-1] self.support_txos_by_claim[supported_claim_hash].append((tx_num, nout)) self.support_txo_to_claim[(tx_num, nout)] = supported_claim_hash, txo.amount # print(f"\tsupport claim {supported_claim_hash.hex()} +{txo.amount}") self.db_op_stack.extend_ops(StagedClaimtrieSupport( supported_claim_hash, tx_num, nout, txo.amount ).get_add_support_utxo_ops()) def _add_claim_or_support(self, height: int, tx_hash: bytes, tx_num: int, nout: int, txo: 'Output', spent_claims: typing.Dict[bytes, Tuple[int, int, str]]): if txo.script.is_claim_name or txo.script.is_update_claim: self._add_claim_or_update(height, txo, tx_hash, tx_num, nout, spent_claims) elif txo.script.is_support_claim or txo.script.is_support_claim_data: self._add_support(height, txo, tx_num, nout) def _spend_support_txo(self, height: int, txin: TxInput): txin_num = self.db.transaction_num_mapping[txin.prev_hash] activation = 0 if (txin_num, txin.prev_idx) in self.support_txo_to_claim: spent_support, support_amount = self.support_txo_to_claim.pop((txin_num, txin.prev_idx)) self.support_txos_by_claim[spent_support].remove((txin_num, txin.prev_idx)) supported_name = self._get_pending_claim_name(spent_support) self.removed_support_txos_by_name_by_claim[supported_name][spent_support].append((txin_num, txin.prev_idx)) else: spent_support, support_amount = self.db.get_supported_claim_from_txo(txin_num, txin.prev_idx) if not spent_support: # it is not a support return supported_name = self._get_pending_claim_name(spent_support) if supported_name is not None: self.removed_support_txos_by_name_by_claim[supported_name][spent_support].append( (txin_num, txin.prev_idx)) activation = self.db.get_activation(txin_num, txin.prev_idx, is_support=True) if 0 < activation < self.height + 1: self.removed_active_support_amount_by_claim[spent_support].append(support_amount) if supported_name is not None and activation > 0: self.db_op_stack.extend_ops(StagedActivation( ACTIVATED_SUPPORT_TXO_TYPE, spent_support, txin_num, txin.prev_idx, activation, supported_name, support_amount ).get_remove_activate_ops()) # print(f"\tspent support for {spent_support.hex()} activation:{activation} {support_amount}") self.db_op_stack.extend_ops(StagedClaimtrieSupport( spent_support, txin_num, txin.prev_idx, support_amount ).get_spend_support_txo_ops()) def _spend_claim_txo(self, txin: TxInput, spent_claims: Dict[bytes, Tuple[int, int, str]]) -> bool: txin_num = self.db.transaction_num_mapping[txin.prev_hash] if (txin_num, txin.prev_idx) in self.txo_to_claim: spent = self.txo_to_claim[(txin_num, txin.prev_idx)] else: if txin_num not in self.db.txo_to_claim or txin.prev_idx not in self.db.txo_to_claim[txin_num]: # txo is not a claim return False spent_claim_hash_and_name = self.db.get_claim_from_txo( txin_num, txin.prev_idx ) assert spent_claim_hash_and_name is not None spent = self._make_pending_claim_txo(spent_claim_hash_and_name.claim_hash) claim_hash = self.db.txo_to_claim[txin_num].pop(txin.prev_idx) if not self.db.txo_to_claim[txin_num]: self.db.txo_to_claim.pop(txin_num) self.db.claim_to_txo.pop(claim_hash) if spent.reposted_claim_hash: self.pending_reposted.add(spent.reposted_claim_hash) if spent.signing_hash and spent.channel_signature_is_valid: self.pending_channel_counts[spent.signing_hash] -= 1 spent_claims[spent.claim_hash] = (spent.tx_num, spent.position, spent.normalized_name) # print(f"\tspend lbry://{spent.name}#{spent.claim_hash.hex()}") self.db_op_stack.extend_ops(spent.get_spend_claim_txo_ops()) return True def _spend_claim_or_support_txo(self, height: int, txin: TxInput, spent_claims): if not self._spend_claim_txo(txin, spent_claims): self._spend_support_txo(height, txin) def _abandon_claim(self, claim_hash: bytes, tx_num: int, nout: int, normalized_name: str): if (tx_num, nout) in self.txo_to_claim: pending = self.txo_to_claim.pop((tx_num, nout)) self.claim_hash_to_txo.pop(claim_hash) self.abandoned_claims[pending.claim_hash] = pending claim_root_tx_num, claim_root_idx = pending.root_tx_num, pending.root_position prev_amount, prev_signing_hash = pending.amount, pending.signing_hash reposted_claim_hash, name = pending.reposted_claim_hash, pending.name expiration = self.coin.get_expiration_height(self.height) signature_is_valid = pending.channel_signature_is_valid else: v = self.db.get_claim_txo( claim_hash ) claim_root_tx_num, claim_root_idx, prev_amount = v.root_tx_num, v.root_position, v.amount signature_is_valid, name = v.channel_signature_is_valid, v.name prev_signing_hash = self.db.get_channel_for_claim(claim_hash, tx_num, nout) reposted_claim_hash = self.db.get_repost(claim_hash) expiration = self.coin.get_expiration_height(bisect_right(self.db.tx_counts, tx_num)) self.abandoned_claims[claim_hash] = staged = StagedClaimtrieItem( name, normalized_name, claim_hash, prev_amount, expiration, tx_num, nout, claim_root_tx_num, claim_root_idx, signature_is_valid, prev_signing_hash, reposted_claim_hash ) if prev_signing_hash and prev_signing_hash in self.pending_channel_counts: self.pending_channel_counts.pop(prev_signing_hash) for support_txo_to_clear in self.support_txos_by_claim[claim_hash]: self.support_txo_to_claim.pop(support_txo_to_clear) self.support_txos_by_claim[claim_hash].clear() self.support_txos_by_claim.pop(claim_hash) if normalized_name.startswith('@'): # abandon a channel, invalidate signatures self._invalidate_channel_signatures(claim_hash) def _invalidate_channel_signatures(self, claim_hash: bytes): for k, signed_claim_hash in self.db.db.iterator( prefix=Prefixes.channel_to_claim.pack_partial_key(claim_hash)): if signed_claim_hash in self.abandoned_claims or signed_claim_hash in self.expired_claim_hashes: continue # there is no longer a signing channel for this claim as of this block if signed_claim_hash in self.doesnt_have_valid_signature: continue # the signing channel changed in this block if signed_claim_hash in self.claim_channels and signed_claim_hash != self.claim_channels[signed_claim_hash]: continue # if the claim with an invalidated signature is in this block, update the StagedClaimtrieItem # so that if we later try to spend it in this block we won't try to delete the channel info twice if signed_claim_hash in self.claim_hash_to_txo: signed_claim_txo = self.claim_hash_to_txo[signed_claim_hash] claim = self.txo_to_claim[signed_claim_txo] if claim.signing_hash != claim_hash: # claim was already invalidated this block continue self.txo_to_claim[signed_claim_txo] = claim.invalidate_signature() else: claim = self._make_pending_claim_txo(signed_claim_hash) self.signatures_changed.add(signed_claim_hash) self.pending_channel_counts[claim_hash] -= 1 self.db_op_stack.extend_ops(claim.get_invalidate_signature_ops()) for staged in list(self.txo_to_claim.values()): needs_invalidate = staged.claim_hash not in self.doesnt_have_valid_signature if staged.signing_hash == claim_hash and needs_invalidate: self.db_op_stack.extend_ops(staged.get_invalidate_signature_ops()) self.txo_to_claim[self.claim_hash_to_txo[staged.claim_hash]] = staged.invalidate_signature() self.signatures_changed.add(staged.claim_hash) self.pending_channel_counts[claim_hash] -= 1 def _make_pending_claim_txo(self, claim_hash: bytes): claim = self.db.get_claim_txo(claim_hash) if claim_hash in self.doesnt_have_valid_signature: signing_hash = None else: signing_hash = self.db.get_channel_for_claim(claim_hash, claim.tx_num, claim.position) reposted_claim_hash = self.db.get_repost(claim_hash) return StagedClaimtrieItem( claim.name, claim.normalized_name, claim_hash, claim.amount, self.coin.get_expiration_height( bisect_right(self.db.tx_counts, claim.tx_num), extended=self.height >= self.coin.nExtendedClaimExpirationForkHeight ), claim.tx_num, claim.position, claim.root_tx_num, claim.root_position, claim.channel_signature_is_valid, signing_hash, reposted_claim_hash ) def _expire_claims(self, height: int): expired = self.db.get_expired_by_height(height) self.expired_claim_hashes.update(set(expired.keys())) spent_claims = {} for expired_claim_hash, (tx_num, position, name, txi) in expired.items(): if (tx_num, position) not in self.txo_to_claim: self._spend_claim_txo(txi, spent_claims) if expired: # abandon the channels last to handle abandoned signed claims in the same tx, # see test_abandon_channel_and_claims_in_same_tx expired_channels = {} for abandoned_claim_hash, (tx_num, nout, normalized_name) in spent_claims.items(): self._abandon_claim(abandoned_claim_hash, tx_num, nout, normalized_name) if normalized_name.startswith('@'): expired_channels[abandoned_claim_hash] = (tx_num, nout, normalized_name) else: # print(f"\texpire {abandoned_claim_hash.hex()} {tx_num} {nout}") self._abandon_claim(abandoned_claim_hash, tx_num, nout, normalized_name) # do this to follow the same content claim removing pathway as if a claim (possible channel) was abandoned for abandoned_claim_hash, (tx_num, nout, normalized_name) in expired_channels.items(): # print(f"\texpire {abandoned_claim_hash.hex()} {tx_num} {nout}") self._abandon_claim(abandoned_claim_hash, tx_num, nout, normalized_name) def _cached_get_active_amount(self, claim_hash: bytes, txo_type: int, height: int) -> int: if (claim_hash, txo_type, height) in self.amount_cache: return self.amount_cache[(claim_hash, txo_type, height)] if txo_type == ACTIVATED_CLAIM_TXO_TYPE: if claim_hash in self.claim_hash_to_txo: amount = self.txo_to_claim[self.claim_hash_to_txo[claim_hash]].amount else: amount = self.db.get_active_amount_as_of_height( claim_hash, height ) self.amount_cache[(claim_hash, txo_type, height)] = amount else: self.amount_cache[(claim_hash, txo_type, height)] = amount = self.db._get_active_amount( claim_hash, txo_type, height ) return amount def _get_pending_claim_amount(self, name: str, claim_hash: bytes, height=None) -> int: if (name, claim_hash) in self.activated_claim_amount_by_name_and_hash: if claim_hash in self.claim_hash_to_txo: return self.txo_to_claim[self.claim_hash_to_txo[claim_hash]].amount return self.activated_claim_amount_by_name_and_hash[(name, claim_hash)] if (name, claim_hash) in self.possible_future_claim_amount_by_name_and_hash: return self.possible_future_claim_amount_by_name_and_hash[(name, claim_hash)] return self._cached_get_active_amount(claim_hash, ACTIVATED_CLAIM_TXO_TYPE, height or (self.height + 1)) def _get_pending_claim_name(self, claim_hash: bytes) -> Optional[str]: assert claim_hash is not None if claim_hash in self.claim_hash_to_txo: return self.txo_to_claim[self.claim_hash_to_txo[claim_hash]].normalized_name claim_info = self.db.get_claim_txo(claim_hash) if claim_info: return claim_info.normalized_name def _get_pending_supported_amount(self, claim_hash: bytes, height: Optional[int] = None) -> int: amount = self._cached_get_active_amount(claim_hash, ACTIVATED_SUPPORT_TXO_TYPE, height or (self.height + 1)) if claim_hash in self.activated_support_amount_by_claim: amount += sum(self.activated_support_amount_by_claim[claim_hash]) if claim_hash in self.possible_future_support_amounts_by_claim_hash: amount += sum(self.possible_future_support_amounts_by_claim_hash[claim_hash]) if claim_hash in self.removed_active_support_amount_by_claim: return amount - sum(self.removed_active_support_amount_by_claim[claim_hash]) return amount def _get_pending_effective_amount(self, name: str, claim_hash: bytes, height: Optional[int] = None) -> int: claim_amount = self._get_pending_claim_amount(name, claim_hash, height=height) support_amount = self._get_pending_supported_amount(claim_hash, height=height) return claim_amount + support_amount def _get_takeover_ops(self, height: int): # cache for controlling claims as of the previous block controlling_claims = {} def get_controlling(_name): if _name not in controlling_claims: _controlling = self.db.get_controlling_claim(_name) controlling_claims[_name] = _controlling else: _controlling = controlling_claims[_name] return _controlling names_with_abandoned_or_updated_controlling_claims: List[str] = [] # get the claims and supports previously scheduled to be activated at this block activated_at_height = self.db.get_activated_at_height(height) activate_in_future = defaultdict(lambda: defaultdict(list)) future_activations = defaultdict(dict) def get_delayed_activate_ops(name: str, claim_hash: bytes, is_new_claim: bool, tx_num: int, nout: int, amount: int, is_support: bool) -> List['RevertableOp']: controlling = get_controlling(name) nothing_is_controlling = not controlling staged_is_controlling = False if not controlling else claim_hash == controlling.claim_hash controlling_is_abandoned = False if not controlling else \ controlling.claim_hash in names_with_abandoned_or_updated_controlling_claims if nothing_is_controlling or staged_is_controlling or controlling_is_abandoned: delay = 0 elif is_new_claim: delay = self.coin.get_delay_for_name(height - controlling.height) else: controlling_effective_amount = self._get_pending_effective_amount(name, controlling.claim_hash) staged_effective_amount = self._get_pending_effective_amount(name, claim_hash) staged_update_could_cause_takeover = staged_effective_amount > controlling_effective_amount delay = 0 if not staged_update_could_cause_takeover else self.coin.get_delay_for_name( height - controlling.height ) if delay == 0: # if delay was 0 it needs to be considered for takeovers activated_at_height[PendingActivationValue(claim_hash, name)].append( PendingActivationKey( height, ACTIVATED_SUPPORT_TXO_TYPE if is_support else ACTIVATED_CLAIM_TXO_TYPE, tx_num, nout ) ) else: # if the delay was higher if still needs to be considered if something else triggers a takeover activate_in_future[name][claim_hash].append(( PendingActivationKey( height + delay, ACTIVATED_SUPPORT_TXO_TYPE if is_support else ACTIVATED_CLAIM_TXO_TYPE, tx_num, nout ), amount )) if is_support: self.possible_future_support_txos_by_claim_hash[claim_hash].append((tx_num, nout)) return StagedActivation( ACTIVATED_SUPPORT_TXO_TYPE if is_support else ACTIVATED_CLAIM_TXO_TYPE, claim_hash, tx_num, nout, height + delay, name, amount ).get_activate_ops() # determine names needing takeover/deletion due to controlling claims being abandoned # and add ops to deactivate abandoned claims for claim_hash, staged in self.abandoned_claims.items(): controlling = get_controlling(staged.normalized_name) if controlling and controlling.claim_hash == claim_hash: names_with_abandoned_or_updated_controlling_claims.append(staged.normalized_name) # print(f"\t{staged.name} needs takeover") activation = self.db.get_activation(staged.tx_num, staged.position) if activation > 0: # db returns -1 for non-existent txos # removed queued future activation from the db self.db_op_stack.extend_ops( StagedActivation( ACTIVATED_CLAIM_TXO_TYPE, staged.claim_hash, staged.tx_num, staged.position, activation, staged.normalized_name, staged.amount ).get_remove_activate_ops() ) else: # it hadn't yet been activated pass # get the removed activated supports for controlling claims to determine if takeovers are possible abandoned_support_check_need_takeover = defaultdict(list) for claim_hash, amounts in self.removed_active_support_amount_by_claim.items(): name = self._get_pending_claim_name(claim_hash) if name is None: continue controlling = get_controlling(name) if controlling and controlling.claim_hash == claim_hash and \ name not in names_with_abandoned_or_updated_controlling_claims: abandoned_support_check_need_takeover[(name, claim_hash)].extend(amounts) # get the controlling claims with updates to the claim to check if takeover is needed for claim_hash in self.updated_claims: if claim_hash in self.abandoned_claims: continue name = self._get_pending_claim_name(claim_hash) if name is None: continue controlling = get_controlling(name) if controlling and controlling.claim_hash == claim_hash and \ name not in names_with_abandoned_or_updated_controlling_claims: names_with_abandoned_or_updated_controlling_claims.append(name) # prepare to activate or delay activation of the pending claims being added this block for (tx_num, nout), staged in self.txo_to_claim.items(): is_delayed = not staged.is_update if staged.claim_hash in self.db.claim_to_txo: prev_txo = self.db.claim_to_txo[staged.claim_hash] prev_activation = self.db.get_activation(prev_txo.tx_num, prev_txo.position) if height < prev_activation or prev_activation < 0: is_delayed = True self.db_op_stack.extend_ops(get_delayed_activate_ops( staged.normalized_name, staged.claim_hash, is_delayed, tx_num, nout, staged.amount, is_support=False )) # and the supports for (tx_num, nout), (claim_hash, amount) in self.support_txo_to_claim.items(): if claim_hash in self.abandoned_claims: continue elif claim_hash in self.claim_hash_to_txo: name = self.txo_to_claim[self.claim_hash_to_txo[claim_hash]].normalized_name staged_is_new_claim = not self.txo_to_claim[self.claim_hash_to_txo[claim_hash]].is_update else: supported_claim_info = self.db.get_claim_txo(claim_hash) if not supported_claim_info: # the supported claim doesn't exist continue else: v = supported_claim_info name = v.normalized_name staged_is_new_claim = (v.root_tx_num, v.root_position) == (v.tx_num, v.position) self.db_op_stack.extend_ops(get_delayed_activate_ops( name, claim_hash, staged_is_new_claim, tx_num, nout, amount, is_support=True )) # add the activation/delayed-activation ops for activated, activated_txos in activated_at_height.items(): controlling = get_controlling(activated.normalized_name) if activated.claim_hash in self.abandoned_claims: continue reactivate = False if not controlling or controlling.claim_hash == activated.claim_hash: # there is no delay for claims to a name without a controlling value or to the controlling value reactivate = True for activated_txo in activated_txos: if activated_txo.is_support and (activated_txo.tx_num, activated_txo.position) in \ self.removed_support_txos_by_name_by_claim[activated.normalized_name][activated.claim_hash]: # print("\tskip activate support for pending abandoned claim") continue if activated_txo.is_claim: txo_type = ACTIVATED_CLAIM_TXO_TYPE txo_tup = (activated_txo.tx_num, activated_txo.position) if txo_tup in self.txo_to_claim: amount = self.txo_to_claim[txo_tup].amount else: amount = self.db.get_claim_txo_amount( activated.claim_hash ) self.activated_claim_amount_by_name_and_hash[(activated.normalized_name, activated.claim_hash)] = amount else: txo_type = ACTIVATED_SUPPORT_TXO_TYPE txo_tup = (activated_txo.tx_num, activated_txo.position) if txo_tup in self.support_txo_to_claim: amount = self.support_txo_to_claim[txo_tup][1] else: amount = self.db.get_support_txo_amount( activated.claim_hash, activated_txo.tx_num, activated_txo.position ) if amount is None: # print("\tskip activate support for non existent claim") continue self.activated_support_amount_by_claim[activated.claim_hash].append(amount) self.activation_by_claim_by_name[activated.normalized_name][activated.claim_hash].append((activated_txo, amount)) # print(f"\tactivate {'support' if txo_type == ACTIVATED_SUPPORT_TXO_TYPE else 'claim'} " # f"{activated.claim_hash.hex()} @ {activated_txo.height}") # go through claims where the controlling claim or supports to the controlling claim have been abandoned # check if takeovers are needed or if the name node is now empty need_reactivate_if_takes_over = {} for need_takeover in names_with_abandoned_or_updated_controlling_claims: existing = self.db.get_claim_txos_for_name(need_takeover) has_candidate = False # add existing claims to the queue for the takeover # track that we need to reactivate these if one of them becomes controlling for candidate_claim_hash, (tx_num, nout) in existing.items(): if candidate_claim_hash in self.abandoned_claims: continue has_candidate = True existing_activation = self.db.get_activation(tx_num, nout) activate_key = PendingActivationKey( existing_activation, ACTIVATED_CLAIM_TXO_TYPE, tx_num, nout ) self.activation_by_claim_by_name[need_takeover][candidate_claim_hash].append(( activate_key, self.db.get_claim_txo_amount(candidate_claim_hash) )) need_reactivate_if_takes_over[(need_takeover, candidate_claim_hash)] = activate_key # print(f"\tcandidate to takeover abandoned controlling claim for " # f"{activate_key.tx_num}:{activate_key.position} {activate_key.is_claim}") if not has_candidate: # remove name takeover entry, the name is now unclaimed controlling = get_controlling(need_takeover) self.db_op_stack.extend_ops(get_remove_name_ops(need_takeover, controlling.claim_hash, controlling.height)) # scan for possible takeovers out of the accumulated activations, of these make sure there # aren't any future activations for the taken over names with yet higher amounts, if there are # these need to get activated now and take over instead. for example: # claim A is winning for 0.1 for long enough for a > 1 takeover delay # claim B is made for 0.2 # a block later, claim C is made for 0.3, it will schedule to activate 1 (or rarely 2) block(s) after B # upon the delayed activation of B, we need to detect to activate C and make it take over early instead claim_exists = {} for activated, activated_claim_txo in self.db.get_future_activated(height): # uses the pending effective amount for the future activation height, not the current height future_amount = self._get_pending_claim_amount( activated.normalized_name, activated.claim_hash, activated_claim_txo.height + 1 ) if activated.claim_hash not in claim_exists: claim_exists[activated.claim_hash] = activated.claim_hash in self.claim_hash_to_txo or ( self.db.get_claim_txo(activated.claim_hash) is not None) if claim_exists[activated.claim_hash] and activated.claim_hash not in self.abandoned_claims: v = future_amount, activated, activated_claim_txo future_activations[activated.normalized_name][activated.claim_hash] = v for name, future_activated in activate_in_future.items(): for claim_hash, activated in future_activated.items(): if claim_hash not in claim_exists: claim_exists[claim_hash] = claim_hash in self.claim_hash_to_txo or ( self.db.get_claim_txo(claim_hash) is not None) if not claim_exists[claim_hash]: continue if claim_hash in self.abandoned_claims: continue for txo in activated: v = txo[1], PendingActivationValue(claim_hash, name), txo[0] future_activations[name][claim_hash] = v if txo[0].is_claim: self.possible_future_claim_amount_by_name_and_hash[(name, claim_hash)] = txo[1] else: self.possible_future_support_amounts_by_claim_hash[claim_hash].append(txo[1]) # process takeovers checked_names = set() for name, activated in self.activation_by_claim_by_name.items(): checked_names.add(name) controlling = controlling_claims[name] amounts = { claim_hash: self._get_pending_effective_amount(name, claim_hash) for claim_hash in activated.keys() if claim_hash not in self.abandoned_claims } # if there is a controlling claim include it in the amounts to ensure it remains the max if controlling and controlling.claim_hash not in self.abandoned_claims: amounts[controlling.claim_hash] = self._get_pending_effective_amount(name, controlling.claim_hash) winning_claim_hash = max(amounts, key=lambda x: amounts[x]) if not controlling or (winning_claim_hash != controlling.claim_hash and name in names_with_abandoned_or_updated_controlling_claims) or \ ((winning_claim_hash != controlling.claim_hash) and (amounts[winning_claim_hash] > amounts[controlling.claim_hash])): amounts_with_future_activations = {claim_hash: amount for claim_hash, amount in amounts.items()} amounts_with_future_activations.update( { claim_hash: self._get_pending_effective_amount( name, claim_hash, self.height + 1 + self.coin.maxTakeoverDelay ) for claim_hash in future_activations[name] } ) winning_including_future_activations = max( amounts_with_future_activations, key=lambda x: amounts_with_future_activations[x] ) future_winning_amount = amounts_with_future_activations[winning_including_future_activations] if winning_claim_hash != winning_including_future_activations and \ future_winning_amount > amounts[winning_claim_hash]: # print(f"\ttakeover by {winning_claim_hash.hex()} triggered early activation and " # f"takeover by {winning_including_future_activations.hex()} at {height}") # handle a pending activated claim jumping the takeover delay when another name takes over if winning_including_future_activations not in self.claim_hash_to_txo: claim = self.db.get_claim_txo(winning_including_future_activations) tx_num = claim.tx_num position = claim.position amount = claim.amount activation = self.db.get_activation(tx_num, position) else: tx_num, position = self.claim_hash_to_txo[winning_including_future_activations] amount = None activation = None for (k, tx_amount) in activate_in_future[name][winning_including_future_activations]: if (k.tx_num, k.position) == (tx_num, position): amount = tx_amount activation = k.height break assert None not in (amount, activation) # update the claim that's activating early self.db_op_stack.extend_ops( StagedActivation( ACTIVATED_CLAIM_TXO_TYPE, winning_including_future_activations, tx_num, position, activation, name, amount ).get_remove_activate_ops() + \ StagedActivation( ACTIVATED_CLAIM_TXO_TYPE, winning_including_future_activations, tx_num, position, height, name, amount ).get_activate_ops() ) for (k, amount) in activate_in_future[name][winning_including_future_activations]: txo = (k.tx_num, k.position) if txo in self.possible_future_support_txos_by_claim_hash[winning_including_future_activations]: self.db_op_stack.extend_ops( StagedActivation( ACTIVATED_SUPPORT_TXO_TYPE, winning_including_future_activations, k.tx_num, k.position, k.height, name, amount ).get_remove_activate_ops() + \ StagedActivation( ACTIVATED_SUPPORT_TXO_TYPE, winning_including_future_activations, k.tx_num, k.position, height, name, amount ).get_activate_ops() ) self.taken_over_names.add(name) self.db_op_stack.extend_ops(get_takeover_name_ops(name, winning_including_future_activations, height, controlling)) self.touched_claim_hashes.add(winning_including_future_activations) if controlling and controlling.claim_hash not in self.abandoned_claims: self.touched_claim_hashes.add(controlling.claim_hash) elif not controlling or (winning_claim_hash != controlling.claim_hash and name in names_with_abandoned_or_updated_controlling_claims) or \ ((winning_claim_hash != controlling.claim_hash) and (amounts[winning_claim_hash] > amounts[controlling.claim_hash])): # print(f"\ttakeover by {winning_claim_hash.hex()} at {height}") if (name, winning_claim_hash) in need_reactivate_if_takes_over: previous_pending_activate = need_reactivate_if_takes_over[(name, winning_claim_hash)] amount = self.db.get_claim_txo_amount( winning_claim_hash ) if winning_claim_hash in self.claim_hash_to_txo: tx_num, position = self.claim_hash_to_txo[winning_claim_hash] amount = self.txo_to_claim[(tx_num, position)].amount else: tx_num, position = previous_pending_activate.tx_num, previous_pending_activate.position if previous_pending_activate.height > height: # the claim had a pending activation in the future, move it to now if tx_num < self.tx_count: self.db_op_stack.extend_ops( StagedActivation( ACTIVATED_CLAIM_TXO_TYPE, winning_claim_hash, tx_num, position, previous_pending_activate.height, name, amount ).get_remove_activate_ops() ) self.db_op_stack.extend_ops( StagedActivation( ACTIVATED_CLAIM_TXO_TYPE, winning_claim_hash, tx_num, position, height, name, amount ).get_activate_ops() ) self.taken_over_names.add(name) self.db_op_stack.extend_ops(get_takeover_name_ops(name, winning_claim_hash, height, controlling)) if controlling and controlling.claim_hash not in self.abandoned_claims: self.touched_claim_hashes.add(controlling.claim_hash) self.touched_claim_hashes.add(winning_claim_hash) elif winning_claim_hash == controlling.claim_hash: # print("\tstill winning") pass else: # print("\tno takeover") pass # handle remaining takeovers from abandoned supports for (name, claim_hash), amounts in abandoned_support_check_need_takeover.items(): if name in checked_names: continue checked_names.add(name) controlling = get_controlling(name) amounts = { claim_hash: self._get_pending_effective_amount(name, claim_hash) for claim_hash in self.db.get_claims_for_name(name) if claim_hash not in self.abandoned_claims } if controlling and controlling.claim_hash not in self.abandoned_claims: amounts[controlling.claim_hash] = self._get_pending_effective_amount(name, controlling.claim_hash) winning = max(amounts, key=lambda x: amounts[x]) if (controlling and winning != controlling.claim_hash) or (not controlling and winning): self.taken_over_names.add(name) # print(f"\ttakeover from abandoned support {controlling.claim_hash.hex()} -> {winning.hex()}") self.db_op_stack.extend_ops(get_takeover_name_ops(name, winning, height, controlling)) if controlling: self.touched_claim_hashes.add(controlling.claim_hash) self.touched_claim_hashes.add(winning) def _add_claim_activation_change_notification(self, claim_id: str, height: int, added: bool, prev_amount: int, new_amount: int): self.activation_info_to_send_es[claim_id].append(TrendingNotification(height, added, prev_amount, new_amount)) def _get_cumulative_update_ops(self, height: int): # update the last takeover height for names with takeovers for name in self.taken_over_names: self.touched_claim_hashes.update( {claim_hash for claim_hash in self.db.get_claims_for_name(name) if claim_hash not in self.abandoned_claims} ) # gather cumulative removed/touched sets to update the search index self.removed_claim_hashes.update(set(self.abandoned_claims.keys())) self.touched_claim_hashes.difference_update(self.removed_claim_hashes) self.touched_claim_hashes.update( set( map(lambda item: item[1], self.activated_claim_amount_by_name_and_hash.keys()) ).union( set(self.claim_hash_to_txo.keys()) ).union( self.removed_active_support_amount_by_claim.keys() ).union( self.signatures_changed ).union( set(self.removed_active_support_amount_by_claim.keys()) ).union( set(self.activated_support_amount_by_claim.keys()) ).difference( self.removed_claim_hashes ) ) # use the cumulative changes to update bid ordered resolve for removed in self.removed_claim_hashes: removed_claim = self.db.get_claim_txo(removed) if removed_claim: amt = self.db.get_url_effective_amount( removed_claim.normalized_name, removed ) if amt: self.db_op_stack.extend_ops(get_remove_effective_amount_ops( removed_claim.normalized_name, amt.effective_amount, amt.tx_num, amt.position, removed )) for touched in self.touched_claim_hashes: prev_effective_amount = 0 if touched in self.claim_hash_to_txo: pending = self.txo_to_claim[self.claim_hash_to_txo[touched]] name, tx_num, position = pending.normalized_name, pending.tx_num, pending.position claim_from_db = self.db.get_claim_txo(touched) if claim_from_db: claim_amount_info = self.db.get_url_effective_amount(name, touched) if claim_amount_info: prev_effective_amount = claim_amount_info.effective_amount self.db_op_stack.extend_ops(get_remove_effective_amount_ops( name, claim_amount_info.effective_amount, claim_amount_info.tx_num, claim_amount_info.position, touched )) else: v = self.db.get_claim_txo(touched) if not v: continue name, tx_num, position = v.normalized_name, v.tx_num, v.position amt = self.db.get_url_effective_amount(name, touched) if amt: prev_effective_amount = amt.effective_amount self.db_op_stack.extend_ops( get_remove_effective_amount_ops( name, amt.effective_amount, amt.tx_num, amt.position, touched ) ) if (name, touched) in self.activated_claim_amount_by_name_and_hash: self._add_claim_activation_change_notification( touched.hex(), height, True, prev_effective_amount, self.activated_claim_amount_by_name_and_hash[(name, touched)] ) if touched in self.activated_support_amount_by_claim: for support_amount in self.activated_support_amount_by_claim[touched]: self._add_claim_activation_change_notification( touched.hex(), height, True, prev_effective_amount, support_amount ) if touched in self.removed_active_support_amount_by_claim: for support_amount in self.removed_active_support_amount_by_claim[touched]: self._add_claim_activation_change_notification( touched.hex(), height, False, prev_effective_amount, support_amount ) new_effective_amount = self._get_pending_effective_amount(name, touched) self.db_op_stack.extend_ops( get_add_effective_amount_ops( name, new_effective_amount, tx_num, position, touched ) ) self.touched_claim_hashes.update( {k for k in self.pending_reposted if k not in self.removed_claim_hashes} ) self.touched_claim_hashes.update( {k for k, v in self.pending_channel_counts.items() if v != 0 and k not in self.removed_claim_hashes} ) self.touched_claims_to_send_es.difference_update(self.removed_claim_hashes) self.touched_claims_to_send_es.update(self.touched_claim_hashes) self.removed_claims_to_send_es.update(self.removed_claim_hashes) def advance_block(self, block): height = self.height + 1 # print("advance ", height) # Use local vars for speed in the loops tx_count = self.tx_count spend_utxo = self.spend_utxo add_utxo = self.add_utxo spend_claim_or_support_txo = self._spend_claim_or_support_txo add_claim_or_support = self._add_claim_or_support txs: List[Tuple[Tx, bytes]] = block.transactions self.db.prefix_db.block_hash.stage_put(key_args=(height,), value_args=(self.coin.header_hash(block.header),)) self.db.prefix_db.header.stage_put(key_args=(height,), value_args=(block.header,)) for tx, tx_hash in txs: spent_claims = {} txos = Transaction(tx.raw).outputs self.db.prefix_db.tx.stage_put(key_args=(tx_hash,), value_args=(tx.raw,)) self.db.prefix_db.tx_num.stage_put(key_args=(tx_hash,), value_args=(tx_count,)) self.db.prefix_db.tx_hash.stage_put(key_args=(tx_count,), value_args=(tx_hash,)) # Spend the inputs for txin in tx.inputs: if txin.is_generation(): continue # spend utxo for address histories hashX = spend_utxo(txin.prev_hash, txin.prev_idx) if hashX: if tx_count not in self.hashXs_by_tx[hashX]: self.hashXs_by_tx[hashX].append(tx_count) # spend claim/support txo spend_claim_or_support_txo(height, txin, spent_claims) # Add the new UTXOs for nout, txout in enumerate(tx.outputs): # Get the hashX. Ignore unspendable outputs hashX = add_utxo(tx_hash, tx_count, nout, txout) if hashX: # self._set_hashX_cache(hashX) if tx_count not in self.hashXs_by_tx[hashX]: self.hashXs_by_tx[hashX].append(tx_count) # add claim/support txo add_claim_or_support( height, tx_hash, tx_count, nout, txos[nout], spent_claims ) # Handle abandoned claims abandoned_channels = {} # abandon the channels last to handle abandoned signed claims in the same tx, # see test_abandon_channel_and_claims_in_same_tx for abandoned_claim_hash, (tx_num, nout, normalized_name) in spent_claims.items(): if normalized_name.startswith('@'): abandoned_channels[abandoned_claim_hash] = (tx_num, nout, normalized_name) else: # print(f"\tabandon {normalized_name} {abandoned_claim_hash.hex()} {tx_num} {nout}") self._abandon_claim(abandoned_claim_hash, tx_num, nout, normalized_name) for abandoned_claim_hash, (tx_num, nout, normalized_name) in abandoned_channels.items(): # print(f"\tabandon {normalized_name} {abandoned_claim_hash.hex()} {tx_num} {nout}") self._abandon_claim(abandoned_claim_hash, tx_num, nout, normalized_name) self.db.total_transactions.append(tx_hash) self.db.transaction_num_mapping[tx_hash] = tx_count tx_count += 1 # handle expired claims self._expire_claims(height) # activate claims and process takeovers self._get_takeover_ops(height) # update effective amount and update sets of touched and deleted claims self._get_cumulative_update_ops(height) self.db_op_stack.append_op(RevertablePut(*Prefixes.tx_count.pack_item(height, tx_count))) for hashX, new_history in self.hashXs_by_tx.items(): if not new_history: continue self.db_op_stack.append_op( RevertablePut( *Prefixes.hashX_history.pack_item( hashX, height, new_history ) ) ) self.tx_count = tx_count self.db.tx_counts.append(self.tx_count) cached_max_reorg_depth = self.daemon.cached_height() - self.env.reorg_limit if height >= cached_max_reorg_depth: self.db_op_stack.append_op( RevertablePut( *Prefixes.touched_or_deleted.pack_item( height, self.touched_claim_hashes, self.removed_claim_hashes ) ) ) self.db_op_stack.append_op( RevertablePut( *Prefixes.undo.pack_item(height, self.db_op_stack.get_undo_ops()) ) ) self.height = height self.db.headers.append(block.header) self.tip = self.coin.header_hash(block.header) def clear_after_advance_or_reorg(self): self.db_op_stack.clear() self.txo_to_claim.clear() self.claim_hash_to_txo.clear() self.support_txos_by_claim.clear() self.support_txo_to_claim.clear() self.removed_support_txos_by_name_by_claim.clear() self.abandoned_claims.clear() self.removed_active_support_amount_by_claim.clear() self.activated_support_amount_by_claim.clear() self.activated_claim_amount_by_name_and_hash.clear() self.activation_by_claim_by_name.clear() self.possible_future_claim_amount_by_name_and_hash.clear() self.possible_future_support_amounts_by_claim_hash.clear() self.possible_future_support_txos_by_claim_hash.clear() self.pending_channels.clear() self.amount_cache.clear() self.signatures_changed.clear() self.expired_claim_hashes.clear() self.doesnt_have_valid_signature.clear() self.claim_channels.clear() self.utxo_cache.clear() self.hashXs_by_tx.clear() self.history_cache.clear() self.mempool.notified_mempool_txs.clear() self.removed_claim_hashes.clear() self.touched_claim_hashes.clear() self.pending_reposted.clear() self.pending_channel_counts.clear() self.updated_claims.clear() self.taken_over_names.clear() async def backup_block(self): # self.db.assert_flushed(self.flush_data()) self.logger.info("backup block %i", self.height) # Check and update self.tip undo_ops, touched_and_deleted_bytes = self.db.read_undo_info(self.height) if undo_ops is None: raise ChainError(f'no undo information found for height {self.height:,d}') self.db_op_stack.append_op(RevertableDelete(Prefixes.undo.pack_key(self.height), undo_ops)) self.db_op_stack.apply_packed_undo_ops(undo_ops) touched_and_deleted = Prefixes.touched_or_deleted.unpack_value(touched_and_deleted_bytes) self.touched_claims_to_send_es.update(touched_and_deleted.touched_claims) self.removed_claims_to_send_es.difference_update(touched_and_deleted.touched_claims) self.removed_claims_to_send_es.update(touched_and_deleted.deleted_claims) self.db.headers.pop() self.db.tx_counts.pop() self.tip = self.coin.header_hash(self.db.headers[-1]) while len(self.db.total_transactions) > self.db.tx_counts[-1]: self.db.transaction_num_mapping.pop(self.db.total_transactions.pop()) self.tx_count -= 1 self.height -= 1 # self.touched can include other addresses which is # harmless, but remove None. self.touched_hashXs.discard(None) def add_utxo(self, tx_hash: bytes, tx_num: int, nout: int, txout: 'TxOutput') -> Optional[bytes]: hashX = self.coin.hashX_from_script(txout.pk_script) if hashX: self.touched_hashXs.add(hashX) self.utxo_cache[(tx_hash, nout)] = (hashX, txout.value) self.db_op_stack.extend_ops([ RevertablePut( *Prefixes.utxo.pack_item(hashX, tx_num, nout, txout.value) ), RevertablePut( *Prefixes.hashX_utxo.pack_item(tx_hash[:4], tx_num, nout, hashX) ) ]) return hashX def spend_utxo(self, tx_hash: bytes, nout: int): hashX, amount = self.utxo_cache.pop((tx_hash, nout), (None, None)) txin_num = self.db.transaction_num_mapping[tx_hash] hdb_key = Prefixes.hashX_utxo.pack_key(tx_hash[:4], txin_num, nout) if not hashX: hashX = self.db.db.get(hdb_key) if not hashX: return udb_key = Prefixes.utxo.pack_key(hashX, txin_num, nout) utxo_value_packed = self.db.db.get(udb_key) if utxo_value_packed is None: self.logger.warning( "%s:%s is not found in UTXO db for %s", hash_to_hex_str(tx_hash), nout, hash_to_hex_str(hashX) ) raise ChainError( f"{hash_to_hex_str(tx_hash)}:{nout} is not found in UTXO db for {hash_to_hex_str(hashX)}" ) self.touched_hashXs.add(hashX) self.db_op_stack.extend_ops([ RevertableDelete(hdb_key, hashX), RevertableDelete(udb_key, utxo_value_packed) ]) return hashX elif amount is not None: udb_key = Prefixes.utxo.pack_key(hashX, txin_num, nout) self.touched_hashXs.add(hashX) self.db_op_stack.extend_ops([ RevertableDelete(hdb_key, hashX), RevertableDelete(udb_key, Prefixes.utxo.pack_value(amount)) ]) return hashX async def _process_prefetched_blocks(self): """Loop forever processing blocks as they arrive.""" while True: if self.height == self.daemon.cached_height(): if not self._caught_up_event.is_set(): await self._first_caught_up() self._caught_up_event.set() await self.blocks_event.wait() self.blocks_event.clear() blocks = self.prefetcher.get_prefetched_blocks() try: await self.check_and_advance_blocks(blocks) except Exception: self.logger.exception("error while processing txs") raise async def _first_caught_up(self): self.logger.info(f'caught up to height {self.height}') # Flush everything but with first_sync->False state. first_sync = self.db.first_sync self.db.first_sync = False await self.write_state() if first_sync: self.logger.info(f'{lbry.__version__} synced to ' f'height {self.height:,d}, halting here.') self.shutdown_event.set() async def fetch_and_process_blocks(self, caught_up_event): """Fetch, process and index blocks from the daemon. Sets caught_up_event when first caught up. Flushes to disk and shuts down cleanly if cancelled. This is mainly because if, during initial sync ElectrumX is asked to shut down when a large number of blocks have been processed but not written to disk, it should write those to disk before exiting, as otherwise a significant amount of work could be lost. """ self._caught_up_event = caught_up_event try: await self.db.open_dbs() self.db_op_stack = self.db.db_op_stack self.height = self.db.db_height self.tip = self.db.db_tip self.tx_count = self.db.db_tx_count self.status_server.set_height(self.db.fs_height, self.db.db_tip) await asyncio.wait([ self.prefetcher.main_loop(self.height), self._process_prefetched_blocks() ]) except asyncio.CancelledError: raise except: self.logger.exception("Block processing failed!") raise finally: self.status_server.stop() # Shut down block processing self.logger.info('closing the DB for a clean shutdown...') self.db.close() # self.executor.shutdown(wait=True)