import time import asyncio import typing from bisect import bisect_right from struct import pack from typing import Optional, List, Tuple, Set, DefaultDict, Dict from prometheus_client import Gauge, Histogram from collections import defaultdict from scribe import PROMETHEUS_NAMESPACE from scribe.db.prefixes import ACTIVATED_SUPPORT_TXO_TYPE, ACTIVATED_CLAIM_TXO_TYPE from scribe.db.prefixes import PendingActivationKey, PendingActivationValue, ClaimToTXOValue from scribe.error.base import ChainError from scribe.common import hash_to_hex_str, hash160, RPCError, HISTOGRAM_BUCKETS, StagedClaimtrieItem, sha256, LRUCache from scribe.blockchain.daemon import LBCDaemon from scribe.blockchain.transaction import Tx, TxOutput, TxInput, Block from scribe.blockchain.prefetcher import Prefetcher from scribe.blockchain.mempool import MemPool from scribe.schema.url import normalize_name from scribe.service import BlockchainService if typing.TYPE_CHECKING: from scribe.blockchain.env import BlockchainEnv from scribe.db.revertable import RevertableOpStack NAMESPACE = f"{PROMETHEUS_NAMESPACE}_writer" class BlockchainProcessorService(BlockchainService): """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: 'BlockchainEnv'): super().__init__(env, secondary_name='', thread_workers=1, thread_prefix='block-processor') self.daemon = LBCDaemon(env.coin, env.daemon_url) self.mempool = MemPool(env.coin, self.db) self.coin = env.coin self.wait_for_blocks_duration = 0.1 self._ready_to_stop = asyncio.Event() self.blocks_event = asyncio.Event() self.prefetcher = Prefetcher(self.daemon, env.coin, self.blocks_event) 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.touched_hashXs: Set[bytes] = set() self.utxo_cache: Dict[Tuple[bytes, int], Tuple[bytes, int]] = {} ################################# # 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.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_support_amount_change = 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) self.pending_transaction_num_mapping: Dict[bytes, int] = {} self.pending_transactions: Dict[int, bytes] = {} self.hashX_history_cache = LRUCache(min(100, max(0, env.hashX_history_cache_size))) self.hashX_full_cache = LRUCache(min(100, max(0, env.hashX_history_cache_size))) 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.lock: return await asyncio.get_event_loop().run_in_executor(self._executor, func, *args) return await asyncio.shield(run_in_thread_locked()) async def run_in_thread(self, func, *args): async def run_in_thread(): return await asyncio.get_event_loop().run_in_executor(self._executor, func, *args) return await asyncio.shield(run_in_thread()) async def refresh_mempool(self): def fetch_mempool(mempool_prefix): lower, upper = mempool_prefix.MIN_TX_HASH, mempool_prefix.MAX_TX_HASH return { k.tx_hash: v.raw_tx for (k, v) in mempool_prefix.iterate(start=(lower,), stop=(upper,)) } def update_mempool(unsafe_commit, mempool_prefix, to_put, to_delete): self.mempool.remove(to_delete) touched_hashXs = self.mempool.update_mempool(to_put) for hashX in touched_hashXs: self._get_update_hashX_mempool_status_ops(hashX) for tx_hash, raw_tx in to_put: mempool_prefix.stage_put((tx_hash,), (raw_tx,)) for tx_hash, raw_tx in to_delete.items(): mempool_prefix.stage_delete((tx_hash,), (raw_tx,)) unsafe_commit() async with self.lock: current_mempool = await self.run_in_thread(fetch_mempool, self.db.prefix_db.mempool_tx) _to_put = [] try: mempool_txids = await self.daemon.mempool_hashes() except (TypeError, RPCError) as err: self.log.exception("failed to get mempool tx hashes, reorg underway? (%s)", err) return for mempool_txid in mempool_txids: tx_hash = bytes.fromhex(mempool_txid)[::-1] if tx_hash in current_mempool: current_mempool.pop(tx_hash) else: try: _to_put.append((tx_hash, bytes.fromhex(await self.daemon.getrawtransaction(mempool_txid)))) except (TypeError, RPCError): self.log.warning("failed to get a mempool tx, reorg underway?") return if current_mempool: if bytes.fromhex(await self.daemon.getbestblockhash())[::-1] != self.db.block_hashes[-1]: return await self.run_in_thread( update_mempool, self.db.prefix_db.unsafe_commit, self.db.prefix_db.mempool_tx, _to_put, current_mempool ) 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: if self._stopping: return start = time.perf_counter() start_count = self.tx_count txo_count = await self.run_in_thread_with_lock(self.advance_block, block) self.log.info( "writer advanced to %i (%i txs, %i txos) in %0.3fs", self.height, self.tx_count - start_count, txo_count, time.perf_counter() - start ) if self.height == self.coin.nExtendedClaimExpirationForkHeight: self.log.warning( "applying extended claim expiration fork on claims accepted by, %i", self.height ) await self.run_in_thread_with_lock(self.db.apply_expiration_extension_fork) except: self.log.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.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.log.warning(f"blockchain reorg detected at {self.height}, unwinding last {count} blocks") try: assert count > 0, count for _ in range(count): await self.run_in_thread_with_lock(self.backup_block) self.log.info(f'backed up to height {self.height:,d}') if self.env.cache_all_claim_txos: await self.db._read_claim_txos() # TODO: don't do this await self.prefetcher.reset_height(self.height) self.reorg_count_metric.inc() except: self.log.exception("reorg blocks failed") raise finally: self.log.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.log.warning('daemon blocks do not form a chain; ' 'resetting the prefetcher') await self.prefetcher.reset_height(self.height) def _add_claim_or_update(self, height: int, txo: 'TxOutput', tx_hash: bytes, tx_num: int, nout: int, spent_claims: typing.Dict[bytes, typing.Tuple[int, int, str]], first_input: 'TxInput'): try: claim_name = txo.claim.name.decode() except UnicodeDecodeError: claim_name = ''.join(chr(c) for c in txo.claim.name) try: normalized_name = normalize_name(claim_name) except UnicodeDecodeError: normalized_name = claim_name if txo.is_claim: claim_hash = hash160(tx_hash + pack('>I', nout))[::-1] # print(f"\tnew {claim_hash.hex()} ({tx_num} {txo.value})") else: claim_hash = txo.claim.claim_hash[::-1] # print(f"\tupdate {claim_hash.hex()} ({tx_num} {txo.value})") signing_channel_hash = None channel_signature_is_valid = False reposted_claim_hash = None try: signable = txo.metadata is_repost = signable.is_repost if is_repost: reposted_claim_hash = signable.repost.reference.claim_hash[::-1] self.pending_reposted.add(reposted_claim_hash) is_channel = signable.is_channel if is_channel: self.pending_channels[claim_hash] = signable.channel.public_key_bytes if signable.is_signed: signing_channel_hash = 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 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.get_tx_hash(signing_channel.tx_num), deserialize_value=False ) channel_pub_key_bytes = None try: if not signing_channel: if txo.metadata.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] channel_meta = chan_output.metadata # TODO: catch decode/type errors explicitly channel_pub_key_bytes = channel_meta.channel.public_key_bytes if channel_pub_key_bytes: channel_signature_is_valid = self.coin.verify_signed_metadata( channel_pub_key_bytes, txo, first_input ) if channel_signature_is_valid: # print("\tvalidated signed claim") self.pending_channel_counts[signing_channel_hash] += 1 self.doesnt_have_valid_signature.remove(claim_hash) self.claim_channels[claim_hash] = signing_channel_hash # else: # print("\tfailed to validate signed claim") except: self.log.exception(f"error validating channel signature for %s:%i", tx_hash[::-1].hex(), nout) if txo.is_claim: # 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.log.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.value}") 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.get_remove_activate_ops( ACTIVATED_CLAIM_TXO_TYPE, claim_hash, prev_tx_num, prev_idx, activation, normalized_name, previous_claim.amount ) previous_amount = previous_claim.amount self.updated_claims.add(claim_hash) if self.env.cache_all_claim_txos: self.db.claim_to_txo[claim_hash] = ClaimToTXOValue( tx_num, nout, root_tx_num, root_idx, txo.value, 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.value, 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.get_add_claim_utxo_ops(pending) def get_add_claim_utxo_ops(self, pending: StagedClaimtrieItem): # claim tip by claim hash self.db.prefix_db.claim_to_txo.stage_put( (pending.claim_hash,), (pending.tx_num, pending.position, pending.root_tx_num, pending.root_position, pending.amount, pending.channel_signature_is_valid, pending.name) ) # claim hash by txo self.db.prefix_db.txo_to_claim.stage_put( (pending.tx_num, pending.position), (pending.claim_hash, pending.normalized_name) ) # claim expiration self.db.prefix_db.claim_expiration.stage_put( (pending.expiration_height, pending.tx_num, pending.position), (pending.claim_hash, pending.normalized_name) ) # short url resolution for prefix_len in range(10): self.db.prefix_db.claim_short_id.stage_put( (pending.normalized_name, pending.claim_hash.hex()[:prefix_len + 1], pending.root_tx_num, pending.root_position), (pending.tx_num, pending.position) ) if pending.signing_hash and pending.channel_signature_is_valid: # channel by stream self.db.prefix_db.claim_to_channel.stage_put( (pending.claim_hash, pending.tx_num, pending.position), (pending.signing_hash,) ) # stream by channel self.db.prefix_db.channel_to_claim.stage_put( (pending.signing_hash, pending.normalized_name, pending.tx_num, pending.position), (pending.claim_hash,) ) if pending.reposted_claim_hash: self.db.prefix_db.repost.stage_put((pending.claim_hash,), (pending.reposted_claim_hash,)) self.db.prefix_db.reposted_claim.stage_put( (pending.reposted_claim_hash, pending.tx_num, pending.position), (pending.claim_hash,) ) def get_remove_claim_utxo_ops(self, pending: StagedClaimtrieItem): # claim tip by claim hash self.db.prefix_db.claim_to_txo.stage_delete( (pending.claim_hash,), (pending.tx_num, pending.position, pending.root_tx_num, pending.root_position, pending.amount, pending.channel_signature_is_valid, pending.name) ) # claim hash by txo self.db.prefix_db.txo_to_claim.stage_delete( (pending.tx_num, pending.position), (pending.claim_hash, pending.normalized_name) ) # claim expiration self.db.prefix_db.claim_expiration.stage_delete( (pending.expiration_height, pending.tx_num, pending.position), (pending.claim_hash, pending.normalized_name) ) # short url resolution for prefix_len in range(10): self.db.prefix_db.claim_short_id.stage_delete( (pending.normalized_name, pending.claim_hash.hex()[:prefix_len + 1], pending.root_tx_num, pending.root_position), (pending.tx_num, pending.position) ) if pending.signing_hash and pending.channel_signature_is_valid: # channel by stream self.db.prefix_db.claim_to_channel.stage_delete( (pending.claim_hash, pending.tx_num, pending.position), (pending.signing_hash,) ) # stream by channel self.db.prefix_db.channel_to_claim.stage_delete( (pending.signing_hash, pending.normalized_name, pending.tx_num, pending.position), (pending.claim_hash,) ) if pending.reposted_claim_hash: self.db.prefix_db.repost.stage_delete((pending.claim_hash,), (pending.reposted_claim_hash,)) self.db.prefix_db.reposted_claim.stage_delete( (pending.reposted_claim_hash, pending.tx_num, pending.position), (pending.claim_hash,) ) def _add_support(self, height: int, txo: 'TxOutput', tx_num: int, nout: int): supported_claim_hash = txo.support.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.value # print(f"\tsupport claim {supported_claim_hash.hex()} +{txo.value}") self.db.prefix_db.claim_to_support.stage_put((supported_claim_hash, tx_num, nout), (txo.value,)) self.db.prefix_db.support_to_claim.stage_put((tx_num, nout), (supported_claim_hash,)) self.pending_support_amount_change[supported_claim_hash] += txo.value def _add_claim_or_support(self, height: int, tx_hash: bytes, tx_num: int, nout: int, txo: 'TxOutput', spent_claims: typing.Dict[bytes, Tuple[int, int, str]], first_input: 'TxInput'): if txo.is_claim or txo.is_update: self._add_claim_or_update(height, txo, tx_hash, tx_num, nout, spent_claims, first_input) elif txo.is_support: self._add_support(height, txo, tx_num, nout) def _spend_support_txo(self, height: int, txin: TxInput): txin_num = self.get_pending_tx_num(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.get_remove_activate_ops( ACTIVATED_SUPPORT_TXO_TYPE, spent_support, txin_num, txin.prev_idx, activation, supported_name, support_amount ) # print(f"\tspent support for {spent_support.hex()} activation:{activation} {support_amount}") self.db.prefix_db.claim_to_support.stage_delete((spent_support, txin_num, txin.prev_idx), (support_amount,)) self.db.prefix_db.support_to_claim.stage_delete((txin_num, txin.prev_idx), (spent_support,)) self.pending_support_amount_change[spent_support] -= support_amount def _spend_claim_txo(self, txin: TxInput, spent_claims: Dict[bytes, Tuple[int, int, str]]) -> bool: txin_num = self.get_pending_tx_num(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 not self.db.get_cached_claim_exists(txin_num, txin.prev_idx): # 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) if self.env.cache_all_claim_txos: 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 and spent.signing_hash not in self.abandoned_claims: 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.get_remove_claim_utxo_ops(spent) 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 ) 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 _get_invalidate_signature_ops(self, pending: StagedClaimtrieItem): if not pending.signing_hash: return self.db.prefix_db.claim_to_channel.stage_delete( (pending.claim_hash, pending.tx_num, pending.position), (pending.signing_hash,) ) if pending.channel_signature_is_valid: self.db.prefix_db.channel_to_claim.stage_delete( (pending.signing_hash, pending.normalized_name, pending.tx_num, pending.position), (pending.claim_hash,) ) self.db.prefix_db.claim_to_txo.stage_delete( (pending.claim_hash,), (pending.tx_num, pending.position, pending.root_tx_num, pending.root_position, pending.amount, pending.channel_signature_is_valid, pending.name) ) self.db.prefix_db.claim_to_txo.stage_put( (pending.claim_hash,), (pending.tx_num, pending.position, pending.root_tx_num, pending.root_position, pending.amount, False, pending.name) ) def _invalidate_channel_signatures(self, claim_hash: bytes): for (signed_claim_hash, ) in self.db.prefix_db.channel_to_claim.iterate( prefix=(claim_hash, ), include_key=False): 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._get_invalidate_signature_ops(claim) 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._get_invalidate_signature_ops(staged) 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_activate_ops(self, txo_type: int, claim_hash: bytes, tx_num: int, position: int, activation_height: int, name: str, amount: int): self.db.prefix_db.activated.stage_put( (txo_type, tx_num, position), (activation_height, claim_hash, name) ) self.db.prefix_db.pending_activation.stage_put( (activation_height, txo_type, tx_num, position), (claim_hash, name) ) self.db.prefix_db.active_amount.stage_put( (claim_hash, txo_type, activation_height, tx_num, position), (amount,) ) def get_remove_activate_ops(self, txo_type: int, claim_hash: bytes, tx_num: int, position: int, activation_height: int, name: str, amount: int): self.db.prefix_db.activated.stage_delete( (txo_type, tx_num, position), (activation_height, claim_hash, name) ) self.db.prefix_db.pending_activation.stage_delete( (activation_height, txo_type, tx_num, position), (claim_hash, name) ) self.db.prefix_db.active_amount.stage_delete( (claim_hash, txo_type, activation_height, tx_num, position), (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): 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 \ name 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)) self.get_activate_ops( ACTIVATED_SUPPORT_TXO_TYPE if is_support else ACTIVATED_CLAIM_TXO_TYPE, claim_hash, tx_num, nout, height + delay, name, amount ) # 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.get_remove_activate_ops( ACTIVATED_CLAIM_TXO_TYPE, staged.claim_hash, staged.tx_num, staged.position, activation, staged.normalized_name, staged.amount ) 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 prev_txo = self.db.get_cached_claim_txo(staged.claim_hash) if prev_txo: prev_activation = self.db.get_activation(prev_txo.tx_num, prev_txo.position) if height < prev_activation or prev_activation < 0: is_delayed = True 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) 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 ) if amount is None: # print("\tskip activate for non existent claim") continue 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.prefix_db.claim_takeover.stage_delete( (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).items(): # 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 = self.txo_to_claim[(tx_num, position)].amount activation = None for (k, tx_amount) in activate_in_future[name][winning_including_future_activations]: if (k.tx_num, k.position) == (tx_num, position): activation = k.height break if activation is None: # TODO: reproduce this in an integration test (block 604718) _k = PendingActivationValue(winning_including_future_activations, name) if _k in activated_at_height: for pending_activation in activated_at_height[_k]: if (pending_activation.tx_num, pending_activation.position) == (tx_num, position): activation = pending_activation.height break assert None not in (amount, activation) # update the claim that's activating early self.get_remove_activate_ops( ACTIVATED_CLAIM_TXO_TYPE, winning_including_future_activations, tx_num, position, activation, name, amount ) self.get_activate_ops( ACTIVATED_CLAIM_TXO_TYPE, winning_including_future_activations, tx_num, position, height, name, amount ) 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.get_remove_activate_ops( ACTIVATED_SUPPORT_TXO_TYPE, winning_including_future_activations, k.tx_num, k.position, k.height, name, amount ) self.get_activate_ops( ACTIVATED_SUPPORT_TXO_TYPE, winning_including_future_activations, k.tx_num, k.position, height, name, amount ) self.taken_over_names.add(name) if controlling: self.db.prefix_db.claim_takeover.stage_delete( (name,), (controlling.claim_hash, controlling.height) ) self.db.prefix_db.claim_takeover.stage_put((name,), (winning_including_future_activations, height)) 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.get_remove_activate_ops( ACTIVATED_CLAIM_TXO_TYPE, winning_claim_hash, tx_num, position, previous_pending_activate.height, name, amount ) self.get_activate_ops( ACTIVATED_CLAIM_TXO_TYPE, winning_claim_hash, tx_num, position, height, name, amount ) self.taken_over_names.add(name) if controlling: self.db.prefix_db.claim_takeover.stage_delete( (name,), (controlling.claim_hash, controlling.height) ) self.db.prefix_db.claim_takeover.stage_put((name,), (winning_claim_hash, height)) 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()}") if controlling: self.db.prefix_db.claim_takeover.stage_delete( (name,), (controlling.claim_hash, controlling.height) ) self.db.prefix_db.claim_takeover.stage_put((name,), (winning, height)) if controlling: self.touched_claim_hashes.add(controlling.claim_hash) self.touched_claim_hashes.add(winning) 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()) ).union( set(self.pending_support_amount_change.keys()) ).difference( self.removed_claim_hashes ) ) # update support amount totals for supported_claim, amount in self.pending_support_amount_change.items(): existing = self.db.prefix_db.support_amount.get(supported_claim) total = amount if existing is not None: total += existing.amount self.db.prefix_db.support_amount.stage_delete((supported_claim,), existing) self.db.prefix_db.support_amount.stage_put((supported_claim,), (total,)) # 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.prefix_db.effective_amount.stage_delete( (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.prefix_db.effective_amount.stage_delete( (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.prefix_db.effective_amount.stage_delete( (name, prev_effective_amount, amt.tx_num, amt.position), (touched,) ) new_effective_amount = self._get_pending_effective_amount(name, touched) self.db.prefix_db.effective_amount.stage_put( (name, new_effective_amount, tx_num, position), (touched,) ) if touched in self.claim_hash_to_txo or touched in self.removed_claim_hashes \ or touched in self.pending_support_amount_change: # exclude sending notifications for claims/supports that activated but # weren't added/spent in this block self.db.prefix_db.trending_notification.stage_put( (height, touched), (prev_effective_amount, new_effective_amount) ) for channel_hash, count in self.pending_channel_counts.items(): if count != 0: channel_count_val = self.db.prefix_db.channel_count.get(channel_hash) channel_count = 0 if not channel_count_val else channel_count_val.count if channel_count_val is not None: self.db.prefix_db.channel_count.stage_delete((channel_hash,), (channel_count,)) self.db.prefix_db.channel_count.stage_put((channel_hash,), (channel_count + count,)) 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.update(self.touched_claim_hashes) self.touched_claims_to_send_es.difference_update(self.removed_claim_hashes) self.removed_claims_to_send_es.update(self.removed_claim_hashes) def _get_cached_hashX_history(self, hashX: bytes) -> str: if hashX in self.hashX_full_cache: return self.hashX_full_cache[hashX] if hashX not in self.hashX_history_cache: self.hashX_history_cache[hashX] = tx_nums = self.db.read_history(hashX, limit=None) else: tx_nums = self.hashX_history_cache[hashX] history = '' for tx_num, tx_hash in zip(tx_nums, self.db.get_tx_hashes(tx_nums)): history += f'{hash_to_hex_str(tx_hash)}:{bisect_right(self.db.tx_counts, tx_num):d}:' self.hashX_full_cache[hashX] = history return history def _get_update_hashX_status_ops(self, hashX: bytes, new_history: List[Tuple[bytes, int]]): existing = self.db.prefix_db.hashX_status.get(hashX) if existing: self.db.prefix_db.hashX_status.stage_delete((hashX,), existing) if hashX not in self.hashX_history_cache: tx_nums = self.db.read_history(hashX, limit=None) else: tx_nums = self.hashX_history_cache[hashX] history = '' for tx_num, tx_hash in zip(tx_nums, self.db.get_tx_hashes(tx_nums)): history += f'{hash_to_hex_str(tx_hash)}:{bisect_right(self.db.tx_counts, tx_num):d}:' for tx_hash, height in new_history: history += f'{hash_to_hex_str(tx_hash)}:{height:d}:' if history: status = sha256(history.encode()) self.db.prefix_db.hashX_status.stage_put((hashX,), (status,)) def _get_update_hashX_mempool_status_ops(self, hashX: bytes): existing = self.db.prefix_db.hashX_mempool_status.get(hashX) if existing: self.db.prefix_db.hashX_mempool_status.stage_delete((hashX,), existing) history = self._get_cached_hashX_history(hashX) + self.mempool.mempool_history(hashX) if history: status = sha256(history.encode()) self.db.prefix_db.hashX_mempool_status.stage_put((hashX,), (status,)) def _get_compactify_hashX_history_ops(self, height: int, hashX: bytes): if height > self.env.reorg_limit: # compactify existing history hist_txs = b'' # accumulate and delete all of the tx histories between height 1 and current - reorg_limit for k, hist in self.db.prefix_db.hashX_history.iterate( start=(hashX, 1), stop=(hashX, height - self.env.reorg_limit), deserialize_key=False, deserialize_value=False): hist_txs += hist self.db.prefix_db.stage_raw_delete(k, hist) if hist_txs: # add the accumulated histories onto the existing compacted history at height 0 key = self.db.prefix_db.hashX_history.pack_key(hashX, 0) existing = self.db.prefix_db.get(key) if existing is not None: self.db.prefix_db.stage_raw_delete(key, existing) self.db.prefix_db.stage_raw_put(key, (existing or b'') + hist_txs) def advance_block(self, block: 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 txo_count = 0 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,)) self.db.prefix_db.block_txs.stage_put(key_args=(height,), value_args=([tx_hash for tx, tx_hash in txs],)) for tx, tx_hash in txs: spent_claims = {} # clean up mempool, delete txs that were already in mempool/staged to be added # leave txs in mempool that werent in the block mempool_tx = self.db.prefix_db.mempool_tx.get_pending(tx_hash) if mempool_tx: self.db.prefix_db.mempool_tx.stage_delete((tx_hash,), mempool_tx) 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): txo_count += 1 # 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, txout, spent_claims, tx.inputs[0] ) # 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.pending_transactions[tx_count] = tx_hash self.pending_transaction_num_mapping[tx_hash] = tx_count if self.env.cache_all_tx_hashes: self.db.total_transactions.append(tx_hash) self.db.tx_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.prefix_db.touched_hashX.stage_put((height,), (list(sorted(self.touched_hashXs)),)) self.db.prefix_db.tx_count.stage_put(key_args=(height,), value_args=(tx_count,)) for k, v in self.db.prefix_db.hashX_mempool_status.iterate( start=(b'\x00' * 20, ), stop=(b'\xff' * 20, ), deserialize_key=False, deserialize_value=False): self.db.prefix_db.stage_raw_delete(k, v) for hashX, new_history in self.hashXs_by_tx.items(): # TODO: combine this with compaction so that we only read the history once self._get_update_hashX_status_ops( hashX, [(self.pending_transactions[tx_num], height) for tx_num in new_history] ) self._get_compactify_hashX_history_ops(height, hashX) if not new_history: continue self.db.prefix_db.hashX_history.stage_put(key_args=(hashX, height), value_args=(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.prefix_db.touched_or_deleted.stage_put( key_args=(height,), value_args=(self.touched_claim_hashes, self.removed_claim_hashes) ) self.height = height self.db.headers.append(block.header) self.db.block_hashes.append(self.env.coin.header_hash(block.header)) self.tip = self.coin.header_hash(block.header) self.db.fs_height = self.height self.db.fs_tx_count = self.tx_count self.db.hist_flush_count += 1 self.db.hist_unflushed_count = 0 self.db.utxo_flush_count = self.db.hist_flush_count self.db.db_height = self.height self.db.db_tx_count = self.tx_count self.db.db_tip = self.tip self.db.last_flush_tx_count = self.db.fs_tx_count now = time.time() self.db.wall_time += now - self.db.last_flush self.db.last_flush = now self.db.write_db_state() # flush the changes save_undo = (self.daemon.cached_height() - self.height) <= self.env.reorg_limit if save_undo: self.db.prefix_db.commit(self.height, self.tip) else: self.db.prefix_db.unsafe_commit() self.clear_after_advance_or_reorg() self.db.assert_db_state() # print("*************\n") return txo_count def clear_after_advance_or_reorg(self): 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.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() self.pending_transaction_num_mapping.clear() self.pending_transactions.clear() self.pending_support_amount_change.clear() self.touched_hashXs.clear() self.mempool.clear() self.hashX_history_cache.clear() self.hashX_full_cache.clear() def backup_block(self): assert len(self.db.prefix_db._op_stack) == 0 touched_and_deleted = self.db.prefix_db.touched_or_deleted.get(self.height) 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.assert_flushed(self.flush_data()) self.log.info("backup block %i", self.height) # Check and update self.tip self.db.tx_counts.pop() self.db.headers.pop() reverted_block_hash = self.db.block_hashes.pop() self.tip = self.db.block_hashes[-1] if self.env.cache_all_tx_hashes: while len(self.db.total_transactions) > self.db.tx_counts[-1]: self.db.tx_num_mapping.pop(self.db.total_transactions.pop()) self.tx_count -= 1 else: self.tx_count = self.db.tx_counts[-1] self.height -= 1 # self.touched can include other addresses which is # harmless, but remove None. self.touched_hashXs.discard(None) assert self.height < self.db.db_height assert not self.db.hist_unflushed start_time = time.time() tx_delta = self.tx_count - self.db.last_flush_tx_count ### self.db.fs_tx_count = self.tx_count # Truncate header_mc: header count is 1 more than the height. self.db.header_mc.truncate(self.height + 1) ### # Not certain this is needed, but it doesn't hurt self.db.hist_flush_count += 1 while self.db.fs_height > self.height: self.db.fs_height -= 1 self.db.utxo_flush_count = self.db.hist_flush_count self.db.db_height = self.height self.db.db_tx_count = self.tx_count self.db.db_tip = self.tip # Flush state last as it reads the wall time. now = time.time() self.db.wall_time += now - self.db.last_flush self.db.last_flush = now self.db.last_flush_tx_count = self.db.fs_tx_count # rollback self.db.prefix_db.rollback(self.height + 1, reverted_block_hash) self.db.es_sync_height = self.height self.db.write_db_state() self.db.prefix_db.unsafe_commit() self.clear_after_advance_or_reorg() self.db.assert_db_state() elapsed = self.db.last_flush - start_time self.log.warning(f'backup flush #{self.db.hist_flush_count:,d} took {elapsed:.1f}s. ' f'Height {self.height:,d} txs: {self.tx_count:,d} ({tx_delta:+,d})') def add_utxo(self, tx_hash: bytes, tx_num: int, nout: int, txout: 'TxOutput') -> Optional[bytes]: hashX = self.coin.hashX_from_txo(txout) if hashX: self.touched_hashXs.add(hashX) self.utxo_cache[(tx_hash, nout)] = (hashX, txout.value) self.db.prefix_db.utxo.stage_put((hashX, tx_num, nout), (txout.value,)) self.db.prefix_db.hashX_utxo.stage_put((tx_hash[:4], tx_num, nout), (hashX,)) return hashX def get_pending_tx_num(self, tx_hash: bytes) -> int: if tx_hash in self.pending_transaction_num_mapping: return self.pending_transaction_num_mapping[tx_hash] else: return self.db.get_tx_num(tx_hash) def spend_utxo(self, tx_hash: bytes, nout: int): hashX, amount = self.utxo_cache.pop((tx_hash, nout), (None, None)) txin_num = self.get_pending_tx_num(tx_hash) if not hashX: hashX_value = self.db.prefix_db.hashX_utxo.get(tx_hash[:4], txin_num, nout) if not hashX_value: return hashX = hashX_value.hashX utxo_value = self.db.prefix_db.utxo.get(hashX, txin_num, nout) if not utxo_value: self.log.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.prefix_db.hashX_utxo.stage_delete((tx_hash[:4], txin_num, nout), hashX_value) self.db.prefix_db.utxo.stage_delete((hashX, txin_num, nout), utxo_value) return hashX elif amount is not None: self.db.prefix_db.hashX_utxo.stage_delete((tx_hash[:4], txin_num, nout), (hashX,)) self.db.prefix_db.utxo.stage_delete((hashX, txin_num, nout), (amount,)) self.touched_hashXs.add(hashX) return hashX async def process_blocks_and_mempool_forever(self, caught_up_event): """Loop forever processing blocks as they arrive.""" self._caught_up_event = caught_up_event try: if self.height != self.daemon.cached_height() and not self.db.catching_up: await self._need_catch_up() # tell the readers that we're still catching up with lbrycrd/lbcd while not self._stopping: if self.height == self.daemon.cached_height(): if not self._caught_up_event.is_set(): await self._finished_initial_catch_up() self._caught_up_event.set() try: await asyncio.wait_for(self.blocks_event.wait(), self.wait_for_blocks_duration) except asyncio.TimeoutError: pass self.blocks_event.clear() blocks = self.prefetcher.get_prefetched_blocks() if self._stopping: break if not blocks: try: await self.refresh_mempool() except asyncio.CancelledError: raise except Exception as err: self.log.exception("error while updating mempool txs: %s", err) raise err else: try: await self.check_and_advance_blocks(blocks) except asyncio.CancelledError: raise except Exception as err: self.log.exception("error while processing txs: %s", err) raise err except asyncio.CancelledError: raise except Exception as err: self.log.exception("error in block processor loop: %s", err) raise err finally: self._ready_to_stop.set() async def _need_catch_up(self): self.db.catching_up = True def flush(): assert len(self.db.prefix_db._op_stack) == 0 self.db.write_db_state() self.db.prefix_db.unsafe_commit() self.db.assert_db_state() await self.run_in_thread_with_lock(flush) async def _finished_initial_catch_up(self): self.log.info(f'caught up to height {self.height}') # Flush everything but with catching_up->False state. self.db.catching_up = False def flush(): assert len(self.db.prefix_db._op_stack) == 0 self.db.write_db_state() self.db.prefix_db.unsafe_commit() self.db.assert_db_state() await self.run_in_thread_with_lock(flush) def _iter_start_tasks(self): while self.db.db_version < max(self.db.DB_VERSIONS): if self.db.db_version == 7: from scribe.db.migrators.migrate7to8 import migrate, FROM_VERSION, TO_VERSION else: raise RuntimeError("unknown db version") self.log.warning(f"migrating database from version {FROM_VERSION} to version {TO_VERSION}") migrate(self.db) self.log.info("finished migration") self.db.read_db_state() self.height = self.db.db_height self.tip = self.db.db_tip self.tx_count = self.db.db_tx_count yield self.daemon.height() yield self.start_cancellable(self.prefetcher.main_loop, self.height) yield self.start_cancellable(self.process_blocks_and_mempool_forever) def _iter_stop_tasks(self): yield self._ready_to_stop.wait() yield self._stop_cancellable_tasks() yield self.daemon.close()