import os import asyncio import array import time import typing import struct import zlib import base64 from typing import Optional, Iterable, Tuple, DefaultDict, Set, Dict, List, TYPE_CHECKING from functools import partial from asyncio import sleep from bisect import bisect_right from collections import defaultdict from concurrent.futures.thread import ThreadPoolExecutor from lbry.error import ResolveCensoredError from lbry.schema.result import Censor from lbry.utils import LRUCacheWithMetrics from lbry.schema.url import URL, normalize_name from lbry.wallet.server import util from lbry.wallet.server.hash import hash_to_hex_str from lbry.wallet.server.tx import TxInput from lbry.wallet.server.merkle import Merkle, MerkleCache from lbry.wallet.server.db.common import ResolveResult, STREAM_TYPES, CLAIM_TYPES, ExpandedResolveResult, DBError, UTXO from lbry.wallet.server.db.prefixes import PendingActivationValue, ClaimTakeoverValue, ClaimToTXOValue, PrefixDB from lbry.wallet.server.db.prefixes import ACTIVATED_CLAIM_TXO_TYPE, ACTIVATED_SUPPORT_TXO_TYPE from lbry.wallet.server.db.prefixes import PendingActivationKey, TXOToClaimValue, DBStatePrefixRow, MempoolTXPrefixRow from lbry.wallet.transaction import OutputScript from lbry.schema.claim import Claim, guess_stream_type from lbry.wallet.ledger import Ledger, RegTestLedger, TestNetLedger if TYPE_CHECKING: from lbry.wallet.server.db.prefixes import EffectiveAmountKey TXO_STRUCT = struct.Struct(b'>LH') TXO_STRUCT_unpack = TXO_STRUCT.unpack TXO_STRUCT_pack = TXO_STRUCT.pack class HubDB: DB_VERSIONS = HIST_DB_VERSIONS = [7] def __init__(self, coin, db_dir: str, cache_MB: int = 512, reorg_limit: int = 200, cache_all_claim_txos: bool = False, cache_all_tx_hashes: bool = False, secondary_name: str = '', max_open_files: int = 64, blocking_channel_ids: List[str] = None, filtering_channel_ids: List[str] = None, executor: ThreadPoolExecutor = None): self.logger = util.class_logger(__name__, self.__class__.__name__) self.coin = coin self._executor = executor self._db_dir = db_dir self._cache_MB = cache_MB self._reorg_limit = reorg_limit self._cache_all_claim_txos = cache_all_claim_txos self._cache_all_tx_hashes = cache_all_tx_hashes self._secondary_name = secondary_name if secondary_name: assert max_open_files == -1, 'max open files must be -1 for secondary readers' self._db_max_open_files = max_open_files self.prefix_db: typing.Optional[PrefixDB] = None self.hist_unflushed = defaultdict(partial(array.array, 'I')) self.hist_unflushed_count = 0 self.hist_flush_count = 0 self.hist_comp_flush_count = -1 self.hist_comp_cursor = -1 self.es_sync_height = 0 # blocking/filtering dicts blocking_channels = blocking_channel_ids or [] #self.env.default('BLOCKING_CHANNEL_IDS', '').split(' ') filtering_channels = filtering_channel_ids or [] #self.env.default('FILTERING_CHANNEL_IDS', '').split(' ') self.blocked_streams = {} self.blocked_channels = {} self.blocking_channel_hashes = { bytes.fromhex(channel_id) for channel_id in blocking_channels if channel_id } self.filtered_streams = {} self.filtered_channels = {} self.filtering_channel_hashes = { bytes.fromhex(channel_id) for channel_id in filtering_channels if channel_id } self.tx_counts = None self.headers = None self.encoded_headers = LRUCacheWithMetrics(1 << 21, metric_name='encoded_headers', namespace='wallet_server') self.last_flush = time.time() # Header merkle cache self.merkle = Merkle() self.header_mc = MerkleCache(self.merkle, self.fs_block_hashes) self._tx_and_merkle_cache = LRUCacheWithMetrics(2 ** 16, metric_name='tx_and_merkle', namespace="wallet_server") # these are only used if the cache_all_tx_hashes setting is on self.total_transactions: List[bytes] = [] self.tx_num_mapping: Dict[bytes, int] = {} # these are only used if the cache_all_claim_txos setting is on self.claim_to_txo: Dict[bytes, ClaimToTXOValue] = {} self.txo_to_claim: DefaultDict[int, Dict[int, bytes]] = defaultdict(dict) self.genesis_bytes = bytes.fromhex(self.coin.GENESIS_HASH) if coin.NET == 'mainnet': self.ledger = Ledger elif coin.NET == 'testnet': self.ledger = TestNetLedger else: self.ledger = RegTestLedger def get_claim_from_txo(self, tx_num: int, tx_idx: int) -> Optional[TXOToClaimValue]: claim_hash_and_name = self.prefix_db.txo_to_claim.get(tx_num, tx_idx) if not claim_hash_and_name: return return claim_hash_and_name def get_repost(self, claim_hash) -> Optional[bytes]: repost = self.prefix_db.repost.get(claim_hash) if repost: return repost.reposted_claim_hash return def get_reposted_count(self, claim_hash: bytes) -> int: return sum( 1 for _ in self.prefix_db.reposted_claim.iterate(prefix=(claim_hash,), include_value=False) ) def get_activation(self, tx_num, position, is_support=False) -> int: activation = self.prefix_db.activated.get( ACTIVATED_SUPPORT_TXO_TYPE if is_support else ACTIVATED_CLAIM_TXO_TYPE, tx_num, position ) if activation: return activation.height return -1 def get_supported_claim_from_txo(self, tx_num: int, position: int) -> typing.Tuple[Optional[bytes], Optional[int]]: supported_claim_hash = self.prefix_db.support_to_claim.get(tx_num, position) if supported_claim_hash: packed_support_amount = self.prefix_db.claim_to_support.get( supported_claim_hash.claim_hash, tx_num, position ) if packed_support_amount: return supported_claim_hash.claim_hash, packed_support_amount.amount return None, None def get_support_amount(self, claim_hash: bytes): support_amount_val = self.prefix_db.support_amount.get(claim_hash) if support_amount_val is None: return 0 return support_amount_val.amount def get_supports(self, claim_hash: bytes): return [ (k.tx_num, k.position, v.amount) for k, v in self.prefix_db.claim_to_support.iterate(prefix=(claim_hash,)) ] def get_short_claim_id_url(self, name: str, normalized_name: str, claim_hash: bytes, root_tx_num: int, root_position: int) -> str: claim_id = claim_hash.hex() for prefix_len in range(10): for k in self.prefix_db.claim_short_id.iterate(prefix=(normalized_name, claim_id[:prefix_len+1]), include_value=False): if k.root_tx_num == root_tx_num and k.root_position == root_position: return f'{name}#{k.partial_claim_id}' break print(f"{claim_id} has a collision") return f'{name}#{claim_id}' def _prepare_resolve_result(self, tx_num: int, position: int, claim_hash: bytes, name: str, root_tx_num: int, root_position: int, activation_height: int, signature_valid: bool) -> ResolveResult: try: normalized_name = normalize_name(name) except UnicodeDecodeError: normalized_name = name controlling_claim = self.get_controlling_claim(normalized_name) tx_hash = self.get_tx_hash(tx_num) height = bisect_right(self.tx_counts, tx_num) created_height = bisect_right(self.tx_counts, root_tx_num) last_take_over_height = controlling_claim.height expiration_height = self.coin.get_expiration_height(height) support_amount = self.get_support_amount(claim_hash) claim_amount = self.get_cached_claim_txo(claim_hash).amount effective_amount = self.get_effective_amount(claim_hash) channel_hash = self.get_channel_for_claim(claim_hash, tx_num, position) reposted_claim_hash = self.get_repost(claim_hash) short_url = self.get_short_claim_id_url(name, normalized_name, claim_hash, root_tx_num, root_position) canonical_url = short_url claims_in_channel = self.get_claims_in_channel_count(claim_hash) if channel_hash: channel_vals = self.get_cached_claim_txo(channel_hash) if channel_vals: channel_short_url = self.get_short_claim_id_url( channel_vals.name, channel_vals.normalized_name, channel_hash, channel_vals.root_tx_num, channel_vals.root_position ) canonical_url = f'{channel_short_url}/{short_url}' return ResolveResult( name, normalized_name, claim_hash, tx_num, position, tx_hash, height, claim_amount, short_url=short_url, is_controlling=controlling_claim.claim_hash == claim_hash, canonical_url=canonical_url, last_takeover_height=last_take_over_height, claims_in_channel=claims_in_channel, creation_height=created_height, activation_height=activation_height, expiration_height=expiration_height, effective_amount=effective_amount, support_amount=support_amount, channel_hash=channel_hash, reposted_claim_hash=reposted_claim_hash, reposted=self.get_reposted_count(claim_hash), signature_valid=None if not channel_hash else signature_valid ) def _resolve_parsed_url(self, name: str, claim_id: Optional[str] = None, amount_order: Optional[int] = None) -> Optional[ResolveResult]: """ :param normalized_name: name :param claim_id: partial or complete claim id :param amount_order: '$' suffix to a url, defaults to 1 (winning) if no claim id modifier is provided """ try: normalized_name = normalize_name(name) except UnicodeDecodeError: normalized_name = name if (not amount_order and not claim_id) or amount_order == 1: # winning resolution controlling = self.get_controlling_claim(normalized_name) if not controlling: # print(f"none controlling for lbry://{normalized_name}") return # print(f"resolved controlling lbry://{normalized_name}#{controlling.claim_hash.hex()}") return self._fs_get_claim_by_hash(controlling.claim_hash) amount_order = max(int(amount_order or 1), 1) if claim_id: if len(claim_id) == 40: # a full claim id claim_txo = self.get_claim_txo(bytes.fromhex(claim_id)) if not claim_txo or normalized_name != claim_txo.normalized_name: return return self._prepare_resolve_result( claim_txo.tx_num, claim_txo.position, bytes.fromhex(claim_id), claim_txo.name, claim_txo.root_tx_num, claim_txo.root_position, self.get_activation(claim_txo.tx_num, claim_txo.position), claim_txo.channel_signature_is_valid ) # resolve by partial/complete claim id for key, claim_txo in self.prefix_db.claim_short_id.iterate(prefix=(normalized_name, claim_id[:10])): full_claim_hash = self.get_cached_claim_hash(claim_txo.tx_num, claim_txo.position) c = self.get_cached_claim_txo(full_claim_hash) non_normalized_name = c.name signature_is_valid = c.channel_signature_is_valid return self._prepare_resolve_result( claim_txo.tx_num, claim_txo.position, full_claim_hash, non_normalized_name, key.root_tx_num, key.root_position, self.get_activation(claim_txo.tx_num, claim_txo.position), signature_is_valid ) return # resolve by amount ordering, 1 indexed for idx, (key, claim_val) in enumerate(self.prefix_db.effective_amount.iterate(prefix=(normalized_name,))): if amount_order > idx + 1: continue claim_txo = self.get_cached_claim_txo(claim_val.claim_hash) activation = self.get_activation(key.tx_num, key.position) return self._prepare_resolve_result( key.tx_num, key.position, claim_val.claim_hash, key.normalized_name, claim_txo.root_tx_num, claim_txo.root_position, activation, claim_txo.channel_signature_is_valid ) return def _resolve_claim_in_channel(self, channel_hash: bytes, normalized_name: str): candidates = [] for key, stream in self.prefix_db.channel_to_claim.iterate(prefix=(channel_hash, normalized_name)): effective_amount = self.get_effective_amount(stream.claim_hash) if not candidates or candidates[-1][-1] == effective_amount: candidates.append((stream.claim_hash, key.tx_num, key.position, effective_amount)) else: break if not candidates: return return list(sorted(candidates, key=lambda item: item[1]))[0] def _resolve(self, url) -> ExpandedResolveResult: try: parsed = URL.parse(url) except ValueError as e: return ExpandedResolveResult(e, None, None, None) stream = channel = resolved_channel = resolved_stream = None if parsed.has_stream_in_channel: channel = parsed.channel stream = parsed.stream elif parsed.has_channel: channel = parsed.channel elif parsed.has_stream: stream = parsed.stream if channel: resolved_channel = self._resolve_parsed_url(channel.name, channel.claim_id, channel.amount_order) if not resolved_channel: return ExpandedResolveResult(None, LookupError(f'Could not find channel in "{url}".'), None, None) if stream: if resolved_channel: stream_claim = self._resolve_claim_in_channel(resolved_channel.claim_hash, stream.normalized) if stream_claim: stream_claim_id, stream_tx_num, stream_tx_pos, effective_amount = stream_claim resolved_stream = self._fs_get_claim_by_hash(stream_claim_id) else: resolved_stream = self._resolve_parsed_url(stream.name, stream.claim_id, stream.amount_order) if not channel and not resolved_channel and resolved_stream and resolved_stream.channel_hash: resolved_channel = self._fs_get_claim_by_hash(resolved_stream.channel_hash) if not resolved_stream: return ExpandedResolveResult(LookupError(f'Could not find claim at "{url}".'), None, None, None) repost = None reposted_channel = None if resolved_stream or resolved_channel: claim_hash = resolved_stream.claim_hash if resolved_stream else resolved_channel.claim_hash claim = resolved_stream if resolved_stream else resolved_channel reposted_claim_hash = resolved_stream.reposted_claim_hash if resolved_stream else None blocker_hash = self.blocked_streams.get(claim_hash) or self.blocked_streams.get( reposted_claim_hash) or self.blocked_channels.get(claim_hash) or self.blocked_channels.get( reposted_claim_hash) or self.blocked_channels.get(claim.channel_hash) if blocker_hash: reason_row = self._fs_get_claim_by_hash(blocker_hash) return ExpandedResolveResult( None, ResolveCensoredError(url, blocker_hash, censor_row=reason_row), None, None ) if claim.reposted_claim_hash: repost = self._fs_get_claim_by_hash(claim.reposted_claim_hash) if repost and repost.channel_hash and repost.signature_valid: reposted_channel = self._fs_get_claim_by_hash(repost.channel_hash) return ExpandedResolveResult(resolved_stream, resolved_channel, repost, reposted_channel) async def resolve(self, url) -> ExpandedResolveResult: return await asyncio.get_event_loop().run_in_executor(self._executor, self._resolve, url) def _fs_get_claim_by_hash(self, claim_hash): claim = self.get_cached_claim_txo(claim_hash) if claim: activation = self.get_activation(claim.tx_num, claim.position) return self._prepare_resolve_result( claim.tx_num, claim.position, claim_hash, claim.name, claim.root_tx_num, claim.root_position, activation, claim.channel_signature_is_valid ) async def fs_getclaimbyid(self, claim_id): return await asyncio.get_event_loop().run_in_executor( None, self._fs_get_claim_by_hash, bytes.fromhex(claim_id) ) def get_claim_txo_amount(self, claim_hash: bytes) -> Optional[int]: claim = self.get_claim_txo(claim_hash) if claim: return claim.amount def get_block_hash(self, height: int) -> Optional[bytes]: v = self.prefix_db.block_hash.get(height) if v: return v.block_hash def get_support_txo_amount(self, claim_hash: bytes, tx_num: int, position: int) -> Optional[int]: v = self.prefix_db.claim_to_support.get(claim_hash, tx_num, position) return None if not v else v.amount def get_claim_txo(self, claim_hash: bytes) -> Optional[ClaimToTXOValue]: assert claim_hash return self.prefix_db.claim_to_txo.get(claim_hash) def _get_active_amount(self, claim_hash: bytes, txo_type: int, height: int) -> int: return sum( v.amount for v in self.prefix_db.active_amount.iterate( start=(claim_hash, txo_type, 0), stop=(claim_hash, txo_type, height), include_key=False ) ) def get_active_amount_as_of_height(self, claim_hash: bytes, height: int) -> int: for v in self.prefix_db.active_amount.iterate( start=(claim_hash, ACTIVATED_CLAIM_TXO_TYPE, 0), stop=(claim_hash, ACTIVATED_CLAIM_TXO_TYPE, height), include_key=False, reverse=True): return v.amount return 0 def get_effective_amount(self, claim_hash: bytes, support_only=False) -> int: support_amount = self._get_active_amount(claim_hash, ACTIVATED_SUPPORT_TXO_TYPE, self.db_height + 1) if support_only: return support_only return support_amount + self._get_active_amount(claim_hash, ACTIVATED_CLAIM_TXO_TYPE, self.db_height + 1) def get_url_effective_amount(self, name: str, claim_hash: bytes) -> Optional['EffectiveAmountKey']: for k, v in self.prefix_db.effective_amount.iterate(prefix=(name,)): if v.claim_hash == claim_hash: return k def get_claims_for_name(self, name): claims = [] prefix = self.prefix_db.claim_short_id.pack_partial_key(name) + bytes([1]) stop = self.prefix_db.claim_short_id.pack_partial_key(name) + int(2).to_bytes(1, byteorder='big') cf = self.prefix_db.column_families[self.prefix_db.claim_short_id.prefix] for _v in self.prefix_db.iterator(column_family=cf, start=prefix, iterate_upper_bound=stop, include_key=False): v = self.prefix_db.claim_short_id.unpack_value(_v) claim_hash = self.get_claim_from_txo(v.tx_num, v.position).claim_hash if claim_hash not in claims: claims.append(claim_hash) return claims def get_claims_in_channel_count(self, channel_hash) -> int: channel_count_val = self.prefix_db.channel_count.get(channel_hash) if channel_count_val is None: return 0 return channel_count_val.count async def reload_blocking_filtering_streams(self): def reload(): self.blocked_streams, self.blocked_channels = self.get_streams_and_channels_reposted_by_channel_hashes( self.blocking_channel_hashes ) self.filtered_streams, self.filtered_channels = self.get_streams_and_channels_reposted_by_channel_hashes( self.filtering_channel_hashes ) await asyncio.get_event_loop().run_in_executor(self._executor, reload) def get_streams_and_channels_reposted_by_channel_hashes(self, reposter_channel_hashes: Set[bytes]): streams, channels = {}, {} for reposter_channel_hash in reposter_channel_hashes: for stream in self.prefix_db.channel_to_claim.iterate((reposter_channel_hash, ), include_key=False): repost = self.get_repost(stream.claim_hash) if repost: txo = self.get_claim_txo(repost) if txo: if txo.normalized_name.startswith('@'): channels[repost] = reposter_channel_hash else: streams[repost] = reposter_channel_hash return streams, channels def get_channel_for_claim(self, claim_hash, tx_num, position) -> Optional[bytes]: v = self.prefix_db.claim_to_channel.get(claim_hash, tx_num, position) if v: return v.signing_hash def get_expired_by_height(self, height: int) -> Dict[bytes, Tuple[int, int, str, TxInput]]: expired = {} for k, v in self.prefix_db.claim_expiration.iterate(prefix=(height,)): tx_hash = self.get_tx_hash(k.tx_num) tx = self.coin.transaction(self.prefix_db.tx.get(tx_hash, deserialize_value=False)) # treat it like a claim spend so it will delete/abandon properly # the _spend_claim function this result is fed to expects a txi, so make a mock one # print(f"\texpired lbry://{v.name} {v.claim_hash.hex()}") expired[v.claim_hash] = ( k.tx_num, k.position, v.normalized_name, TxInput(prev_hash=tx_hash, prev_idx=k.position, script=tx.outputs[k.position].pk_script, sequence=0) ) return expired def get_controlling_claim(self, name: str) -> Optional[ClaimTakeoverValue]: controlling = self.prefix_db.claim_takeover.get(name) if not controlling: return return controlling def get_claim_txos_for_name(self, name: str): txos = {} prefix = self.prefix_db.claim_short_id.pack_partial_key(name) + int(1).to_bytes(1, byteorder='big') stop = self.prefix_db.claim_short_id.pack_partial_key(name) + int(2).to_bytes(1, byteorder='big') cf = self.prefix_db.column_families[self.prefix_db.claim_short_id.prefix] for v in self.prefix_db.iterator(column_family=cf, start=prefix, iterate_upper_bound=stop, include_key=False): tx_num, nout = self.prefix_db.claim_short_id.unpack_value(v) txos[self.get_claim_from_txo(tx_num, nout).claim_hash] = tx_num, nout return txos def get_claim_metadata(self, tx_hash, nout): raw = self.prefix_db.tx.get(tx_hash, deserialize_value=False) try: output = self.coin.transaction(raw).outputs[nout] script = OutputScript(output.pk_script) script.parse() return Claim.from_bytes(script.values['claim']) except: self.logger.error("claim parsing for ES failed with tx: %s", tx_hash[::-1].hex()) return def _prepare_claim_metadata(self, claim_hash: bytes, claim: ResolveResult): metadata = self.get_claim_metadata(claim.tx_hash, claim.position) if not metadata: return metadata = metadata if not metadata.is_stream or not metadata.stream.has_fee: fee_amount = 0 else: fee_amount = int(max(metadata.stream.fee.amount or 0, 0) * 1000) if fee_amount >= 9223372036854775807: return reposted_claim_hash = None if not metadata.is_repost else metadata.repost.reference.claim_hash[::-1] reposted_claim = None reposted_metadata = None if reposted_claim_hash: reposted_claim = self.get_cached_claim_txo(reposted_claim_hash) if not reposted_claim: return reposted_metadata = self.get_claim_metadata( self.get_tx_hash(reposted_claim.tx_num), reposted_claim.position ) if not reposted_metadata: return reposted_tags = [] reposted_languages = [] reposted_has_source = False reposted_claim_type = None reposted_stream_type = None reposted_media_type = None reposted_fee_amount = None reposted_fee_currency = None reposted_duration = None if reposted_claim: reposted_tx_hash = self.get_tx_hash(reposted_claim.tx_num) raw_reposted_claim_tx = self.prefix_db.tx.get(reposted_tx_hash, deserialize_value=False) try: reposted_claim_txo = self.coin.transaction( raw_reposted_claim_tx ).outputs[reposted_claim.position] reposted_script = OutputScript(reposted_claim_txo.pk_script) reposted_script.parse() reposted_metadata = Claim.from_bytes(reposted_script.values['claim']) except: self.logger.error("failed to parse reposted claim in tx %s that was reposted by %s", reposted_tx_hash[::-1].hex(), claim_hash.hex()) return if reposted_metadata: if reposted_metadata.is_stream: meta = reposted_metadata.stream elif reposted_metadata.is_channel: meta = reposted_metadata.channel elif reposted_metadata.is_collection: meta = reposted_metadata.collection elif reposted_metadata.is_repost: meta = reposted_metadata.repost else: return reposted_tags = [tag for tag in meta.tags] reposted_languages = [lang.language or 'none' for lang in meta.languages] or ['none'] reposted_has_source = False if not reposted_metadata.is_stream else reposted_metadata.stream.has_source reposted_claim_type = CLAIM_TYPES[reposted_metadata.claim_type] reposted_stream_type = STREAM_TYPES[guess_stream_type(reposted_metadata.stream.source.media_type)] \ if reposted_has_source else 0 reposted_media_type = reposted_metadata.stream.source.media_type if reposted_metadata.is_stream else 0 if not reposted_metadata.is_stream or not reposted_metadata.stream.has_fee: reposted_fee_amount = 0 else: reposted_fee_amount = int(max(reposted_metadata.stream.fee.amount or 0, 0) * 1000) if reposted_fee_amount >= 9223372036854775807: return reposted_fee_currency = None if not reposted_metadata.is_stream else reposted_metadata.stream.fee.currency reposted_duration = None if reposted_metadata.is_stream and \ (reposted_metadata.stream.video.duration or reposted_metadata.stream.audio.duration): reposted_duration = reposted_metadata.stream.video.duration or reposted_metadata.stream.audio.duration if metadata.is_stream: meta = metadata.stream elif metadata.is_channel: meta = metadata.channel elif metadata.is_collection: meta = metadata.collection elif metadata.is_repost: meta = metadata.repost else: return claim_tags = [tag for tag in meta.tags] claim_languages = [lang.language or 'none' for lang in meta.languages] or ['none'] tags = list(set(claim_tags).union(set(reposted_tags))) languages = list(set(claim_languages).union(set(reposted_languages))) blocked_hash = self.blocked_streams.get(claim_hash) or self.blocked_streams.get( reposted_claim_hash) or self.blocked_channels.get(claim_hash) or self.blocked_channels.get( reposted_claim_hash) or self.blocked_channels.get(claim.channel_hash) filtered_hash = self.filtered_streams.get(claim_hash) or self.filtered_streams.get( reposted_claim_hash) or self.filtered_channels.get(claim_hash) or self.filtered_channels.get( reposted_claim_hash) or self.filtered_channels.get(claim.channel_hash) value = { 'claim_id': claim_hash.hex(), 'claim_name': claim.name, 'normalized_name': claim.normalized_name, 'tx_id': claim.tx_hash[::-1].hex(), 'tx_num': claim.tx_num, 'tx_nout': claim.position, 'amount': claim.amount, 'timestamp': self.estimate_timestamp(claim.height), 'creation_timestamp': self.estimate_timestamp(claim.creation_height), 'height': claim.height, 'creation_height': claim.creation_height, 'activation_height': claim.activation_height, 'expiration_height': claim.expiration_height, 'effective_amount': claim.effective_amount, 'support_amount': claim.support_amount, 'is_controlling': bool(claim.is_controlling), 'last_take_over_height': claim.last_takeover_height, 'short_url': claim.short_url, 'canonical_url': claim.canonical_url, 'title': None if not metadata.is_stream else metadata.stream.title, 'author': None if not metadata.is_stream else metadata.stream.author, 'description': None if not metadata.is_stream else metadata.stream.description, 'claim_type': CLAIM_TYPES[metadata.claim_type], 'has_source': reposted_has_source if metadata.is_repost else ( False if not metadata.is_stream else metadata.stream.has_source), 'sd_hash': metadata.stream.source.sd_hash if metadata.is_stream and metadata.stream.has_source else None, 'stream_type': STREAM_TYPES[guess_stream_type(metadata.stream.source.media_type)] if metadata.is_stream and metadata.stream.has_source else reposted_stream_type if metadata.is_repost else 0, 'media_type': metadata.stream.source.media_type if metadata.is_stream else reposted_media_type if metadata.is_repost else None, 'fee_amount': fee_amount if not metadata.is_repost else reposted_fee_amount, 'fee_currency': metadata.stream.fee.currency if metadata.is_stream else reposted_fee_currency if metadata.is_repost else None, 'repost_count': self.get_reposted_count(claim_hash), 'reposted_claim_id': None if not reposted_claim_hash else reposted_claim_hash.hex(), 'reposted_claim_type': reposted_claim_type, 'reposted_has_source': reposted_has_source, 'channel_id': None if not metadata.is_signed else metadata.signing_channel_hash[::-1].hex(), 'public_key_id': None if not metadata.is_channel else self.ledger.public_key_to_address(metadata.channel.public_key_bytes), 'signature': (metadata.signature or b'').hex() or None, # 'signature_digest': metadata.signature, 'is_signature_valid': bool(claim.signature_valid), 'tags': tags, 'languages': languages, 'censor_type': Censor.RESOLVE if blocked_hash else Censor.SEARCH if filtered_hash else Censor.NOT_CENSORED, 'censoring_channel_id': (blocked_hash or filtered_hash or b'').hex() or None, 'claims_in_channel': None if not metadata.is_channel else self.get_claims_in_channel_count(claim_hash) } if metadata.is_repost and reposted_duration is not None: value['duration'] = reposted_duration elif metadata.is_stream and (metadata.stream.video.duration or metadata.stream.audio.duration): value['duration'] = metadata.stream.video.duration or metadata.stream.audio.duration if metadata.is_stream: value['release_time'] = metadata.stream.release_time or value['creation_timestamp'] elif metadata.is_repost or metadata.is_collection: value['release_time'] = value['creation_timestamp'] return value async def all_claims_producer(self, batch_size=500_000): batch = [] if self._cache_all_claim_txos: claim_iterator = self.claim_to_txo.items() else: claim_iterator = map(lambda item: (item[0].claim_hash, item[1]), self.prefix_db.claim_to_txo.iterate()) for claim_hash, claim_txo in claim_iterator: # TODO: fix the couple of claim txos that dont have controlling names if not self.prefix_db.claim_takeover.get(claim_txo.normalized_name): continue activation = self.get_activation(claim_txo.tx_num, claim_txo.position) claim = self._prepare_resolve_result( claim_txo.tx_num, claim_txo.position, claim_hash, claim_txo.name, claim_txo.root_tx_num, claim_txo.root_position, activation, claim_txo.channel_signature_is_valid ) if claim: batch.append(claim) if len(batch) == batch_size: batch.sort(key=lambda x: x.tx_hash) # sort is to improve read-ahead hits for claim in batch: meta = self._prepare_claim_metadata(claim.claim_hash, claim) if meta: yield meta batch.clear() batch.sort(key=lambda x: x.tx_hash) for claim in batch: meta = self._prepare_claim_metadata(claim.claim_hash, claim) if meta: yield meta batch.clear() def claim_producer(self, claim_hash: bytes) -> Optional[Dict]: claim_txo = self.get_cached_claim_txo(claim_hash) if not claim_txo: self.logger.warning("can't sync non existent claim to ES: %s", claim_hash.hex()) return if not self.prefix_db.claim_takeover.get(claim_txo.normalized_name): self.logger.warning("can't sync non existent claim to ES: %s", claim_hash.hex()) return activation = self.get_activation(claim_txo.tx_num, claim_txo.position) claim = self._prepare_resolve_result( claim_txo.tx_num, claim_txo.position, claim_hash, claim_txo.name, claim_txo.root_tx_num, claim_txo.root_position, activation, claim_txo.channel_signature_is_valid ) if not claim: self.logger.warning("wat") return return self._prepare_claim_metadata(claim.claim_hash, claim) def claims_producer(self, claim_hashes: Set[bytes]): batch = [] results = [] for claim_hash in claim_hashes: claim_txo = self.get_cached_claim_txo(claim_hash) if not claim_txo: self.logger.warning("can't sync non existent claim to ES: %s", claim_hash.hex()) continue if not self.prefix_db.claim_takeover.get(claim_txo.normalized_name): self.logger.warning("can't sync non existent claim to ES: %s", claim_hash.hex()) continue activation = self.get_activation(claim_txo.tx_num, claim_txo.position) claim = self._prepare_resolve_result( claim_txo.tx_num, claim_txo.position, claim_hash, claim_txo.name, claim_txo.root_tx_num, claim_txo.root_position, activation, claim_txo.channel_signature_is_valid ) if claim: batch.append(claim) batch.sort(key=lambda x: x.tx_hash) for claim in batch: _meta = self._prepare_claim_metadata(claim.claim_hash, claim) if _meta: results.append(_meta) return results def get_activated_at_height(self, height: int) -> DefaultDict[PendingActivationValue, List[PendingActivationKey]]: activated = defaultdict(list) for k, v in self.prefix_db.pending_activation.iterate(prefix=(height,)): activated[v].append(k) return activated def get_future_activated(self, height: int) -> typing.Dict[PendingActivationValue, PendingActivationKey]: results = {} for k, v in self.prefix_db.pending_activation.iterate( start=(height + 1,), stop=(height + 1 + self.coin.maxTakeoverDelay,), reverse=True): if v not in results: results[v] = k return results async def _read_tx_counts(self): if self.tx_counts is not None: return # tx_counts[N] has the cumulative number of txs at the end of # height N. So tx_counts[0] is 1 - the genesis coinbase def get_counts(): return [ v.tx_count for v in self.prefix_db.tx_count.iterate( start=(0,), stop=(self.db_height + 1,), include_key=False, fill_cache=False ) ] tx_counts = await asyncio.get_event_loop().run_in_executor(self._executor, get_counts) assert len(tx_counts) == self.db_height + 1, f"{len(tx_counts)} vs {self.db_height + 1}" self.tx_counts = array.array('I', tx_counts) if self.tx_counts: assert self.db_tx_count == self.tx_counts[-1], \ f"{self.db_tx_count} vs {self.tx_counts[-1]} ({len(self.tx_counts)} counts)" else: assert self.db_tx_count == 0 async def _read_claim_txos(self): def read_claim_txos(): set_claim_to_txo = self.claim_to_txo.__setitem__ for k, v in self.prefix_db.claim_to_txo.iterate(fill_cache=False): set_claim_to_txo(k.claim_hash, v) self.txo_to_claim[v.tx_num][v.position] = k.claim_hash self.claim_to_txo.clear() self.txo_to_claim.clear() start = time.perf_counter() self.logger.info("loading claims") await asyncio.get_event_loop().run_in_executor(self._executor, read_claim_txos) ts = time.perf_counter() - start self.logger.info("loaded %i claim txos in %ss", len(self.claim_to_txo), round(ts, 4)) async def _read_headers(self): if self.headers is not None: return def get_headers(): return [ header for header in self.prefix_db.header.iterate( start=(0, ), stop=(self.db_height + 1, ), include_key=False, fill_cache=False, deserialize_value=False ) ] headers = await asyncio.get_event_loop().run_in_executor(self._executor, get_headers) assert len(headers) - 1 == self.db_height, f"{len(headers)} vs {self.db_height}" self.headers = headers async def _read_tx_hashes(self): def _read_tx_hashes(): return list(self.prefix_db.tx_hash.iterate(start=(0,), stop=(self.db_tx_count + 1), include_key=False, fill_cache=False, deserialize_value=False)) self.logger.info("loading tx hashes") self.total_transactions.clear() self.tx_num_mapping.clear() start = time.perf_counter() self.total_transactions.extend(await asyncio.get_event_loop().run_in_executor(self._executor, _read_tx_hashes)) self.tx_num_mapping = { tx_hash: tx_num for tx_num, tx_hash in enumerate(self.total_transactions) } ts = time.perf_counter() - start self.logger.info("loaded %i tx hashes in %ss", len(self.total_transactions), round(ts, 4)) def estimate_timestamp(self, height: int) -> int: if height < len(self.headers): return struct.unpack(' 0: await self.populate_header_merkle_cache() def close(self): self.prefix_db.close() self.prefix_db = None def get_tx_hash(self, tx_num: int) -> bytes: if self._cache_all_tx_hashes: return self.total_transactions[tx_num] return self.prefix_db.tx_hash.get(tx_num, deserialize_value=False) def get_tx_num(self, tx_hash: bytes) -> int: if self._cache_all_tx_hashes: return self.tx_num_mapping[tx_hash] return self.prefix_db.tx_num.get(tx_hash).tx_num def get_cached_claim_txo(self, claim_hash: bytes) -> Optional[ClaimToTXOValue]: if self._cache_all_claim_txos: return self.claim_to_txo.get(claim_hash) return self.prefix_db.claim_to_txo.get_pending(claim_hash) def get_cached_claim_hash(self, tx_num: int, position: int) -> Optional[bytes]: if self._cache_all_claim_txos: if tx_num not in self.txo_to_claim: return return self.txo_to_claim[tx_num].get(position, None) v = self.prefix_db.txo_to_claim.get_pending(tx_num, position) return None if not v else v.claim_hash def get_cached_claim_exists(self, tx_num: int, position: int) -> bool: return self.get_cached_claim_hash(tx_num, position) is not None # Header merkle cache async def populate_header_merkle_cache(self): self.logger.info('populating header merkle cache...') length = max(1, self.db_height - self._reorg_limit) start = time.time() await self.header_mc.initialize(length) elapsed = time.time() - start self.logger.info(f'header merkle cache populated in {elapsed:.1f}s') async def header_branch_and_root(self, length, height): return await self.header_mc.branch_and_root(length, height) async def raw_header(self, height): """Return the binary header at the given height.""" header, n = await self.read_headers(height, 1) if n != 1: raise IndexError(f'height {height:,d} out of range') return header def encode_headers(self, start_height, count, headers): key = (start_height, count) if not self.encoded_headers.get(key): compressobj = zlib.compressobj(wbits=-15, level=1, memLevel=9) headers = base64.b64encode(compressobj.compress(headers) + compressobj.flush()).decode() if start_height % 1000 != 0: return headers self.encoded_headers[key] = headers return self.encoded_headers.get(key) async def read_headers(self, start_height, count) -> typing.Tuple[bytes, int]: """Requires start_height >= 0, count >= 0. Reads as many headers as are available starting at start_height up to count. This would be zero if start_height is beyond self.db_height, for example. Returns a (binary, n) pair where binary is the concatenated binary headers, and n is the count of headers returned. """ if start_height < 0 or count < 0: raise DBError(f'{count:,d} headers starting at {start_height:,d} not on disk') disk_count = max(0, min(count, self.db_height + 1 - start_height)) def read_headers(): x = b''.join( self.prefix_db.header.iterate( start=(start_height,), stop=(start_height+disk_count,), include_key=False, deserialize_value=False ) ) return x if disk_count: return await asyncio.get_event_loop().run_in_executor(self._executor, read_headers), disk_count return b'', 0 def fs_tx_hash(self, tx_num): """Return a par (tx_hash, tx_height) for the given tx number. If the tx_height is not on disk, returns (None, tx_height).""" tx_height = bisect_right(self.tx_counts, tx_num) if tx_height > self.db_height: return None, tx_height try: return self.get_tx_hash(tx_num), tx_height except IndexError: self.logger.exception( "Failed to access a cached transaction, known bug #3142 " "should be fixed in #3205" ) return None, tx_height def get_block_txs(self, height: int) -> List[bytes]: return self.prefix_db.block_txs.get(height).tx_hashes async def get_transactions_and_merkles(self, tx_hashes: Iterable[str]): tx_infos = {} for tx_hash in tx_hashes: tx_infos[tx_hash] = await asyncio.get_event_loop().run_in_executor( None, self._get_transaction_and_merkle, tx_hash ) await asyncio.sleep(0) return tx_infos def _get_transaction_and_merkle(self, tx_hash): cached_tx = self._tx_and_merkle_cache.get(tx_hash) if cached_tx: tx, merkle = cached_tx else: tx_hash_bytes = bytes.fromhex(tx_hash)[::-1] tx_num = self.prefix_db.tx_num.get(tx_hash_bytes) tx = None tx_height = -1 tx_num = None if not tx_num else tx_num.tx_num if tx_num is not None: if self._cache_all_claim_txos: fill_cache = tx_num in self.txo_to_claim and len(self.txo_to_claim[tx_num]) > 0 else: fill_cache = False tx_height = bisect_right(self.tx_counts, tx_num) tx = self.prefix_db.tx.get(tx_hash_bytes, fill_cache=fill_cache, deserialize_value=False) if tx_height == -1: merkle = { 'block_height': -1 } else: tx_pos = tx_num - self.tx_counts[tx_height - 1] branch, root = self.merkle.branch_and_root( self.get_block_txs(tx_height), tx_pos ) merkle = { 'block_height': tx_height, 'merkle': [ hash_to_hex_str(hash) for hash in branch ], 'pos': tx_pos } if tx_height + 10 < self.db_height: self._tx_and_merkle_cache[tx_hash] = tx, merkle return (None if not tx else tx.hex(), merkle) async def fs_block_hashes(self, height, count): if height + count > len(self.headers): raise DBError(f'only got {len(self.headers) - height:,d} headers starting at {height:,d}, not {count:,d}') return [self.coin.header_hash(header) for header in self.headers[height:height + count]] def read_history(self, hashX: bytes, limit: int = 1000) -> List[Tuple[bytes, int]]: txs = [] txs_extend = txs.extend for hist in self.prefix_db.hashX_history.iterate(prefix=(hashX,), include_key=False): txs_extend(hist) if len(txs) >= limit: break return [ (self.get_tx_hash(tx_num), bisect_right(self.tx_counts, tx_num)) for tx_num in txs ] async def limited_history(self, hashX, *, limit=1000): """Return an unpruned, sorted list of (tx_hash, height) tuples of confirmed transactions that touched the address, earliest in the blockchain first. Includes both spending and receiving transactions. By default returns at most 1000 entries. Set limit to None to get them all. """ return await asyncio.get_event_loop().run_in_executor(self._executor, self.read_history, hashX, limit) # -- Undo information def min_undo_height(self, max_height): """Returns a height from which we should store undo info.""" return max_height - self._reorg_limit + 1 def apply_expiration_extension_fork(self): # TODO: this can't be reorged for k, v in self.prefix_db.claim_expiration.iterate(): self.prefix_db.claim_expiration.stage_delete(k, v) self.prefix_db.claim_expiration.stage_put( (bisect_right(self.tx_counts, k.tx_num) + self.coin.nExtendedClaimExpirationTime, k.tx_num, k.position), v ) self.prefix_db.unsafe_commit() def write_db_state(self): """Write (UTXO) state to the batch.""" if self.db_height > 0: self.prefix_db.db_state.stage_delete((), self.prefix_db.db_state.get()) self.prefix_db.db_state.stage_put((), ( self.genesis_bytes, self.db_height, self.db_tx_count, self.db_tip, self.utxo_flush_count, int(self.wall_time), self.first_sync, self.db_version, self.hist_flush_count, self.hist_comp_flush_count, self.hist_comp_cursor, self.es_sync_height ) ) def read_db_state(self): state = self.prefix_db.db_state.get() if not state: self.db_height = -1 self.db_tx_count = 0 self.db_tip = b'\0' * 32 self.db_version = max(self.DB_VERSIONS) self.utxo_flush_count = 0 self.wall_time = 0 self.first_sync = True self.hist_flush_count = 0 self.hist_comp_flush_count = -1 self.hist_comp_cursor = -1 self.hist_db_version = max(self.DB_VERSIONS) self.es_sync_height = 0 else: self.db_version = state.db_version if self.db_version not in self.DB_VERSIONS: raise DBError(f'your DB version is {self.db_version} but this ' f'software only handles versions {self.DB_VERSIONS}') # backwards compat genesis_hash = state.genesis if genesis_hash.hex() != self.coin.GENESIS_HASH: raise DBError(f'DB genesis hash {genesis_hash} does not ' f'match coin {self.coin.GENESIS_HASH}') self.db_height = state.height self.db_tx_count = state.tx_count self.db_tip = state.tip self.utxo_flush_count = state.utxo_flush_count self.wall_time = state.wall_time self.first_sync = state.first_sync self.hist_flush_count = state.hist_flush_count self.hist_comp_flush_count = state.comp_flush_count self.hist_comp_cursor = state.comp_cursor self.hist_db_version = state.db_version self.es_sync_height = state.es_sync_height return state def assert_db_state(self): state = self.prefix_db.db_state.get() assert self.db_version == state.db_version, f"{self.db_version} != {state.db_version}" assert self.db_height == state.height, f"{self.db_height} != {state.height}" assert self.db_tx_count == state.tx_count, f"{self.db_tx_count} != {state.tx_count}" assert self.db_tip == state.tip, f"{self.db_tip} != {state.tip}" assert self.first_sync == state.first_sync, f"{self.first_sync} != {state.first_sync}" assert self.es_sync_height == state.es_sync_height, f"{self.es_sync_height} != {state.es_sync_height}" async def all_utxos(self, hashX): """Return all UTXOs for an address sorted in no particular order.""" def read_utxos(): utxos = [] utxos_append = utxos.append fs_tx_hash = self.fs_tx_hash for k, v in self.prefix_db.utxo.iterate(prefix=(hashX, )): tx_hash, height = fs_tx_hash(k.tx_num) utxos_append(UTXO(k.tx_num, k.nout, tx_hash, height, v.amount)) return utxos while True: utxos = await asyncio.get_event_loop().run_in_executor(self._executor, read_utxos) if all(utxo.tx_hash is not None for utxo in utxos): return utxos self.logger.warning(f'all_utxos: tx hash not ' f'found (reorg?), retrying...') await sleep(0.25) async def lookup_utxos(self, prevouts): def lookup_utxos(): utxos = [] utxo_append = utxos.append for (tx_hash, nout) in prevouts: tx_num_val = self.prefix_db.tx_num.get(tx_hash) if not tx_num_val: print("no tx num for ", tx_hash[::-1].hex()) continue tx_num = tx_num_val.tx_num hashX_val = self.prefix_db.hashX_utxo.get(tx_hash[:4], tx_num, nout) if not hashX_val: continue hashX = hashX_val.hashX utxo_value = self.prefix_db.utxo.get(hashX, tx_num, nout) if utxo_value: utxo_append((hashX, utxo_value.amount)) return utxos return await asyncio.get_event_loop().run_in_executor(self._executor, lookup_utxos)