lbry-sdk/lbrynet/wallet/server/db.py
2019-05-30 21:57:49 -04:00

854 lines
36 KiB
Python

import sqlite3
import struct
from typing import Union, Tuple, Set, List
from binascii import unhexlify
from itertools import chain
from torba.server.db import DB
from torba.server.util import class_logger
from torba.client.basedatabase import query, constraints_to_sql
from lbrynet.schema.url import URL, normalize_name
from lbrynet.wallet.ledger import MainNetLedger, RegTestLedger
from lbrynet.wallet.transaction import Transaction, Output
from lbrynet.wallet.server.canonical import register_canonical_functions
from lbrynet.wallet.server.trending import (
CREATE_TREND_TABLE, calculate_trending, register_trending_functions
)
ATTRIBUTE_ARRAY_MAX_LENGTH = 100
def _apply_constraints_for_array_attributes(constraints, attr):
any_items = constraints.pop(f'any_{attr}s', [])[:ATTRIBUTE_ARRAY_MAX_LENGTH]
if any_items:
constraints.update({
f'$any_{attr}{i}': item for i, item in enumerate(any_items)
})
values = ', '.join(
f':$any_{attr}{i}' for i in range(len(any_items))
)
constraints[f'claim.claim_hash__in#_any_{attr}'] = f"""
SELECT DISTINCT claim_hash FROM {attr} WHERE {attr} IN ({values})
"""
all_items = constraints.pop(f'all_{attr}s', [])[:ATTRIBUTE_ARRAY_MAX_LENGTH]
if all_items:
constraints[f'$all_{attr}_count'] = len(all_items)
constraints.update({
f'$all_{attr}{i}': item for i, item in enumerate(all_items)
})
values = ', '.join(
f':$all_{attr}{i}' for i in range(len(all_items))
)
constraints[f'claim.claim_hash__in#_all_{attr}'] = f"""
SELECT claim_hash FROM {attr} WHERE {attr} IN ({values})
GROUP BY claim_hash HAVING COUNT({attr}) = :$all_{attr}_count
"""
not_items = constraints.pop(f'not_{attr}s', [])[:ATTRIBUTE_ARRAY_MAX_LENGTH]
if not_items:
constraints.update({
f'$not_{attr}{i}': item for i, item in enumerate(not_items)
})
values = ', '.join(
f':$not_{attr}{i}' for i in range(len(not_items))
)
constraints[f'claim.claim_hash__not_in#_not_{attr}'] = f"""
SELECT DISTINCT claim_hash FROM {attr} WHERE {attr} IN ({values})
"""
class SQLDB:
PRAGMAS = """
pragma journal_mode=WAL;
"""
CREATE_CLAIM_TABLE = """
create table if not exists claim (
claim_hash bytes primary key,
claim_id text not null,
claim_name text not null,
normalized text not null,
txo_hash bytes not null,
tx_position integer not null,
amount integer not null,
timestamp integer not null, -- last updated timestamp
creation_timestamp integer not null,
height integer not null, -- last updated height
creation_height integer not null,
activation_height integer,
expiration_height integer not null,
release_time integer not null,
short_url text not null, -- normalized#shortest-unique-claim_id
canonical_url text, -- channel's-short_url/normalized#shortest-unique-claim_id-within-channel
-- claims which are channels
is_channel bool not null,
public_key_bytes bytes,
claims_in_channel integer,
-- claims which are inside channels
channel_hash bytes,
channel_join integer, -- height at which claim got valid signature / joined channel
signature bytes,
signature_digest bytes,
is_channel_signature_valid bool not null default false,
effective_amount integer not null default 0,
support_amount integer not null default 0,
trending_group integer not null default 0,
trending_mixed integer not null default 0,
trending_local integer not null default 0,
trending_global integer not null default 0
);
create index if not exists claim_id_idx on claim (claim_id);
create index if not exists claim_normalized_idx on claim (normalized);
create index if not exists claim_resolve_idx on claim (normalized, claim_id);
create index if not exists claim_txo_hash_idx on claim (txo_hash);
create index if not exists claim_channel_hash_idx on claim (channel_hash);
create index if not exists claim_release_time_idx on claim (release_time);
create index if not exists claim_timestamp_idx on claim (timestamp);
create index if not exists claim_height_idx on claim (height);
create index if not exists claim_activation_height_idx on claim (activation_height);
create index if not exists claim_effective_amount_idx on claim (effective_amount);
create index if not exists claim_trending_group_idx on claim (trending_group);
create index if not exists claim_trending_mixed_idx on claim (trending_mixed);
create index if not exists claim_trending_local_idx on claim (trending_local);
create index if not exists claim_trending_global_idx on claim (trending_global);
"""
CREATE_SUPPORT_TABLE = """
create table if not exists support (
txo_hash bytes primary key,
tx_position integer not null,
height integer not null,
claim_hash bytes not null,
amount integer not null
);
create index if not exists support_txo_hash_idx on support (txo_hash);
create index if not exists support_claim_hash_idx on support (claim_hash, height);
"""
CREATE_TAG_TABLE = """
create table if not exists tag (
tag text not null,
claim_hash bytes not null,
height integer not null
);
create index if not exists tag_tag_idx on tag (tag);
create index if not exists tag_claim_hash_idx on tag (claim_hash);
create index if not exists tag_height_idx on tag (height);
"""
CREATE_CLAIMTRIE_TABLE = """
create table if not exists claimtrie (
normalized text primary key,
claim_hash bytes not null,
last_take_over_height integer not null
);
create index if not exists claimtrie_claim_hash_idx on claimtrie (claim_hash);
"""
CREATE_TABLES_QUERY = (
PRAGMAS +
CREATE_CLAIM_TABLE +
CREATE_TREND_TABLE +
CREATE_SUPPORT_TABLE +
CREATE_CLAIMTRIE_TABLE +
CREATE_TAG_TABLE
)
def __init__(self, main, path):
self.main = main
self._db_path = path
self.db = None
self.logger = class_logger(__name__, self.__class__.__name__)
self.ledger = MainNetLedger if self.main.coin.NET == 'mainnet' else RegTestLedger
def open(self):
self.db = sqlite3.connect(self._db_path, isolation_level=None, check_same_thread=False)
self.db.row_factory = sqlite3.Row
self.db.executescript(self.CREATE_TABLES_QUERY)
register_canonical_functions(self.db)
register_trending_functions(self.db)
def close(self):
self.db.close()
@staticmethod
def _insert_sql(table: str, data: dict) -> Tuple[str, list]:
columns, values = [], []
for column, value in data.items():
columns.append(column)
values.append(value)
sql = (
f"INSERT INTO {table} ({', '.join(columns)}) "
f"VALUES ({', '.join(['?'] * len(values))})"
)
return sql, values
@staticmethod
def _update_sql(table: str, data: dict, where: str,
constraints: Union[list, tuple]) -> Tuple[str, list]:
columns, values = [], []
for column, value in data.items():
columns.append("{} = ?".format(column))
values.append(value)
values.extend(constraints)
return f"UPDATE {table} SET {', '.join(columns)} WHERE {where}", values
@staticmethod
def _delete_sql(table: str, constraints: dict) -> Tuple[str, dict]:
where, values = constraints_to_sql(constraints)
return f"DELETE FROM {table} WHERE {where}", values
def execute(self, *args):
return self.db.execute(*args)
def begin(self):
self.execute('begin;')
def commit(self):
self.execute('commit;')
def _upsertable_claims(self, txos: List[Output], header, clear_first=False):
claim_hashes, claims, tags = [], [], []
for txo in txos:
tx = txo.tx_ref.tx
try:
assert txo.claim_name
assert txo.normalized_name
except:
#self.logger.exception(f"Could not decode claim name for {tx.id}:{txo.position}.")
continue
claim_hash = sqlite3.Binary(txo.claim_hash)
claim_hashes.append(claim_hash)
claim_record = {
'claim_hash': claim_hash,
'claim_id': txo.claim_id,
'claim_name': txo.claim_name,
'normalized': txo.normalized_name,
'txo_hash': sqlite3.Binary(txo.ref.hash),
'tx_position': tx.position,
'amount': txo.amount,
'is_channel': False,
'timestamp': header['timestamp'],
'height': tx.height,
'release_time': None,
}
claims.append(claim_record)
try:
claim = txo.claim
except:
#self.logger.exception(f"Could not parse claim protobuf for {tx.id}:{txo.position}.")
continue
if claim.is_stream:
if claim.stream.release_time:
claim_record['release_time'] = claim.stream.release_time
elif claim.is_channel:
claim_record['is_channel'] = True
for tag in claim.message.tags:
tags.append((tag, claim_hash, tx.height))
if clear_first:
self._clear_claim_metadata(claim_hashes)
if tags:
self.db.executemany(
"INSERT INTO tag (tag, claim_hash, height) VALUES (?, ?, ?)", tags
)
return claims
def insert_claims(self, txos: List[Output], header):
claims = self._upsertable_claims(txos, header)
if claims:
self.db.executemany("""
INSERT INTO claim (
claim_hash, claim_id, claim_name, normalized, txo_hash, tx_position, amount,
is_channel, timestamp, creation_timestamp, height, creation_height,
release_time, activation_height, expiration_height, short_url)
VALUES (
:claim_hash, :claim_id, :claim_name, :normalized, :txo_hash, :tx_position, :amount,
:is_channel, :timestamp, :timestamp, :height, :height,
CASE WHEN :release_time IS NOT NULL THEN :release_time ELSE :timestamp END,
CASE WHEN :normalized NOT IN (SELECT normalized FROM claimtrie) THEN :height END,
CASE WHEN :height >= 262974 THEN :height+2102400 ELSE :height+262974 END,
:claim_name||COALESCE(
(SELECT shortest_id(claim_id, :claim_id) FROM claim WHERE normalized = :normalized),
'#'||substr(:claim_id, 1, 1)
)
)""", claims)
def update_claims(self, txos: List[Output], header):
claims = self._upsertable_claims(txos, header, clear_first=True)
if claims:
self.db.executemany("""
UPDATE claim SET
txo_hash=:txo_hash, tx_position=:tx_position, amount=:amount, height=:height, timestamp=:timestamp,
release_time=CASE WHEN :release_time IS NOT NULL THEN :release_time ELSE release_time END
WHERE claim_hash=:claim_hash;
""", claims)
def delete_claims(self, claim_hashes: Set[bytes]):
""" Deletes claim supports and from claimtrie in case of an abandon. """
if claim_hashes:
binary_claim_hashes = [sqlite3.Binary(claim_hash) for claim_hash in claim_hashes]
for table in ('claim', 'support', 'claimtrie'):
self.execute(*self._delete_sql(table, {'claim_hash__in': binary_claim_hashes}))
self._clear_claim_metadata(binary_claim_hashes)
def _clear_claim_metadata(self, binary_claim_hashes: List[sqlite3.Binary]):
if binary_claim_hashes:
for table in ('tag',): # 'language', 'location', etc
self.execute(*self._delete_sql(table, {'claim_hash__in': binary_claim_hashes}))
def split_inputs_into_claims_supports_and_other(self, txis):
txo_hashes = {txi.txo_ref.hash for txi in txis}
claims = self.execute(*query(
"SELECT txo_hash, claim_hash, normalized FROM claim",
txo_hash__in=[sqlite3.Binary(txo_hash) for txo_hash in txo_hashes]
)).fetchall()
txo_hashes -= {r['txo_hash'] for r in claims}
supports = {}
if txo_hashes:
supports = self.execute(*query(
"SELECT txo_hash, claim_hash FROM support",
txo_hash__in=[sqlite3.Binary(txo_hash) for txo_hash in txo_hashes]
)).fetchall()
txo_hashes -= {r['txo_hash'] for r in supports}
return claims, supports, txo_hashes
def insert_supports(self, txos: List[Output]):
supports = []
for txo in txos:
tx = txo.tx_ref.tx
supports.append((
sqlite3.Binary(txo.ref.hash), tx.position, tx.height,
sqlite3.Binary(txo.claim_hash), txo.amount
))
if supports:
self.db.executemany(
"INSERT INTO support ("
" txo_hash, tx_position, height, claim_hash, amount"
") "
"VALUES (?, ?, ?, ?, ?)", supports
)
def delete_supports(self, txo_hashes: Set[bytes]):
if txo_hashes:
self.execute(*self._delete_sql(
'support', {'txo_hash__in': [sqlite3.Binary(txo_hash) for txo_hash in txo_hashes]}
))
def validate_channel_signatures(self, height, new_claims, updated_claims, spent_claims):
if not new_claims and not updated_claims and not spent_claims:
return
channels, new_channel_keys, signables = {}, {}, {}
for txo in chain(new_claims, updated_claims):
try:
claim = txo.claim
except:
continue
if claim.is_channel:
channels[txo.claim_hash] = txo
new_channel_keys[txo.claim_hash] = claim.channel.public_key_bytes
else:
signables[txo.claim_hash] = txo
missing_channel_keys = set()
for txo in signables.values():
claim = txo.claim
if claim.is_signed and claim.signing_channel_hash not in new_channel_keys:
missing_channel_keys.add(claim.signing_channel_hash)
all_channel_keys = {}
if new_channel_keys or missing_channel_keys:
all_channel_keys = dict(self.execute(*query(
"SELECT claim_hash, public_key_bytes FROM claim",
claim_hash__in=[
sqlite3.Binary(channel_hash) for channel_hash in
set(new_channel_keys) | missing_channel_keys
]
)))
changed_channel_keys = {}
for claim_hash, new_key in new_channel_keys.items():
if claim_hash not in all_channel_keys or all_channel_keys[claim_hash] != new_key:
all_channel_keys[claim_hash] = new_key
changed_channel_keys[claim_hash] = new_key
claim_updates = []
for claim_hash, txo in signables.items():
claim = txo.claim
update = {
'claim_hash': sqlite3.Binary(claim_hash),
'channel_hash': None,
'signature': None,
'signature_digest': None,
'is_channel_signature_valid': False
}
if claim.is_signed:
update.update({
'channel_hash': sqlite3.Binary(claim.signing_channel_hash),
'signature': sqlite3.Binary(txo.get_encoded_signature()),
'signature_digest': sqlite3.Binary(txo.get_signature_digest(self.ledger))
})
claim_updates.append(update)
if changed_channel_keys:
sql = f"""
SELECT * FROM claim WHERE
channel_hash IN ({','.join('?' for _ in changed_channel_keys)}) AND
signature IS NOT NULL
"""
for affected_claim in self.execute(sql, [sqlite3.Binary(h) for h in changed_channel_keys]):
if affected_claim['claim_hash'] not in signables:
claim_updates.append({
'claim_hash': sqlite3.Binary(affected_claim['claim_hash']),
'channel_hash': sqlite3.Binary(affected_claim['channel_hash']),
'signature': sqlite3.Binary(affected_claim['signature']),
'signature_digest': sqlite3.Binary(affected_claim['signature_digest']),
'is_channel_signature_valid': False
})
for update in claim_updates:
channel_pub_key = all_channel_keys.get(update['channel_hash'])
if channel_pub_key and update['signature']:
update['is_channel_signature_valid'] = Output.is_signature_valid(
bytes(update['signature']), bytes(update['signature_digest']), channel_pub_key
)
if claim_updates:
self.db.executemany(f"""
UPDATE claim SET
channel_hash=:channel_hash, signature=:signature, signature_digest=:signature_digest,
is_channel_signature_valid=:is_channel_signature_valid,
channel_join=CASE
WHEN is_channel_signature_valid AND :is_channel_signature_valid THEN channel_join
WHEN :is_channel_signature_valid THEN {height}
END,
canonical_url=CASE
WHEN is_channel_signature_valid AND :is_channel_signature_valid THEN canonical_url
WHEN :is_channel_signature_valid THEN
(SELECT short_url FROM claim WHERE claim_hash=:channel_hash)||'/'||
claim_name||COALESCE(
(SELECT shortest_id(other_claim.claim_id, claim.claim_id) FROM claim AS other_claim
WHERE other_claim.normalized = claim.normalized AND
other_claim.channel_hash = :channel_hash AND
other_claim.is_channel_signature_valid = 1),
'#'||substr(claim_id, 1, 1)
)
END
WHERE claim_hash=:claim_hash;
""", claim_updates)
if spent_claims:
self.execute(
f"""
UPDATE claim SET is_channel_signature_valid=0, channel_join=NULL, canonical_url=NULL
WHERE channel_hash IN ({','.join('?' for _ in spent_claims)})
""", [sqlite3.Binary(cid) for cid in spent_claims]
)
if channels:
self.db.executemany(
"UPDATE claim SET public_key_bytes=:public_key_bytes WHERE claim_hash=:claim_hash", [{
'claim_hash': sqlite3.Binary(claim_hash),
'public_key_bytes': sqlite3.Binary(txo.claim.channel.public_key_bytes)
} for claim_hash, txo in channels.items()]
)
if all_channel_keys:
self.db.executemany(f"""
UPDATE claim SET
claims_in_channel=(
SELECT COUNT(*) FROM claim AS claim_in_channel
WHERE claim_in_channel.channel_hash=claim.claim_hash AND
claim_in_channel.is_channel_signature_valid
)
WHERE claim_hash = ?
""", [(sqlite3.Binary(channel_hash),) for channel_hash in all_channel_keys.keys()])
def _update_support_amount(self, claim_hashes):
if claim_hashes:
self.execute(f"""
UPDATE claim SET
support_amount = COALESCE(
(SELECT SUM(amount) FROM support WHERE support.claim_hash=claim.claim_hash), 0
)
WHERE claim_hash IN ({','.join('?' for _ in claim_hashes)})
""", claim_hashes)
def _update_effective_amount(self, height, claim_hashes=None):
self.execute(
f"UPDATE claim SET effective_amount = amount + support_amount "
f"WHERE activation_height = {height}"
)
if claim_hashes:
self.execute(
f"UPDATE claim SET effective_amount = amount + support_amount "
f"WHERE activation_height < {height} "
f" AND claim_hash IN ({','.join('?' for _ in claim_hashes)})",
claim_hashes
)
def _calculate_activation_height(self, height):
last_take_over_height = f"""COALESCE(
(SELECT last_take_over_height FROM claimtrie
WHERE claimtrie.normalized=claim.normalized),
{height}
)
"""
self.execute(f"""
UPDATE claim SET activation_height =
{height} + min(4032, cast(({height} - {last_take_over_height}) / 32 AS INT))
WHERE activation_height IS NULL
""")
def _perform_overtake(self, height, changed_claim_hashes, deleted_names):
deleted_names_sql = claim_hashes_sql = ""
if changed_claim_hashes:
claim_hashes_sql = f"OR claim_hash IN ({','.join('?' for _ in changed_claim_hashes)})"
if deleted_names:
deleted_names_sql = f"OR normalized IN ({','.join('?' for _ in deleted_names)})"
overtakes = self.execute(f"""
SELECT winner.normalized, winner.claim_hash,
claimtrie.claim_hash AS current_winner,
MAX(winner.effective_amount)
FROM (
SELECT normalized, claim_hash, effective_amount FROM claim
WHERE normalized IN (
SELECT normalized FROM claim WHERE activation_height={height} {claim_hashes_sql}
) {deleted_names_sql}
ORDER BY effective_amount DESC, height ASC, tx_position ASC
) AS winner LEFT JOIN claimtrie USING (normalized)
GROUP BY winner.normalized
HAVING current_winner IS NULL OR current_winner <> winner.claim_hash
""", changed_claim_hashes+deleted_names)
for overtake in overtakes:
if overtake['current_winner']:
self.execute(
f"UPDATE claimtrie SET claim_hash = ?, last_take_over_height = {height} "
f"WHERE normalized = ?",
(sqlite3.Binary(overtake['claim_hash']), overtake['normalized'])
)
else:
self.execute(
f"INSERT INTO claimtrie (claim_hash, normalized, last_take_over_height) "
f"VALUES (?, ?, {height})",
(sqlite3.Binary(overtake['claim_hash']), overtake['normalized'])
)
self.execute(
f"UPDATE claim SET activation_height = {height} WHERE normalized = ? "
f"AND (activation_height IS NULL OR activation_height > {height})",
(overtake['normalized'],)
)
def _copy(self, height):
if height > 50:
self.execute(f"DROP TABLE claimtrie{height-50}")
self.execute(f"CREATE TABLE claimtrie{height} AS SELECT * FROM claimtrie")
def update_claimtrie(self, height, changed_claim_hashes, deleted_names, timer):
r = timer.run
binary_claim_hashes = [
sqlite3.Binary(claim_hash) for claim_hash in changed_claim_hashes
]
r(self._calculate_activation_height, height)
r(self._update_support_amount, binary_claim_hashes)
r(self._update_effective_amount, height, binary_claim_hashes)
r(self._perform_overtake, height, binary_claim_hashes, list(deleted_names))
r(self._update_effective_amount, height)
r(self._perform_overtake, height, [], [])
def advance_txs(self, height, all_txs, header, daemon_height, timer):
insert_claims = []
update_claims = []
delete_claim_hashes = set()
insert_supports = []
delete_support_txo_hashes = set()
recalculate_claim_hashes = set() # added/deleted supports, added/updated claim
deleted_claim_names = set()
delete_others = set()
body_timer = timer.add_timer('body')
for position, (etx, txid) in enumerate(all_txs):
tx = timer.run(
Transaction, etx.serialize(), height=height, position=position
)
# Inputs
spent_claims, spent_supports, spent_others = timer.run(
self.split_inputs_into_claims_supports_and_other, tx.inputs
)
body_timer.start()
delete_claim_hashes.update({r['claim_hash'] for r in spent_claims})
delete_support_txo_hashes.update({r['txo_hash'] for r in spent_supports})
deleted_claim_names.update({r['normalized'] for r in spent_claims})
recalculate_claim_hashes.update({r['claim_hash'] for r in spent_supports})
delete_others.update(spent_others)
# Outputs
for output in tx.outputs:
if output.is_support:
insert_supports.append(output)
recalculate_claim_hashes.add(output.claim_hash)
elif output.script.is_claim_name:
insert_claims.append(output)
recalculate_claim_hashes.add(output.claim_hash)
elif output.script.is_update_claim:
claim_hash = output.claim_hash
update_claims.append(output)
recalculate_claim_hashes.add(claim_hash)
delete_claim_hashes.discard(claim_hash)
delete_others.discard(output.ref.hash) # claim insertion and update occurring in the same block
body_timer.stop()
skip_claim_timer = timer.add_timer('skip insertion of abandoned claims')
skip_claim_timer.start()
for new_claim in list(insert_claims):
if new_claim.ref.hash in delete_others:
insert_claims.remove(new_claim)
skip_claim_timer.stop()
r = timer.run
r(self.delete_claims, delete_claim_hashes)
r(self.delete_supports, delete_support_txo_hashes)
r(self.insert_claims, insert_claims, header)
r(self.update_claims, update_claims, header)
r(self.validate_channel_signatures, height, insert_claims, update_claims, delete_claim_hashes)
r(self.insert_supports, insert_supports)
r(self.update_claimtrie, height, recalculate_claim_hashes, deleted_claim_names, forward_timer=True)
r(calculate_trending, self.db, height, self.main.first_sync, daemon_height)
def get_claims(self, cols, join=True, **constraints):
if 'order_by' in constraints:
sql_order_by = []
for order_by in constraints['order_by']:
is_asc = order_by.startswith('^')
column = order_by[1:] if is_asc else order_by
if column not in self.ORDER_FIELDS:
raise NameError(f'{column} is not a valid order_by field')
if column == 'name':
column = 'normalized'
sql_order_by.append(
f"claim.{column} ASC" if is_asc else f"claim.{column} DESC"
)
constraints['order_by'] = sql_order_by
ops = {'<=': '__lte', '>=': '__gte', '<': '__lt', '>': '__gt'}
for constraint in self.INTEGER_PARAMS:
if constraint in constraints:
value = constraints.pop(constraint)
postfix = ''
if isinstance(value, str):
if len(value) >= 2 and value[:2] in ops:
postfix, value = ops[value[:2]], int(value[2:])
elif len(value) >= 1 and value[0] in ops:
postfix, value = ops[value[0]], int(value[1:])
constraints[f'claim.{constraint}{postfix}'] = value
if constraints.pop('is_controlling', False):
if {'sequence', 'amount_order'}.isdisjoint(constraints):
join = True
constraints['claimtrie.claim_hash__is_not_null'] = ''
if 'sequence' in constraints:
constraints['order_by'] = 'claim.activation_height ASC'
constraints['offset'] = int(constraints.pop('sequence')) - 1
constraints['limit'] = 1
if 'amount_order' in constraints:
constraints['order_by'] = 'claim.effective_amount DESC'
constraints['offset'] = int(constraints.pop('amount_order')) - 1
constraints['limit'] = 1
if 'claim_id' in constraints:
claim_id = constraints.pop('claim_id')
if len(claim_id) == 40:
constraints['claim.claim_id'] = claim_id
else:
constraints['claim.claim_id__like'] = f'{claim_id[:40]}%'
if 'name' in constraints:
constraints['claim.normalized'] = normalize_name(constraints.pop('name'))
if 'channel' in constraints:
channel_url = constraints.pop('channel')
match = self._resolve_one(channel_url)
if isinstance(match, sqlite3.Row):
constraints['channel_hash'] = match['claim_hash']
else:
raise LookupError(f'Could not resolve channel "{channel_url}".')
if 'channel_hash' in constraints:
constraints['claim.channel_hash'] = sqlite3.Binary(constraints.pop('channel_hash'))
if 'channel_ids' in constraints:
channel_ids = constraints.pop('channel_ids')
if channel_ids:
constraints['claim.channel_hash__in'] = [
sqlite3.Binary(unhexlify(cid)[::-1]) for cid in channel_ids
]
if 'txid' in constraints:
tx_hash = unhexlify(constraints.pop('txid'))[::-1]
nout = constraints.pop('nout', 0)
constraints['claim.txo_hash'] = sqlite3.Binary(
tx_hash + struct.pack('<I', nout)
)
_apply_constraints_for_array_attributes(constraints, 'tag')
_apply_constraints_for_array_attributes(constraints, 'language')
_apply_constraints_for_array_attributes(constraints, 'location')
select = f"SELECT {cols} FROM claim"
sql, values = query(
select if not join else select+"""
LEFT JOIN claimtrie USING (claim_hash)
LEFT JOIN claim as channel ON (claim.channel_hash=channel.claim_hash)
""", **constraints
)
try:
return self.db.execute(sql, values).fetchall()
except:
self.logger.exception(f'Failed to execute claim search query: {sql}')
raise
def get_claims_count(self, **constraints):
constraints.pop('offset', None)
constraints.pop('limit', None)
constraints.pop('order_by', None)
count = self.get_claims('count(*)', join=False, **constraints)
return count[0][0]
def _search(self, **constraints):
return self.get_claims(
"""
claimtrie.claim_hash as is_controlling,
claim.claim_hash, claim.txo_hash,
claim.is_channel, claim.claims_in_channel,
claim.height, claim.creation_height,
claim.activation_height, claim.expiration_height,
claim.effective_amount, claim.support_amount,
claim.trending_group, claim.trending_mixed,
claim.trending_local, claim.trending_global,
claim.short_url, claim.canonical_url,
claim.channel_hash, channel.txo_hash AS channel_txo_hash,
channel.height AS channel_height, claim.is_channel_signature_valid
""", **constraints
)
INTEGER_PARAMS = {
'height', 'creation_height', 'activation_height', 'expiration_height',
'timestamp', 'creation_timestamp', 'release_time',
'tx_position', 'channel_join', 'is_channel_signature_valid',
'amount', 'effective_amount', 'support_amount',
'trending_group', 'trending_mixed',
'trending_local', 'trending_global',
}
SEARCH_PARAMS = {
'name', 'claim_id', 'txid', 'nout', 'channel', 'channel_ids',
'any_tags', 'all_tags', 'not_tags',
'any_locations', 'all_locations', 'not_locations',
'any_languages', 'all_languages', 'not_languages',
'is_controlling', 'limit', 'offset', 'order_by'
} | INTEGER_PARAMS
ORDER_FIELDS = {
'name',
} | INTEGER_PARAMS
def search(self, constraints) -> Tuple[List, List, int, int]:
assert set(constraints).issubset(self.SEARCH_PARAMS), \
f"Search query contains invalid arguments: {set(constraints).difference(self.SEARCH_PARAMS)}"
total = self.get_claims_count(**constraints)
constraints['offset'] = abs(constraints.get('offset', 0))
constraints['limit'] = min(abs(constraints.get('limit', 10)), 50)
if 'order_by' not in constraints:
constraints['order_by'] = ["height", "^name"]
txo_rows = self._search(**constraints)
channel_hashes = set(txo['channel_hash'] for txo in txo_rows if txo['channel_hash'])
extra_txo_rows = []
if channel_hashes:
extra_txo_rows = self._search(**{'claim.claim_hash__in': [sqlite3.Binary(h) for h in channel_hashes]})
return txo_rows, extra_txo_rows, constraints['offset'], total
def _resolve_one(self, raw_url):
try:
url = URL.parse(raw_url)
except ValueError as e:
return e
channel = None
if url.has_channel:
query = url.channel.to_dict()
if set(query) == {'name'}:
query['is_controlling'] = True
else:
query['order_by'] = ['^height']
matches = self._search(**query, limit=1)
if matches:
channel = matches[0]
else:
return LookupError(f'Could not find channel in "{raw_url}".')
if url.has_stream:
query = url.stream.to_dict()
if channel is not None:
if set(query) == {'name'}:
# temporarily emulate is_controlling for claims in channel
query['order_by'] = ['effective_amount']
else:
query['order_by'] = ['^channel_join']
query['channel_hash'] = channel['claim_hash']
query['is_channel_signature_valid'] = 1
elif set(query) == {'name'}:
query['is_controlling'] = 1
matches = self._search(**query, limit=1)
if matches:
return matches[0]
else:
return LookupError(f'Could not find stream in "{raw_url}".')
return channel
def resolve(self, urls) -> Tuple[List, List]:
result = []
channel_hashes = set()
for raw_url in urls:
match = self._resolve_one(raw_url)
result.append(match)
if isinstance(match, sqlite3.Row) and match['channel_hash']:
channel_hashes.add(match['channel_hash'])
extra_txo_rows = []
if channel_hashes:
extra_txo_rows = self._search(**{'claim.claim_hash__in': [sqlite3.Binary(h) for h in channel_hashes]})
return result, extra_txo_rows
class LBRYDB(DB):
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
self.sql = SQLDB(self, 'claims.db')
def close(self):
super().close()
self.sql.close()
async def _open_dbs(self, *args, **kwargs):
await super()._open_dbs(*args, **kwargs)
self.sql.open()