lbry-sdk/lbrynet/extras/daemon/storage.py

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import logging
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import sqlite3
import typing
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import asyncio
import binascii
import time
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from torba.client.basedatabase import SQLiteMixin
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from lbrynet.conf import Config
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from lbrynet.extras.wallet.dewies import dewies_to_lbc, lbc_to_dewies
from lbrynet.schema.claim import ClaimDict
from lbrynet.schema.decode import smart_decode
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from lbrynet.dht.constants import data_expiration
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from lbrynet.blob.blob_info import BlobInfo
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if typing.TYPE_CHECKING:
from lbrynet.blob.blob_file import BlobFile
from lbrynet.stream.descriptor import StreamDescriptor
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log = logging.getLogger(__name__)
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opt_str = typing.Optional[str]
opt_int = typing.Optional[int]
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def calculate_effective_amount(amount: str, supports: typing.Optional[typing.List[typing.Dict]] = None) -> str:
return dewies_to_lbc(
lbc_to_dewies(amount) + sum([lbc_to_dewies(support['amount']) for support in supports])
)
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class StoredStreamClaim:
def __init__(self, stream_hash: str, outpoint: opt_str = None, claim_id: opt_str = None, name: opt_str = None,
amount: opt_int = None, height: opt_int = None, serialized: opt_str = None,
channel_claim_id: opt_str = None, address: opt_str = None, claim_sequence: opt_int = None,
channel_name: opt_str = None):
self.stream_hash = stream_hash
self.claim_id = claim_id
self.outpoint = outpoint
self.claim_name = name
self.amount = amount
self.height = height
self.claim: typing.Optional[ClaimDict] = None if not serialized else smart_decode(serialized)
self.claim_address = address
self.claim_sequence = claim_sequence
self.channel_claim_id = channel_claim_id
self.channel_name = channel_name
@property
def txid(self) -> typing.Optional[str]:
return None if not self.outpoint else self.outpoint.split(":")[0]
@property
def nout(self) -> typing.Optional[int]:
return None if not self.outpoint else int(self.outpoint.split(":")[1])
@property
def metadata(self) -> typing.Optional[typing.Dict]:
return None if not self.claim else self.claim.claim_dict['stream']['metadata']
def as_dict(self) -> typing.Dict:
return {
"name": self.claim_name,
"claim_id": self.claim_id,
"address": self.claim_address,
"claim_sequence": self.claim_sequence,
"value": self.claim,
"height": self.height,
"amount": dewies_to_lbc(self.amount),
"nout": self.nout,
"txid": self.txid,
"channel_claim_id": self.channel_claim_id,
"channel_name": self.channel_name
}
def get_claims_from_stream_hashes(transaction: sqlite3.Connection,
stream_hashes: typing.List[str]) -> typing.Dict[str, StoredStreamClaim]:
query = (
"select content_claim.stream_hash, c.*, case when c.channel_claim_id is not null then "
" (select claim_name from claim where claim_id==c.channel_claim_id) "
" else null end as channel_name "
" from content_claim "
" inner join claim c on c.claim_outpoint=content_claim.claim_outpoint and content_claim.stream_hash in {}"
" order by c.rowid desc"
)
return {
claim_info.stream_hash: claim_info
for claim_info in [
None if not claim_info else StoredStreamClaim(*claim_info)
for claim_info in _batched_select(transaction, query, stream_hashes)
]
}
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def get_content_claim_from_outpoint(transaction: sqlite3.Connection,
outpoint: str) -> typing.Optional[StoredStreamClaim]:
query = (
"select content_claim.stream_hash, c.*, case when c.channel_claim_id is not null then "
" (select claim_name from claim where claim_id==c.channel_claim_id) "
" else null end as channel_name "
" from content_claim "
" inner join claim c on c.claim_outpoint=content_claim.claim_outpoint and content_claim.claim_outpoint=?"
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)
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claim_fields = transaction.execute(query, (outpoint, )).fetchone()
if claim_fields:
return StoredStreamClaim(*claim_fields)
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def _batched_select(transaction, query, parameters):
for start_index in range(0, len(parameters), 900):
current_batch = parameters[start_index:start_index+900]
bind = "({})".format(','.join(['?'] * len(current_batch)))
for result in transaction.execute(query.format(bind), current_batch):
yield result
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class SQLiteStorage(SQLiteMixin):
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CREATE_TABLES_QUERY = """
pragma foreign_keys=on;
pragma journal_mode=WAL;
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create table if not exists blob (
blob_hash char(96) primary key not null,
blob_length integer not null,
next_announce_time integer not null,
should_announce integer not null default 0,
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status text not null,
last_announced_time integer,
single_announce integer
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);
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create table if not exists stream (
stream_hash char(96) not null primary key,
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sd_hash char(96) not null references blob,
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stream_key text not null,
stream_name text not null,
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suggested_filename text not null
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);
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create table if not exists stream_blob (
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stream_hash char(96) not null references stream,
blob_hash char(96) references blob,
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position integer not null,
iv char(32) not null,
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primary key (stream_hash, blob_hash)
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);
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create table if not exists claim (
claim_outpoint text not null primary key,
claim_id char(40) not null,
claim_name text not null,
amount integer not null,
height integer not null,
serialized_metadata blob not null,
channel_claim_id text,
address text not null,
claim_sequence integer not null
);
create table if not exists file (
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stream_hash text primary key not null references stream,
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file_name text not null,
download_directory text not null,
blob_data_rate real not null,
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status text not null
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);
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create table if not exists content_claim (
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stream_hash text unique not null references file,
claim_outpoint text not null references claim,
primary key (stream_hash, claim_outpoint)
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);
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create table if not exists support (
support_outpoint text not null primary key,
claim_id text not null,
amount integer not null,
address text not null
);
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create table if not exists reflected_stream (
sd_hash text not null,
reflector_address text not null,
timestamp integer,
primary key (sd_hash, reflector_address)
);
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"""
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def __init__(self, conf: Config, path, loop=None, time_getter: typing.Optional[typing.Callable[[], float]] = None):
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super().__init__(path)
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self.conf = conf
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self.content_claim_callbacks = {}
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self.loop = loop or asyncio.get_event_loop()
self.time_getter = time_getter or time.time
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async def run_and_return_one_or_none(self, query, *args):
for row in await self.db.execute_fetchall(query, args):
if len(row) == 1:
return row[0]
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return row
async def run_and_return_list(self, query, *args):
rows = list(await self.db.execute_fetchall(query, args))
return [col[0] for col in rows] if rows else []
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# # # # # # # # # blob functions # # # # # # # # #
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def add_completed_blob(self, blob_hash: str):
log.debug("Adding a completed blob. blob_hash=%s", blob_hash)
return self.db.execute("update blob set status='finished' where blob.blob_hash=?", (blob_hash, ))
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def set_should_announce(self, blob_hash: str, should_announce: int):
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return self.db.execute(
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"update blob set next_announce_time=?, should_announce=? where blob_hash=?",
(int(self.time_getter()), should_announce, blob_hash)
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)
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def get_blob_status(self, blob_hash: str):
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return self.run_and_return_one_or_none(
"select status from blob where blob_hash=?", blob_hash
)
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def add_known_blob(self, blob_hash: str, length: int):
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return self.db.execute(
"insert or ignore into blob values (?, ?, ?, ?, ?, ?, ?)", (blob_hash, length, 0, 0, "pending", 0, 0)
)
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def should_announce(self, blob_hash: str):
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return self.run_and_return_one_or_none(
"select should_announce from blob where blob_hash=?", blob_hash
)
def count_should_announce_blobs(self):
return self.run_and_return_one_or_none(
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"select count(*) from blob where should_announce=1 and status='finished'"
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)
def get_all_should_announce_blobs(self):
return self.run_and_return_list(
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"select blob_hash from blob where should_announce=1 and status='finished'"
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)
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def get_all_finished_blobs(self):
return self.run_and_return_list(
"select blob_hash from blob where status='finished'"
)
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def count_finished_blobs(self):
return self.run_and_return_one_or_none(
"select count(*) from blob where status='finished'"
)
def update_last_announced_blobs(self, blob_hashes: typing.List[str]):
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def _update_last_announced_blobs(transaction: sqlite3.Connection):
last_announced = self.time_getter()
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return transaction.executemany(
"update blob set next_announce_time=?, last_announced_time=?, single_announce=0 "
"where blob_hash=?",
[(int(last_announced + (data_expiration / 2)), int(last_announced), blob_hash)
for blob_hash in blob_hashes]
)
return self.db.run(_update_last_announced_blobs)
def should_single_announce_blobs(self, blob_hashes, immediate=False):
def set_single_announce(transaction):
now = int(self.time_getter())
for blob_hash in blob_hashes:
if immediate:
transaction.execute(
"update blob set single_announce=1, next_announce_time=? "
"where blob_hash=? and status='finished'", (int(now), blob_hash)
)
else:
transaction.execute(
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"update blob set single_announce=1 where blob_hash=? and status='finished'", (blob_hash,)
)
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return self.db.run(set_single_announce)
def get_blobs_to_announce(self):
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def get_and_update(transaction):
timestamp = int(self.time_getter())
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if self.conf.announce_head_and_sd_only:
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r = transaction.execute(
"select blob_hash from blob "
"where blob_hash is not null and "
"(should_announce=1 or single_announce=1) and next_announce_time<? and status='finished'",
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(timestamp,)
)
else:
r = transaction.execute(
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"select blob_hash from blob where blob_hash is not null "
"and next_announce_time<? and status='finished'", (timestamp,)
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)
blobs = [b[0] for b in r.fetchall()]
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return blobs
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return self.db.run(get_and_update)
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def delete_blobs_from_db(self, blob_hashes):
def delete_blobs(transaction):
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transaction.executemany(
"delete from blob where blob_hash=?;", [(blob_hash,) for blob_hash in blob_hashes]
)
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return self.db.run(delete_blobs)
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def get_all_blob_hashes(self):
return self.run_and_return_list("select blob_hash from blob")
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# # # # # # # # # stream functions # # # # # # # # #
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async def stream_exists(self, sd_hash: str) -> bool:
streams = await self.run_and_return_one_or_none("select stream_hash from stream where sd_hash=?", sd_hash)
return streams is not None
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async def file_exists(self, sd_hash: str) -> bool:
streams = await self.run_and_return_one_or_none("select f.stream_hash from file f "
"inner join stream s on "
"s.stream_hash=f.stream_hash and s.sd_hash=?", sd_hash)
return streams is not None
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def store_stream(self, sd_blob: 'BlobFile', descriptor: 'StreamDescriptor'):
def _store_stream(transaction: sqlite3.Connection):
# add the head blob and set it to be announced
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transaction.execute(
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"insert or ignore into blob values (?, ?, ?, ?, ?, ?, ?), (?, ?, ?, ?, ?, ?, ?)",
(
sd_blob.blob_hash, sd_blob.length, 0, 1, "pending", 0, 0,
descriptor.blobs[0].blob_hash, descriptor.blobs[0].length, 0, 1, "pending", 0, 0
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)
)
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# add the rest of the blobs with announcement off
if len(descriptor.blobs) > 2:
transaction.executemany(
"insert or ignore into blob values (?, ?, ?, ?, ?, ?, ?)",
[(blob.blob_hash, blob.length, 0, 0, "pending", 0, 0)
for blob in descriptor.blobs[1:-1]]
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)
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# associate the blobs to the stream
transaction.execute("insert or ignore into stream values (?, ?, ?, ?, ?)",
(descriptor.stream_hash, sd_blob.blob_hash, descriptor.key,
binascii.hexlify(descriptor.stream_name.encode()).decode(),
binascii.hexlify(descriptor.suggested_file_name.encode()).decode()))
# add the stream
transaction.executemany(
"insert or ignore into stream_blob values (?, ?, ?, ?)",
[(descriptor.stream_hash, blob.blob_hash, blob.blob_num, blob.iv)
for blob in descriptor.blobs]
)
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return self.db.run(_store_stream)
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def get_blobs_for_stream(self, stream_hash, only_completed=False):
def _get_blobs_for_stream(transaction):
crypt_blob_infos = []
stream_blobs = transaction.execute(
"select blob_hash, position, iv from stream_blob where stream_hash=?", (stream_hash, )
).fetchall()
if only_completed:
lengths = transaction.execute(
"select b.blob_hash, b.blob_length from blob b "
"inner join stream_blob s ON b.blob_hash=s.blob_hash and b.status='finished' and s.stream_hash=?",
(stream_hash, )
).fetchall()
else:
lengths = transaction.execute(
"select b.blob_hash, b.blob_length from blob b "
"inner join stream_blob s ON b.blob_hash=s.blob_hash and s.stream_hash=?",
(stream_hash, )
).fetchall()
blob_length_dict = {}
for blob_hash, length in lengths:
blob_length_dict[blob_hash] = length
for blob_hash, position, iv in stream_blobs:
blob_length = blob_length_dict.get(blob_hash, 0)
crypt_blob_infos.append(BlobInfo(position, blob_length, iv, blob_hash))
crypt_blob_infos = sorted(crypt_blob_infos, key=lambda info: info.blob_num)
return crypt_blob_infos
return self.db.run(_get_blobs_for_stream)
def get_sd_blob_hash_for_stream(self, stream_hash):
return self.run_and_return_one_or_none(
"select sd_hash from stream where stream_hash=?", stream_hash
)
def get_stream_hash_for_sd_hash(self, sd_blob_hash):
return self.run_and_return_one_or_none(
"select stream_hash from stream where sd_hash = ?", sd_blob_hash
)
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def delete_stream(self, descriptor: 'StreamDescriptor'):
def _delete_stream(transaction: sqlite3.Connection):
transaction.execute("delete from content_claim where stream_hash=? ", (descriptor.stream_hash,))
transaction.execute("delete from file where stream_hash=? ", (descriptor.stream_hash, ))
transaction.execute("delete from stream_blob where stream_hash=?", (descriptor.stream_hash, ))
transaction.execute("delete from stream where stream_hash=? ", (descriptor.stream_hash, ))
transaction.execute("delete from blob where blob_hash=?", (descriptor.sd_hash, ))
transaction.executemany("delete from blob where blob_hash=?",
[(blob.blob_hash, ) for blob in descriptor.blobs[:-1]])
return self.db.run(_delete_stream)
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# # # # # # # # # file stuff # # # # # # # # #
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def save_downloaded_file(self, stream_hash, file_name, download_directory, data_payment_rate):
return self.save_published_file(
stream_hash, file_name, download_directory, data_payment_rate, status="running"
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)
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def save_published_file(self, stream_hash: str, file_name: str, download_directory: str, data_payment_rate: float,
status="finished"):
return self.db.execute(
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"insert into file values (?, ?, ?, ?, ?)",
(stream_hash, binascii.hexlify(file_name.encode()).decode(),
binascii.hexlify(download_directory.encode()).decode(), data_payment_rate, status)
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)
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async def get_all_lbry_files(self) -> typing.List[typing.Dict]:
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def _lbry_file_dict(rowid, stream_hash, file_name, download_dir, data_rate, status, _, sd_hash, stream_key,
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stream_name, suggested_file_name) -> typing.Dict:
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return {
"row_id": rowid,
"stream_hash": stream_hash,
"file_name": file_name,
"download_directory": download_dir,
"blob_data_rate": data_rate,
"status": status,
"sd_hash": sd_hash,
"key": stream_key,
"stream_name": stream_name,
"suggested_file_name": suggested_file_name
}
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def _get_all_files(transaction: sqlite3.Connection) -> typing.List[typing.Dict]:
file_infos = list(map(lambda a: _lbry_file_dict(*a), transaction.execute(
"select file.rowid, file.*, stream.* "
"from file inner join stream on file.stream_hash=stream.stream_hash"
).fetchall()))
stream_hashes = [file_info['stream_hash'] for file_info in file_infos]
claim_infos = get_claims_from_stream_hashes(transaction, stream_hashes)
for index in range(len(file_infos)): # pylint: disable=consider-using-enumerate
file_infos[index]['claim'] = claim_infos.get(file_infos[index]['stream_hash'])
return file_infos
results = await self.db.run(_get_all_files)
if results:
return results
return []
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def change_file_status(self, stream_hash: str, new_status: str):
log.info("update file status %s -> %s", stream_hash, new_status)
return self.db.execute("update file set status=? where stream_hash=?", (new_status, stream_hash))
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def change_file_download_dir_and_file_name(self, stream_hash: str, download_dir: str, file_name: str):
return self.db.execute("update file set download_directory=?, file_name=? where stream_hash=?", (
binascii.hexlify(download_dir.encode()).decode(), binascii.hexlify(file_name.encode()).decode(),
stream_hash
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))
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def get_all_stream_hashes(self):
return self.run_and_return_list("select stream_hash from stream")
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# # # # # # # # # support functions # # # # # # # # #
def save_supports(self, claim_id, supports):
# TODO: add 'address' to support items returned for a claim from lbrycrdd and lbryum-server
def _save_support(transaction):
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transaction.execute("delete from support where claim_id=?", (claim_id,))
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for support in supports:
transaction.execute(
"insert into support values (?, ?, ?, ?)",
("%s:%i" % (support['txid'], support['nout']), claim_id, lbc_to_dewies(support['amount']),
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support.get('address', ""))
)
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return self.db.run(_save_support)
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def get_supports(self, *claim_ids):
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def _format_support(outpoint, supported_id, amount, address):
return {
"txid": outpoint.split(":")[0],
"nout": int(outpoint.split(":")[1]),
"claim_id": supported_id,
"amount": dewies_to_lbc(amount),
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"address": address,
}
def _get_supports(transaction):
return [
_format_support(*support_info)
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for support_info in _batched_select(
transaction,
"select * from support where claim_id in {}",
tuple(claim_ids)
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)
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]
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return self.db.run(_get_supports)
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# # # # # # # # # claim functions # # # # # # # # #
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async def save_claims(self, claim_infos):
support_callbacks = []
update_file_callbacks = []
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def _save_claims(transaction):
content_claims_to_update = []
for claim_info in claim_infos:
outpoint = "%s:%i" % (claim_info['txid'], claim_info['nout'])
claim_id = claim_info['claim_id']
name = claim_info['name']
amount = lbc_to_dewies(claim_info['amount'])
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height = claim_info['height']
address = claim_info['address']
sequence = claim_info['claim_sequence']
try:
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certificate_id = claim_info['value'].get('publisherSignature', {}).get('certificateId')
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except AttributeError:
certificate_id = None
try:
if claim_info['value'].get('stream', {}).get('source', {}).get('sourceType') == "lbry_sd_hash":
source_hash = claim_info['value'].get('stream', {}).get('source', {}).get('source')
else:
source_hash = None
except AttributeError:
source_hash = None
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serialized = claim_info.get('hex') or binascii.hexlify(
smart_decode(claim_info['value']).serialized).decode()
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transaction.execute(
"insert or replace into claim values (?, ?, ?, ?, ?, ?, ?, ?, ?)",
(outpoint, claim_id, name, amount, height, serialized, certificate_id, address, sequence)
)
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# if this response doesn't have support info don't overwrite the existing
# support info
if 'supports' in claim_info:
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support_callbacks.append((claim_id, claim_info['supports']))
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if not source_hash:
continue
stream_hash = transaction.execute(
"select file.stream_hash from stream "
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"inner join file on file.stream_hash=stream.stream_hash where sd_hash=?", (source_hash,)
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).fetchone()
if not stream_hash:
continue
stream_hash = stream_hash[0]
known_outpoint = transaction.execute(
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"select claim_outpoint from content_claim where stream_hash=?", (stream_hash,)
)
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known_claim_id = transaction.execute(
"select claim_id from claim "
"inner join content_claim c3 ON claim.claim_outpoint=c3.claim_outpoint "
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"where c3.stream_hash=?", (stream_hash,)
)
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if not known_claim_id:
content_claims_to_update.append((stream_hash, outpoint))
elif known_outpoint != outpoint:
content_claims_to_update.append((stream_hash, outpoint))
for stream_hash, outpoint in content_claims_to_update:
self._save_content_claim(transaction, outpoint, stream_hash)
if stream_hash in self.content_claim_callbacks:
update_file_callbacks.append(self.content_claim_callbacks[stream_hash]())
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await self.db.run(_save_claims)
if update_file_callbacks:
await asyncio.wait(update_file_callbacks)
if support_callbacks:
await asyncio.wait([
self.save_supports(*args) for args in support_callbacks
])
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def save_claims_for_resolve(self, claim_infos):
to_save = []
for info in claim_infos:
if 'value' in info:
if info['value']:
to_save.append(info)
else:
if 'certificate' in info and info['certificate']['value']:
to_save.append(info['certificate'])
if 'claim' in info and info['claim']['value']:
to_save.append(info['claim'])
return self.save_claims(to_save)
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@staticmethod
def _save_content_claim(transaction, claim_outpoint, stream_hash):
# get the claim id and serialized metadata
claim_info = transaction.execute(
"select claim_id, serialized_metadata from claim where claim_outpoint=?", (claim_outpoint,)
).fetchone()
if not claim_info:
raise Exception("claim not found")
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new_claim_id, claim = claim_info[0], ClaimDict.deserialize(binascii.unhexlify(claim_info[1]))
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# certificate claims should not be in the content_claim table
if not claim.is_stream:
raise Exception("claim does not contain a stream")
# get the known sd hash for this stream
known_sd_hash = transaction.execute(
"select sd_hash from stream where stream_hash=?", (stream_hash,)
).fetchone()
if not known_sd_hash:
raise Exception("stream not found")
# check the claim contains the same sd hash
if known_sd_hash[0].encode() != claim.source_hash:
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raise Exception("stream mismatch")
# if there is a current claim associated to the file, check that the new claim is an update to it
current_associated_content = transaction.execute(
"select claim_outpoint from content_claim where stream_hash=?", (stream_hash,)
).fetchone()
if current_associated_content:
current_associated_claim_id = transaction.execute(
"select claim_id from claim where claim_outpoint=?", current_associated_content
).fetchone()[0]
if current_associated_claim_id != new_claim_id:
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raise Exception(
f"mismatching claim ids when updating stream {current_associated_claim_id} vs {new_claim_id}"
)
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# update the claim associated to the file
transaction.execute("insert or replace into content_claim values (?, ?)", (stream_hash, claim_outpoint))
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async def save_content_claim(self, stream_hash, claim_outpoint):
await self.db.run(self._save_content_claim, claim_outpoint, stream_hash)
# update corresponding ManagedEncryptedFileDownloader object
if stream_hash in self.content_claim_callbacks:
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await self.content_claim_callbacks[stream_hash]()
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async def get_content_claim(self, stream_hash: str, include_supports: typing.Optional[bool] = True) -> typing.Dict:
claims = await self.db.run(get_claims_from_stream_hashes, [stream_hash])
claim = None
if claims:
claim = claims[stream_hash].as_dict()
if include_supports:
supports = await self.get_supports(claim['claim_id'])
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claim['supports'] = supports
claim['effective_amount'] = calculate_effective_amount(claim['amount'], supports)
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return claim
async def get_claims_from_stream_hashes(self, stream_hashes: typing.List[str],
include_supports: typing.Optional[bool] = True):
claims = await self.db.run(get_claims_from_stream_hashes, stream_hashes)
return {stream_hash: claim_info.as_dict() for stream_hash, claim_info in claims.items()}
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async def get_claim(self, claim_outpoint, include_supports=True):
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claim_info = await self.db.run(get_content_claim_from_outpoint, claim_outpoint)
if not claim_info:
return
result = claim_info.as_dict()
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if include_supports:
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supports = await self.get_supports(result['claim_id'])
result['supports'] = supports
result['effective_amount'] = calculate_effective_amount(result['amount'], supports)
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return result
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def get_unknown_certificate_ids(self):
def _get_unknown_certificate_claim_ids(transaction):
return [
claim_id for (claim_id,) in transaction.execute(
"select distinct c1.channel_claim_id from claim as c1 "
"where c1.channel_claim_id!='' "
"and c1.channel_claim_id not in "
"(select c2.claim_id from claim as c2)"
).fetchall()
]
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return self.db.run(_get_unknown_certificate_claim_ids)
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async def get_pending_claim_outpoints(self):
claim_outpoints = await self.run_and_return_list("select claim_outpoint from claim where height=-1")
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results = {} # {txid: [nout, ...]}
for outpoint_str in claim_outpoints:
txid, nout = outpoint_str.split(":")
outputs = results.get(txid, [])
outputs.append(int(nout))
results[txid] = outputs
if results:
log.debug("missing transaction heights for %i claims", len(results))
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return results
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def save_claim_tx_heights(self, claim_tx_heights):
def _save_claim_heights(transaction):
for outpoint, height in claim_tx_heights.items():
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transaction.execute(
"update claim set height=? where claim_outpoint=? and height=-1",
(height, outpoint)
)
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return self.db.run(_save_claim_heights)
# # # # # # # # # reflector functions # # # # # # # # #
def update_reflected_stream(self, sd_hash, reflector_address, success=True):
if success:
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return self.db.execute(
"insert or replace into reflected_stream values (?, ?, ?)",
(sd_hash, reflector_address, time.time())
)
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return self.db.execute(
"delete from reflected_stream where sd_hash=? and reflector_address=?",
(sd_hash, reflector_address)
)
def get_streams_to_re_reflect(self):
return self.run_and_return_list(
"select s.sd_hash from stream s "
"left outer join reflected_stream r on s.sd_hash=r.sd_hash "
"where r.timestamp is null or r.timestamp < ?",
int(self.time_getter()) - 86400
)