lbry-sdk/lbry/extras/daemon/storage.py
2020-05-07 04:04:54 -03:00

866 lines
40 KiB
Python

import os
import logging
import sqlite3
import typing
import asyncio
import binascii
import time
from typing import Optional
from lbry.wallet import SQLiteMixin
from lbry.conf import Config
from lbry.wallet.dewies import dewies_to_lbc, lbc_to_dewies
from lbry.wallet.transaction import Transaction, Output
from lbry.schema.claim import Claim
from lbry.dht.constants import DATA_EXPIRATION
from lbry.blob.blob_info import BlobInfo
if typing.TYPE_CHECKING:
from lbry.blob.blob_file import BlobFile
from lbry.stream.descriptor import StreamDescriptor
log = logging.getLogger(__name__)
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])
)
class StoredContentClaim:
def __init__(self, outpoint: Optional[str] = None, claim_id: Optional[str] = None, name: Optional[str] = None,
amount: Optional[int] = None, height: Optional[int] = None, serialized: Optional[str] = None,
channel_claim_id: Optional[str] = None, address: Optional[str] = None,
claim_sequence: Optional[int] = None, channel_name: Optional[str] = None):
self.claim_id = claim_id
self.outpoint = outpoint
self.claim_name = name
self.amount = amount
self.height = height
self.claim: typing.Optional[Claim] = None if not serialized else Claim.from_bytes(
binascii.unhexlify(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])
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_content_claims(transaction: sqlite3.Connection, query: str,
source_hashes: typing.List[str]) -> typing.Dict[str, StoredContentClaim]:
claims = {}
for claim_info in _batched_select(transaction, query, source_hashes):
claims[claim_info[0]] = StoredContentClaim(*claim_info[1:])
return claims
def get_claims_from_stream_hashes(transaction: sqlite3.Connection,
stream_hashes: typing.List[str]) -> typing.Dict[str, StoredContentClaim]:
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 _get_content_claims(transaction, query, stream_hashes)
def get_claims_from_torrent_info_hashes(transaction: sqlite3.Connection,
info_hashes: typing.List[str]) -> typing.Dict[str, StoredContentClaim]:
query = (
"select content_claim.bt_infohash, 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.bt_infohash in {}"
" order by c.rowid desc"
)
return _get_content_claims(transaction, query, info_hashes)
def _batched_select(transaction, query, parameters, batch_size=900):
for start_index in range(0, len(parameters), batch_size):
current_batch = parameters[start_index:start_index+batch_size]
bind = "({})".format(','.join(['?'] * len(current_batch)))
yield from transaction.execute(query.format(bind), current_batch)
def _get_lbry_file_stream_dict(rowid, added_on, stream_hash, file_name, download_dir, data_rate, status,
sd_hash, stream_key, stream_name, suggested_file_name, claim, saved_file,
raw_content_fee, fully_reflected):
return {
"rowid": rowid,
"added_on": added_on,
"stream_hash": stream_hash,
"file_name": file_name, # hex
"download_directory": download_dir, # hex
"blob_data_rate": data_rate,
"status": status,
"sd_hash": sd_hash,
"key": stream_key,
"stream_name": stream_name, # hex
"suggested_file_name": suggested_file_name, # hex
"claim": claim,
"saved_file": bool(saved_file),
"content_fee": None if not raw_content_fee else Transaction(
binascii.unhexlify(raw_content_fee)
),
"fully_reflected": fully_reflected
}
def get_all_lbry_files(transaction: sqlite3.Connection) -> typing.List[typing.Dict]:
files = []
signed_claims = {}
for (rowid, stream_hash, _, file_name, download_dir, data_rate, status, saved_file, raw_content_fee,
added_on, _, sd_hash, stream_key, stream_name, suggested_file_name, *claim_args) in transaction.execute(
"select file.rowid, file.*, stream.*, c.*, "
" case when (SELECT 1 FROM reflected_stream r WHERE r.sd_hash=stream.sd_hash) "
" is null then 0 else 1 end as fully_reflected "
"from file inner join stream on file.stream_hash=stream.stream_hash "
"inner join content_claim cc on file.stream_hash=cc.stream_hash "
"inner join claim c on cc.claim_outpoint=c.claim_outpoint "
"order by c.rowid desc").fetchall():
claim_args, fully_reflected = tuple(claim_args[:-1]), claim_args[-1]
claim = StoredContentClaim(*claim_args)
if claim.channel_claim_id:
if claim.channel_claim_id not in signed_claims:
signed_claims[claim.channel_claim_id] = []
signed_claims[claim.channel_claim_id].append(claim)
files.append(
_get_lbry_file_stream_dict(
rowid, added_on, stream_hash, file_name, download_dir, data_rate, status,
sd_hash, stream_key, stream_name, suggested_file_name, claim, saved_file,
raw_content_fee, fully_reflected
)
)
for claim_name, claim_id in _batched_select(
transaction, "select c.claim_name, c.claim_id from claim c where c.claim_id in {}",
tuple(signed_claims.keys())):
for claim in signed_claims[claim_id]:
claim.channel_name = claim_name
return files
def store_stream(transaction: sqlite3.Connection, sd_blob: 'BlobFile', descriptor: 'StreamDescriptor'):
# add all blobs, except the last one, which is empty
transaction.executemany(
"insert or ignore into blob values (?, ?, ?, ?, ?, ?, ?)",
((blob.blob_hash, blob.length, 0, 0, "pending", 0, 0)
for blob in (descriptor.blobs[:-1] if len(descriptor.blobs) > 1 else descriptor.blobs) + [sd_blob])
).fetchall()
# 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())).fetchall()
# 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)
).fetchall()
# ensure should_announce is set regardless if insert was ignored
transaction.execute(
"update blob set should_announce=1 where blob_hash in (?, ?)",
(sd_blob.blob_hash, descriptor.blobs[0].blob_hash,)
).fetchall()
def delete_stream(transaction: sqlite3.Connection, descriptor: 'StreamDescriptor'):
blob_hashes = [(blob.blob_hash, ) for blob in descriptor.blobs[:-1]]
blob_hashes.append((descriptor.sd_hash, ))
transaction.execute("delete from content_claim where stream_hash=? ", (descriptor.stream_hash,)).fetchall()
transaction.execute("delete from file where stream_hash=? ", (descriptor.stream_hash,)).fetchall()
transaction.execute("delete from stream_blob where stream_hash=?", (descriptor.stream_hash,)).fetchall()
transaction.execute("delete from stream where stream_hash=? ", (descriptor.stream_hash,)).fetchall()
transaction.executemany("delete from blob where blob_hash=?", blob_hashes).fetchall()
def delete_torrent(transaction: sqlite3.Connection, bt_infohash: str):
transaction.execute("delete from content_claim where bt_infohash=?", (bt_infohash, )).fetchall()
transaction.execute("delete from torrent_tracker where bt_infohash=?", (bt_infohash,)).fetchall()
transaction.execute("delete from torrent_node where bt_infohash=?", (bt_infohash,)).fetchall()
transaction.execute("delete from torrent_http_seed where bt_infohash=?", (bt_infohash,)).fetchall()
transaction.execute("delete from file where bt_infohash=?", (bt_infohash,)).fetchall()
transaction.execute("delete from torrent where bt_infohash=?", (bt_infohash,)).fetchall()
def store_file(transaction: sqlite3.Connection, stream_hash: str, file_name: typing.Optional[str],
download_directory: typing.Optional[str], data_payment_rate: float, status: str,
content_fee: typing.Optional[Transaction], added_on: typing.Optional[int] = None) -> int:
if not file_name and not download_directory:
encoded_file_name, encoded_download_dir = None, None
else:
encoded_file_name = binascii.hexlify(file_name.encode()).decode()
encoded_download_dir = binascii.hexlify(download_directory.encode()).decode()
time_added = added_on or int(time.time())
transaction.execute(
"insert or replace into file values (?, NULL, ?, ?, ?, ?, ?, ?, ?)",
(stream_hash, encoded_file_name, encoded_download_dir, data_payment_rate, status,
1 if (file_name and download_directory and os.path.isfile(os.path.join(download_directory, file_name))) else 0,
None if not content_fee else binascii.hexlify(content_fee.raw).decode(), time_added)
).fetchall()
return transaction.execute("select rowid from file where stream_hash=?", (stream_hash, )).fetchone()[0]
class SQLiteStorage(SQLiteMixin):
CREATE_TABLES_QUERY = """
pragma foreign_keys=on;
pragma journal_mode=WAL;
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,
status text not null,
last_announced_time integer,
single_announce integer
);
create table if not exists stream (
stream_hash char(96) not null primary key,
sd_hash char(96) not null references blob,
stream_key text not null,
stream_name text not null,
suggested_filename text not null
);
create table if not exists stream_blob (
stream_hash char(96) not null references stream,
blob_hash char(96) references blob,
position integer not null,
iv char(32) not null,
primary key (stream_hash, blob_hash)
);
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 torrent (
bt_infohash char(20) not null primary key,
tracker text,
length integer not null,
name text not null
);
create table if not exists torrent_node ( -- BEP-0005
bt_infohash char(20) not null references torrent,
host text not null,
port integer not null
);
create table if not exists torrent_tracker ( -- BEP-0012
bt_infohash char(20) not null references torrent,
tracker text not null
);
create table if not exists torrent_http_seed ( -- BEP-0017
bt_infohash char(20) not null references torrent,
http_seed text not null
);
create table if not exists file (
stream_hash char(96) references stream,
bt_infohash char(20) references torrent,
file_name text,
download_directory text,
blob_data_rate real not null,
status text not null,
saved_file integer not null,
content_fee text,
added_on integer not null
);
create table if not exists content_claim (
stream_hash char(96) references stream,
bt_infohash char(20) references torrent,
claim_outpoint text unique not null references claim
);
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
);
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)
);
create table if not exists peer (
node_id char(96) not null primary key,
address text not null,
udp_port integer not null,
tcp_port integer,
unique (address, udp_port)
);
"""
def __init__(self, conf: Config, path, loop=None, time_getter: typing.Optional[typing.Callable[[], float]] = None):
super().__init__(path)
self.conf = conf
self.content_claim_callbacks = {}
self.loop = loop or asyncio.get_event_loop()
self.time_getter = time_getter or time.time
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]
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 []
# # # # # # # # # blob functions # # # # # # # # #
async def add_blobs(self, *blob_hashes_and_lengths: typing.Tuple[str, int], finished=False):
def _add_blobs(transaction: sqlite3.Connection):
transaction.executemany(
"insert or ignore into blob values (?, ?, ?, ?, ?, ?, ?)",
(
(blob_hash, length, 0, 0, "pending" if not finished else "finished", 0, 0)
for blob_hash, length in blob_hashes_and_lengths
)
).fetchall()
if finished:
transaction.executemany(
"update blob set status='finished' where blob.blob_hash=?", (
(blob_hash, ) for blob_hash, _ in blob_hashes_and_lengths
)
).fetchall()
return await self.db.run(_add_blobs)
def get_blob_status(self, blob_hash: str):
return self.run_and_return_one_or_none(
"select status from blob where blob_hash=?", blob_hash
)
def update_last_announced_blobs(self, blob_hashes: typing.List[str]):
def _update_last_announced_blobs(transaction: sqlite3.Connection):
last_announced = self.time_getter()
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)
).fetchall()
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)
).fetchall()
else:
transaction.execute(
"update blob set single_announce=1 where blob_hash=? and status='finished'", (blob_hash,)
).fetchall()
return self.db.run(set_single_announce)
def get_blobs_to_announce(self):
def get_and_update(transaction):
timestamp = int(self.time_getter())
if self.conf.announce_head_and_sd_only:
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' "
"order by next_announce_time asc limit ?",
(timestamp, int(self.conf.concurrent_blob_announcers * 10))
).fetchall()
else:
r = transaction.execute(
"select blob_hash from blob where blob_hash is not null "
"and next_announce_time<? and status='finished' "
"order by next_announce_time asc limit ?",
(timestamp, int(self.conf.concurrent_blob_announcers * 10))
).fetchall()
return [b[0] for b in r]
return self.db.run(get_and_update)
def delete_blobs_from_db(self, blob_hashes):
def delete_blobs(transaction):
transaction.executemany(
"delete from blob where blob_hash=?;", ((blob_hash,) for blob_hash in blob_hashes)
).fetchall()
return self.db.run_with_foreign_keys_disabled(delete_blobs)
def get_all_blob_hashes(self):
return self.run_and_return_list("select blob_hash from blob")
def sync_missing_blobs(self, blob_files: typing.Set[str]) -> typing.Awaitable[typing.Set[str]]:
def _sync_blobs(transaction: sqlite3.Connection) -> typing.Set[str]:
finished_blob_hashes = tuple(
blob_hash for (blob_hash, ) in transaction.execute(
"select blob_hash from blob where status='finished'"
).fetchall()
)
finished_blobs_set = set(finished_blob_hashes)
to_update_set = finished_blobs_set.difference(blob_files)
transaction.executemany(
"update blob set status='pending' where blob_hash=?",
((blob_hash, ) for blob_hash in to_update_set)
).fetchall()
return blob_files.intersection(finished_blobs_set)
return self.db.run(_sync_blobs)
# # # # # # # # # stream functions # # # # # # # # #
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
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
def store_stream(self, sd_blob: 'BlobFile', descriptor: 'StreamDescriptor'):
return self.db.run(store_stream, sd_blob, descriptor)
def get_blobs_for_stream(self, stream_hash, only_completed=False) -> typing.Awaitable[typing.List[BlobInfo]]:
def _get_blobs_for_stream(transaction):
crypt_blob_infos = []
stream_blobs = transaction.execute(
"select blob_hash, position, iv from stream_blob where stream_hash=? "
"order by position asc", (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))
if not blob_hash:
break
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
)
def delete_stream(self, descriptor: 'StreamDescriptor'):
return self.db.run_with_foreign_keys_disabled(delete_stream, descriptor)
async def delete_torrent(self, bt_infohash: str):
return await self.db.run(delete_torrent, bt_infohash)
# # # # # # # # # file stuff # # # # # # # # #
def save_downloaded_file(self, stream_hash: str, file_name: typing.Optional[str],
download_directory: typing.Optional[str], data_payment_rate: float,
content_fee: typing.Optional[Transaction] = None,
added_on: typing.Optional[int] = None) -> typing.Awaitable[int]:
return self.save_published_file(
stream_hash, file_name, download_directory, data_payment_rate, status="running",
content_fee=content_fee, added_on=added_on
)
def save_published_file(self, stream_hash: str, file_name: typing.Optional[str],
download_directory: typing.Optional[str], data_payment_rate: float,
status: str = "finished",
content_fee: typing.Optional[Transaction] = None,
added_on: typing.Optional[int] = None) -> typing.Awaitable[int]:
return self.db.run(store_file, stream_hash, file_name, download_directory, data_payment_rate, status,
content_fee, added_on)
async def update_manually_removed_files_since_last_run(self):
"""
Update files that have been removed from the downloads directory since the last run
"""
def update_manually_removed_files(transaction: sqlite3.Connection):
files = {}
query = "select stream_hash, download_directory, file_name from file where saved_file=1 " \
"and stream_hash is not null"
for (stream_hash, download_directory, file_name) in transaction.execute(query).fetchall():
if download_directory and file_name:
files[stream_hash] = download_directory, file_name
return files
def detect_removed(files):
return [
stream_hash for stream_hash, (download_directory, file_name) in files.items()
if not os.path.isfile(os.path.join(binascii.unhexlify(download_directory).decode(),
binascii.unhexlify(file_name).decode()))
]
def update_db_removed(transaction: sqlite3.Connection, removed):
query = "update file set file_name=null, download_directory=null, saved_file=0 where stream_hash in {}"
for cur in _batched_select(transaction, query, removed):
cur.fetchall()
stream_and_file = await self.db.run(update_manually_removed_files)
removed = await self.loop.run_in_executor(None, detect_removed, stream_and_file)
if removed:
await self.db.run(update_db_removed, removed)
def get_all_lbry_files(self) -> typing.Awaitable[typing.List[typing.Dict]]:
return self.db.run(get_all_lbry_files)
def change_file_status(self, stream_hash: str, new_status: str):
log.debug("update file status %s -> %s", stream_hash, new_status)
return self.db.execute_fetchall("update file set status=? where stream_hash=?", (new_status, stream_hash))
async def change_file_download_dir_and_file_name(self, stream_hash: str, download_dir: typing.Optional[str],
file_name: typing.Optional[str]):
if not file_name or not download_dir:
encoded_file_name, encoded_download_dir = None, None
else:
encoded_file_name = binascii.hexlify(file_name.encode()).decode()
encoded_download_dir = binascii.hexlify(download_dir.encode()).decode()
return await self.db.execute_fetchall("update file set download_directory=?, file_name=? where stream_hash=?", (
encoded_download_dir, encoded_file_name, stream_hash,
))
async def save_content_fee(self, stream_hash: str, content_fee: Transaction):
return await self.db.execute_fetchall("update file set content_fee=? where stream_hash=?", (
binascii.hexlify(content_fee.raw), stream_hash,
))
async def set_saved_file(self, stream_hash: str):
return await self.db.execute_fetchall("update file set saved_file=1 where stream_hash=?", (
stream_hash,
))
async def clear_saved_file(self, stream_hash: str):
return await self.db.execute_fetchall("update file set saved_file=0 where stream_hash=?", (
stream_hash,
))
async def recover_streams(self, descriptors_and_sds: typing.List[typing.Tuple['StreamDescriptor', 'BlobFile',
typing.Optional[Transaction]]],
download_directory: str):
def _recover(transaction: sqlite3.Connection):
stream_hashes = [x[0].stream_hash for x in descriptors_and_sds]
for descriptor, sd_blob, content_fee in descriptors_and_sds:
content_claim = transaction.execute(
"select * from content_claim where stream_hash=?", (descriptor.stream_hash, )
).fetchone()
delete_stream(transaction, descriptor) # this will also delete the content claim
store_stream(transaction, sd_blob, descriptor)
store_file(transaction, descriptor.stream_hash, os.path.basename(descriptor.suggested_file_name),
download_directory, 0.0, 'stopped', content_fee=content_fee)
if content_claim:
transaction.execute("insert or ignore into content_claim values (?, ?, ?)", content_claim)
transaction.executemany(
"update file set status='stopped' where stream_hash=?",
((stream_hash, ) for stream_hash in stream_hashes)
).fetchall()
download_dir = binascii.hexlify(self.conf.download_dir.encode()).decode()
transaction.executemany(
f"update file set download_directory=? where stream_hash=?",
((download_dir, stream_hash) for stream_hash in stream_hashes)
).fetchall()
await self.db.run_with_foreign_keys_disabled(_recover)
def get_all_stream_hashes(self):
return self.run_and_return_list("select stream_hash from stream")
# # # # # # # # # support functions # # # # # # # # #
def save_supports(self, claim_id_to_supports: dict):
# TODO: add 'address' to support items returned for a claim from lbrycrdd and lbryum-server
def _save_support(transaction):
bind = "({})".format(','.join(['?'] * len(claim_id_to_supports)))
transaction.execute(
f"delete from support where claim_id in {bind}", tuple(claim_id_to_supports.keys())
).fetchall()
for claim_id, supports in claim_id_to_supports.items():
for support in supports:
transaction.execute(
"insert into support values (?, ?, ?, ?)",
("%s:%i" % (support['txid'], support['nout']), claim_id, lbc_to_dewies(support['amount']),
support.get('address', ""))
).fetchall()
return self.db.run(_save_support)
def get_supports(self, *claim_ids):
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),
"address": address,
}
def _get_supports(transaction):
return [
_format_support(*support_info)
for support_info in _batched_select(
transaction,
"select * from support where claim_id in {}",
claim_ids
)
]
return self.db.run(_get_supports)
# # # # # # # # # claim functions # # # # # # # # #
async def save_claims(self, claim_infos):
claim_id_to_supports = {}
update_file_callbacks = []
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'])
height = claim_info['height']
address = claim_info['address']
sequence = claim_info['claim_sequence']
certificate_id = claim_info['value'].signing_channel_id
try:
source_hash = claim_info['value'].stream.source.sd_hash
except (AttributeError, ValueError):
source_hash = None
serialized = binascii.hexlify(claim_info['value'].to_bytes())
transaction.execute(
"insert or replace into claim values (?, ?, ?, ?, ?, ?, ?, ?, ?)",
(outpoint, claim_id, name, amount, height, serialized, certificate_id, address, sequence)
).fetchall()
# if this response doesn't have support info don't overwrite the existing
# support info
if 'supports' in claim_info:
claim_id_to_supports[claim_id] = claim_info['supports']
if not source_hash:
continue
stream_hash = transaction.execute(
"select file.stream_hash from stream "
"inner join file on file.stream_hash=stream.stream_hash where sd_hash=?", (source_hash,)
).fetchone()
if not stream_hash:
continue
stream_hash = stream_hash[0]
known_outpoint = transaction.execute(
"select claim_outpoint from content_claim where stream_hash=?", (stream_hash,)
).fetchone()
known_claim_id = transaction.execute(
"select claim_id from claim "
"inner join content_claim c3 ON claim.claim_outpoint=c3.claim_outpoint "
"where c3.stream_hash=?", (stream_hash,)
).fetchone()
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]())
await self.db.run(_save_claims)
if update_file_callbacks:
await asyncio.wait(update_file_callbacks)
if claim_id_to_supports:
await self.save_supports(claim_id_to_supports)
def save_claim_from_output(self, ledger, *outputs: Output):
return self.save_claims([{
"claim_id": output.claim_id,
"name": output.claim_name,
"amount": dewies_to_lbc(output.amount),
"address": output.get_address(ledger),
"txid": output.tx_ref.id,
"nout": output.position,
"value": output.claim,
"height": output.tx_ref.height,
"claim_sequence": -1,
} for output in outputs])
def save_claims_for_resolve(self, claim_infos):
to_save = {}
for info in claim_infos:
if 'value' in info:
if info['value']:
to_save[info['claim_id']] = info
else:
for key in ('certificate', 'claim'):
if info.get(key, {}).get('value'):
to_save[info[key]['claim_id']] = info[key]
return self.save_claims(to_save.values())
@staticmethod
def _save_content_claim(transaction, claim_outpoint, stream_hash=None, bt_infohash=None):
assert stream_hash or bt_infohash
# 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")
new_claim_id, claim = claim_info[0], Claim.from_bytes(binascii.unhexlify(claim_info[1]))
# 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] != claim.stream.source.sd_hash:
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:
raise Exception(
f"mismatching claim ids when updating stream {current_associated_claim_id} vs {new_claim_id}"
)
# update the claim associated to the file
transaction.execute("delete from content_claim where stream_hash=?", (stream_hash, )).fetchall()
transaction.execute(
"insert into content_claim values (?, NULL, ?)", (stream_hash, claim_outpoint)
).fetchall()
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:
await self.content_claim_callbacks[stream_hash]()
async def save_torrent_content_claim(self, bt_infohash, claim_outpoint, length, name):
def _save_torrent(transaction):
transaction.execute(
"insert into torrent values (?, NULL, ?, ?)", (bt_infohash, length, name)
).fetchall()
transaction.execute(
"insert into content_claim values (NULL, ?, ?)", (bt_infohash, claim_outpoint)
).fetchall()
await self.db.run(_save_torrent)
# update corresponding ManagedEncryptedFileDownloader object
if bt_infohash in self.content_claim_callbacks:
await self.content_claim_callbacks[bt_infohash]()
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'])
claim['supports'] = supports
claim['effective_amount'] = calculate_effective_amount(claim['amount'], supports)
return claim
async def get_content_claim_for_torrent(self, bt_infohash):
claims = await self.db.run(get_claims_from_torrent_info_hashes, [bt_infohash])
return claims[bt_infohash].as_dict() if claims else None
# # # # # # # # # reflector functions # # # # # # # # #
def update_reflected_stream(self, sd_hash, reflector_address, success=True):
if success:
return self.db.execute_fetchall(
"insert or replace into reflected_stream values (?, ?, ?)",
(sd_hash, reflector_address, self.time_getter())
)
return self.db.execute_fetchall(
"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
)
# # # # # # # # # # dht functions # # # # # # # # # # #
async def get_persisted_kademlia_peers(self) -> typing.List[typing.Tuple[bytes, str, int, int]]:
query = 'select node_id, address, udp_port, tcp_port from peer'
return [(binascii.unhexlify(n), a, u, t) for n, a, u, t in await self.db.execute_fetchall(query)]
async def save_kademlia_peers(self, peers: typing.List['KademliaPeer']):
def _save_kademlia_peers(transaction: sqlite3.Connection):
transaction.execute('delete from peer').fetchall()
transaction.executemany(
'insert into peer(node_id, address, udp_port, tcp_port) values (?, ?, ?, ?)',
tuple([(binascii.hexlify(p.node_id), p.address, p.udp_port, p.tcp_port) for p in peers])
).fetchall()
return await self.db.run(_save_kademlia_peers)