mirror of https://gitlab.com/SIGBUS/nyaa.git
347 lines
15 KiB
Python
Executable File
347 lines
15 KiB
Python
Executable File
#!/usr/bin/env python
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"""
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stream changes in mysql (on the torrents and statistics table) into
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elasticsearch as they happen on the binlog. This keeps elasticsearch in sync
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with whatever you do to the database, including stuff like admin queries. Also,
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because mysql keeps the binlog around for N days before deleting old stuff, you
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can survive a hiccup of elasticsearch or this script dying and pick up where
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you left off.
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For that "picking up" part, this script depends on one piece of external state:
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its last known binlog filename and position. This is saved off as a JSON file
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to a configurable location on the filesystem periodically. If the file is not
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present then you can initialize it with the values from `SHOW MASTER STATUS`
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from the mysql repl, which will start the sync from current state.
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In the case of catastrophic elasticsearch meltdown where you need to
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reconstruct the index, you'll want to be a bit careful with coordinating
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sync_es and import_to_es scripts. If you run import_to_es first than run
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sync_es against SHOW MASTER STATUS, anything that changed the database between
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when import_to_es and sync_es will be lost. Instead, you can run SHOW MASTER
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STATUS _before_ you run import_to_es. That way you'll definitely pick up any
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changes that happen while the import_to_es script is dumping stuff from the
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database into es, at the expense of redoing a (small) amount of indexing.
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This uses multithreading so we don't have to block on socket io (both binlog
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reading and es POSTing). asyncio soon™
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This script will exit on any sort of exception, so you'll want to use your
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supervisor's restart functionality, e.g. Restart=failure in systemd, or
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the poor man's `while true; do sync_es.py; sleep 1; done` in tmux.
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"""
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from elasticsearch import Elasticsearch
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from elasticsearch.helpers import bulk, BulkIndexError
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from pymysqlreplication import BinLogStreamReader
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from pymysqlreplication.row_event import UpdateRowsEvent, DeleteRowsEvent, WriteRowsEvent
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from datetime import datetime
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from nyaa import create_app, db, models
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from nyaa.models import TorrentFlags
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app = create_app('config')
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import sys
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import json
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import time
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import logging
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from statsd import StatsClient
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from threading import Thread
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from queue import Queue, Empty
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logging.basicConfig(format='%(asctime)s %(levelname)s %(name)s - %(message)s')
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log = logging.getLogger('sync_es')
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log.setLevel(logging.INFO)
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# config in json, 2lazy to argparse
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if len(sys.argv) != 2:
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print("need config.json location", file=sys.stderr)
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sys.exit(-1)
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with open(sys.argv[1]) as f:
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config = json.load(f)
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# goes to netdata or other statsd listener
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stats = StatsClient('localhost', 8125, prefix="sync_es")
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#logging.getLogger('elasticsearch').setLevel(logging.DEBUG)
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# in prod want in /var/lib somewhere probably
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SAVE_LOC = config.get('save_loc', "/tmp/pos.json")
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MYSQL_HOST = config.get('mysql_host', '127.0.0.1')
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MYSQL_PORT = config.get('mysql_port', 3306)
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MYSQL_USER = config.get('mysql_user', 'root')
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MYSQL_PW = config.get('mysql_password', 'dunnolol')
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NT_DB = config.get('database', 'nyaav2')
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INTERNAL_QUEUE_DEPTH = config.get('internal_queue_depth', 10000)
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ES_CHUNK_SIZE = config.get('es_chunk_size', 10000)
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# seconds since no events happening to flush to es. remember this also
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# interacts with es' refresh_interval setting.
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FLUSH_INTERVAL = config.get('flush_interval', 5)
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def pad_bytes(in_bytes, size):
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return in_bytes + (b'\x00' * max(0, size - len(in_bytes)))
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def reindex_torrent(t, index_name):
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# XXX annoyingly different from import_to_es, and
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# you need to keep them in sync manually.
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f = t['flags']
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doc = {
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"id": t['id'],
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"display_name": t['display_name'],
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"created_time": t['created_time'],
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"updated_time": t['updated_time'],
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"description": t['description'],
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# not analyzed but included so we can render magnet links
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# without querying sql again.
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"info_hash": pad_bytes(t['info_hash'], 20).hex(),
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"filesize": t['filesize'],
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"uploader_id": t['uploader_id'],
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"main_category_id": t['main_category_id'],
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"sub_category_id": t['sub_category_id'],
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"comment_count": t['comment_count'],
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# XXX all the bitflags are numbers
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"anonymous": bool(f & TorrentFlags.ANONYMOUS),
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"trusted": bool(f & TorrentFlags.TRUSTED),
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"remake": bool(f & TorrentFlags.REMAKE),
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"complete": bool(f & TorrentFlags.COMPLETE),
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# TODO instead of indexing and filtering later
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# could delete from es entirely. Probably won't matter
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# for at least a few months.
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"hidden": bool(f & TorrentFlags.HIDDEN),
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"deleted": bool(f & TorrentFlags.DELETED),
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"has_torrent": bool(t['has_torrent']),
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}
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# update, so we don't delete the stats if present
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return {
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'_op_type': 'update',
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'_index': index_name,
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'_id': str(t['id']),
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"doc": doc,
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"doc_as_upsert": True
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}
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def reindex_stats(s, index_name):
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# update the torrent at torrent_id, assumed to exist;
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# this will always be the case if you're reading the binlog
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# in order; the foreign key constraint on torrent_id prevents
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# the stats row from existing if the torrent isn't around.
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return {
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'_op_type': 'update',
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'_index': index_name,
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'_id': str(s['torrent_id']),
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"doc": {
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"stats_last_updated": s["last_updated"],
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"download_count": s["download_count"],
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"leech_count": s['leech_count'],
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"seed_count": s['seed_count'],
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}}
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def delet_this(row, index_name):
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return {
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"_op_type": 'delete',
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'_index': index_name,
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'_id': str(row['values']['id'])}
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# we could try to make this script robust to errors from es or mysql, but since
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# the only thing we can do is "clear state and retry", it's easier to leave
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# this to the supervisor. If we we carrying around heavier state in-process,
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# it'd be more worth it to handle errors ourselves.
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#
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# Apparently there's no setDefaultUncaughtExceptionHandler in threading, and
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# sys.excepthook is also broken, so this gives us the same
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# exit-if-anything-happens semantics.
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class ExitingThread(Thread):
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def run(self):
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try:
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self.run_happy()
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except:
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log.exception("something happened")
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# sys.exit only exits the thread, lame
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import os
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os._exit(1)
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class BinlogReader(ExitingThread):
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# write_buf is the Queue we communicate with
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def __init__(self, write_buf):
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Thread.__init__(self)
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self.write_buf = write_buf
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def run_happy(self):
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with open(SAVE_LOC) as f:
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pos = json.load(f)
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stream = BinLogStreamReader(
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# TODO parse out from config.py or something
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connection_settings = {
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'host': MYSQL_HOST,
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'port': MYSQL_PORT,
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'user': MYSQL_USER,
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'passwd': MYSQL_PW
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},
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server_id=10, # arbitrary
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# only care about this database currently
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only_schemas=[NT_DB],
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# these tables in the database
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only_tables=["nyaa_torrents", "nyaa_statistics", "sukebei_torrents", "sukebei_statistics"],
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# from our save file
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resume_stream=True,
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log_file=pos['log_file'],
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log_pos=pos['log_pos'],
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# skip the other stuff like table mapping
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only_events=[UpdateRowsEvent, DeleteRowsEvent, WriteRowsEvent],
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# if we're at the head of the log, block until something happens
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# note it'd be nice to block async-style instead, but the mainline
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# binlogreader is synchronous. there is an (unmaintained?) fork
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# using aiomysql if anybody wants to revive that.
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blocking=True)
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log.info(f"reading binlog from {stream.log_file}/{stream.log_pos}")
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for event in stream:
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# save the pos of the stream and timestamp with each message, so we
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# can commit in the other thread. and keep track of process latency
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pos = (stream.log_file, stream.log_pos, event.timestamp)
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with stats.pipeline() as s:
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s.incr('total_events')
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s.incr(f"event.{event.table}.{type(event).__name__}")
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s.incr('total_rows', len(event.rows))
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s.incr(f"rows.{event.table}.{type(event).__name__}", len(event.rows))
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# XXX not a "timer", but we get a histogram out of it
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s.timing(f"rows_per_event.{event.table}.{type(event).__name__}", len(event.rows))
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if event.table == "nyaa_torrents" or event.table == "sukebei_torrents":
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if event.table == "nyaa_torrents":
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index_name = "nyaa"
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else:
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index_name = "sukebei"
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if type(event) is WriteRowsEvent:
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for row in event.rows:
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self.write_buf.put(
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(pos, reindex_torrent(row['values'], index_name)),
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block=True)
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elif type(event) is UpdateRowsEvent:
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# UpdateRowsEvent includes the old values too, but we don't care
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for row in event.rows:
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self.write_buf.put(
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(pos, reindex_torrent(row['after_values'], index_name)),
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block=True)
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elif type(event) is DeleteRowsEvent:
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# ok, bye
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for row in event.rows:
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self.write_buf.put((pos, delet_this(row, index_name)), block=True)
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else:
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raise Exception(f"unknown event {type(event)}")
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elif event.table == "nyaa_statistics" or event.table == "sukebei_statistics":
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if event.table == "nyaa_statistics":
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index_name = "nyaa"
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else:
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index_name = "sukebei"
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if type(event) is WriteRowsEvent:
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for row in event.rows:
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self.write_buf.put(
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(pos, reindex_stats(row['values'], index_name)),
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block=True)
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elif type(event) is UpdateRowsEvent:
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for row in event.rows:
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self.write_buf.put(
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(pos, reindex_stats(row['after_values'], index_name)),
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block=True)
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elif type(event) is DeleteRowsEvent:
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# uh ok. Assume that the torrent row will get deleted later,
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# which will clean up the entire es "torrent" document
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pass
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else:
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raise Exception(f"unknown event {type(event)}")
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else:
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raise Exception(f"unknown table {s.table}")
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class EsPoster(ExitingThread):
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# read_buf is the queue of stuff to bulk post
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def __init__(self, read_buf, chunk_size=1000, flush_interval=5):
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Thread.__init__(self)
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self.read_buf = read_buf
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self.chunk_size = chunk_size
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self.flush_interval = flush_interval
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def run_happy(self):
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es = Elasticsearch(hosts=app.config['ES_HOSTS'], timeout=30)
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last_save = time.time()
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since_last = 0
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# XXX keep track of last posted position for save points, awkward
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posted_log_file = None
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posted_log_pos = None
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while True:
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actions = []
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now = time.time()
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# wait up to flush_interval seconds after starting the batch
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deadline = now + self.flush_interval
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while len(actions) < self.chunk_size and now < deadline:
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timeout = deadline - now
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try:
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# grab next event from queue with metadata that creepily
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# updates, surviving outside the scope of the loop
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((log_file, log_pos, timestamp), action) = \
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self.read_buf.get(block=True, timeout=timeout)
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actions.append(action)
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now = time.time()
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except Empty:
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# nothing new for the whole interval
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break
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if actions:
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# XXX "time" to get histogram of no events per bulk
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stats.timing('actions_per_bulk', len(actions))
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try:
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with stats.timer('post_bulk'):
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bulk(es, actions, chunk_size=self.chunk_size)
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except BulkIndexError as bie:
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# in certain cases where we're really out of sync, we update a
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# stat when the torrent doc is, causing a "document missing"
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# error from es, with no way to suppress that server-side.
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# Thus ignore that type of error if it's the only problem
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for e in bie.errors:
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try:
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if e['update']['error']['type'] != 'document_missing_exception':
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raise bie
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except KeyError:
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raise bie
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# how far we've gotten in the actual log
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posted_log_file = log_file
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posted_log_pos = log_pos
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# how far we're behind, wall clock
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stats.gauge('process_latency', int((time.time() - timestamp) * 1000))
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else:
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log.debug("no changes...")
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since_last += len(actions)
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# TODO instead of this manual timeout loop, could move this to another queue/thread
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if posted_log_file is not None and (since_last >= 10000 or (time.time() - last_save) > 10):
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log.info(f"saving position {log_file}/{log_pos}, {time.time() - timestamp:,.3f} seconds behind")
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with stats.timer('save_pos'):
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with open(SAVE_LOC, 'w') as f:
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json.dump({"log_file": posted_log_file, "log_pos": posted_log_pos}, f)
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last_save = time.time()
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since_last = 0
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posted_log_file = None
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posted_log_pos = None
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# in-memory queue between binlog and es. The bigger it is, the more events we
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# can parse in memory while waiting for es to catch up, at the expense of heap.
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buf = Queue(maxsize=INTERNAL_QUEUE_DEPTH)
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reader = BinlogReader(buf)
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reader.daemon = True
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writer = EsPoster(buf, chunk_size=ES_CHUNK_SIZE, flush_interval=FLUSH_INTERVAL)
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writer.daemon = True
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reader.start()
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writer.start()
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# on the main thread, poll the queue size for monitoring
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while True:
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stats.gauge('queue_depth', buf.qsize())
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time.sleep(1)
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