| # Copyright (C) 2019 Garmin Ltd. |
| # |
| # SPDX-License-Identifier: GPL-2.0-only |
| # |
| |
| from contextlib import closing, contextmanager |
| from datetime import datetime |
| import enum |
| import asyncio |
| import logging |
| import math |
| import time |
| from . import create_async_client, UNIHASH_TABLE_COLUMNS, OUTHASH_TABLE_COLUMNS |
| import bb.asyncrpc |
| |
| |
| logger = logging.getLogger('hashserv.server') |
| |
| |
| class Measurement(object): |
| def __init__(self, sample): |
| self.sample = sample |
| |
| def start(self): |
| self.start_time = time.perf_counter() |
| |
| def end(self): |
| self.sample.add(time.perf_counter() - self.start_time) |
| |
| def __enter__(self): |
| self.start() |
| return self |
| |
| def __exit__(self, *args, **kwargs): |
| self.end() |
| |
| |
| class Sample(object): |
| def __init__(self, stats): |
| self.stats = stats |
| self.num_samples = 0 |
| self.elapsed = 0 |
| |
| def measure(self): |
| return Measurement(self) |
| |
| def __enter__(self): |
| return self |
| |
| def __exit__(self, *args, **kwargs): |
| self.end() |
| |
| def add(self, elapsed): |
| self.num_samples += 1 |
| self.elapsed += elapsed |
| |
| def end(self): |
| if self.num_samples: |
| self.stats.add(self.elapsed) |
| self.num_samples = 0 |
| self.elapsed = 0 |
| |
| |
| class Stats(object): |
| def __init__(self): |
| self.reset() |
| |
| def reset(self): |
| self.num = 0 |
| self.total_time = 0 |
| self.max_time = 0 |
| self.m = 0 |
| self.s = 0 |
| self.current_elapsed = None |
| |
| def add(self, elapsed): |
| self.num += 1 |
| if self.num == 1: |
| self.m = elapsed |
| self.s = 0 |
| else: |
| last_m = self.m |
| self.m = last_m + (elapsed - last_m) / self.num |
| self.s = self.s + (elapsed - last_m) * (elapsed - self.m) |
| |
| self.total_time += elapsed |
| |
| if self.max_time < elapsed: |
| self.max_time = elapsed |
| |
| def start_sample(self): |
| return Sample(self) |
| |
| @property |
| def average(self): |
| if self.num == 0: |
| return 0 |
| return self.total_time / self.num |
| |
| @property |
| def stdev(self): |
| if self.num <= 1: |
| return 0 |
| return math.sqrt(self.s / (self.num - 1)) |
| |
| def todict(self): |
| return {k: getattr(self, k) for k in ('num', 'total_time', 'max_time', 'average', 'stdev')} |
| |
| |
| @enum.unique |
| class Resolve(enum.Enum): |
| FAIL = enum.auto() |
| IGNORE = enum.auto() |
| REPLACE = enum.auto() |
| |
| |
| def insert_table(cursor, table, data, on_conflict): |
| resolve = { |
| Resolve.FAIL: "", |
| Resolve.IGNORE: " OR IGNORE", |
| Resolve.REPLACE: " OR REPLACE", |
| }[on_conflict] |
| |
| keys = sorted(data.keys()) |
| query = 'INSERT{resolve} INTO {table} ({fields}) VALUES({values})'.format( |
| resolve=resolve, |
| table=table, |
| fields=", ".join(keys), |
| values=", ".join(":" + k for k in keys), |
| ) |
| prevrowid = cursor.lastrowid |
| cursor.execute(query, data) |
| logging.debug( |
| "Inserting %r into %s, %s", |
| data, |
| table, |
| on_conflict |
| ) |
| return (cursor.lastrowid, cursor.lastrowid != prevrowid) |
| |
| def insert_unihash(cursor, data, on_conflict): |
| return insert_table(cursor, "unihashes_v2", data, on_conflict) |
| |
| def insert_outhash(cursor, data, on_conflict): |
| return insert_table(cursor, "outhashes_v2", data, on_conflict) |
| |
| async def copy_unihash_from_upstream(client, db, method, taskhash): |
| d = await client.get_taskhash(method, taskhash) |
| if d is not None: |
| with closing(db.cursor()) as cursor: |
| insert_unihash( |
| cursor, |
| {k: v for k, v in d.items() if k in UNIHASH_TABLE_COLUMNS}, |
| Resolve.IGNORE, |
| ) |
| db.commit() |
| return d |
| |
| |
| class ServerCursor(object): |
| def __init__(self, db, cursor, upstream): |
| self.db = db |
| self.cursor = cursor |
| self.upstream = upstream |
| |
| |
| class ServerClient(bb.asyncrpc.AsyncServerConnection): |
| def __init__(self, reader, writer, db, request_stats, backfill_queue, upstream, read_only): |
| super().__init__(reader, writer, 'OEHASHEQUIV', logger) |
| self.db = db |
| self.request_stats = request_stats |
| self.max_chunk = bb.asyncrpc.DEFAULT_MAX_CHUNK |
| self.backfill_queue = backfill_queue |
| self.upstream = upstream |
| |
| self.handlers.update({ |
| 'get': self.handle_get, |
| 'get-outhash': self.handle_get_outhash, |
| 'get-stream': self.handle_get_stream, |
| 'get-stats': self.handle_get_stats, |
| }) |
| |
| if not read_only: |
| self.handlers.update({ |
| 'report': self.handle_report, |
| 'report-equiv': self.handle_equivreport, |
| 'reset-stats': self.handle_reset_stats, |
| 'backfill-wait': self.handle_backfill_wait, |
| }) |
| |
| def validate_proto_version(self): |
| return (self.proto_version > (1, 0) and self.proto_version <= (1, 1)) |
| |
| async def process_requests(self): |
| if self.upstream is not None: |
| self.upstream_client = await create_async_client(self.upstream) |
| else: |
| self.upstream_client = None |
| |
| await super().process_requests() |
| |
| if self.upstream_client is not None: |
| await self.upstream_client.close() |
| |
| async def dispatch_message(self, msg): |
| for k in self.handlers.keys(): |
| if k in msg: |
| logger.debug('Handling %s' % k) |
| if 'stream' in k: |
| await self.handlers[k](msg[k]) |
| else: |
| with self.request_stats.start_sample() as self.request_sample, \ |
| self.request_sample.measure(): |
| await self.handlers[k](msg[k]) |
| return |
| |
| raise bb.asyncrpc.ClientError("Unrecognized command %r" % msg) |
| |
| async def handle_get(self, request): |
| method = request['method'] |
| taskhash = request['taskhash'] |
| fetch_all = request.get('all', False) |
| |
| with closing(self.db.cursor()) as cursor: |
| d = await self.get_unihash(cursor, method, taskhash, fetch_all) |
| |
| self.write_message(d) |
| |
| async def get_unihash(self, cursor, method, taskhash, fetch_all=False): |
| d = None |
| |
| if fetch_all: |
| cursor.execute( |
| ''' |
| SELECT *, unihashes_v2.unihash AS unihash FROM outhashes_v2 |
| INNER JOIN unihashes_v2 ON unihashes_v2.method=outhashes_v2.method AND unihashes_v2.taskhash=outhashes_v2.taskhash |
| WHERE outhashes_v2.method=:method AND outhashes_v2.taskhash=:taskhash |
| ORDER BY outhashes_v2.created ASC |
| LIMIT 1 |
| ''', |
| { |
| 'method': method, |
| 'taskhash': taskhash, |
| } |
| |
| ) |
| row = cursor.fetchone() |
| |
| if row is not None: |
| d = {k: row[k] for k in row.keys()} |
| elif self.upstream_client is not None: |
| d = await self.upstream_client.get_taskhash(method, taskhash, True) |
| self.update_unified(cursor, d) |
| self.db.commit() |
| else: |
| row = self.query_equivalent(cursor, method, taskhash) |
| |
| if row is not None: |
| d = {k: row[k] for k in row.keys()} |
| elif self.upstream_client is not None: |
| d = await self.upstream_client.get_taskhash(method, taskhash) |
| d = {k: v for k, v in d.items() if k in UNIHASH_TABLE_COLUMNS} |
| insert_unihash(cursor, d, Resolve.IGNORE) |
| self.db.commit() |
| |
| return d |
| |
| async def handle_get_outhash(self, request): |
| method = request['method'] |
| outhash = request['outhash'] |
| taskhash = request['taskhash'] |
| |
| with closing(self.db.cursor()) as cursor: |
| d = await self.get_outhash(cursor, method, outhash, taskhash) |
| |
| self.write_message(d) |
| |
| async def get_outhash(self, cursor, method, outhash, taskhash): |
| d = None |
| cursor.execute( |
| ''' |
| SELECT *, unihashes_v2.unihash AS unihash FROM outhashes_v2 |
| INNER JOIN unihashes_v2 ON unihashes_v2.method=outhashes_v2.method AND unihashes_v2.taskhash=outhashes_v2.taskhash |
| WHERE outhashes_v2.method=:method AND outhashes_v2.outhash=:outhash |
| ORDER BY outhashes_v2.created ASC |
| LIMIT 1 |
| ''', |
| { |
| 'method': method, |
| 'outhash': outhash, |
| } |
| ) |
| row = cursor.fetchone() |
| |
| if row is not None: |
| d = {k: row[k] for k in row.keys()} |
| elif self.upstream_client is not None: |
| d = await self.upstream_client.get_outhash(method, outhash, taskhash) |
| self.update_unified(cursor, d) |
| self.db.commit() |
| |
| return d |
| |
| def update_unified(self, cursor, data): |
| if data is None: |
| return |
| |
| insert_unihash( |
| cursor, |
| {k: v for k, v in data.items() if k in UNIHASH_TABLE_COLUMNS}, |
| Resolve.IGNORE |
| ) |
| insert_outhash( |
| cursor, |
| {k: v for k, v in data.items() if k in OUTHASH_TABLE_COLUMNS}, |
| Resolve.IGNORE |
| ) |
| |
| async def handle_get_stream(self, request): |
| self.write_message('ok') |
| |
| while True: |
| upstream = None |
| |
| l = await self.reader.readline() |
| if not l: |
| return |
| |
| try: |
| # This inner loop is very sensitive and must be as fast as |
| # possible (which is why the request sample is handled manually |
| # instead of using 'with', and also why logging statements are |
| # commented out. |
| self.request_sample = self.request_stats.start_sample() |
| request_measure = self.request_sample.measure() |
| request_measure.start() |
| |
| l = l.decode('utf-8').rstrip() |
| if l == 'END': |
| self.writer.write('ok\n'.encode('utf-8')) |
| return |
| |
| (method, taskhash) = l.split() |
| #logger.debug('Looking up %s %s' % (method, taskhash)) |
| cursor = self.db.cursor() |
| try: |
| row = self.query_equivalent(cursor, method, taskhash) |
| finally: |
| cursor.close() |
| |
| if row is not None: |
| msg = ('%s\n' % row['unihash']).encode('utf-8') |
| #logger.debug('Found equivalent task %s -> %s', (row['taskhash'], row['unihash'])) |
| elif self.upstream_client is not None: |
| upstream = await self.upstream_client.get_unihash(method, taskhash) |
| if upstream: |
| msg = ("%s\n" % upstream).encode("utf-8") |
| else: |
| msg = "\n".encode("utf-8") |
| else: |
| msg = '\n'.encode('utf-8') |
| |
| self.writer.write(msg) |
| finally: |
| request_measure.end() |
| self.request_sample.end() |
| |
| await self.writer.drain() |
| |
| # Post to the backfill queue after writing the result to minimize |
| # the turn around time on a request |
| if upstream is not None: |
| await self.backfill_queue.put((method, taskhash)) |
| |
| async def handle_report(self, data): |
| with closing(self.db.cursor()) as cursor: |
| outhash_data = { |
| 'method': data['method'], |
| 'outhash': data['outhash'], |
| 'taskhash': data['taskhash'], |
| 'created': datetime.now() |
| } |
| |
| for k in ('owner', 'PN', 'PV', 'PR', 'task', 'outhash_siginfo'): |
| if k in data: |
| outhash_data[k] = data[k] |
| |
| # Insert the new entry, unless it already exists |
| (rowid, inserted) = insert_outhash(cursor, outhash_data, Resolve.IGNORE) |
| |
| if inserted: |
| # If this row is new, check if it is equivalent to another |
| # output hash |
| cursor.execute( |
| ''' |
| SELECT outhashes_v2.taskhash AS taskhash, unihashes_v2.unihash AS unihash FROM outhashes_v2 |
| INNER JOIN unihashes_v2 ON unihashes_v2.method=outhashes_v2.method AND unihashes_v2.taskhash=outhashes_v2.taskhash |
| -- Select any matching output hash except the one we just inserted |
| WHERE outhashes_v2.method=:method AND outhashes_v2.outhash=:outhash AND outhashes_v2.taskhash!=:taskhash |
| -- Pick the oldest hash |
| ORDER BY outhashes_v2.created ASC |
| LIMIT 1 |
| ''', |
| { |
| 'method': data['method'], |
| 'outhash': data['outhash'], |
| 'taskhash': data['taskhash'], |
| } |
| ) |
| row = cursor.fetchone() |
| |
| if row is not None: |
| # A matching output hash was found. Set our taskhash to the |
| # same unihash since they are equivalent |
| unihash = row['unihash'] |
| resolve = Resolve.IGNORE |
| else: |
| # No matching output hash was found. This is probably the |
| # first outhash to be added. |
| unihash = data['unihash'] |
| resolve = Resolve.IGNORE |
| |
| # Query upstream to see if it has a unihash we can use |
| if self.upstream_client is not None: |
| upstream_data = await self.upstream_client.get_outhash(data['method'], data['outhash'], data['taskhash']) |
| if upstream_data is not None: |
| unihash = upstream_data['unihash'] |
| |
| |
| insert_unihash( |
| cursor, |
| { |
| 'method': data['method'], |
| 'taskhash': data['taskhash'], |
| 'unihash': unihash, |
| }, |
| resolve |
| ) |
| |
| unihash_data = await self.get_unihash(cursor, data['method'], data['taskhash']) |
| if unihash_data is not None: |
| unihash = unihash_data['unihash'] |
| else: |
| unihash = data['unihash'] |
| |
| self.db.commit() |
| |
| d = { |
| 'taskhash': data['taskhash'], |
| 'method': data['method'], |
| 'unihash': unihash, |
| } |
| |
| self.write_message(d) |
| |
| async def handle_equivreport(self, data): |
| with closing(self.db.cursor()) as cursor: |
| insert_data = { |
| 'method': data['method'], |
| 'taskhash': data['taskhash'], |
| 'unihash': data['unihash'], |
| } |
| insert_unihash(cursor, insert_data, Resolve.IGNORE) |
| self.db.commit() |
| |
| # Fetch the unihash that will be reported for the taskhash. If the |
| # unihash matches, it means this row was inserted (or the mapping |
| # was already valid) |
| row = self.query_equivalent(cursor, data['method'], data['taskhash']) |
| |
| if row['unihash'] == data['unihash']: |
| logger.info('Adding taskhash equivalence for %s with unihash %s', |
| data['taskhash'], row['unihash']) |
| |
| d = {k: row[k] for k in ('taskhash', 'method', 'unihash')} |
| |
| self.write_message(d) |
| |
| |
| async def handle_get_stats(self, request): |
| d = { |
| 'requests': self.request_stats.todict(), |
| } |
| |
| self.write_message(d) |
| |
| async def handle_reset_stats(self, request): |
| d = { |
| 'requests': self.request_stats.todict(), |
| } |
| |
| self.request_stats.reset() |
| self.write_message(d) |
| |
| async def handle_backfill_wait(self, request): |
| d = { |
| 'tasks': self.backfill_queue.qsize(), |
| } |
| await self.backfill_queue.join() |
| self.write_message(d) |
| |
| def query_equivalent(self, cursor, method, taskhash): |
| # This is part of the inner loop and must be as fast as possible |
| cursor.execute( |
| 'SELECT taskhash, method, unihash FROM unihashes_v2 WHERE method=:method AND taskhash=:taskhash', |
| { |
| 'method': method, |
| 'taskhash': taskhash, |
| } |
| ) |
| return cursor.fetchone() |
| |
| |
| class Server(bb.asyncrpc.AsyncServer): |
| def __init__(self, db, upstream=None, read_only=False): |
| if upstream and read_only: |
| raise bb.asyncrpc.ServerError("Read-only hashserv cannot pull from an upstream server") |
| |
| super().__init__(logger) |
| |
| self.request_stats = Stats() |
| self.db = db |
| self.upstream = upstream |
| self.read_only = read_only |
| |
| def accept_client(self, reader, writer): |
| return ServerClient(reader, writer, self.db, self.request_stats, self.backfill_queue, self.upstream, self.read_only) |
| |
| @contextmanager |
| def _backfill_worker(self): |
| async def backfill_worker_task(): |
| client = await create_async_client(self.upstream) |
| try: |
| while True: |
| item = await self.backfill_queue.get() |
| if item is None: |
| self.backfill_queue.task_done() |
| break |
| method, taskhash = item |
| await copy_unihash_from_upstream(client, self.db, method, taskhash) |
| self.backfill_queue.task_done() |
| finally: |
| await client.close() |
| |
| async def join_worker(worker): |
| await self.backfill_queue.put(None) |
| await worker |
| |
| if self.upstream is not None: |
| worker = asyncio.ensure_future(backfill_worker_task()) |
| try: |
| yield |
| finally: |
| self.loop.run_until_complete(join_worker(worker)) |
| else: |
| yield |
| |
| def run_loop_forever(self): |
| self.backfill_queue = asyncio.Queue() |
| |
| with self._backfill_worker(): |
| super().run_loop_forever() |