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#! /usr/bin/env python3
#
# Copyright (C) 2018-2019 Garmin Ltd.
#
# SPDX-License-Identifier: GPL-2.0-only
#
from . import create_server, create_client
import hashlib
import logging
import multiprocessing
import os
import sys
import tempfile
import threading
import unittest
import socket
import time
import signal
def server_prefunc(server, idx):
logging.basicConfig(level=logging.DEBUG, filename='bbhashserv-%d.log' % idx, filemode='w',
format='%(levelname)s %(filename)s:%(lineno)d %(message)s')
server.logger.debug("Running server %d" % idx)
sys.stdout = open('bbhashserv-stdout-%d.log' % idx, 'w')
sys.stderr = sys.stdout
class HashEquivalenceTestSetup(object):
METHOD = 'TestMethod'
server_index = 0
def start_server(self, dbpath=None, upstream=None, read_only=False, prefunc=server_prefunc):
self.server_index += 1
if dbpath is None:
dbpath = os.path.join(self.temp_dir.name, "db%d.sqlite" % self.server_index)
def cleanup_server(server):
if server.process.exitcode is not None:
return
server.process.terminate()
server.process.join()
server = create_server(self.get_server_addr(self.server_index),
dbpath,
upstream=upstream,
read_only=read_only)
server.dbpath = dbpath
server.serve_as_process(prefunc=prefunc, args=(self.server_index,))
self.addCleanup(cleanup_server, server)
def cleanup_client(client):
client.close()
client = create_client(server.address)
self.addCleanup(cleanup_client, client)
return (client, server)
def setUp(self):
if sys.version_info < (3, 5, 0):
self.skipTest('Python 3.5 or later required')
self.temp_dir = tempfile.TemporaryDirectory(prefix='bb-hashserv')
self.addCleanup(self.temp_dir.cleanup)
(self.client, self.server) = self.start_server()
def assertClientGetHash(self, client, taskhash, unihash):
result = client.get_unihash(self.METHOD, taskhash)
self.assertEqual(result, unihash)
class HashEquivalenceCommonTests(object):
def test_create_hash(self):
# Simple test that hashes can be created
taskhash = '35788efcb8dfb0a02659d81cf2bfd695fb30faf9'
outhash = '2765d4a5884be49b28601445c2760c5f21e7e5c0ee2b7e3fce98fd7e5970796f'
unihash = 'f46d3fbb439bd9b921095da657a4de906510d2cd'
self.assertClientGetHash(self.client, taskhash, None)
result = self.client.report_unihash(taskhash, self.METHOD, outhash, unihash)
self.assertEqual(result['unihash'], unihash, 'Server returned bad unihash')
def test_create_equivalent(self):
# Tests that a second reported task with the same outhash will be
# assigned the same unihash
taskhash = '53b8dce672cb6d0c73170be43f540460bfc347b4'
outhash = '5a9cb1649625f0bf41fc7791b635cd9c2d7118c7f021ba87dcd03f72b67ce7a8'
unihash = 'f37918cc02eb5a520b1aff86faacbc0a38124646'
result = self.client.report_unihash(taskhash, self.METHOD, outhash, unihash)
self.assertEqual(result['unihash'], unihash, 'Server returned bad unihash')
# Report a different task with the same outhash. The returned unihash
# should match the first task
taskhash2 = '3bf6f1e89d26205aec90da04854fbdbf73afe6b4'
unihash2 = 'af36b199320e611fbb16f1f277d3ee1d619ca58b'
result = self.client.report_unihash(taskhash2, self.METHOD, outhash, unihash2)
self.assertEqual(result['unihash'], unihash, 'Server returned bad unihash')
def test_duplicate_taskhash(self):
# Tests that duplicate reports of the same taskhash with different
# outhash & unihash always return the unihash from the first reported
# taskhash
taskhash = '8aa96fcffb5831b3c2c0cb75f0431e3f8b20554a'
outhash = 'afe240a439959ce86f5e322f8c208e1fedefea9e813f2140c81af866cc9edf7e'
unihash = '218e57509998197d570e2c98512d0105985dffc9'
self.client.report_unihash(taskhash, self.METHOD, outhash, unihash)
self.assertClientGetHash(self.client, taskhash, unihash)
outhash2 = '0904a7fe3dc712d9fd8a74a616ddca2a825a8ee97adf0bd3fc86082c7639914d'
unihash2 = 'ae9a7d252735f0dafcdb10e2e02561ca3a47314c'
self.client.report_unihash(taskhash, self.METHOD, outhash2, unihash2)
self.assertClientGetHash(self.client, taskhash, unihash)
outhash3 = '77623a549b5b1a31e3732dfa8fe61d7ce5d44b3370f253c5360e136b852967b4'
unihash3 = '9217a7d6398518e5dc002ed58f2cbbbc78696603'
self.client.report_unihash(taskhash, self.METHOD, outhash3, unihash3)
self.assertClientGetHash(self.client, taskhash, unihash)
def test_huge_message(self):
# Simple test that hashes can be created
taskhash = 'c665584ee6817aa99edfc77a44dd853828279370'
outhash = '3c979c3db45c569f51ab7626a4651074be3a9d11a84b1db076f5b14f7d39db44'
unihash = '90e9bc1d1f094c51824adca7f8ea79a048d68824'
self.assertClientGetHash(self.client, taskhash, None)
siginfo = "0" * (self.client.max_chunk * 4)
result = self.client.report_unihash(taskhash, self.METHOD, outhash, unihash, {
'outhash_siginfo': siginfo
})
self.assertEqual(result['unihash'], unihash, 'Server returned bad unihash')
result_unihash = self.client.get_taskhash(self.METHOD, taskhash, True)
self.assertEqual(result_unihash['taskhash'], taskhash)
self.assertEqual(result_unihash['unihash'], unihash)
self.assertEqual(result_unihash['method'], self.METHOD)
result_outhash = self.client.get_outhash(self.METHOD, outhash, taskhash)
self.assertEqual(result_outhash['taskhash'], taskhash)
self.assertEqual(result_outhash['method'], self.METHOD)
self.assertEqual(result_outhash['unihash'], unihash)
self.assertEqual(result_outhash['outhash'], outhash)
self.assertEqual(result_outhash['outhash_siginfo'], siginfo)
def test_stress(self):
def query_server(failures):
client = Client(self.server.address)
try:
for i in range(1000):
taskhash = hashlib.sha256()
taskhash.update(str(i).encode('utf-8'))
taskhash = taskhash.hexdigest()
result = client.get_unihash(self.METHOD, taskhash)
if result != taskhash:
failures.append("taskhash mismatch: %s != %s" % (result, taskhash))
finally:
client.close()
# Report hashes
for i in range(1000):
taskhash = hashlib.sha256()
taskhash.update(str(i).encode('utf-8'))
taskhash = taskhash.hexdigest()
self.client.report_unihash(taskhash, self.METHOD, taskhash, taskhash)
failures = []
threads = [threading.Thread(target=query_server, args=(failures,)) for t in range(100)]
for t in threads:
t.start()
for t in threads:
t.join()
self.assertFalse(failures)
def test_upstream_server(self):
# Tests upstream server support. This is done by creating two servers
# that share a database file. The downstream server has it upstream
# set to the test server, whereas the side server doesn't. This allows
# verification that the hash requests are being proxied to the upstream
# server by verifying that they appear on the downstream client, but not
# the side client. It also verifies that the results are pulled into
# the downstream database by checking that the downstream and side servers
# match after the downstream is done waiting for all backfill tasks
(down_client, down_server) = self.start_server(upstream=self.server.address)
(side_client, side_server) = self.start_server(dbpath=down_server.dbpath)
def check_hash(taskhash, unihash, old_sidehash):
nonlocal down_client
nonlocal side_client
# check upstream server
self.assertClientGetHash(self.client, taskhash, unihash)
# Hash should *not* be present on the side server
self.assertClientGetHash(side_client, taskhash, old_sidehash)
# Hash should be present on the downstream server, since it
# will defer to the upstream server. This will trigger
# the backfill in the downstream server
self.assertClientGetHash(down_client, taskhash, unihash)
# After waiting for the downstream client to finish backfilling the
# task from the upstream server, it should appear in the side server
# since the database is populated
down_client.backfill_wait()
self.assertClientGetHash(side_client, taskhash, unihash)
# Basic report
taskhash = '8aa96fcffb5831b3c2c0cb75f0431e3f8b20554a'
outhash = 'afe240a439959ce86f5e322f8c208e1fedefea9e813f2140c81af866cc9edf7e'
unihash = '218e57509998197d570e2c98512d0105985dffc9'
self.client.report_unihash(taskhash, self.METHOD, outhash, unihash)
check_hash(taskhash, unihash, None)
# Duplicated taskhash with multiple output hashes and unihashes.
# All servers should agree with the originally reported hash
outhash2 = '0904a7fe3dc712d9fd8a74a616ddca2a825a8ee97adf0bd3fc86082c7639914d'
unihash2 = 'ae9a7d252735f0dafcdb10e2e02561ca3a47314c'
self.client.report_unihash(taskhash, self.METHOD, outhash2, unihash2)
check_hash(taskhash, unihash, unihash)
# Report an equivalent task. The sideload will originally report
# no unihash until backfilled
taskhash3 = "044c2ec8aaf480685a00ff6ff49e6162e6ad34e1"
unihash3 = "def64766090d28f627e816454ed46894bb3aab36"
self.client.report_unihash(taskhash3, self.METHOD, outhash, unihash3)
check_hash(taskhash3, unihash, None)
# Test that reporting a unihash in the downstream client isn't
# propagating to the upstream server
taskhash4 = "e3da00593d6a7fb435c7e2114976c59c5fd6d561"
outhash4 = "1cf8713e645f491eb9c959d20b5cae1c47133a292626dda9b10709857cbe688a"
unihash4 = "3b5d3d83f07f259e9086fcb422c855286e18a57d"
down_client.report_unihash(taskhash4, self.METHOD, outhash4, unihash4)
down_client.backfill_wait()
self.assertClientGetHash(down_client, taskhash4, unihash4)
self.assertClientGetHash(side_client, taskhash4, unihash4)
self.assertClientGetHash(self.client, taskhash4, None)
# Test that reporting a unihash in the downstream is able to find a
# match which was previously reported to the upstream server
taskhash5 = '35788efcb8dfb0a02659d81cf2bfd695fb30faf9'
outhash5 = '2765d4a5884be49b28601445c2760c5f21e7e5c0ee2b7e3fce98fd7e5970796f'
unihash5 = 'f46d3fbb439bd9b921095da657a4de906510d2cd'
result = self.client.report_unihash(taskhash5, self.METHOD, outhash5, unihash5)
taskhash6 = '35788efcb8dfb0a02659d81cf2bfd695fb30fafa'
unihash6 = 'f46d3fbb439bd9b921095da657a4de906510d2ce'
result = down_client.report_unihash(taskhash6, self.METHOD, outhash5, unihash6)
self.assertEqual(result['unihash'], unihash5, 'Server failed to copy unihash from upstream')
# Tests read through from server with
taskhash7 = '9d81d76242cc7cfaf7bf74b94b9cd2e29324ed74'
outhash7 = '8470d56547eea6236d7c81a644ce74670ca0bbda998e13c629ef6bb3f0d60b69'
unihash7 = '05d2a63c81e32f0a36542ca677e8ad852365c538'
self.client.report_unihash(taskhash7, self.METHOD, outhash7, unihash7)
result = down_client.get_taskhash(self.METHOD, taskhash7, True)
self.assertEqual(result['unihash'], unihash7, 'Server failed to copy unihash from upstream')
self.assertEqual(result['outhash'], outhash7, 'Server failed to copy unihash from upstream')
self.assertEqual(result['taskhash'], taskhash7, 'Server failed to copy unihash from upstream')
self.assertEqual(result['method'], self.METHOD)
taskhash8 = '86978a4c8c71b9b487330b0152aade10c1ee58aa'
outhash8 = 'ca8c128e9d9e4a28ef24d0508aa20b5cf880604eacd8f65c0e366f7e0cc5fbcf'
unihash8 = 'd8bcf25369d40590ad7d08c84d538982f2023e01'
self.client.report_unihash(taskhash8, self.METHOD, outhash8, unihash8)
result = down_client.get_outhash(self.METHOD, outhash8, taskhash8)
self.assertEqual(result['unihash'], unihash8, 'Server failed to copy unihash from upstream')
self.assertEqual(result['outhash'], outhash8, 'Server failed to copy unihash from upstream')
self.assertEqual(result['taskhash'], taskhash8, 'Server failed to copy unihash from upstream')
self.assertEqual(result['method'], self.METHOD)
taskhash9 = 'ae6339531895ddf5b67e663e6a374ad8ec71d81c'
outhash9 = 'afc78172c81880ae10a1fec994b5b4ee33d196a001a1b66212a15ebe573e00b5'
unihash9 = '6662e699d6e3d894b24408ff9a4031ef9b038ee8'
self.client.report_unihash(taskhash9, self.METHOD, outhash9, unihash9)
result = down_client.get_taskhash(self.METHOD, taskhash9, False)
self.assertEqual(result['unihash'], unihash9, 'Server failed to copy unihash from upstream')
self.assertEqual(result['taskhash'], taskhash9, 'Server failed to copy unihash from upstream')
self.assertEqual(result['method'], self.METHOD)
def test_ro_server(self):
(ro_client, ro_server) = self.start_server(dbpath=self.server.dbpath, read_only=True)
# Report a hash via the read-write server
taskhash = '35788efcb8dfb0a02659d81cf2bfd695fb30faf9'
outhash = '2765d4a5884be49b28601445c2760c5f21e7e5c0ee2b7e3fce98fd7e5970796f'
unihash = 'f46d3fbb439bd9b921095da657a4de906510d2cd'
result = self.client.report_unihash(taskhash, self.METHOD, outhash, unihash)
self.assertEqual(result['unihash'], unihash, 'Server returned bad unihash')
# Check the hash via the read-only server
self.assertClientGetHash(ro_client, taskhash, unihash)
# Ensure that reporting via the read-only server fails
taskhash2 = 'c665584ee6817aa99edfc77a44dd853828279370'
outhash2 = '3c979c3db45c569f51ab7626a4651074be3a9d11a84b1db076f5b14f7d39db44'
unihash2 = '90e9bc1d1f094c51824adca7f8ea79a048d68824'
with self.assertRaises(ConnectionError):
ro_client.report_unihash(taskhash2, self.METHOD, outhash2, unihash2)
# Ensure that the database was not modified
self.assertClientGetHash(self.client, taskhash2, None)
def test_slow_server_start(self):
# Ensures that the server will exit correctly even if it gets a SIGTERM
# before entering the main loop
event = multiprocessing.Event()
def prefunc(server, idx):
nonlocal event
server_prefunc(server, idx)
event.wait()
def do_nothing(signum, frame):
pass
old_signal = signal.signal(signal.SIGTERM, do_nothing)
self.addCleanup(signal.signal, signal.SIGTERM, old_signal)
_, server = self.start_server(prefunc=prefunc)
server.process.terminate()
time.sleep(30)
event.set()
server.process.join(300)
self.assertIsNotNone(server.process.exitcode, "Server did not exit in a timely manner!")
def test_diverging_report_race(self):
# Tests that a reported task will correctly pick up an updated unihash
# This is a baseline report added to the database to ensure that there
# is something to match against as equivalent
outhash1 = 'afd11c366050bcd75ad763e898e4430e2a60659b26f83fbb22201a60672019fa'
taskhash1 = '3bde230c743fc45ab61a065d7a1815fbfa01c4740e4c895af2eb8dc0f684a4ab'
unihash1 = '3bde230c743fc45ab61a065d7a1815fbfa01c4740e4c895af2eb8dc0f684a4ab'
result = self.client.report_unihash(taskhash1, self.METHOD, outhash1, unihash1)
# Add a report that is equivalent to Task 1. It should ignore the
# provided unihash and report the unihash from task 1
taskhash2 = '6259ae8263bd94d454c086f501c37e64c4e83cae806902ca95b4ab513546b273'
unihash2 = taskhash2
result = self.client.report_unihash(taskhash2, self.METHOD, outhash1, unihash2)
self.assertEqual(result['unihash'], unihash1)
# Add another report for Task 2, but with a different outhash (e.g. the
# task is non-deterministic). It should still be marked with the Task 1
# unihash because it has the Task 2 taskhash, which is equivalent to
# Task 1
outhash3 = 'd2187ee3a8966db10b34fe0e863482288d9a6185cb8ef58a6c1c6ace87a2f24c'
result = self.client.report_unihash(taskhash2, self.METHOD, outhash3, unihash2)
self.assertEqual(result['unihash'], unihash1)
def test_diverging_report_reverse_race(self):
# Same idea as the previous test, but Tasks 2 and 3 are reported in
# reverse order the opposite order
outhash1 = 'afd11c366050bcd75ad763e898e4430e2a60659b26f83fbb22201a60672019fa'
taskhash1 = '3bde230c743fc45ab61a065d7a1815fbfa01c4740e4c895af2eb8dc0f684a4ab'
unihash1 = '3bde230c743fc45ab61a065d7a1815fbfa01c4740e4c895af2eb8dc0f684a4ab'
result = self.client.report_unihash(taskhash1, self.METHOD, outhash1, unihash1)
taskhash2 = '6259ae8263bd94d454c086f501c37e64c4e83cae806902ca95b4ab513546b273'
unihash2 = taskhash2
# Report Task 3 first. Since there is nothing else in the database it
# will use the client provided unihash
outhash3 = 'd2187ee3a8966db10b34fe0e863482288d9a6185cb8ef58a6c1c6ace87a2f24c'
result = self.client.report_unihash(taskhash2, self.METHOD, outhash3, unihash2)
self.assertEqual(result['unihash'], unihash2)
# Report Task 2. This is equivalent to Task 1, so will pick up the
# unihash from that task
result = self.client.report_unihash(taskhash2, self.METHOD, outhash1, unihash2)
self.assertEqual(result['unihash'], unihash1)
# The originally reported unihash for Task 3 should have been updated
# with the second report to use the new unihash from Task 1 (because is
# shares a taskhash with Task 2)
self.assertClientGetHash(self.client, taskhash2, unihash1)
class TestHashEquivalenceUnixServer(HashEquivalenceTestSetup, HashEquivalenceCommonTests, unittest.TestCase):
def get_server_addr(self, server_idx):
return "unix://" + os.path.join(self.temp_dir.name, 'sock%d' % server_idx)
class TestHashEquivalenceUnixServerLongPath(HashEquivalenceTestSetup, unittest.TestCase):
DEEP_DIRECTORY = "aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa/bbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbb/ccccccccccccccccccccccccccccccccccccccccccc"
def get_server_addr(self, server_idx):
os.makedirs(os.path.join(self.temp_dir.name, self.DEEP_DIRECTORY), exist_ok=True)
return "unix://" + os.path.join(self.temp_dir.name, self.DEEP_DIRECTORY, 'sock%d' % server_idx)
def test_long_sock_path(self):
# Simple test that hashes can be created
taskhash = '35788efcb8dfb0a02659d81cf2bfd695fb30faf9'
outhash = '2765d4a5884be49b28601445c2760c5f21e7e5c0ee2b7e3fce98fd7e5970796f'
unihash = 'f46d3fbb439bd9b921095da657a4de906510d2cd'
self.assertClientGetHash(self.client, taskhash, None)
result = self.client.report_unihash(taskhash, self.METHOD, outhash, unihash)
self.assertEqual(result['unihash'], unihash, 'Server returned bad unihash')
class TestHashEquivalenceTCPServer(HashEquivalenceTestSetup, HashEquivalenceCommonTests, unittest.TestCase):
def get_server_addr(self, server_idx):
# Some hosts cause asyncio module to misbehave, when IPv6 is not enabled.
# If IPv6 is enabled, it should be safe to use localhost directly, in general
# case it is more reliable to resolve the IP address explicitly.
return socket.gethostbyname("localhost") + ":0"
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