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gerrit.openbmc.org / openbmc / openbmc / c9f7865a347606a64696048817b0f09d9c3fcd31 / . / poky / bitbake / lib / hashserv / tests.py
blob: b34c4368763dd3db4eeb36443e8ae7187949e473 [file] [log] [blame]
#! /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
class TestHashEquivalenceServer(object):
METHOD = 'TestMethod'
def _run_server(self):
# logging.basicConfig(level=logging.DEBUG, filename='bbhashserv.log', filemode='w',
# format='%(levelname)s %(filename)s:%(lineno)d %(message)s')
self.server.serve_forever()
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.dbfile = os.path.join(self.temp_dir.name, 'db.sqlite')
self.server = create_server(self.get_server_addr(), self.dbfile)
self.server_thread = multiprocessing.Process(target=self._run_server)
self.server_thread.start()
self.client = create_client(self.server.address)
def tearDown(self):
# Shutdown server
s = getattr(self, 'server', None)
if s is not None:
self.server_thread.terminate()
self.server_thread.join()
self.client.close()
self.temp_dir.cleanup()
def test_create_hash(self):
# Simple test that hashes can be created
taskhash = '35788efcb8dfb0a02659d81cf2bfd695fb30faf9'
outhash = '2765d4a5884be49b28601445c2760c5f21e7e5c0ee2b7e3fce98fd7e5970796f'
unihash = 'f46d3fbb439bd9b921095da657a4de906510d2cd'
result = self.client.get_unihash(self.METHOD, taskhash)
self.assertIsNone(result, msg='Found unexpected task, %r' % result)
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)
result = self.client.get_unihash(self.METHOD, taskhash)
self.assertEqual(result, unihash)
outhash2 = '0904a7fe3dc712d9fd8a74a616ddca2a825a8ee97adf0bd3fc86082c7639914d'
unihash2 = 'ae9a7d252735f0dafcdb10e2e02561ca3a47314c'
self.client.report_unihash(taskhash, self.METHOD, outhash2, unihash2)
result = self.client.get_unihash(self.METHOD, taskhash)
self.assertEqual(result, unihash)
outhash3 = '77623a549b5b1a31e3732dfa8fe61d7ce5d44b3370f253c5360e136b852967b4'
unihash3 = '9217a7d6398518e5dc002ed58f2cbbbc78696603'
self.client.report_unihash(taskhash, self.METHOD, outhash3, unihash3)
result = self.client.get_unihash(self.METHOD, taskhash)
self.assertEqual(result, unihash)
def test_huge_message(self):
# Simple test that hashes can be created
taskhash = 'c665584ee6817aa99edfc77a44dd853828279370'
outhash = '3c979c3db45c569f51ab7626a4651074be3a9d11a84b1db076f5b14f7d39db44'
unihash = '90e9bc1d1f094c51824adca7f8ea79a048d68824'
result = self.client.get_unihash(self.METHOD, taskhash)
self.assertIsNone(result, msg='Found unexpected task, %r' % result)
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 = self.client.get_taskhash(self.METHOD, taskhash, True)
self.assertEqual(result['taskhash'], taskhash)
self.assertEqual(result['unihash'], unihash)
self.assertEqual(result['method'], self.METHOD)
self.assertEqual(result['outhash'], outhash)
self.assertEqual(result['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)
class TestHashEquivalenceUnixServer(TestHashEquivalenceServer, unittest.TestCase):
def get_server_addr(self):
return "unix://" + os.path.join(self.temp_dir.name, 'sock')
class TestHashEquivalenceTCPServer(TestHashEquivalenceServer, unittest.TestCase):
def get_server_addr(self):
return "localhost:0"