From: Brian Warner Date: Tue, 24 Feb 2009 05:15:06 +0000 (-0700) Subject: test_repairer: change to use faster no_network.GridTestMixin, split Verifier tests... X-Git-Url: https://git.rkrishnan.org/pf/content/simplejson/decoder.py.html?a=commitdiff_plain;h=7cfbb9c83292110e04bf5bc2191adb50bc891a4d;p=tahoe-lafs%2Ftahoe-lafs.git test_repairer: change to use faster no_network.GridTestMixin, split Verifier tests into separate cases, refactor judgement funcs into shared methods --- diff --git a/src/allmydata/test/no_network.py b/src/allmydata/test/no_network.py index 633accba..79233d4f 100644 --- a/src/allmydata/test/no_network.py +++ b/src/allmydata/test/no_network.py @@ -276,3 +276,10 @@ class GridTestMixin: sharedata = open(sharefile, "rb").read() corruptdata = corruptor_function(sharedata) open(sharefile, "wb").write(corruptdata) + + def corrupt_shares_numbered(self, uri, shnums, corruptor): + for (i_shnum, i_serverid, i_sharefile) in self.find_shares(uri): + if i_shnum in shnums: + sharedata = open(i_sharefile, "rb").read() + corruptdata = corruptor(sharedata) + open(i_sharefile, "wb").write(corruptdata) diff --git a/src/allmydata/test/test_repairer.py b/src/allmydata/test/test_repairer.py index 9ff7928e..e8b63e89 100644 --- a/src/allmydata/test/test_repairer.py +++ b/src/allmydata/test/test_repairer.py @@ -13,328 +13,288 @@ from no_network import GridTestMixin READ_LEEWAY = 18 MAX_DELTA_READS = 10 * READ_LEEWAY # N = 10 -class Verifier(common.ShareManglingMixin, unittest.TestCase): - def test_check_without_verify(self): - """Check says the file is healthy when none of the shares have been - touched. It says that the file is unhealthy when all of them have - been removed. It doesn't use any reads. - """ - d = defer.succeed(self.filenode) - def _check1(filenode): - before_check_reads = self._count_reads() - d2 = filenode.check(Monitor(), verify=False) - def _after_check(checkresults): - after_check_reads = self._count_reads() - self.failIf(after_check_reads - before_check_reads > 0, after_check_reads - before_check_reads) - self.failUnless(checkresults.is_healthy()) +class RepairTestMixin: + def failUnlessIsInstance(self, x, xtype): + self.failUnless(isinstance(x, xtype), x) - d2.addCallback(_after_check) - return d2 - d.addCallback(_check1) + def _count_reads(self): + sum_of_read_counts = 0 + for (i, ss, storedir) in self.iterate_servers(): + counters = ss.stats_provider.get_stats()['counters'] + sum_of_read_counts += counters.get('storage_server.read', 0) + return sum_of_read_counts + + def _count_allocates(self): + sum_of_allocate_counts = 0 + for (i, ss, storedir) in self.iterate_servers(): + counters = ss.stats_provider.get_stats()['counters'] + sum_of_allocate_counts += counters.get('storage_server.allocate', 0) + return sum_of_allocate_counts - d.addCallback(lambda ignore: self.replace_shares({}, storage_index=self.uri.storage_index)) - def _check2(ignored): - before_check_reads = self._count_reads() - d2 = self.filenode.check(Monitor(), verify=False) + def _count_writes(self): + sum_of_write_counts = 0 + for (i, ss, storedir) in self.iterate_servers(): + counters = ss.stats_provider.get_stats()['counters'] + sum_of_write_counts += counters.get('storage_server.write', 0) + return sum_of_write_counts - def _after_check(checkresults): - after_check_reads = self._count_reads() - self.failIf(after_check_reads - before_check_reads > 0, after_check_reads - before_check_reads) - self.failIf(checkresults.is_healthy()) + def _stash_counts(self): + self.before_repair_reads = self._count_reads() + self.before_repair_allocates = self._count_allocates() + self.before_repair_writes = self._count_writes() - d2.addCallback(_after_check) - return d2 - d.addCallback(_check2) + def _get_delta_counts(self): + delta_reads = self._count_reads() - self.before_repair_reads + delta_allocates = self._count_allocates() - self.before_repair_allocates + delta_writes = self._count_writes() - self.before_repair_writes + return (delta_reads, delta_allocates, delta_writes) + def failIfBigger(self, x, y): + self.failIf(x > y, "%s > %s" % (x, y)) + + def upload_and_stash(self): + c0 = self.g.clients[0] + c1 = self.g.clients[1] + c0.DEFAULT_ENCODING_PARAMETERS['max_segment_size'] = 12 + d = c0.upload(upload.Data(common.TEST_DATA, convergence="")) + def _stash_uri(ur): + self.uri = ur.uri + self.c0_filenode = c0.create_node_from_uri(ur.uri) + self.c1_filenode = c1.create_node_from_uri(ur.uri) + d.addCallback(_stash_uri) return d - def _help_test_verify(self, corruptor_funcs, judgement_func): - d = defer.succeed(None) +class Verifier(GridTestMixin, unittest.TestCase, RepairTestMixin): + def test_check_without_verify(self): + """Check says the file is healthy when none of the shares have been + touched. It says that the file is unhealthy when all of them have + been removed. It doesn't use any reads. + """ + self.basedir = "repairer/Verifier/check_without_verify" + self.set_up_grid(num_clients=2) + d = self.upload_and_stash() + d.addCallback(lambda ignored: self._stash_counts()) + d.addCallback(lambda ignored: + self.c0_filenode.check(Monitor(), verify=False)) + def _check(cr): + self.failUnless(cr.is_healthy()) + delta_reads, delta_allocates, delta_writes = self._get_delta_counts() + self.failIfBigger(delta_reads, 0) + d.addCallback(_check) - d.addCallback(self.find_shares) - stash = [None] - def _stash_it(res): - stash[0] = res - return res - d.addCallback(_stash_it) - def _put_it_all_back(ignored): - self.replace_shares(stash[0], storage_index=self.uri.storage_index) - return ignored + def _remove_all(ignored): + for sh in self.find_shares(self.uri): + self.delete_share(sh) + d.addCallback(_remove_all) - def _verify_after_corruption(shnum, corruptor_func): - before_check_reads = self._count_reads() - d2 = self.filenode.check(Monitor(), verify=True) - def _after_check(checkresults): - after_check_reads = self._count_reads() - self.failIf(after_check_reads - before_check_reads > MAX_DELTA_READS, (after_check_reads, before_check_reads)) - try: - return judgement_func(checkresults) - except Exception, le: - le.args = tuple(le.args + ("corruptor_func: " + corruptor_func.__name__,)) - raise - - d2.addCallback(_after_check) - return d2 + d.addCallback(lambda ignored: self._stash_counts()) + d.addCallback(lambda ignored: + self.c0_filenode.check(Monitor(), verify=False)) + def _check2(cr): + self.failIf(cr.is_healthy()) + delta_reads, delta_allocates, delta_writes = self._get_delta_counts() + self.failIfBigger(delta_reads, 0) + d.addCallback(_check2) + return d - for corruptor_func in corruptor_funcs: - d.addCallback(self._corrupt_a_random_share, corruptor_func) - d.addCallback(_verify_after_corruption, corruptor_func) - d.addCallback(_put_it_all_back) + def _help_test_verify(self, corruptor, judgement, shnum=0): + self.set_up_grid(num_clients=2) + d = self.upload_and_stash() + d.addCallback(lambda ignored: self._stash_counts()) + d.addCallback(lambda ignored: + self.corrupt_shares_numbered(self.uri, [shnum],corruptor)) + d.addCallback(lambda ignored: + self.c1_filenode.check(Monitor(), verify=True)) + def _check(vr): + delta_reads, delta_allocates, delta_writes = self._get_delta_counts() + self.failIfBigger(delta_reads, MAX_DELTA_READS) + try: + judgement(vr) + except unittest.FailTest, e: + # FailTest just uses e.args[0] == str + new_arg = str(e.args[0]) + "\nvr.data is: " + str(vr.get_data()) + e.args = (new_arg,) + raise + d.addCallback(_check) return d - def test_verify_no_problem(self): + def judge_no_problem(self, vr): """ Verify says the file is healthy when none of the shares have been touched in a way that matters. It doesn't use more than seven times as many reads as it needs.""" - def judge(checkresults): - self.failUnless(checkresults.is_healthy(), (checkresults, checkresults.is_healthy(), checkresults.get_data())) - data = checkresults.get_data() - self.failUnless(data['count-shares-good'] == 10, data) - self.failUnless(len(data['sharemap']) == 10, data) - self.failUnless(data['count-shares-needed'] == 3, data) - self.failUnless(data['count-shares-expected'] == 10, data) - self.failUnless(data['count-good-share-hosts'] == 5, data) - self.failUnless(len(data['servers-responding']) == 5, data) - self.failUnless(len(data['list-corrupt-shares']) == 0, data) - return self._help_test_verify([ - common._corrupt_nothing, - common._corrupt_size_of_file_data, - common._corrupt_size_of_sharedata, - common._corrupt_segment_size, ], judge) - - def test_verify_server_visible_corruption(self): + self.failUnless(vr.is_healthy(), (vr, vr.is_healthy(), vr.get_data())) + data = vr.get_data() + self.failUnless(data['count-shares-good'] == 10, data) + self.failUnless(len(data['sharemap']) == 10, data) + self.failUnless(data['count-shares-needed'] == 3, data) + self.failUnless(data['count-shares-expected'] == 10, data) + self.failUnless(data['count-good-share-hosts'] == 10, data) + self.failUnless(len(data['servers-responding']) == 10, data) + self.failUnless(len(data['list-corrupt-shares']) == 0, data) + + def test_verify_no_problem_1(self): + self.basedir = "repairer/Verify/verify_no_problem_1" + return self._help_test_verify(common._corrupt_nothing, + self.judge_no_problem) + + def test_verify_no_problem_2(self): + self.basedir = "repairer/Verify/verify_no_problem_2" + return self._help_test_verify(common._corrupt_size_of_file_data, + self.judge_no_problem) + + def test_verify_no_problem_3(self): + self.basedir = "repairer/Verify/verify_no_problem_3" + return self._help_test_verify(common._corrupt_size_of_sharedata, + self.judge_no_problem) + + def test_verify_no_problem_4(self): + self.basedir = "repairer/Verify/verify_no_problem_4" + return self._help_test_verify(common._corrupt_segment_size, + self.judge_no_problem) + + def judge_visible_corruption(self, vr): """Corruption which is detected by the server means that the server will send you back a Failure in response to get_bucket instead of giving you the share data. Test that verifier handles these answers correctly. It doesn't use more than seven times as many reads as it needs.""" - def judge(checkresults): - self.failIf(checkresults.is_healthy(), (checkresults, checkresults.is_healthy(), checkresults.get_data())) - data = checkresults.get_data() - # The server might fail to serve up its other share as well as - # the corrupted one, so count-shares-good could be 8 or 9. - self.failUnless(data['count-shares-good'] in (8, 9), data) - self.failUnless(len(data['sharemap']) in (8, 9,), data) - self.failUnless(data['count-shares-needed'] == 3, data) - self.failUnless(data['count-shares-expected'] == 10, data) - # The server may have served up the non-corrupted share, or it - # may not have, so the checker could have detected either 4 or 5 - # good servers. - self.failUnless(data['count-good-share-hosts'] in (4, 5), data) - self.failUnless(len(data['servers-responding']) in (4, 5), data) - # If the server served up the other share, then the checker - # should consider it good, else it should not. - self.failUnless((data['count-shares-good'] == 9) == (data['count-good-share-hosts'] == 5), data) - self.failUnless(len(data['list-corrupt-shares']) == 0, data) - return self._help_test_verify([ - common._corrupt_file_version_number, - ], judge) - - def test_verify_share_incompatibility(self): - def judge(checkresults): - self.failIf(checkresults.is_healthy(), (checkresults, checkresults.is_healthy(), checkresults.get_data())) - data = checkresults.get_data() - self.failUnless(data['count-shares-good'] == 9, data) - self.failUnless(len(data['sharemap']) == 9, data) - self.failUnless(data['count-shares-needed'] == 3, data) - self.failUnless(data['count-shares-expected'] == 10, data) - self.failUnless(data['count-good-share-hosts'] == 5, data) - self.failUnless(len(data['servers-responding']) == 5, data) - self.failUnless(len(data['list-corrupt-shares']) == 1, data) - self.failUnless(len(data['list-corrupt-shares']) == data['count-corrupt-shares'], data) - self.failUnless(len(data['list-incompatible-shares']) == data['count-incompatible-shares'], data) - self.failUnless(len(data['list-incompatible-shares']) == 0, data) - return self._help_test_verify([ - common._corrupt_sharedata_version_number, - ], judge) - - def test_verify_server_invisible_corruption(self): - def judge(checkresults): - self.failIf(checkresults.is_healthy(), (checkresults, checkresults.is_healthy(), checkresults.get_data())) - data = checkresults.get_data() - self.failUnless(data['count-shares-good'] == 9, data) - self.failUnless(data['count-shares-needed'] == 3, data) - self.failUnless(data['count-shares-expected'] == 10, data) - self.failUnless(data['count-good-share-hosts'] == 5, data) - self.failUnless(data['count-corrupt-shares'] == 1, (data,)) - self.failUnless(len(data['list-corrupt-shares']) == 1, data) - self.failUnless(len(data['list-corrupt-shares']) == data['count-corrupt-shares'], data) - self.failUnless(len(data['list-incompatible-shares']) == data['count-incompatible-shares'], data) - self.failUnless(len(data['list-incompatible-shares']) == 0, data) - self.failUnless(len(data['servers-responding']) == 5, data) - self.failUnless(len(data['sharemap']) == 9, data) - return self._help_test_verify([ - common._corrupt_offset_of_sharedata, - common._corrupt_offset_of_uri_extension, - common._corrupt_offset_of_uri_extension_to_force_short_read, - common._corrupt_share_data, - common._corrupt_length_of_uri_extension, - common._corrupt_uri_extension, - ], judge) + self.failIf(vr.is_healthy(), (vr, vr.is_healthy(), vr.get_data())) + data = vr.get_data() + self.failUnless(data['count-shares-good'] == 9, data) + self.failUnless(len(data['sharemap']) == 9, data) + self.failUnless(data['count-shares-needed'] == 3, data) + self.failUnless(data['count-shares-expected'] == 10, data) + self.failUnless(data['count-good-share-hosts'] == 9, data) + self.failUnless(len(data['servers-responding']) == 10, data) + self.failUnless(len(data['list-corrupt-shares']) == 0, data) + + def test_verify_server_visible_corruption(self): + self.basedir = "repairer/Verify/verify_server_visible_corruption" + return self._help_test_verify(common._corrupt_file_version_number, + self.judge_visible_corruption) + + def judge_share_version_incompatibility(self, vr): + # corruption of the share version (inside the container, the 1/2 + # value that determines whether we've got 4-byte offsets or 8-byte + # offsets) to something larger than 2 will trigger a + # ShareVersionIncompatible exception, which should be counted in + # list-incompatible-shares, rather than list-corrupt-shares. + self.failIf(vr.is_healthy(), (vr, vr.is_healthy(), vr.get_data())) + data = vr.get_data() + self.failUnlessEqual(data['count-shares-good'], 9) + self.failUnlessEqual(len(data['sharemap']), 9) + self.failUnlessEqual(data['count-shares-needed'], 3) + self.failUnlessEqual(data['count-shares-expected'], 10) + self.failUnlessEqual(data['count-good-share-hosts'], 9) + self.failUnlessEqual(len(data['servers-responding']), 10) + self.failUnlessEqual(len(data['list-corrupt-shares']), 0) + self.failUnlessEqual(data['count-corrupt-shares'], 0) + self.failUnlessEqual(len(data['list-incompatible-shares']), 1) + self.failUnlessEqual(data['count-incompatible-shares'], 1) + + def test_verify_share_version_incompatibility(self): + self.basedir = "repairer/Verify/verify_share_version_incompatibility" + return self._help_test_verify(common._corrupt_sharedata_version_number, + self.judge_share_version_incompatibility) + + def judge_invisible_corruption(self, vr): + # corruption of fields that the server does not check (which is most + # of them), which will be detected by the client as it downloads + # those shares. + self.failIf(vr.is_healthy(), (vr, vr.is_healthy(), vr.get_data())) + data = vr.get_data() + self.failUnlessEqual(data['count-shares-good'], 9) + self.failUnlessEqual(data['count-shares-needed'], 3) + self.failUnlessEqual(data['count-shares-expected'], 10) + self.failUnlessEqual(data['count-good-share-hosts'], 9) + self.failUnlessEqual(data['count-corrupt-shares'], 1) + self.failUnlessEqual(len(data['list-corrupt-shares']), 1) + self.failUnlessEqual(data['count-incompatible-shares'], 0) + self.failUnlessEqual(len(data['list-incompatible-shares']), 0) + self.failUnlessEqual(len(data['servers-responding']), 10) + self.failUnlessEqual(len(data['sharemap']), 9) + + def test_verify_server_invisible_corruption_1(self): + self.basedir = "repairer/Verify/verify_server_invisible_corruption_1" + return self._help_test_verify(common._corrupt_offset_of_sharedata, + self.judge_invisible_corruption) + + def test_verify_server_invisible_corruption_2(self): + self.basedir = "repairer/Verify/verify_server_invisible_corruption_2" + return self._help_test_verify(common._corrupt_offset_of_uri_extension, + self.judge_invisible_corruption) + + def test_verify_server_invisible_corruption_3(self): + self.basedir = "repairer/Verify/verify_server_invisible_corruption_3" + return self._help_test_verify(common._corrupt_offset_of_uri_extension_to_force_short_read, + self.judge_invisible_corruption) + + def test_verify_server_invisible_corruption_4(self): + self.basedir = "repairer/Verify/verify_server_invisible_corruption_4" + return self._help_test_verify(common._corrupt_share_data, + self.judge_invisible_corruption) + + def test_verify_server_invisible_corruption_5(self): + self.basedir = "repairer/Verify/verify_server_invisible_corruption_5" + return self._help_test_verify(common._corrupt_length_of_uri_extension, + self.judge_invisible_corruption) + + def test_verify_server_invisible_corruption_6(self): + self.basedir = "repairer/Verify/verify_server_invisible_corruption_6" + return self._help_test_verify(common._corrupt_uri_extension, + self.judge_invisible_corruption) def test_verify_server_invisible_corruption_offset_of_block_hashtree_to_truncate_crypttext_hashtree_TODO(self): - def judge(checkresults): - self.failIf(checkresults.is_healthy(), (checkresults, checkresults.is_healthy(), checkresults.get_data())) - data = checkresults.get_data() - self.failUnless(data['count-shares-good'] == 9, data) - self.failUnless(data['count-shares-needed'] == 3, data) - self.failUnless(data['count-shares-expected'] == 10, data) - self.failUnless(data['count-good-share-hosts'] == 5, data) - self.failUnless(data['count-corrupt-shares'] == 1, (data,)) - self.failUnless(len(data['list-corrupt-shares']) == 1, data) - self.failUnless(len(data['list-corrupt-shares']) == data['count-corrupt-shares'], data) - self.failUnless(len(data['list-incompatible-shares']) == data['count-incompatible-shares'], data) - self.failUnless(len(data['list-incompatible-shares']) == 0, data) - self.failUnless(len(data['servers-responding']) == 5, data) - self.failUnless(len(data['sharemap']) == 9, data) - return self._help_test_verify([ - common._corrupt_offset_of_block_hashes_to_truncate_crypttext_hashes, - ], judge) + self.basedir = "repairer/Verify/verify_server_invisible_corruption_offset_of_block_hashtree_to_truncate_crypttext_hashtree" + return self._help_test_verify(common._corrupt_offset_of_block_hashes_to_truncate_crypttext_hashes, + self.judge_invisible_corruption) test_verify_server_invisible_corruption_offset_of_block_hashtree_to_truncate_crypttext_hashtree_TODO.todo = "Verifier doesn't yet properly detect this kind of corruption." def test_verify_server_invisible_corruption_offset_of_block_hashtree_TODO(self): - def judge(checkresults): - self.failIf(checkresults.is_healthy(), (checkresults, checkresults.is_healthy(), checkresults.get_data())) - data = checkresults.get_data() - self.failUnless(data['count-shares-good'] == 9, data) - self.failUnless(data['count-shares-needed'] == 3, data) - self.failUnless(data['count-shares-expected'] == 10, data) - self.failUnless(data['count-good-share-hosts'] == 5, data) - self.failUnless(data['count-corrupt-shares'] == 1, (data,)) - self.failUnless(len(data['list-corrupt-shares']) == 1, data) - self.failUnless(len(data['list-corrupt-shares']) == data['count-corrupt-shares'], data) - self.failUnless(len(data['list-incompatible-shares']) == data['count-incompatible-shares'], data) - self.failUnless(len(data['list-incompatible-shares']) == 0, data) - self.failUnless(len(data['servers-responding']) == 5, data) - self.failUnless(len(data['sharemap']) == 9, data) - return self._help_test_verify([ - common._corrupt_offset_of_block_hashes, - ], judge) + self.basedir = "repairer/Verify/verify_server_invisible_corruption_offset_of_block_hashtree" + return self._help_test_verify(common._corrupt_offset_of_block_hashes, + self.judge_invisible_corruption) test_verify_server_invisible_corruption_offset_of_block_hashtree_TODO.todo = "Verifier doesn't yet properly detect this kind of corruption." def test_verify_server_invisible_corruption_sharedata_plausible_version(self): - def judge(checkresults): - self.failIf(checkresults.is_healthy(), (checkresults, checkresults.is_healthy(), checkresults.get_data())) - data = checkresults.get_data() - self.failUnless(data['count-shares-good'] == 9, data) - self.failUnless(data['count-shares-needed'] == 3, data) - self.failUnless(data['count-shares-expected'] == 10, data) - self.failUnless(data['count-good-share-hosts'] == 5, data) - self.failUnless(data['count-corrupt-shares'] == 1, (data,)) - self.failUnless(len(data['list-corrupt-shares']) == 1, data) - self.failUnless(len(data['list-corrupt-shares']) == data['count-corrupt-shares'], data) - self.failUnless(len(data['list-incompatible-shares']) == data['count-incompatible-shares'], data) - self.failUnless(len(data['list-incompatible-shares']) == 0, data) - self.failUnless(len(data['servers-responding']) == 5, data) - self.failUnless(len(data['sharemap']) == 9, data) - return self._help_test_verify([ - common._corrupt_sharedata_version_number_to_plausible_version, - ], judge) + self.basedir = "repairer/Verify/verify_server_invisible_corruption_sharedata_plausible_version" + return self._help_test_verify(common._corrupt_sharedata_version_number_to_plausible_version, + self.judge_invisible_corruption) def test_verify_server_invisible_corruption_offset_of_share_hashtree_TODO(self): - def judge(checkresults): - self.failIf(checkresults.is_healthy(), (checkresults, checkresults.is_healthy(), checkresults.get_data())) - data = checkresults.get_data() - self.failUnless(data['count-shares-good'] == 9, data) - self.failUnless(data['count-shares-needed'] == 3, data) - self.failUnless(data['count-shares-expected'] == 10, data) - self.failUnless(data['count-good-share-hosts'] == 5, data) - self.failUnless(data['count-corrupt-shares'] == 1, (data,)) - self.failUnless(len(data['list-corrupt-shares']) == 1, data) - self.failUnless(len(data['list-corrupt-shares']) == data['count-corrupt-shares'], data) - self.failUnless(len(data['list-incompatible-shares']) == data['count-incompatible-shares'], data) - self.failUnless(len(data['list-incompatible-shares']) == 0, data) - self.failUnless(len(data['servers-responding']) == 5, data) - self.failUnless(len(data['sharemap']) == 9, data) - return self._help_test_verify([ - common._corrupt_offset_of_share_hashes, - ], judge) + self.basedir = "repairer/Verify/verify_server_invisible_corruption_offset_of_share_hashtree" + return self._help_test_verify(common._corrupt_offset_of_share_hashes, + self.judge_invisible_corruption) test_verify_server_invisible_corruption_offset_of_share_hashtree_TODO.todo = "Verifier doesn't yet properly detect this kind of corruption." def test_verify_server_invisible_corruption_offset_of_ciphertext_hashtree_TODO(self): - def judge(checkresults): - self.failIf(checkresults.is_healthy(), (checkresults, checkresults.is_healthy(), checkresults.get_data())) - data = checkresults.get_data() - self.failUnless(data['count-shares-good'] == 9, data) - self.failUnless(data['count-shares-needed'] == 3, data) - self.failUnless(data['count-shares-expected'] == 10, data) - self.failUnless(data['count-good-share-hosts'] == 5, data) - self.failUnless(data['count-corrupt-shares'] == 1, (data,)) - self.failUnless(len(data['list-corrupt-shares']) == 1, data) - self.failUnless(len(data['list-corrupt-shares']) == data['count-corrupt-shares'], data) - self.failUnless(len(data['list-incompatible-shares']) == data['count-incompatible-shares'], data) - self.failUnless(len(data['list-incompatible-shares']) == 0, data) - self.failUnless(len(data['servers-responding']) == 5, data) - self.failUnless(len(data['sharemap']) == 9, data) - return self._help_test_verify([ - common._corrupt_offset_of_ciphertext_hash_tree, - ], judge) + self.basedir = "repairer/Verify/verify_server_invisible_corruption_offset_of_ciphertext_hashtree" + return self._help_test_verify(common._corrupt_offset_of_ciphertext_hash_tree, + self.judge_invisible_corruption) test_verify_server_invisible_corruption_offset_of_ciphertext_hashtree_TODO.todo = "Verifier doesn't yet properly detect this kind of corruption." def test_verify_server_invisible_corruption_cryptext_hash_tree_TODO(self): - def judge(checkresults): - self.failIf(checkresults.is_healthy(), (checkresults, checkresults.is_healthy(), checkresults.get_data())) - data = checkresults.get_data() - self.failUnless(data['count-shares-good'] == 9, data) - self.failUnless(data['count-shares-needed'] == 3, data) - self.failUnless(data['count-shares-expected'] == 10, data) - self.failUnless(data['count-good-share-hosts'] == 5, data) - self.failUnless(data['count-corrupt-shares'] == 1, (data,)) - self.failUnless(len(data['list-corrupt-shares']) == 1, data) - self.failUnless(len(data['list-corrupt-shares']) == data['count-corrupt-shares'], data) - self.failUnless(len(data['list-incompatible-shares']) == data['count-incompatible-shares'], data) - self.failUnless(len(data['list-incompatible-shares']) == 0, data) - self.failUnless(len(data['servers-responding']) == 5, data) - self.failUnless(len(data['sharemap']) == 9, data) - return self._help_test_verify([ - common._corrupt_crypttext_hash_tree, - ], judge) + self.basedir = "repairer/Verify/verify_server_invisible_corruption_cryptext_hash_tree" + return self._help_test_verify(common._corrupt_crypttext_hash_tree, + self.judge_invisible_corruption) test_verify_server_invisible_corruption_cryptext_hash_tree_TODO.todo = "Verifier doesn't yet properly detect this kind of corruption." def test_verify_server_invisible_corruption_block_hash_tree_TODO(self): - def judge(checkresults): - self.failIf(checkresults.is_healthy(), (checkresults, checkresults.is_healthy(), checkresults.get_data())) - data = checkresults.get_data() - self.failUnless(data['count-shares-good'] == 9, data) - self.failUnless(data['count-shares-needed'] == 3, data) - self.failUnless(data['count-shares-expected'] == 10, data) - self.failUnless(data['count-good-share-hosts'] == 5, data) - self.failUnless(data['count-corrupt-shares'] == 1, (data,)) - self.failUnless(len(data['list-corrupt-shares']) == 1, data) - self.failUnless(len(data['list-corrupt-shares']) == data['count-corrupt-shares'], data) - self.failUnless(len(data['list-incompatible-shares']) == data['count-incompatible-shares'], data) - self.failUnless(len(data['list-incompatible-shares']) == 0, data) - self.failUnless(len(data['servers-responding']) == 5, data) - self.failUnless(len(data['sharemap']) == 9, data) - return self._help_test_verify([ - common._corrupt_block_hashes, - ], judge) + self.basedir = "repairer/Verify/verify_server_invisible_corruption_block_hash_tree" + return self._help_test_verify(common._corrupt_block_hashes, + self.judge_invisible_corruption) test_verify_server_invisible_corruption_block_hash_tree_TODO.todo = "Verifier doesn't yet properly detect this kind of corruption." def test_verify_server_invisible_corruption_share_hash_tree_TODO(self): - def judge(checkresults): - self.failIf(checkresults.is_healthy(), (checkresults, checkresults.is_healthy(), checkresults.get_data())) - data = checkresults.get_data() - self.failUnless(data['count-shares-good'] == 9, data) - self.failUnless(data['count-shares-needed'] == 3, data) - self.failUnless(data['count-shares-expected'] == 10, data) - self.failUnless(data['count-good-share-hosts'] == 5, data) - self.failUnless(data['count-corrupt-shares'] == 1, (data,)) - self.failUnless(len(data['list-corrupt-shares']) == 1, data) - self.failUnless(len(data['list-corrupt-shares']) == data['count-corrupt-shares'], data) - self.failUnless(len(data['list-incompatible-shares']) == data['count-incompatible-shares'], data) - self.failUnless(len(data['list-incompatible-shares']) == 0, data) - self.failUnless(len(data['servers-responding']) == 5, data) - self.failUnless(len(data['sharemap']) == 9, data) - return self._help_test_verify([ - common._corrupt_share_hashes, - ], judge) + self.basedir = "repairer/Verify/verify_server_invisible_corruption_share_hash_tree" + return self._help_test_verify(common._corrupt_share_hashes, + self.judge_invisible_corruption) test_verify_server_invisible_corruption_share_hash_tree_TODO.todo = "Verifier doesn't yet properly detect this kind of corruption." -# We'll allow you to pass this test even if you trigger thirty-five times as many block sends -# and disk writes as would be optimal. +# We'll allow you to pass this test even if you trigger thirty-five times as +# many block sends and disk writes as would be optimal. WRITE_LEEWAY = 35 # Optimally, you could repair one of these (small) files in a single write. DELTA_WRITES_PER_SHARE = 1 * WRITE_LEEWAY @@ -432,21 +392,10 @@ class DownUpConnector(unittest.TestCase): d.addCallback(_callb) return d -class Repairer(GridTestMixin, unittest.TestCase, common.ShouldFailMixin): +class Repairer(GridTestMixin, unittest.TestCase, RepairTestMixin, + common.ShouldFailMixin): - def upload_and_stash(self): - c0 = self.g.clients[0] - c1 = self.g.clients[1] - c0.DEFAULT_ENCODING_PARAMETERS['max_segment_size'] = 12 - d = c0.upload(upload.Data(common.TEST_DATA, convergence="")) - def _stash_uri(ur): - self.uri = ur.uri - self.c0_filenode = c0.create_node_from_uri(ur.uri) - self.c1_filenode = c1.create_node_from_uri(ur.uri) - d.addCallback(_stash_uri) - return d - - def test_test_code(self): + def test_harness(self): # This test is actually to make sure our test harness works, rather # than testing anything about Tahoe code itself. @@ -477,12 +426,11 @@ class Repairer(GridTestMixin, unittest.TestCase, common.ShouldFailMixin): None, self.c1_filenode.download_to_data)) - repair_monitor = Monitor() d.addCallback(lambda ignored: self.shouldFail(NotEnoughSharesError, "then_repair", None, self.c1_filenode.check_and_repair, - repair_monitor, verify=False)) + Monitor(), verify=False)) # test share corruption def _test_corrupt(ignored): @@ -497,7 +445,7 @@ class Repairer(GridTestMixin, unittest.TestCase, common.ShouldFailMixin): self.failIfEqual(olddata[ (shnum, serverid) ], newdata) d.addCallback(_test_corrupt) - def _remove_all(shares): + def _remove_all(ignored): for sh in self.find_shares(self.uri): self.delete_share(sh) d.addCallback(_remove_all) @@ -506,44 +454,6 @@ class Repairer(GridTestMixin, unittest.TestCase, common.ShouldFailMixin): return d - def failUnlessIsInstance(self, x, xtype): - self.failUnless(isinstance(x, xtype), x) - - def _count_reads(self): - sum_of_read_counts = 0 - for (i, ss, storedir) in self.iterate_servers(): - counters = ss.stats_provider.get_stats()['counters'] - sum_of_read_counts += counters.get('storage_server.read', 0) - return sum_of_read_counts - - def _count_allocates(self): - sum_of_allocate_counts = 0 - for (i, ss, storedir) in self.iterate_servers(): - counters = ss.stats_provider.get_stats()['counters'] - sum_of_allocate_counts += counters.get('storage_server.allocate', 0) - return sum_of_allocate_counts - - def _count_writes(self): - sum_of_write_counts = 0 - for (i, ss, storedir) in self.iterate_servers(): - counters = ss.stats_provider.get_stats()['counters'] - sum_of_write_counts += counters.get('storage_server.write', 0) - return sum_of_write_counts - - def _stash_counts(self): - self.before_repair_reads = self._count_reads() - self.before_repair_allocates = self._count_allocates() - self.before_repair_writes = self._count_writes() - - def _get_delta_counts(self): - delta_reads = self._count_reads() - self.before_repair_reads - delta_allocates = self._count_allocates() - self.before_repair_allocates - delta_writes = self._count_writes() - self.before_repair_writes - return (delta_reads, delta_allocates, delta_writes) - - def failIfBigger(self, x, y): - self.failIf(x > y, "%s > %s" % (x, y)) - def test_repair_from_deletion_of_1(self): """ Repair replaces a share that got deleted. """ self.basedir = "repairer/Repairer/repair_from_deletion_of_1"