public async Task TestGcPrefix() { string cacheConfig = TestType.NewCache(nameof(TestGcPrefix), true); BasicFilesystemCache cache = (await InitializeCacheAsync(cacheConfig).SuccessAsync()) as BasicFilesystemCache; XAssert.IsNotNull(cache, "Failed to create cache for GC tests!"); PipDefinition[] pips = { new PipDefinition("Pip1", pipSize: 3), new PipDefinition("Pip2", pipSize: 4), new PipDefinition("Pip3", pipSize: 5) }; // First, lets filter the GC to only do one of the files. CacheEntries files = await BuildPipsAndGetCacheEntries(cache, "Build", pips); cache.DeleteSession("Build"); for (int i = 1; i < 4; i++) { files.AgeAll(); string targetFile = files.FingerprintFiles.Keys.First(); // Get the shard directory of the weak fingerprint string prefix = Path.GetFileName(Path.GetDirectoryName(Path.GetDirectoryName(targetFile))); XAssert.AreEqual(3, prefix.Length); m_output.WriteLine("GC Prefix: [{0}]", prefix); var stats = cache.CollectUnreferencedFingerprints(m_output, prefixFilter: prefix.Substring(0, i)); XAssert.IsFalse(File.Exists(targetFile), "Should have moved this one to pending"); BasicFilesystemCache.UndoPendingDelete(targetFile); files.AssertExists(); } AssertSuccess(await cache.ShutdownAsync()); }
public async Task TestGcConcurrency() { // This is just minimal concurrency testing such that it does not completely mess up // Most of the work in making the GC safe was in the design and hand testing as this // is about having a GC run while multiple mutators run (and multiple GCs run) string cacheConfig = TestType.NewCache(nameof(TestGcConcurrency), true); BasicFilesystemCache cache = (await InitializeCacheAsync(cacheConfig).SuccessAsync()) as BasicFilesystemCache; XAssert.IsNotNull(cache, "Failed to create cache for GC tests!"); PipDefinition[] pips = { new PipDefinition("Pip1", pipSize: 3), new PipDefinition("Pip2", pipSize: 4), new PipDefinition("Pip3", pipSize: 5), new PipDefinition("Pip4", pipSize: 4), new PipDefinition("Pip5", pipSize: 3) }; CacheEntries files = await BuildPipsAndGetCacheEntries(cache, "Build", pips); // First have the GC do nothing (all items still rooted but old enough to collect) files.AgeAll(); ParallelConcurrentFullGc(cache, "Noop"); files.AssertExists(); // Now delete the session and make sure we collect correctly cache.DeleteSession("Build"); // This may take a few tries to get all of the items GC'ed // Since we assume that the GC will always work, any error returned // by the GC will trigger a fault and failure of the test. // However, the GC is designed to, if anything is in question at // all, to just skip deleting (or marking as pending delete) // any item that is busy or otherwise engaged. This does mean that // multiple concurrent GC can, in rare cases, cause a file // (specifically a strong fingerprint) to not get collected for // a given pass due to the file being in use by another GC. // This is perfectly correct and will cause that item to be // collected later. However, later may require another // aging of the files since the file age may have been // reset during the failed attempt to mark it pending. // (Which is a good thing since failing to mark pending is // a potential sign that something is using it and thus // it is not yet ready to be changed) // Anyway, the number of passes and the exact state of the GC // is not directly knowable due to these races but they sure should // not be greater than 100 int pass = 0; while (files.Count > 0) { files.AgeAll(); pass++; ParallelConcurrentFullGc(cache, "Pass #" + pass); // Make sure some progress happened // That means some items had to be marked pending or // got collected each time through the process. // This will make sure we are always making some // progress with the GC and thus will terminate. files.AssertMissingSome(); files = new CacheEntries(cache); } AssertSuccess(await cache.ShutdownAsync()); }
public async Task TestGcMultiSession() { string cacheConfig = TestType.NewCache(nameof(TestGcMultiSession), true); BasicFilesystemCache cache = (await InitializeCacheAsync(cacheConfig).SuccessAsync()) as BasicFilesystemCache; XAssert.IsNotNull(cache, "Failed to create cache for GC tests!"); // Verify that we don't have prior content in the cache XAssert.AreEqual(0, new CacheEntries(cache).Count, "Test cache did not start out empty!"); // Also used for session 3 PipDefinition[] pipsSession1 = { new PipDefinition("Pip1", pipSize: 3), new PipDefinition("Pip2", pipSize: 4), new PipDefinition("Pip3", pipSize: 5) }; // This should just bring back from the "pending" one pip with 4 outputs // Also used for session 4 PipDefinition[] pipsSession2 = { new PipDefinition("Pip2", pipSize: 4) }; CacheEntries session1Files = await BuildPipsAndGetCacheEntries(cache, "Session1", pipsSession1); CacheEntries session2Files = await BuildPipsAndGetCacheEntries(cache, "Session2", pipsSession2); // The second session should not have changed anything as the pip already existed XAssert.IsFalse(session2Files.AreDifferences(session1Files), "We changed the cache when we should not have!"); // Nothing should change on this GC since the files are all referenced session1Files.AgeAll(); FullGc(cache); session1Files.AssertExists(); // Nothing should change because of session 2 deleting since the fingerprint still exists in session1 cache.DeleteSession("Session2"); FullGc(cache); session1Files.AssertExists(); // Deleteing session 1 should cause all fingerprints to become pending delete cache.DeleteSession("Session1"); FullGc(cache); CacheEntries session1GcFpPending = new CacheEntries(cache); XAssert.IsFalse(session1GcFpPending.FingerprintFiles.Keys.Any(IsNotPendingDelete), "All fingerprints should be pending delete"); XAssert.IsFalse(session1GcFpPending.CasFiles.Keys.Any(IsPendingDelete), "All cas should not be pending delete"); // Rebuilding the pips from session1a should restore the pending delete to non-pending delete (in fact, restore to session1Files) CacheEntries session3Files = await BuildPipsAndGetCacheEntries(cache, "Session3", pipsSession1); XAssert.IsFalse(session3Files.AreDifferences(session1Files), "Should be back to the same after rebuilding - no pending"); cache.DeleteSession("Session3"); session3Files.AgeAll(); FullGc(cache); CacheEntries session3GcFpPending = new CacheEntries(cache); XAssert.IsFalse(session3GcFpPending.FingerprintFiles.Keys.Any(IsNotPendingDelete), "All fingerprints should be pending delete"); XAssert.IsFalse(session3GcFpPending.CasFiles.Keys.Any(IsPendingDelete), "All cas should not be pending delete"); // Build the session2 single pip (as session 4) to recover the pending CacheEntries session4Files = await BuildPipsAndGetCacheEntries(cache, "Session4", pipsSession2); XAssert.AreEqual(session1Files.Count, session4Files.Count, "Should not have made any extra files"); XAssert.AreEqual(1, session4Files.FingerprintFiles.Keys.Count(IsNotPendingDelete), "Should have 1 non-pending delete fingerprint"); // This should collect all but the one fingerprint from session 4 and mark pending all of the cas entries // except the 5 cas entries from session 4. (4 cas outputs plus the cas input list in the fingerprint) session4Files.AgeAll(); FullGc(cache); CacheEntries session4Gc = new CacheEntries(cache); XAssert.AreEqual(1, session4Gc.FingerprintFiles.Count, "Should only have one fingerprint file left"); XAssert.AreEqual(session1Files.CasFiles.Count, session4Gc.CasFiles.Count); XAssert.AreEqual(5, session4Gc.CasFiles.Keys.Count(IsNotPendingDelete), "Only Pip2 cas should be non-pending"); cache.DeleteSession("Session4"); // Pip2 fingerprint to pending session4Gc.AgeAll(); FullGc(cache); // Pip2 fingerprint from pending to delete - cas entries to pending new CacheEntries(cache).AgeAll(); FullGc(cache); CacheEntries session4GcCasPending = new CacheEntries(cache); XAssert.AreEqual(0, session4GcCasPending.FingerprintFiles.Count, "All fingerprints should be gone"); XAssert.IsFalse(session4GcCasPending.CasFiles.Keys.Any(IsNotPendingDelete), "All cas should be pending delete"); // Pip2 cas entries from pending to delete session4GcCasPending.AgeAll(); FullGc(cache); XAssert.AreEqual(0, new CacheEntries(cache).Count, "All should be collected now"); AssertSuccess(await cache.ShutdownAsync()); }
public async Task TestGcMulti() { // To keep test time down, we do all of the "safely skipped during GC" tests in one go // This is actually safe as I then validate that it recovers later. Under normal conditions // this rarely happens but we want to make sure that the GC can handle the concurrent access // characteristics and this hits those other code paths. string cacheConfig = TestType.NewCache(nameof(TestGcMulti), true); BasicFilesystemCache cache = (await InitializeCacheAsync(cacheConfig).SuccessAsync()) as BasicFilesystemCache; XAssert.IsNotNull(cache, "Failed to create cache for GC tests!"); foreach (var build in DoBuilds(cache, 4).OutOfOrderTasks()) { await build; } // Now delete the sessions one at a time and age at each step for (int i = 0; i < 4; i++) { new CacheEntries(cache).AgeAll(); FullGc(cache); cache.DeleteSession("Build" + i); } // At this point we should have deleted a few items at each level // The last session should still have been alive at the last GC // so we should now have both pending and non-pending in both the // fingerprints and CAS CacheEntries files = new CacheEntries(cache); XAssert.IsTrue(files.FingerprintFiles.Keys.Any(IsPendingDelete)); XAssert.IsTrue(files.FingerprintFiles.Keys.Any(IsNotPendingDelete)); XAssert.IsTrue(files.CasFiles.Keys.Any(IsPendingDelete)); XAssert.IsTrue(files.CasFiles.Keys.Any(IsNotPendingDelete)); // Age them all files.AgeAll(); // Now, we need to open some files of each time and run a GC to see that it works. using (var notPendingFingerprint = files.FingerprintFiles.First(kv => IsNotPendingDelete(kv.Key)).Value.OpenRead()) { using (var pendingFingerprint = files.FingerprintFiles.First(kv => IsPendingDelete(kv.Key)).Value.OpenRead()) { using (var notPendingCas = files.CasFiles.First(kv => IsNotPendingDelete(kv.Key)).Value.OpenRead()) { using (var pendingCas = files.CasFiles.First(kv => IsPendingDelete(kv.Key)).Value.OpenRead()) { // This should allow the GC to continue but some things will not be collected // to do failed deletes and failed renames to pending var stats = FullGc(cache); XAssert.AreEqual(1, stats["CAS_Skipped"], "Should have skipped a CAS entry"); XAssert.AreEqual(2, stats["Fingerprint_Skipped"], "Should have skipped 2 Fingerprints"); } } } } // Now with the files not blocked from delete/rename, run the GC again (no fresh aging) var statsRemaining = FullGc(cache); XAssert.AreEqual(1, statsRemaining["Fingerprint_Collected"], "Collected the one fingerprint that was held open"); XAssert.AreEqual(1, statsRemaining["Fingerprint_Pending"], "Moved to pending the one fingerprint that was held open"); XAssert.AreEqual(1, statsRemaining["CAS_Collected"], "Collected the one CAS item that was held open"); XAssert.AreEqual(4, statsRemaining["CAS_Pending"], "Moved to pending the one CAS item that was held open and the 3 CAS items that were referenced by the fingerprint that was held"); // Check that the partition counts match as needed XAssert.AreEqual((TestType is TestBasicFilesystemSharded) ? TestBasicFilesystemSharded.SHARD_COUNT : 1, statsRemaining["Fingerprint_Partitions"]); XAssert.AreEqual((TestType is TestBasicFilesystemSharded) ? TestBasicFilesystemSharded.SHARD_COUNT : 1, statsRemaining["CAS_Partitions"]); AssertSuccess(await cache.ShutdownAsync()); }
public async Task TestGcBasic() { string cacheConfig = TestType.NewCache(nameof(TestGcBasic), true); BasicFilesystemCache cache = (await InitializeCacheAsync(cacheConfig).SuccessAsync()) as BasicFilesystemCache; XAssert.IsNotNull(cache, "Failed to create cache for GC tests!"); // Verify that we don't have prior content in the cache XAssert.AreEqual(0, new CacheEntries(cache).Count, "Test cache did not start out empty!"); PipDefinition[] pipsSession1 = { new PipDefinition("Pip1", pipSize: 3), new PipDefinition("Pip2", pipSize: 4), new PipDefinition("Pip3", pipSize: 5) }; CacheEntries session1Files = await BuildPipsAndGetCacheEntries(cache, "Session1", pipsSession1); // Nothing should change on this GC since the files and are all referenced FullGc(cache); session1Files.AssertExists(); session1Files.AgeAll(); // Everything is rooted so nothing should happen here FullGc(cache); XAssert.IsFalse(new CacheEntries(cache).AreDifferences(session1Files), "We changed the cache when we should not have!"); // Now, if we delete the session, we should collect things. cache.DeleteSession("Session1"); FullGc(cache); // All of the fingerprints should be changed to pending but nothing should be deleted CacheEntries session1gcFpPending = new CacheEntries(cache); XAssert.AreEqual(session1Files.Count, session1gcFpPending.Count, "Nothing should have been added or deleted!"); XAssert.IsFalse(session1gcFpPending.FingerprintFiles.Keys.Any(IsNotPendingDelete), "All fingerprints should be pending delete"); XAssert.IsFalse(session1gcFpPending.CasFiles.Keys.Any(IsPendingDelete), "All cas should not be pending delete"); // Nothing to happen here as the pending files are too new FullGc(cache); // Nothing changed... XAssert.IsFalse(new CacheEntries(cache).AreDifferences(session1gcFpPending), "We changed the cache when we should not have!"); // Now age the pending delete such that they are collected session1gcFpPending.AgeAll(); FullGc(cache); CacheEntries session1gcCas1 = new CacheEntries(cache); XAssert.AreEqual(0, session1gcCas1.FingerprintFiles.Count, "Should have collected all fingerprints"); // And, we should have moved to pending all CAS items (since there is no pending) XAssert.IsFalse(session1gcCas1.CasFiles.Keys.Any(IsNotPendingDelete), "All cas should be pending delete"); FullGc(cache); // Should do nothing as they are not old enough pending XAssert.IsFalse(new CacheEntries(cache).AreDifferences(session1gcCas1), "We changed the cache when we should not have!"); // After getting all to be old, this should finally GC it all session1gcCas1.AgeAll(); FullGc(cache); XAssert.AreEqual(0, new CacheEntries(cache).Count, "Should have collected everything."); AssertSuccess(await cache.ShutdownAsync()); }