package main import ( "bytes" "context" "crypto/md5" "fmt" "os" "regexp" "sort" "strconv" "strings" "time" "git.curoverse.com/arvados.git/sdk/go/arvados" "git.curoverse.com/arvados.git/sdk/go/arvadostest" ) type TB interface { Error(args ...interface{}) Errorf(format string, args ...interface{}) Fail() FailNow() Failed() bool Fatal(args ...interface{}) Fatalf(format string, args ...interface{}) Log(args ...interface{}) Logf(format string, args ...interface{}) } // A TestableVolumeFactory returns a new TestableVolume. The factory // function, and the TestableVolume it returns, can use "t" to write // logs, fail the current test, etc. type TestableVolumeFactory func(t TB) TestableVolume // DoGenericVolumeTests runs a set of tests that every TestableVolume // is expected to pass. It calls factory to create a new TestableVolume // for each test case, to avoid leaking state between tests. func DoGenericVolumeTests(t TB, factory TestableVolumeFactory) { testGet(t, factory) testGetNoSuchBlock(t, factory) testCompareNonexistent(t, factory) testCompareSameContent(t, factory, TestHash, TestBlock) testCompareSameContent(t, factory, EmptyHash, EmptyBlock) testCompareWithCollision(t, factory, TestHash, TestBlock, []byte("baddata")) testCompareWithCollision(t, factory, TestHash, TestBlock, EmptyBlock) testCompareWithCollision(t, factory, EmptyHash, EmptyBlock, TestBlock) testCompareWithCorruptStoredData(t, factory, TestHash, TestBlock, []byte("baddata")) testCompareWithCorruptStoredData(t, factory, TestHash, TestBlock, EmptyBlock) testCompareWithCorruptStoredData(t, factory, EmptyHash, EmptyBlock, []byte("baddata")) testPutBlockWithSameContent(t, factory, TestHash, TestBlock) testPutBlockWithSameContent(t, factory, EmptyHash, EmptyBlock) testPutBlockWithDifferentContent(t, factory, arvadostest.MD5CollisionMD5, arvadostest.MD5CollisionData[0], arvadostest.MD5CollisionData[1]) testPutBlockWithDifferentContent(t, factory, arvadostest.MD5CollisionMD5, EmptyBlock, arvadostest.MD5CollisionData[0]) testPutBlockWithDifferentContent(t, factory, arvadostest.MD5CollisionMD5, arvadostest.MD5CollisionData[0], EmptyBlock) testPutBlockWithDifferentContent(t, factory, EmptyHash, EmptyBlock, arvadostest.MD5CollisionData[0]) testPutMultipleBlocks(t, factory) testPutAndTouch(t, factory) testTouchNoSuchBlock(t, factory) testMtimeNoSuchBlock(t, factory) testIndexTo(t, factory) testDeleteNewBlock(t, factory) testDeleteOldBlock(t, factory) testDeleteNoSuchBlock(t, factory) testStatus(t, factory) testString(t, factory) testUpdateReadOnly(t, factory) testGetConcurrent(t, factory) testPutConcurrent(t, factory) testPutFullBlock(t, factory) testTrashUntrash(t, factory) testTrashEmptyTrashUntrash(t, factory) } // Put a test block, get it and verify content // Test should pass for both writable and read-only volumes func testGet(t TB, factory TestableVolumeFactory) { v := factory(t) defer v.Teardown() v.PutRaw(TestHash, TestBlock) buf := make([]byte, BlockSize) n, err := v.Get(context.Background(), TestHash, buf) if err != nil { t.Fatal(err) } if bytes.Compare(buf[:n], TestBlock) != 0 { t.Errorf("expected %s, got %s", string(TestBlock), string(buf)) } } // Invoke get on a block that does not exist in volume; should result in error // Test should pass for both writable and read-only volumes func testGetNoSuchBlock(t TB, factory TestableVolumeFactory) { v := factory(t) defer v.Teardown() buf := make([]byte, BlockSize) if _, err := v.Get(context.Background(), TestHash2, buf); err == nil { t.Errorf("Expected error while getting non-existing block %v", TestHash2) } } // Compare() should return os.ErrNotExist if the block does not exist. // Otherwise, writing new data causes CompareAndTouch() to generate // error logs even though everything is working fine. func testCompareNonexistent(t TB, factory TestableVolumeFactory) { v := factory(t) defer v.Teardown() err := v.Compare(context.Background(), TestHash, TestBlock) if err != os.ErrNotExist { t.Errorf("Got err %T %q, expected os.ErrNotExist", err, err) } } // Put a test block and compare the locator with same content // Test should pass for both writable and read-only volumes func testCompareSameContent(t TB, factory TestableVolumeFactory, testHash string, testData []byte) { v := factory(t) defer v.Teardown() v.PutRaw(testHash, testData) // Compare the block locator with same content err := v.Compare(context.Background(), testHash, testData) if err != nil { t.Errorf("Got err %q, expected nil", err) } } // Test behavior of Compare() when stored data matches expected // checksum but differs from new data we need to store. Requires // testHash = md5(testDataA). // // Test should pass for both writable and read-only volumes func testCompareWithCollision(t TB, factory TestableVolumeFactory, testHash string, testDataA, testDataB []byte) { v := factory(t) defer v.Teardown() v.PutRaw(testHash, testDataA) // Compare the block locator with different content; collision err := v.Compare(context.Background(), TestHash, testDataB) if err == nil { t.Errorf("Got err nil, expected error due to collision") } } // Test behavior of Compare() when stored data has become // corrupted. Requires testHash = md5(testDataA) != md5(testDataB). // // Test should pass for both writable and read-only volumes func testCompareWithCorruptStoredData(t TB, factory TestableVolumeFactory, testHash string, testDataA, testDataB []byte) { v := factory(t) defer v.Teardown() v.PutRaw(TestHash, testDataB) err := v.Compare(context.Background(), testHash, testDataA) if err == nil || err == CollisionError { t.Errorf("Got err %+v, expected non-collision error", err) } } // Put a block and put again with same content // Test is intended for only writable volumes func testPutBlockWithSameContent(t TB, factory TestableVolumeFactory, testHash string, testData []byte) { v := factory(t) defer v.Teardown() if v.Writable() == false { return } err := v.Put(context.Background(), testHash, testData) if err != nil { t.Errorf("Got err putting block %q: %q, expected nil", TestBlock, err) } err = v.Put(context.Background(), testHash, testData) if err != nil { t.Errorf("Got err putting block second time %q: %q, expected nil", TestBlock, err) } } // Put a block and put again with different content // Test is intended for only writable volumes func testPutBlockWithDifferentContent(t TB, factory TestableVolumeFactory, testHash string, testDataA, testDataB []byte) { v := factory(t) defer v.Teardown() if v.Writable() == false { return } v.PutRaw(testHash, testDataA) putErr := v.Put(context.Background(), testHash, testDataB) buf := make([]byte, BlockSize) n, getErr := v.Get(context.Background(), testHash, buf) if putErr == nil { // Put must not return a nil error unless it has // overwritten the existing data. if bytes.Compare(buf[:n], testDataB) != 0 { t.Errorf("Put succeeded but Get returned %+q, expected %+q", buf[:n], testDataB) } } else { // It is permissible for Put to fail, but it must // leave us with either the original data, the new // data, or nothing at all. if getErr == nil && bytes.Compare(buf[:n], testDataA) != 0 && bytes.Compare(buf[:n], testDataB) != 0 { t.Errorf("Put failed but Get returned %+q, which is neither %+q nor %+q", buf[:n], testDataA, testDataB) } } } // Put and get multiple blocks // Test is intended for only writable volumes func testPutMultipleBlocks(t TB, factory TestableVolumeFactory) { v := factory(t) defer v.Teardown() if v.Writable() == false { return } err := v.Put(context.Background(), TestHash, TestBlock) if err != nil { t.Errorf("Got err putting block %q: %q, expected nil", TestBlock, err) } err = v.Put(context.Background(), TestHash2, TestBlock2) if err != nil { t.Errorf("Got err putting block %q: %q, expected nil", TestBlock2, err) } err = v.Put(context.Background(), TestHash3, TestBlock3) if err != nil { t.Errorf("Got err putting block %q: %q, expected nil", TestBlock3, err) } data := make([]byte, BlockSize) n, err := v.Get(context.Background(), TestHash, data) if err != nil { t.Error(err) } else { if bytes.Compare(data[:n], TestBlock) != 0 { t.Errorf("Block present, but got %+q, expected %+q", data[:n], TestBlock) } } n, err = v.Get(context.Background(), TestHash2, data) if err != nil { t.Error(err) } else { if bytes.Compare(data[:n], TestBlock2) != 0 { t.Errorf("Block present, but got %+q, expected %+q", data[:n], TestBlock2) } } n, err = v.Get(context.Background(), TestHash3, data) if err != nil { t.Error(err) } else { if bytes.Compare(data[:n], TestBlock3) != 0 { t.Errorf("Block present, but to %+q, expected %+q", data[:n], TestBlock3) } } } // testPutAndTouch // Test that when applying PUT to a block that already exists, // the block's modification time is updated. // Test is intended for only writable volumes func testPutAndTouch(t TB, factory TestableVolumeFactory) { v := factory(t) defer v.Teardown() if v.Writable() == false { return } if err := v.Put(context.Background(), TestHash, TestBlock); err != nil { t.Error(err) } // We'll verify { t0 < threshold < t1 }, where t0 is the // existing block's timestamp on disk before Put() and t1 is // its timestamp after Put(). threshold := time.Now().Add(-time.Second) // Set the stored block's mtime far enough in the past that we // can see the difference between "timestamp didn't change" // and "timestamp granularity is too low". v.TouchWithDate(TestHash, time.Now().Add(-20*time.Second)) // Make sure v.Mtime() agrees the above Utime really worked. if t0, err := v.Mtime(TestHash); err != nil || t0.IsZero() || !t0.Before(threshold) { t.Errorf("Setting mtime failed: %v, %v", t0, err) } // Write the same block again. if err := v.Put(context.Background(), TestHash, TestBlock); err != nil { t.Error(err) } // Verify threshold < t1 if t1, err := v.Mtime(TestHash); err != nil { t.Error(err) } else if t1.Before(threshold) { t.Errorf("t1 %v should be >= threshold %v after v.Put ", t1, threshold) } } // Touching a non-existing block should result in error. // Test should pass for both writable and read-only volumes func testTouchNoSuchBlock(t TB, factory TestableVolumeFactory) { v := factory(t) defer v.Teardown() if err := v.Touch(TestHash); err == nil { t.Error("Expected error when attempted to touch a non-existing block") } } // Invoking Mtime on a non-existing block should result in error. // Test should pass for both writable and read-only volumes func testMtimeNoSuchBlock(t TB, factory TestableVolumeFactory) { v := factory(t) defer v.Teardown() if _, err := v.Mtime("12345678901234567890123456789012"); err == nil { t.Error("Expected error when updating Mtime on a non-existing block") } } // Put a few blocks and invoke IndexTo with: // * no prefix // * with a prefix // * with no such prefix // Test should pass for both writable and read-only volumes func testIndexTo(t TB, factory TestableVolumeFactory) { v := factory(t) defer v.Teardown() // minMtime and maxMtime are the minimum and maximum // acceptable values the index can report for our test // blocks. 1-second precision is acceptable. minMtime := time.Now().UTC().UnixNano() minMtime -= minMtime % 1e9 v.PutRaw(TestHash, TestBlock) v.PutRaw(TestHash2, TestBlock2) v.PutRaw(TestHash3, TestBlock3) maxMtime := time.Now().UTC().UnixNano() if maxMtime%1e9 > 0 { maxMtime -= maxMtime % 1e9 maxMtime += 1e9 } // Blocks whose names aren't Keep hashes should be omitted from // index v.PutRaw("fffffffffnotreallyahashfffffffff", nil) v.PutRaw("FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF", nil) v.PutRaw("f0000000000000000000000000000000f", nil) v.PutRaw("f00", nil) buf := new(bytes.Buffer) v.IndexTo("", buf) indexRows := strings.Split(string(buf.Bytes()), "\n") sort.Strings(indexRows) sortedIndex := strings.Join(indexRows, "\n") m := regexp.MustCompile( `^\n` + TestHash + `\+\d+ (\d+)\n` + TestHash3 + `\+\d+ \d+\n` + TestHash2 + `\+\d+ \d+$`, ).FindStringSubmatch(sortedIndex) if m == nil { t.Errorf("Got index %q for empty prefix", sortedIndex) } else { mtime, err := strconv.ParseInt(m[1], 10, 64) if err != nil { t.Error(err) } else if mtime < minMtime || mtime > maxMtime { t.Errorf("got %d for TestHash timestamp, expected %d <= t <= %d", mtime, minMtime, maxMtime) } } for _, prefix := range []string{"f", "f15", "f15ac"} { buf = new(bytes.Buffer) v.IndexTo(prefix, buf) m, err := regexp.MatchString(`^`+TestHash2+`\+\d+ \d+\n$`, string(buf.Bytes())) if err != nil { t.Error(err) } else if !m { t.Errorf("Got index %q for prefix %s", string(buf.Bytes()), prefix) } } for _, prefix := range []string{"zero", "zip", "zilch"} { buf = new(bytes.Buffer) err := v.IndexTo(prefix, buf) if err != nil { t.Errorf("Got error on IndexTo with no such prefix %v", err.Error()) } else if buf.Len() != 0 { t.Errorf("Expected empty list for IndexTo with no such prefix %s", prefix) } } } // Calling Delete() for a block immediately after writing it (not old enough) // should neither delete the data nor return an error. // Test is intended for only writable volumes func testDeleteNewBlock(t TB, factory TestableVolumeFactory) { v := factory(t) defer v.Teardown() theConfig.BlobSignatureTTL.Set("5m") if v.Writable() == false { return } v.Put(context.Background(), TestHash, TestBlock) if err := v.Trash(TestHash); err != nil { t.Error(err) } data := make([]byte, BlockSize) n, err := v.Get(context.Background(), TestHash, data) if err != nil { t.Error(err) } else if bytes.Compare(data[:n], TestBlock) != 0 { t.Errorf("Got data %+q, expected %+q", data[:n], TestBlock) } } // Calling Delete() for a block with a timestamp older than // BlobSignatureTTL seconds in the past should delete the data. // Test is intended for only writable volumes func testDeleteOldBlock(t TB, factory TestableVolumeFactory) { v := factory(t) defer v.Teardown() theConfig.BlobSignatureTTL.Set("5m") if v.Writable() == false { return } v.Put(context.Background(), TestHash, TestBlock) v.TouchWithDate(TestHash, time.Now().Add(-2*theConfig.BlobSignatureTTL.Duration())) if err := v.Trash(TestHash); err != nil { t.Error(err) } data := make([]byte, BlockSize) if _, err := v.Get(context.Background(), TestHash, data); err == nil || !os.IsNotExist(err) { t.Errorf("os.IsNotExist(%v) should have been true", err) } _, err := v.Mtime(TestHash) if err == nil || !os.IsNotExist(err) { t.Fatalf("os.IsNotExist(%v) should have been true", err) } err = v.Compare(context.Background(), TestHash, TestBlock) if err == nil || !os.IsNotExist(err) { t.Fatalf("os.IsNotExist(%v) should have been true", err) } indexBuf := new(bytes.Buffer) v.IndexTo("", indexBuf) if strings.Contains(string(indexBuf.Bytes()), TestHash) { t.Fatalf("Found trashed block in IndexTo") } err = v.Touch(TestHash) if err == nil || !os.IsNotExist(err) { t.Fatalf("os.IsNotExist(%v) should have been true", err) } } // Calling Delete() for a block that does not exist should result in error. // Test should pass for both writable and read-only volumes func testDeleteNoSuchBlock(t TB, factory TestableVolumeFactory) { v := factory(t) defer v.Teardown() if err := v.Trash(TestHash2); err == nil { t.Errorf("Expected error when attempting to delete a non-existing block") } } // Invoke Status and verify that VolumeStatus is returned // Test should pass for both writable and read-only volumes func testStatus(t TB, factory TestableVolumeFactory) { v := factory(t) defer v.Teardown() // Get node status and make a basic sanity check. status := v.Status() if status.DeviceNum == 0 { t.Errorf("uninitialized device_num in %v", status) } if status.BytesFree == 0 { t.Errorf("uninitialized bytes_free in %v", status) } if status.BytesUsed == 0 { t.Errorf("uninitialized bytes_used in %v", status) } } // Invoke String for the volume; expect non-empty result // Test should pass for both writable and read-only volumes func testString(t TB, factory TestableVolumeFactory) { v := factory(t) defer v.Teardown() if id := v.String(); len(id) == 0 { t.Error("Got empty string for v.String()") } } // Putting, updating, touching, and deleting blocks from a read-only volume result in error. // Test is intended for only read-only volumes func testUpdateReadOnly(t TB, factory TestableVolumeFactory) { v := factory(t) defer v.Teardown() if v.Writable() == true { return } v.PutRaw(TestHash, TestBlock) buf := make([]byte, BlockSize) // Get from read-only volume should succeed _, err := v.Get(context.Background(), TestHash, buf) if err != nil { t.Errorf("got err %v, expected nil", err) } // Put a new block to read-only volume should result in error err = v.Put(context.Background(), TestHash2, TestBlock2) if err == nil { t.Errorf("Expected error when putting block in a read-only volume") } _, err = v.Get(context.Background(), TestHash2, buf) if err == nil { t.Errorf("Expected error when getting block whose put in read-only volume failed") } // Touch a block in read-only volume should result in error err = v.Touch(TestHash) if err == nil { t.Errorf("Expected error when touching block in a read-only volume") } // Delete a block from a read-only volume should result in error err = v.Trash(TestHash) if err == nil { t.Errorf("Expected error when deleting block from a read-only volume") } // Overwriting an existing block in read-only volume should result in error err = v.Put(context.Background(), TestHash, TestBlock) if err == nil { t.Errorf("Expected error when putting block in a read-only volume") } } // Launch concurrent Gets // Test should pass for both writable and read-only volumes func testGetConcurrent(t TB, factory TestableVolumeFactory) { v := factory(t) defer v.Teardown() v.PutRaw(TestHash, TestBlock) v.PutRaw(TestHash2, TestBlock2) v.PutRaw(TestHash3, TestBlock3) sem := make(chan int) go func() { buf := make([]byte, BlockSize) n, err := v.Get(context.Background(), TestHash, buf) if err != nil { t.Errorf("err1: %v", err) } if bytes.Compare(buf[:n], TestBlock) != 0 { t.Errorf("buf should be %s, is %s", string(TestBlock), string(buf[:n])) } sem <- 1 }() go func() { buf := make([]byte, BlockSize) n, err := v.Get(context.Background(), TestHash2, buf) if err != nil { t.Errorf("err2: %v", err) } if bytes.Compare(buf[:n], TestBlock2) != 0 { t.Errorf("buf should be %s, is %s", string(TestBlock2), string(buf[:n])) } sem <- 1 }() go func() { buf := make([]byte, BlockSize) n, err := v.Get(context.Background(), TestHash3, buf) if err != nil { t.Errorf("err3: %v", err) } if bytes.Compare(buf[:n], TestBlock3) != 0 { t.Errorf("buf should be %s, is %s", string(TestBlock3), string(buf[:n])) } sem <- 1 }() // Wait for all goroutines to finish for done := 0; done < 3; done++ { <-sem } } // Launch concurrent Puts // Test is intended for only writable volumes func testPutConcurrent(t TB, factory TestableVolumeFactory) { v := factory(t) defer v.Teardown() if v.Writable() == false { return } sem := make(chan int) go func(sem chan int) { err := v.Put(context.Background(), TestHash, TestBlock) if err != nil { t.Errorf("err1: %v", err) } sem <- 1 }(sem) go func(sem chan int) { err := v.Put(context.Background(), TestHash2, TestBlock2) if err != nil { t.Errorf("err2: %v", err) } sem <- 1 }(sem) go func(sem chan int) { err := v.Put(context.Background(), TestHash3, TestBlock3) if err != nil { t.Errorf("err3: %v", err) } sem <- 1 }(sem) // Wait for all goroutines to finish for done := 0; done < 3; done++ { <-sem } // Double check that we actually wrote the blocks we expected to write. buf := make([]byte, BlockSize) n, err := v.Get(context.Background(), TestHash, buf) if err != nil { t.Errorf("Get #1: %v", err) } if bytes.Compare(buf[:n], TestBlock) != 0 { t.Errorf("Get #1: expected %s, got %s", string(TestBlock), string(buf[:n])) } n, err = v.Get(context.Background(), TestHash2, buf) if err != nil { t.Errorf("Get #2: %v", err) } if bytes.Compare(buf[:n], TestBlock2) != 0 { t.Errorf("Get #2: expected %s, got %s", string(TestBlock2), string(buf[:n])) } n, err = v.Get(context.Background(), TestHash3, buf) if err != nil { t.Errorf("Get #3: %v", err) } if bytes.Compare(buf[:n], TestBlock3) != 0 { t.Errorf("Get #3: expected %s, got %s", string(TestBlock3), string(buf[:n])) } } // Write and read back a full size block func testPutFullBlock(t TB, factory TestableVolumeFactory) { v := factory(t) defer v.Teardown() if !v.Writable() { return } wdata := make([]byte, BlockSize) wdata[0] = 'a' wdata[BlockSize-1] = 'z' hash := fmt.Sprintf("%x", md5.Sum(wdata)) err := v.Put(context.Background(), hash, wdata) if err != nil { t.Fatal(err) } buf := make([]byte, BlockSize) n, err := v.Get(context.Background(), hash, buf) if err != nil { t.Error(err) } if bytes.Compare(buf[:n], wdata) != 0 { t.Error("buf %+q != wdata %+q", buf[:n], wdata) } } // With TrashLifetime != 0, perform: // Trash an old block - which either raises ErrNotImplemented or succeeds // Untrash - which either raises ErrNotImplemented or succeeds // Get - which must succeed func testTrashUntrash(t TB, factory TestableVolumeFactory) { v := factory(t) defer v.Teardown() defer func() { theConfig.TrashLifetime = 0 }() theConfig.TrashLifetime.Set("1h") // put block and backdate it v.PutRaw(TestHash, TestBlock) v.TouchWithDate(TestHash, time.Now().Add(-2*theConfig.BlobSignatureTTL.Duration())) buf := make([]byte, BlockSize) n, err := v.Get(context.Background(), TestHash, buf) if err != nil { t.Fatal(err) } if bytes.Compare(buf[:n], TestBlock) != 0 { t.Errorf("Got data %+q, expected %+q", buf[:n], TestBlock) } // Trash err = v.Trash(TestHash) if v.Writable() == false { if err != MethodDisabledError { t.Fatal(err) } } else if err != nil { if err != ErrNotImplemented { t.Fatal(err) } } else { _, err = v.Get(context.Background(), TestHash, buf) if err == nil || !os.IsNotExist(err) { t.Errorf("os.IsNotExist(%v) should have been true", err) } // Untrash err = v.Untrash(TestHash) if err != nil { t.Fatal(err) } } // Get the block - after trash and untrash sequence n, err = v.Get(context.Background(), TestHash, buf) if err != nil { t.Fatal(err) } if bytes.Compare(buf[:n], TestBlock) != 0 { t.Errorf("Got data %+q, expected %+q", buf[:n], TestBlock) } } func testTrashEmptyTrashUntrash(t TB, factory TestableVolumeFactory) { v := factory(t) defer v.Teardown() defer func(orig arvados.Duration) { theConfig.TrashLifetime = orig }(theConfig.TrashLifetime) checkGet := func() error { buf := make([]byte, BlockSize) n, err := v.Get(context.Background(), TestHash, buf) if err != nil { return err } if bytes.Compare(buf[:n], TestBlock) != 0 { t.Fatalf("Got data %+q, expected %+q", buf[:n], TestBlock) } _, err = v.Mtime(TestHash) if err != nil { return err } err = v.Compare(context.Background(), TestHash, TestBlock) if err != nil { return err } indexBuf := new(bytes.Buffer) v.IndexTo("", indexBuf) if !strings.Contains(string(indexBuf.Bytes()), TestHash) { return os.ErrNotExist } return nil } // First set: EmptyTrash before reaching the trash deadline. theConfig.TrashLifetime.Set("1h") v.PutRaw(TestHash, TestBlock) v.TouchWithDate(TestHash, time.Now().Add(-2*theConfig.BlobSignatureTTL.Duration())) err := checkGet() if err != nil { t.Fatal(err) } // Trash the block err = v.Trash(TestHash) if err == MethodDisabledError || err == ErrNotImplemented { // Skip the trash tests for read-only volumes, and // volume types that don't support TrashLifetime>0. return } err = checkGet() if err == nil || !os.IsNotExist(err) { t.Fatalf("os.IsNotExist(%v) should have been true", err) } err = v.Touch(TestHash) if err == nil || !os.IsNotExist(err) { t.Fatalf("os.IsNotExist(%v) should have been true", err) } v.EmptyTrash() // Even after emptying the trash, we can untrash our block // because the deadline hasn't been reached. err = v.Untrash(TestHash) if err != nil { t.Fatal(err) } err = checkGet() if err != nil { t.Fatal(err) } err = v.Touch(TestHash) if err != nil { t.Fatal(err) } // Because we Touch'ed, need to backdate again for next set of tests v.TouchWithDate(TestHash, time.Now().Add(-2*theConfig.BlobSignatureTTL.Duration())) // If the only block in the trash has already been untrashed, // most volumes will fail a subsequent Untrash with a 404, but // it's also acceptable for Untrash to succeed. err = v.Untrash(TestHash) if err != nil && !os.IsNotExist(err) { t.Fatalf("Expected success or os.IsNotExist(), but got: %v", err) } // The additional Untrash should not interfere with our // already-untrashed copy. err = checkGet() if err != nil { t.Fatal(err) } // Untrash might have updated the timestamp, so backdate again v.TouchWithDate(TestHash, time.Now().Add(-2*theConfig.BlobSignatureTTL.Duration())) // Second set: EmptyTrash after the trash deadline has passed. theConfig.TrashLifetime.Set("1ns") err = v.Trash(TestHash) if err != nil { t.Fatal(err) } err = checkGet() if err == nil || !os.IsNotExist(err) { t.Fatalf("os.IsNotExist(%v) should have been true", err) } // Even though 1ns has passed, we can untrash because we // haven't called EmptyTrash yet. err = v.Untrash(TestHash) if err != nil { t.Fatal(err) } err = checkGet() if err != nil { t.Fatal(err) } // Trash it again, and this time call EmptyTrash so it really // goes away. // (In Azure volumes, un/trash changes Mtime, so first backdate again) v.TouchWithDate(TestHash, time.Now().Add(-2*theConfig.BlobSignatureTTL.Duration())) err = v.Trash(TestHash) err = checkGet() if err == nil || !os.IsNotExist(err) { t.Fatalf("os.IsNotExist(%v) should have been true", err) } v.EmptyTrash() // Untrash won't find it err = v.Untrash(TestHash) if err == nil || !os.IsNotExist(err) { t.Fatalf("os.IsNotExist(%v) should have been true", err) } // Get block won't find it err = checkGet() if err == nil || !os.IsNotExist(err) { t.Fatalf("os.IsNotExist(%v) should have been true", err) } // Third set: If the same data block gets written again after // being trashed, and then the trash gets emptied, the newer // un-trashed copy doesn't get deleted along with it. v.PutRaw(TestHash, TestBlock) v.TouchWithDate(TestHash, time.Now().Add(-2*theConfig.BlobSignatureTTL.Duration())) theConfig.TrashLifetime.Set("1ns") err = v.Trash(TestHash) if err != nil { t.Fatal(err) } err = checkGet() if err == nil || !os.IsNotExist(err) { t.Fatalf("os.IsNotExist(%v) should have been true", err) } v.PutRaw(TestHash, TestBlock) v.TouchWithDate(TestHash, time.Now().Add(-2*theConfig.BlobSignatureTTL.Duration())) // EmptyTrash should not delete the untrashed copy. v.EmptyTrash() err = checkGet() if err != nil { t.Fatal(err) } // Fourth set: If the same data block gets trashed twice with // different deadlines A and C, and then the trash is emptied // at intermediate time B (A < B < C), it is still possible to // untrash the block whose deadline is "C". v.PutRaw(TestHash, TestBlock) v.TouchWithDate(TestHash, time.Now().Add(-2*theConfig.BlobSignatureTTL.Duration())) theConfig.TrashLifetime.Set("1ns") err = v.Trash(TestHash) if err != nil { t.Fatal(err) } v.PutRaw(TestHash, TestBlock) v.TouchWithDate(TestHash, time.Now().Add(-2*theConfig.BlobSignatureTTL.Duration())) theConfig.TrashLifetime.Set("1h") err = v.Trash(TestHash) if err != nil { t.Fatal(err) } // EmptyTrash should not prevent us from recovering the // time.Hour ("C") trash v.EmptyTrash() err = v.Untrash(TestHash) if err != nil { t.Fatal(err) } err = checkGet() if err != nil { t.Fatal(err) } }