-package main
+// Copyright (C) The Arvados Authors. All rights reserved.
+//
+// SPDX-License-Identifier: AGPL-3.0
+
+package keepstore
import (
"bytes"
"strings"
"time"
- "git.curoverse.com/arvados.git/sdk/go/arvados"
- "git.curoverse.com/arvados.git/sdk/go/arvadostest"
+ "git.arvados.org/arvados.git/sdk/go/arvados"
+ "git.arvados.org/arvados.git/sdk/go/arvadostest"
+ "git.arvados.org/arvados.git/sdk/go/ctxlog"
+ "github.com/prometheus/client_golang/prometheus"
+ dto "github.com/prometheus/client_model/go"
+ "github.com/sirupsen/logrus"
)
type TB 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
+type TestableVolumeFactory func(t TB, cluster *arvados.Cluster, volume arvados.Volume, logger logrus.FieldLogger, metrics *volumeMetricsVecs) 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)
+func DoGenericVolumeTests(t TB, readonly bool, factory TestableVolumeFactory) {
+ var s genericVolumeSuite
+ s.volume.ReadOnly = readonly
+
+ s.testGet(t, factory)
+ s.testGetNoSuchBlock(t, factory)
+
+ s.testCompareNonexistent(t, factory)
+ s.testCompareSameContent(t, factory, TestHash, TestBlock)
+ s.testCompareSameContent(t, factory, EmptyHash, EmptyBlock)
+ s.testCompareWithCollision(t, factory, TestHash, TestBlock, []byte("baddata"))
+ s.testCompareWithCollision(t, factory, TestHash, TestBlock, EmptyBlock)
+ s.testCompareWithCollision(t, factory, EmptyHash, EmptyBlock, TestBlock)
+ s.testCompareWithCorruptStoredData(t, factory, TestHash, TestBlock, []byte("baddata"))
+ s.testCompareWithCorruptStoredData(t, factory, TestHash, TestBlock, EmptyBlock)
+ s.testCompareWithCorruptStoredData(t, factory, EmptyHash, EmptyBlock, []byte("baddata"))
+
+ if !readonly {
+ s.testPutBlockWithSameContent(t, factory, TestHash, TestBlock)
+ s.testPutBlockWithSameContent(t, factory, EmptyHash, EmptyBlock)
+ s.testPutBlockWithDifferentContent(t, factory, arvadostest.MD5CollisionMD5, arvadostest.MD5CollisionData[0], arvadostest.MD5CollisionData[1])
+ s.testPutBlockWithDifferentContent(t, factory, arvadostest.MD5CollisionMD5, EmptyBlock, arvadostest.MD5CollisionData[0])
+ s.testPutBlockWithDifferentContent(t, factory, arvadostest.MD5CollisionMD5, arvadostest.MD5CollisionData[0], EmptyBlock)
+ s.testPutBlockWithDifferentContent(t, factory, EmptyHash, EmptyBlock, arvadostest.MD5CollisionData[0])
+ s.testPutMultipleBlocks(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"))
+ s.testPutAndTouch(t, factory)
+ }
+ s.testTouchNoSuchBlock(t, factory)
+
+ s.testMtimeNoSuchBlock(t, factory)
- 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)
+ s.testIndexTo(t, factory)
- testPutAndTouch(t, factory)
- testTouchNoSuchBlock(t, factory)
+ if !readonly {
+ s.testDeleteNewBlock(t, factory)
+ s.testDeleteOldBlock(t, factory)
+ }
+ s.testDeleteNoSuchBlock(t, factory)
- testMtimeNoSuchBlock(t, factory)
+ s.testStatus(t, factory)
- testIndexTo(t, factory)
+ s.testMetrics(t, readonly, factory)
- testDeleteNewBlock(t, factory)
- testDeleteOldBlock(t, factory)
- testDeleteNoSuchBlock(t, factory)
+ s.testString(t, factory)
+
+ if readonly {
+ s.testUpdateReadOnly(t, factory)
+ }
- testStatus(t, factory)
+ s.testGetConcurrent(t, factory)
+ if !readonly {
+ s.testPutConcurrent(t, factory)
- testString(t, factory)
+ s.testPutFullBlock(t, factory)
+ }
- testUpdateReadOnly(t, factory)
+ s.testTrashUntrash(t, readonly, factory)
+ s.testTrashEmptyTrashUntrash(t, factory)
+}
- testGetConcurrent(t, factory)
- testPutConcurrent(t, factory)
+type genericVolumeSuite struct {
+ cluster *arvados.Cluster
+ volume arvados.Volume
+ logger logrus.FieldLogger
+ metrics *volumeMetricsVecs
+ registry *prometheus.Registry
+}
- testPutFullBlock(t, factory)
+func (s *genericVolumeSuite) setup(t TB) {
+ s.cluster = testCluster(t)
+ s.logger = ctxlog.TestLogger(t)
+ s.registry = prometheus.NewRegistry()
+ s.metrics = newVolumeMetricsVecs(s.registry)
+}
- testTrashUntrash(t, factory)
- testTrashEmptyTrashUntrash(t, factory)
+func (s *genericVolumeSuite) newVolume(t TB, factory TestableVolumeFactory) TestableVolume {
+ return factory(t, s.cluster, s.volume, s.logger, s.metrics)
}
// 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)
+func (s *genericVolumeSuite) testGet(t TB, factory TestableVolumeFactory) {
+ s.setup(t)
+ v := s.newVolume(t, factory)
defer v.Teardown()
v.PutRaw(TestHash, TestBlock)
// 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)
+func (s *genericVolumeSuite) testGetNoSuchBlock(t TB, factory TestableVolumeFactory) {
+ s.setup(t)
+ v := s.newVolume(t, factory)
defer v.Teardown()
buf := make([]byte, BlockSize)
// 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)
+func (s *genericVolumeSuite) testCompareNonexistent(t TB, factory TestableVolumeFactory) {
+ s.setup(t)
+ v := s.newVolume(t, factory)
defer v.Teardown()
err := v.Compare(context.Background(), TestHash, TestBlock)
// 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)
+func (s *genericVolumeSuite) testCompareSameContent(t TB, factory TestableVolumeFactory, testHash string, testData []byte) {
+ s.setup(t)
+ v := s.newVolume(t, factory)
defer v.Teardown()
v.PutRaw(testHash, testData)
// 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)
+func (s *genericVolumeSuite) testCompareWithCollision(t TB, factory TestableVolumeFactory, testHash string, testDataA, testDataB []byte) {
+ s.setup(t)
+ v := s.newVolume(t, factory)
defer v.Teardown()
v.PutRaw(testHash, testDataA)
// 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)
+func (s *genericVolumeSuite) testCompareWithCorruptStoredData(t TB, factory TestableVolumeFactory, testHash string, testDataA, testDataB []byte) {
+ s.setup(t)
+ v := s.newVolume(t, factory)
defer v.Teardown()
v.PutRaw(TestHash, testDataB)
// 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)
+func (s *genericVolumeSuite) testPutBlockWithSameContent(t TB, factory TestableVolumeFactory, testHash string, testData []byte) {
+ s.setup(t)
+ v := s.newVolume(t, factory)
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)
// 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)
+func (s *genericVolumeSuite) testPutBlockWithDifferentContent(t TB, factory TestableVolumeFactory, testHash string, testDataA, testDataB []byte) {
+ s.setup(t)
+ v := s.newVolume(t, factory)
defer v.Teardown()
- if v.Writable() == false {
- return
- }
-
v.PutRaw(testHash, testDataA)
putErr := v.Put(context.Background(), testHash, testDataB)
// Put and get multiple blocks
// Test is intended for only writable volumes
-func testPutMultipleBlocks(t TB, factory TestableVolumeFactory) {
- v := factory(t)
+func (s *genericVolumeSuite) testPutMultipleBlocks(t TB, factory TestableVolumeFactory) {
+ s.setup(t)
+ v := s.newVolume(t, factory)
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)
}
}
-// 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)
+// testPutAndTouch checks that when applying PUT to a block that
+// already exists, the block's modification time is updated. Intended
+// for only writable volumes.
+func (s *genericVolumeSuite) testPutAndTouch(t TB, factory TestableVolumeFactory) {
+ s.setup(t)
+ v := s.newVolume(t, factory)
defer v.Teardown()
- if v.Writable() == false {
- return
- }
-
if err := v.Put(context.Background(), TestHash, TestBlock); err != nil {
t.Error(err)
}
// 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)
+func (s *genericVolumeSuite) testTouchNoSuchBlock(t TB, factory TestableVolumeFactory) {
+ s.setup(t)
+ v := s.newVolume(t, factory)
defer v.Teardown()
if err := v.Touch(TestHash); err == nil {
// 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)
+func (s *genericVolumeSuite) testMtimeNoSuchBlock(t TB, factory TestableVolumeFactory) {
+ s.setup(t)
+ v := s.newVolume(t, factory)
defer v.Teardown()
if _, err := v.Mtime("12345678901234567890123456789012"); err == nil {
// * 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)
+func (s *genericVolumeSuite) testIndexTo(t TB, factory TestableVolumeFactory) {
+ s.setup(t)
+ v := s.newVolume(t, factory)
defer v.Teardown()
// minMtime and maxMtime are the minimum and maximum
// 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)
+func (s *genericVolumeSuite) testDeleteNewBlock(t TB, factory TestableVolumeFactory) {
+ s.setup(t)
+ s.cluster.Collections.BlobSigningTTL.Set("5m")
+ v := s.newVolume(t, factory)
defer v.Teardown()
- theConfig.BlobSignatureTTL.Set("5m")
-
- if v.Writable() == false {
- return
- }
v.Put(context.Background(), TestHash, 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)
+// BlobSigningTTL seconds in the past should delete the data. Test is
+// intended for only writable volumes
+func (s *genericVolumeSuite) testDeleteOldBlock(t TB, factory TestableVolumeFactory) {
+ s.setup(t)
+ s.cluster.Collections.BlobSigningTTL.Set("5m")
+ v := s.newVolume(t, factory)
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()))
+ v.TouchWithDate(TestHash, time.Now().Add(-2*s.cluster.Collections.BlobSigningTTL.Duration()))
if err := v.Trash(TestHash); err != nil {
t.Error(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)
+func (s *genericVolumeSuite) testDeleteNoSuchBlock(t TB, factory TestableVolumeFactory) {
+ s.setup(t)
+ v := s.newVolume(t, factory)
defer v.Teardown()
if err := v.Trash(TestHash2); err == nil {
// 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)
+func (s *genericVolumeSuite) testStatus(t TB, factory TestableVolumeFactory) {
+ s.setup(t)
+ v := s.newVolume(t, factory)
defer v.Teardown()
// Get node status and make a basic sanity check.
}
}
+func getValueFrom(cv *prometheus.CounterVec, lbls prometheus.Labels) float64 {
+ c, _ := cv.GetMetricWith(lbls)
+ pb := &dto.Metric{}
+ c.Write(pb)
+ return pb.GetCounter().GetValue()
+}
+
+func (s *genericVolumeSuite) testMetrics(t TB, readonly bool, factory TestableVolumeFactory) {
+ var err error
+
+ s.setup(t)
+ v := s.newVolume(t, factory)
+ defer v.Teardown()
+
+ opsC, _, ioC := s.metrics.getCounterVecsFor(prometheus.Labels{"device_id": v.GetDeviceID()})
+
+ if ioC == nil {
+ t.Error("ioBytes CounterVec is nil")
+ return
+ }
+
+ if getValueFrom(ioC, prometheus.Labels{"direction": "out"})+
+ getValueFrom(ioC, prometheus.Labels{"direction": "in"}) > 0 {
+ t.Error("ioBytes counter should be zero")
+ }
+
+ if opsC == nil {
+ t.Error("opsCounter CounterVec is nil")
+ return
+ }
+
+ var c, writeOpCounter, readOpCounter float64
+
+ readOpType, writeOpType := v.ReadWriteOperationLabelValues()
+ writeOpCounter = getValueFrom(opsC, prometheus.Labels{"operation": writeOpType})
+ readOpCounter = getValueFrom(opsC, prometheus.Labels{"operation": readOpType})
+
+ // Test Put if volume is writable
+ if !readonly {
+ err = v.Put(context.Background(), TestHash, TestBlock)
+ if err != nil {
+ t.Errorf("Got err putting block %q: %q, expected nil", TestBlock, err)
+ }
+ // Check that the write operations counter increased
+ c = getValueFrom(opsC, prometheus.Labels{"operation": writeOpType})
+ if c <= writeOpCounter {
+ t.Error("Operation(s) not counted on Put")
+ }
+ // Check that bytes counter is > 0
+ if getValueFrom(ioC, prometheus.Labels{"direction": "out"}) == 0 {
+ t.Error("ioBytes{direction=out} counter shouldn't be zero")
+ }
+ } else {
+ v.PutRaw(TestHash, TestBlock)
+ }
+
+ buf := make([]byte, BlockSize)
+ _, err = v.Get(context.Background(), TestHash, buf)
+ if err != nil {
+ t.Fatal(err)
+ }
+
+ // Check that the operations counter increased
+ c = getValueFrom(opsC, prometheus.Labels{"operation": readOpType})
+ if c <= readOpCounter {
+ t.Error("Operation(s) not counted on Get")
+ }
+ // Check that the bytes "in" counter is > 0
+ if getValueFrom(ioC, prometheus.Labels{"direction": "in"}) == 0 {
+ t.Error("ioBytes{direction=in} counter shouldn't be zero")
+ }
+}
+
// 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)
+func (s *genericVolumeSuite) testString(t TB, factory TestableVolumeFactory) {
+ s.setup(t)
+ v := s.newVolume(t, factory)
defer v.Teardown()
if id := v.String(); len(id) == 0 {
// 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)
+func (s *genericVolumeSuite) testUpdateReadOnly(t TB, factory TestableVolumeFactory) {
+ s.setup(t)
+ v := s.newVolume(t, factory)
defer v.Teardown()
- if v.Writable() == true {
- return
- }
-
v.PutRaw(TestHash, TestBlock)
buf := make([]byte, BlockSize)
// Launch concurrent Gets
// Test should pass for both writable and read-only volumes
-func testGetConcurrent(t TB, factory TestableVolumeFactory) {
- v := factory(t)
+func (s *genericVolumeSuite) testGetConcurrent(t TB, factory TestableVolumeFactory) {
+ s.setup(t)
+ v := s.newVolume(t, factory)
defer v.Teardown()
v.PutRaw(TestHash, TestBlock)
// Launch concurrent Puts
// Test is intended for only writable volumes
-func testPutConcurrent(t TB, factory TestableVolumeFactory) {
- v := factory(t)
+func (s *genericVolumeSuite) testPutConcurrent(t TB, factory TestableVolumeFactory) {
+ s.setup(t)
+ v := s.newVolume(t, factory)
defer v.Teardown()
- if v.Writable() == false {
- return
- }
-
sem := make(chan int)
go func(sem chan int) {
err := v.Put(context.Background(), TestHash, TestBlock)
}
// Write and read back a full size block
-func testPutFullBlock(t TB, factory TestableVolumeFactory) {
- v := factory(t)
+func (s *genericVolumeSuite) testPutFullBlock(t TB, factory TestableVolumeFactory) {
+ s.setup(t)
+ v := s.newVolume(t, factory)
defer v.Teardown()
- if !v.Writable() {
- return
- }
-
wdata := make([]byte, BlockSize)
wdata[0] = 'a'
wdata[BlockSize-1] = 'z'
}
}
-// With TrashLifetime != 0, perform:
+// With BlobTrashLifetime != 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)
+func (s *genericVolumeSuite) testTrashUntrash(t TB, readonly bool, factory TestableVolumeFactory) {
+ s.setup(t)
+ s.cluster.Collections.BlobTrashLifetime.Set("1h")
+ v := s.newVolume(t, factory)
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()))
+ v.TouchWithDate(TestHash, time.Now().Add(-2*s.cluster.Collections.BlobSigningTTL.Duration()))
buf := make([]byte, BlockSize)
n, err := v.Get(context.Background(), TestHash, buf)
// Trash
err = v.Trash(TestHash)
- if v.Writable() == false {
+ if readonly {
if err != MethodDisabledError {
t.Fatal(err)
}
}
}
-func testTrashEmptyTrashUntrash(t TB, factory TestableVolumeFactory) {
- v := factory(t)
+func (s *genericVolumeSuite) testTrashEmptyTrashUntrash(t TB, factory TestableVolumeFactory) {
+ s.setup(t)
+ v := s.newVolume(t, factory)
defer v.Teardown()
- defer func(orig arvados.Duration) {
- theConfig.TrashLifetime = orig
- }(theConfig.TrashLifetime)
checkGet := func() error {
buf := make([]byte, BlockSize)
// First set: EmptyTrash before reaching the trash deadline.
- theConfig.TrashLifetime.Set("1h")
+ s.cluster.Collections.BlobTrashLifetime.Set("1h")
v.PutRaw(TestHash, TestBlock)
- v.TouchWithDate(TestHash, time.Now().Add(-2*theConfig.BlobSignatureTTL.Duration()))
+ v.TouchWithDate(TestHash, time.Now().Add(-2*s.cluster.Collections.BlobSigningTTL.Duration()))
err := checkGet()
if err != nil {
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.
+ // volume types that don't support
+ // BlobTrashLifetime>0.
return
}
}
// Because we Touch'ed, need to backdate again for next set of tests
- v.TouchWithDate(TestHash, time.Now().Add(-2*theConfig.BlobSignatureTTL.Duration()))
+ v.TouchWithDate(TestHash, time.Now().Add(-2*s.cluster.Collections.BlobSigningTTL.Duration()))
// If the only block in the trash has already been untrashed,
// most volumes will fail a subsequent Untrash with a 404, but
}
// Untrash might have updated the timestamp, so backdate again
- v.TouchWithDate(TestHash, time.Now().Add(-2*theConfig.BlobSignatureTTL.Duration()))
+ v.TouchWithDate(TestHash, time.Now().Add(-2*s.cluster.Collections.BlobSigningTTL.Duration()))
// Second set: EmptyTrash after the trash deadline has passed.
- theConfig.TrashLifetime.Set("1ns")
+ s.cluster.Collections.BlobTrashLifetime.Set("1ns")
err = v.Trash(TestHash)
if err != nil {
// 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)
+ v.TouchWithDate(TestHash, time.Now().Add(-2*s.cluster.Collections.BlobSigningTTL.Duration()))
+ _ = v.Trash(TestHash)
err = checkGet()
if err == nil || !os.IsNotExist(err) {
t.Fatalf("os.IsNotExist(%v) should have been true", err)
// un-trashed copy doesn't get deleted along with it.
v.PutRaw(TestHash, TestBlock)
- v.TouchWithDate(TestHash, time.Now().Add(-2*theConfig.BlobSignatureTTL.Duration()))
+ v.TouchWithDate(TestHash, time.Now().Add(-2*s.cluster.Collections.BlobSigningTTL.Duration()))
- theConfig.TrashLifetime.Set("1ns")
+ s.cluster.Collections.BlobTrashLifetime.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()))
+ v.TouchWithDate(TestHash, time.Now().Add(-2*s.cluster.Collections.BlobSigningTTL.Duration()))
// EmptyTrash should not delete the untrashed copy.
v.EmptyTrash()
// untrash the block whose deadline is "C".
v.PutRaw(TestHash, TestBlock)
- v.TouchWithDate(TestHash, time.Now().Add(-2*theConfig.BlobSignatureTTL.Duration()))
+ v.TouchWithDate(TestHash, time.Now().Add(-2*s.cluster.Collections.BlobSigningTTL.Duration()))
- theConfig.TrashLifetime.Set("1ns")
+ s.cluster.Collections.BlobTrashLifetime.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()))
+ v.TouchWithDate(TestHash, time.Now().Add(-2*s.cluster.Collections.BlobSigningTTL.Duration()))
- theConfig.TrashLifetime.Set("1h")
+ s.cluster.Collections.BlobTrashLifetime.Set("1h")
err = v.Trash(TestHash)
if err != nil {
t.Fatal(err)