package vfscache import ( "context" "fmt" "os" "path/filepath" "sort" "testing" "time" _ "github.com/rclone/rclone/backend/local" // import the local backend "github.com/rclone/rclone/fstest" "github.com/rclone/rclone/vfs/vfscommon" "github.com/stretchr/testify/assert" "github.com/stretchr/testify/require" ) // TestMain drives the tests func TestMain(m *testing.M) { fstest.TestMain(m) } // convert c.item to a string func itemAsString(c *Cache) []string { c.mu.Lock() defer c.mu.Unlock() var out []string for name, item := range c.item { out = append(out, fmt.Sprintf("name=%q opens=%d size=%d", filepath.ToSlash(name), item.opens, item.info.Size)) } sort.Strings(out) return out } // convert c.item to a string func itemSpaceAsString(c *Cache) []string { c.mu.Lock() defer c.mu.Unlock() var out []string for name, item := range c.item { space := item.info.Rs.Size() out = append(out, fmt.Sprintf("name=%q opens=%d size=%d space=%d", filepath.ToSlash(name), item.opens, item.info.Size, space)) } sort.Strings(out) return out } // open an item and write to it func itemWrite(t *testing.T, item *Item, contents string) { require.NoError(t, item.Open(nil)) _, err := item.WriteAt([]byte(contents), 0) require.NoError(t, err) } func assertPathNotExist(t *testing.T, path string) { _, err := os.Stat(path) assert.True(t, os.IsNotExist(err)) } func assertPathExist(t *testing.T, path string) os.FileInfo { fi, err := os.Stat(path) assert.NoError(t, err) return fi } type avInfo struct { Remote string Size int64 IsDir bool } var avInfos []avInfo func addVirtual(remote string, size int64, isDir bool) error { avInfos = append(avInfos, avInfo{ Remote: remote, Size: size, IsDir: isDir, }) return nil } func newTestCacheOpt(t *testing.T, opt vfscommon.Options) (r *fstest.Run, c *Cache, cleanup func()) { r = fstest.NewRun(t) ctx, cancel := context.WithCancel(context.Background()) avInfos = nil c, err := New(ctx, r.Fremote, &opt, addVirtual) require.NoError(t, err) cleanup = func() { err := c.CleanUp() require.NoError(t, err) assertPathNotExist(t, c.root) cancel() r.Finalise() } return r, c, cleanup } func newTestCache(t *testing.T) (r *fstest.Run, c *Cache, cleanup func()) { opt := vfscommon.DefaultOpt // Disable the cache cleaner as it interferes with these tests opt.CachePollInterval = 0 // Disable synchronous write opt.WriteBack = 0 return newTestCacheOpt(t, opt) } func TestCacheNew(t *testing.T) { r, c, cleanup := newTestCache(t) defer cleanup() assert.Contains(t, c.root, "vfs") assert.Contains(t, c.fcache.Root(), filepath.Base(r.Fremote.Root())) assert.Equal(t, []string(nil), itemAsString(c)) // mkdir p, err := c.mkdir("potato") require.NoError(t, err) assert.Equal(t, "potato", filepath.Base(p)) assert.Equal(t, []string(nil), itemAsString(c)) fi := assertPathExist(t, filepath.Dir(p)) assert.True(t, fi.IsDir()) // get item, _ := c.get("potato") item2, _ := c.get("potato") assert.Equal(t, item, item2) assert.WithinDuration(t, time.Now(), item.info.ATime, time.Second) // open assert.Equal(t, []string{ `name="potato" opens=0 size=0`, }, itemAsString(c)) potato := c.Item("/potato") require.NoError(t, potato.Open(nil)) assert.Equal(t, []string{ `name="potato" opens=1 size=0`, }, itemAsString(c)) assert.WithinDuration(t, time.Now(), potato.info.ATime, time.Second) assert.Equal(t, 1, potato.opens) // write the file require.NoError(t, potato.Truncate(5)) atime := time.Now() potato.info.ATime = atime assert.Equal(t, []string{ `name="potato" opens=1 size=5`, }, itemAsString(c)) assert.True(t, atime.Equal(potato.info.ATime), fmt.Sprintf("%v != %v", atime, potato.info.ATime)) // try purging with file open c.purgeOld(10 * time.Second) assertPathExist(t, p) // close assert.Equal(t, []string{ `name="potato" opens=1 size=5`, }, itemAsString(c)) require.NoError(t, potato.Truncate(6)) assert.Equal(t, []string{ `name="potato" opens=1 size=6`, }, itemAsString(c)) require.NoError(t, potato.Close(nil)) assert.Equal(t, []string{ `name="potato" opens=0 size=6`, }, itemAsString(c)) item, _ = c.get("potato") assert.WithinDuration(t, time.Now(), item.info.ATime, time.Second) assert.Equal(t, 0, item.opens) // try purging with file closed c.purgeOld(10 * time.Second) assertPathExist(t, p) //.. purge again with -ve age c.purgeOld(-10 * time.Second) assertPathNotExist(t, p) // clean - have tested the internals already c.clean(false) } func TestCacheOpens(t *testing.T) { _, c, cleanup := newTestCache(t) defer cleanup() assert.Equal(t, []string(nil), itemAsString(c)) potato := c.Item("potato") require.NoError(t, potato.Open(nil)) assert.Equal(t, []string{ `name="potato" opens=1 size=0`, }, itemAsString(c)) require.NoError(t, potato.Open(nil)) assert.Equal(t, []string{ `name="potato" opens=2 size=0`, }, itemAsString(c)) require.NoError(t, potato.Close(nil)) assert.Equal(t, []string{ `name="potato" opens=1 size=0`, }, itemAsString(c)) require.NoError(t, potato.Close(nil)) assert.Equal(t, []string{ `name="potato" opens=0 size=0`, }, itemAsString(c)) require.NoError(t, potato.Open(nil)) a1 := c.Item("a//b/c/d/one") a2 := c.Item("a/b/c/d/e/two") a3 := c.Item("a/b/c/d/e/f/three") require.NoError(t, a1.Open(nil)) require.NoError(t, a2.Open(nil)) require.NoError(t, a3.Open(nil)) assert.Equal(t, []string{ `name="a/b/c/d/e/f/three" opens=1 size=0`, `name="a/b/c/d/e/two" opens=1 size=0`, `name="a/b/c/d/one" opens=1 size=0`, `name="potato" opens=1 size=0`, }, itemAsString(c)) require.NoError(t, potato.Close(nil)) require.NoError(t, a1.Close(nil)) require.NoError(t, a2.Close(nil)) require.NoError(t, a3.Close(nil)) assert.Equal(t, []string{ `name="a/b/c/d/e/f/three" opens=0 size=0`, `name="a/b/c/d/e/two" opens=0 size=0`, `name="a/b/c/d/one" opens=0 size=0`, `name="potato" opens=0 size=0`, }, itemAsString(c)) } // test the open, mkdir, purge, close, purge sequence func TestCacheOpenMkdir(t *testing.T) { _, c, cleanup := newTestCache(t) defer cleanup() // open potato := c.Item("sub/potato") require.NoError(t, potato.Open(nil)) assert.Equal(t, []string{ `name="sub/potato" opens=1 size=0`, }, itemAsString(c)) // mkdir p, err := c.mkdir("sub/potato") require.NoError(t, err) assert.Equal(t, "potato", filepath.Base(p)) assert.Equal(t, []string{ `name="sub/potato" opens=1 size=0`, }, itemAsString(c)) // test directory exists fi := assertPathExist(t, filepath.Dir(p)) assert.True(t, fi.IsDir()) // clean the cache c.purgeOld(-10 * time.Second) // test directory still exists fi = assertPathExist(t, filepath.Dir(p)) assert.True(t, fi.IsDir()) // close require.NoError(t, potato.Close(nil)) assert.Equal(t, []string{ `name="sub/potato" opens=0 size=0`, }, itemAsString(c)) // clean the cache c.purgeOld(-10 * time.Second) c.purgeEmptyDirs() assert.Equal(t, []string(nil), itemAsString(c)) // test directory does not exist assertPathNotExist(t, filepath.Dir(p)) } func TestCachePurgeOld(t *testing.T) { _, c, cleanup := newTestCache(t) defer cleanup() // Test funcs c.purgeOld(-10 * time.Second) potato2 := c.Item("sub/dir2/potato2") require.NoError(t, potato2.Open(nil)) potato := c.Item("sub/dir/potato") require.NoError(t, potato.Open(nil)) require.NoError(t, potato2.Close(nil)) require.NoError(t, potato.Open(nil)) assert.Equal(t, []string{ `name="sub/dir/potato" opens=2 size=0`, `name="sub/dir2/potato2" opens=0 size=0`, }, itemAsString(c)) c.purgeOld(-10 * time.Second) assert.Equal(t, []string{ `name="sub/dir/potato" opens=2 size=0`, }, itemAsString(c)) require.NoError(t, potato.Close(nil)) assert.Equal(t, []string{ `name="sub/dir/potato" opens=1 size=0`, }, itemAsString(c)) c.purgeOld(-10 * time.Second) assert.Equal(t, []string{ `name="sub/dir/potato" opens=1 size=0`, }, itemAsString(c)) require.NoError(t, potato.Close(nil)) assert.Equal(t, []string{ `name="sub/dir/potato" opens=0 size=0`, }, itemAsString(c)) c.purgeOld(10 * time.Second) assert.Equal(t, []string{ `name="sub/dir/potato" opens=0 size=0`, }, itemAsString(c)) c.purgeOld(-10 * time.Second) assert.Equal(t, []string(nil), itemAsString(c)) } func TestCachePurgeOverQuota(t *testing.T) { _, c, cleanup := newTestCache(t) defer cleanup() // Test funcs // Make some test files potato := c.Item("sub/dir/potato") itemWrite(t, potato, "hello") potato2 := c.Item("sub/dir2/potato2") itemWrite(t, potato2, "hello2") assert.Equal(t, []string{ `name="sub/dir/potato" opens=1 size=5`, `name="sub/dir2/potato2" opens=1 size=6`, }, itemAsString(c)) // Check nothing removed c.purgeOverQuota(1) // Close the files require.NoError(t, potato.Close(nil)) require.NoError(t, potato2.Close(nil)) assert.Equal(t, []string{ `name="sub/dir/potato" opens=0 size=5`, `name="sub/dir2/potato2" opens=0 size=6`, }, itemAsString(c)) // Update the stats to read the total size c.updateUsed() // make potato2 definitely after potato t1 := time.Now().Add(10 * time.Second) potato2.info.ATime = t1 // Check only potato removed to get below quota c.purgeOverQuota(10) assert.Equal(t, int64(6), c.used) assert.Equal(t, []string{ `name="sub/dir2/potato2" opens=0 size=6`, }, itemAsString(c)) // Put potato back potato = c.Item("sub/dir/potato") require.NoError(t, potato.Open(nil)) require.NoError(t, potato.Truncate(5)) require.NoError(t, potato.Close(nil)) // Update the stats to read the total size c.updateUsed() assert.Equal(t, []string{ `name="sub/dir/potato" opens=0 size=5`, `name="sub/dir2/potato2" opens=0 size=6`, }, itemAsString(c)) // make potato definitely after potato2 t2 := t1.Add(20 * time.Second) potato.info.ATime = t2 // Check only potato2 removed to get below quota c.purgeOverQuota(10) assert.Equal(t, int64(5), c.used) c.purgeEmptyDirs() assert.Equal(t, []string{ `name="sub/dir/potato" opens=0 size=5`, }, itemAsString(c)) // Now purge everything c.purgeOverQuota(1) assert.Equal(t, int64(0), c.used) c.purgeEmptyDirs() assert.Equal(t, []string(nil), itemAsString(c)) // Check nothing left behind c.clean(false) assert.Equal(t, int64(0), c.used) assert.Equal(t, []string(nil), itemAsString(c)) } // test reset clean files func TestCachePurgeClean(t *testing.T) { r, c, cleanup := newItemTestCache(t) defer cleanup() contents, obj, patato1 := newFile(t, r, c, "existing") _ = contents // Open the object to create metadata for it require.NoError(t, patato1.Open(obj)) require.NoError(t, patato1.Open(obj)) size, err := patato1.GetSize() require.NoError(t, err) assert.Equal(t, int64(100), size) // Read something to instantiate the cache file buf := make([]byte, 10) _, err = patato1.ReadAt(buf, 10) require.NoError(t, err) // Test cache file present _, err = os.Stat(patato1.c.toOSPath(patato1.name)) require.NoError(t, err) // Add some potatos potato2 := c.Item("sub/dir/potato2") require.NoError(t, potato2.Open(nil)) require.NoError(t, potato2.Truncate(5)) potato3 := c.Item("sub/dir/potato3") require.NoError(t, potato3.Open(nil)) require.NoError(t, potato3.Truncate(6)) c.updateUsed() c.purgeClean(1) assert.Equal(t, []string{ `name="existing" opens=2 size=100 space=0`, `name="sub/dir/potato2" opens=1 size=5 space=5`, `name="sub/dir/potato3" opens=1 size=6 space=6`, }, itemSpaceAsString(c)) assert.Equal(t, int64(11), c.used) require.NoError(t, potato2.Close(nil)) c.purgeClean(1) assert.Equal(t, []string{ `name="existing" opens=2 size=100 space=0`, `name="sub/dir/potato3" opens=1 size=6 space=6`, }, itemSpaceAsString(c)) assert.Equal(t, int64(6), c.used) require.NoError(t, patato1.Close(nil)) require.NoError(t, patato1.Close(nil)) require.NoError(t, potato3.Close(nil)) // Remove all files now. The are all not in use. // purgeClean does not remove empty cache files. purgeOverQuota does. // So we use purgeOverQuota here for the cleanup. c.purgeOverQuota(1) c.purgeEmptyDirs() assert.Equal(t, []string(nil), itemAsString(c)) } func TestCacheInUse(t *testing.T) { _, c, cleanup := newTestCache(t) defer cleanup() assert.False(t, c.InUse("potato")) potato := c.Item("potato") assert.False(t, c.InUse("potato")) require.NoError(t, potato.Open(nil)) assert.True(t, c.InUse("potato")) require.NoError(t, potato.Close(nil)) assert.False(t, c.InUse("potato")) } func TestCacheDirtyItem(t *testing.T) { _, c, cleanup := newTestCache(t) defer cleanup() assert.Nil(t, c.DirtyItem("potato")) potato := c.Item("potato") assert.Nil(t, c.DirtyItem("potato")) require.NoError(t, potato.Open(nil)) require.NoError(t, potato.Truncate(5)) assert.Equal(t, potato, c.DirtyItem("potato")) require.NoError(t, potato.Close(nil)) assert.Nil(t, c.DirtyItem("potato")) } func TestCacheExistsAndRemove(t *testing.T) { _, c, cleanup := newTestCache(t) defer cleanup() assert.False(t, c.Exists("potato")) potato := c.Item("potato") assert.False(t, c.Exists("potato")) require.NoError(t, potato.Open(nil)) assert.True(t, c.Exists("potato")) require.NoError(t, potato.Close(nil)) assert.True(t, c.Exists("potato")) c.Remove("potato") assert.False(t, c.Exists("potato")) } func TestCacheRename(t *testing.T) { _, c, cleanup := newTestCache(t) defer cleanup() // setup assert.False(t, c.Exists("potato")) potato := c.Item("potato") require.NoError(t, potato.Open(nil)) require.NoError(t, potato.Close(nil)) assert.True(t, c.Exists("potato")) osPath := c.toOSPath("potato") osPathMeta := c.toOSPathMeta("potato") assertPathExist(t, osPath) assertPathExist(t, osPathMeta) // rename potato -> newPotato require.NoError(t, c.Rename("potato", "newPotato", nil)) assertPathNotExist(t, osPath) assertPathNotExist(t, osPathMeta) assert.False(t, c.Exists("potato")) osPath = c.toOSPath("newPotato") osPathMeta = c.toOSPathMeta("newPotato") assertPathExist(t, osPath) assertPathExist(t, osPathMeta) assert.True(t, c.Exists("newPotato")) // rename newPotato -> sub/newPotato require.NoError(t, c.Rename("newPotato", "sub/newPotato", nil)) assertPathNotExist(t, osPath) assertPathNotExist(t, osPathMeta) assert.False(t, c.Exists("potato")) osPath = c.toOSPath("sub/newPotato") osPathMeta = c.toOSPathMeta("sub/newPotato") assertPathExist(t, osPath) assertPathExist(t, osPathMeta) assert.True(t, c.Exists("sub/newPotato")) // remove c.Remove("sub/newPotato") assertPathNotExist(t, osPath) assertPathNotExist(t, osPathMeta) assert.False(t, c.Exists("sub/newPotato")) // non existent file - is ignored assert.NoError(t, c.Rename("nonexist", "nonexist2", nil)) } func TestCacheCleaner(t *testing.T) { opt := vfscommon.DefaultOpt opt.CachePollInterval = 10 * time.Millisecond opt.CacheMaxAge = 20 * time.Millisecond _, c, cleanup := newTestCacheOpt(t, opt) defer cleanup() time.Sleep(2 * opt.CachePollInterval) potato := c.Item("potato") potato2, found := c.get("potato") assert.Equal(t, fmt.Sprintf("%p", potato), fmt.Sprintf("%p", potato2)) assert.True(t, found) for i := 0; i < 100; i++ { time.Sleep(10 * opt.CachePollInterval) potato2, found = c.get("potato") if !found { break } } assert.NotEqual(t, fmt.Sprintf("%p", potato), fmt.Sprintf("%p", potato2)) assert.False(t, found) } func TestCacheSetModTime(t *testing.T) { _, c, cleanup := newTestCache(t) defer cleanup() t1 := time.Date(2010, 1, 2, 3, 4, 5, 9, time.UTC) potato := c.Item("potato") require.NoError(t, potato.Open(nil)) require.NoError(t, potato.Truncate(5)) require.NoError(t, potato.Close(nil)) c.SetModTime("potato", t1) osPath := potato.c.toOSPath("potato") fi, err := os.Stat(osPath) require.NoError(t, err) fstest.AssertTimeEqualWithPrecision(t, "potato", t1, fi.ModTime(), time.Second) } func TestCacheTotaInUse(t *testing.T) { _, c, cleanup := newTestCache(t) defer cleanup() assert.Equal(t, int(0), c.TotalInUse()) potato := c.Item("potato") assert.Equal(t, int(0), c.TotalInUse()) require.NoError(t, potato.Open(nil)) assert.Equal(t, int(1), c.TotalInUse()) require.NoError(t, potato.Truncate(5)) assert.Equal(t, int(1), c.TotalInUse()) potato2 := c.Item("potato2") assert.Equal(t, int(1), c.TotalInUse()) require.NoError(t, potato2.Open(nil)) assert.Equal(t, int(2), c.TotalInUse()) require.NoError(t, potato2.Close(nil)) assert.Equal(t, int(1), c.TotalInUse()) require.NoError(t, potato.Close(nil)) assert.Equal(t, int(0), c.TotalInUse()) } func TestCacheDump(t *testing.T) { _, c, cleanup := newTestCache(t) defer cleanup() out := (*Cache)(nil).Dump() assert.Equal(t, "Cache: \n", out) out = c.Dump() assert.Equal(t, "Cache{\n}\n", out) c.Item("potato") out = c.Dump() want := "Cache{\n\t\"potato\": " assert.Equal(t, want, out[:len(want)]) c.Remove("potato") out = c.Dump() assert.Equal(t, "Cache{\n}\n", out) }