// Copyright 2015 The etcd Authors // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package backend import ( "fmt" "io/ioutil" "os" "reflect" "testing" "time" bolt "github.com/coreos/bbolt" ) func TestBackendClose(t *testing.T) { b, tmpPath := NewTmpBackend(time.Hour, 10000) defer os.Remove(tmpPath) // check close could work done := make(chan struct{}) go func() { err := b.Close() if err != nil { t.Errorf("close error = %v, want nil", err) } done <- struct{}{} }() select { case <-done: case <-time.After(10 * time.Second): t.Errorf("failed to close database in 10s") } } func TestBackendSnapshot(t *testing.T) { b, tmpPath := NewTmpBackend(time.Hour, 10000) defer cleanup(b, tmpPath) tx := b.BatchTx() tx.Lock() tx.UnsafeCreateBucket([]byte("test")) tx.UnsafePut([]byte("test"), []byte("foo"), []byte("bar")) tx.Unlock() b.ForceCommit() // write snapshot to a new file f, err := ioutil.TempFile(os.TempDir(), "etcd_backend_test") if err != nil { t.Fatal(err) } snap := b.Snapshot() defer snap.Close() if _, err := snap.WriteTo(f); err != nil { t.Fatal(err) } f.Close() // bootstrap new backend from the snapshot bcfg := DefaultBackendConfig() bcfg.Path, bcfg.BatchInterval, bcfg.BatchLimit = f.Name(), time.Hour, 10000 nb := New(bcfg) defer cleanup(nb, f.Name()) newTx := b.BatchTx() newTx.Lock() ks, _ := newTx.UnsafeRange([]byte("test"), []byte("foo"), []byte("goo"), 0) if len(ks) != 1 { t.Errorf("len(kvs) = %d, want 1", len(ks)) } newTx.Unlock() } func TestBackendBatchIntervalCommit(t *testing.T) { // start backend with super short batch interval so // we do not need to wait long before commit to happen. b, tmpPath := NewTmpBackend(time.Nanosecond, 10000) defer cleanup(b, tmpPath) pc := b.Commits() tx := b.BatchTx() tx.Lock() tx.UnsafeCreateBucket([]byte("test")) tx.UnsafePut([]byte("test"), []byte("foo"), []byte("bar")) tx.Unlock() for i := 0; i < 10; i++ { if b.Commits() >= pc+1 { break } time.Sleep(time.Duration(i*100) * time.Millisecond) } // check whether put happens via db view b.db.View(func(tx *bolt.Tx) error { bucket := tx.Bucket([]byte("test")) if bucket == nil { t.Errorf("bucket test does not exit") return nil } v := bucket.Get([]byte("foo")) if v == nil { t.Errorf("foo key failed to written in backend") } return nil }) } func TestBackendDefrag(t *testing.T) { b, tmpPath := NewDefaultTmpBackend() defer cleanup(b, tmpPath) tx := b.BatchTx() tx.Lock() tx.UnsafeCreateBucket([]byte("test")) for i := 0; i < defragLimit+100; i++ { tx.UnsafePut([]byte("test"), []byte(fmt.Sprintf("foo_%d", i)), []byte("bar")) } tx.Unlock() b.ForceCommit() // remove some keys to ensure the disk space will be reclaimed after defrag tx = b.BatchTx() tx.Lock() for i := 0; i < 50; i++ { tx.UnsafeDelete([]byte("test"), []byte(fmt.Sprintf("foo_%d", i))) } tx.Unlock() b.ForceCommit() size := b.Size() // shrink and check hash oh, err := b.Hash(nil) if err != nil { t.Fatal(err) } err = b.Defrag() if err != nil { t.Fatal(err) } nh, err := b.Hash(nil) if err != nil { t.Fatal(err) } if oh != nh { t.Errorf("hash = %v, want %v", nh, oh) } nsize := b.Size() if nsize >= size { t.Errorf("new size = %v, want < %d", nsize, size) } // try put more keys after shrink. tx = b.BatchTx() tx.Lock() tx.UnsafeCreateBucket([]byte("test")) tx.UnsafePut([]byte("test"), []byte("more"), []byte("bar")) tx.Unlock() b.ForceCommit() } // TestBackendWriteback ensures writes are stored to the read txn on write txn unlock. func TestBackendWriteback(t *testing.T) { b, tmpPath := NewDefaultTmpBackend() defer cleanup(b, tmpPath) tx := b.BatchTx() tx.Lock() tx.UnsafeCreateBucket([]byte("key")) tx.UnsafePut([]byte("key"), []byte("abc"), []byte("bar")) tx.UnsafePut([]byte("key"), []byte("def"), []byte("baz")) tx.UnsafePut([]byte("key"), []byte("overwrite"), []byte("1")) tx.Unlock() // overwrites should be propagated too tx.Lock() tx.UnsafePut([]byte("key"), []byte("overwrite"), []byte("2")) tx.Unlock() keys := []struct { key []byte end []byte limit int64 wkey [][]byte wval [][]byte }{ { key: []byte("abc"), end: nil, wkey: [][]byte{[]byte("abc")}, wval: [][]byte{[]byte("bar")}, }, { key: []byte("abc"), end: []byte("def"), wkey: [][]byte{[]byte("abc")}, wval: [][]byte{[]byte("bar")}, }, { key: []byte("abc"), end: []byte("deg"), wkey: [][]byte{[]byte("abc"), []byte("def")}, wval: [][]byte{[]byte("bar"), []byte("baz")}, }, { key: []byte("abc"), end: []byte("\xff"), limit: 1, wkey: [][]byte{[]byte("abc")}, wval: [][]byte{[]byte("bar")}, }, { key: []byte("abc"), end: []byte("\xff"), wkey: [][]byte{[]byte("abc"), []byte("def"), []byte("overwrite")}, wval: [][]byte{[]byte("bar"), []byte("baz"), []byte("2")}, }, } rtx := b.ReadTx() for i, tt := range keys { rtx.Lock() k, v := rtx.UnsafeRange([]byte("key"), tt.key, tt.end, tt.limit) rtx.Unlock() if !reflect.DeepEqual(tt.wkey, k) || !reflect.DeepEqual(tt.wval, v) { t.Errorf("#%d: want k=%+v, v=%+v; got k=%+v, v=%+v", i, tt.wkey, tt.wval, k, v) } } } func cleanup(b Backend, path string) { b.Close() os.Remove(path) }