// deleteRevKey deletes a key by revision, returning false if key is missing func deleteRevKey(kv v3.KV, key string, rev int64) (bool, error) { cmp := v3.Compare(v3.ModRevision(key), "=", rev) req := v3.OpDelete(key) txnresp, err := kv.Txn(context.TODO()).If(cmp).Then(req).Commit() if err != nil { return false, err } else if !txnresp.Succeeded { return false, nil } return true, nil }
// putNewKV attempts to create the given key, only succeeding if the key did // not yet exist. func putNewKV(kv v3.KV, key, val string, leaseID v3.LeaseID) (int64, error) { cmp := v3.Compare(v3.Version(key), "=", 0) req := v3.OpPut(key, val, v3.WithLease(leaseID)) txnresp, err := kv.Txn(context.TODO()).If(cmp).Then(req).Commit() if err != nil { return 0, err } if !txnresp.Succeeded { return 0, ErrKeyExists } return txnresp.Header.Revision, nil }
func NewUniqueKV(ctx context.Context, kv v3.KV, pfx, val string, opts ...v3.OpOption) (string, int64, error) { for { newKey := fmt.Sprintf("%s/%v", pfx, time.Now().UnixNano()) put := v3.OpPut(newKey, val, opts...) cmp := v3.Compare(v3.ModifiedRevision(newKey), "=", 0) resp, err := kv.Txn(ctx).If(cmp).Then(put).Commit() if err != nil { return "", 0, err } if !resp.Succeeded { continue } return newKey, resp.Header.Revision, nil } }
func cas(key, value, newValue string, kvc clientv3.KV) error { ctx, cancel := context.WithTimeout(context.Background(), requestTimeout) tnxRes, err := kvc.Txn(ctx). If(clientv3.Compare(clientv3.Value(key), "=", value)). Then(clientv3.OpPut(key, newValue)). Else(clientv3.OpGet(key)). Commit() cancel() if err != nil { return err } if tnxRes.Succeeded { return nil } log.Println(string(tnxRes.Responses[0].GetResponseRange().Kvs[0].Value)) return errors.New("release error") }
// newSequentialKV allocates a new sequential key <prefix>/nnnnn with a given // value and lease. Note: a bookkeeping node __<prefix> is also allocated. func newSequentialKV(kv v3.KV, prefix, val string, leaseID v3.LeaseID) (*RemoteKV, error) { resp, err := kv.Get(context.TODO(), prefix, v3.WithLastKey()...) if err != nil { return nil, err } // add 1 to last key, if any newSeqNum := 0 if len(resp.Kvs) != 0 { fields := strings.Split(string(resp.Kvs[0].Key), "/") _, serr := fmt.Sscanf(fields[len(fields)-1], "%d", &newSeqNum) if serr != nil { return nil, serr } newSeqNum++ } newKey := fmt.Sprintf("%s/%016d", prefix, newSeqNum) // base prefix key must be current (i.e., <=) with the server update; // the base key is important to avoid the following: // N1: LastKey() == 1, start txn. // N2: New Key 2, New Key 3, Delete Key 2 // N1: txn succeeds allocating key 2 when it shouldn't baseKey := "__" + prefix // current revision might contain modification so +1 cmp := v3.Compare(v3.ModRevision(baseKey), "<", resp.Header.Revision+1) reqPrefix := v3.OpPut(baseKey, "", v3.WithLease(leaseID)) reqNewKey := v3.OpPut(newKey, val, v3.WithLease(leaseID)) txn := kv.Txn(context.TODO()) txnresp, err := txn.If(cmp).Then(reqPrefix, reqNewKey).Commit() if err != nil { return nil, err } if !txnresp.Succeeded { return newSequentialKV(kv, prefix, val, leaseID) } return &RemoteKV{kv, newKey, txnresp.Header.Revision, val}, nil }