// Copyright 2016 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 grpcproxy
import (
"context"
"github.com/coreos/etcd/clientv3"
pb "github.com/coreos/etcd/etcdserver/etcdserverpb"
"github.com/coreos/etcd/proxy/grpcproxy/cache"
)
type kvProxy struct {
kv clientv3.KV
cache cache.Cache
}
func NewKvProxy(c *clientv3.Client) (pb.KVServer, <-chan struct{}) {
kv := &kvProxy{
kv: c.KV,
cache: cache.NewCache(cache.DefaultMaxEntries),
}
donec := make(chan struct{})
close(donec)
return kv, donec
}
func (p *kvProxy) Range(ctx context.Context, r *pb.RangeRequest) (*pb.RangeResponse, error) {
if r.Serializable {
resp, err := p.cache.Get(r)
switch err {
case nil:
cacheHits.Inc()
return resp, nil
case cache.ErrCompacted:
cacheHits.Inc()
return nil, err
}
cachedMisses.Inc()
}
resp, err := p.kv.Do(ctx, RangeRequestToOp(r))
if err != nil {
return nil, err
}
// cache linearizable as serializable
req := *r
req.Serializable = true
gresp := (*pb.RangeResponse)(resp.Get())
p.cache.Add(&req, gresp)
cacheKeys.Set(float64(p.cache.Size()))
return gresp, nil
}
func (p *kvProxy) Put(ctx context.Context, r *pb.PutRequest) (*pb.PutResponse, error) {
p.cache.Invalidate(r.Key, nil)
cacheKeys.Set(float64(p.cache.Size()))
resp, err := p.kv.Do(ctx, PutRequestToOp(r))
return (*pb.PutResponse)(resp.Put()), err
}
func (p *kvProxy) DeleteRange(ctx context.Context, r *pb.DeleteRangeRequest) (*pb.DeleteRangeResponse, error) {
p.cache.Invalidate(r.Key, r.RangeEnd)
cacheKeys.Set(float64(p.cache.Size()))
resp, err := p.kv.Do(ctx, DelRequestToOp(r))
return (*pb.DeleteRangeResponse)(resp.Del()), err
}
func (p *kvProxy) txnToCache(reqs []*pb.RequestOp, resps []*pb.ResponseOp) {
for i := range resps {
switch tv := resps[i].Response.(type) {
case *pb.ResponseOp_ResponsePut:
p.cache.Invalidate(reqs[i].GetRequestPut().Key, nil)
case *pb.ResponseOp_ResponseDeleteRange:
rdr := reqs[i].GetRequestDeleteRange()
p.cache.Invalidate(rdr.Key, rdr.RangeEnd)
case *pb.ResponseOp_ResponseRange:
req := *(reqs[i].GetRequestRange())
req.Serializable = true
p.cache.Add(&req, tv.ResponseRange)
}
}
}
func (p *kvProxy) Txn(ctx context.Context, r *pb.TxnRequest) (*pb.TxnResponse, error) {
op := TxnRequestToOp(r)
opResp, err := p.kv.Do(ctx, op)
if err != nil {
return nil, err
}
resp := opResp.Txn()
// txn may claim an outdated key is updated; be safe and invalidate
for _, cmp := range r.Compare {
p.cache.Invalidate(cmp.Key, cmp.RangeEnd)
}
// update any fetched keys
if resp.Succeeded {
p.txnToCache(r.Success, resp.Responses)
} else {
p.txnToCache(r.Failure, resp.Responses)
}
cacheKeys.Set(float64(p.cache.Size()))
return (*pb.TxnResponse)(resp), nil
}
func (p *kvProxy) Compact(ctx context.Context, r *pb.CompactionRequest) (*pb.CompactionResponse, error) {
var opts []clientv3.CompactOption
if r.Physical {
opts = append(opts, clientv3.WithCompactPhysical())
}
resp, err := p.kv.Compact(ctx, r.Revision, opts...)
if err == nil {
p.cache.Compact(r.Revision)
}
cacheKeys.Set(float64(p.cache.Size()))
return (*pb.CompactionResponse)(resp), err
}
func requestOpToOp(union *pb.RequestOp) clientv3.Op {
switch tv := union.Request.(type) {
case *pb.RequestOp_RequestRange:
if tv.RequestRange != nil {
return RangeRequestToOp(tv.RequestRange)
}
case *pb.RequestOp_RequestPut:
if tv.RequestPut != nil {
return PutRequestToOp(tv.RequestPut)
}
case *pb.RequestOp_RequestDeleteRange:
if tv.RequestDeleteRange != nil {
return DelRequestToOp(tv.RequestDeleteRange)
}
case *pb.RequestOp_RequestTxn:
if tv.RequestTxn != nil {
return TxnRequestToOp(tv.RequestTxn)
}
}
panic("unknown request")
}
func RangeRequestToOp(r *pb.RangeRequest) clientv3.Op {
opts := []clientv3.OpOption{}
if len(r.RangeEnd) != 0 {
opts = append(opts, clientv3.WithRange(string(r.RangeEnd)))
}
opts = append(opts, clientv3.WithRev(r.Revision))
opts = append(opts, clientv3.WithLimit(r.Limit))
opts = append(opts, clientv3.WithSort(
clientv3.SortTarget(r.SortTarget),
clientv3.SortOrder(r.SortOrder)),
)
opts = append(opts, clientv3.WithMaxCreateRev(r.MaxCreateRevision))
opts = append(opts, clientv3.WithMinCreateRev(r.MinCreateRevision))
opts = append(opts, clientv3.WithMaxModRev(r.MaxModRevision))
opts = append(opts, clientv3.WithMinModRev(r.MinModRevision))
if r.CountOnly {
opts = append(opts, clientv3.WithCountOnly())
}
if r.KeysOnly {
opts = append(opts, clientv3.WithKeysOnly())
}
if r.Serializable {
opts = append(opts, clientv3.WithSerializable())
}
return clientv3.OpGet(string(r.Key), opts...)
}
func PutRequestToOp(r *pb.PutRequest) clientv3.Op {
opts := []clientv3.OpOption{}
opts = append(opts, clientv3.WithLease(clientv3.LeaseID(r.Lease)))
if r.IgnoreValue {
opts = append(opts, clientv3.WithIgnoreValue())
}
if r.IgnoreLease {
opts = append(opts, clientv3.WithIgnoreLease())
}
if r.PrevKv {
opts = append(opts, clientv3.WithPrevKV())
}
return clientv3.OpPut(string(r.Key), string(r.Value), opts...)
}
func DelRequestToOp(r *pb.DeleteRangeRequest) clientv3.Op {
opts := []clientv3.OpOption{}
if len(r.RangeEnd) != 0 {
opts = append(opts, clientv3.WithRange(string(r.RangeEnd)))
}
if r.PrevKv {
opts = append(opts, clientv3.WithPrevKV())
}
return clientv3.OpDelete(string(r.Key), opts...)
}
func TxnRequestToOp(r *pb.TxnRequest) clientv3.Op {
cmps := make([]clientv3.Cmp, len(r.Compare))
thenops := make([]clientv3.Op, len(r.Success))
elseops := make([]clientv3.Op, len(r.Failure))
for i := range r.Compare {
cmps[i] = (clientv3.Cmp)(*r.Compare[i])
}
for i := range r.Success {
thenops[i] = requestOpToOp(r.Success[i])
}
for i := range r.Failure {
elseops[i] = requestOpToOp(r.Failure[i])
}
return clientv3.OpTxn(cmps, thenops, elseops)
}