package memcache import ( "context" "io" "time" "go-common/library/container/pool" "go-common/library/stat" xtime "go-common/library/time" ) var stats = stat.Cache // Config memcache config. type Config struct { *pool.Config Name string // memcache name, for trace Proto string Addr string DialTimeout xtime.Duration ReadTimeout xtime.Duration WriteTimeout xtime.Duration } // Pool memcache connection pool struct. type Pool struct { p pool.Pool c *Config } // NewPool new a memcache conn pool. func NewPool(c *Config) (p *Pool) { if c.DialTimeout <= 0 || c.ReadTimeout <= 0 || c.WriteTimeout <= 0 { panic("must config memcache timeout") } p1 := pool.NewList(c.Config) cnop := DialConnectTimeout(time.Duration(c.DialTimeout)) rdop := DialReadTimeout(time.Duration(c.ReadTimeout)) wrop := DialWriteTimeout(time.Duration(c.WriteTimeout)) p1.New = func(ctx context.Context) (io.Closer, error) { conn, err := Dial(c.Proto, c.Addr, cnop, rdop, wrop) return &traceConn{Conn: conn, address: c.Addr}, err } p = &Pool{p: p1, c: c} return } // Get gets a connection. The application must close the returned connection. // This method always returns a valid connection so that applications can defer // error handling to the first use of the connection. If there is an error // getting an underlying connection, then the connection Err, Do, Send, Flush // and Receive methods return that error. func (p *Pool) Get(ctx context.Context) Conn { c, err := p.p.Get(ctx) if err != nil { return errorConnection{err} } c1, _ := c.(Conn) return &pooledConnection{p: p, c: c1.WithContext(ctx), ctx: ctx} } // Close release the resources used by the pool. func (p *Pool) Close() error { return p.p.Close() } type pooledConnection struct { p *Pool c Conn ctx context.Context } func pstat(key string, t time.Time, err error) { stats.Timing(key, int64(time.Since(t)/time.Millisecond)) if err != nil { if msg := formatErr(err); msg != "" { stats.Incr("memcache", msg) } } } func (pc *pooledConnection) Close() error { c := pc.c if _, ok := c.(errorConnection); ok { return nil } pc.c = errorConnection{ErrConnClosed} pc.p.p.Put(context.Background(), c, c.Err() != nil) return nil } func (pc *pooledConnection) Err() error { return pc.c.Err() } func (pc *pooledConnection) Set(item *Item) (err error) { now := time.Now() err = pc.c.Set(item) pstat("memcache:set", now, err) return } func (pc *pooledConnection) Add(item *Item) (err error) { now := time.Now() err = pc.c.Add(item) pstat("memcache:add", now, err) return } func (pc *pooledConnection) Replace(item *Item) (err error) { now := time.Now() err = pc.c.Replace(item) pstat("memcache:replace", now, err) return } func (pc *pooledConnection) CompareAndSwap(item *Item) (err error) { now := time.Now() err = pc.c.CompareAndSwap(item) pstat("memcache:cas", now, err) return } func (pc *pooledConnection) Get(key string) (r *Item, err error) { now := time.Now() r, err = pc.c.Get(key) pstat("memcache:get", now, err) return } func (pc *pooledConnection) GetMulti(keys []string) (res map[string]*Item, err error) { // if keys is empty slice returns empty map direct if len(keys) == 0 { return make(map[string]*Item), nil } now := time.Now() res, err = pc.c.GetMulti(keys) pstat("memcache:gets", now, err) return } func (pc *pooledConnection) Touch(key string, timeout int32) (err error) { now := time.Now() err = pc.c.Touch(key, timeout) pstat("memcache:touch", now, err) return } func (pc *pooledConnection) Scan(item *Item, v interface{}) error { return pc.c.Scan(item, v) } func (pc *pooledConnection) WithContext(ctx context.Context) Conn { // TODO: set context pc.ctx = ctx return pc } func (pc *pooledConnection) Delete(key string) (err error) { now := time.Now() err = pc.c.Delete(key) pstat("memcache:delete", now, err) return } func (pc *pooledConnection) Increment(key string, delta uint64) (newValue uint64, err error) { now := time.Now() newValue, err = pc.c.Increment(key, delta) pstat("memcache:increment", now, err) return } func (pc *pooledConnection) Decrement(key string, delta uint64) (newValue uint64, err error) { now := time.Now() newValue, err = pc.c.Decrement(key, delta) pstat("memcache:decrement", now, err) return } type errorConnection struct{ err error } func (ec errorConnection) Err() error { return ec.err } func (ec errorConnection) Close() error { return ec.err } func (ec errorConnection) Add(item *Item) error { return ec.err } func (ec errorConnection) Set(item *Item) error { return ec.err } func (ec errorConnection) Replace(item *Item) error { return ec.err } func (ec errorConnection) CompareAndSwap(item *Item) error { return ec.err } func (ec errorConnection) Get(key string) (*Item, error) { return nil, ec.err } func (ec errorConnection) GetMulti(keys []string) (map[string]*Item, error) { return nil, ec.err } func (ec errorConnection) Touch(key string, timeout int32) error { return ec.err } func (ec errorConnection) Delete(key string) error { return ec.err } func (ec errorConnection) Increment(key string, delta uint64) (uint64, error) { return 0, ec.err } func (ec errorConnection) Decrement(key string, delta uint64) (uint64, error) { return 0, ec.err } func (ec errorConnection) Scan(item *Item, v interface{}) error { return ec.err } func (ec errorConnection) WithContext(ctx context.Context) Conn { return ec }