package redis import ( "log" "net" "time" ) type baseClient struct { connPool pool opt *options cmds []Cmder } func (c *baseClient) writeCmd(cn *conn, cmds ...Cmder) error { buf := cn.buf[:0] for _, cmd := range cmds { buf = appendArgs(buf, cmd.args()) } _, err := cn.Write(buf) return err } func (c *baseClient) conn() (*conn, error) { cn, isNew, err := c.connPool.Get() if err != nil { return nil, err } if isNew { if err := c.initConn(cn); err != nil { c.removeConn(cn) return nil, err } } return cn, nil } func (c *baseClient) initConn(cn *conn) error { if c.opt.Password == "" && c.opt.DB == 0 { return nil } pool := newSingleConnPool(c.connPool, false) pool.SetConn(cn) // Client is not closed because we want to reuse underlying connection. client := &Client{ baseClient: &baseClient{ opt: c.opt, connPool: pool, }, } if c.opt.Password != "" { if err := client.Auth(c.opt.Password).Err(); err != nil { return err } } if c.opt.DB > 0 { if err := client.Select(c.opt.DB).Err(); err != nil { return err } } return nil } func (c *baseClient) freeConn(cn *conn, ei error) error { if cn.rd.Buffered() > 0 { return c.connPool.Remove(cn) } if _, ok := ei.(redisError); ok { return c.connPool.Put(cn) } return c.connPool.Remove(cn) } func (c *baseClient) removeConn(cn *conn) { if err := c.connPool.Remove(cn); err != nil { log.Printf("pool.Remove failed: %s", err) } } func (c *baseClient) putConn(cn *conn) { if err := c.connPool.Put(cn); err != nil { log.Printf("pool.Put failed: %s", err) } } func (c *baseClient) Process(cmd Cmder) { if c.cmds == nil { c.run(cmd) } else { c.cmds = append(c.cmds, cmd) } } func (c *baseClient) run(cmd Cmder) { cn, err := c.conn() if err != nil { cmd.setErr(err) return } if timeout := cmd.writeTimeout(); timeout != nil { cn.writeTimeout = *timeout } else { cn.writeTimeout = c.opt.WriteTimeout } if timeout := cmd.readTimeout(); timeout != nil { cn.readTimeout = *timeout } else { cn.readTimeout = c.opt.ReadTimeout } if err := c.writeCmd(cn, cmd); err != nil { c.freeConn(cn, err) cmd.setErr(err) return } if err := cmd.parseReply(cn.rd); err != nil { c.freeConn(cn, err) return } c.putConn(cn) } // Close closes the client, releasing any open resources. func (c *baseClient) Close() error { return c.connPool.Close() } //------------------------------------------------------------------------------ type options struct { Password string DB int64 DialTimeout time.Duration ReadTimeout time.Duration WriteTimeout time.Duration PoolSize int IdleTimeout time.Duration } type Options struct { Network string Addr string // Dialer creates new network connection and has priority over // Network and Addr options. Dialer func() (net.Conn, error) Password string DB int64 DialTimeout time.Duration ReadTimeout time.Duration WriteTimeout time.Duration PoolSize int IdleTimeout time.Duration } func (opt *Options) getPoolSize() int { if opt.PoolSize == 0 { return 10 } return opt.PoolSize } func (opt *Options) getDialTimeout() time.Duration { if opt.DialTimeout == 0 { return 5 * time.Second } return opt.DialTimeout } func (opt *Options) options() *options { return &options{ DB: opt.DB, Password: opt.Password, DialTimeout: opt.getDialTimeout(), ReadTimeout: opt.ReadTimeout, WriteTimeout: opt.WriteTimeout, PoolSize: opt.getPoolSize(), IdleTimeout: opt.IdleTimeout, } } type Client struct { *baseClient } func NewClient(clOpt *Options) *Client { opt := clOpt.options() dialer := clOpt.Dialer if dialer == nil { dialer = func() (net.Conn, error) { return net.DialTimeout(clOpt.Network, clOpt.Addr, opt.DialTimeout) } } return &Client{ baseClient: &baseClient{ opt: opt, connPool: newConnPool(newConnFunc(dialer), opt), }, } } // Deprecated. Use NewClient instead. func NewTCPClient(opt *Options) *Client { opt.Network = "tcp" return NewClient(opt) } // Deprecated. Use NewClient instead. func NewUnixClient(opt *Options) *Client { opt.Network = "unix" return NewClient(opt) }