package client import ( "bytes" "context" "fmt" "net" "os" "strconv" "sync" "sync/atomic" "time" "github.com/google/uuid" "github.com/micro/go-micro/broker" "github.com/micro/go-micro/codec" "github.com/micro/go-micro/errors" "github.com/micro/go-micro/metadata" "github.com/micro/go-micro/registry" "github.com/micro/go-micro/selector" "github.com/micro/go-micro/transport" ) type rpcClient struct { once sync.Once opts Options pool *pool seq uint64 } func newRpcClient(opt ...Option) Client { opts := newOptions(opt...) rc := &rpcClient{ once: sync.Once{}, opts: opts, pool: newPool(opts.PoolSize, opts.PoolTTL), seq: 0, } c := Client(rc) // wrap in reverse for i := len(opts.Wrappers); i > 0; i-- { c = opts.Wrappers[i-1](c) } return c } func (r *rpcClient) newCodec(contentType string) (codec.NewCodec, error) { if c, ok := r.opts.Codecs[contentType]; ok { return c, nil } if cf, ok := DefaultCodecs[contentType]; ok { return cf, nil } return nil, fmt.Errorf("Unsupported Content-Type: %s", contentType) } func (r *rpcClient) call(ctx context.Context, node *registry.Node, req Request, resp interface{}, opts CallOptions) error { address := node.Address if node.Port > 0 { address = fmt.Sprintf("%s:%d", address, node.Port) } msg := &transport.Message{ Header: make(map[string]string), } md, ok := metadata.FromContext(ctx) if ok { for k, v := range md { msg.Header[k] = v } } // set timeout in nanoseconds msg.Header["Timeout"] = fmt.Sprintf("%d", opts.RequestTimeout) // set the content type for the request msg.Header["Content-Type"] = req.ContentType() // set the accept header msg.Header["Accept"] = req.ContentType() // setup old protocol cf := setupProtocol(msg, node) // no codec specified if cf == nil { var err error cf, err = r.newCodec(req.ContentType()) if err != nil { return errors.InternalServerError("go.micro.client", err.Error()) } } var grr error c, err := r.pool.getConn(address, r.opts.Transport, transport.WithTimeout(opts.DialTimeout)) if err != nil { return errors.InternalServerError("go.micro.client", "connection error: %v", err) } defer func() { // defer execution of release r.pool.release(address, c, grr) }() seq := atomic.LoadUint64(&r.seq) atomic.AddUint64(&r.seq, 1) codec := newRpcCodec(msg, c, cf) rsp := &rpcResponse{ socket: c, codec: codec, } stream := &rpcStream{ context: ctx, request: req, response: rsp, codec: codec, closed: make(chan bool), id: fmt.Sprintf("%v", seq), } defer stream.Close() ch := make(chan error, 1) go func() { defer func() { if r := recover(); r != nil { ch <- errors.InternalServerError("go.micro.client", "panic recovered: %v", r) } }() // send request if err := stream.Send(req.Body()); err != nil { ch <- err return } // recv request if err := stream.Recv(resp); err != nil { ch <- err return } // success ch <- nil }() select { case err := <-ch: grr = err return err case <-ctx.Done(): grr = ctx.Err() return errors.Timeout("go.micro.client", fmt.Sprintf("%v", ctx.Err())) } } func (r *rpcClient) stream(ctx context.Context, node *registry.Node, req Request, opts CallOptions) (Stream, error) { address := node.Address if node.Port > 0 { address = fmt.Sprintf("%s:%d", address, node.Port) } msg := &transport.Message{ Header: make(map[string]string), } md, ok := metadata.FromContext(ctx) if ok { for k, v := range md { msg.Header[k] = v } } // set timeout in nanoseconds msg.Header["Timeout"] = fmt.Sprintf("%d", opts.RequestTimeout) // set the content type for the request msg.Header["Content-Type"] = req.ContentType() // set the accept header msg.Header["Accept"] = req.ContentType() // set old codecs cf := setupProtocol(msg, node) // no codec specified if cf == nil { var err error cf, err = r.newCodec(req.ContentType()) if err != nil { return nil, errors.InternalServerError("go.micro.client", err.Error()) } } dOpts := []transport.DialOption{ transport.WithStream(), } if opts.DialTimeout >= 0 { dOpts = append(dOpts, transport.WithTimeout(opts.DialTimeout)) } c, err := r.opts.Transport.Dial(address, dOpts...) if err != nil { return nil, errors.InternalServerError("go.micro.client", "connection error: %v", err) } codec := newRpcCodec(msg, c, cf) rsp := &rpcResponse{ socket: c, codec: codec, } // set request codec if r, ok := req.(*rpcRequest); ok { r.codec = codec } stream := &rpcStream{ context: ctx, request: req, response: rsp, closed: make(chan bool), codec: codec, } ch := make(chan error, 1) go func() { ch <- stream.Send(req.Body()) }() var grr error select { case err := <-ch: grr = err case <-ctx.Done(): grr = errors.Timeout("go.micro.client", fmt.Sprintf("%v", ctx.Err())) } if grr != nil { stream.Close() return nil, grr } return stream, nil } func (r *rpcClient) Init(opts ...Option) error { size := r.opts.PoolSize ttl := r.opts.PoolTTL for _, o := range opts { o(&r.opts) } // update pool configuration if the options changed if size != r.opts.PoolSize || ttl != r.opts.PoolTTL { r.pool.Lock() r.pool.size = r.opts.PoolSize r.pool.ttl = int64(r.opts.PoolTTL.Seconds()) r.pool.Unlock() } return nil } func (r *rpcClient) Options() Options { return r.opts } func (r *rpcClient) next(request Request, opts CallOptions) (selector.Next, error) { service := request.Service() // get proxy if prx := os.Getenv("MICRO_PROXY"); len(prx) > 0 { service = prx } // get proxy address if prx := os.Getenv("MICRO_PROXY_ADDRESS"); len(prx) > 0 { opts.Address = prx } // return remote address if len(opts.Address) > 0 { address := opts.Address port := 0 host, sport, err := net.SplitHostPort(opts.Address) if err == nil { address = host port, _ = strconv.Atoi(sport) } return func() (*registry.Node, error) { return ®istry.Node{ Address: address, Port: port, }, nil }, nil } // get next nodes from the selector next, err := r.opts.Selector.Select(service, opts.SelectOptions...) if err != nil && err == selector.ErrNotFound { return nil, errors.NotFound("go.micro.client", "service %s: %v", service, err.Error()) } else if err != nil { return nil, errors.InternalServerError("go.micro.client", "error selecting %s node: %v", service, err.Error()) } return next, nil } func (r *rpcClient) Call(ctx context.Context, request Request, response interface{}, opts ...CallOption) error { // make a copy of call opts callOpts := r.opts.CallOptions for _, opt := range opts { opt(&callOpts) } next, err := r.next(request, callOpts) if err != nil { return err } // check if we already have a deadline d, ok := ctx.Deadline() if !ok { // no deadline so we create a new one ctx, _ = context.WithTimeout(ctx, callOpts.RequestTimeout) } else { // got a deadline so no need to setup context // but we need to set the timeout we pass along opt := WithRequestTimeout(d.Sub(time.Now())) opt(&callOpts) } // should we noop right here? select { case <-ctx.Done(): return errors.Timeout("go.micro.client", fmt.Sprintf("%v", ctx.Err())) default: } // make copy of call method rcall := r.call // wrap the call in reverse for i := len(callOpts.CallWrappers); i > 0; i-- { rcall = callOpts.CallWrappers[i-1](rcall) } // return errors.New("go.micro.client", "request timeout", 408) call := func(i int) error { // call backoff first. Someone may want an initial start delay t, err := callOpts.Backoff(ctx, request, i) if err != nil { return errors.InternalServerError("go.micro.client", "backoff error: %v", err.Error()) } // only sleep if greater than 0 if t.Seconds() > 0 { time.Sleep(t) } // select next node node, err := next() if err != nil && err == selector.ErrNotFound { return errors.NotFound("go.micro.client", "service %s: %v", request.Service(), err.Error()) } else if err != nil { return errors.InternalServerError("go.micro.client", "error getting next %s node: %v", request.Service(), err.Error()) } // make the call err = rcall(ctx, node, request, response, callOpts) r.opts.Selector.Mark(request.Service(), node, err) return err } ch := make(chan error, callOpts.Retries+1) var gerr error for i := 0; i <= callOpts.Retries; i++ { go func(i int) { ch <- call(i) }(i) select { case <-ctx.Done(): return errors.Timeout("go.micro.client", fmt.Sprintf("call timeout: %v", ctx.Err())) case err := <-ch: // if the call succeeded lets bail early if err == nil { return nil } retry, rerr := callOpts.Retry(ctx, request, i, err) if rerr != nil { return rerr } if !retry { return err } gerr = err } } return gerr } func (r *rpcClient) Stream(ctx context.Context, request Request, opts ...CallOption) (Stream, error) { // make a copy of call opts callOpts := r.opts.CallOptions for _, opt := range opts { opt(&callOpts) } next, err := r.next(request, callOpts) if err != nil { return nil, err } // should we noop right here? select { case <-ctx.Done(): return nil, errors.Timeout("go.micro.client", fmt.Sprintf("%v", ctx.Err())) default: } call := func(i int) (Stream, error) { // call backoff first. Someone may want an initial start delay t, err := callOpts.Backoff(ctx, request, i) if err != nil { return nil, errors.InternalServerError("go.micro.client", "backoff error: %v", err.Error()) } // only sleep if greater than 0 if t.Seconds() > 0 { time.Sleep(t) } node, err := next() if err != nil && err == selector.ErrNotFound { return nil, errors.NotFound("go.micro.client", "service %s: %v", request.Service(), err.Error()) } else if err != nil { return nil, errors.InternalServerError("go.micro.client", "error getting next %s node: %v", request.Service(), err.Error()) } stream, err := r.stream(ctx, node, request, callOpts) r.opts.Selector.Mark(request.Service(), node, err) return stream, err } type response struct { stream Stream err error } ch := make(chan response, callOpts.Retries+1) var grr error for i := 0; i <= callOpts.Retries; i++ { go func(i int) { s, err := call(i) ch <- response{s, err} }(i) select { case <-ctx.Done(): return nil, errors.Timeout("go.micro.client", fmt.Sprintf("call timeout: %v", ctx.Err())) case rsp := <-ch: // if the call succeeded lets bail early if rsp.err == nil { return rsp.stream, nil } retry, rerr := callOpts.Retry(ctx, request, i, rsp.err) if rerr != nil { return nil, rerr } if !retry { return nil, rsp.err } grr = rsp.err } } return nil, grr } func (r *rpcClient) Publish(ctx context.Context, msg Message, opts ...PublishOption) error { options := PublishOptions{ Context: context.Background(), } for _, o := range opts { o(&options) } md, ok := metadata.FromContext(ctx) if !ok { md = make(map[string]string) } id := uuid.New().String() md["Content-Type"] = msg.ContentType() md["Micro-Topic"] = msg.Topic() md["Micro-Id"] = id // set the topic topic := msg.Topic() // get proxy if prx := os.Getenv("MICRO_PROXY"); len(prx) > 0 { options.Exchange = prx } // get the exchange if len(options.Exchange) > 0 { topic = options.Exchange } // encode message body cf, err := r.newCodec(msg.ContentType()) if err != nil { return errors.InternalServerError("go.micro.client", err.Error()) } b := &buffer{bytes.NewBuffer(nil)} if err := cf(b).Write(&codec.Message{ Target: topic, Type: codec.Publication, Header: map[string]string{ "Micro-Id": id, "Micro-Topic": msg.Topic(), }, }, msg.Payload()); err != nil { return errors.InternalServerError("go.micro.client", err.Error()) } r.once.Do(func() { r.opts.Broker.Connect() }) return r.opts.Broker.Publish(topic, &broker.Message{ Header: md, Body: b.Bytes(), }) } func (r *rpcClient) NewMessage(topic string, message interface{}, opts ...MessageOption) Message { return newMessage(topic, message, r.opts.ContentType, opts...) } func (r *rpcClient) NewRequest(service, method string, request interface{}, reqOpts ...RequestOption) Request { return newRequest(service, method, request, r.opts.ContentType, reqOpts...) } func (r *rpcClient) String() string { return "rpc" }