vendor/github.com/fullstorydev/grpcurl/invoke.go - voltctl - Gitiles

 package grpcurl

 import (
 	"bytes"
 	"fmt"
 	"io"
 	"strings"
 	"sync"
 	"sync/atomic"

 	"github.com/golang/protobuf/jsonpb"
 	"github.com/golang/protobuf/proto"
 	"github.com/jhump/protoreflect/desc"
 	"github.com/jhump/protoreflect/dynamic"
 	"github.com/jhump/protoreflect/dynamic/grpcdynamic"
 	"github.com/jhump/protoreflect/grpcreflect"
 	"golang.org/x/net/context"
 	"google.golang.org/grpc"
 	"google.golang.org/grpc/codes"
 	"google.golang.org/grpc/metadata"
 	"google.golang.org/grpc/status"
 )

 // InvocationEventHandler is a bag of callbacks for handling events that occur in the course
 // of invoking an RPC. The handler also provides request data that is sent. The callbacks are
 // generally called in the order they are listed below.
 type InvocationEventHandler interface {
 	// OnResolveMethod is called with a descriptor of the method that is being invoked.
 	OnResolveMethod(*desc.MethodDescriptor)
 	// OnSendHeaders is called with the request metadata that is being sent.
 	OnSendHeaders(metadata.MD)
 	// OnReceiveHeaders is called when response headers have been received.
 	OnReceiveHeaders(metadata.MD)
 	// OnReceiveResponse is called for each response message received.
 	OnReceiveResponse(proto.Message)
 	// OnReceiveTrailers is called when response trailers and final RPC status have been received.
 	OnReceiveTrailers(*status.Status, metadata.MD)
 }

 // RequestMessageSupplier is a function that is called to retrieve request
 // messages for a GRPC operation. This type is deprecated and will be removed in
 // a future release.
 //
 // Deprecated: This is only used with the deprecated InvokeRpc. Instead, use
 // RequestSupplier with InvokeRPC.
 type RequestMessageSupplier func() ([]byte, error)

 // InvokeRpc uses the given gRPC connection to invoke the given method. This function is deprecated
 // and will be removed in a future release. It just delegates to the similarly named InvokeRPC
 // method, whose signature is only slightly different.
 //
 // Deprecated: use InvokeRPC instead.
 func InvokeRpc(ctx context.Context, source DescriptorSource, cc *grpc.ClientConn, methodName string,
 	headers []string, handler InvocationEventHandler, requestData RequestMessageSupplier) error {

 	return InvokeRPC(ctx, source, cc, methodName, headers, handler, func(m proto.Message) error {
 		// New function is almost identical, but the request supplier function works differently.
 		// So we adapt the logic here to maintain compatibility.
 		data, err := requestData()
 		if err != nil {
 			return err
 		}
 		return jsonpb.Unmarshal(bytes.NewReader(data), m)
 	})
 }

 // RequestSupplier is a function that is called to populate messages for a gRPC operation. The
 // function should populate the given message or return a non-nil error. If the supplier has no
 // more messages, it should return io.EOF. When it returns io.EOF, it should not in any way
 // modify the given message argument.
 type RequestSupplier func(proto.Message) error

 // InvokeRPC uses the given gRPC channel to invoke the given method. The given descriptor source
 // is used to determine the type of method and the type of request and response message. The given
 // headers are sent as request metadata. Methods on the given event handler are called as the
 // invocation proceeds.
 //
 // The given requestData function supplies the actual data to send. It should return io.EOF when
 // there is no more request data. If the method being invoked is a unary or server-streaming RPC
 // (e.g. exactly one request message) and there is no request data (e.g. the first invocation of
 // the function returns io.EOF), then an empty request message is sent.
 //
 // If the requestData function and the given event handler coordinate or share any state, they should
 // be thread-safe. This is because the requestData function may be called from a different goroutine
 // than the one invoking event callbacks. (This only happens for bi-directional streaming RPCs, where
 // one goroutine sends request messages and another consumes the response messages).
 func InvokeRPC(ctx context.Context, source DescriptorSource, ch grpcdynamic.Channel, methodName string,
 	headers []string, handler InvocationEventHandler, requestData RequestSupplier) error {

 	md := MetadataFromHeaders(headers)

 	svc, mth := parseSymbol(methodName)
 	if svc == "" || mth == "" {
 		return fmt.Errorf("given method name %q is not in expected format: 'service/method' or 'service.method'", methodName)
 	}
 	dsc, err := source.FindSymbol(svc)
 	if err != nil {
 		if isNotFoundError(err) {
 			return fmt.Errorf("target server does not expose service %q", svc)
 		}
 		return fmt.Errorf("failed to query for service descriptor %q: %v", svc, err)
 	}
 	sd, ok := dsc.(*desc.ServiceDescriptor)
 	if !ok {
 		return fmt.Errorf("target server does not expose service %q", svc)
 	}
 	mtd := sd.FindMethodByName(mth)
 	if mtd == nil {
 		return fmt.Errorf("service %q does not include a method named %q", svc, mth)
 	}

 	handler.OnResolveMethod(mtd)

 	// we also download any applicable extensions so we can provide full support for parsing user-provided data
 	var ext dynamic.ExtensionRegistry
 	alreadyFetched := map[string]bool{}
 	if err = fetchAllExtensions(source, &ext, mtd.GetInputType(), alreadyFetched); err != nil {
 		return fmt.Errorf("error resolving server extensions for message %s: %v", mtd.GetInputType().GetFullyQualifiedName(), err)
 	}
 	if err = fetchAllExtensions(source, &ext, mtd.GetOutputType(), alreadyFetched); err != nil {
 		return fmt.Errorf("error resolving server extensions for message %s: %v", mtd.GetOutputType().GetFullyQualifiedName(), err)
 	}

 	msgFactory := dynamic.NewMessageFactoryWithExtensionRegistry(&ext)
 	req := msgFactory.NewMessage(mtd.GetInputType())

 	handler.OnSendHeaders(md)
 	ctx = metadata.NewOutgoingContext(ctx, md)

 	stub := grpcdynamic.NewStubWithMessageFactory(ch, msgFactory)
 	ctx, cancel := context.WithCancel(ctx)
 	defer cancel()

 	if mtd.IsClientStreaming() && mtd.IsServerStreaming() {
 		return invokeBidi(ctx, stub, mtd, handler, requestData, req)
 	} else if mtd.IsClientStreaming() {
 		return invokeClientStream(ctx, stub, mtd, handler, requestData, req)
 	} else if mtd.IsServerStreaming() {
 		return invokeServerStream(ctx, stub, mtd, handler, requestData, req)
 	} else {
 		return invokeUnary(ctx, stub, mtd, handler, requestData, req)
 	}
 }

 func invokeUnary(ctx context.Context, stub grpcdynamic.Stub, md *desc.MethodDescriptor, handler InvocationEventHandler,
 	requestData RequestSupplier, req proto.Message) error {

 	err := requestData(req)
 	if err != nil && err != io.EOF {
 		return fmt.Errorf("error getting request data: %v", err)
 	}
 	if err != io.EOF {
 		// verify there is no second message, which is a usage error
 		err := requestData(req)
 		if err == nil {
 			return fmt.Errorf("method %q is a unary RPC, but request data contained more than 1 message", md.GetFullyQualifiedName())
 		} else if err != io.EOF {
 			return fmt.Errorf("error getting request data: %v", err)
 		}
 	}

 	// Now we can actually invoke the RPC!
 	var respHeaders metadata.MD
 	var respTrailers metadata.MD
 	resp, err := stub.InvokeRpc(ctx, md, req, grpc.Trailer(&respTrailers), grpc.Header(&respHeaders))

 	stat, ok := status.FromError(err)
 	if !ok {
 		// Error codes sent from the server will get printed differently below.
 		// So just bail for other kinds of errors here.
 		return fmt.Errorf("grpc call for %q failed: %v", md.GetFullyQualifiedName(), err)
 	}

 	handler.OnReceiveHeaders(respHeaders)

 	if stat.Code() == codes.OK {
 		handler.OnReceiveResponse(resp)
 	}

 	handler.OnReceiveTrailers(stat, respTrailers)

 	return nil
 }

 func invokeClientStream(ctx context.Context, stub grpcdynamic.Stub, md *desc.MethodDescriptor, handler InvocationEventHandler,
 	requestData RequestSupplier, req proto.Message) error {

 	// invoke the RPC!
 	str, err := stub.InvokeRpcClientStream(ctx, md)

 	// Upload each request message in the stream
 	var resp proto.Message
 	for err == nil {
 		err = requestData(req)
 		if err == io.EOF {
 			resp, err = str.CloseAndReceive()
 			break
 		}
 		if err != nil {
 			return fmt.Errorf("error getting request data: %v", err)
 		}

 		err = str.SendMsg(req)
 		if err == io.EOF {
 			// We get EOF on send if the server says "go away"
 			// We have to use CloseAndReceive to get the actual code
 			resp, err = str.CloseAndReceive()
 			break
 		}

 		req.Reset()
 	}

 	// finally, process response data
 	stat, ok := status.FromError(err)
 	if !ok {
 		// Error codes sent from the server will get printed differently below.
 		// So just bail for other kinds of errors here.
 		return fmt.Errorf("grpc call for %q failed: %v", md.GetFullyQualifiedName(), err)
 	}

 	if respHeaders, err := str.Header(); err == nil {
 		handler.OnReceiveHeaders(respHeaders)
 	}

 	if stat.Code() == codes.OK {
 		handler.OnReceiveResponse(resp)
 	}

 	handler.OnReceiveTrailers(stat, str.Trailer())

 	return nil
 }

 func invokeServerStream(ctx context.Context, stub grpcdynamic.Stub, md *desc.MethodDescriptor, handler InvocationEventHandler,
 	requestData RequestSupplier, req proto.Message) error {

 	err := requestData(req)
 	if err != nil && err != io.EOF {
 		return fmt.Errorf("error getting request data: %v", err)
 	}
 	if err != io.EOF {
 		// verify there is no second message, which is a usage error
 		err := requestData(req)
 		if err == nil {
 			return fmt.Errorf("method %q is a server-streaming RPC, but request data contained more than 1 message", md.GetFullyQualifiedName())
 		} else if err != io.EOF {
 			return fmt.Errorf("error getting request data: %v", err)
 		}
 	}

 	// Now we can actually invoke the RPC!
 	str, err := stub.InvokeRpcServerStream(ctx, md, req)

 	if respHeaders, err := str.Header(); err == nil {
 		handler.OnReceiveHeaders(respHeaders)
 	}

 	// Download each response message
 	for err == nil {
 		var resp proto.Message
 		resp, err = str.RecvMsg()
 		if err != nil {
 			if err == io.EOF {
 				err = nil
 			}
 			break
 		}
 		handler.OnReceiveResponse(resp)
 	}

 	stat, ok := status.FromError(err)
 	if !ok {
 		// Error codes sent from the server will get printed differently below.
 		// So just bail for other kinds of errors here.
 		return fmt.Errorf("grpc call for %q failed: %v", md.GetFullyQualifiedName(), err)
 	}

 	handler.OnReceiveTrailers(stat, str.Trailer())

 	return nil
 }

 func invokeBidi(ctx context.Context, stub grpcdynamic.Stub, md *desc.MethodDescriptor, handler InvocationEventHandler,
 	requestData RequestSupplier, req proto.Message) error {

 	ctx, cancel := context.WithCancel(ctx)
 	defer cancel()

 	// invoke the RPC!
 	str, err := stub.InvokeRpcBidiStream(ctx, md)

 	var wg sync.WaitGroup
 	var sendErr atomic.Value

 	defer wg.Wait()

 	if err == nil {
 		wg.Add(1)
 		go func() {
 			defer wg.Done()

 			// Concurrently upload each request message in the stream
 			var err error
 			for err == nil {
 				err = requestData(req)

 				if err == io.EOF {
 					err = str.CloseSend()
 					break
 				}
 				if err != nil {
 					err = fmt.Errorf("error getting request data: %v", err)
 					cancel()
 					break
 				}

 				err = str.SendMsg(req)

 				req.Reset()
 			}

 			if err != nil {
 				sendErr.Store(err)
 			}
 		}()
 	}

 	if respHeaders, err := str.Header(); err == nil {
 		handler.OnReceiveHeaders(respHeaders)
 	}

 	// Download each response message
 	for err == nil {
 		var resp proto.Message
 		resp, err = str.RecvMsg()
 		if err != nil {
 			if err == io.EOF {
 				err = nil
 			}
 			break
 		}
 		handler.OnReceiveResponse(resp)
 	}

 	if se, ok := sendErr.Load().(error); ok && se != io.EOF {
 		err = se
 	}

 	stat, ok := status.FromError(err)
 	if !ok {
 		// Error codes sent from the server will get printed differently below.
 		// So just bail for other kinds of errors here.
 		return fmt.Errorf("grpc call for %q failed: %v", md.GetFullyQualifiedName(), err)
 	}

 	handler.OnReceiveTrailers(stat, str.Trailer())

 	return nil
 }

 type notFoundError string

 func notFound(kind, name string) error {
 	return notFoundError(fmt.Sprintf("%s not found: %s", kind, name))
 }

 func (e notFoundError) Error() string {
 	return string(e)
 }

 func isNotFoundError(err error) bool {
 	if grpcreflect.IsElementNotFoundError(err) {
 		return true
 	}
 	_, ok := err.(notFoundError)
 	return ok
 }

 func parseSymbol(svcAndMethod string) (string, string) {
 	pos := strings.LastIndex(svcAndMethod, "/")
 	if pos < 0 {
 		pos = strings.LastIndex(svcAndMethod, ".")
 		if pos < 0 {
 			return "", ""
 		}
 	}
 	return svcAndMethod[:pos], svcAndMethod[pos+1:]
 }
	package grpcurl

	import (
	"bytes"
	"fmt"
	"io"
	"strings"
	"sync"
	"sync/atomic"

	"github.com/golang/protobuf/jsonpb"
	"github.com/golang/protobuf/proto"
	"github.com/jhump/protoreflect/desc"
	"github.com/jhump/protoreflect/dynamic"
	"github.com/jhump/protoreflect/dynamic/grpcdynamic"
	"github.com/jhump/protoreflect/grpcreflect"
	"golang.org/x/net/context"
	"google.golang.org/grpc"
	"google.golang.org/grpc/codes"
	"google.golang.org/grpc/metadata"
	"google.golang.org/grpc/status"
	)

	// InvocationEventHandler is a bag of callbacks for handling events that occur in the course
	// of invoking an RPC. The handler also provides request data that is sent. The callbacks are
	// generally called in the order they are listed below.
	type InvocationEventHandler interface {
	// OnResolveMethod is called with a descriptor of the method that is being invoked.
	OnResolveMethod(*desc.MethodDescriptor)
	// OnSendHeaders is called with the request metadata that is being sent.
	OnSendHeaders(metadata.MD)
	// OnReceiveHeaders is called when response headers have been received.
	OnReceiveHeaders(metadata.MD)
	// OnReceiveResponse is called for each response message received.
	OnReceiveResponse(proto.Message)
	// OnReceiveTrailers is called when response trailers and final RPC status have been received.
	OnReceiveTrailers(*status.Status, metadata.MD)
	}

	// RequestMessageSupplier is a function that is called to retrieve request
	// messages for a GRPC operation. This type is deprecated and will be removed in
	// a future release.
	//
	// Deprecated: This is only used with the deprecated InvokeRpc. Instead, use
	// RequestSupplier with InvokeRPC.
	type RequestMessageSupplier func() ([]byte, error)

	// InvokeRpc uses the given gRPC connection to invoke the given method. This function is deprecated
	// and will be removed in a future release. It just delegates to the similarly named InvokeRPC
	// method, whose signature is only slightly different.
	//
	// Deprecated: use InvokeRPC instead.
	func InvokeRpc(ctx context.Context, source DescriptorSource, cc *grpc.ClientConn, methodName string,
	headers []string, handler InvocationEventHandler, requestData RequestMessageSupplier) error {

	return InvokeRPC(ctx, source, cc, methodName, headers, handler, func(m proto.Message) error {
	// New function is almost identical, but the request supplier function works differently.
	// So we adapt the logic here to maintain compatibility.
	data, err := requestData()
	if err != nil {
	return err
	}
	return jsonpb.Unmarshal(bytes.NewReader(data), m)
	})
	}

	// RequestSupplier is a function that is called to populate messages for a gRPC operation. The
	// function should populate the given message or return a non-nil error. If the supplier has no
	// more messages, it should return io.EOF. When it returns io.EOF, it should not in any way
	// modify the given message argument.
	type RequestSupplier func(proto.Message) error

	// InvokeRPC uses the given gRPC channel to invoke the given method. The given descriptor source
	// is used to determine the type of method and the type of request and response message. The given
	// headers are sent as request metadata. Methods on the given event handler are called as the
	// invocation proceeds.
	//
	// The given requestData function supplies the actual data to send. It should return io.EOF when
	// there is no more request data. If the method being invoked is a unary or server-streaming RPC
	// (e.g. exactly one request message) and there is no request data (e.g. the first invocation of
	// the function returns io.EOF), then an empty request message is sent.
	//
	// If the requestData function and the given event handler coordinate or share any state, they should
	// be thread-safe. This is because the requestData function may be called from a different goroutine
	// than the one invoking event callbacks. (This only happens for bi-directional streaming RPCs, where
	// one goroutine sends request messages and another consumes the response messages).
	func InvokeRPC(ctx context.Context, source DescriptorSource, ch grpcdynamic.Channel, methodName string,
	headers []string, handler InvocationEventHandler, requestData RequestSupplier) error {

	md := MetadataFromHeaders(headers)

	svc, mth := parseSymbol(methodName)
	if svc == "" \|\| mth == "" {
	return fmt.Errorf("given method name %q is not in expected format: 'service/method' or 'service.method'", methodName)
	}
	dsc, err := source.FindSymbol(svc)
	if err != nil {
	if isNotFoundError(err) {
	return fmt.Errorf("target server does not expose service %q", svc)
	}
	return fmt.Errorf("failed to query for service descriptor %q: %v", svc, err)
	}
	sd, ok := dsc.(*desc.ServiceDescriptor)
	if !ok {
	return fmt.Errorf("target server does not expose service %q", svc)
	}
	mtd := sd.FindMethodByName(mth)
	if mtd == nil {
	return fmt.Errorf("service %q does not include a method named %q", svc, mth)
	}

	handler.OnResolveMethod(mtd)

	// we also download any applicable extensions so we can provide full support for parsing user-provided data
	var ext dynamic.ExtensionRegistry
	alreadyFetched := map[string]bool{}
	if err = fetchAllExtensions(source, &ext, mtd.GetInputType(), alreadyFetched); err != nil {
	return fmt.Errorf("error resolving server extensions for message %s: %v", mtd.GetInputType().GetFullyQualifiedName(), err)
	}
	if err = fetchAllExtensions(source, &ext, mtd.GetOutputType(), alreadyFetched); err != nil {
	return fmt.Errorf("error resolving server extensions for message %s: %v", mtd.GetOutputType().GetFullyQualifiedName(), err)
	}

	msgFactory := dynamic.NewMessageFactoryWithExtensionRegistry(&ext)
	req := msgFactory.NewMessage(mtd.GetInputType())

	handler.OnSendHeaders(md)
	ctx = metadata.NewOutgoingContext(ctx, md)

	stub := grpcdynamic.NewStubWithMessageFactory(ch, msgFactory)
	ctx, cancel := context.WithCancel(ctx)
	defer cancel()

	if mtd.IsClientStreaming() && mtd.IsServerStreaming() {
	return invokeBidi(ctx, stub, mtd, handler, requestData, req)
	} else if mtd.IsClientStreaming() {
	return invokeClientStream(ctx, stub, mtd, handler, requestData, req)
	} else if mtd.IsServerStreaming() {
	return invokeServerStream(ctx, stub, mtd, handler, requestData, req)
	} else {
	return invokeUnary(ctx, stub, mtd, handler, requestData, req)
	}
	}

	func invokeUnary(ctx context.Context, stub grpcdynamic.Stub, md *desc.MethodDescriptor, handler InvocationEventHandler,
	requestData RequestSupplier, req proto.Message) error {

	err := requestData(req)
	if err != nil && err != io.EOF {
	return fmt.Errorf("error getting request data: %v", err)
	}
	if err != io.EOF {
	// verify there is no second message, which is a usage error
	err := requestData(req)
	if err == nil {
	return fmt.Errorf("method %q is a unary RPC, but request data contained more than 1 message", md.GetFullyQualifiedName())
	} else if err != io.EOF {
	return fmt.Errorf("error getting request data: %v", err)
	}
	}

	// Now we can actually invoke the RPC!
	var respHeaders metadata.MD
	var respTrailers metadata.MD
	resp, err := stub.InvokeRpc(ctx, md, req, grpc.Trailer(&respTrailers), grpc.Header(&respHeaders))

	stat, ok := status.FromError(err)
	if !ok {
	// Error codes sent from the server will get printed differently below.
	// So just bail for other kinds of errors here.
	return fmt.Errorf("grpc call for %q failed: %v", md.GetFullyQualifiedName(), err)
	}

	handler.OnReceiveHeaders(respHeaders)

	if stat.Code() == codes.OK {
	handler.OnReceiveResponse(resp)
	}

	handler.OnReceiveTrailers(stat, respTrailers)

	return nil
	}

	func invokeClientStream(ctx context.Context, stub grpcdynamic.Stub, md *desc.MethodDescriptor, handler InvocationEventHandler,
	requestData RequestSupplier, req proto.Message) error {

	// invoke the RPC!
	str, err := stub.InvokeRpcClientStream(ctx, md)

	// Upload each request message in the stream
	var resp proto.Message
	for err == nil {
	err = requestData(req)
	if err == io.EOF {
	resp, err = str.CloseAndReceive()
	break
	}
	if err != nil {
	return fmt.Errorf("error getting request data: %v", err)
	}

	err = str.SendMsg(req)
	if err == io.EOF {
	// We get EOF on send if the server says "go away"
	// We have to use CloseAndReceive to get the actual code
	resp, err = str.CloseAndReceive()
	break
	}

	req.Reset()
	}

	// finally, process response data
	stat, ok := status.FromError(err)
	if !ok {
	// Error codes sent from the server will get printed differently below.
	// So just bail for other kinds of errors here.
	return fmt.Errorf("grpc call for %q failed: %v", md.GetFullyQualifiedName(), err)
	}

	if respHeaders, err := str.Header(); err == nil {
	handler.OnReceiveHeaders(respHeaders)
	}

	if stat.Code() == codes.OK {
	handler.OnReceiveResponse(resp)
	}

	handler.OnReceiveTrailers(stat, str.Trailer())

	return nil
	}

	func invokeServerStream(ctx context.Context, stub grpcdynamic.Stub, md *desc.MethodDescriptor, handler InvocationEventHandler,
	requestData RequestSupplier, req proto.Message) error {

	err := requestData(req)
	if err != nil && err != io.EOF {
	return fmt.Errorf("error getting request data: %v", err)
	}
	if err != io.EOF {
	// verify there is no second message, which is a usage error
	err := requestData(req)
	if err == nil {
	return fmt.Errorf("method %q is a server-streaming RPC, but request data contained more than 1 message", md.GetFullyQualifiedName())
	} else if err != io.EOF {
	return fmt.Errorf("error getting request data: %v", err)
	}
	}

	// Now we can actually invoke the RPC!
	str, err := stub.InvokeRpcServerStream(ctx, md, req)

	if respHeaders, err := str.Header(); err == nil {
	handler.OnReceiveHeaders(respHeaders)
	}

	// Download each response message
	for err == nil {
	var resp proto.Message
	resp, err = str.RecvMsg()
	if err != nil {
	if err == io.EOF {
	err = nil
	}
	break
	}
	handler.OnReceiveResponse(resp)
	}

	stat, ok := status.FromError(err)
	if !ok {
	// Error codes sent from the server will get printed differently below.
	// So just bail for other kinds of errors here.
	return fmt.Errorf("grpc call for %q failed: %v", md.GetFullyQualifiedName(), err)
	}

	handler.OnReceiveTrailers(stat, str.Trailer())

	return nil
	}

	func invokeBidi(ctx context.Context, stub grpcdynamic.Stub, md *desc.MethodDescriptor, handler InvocationEventHandler,
	requestData RequestSupplier, req proto.Message) error {

	ctx, cancel := context.WithCancel(ctx)
	defer cancel()

	// invoke the RPC!
	str, err := stub.InvokeRpcBidiStream(ctx, md)

	var wg sync.WaitGroup
	var sendErr atomic.Value

	defer wg.Wait()

	if err == nil {
	wg.Add(1)
	go func() {
	defer wg.Done()

	// Concurrently upload each request message in the stream
	var err error
	for err == nil {
	err = requestData(req)

	if err == io.EOF {
	err = str.CloseSend()
	break
	}
	if err != nil {
	err = fmt.Errorf("error getting request data: %v", err)
	cancel()
	break
	}

	err = str.SendMsg(req)

	req.Reset()
	}

	if err != nil {
	sendErr.Store(err)
	}
	}()
	}

	if respHeaders, err := str.Header(); err == nil {
	handler.OnReceiveHeaders(respHeaders)
	}

	// Download each response message
	for err == nil {
	var resp proto.Message
	resp, err = str.RecvMsg()
	if err != nil {
	if err == io.EOF {
	err = nil
	}
	break
	}
	handler.OnReceiveResponse(resp)
	}

	if se, ok := sendErr.Load().(error); ok && se != io.EOF {
	err = se
	}

	stat, ok := status.FromError(err)
	if !ok {
	// Error codes sent from the server will get printed differently below.
	// So just bail for other kinds of errors here.
	return fmt.Errorf("grpc call for %q failed: %v", md.GetFullyQualifiedName(), err)
	}

	handler.OnReceiveTrailers(stat, str.Trailer())

	return nil
	}

	type notFoundError string

	func notFound(kind, name string) error {
	return notFoundError(fmt.Sprintf("%s not found: %s", kind, name))
	}

	func (e notFoundError) Error() string {
	return string(e)
	}

	func isNotFoundError(err error) bool {
	if grpcreflect.IsElementNotFoundError(err) {
	return true
	}
	_, ok := err.(notFoundError)
	return ok
	}

	func parseSymbol(svcAndMethod string) (string, string) {
	pos := strings.LastIndex(svcAndMethod, "/")
	if pos < 0 {
	pos = strings.LastIndex(svcAndMethod, ".")
	if pos < 0 {
	return "", ""
	}
	}
	return svcAndMethod[:pos], svcAndMethod[pos+1:]
	}