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interceptor_ext_test.go
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interceptor_ext_test.go
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// Copyright 2021-2024 The Connect 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 connect_test
import (
"context"
"fmt"
"net/http"
"sync/atomic"
"testing"
connect "connectrpc.com/connect"
"connectrpc.com/connect/internal/assert"
pingv1 "connectrpc.com/connect/internal/gen/connect/ping/v1"
"connectrpc.com/connect/internal/gen/connect/ping/v1/pingv1connect"
"connectrpc.com/connect/internal/memhttp/memhttptest"
)
func TestOnionOrderingEndToEnd(t *testing.T) {
t.Parallel()
// Helper function: returns a function that asserts that there's some value
// set for header "expect", and adds a value for header "add".
newInspector := func(expect, add string) func(connect.Spec, http.Header) {
return func(spec connect.Spec, header http.Header) {
if expect != "" {
assert.NotZero(
t,
header.Get(expect),
assert.Sprintf(
"%s (IsClient %v): header %q missing: %v",
spec.Procedure,
spec.IsClient,
expect,
header,
),
)
}
header.Set(add, "v")
}
}
// Helper function: asserts that there's a value present for header keys
// "one", "two", "three", and "four".
assertAllPresent := func(spec connect.Spec, header http.Header) {
for _, key := range []string{"one", "two", "three", "four"} {
assert.NotZero(
t,
header.Get(key),
assert.Sprintf(
"%s (IsClient %v): checking all headers, %q missing: %v",
spec.Procedure,
spec.IsClient,
key,
header,
),
)
}
}
var client1, client2, client3, handler1, handler2, handler3 atomic.Int32
// The client and handler interceptor onions are the meat of the test. The
// order of interceptor execution must be the same for unary and streaming
// procedures.
//
// Requests should fall through the client onion from top to bottom, traverse
// the network, and then fall through the handler onion from top to bottom.
// Responses should climb up the handler onion, traverse the network, and
// then climb up the client onion.
//
// The request and response sides of this onion are numbered to make the
// intended order clear.
clientOnion := connect.WithInterceptors(
newHeaderInterceptor(
&client1,
// 1 (start). request: should see protocol-related headers
func(_ connect.Spec, h http.Header) {
assert.NotZero(t, h.Get("Content-Type"))
},
// 12 (end). response: check "one"-"four"
assertAllPresent,
),
newHeaderInterceptor(
&client2,
newInspector("", "one"), // 2. request: add header "one"
newInspector("three", "four"), // 11. response: check "three", add "four"
),
newHeaderInterceptor(
&client3,
newInspector("one", "two"), // 3. request: check "one", add "two"
newInspector("two", "three"), // 10. response: check "two", add "three"
),
)
handlerOnion := connect.WithInterceptors(
newHeaderInterceptor(
&handler1,
newInspector("two", "three"), // 4. request: check "two", add "three"
newInspector("one", "two"), // 9. response: check "one", add "two"
),
newHeaderInterceptor(
&handler2,
newInspector("three", "four"), // 5. request: check "three", add "four"
newInspector("", "one"), // 8. response: add "one"
),
newHeaderInterceptor(
&handler3,
assertAllPresent, // 6. request: check "one"-"four"
nil, // 7. response: no-op
),
)
mux := http.NewServeMux()
mux.Handle(
pingv1connect.NewPingServiceHandler(
pingServer{},
handlerOnion,
),
)
server := memhttptest.NewServer(t, mux)
client := pingv1connect.NewPingServiceClient(
server.Client(),
server.URL(),
clientOnion,
)
_, err := client.Ping(context.Background(), connect.NewRequest(&pingv1.PingRequest{Number: 10}))
assert.Nil(t, err)
// make sure the interceptors were actually invoked
assert.Equal(t, int32(1), client1.Load())
assert.Equal(t, int32(1), client2.Load())
assert.Equal(t, int32(1), client3.Load())
assert.Equal(t, int32(1), handler1.Load())
assert.Equal(t, int32(1), handler2.Load())
assert.Equal(t, int32(1), handler3.Load())
responses, err := client.CountUp(context.Background(), connect.NewRequest(&pingv1.CountUpRequest{Number: 10}))
assert.Nil(t, err)
var sum int64
for responses.Receive() {
sum += responses.Msg().GetNumber()
}
assert.Equal(t, sum, 55)
assert.Nil(t, responses.Close())
// make sure the interceptors were invoked again
assert.Equal(t, int32(2), client1.Load())
assert.Equal(t, int32(2), client2.Load())
assert.Equal(t, int32(2), client3.Load())
assert.Equal(t, int32(2), handler1.Load())
assert.Equal(t, int32(2), handler2.Load())
assert.Equal(t, int32(2), handler3.Load())
}
func TestEmptyUnaryInterceptorFunc(t *testing.T) {
t.Parallel()
mux := http.NewServeMux()
interceptor := connect.UnaryInterceptorFunc(func(next connect.UnaryFunc) connect.UnaryFunc {
return func(ctx context.Context, request connect.AnyRequest) (connect.AnyResponse, error) {
return next(ctx, request)
}
})
mux.Handle(pingv1connect.NewPingServiceHandler(pingServer{}, connect.WithInterceptors(interceptor)))
server := memhttptest.NewServer(t, mux)
connectClient := pingv1connect.NewPingServiceClient(server.Client(), server.URL(), connect.WithInterceptors(interceptor))
_, err := connectClient.Ping(context.Background(), connect.NewRequest(&pingv1.PingRequest{}))
assert.Nil(t, err)
sumStream := connectClient.Sum(context.Background())
assert.Nil(t, sumStream.Send(&pingv1.SumRequest{Number: 1}))
resp, err := sumStream.CloseAndReceive()
assert.Nil(t, err)
assert.NotNil(t, resp)
countUpStream, err := connectClient.CountUp(context.Background(), connect.NewRequest(&pingv1.CountUpRequest{}))
assert.Nil(t, err)
for countUpStream.Receive() {
assert.NotNil(t, countUpStream.Msg())
}
assert.Nil(t, countUpStream.Close())
}
func TestInterceptorFuncAccessingHTTPMethod(t *testing.T) {
t.Parallel()
clientChecker := &httpMethodChecker{client: true}
handlerChecker := &httpMethodChecker{}
mux := http.NewServeMux()
mux.Handle(
pingv1connect.NewPingServiceHandler(
pingServer{},
connect.WithInterceptors(handlerChecker),
),
)
server := memhttptest.NewServer(t, mux)
client := pingv1connect.NewPingServiceClient(
server.Client(),
server.URL(),
connect.WithInterceptors(clientChecker),
)
pingReq := connect.NewRequest(&pingv1.PingRequest{Number: 10})
assert.Equal(t, "", pingReq.HTTPMethod())
_, err := client.Ping(context.Background(), pingReq)
assert.Nil(t, err)
assert.Equal(t, http.MethodPost, pingReq.HTTPMethod())
// make sure interceptor was invoked
assert.Equal(t, int32(1), clientChecker.count.Load())
assert.Equal(t, int32(1), handlerChecker.count.Load())
countUpReq := connect.NewRequest(&pingv1.CountUpRequest{Number: 10})
assert.Equal(t, "", countUpReq.HTTPMethod())
responses, err := client.CountUp(context.Background(), countUpReq)
assert.Nil(t, err)
var sum int64
for responses.Receive() {
sum += responses.Msg().GetNumber()
}
assert.Equal(t, sum, 55)
assert.Nil(t, responses.Close())
assert.Equal(t, http.MethodPost, countUpReq.HTTPMethod())
// make sure interceptor was invoked again
assert.Equal(t, int32(2), clientChecker.count.Load())
assert.Equal(t, int32(2), handlerChecker.count.Load())
}
// headerInterceptor makes it easier to write interceptors that inspect or
// mutate HTTP headers. It applies the same logic to unary and streaming
// procedures, wrapping the send or receive side of the stream as appropriate.
//
// It's useful as a testing harness to make sure that we're chaining
// interceptors in the correct order.
type headerInterceptor struct {
counter *atomic.Int32
inspectRequestHeader func(connect.Spec, http.Header)
inspectResponseHeader func(connect.Spec, http.Header)
}
// newHeaderInterceptor constructs a headerInterceptor. Nil function pointers
// are treated as no-ops.
func newHeaderInterceptor(
counter *atomic.Int32,
inspectRequestHeader func(connect.Spec, http.Header),
inspectResponseHeader func(connect.Spec, http.Header),
) *headerInterceptor {
interceptor := headerInterceptor{
counter: counter,
inspectRequestHeader: inspectRequestHeader,
inspectResponseHeader: inspectResponseHeader,
}
if interceptor.inspectRequestHeader == nil {
interceptor.inspectRequestHeader = func(_ connect.Spec, _ http.Header) {}
}
if interceptor.inspectResponseHeader == nil {
interceptor.inspectResponseHeader = func(_ connect.Spec, _ http.Header) {}
}
return &interceptor
}
func (h *headerInterceptor) WrapUnary(next connect.UnaryFunc) connect.UnaryFunc {
return func(ctx context.Context, req connect.AnyRequest) (connect.AnyResponse, error) {
h.counter.Add(1)
h.inspectRequestHeader(req.Spec(), req.Header())
res, err := next(ctx, req)
if err != nil {
return nil, err
}
h.inspectResponseHeader(req.Spec(), res.Header())
return res, nil
}
}
func (h *headerInterceptor) WrapStreamingClient(next connect.StreamingClientFunc) connect.StreamingClientFunc {
return func(ctx context.Context, spec connect.Spec) connect.StreamingClientConn {
h.counter.Add(1)
return &headerInspectingClientConn{
StreamingClientConn: next(ctx, spec),
inspectRequestHeader: h.inspectRequestHeader,
inspectResponseHeader: h.inspectResponseHeader,
}
}
}
func (h *headerInterceptor) WrapStreamingHandler(next connect.StreamingHandlerFunc) connect.StreamingHandlerFunc {
return func(ctx context.Context, conn connect.StreamingHandlerConn) error {
h.counter.Add(1)
h.inspectRequestHeader(conn.Spec(), conn.RequestHeader())
return next(ctx, &headerInspectingHandlerConn{
StreamingHandlerConn: conn,
inspectResponseHeader: h.inspectResponseHeader,
})
}
}
type headerInspectingHandlerConn struct {
connect.StreamingHandlerConn
inspectedResponse bool
inspectResponseHeader func(connect.Spec, http.Header)
}
func (hc *headerInspectingHandlerConn) Send(msg any) error {
if !hc.inspectedResponse {
hc.inspectResponseHeader(hc.Spec(), hc.ResponseHeader())
hc.inspectedResponse = true
}
return hc.StreamingHandlerConn.Send(msg)
}
type headerInspectingClientConn struct {
connect.StreamingClientConn
inspectedRequest bool
inspectRequestHeader func(connect.Spec, http.Header)
inspectedResponse bool
inspectResponseHeader func(connect.Spec, http.Header)
}
func (cc *headerInspectingClientConn) Send(msg any) error {
if !cc.inspectedRequest {
cc.inspectRequestHeader(cc.Spec(), cc.RequestHeader())
cc.inspectedRequest = true
}
return cc.StreamingClientConn.Send(msg)
}
func (cc *headerInspectingClientConn) Receive(msg any) error {
err := cc.StreamingClientConn.Receive(msg)
if !cc.inspectedResponse {
cc.inspectResponseHeader(cc.Spec(), cc.ResponseHeader())
cc.inspectedResponse = true
}
return err
}
type httpMethodChecker struct {
client bool
count atomic.Int32
}
func (h *httpMethodChecker) WrapUnary(unaryFunc connect.UnaryFunc) connect.UnaryFunc {
return func(ctx context.Context, req connect.AnyRequest) (connect.AnyResponse, error) {
h.count.Add(1)
if h.client {
// should be blank until after we make request
if req.HTTPMethod() != "" {
return nil, fmt.Errorf("expected blank HTTP method but instead got %q", req.HTTPMethod())
}
} else {
// server interceptors see method from the start
// NB: In theory, the method could also be GET, not just POST. But for the
// configuration under test, it will always be POST.
if req.HTTPMethod() != http.MethodPost {
return nil, fmt.Errorf("expected HTTP method %s but instead got %q", http.MethodPost, req.HTTPMethod())
}
}
resp, err := unaryFunc(ctx, req)
// NB: In theory, the method could also be GET, not just POST. But for the
// configuration under test, it will always be POST.
if req.HTTPMethod() != http.MethodPost {
return nil, fmt.Errorf("expected HTTP method %s but instead got %q", http.MethodPost, req.HTTPMethod())
}
return resp, err
}
}
func (h *httpMethodChecker) WrapStreamingClient(clientFunc connect.StreamingClientFunc) connect.StreamingClientFunc {
return func(ctx context.Context, spec connect.Spec) connect.StreamingClientConn {
// method not exposed to streaming interceptor, but that's okay because it's always POST for streams
h.count.Add(1)
return clientFunc(ctx, spec)
}
}
func (h *httpMethodChecker) WrapStreamingHandler(handlerFunc connect.StreamingHandlerFunc) connect.StreamingHandlerFunc {
return func(ctx context.Context, conn connect.StreamingHandlerConn) error {
// method not exposed to streaming interceptor, but that's okay because it's always POST for streams
h.count.Add(1)
return handlerFunc(ctx, conn)
}
}