consul/agent/grpc-external/services/peerstream/testing.go

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// Copyright (c) HashiCorp, Inc.
// SPDX-License-Identifier: MPL-2.0
package peerstream
import (
"context"
"fmt"
"io"
"sync"
"testing"
"time"
"github.com/stretchr/testify/require"
"google.golang.org/grpc/metadata"
Protobuf Refactoring for Multi-Module Cleanliness (#16302) Protobuf Refactoring for Multi-Module Cleanliness This commit includes the following: Moves all packages that were within proto/ to proto/private Rewrites imports to account for the packages being moved Adds in buf.work.yaml to enable buf workspaces Names the proto-public buf module so that we can override the Go package imports within proto/buf.yaml Bumps the buf version dependency to 1.14.0 (I was trying out the version to see if it would get around an issue - it didn't but it also doesn't break things and it seemed best to keep up with the toolchain changes) Why: In the future we will need to consume other protobuf dependencies such as the Google HTTP annotations for openapi generation or grpc-gateway usage. There were some recent changes to have our own ratelimiting annotations. The two combined were not working when I was trying to use them together (attempting to rebase another branch) Buf workspaces should be the solution to the problem Buf workspaces means that each module will have generated Go code that embeds proto file names relative to the proto dir and not the top level repo root. This resulted in proto file name conflicts in the Go global protobuf type registry. The solution to that was to add in a private/ directory into the path within the proto/ directory. That then required rewriting all the imports. Is this safe? AFAICT yes The gRPC wire protocol doesn't seem to care about the proto file names (although the Go grpc code does tack on the proto file name as Metadata in the ServiceDesc) Other than imports, there were no changes to any generated code as a result of this.
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"github.com/hashicorp/consul/proto/private/pbpeerstream"
)
type MockClient struct {
mu sync.Mutex
ErrCh chan error
ReplicationStream *MockStream
}
func (c *MockClient) Send(r *pbpeerstream.ReplicationMessage) error {
c.ReplicationStream.recvCh <- r
return nil
}
func (c *MockClient) Recv() (*pbpeerstream.ReplicationMessage, error) {
return c.RecvWithTimeout(10 * time.Millisecond)
}
func (c *MockClient) RecvWithTimeout(dur time.Duration) (*pbpeerstream.ReplicationMessage, error) {
select {
case err := <-c.ErrCh:
return nil, err
case r := <-c.ReplicationStream.sendCh:
return r, nil
case <-time.After(dur):
return nil, io.EOF
}
}
func (c *MockClient) Close() {
close(c.ReplicationStream.recvCh)
}
func NewMockClient(ctx context.Context) *MockClient {
return &MockClient{
ReplicationStream: newTestReplicationStream(ctx),
}
}
// DrainStream reads messages from the stream until both the exported service list and
// trust bundle messages have been read. We do this because their ording is indeterministic.
func (c *MockClient) DrainStream(t *testing.T) {
seen := make(map[string]struct{})
for len(seen) < 2 {
msg, err := c.Recv()
require.NoError(t, err)
if r := msg.GetResponse(); r != nil && r.ResourceURL == pbpeerstream.TypeURLExportedServiceList {
seen[pbpeerstream.TypeURLExportedServiceList] = struct{}{}
}
if r := msg.GetResponse(); r != nil && r.ResourceURL == pbpeerstream.TypeURLPeeringTrustBundle {
seen[pbpeerstream.TypeURLPeeringTrustBundle] = struct{}{}
}
}
}
// MockStream mocks peering.PeeringService_StreamResourcesServer
type MockStream struct {
sendCh chan *pbpeerstream.ReplicationMessage
recvCh chan *pbpeerstream.ReplicationMessage
ctx context.Context
}
var _ pbpeerstream.PeerStreamService_StreamResourcesServer = (*MockStream)(nil)
func newTestReplicationStream(ctx context.Context) *MockStream {
return &MockStream{
sendCh: make(chan *pbpeerstream.ReplicationMessage, 1),
recvCh: make(chan *pbpeerstream.ReplicationMessage, 1),
ctx: ctx,
}
}
// Send implements pbpeerstream.PeeringService_StreamResourcesServer
func (s *MockStream) Send(r *pbpeerstream.ReplicationMessage) error {
s.sendCh <- r
return nil
}
// Recv implements pbpeerstream.PeeringService_StreamResourcesServer
func (s *MockStream) Recv() (*pbpeerstream.ReplicationMessage, error) {
r := <-s.recvCh
if r == nil {
return nil, io.EOF
}
return r, nil
}
// Context implements grpc.ServerStream and grpc.ClientStream
func (s *MockStream) Context() context.Context {
return s.ctx
}
// SendMsg implements grpc.ServerStream and grpc.ClientStream
func (s *MockStream) SendMsg(m interface{}) error {
return nil
}
// RecvMsg implements grpc.ServerStream and grpc.ClientStream
func (s *MockStream) RecvMsg(m interface{}) error {
return nil
}
// SetHeader implements grpc.ServerStream
func (s *MockStream) SetHeader(metadata.MD) error {
return nil
}
// SendHeader implements grpc.ServerStream
func (s *MockStream) SendHeader(metadata.MD) error {
return nil
}
// SetTrailer implements grpc.ServerStream
func (s *MockStream) SetTrailer(metadata.MD) {}
// incrementalTime is an artificial clock used during testing. For those
// scenarios you would pass around the method pointer for `Now` in places where
// you would be using `time.Now`.
type incrementalTime struct {
base time.Time
next uint64
mu sync.Mutex
}
// Now advances the internal clock by 1 second and returns that value.
func (t *incrementalTime) Now() time.Time {
t.mu.Lock()
defer t.mu.Unlock()
t.next++
dur := time.Duration(t.next) * time.Second
return t.base.Add(dur)
}
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// StaticNow returns the current internal clock without advancing it.
func (t *incrementalTime) StaticNow() time.Time {
t.mu.Lock()
defer t.mu.Unlock()
dur := time.Duration(t.next) * time.Second
return t.base.Add(dur)
}
// FutureNow will return a given future value of the Now() function.
// The numerical argument indicates which future Now value you wanted. The
// value must be > 0.
func (t *incrementalTime) FutureNow(n int) time.Time {
if n < 1 {
panic(fmt.Sprintf("argument must be > 1 but was %d", n))
}
t.mu.Lock()
defer t.mu.Unlock()
dur := time.Duration(t.next+uint64(n)) * time.Second
return t.base.Add(dur)
}