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converge/pkg/testsupport/channelreadwriter_test.go

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package testsupport
import (
"context"
"github.com/stretchr/testify/suite"
"io"
"log"
"net/http"
"strings"
"testing"
"time"
)
type ChannelReadWriterTestSuite struct {
suite.Suite
pprofServer *http.Server
ctx context.Context
cancelFunc context.CancelFunc
toChannel chan<- []byte
fromChannel <-chan []byte
conn *ChannelReadWriteCloser
}
func TestChannelReadWriterSuite(t *testing.T) {
suite.Run(t, &ChannelReadWriterTestSuite{})
}
func (s *ChannelReadWriterTestSuite) createChannel() {
// buffered channels provide more similar behavior to TCP connections
// then unbuffered channels.
toChannel := make(chan []byte, 10)
fromChannel := make(chan []byte, 10)
s.toChannel = toChannel
s.fromChannel = fromChannel
ctx, cancelFunc := CreateTestContext(context.Background(), 10*time.Second)
s.ctx = ctx
s.cancelFunc = cancelFunc
s.conn = NewChannelReadWriteCloser(ctx, toChannel, fromChannel)
}
func (s *ChannelReadWriterTestSuite) SetupSuite() {
s.pprofServer = StartPprof("")
}
func (s *ChannelReadWriterTestSuite) TearDownSuite() {
StopPprof(s.ctx, s.pprofServer)
}
func (s *ChannelReadWriterTestSuite) SetupTest() {
s.createChannel()
}
func (s *ChannelReadWriterTestSuite) TearDownTest() {
s.cancelFunc()
}
func (s *ChannelReadWriterTestSuite) Test_SuccessfulChannelToReadWriter() {
tests := []SuccessfulTest{
{
name: "buffer_large_enough",
data: []string{"hello"},
chunkSizes: []int{10},
chunks: []string{"hello"},
},
{
name: "two_reads_required",
data: []string{"hello"},
chunkSizes: []int{3, 10},
chunks: []string{"hel", "lo"},
},
{
name: "many_reads_required",
data: []string{"hello"},
chunkSizes: []int{1, 1, 1, 1, 1},
chunks: []string{"h", "e", "l", "l", "o"},
},
{
name: "buffer_large_enough_multiple_writes",
data: []string{"hel", "lo"},
chunkSizes: []int{3, 2},
chunks: []string{"hel", "lo"},
},
{ // NOTE: no intelligence in the reader to fill up the read buffer when it is not full
// therefore, the second read will have only 1 char since the first channel read returned
// 3 of which 2 where returned in the first read call to the ChannelReadWriteCloser.
name: "buffer_too_small_multiple_writes",
data: []string{"hel", "lo"},
chunkSizes: []int{2, 2, 2},
chunks: []string{"he", "l", "lo"},
},
}
for _, test := range tests {
s.Run(test.name, s.runSuccessfulChannelToReadWrite(test))
}
}
func (s *ChannelReadWriterTestSuite) Test_SuccessfulReadWriterToChannel() {
tests := []SuccessfulTest{
{
name: "buffer_large_enough",
data: []string{"hello"},
chunkSizes: []int{1},
},
{
name: "two_reads_required",
data: []string{"hel", "lo"},
chunkSizes: []int{3, 2},
},
{
name: "many_reads_required",
data: []string{"h", "e", "l", "l", "o"},
chunkSizes: []int{1, 1, 1, 1, 1},
},
}
for _, test := range tests {
s.Run(test.name, s.runSuccessfulReadWriteToChannel(test))
}
}
func (s *ChannelReadWriterTestSuite) runSuccessfulReadWriteToChannel(test SuccessfulTest) func() {
return func() {
RunAndWait(
&s.Suite,
func() any {
for _, d := range test.data {
n, err := s.conn.Write([]byte(d))
s.Nil(err)
s.Equal(len(d), n)
}
return nil
},
func() any {
for _, chunk := range test.data {
select {
case <-s.ctx.Done():
s.Fail("context canceled")
case d, ok := <-s.fromChannel:
s.True(ok)
s.Equal([]byte(chunk), d)
}
}
return nil
},
)
}
}
type SuccessfulTest struct {
name string
data []string
chunkSizes []int
chunks []string
}
func (s *ChannelReadWriterTestSuite) runSuccessfulChannelToReadWrite(test SuccessfulTest) func() {
return func() {
RunAndWait(
&s.Suite,
func() any {
for _, d := range test.data {
select {
case <-s.ctx.Done():
s.FailNow("deadline reached")
log.Println("Write deadline exceeded")
case s.toChannel <- []byte(d):
}
}
return nil
},
func() any {
remainder := strings.Join(test.data, "")
for i, chunkSize := range test.chunkSizes {
buf := make([]byte, chunkSize)
n, err := s.conn.Read(buf)
s.Nil(err)
s.Equal(n, len(test.chunks[i]))
s.Equal([]byte(remainder[:n]), buf[:n])
remainder = remainder[n:]
}
return nil
},
)
}
}
func (s *ChannelReadWriterTestSuite) Test_ChannelCloseBeforeRead() {
data := "hello"
// buffered channel
s.toChannel <- []byte(data)
close(s.toChannel)
buf := make([]byte, len(data))
n, err := s.conn.Read(buf)
s.Nil(err)
s.Equal(len(data), n)
s.Equal([]byte(data), buf[:n])
}
func (s *ChannelReadWriterTestSuite) Test_ChannelCloseAfterWrite() {
data := "hello"
n, err := s.conn.Write([]byte(data))
s.Nil(err)
s.Equal(len(data), n)
err = s.conn.Close()
s.Nil(err)
select {
case <-s.ctx.Done():
s.Fail("channel closed")
case d, ok := <-s.fromChannel:
s.True(ok)
s.Equal([]byte(data), d)
}
n, err = s.conn.Write([]byte(data))
s.NotNil(err)
s.Equal(0, n)
}
func (s *ChannelReadWriterTestSuite) Test_CloseTwice() {
err := s.conn.Close()
s.Nil(err)
s.True(s.conn.closed)
err = s.conn.Close()
s.Nil(err)
}
func (s *ChannelReadWriterTestSuite) Test_ContextCanceledRead() {
s.cancelFunc()
buf := make([]byte, 100)
n, err := s.conn.Read(buf)
s.Equal(io.ErrClosedPipe, err)
s.Equal(0, n)
}
func (s *ChannelReadWriterTestSuite) Test_ContextCanceledWrite() {
s.cancelFunc()
n, err := s.conn.Write([]byte("hello"))
s.Equal(io.ErrClosedPipe, err)
s.Equal(0, n)
}
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