package revid import ( "errors" "fmt" "os" "runtime" "testing" "bitbucket.org/ausocean/av/stream" "bitbucket.org/ausocean/av/stream/flv" "bitbucket.org/ausocean/av/stream/mts" "bitbucket.org/ausocean/iot/pi/netsender" ) const raspividPath = "/usr/local/bin/raspivid" // Suppress all test logging, except for t.Errorf output. var silent bool // TestRaspivid tests that raspivid starts correctly. // It is intended to be run on a Raspberry Pi. func TestRaspivid(t *testing.T) { if _, err := os.Stat(raspividPath); os.IsNotExist(err) { t.Skip("Skipping TestRaspivid since no raspivid found.") } var logger testLogger ns, err := netsender.New(&logger, nil, nil, nil) if err != nil { t.Errorf("netsender.New failed with error %v", err) } var c Config c.Logger = &logger c.Input = Raspivid c.Outputs = make([]uint8, 1) rv, err := New(c, ns) if err != nil { t.Errorf("revid.New failed with error %v", err) } err = rv.Start() if err != nil { t.Errorf("revid.Start failed with error %v", err) } } // testLogger implements a netsender.Logger. type testLogger struct{} // SetLevel normally sets the logging level, but it is a no-op in our case. func (tl *testLogger) SetLevel(level int8) { } // Log requests the Logger to write a message at the given level. func (tl *testLogger) Log(level int8, msg string, params ...interface{}) { logLevels := [...]string{"Debug", "Info", "Warn", "Error", "", "", "Fatal"} if level < -1 || level > 5 { panic("Invalid log level") } if !silent { fmt.Printf("%s: %s\n", logLevels[level+1], msg) } if level == 5 { buf := make([]byte, 1<<16) size := runtime.Stack(buf, true) fmt.Printf("%s\n", string(buf[:size])) os.Exit(1) } } // TestResetEncoderSenderSetup checks that revid.reset() correctly sets up the // revid.encoder slice and the senders the encoders write to. func TestResetEncoderSenderSetup(t *testing.T) { // We will use these to indicate types after assertion. const ( mtsSenderStr = "revid.mtsSender" rtpSenderStr = "revid.rtpSender" rtmpSenderStr = "revid.RtmpSender" mtsEncoderStr = "mts.Encoder" flvEncoderStr = "flv.Encoder" ) // Struct that will be used to format test cases nicely below. type encoder struct { encoderType string destinations []string } tests := []struct { outputs []uint8 encoders []encoder }{ { outputs: []uint8{Http}, encoders: []encoder{ { encoderType: mtsEncoderStr, destinations: []string{mtsSenderStr}, }, }, }, { outputs: []uint8{Rtmp}, encoders: []encoder{ { encoderType: flvEncoderStr, destinations: []string{rtmpSenderStr}, }, }, }, { outputs: []uint8{Rtp}, encoders: []encoder{ { encoderType: mtsEncoderStr, destinations: []string{rtpSenderStr}, }, }, }, { outputs: []uint8{Http, Rtmp}, encoders: []encoder{ { encoderType: mtsEncoderStr, destinations: []string{mtsSenderStr}, }, { encoderType: flvEncoderStr, destinations: []string{rtmpSenderStr}, }, }, }, { outputs: []uint8{Http, Rtp, Rtmp}, encoders: []encoder{ { encoderType: mtsEncoderStr, destinations: []string{mtsSenderStr, rtpSenderStr}, }, { encoderType: flvEncoderStr, destinations: []string{rtmpSenderStr}, }, }, }, { outputs: []uint8{Rtp, Rtmp}, encoders: []encoder{ { encoderType: mtsEncoderStr, destinations: []string{rtpSenderStr}, }, { encoderType: flvEncoderStr, destinations: []string{rtmpSenderStr}, }, }, }, } // typeOfEncoder will return the type of encoder implementing stream.Encoder. typeOfEncoder := func(i stream.Encoder) (string, error) { if _, ok := i.(*mts.Encoder); ok { return mtsEncoderStr, nil } if _, ok := i.(*flv.Encoder); ok { return flvEncoderStr, nil } return "", errors.New("unknown Encoder type") } // typeOfSender will return the type of sender implementing loadSender. typeOfSender := func(s loadSender) (string, error) { if _, ok := s.(*mtsSender); ok { return mtsSenderStr, nil } if _, ok := s.(*rtpSender); ok { return rtpSenderStr, nil } if _, ok := s.(*rtmpSender); ok { return rtmpSenderStr, nil } return "", errors.New("unknown loadSender type") } rv, err := New(Config{Logger: &testLogger{}}, nil) if err != nil { t.Fatalf("unexpected err: %v", err) } // Go through our test cases. for testNum, test := range tests { // Create a new config and reset revid with it. const dummyUrl = "rtmp://dummy" newConfig := Config{Logger: &testLogger{}, Outputs: test.outputs, RtmpUrl: dummyUrl} err := rv.reset(newConfig) if err != nil { t.Fatalf("unexpected error: %v for test %v", err, testNum) } // First check that we have the correct number of encoders. got := len(rv.encoder) want := len(test.encoders) if got != want { t.Errorf("incorrect number of encoders in revid for test: %v. \nGot: %v\nWant: %v\n", testNum, got, want) } // Now check the correctness of encoders and their destinations. for _, e := range rv.encoder { // Get e's type. encoderType, err := typeOfEncoder(e) if err != nil { t.Fatalf("could not get encoders type for test %v, failed with err: %v", testNum, err) } // Check that we expect this encoder to be here. idx := -1 for i, expect := range test.encoders { if expect.encoderType == encoderType { idx = i } } if idx == -1 { t.Errorf("encoder %v isn't expected in test %v", encoderType, testNum) } // Now check that this encoder has correct number of destinations (senders). ms := e.GetDst() senders := []loadSender(ms.(multiSender)) got = len(senders) want = len(test.encoders[idx].destinations) if got != want { t.Errorf("did not get expected number of senders in test %v. \nGot: %v\nWant: %v\n", testNum, got, want) } // Check that destinations are as expected. for _, expectDst := range test.encoders[idx].destinations { ok := false for _, dst := range senders { // Get type of sender. senderType, err := typeOfSender(dst) if err != nil { t.Fatalf("could not get encoders type for test %v, failed with err: %v", testNum, err) } // If it's one we want, indicate. if senderType == expectDst { ok = true } } // If not okay then we couldn't find expected sender. if !ok { t.Errorf("could not find expected destination %v, for test %v", expectDst, testNum) } } } } }