[igt-dev] [PATCH i-g-t v2 1/9] tests/kms_chamelium: refactor audio test
Simon Ser
simon.ser at intel.com
Fri May 24 15:03:26 UTC 2019
Instead of shaving everything into do_test_display_audio, extract the logic to
initialize, start, stop, finish an audio test in helper functions. The struct
audio_state now carries all audio-related state.
This will allow to easily add more audio tests that don't use sine waves (via
audio_signal). This is necessary for future delay and amplitude tests.
Signed-off-by: Simon Ser <simon.ser at intel.com>
---
tests/kms_chamelium.c | 336 ++++++++++++++++++++++++------------------
1 file changed, 195 insertions(+), 141 deletions(-)
diff --git a/tests/kms_chamelium.c b/tests/kms_chamelium.c
index 8da6ec20759e..1a0a02ca2890 100644
--- a/tests/kms_chamelium.c
+++ b/tests/kms_chamelium.c
@@ -812,17 +812,179 @@ static const snd_pcm_format_t test_formats[] = {
static const size_t test_formats_count = sizeof(test_formats) / sizeof(test_formats[0]);
struct audio_state {
+ struct alsa *alsa;
+ struct chamelium *chamelium;
+ struct chamelium_port *port;
+ struct chamelium_stream *stream;
+
+ /* The capture format is only available after capture has started. */
+ struct {
+ snd_pcm_format_t format;
+ int channels;
+ int rate;
+ } playback, capture;
+
struct audio_signal *signal;
- snd_pcm_format_t format;
+ int channel_mapping[8];
+
+ int dump_fd;
+ char *dump_path;
+
+ pthread_t thread;
atomic_bool run;
};
+static void audio_state_init(struct audio_state *state, data_t *data,
+ struct alsa *alsa, struct chamelium_port *port,
+ snd_pcm_format_t format, int channels, int rate)
+{
+ memset(state, 0, sizeof(*state));
+ state->dump_fd = -1;
+
+ state->alsa = alsa;
+ state->chamelium = data->chamelium;
+ state->port = port;
+
+ state->playback.format = format;
+ state->playback.channels = channels;
+ state->playback.rate = rate;
+
+ alsa_configure_output(alsa, format, channels, rate);
+
+ state->stream = chamelium_stream_init();
+ igt_assert(state->stream);
+}
+
+static void audio_state_fini(struct audio_state *state)
+{
+ chamelium_stream_deinit(state->stream);
+}
+
+static void *run_audio_thread(void *data)
+{
+ struct alsa *alsa = data;
+
+ alsa_run(alsa, -1);
+ return NULL;
+}
+
+static void audio_state_start(struct audio_state *state)
+{
+ int ret;
+ bool ok;
+ size_t i, j;
+ enum chamelium_stream_realtime_mode stream_mode;
+ char dump_suffix[64];
+
+ igt_debug("Starting test with playback format %s, sampling rate %d Hz "
+ "and %d channels\n",
+ snd_pcm_format_name(state->playback.format),
+ state->playback.rate, state->playback.channels);
+
+ chamelium_start_capturing_audio(state->chamelium, state->port, false);
+
+ stream_mode = CHAMELIUM_STREAM_REALTIME_STOP_WHEN_OVERFLOW;
+ ok = chamelium_stream_dump_realtime_audio(state->stream, stream_mode);
+ igt_assert(ok);
+
+ /* Start playing audio */
+ state->run = true;
+ ret = pthread_create(&state->thread, NULL,
+ run_audio_thread, state->alsa);
+ igt_assert(ret == 0);
+
+ /* The Chamelium device only supports this PCM format. */
+ state->capture.format = SND_PCM_FORMAT_S32_LE;
+
+ /* Only after we've started playing audio, we can retrieve the capture
+ * format used by the Chamelium device. */
+ chamelium_get_audio_format(state->chamelium, state->port,
+ &state->capture.rate,
+ &state->capture.channels);
+ if (state->capture.rate == 0) {
+ igt_debug("Audio receiver doesn't indicate the capture "
+ "sampling rate, assuming it's %d Hz\n",
+ state->playback.rate);
+ state->capture.rate = state->playback.rate;
+ }
+
+ chamelium_get_audio_channel_mapping(state->chamelium, state->port,
+ state->channel_mapping);
+ /* Make sure we can capture all channels we send. */
+ for (i = 0; i < state->playback.channels; i++) {
+ ok = false;
+ for (j = 0; j < state->capture.channels; j++) {
+ if (state->channel_mapping[j] == i) {
+ ok = true;
+ break;
+ }
+ }
+ igt_assert(ok);
+ }
+
+ if (igt_frame_dump_is_enabled()) {
+ snprintf(dump_suffix, sizeof(dump_suffix),
+ "capture-%s-%dch-%dHz",
+ snd_pcm_format_name(state->playback.format),
+ state->playback.channels, state->playback.rate);
+
+ state->dump_fd = audio_create_wav_file_s32_le(dump_suffix,
+ state->capture.rate,
+ state->capture.channels,
+ &state->dump_path);
+ igt_assert(state->dump_fd >= 0);
+ }
+}
+
+static void audio_state_stop(struct audio_state *state, bool success)
+{
+ bool ok;
+ int ret;
+ struct chamelium_audio_file *audio_file;
+
+ igt_debug("Stopping audio playback\n");
+ state->run = false;
+ ret = pthread_join(state->thread, NULL);
+ igt_assert(ret == 0);
+
+ ok = chamelium_stream_stop_realtime_audio(state->stream);
+ igt_assert(ok);
+
+ audio_file = chamelium_stop_capturing_audio(state->chamelium,
+ state->port);
+ if (audio_file) {
+ igt_debug("Audio file saved on the Chamelium in %s\n",
+ audio_file->path);
+ chamelium_destroy_audio_file(audio_file);
+ }
+
+ if (state->dump_fd >= 0) {
+ close(state->dump_fd);
+ state->dump_fd = -1;
+
+ if (success) {
+ /* Test succeeded, no need to keep the captured data */
+ unlink(state->dump_path);
+ } else
+ igt_debug("Saved captured audio data to %s\n",
+ state->dump_path);
+ free(state->dump_path);
+ state->dump_path = NULL;
+ }
+
+ igt_debug("Audio test result for format %s, sampling rate %d Hz and "
+ "%d channels: %s\n",
+ snd_pcm_format_name(state->playback.format),
+ state->playback.rate, state->playback.channels,
+ success ? "ALL GREEN" : "FAILED");
+}
+
static int
audio_output_callback(void *data, void *buffer, int samples)
{
struct audio_state *state = data;
- switch (state->format) {
+ switch (state->playback.format) {
case SND_PCM_FORMAT_S16_LE:
audio_signal_fill_s16_le(state->signal, buffer, samples);
break;
@@ -839,55 +1001,19 @@ audio_output_callback(void *data, void *buffer, int samples)
return state->run ? 0 : -1;
}
-static void *
-run_audio_thread(void *data)
+static bool do_test_display_audio(struct audio_state *state)
{
- struct alsa *alsa = data;
-
- alsa_run(alsa, -1);
- return NULL;
-}
-
-static bool
-do_test_display_audio(data_t *data, struct chamelium_port *port,
- struct alsa *alsa, snd_pcm_format_t playback_format,
- int playback_channels, int playback_rate)
-{
- int ret, capture_rate, capture_channels, msec, freq, step;
- struct chamelium_audio_file *audio_file;
- struct chamelium_stream *stream;
- enum chamelium_stream_realtime_mode stream_mode;
- struct audio_signal *signal;
+ int msec, freq, step;
int32_t *recv, *buf;
double *channel;
size_t i, j, streak, page_count;
size_t recv_len, buf_len, buf_cap, buf_size, channel_len;
bool ok, success;
- char dump_suffix[64];
- char *dump_path = NULL;
- int dump_fd = -1;
- pthread_t thread;
- struct audio_state state = {};
- int channel_mapping[8], capture_chan;
-
- igt_debug("Testing with playback format %s, sampling rate %d Hz and "
- "%d channels\n",
- snd_pcm_format_name(playback_format),
- playback_rate, playback_channels);
- alsa_configure_output(alsa, playback_format,
- playback_channels, playback_rate);
+ int capture_chan;
- chamelium_start_capturing_audio(data->chamelium, port, false);
-
- stream = chamelium_stream_init();
- igt_assert(stream);
-
- stream_mode = CHAMELIUM_STREAM_REALTIME_STOP_WHEN_OVERFLOW;
- ok = chamelium_stream_dump_realtime_audio(stream, stream_mode);
- igt_assert(ok);
-
- signal = audio_signal_init(playback_channels, playback_rate);
- igt_assert(signal);
+ state->signal = audio_signal_init(state->playback.channels,
+ state->playback.rate);
+ igt_assert(state->signal);
/* We'll choose different frequencies per channel to make sure they are
* independent from each other. To do so, we'll add a different offset
@@ -900,62 +1026,21 @@ do_test_display_audio(data_t *data, struct chamelium_port *port,
* later on. We cannot retrieve the capture rate before starting
* playing audio, so we don't really have the choice.
*/
- step = 2 * playback_rate / CAPTURE_SAMPLES;
+ step = 2 * state->playback.rate / CAPTURE_SAMPLES;
for (i = 0; i < test_frequencies_count; i++) {
- for (j = 0; j < playback_channels; j++) {
+ for (j = 0; j < state->playback.channels; j++) {
freq = test_frequencies[i] + j * step;
- audio_signal_add_frequency(signal, freq, j);
+ audio_signal_add_frequency(state->signal, freq, j);
}
}
- audio_signal_synthesize(signal);
+ audio_signal_synthesize(state->signal);
- state.signal = signal;
- state.format = playback_format;
- state.run = true;
- alsa_register_output_callback(alsa, audio_output_callback, &state,
+ alsa_register_output_callback(state->alsa, audio_output_callback, state,
PLAYBACK_SAMPLES);
- /* Start playing audio */
- ret = pthread_create(&thread, NULL, run_audio_thread, alsa);
- igt_assert(ret == 0);
+ audio_state_start(state);
- /* Only after we've started playing audio, we can retrieve the capture
- * format used by the Chamelium device. */
- chamelium_get_audio_format(data->chamelium, port,
- &capture_rate, &capture_channels);
- if (capture_rate == 0) {
- igt_debug("Audio receiver doesn't indicate the capture "
- "sampling rate, assuming it's %d Hz\n", playback_rate);
- capture_rate = playback_rate;
- } else
- igt_assert(capture_rate == playback_rate);
-
- chamelium_get_audio_channel_mapping(data->chamelium, port,
- channel_mapping);
- /* Make sure we can capture all channels we send. */
- for (i = 0; i < playback_channels; i++) {
- ok = false;
- for (j = 0; j < capture_channels; j++) {
- if (channel_mapping[j] == i) {
- ok = true;
- break;
- }
- }
- igt_assert(ok);
- }
-
- if (igt_frame_dump_is_enabled()) {
- snprintf(dump_suffix, sizeof(dump_suffix),
- "capture-%s-%dch-%dHz",
- snd_pcm_format_name(playback_format),
- playback_channels, playback_rate);
-
- dump_fd = audio_create_wav_file_s32_le(dump_suffix,
- capture_rate,
- capture_channels,
- &dump_path);
- igt_assert(dump_fd >= 0);
- }
+ igt_assert(state->capture.rate == state->playback.rate);
/* Needs to be a multiple of 128, because that's the number of samples
* we get per channel each time we receive an audio page from the
@@ -970,7 +1055,7 @@ do_test_display_audio(data_t *data, struct chamelium_port *port,
channel_len = CAPTURE_SAMPLES;
channel = malloc(sizeof(double) * channel_len);
- buf_cap = capture_channels * channel_len;
+ buf_cap = state->capture.channels * channel_len;
buf = malloc(sizeof(int32_t) * buf_cap);
buf_len = 0;
@@ -982,7 +1067,7 @@ do_test_display_audio(data_t *data, struct chamelium_port *port,
msec = 0;
i = 0;
while (!success && msec < AUDIO_TIMEOUT) {
- ok = chamelium_stream_receive_realtime_audio(stream,
+ ok = chamelium_stream_receive_realtime_audio(state->stream,
&page_count,
&recv, &recv_len);
igt_assert(ok);
@@ -994,26 +1079,27 @@ do_test_display_audio(data_t *data, struct chamelium_port *port,
continue;
igt_assert(buf_len == buf_cap);
- if (dump_fd >= 0) {
+ if (state->dump_fd >= 0) {
buf_size = buf_len * sizeof(int32_t);
- igt_assert(write(dump_fd, buf, buf_size) == buf_size);
+ igt_assert(write(state->dump_fd, buf, buf_size) == buf_size);
}
- msec = i * channel_len / (double) capture_rate * 1000;
+ msec = i * channel_len / (double) state->capture.rate * 1000;
igt_debug("Detecting audio signal, t=%d msec\n", msec);
- for (j = 0; j < playback_channels; j++) {
- capture_chan = channel_mapping[j];
+ for (j = 0; j < state->playback.channels; j++) {
+ capture_chan = state->channel_mapping[j];
igt_assert(capture_chan >= 0);
igt_debug("Processing channel %zu (captured as "
"channel %d)\n", j, capture_chan);
audio_extract_channel_s32_le(channel, channel_len,
buf, buf_len,
- capture_channels,
+ state->capture.channels,
capture_chan);
- if (audio_signal_detect(signal, capture_rate, j,
+ if (audio_signal_detect(state->signal,
+ state->capture.rate, j,
channel, channel_len))
streak++;
else
@@ -1023,49 +1109,15 @@ do_test_display_audio(data_t *data, struct chamelium_port *port,
buf_len = 0;
i++;
- success = streak == MIN_STREAK * playback_channels;
+ success = streak == MIN_STREAK * state->playback.channels;
}
- igt_debug("Stopping audio playback\n");
- state.run = false;
- ret = pthread_join(thread, NULL);
- igt_assert(ret == 0);
-
- alsa_close_output(alsa);
-
- igt_debug("Audio test result for format %s, sampling rate %d Hz and "
- "%d channels: %s\n",
- snd_pcm_format_name(playback_format),
- playback_rate, playback_channels,
- success ? "ALL GREEN" : "FAILED");
-
- if (dump_fd >= 0) {
- close(dump_fd);
- if (success) {
- /* Test succeeded, no need to keep the captured data */
- unlink(dump_path);
- } else
- igt_debug("Saved captured audio data to %s\n", dump_path);
- free(dump_path);
- }
+ audio_state_stop(state, success);
free(recv);
free(buf);
free(channel);
-
- ok = chamelium_stream_stop_realtime_audio(stream);
- igt_assert(ok);
-
- audio_file = chamelium_stop_capturing_audio(data->chamelium,
- port);
- if (audio_file) {
- igt_debug("Audio file saved on the Chamelium in %s\n",
- audio_file->path);
- chamelium_destroy_audio_file(audio_file);
- }
-
- audio_signal_fini(signal);
- chamelium_stream_deinit(stream);
+ audio_signal_fini(state->signal);
return success;
}
@@ -1112,6 +1164,7 @@ test_display_audio(data_t *data, struct chamelium_port *port,
int fb_id, i, j;
int channels, sampling_rate;
snd_pcm_format_t format;
+ struct audio_state state;
igt_require(alsa_has_exclusive_access());
@@ -1161,9 +1214,10 @@ test_display_audio(data_t *data, struct chamelium_port *port,
run = true;
- success &= do_test_display_audio(data, port, alsa,
- format, channels,
- sampling_rate);
+ audio_state_init(&state, data, alsa, port,
+ format, channels, sampling_rate);
+ success &= do_test_display_audio(&state);
+ audio_state_fini(&state);
alsa_close_output(alsa);
}
--
2.21.0
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