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@@ -19,6 +19,53 @@
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*
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*/
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+/*
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+Synchronisation is almost broken with i2s. The esp32 driver is not clear
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+about what it does when it starts, not when sampling rate changes (which
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+does stop/start). For example, if no frame is provided using i2_write, it
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+cycle on the last buffer or something like that.
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+
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+But above that, when squeezelite wants to get current time (output.updated)
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+and number of frames sent at that time (outout.frames_played_dmp), this
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+should be corrected by the number of frames in the pipepline of I2S
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+(output.device_frames) but that value is unknown so all we can do is assuming
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+that every time we assess these values, the I2S DMA is full so that at least
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+we have a consitent matching between time & frames. This is not a solid
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+hypothesis.
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+
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+It seems that to maximize that probability, the amount of frames written
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+using i2s_write must be a divider of dma_buf_len otherwise when i2s_write
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+returns, the fullness of the DMA buffer varies and as a result there is a
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+big jitter in the time/frame matching and LMS then constantly adjust player's
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+timing. A solution is to not use AccuratePlayPloint to force LMS to average
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+these values (reported in STMt) but then if there is a gap at the beginning,
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+it lasts for a while
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+
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+Even more complicated, I2S introduces a systematic delay of silence, counted
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+in frames and equal to the size of the sum of DMA buffers. When LMS requests to
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+"startAt", in reality, we start at the required time + the delay corresponding
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+to this number of frames, which in ms changes with the sampling rate!
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+
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+Compensating that delay in LMS's UI works for a given sampling rate, but is
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+different for every sampplin rate so this does not work either. For example,
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+with 16 buffers of 512 bytes @ 44100, the delay is 16*512/44100 = 185 ms.
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+
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+Trying to compensate that delay inside squeezelite does not work well either
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+because LMS sends a "startAt" which is only 150~200ms after present time and
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+that might be less than the duration of the whole DMA buffer, so we can't
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+anticpate what is already past
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+
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+Another issue is that when pause is requested, the part of the track which is
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+in the DMA buffers will be played no matter what. We can't use i2s_stop and
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+i2s_start as i2s_start seems to mess-up with buffer (in a not very clean or
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+clear way). So the track will audibly stop a bit after pause is pressed, but
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+more problem comes with the un-pause because LMS is not told that these frames
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+have been played and in addition the "startAt" will have the same issue as the
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+initial "startAt"
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+
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+So this is a lot of fun and I've not yet found a good solution
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+*/
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+
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#include "squeezelite.h"
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#include "driver/i2s.h"
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#include "perf_trace.h"
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@@ -28,7 +75,8 @@
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#define LOCK mutex_lock(outputbuf->mutex)
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#define UNLOCK mutex_unlock(outputbuf->mutex)
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-#define FRAME_BLOCK MAX_SILENCE_FRAMES
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+//#define FRAME_BLOCK MAX_SILENCE_FRAMES
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+#define FRAME_BLOCK 512
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// Prevent compile errors if dac output is
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// included in the build and not actually activated in menuconfig
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@@ -45,6 +93,8 @@
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#define CONFIG_I2S_NUM -1
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#endif
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+#define DMA_BUF_COUNT 16
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+
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#define DECLARE_ALL_MIN_MAX \
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DECLARE_MIN_MAX(o); \
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DECLARE_MIN_MAX(s); \
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@@ -118,20 +168,15 @@ void output_init_i2s(log_level level, char *device, unsigned output_buf_size, ch
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running=true;
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- // todo: move this to a hardware abstraction layer
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- //hal_dac_init(device);
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-
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i2s_config.mode = I2S_MODE_MASTER | I2S_MODE_TX; // Only TX
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i2s_config.sample_rate = output.current_sample_rate;
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i2s_config.bits_per_sample = bytes_per_frame * 8 / 2;
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i2s_config.channel_format = I2S_CHANNEL_FMT_RIGHT_LEFT; //2-channels
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i2s_config.communication_format = I2S_COMM_FORMAT_I2S| I2S_COMM_FORMAT_I2S_MSB;
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- // todo: tune this parameter. Expressed in number of samples. Byte size depends on bit depth.
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- i2s_config.dma_buf_count = 10;
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- // From the I2S driver source, the DMA buffer size is 4092 bytes.
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- // so buf_len * 2 channels * 2 bytes/sample should be < 4092 or else it will be resized.
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- i2s_config.dma_buf_len = FRAME_BLOCK/2;
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- i2s_config.use_apll = false;
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+ i2s_config.dma_buf_count = DMA_BUF_COUNT;
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+ // Counted in frames (but i2s allocates a buffer <= 4092 bytes)
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+ i2s_config.dma_buf_len = FRAME_BLOCK;
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+ i2s_config.use_apll = true;
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i2s_config.intr_alloc_flags = ESP_INTR_FLAG_LEVEL1; //Interrupt level 1
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i2s_pin_config_t pin_config = { .bck_io_num = CONFIG_I2S_BCK_IO, .ws_io_num =
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@@ -143,9 +188,10 @@ void output_init_i2s(log_level level, char *device, unsigned output_buf_size, ch
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i2s_driver_install(CONFIG_I2S_NUM, &i2s_config, 0, NULL);
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i2s_set_pin(CONFIG_I2S_NUM, &pin_config);
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i2s_set_clk(CONFIG_I2S_NUM, output.current_sample_rate, i2s_config.bits_per_sample, 2);
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- isI2SStarted=false;
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+ i2s_zero_dma_buffer(CONFIG_I2S_NUM);
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i2s_stop(CONFIG_I2S_NUM);
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-
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+ isI2SStarted=false;
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+
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pthread_attr_t attr;
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pthread_attr_init(&attr);
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pthread_attr_setstacksize(&attr, PTHREAD_STACK_MIN + OUTPUT_THREAD_STACK_SIZE);
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@@ -230,18 +276,21 @@ static void *output_thread_i2s() {
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LOCK;
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+/*
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if (output.state == OUTPUT_OFF) {
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UNLOCK;
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LOG_INFO("Output state is off.");
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- if(isI2SStarted) {
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+ if (isI2SStarted) {
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isI2SStarted=false;
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i2s_stop(CONFIG_I2S_NUM);
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}
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usleep(200000);
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continue;
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}
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+*/
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- output.device_frames =0;
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+ //output.device_frames = DMA_BUF_COUNT * i2s_config.dma_buf_len;
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+ output.device_frames = 0;
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output.updated = gettime_ms();
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output.frames_played_dmp = output.frames_played;
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@@ -254,35 +303,36 @@ static void *output_thread_i2s() {
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UNLOCK;
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- if (frames) {
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- // now send all the data
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- TIME_MEASUREMENT_START(timer_start);
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-
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- if(!isI2SStarted)
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- {
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- isI2SStarted=true;
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- LOG_INFO("Restarting I2S.");
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- i2s_start(CONFIG_I2S_NUM);
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- }
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-
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- // TODO: synchronize sample rate change when the block is at the DAC, not added to the DMA buffer
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- if (i2s_config.sample_rate != output.current_sample_rate) {
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- LOG_INFO("changing sampling rate %u to %u", i2s_config.sample_rate, output.current_sample_rate);
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- i2s_config.sample_rate = output.current_sample_rate;
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- i2s_set_sample_rates(CONFIG_I2S_NUM, i2s_config.sample_rate);
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- }
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-
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- i2s_write(CONFIG_I2S_NUM, obuf, frames * bytes_per_frame, &bytes, portMAX_DELAY);
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+ // must skip first frames as buffer filled with silence
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+ //if (output.state > OUTPUT_STOPPED && output.frames_played + frames < DMA_BUF_COUNT * i2s_config.dma_buf_len) continue;
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+
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+ // now send all the data
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+ TIME_MEASUREMENT_START(timer_start);
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+
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+ if (!isI2SStarted ) {
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+ isI2SStarted = true;
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+ LOG_INFO("Restarting I2S.");
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+ // start with a buffer full of silence
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+ i2s_zero_dma_buffer(CONFIG_I2S_NUM);
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+ i2s_start(CONFIG_I2S_NUM);
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+ }
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+
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+ // TODO: this does not work well as set_sample_rates resets the fifos - it breaks synchronization
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+ if (i2s_config.sample_rate != output.current_sample_rate) {
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+ LOG_INFO("changing sampling rate %u to %u", i2s_config.sample_rate, output.current_sample_rate);
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+ i2s_config.sample_rate = output.current_sample_rate;
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+ i2s_set_sample_rates(CONFIG_I2S_NUM, i2s_config.sample_rate);
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+ }
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+
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+ i2s_write(CONFIG_I2S_NUM, obuf, frames * bytes_per_frame, &bytes, portMAX_DELAY);
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- if (bytes != frames * bytes_per_frame)
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- {
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- LOG_WARN("I2S DMA Overflow! available bytes: %d, I2S wrote %d bytes", frames * bytes_per_frame, bytes);
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- }
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+ if (bytes != frames * bytes_per_frame) {
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+ LOG_WARN("I2S DMA Overflow! available bytes: %d, I2S wrote %d bytes", frames * bytes_per_frame, bytes);
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+ }
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- SET_MIN_MAX( TIME_MEASUREMENT_GET(timer_start),i2s_time);
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+ SET_MIN_MAX( TIME_MEASUREMENT_GET(timer_start),i2s_time);
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- frames = 0;
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- }
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+ frames = 0;
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}
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philippe44