remove the concept of period duration from the API

also more progress on WASAPI
2024-12-22 22:55:28 +00:00 · 2015-08-13 22:54:15 -07:00 · 2015-08-13 22:54:15 -07:00 · fbc7318268
parent 61b95a458c
commit fbc7318268
13 changed files with 375 additions and 254 deletions
--- a/README.md
+++ b/README.md
@ -30,6 +30,9 @@ behavior on every platform.
   performance but prevent other applications from using them. Shared devices
   are default and usually provide sample rate conversion and format
   conversion.
 * Exposes both device id and friendly name. id you could save in a config file
   because it persists between devices becoming plugged and unplugged, while
   friendly name is suitable for exposing to users.
 * Supports optimal usage of each supported backend. The same API does the
   right thing whether the backend has a fixed buffer size, such as on JACK and
   CoreAudio, or whether it allows directly managing the buffer, such as on
@ -258,9 +261,9 @@ view `coverage/index.html` in a browser.
    - microphone
 0. Make sure PulseAudio can handle refresh devices crashing before
    block_until_have_devices
 0. Do we really want `period_duration` in the API?
 0. Integrate into libgroove and test with Groove Basin
 0. clear buffer maybe could take an argument to say how many frames to not clear
 0. create a test for clear buffer; ensure pause/play semantics work
 0. Verify that JACK xrun callback context is the same as process callback.
    If not, might need to hav xrun callback set a flag and have process callback
    call the underflow callback.
--- a/example/sio_list_devices.c
+++ b/example/sio_list_devices.c
@ -67,15 +67,11 @@ static void print_device(struct SoundIoDevice *device, bool is_default) {
        if (device->current_format != SoundIoFormatInvalid)
            fprintf(stderr, "  current format: %s\n", soundio_format_string(device->current_format));
-        fprintf(stderr, "  min buffer duration: %0.8f sec\n", device->buffer_duration_min);
+        fprintf(stderr, "  min software latency: %0.8f sec\n", device->software_latency_min);
-        fprintf(stderr, "  max buffer duration: %0.8f sec\n", device->buffer_duration_max);
+        fprintf(stderr, "  max software latency: %0.8f sec\n", device->software_latency_max);
-        if (device->buffer_duration_current != 0.0)
+        if (device->software_latency_current != 0.0)
-            fprintf(stderr, "  current buffer duration: %0.8f sec\n", device->buffer_duration_current);
+            fprintf(stderr, "  current software latency: %0.8f sec\n", device->software_latency_current);
        fprintf(stderr, "  min period duration: %0.8f sec\n", device->period_duration_min);
        fprintf(stderr, "  max period duration: %0.8f sec\n", device->period_duration_max);
        if (device->period_duration_current != 0.0)
            fprintf(stderr, "  current period duration: %0.8f sec\n", device->period_duration_current);
    }
    fprintf(stderr, "\n");
 }
--- a/example/sio_microphone.c
+++ b/example/sio_microphone.c
@ -310,7 +310,7 @@ int main(int argc, char **argv) {
    instream->format = *fmt;
    instream->sample_rate = *sample_rate;
    instream->layout = *layout;
-    instream->period_duration = microphone_latency / 4.0;
+    instream->software_latency = microphone_latency;
    instream->read_callback = read_callback;
    if ((err = soundio_instream_open(instream)))
@ -322,7 +322,7 @@ int main(int argc, char **argv) {
    outstream->format = *fmt;
    outstream->sample_rate = *sample_rate;
    outstream->layout = *layout;
-    outstream->buffer_duration = microphone_latency;
+    outstream->software_latency = microphone_latency;
    outstream->write_callback = write_callback;
    outstream->underflow_callback = underflow_callback;
--- a/soundio/soundio.h
+++ b/soundio/soundio.h
@ -352,27 +352,13 @@ struct SoundIoDevice {
    int sample_rate_count;
    int sample_rate_current;
-    // Buffer duration in seconds. If `buffer_duration_current` is unknown or
+    // Software latency in seconds. If any of these values are unknown or
-    // irrelevant, it is set to 0.0.
+    // irrelevant, they are set to 0.0.
-    // PulseAudio allows any value and so reasonable min/max of 0.10 and 4.0
+    // For PulseAudio and WASAPI these values are unknown until you open a
-    // are used. You may check that the current backend is PulseAudio and
+    // stream.
-    // ignore these min/max values.
+    double software_latency_min;
-    // For JACK and CoreAudio, buffer duration and period duration are the same.
+    double software_latency_max;
-    // For WASAPI, buffer duration is unknown.
+    double software_latency_current;
    double buffer_duration_min;
    double buffer_duration_max;
    double buffer_duration_current;
    // Period duration in seconds. After this much time passes, write_callback
    // is called. If values are unknown, they are set to 0.0.
    // For PulseAudio and CoreAudio, these values are meaningless.
    // For JACK, buffer duration and period duration are the same.
    // For WASAPI, `period_duration_max` is unknown for raw devices, so a
    // reasonable max of 4.0 is used. You may check that the current backend is
    // WASAPI and ignore the max value for raw devices.
    double period_duration_min;
    double period_duration_max;
    double period_duration_current;
    // Raw means that you are directly opening the hardware device and not
    // going through a proxy such as dmix, PulseAudio, or JACK. When you open a
@ -408,27 +394,23 @@ struct SoundIoOutStream {
    // Defaults to Stereo, if available, followed by the first layout supported.
    struct SoundIoChannelLayout layout;
-    // Buffer duration in seconds.
+    // Ignoring hardware latency, this is the number of seconds it takes for
-    // After you call `soundio_outstream_open` this value is replaced with the
+    // the last sample in a full buffer to be played.
-    // actual duration, as near to this value as possible.
+    // After you call `soundio_outstream_open`, this value is replaced with the
-    // Defaults to a big buffer, potentially upwards of 1 second. If you want
+    // actual software latency, as near to this value as possible.
-    // lower latency, set this value to the latency you want.
+    // On systems that support clearing the buffer, this defaults to a large
-    // If the device has unknown buffer duration min and max values, you may
+    // latency, potentially upwards of 2 seconds, with the understanding that
-    // still set this, but you might not get the value you requested. If you
+    // you will call `soundio_outstream_clear_buffer` when you want to reduce
-    // set this and the backend is PulseAudio, it sets
+    // the latency to 0. On systems that do not support clearing the buffer,
    // this defaults to a reasonable lower latency value.
    // If the device has unknown software latency min and max values, you may
    // still set this, but you might not get the value you requested.
    // For PulseAudio, if you set this value to non-default, it sets
    // `PA_STREAM_ADJUST_LATENCY` and is the value used for `maxlength` and
    // `tlength`.
-    double buffer_duration;
+    // For JACK, this value is always equal to `software_latency_current` of
-
+    // the device.
-    // `period_duration` is the latency; how much time it takes
+    double software_latency;
    // for a sample put in the buffer to get played.
    // After you call `soundio_outstream_open` this value is replaced with the
    // actual period duration, as near to this value as possible.
    // Defaults to `buffer_duration / 2` (and then clamped into range).
    // If the device has unknown period duration min and max values, you may
    // still set this. This value is meaningless for PulseAudio, JACK, and
    // CoreAudio.
    double period_duration;
    // Defaults to NULL. Put whatever you want here.
    void *userdata;
@ -493,25 +475,19 @@ struct SoundIoInStream {
    // Defaults to Stereo, if available, followed by the first layout supported.
    struct SoundIoChannelLayout layout;
-    // Buffer duration in seconds.
+    // Ignoring hardware latency, this is the number of seconds it takes for a
-    // After you call `soundio_instream_open` this value is replaced with the
+    // captured sample to become available for reading.
-    // actual duration, as near to this value as possible.
+    // After you call `soundio_instream_open`, this value is replaced with the
-    // If the captured audio frames exceeds this before they are read, a buffer
+    // actual software latency, as near to this value as possible.
-    // overrun occurs and the frames are lost.
+    // A higher value means less CPU usage. Defaults to a large value,
-    // Defaults to 1 second (and then clamped into range). For PulseAudio,
+    // potentially upwards of 2 seconds.
-    // defaults to PulseAudio's default value, usually large. If you set this
+    // If the device has unknown software latency min and max values, you may
-    // and the backend is PulseAudio, it sets `PA_STREAM_ADJUST_LATENCY` and
+    // still set this, but you might not get the value you requested.
-    // is the value used for `maxlength`.
+    // For PulseAudio, if you set this value to non-default, it sets
    double buffer_duration;
    // The latency of the captured audio.
    // After you call `soundio_instream_open` this value is replaced with the
    // actual duration, as near to this value as possible.
    // After this many seconds pass, `read_callback` is called.
    // Defaults to `buffer_duration / 8`.
    // If you set this and the backend is PulseAudio, it sets
    // `PA_STREAM_ADJUST_LATENCY` and is the value used for `fragsize`.
-    double period_duration;
+    // For JACK, this value is always equal to `software_latency_current` of
    // the device.
    double software_latency;
    // Defaults to NULL. Put whatever you want here.
    void *userdata;
@ -736,8 +712,8 @@ struct SoundIoOutStream *soundio_outstream_create(struct SoundIoDevice *device);
 // You may not call this function from the `write_callback` thread context.
 void soundio_outstream_destroy(struct SoundIoOutStream *outstream);
-// After you call this function, `buffer_duration` and `period_duration` are
+// After you call this function, `software_latency` is set to the correct
-// set to the correct values, if available.
+// value.
 // The next thing to do is call `soundio_instream_start`.
 int soundio_outstream_open(struct SoundIoOutStream *outstream);
@ -790,8 +766,8 @@ struct SoundIoInStream *soundio_instream_create(struct SoundIoDevice *device);
 // You may not call this function from `read_callback`.
 void soundio_instream_destroy(struct SoundIoInStream *instream);
-// After you call this function, `buffer_duration` and `period_duration` are
+// After you call this function, `software_latency` is set to the correct
-// set to the correct values, if available.
+// value.
 // The next thing to do is call `soundio_instream_start`.
 int soundio_instream_open(struct SoundIoInStream *instream);
--- a/src/alsa.cpp
+++ b/src/alsa.cpp
@ -299,29 +299,14 @@ static int probe_open_device(SoundIoDevice *device, snd_pcm_t *handle, int resam
    snd_pcm_uframes_t min_frames;
    snd_pcm_uframes_t max_frames;
    if ((err = snd_pcm_hw_params_set_period_size_integer(handle, hwparams)) < 0)
        return SoundIoErrorIncompatibleDevice;
    if ((err = snd_pcm_hw_params_get_period_size_min(hwparams, &min_frames, nullptr)) < 0)
        return SoundIoErrorIncompatibleDevice;
    if ((err = snd_pcm_hw_params_get_period_size_max(hwparams, &max_frames, nullptr)) < 0)
        return SoundIoErrorIncompatibleDevice;
    device->period_duration_min = min_frames * one_over_actual_rate;
    device->period_duration_max = max_frames * one_over_actual_rate;
    if ((err = snd_pcm_hw_params_set_period_size_first(handle, hwparams, &min_frames, nullptr)) < 0)
        return SoundIoErrorIncompatibleDevice;
    if ((err = snd_pcm_hw_params_get_buffer_size_min(hwparams, &min_frames)) < 0)
        return SoundIoErrorOpeningDevice;
    if ((err = snd_pcm_hw_params_get_buffer_size_max(hwparams, &max_frames)) < 0)
        return SoundIoErrorOpeningDevice;
-    device->buffer_duration_min = min_frames * one_over_actual_rate;
+    device->software_latency_min = min_frames * one_over_actual_rate;
-    device->buffer_duration_max = max_frames * one_over_actual_rate;
+    device->software_latency_max = max_frames * one_over_actual_rate;
    if ((err = snd_pcm_hw_params_set_buffer_size_first(handle, hwparams, &min_frames)) < 0)
        return SoundIoErrorOpeningDevice;
@ -443,11 +428,8 @@ static int probe_device(SoundIoDevice *device, snd_pcm_chmap_query_t **maps) {
        if (device->sample_rates[0].min == device->sample_rates[0].max)
            device->sample_rate_current = device->sample_rates[0].min;
-        if (device->buffer_duration_min == device->buffer_duration_max)
+        if (device->software_latency_min == device->software_latency_max)
-            device->buffer_duration_current = device->buffer_duration_min;
+            device->software_latency_current = device->software_latency_min;
        if (device->period_duration_min == device->period_duration_max)
            device->period_duration_current = device->period_duration_min;
        // now say that resampling is OK and see what the real min and max is.
        if ((err = probe_open_device(device, handle, 1, &channels_min, &channels_max)) < 0) {
@ -1111,12 +1093,8 @@ static int outstream_open_alsa(SoundIoPrivate *si, SoundIoOutStreamPrivate *os)
    SoundIoOutStream *outstream = &os->pub;
    SoundIoDevice *device = outstream->device;
-    if (outstream->buffer_duration == 0.0)
+    if (outstream->software_latency == 0.0)
-        outstream->buffer_duration = clamp(device->buffer_duration_min, 1.0, device->buffer_duration_max);
+        outstream->software_latency = clamp(device->software_latency_min, 1.0, device->software_latency_max);
    if (outstream->period_duration == 0.0) {
        outstream->period_duration = clamp(device->period_duration_min,
                outstream->buffer_duration / 2.0, device->period_duration_max);
    }
    int ch_count = outstream->layout.channel_count;
@ -1177,21 +1155,31 @@ static int outstream_open_alsa(SoundIoPrivate *si, SoundIoOutStreamPrivate *os)
        return SoundIoErrorOpeningDevice;
    }
-    snd_pcm_uframes_t period_frames = ceil(outstream->period_duration * (double)outstream->sample_rate);
+
-    if ((err = snd_pcm_hw_params_set_period_size_near(osa->handle, hwparams, &period_frames, nullptr)) < 0) {
+    if (device->is_raw) {
-        outstream_destroy_alsa(si, os);
+        unsigned int microseconds;
-        return SoundIoErrorOpeningDevice;
+        if ((err = snd_pcm_hw_params_set_period_time_first(osa->handle, hwparams, &microseconds, nullptr)) < 0) {
            outstream_destroy_alsa(si, os);
            return SoundIoErrorOpeningDevice;
        }
    } else {
        double period_duration = outstream->software_latency / 2.0;
        snd_pcm_uframes_t period_frames = ceil(period_duration * (double)outstream->sample_rate);
        if ((err = snd_pcm_hw_params_set_period_size_near(osa->handle, hwparams, &period_frames, nullptr)) < 0) {
            outstream_destroy_alsa(si, os);
            return SoundIoErrorOpeningDevice;
        }
    }
    outstream->period_duration = ((double)period_frames) / (double)outstream->sample_rate;
-    snd_pcm_uframes_t buffer_size_frames = ceil(outstream->buffer_duration * (double)outstream->sample_rate);
+    snd_pcm_uframes_t buffer_size_frames = ceil(outstream->software_latency * (double)outstream->sample_rate);
    if ((err = snd_pcm_hw_params_set_buffer_size_near(osa->handle, hwparams, &buffer_size_frames)) < 0) {
        outstream_destroy_alsa(si, os);
        return SoundIoErrorOpeningDevice;
    }
-    outstream->buffer_duration = ((double)buffer_size_frames) / (double)outstream->sample_rate;
+    outstream->software_latency = ((double)buffer_size_frames) / (double)outstream->sample_rate;
@ -1400,12 +1388,8 @@ static int instream_open_alsa(SoundIoPrivate *si, SoundIoInStreamPrivate *is) {
    SoundIoInStream *instream = &is->pub;
    SoundIoDevice *device = instream->device;
-    if (instream->buffer_duration == 0.0)
+    if (instream->software_latency == 0.0)
-        instream->buffer_duration = clamp(device->buffer_duration_min, 1.0, device->buffer_duration_max);
+        instream->software_latency = clamp(device->software_latency_min, 1.0, device->software_latency_max);
    if (instream->period_duration == 0.0) {
        instream->period_duration = clamp(device->period_duration_min,
                instream->buffer_duration / 8.0, device->period_duration_max);
    }
    int ch_count = instream->layout.channel_count;
@ -1466,21 +1450,19 @@ static int instream_open_alsa(SoundIoPrivate *si, SoundIoInStreamPrivate *is) {
        return SoundIoErrorOpeningDevice;
    }
-    snd_pcm_uframes_t period_frames = ceil(instream->period_duration * (double)instream->sample_rate);
+    snd_pcm_uframes_t period_frames = ceil(instream->software_latency * (double)instream->sample_rate);
    if ((err = snd_pcm_hw_params_set_period_size_near(isa->handle, hwparams, &period_frames, nullptr)) < 0) {
        instream_destroy_alsa(si, is);
        return SoundIoErrorOpeningDevice;
    }
-    instream->period_duration = ((double)period_frames) / (double)instream->sample_rate;
+    instream->software_latency = ((double)period_frames) / (double)instream->sample_rate;
-    snd_pcm_uframes_t buffer_size_frames = ceil(instream->buffer_duration * (double)instream->sample_rate);
+    snd_pcm_uframes_t buffer_size_frames;
-
+    if ((err = snd_pcm_hw_params_set_buffer_size_last(isa->handle, hwparams, &buffer_size_frames)) < 0) {
    if ((err = snd_pcm_hw_params_set_buffer_size_near(isa->handle, hwparams, &buffer_size_frames)) < 0) {
        instream_destroy_alsa(si, is);
        return SoundIoErrorOpeningDevice;
    }
    instream->buffer_duration = ((double)buffer_size_frames) / (double)instream->sample_rate;
    snd_pcm_uframes_t period_size;
    if ((snd_pcm_hw_params_get_period_size(hwparams, &period_size, nullptr)) < 0) {
--- a/src/coreaudio.cpp
+++ b/src/coreaudio.cpp
@ -714,7 +714,7 @@ static int refresh_devices(struct SoundIoPrivate *si) {
                return SoundIoErrorOpeningDevice;
            }
            double use_sample_rate = rd.device->sample_rate_current;
-            rd.device->buffer_duration_current = buffer_frame_size / use_sample_rate;
+            rd.device->software_latency_current = buffer_frame_size / use_sample_rate;
            prop_address.mSelector = kAudioDevicePropertyBufferFrameSizeRange;
            prop_address.mScope = aim_to_scope(aim);
@ -727,13 +727,8 @@ static int refresh_devices(struct SoundIoPrivate *si) {
                deinit_refresh_devices(&rd);
                return SoundIoErrorOpeningDevice;
            }
-            rd.device->buffer_duration_min = avr.mMinimum / use_sample_rate;
+            rd.device->software_latency_min = avr.mMinimum / use_sample_rate;
-            rd.device->buffer_duration_max = avr.mMaximum / use_sample_rate;
+            rd.device->software_latency_max = avr.mMaximum / use_sample_rate;
            rd.device->period_duration_min = rd.device->buffer_duration_min;
            rd.device->period_duration_max = rd.device->buffer_duration_max;
            rd.device->period_duration_current = rd.device->buffer_duration_current;
            SoundIoList<SoundIoDevice *> *device_list;
@ -909,15 +904,13 @@ static int outstream_open_ca(struct SoundIoPrivate *si, struct SoundIoOutStreamP
    SoundIoDevicePrivate *dev = (SoundIoDevicePrivate *)device;
    SoundIoDeviceCoreAudio *dca = &dev->backend_data.coreaudio;
-    if (outstream->buffer_duration == 0.0)
+    if (outstream->software_latency == 0.0)
-        outstream->buffer_duration = device->buffer_duration_current;
+        outstream->software_latency = device->software_latency_current;
-    outstream->buffer_duration = clamp(
+    outstream->software_latency = clamp(
-            device->buffer_duration_min,
+            device->software_latency_min,
-            outstream->buffer_duration,
+            outstream->software_latency,
-            device->buffer_duration_max);
+            device->software_latency_max);
    outstream->period_duration = outstream->outstream->buffer_duration;
    AudioComponentDescription desc = {0};
    desc.componentType = kAudioUnitType_Output;
@ -978,7 +971,7 @@ static int outstream_open_ca(struct SoundIoPrivate *si, struct SoundIoOutStreamP
        kAudioObjectPropertyScopeInput,
        OUTPUT_ELEMENT
    };
-    UInt32 buffer_frame_size = outstream->buffer_duration * outstream->sample_rate;
+    UInt32 buffer_frame_size = outstream->software_latency * outstream->sample_rate;
    if ((os_err = AudioObjectSetPropertyData(dca->device_id, &prop_address,
        0, nullptr, sizeof(UInt32), &buffer_frame_size)))
    {
@ -1142,13 +1135,13 @@ static int instream_open_ca(struct SoundIoPrivate *si, struct SoundIoInStreamPri
    UInt32 io_size;
    OSStatus os_err;
-    if (instream->buffer_duration == 0.0)
+    if (instream->software_latency == 0.0)
-        instream->buffer_duration = device->buffer_duration_current;
+        instream->software_latency = device->software_latency_current;
-    instream->buffer_duration = clamp(
+    instream->software_latency = clamp(
-            device->buffer_duration_min,
+            device->software_latency_min,
-            instream->buffer_duration,
+            instream->software_latency,
-            device->buffer_duration_max);
+            device->software_latency_max);
    AudioObjectPropertyAddress prop_address;
@ -1251,7 +1244,7 @@ static int instream_open_ca(struct SoundIoPrivate *si, struct SoundIoInStreamPri
    prop_address.mSelector = kAudioDevicePropertyBufferFrameSize;
    prop_address.mScope = kAudioObjectPropertyScopeOutput;
    prop_address.mElement = INPUT_ELEMENT;
-    UInt32 buffer_frame_size = instream->buffer_duration * instream->sample_rate;
+    UInt32 buffer_frame_size = instream->software_latency * instream->sample_rate;
    if ((os_err = AudioObjectSetPropertyData(dca->device_id, &prop_address,
        0, nullptr, sizeof(UInt32), &buffer_frame_size)))
    {
--- a/src/dummy.cpp
+++ b/src/dummy.cpp
@ -29,7 +29,7 @@ static void playback_thread_run(void *arg) {
        double now = soundio_os_get_time();
        double time_passed = now - start_time;
        double next_period = start_time +
-            ceil(time_passed / outstream->period_duration) * outstream->period_duration;
+            ceil(time_passed / osd->period_duration) * osd->period_duration;
        double relative_time = next_period - now;
        soundio_os_cond_timed_wait(osd->cond, nullptr, relative_time);
@ -70,7 +70,7 @@ static void capture_thread_run(void *arg) {
        double now = soundio_os_get_time();
        double time_passed = now - start_time;
        double next_period = start_time +
-            ceil(time_passed / instream->period_duration) * instream->period_duration;
+            ceil(time_passed / isd->period_duration) * isd->period_duration;
        double relative_time = next_period - now;
        soundio_os_cond_timed_wait(isd->cond, nullptr, relative_time);
@ -149,22 +149,20 @@ static int outstream_open_dummy(SoundIoPrivate *si, SoundIoOutStreamPrivate *os)
    SoundIoOutStream *outstream = &os->pub;
    SoundIoDevice *device = outstream->device;
-    if (outstream->buffer_duration == 0.0)
+    if (outstream->software_latency == 0.0)
-        outstream->buffer_duration = clamp(device->buffer_duration_min, 1.0, device->buffer_duration_max);
+        outstream->software_latency = clamp(device->software_latency_min, 1.0, device->software_latency_max);
-    if (outstream->period_duration == 0.0) {
+
-        outstream->period_duration = clamp(device->period_duration_min,
+    osd->period_duration = outstream->software_latency / 2.0;
                outstream->buffer_duration / 2.0, device->period_duration_max);
    }
    int err;
-    int buffer_size = outstream->bytes_per_frame * outstream->sample_rate * outstream->buffer_duration;
+    int buffer_size = outstream->bytes_per_frame * outstream->sample_rate * outstream->software_latency;
    if ((err = soundio_ring_buffer_init(&osd->ring_buffer, buffer_size))) {
        outstream_destroy_dummy(si, os);
        return err;
    }
    int actual_capacity = soundio_ring_buffer_capacity(&osd->ring_buffer);
    osd->buffer_frame_count = actual_capacity / outstream->bytes_per_frame;
-    outstream->buffer_duration = osd->buffer_frame_count / (double) outstream->sample_rate;
+    outstream->software_latency = osd->buffer_frame_count / (double) outstream->sample_rate;
    osd->cond = soundio_os_cond_create();
    if (!osd->cond) {
@ -254,15 +252,16 @@ static int instream_open_dummy(SoundIoPrivate *si, SoundIoInStreamPrivate *is) {
    SoundIoInStream *instream = &is->pub;
    SoundIoDevice *device = instream->device;
-    if (instream->buffer_duration == 0.0)
+
-        instream->buffer_duration = clamp(device->buffer_duration_min, 1.0, device->buffer_duration_max);
+    if (instream->software_latency == 0.0)
-    if (instream->period_duration == 0.0) {
+        instream->software_latency = clamp(device->software_latency_min, 1.0, device->software_latency_max);
-        instream->period_duration = clamp(instream->device->period_duration_min,
+
-                instream->buffer_duration / 8.0, instream->device->period_duration_max);
+    isd->period_duration = instream->software_latency;
-    }
+
    double target_buffer_duration = isd->period_duration * 4.0;
    int err;
-    int buffer_size = instream->bytes_per_frame * instream->sample_rate * instream->buffer_duration;
+    int buffer_size = instream->bytes_per_frame * instream->sample_rate * target_buffer_duration;
    if ((err = soundio_ring_buffer_init(&isd->ring_buffer, buffer_size))) {
        instream_destroy_dummy(si, is);
        return err;
@ -270,7 +269,6 @@ static int instream_open_dummy(SoundIoPrivate *si, SoundIoInStreamPrivate *is) {
    int actual_capacity = soundio_ring_buffer_capacity(&isd->ring_buffer);
    isd->buffer_frame_count = actual_capacity / instream->bytes_per_frame;
    instream->buffer_duration = isd->buffer_frame_count / (double) instream->sample_rate;
    isd->cond = soundio_os_cond_create();
    if (!isd->cond) {
@ -439,13 +437,11 @@ int soundio_dummy_init(SoundIoPrivate *si) {
        }
        set_all_device_sample_rates(device);
-        device->buffer_duration_min = 0.01;
+        device->software_latency_current = 0.1;
-        device->buffer_duration_max = 4;
+        device->software_latency_min = 0.01;
-        device->buffer_duration_current = 0.1;
+        device->software_latency_max = 4.0;
        device->sample_rate_current = 48000;
        device->period_duration_min = 0.01;
        device->period_duration_max = 2;
        device->period_duration_current = 0.05;
        device->aim = SoundIoDeviceAimOutput;
        if (si->safe_devices_info->output_devices.append(device)) {
@ -487,13 +483,10 @@ int soundio_dummy_init(SoundIoPrivate *si) {
            return err;
        }
        set_all_device_sample_rates(device);
-        device->buffer_duration_min = 0.01;
+        device->software_latency_current = 0.1;
-        device->buffer_duration_max = 4;
+        device->software_latency_min = 0.01;
-        device->buffer_duration_current = 0.1;
+        device->software_latency_max = 4.0;
        device->sample_rate_current = 48000;
        device->period_duration_min = 0.01;
        device->period_duration_max = 2;
        device->period_duration_current = 0.05;
        device->aim = SoundIoDeviceAimInput;
        if (si->safe_devices_info->input_devices.append(device)) {
--- a/src/dummy.hpp
+++ b/src/dummy.hpp
@ -21,14 +21,13 @@ struct SoundIoDummy {
    bool devices_emitted;
 };
-struct SoundIoDeviceDummy {
+struct SoundIoDeviceDummy { };
 };
 struct SoundIoOutStreamDummy {
    struct SoundIoOsThread *thread;
    struct SoundIoOsCond *cond;
    atomic_flag abort_flag;
    double period_duration;
    int buffer_frame_count;
    int frames_left;
    int write_frame_count;
@ -41,6 +40,7 @@ struct SoundIoInStreamDummy {
    struct SoundIoOsThread *thread;
    struct SoundIoOsCond *cond;
    atomic_flag abort_flag;
    double period_duration;
    int frames_left;
    int read_frame_count;
    int buffer_frame_count;
--- a/src/jack.cpp
+++ b/src/jack.cpp
@ -193,12 +193,11 @@ static int refresh_devices_bare(SoundIoPrivate *si) {
        device->sample_rates[0].min = sij->sample_rate;
        device->sample_rates[0].max = sij->sample_rate;
        device->sample_rate_current = sij->sample_rate;
-        device->period_duration_min = sij->period_size / (double) sij->sample_rate;
+
-        device->period_duration_max = device->period_duration_min;
+        device->software_latency_current = sij->period_size / (double) sij->sample_rate;
-        device->period_duration_current = device->period_duration_min;
+        device->software_latency_min = sij->period_size / (double) sij->sample_rate;
-        device->buffer_duration_min = device->period_duration_min;
+        device->software_latency_max = sij->period_size / (double) sij->sample_rate;
-        device->buffer_duration_max = device->period_duration_min;
+
        device->buffer_duration_current = device->period_duration_min;
        dj->port_count = client->port_count;
        dj->ports = allocate<SoundIoDeviceJackPort>(dj->port_count);
@ -416,8 +415,7 @@ static int outstream_open_jack(struct SoundIoPrivate *si, struct SoundIoOutStrea
    if (sij->is_shutdown)
        return SoundIoErrorBackendDisconnected;
-    outstream->buffer_duration = device->period_duration_current;
+    outstream->software_latency = device->software_latency_current;
    outstream->period_duration = device->period_duration_current;
    osj->period_size = sij->period_size;
    jack_status_t status;
@ -619,8 +617,7 @@ static int instream_open_jack(struct SoundIoPrivate *si, struct SoundIoInStreamP
    if (sij->is_shutdown)
        return SoundIoErrorBackendDisconnected;
-    instream->buffer_duration = device->period_duration_current;
+    instream->software_latency = device->software_latency_current;
    instream->period_duration = device->period_duration_current;
    isj->period_size = sij->period_size;
    jack_status_t status;
--- a/src/pulseaudio.cpp
+++ b/src/pulseaudio.cpp
@ -318,10 +318,6 @@ static void sink_info_callback(pa_context *pulse_context, const pa_sink_info *in
            return;
        }
        device->buffer_duration_min = 0.10;
        device->buffer_duration_max = 4.0;
        // "period" is not a recognized concept in PulseAudio.
        device->aim = SoundIoDeviceAimOutput;
@ -390,11 +386,6 @@ static void source_info_callback(pa_context *pulse_context, const pa_source_info
            return;
        }
        device->buffer_duration_min = 0.10;
        device->buffer_duration_max = 4.0;
        // "period" is not a recognized concept in PulseAudio.
        device->aim = SoundIoDeviceAimInput;
        if (sipa->current_devices_info->input_devices.append(device)) {
@ -710,16 +701,16 @@ static int outstream_open_pa(SoundIoPrivate *si, SoundIoOutStreamPrivate *os) {
    ospa->buffer_attr.fragsize = UINT32_MAX;
    int bytes_per_second = outstream->bytes_per_frame * outstream->sample_rate;
-    if (outstream->buffer_duration > 0.0) {
+    if (outstream->software_latency > 0.0) {
        int buffer_length = outstream->bytes_per_frame *
-            ceil(outstream->buffer_duration * bytes_per_second / (double)outstream->bytes_per_frame);
+            ceil(outstream->software_latency * bytes_per_second / (double)outstream->bytes_per_frame);
        ospa->buffer_attr.maxlength = buffer_length;
        ospa->buffer_attr.tlength = buffer_length;
    }
    pa_stream_flags_t flags = PA_STREAM_START_CORKED;
-    if (outstream->buffer_duration > 0.0)
+    if (outstream->software_latency > 0.0)
        flags = (pa_stream_flags_t) (flags | PA_STREAM_ADJUST_LATENCY);
    int err = pa_stream_connect_playback(ospa->stream,
@ -734,7 +725,9 @@ static int outstream_open_pa(SoundIoPrivate *si, SoundIoOutStreamPrivate *os) {
        pa_threaded_mainloop_wait(sipa->main_loop);
    size_t writable_size = pa_stream_writable_size(ospa->stream);
-    outstream->buffer_duration = writable_size / bytes_per_second;
+    outstream->software_latency = writable_size / bytes_per_second;
    // TODO get the correct software_latency value
    pa_threaded_mainloop_unlock(sipa->main_loop);
@ -922,16 +915,10 @@ static int instream_open_pa(SoundIoPrivate *si, SoundIoInStreamPrivate *is) {
    ispa->buffer_attr.minreq = UINT32_MAX;
    ispa->buffer_attr.fragsize = UINT32_MAX;
-    int bytes_per_second = instream->bytes_per_frame * instream->sample_rate;
+    if (instream->software_latency > 0.0) {
-    if (instream->buffer_duration > 0.0) {
+        int bytes_per_second = instream->bytes_per_frame * instream->sample_rate;
        int buffer_length = instream->bytes_per_frame *
-            ceil(instream->buffer_duration * bytes_per_second / (double)instream->bytes_per_frame);
+            ceil(instream->software_latency * bytes_per_second / (double)instream->bytes_per_frame);
        ispa->buffer_attr.maxlength = buffer_length;
    }
    if (instream->period_duration > 0.0) {
        int buffer_length = instream->bytes_per_frame *
            ceil(instream->period_duration * bytes_per_second / (double)instream->bytes_per_frame);
        ispa->buffer_attr.fragsize = buffer_length;
    }
@ -946,7 +933,7 @@ static int instream_start_pa(SoundIoPrivate *si, SoundIoInStreamPrivate *is) {
    SoundIoPulseAudio *sipa = &si->backend_data.pulseaudio;
    pa_threaded_mainloop_lock(sipa->main_loop);
-    pa_stream_flags_t flags = (instream->period_duration > 0.0) ? PA_STREAM_ADJUST_LATENCY : PA_STREAM_NOFLAGS;
+    pa_stream_flags_t flags = (instream->software_latency > 0.0) ? PA_STREAM_ADJUST_LATENCY : PA_STREAM_NOFLAGS;
    int err = pa_stream_connect_record(ispa->stream,
            instream->device->id,
@ -959,12 +946,6 @@ static int instream_start_pa(SoundIoPrivate *si, SoundIoInStreamPrivate *is) {
    while (!ispa->stream_ready)
        pa_threaded_mainloop_wait(sipa->main_loop);
    const pa_buffer_attr *attr = pa_stream_get_buffer_attr(ispa->stream);
    instream->buffer_duration = (attr->maxlength /
        (double)instream->bytes_per_frame) / (double)instream->sample_rate;
    instream->period_duration = (attr->fragsize /
        (double)instream->bytes_per_frame) / (double)instream->sample_rate;
    pa_threaded_mainloop_unlock(sipa->main_loop);
    return 0;
 }
--- a/src/wasapi.cpp
+++ b/src/wasapi.cpp
@ -18,6 +18,8 @@ const static GUID SOUNDIO_KSDATAFORMAT_SUBTYPE_IEEE_FLOAT = {
 const static GUID SOUNDIO_KSDATAFORMAT_SUBTYPE_PCM = {
    0x00000001,0x0000,0x0010, {0x80, 0x00, 0x00, 0xaa, 0x00, 0x38, 0x9b, 0x71}};
 const static DWORD SOUNDIO_AUDCLNT_STREAMFLAGS_AUTOCONVERTPCM = 0x80000000;
 // Adding more common sample rates helps the heuristics; feel free to do that.
 static int test_sample_rates[] = {
    8000,
@ -271,6 +273,11 @@ static void to_wave_format_format(SoundIoFormat format, WAVEFORMATEXTENSIBLE *wa
    }
 }
 static void complete_wave_format_data(WAVEFORMATEXTENSIBLE *wave_format) {
    wave_format->Format.nBlockAlign = (wave_format->Format.wBitsPerSample * wave_format->Format.nChannels) / 8;
    wave_format->Format.nAvgBytesPerSec = wave_format->Format.nSamplesPerSec * wave_format->Format.nBlockAlign;
 }
 static SoundIoDeviceAim data_flow_to_aim(EDataFlow data_flow) {
    return (data_flow == eRender) ? SoundIoDeviceAimOutput : SoundIoDeviceAimInput;
 }
@ -280,10 +287,14 @@ static double from_reference_time(REFERENCE_TIME rt) {
    return ((double)rt) / 10000000.0;
 }
 static REFERENCE_TIME to_reference_time(double seconds) {
    return seconds * 10000000.0 + 0.5;
 }
 static void destruct_device(SoundIoDevicePrivate *dev) {
    SoundIoDeviceWasapi *dw = &dev->backend_data.wasapi;
-    if (dw->audio_client)
+    if (dw->mm_device)
-        IUnknown_Release(dw->audio_client);
+        IMMDevice_Release(dw->mm_device);
    dw->sample_rates.deinit();
 }
@ -294,6 +305,7 @@ struct RefreshDevices {
    IMMDevice *default_capture_device;
    IMMEndpoint *endpoint;
    IPropertyStore *prop_store;
    IAudioClient *audio_client;
    LPWSTR lpwstr;
    PROPVARIANT prop_variant_value;
    WAVEFORMATEXTENSIBLE *wave_format;
@ -329,6 +341,8 @@ static void deinit_refresh_devices(RefreshDevices *rd) {
        PropVariantClear(&rd->prop_variant_value);
    if (rd->wave_format)
        CoTaskMemFree(rd->wave_format);
    if (rd->audio_client)
        IUnknown_Release(rd->audio_client);
 }
 static int detect_valid_layouts(RefreshDevices *rd, WAVEFORMATEXTENSIBLE *wave_format,
@ -350,8 +364,9 @@ static int detect_valid_layouts(RefreshDevices *rd, WAVEFORMATEXTENSIBLE *wave_f
        SoundIoChannelLayoutId test_layout_id = test_layouts[i];
        const SoundIoChannelLayout *test_layout = soundio_channel_layout_get_builtin(test_layout_id);
        to_wave_format_layout(test_layout, wave_format);
        complete_wave_format_data(wave_format);
-        HRESULT hr = IAudioClient_IsFormatSupported(dw->audio_client, share_mode,
+        HRESULT hr = IAudioClient_IsFormatSupported(rd->audio_client, share_mode,
                (WAVEFORMATEX*)wave_format, &closest_match);
        if (closest_match) {
            CoTaskMemFree(closest_match);
@ -389,8 +404,9 @@ static int detect_valid_formats(RefreshDevices *rd, WAVEFORMATEXTENSIBLE *wave_f
    for (int i = 0; i < array_length(test_formats); i += 1) {
        SoundIoFormat test_format = test_formats[i];
        to_wave_format_format(test_format, wave_format);
        complete_wave_format_data(wave_format);
-        HRESULT hr = IAudioClient_IsFormatSupported(dw->audio_client, share_mode,
+        HRESULT hr = IAudioClient_IsFormatSupported(rd->audio_client, share_mode,
                (WAVEFORMATEX*)wave_format, &closest_match);
        if (closest_match) {
            CoTaskMemFree(closest_match);
@ -421,7 +437,7 @@ static int add_sample_rate(SoundIoList<SoundIoSampleRateRange> *sample_rates, in
    return 0;
 }
-static int do_sample_rate_test(SoundIoDevicePrivate *dev, WAVEFORMATEXTENSIBLE *wave_format,
+static int do_sample_rate_test(RefreshDevices *rd, SoundIoDevicePrivate *dev, WAVEFORMATEXTENSIBLE *wave_format,
        int test_sample_rate, AUDCLNT_SHAREMODE share_mode, int *current_min, int *last_success_rate)
 {
    SoundIoDeviceWasapi *dw = &dev->backend_data.wasapi;
@ -429,7 +445,7 @@ static int do_sample_rate_test(SoundIoDevicePrivate *dev, WAVEFORMATEXTENSIBLE *
    int err;
    wave_format->Format.nSamplesPerSec = test_sample_rate;
-    HRESULT hr = IAudioClient_IsFormatSupported(dw->audio_client, share_mode,
+    HRESULT hr = IAudioClient_IsFormatSupported(rd->audio_client, share_mode,
            (WAVEFORMATEX*)wave_format, &closest_match);
    if (closest_match) {
        CoTaskMemFree(closest_match);
@ -468,7 +484,7 @@ static int detect_valid_sample_rates(RefreshDevices *rd, WAVEFORMATEXTENSIBLE *w
    for (int i = 0; i < array_length(test_sample_rates); i += 1) {
        for (int offset = -1; offset <= 1; offset += 1) {
            int test_sample_rate = test_sample_rates[i] + offset;
-            if ((err = do_sample_rate_test(dev, wave_format, test_sample_rate, share_mode,
+            if ((err = do_sample_rate_test(rd, dev, wave_format, test_sample_rate, share_mode,
                            &current_min, &last_success_rate)))
            {
                wave_format->Format.nSamplesPerSec = orig_sample_rate;
@ -507,8 +523,10 @@ static int refresh_devices(SoundIoPrivate *si) {
        deinit_refresh_devices(&rd);
        return SoundIoErrorOpeningDevice;
    }
-    if (rd.lpwstr)
+    if (rd.lpwstr) {
        CoTaskMemFree(rd.lpwstr);
        rd.lpwstr = nullptr;
    }
    if (FAILED(hr = IMMDevice_GetId(rd.default_render_device, &rd.lpwstr))) {
        deinit_refresh_devices(&rd);
        return SoundIoErrorOpeningDevice;
@ -525,8 +543,10 @@ static int refresh_devices(SoundIoPrivate *si) {
        deinit_refresh_devices(&rd);
        return SoundIoErrorOpeningDevice;
    }
-    if (rd.lpwstr)
+    if (rd.lpwstr) {
        CoTaskMemFree(rd.lpwstr);
        rd.lpwstr = nullptr;
    }
    if (FAILED(hr = IMMDevice_GetId(rd.default_capture_device, &rd.lpwstr))) {
        deinit_refresh_devices(&rd);
        return SoundIoErrorOpeningDevice;
@ -565,14 +585,18 @@ static int refresh_devices(SoundIoPrivate *si) {
    rd.devices_info->default_output_index = -1;
    for (int device_i = 0; device_i < device_count; device_i += 1) {
-        if (rd.mm_device)
+        if (rd.mm_device) {
            IMMDevice_Release(rd.mm_device);
            rd.mm_device = nullptr;
        }
        if (FAILED(hr = IMMDeviceCollection_Item(rd.collection, device_i, &rd.mm_device))) {
            deinit_refresh_devices(&rd);
            return SoundIoErrorOpeningDevice;
        }
-        if (rd.lpwstr)
+        if (rd.lpwstr) {
            CoTaskMemFree(rd.lpwstr);
            rd.lpwstr = nullptr;
        }
        if (FAILED(hr = IMMDevice_GetId(rd.mm_device, &rd.lpwstr))) {
            deinit_refresh_devices(&rd);
            return SoundIoErrorOpeningDevice;
@ -618,37 +642,33 @@ static int refresh_devices(SoundIoPrivate *si) {
            return SoundIoErrorNoMem;
        }
        if (rd.audio_client) {
            IUnknown_Release(rd.audio_client);
            rd.audio_client = nullptr;
        }
        if (FAILED(hr = IMMDevice_Activate(rd.mm_device, IID_IAudioClient,
-                        CLSCTX_ALL, nullptr, (void**)&dev_w_shared->audio_client)))
+                        CLSCTX_ALL, nullptr, (void**)&rd.audio_client)))
        {
            deinit_refresh_devices(&rd);
            return SoundIoErrorOpeningDevice;
        }
        if (FAILED(hr = IAudioClient_AddRef(dev_w_shared->audio_client))) {
            deinit_refresh_devices(&rd);
            return SoundIoErrorOpeningDevice;
        }
        dev_w_raw->audio_client = dev_w_shared->audio_client;
        REFERENCE_TIME default_device_period;
        REFERENCE_TIME min_device_period;
-        if (FAILED(hr = IAudioClient_GetDevicePeriod(dev_w_shared->audio_client,
+        if (FAILED(hr = IAudioClient_GetDevicePeriod(rd.audio_client,
                        &default_device_period, &min_device_period)))
        {
            deinit_refresh_devices(&rd);
            return SoundIoErrorOpeningDevice;
        }
-        rd.device_shared->period_duration_current = from_reference_time(default_device_period);
+        dev_w_shared->period_duration = from_reference_time(default_device_period);
-        rd.device_shared->period_duration_min = rd.device_shared->period_duration_current;
+        dev_w_raw->period_duration = from_reference_time(min_device_period);
        rd.device_shared->period_duration_max = rd.device_shared->period_duration_current;
        rd.device_raw->period_duration_min = from_reference_time(min_device_period);
        rd.device_raw->period_duration_max = 4.0;
-        if (rd.endpoint)
+        if (rd.endpoint) {
            IMMEndpoint_Release(rd.endpoint);
            rd.endpoint = nullptr;
        }
        if (FAILED(hr = IMMDevice_QueryInterface(rd.mm_device, IID_IMMEndpoint, (void**)&rd.endpoint))) {
            deinit_refresh_devices(&rd);
            return SoundIoErrorOpeningDevice;
@ -663,15 +683,19 @@ static int refresh_devices(SoundIoPrivate *si) {
        rd.device_shared->aim = data_flow_to_aim(data_flow);
        rd.device_raw->aim = rd.device_shared->aim;
-        if (rd.prop_store)
+        if (rd.prop_store) {
            IPropertyStore_Release(rd.prop_store);
            rd.prop_store = nullptr;
        }
        if (FAILED(hr = IMMDevice_OpenPropertyStore(rd.mm_device, STGM_READ, &rd.prop_store))) {
            deinit_refresh_devices(&rd);
            return SoundIoErrorOpeningDevice;
        }
-        if (rd.prop_variant_value_inited)
+        if (rd.prop_variant_value_inited) {
            PropVariantClear(&rd.prop_variant_value);
            rd.prop_variant_value_inited = false;
        }
        PropVariantInit(&rd.prop_variant_value);
        rd.prop_variant_value_inited = true;
        if (FAILED(hr = IPropertyStore_GetValue(rd.prop_store,
@ -699,8 +723,10 @@ static int refresh_devices(SoundIoPrivate *si) {
        // Get the format that WASAPI opens the device with for shared streams.
        // This is guaranteed to work, so we use this to modulate the sample
        // rate while holding the format constant and vice versa.
-        if (rd.prop_variant_value_inited)
+        if (rd.prop_variant_value_inited) {
            PropVariantClear(&rd.prop_variant_value);
            rd.prop_variant_value_inited = false;
        }
        PropVariantInit(&rd.prop_variant_value);
        rd.prop_variant_value_inited = true;
        if (FAILED(hr = IPropertyStore_GetValue(rd.prop_store, PKEY_AudioEngine_DeviceFormat,
@ -727,9 +753,11 @@ static int refresh_devices(SoundIoPrivate *si) {
            return err;
        }
-        if (rd.wave_format)
+        if (rd.wave_format) {
            CoTaskMemFree(rd.wave_format);
-        if (FAILED(hr = IAudioClient_GetMixFormat(dev_w_shared->audio_client, (WAVEFORMATEX**)&rd.wave_format))) {
+            rd.wave_format = nullptr;
        }
        if (FAILED(hr = IAudioClient_GetMixFormat(rd.audio_client, (WAVEFORMATEX**)&rd.wave_format))) {
            deinit_refresh_devices(&rd);
            return SoundIoErrorOpeningDevice;
        }
@ -768,6 +796,9 @@ static int refresh_devices(SoundIoPrivate *si) {
            return err;
        }
        dev_w_shared->mm_device = rd.mm_device;
        dev_w_raw->mm_device = rd.mm_device;
        rd.mm_device = nullptr;
        SoundIoList<SoundIoDevice *> *device_list;
        if (rd.device_shared->aim == SoundIoDeviceAimOutput) {
@ -923,19 +954,175 @@ static void wakeup_wasapi(struct SoundIoPrivate *si) {
 }
 static void outstream_destroy_wasapi(struct SoundIoPrivate *si, struct SoundIoOutStreamPrivate *os) {
-    soundio_panic("TODO");
+    SoundIoOutStreamWasapi *osw = &os->backend_data.wasapi;
    if (osw->audio_clock_adjustment)
        IUnknown_Release(osw->audio_clock_adjustment);
    if (osw->audio_client)
        IUnknown_Release(osw->audio_client);
 }
 static int outstream_open_wasapi(struct SoundIoPrivate *si, struct SoundIoOutStreamPrivate *os) {
-    soundio_panic("TODO");
+    SoundIoOutStreamWasapi *osw = &os->backend_data.wasapi;
    SoundIoOutStream *outstream = &os->pub;
    SoundIoDevice *device = outstream->device;
    SoundIoDevicePrivate *dev = (SoundIoDevicePrivate *)device;
    SoundIoDeviceWasapi *dw = &dev->backend_data.wasapi;
    HRESULT hr;
    int err;
    osw->is_raw = device->is_raw;
    if (FAILED(hr = IMMDevice_Activate(dw->mm_device, IID_IAudioClient,
                    CLSCTX_ALL, nullptr, (void**)&osw->audio_client)))
    {
        outstream_destroy_wasapi(si, os);
        return SoundIoErrorOpeningDevice;
    }
    AUDCLNT_SHAREMODE share_mode;
    DWORD flags;
    REFERENCE_TIME buffer_duration;
    REFERENCE_TIME periodicity;
    WAVEFORMATEXTENSIBLE wave_format = {0};
    wave_format.Format.wFormatTag = WAVE_FORMAT_EXTENSIBLE;
    wave_format.Format.cbSize = sizeof(WAVEFORMATEXTENSIBLE) - sizeof(WAVEFORMATEX);
    if (osw->is_raw) {
        wave_format.Format.nSamplesPerSec = outstream->sample_rate;
        flags = AUDCLNT_STREAMFLAGS_EVENTCALLBACK;
        share_mode = AUDCLNT_SHAREMODE_EXCLUSIVE;
        periodicity = to_reference_time(dw->period_duration);
        buffer_duration = periodicity;
    } else {
        WAVEFORMATEXTENSIBLE *mix_format;
        if (FAILED(hr = IAudioClient_GetMixFormat(osw->audio_client, (WAVEFORMATEX **)&mix_format))) {
            outstream_destroy_wasapi(si, os);
            return SoundIoErrorOpeningDevice;
        }
        wave_format.Format.nSamplesPerSec = mix_format->Format.nSamplesPerSec;
        CoTaskMemFree(mix_format);
        mix_format = nullptr;
        osw->need_resample = (wave_format.Format.nSamplesPerSec != (DWORD)outstream->sample_rate);
        // TODO do we need SOUNDIO_AUDCLNT_STREAMFLAGS_AUTOCONVERTPCM ?
        flags = osw->need_resample ? AUDCLNT_STREAMFLAGS_RATEADJUST : 0;
        share_mode = AUDCLNT_SHAREMODE_SHARED;
        periodicity = 0;
        buffer_duration = to_reference_time(4.0);
    }
    to_wave_format_layout(&outstream->layout, &wave_format);
    to_wave_format_format(outstream->format, &wave_format);
    complete_wave_format_data(&wave_format);
    if (FAILED(hr = IAudioClient_Initialize(osw->audio_client, share_mode, flags,
            buffer_duration, periodicity, (WAVEFORMATEX*)&wave_format, nullptr)))
    {
        if (hr == AUDCLNT_E_BUFFER_SIZE_NOT_ALIGNED) {
            if (FAILED(hr = IAudioClient_GetBufferSize(osw->audio_client, &osw->buffer_frame_count))) {
                outstream_destroy_wasapi(si, os);
                return SoundIoErrorOpeningDevice;
            }
            IUnknown_Release(osw->audio_client);
            osw->audio_client = nullptr;
            if (FAILED(hr = IMMDevice_Activate(dw->mm_device, IID_IAudioClient,
                            CLSCTX_ALL, nullptr, (void**)&osw->audio_client)))
            {
                outstream_destroy_wasapi(si, os);
                return SoundIoErrorOpeningDevice;
            }
            if (!osw->is_raw) {
                WAVEFORMATEXTENSIBLE *mix_format;
                if (FAILED(hr = IAudioClient_GetMixFormat(osw->audio_client, (WAVEFORMATEX **)&mix_format))) {
                    outstream_destroy_wasapi(si, os);
                    return SoundIoErrorOpeningDevice;
                }
                wave_format.Format.nSamplesPerSec = mix_format->Format.nSamplesPerSec;
                CoTaskMemFree(mix_format);
                mix_format = nullptr;
                osw->need_resample = (wave_format.Format.nSamplesPerSec != (DWORD)outstream->sample_rate);
                // TODO do we need SOUNDIO_AUDCLNT_STREAMFLAGS_AUTOCONVERTPCM ?
                flags = osw->need_resample ? AUDCLNT_STREAMFLAGS_RATEADJUST : 0;
                to_wave_format_layout(&outstream->layout, &wave_format);
                to_wave_format_format(outstream->format, &wave_format);
                complete_wave_format_data(&wave_format);
            }
            buffer_duration = to_reference_time(osw->buffer_frame_count / outstream->sample_rate);
            if (osw->is_raw)
                periodicity = buffer_duration;
            if (FAILED(hr = IAudioClient_Initialize(osw->audio_client, share_mode, flags,
                    buffer_duration, periodicity, (WAVEFORMATEX*)&wave_format, nullptr)))
            {
                outstream_destroy_wasapi(si, os);
                return SoundIoErrorOpeningDevice;
            }
        } else {
            outstream_destroy_wasapi(si, os);
            return SoundIoErrorOpeningDevice;
        }
    }
    if (FAILED(hr = IAudioClient_GetBufferSize(osw->audio_client, &osw->buffer_frame_count))) {
        outstream_destroy_wasapi(si, os);
        return SoundIoErrorOpeningDevice;
    }
    outstream->software_latency = osw->buffer_frame_count / (double)outstream->sample_rate;
    if (osw->is_raw) {
        soundio_panic("TODO event callback");
    } else if (osw->need_resample) {
        if (FAILED(hr = IAudioClient_GetService(osw->audio_client, IID_IAudioClockAdjustment,
                        (void**)&osw->audio_clock_adjustment)))
        {
            outstream_destroy_wasapi(si, os);
            return SoundIoErrorOpeningDevice;
        }
        if (FAILED(hr = IAudioClockAdjustment_SetSampleRate(osw->audio_clock_adjustment,
                        outstream->sample_rate)))
        {
            outstream_destroy_wasapi(si, os);
            return SoundIoErrorOpeningDevice;
        }
    }
    return 0;
 }
 static int outstream_pause_wasapi(struct SoundIoPrivate *si, struct SoundIoOutStreamPrivate *os, bool pause) {
-    soundio_panic("TODO");
+    SoundIoOutStreamWasapi *osw = &os->backend_data.wasapi;
    HRESULT hr;
    if (FAILED(hr = IAudioClient_Stop(osw->audio_client)))
        return SoundIoErrorStreaming;
    return 0;
 }
 void outstream_shared_run(void *arg) {
    SoundIoOutStreamPrivate *os = (SoundIoOutStreamPrivate *) arg;
    SoundIoOutStreamWasapi *osw = &os->backend_data.wasapi;
    // TODO set up timer to wake up at the appropriate time
    soundio_panic("TODO thread");
    //HRESULT hr;
    //if (FAILED(hr = IAudioClient_Start(osw->audio_client)))
    //    return SoundIoErrorStreaming;
    //return 0;
 }
 static int outstream_start_wasapi(struct SoundIoPrivate *si, struct SoundIoOutStreamPrivate *os) {
-    soundio_panic("TODO");
+    SoundIoOutStreamWasapi *osw = &os->backend_data.wasapi;
    int err;
    if (osw->is_raw) {
        soundio_panic("TODO start raw");
    } else {
        assert(!osw->thread);
        osw->thread_exit_flag.test_and_set();
        if ((err = soundio_os_thread_create(outstream_shared_run, os, true, &osw->thread)))
            return err;
    }
    return 0;
 }
 static int outstream_begin_write_wasapi(struct SoundIoPrivate *si, struct SoundIoOutStreamPrivate *os,
@ -949,7 +1136,11 @@ static int outstream_end_write_wasapi(struct SoundIoPrivate *si, struct SoundIoO
 }
 static int outstream_clear_buffer_wasapi(struct SoundIoPrivate *si, struct SoundIoOutStreamPrivate *os) {
-    soundio_panic("TODO");
+    SoundIoOutStreamWasapi *osw = &os->backend_data.wasapi;
    HRESULT hr;
    if (FAILED(hr = IAudioClient_Reset(osw->audio_client)))
        return SoundIoErrorStreaming;
    return 0;
 }
--- a/src/wasapi.hpp
+++ b/src/wasapi.hpp
@ -22,12 +22,14 @@
 #include <functiondiscoverykeys_devpkey.h>
 #include <mmreg.h>
 #include <audioclient.h>
 #include <audiosessiontypes.h>
 int soundio_wasapi_init(struct SoundIoPrivate *si);
 struct SoundIoDeviceWasapi {
    IAudioClient *audio_client;
    SoundIoList<SoundIoSampleRateRange> sample_rates;
    double period_duration;
    IMMDevice *mm_device;
 };
 struct SoundIoWasapi {
@ -49,6 +51,13 @@ struct SoundIoWasapi {
 };
 struct SoundIoOutStreamWasapi {
    IAudioClient *audio_client;
    IAudioClockAdjustment *audio_clock_adjustment;
    bool need_resample;
    SoundIoOsThread *thread;
    atomic_flag thread_exit_flag;
    bool is_raw;
    UINT32 buffer_frame_count;
 };
 struct SoundIoInStreamWasapi {
--- a/test/unit_tests.cpp
+++ b/test/unit_tests.cpp
@ -39,7 +39,7 @@ static void test_create_outstream(void) {
    outstream->format = SoundIoFormatFloat32NE;
    outstream->sample_rate = 48000;
    outstream->layout = device->layouts[0];
-    outstream->buffer_duration = 0.1;
+    outstream->software_latency = 0.1;
    outstream->write_callback = write_callback;
    outstream->error_callback = error_callback;