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device_change.rs
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device_change.rs
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// NOTICE:
// Avoid running TestDeviceSwitcher with TestDevicePlugger or active full-duplex streams
// sequentially!
//
// The TestDeviceSwitcher cannot work with any test that will create an aggregate device that is
// soon being destroyed. The TestDeviceSwitcher will cache the available devices, upon it's
// created, as the candidates for the default device. Therefore, those created aggregate devices
// may be cached in TestDeviceSwitcher. However, those aggregate devices may be destroyed when
// TestDeviceSwitcher is using them or they are in the cached list of TestDeviceSwitcher.
//
// Running those tests by setting `test-threads=1` doesn't really help (e.g.,
// `cargo test test_register_device_changed_callback -- --ignored --nocapture --test-threads=1`).
// The aggregate device won't be destroyed immediately when `kAudioPlugInDestroyAggregateDevice`
// is set. As a result, the following tests requiring changing the devices will be run separately
// in the run_tests.sh script and marked by `ignore` by default.
use super::utils::{
get_devices_info_in_scope, test_create_device_change_listener, test_device_in_scope,
test_get_default_device, test_get_devices_in_scope,
test_get_stream_with_default_data_callback_by_type, test_ops_stream_operation,
test_set_default_device, Scope, StreamType, TestDevicePlugger, TestDeviceSwitcher,
};
use super::*;
use std::sync::{LockResult, WaitTimeoutResult};
use std::thread;
use std::time;
// Switch default devices used by the active streams, to test stream reinitialization
// ================================================================================================
#[ignore]
#[test]
fn test_switch_device() {
test_switch_device_in_scope(Scope::Input);
test_switch_device_in_scope(Scope::Output);
}
fn test_switch_device_in_scope(scope: Scope) {
println!(
"Switch default device for {:?} while the stream is working.",
scope
);
// Do nothing if there is no 2 available devices at least.
let devices = test_get_devices_in_scope(scope.clone());
if devices.len() < 2 {
println!("Need 2 devices for {:?} at least. Skip.", scope);
return;
}
let mut device_switcher = TestDeviceSwitcher::new(scope.clone());
let notifier = Arc::new(Notifier::new(0));
let also_notifier = notifier.clone();
let listener = run_serially(|| {
test_create_device_change_listener(scope.clone(), move |_addresses| {
let mut cnt = notifier.lock().unwrap();
*cnt += 1;
notifier.notify(cnt);
NO_ERR
})
});
run_serially(|| listener.start());
let changed_watcher = Watcher::new(&also_notifier);
test_get_started_stream_in_scope(scope.clone(), move |_stream| loop {
let start_cnt = changed_watcher.lock().unwrap().clone();
device_switcher.next();
let mut guard = changed_watcher.lock().unwrap();
guard = changed_watcher
.wait_while(guard, |cnt| *cnt == start_cnt)
.unwrap();
if *guard >= devices.len() {
break;
}
});
}
#[ignore]
#[test]
fn test_switch_while_paused() {
test_switch_device_in_scope_while_paused(Scope::Input);
test_switch_device_in_scope_while_paused(Scope::Output);
}
fn test_switch_device_in_scope_while_paused(scope: Scope) {
println!(
"Switch default device for {:?} while the stream is paused.",
scope
);
// Do nothing if there is no 2 available devices at least.
let devices = test_get_devices_in_scope(scope.clone());
if devices.len() < 2 {
println!("Need 2 devices for {:?} at least. Skip.", scope);
return;
}
let mut device_switcher = TestDeviceSwitcher::new(scope.clone());
let notifier = Arc::new(Notifier::new(0));
let also_notifier = notifier.clone();
let listener = run_serially(|| {
test_create_device_change_listener(scope.clone(), move |_addresses| {
let mut cnt = notifier.lock().unwrap();
*cnt += 1;
notifier.notify(cnt);
NO_ERR
})
});
run_serially(|| listener.start());
let changed_watcher = Watcher::new(&also_notifier);
test_get_started_stream_in_scope(scope.clone(), move |stream| loop {
// pause the stream, change device, start the stream
// peek under the hood to the find the device in use currently
let stm = unsafe { &mut *(stream as *mut AudioUnitStream) };
let before = if scope == Scope::Output {
stm.core_stream_data.output_unit
} else {
stm.core_stream_data.input_unit
};
let check_devices = |current| {
stm.queue.run_sync(|| {
let (bus, unit, id) = if scope == Scope::Output {
(
AU_OUT_BUS,
stm.core_stream_data.output_unit,
stm.core_stream_data.output_device.id,
)
} else {
(
AU_IN_BUS,
stm.core_stream_data.input_unit,
stm.core_stream_data.input_device.id,
)
};
let mut device_id: AudioDeviceID = 0;
let mut size = std::mem::size_of::<AudioDeviceID>();
let status = audio_unit_get_property(
unit,
kAudioOutputUnitProperty_CurrentDevice,
kAudioUnitScope_Global,
bus,
&mut device_id,
&mut size,
);
if status != NO_ERR {
panic!("Could not get device ID from audiounit");
}
assert_eq!(id, current);
assert_eq!(device_id, current);
});
};
check_devices(device_switcher.current());
// Pause the stream, and change the default device
assert_eq!(unsafe { OPS.stream_stop.unwrap()(stream) }, ffi::CUBEB_OK);
let start_cnt = changed_watcher.lock().unwrap().clone();
device_switcher.next();
let mut guard = changed_watcher.lock().unwrap();
guard = changed_watcher
.wait_while(guard, |cnt| *cnt == start_cnt)
.unwrap();
if *guard >= devices.len() {
break;
}
// Wait until the switch is effective and the stream has been marked for delayed
// reinitialization. delayed_reinit can only be access from the queue thread. Depending on
// the setup this can take some time so we sleep a bit to not hammer the main thread.
let mut switched = false;
while !switched {
switched = stm.queue.run_sync(|| stm.delayed_reinit).unwrap();
if !switched {
let ten_millis = time::Duration::from_millis(10);
thread::sleep(ten_millis);
}
}
// Start the stream, and check that the device in use isn't the same as before pausing
assert_eq!(unsafe { OPS.stream_start.unwrap()(stream) }, ffi::CUBEB_OK);
check_devices(device_switcher.current());
let after = if scope == Scope::Output {
stm.core_stream_data.output_unit
} else {
stm.core_stream_data.input_unit
};
assert_ne!(before, after);
});
}
fn test_get_started_stream_in_scope<F>(scope: Scope, operation: F)
where
F: FnOnce(*mut ffi::cubeb_stream),
{
use std::f32::consts::PI;
const SAMPLE_FREQUENCY: u32 = 48_000;
// Make sure the parameters meet the requirements of AudioUnitContext::stream_init
// (in the comments).
let mut stream_params = ffi::cubeb_stream_params::default();
stream_params.format = ffi::CUBEB_SAMPLE_S16NE;
stream_params.rate = SAMPLE_FREQUENCY;
stream_params.prefs = ffi::CUBEB_STREAM_PREF_NONE;
stream_params.channels = 1;
stream_params.layout = ffi::CUBEB_LAYOUT_MONO;
let (input_params, output_params) = match scope {
Scope::Input => (
&mut stream_params as *mut ffi::cubeb_stream_params,
ptr::null_mut(),
),
Scope::Output => (
ptr::null_mut(),
&mut stream_params as *mut ffi::cubeb_stream_params,
),
};
extern "C" fn state_callback(
stream: *mut ffi::cubeb_stream,
user_ptr: *mut c_void,
state: ffi::cubeb_state,
) {
assert!(!stream.is_null());
assert!(!user_ptr.is_null());
assert_ne!(state, ffi::CUBEB_STATE_ERROR);
}
extern "C" fn input_data_callback(
stream: *mut ffi::cubeb_stream,
user_ptr: *mut c_void,
input_buffer: *const c_void,
output_buffer: *mut c_void,
nframes: i64,
) -> i64 {
assert!(!stream.is_null());
assert!(!user_ptr.is_null());
assert!(!input_buffer.is_null());
assert!(output_buffer.is_null());
nframes
}
let mut position: i64 = 0; // TODO: Use Atomic instead.
fn f32_to_i16_sample(x: f32) -> i16 {
(x * f32::from(i16::max_value())) as i16
}
extern "C" fn output_data_callback(
stream: *mut ffi::cubeb_stream,
user_ptr: *mut c_void,
input_buffer: *const c_void,
output_buffer: *mut c_void,
nframes: i64,
) -> i64 {
assert!(!stream.is_null());
assert!(!user_ptr.is_null());
assert!(input_buffer.is_null());
assert!(!output_buffer.is_null());
let buffer = unsafe {
let ptr = output_buffer as *mut i16;
let len = nframes as usize;
slice::from_raw_parts_mut(ptr, len)
};
let position = unsafe { &mut *(user_ptr as *mut i64) };
// Generate tone on the fly.
for data in buffer.iter_mut() {
let t1 = (2.0 * PI * 350.0 * (*position) as f32 / SAMPLE_FREQUENCY as f32).sin();
let t2 = (2.0 * PI * 440.0 * (*position) as f32 / SAMPLE_FREQUENCY as f32).sin();
*data = f32_to_i16_sample(0.5 * (t1 + t2));
*position += 1;
}
nframes
}
test_ops_stream_operation(
"stream",
ptr::null_mut(), // Use default input device.
input_params,
ptr::null_mut(), // Use default output device.
output_params,
4096, // TODO: Get latency by get_min_latency instead ?
match scope {
Scope::Input => Some(input_data_callback),
Scope::Output => Some(output_data_callback),
},
Some(state_callback),
&mut position as *mut i64 as *mut c_void,
|stream| {
assert_eq!(unsafe { OPS.stream_start.unwrap()(stream) }, ffi::CUBEB_OK);
operation(stream);
assert_eq!(unsafe { OPS.stream_stop.unwrap()(stream) }, ffi::CUBEB_OK);
},
);
}
// Plug and unplug devices, to test device collection changed callback
// ================================================================================================
#[ignore]
#[test]
fn test_plug_and_unplug_device() {
test_plug_and_unplug_device_in_scope(Scope::Input);
test_plug_and_unplug_device_in_scope(Scope::Output);
}
fn test_plug_and_unplug_device_in_scope(scope: Scope) {
let default_device = test_get_default_device(scope.clone());
if default_device.is_none() {
println!("No device for {:?} to test", scope);
return;
}
println!("Run test for {:?}", scope);
println!("NOTICE: The test will hang if the default input or output is an aggregate device.\nWe will fix this later.");
let default_device = default_device.unwrap();
let is_input = test_device_in_scope(default_device, Scope::Input);
let is_output = test_device_in_scope(default_device, Scope::Output);
let mut context = AudioUnitContext::new();
// Register the devices-changed callbacks.
#[derive(Clone, PartialEq)]
struct Counts {
input: u32,
output: u32,
}
impl Counts {
fn new() -> Self {
Self {
input: 0,
output: 0,
}
}
}
let counts = Arc::new(Notifier::new(Counts::new()));
let counts_notifier_ptr = counts.as_ref() as *const Notifier<Counts>;
assert!(context
.register_device_collection_changed(
DeviceType::INPUT,
Some(input_changed_callback),
counts_notifier_ptr as *mut c_void,
)
.is_ok());
assert!(context
.register_device_collection_changed(
DeviceType::OUTPUT,
Some(output_changed_callback),
counts_notifier_ptr as *mut c_void,
)
.is_ok());
let counts_watcher = Watcher::new(&counts);
let mut device_plugger = TestDevicePlugger::new(scope).unwrap();
{
// Simulate adding devices and monitor the devices-changed callbacks.
let mut counts_guard = counts.lock().unwrap();
let counts_start = counts_guard.clone();
assert!(device_plugger.plug().is_ok());
counts_guard = counts_watcher
.wait_while(counts_guard, |counts| {
(is_input && counts.input == counts_start.input)
|| (is_output && counts.output == counts_start.output)
})
.unwrap();
// Check changed count.
assert_eq!(counts_guard.input, if is_input { 1 } else { 0 });
assert_eq!(counts_guard.output, if is_output { 1 } else { 0 });
}
{
// Simulate removing devices and monitor the devices-changed callbacks.
let mut counts_guard = counts.lock().unwrap();
let counts_start = counts_guard.clone();
assert!(device_plugger.unplug().is_ok());
counts_guard = counts_watcher
.wait_while(counts_guard, |counts| {
(is_input && counts.input == counts_start.input)
|| (is_output && counts.output == counts_start.output)
})
.unwrap();
// Check changed count.
assert_eq!(counts_guard.input, if is_input { 2 } else { 0 });
assert_eq!(counts_guard.output, if is_output { 2 } else { 0 });
}
extern "C" fn input_changed_callback(context: *mut ffi::cubeb, data: *mut c_void) {
println!(
"Input device collection @ {:p} is changed. Data @ {:p}",
context, data
);
let notifier = unsafe { &*(data as *const Notifier<Counts>) };
{
let mut counts = notifier.lock().unwrap();
counts.input += 1;
notifier.notify(counts);
}
}
extern "C" fn output_changed_callback(context: *mut ffi::cubeb, data: *mut c_void) {
println!(
"output device collection @ {:p} is changed. Data @ {:p}",
context, data
);
let notifier = unsafe { &*(data as *const Notifier<Counts>) };
{
let mut counts = notifier.lock().unwrap();
counts.output += 1;
notifier.notify(counts);
}
}
context.register_device_collection_changed(DeviceType::OUTPUT, None, ptr::null_mut());
context.register_device_collection_changed(DeviceType::INPUT, None, ptr::null_mut());
}
// Switch default devices used by the active streams, to test device changed callback
// ================================================================================================
#[ignore]
#[test]
fn test_register_device_changed_callback_to_check_default_device_changed_input() {
test_register_device_changed_callback_to_check_default_device_changed(StreamType::INPUT);
}
#[ignore]
#[test]
fn test_register_device_changed_callback_to_check_default_device_changed_output() {
test_register_device_changed_callback_to_check_default_device_changed(StreamType::OUTPUT);
}
#[ignore]
#[test]
fn test_register_device_changed_callback_to_check_default_device_changed_duplex() {
test_register_device_changed_callback_to_check_default_device_changed(StreamType::DUPLEX);
}
fn test_register_device_changed_callback_to_check_default_device_changed(stm_type: StreamType) {
println!("NOTICE: The test will hang if the default input or output is an aggregate device.\nWe will fix this later.");
let inputs = if stm_type.contains(StreamType::INPUT) {
let devices = test_get_devices_in_scope(Scope::Input).len();
if devices >= 2 {
Some(devices)
} else {
None
}
} else {
None
};
let outputs = if stm_type.contains(StreamType::OUTPUT) {
let devices = test_get_devices_in_scope(Scope::Output).len();
if devices >= 2 {
Some(devices)
} else {
None
}
} else {
None
};
if inputs.is_none() && outputs.is_none() {
println!("No enough devices to run the test!");
return;
}
let changed_count = Arc::new(Notifier::new(0u32));
let notifier_ptr = changed_count.as_ref() as *const Notifier<u32>;
test_get_stream_with_device_changed_callback(
"stream: test callback for default device changed",
stm_type,
None, // Use default input device.
None, // Use default output device.
notifier_ptr as *mut c_void,
state_callback,
device_changed_callback,
|stream| {
// If the duplex stream uses different input and output device,
// an aggregate device will be created and it will work for this duplex stream.
// This aggregate device will be added into the device list, but it won't
// be assigned to the default device, since the device list for setting
// default device is cached upon {input, output}_device_switcher is initialized.
let changed_watcher = Watcher::new(&changed_count);
if let Some(devices) = inputs {
let mut device_switcher = TestDeviceSwitcher::new(Scope::Input);
for _ in 0..devices {
// While the stream is re-initializing for the default device switch,
// switching for the default device again will be ignored.
while stream.switching_device.load(atomic::Ordering::SeqCst) {
std::hint::spin_loop()
}
let guard = changed_watcher.lock().unwrap();
let start_cnt = guard.clone();
device_switcher.next();
changed_watcher
.wait_while(guard, |cnt| *cnt == start_cnt)
.unwrap();
}
}
if let Some(devices) = outputs {
let mut device_switcher = TestDeviceSwitcher::new(Scope::Output);
for _ in 0..devices {
// While the stream is re-initializing for the default device switch,
// switching for the default device again will be ignored.
while stream.switching_device.load(atomic::Ordering::SeqCst) {
std::hint::spin_loop()
}
let guard = changed_watcher.lock().unwrap();
let start_cnt = guard.clone();
device_switcher.next();
changed_watcher
.wait_while(guard, |cnt| *cnt == start_cnt)
.unwrap();
}
}
},
);
extern "C" fn state_callback(
stream: *mut ffi::cubeb_stream,
_user_ptr: *mut c_void,
state: ffi::cubeb_state,
) {
assert!(!stream.is_null());
assert_ne!(state, ffi::CUBEB_STATE_ERROR);
}
extern "C" fn device_changed_callback(data: *mut c_void) {
println!("Device change callback. data @ {:p}", data);
let notifier = unsafe { &*(data as *const Notifier<u32>) };
let mut count_guard = notifier.lock().unwrap();
*count_guard += 1;
notifier.notify(count_guard);
}
}
// Unplug the devices used by the active streams, to test
// 1) device changed callback, or state callback
// 2) stream reinitialization that may race with stream destroying
// ================================================================================================
// Input-only stream
// -----------------
// Unplug the non-default input device for an input stream
// ------------------------------------------------------------------------------------------------
#[ignore]
#[test]
fn test_destroy_input_stream_after_unplugging_a_nondefault_input_device() {
// The stream can be destroyed before running device-changed event handler
test_unplug_a_device_on_an_active_stream(StreamType::INPUT, Scope::Input, false, 0);
}
#[ignore]
#[test]
fn test_suspend_input_stream_by_unplugging_a_nondefault_input_device() {
// Expect to get an error state callback by device-changed event handler
test_unplug_a_device_on_an_active_stream(StreamType::INPUT, Scope::Input, false, 2000);
}
// Unplug the default input device for an input stream
// ------------------------------------------------------------------------------------------------
#[ignore]
#[test]
fn test_destroy_input_stream_after_unplugging_a_default_input_device() {
// Expect to get an device-changed callback by device-changed event handler,
// which will reinitialize the stream behind the scenes, at the same when
// the stream is being destroyed
test_unplug_a_device_on_an_active_stream(StreamType::INPUT, Scope::Input, true, 0);
}
#[ignore]
#[test]
fn test_reinit_input_stream_by_unplugging_a_default_input_device() {
// Expect to get an device-changed callback by device-changed event handler,
// which will reinitialize the stream behind the scenes
test_unplug_a_device_on_an_active_stream(StreamType::INPUT, Scope::Input, true, 2000);
}
// Output-only stream
// ------------------
// Unplug the non-default output device for an output stream
// ------------------------------------------------------------------------------------------------
#[ignore]
#[test]
fn test_destroy_output_stream_after_unplugging_a_nondefault_output_device() {
test_unplug_a_device_on_an_active_stream(StreamType::OUTPUT, Scope::Output, false, 0);
}
#[ignore]
#[test]
fn test_suspend_output_stream_by_unplugging_a_nondefault_output_device() {
test_unplug_a_device_on_an_active_stream(StreamType::OUTPUT, Scope::Output, false, 2000);
}
// Unplug the default output device for an output stream
// ------------------------------------------------------------------------------------------------
#[ignore]
#[test]
fn test_destroy_output_stream_after_unplugging_a_default_output_device() {
// Expect to get an device-changed callback by device-changed event handler,
// which will reinitialize the stream behind the scenes, at the same when
// the stream is being destroyed
test_unplug_a_device_on_an_active_stream(StreamType::OUTPUT, Scope::Output, true, 0);
}
#[ignore]
#[test]
fn test_reinit_output_stream_by_unplugging_a_default_output_device() {
// Expect to get an device-changed callback by device-changed event handler,
// which will reinitialize the stream behind the scenes
test_unplug_a_device_on_an_active_stream(StreamType::OUTPUT, Scope::Output, true, 2000);
}
// Duplex stream
// -------------
// Unplug the non-default input device for a duplex stream
// ------------------------------------------------------------------------------------------------
#[ignore]
#[test]
fn test_destroy_duplex_stream_after_unplugging_a_nondefault_input_device() {
// The stream can be destroyed before running device-changed event handler
test_unplug_a_device_on_an_active_stream(StreamType::DUPLEX, Scope::Input, false, 0);
}
#[ignore]
#[test]
fn test_suspend_duplex_stream_by_unplugging_a_nondefault_input_device() {
// Expect to get an error state callback by device-changed event handler
test_unplug_a_device_on_an_active_stream(StreamType::DUPLEX, Scope::Input, false, 2000);
}
// Unplug the non-default output device for a duplex stream
// ------------------------------------------------------------------------------------------------
#[ignore]
#[test]
fn test_destroy_duplex_stream_after_unplugging_a_nondefault_output_device() {
test_unplug_a_device_on_an_active_stream(StreamType::DUPLEX, Scope::Output, false, 0);
}
#[ignore]
#[test]
fn test_suspend_duplex_stream_by_unplugging_a_nondefault_output_device() {
test_unplug_a_device_on_an_active_stream(StreamType::DUPLEX, Scope::Output, false, 2000);
}
// Unplug the non-default in-out device for a duplex stream
// ------------------------------------------------------------------------------------------------
// TODO: Implement an in-out TestDevicePlugger
// Unplug the default input device for a duplex stream
// ------------------------------------------------------------------------------------------------
#[ignore]
#[test]
fn test_destroy_duplex_stream_after_unplugging_a_default_input_device() {
// Expect to get an device-changed callback by device-changed event handler,
// which will reinitialize the stream behind the scenes, at the same when
// the stream is being destroyed
test_unplug_a_device_on_an_active_stream(StreamType::DUPLEX, Scope::Input, true, 0);
}
#[ignore]
#[test]
fn test_reinit_duplex_stream_by_unplugging_a_default_input_device() {
// Expect to get an device-changed callback by device-changed event handler,
// which will reinitialize the stream behind the scenes
test_unplug_a_device_on_an_active_stream(StreamType::DUPLEX, Scope::Input, true, 2000);
}
// Unplug the default ouput device for a duplex stream
// ------------------------------------------------------------------------------------------------
#[ignore]
#[test]
fn test_destroy_duplex_stream_after_unplugging_a_default_output_device() {
// Expect to get an device-changed callback by device-changed event handler,
// which will reinitialize the stream behind the scenes, at the same when
// the stream is being destroyed
test_unplug_a_device_on_an_active_stream(StreamType::DUPLEX, Scope::Output, true, 0);
}
#[ignore]
#[test]
fn test_reinit_duplex_stream_by_unplugging_a_default_output_device() {
// Expect to get an device-changed callback by device-changed event handler,
// which will reinitialize the stream behind the scenes
test_unplug_a_device_on_an_active_stream(StreamType::DUPLEX, Scope::Output, true, 2000);
}
fn test_unplug_a_device_on_an_active_stream(
stream_type: StreamType,
device_scope: Scope,
set_device_to_default: bool,
wait_up_to_ms: u64,
) {
let has_input = test_get_default_device(Scope::Input).is_some();
let has_output = test_get_default_device(Scope::Output).is_some();
if stream_type.contains(StreamType::INPUT) && !has_input {
println!("No input device for input or duplex stream.");
return;
}
if stream_type.contains(StreamType::OUTPUT) && !has_output {
println!("No output device for output or duplex stream.");
return;
}
let default_device_before_plugging = test_get_default_device(device_scope.clone()).unwrap();
println!(
"Before plugging, default {:?} device is {}",
device_scope, default_device_before_plugging
);
let mut plugger = TestDevicePlugger::new(device_scope.clone()).unwrap();
assert!(plugger.plug().is_ok());
assert_ne!(plugger.get_device_id(), kAudioObjectUnknown);
println!(
"Create plugger device: {} for {:?}",
plugger.get_device_id(),
device_scope
);
let default_device_after_plugging = test_get_default_device(device_scope.clone()).unwrap();
println!(
"After plugging, default {:?} device is {}",
device_scope, default_device_after_plugging
);
// The new device, plugger, is possible to be set to the default device.
// Before running the test, we need to set the default device to the correct one.
if set_device_to_default {
// plugger should be the default device for the test.
// If it's not, then set it to the default device.
if default_device_after_plugging != plugger.get_device_id() {
let prev_def_dev =
test_set_default_device(plugger.get_device_id(), device_scope.clone()).unwrap();
assert_eq!(prev_def_dev, default_device_after_plugging);
}
} else {
// plugger should NOT be the default device for the test.
// If it is, reset the default device to another one.
if default_device_after_plugging == plugger.get_device_id() {
let prev_def_dev =
test_set_default_device(default_device_before_plugging, device_scope.clone())
.unwrap();
assert_eq!(prev_def_dev, default_device_after_plugging);
}
}
// Ignore the return devices' info since we only need to print them.
let _ = get_devices_info_in_scope(device_scope.clone());
println!(
"Current default {:?} device is {}",
device_scope,
test_get_default_device(device_scope.clone()).unwrap()
);
let (input_device, output_device) = match device_scope {
Scope::Input => (
if set_device_to_default {
None // default input device.
} else {
Some(plugger.get_device_id())
},
None,
),
Scope::Output => (
None,
if set_device_to_default {
None // default output device.
} else {
Some(plugger.get_device_id())
},
),
};
#[derive(Clone, PartialEq)]
struct Data {
changed_count: u32,
states: Vec<ffi::cubeb_state>,
}
impl Data {
fn new() -> Self {
Self {
changed_count: 0,
states: vec![],
}
}
}
let notifier = Arc::new(Notifier::new(Data::new()));
let notifier_ptr = notifier.as_ref() as *const Notifier<Data>;
test_get_stream_with_device_changed_callback(
"stream: test stream reinit/destroy after unplugging a device",
stream_type,
input_device,
output_device,
notifier_ptr as *mut c_void,
state_callback,
device_changed_callback,
|stream| {
assert_eq!(stream.start(), Ok(()));
println!(
"Stream runs on the device {} for {:?}",
plugger.get_device_id(),
device_scope
);
let dev = plugger.get_device_id();
let start_changed_count = {
let guard = notifier.lock().unwrap();
assert_eq!(guard.states.last().unwrap(), &ffi::CUBEB_STATE_STARTED);
guard.changed_count.clone()
};
assert!(plugger.unplug().is_ok());
let changed_watcher = Watcher::new(¬ifier);
if set_device_to_default {
// The stream will be reinitialized if it follows the default input or output device.
println!("Waiting for default device to change and reinit");
let mut data_guard = notifier.lock().unwrap();
data_guard = changed_watcher
.wait_while(data_guard, |data| {
data.changed_count == start_changed_count
|| data.states.last().unwrap_or(&ffi::CUBEB_STATE_ERROR)
!= &ffi::CUBEB_STATE_STARTED
})
.unwrap();
} else if wait_up_to_ms > 0 {
// stream can be dropped immediately before device-changed callback
// so we only check the states if we wait for it explicitly.
println!("Waiting for non-default device to enter error state");
let mut data_guard = notifier.lock().unwrap();
let (new_guard, timeout_res) = changed_watcher
.wait_timeout_while(data_guard, Duration::from_millis(wait_up_to_ms), |data| {
data.states.last().unwrap_or(&ffi::CUBEB_STATE_STARTED)
!= &ffi::CUBEB_STATE_ERROR
})
.unwrap();
assert!(!timeout_res.timed_out());
data_guard = new_guard;
}
println!(
"Device {} for {:?} has been unplugged. The default {:?} device now is {}",
dev,
device_scope,
device_scope,
test_get_default_device(device_scope.clone()).unwrap()
);
println!("The stream is going to be destroyed soon");
},
);
extern "C" fn state_callback(
stream: *mut ffi::cubeb_stream,
user_ptr: *mut c_void,
state: ffi::cubeb_state,
) {
println!("Device change callback. user_ptr @ {:p}", user_ptr);
assert!(!stream.is_null());
println!(
"state: {}",
match state {
ffi::CUBEB_STATE_STARTED => "started",
ffi::CUBEB_STATE_STOPPED => "stopped",
ffi::CUBEB_STATE_DRAINED => "drained",
ffi::CUBEB_STATE_ERROR => "error",
_ => "unknown",
}
);
let notifier = unsafe { &mut *(user_ptr as *mut Notifier<Data>) };
let mut data_guard = notifier.lock().unwrap();
data_guard.states.push(state);
notifier.notify(data_guard);
}
extern "C" fn device_changed_callback(user_ptr: *mut c_void) {
println!("Device change callback. user_ptr @ {:p}", user_ptr);
let notifier = unsafe { &mut *(user_ptr as *mut Notifier<Data>) };
let mut data_guard = notifier.lock().unwrap();
data_guard.changed_count += 1;
notifier.notify(data_guard);
}
}
struct Notifier<T> {
value: Mutex<T>,
cvar: Condvar,
}
impl<T> Notifier<T> {
fn new(value: T) -> Self {
Self {
value: Mutex::new(value),
cvar: Condvar::new(),
}
}
fn lock(&self) -> LockResult<MutexGuard<'_, T>> {
self.value.lock()
}
fn notify(&self, _guard: MutexGuard<'_, T>) {
self.cvar.notify_all();
}
}
struct Watcher<T: Clone + PartialEq> {
notifier: Arc<Notifier<T>>,
}
impl<T: Clone + PartialEq> Watcher<T> {
fn new(value: &Arc<Notifier<T>>) -> Self {
Self {
notifier: Arc::clone(value),
}
}
fn lock(&self) -> LockResult<MutexGuard<'_, T>> {
self.notifier.lock()
}
fn wait_while<'a, F>(
&self,
guard: MutexGuard<'a, T>,
condition: F,
) -> LockResult<MutexGuard<'a, T>>
where
F: FnMut(&mut T) -> bool,
{
self.notifier.cvar.wait_while(guard, condition)
}
fn wait_timeout_while<'a, F>(
&self,
guard: MutexGuard<'a, T>,
dur: Duration,
condition: F,
) -> LockResult<(MutexGuard<'a, T>, WaitTimeoutResult)>
where
F: FnMut(&mut T) -> bool,
{
self.notifier.cvar.wait_timeout_while(guard, dur, condition)
}
}
fn test_get_stream_with_device_changed_callback<F>(
name: &'static str,
stm_type: StreamType,
input_device: Option<AudioObjectID>,
output_device: Option<AudioObjectID>,
data: *mut c_void,
state_callback: extern "C" fn(*mut ffi::cubeb_stream, *mut c_void, ffi::cubeb_state),
device_changed_callback: extern "C" fn(*mut c_void),
operation: F,
) where
F: FnOnce(&mut AudioUnitStream),
{
test_get_stream_with_default_data_callback_by_type(
name,
stm_type,
input_device,