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mozilla-central/third_party/rust/cubeb-pulse/src/backend/context.rs

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// Copyright © 2017-2018 Mozilla Foundation

//

// This program is made available under an ISC-style license.  See the

// accompanying file LICENSE for details.

use backend::*;

use cubeb_backend::{

    ffi, log_enabled, Context, ContextOps, DeviceCollectionRef, DeviceId, DeviceType, Error,

    InputProcessingParams, Ops, Result, Stream, StreamParams, StreamParamsRef,

};

use pulse::{self, ProplistExt};

use pulse_ffi::*;

use semver;

use std::cell::RefCell;

use std::default::Default;

use std::ffi::{CStr, CString};

use std::mem;

use std::os::raw::c_void;

use std::ptr;

#[derive(Debug)]

pub struct DefaultInfo {

    pub sample_spec: pulse::SampleSpec,

    pub channel_map: pulse::ChannelMap,

    pub flags: pulse::SinkFlags,

pub const PULSE_OPS: Ops = capi_new!(PulseContext, PulseStream);

#[repr(C)]

#[derive(Debug)]

pub struct PulseContext {

    _ops: *const Ops,

    pub mainloop: pulse::ThreadedMainloop,

    pub context: Option<pulse::Context>,

    pub default_sink_info: Option<DefaultInfo>,

    pub context_name: Option<CString>,

    pub input_collection_changed_callback: ffi::cubeb_device_collection_changed_callback,

    pub input_collection_changed_user_ptr: *mut c_void,

    pub output_collection_changed_callback: ffi::cubeb_device_collection_changed_callback,

    pub output_collection_changed_user_ptr: *mut c_void,

    pub error: bool,

    pub version_2_0_0: bool,

    pub version_0_9_8: bool,

    #[cfg(feature = "pulse-dlopen")]

    pub libpulse: LibLoader,

    devids: RefCell<Intern>,

impl PulseContext {

    #[cfg(feature = "pulse-dlopen")]

    fn _new(name: Option<CString>) -> Result<Box<Self>> {

        let libpulse = unsafe { open() };

        if libpulse.is_none() {

            cubeb_log!("libpulse not found");

            return Err(Error::error());

        let ctx = Box::new(PulseContext {

            _ops: &PULSE_OPS,

            libpulse: libpulse.unwrap(),

            mainloop: pulse::ThreadedMainloop::new(),

            context: None,

            default_sink_info: None,

            context_name: name,

            input_collection_changed_callback: None,

            input_collection_changed_user_ptr: ptr::null_mut(),

            output_collection_changed_callback: None,

            output_collection_changed_user_ptr: ptr::null_mut(),

            error: true,

            version_0_9_8: false,

            version_2_0_0: false,

            devids: RefCell::new(Intern::new()),

});

        Ok(ctx)

    #[cfg(not(feature = "pulse-dlopen"))]

    fn _new(name: Option<CString>) -> Result<Box<Self>> {

        Ok(Box::new(PulseContext {

            _ops: &PULSE_OPS,

            mainloop: pulse::ThreadedMainloop::new(),

            context: None,

            default_sink_info: None,

            context_name: name,

            input_collection_changed_callback: None,

            input_collection_changed_user_ptr: ptr::null_mut(),

            output_collection_changed_callback: None,

            output_collection_changed_user_ptr: ptr::null_mut(),

            error: true,

            version_0_9_8: false,

            version_2_0_0: false,

            devids: RefCell::new(Intern::new()),

}))

    fn server_info_cb(context: &pulse::Context, info: Option<&pulse::ServerInfo>, u: *mut c_void) {

        fn sink_info_cb(_: &pulse::Context, i: *const pulse::SinkInfo, eol: i32, u: *mut c_void) {

            let ctx = unsafe { &mut *(u as *mut PulseContext) };

            if eol == 0 {

                let info = unsafe { &*i };

                let flags = pulse::SinkFlags::from_bits_truncate(info.flags);

                ctx.default_sink_info = Some(DefaultInfo {

                    sample_spec: info.sample_spec,

                    channel_map: info.channel_map,

                    flags,

});

            ctx.mainloop.signal();

        if let Some(info) = info {

            let _ = context.get_sink_info_by_name(

                try_cstr_from(info.default_sink_name),

                sink_info_cb,

u,

);

        } else {

            // If info is None, then an error occured.

            let ctx = unsafe { &mut *(u as *mut PulseContext) };

            ctx.mainloop.signal();

    fn new(name: Option<&CStr>) -> Result<Box<Self>> {

        let name = name.map(|s| s.to_owned());

        let mut ctx = PulseContext::_new(name)?;

        if ctx.mainloop.start().is_err() {

            ctx.destroy();

            cubeb_log!("Error: couldn't start pulse's mainloop");

            return Err(Error::error());

        if ctx.context_init().is_err() {

            ctx.destroy();

            cubeb_log!("Error: couldn't init pulse's context");

            return Err(Error::error());

        ctx.mainloop.lock();

        /* server_info_callback performs a second async query,

         * which is responsible for initializing default_sink_info

         * and signalling the mainloop to end the wait. */

        let user_data: *mut c_void = ctx.as_mut() as *mut _ as *mut _;

        if let Some(ref context) = ctx.context {

            if let Ok(o) = context.get_server_info(PulseContext::server_info_cb, user_data) {

                ctx.operation_wait(None, &o);

        ctx.mainloop.unlock();

        /* Update `default_sink_info` when the default device changes. */

        if let Err(e) = ctx.subscribe_notifications(pulse::SubscriptionMask::SERVER) {

            cubeb_log!("subscribe_notifications ignored failure: {}", e);

        // Return the result.

        Ok(ctx)

    pub fn destroy(&mut self) {

        self.context_destroy();

        assert!(

            self.input_collection_changed_callback.is_none()

                && self.output_collection_changed_callback.is_none()

);

        if !self.mainloop.is_null() {

            self.mainloop.stop();

    fn subscribe_notifications(&mut self, mask: pulse::SubscriptionMask) -> Result<()> {

        fn update_collection(

            _: &pulse::Context,

            event: pulse::SubscriptionEvent,

            index: u32,

            user_data: *mut c_void,

) {

            let ctx = unsafe { &mut *(user_data as *mut PulseContext) };

            let (f, t) = (event.event_facility(), event.event_type());

            if (f == pulse::SubscriptionEventFacility::Source)

                | (f == pulse::SubscriptionEventFacility::Sink)

                if (t == pulse::SubscriptionEventType::Remove)

                    | (t == pulse::SubscriptionEventType::New)

                    if log_enabled() {

                        let op = if t == pulse::SubscriptionEventType::New {

                            "Adding"

                        } else {

                            "Removing"

};

                        let dev = if f == pulse::SubscriptionEventFacility::Sink {

                            "sink"

                        } else {

                            "source "

};

                        cubeb_log!("{} {} index {}", op, dev, index);

                    if f == pulse::SubscriptionEventFacility::Source {

                        unsafe {

                            ctx.input_collection_changed_callback.unwrap()(

                                ctx as *mut _ as *mut _,

                                ctx.input_collection_changed_user_ptr,

);

                    if f == pulse::SubscriptionEventFacility::Sink {

                        unsafe {

                            ctx.output_collection_changed_callback.unwrap()(

                                ctx as *mut _ as *mut _,

                                ctx.output_collection_changed_user_ptr,

);

            } else if (f == pulse::SubscriptionEventFacility::Server)

                && (t == pulse::SubscriptionEventType::Change)

                cubeb_log!("Server changed {}", index as i32);

                let user_data: *mut c_void = ctx as *mut _ as *mut _;

                if let Some(ref context) = ctx.context {

                    if let Err(e) = context.get_server_info(PulseContext::server_info_cb, user_data)

                        cubeb_log!("Error: get_server_info ignored failure: {}", e);

        fn success(_: &pulse::Context, success: i32, user_data: *mut c_void) {

            let ctx = unsafe { &*(user_data as *mut PulseContext) };

            if success != 1 {

                cubeb_log!("subscribe_success ignored failure: {}", success);

            ctx.mainloop.signal();

        let user_data: *mut c_void = self as *const _ as *mut _;

        if let Some(ref context) = self.context {

            self.mainloop.lock();

            context.set_subscribe_callback(update_collection, user_data);

            if let Ok(o) = context.subscribe(mask, success, self as *const _ as *mut _) {

                self.operation_wait(None, &o);

            } else {

                self.mainloop.unlock();

                cubeb_log!("Error: context subscribe failed");

                return Err(Error::error());

            self.mainloop.unlock();

        Ok(())

impl ContextOps for PulseContext {

    fn init(context_name: Option<&CStr>) -> Result<Context> {

        let ctx = PulseContext::new(context_name)?;

        Ok(unsafe { Context::from_ptr(Box::into_raw(ctx) as *mut _) })

    fn backend_id(&mut self) -> &'static CStr {

        unsafe { CStr::from_ptr(b"pulse-rust\0".as_ptr() as *const _) }

    fn max_channel_count(&mut self) -> Result<u32> {

        match self.default_sink_info {

            Some(ref info) => Ok(u32::from(info.channel_map.channels)),

            None => {

                cubeb_log!("Error: couldn't get the max channel count");

                Err(Error::error())

    fn min_latency(&mut self, params: StreamParams) -> Result<u32> {

        // According to PulseAudio developers, this is a safe minimum.

        Ok(25 * params.rate() / 1000)

    fn preferred_sample_rate(&mut self) -> Result<u32> {

        match self.default_sink_info {

            Some(ref info) => Ok(info.sample_spec.rate),

            None => {

                cubeb_log!("Error: Couldn't get the preferred sample rate");

                Err(Error::error())

    fn supported_input_processing_params(&mut self) -> Result<InputProcessingParams> {

        Ok(InputProcessingParams::NONE)

    fn enumerate_devices(

        &mut self,

        devtype: DeviceType,

        collection: &DeviceCollectionRef,

    ) -> Result<()> {

        fn add_output_device(

            _: &pulse::Context,

            i: *const pulse::SinkInfo,

            eol: i32,

            user_data: *mut c_void,

) {

            let list_data = unsafe { &mut *(user_data as *mut PulseDevListData) };

            let ctx = list_data.context;

            if eol != 0 {

                ctx.mainloop.signal();

                return;

            debug_assert!(!i.is_null());

            debug_assert!(!user_data.is_null());

            let info = unsafe { &*i };

            let group_id = match info.proplist().gets("sysfs.path") {

                Some(p) => p.to_owned().into_raw(),

                _ => ptr::null_mut(),

};

            let vendor_name = match info.proplist().gets("device.vendor.name") {

                Some(p) => p.to_owned().into_raw(),

                _ => ptr::null_mut(),

};

            let info_name = unsafe { CStr::from_ptr(info.name) };

            let info_description = unsafe { CStr::from_ptr(info.description) }.to_owned();

            let preferred = if *info_name == *list_data.default_sink_name {

                ffi::CUBEB_DEVICE_PREF_ALL

            } else {

                ffi::CUBEB_DEVICE_PREF_NONE

};

            let device_id = ctx.devids.borrow_mut().add(info_name);

            let friendly_name = info_description.into_raw();

            let devinfo = ffi::cubeb_device_info {

                device_id,

                devid: device_id as ffi::cubeb_devid,

                friendly_name,

                group_id,

                vendor_name,

                device_type: ffi::CUBEB_DEVICE_TYPE_OUTPUT,

                state: ctx.state_from_port(info.active_port),

                preferred,

                format: ffi::CUBEB_DEVICE_FMT_ALL,

                default_format: pulse_format_to_cubeb_format(info.sample_spec.format),

                max_channels: u32::from(info.channel_map.channels),

                min_rate: 1,

                max_rate: PA_RATE_MAX,

                default_rate: info.sample_spec.rate,

                latency_lo: 0,

                latency_hi: 0,

};

            list_data.devinfo.push(devinfo);

        fn add_input_device(

            _: &pulse::Context,

            i: *const pulse::SourceInfo,

            eol: i32,

            user_data: *mut c_void,

) {

            let list_data = unsafe { &mut *(user_data as *mut PulseDevListData) };

            let ctx = list_data.context;

            if eol != 0 {

                ctx.mainloop.signal();

                return;

            debug_assert!(!user_data.is_null());

            debug_assert!(!i.is_null());

            let info = unsafe { &*i };

            let group_id = match info.proplist().gets("sysfs.path") {

                Some(p) => p.to_owned().into_raw(),

                _ => ptr::null_mut(),

};

            let vendor_name = match info.proplist().gets("device.vendor.name") {

                Some(p) => p.to_owned().into_raw(),

                _ => ptr::null_mut(),

};

            let info_name = unsafe { CStr::from_ptr(info.name) };

            let info_description = unsafe { CStr::from_ptr(info.description) }.to_owned();

            let preferred = if *info_name == *list_data.default_source_name {

                ffi::CUBEB_DEVICE_PREF_ALL

            } else {

                ffi::CUBEB_DEVICE_PREF_NONE

};

            let device_id = ctx.devids.borrow_mut().add(info_name);

            let friendly_name = info_description.into_raw();

            let devinfo = ffi::cubeb_device_info {

                device_id,

                devid: device_id as ffi::cubeb_devid,

                friendly_name,

                group_id,

                vendor_name,

                device_type: ffi::CUBEB_DEVICE_TYPE_INPUT,

                state: ctx.state_from_port(info.active_port),

                preferred,

                format: ffi::CUBEB_DEVICE_FMT_ALL,

                default_format: pulse_format_to_cubeb_format(info.sample_spec.format),

                max_channels: u32::from(info.channel_map.channels),

                min_rate: 1,

                max_rate: PA_RATE_MAX,

                default_rate: info.sample_spec.rate,

                latency_lo: 0,

                latency_hi: 0,

};

            list_data.devinfo.push(devinfo);

        fn default_device_names(

            _: &pulse::Context,

            info: Option<&pulse::ServerInfo>,

            user_data: *mut c_void,

) {

            let list_data = unsafe { &mut *(user_data as *mut PulseDevListData) };

            if let Some(info) = info {

                list_data.default_sink_name = super::try_cstr_from(info.default_sink_name)

                    .map(|s| s.to_owned())

                    .unwrap_or_default();

                list_data.default_source_name = super::try_cstr_from(info.default_source_name)

                    .map(|s| s.to_owned())

                    .unwrap_or_default();

            list_data.context.mainloop.signal();

        let mut user_data = PulseDevListData::new(self);

        if let Some(ref context) = self.context {

            self.mainloop.lock();

            if let Ok(o) =

                context.get_server_info(default_device_names, &mut user_data as *mut _ as *mut _)

                self.operation_wait(None, &o);

            if devtype.contains(DeviceType::OUTPUT) {

                if let Ok(o) = context

                    .get_sink_info_list(add_output_device, &mut user_data as *mut _ as *mut _)

                    self.operation_wait(None, &o);

            if devtype.contains(DeviceType::INPUT) {

                if let Ok(o) = context

                    .get_source_info_list(add_input_device, &mut user_data as *mut _ as *mut _)

                    self.operation_wait(None, &o);

            self.mainloop.unlock();

        // Extract the array of cubeb_device_info from

        // PulseDevListData and convert it into C representation.

        let mut tmp = Vec::new();

        mem::swap(&mut user_data.devinfo, &mut tmp);

        let mut devices = tmp.into_boxed_slice();

        let coll = unsafe { &mut *collection.as_ptr() };

        coll.device = devices.as_mut_ptr();

        coll.count = devices.len();

        // Giving away the memory owned by devices.  Don't free it!

        mem::forget(devices);

        Ok(())

    fn device_collection_destroy(&mut self, collection: &mut DeviceCollectionRef) -> Result<()> {

        debug_assert!(!collection.as_ptr().is_null());

        unsafe {

            let coll = &mut *collection.as_ptr();

            let mut devices = Vec::from_raw_parts(coll.device, coll.count, coll.count);

            for dev in &mut devices {

                if !dev.group_id.is_null() {

                    let _ = CString::from_raw(dev.group_id as *mut _);

                if !dev.vendor_name.is_null() {

                    let _ = CString::from_raw(dev.vendor_name as *mut _);

                if !dev.friendly_name.is_null() {

                    let _ = CString::from_raw(dev.friendly_name as *mut _);

            coll.device = ptr::null_mut();

            coll.count = 0;

        Ok(())

    #[allow(clippy::too_many_arguments)]

    fn stream_init(

        &mut self,

        stream_name: Option<&CStr>,

        input_device: DeviceId,

        input_stream_params: Option<&StreamParamsRef>,

        output_device: DeviceId,

        output_stream_params: Option<&StreamParamsRef>,

        latency_frames: u32,

        data_callback: ffi::cubeb_data_callback,

        state_callback: ffi::cubeb_state_callback,

        user_ptr: *mut c_void,

    ) -> Result<Stream> {

        if self.error {

            self.context_init()?;

        let stm = PulseStream::new(

            self,

            stream_name,

            input_device,

            input_stream_params,

            output_device,

            output_stream_params,

            latency_frames,

            data_callback,

            state_callback,

            user_ptr,

)?;

        Ok(unsafe { Stream::from_ptr(Box::into_raw(stm) as *mut _) })

    fn register_device_collection_changed(

        &mut self,

        devtype: DeviceType,

        cb: ffi::cubeb_device_collection_changed_callback,

        user_ptr: *mut c_void,

    ) -> Result<()> {

        if devtype.contains(DeviceType::INPUT) {

            self.input_collection_changed_callback = cb;

            self.input_collection_changed_user_ptr = user_ptr;

        if devtype.contains(DeviceType::OUTPUT) {

            self.output_collection_changed_callback = cb;

            self.output_collection_changed_user_ptr = user_ptr;

        let mut mask = pulse::SubscriptionMask::empty();

        if self.input_collection_changed_callback.is_some() {

            mask |= pulse::SubscriptionMask::SOURCE;

        if self.output_collection_changed_callback.is_some() {

            mask |= pulse::SubscriptionMask::SINK;

        /* Default device changed, this is always registered in order to update the

         * `default_sink_info` when the default device changes. */

        mask |= pulse::SubscriptionMask::SERVER;

        self.subscribe_notifications(mask)

impl Drop for PulseContext {

    fn drop(&mut self) {

        self.destroy();

impl PulseContext {

    /* Initialize PulseAudio Context */

    fn context_init(&mut self) -> Result<()> {

        fn error_state(c: &pulse::Context, u: *mut c_void) {

            let ctx = unsafe { &mut *(u as *mut PulseContext) };

            if !c.get_state().is_good() {

                ctx.error = true;

            ctx.mainloop.signal();

        if self.context.is_some() {

            debug_assert!(self.error);

            self.context_destroy();

        self.context = {

            let name = self.context_name.as_ref().map(|s| s.as_ref());

            pulse::Context::new(&self.mainloop.get_api(), name)

};

        let context_ptr: *mut c_void = self as *mut _ as *mut _;

        if self.context.is_none() {

            cubeb_log!("Error: couldn't create pulse's context");

            return Err(Error::error());

        self.mainloop.lock();

        let connected = if let Some(ref context) = self.context {

            context.set_state_callback(error_state, context_ptr);

            context

                .connect(None, pulse::ContextFlags::empty(), ptr::null())

                .is_ok()

        } else {

            false

};

        if !connected || !self.wait_until_context_ready() {

            self.mainloop.unlock();

            self.context_destroy();

            cubeb_log!("Error: error while waiting for pulse's context to be ready");

            return Err(Error::error());

        self.mainloop.unlock();

        let version_str = unsafe { CStr::from_ptr(pulse::library_version()) };

        if let Ok(version) = semver::Version::parse(&version_str.to_string_lossy()) {

            self.version_0_9_8 =

                version >= semver::Version::parse("0.9.8").expect("Failed to parse version");

            self.version_2_0_0 =

                version >= semver::Version::parse("2.0.0").expect("Failed to parse version");

        self.error = false;

        Ok(())

    fn context_destroy(&mut self) {

        fn drain_complete(_: &pulse::Context, u: *mut c_void) {

            let ctx = unsafe { &*(u as *mut PulseContext) };

            ctx.mainloop.signal();

        let context_ptr: *mut c_void = self as *mut _ as *mut _;

        if let Some(ctx) = self.context.take() {

            self.mainloop.lock();

            if let Ok(o) = ctx.drain(drain_complete, context_ptr) {

                self.operation_wait(None, &o);

            ctx.clear_state_callback();

            ctx.disconnect();

            ctx.unref();

            self.mainloop.unlock();

    pub fn operation_wait<'a, S>(&self, s: S, o: &pulse::Operation) -> bool

    where

        S: Into<Option<&'a pulse::Stream>>,

        let stream = s.into();

        while o.get_state() == PA_OPERATION_RUNNING {

            self.mainloop.wait();

            if let Some(ref context) = self.context {

                if !context.get_state().is_good() {

                    return false;

            if let Some(stm) = stream {

                if !stm.get_state().is_good() {

                    return false;

        true

    pub fn wait_until_context_ready(&self) -> bool {

        if let Some(ref context) = self.context {

            loop {

                let state = context.get_state();

                if !state.is_good() {

                    return false;

                if state == pulse::ContextState::Ready {

                    break;

                self.mainloop.wait();

        true

    fn state_from_port(&self, i: *const pa_port_info) -> ffi::cubeb_device_state {

        if !i.is_null() {

            let info = unsafe { *i };

            if self.version_2_0_0 && info.available == PA_PORT_AVAILABLE_NO {

                ffi::CUBEB_DEVICE_STATE_UNPLUGGED

            } else {

                ffi::CUBEB_DEVICE_STATE_ENABLED

        } else {

            ffi::CUBEB_DEVICE_STATE_ENABLED

struct PulseDevListData<'a> {

    default_sink_name: CString,

    default_source_name: CString,

    devinfo: Vec<ffi::cubeb_device_info>,

    context: &'a PulseContext,

impl<'a> PulseDevListData<'a> {

    pub fn new<'b>(context: &'b PulseContext) -> Self

    where

        'b: 'a,

        PulseDevListData {

            default_sink_name: CString::default(),

            default_source_name: CString::default(),

            devinfo: Vec::new(),

            context,

impl<'a> Drop for PulseDevListData<'a> {

    fn drop(&mut self) {

        for elem in &mut self.devinfo {

            let _ = unsafe { Box::from_raw(elem) };

fn pulse_format_to_cubeb_format(format: pa_sample_format_t) -> ffi::cubeb_device_fmt {

    match format {

        PA_SAMPLE_S16LE => ffi::CUBEB_DEVICE_FMT_S16LE,

        PA_SAMPLE_S16BE => ffi::CUBEB_DEVICE_FMT_S16BE,

        PA_SAMPLE_FLOAT32LE => ffi::CUBEB_DEVICE_FMT_F32LE,

        PA_SAMPLE_FLOAT32BE => ffi::CUBEB_DEVICE_FMT_F32BE,

        // Unsupported format, return F32NE

        _ => ffi::CUBEB_DEVICE_FMT_F32NE,