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electron/brightray/browser/media/media_stream_devices_controller.cc
Charles Kerr d663b4eaee
fix: fix gn cpplint warnings (#14583) 
* chore: fix cpplint 'include_what_you_use' warnings

Typically by including <memory>, <utility> etc.

* chore: fix 'static/global string constant' warning

Use C style strings instead of std::string.

Style guide forbids non-trivial static / global variables. https://google.github.io/styleguide/cppguide.html#Static_and_Global_Variables

/home/charles/electron/electron-gn/src/electron/script/cpplint.js

* refactor: remove global string variables.

Fix 'global string variables are not permitted' linter warnings
by using the base::NoDestructor<> wrapper to make it explicit that
these variables are never destroyed.

The style guide's take on globals with nontrivial destructors:
https://google.github.io/styleguide/cppguide.html#Static_and_Global_Variables

* fix: initializer error introduced in last commit

* fix: remove WIP file that was included by accident

* fix: include order

* fix: include order

* fix: include order

* fix: include order, again
2018-09-12 19:25:56 -05:00

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// Copyright (c) 2012 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE-CHROMIUM file.
#include "brightray/browser/media/media_stream_devices_controller.h"
#include <memory>
#include "brightray/browser/media/media_capture_devices_dispatcher.h"
#include "content/public/browser/desktop_media_id.h"
#include "content/public/common/media_stream_request.h"
namespace brightray {
namespace {
bool HasAnyAvailableDevice() {
const content::MediaStreamDevices& audio_devices =
MediaCaptureDevicesDispatcher::GetInstance()->GetAudioCaptureDevices();
const content::MediaStreamDevices& video_devices =
MediaCaptureDevicesDispatcher::GetInstance()->GetVideoCaptureDevices();
return !audio_devices.empty() || !video_devices.empty();
}
} // namespace
MediaStreamDevicesController::MediaStreamDevicesController(
const content::MediaStreamRequest& request,
const content::MediaResponseCallback& callback)
: request_(request),
callback_(callback),
// For MEDIA_OPEN_DEVICE requests (Pepper) we always request both webcam
// and microphone to avoid popping two infobars.
microphone_requested_(
request.audio_type == content::MEDIA_DEVICE_AUDIO_CAPTURE ||
request.request_type == content::MEDIA_OPEN_DEVICE_PEPPER_ONLY),
webcam_requested_(
request.video_type == content::MEDIA_DEVICE_VIDEO_CAPTURE ||
request.request_type == content::MEDIA_OPEN_DEVICE_PEPPER_ONLY) {}
MediaStreamDevicesController::~MediaStreamDevicesController() {
if (!callback_.is_null()) {
callback_.Run(content::MediaStreamDevices(),
content::MEDIA_DEVICE_INVALID_STATE,
std::unique_ptr<content::MediaStreamUI>());
}
}
bool MediaStreamDevicesController::TakeAction() {
// Do special handling of desktop screen cast.
if (request_.audio_type == content::MEDIA_TAB_AUDIO_CAPTURE ||
request_.video_type == content::MEDIA_TAB_VIDEO_CAPTURE ||
request_.audio_type == content::MEDIA_DESKTOP_AUDIO_CAPTURE ||
request_.video_type == content::MEDIA_DESKTOP_VIDEO_CAPTURE) {
HandleUserMediaRequest();
return true;
}
// Deny the request if there is no device attached to the OS.
if (!HasAnyAvailableDevice()) {
Deny(content::MEDIA_DEVICE_NO_HARDWARE);
return true;
}
Accept();
return true;
}
void MediaStreamDevicesController::Accept() {
// Get the default devices for the request.
content::MediaStreamDevices devices;
if (microphone_requested_ || webcam_requested_) {
switch (request_.request_type) {
case content::MEDIA_OPEN_DEVICE_PEPPER_ONLY: {
const content::MediaStreamDevice* device = nullptr;
// For open device request pick the desired device or fall back to the
// first available of the given type.
if (request_.audio_type == content::MEDIA_DEVICE_AUDIO_CAPTURE) {
device =
MediaCaptureDevicesDispatcher::GetInstance()
->GetRequestedAudioDevice(request_.requested_audio_device_id);
// TODO(wjia): Confirm this is the intended behavior.
if (!device) {
device = MediaCaptureDevicesDispatcher::GetInstance()
->GetFirstAvailableAudioDevice();
}
} else if (request_.video_type == content::MEDIA_DEVICE_VIDEO_CAPTURE) {
// Pepper API opens only one device at a time.
device =
MediaCaptureDevicesDispatcher::GetInstance()
->GetRequestedVideoDevice(request_.requested_video_device_id);
// TODO(wjia): Confirm this is the intended behavior.
if (!device) {
device = MediaCaptureDevicesDispatcher::GetInstance()
->GetFirstAvailableVideoDevice();
}
}
if (device)
devices.push_back(*device);
break;
}
case content::MEDIA_GENERATE_STREAM: {
bool needs_audio_device = microphone_requested_;
bool needs_video_device = webcam_requested_;
// Get the exact audio or video device if an id is specified.
if (!request_.requested_audio_device_id.empty()) {
const content::MediaStreamDevice* audio_device =
MediaCaptureDevicesDispatcher::GetInstance()
->GetRequestedAudioDevice(request_.requested_audio_device_id);
if (audio_device) {
devices.push_back(*audio_device);
needs_audio_device = false;
}
}
if (!request_.requested_video_device_id.empty()) {
const content::MediaStreamDevice* video_device =
MediaCaptureDevicesDispatcher::GetInstance()
->GetRequestedVideoDevice(request_.requested_video_device_id);
if (video_device) {
devices.push_back(*video_device);
needs_video_device = false;
}
}
// If either or both audio and video devices were requested but not
// specified by id, get the default devices.
if (needs_audio_device || needs_video_device) {
MediaCaptureDevicesDispatcher::GetInstance()->GetDefaultDevices(
needs_audio_device, needs_video_device, &devices);
}
break;
}
case content::MEDIA_DEVICE_ACCESS:
// Get the default devices for the request.
MediaCaptureDevicesDispatcher::GetInstance()->GetDefaultDevices(
microphone_requested_, webcam_requested_, &devices);
break;
}
}
content::MediaResponseCallback cb = callback_;
callback_.Reset();
cb.Run(devices, content::MEDIA_DEVICE_OK,
std::unique_ptr<content::MediaStreamUI>());
}
void MediaStreamDevicesController::Deny(
content::MediaStreamRequestResult result) {
content::MediaResponseCallback cb = callback_;
callback_.Reset();
cb.Run(content::MediaStreamDevices(), result,
std::unique_ptr<content::MediaStreamUI>());
}
void MediaStreamDevicesController::HandleUserMediaRequest() {
content::MediaStreamDevices devices;
if (request_.audio_type == content::MEDIA_TAB_AUDIO_CAPTURE) {
devices.push_back(
content::MediaStreamDevice(content::MEDIA_TAB_AUDIO_CAPTURE, "", ""));
}
if (request_.video_type == content::MEDIA_TAB_VIDEO_CAPTURE) {
devices.push_back(
content::MediaStreamDevice(content::MEDIA_TAB_VIDEO_CAPTURE, "", ""));
}
if (request_.audio_type == content::MEDIA_DESKTOP_AUDIO_CAPTURE) {
devices.push_back(content::MediaStreamDevice(
content::MEDIA_DESKTOP_AUDIO_CAPTURE, "loopback", "System Audio"));
}
if (request_.video_type == content::MEDIA_DESKTOP_VIDEO_CAPTURE) {
content::DesktopMediaID screen_id;
// If the device id wasn't specified then this is a screen capture request
// (i.e. chooseDesktopMedia() API wasn't used to generate device id).
if (request_.requested_video_device_id.empty()) {
screen_id = content::DesktopMediaID(content::DesktopMediaID::TYPE_SCREEN,
-1 /* kFullDesktopScreenId */);
} else {
screen_id =
content::DesktopMediaID::Parse(request_.requested_video_device_id);
}
devices.push_back(content::MediaStreamDevice(
content::MEDIA_DESKTOP_VIDEO_CAPTURE, screen_id.ToString(), "Screen"));
}
content::MediaResponseCallback cb = callback_;
callback_.Reset();
cb.Run(devices,
devices.empty() ? content::MEDIA_DEVICE_INVALID_STATE
: content::MEDIA_DEVICE_OK,
std::unique_ptr<content::MediaStreamUI>());
}
} // namespace brightray
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