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webrtc / src / d44e3410b60d63696f303dc498b9ad2086770041 / . / modules / desktop_capture / win / wgc_capturer_win_unittest.cc
blob: a7b656fcfc51f9934be4828526db32164214566c [file] [log] [blame]
/*
* Copyright (c) 2020 The WebRTC project authors. All Rights Reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
#include "modules/desktop_capture/win/wgc_capturer_win.h"
#include <string>
#include <utility>
#include <vector>
#include "modules/desktop_capture/desktop_capture_options.h"
#include "modules/desktop_capture/desktop_capture_types.h"
#include "modules/desktop_capture/desktop_capturer.h"
#include "modules/desktop_capture/win/test_support/test_window.h"
#include "modules/desktop_capture/win/wgc_capture_session.h"
#include "modules/desktop_capture/win/window_capture_utils.h"
#include "rtc_base/checks.h"
#include "rtc_base/logging.h"
#include "rtc_base/task_queue_for_test.h"
#include "rtc_base/thread.h"
#include "rtc_base/time_utils.h"
#include "rtc_base/win/scoped_com_initializer.h"
#include "rtc_base/win/windows_version.h"
#include "system_wrappers/include/metrics.h"
#include "system_wrappers/include/sleep.h"
#include "test/gtest.h"
namespace webrtc {
namespace {
constexpr char kWindowThreadName[] = "wgc_capturer_test_window_thread";
constexpr WCHAR kWindowTitle[] = L"WGC Capturer Test Window";
constexpr char kCapturerImplHistogram[] =
"WebRTC.DesktopCapture.Win.DesktopCapturerImpl";
constexpr char kCapturerResultHistogram[] =
"WebRTC.DesktopCapture.Win.WgcCapturerResult";
constexpr int kSuccess = 0;
constexpr int kSessionStartFailure = 4;
constexpr char kCaptureSessionResultHistogram[] =
"WebRTC.DesktopCapture.Win.WgcCaptureSessionStartResult";
constexpr int kSourceClosed = 1;
constexpr char kCaptureTimeHistogram[] =
"WebRTC.DesktopCapture.Win.WgcCapturerFrameTime";
// The capturer keeps `kNumBuffers` in its frame pool, so we need to request
// that many frames to clear those out. The next frame will have the new size
// (if the size has changed) so we will resize the frame pool at this point.
// Then, we need to clear any frames that may have delivered to the frame pool
// before the resize. Finally, the next frame will be guaranteed to be the new
// size.
constexpr int kNumCapturesToFlushBuffers =
WgcCaptureSession::kNumBuffers * 2 + 1;
constexpr int kSmallWindowWidth = 200;
constexpr int kSmallWindowHeight = 100;
constexpr int kMediumWindowWidth = 300;
constexpr int kMediumWindowHeight = 200;
constexpr int kLargeWindowWidth = 400;
constexpr int kLargeWindowHeight = 500;
// The size of the image we capture is slightly smaller than the actual size of
// the window.
constexpr int kWindowWidthSubtrahend = 14;
constexpr int kWindowHeightSubtrahend = 7;
// Custom message constants so we can direct our thread to close windows and
// quit running.
constexpr UINT kDestroyWindow = WM_APP;
constexpr UINT kQuitRunning = WM_APP + 1;
// When testing changes to real windows, sometimes the effects (close or resize)
// don't happen immediately, we want to keep trying until we see the effect but
// only for a reasonable amount of time.
constexpr int kMaxTries = 50;
} // namespace
class WgcCapturerWinTest : public ::testing::TestWithParam<CaptureType>,
public DesktopCapturer::Callback {
public:
void SetUp() override {
com_initializer_ =
std::make_unique<ScopedCOMInitializer>(ScopedCOMInitializer::kMTA);
EXPECT_TRUE(com_initializer_->Succeeded());
if (!IsWgcSupported(GetParam())) {
RTC_LOG(LS_INFO)
<< "Skipping WgcCapturerWinTests on unsupported platforms.";
GTEST_SKIP();
}
}
void SetUpForWindowCapture(int window_width = kMediumWindowWidth,
int window_height = kMediumWindowHeight) {
capturer_ = WgcCapturerWin::CreateRawWindowCapturer(
DesktopCaptureOptions::CreateDefault());
CreateWindowOnSeparateThread(window_width, window_height);
StartWindowThreadMessageLoop();
source_id_ = GetTestWindowIdFromSourceList();
}
void SetUpForScreenCapture() {
capturer_ = WgcCapturerWin::CreateRawScreenCapturer(
DesktopCaptureOptions::CreateDefault());
source_id_ = GetScreenIdFromSourceList();
}
void TearDown() override {
if (window_open_) {
CloseTestWindow();
}
}
// The window must live on a separate thread so that we can run a message pump
// without blocking the test thread. This is necessary if we are interested in
// having GraphicsCaptureItem events (i.e. the Closed event) fire, and it more
// closely resembles how capture works in the wild.
void CreateWindowOnSeparateThread(int window_width, int window_height) {
window_thread_ = rtc::Thread::Create();
window_thread_->SetName(kWindowThreadName, nullptr);
window_thread_->Start();
SendTask(window_thread_.get(), [this, window_width, window_height]() {
window_thread_id_ = GetCurrentThreadId();
window_info_ =
CreateTestWindow(kWindowTitle, window_height, window_width);
window_open_ = true;
while (!IsWindowResponding(window_info_.hwnd)) {
RTC_LOG(LS_INFO) << "Waiting for test window to become responsive in "
"WgcWindowCaptureTest.";
}
while (!IsWindowValidAndVisible(window_info_.hwnd)) {
RTC_LOG(LS_INFO) << "Waiting for test window to be visible in "
"WgcWindowCaptureTest.";
}
});
ASSERT_TRUE(window_thread_->RunningForTest());
ASSERT_FALSE(window_thread_->IsCurrent());
}
void StartWindowThreadMessageLoop() {
window_thread_->PostTask([this]() {
MSG msg;
BOOL gm;
while ((gm = ::GetMessage(&msg, NULL, 0, 0)) != 0 && gm != -1) {
::DispatchMessage(&msg);
if (msg.message == kDestroyWindow) {
DestroyTestWindow(window_info_);
}
if (msg.message == kQuitRunning) {
PostQuitMessage(0);
}
}
});
}
void CloseTestWindow() {
::PostThreadMessage(window_thread_id_, kDestroyWindow, 0, 0);
::PostThreadMessage(window_thread_id_, kQuitRunning, 0, 0);
window_thread_->Stop();
window_open_ = false;
}
DesktopCapturer::SourceId GetTestWindowIdFromSourceList() {
// Frequently, the test window will not show up in GetSourceList because it
// was created too recently. Since we are confident the window will be found
// eventually we loop here until we find it.
intptr_t src_id = 0;
do {
DesktopCapturer::SourceList sources;
EXPECT_TRUE(capturer_->GetSourceList(&sources));
auto it = std::find_if(
sources.begin(), sources.end(),
[&](const DesktopCapturer::Source& src) {
return src.id == reinterpret_cast<intptr_t>(window_info_.hwnd);
});
if (it != sources.end())
src_id = it->id;
} while (src_id != reinterpret_cast<intptr_t>(window_info_.hwnd));
return src_id;
}
DesktopCapturer::SourceId GetScreenIdFromSourceList() {
DesktopCapturer::SourceList sources;
EXPECT_TRUE(capturer_->GetSourceList(&sources));
EXPECT_GT(sources.size(), 0ULL);
return sources[0].id;
}
void DoCapture(int num_captures = 1) {
// Capture the requested number of frames. We expect the first capture to
// always succeed. If we're asked for multiple frames, we do expect to see a
// a couple dropped frames due to resizing the window.
const int max_tries = num_captures == 1 ? 1 : kMaxTries;
int success_count = 0;
for (int i = 0; success_count < num_captures && i < max_tries; i++) {
capturer_->CaptureFrame();
if (result_ == DesktopCapturer::Result::ERROR_PERMANENT)
break;
if (result_ == DesktopCapturer::Result::SUCCESS)
success_count++;
}
total_successful_captures_ += success_count;
EXPECT_EQ(success_count, num_captures);
EXPECT_EQ(result_, DesktopCapturer::Result::SUCCESS);
EXPECT_TRUE(frame_);
EXPECT_GE(metrics::NumEvents(kCapturerResultHistogram, kSuccess),
total_successful_captures_);
}
void ValidateFrame(int expected_width, int expected_height) {
EXPECT_EQ(frame_->size().width(), expected_width - kWindowWidthSubtrahend);
EXPECT_EQ(frame_->size().height(),
expected_height - kWindowHeightSubtrahend);
// Verify the buffer contains as much data as it should.
int data_length = frame_->stride() * frame_->size().height();
// The first and last pixel should have the same color because they will be
// from the border of the window.
// Pixels have 4 bytes of data so the whole pixel needs a uint32_t to fit.
uint32_t first_pixel = static_cast<uint32_t>(*frame_->data());
uint32_t last_pixel = static_cast<uint32_t>(
*(frame_->data() + data_length - DesktopFrame::kBytesPerPixel));
EXPECT_EQ(first_pixel, last_pixel);
// Let's also check a pixel from the middle of the content area, which the
// test window will paint a consistent color for us to verify.
uint8_t* middle_pixel = frame_->data() + (data_length / 2);
int sub_pixel_offset = DesktopFrame::kBytesPerPixel / 4;
EXPECT_EQ(*middle_pixel, kTestWindowBValue);
middle_pixel += sub_pixel_offset;
EXPECT_EQ(*middle_pixel, kTestWindowGValue);
middle_pixel += sub_pixel_offset;
EXPECT_EQ(*middle_pixel, kTestWindowRValue);
middle_pixel += sub_pixel_offset;
// The window is opaque so we expect 0xFF for the Alpha channel.
EXPECT_EQ(*middle_pixel, 0xFF);
}
// DesktopCapturer::Callback interface
// The capturer synchronously invokes this method before `CaptureFrame()`
// returns.
void OnCaptureResult(DesktopCapturer::Result result,
std::unique_ptr<DesktopFrame> frame) override {
result_ = result;
frame_ = std::move(frame);
}
protected:
std::unique_ptr<ScopedCOMInitializer> com_initializer_;
DWORD window_thread_id_;
std::unique_ptr<rtc::Thread> window_thread_;
WindowInfo window_info_;
intptr_t source_id_;
bool window_open_ = false;
DesktopCapturer::Result result_;
int total_successful_captures_ = 0;
std::unique_ptr<DesktopFrame> frame_;
std::unique_ptr<DesktopCapturer> capturer_;
};
TEST_P(WgcCapturerWinTest, SelectValidSource) {
if (GetParam() == CaptureType::kWindow) {
SetUpForWindowCapture();
} else {
SetUpForScreenCapture();
}
EXPECT_TRUE(capturer_->SelectSource(source_id_));
}
TEST_P(WgcCapturerWinTest, SelectInvalidSource) {
if (GetParam() == CaptureType::kWindow) {
capturer_ = WgcCapturerWin::CreateRawWindowCapturer(
DesktopCaptureOptions::CreateDefault());
source_id_ = kNullWindowId;
} else {
capturer_ = WgcCapturerWin::CreateRawScreenCapturer(
DesktopCaptureOptions::CreateDefault());
source_id_ = kInvalidScreenId;
}
EXPECT_FALSE(capturer_->SelectSource(source_id_));
}
TEST_P(WgcCapturerWinTest, Capture) {
if (GetParam() == CaptureType::kWindow) {
SetUpForWindowCapture();
} else {
SetUpForScreenCapture();
}
EXPECT_TRUE(capturer_->SelectSource(source_id_));
capturer_->Start(this);
EXPECT_GE(metrics::NumEvents(kCapturerImplHistogram,
DesktopCapturerId::kWgcCapturerWin),
1);
DoCapture();
EXPECT_GT(frame_->size().width(), 0);
EXPECT_GT(frame_->size().height(), 0);
}
TEST_P(WgcCapturerWinTest, CaptureTime) {
if (GetParam() == CaptureType::kWindow) {
SetUpForWindowCapture();
} else {
SetUpForScreenCapture();
}
EXPECT_TRUE(capturer_->SelectSource(source_id_));
capturer_->Start(this);
int64_t start_time;
start_time = rtc::TimeNanos();
capturer_->CaptureFrame();
int capture_time_ms =
(rtc::TimeNanos() - start_time) / rtc::kNumNanosecsPerMillisec;
EXPECT_EQ(result_, DesktopCapturer::Result::SUCCESS);
EXPECT_TRUE(frame_);
// The test may measure the time slightly differently than the capturer. So we
// just check if it's within 5 ms.
EXPECT_NEAR(frame_->capture_time_ms(), capture_time_ms, 5);
EXPECT_GE(
metrics::NumEvents(kCaptureTimeHistogram, frame_->capture_time_ms()), 1);
}
INSTANTIATE_TEST_SUITE_P(SourceAgnostic,
WgcCapturerWinTest,
::testing::Values(CaptureType::kWindow,
CaptureType::kScreen));
TEST(WgcCapturerNoMonitorTest, NoMonitors) {
ScopedCOMInitializer com_initializer(ScopedCOMInitializer::kMTA);
EXPECT_TRUE(com_initializer.Succeeded());
if (HasActiveDisplay()) {
RTC_LOG(LS_INFO) << "Skip WgcCapturerWinTest designed specifically for "
"systems with no monitors";
GTEST_SKIP();
}
// A bug in `CreateForMonitor` prevents screen capture when no displays are
// attached.
EXPECT_FALSE(IsWgcSupported(CaptureType::kScreen));
// A bug in the DWM (Desktop Window Manager) prevents it from providing image
// data if there are no displays attached. This was fixed in Windows 11.
if (rtc::rtc_win::GetVersion() < rtc::rtc_win::Version::VERSION_WIN11)
EXPECT_FALSE(IsWgcSupported(CaptureType::kWindow));
else
EXPECT_TRUE(IsWgcSupported(CaptureType::kWindow));
}
class WgcCapturerMonitorTest : public WgcCapturerWinTest {
public:
void SetUp() {
com_initializer_ =
std::make_unique<ScopedCOMInitializer>(ScopedCOMInitializer::kMTA);
EXPECT_TRUE(com_initializer_->Succeeded());
if (!IsWgcSupported(CaptureType::kScreen)) {
RTC_LOG(LS_INFO)
<< "Skipping WgcCapturerWinTests on unsupported platforms.";
GTEST_SKIP();
}
}
};
TEST_F(WgcCapturerMonitorTest, FocusOnMonitor) {
SetUpForScreenCapture();
EXPECT_TRUE(capturer_->SelectSource(0));
// You can't set focus on a monitor.
EXPECT_FALSE(capturer_->FocusOnSelectedSource());
}
TEST_F(WgcCapturerMonitorTest, CaptureAllMonitors) {
SetUpForScreenCapture();
EXPECT_TRUE(capturer_->SelectSource(kFullDesktopScreenId));
capturer_->Start(this);
DoCapture();
EXPECT_GT(frame_->size().width(), 0);
EXPECT_GT(frame_->size().height(), 0);
}
class WgcCapturerWindowTest : public WgcCapturerWinTest {
public:
void SetUp() {
com_initializer_ =
std::make_unique<ScopedCOMInitializer>(ScopedCOMInitializer::kMTA);
EXPECT_TRUE(com_initializer_->Succeeded());
if (!IsWgcSupported(CaptureType::kWindow)) {
RTC_LOG(LS_INFO)
<< "Skipping WgcCapturerWinTests on unsupported platforms.";
GTEST_SKIP();
}
}
};
TEST_F(WgcCapturerWindowTest, FocusOnWindow) {
capturer_ = WgcCapturerWin::CreateRawWindowCapturer(
DesktopCaptureOptions::CreateDefault());
window_info_ = CreateTestWindow(kWindowTitle);
source_id_ = GetScreenIdFromSourceList();
EXPECT_TRUE(capturer_->SelectSource(source_id_));
EXPECT_TRUE(capturer_->FocusOnSelectedSource());
HWND hwnd = reinterpret_cast<HWND>(source_id_);
EXPECT_EQ(hwnd, ::GetActiveWindow());
EXPECT_EQ(hwnd, ::GetForegroundWindow());
EXPECT_EQ(hwnd, ::GetFocus());
DestroyTestWindow(window_info_);
}
TEST_F(WgcCapturerWindowTest, SelectMinimizedWindow) {
SetUpForWindowCapture();
MinimizeTestWindow(reinterpret_cast<HWND>(source_id_));
EXPECT_FALSE(capturer_->SelectSource(source_id_));
UnminimizeTestWindow(reinterpret_cast<HWND>(source_id_));
EXPECT_TRUE(capturer_->SelectSource(source_id_));
}
TEST_F(WgcCapturerWindowTest, SelectClosedWindow) {
SetUpForWindowCapture();
EXPECT_TRUE(capturer_->SelectSource(source_id_));
CloseTestWindow();
EXPECT_FALSE(capturer_->SelectSource(source_id_));
}
TEST_F(WgcCapturerWindowTest, UnsupportedWindowStyle) {
// Create a window with the WS_EX_TOOLWINDOW style, which WGC does not
// support.
window_info_ = CreateTestWindow(kWindowTitle, kMediumWindowWidth,
kMediumWindowHeight, WS_EX_TOOLWINDOW);
capturer_ = WgcCapturerWin::CreateRawWindowCapturer(
DesktopCaptureOptions::CreateDefault());
DesktopCapturer::SourceList sources;
EXPECT_TRUE(capturer_->GetSourceList(&sources));
auto it = std::find_if(
sources.begin(), sources.end(), [&](const DesktopCapturer::Source& src) {
return src.id == reinterpret_cast<intptr_t>(window_info_.hwnd);
});
// We should not find the window, since we filter for unsupported styles.
EXPECT_EQ(it, sources.end());
DestroyTestWindow(window_info_);
}
TEST_F(WgcCapturerWindowTest, IncreaseWindowSizeMidCapture) {
SetUpForWindowCapture(kSmallWindowWidth, kSmallWindowHeight);
EXPECT_TRUE(capturer_->SelectSource(source_id_));
capturer_->Start(this);
DoCapture();
ValidateFrame(kSmallWindowWidth, kSmallWindowHeight);
ResizeTestWindow(window_info_.hwnd, kSmallWindowWidth, kMediumWindowHeight);
DoCapture(kNumCapturesToFlushBuffers);
ValidateFrame(kSmallWindowWidth, kMediumWindowHeight);
ResizeTestWindow(window_info_.hwnd, kLargeWindowWidth, kMediumWindowHeight);
DoCapture(kNumCapturesToFlushBuffers);
ValidateFrame(kLargeWindowWidth, kMediumWindowHeight);
}
TEST_F(WgcCapturerWindowTest, ReduceWindowSizeMidCapture) {
SetUpForWindowCapture(kLargeWindowWidth, kLargeWindowHeight);
EXPECT_TRUE(capturer_->SelectSource(source_id_));
capturer_->Start(this);
DoCapture();
ValidateFrame(kLargeWindowWidth, kLargeWindowHeight);
ResizeTestWindow(window_info_.hwnd, kLargeWindowWidth, kMediumWindowHeight);
DoCapture(kNumCapturesToFlushBuffers);
ValidateFrame(kLargeWindowWidth, kMediumWindowHeight);
ResizeTestWindow(window_info_.hwnd, kSmallWindowWidth, kMediumWindowHeight);
DoCapture(kNumCapturesToFlushBuffers);
ValidateFrame(kSmallWindowWidth, kMediumWindowHeight);
}
TEST_F(WgcCapturerWindowTest, MinimizeWindowMidCapture) {
SetUpForWindowCapture();
EXPECT_TRUE(capturer_->SelectSource(source_id_));
capturer_->Start(this);
// Minmize the window and capture should continue but return temporary errors.
MinimizeTestWindow(window_info_.hwnd);
for (int i = 0; i < 5; ++i) {
capturer_->CaptureFrame();
EXPECT_EQ(result_, DesktopCapturer::Result::ERROR_TEMPORARY);
}
// Reopen the window and the capture should continue normally.
UnminimizeTestWindow(window_info_.hwnd);
DoCapture();
// We can't verify the window size here because the test window does not
// repaint itself after it is unminimized, but capturing successfully is still
// a good test.
}
TEST_F(WgcCapturerWindowTest, CloseWindowMidCapture) {
SetUpForWindowCapture();
EXPECT_TRUE(capturer_->SelectSource(source_id_));
capturer_->Start(this);
DoCapture();
ValidateFrame(kMediumWindowWidth, kMediumWindowHeight);
CloseTestWindow();
// We need to pump our message queue so the Closed event will be delivered to
// the capturer's event handler. If we are too early and the Closed event
// hasn't arrived yet we should keep trying until the capturer receives it and
// stops.
auto* wgc_capturer = static_cast<WgcCapturerWin*>(capturer_.get());
MSG msg;
for (int i = 0;
wgc_capturer->IsSourceBeingCaptured(source_id_) && i < kMaxTries; ++i) {
// Unlike GetMessage, PeekMessage will not hang if there are no messages in
// the queue.
PeekMessage(&msg, 0, 0, 0, PM_REMOVE);
SleepMs(1);
}
EXPECT_FALSE(wgc_capturer->IsSourceBeingCaptured(source_id_));
// The frame pool can buffer `kNumBuffers` frames. We must consume these
// and then make one more call to CaptureFrame before we expect to see the
// failure.
int num_tries = 0;
do {
capturer_->CaptureFrame();
} while (result_ == DesktopCapturer::Result::SUCCESS &&
++num_tries <= WgcCaptureSession::kNumBuffers);
EXPECT_GE(metrics::NumEvents(kCapturerResultHistogram, kSessionStartFailure),
1);
EXPECT_GE(metrics::NumEvents(kCaptureSessionResultHistogram, kSourceClosed),
1);
EXPECT_EQ(result_, DesktopCapturer::Result::ERROR_PERMANENT);
}
} // namespace webrtc