blob: e6746578ada43fe0a01bc8e705c96cc857d8398d [file] [log] [blame]
/*
* Copyright (c) 2013 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 <utility>
#include "modules/desktop_capture/mac/screen_capturer_mac.h"
#include "modules/desktop_capture/mac/desktop_frame_provider.h"
#include "modules/desktop_capture/mac/window_list_utils.h"
#include "rtc_base/checks.h"
#include "rtc_base/logging.h"
#include "rtc_base/time_utils.h"
#include "rtc_base/trace_event.h"
#include "sdk/objc/helpers/scoped_cftyperef.h"
namespace webrtc {
namespace {
// Scales all coordinates of a rect by a specified factor.
DesktopRect ScaleAndRoundCGRect(const CGRect& rect, float scale) {
return DesktopRect::MakeLTRB(static_cast<int>(floor(rect.origin.x * scale)),
static_cast<int>(floor(rect.origin.y * scale)),
static_cast<int>(ceil((rect.origin.x + rect.size.width) * scale)),
static_cast<int>(ceil((rect.origin.y + rect.size.height) * scale)));
}
// Copy pixels in the `rect` from `src_place` to `dest_plane`. `rect` should be
// relative to the origin of `src_plane` and `dest_plane`.
void CopyRect(const uint8_t* src_plane,
int src_plane_stride,
uint8_t* dest_plane,
int dest_plane_stride,
int bytes_per_pixel,
const DesktopRect& rect) {
// Get the address of the starting point.
const int src_y_offset = src_plane_stride * rect.top();
const int dest_y_offset = dest_plane_stride * rect.top();
const int x_offset = bytes_per_pixel * rect.left();
src_plane += src_y_offset + x_offset;
dest_plane += dest_y_offset + x_offset;
// Copy pixels in the rectangle line by line.
const int bytes_per_line = bytes_per_pixel * rect.width();
const int height = rect.height();
for (int i = 0; i < height; ++i) {
memcpy(dest_plane, src_plane, bytes_per_line);
src_plane += src_plane_stride;
dest_plane += dest_plane_stride;
}
}
// Returns an array of CGWindowID for all the on-screen windows except
// `window_to_exclude`, or NULL if the window is not found or it fails. The
// caller should release the returned CFArrayRef.
CFArrayRef CreateWindowListWithExclusion(CGWindowID window_to_exclude) {
if (!window_to_exclude) return nullptr;
CFArrayRef all_windows =
CGWindowListCopyWindowInfo(kCGWindowListOptionOnScreenOnly, kCGNullWindowID);
if (!all_windows) return nullptr;
CFMutableArrayRef returned_array =
CFArrayCreateMutable(nullptr, CFArrayGetCount(all_windows), nullptr);
bool found = false;
for (CFIndex i = 0; i < CFArrayGetCount(all_windows); ++i) {
CFDictionaryRef window =
reinterpret_cast<CFDictionaryRef>(CFArrayGetValueAtIndex(all_windows, i));
CGWindowID id = GetWindowId(window);
if (id == window_to_exclude) {
found = true;
continue;
}
CFArrayAppendValue(returned_array, reinterpret_cast<void*>(id));
}
CFRelease(all_windows);
if (!found) {
CFRelease(returned_array);
returned_array = nullptr;
}
return returned_array;
}
// Returns the bounds of `window` in physical pixels, enlarged by a small amount
// on four edges to take account of the border/shadow effects.
DesktopRect GetExcludedWindowPixelBounds(CGWindowID window, float dip_to_pixel_scale) {
// The amount of pixels to add to the actual window bounds to take into
// account of the border/shadow effects.
static const int kBorderEffectSize = 20;
CGRect rect;
CGWindowID ids[1];
ids[0] = window;
CFArrayRef window_id_array =
CFArrayCreate(nullptr, reinterpret_cast<const void**>(&ids), 1, nullptr);
CFArrayRef window_array = CGWindowListCreateDescriptionFromArray(window_id_array);
if (CFArrayGetCount(window_array) > 0) {
CFDictionaryRef win =
reinterpret_cast<CFDictionaryRef>(CFArrayGetValueAtIndex(window_array, 0));
CFDictionaryRef bounds_ref =
reinterpret_cast<CFDictionaryRef>(CFDictionaryGetValue(win, kCGWindowBounds));
CGRectMakeWithDictionaryRepresentation(bounds_ref, &rect);
}
CFRelease(window_id_array);
CFRelease(window_array);
rect.origin.x -= kBorderEffectSize;
rect.origin.y -= kBorderEffectSize;
rect.size.width += kBorderEffectSize * 2;
rect.size.height += kBorderEffectSize * 2;
// `rect` is in DIP, so convert to physical pixels.
return ScaleAndRoundCGRect(rect, dip_to_pixel_scale);
}
// Create an image of the given region using the given `window_list`.
// `pixel_bounds` should be in the primary display's coordinate in physical
// pixels.
rtc::ScopedCFTypeRef<CGImageRef> CreateExcludedWindowRegionImage(const DesktopRect& pixel_bounds,
float dip_to_pixel_scale,
CFArrayRef window_list) {
CGRect window_bounds;
// The origin is in DIP while the size is in physical pixels. That's what
// CGWindowListCreateImageFromArray expects.
window_bounds.origin.x = pixel_bounds.left() / dip_to_pixel_scale;
window_bounds.origin.y = pixel_bounds.top() / dip_to_pixel_scale;
window_bounds.size.width = pixel_bounds.width();
window_bounds.size.height = pixel_bounds.height();
return rtc::ScopedCFTypeRef<CGImageRef>(
CGWindowListCreateImageFromArray(window_bounds, window_list, kCGWindowImageDefault));
}
} // namespace
ScreenCapturerMac::ScreenCapturerMac(
rtc::scoped_refptr<DesktopConfigurationMonitor> desktop_config_monitor,
bool detect_updated_region,
bool allow_iosurface)
: detect_updated_region_(detect_updated_region),
desktop_config_monitor_(desktop_config_monitor),
desktop_frame_provider_(allow_iosurface) {
RTC_LOG(LS_INFO) << "Allow IOSurface: " << allow_iosurface;
thread_checker_.Detach();
}
ScreenCapturerMac::~ScreenCapturerMac() {
RTC_DCHECK(thread_checker_.IsCurrent());
ReleaseBuffers();
UnregisterRefreshAndMoveHandlers();
}
bool ScreenCapturerMac::Init() {
TRACE_EVENT0("webrtc", "ScreenCapturerMac::Init");
desktop_config_ = desktop_config_monitor_->desktop_configuration();
return true;
}
void ScreenCapturerMac::ReleaseBuffers() {
// The buffers might be in use by the encoder, so don't delete them here.
// Instead, mark them as "needs update"; next time the buffers are used by
// the capturer, they will be recreated if necessary.
queue_.Reset();
}
void ScreenCapturerMac::Start(Callback* callback) {
RTC_DCHECK(thread_checker_.IsCurrent());
RTC_DCHECK(!callback_);
RTC_DCHECK(callback);
TRACE_EVENT_INSTANT1("webrtc",
"ScreenCapturermac::Start",
TRACE_EVENT_SCOPE_GLOBAL,
"target display id ",
current_display_);
callback_ = callback;
// Start and operate CGDisplayStream handler all from capture thread.
if (!RegisterRefreshAndMoveHandlers()) {
RTC_LOG(LS_ERROR) << "Failed to register refresh and move handlers.";
callback_->OnCaptureResult(Result::ERROR_PERMANENT, nullptr);
return;
}
ScreenConfigurationChanged();
}
void ScreenCapturerMac::CaptureFrame() {
RTC_DCHECK(thread_checker_.IsCurrent());
TRACE_EVENT0("webrtc", "creenCapturerMac::CaptureFrame");
int64_t capture_start_time_nanos = rtc::TimeNanos();
queue_.MoveToNextFrame();
if (queue_.current_frame() && queue_.current_frame()->IsShared()) {
RTC_DLOG(LS_WARNING) << "Overwriting frame that is still shared.";
}
MacDesktopConfiguration new_config = desktop_config_monitor_->desktop_configuration();
if (!desktop_config_.Equals(new_config)) {
desktop_config_ = new_config;
// If the display configuraiton has changed then refresh capturer data
// structures. Occasionally, the refresh and move handlers are lost when
// the screen mode changes, so re-register them here.
UnregisterRefreshAndMoveHandlers();
if (!RegisterRefreshAndMoveHandlers()) {
RTC_LOG(LS_ERROR) << "Failed to register refresh and move handlers.";
callback_->OnCaptureResult(Result::ERROR_PERMANENT, nullptr);
return;
}
ScreenConfigurationChanged();
}
// When screen is zoomed in/out, OSX only updates the part of Rects currently
// displayed on screen, with relative location to current top-left on screen.
// This will cause problems when we copy the dirty regions to the captured
// image. So we invalidate the whole screen to copy all the screen contents.
// With CGI method, the zooming will be ignored and the whole screen contents
// will be captured as before.
// With IOSurface method, the zoomed screen contents will be captured.
if (UAZoomEnabled()) {
helper_.InvalidateScreen(screen_pixel_bounds_.size());
}
DesktopRegion region;
helper_.TakeInvalidRegion(&region);
// If the current buffer is from an older generation then allocate a new one.
// Note that we can't reallocate other buffers at this point, since the caller
// may still be reading from them.
if (!queue_.current_frame()) queue_.ReplaceCurrentFrame(SharedDesktopFrame::Wrap(CreateFrame()));
DesktopFrame* current_frame = queue_.current_frame();
if (!CgBlit(*current_frame, region)) {
callback_->OnCaptureResult(Result::ERROR_PERMANENT, nullptr);
return;
}
std::unique_ptr<DesktopFrame> new_frame = queue_.current_frame()->Share();
if (detect_updated_region_) {
*new_frame->mutable_updated_region() = region;
} else {
new_frame->mutable_updated_region()->AddRect(DesktopRect::MakeSize(new_frame->size()));
}
if (current_display_) {
const MacDisplayConfiguration* config =
desktop_config_.FindDisplayConfigurationById(current_display_);
if (config) {
new_frame->set_top_left(
config->bounds.top_left().subtract(desktop_config_.bounds.top_left()));
}
}
helper_.set_size_most_recent(new_frame->size());
new_frame->set_capture_time_ms((rtc::TimeNanos() - capture_start_time_nanos) /
rtc::kNumNanosecsPerMillisec);
callback_->OnCaptureResult(Result::SUCCESS, std::move(new_frame));
}
void ScreenCapturerMac::SetExcludedWindow(WindowId window) {
excluded_window_ = window;
}
bool ScreenCapturerMac::GetSourceList(SourceList* screens) {
RTC_DCHECK(screens->size() == 0);
for (MacDisplayConfigurations::iterator it = desktop_config_.displays.begin();
it != desktop_config_.displays.end();
++it) {
screens->push_back({it->id, std::string()});
}
return true;
}
bool ScreenCapturerMac::SelectSource(SourceId id) {
if (id == kFullDesktopScreenId) {
current_display_ = 0;
} else {
const MacDisplayConfiguration* config =
desktop_config_.FindDisplayConfigurationById(static_cast<CGDirectDisplayID>(id));
if (!config) return false;
current_display_ = config->id;
}
ScreenConfigurationChanged();
return true;
}
bool ScreenCapturerMac::CgBlit(const DesktopFrame& frame, const DesktopRegion& region) {
// If not all screen region is dirty, copy the entire contents of the previous capture buffer,
// to capture over.
if (queue_.previous_frame() && !region.Equals(DesktopRegion(screen_pixel_bounds_))) {
memcpy(frame.data(), queue_.previous_frame()->data(), frame.stride() * frame.size().height());
}
MacDisplayConfigurations displays_to_capture;
if (current_display_) {
// Capturing a single screen. Note that the screen id may change when
// screens are added or removed.
const MacDisplayConfiguration* config =
desktop_config_.FindDisplayConfigurationById(current_display_);
if (config) {
displays_to_capture.push_back(*config);
} else {
RTC_LOG(LS_ERROR) << "The selected screen cannot be found for capturing.";
return false;
}
} else {
// Capturing the whole desktop.
displays_to_capture = desktop_config_.displays;
}
// Create the window list once for all displays.
CFArrayRef window_list = CreateWindowListWithExclusion(excluded_window_);
for (size_t i = 0; i < displays_to_capture.size(); ++i) {
const MacDisplayConfiguration& display_config = displays_to_capture[i];
// Capturing mixed-DPI on one surface is hard, so we only return displays
// that match the "primary" display's DPI. The primary display is always
// the first in the list.
if (i > 0 && display_config.dip_to_pixel_scale != displays_to_capture[0].dip_to_pixel_scale) {
continue;
}
// Determine the display's position relative to the desktop, in pixels.
DesktopRect display_bounds = display_config.pixel_bounds;
display_bounds.Translate(-screen_pixel_bounds_.left(), -screen_pixel_bounds_.top());
// Determine which parts of the blit region, if any, lay within the monitor.
DesktopRegion copy_region = region;
copy_region.IntersectWith(display_bounds);
if (copy_region.is_empty()) continue;
// Translate the region to be copied into display-relative coordinates.
copy_region.Translate(-display_bounds.left(), -display_bounds.top());
DesktopRect excluded_window_bounds;
rtc::ScopedCFTypeRef<CGImageRef> excluded_image;
if (excluded_window_ && window_list) {
// Get the region of the excluded window relative the primary display.
excluded_window_bounds =
GetExcludedWindowPixelBounds(excluded_window_, display_config.dip_to_pixel_scale);
excluded_window_bounds.IntersectWith(display_config.pixel_bounds);
// Create the image under the excluded window first, because it's faster
// than captuing the whole display.
if (!excluded_window_bounds.is_empty()) {
excluded_image = CreateExcludedWindowRegionImage(
excluded_window_bounds, display_config.dip_to_pixel_scale, window_list);
}
}
std::unique_ptr<DesktopFrame> frame_source =
desktop_frame_provider_.TakeLatestFrameForDisplay(display_config.id);
if (!frame_source) {
continue;
}
const uint8_t* display_base_address = frame_source->data();
int src_bytes_per_row = frame_source->stride();
RTC_DCHECK(display_base_address);
// `frame_source` size may be different from display_bounds in case the screen was
// resized recently.
copy_region.IntersectWith(frame_source->rect());
// Copy the dirty region from the display buffer into our desktop buffer.
uint8_t* out_ptr = frame.GetFrameDataAtPos(display_bounds.top_left());
for (DesktopRegion::Iterator it(copy_region); !it.IsAtEnd(); it.Advance()) {
CopyRect(display_base_address,
src_bytes_per_row,
out_ptr,
frame.stride(),
DesktopFrame::kBytesPerPixel,
it.rect());
}
if (excluded_image) {
CGDataProviderRef provider = CGImageGetDataProvider(excluded_image.get());
rtc::ScopedCFTypeRef<CFDataRef> excluded_image_data(CGDataProviderCopyData(provider));
RTC_DCHECK(excluded_image_data);
display_base_address = CFDataGetBytePtr(excluded_image_data.get());
src_bytes_per_row = CGImageGetBytesPerRow(excluded_image.get());
// Translate the bounds relative to the desktop, because `frame` data
// starts from the desktop top-left corner.
DesktopRect window_bounds_relative_to_desktop(excluded_window_bounds);
window_bounds_relative_to_desktop.Translate(-screen_pixel_bounds_.left(),
-screen_pixel_bounds_.top());
DesktopRect rect_to_copy = DesktopRect::MakeSize(excluded_window_bounds.size());
rect_to_copy.IntersectWith(DesktopRect::MakeWH(CGImageGetWidth(excluded_image.get()),
CGImageGetHeight(excluded_image.get())));
if (CGImageGetBitsPerPixel(excluded_image.get()) / 8 == DesktopFrame::kBytesPerPixel) {
CopyRect(display_base_address,
src_bytes_per_row,
frame.GetFrameDataAtPos(window_bounds_relative_to_desktop.top_left()),
frame.stride(),
DesktopFrame::kBytesPerPixel,
rect_to_copy);
}
}
}
if (window_list) CFRelease(window_list);
return true;
}
void ScreenCapturerMac::ScreenConfigurationChanged() {
if (current_display_) {
const MacDisplayConfiguration* config =
desktop_config_.FindDisplayConfigurationById(current_display_);
screen_pixel_bounds_ = config ? config->pixel_bounds : DesktopRect();
dip_to_pixel_scale_ = config ? config->dip_to_pixel_scale : 1.0f;
} else {
screen_pixel_bounds_ = desktop_config_.pixel_bounds;
dip_to_pixel_scale_ = desktop_config_.dip_to_pixel_scale;
}
// Release existing buffers, which will be of the wrong size.
ReleaseBuffers();
// Clear the dirty region, in case the display is down-sizing.
helper_.ClearInvalidRegion();
// Re-mark the entire desktop as dirty.
helper_.InvalidateScreen(screen_pixel_bounds_.size());
// Make sure the frame buffers will be reallocated.
queue_.Reset();
}
bool ScreenCapturerMac::RegisterRefreshAndMoveHandlers() {
RTC_DCHECK(thread_checker_.IsCurrent());
if (!desktop_frame_provider_.allow_iosurface()) {
return true;
}
desktop_config_ = desktop_config_monitor_->desktop_configuration();
for (const auto& config : desktop_config_.displays) {
size_t pixel_width = config.pixel_bounds.width();
size_t pixel_height = config.pixel_bounds.height();
if (pixel_width == 0 || pixel_height == 0) continue;
CGDirectDisplayID display_id = config.id;
DesktopVector display_origin = config.pixel_bounds.top_left();
CGDisplayStreamFrameAvailableHandler handler = ^(CGDisplayStreamFrameStatus status,
uint64_t display_time,
IOSurfaceRef frame_surface,
CGDisplayStreamUpdateRef updateRef) {
RTC_DCHECK(thread_checker_.IsCurrent());
if (status == kCGDisplayStreamFrameStatusStopped) return;
// Only pay attention to frame updates.
if (status != kCGDisplayStreamFrameStatusFrameComplete) return;
size_t count = 0;
const CGRect* rects =
CGDisplayStreamUpdateGetRects(updateRef, kCGDisplayStreamUpdateDirtyRects, &count);
if (count != 0) {
// According to CGDisplayStream.h, it's safe to call
// CGDisplayStreamStop() from within the callback.
ScreenRefresh(display_id, count, rects, display_origin, frame_surface);
}
};
rtc::ScopedCFTypeRef<CFDictionaryRef> properties_dict(
CFDictionaryCreate(kCFAllocatorDefault,
(const void*[]){kCGDisplayStreamShowCursor},
(const void*[]){kCFBooleanFalse},
1,
&kCFTypeDictionaryKeyCallBacks,
&kCFTypeDictionaryValueCallBacks));
CGDisplayStreamRef display_stream = CGDisplayStreamCreate(
display_id, pixel_width, pixel_height, 'BGRA', properties_dict.get(), handler);
if (display_stream) {
CGError error = CGDisplayStreamStart(display_stream);
if (error != kCGErrorSuccess) return false;
CFRunLoopSourceRef source = CGDisplayStreamGetRunLoopSource(display_stream);
CFRunLoopAddSource(CFRunLoopGetCurrent(), source, kCFRunLoopCommonModes);
display_streams_.push_back(display_stream);
}
}
return true;
}
void ScreenCapturerMac::UnregisterRefreshAndMoveHandlers() {
RTC_DCHECK(thread_checker_.IsCurrent());
for (CGDisplayStreamRef stream : display_streams_) {
CFRunLoopSourceRef source = CGDisplayStreamGetRunLoopSource(stream);
CFRunLoopRemoveSource(CFRunLoopGetCurrent(), source, kCFRunLoopCommonModes);
CGDisplayStreamStop(stream);
CFRelease(stream);
}
display_streams_.clear();
// Release obsolete io surfaces.
desktop_frame_provider_.Release();
}
void ScreenCapturerMac::ScreenRefresh(CGDirectDisplayID display_id,
CGRectCount count,
const CGRect* rect_array,
DesktopVector display_origin,
IOSurfaceRef io_surface) {
if (screen_pixel_bounds_.is_empty()) ScreenConfigurationChanged();
// The refresh rects are in display coordinates. We want to translate to
// framebuffer coordinates. If a specific display is being captured, then no
// change is necessary. If all displays are being captured, then we want to
// translate by the origin of the display.
DesktopVector translate_vector;
if (!current_display_) translate_vector = display_origin;
DesktopRegion region;
for (CGRectCount i = 0; i < count; ++i) {
// All rects are already in physical pixel coordinates.
DesktopRect rect = DesktopRect::MakeXYWH(rect_array[i].origin.x,
rect_array[i].origin.y,
rect_array[i].size.width,
rect_array[i].size.height);
rect.Translate(translate_vector);
region.AddRect(rect);
}
// Always having the latest iosurface before invalidating a region.
// See https://bugs.chromium.org/p/webrtc/issues/detail?id=8652 for details.
desktop_frame_provider_.InvalidateIOSurface(
display_id, rtc::ScopedCFTypeRef<IOSurfaceRef>(io_surface, rtc::RetainPolicy::RETAIN));
helper_.InvalidateRegion(region);
}
std::unique_ptr<DesktopFrame> ScreenCapturerMac::CreateFrame() {
std::unique_ptr<DesktopFrame> frame(new BasicDesktopFrame(screen_pixel_bounds_.size()));
frame->set_dpi(
DesktopVector(kStandardDPI * dip_to_pixel_scale_, kStandardDPI * dip_to_pixel_scale_));
return frame;
}
} // namespace webrtc