/* * Copyright 2019 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include "BackgroundExecutor.h" #include "Client.h" #include "Layer.h" #include "RefreshRateOverlay.h" #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wconversion" #include #include #pragma clang diagnostic pop #include #include #include #include #undef LOG_TAG #define LOG_TAG "RefreshRateOverlay" namespace android { namespace { constexpr int kDigitWidth = 64; constexpr int kDigitHeight = 100; constexpr int kDigitSpace = 16; constexpr int kMaxDigits = /*displayFps*/ 3 + /*renderFps*/ 3 + /*spinner*/ 1; constexpr int kBufferWidth = kMaxDigits * kDigitWidth + (kMaxDigits - 1) * kDigitSpace; constexpr int kBufferHeight = kDigitHeight; } // namespace SurfaceControlHolder::~SurfaceControlHolder() { // Hand the sp to the helper thread to release the last // reference. This makes sure that the SurfaceControl is destructed without // SurfaceFlinger::mStateLock held. BackgroundExecutor::getInstance().sendCallbacks( {[sc = std::move(mSurfaceControl)]() mutable { sc.clear(); }}); } void RefreshRateOverlay::SevenSegmentDrawer::drawSegment(Segment segment, int left, SkColor color, SkCanvas& canvas) { const SkRect rect = [&]() { switch (segment) { case Segment::Upper: return SkRect::MakeLTRB(left, 0, left + kDigitWidth, kDigitSpace); case Segment::UpperLeft: return SkRect::MakeLTRB(left, 0, left + kDigitSpace, kDigitHeight / 2); case Segment::UpperRight: return SkRect::MakeLTRB(left + kDigitWidth - kDigitSpace, 0, left + kDigitWidth, kDigitHeight / 2); case Segment::Middle: return SkRect::MakeLTRB(left, kDigitHeight / 2 - kDigitSpace / 2, left + kDigitWidth, kDigitHeight / 2 + kDigitSpace / 2); case Segment::LowerLeft: return SkRect::MakeLTRB(left, kDigitHeight / 2, left + kDigitSpace, kDigitHeight); case Segment::LowerRight: return SkRect::MakeLTRB(left + kDigitWidth - kDigitSpace, kDigitHeight / 2, left + kDigitWidth, kDigitHeight); case Segment::Bottom: return SkRect::MakeLTRB(left, kDigitHeight - kDigitSpace, left + kDigitWidth, kDigitHeight); } }(); SkPaint paint; paint.setColor(color); paint.setBlendMode(SkBlendMode::kSrc); canvas.drawRect(rect, paint); } void RefreshRateOverlay::SevenSegmentDrawer::drawDigit(int digit, int left, SkColor color, SkCanvas& canvas) { if (digit < 0 || digit > 9) return; if (digit == 0 || digit == 2 || digit == 3 || digit == 5 || digit == 6 || digit == 7 || digit == 8 || digit == 9) drawSegment(Segment::Upper, left, color, canvas); if (digit == 0 || digit == 4 || digit == 5 || digit == 6 || digit == 8 || digit == 9) drawSegment(Segment::UpperLeft, left, color, canvas); if (digit == 0 || digit == 1 || digit == 2 || digit == 3 || digit == 4 || digit == 7 || digit == 8 || digit == 9) drawSegment(Segment::UpperRight, left, color, canvas); if (digit == 2 || digit == 3 || digit == 4 || digit == 5 || digit == 6 || digit == 8 || digit == 9) drawSegment(Segment::Middle, left, color, canvas); if (digit == 0 || digit == 2 || digit == 6 || digit == 8) drawSegment(Segment::LowerLeft, left, color, canvas); if (digit == 0 || digit == 1 || digit == 3 || digit == 4 || digit == 5 || digit == 6 || digit == 7 || digit == 8 || digit == 9) drawSegment(Segment::LowerRight, left, color, canvas); if (digit == 0 || digit == 2 || digit == 3 || digit == 5 || digit == 6 || digit == 8 || digit == 9) drawSegment(Segment::Bottom, left, color, canvas); } auto RefreshRateOverlay::SevenSegmentDrawer::draw(int displayFps, int renderFps, SkColor color, ui::Transform::RotationFlags rotation, ftl::Flags features) -> Buffers { const size_t loopCount = features.test(Features::Spinner) ? 6 : 1; Buffers buffers; buffers.reserve(loopCount); for (size_t i = 0; i < loopCount; i++) { // Pre-rotate the buffer before it reaches SurfaceFlinger. SkMatrix canvasTransform = SkMatrix(); const auto [bufferWidth, bufferHeight] = [&]() -> std::pair { switch (rotation) { case ui::Transform::ROT_90: canvasTransform.setTranslate(kBufferHeight, 0); canvasTransform.preRotate(90.f); return {kBufferHeight, kBufferWidth}; case ui::Transform::ROT_270: canvasTransform.setRotate(270.f, kBufferWidth / 2.f, kBufferWidth / 2.f); return {kBufferHeight, kBufferWidth}; default: return {kBufferWidth, kBufferHeight}; } }(); const auto kUsageFlags = static_cast(GRALLOC_USAGE_SW_WRITE_RARELY | GRALLOC_USAGE_HW_COMPOSER | GRALLOC_USAGE_HW_TEXTURE); sp buffer = sp::make(static_cast(bufferWidth), static_cast(bufferHeight), HAL_PIXEL_FORMAT_RGBA_8888, 1u, kUsageFlags, "RefreshRateOverlayBuffer"); const status_t bufferStatus = buffer->initCheck(); LOG_ALWAYS_FATAL_IF(bufferStatus != OK, "RefreshRateOverlay: Buffer failed to allocate: %d", bufferStatus); sk_sp surface = SkSurface::MakeRasterN32Premul(bufferWidth, bufferHeight); SkCanvas* canvas = surface->getCanvas(); canvas->setMatrix(canvasTransform); int left = 0; drawNumber(displayFps, left, color, *canvas); left += 3 * (kDigitWidth + kDigitSpace); if (features.test(Features::Spinner)) { switch (i) { case 0: drawSegment(Segment::Upper, left, color, *canvas); break; case 1: drawSegment(Segment::UpperRight, left, color, *canvas); break; case 2: drawSegment(Segment::LowerRight, left, color, *canvas); break; case 3: drawSegment(Segment::Bottom, left, color, *canvas); break; case 4: drawSegment(Segment::LowerLeft, left, color, *canvas); break; case 5: drawSegment(Segment::UpperLeft, left, color, *canvas); break; } } left += kDigitWidth + kDigitSpace; if (features.test(Features::RenderRate)) { drawNumber(renderFps, left, color, *canvas); } left += 3 * (kDigitWidth + kDigitSpace); void* pixels = nullptr; buffer->lock(GRALLOC_USAGE_SW_WRITE_RARELY, reinterpret_cast(&pixels)); const SkImageInfo& imageInfo = surface->imageInfo(); const size_t dstRowBytes = buffer->getStride() * static_cast(imageInfo.bytesPerPixel()); canvas->readPixels(imageInfo, pixels, dstRowBytes, 0, 0); buffer->unlock(); buffers.push_back(std::move(buffer)); } return buffers; } void RefreshRateOverlay::SevenSegmentDrawer::drawNumber(int number, int left, SkColor color, SkCanvas& canvas) { if (number < 0 || number >= 1000) return; if (number >= 100) { drawDigit(number / 100, left, color, canvas); } left += kDigitWidth + kDigitSpace; if (number >= 10) { drawDigit((number / 10) % 10, left, color, canvas); } left += kDigitWidth + kDigitSpace; drawDigit(number % 10, left, color, canvas); } std::unique_ptr createSurfaceControlHolder() { sp surfaceControl = SurfaceComposerClient::getDefault() ->createSurface(String8("RefreshRateOverlay"), kBufferWidth, kBufferHeight, PIXEL_FORMAT_RGBA_8888, ISurfaceComposerClient::eFXSurfaceBufferState); return std::make_unique(std::move(surfaceControl)); } RefreshRateOverlay::RefreshRateOverlay(FpsRange fpsRange, ftl::Flags features) : mFpsRange(fpsRange), mFeatures(features), mSurfaceControl(createSurfaceControlHolder()) { if (!mSurfaceControl) { ALOGE("%s: Failed to create buffer state layer", __func__); return; } createTransaction() .setLayer(mSurfaceControl->get(), INT32_MAX - 2) .setTrustedOverlay(mSurfaceControl->get(), true) .apply(); } auto RefreshRateOverlay::getOrCreateBuffers(Fps displayFps, Fps renderFps) -> const Buffers& { static const Buffers kNoBuffers; if (!mSurfaceControl) return kNoBuffers; // avoid caching different render rates if RenderRate is anyway not visible if (!mFeatures.test(Features::RenderRate)) { renderFps = 0_Hz; } const auto transformHint = static_cast(mSurfaceControl->get()->getTransformHint()); // Tell SurfaceFlinger about the pre-rotation on the buffer. const auto transform = [&] { switch (transformHint) { case ui::Transform::ROT_90: return ui::Transform::ROT_270; case ui::Transform::ROT_270: return ui::Transform::ROT_90; default: return ui::Transform::ROT_0; } }(); createTransaction().setTransform(mSurfaceControl->get(), transform).apply(); BufferCache::const_iterator it = mBufferCache.find({displayFps.getIntValue(), renderFps.getIntValue(), transformHint}); if (it == mBufferCache.end()) { // HWC minFps is not known by the framework in order // to consider lower rates we set minFps to 0. const int minFps = isSetByHwc() ? 0 : mFpsRange.min.getIntValue(); const int maxFps = mFpsRange.max.getIntValue(); // Clamp to the range. The current displayFps may be outside of this range if the display // has changed its set of supported refresh rates. const int displayIntFps = std::clamp(displayFps.getIntValue(), minFps, maxFps); const int renderIntFps = renderFps.getIntValue(); // Ensure non-zero range to avoid division by zero. const float fpsScale = static_cast(displayIntFps - minFps) / std::max(1, maxFps - minFps); constexpr SkColor kMinFpsColor = SK_ColorRED; constexpr SkColor kMaxFpsColor = SK_ColorGREEN; constexpr float kAlpha = 0.8f; SkColor4f colorBase = SkColor4f::FromColor(kMaxFpsColor) * fpsScale; const SkColor4f minFpsColor = SkColor4f::FromColor(kMinFpsColor) * (1 - fpsScale); colorBase.fR = colorBase.fR + minFpsColor.fR; colorBase.fG = colorBase.fG + minFpsColor.fG; colorBase.fB = colorBase.fB + minFpsColor.fB; colorBase.fA = kAlpha; const SkColor color = colorBase.toSkColor(); auto buffers = SevenSegmentDrawer::draw(displayIntFps, renderIntFps, color, transformHint, mFeatures); it = mBufferCache .try_emplace({displayIntFps, renderIntFps, transformHint}, std::move(buffers)) .first; } return it->second; } void RefreshRateOverlay::setViewport(ui::Size viewport) { constexpr int32_t kMaxWidth = 1000; const auto width = std::min({kMaxWidth, viewport.width, viewport.height}); const auto height = 2 * width; Rect frame((5 * width) >> 4, height >> 5); if (!mFeatures.test(Features::ShowInMiddle)) { frame.offsetBy(width >> 5, height >> 4); } else { frame.offsetBy(width >> 1, height >> 4); } createTransaction() .setMatrix(mSurfaceControl->get(), frame.getWidth() / static_cast(kBufferWidth), 0, 0, frame.getHeight() / static_cast(kBufferHeight)) .setPosition(mSurfaceControl->get(), frame.left, frame.top) .apply(); } void RefreshRateOverlay::setLayerStack(ui::LayerStack stack) { createTransaction().setLayerStack(mSurfaceControl->get(), stack).apply(); } void RefreshRateOverlay::changeRefreshRate(Fps displayFps, Fps renderFps) { mDisplayFps = displayFps; mRenderFps = renderFps; const auto buffer = getOrCreateBuffers(displayFps, renderFps)[mFrame]; createTransaction().setBuffer(mSurfaceControl->get(), buffer).apply(); } void RefreshRateOverlay::animate() { if (!mFeatures.test(Features::Spinner) || !mDisplayFps) return; const auto& buffers = getOrCreateBuffers(*mDisplayFps, *mRenderFps); mFrame = (mFrame + 1) % buffers.size(); const auto buffer = buffers[mFrame]; createTransaction().setBuffer(mSurfaceControl->get(), buffer).apply(); } SurfaceComposerClient::Transaction RefreshRateOverlay::createTransaction() const { constexpr float kFrameRate = 0.f; constexpr int8_t kCompatibility = ANATIVEWINDOW_FRAME_RATE_NO_VOTE; constexpr int8_t kSeamlessness = ANATIVEWINDOW_CHANGE_FRAME_RATE_ONLY_IF_SEAMLESS; const sp& surface = mSurfaceControl->get(); SurfaceComposerClient::Transaction transaction; if (isSetByHwc()) { transaction.setFlags(surface, layer_state_t::eLayerIsRefreshRateIndicator, layer_state_t::eLayerIsRefreshRateIndicator); // Disable overlay layer caching when refresh rate is updated by the HWC. transaction.setCachingHint(surface, gui::CachingHint::Disabled); } transaction.setFrameRate(surface, kFrameRate, kCompatibility, kSeamlessness); return transaction; } } // namespace android