/* * Copyright (C) 2007 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 #include #include #include #include #include #include #include #include #include #include #include #include #include "DisplayHardware/FramebufferSurface.h" #include "DisplayHardware/HWComposer.h" #include "clz.h" #include "DisplayDevice.h" #include "GLExtensions.h" #include "SurfaceFlinger.h" #include "LayerBase.h" // ---------------------------------------------------------------------------- using namespace android; // ---------------------------------------------------------------------------- static __attribute__((noinline)) void checkGLErrors() { do { // there could be more than one error flag GLenum error = glGetError(); if (error == GL_NO_ERROR) break; ALOGE("GL error 0x%04x", int(error)); } while(true); } // ---------------------------------------------------------------------------- /* * Initialize the display to the specified values. * */ DisplayDevice::DisplayDevice( const sp& flinger, DisplayType type, const wp& displayToken, const sp& nativeWindow, const sp& framebufferSurface, EGLConfig config) : mFlinger(flinger), mType(type), mHwcDisplayId(-1), mNativeWindow(nativeWindow), mFramebufferSurface(framebufferSurface), mDisplay(EGL_NO_DISPLAY), mSurface(EGL_NO_SURFACE), mContext(EGL_NO_CONTEXT), mDisplayWidth(), mDisplayHeight(), mFormat(), mFlags(), mPageFlipCount(), mSecureLayerVisible(false), mScreenAcquired(false), mLayerStack(0), mOrientation() { init(config); } DisplayDevice::~DisplayDevice() { if (mSurface != EGL_NO_SURFACE) { eglDestroySurface(mDisplay, mSurface); mSurface = EGL_NO_SURFACE; } } bool DisplayDevice::isValid() const { return mFlinger != NULL; } int DisplayDevice::getWidth() const { return mDisplayWidth; } int DisplayDevice::getHeight() const { return mDisplayHeight; } PixelFormat DisplayDevice::getFormat() const { return mFormat; } EGLSurface DisplayDevice::getEGLSurface() const { return mSurface; } void DisplayDevice::init(EGLConfig config) { ANativeWindow* const window = mNativeWindow.get(); int format; window->query(window, NATIVE_WINDOW_FORMAT, &format); /* * Create our display's surface */ EGLSurface surface; EGLint w, h; EGLDisplay display = eglGetDisplay(EGL_DEFAULT_DISPLAY); surface = eglCreateWindowSurface(display, config, window, NULL); eglQuerySurface(display, surface, EGL_WIDTH, &mDisplayWidth); eglQuerySurface(display, surface, EGL_HEIGHT, &mDisplayHeight); mDisplay = display; mSurface = surface; mFormat = format; mPageFlipCount = 0; mViewport.makeInvalid(); mFrame.makeInvalid(); // external displays are always considered enabled mScreenAcquired = (mType >= DisplayDevice::NUM_DISPLAY_TYPES); // get an h/w composer ID mHwcDisplayId = mFlinger->allocateHwcDisplayId(mType); // Name the display. The name will be replaced shortly if the display // was created with createDisplay(). switch (mType) { case DISPLAY_PRIMARY: mDisplayName = "Built-in Screen"; break; case DISPLAY_EXTERNAL: mDisplayName = "HDMI Screen"; break; default: mDisplayName = "Virtual Screen"; // e.g. Overlay #n break; } // initialize the display orientation transform. setProjection(DisplayState::eOrientationDefault, mViewport, mFrame); } uint32_t DisplayDevice::getPageFlipCount() const { return mPageFlipCount; } status_t DisplayDevice::compositionComplete() const { if (mFramebufferSurface == NULL) { return NO_ERROR; } return mFramebufferSurface->compositionComplete(); } void DisplayDevice::flip(const Region& dirty) const { checkGLErrors(); EGLDisplay dpy = mDisplay; EGLSurface surface = mSurface; #ifdef EGL_ANDROID_swap_rectangle if (mFlags & SWAP_RECTANGLE) { const Region newDirty(dirty.intersect(bounds())); const Rect b(newDirty.getBounds()); eglSetSwapRectangleANDROID(dpy, surface, b.left, b.top, b.width(), b.height()); } #endif mPageFlipCount++; } void DisplayDevice::swapBuffers(HWComposer& hwc) const { if (hwc.initCheck() != NO_ERROR) { // no HWC, we call eglSwapBuffers() eglSwapBuffers(mDisplay, mSurface); } else { // We have a valid HWC, but not all displays can use it, in particular // the virtual displays are on their own. // TODO: HWC 1.2 will allow virtual displays if (mType >= DisplayDevice::DISPLAY_VIRTUAL) { // always call eglSwapBuffers() for virtual displays eglSwapBuffers(mDisplay, mSurface); } else if (hwc.supportsFramebufferTarget()) { // as of hwc 1.1 we always call eglSwapBuffers if we have some // GLES layers if (hwc.hasGlesComposition(mType)) { eglSwapBuffers(mDisplay, mSurface); } } else { // HWC doesn't have the framebuffer target, we don't call // eglSwapBuffers(), since this is handled by HWComposer::commit(). } } } void DisplayDevice::onSwapBuffersCompleted(HWComposer& hwc) const { if (hwc.initCheck() == NO_ERROR) { if (hwc.supportsFramebufferTarget()) { int fd = hwc.getAndResetReleaseFenceFd(mType); mFramebufferSurface->setReleaseFenceFd(fd); } } } uint32_t DisplayDevice::getFlags() const { return mFlags; } void DisplayDevice::dump(String8& res) const { if (mFramebufferSurface != NULL) { mFramebufferSurface->dump(res); } } EGLBoolean DisplayDevice::makeCurrent(EGLDisplay dpy, const sp& hw, EGLContext ctx) { EGLBoolean result = EGL_TRUE; EGLSurface sur = eglGetCurrentSurface(EGL_DRAW); if (sur != hw->mSurface) { result = eglMakeCurrent(dpy, hw->mSurface, hw->mSurface, ctx); if (result == EGL_TRUE) { GLsizei w = hw->mDisplayWidth; GLsizei h = hw->mDisplayHeight; glViewport(0, 0, w, h); glMatrixMode(GL_PROJECTION); glLoadIdentity(); // put the origin in the left-bottom corner glOrthof(0, w, 0, h, 0, 1); // l=0, r=w ; b=0, t=h } } return result; } // ---------------------------------------------------------------------------- void DisplayDevice::setVisibleLayersSortedByZ(const Vector< sp >& layers) { mVisibleLayersSortedByZ = layers; mSecureLayerVisible = false; size_t count = layers.size(); for (size_t i=0 ; iisSecure()) { mSecureLayerVisible = true; } } } const Vector< sp >& DisplayDevice::getVisibleLayersSortedByZ() const { return mVisibleLayersSortedByZ; } bool DisplayDevice::getSecureLayerVisible() const { return mSecureLayerVisible; } Region DisplayDevice::getDirtyRegion(bool repaintEverything) const { Region dirty; if (repaintEverything) { dirty.set(getBounds()); } else { const Transform& planeTransform(mGlobalTransform); dirty = planeTransform.transform(this->dirtyRegion); dirty.andSelf(getBounds()); } return dirty; } // ---------------------------------------------------------------------------- bool DisplayDevice::canDraw() const { return mScreenAcquired; } void DisplayDevice::releaseScreen() const { mScreenAcquired = false; } void DisplayDevice::acquireScreen() const { mScreenAcquired = true; } bool DisplayDevice::isScreenAcquired() const { return mScreenAcquired; } // ---------------------------------------------------------------------------- void DisplayDevice::setLayerStack(uint32_t stack) { mLayerStack = stack; dirtyRegion.set(bounds()); } // ---------------------------------------------------------------------------- status_t DisplayDevice::orientationToTransfrom( int orientation, int w, int h, Transform* tr) { uint32_t flags = 0; switch (orientation) { case DisplayState::eOrientationDefault: flags = Transform::ROT_0; break; case DisplayState::eOrientation90: flags = Transform::ROT_90; break; case DisplayState::eOrientation180: flags = Transform::ROT_180; break; case DisplayState::eOrientation270: flags = Transform::ROT_270; break; default: return BAD_VALUE; } tr->set(flags, w, h); return NO_ERROR; } void DisplayDevice::setProjection(int orientation, const Rect& viewport, const Rect& frame) { mOrientation = orientation; mViewport = viewport; mFrame = frame; updateGeometryTransform(); } void DisplayDevice::updateGeometryTransform() { int w = mDisplayWidth; int h = mDisplayHeight; Transform TL, TP, R, S; if (DisplayDevice::orientationToTransfrom( mOrientation, w, h, &R) == NO_ERROR) { dirtyRegion.set(bounds()); Rect viewport(mViewport); Rect frame(mFrame); if (!frame.isValid()) { // the destination frame can be invalid if it has never been set, // in that case we assume the whole display frame. frame = Rect(w, h); } if (viewport.isEmpty()) { // viewport can be invalid if it has never been set, in that case // we assume the whole display size. // it's also invalid to have an empty viewport, so we handle that // case in the same way. viewport = Rect(w, h); if (R.getOrientation() & Transform::ROT_90) { // viewport is always specified in the logical orientation // of the display (ie: post-rotation). swap(viewport.right, viewport.bottom); } } float src_width = viewport.width(); float src_height = viewport.height(); float dst_width = frame.width(); float dst_height = frame.height(); if (src_width != dst_width || src_height != dst_height) { float sx = dst_width / src_width; float sy = dst_height / src_height; S.set(sx, 0, 0, sy); } float src_x = viewport.left; float src_y = viewport.top; float dst_x = frame.left; float dst_y = frame.top; TL.set(-src_x, -src_y); TP.set(dst_x, dst_y); // The viewport and frame are both in the logical orientation. // Apply the logical translation, scale to physical size, apply the // physical translation and finally rotate to the physical orientation. mGlobalTransform = R * TP * S * TL; } }