/* * Copyright (C) 2010 The Android Open Source Project * Copyright (C) 2012-2013, The Linux Foundation. All rights reserved. * * Not a Contribution, Apache license notifications and license are retained * for attribution purposes only. * * 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. */ #define DEBUG_COPYBIT 0 #include <sync/sync.h> #include <copybit.h> #include <utils/Timers.h> #include "hwc_copybit.h" #include "comptype.h" #include "gr.h" namespace qhwc { struct range { int current; int end; }; struct region_iterator : public copybit_region_t { region_iterator(hwc_region_t region) { mRegion = region; r.end = region.numRects; r.current = 0; this->next = iterate; } private: static int iterate(copybit_region_t const * self, copybit_rect_t* rect){ if (!self || !rect) { ALOGE("iterate invalid parameters"); return 0; } region_iterator const* me = static_cast<region_iterator const*>(self); if (me->r.current != me->r.end) { rect->l = me->mRegion.rects[me->r.current].left; rect->t = me->mRegion.rects[me->r.current].top; rect->r = me->mRegion.rects[me->r.current].right; rect->b = me->mRegion.rects[me->r.current].bottom; me->r.current++; return 1; } return 0; } hwc_region_t mRegion; mutable range r; }; void CopyBit::reset() { mIsModeOn = false; mCopyBitDraw = false; } bool CopyBit::canUseCopybitForYUV(hwc_context_t *ctx) { // return true for non-overlay targets if(ctx->mMDP.hasOverlay) { return false; } return true; } bool CopyBit::canUseCopybitForRGB(hwc_context_t *ctx, hwc_display_contents_1_t *list, int dpy) { int compositionType = qdutils::QCCompositionType:: getInstance().getCompositionType(); if ((compositionType & qdutils::COMPOSITION_TYPE_C2D) || (compositionType & qdutils::COMPOSITION_TYPE_DYN)) { if(ctx->listStats[dpy].yuvCount) { //Overlay up & running. Dont use COPYBIT for RGB layers. return false; } } if (compositionType & qdutils::COMPOSITION_TYPE_DYN) { // DYN Composition: // use copybit, if (TotalRGBRenderArea < threashold * FB Area) // this is done based on perf inputs in ICS // TODO: Above condition needs to be re-evaluated in JB int fbWidth = ctx->dpyAttr[dpy].xres; int fbHeight = ctx->dpyAttr[dpy].yres; unsigned int fbArea = (fbWidth * fbHeight); unsigned int renderArea = getRGBRenderingArea(list); ALOGD_IF (DEBUG_COPYBIT, "%s:renderArea %u, fbArea %u", __FUNCTION__, renderArea, fbArea); if (renderArea < (mDynThreshold * fbArea)) { return true; } } else if ((compositionType & qdutils::COMPOSITION_TYPE_MDP)) { // MDP composition, use COPYBIT always return true; } else if ((compositionType & qdutils::COMPOSITION_TYPE_C2D)) { // C2D composition, use COPYBIT return true; } return false; } unsigned int CopyBit::getRGBRenderingArea (const hwc_display_contents_1_t *list) { //Calculates total rendering area for RGB layers unsigned int renderArea = 0; unsigned int w=0, h=0; for (unsigned int i=0; i<list->numHwLayers; i++) { private_handle_t *hnd = (private_handle_t *)list->hwLayers[i].handle; if (hnd) { if (BUFFER_TYPE_UI == hnd->bufferType) { getLayerResolution(&list->hwLayers[i], w, h); renderArea += (w*h); } } } return renderArea; } bool CopyBit::prepare(hwc_context_t *ctx, hwc_display_contents_1_t *list, int dpy) { if(mEngine == NULL) { // No copybit device found - cannot use copybit return false; } int compositionType = qdutils::QCCompositionType:: getInstance().getCompositionType(); if ((compositionType == qdutils::COMPOSITION_TYPE_GPU) || (compositionType == qdutils::COMPOSITION_TYPE_CPU)) { //GPU/CPU composition, don't change layer composition type return true; } if(!(validateParams(ctx, list))) { ALOGE("%s:Invalid Params", __FUNCTION__); return false; } if(ctx->listStats[dpy].skipCount) { //GPU will be anyways used return false; } bool useCopybitForYUV = canUseCopybitForYUV(ctx); bool useCopybitForRGB = canUseCopybitForRGB(ctx, list, dpy); LayerProp *layerProp = ctx->layerProp[dpy]; size_t fbLayerIndex = ctx->listStats[dpy].fbLayerIndex; hwc_layer_1_t *fbLayer = &list->hwLayers[fbLayerIndex]; private_handle_t *fbHnd = (private_handle_t *)fbLayer->handle; //Allocate render buffers if they're not allocated if (useCopybitForYUV || useCopybitForRGB) { int ret = allocRenderBuffers(fbHnd->width, fbHnd->height, fbHnd->format); if (ret < 0) { return false; } else { mCurRenderBufferIndex = (mCurRenderBufferIndex + 1) % NUM_RENDER_BUFFERS; } } // numAppLayers-1, as we iterate till 0th layer index for (int i = ctx->listStats[dpy].numAppLayers-1; i >= 0 ; i--) { private_handle_t *hnd = (private_handle_t *)list->hwLayers[i].handle; if ((hnd->bufferType == BUFFER_TYPE_VIDEO && useCopybitForYUV) || (hnd->bufferType == BUFFER_TYPE_UI && useCopybitForRGB)) { layerProp[i].mFlags |= HWC_COPYBIT; list->hwLayers[i].compositionType = HWC_OVERLAY; mCopyBitDraw = true; } else { // We currently cannot mix copybit layers with layers marked to // be drawn on the framebuffer or that are on the layer cache. mCopyBitDraw = false; //There is no need to reset layer properties here as we return in //draw if mCopyBitDraw is false } } return true; } int CopyBit::clear (private_handle_t* hnd, hwc_rect_t& rect) { int ret = 0; copybit_rect_t clear_rect = {rect.left, rect.top, rect.right, rect.bottom}; copybit_image_t buf; buf.w = ALIGN(getWidth(hnd),32); buf.h = getHeight(hnd); buf.format = hnd->format; buf.base = (void *)hnd->base; buf.handle = (native_handle_t *)hnd; copybit_device_t *copybit = mEngine; ret = copybit->clear(copybit, &buf, &clear_rect); return ret; } bool CopyBit::draw(hwc_context_t *ctx, hwc_display_contents_1_t *list, int dpy, int32_t *fd) { // draw layers marked for COPYBIT int retVal = true; int copybitLayerCount = 0; LayerProp *layerProp = ctx->layerProp[dpy]; if(mCopyBitDraw == false) // there is no layer marked for copybit return false ; //render buffer private_handle_t *renderBuffer = getCurrentRenderBuffer(); if (!renderBuffer) { ALOGE("%s: Render buffer layer handle is NULL", __FUNCTION__); return false; } //Wait for the previous frame to complete before rendering onto it if(mRelFd[0] >=0) { sync_wait(mRelFd[0], 1000); close(mRelFd[0]); mRelFd[0] = -1; } //Clear the visible region on the render buffer //XXX: Do this only when needed. hwc_rect_t clearRegion; getNonWormholeRegion(list, clearRegion); clear(renderBuffer, clearRegion); // numAppLayers-1, as we iterate from 0th layer index with HWC_COPYBIT flag for (int i = 0; i <= (ctx->listStats[dpy].numAppLayers-1); i++) { hwc_layer_1_t *layer = &list->hwLayers[i]; if(!(layerProp[i].mFlags & HWC_COPYBIT)) { ALOGD_IF(DEBUG_COPYBIT, "%s: Not Marked for copybit", __FUNCTION__); continue; } int ret = -1; if (list->hwLayers[i].acquireFenceFd != -1 ) { // Wait for acquire Fence on the App buffers. ret = sync_wait(list->hwLayers[i].acquireFenceFd, 1000); if(ret < 0) { ALOGE("%s: sync_wait error!! error no = %d err str = %s", __FUNCTION__, errno, strerror(errno)); } close(list->hwLayers[i].acquireFenceFd); list->hwLayers[i].acquireFenceFd = -1; } retVal = drawLayerUsingCopybit(ctx, &(list->hwLayers[i]), renderBuffer, dpy); copybitLayerCount++; if(retVal < 0) { ALOGE("%s : drawLayerUsingCopybit failed", __FUNCTION__); } } if (copybitLayerCount) { copybit_device_t *copybit = getCopyBitDevice(); // Async mode copybit->flush_get_fence(copybit, fd); } return true; } int CopyBit::drawLayerUsingCopybit(hwc_context_t *dev, hwc_layer_1_t *layer, private_handle_t *renderBuffer, int dpy) { hwc_context_t* ctx = (hwc_context_t*)(dev); int err = 0; if(!ctx) { ALOGE("%s: null context ", __FUNCTION__); return -1; } private_handle_t *hnd = (private_handle_t *)layer->handle; if(!hnd) { ALOGE("%s: invalid handle", __FUNCTION__); return -1; } private_handle_t *fbHandle = (private_handle_t *)renderBuffer; if(!fbHandle) { ALOGE("%s: Framebuffer handle is NULL", __FUNCTION__); return -1; } // Set the copybit source: copybit_image_t src; src.w = getWidth(hnd); src.h = getHeight(hnd); src.format = hnd->format; src.base = (void *)hnd->base; src.handle = (native_handle_t *)layer->handle; src.horiz_padding = src.w - getWidth(hnd); // Initialize vertical padding to zero for now, // this needs to change to accomodate vertical stride // if needed in the future src.vert_padding = 0; // Copybit source rect hwc_rect_t sourceCrop = layer->sourceCrop; copybit_rect_t srcRect = {sourceCrop.left, sourceCrop.top, sourceCrop.right, sourceCrop.bottom}; // Copybit destination rect hwc_rect_t displayFrame = layer->displayFrame; copybit_rect_t dstRect = {displayFrame.left, displayFrame.top, displayFrame.right, displayFrame.bottom}; // Copybit dst copybit_image_t dst; dst.w = ALIGN(fbHandle->width,32); dst.h = fbHandle->height; dst.format = fbHandle->format; dst.base = (void *)fbHandle->base; dst.handle = (native_handle_t *)fbHandle; copybit_device_t *copybit = mEngine; int32_t screen_w = displayFrame.right - displayFrame.left; int32_t screen_h = displayFrame.bottom - displayFrame.top; int32_t src_crop_width = sourceCrop.right - sourceCrop.left; int32_t src_crop_height = sourceCrop.bottom -sourceCrop.top; // Copybit dst float copybitsMaxScale = (float)copybit->get(copybit,COPYBIT_MAGNIFICATION_LIMIT); float copybitsMinScale = (float)copybit->get(copybit,COPYBIT_MINIFICATION_LIMIT); if((layer->transform == HWC_TRANSFORM_ROT_90) || (layer->transform == HWC_TRANSFORM_ROT_270)) { //swap screen width and height int tmp = screen_w; screen_w = screen_h; screen_h = tmp; } private_handle_t *tmpHnd = NULL; if(screen_w <=0 || screen_h<=0 ||src_crop_width<=0 || src_crop_height<=0 ) { ALOGE("%s: wrong params for display screen_w=%d src_crop_width=%d \ screen_w=%d src_crop_width=%d", __FUNCTION__, screen_w, src_crop_width,screen_w,src_crop_width); return -1; } float dsdx = (float)screen_w/src_crop_width; float dtdy = (float)screen_h/src_crop_height; float scaleLimitMax = copybitsMaxScale * copybitsMaxScale; float scaleLimitMin = copybitsMinScale * copybitsMinScale; if(dsdx > scaleLimitMax || dtdy > scaleLimitMax || dsdx < 1/scaleLimitMin || dtdy < 1/scaleLimitMin) { ALOGE("%s: greater than max supported size dsdx=%f dtdy=%f \ scaleLimitMax=%f scaleLimitMin=%f", __FUNCTION__,dsdx,dtdy, scaleLimitMax,1/scaleLimitMin); return -1; } if(dsdx > copybitsMaxScale || dtdy > copybitsMaxScale || dsdx < 1/copybitsMinScale || dtdy < 1/copybitsMinScale){ // The requested scale is out of the range the hardware // can support. ALOGE("%s:%d::Need to scale twice dsdx=%f, dtdy=%f,copybitsMaxScale=%f,\ copybitsMinScale=%f,screen_w=%d,screen_h=%d \ src_crop_width=%d src_crop_height=%d",__FUNCTION__,__LINE__, dsdx,dtdy,copybitsMaxScale,1/copybitsMinScale,screen_w,screen_h, src_crop_width,src_crop_height); //Driver makes width and height as even //that may cause wrong calculation of the ratio //in display and crop.Hence we make //crop width and height as even. src_crop_width = (src_crop_width/2)*2; src_crop_height = (src_crop_height/2)*2; int tmp_w = src_crop_width; int tmp_h = src_crop_height; if (dsdx > copybitsMaxScale || dtdy > copybitsMaxScale ){ tmp_w = src_crop_width*copybitsMaxScale; tmp_h = src_crop_height*copybitsMaxScale; }else if (dsdx < 1/copybitsMinScale ||dtdy < 1/copybitsMinScale ){ tmp_w = src_crop_width/copybitsMinScale; tmp_h = src_crop_height/copybitsMinScale; tmp_w = (tmp_w/2)*2; tmp_h = (tmp_h/2)*2; } ALOGE("%s:%d::tmp_w = %d,tmp_h = %d",__FUNCTION__,__LINE__,tmp_w,tmp_h); int usage = GRALLOC_USAGE_PRIVATE_IOMMU_HEAP; if (0 == alloc_buffer(&tmpHnd, tmp_w, tmp_h, fbHandle->format, usage)){ copybit_image_t tmp_dst; copybit_rect_t tmp_rect; tmp_dst.w = tmp_w; tmp_dst.h = tmp_h; tmp_dst.format = tmpHnd->format; tmp_dst.handle = tmpHnd; tmp_dst.horiz_padding = src.horiz_padding; tmp_dst.vert_padding = src.vert_padding; tmp_rect.l = 0; tmp_rect.t = 0; tmp_rect.r = tmp_dst.w; tmp_rect.b = tmp_dst.h; //create one clip region hwc_rect tmp_hwc_rect = {0,0,tmp_rect.r,tmp_rect.b}; hwc_region_t tmp_hwc_reg = {1,(hwc_rect_t const*)&tmp_hwc_rect}; region_iterator tmp_it(tmp_hwc_reg); copybit->set_parameter(copybit,COPYBIT_TRANSFORM,0); //TODO: once, we are able to read layer alpha, update this copybit->set_parameter(copybit, COPYBIT_PLANE_ALPHA, 255); err = copybit->stretch(copybit,&tmp_dst, &src, &tmp_rect, &srcRect, &tmp_it); if(err < 0){ ALOGE("%s:%d::tmp copybit stretch failed",__FUNCTION__, __LINE__); if(tmpHnd) free_buffer(tmpHnd); return err; } // copy new src and src rect crop src = tmp_dst; srcRect = tmp_rect; } } // Copybit region hwc_region_t region = layer->visibleRegionScreen; region_iterator copybitRegion(region); copybit->set_parameter(copybit, COPYBIT_FRAMEBUFFER_WIDTH, renderBuffer->width); copybit->set_parameter(copybit, COPYBIT_FRAMEBUFFER_HEIGHT, renderBuffer->height); copybit->set_parameter(copybit, COPYBIT_TRANSFORM, layer->transform); //TODO: once, we are able to read layer alpha, update this copybit->set_parameter(copybit, COPYBIT_PLANE_ALPHA, 255); copybit->set_parameter(copybit, COPYBIT_BLEND_MODE, layer->blending); copybit->set_parameter(copybit, COPYBIT_DITHER, (dst.format == HAL_PIXEL_FORMAT_RGB_565)? COPYBIT_ENABLE : COPYBIT_DISABLE); copybit->set_parameter(copybit, COPYBIT_BLIT_TO_FRAMEBUFFER, COPYBIT_ENABLE); err = copybit->stretch(copybit, &dst, &src, &dstRect, &srcRect, ©bitRegion); copybit->set_parameter(copybit, COPYBIT_BLIT_TO_FRAMEBUFFER, COPYBIT_DISABLE); if(tmpHnd) free_buffer(tmpHnd); if(err < 0) ALOGE("%s: copybit stretch failed",__FUNCTION__); return err; } void CopyBit::getLayerResolution(const hwc_layer_1_t* layer, unsigned int& width, unsigned int& height) { hwc_rect_t displayFrame = layer->displayFrame; width = displayFrame.right - displayFrame.left; height = displayFrame.bottom - displayFrame.top; } bool CopyBit::validateParams(hwc_context_t *ctx, const hwc_display_contents_1_t *list) { //Validate parameters if (!ctx) { ALOGE("%s:Invalid HWC context", __FUNCTION__); return false; } else if (!list) { ALOGE("%s:Invalid HWC layer list", __FUNCTION__); return false; } return true; } int CopyBit::allocRenderBuffers(int w, int h, int f) { int ret = 0; for (int i = 0; i < NUM_RENDER_BUFFERS; i++) { if (mRenderBuffer[i] == NULL) { ret = alloc_buffer(&mRenderBuffer[i], w, h, f, GRALLOC_USAGE_PRIVATE_IOMMU_HEAP); } if(ret < 0) { freeRenderBuffers(); break; } } return ret; } void CopyBit::freeRenderBuffers() { for (int i = 0; i < NUM_RENDER_BUFFERS; i++) { if(mRenderBuffer[i]) { free_buffer(mRenderBuffer[i]); mRenderBuffer[i] = NULL; } } } private_handle_t * CopyBit::getCurrentRenderBuffer() { return mRenderBuffer[mCurRenderBufferIndex]; } void CopyBit::setReleaseFd(int fd) { if(mRelFd[0] >=0) close(mRelFd[0]); mRelFd[0] = mRelFd[1]; mRelFd[1] = dup(fd); } struct copybit_device_t* CopyBit::getCopyBitDevice() { return mEngine; } CopyBit::CopyBit():mIsModeOn(false), mCopyBitDraw(false), mCurRenderBufferIndex(0){ hw_module_t const *module; for (int i = 0; i < NUM_RENDER_BUFFERS; i++) mRenderBuffer[i] = NULL; mRelFd[0] = -1; mRelFd[1] = -1; char value[PROPERTY_VALUE_MAX]; property_get("debug.hwc.dynThreshold", value, "2"); mDynThreshold = atof(value); if (hw_get_module(COPYBIT_HARDWARE_MODULE_ID, &module) == 0) { if(copybit_open(module, &mEngine) < 0) { ALOGE("FATAL ERROR: copybit open failed."); } } else { ALOGE("FATAL ERROR: copybit hw module not found"); } } CopyBit::~CopyBit() { freeRenderBuffers(); if(mRelFd[0] >=0) close(mRelFd[0]); if(mRelFd[1] >=0) close(mRelFd[1]); if(mEngine) { copybit_close(mEngine); mEngine = NULL; } } }; //namespace qhwc