/* * Copyright (C) 2010 The Android Open Source Project * Copyright (C) 2012, Code Aurora Forum. All rights reserved. * * 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 "hwc_utils.h" namespace qhwc { // Determine overlay state based on decoded video info static ovutils::eOverlayState determineOverlayState(hwc_context_t* ctx, uint32_t bypassLayer, uint32_t format) { ovutils::eOverlayState state = ovutils::OV_CLOSED; // Sanity check if (!ctx) { ALOGE("%s: NULL ctx", __FUNCTION__); return state; } overlay::Overlay& ov = *(ctx->mOverlay); state = ov.getState(); // If there are any bypassLayers, state is based on number of layers if ((bypassLayer > 0) && (ctx->hdmiEnabled == EXT_TYPE_NONE)) { if (bypassLayer == 1) { state = ovutils::OV_BYPASS_1_LAYER; } else if (bypassLayer == 2) { state = ovutils::OV_BYPASS_2_LAYER; } else if (bypassLayer == 3) { state = ovutils::OV_BYPASS_3_LAYER; } return state; } // RGB is ambiguous for determining overlay state if (ovutils::isRgb(ovutils::getMdpFormat(format))) { return state; } // Content type is either 2D or 3D uint32_t fmt3D = 0;//XXX: 3D - ovutils::getS3DFormat(format); // Determine state based on the external display, content type, and hw type if (ctx->hdmiEnabled == EXT_TYPE_HDMI) { // External display is HDMI if (fmt3D) { // Content type is 3D if (ovutils::is3DTV()) { // TV panel type is 3D state = ovutils::OV_3D_VIDEO_ON_3D_TV; } else { // TV panel type is 2D state = ovutils::OV_3D_VIDEO_ON_2D_PANEL_2D_TV; } } else { // Content type is 2D if (ovutils::FrameBufferInfo::getInstance()->supportTrueMirroring()) { // True UI mirroring is supported state = ovutils::OV_2D_TRUE_UI_MIRROR; } else { // True UI mirroring is not supported state = ovutils::OV_2D_VIDEO_ON_PANEL_TV; } } } else if (ctx->hdmiEnabled == EXT_TYPE_WIFI) { // External display is Wifi (currently unsupported) ALOGE("%s: WIFI external display is unsupported", __FUNCTION__); return state; } else { // No external display (primary panel only) if (fmt3D) { // Content type is 3D if (ovutils::usePanel3D()) { // Primary panel type is 3D state = ovutils::OV_3D_VIDEO_ON_3D_PANEL; } else { // Primary panel type is 2D state = ovutils::OV_3D_VIDEO_ON_2D_PANEL; } } else { // Content type is 2D state = ovutils::OV_2D_VIDEO_ON_PANEL; } } return state; } void setOverlayState(hwc_context_t *ctx, ovutils::eOverlayState state) { if (!ctx) { ALOGE("%s: NULL ctx", __FUNCTION__); return; } overlay::Overlay *ov = ctx->mOverlay; if (!ov) { ALOGE("%s: NULL OV object", __FUNCTION__); return; } ov->setState(state); } bool prepareOverlay(hwc_context_t *ctx, hwc_layer_t *layer) { bool ret = false; if (LIKELY(ctx->mOverlay)) { private_handle_t *hnd = (private_handle_t *)layer->handle; overlay::Overlay& ov = *(ctx->mOverlay); ovutils::Whf info(hnd->width, hnd->height, hnd->format, hnd->size); // Set overlay state ovutils::eOverlayState state = determineOverlayState(ctx, 0, info.format); setOverlayState(ctx, state); ovutils::eDest dest = ovutils::OV_PIPE_ALL; // In the true UI mirroring case, video needs to go to OV_PIPE0 (for // primary) and OV_PIPE1 (for external) if (state == ovutils::OV_2D_TRUE_UI_MIRROR) { dest = static_cast( ovutils::OV_PIPE0 | ovutils::OV_PIPE1); } // Order order order // setSource - just setting source // setParameter - changes src w/h/f accordingly // setCrop - ROI - that is src_rect // setPosition - need to do scaling // commit - commit changes to mdp driver // queueBuffer - not here, happens when draw is called ovutils::eMdpFlags mdpFlags = ovutils::OV_MDP_FLAGS_NONE; if (hnd->flags & private_handle_t::PRIV_FLAGS_SECURE_BUFFER) { ovutils::setMdpFlags(mdpFlags, ovutils::OV_MDP_SECURE_OVERLAY_SESSION); } // FIXME: Use source orientation for TV when source is portrait int transform = layer->transform & FINAL_TRANSFORM_MASK; ovutils::eTransform orient = static_cast(transform); ovutils::eWait waitFlag = ovutils::NO_WAIT; if (ctx->skipComposition == true) { waitFlag = ovutils::WAIT; } ovutils::eIsFg isFgFlag = ovutils::IS_FG_OFF; if (ctx->numHwLayers == 1) { isFgFlag = ovutils::IS_FG_SET; } ovutils::PipeArgs parg(mdpFlags, orient, info, waitFlag, ovutils::ZORDER_0, isFgFlag, ovutils::ROT_FLAG_DISABLED); ovutils::PipeArgs pargs[ovutils::MAX_PIPES] = { parg, parg, parg }; ret = ov.setSource(pargs, dest); if (!ret) { ALOGE("%s: setSource failed", __FUNCTION__); return ret; } const ovutils::Params prms (ovutils::OVERLAY_TRANSFORM, orient); ret = ov.setParameter(prms, dest); if (!ret) { ALOGE("%s: setParameter failed transform %x", __FUNCTION__, orient); return ret; } hwc_rect_t sourceCrop = layer->sourceCrop; // x,y,w,h ovutils::Dim dcrop(sourceCrop.left, sourceCrop.top, // x, y sourceCrop.right - sourceCrop.left, // w sourceCrop.bottom - sourceCrop.top);// h ret = ov.setCrop(dcrop, dest); if (!ret) { ALOGE("%s: setCrop failed", __FUNCTION__); return ret; } int orientation = 0; ovutils::Dim dim; hwc_rect_t displayFrame = layer->displayFrame; dim.x = displayFrame.left; dim.y = displayFrame.top; dim.w = (displayFrame.right - displayFrame.left); dim.h = (displayFrame.bottom - displayFrame.top); dim.o = orientation; ret = ov.setPosition(dim, dest); if (!ret) { ALOGE("%s: setPosition failed", __FUNCTION__); return ret; } if (!ov.commit(dest)) { ALOGE("%s: commit fails", __FUNCTION__); return false; } } return true; } bool drawLayerUsingOverlay(hwc_context_t *ctx, hwc_layer_t *layer) { private_handle_t *hnd = (private_handle_t *)layer->handle; // Lock this buffer for read. ctx->qbuf->lockAndAdd(hnd); bool ret = true; overlay::Overlay& ov = *(ctx->mOverlay); ovutils::eOverlayState state = ov.getState(); // Differentiate between states that need to wait for vsync switch (state) { case ovutils::OV_2D_VIDEO_ON_PANEL_TV: case ovutils::OV_3D_VIDEO_ON_2D_PANEL_2D_TV: case ovutils::OV_2D_TRUE_UI_MIRROR: // If displaying on both primary and external, must play each // pipe individually since wait for vsync needs to be done at // the end. Do the following: // - Play external // - Play primary // - Wait for external vsync to be done // NOTE: In these states // - primary VG = OV_PIPE0 // - external VG = OV_PIPE1 // - external RGB = OV_PIPE2 // - Only in true UI mirroring case, played by fb // Same FD for both primary and external VG pipes ov.setMemoryId(hnd->fd, static_cast( ovutils::OV_PIPE0 | ovutils::OV_PIPE1)); // Play external if (!ov.queueBuffer(hnd->offset, ovutils::OV_PIPE1)) { ALOGE("%s: queueBuffer failed for external", __FUNCTION__); ret = false; } // Play primary if (!ov.queueBuffer(hnd->offset, ovutils::OV_PIPE0)) { ALOGE("%s: queueBuffer failed for primary", __FUNCTION__); ret = false; } // Wait for external vsync to be done if (!ov.waitForVsync(ovutils::OV_PIPE1)) { ALOGE("%s: waitForVsync failed for external", __FUNCTION__); ret = false; } break; default: // In most cases, displaying only to one (primary or external) // so use OV_PIPE_ALL since overlay will ignore NullPipes ov.setMemoryId(hnd->fd, ovutils::OV_PIPE_ALL); if (!ov.queueBuffer(hnd->offset, ovutils::OV_PIPE_ALL)) { ALOGE("%s: queueBuffer failed", __FUNCTION__); ret = false; } break; } if (!ret) { ALOGE("%s: failed", __FUNCTION__); } return ret; } void cleanOverlays(hwc_context_t *ctx ) { //XXX: handle for HDMI if(0 == ctx->yuvBufferCount) setOverlayState(ctx, ovutils::OV_CLOSED); } }; //namespace qhwc