/* * Copyright (C) 2008 The Android Open Source Project * Copyright (c) 2010-2014, The Linux Foundation. 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 <math.h> #include <mdp_version.h> #include "overlayUtils.h" #include "overlayMdp.h" #include "mdp_version.h" #include <overlay.h> #define HSIC_SETTINGS_DEBUG 0 using namespace qdutils; static inline bool isEqual(float f1, float f2) { return ((int)(f1*100) == (int)(f2*100)) ? true : false; } namespace ovutils = overlay::utils; namespace overlay { bool MdpCtrl::init(const int& dpy) { int fbnum = Overlay::getFbForDpy(dpy); if( fbnum < 0 ) { ALOGE("%s: Invalid FB for the display: %d",__FUNCTION__, dpy); return false; } // FD init if(!utils::openDev(mFd, fbnum, Res::fbPath, O_RDWR)){ ALOGE("Ctrl failed to init fbnum=%d", fbnum); return false; } mDpy = dpy; return true; } void MdpCtrl::reset() { utils::memset0(mOVInfo); mOVInfo.id = MSMFB_NEW_REQUEST; mOrientation = utils::OVERLAY_TRANSFORM_0; mDpy = 0; #ifdef USES_POST_PROCESSING memset(&mParams, 0, sizeof(struct compute_params)); mParams.params.conv_params.order = hsic_order_hsc_i; mParams.params.conv_params.interface = interface_rec601; mParams.params.conv_params.cc_matrix[0][0] = 1; mParams.params.conv_params.cc_matrix[1][1] = 1; mParams.params.conv_params.cc_matrix[2][2] = 1; #endif } bool MdpCtrl::close() { bool result = true; if(MSMFB_NEW_REQUEST != static_cast<int>(mOVInfo.id)) { if(!mdp_wrapper::unsetOverlay(mFd.getFD(), mOVInfo.id)) { ALOGE("MdpCtrl close error in unset"); result = false; } } #ifdef USES_POST_PROCESSING /* free allocated memory in PP */ if (mOVInfo.overlay_pp_cfg.igc_cfg.c0_c1_data) free(mOVInfo.overlay_pp_cfg.igc_cfg.c0_c1_data); #endif reset(); if(!mFd.close()) { result = false; } return result; } void MdpCtrl::setSource(const utils::PipeArgs& args) { setSrcWhf(args.whf); //TODO These are hardcoded. Can be moved out of setSource. mOVInfo.transp_mask = 0xffffffff; //TODO These calls should ideally be a part of setPipeParams API setFlags(args.mdpFlags); setZ(args.zorder); setIsFg(args.isFg); setPlaneAlpha(args.planeAlpha); setBlending(args.blending); } void MdpCtrl::setCrop(const utils::Dim& d) { setSrcRectDim(d); } void MdpCtrl::setColor(const uint32_t color) { mOVInfo.bg_color = color; } void MdpCtrl::setPosition(const overlay::utils::Dim& d) { setDstRectDim(d); } void MdpCtrl::setTransform(const utils::eTransform& orient) { int rot = utils::getMdpOrient(orient); setUserData(rot); mOrientation = static_cast<utils::eTransform>(rot); } void MdpCtrl::setPipeType(const utils::eMdpPipeType& pType){ switch((int) pType){ case utils::OV_MDP_PIPE_RGB: mOVInfo.pipe_type = PIPE_TYPE_RGB; break; case utils::OV_MDP_PIPE_VG: mOVInfo.pipe_type = PIPE_TYPE_VIG; break; case utils::OV_MDP_PIPE_DMA: mOVInfo.pipe_type = PIPE_TYPE_DMA; break; default: mOVInfo.pipe_type = PIPE_TYPE_AUTO; break; } } void MdpCtrl::doTransform() { setRotationFlags(); utils::Whf whf = getSrcWhf(); utils::Dim dim = getSrcRectDim(); utils::preRotateSource(mOrientation, whf, dim); setSrcWhf(whf); setSrcRectDim(dim); } void MdpCtrl::doDownscale() { if(MDPVersion::getInstance().supportsDecimation()) { utils::getDecimationFactor(mOVInfo.src_rect.w, mOVInfo.src_rect.h, mOVInfo.dst_rect.w, mOVInfo.dst_rect.h, mOVInfo.horz_deci, mOVInfo.vert_deci); } } bool MdpCtrl::set() { int mdpVersion = MDPVersion::getInstance().getMDPVersion(); //deferred calcs, so APIs could be called in any order. doTransform(); utils::Whf whf = getSrcWhf(); if(utils::isYuv(whf.format)) { utils::normalizeCrop(mOVInfo.src_rect.x, mOVInfo.src_rect.w); utils::normalizeCrop(mOVInfo.src_rect.y, mOVInfo.src_rect.h); if(mdpVersion < MDSS_V5) { utils::even_floor(mOVInfo.dst_rect.w); utils::even_floor(mOVInfo.dst_rect.h); } else if (mOVInfo.flags & MDP_DEINTERLACE) { // For interlaced, crop.h should be 4-aligned if (!(mOVInfo.flags & MDP_SOURCE_ROTATED_90) && (mOVInfo.src_rect.h % 4)) mOVInfo.src_rect.h = utils::aligndown(mOVInfo.src_rect.h, 4); // For interlaced, width must be multiple of 4 when rotated 90deg. else if ((mOVInfo.flags & MDP_SOURCE_ROTATED_90) && (mOVInfo.src_rect.w % 4)) mOVInfo.src_rect.w = utils::aligndown(mOVInfo.src_rect.w, 4); } } else { if (mdpVersion >= MDSS_V5) { // Check for 1-pixel down-scaling if (mOVInfo.src_rect.w - mOVInfo.dst_rect.w == 1) mOVInfo.src_rect.w -= 1; if (mOVInfo.src_rect.h - mOVInfo.dst_rect.h == 1) mOVInfo.src_rect.h -= 1; } } doDownscale(); return true; } //Update src format based on rotator's destination format. void MdpCtrl::updateSrcFormat(const uint32_t& rotDestFmt) { utils::Whf whf = getSrcWhf(); whf.format = rotDestFmt; setSrcWhf(whf); } void MdpCtrl::dump() const { ALOGE("== Dump MdpCtrl start =="); mFd.dump(); mdp_wrapper::dump("mOVInfo", mOVInfo); ALOGE("== Dump MdpCtrl end =="); } void MdpCtrl::getDump(char *buf, size_t len) { ovutils::getDump(buf, len, "Ctrl", mOVInfo); } void MdpData::dump() const { ALOGE("== Dump MdpData start =="); mFd.dump(); mdp_wrapper::dump("mOvData", mOvData); ALOGE("== Dump MdpData end =="); } void MdpData::getDump(char *buf, size_t len) { ovutils::getDump(buf, len, "Data", mOvData); } bool MdpCtrl::setVisualParams(const MetaData_t& data) { ALOGD_IF(0, "In %s: data.operation = %d", __FUNCTION__, data.operation); #ifdef USES_POST_PROCESSING bool needUpdate = false; /* calculate the data */ if (data.operation & PP_PARAM_HSIC) { if (mParams.params.pa_params.hue != data.hsicData.hue) { ALOGD_IF(HSIC_SETTINGS_DEBUG, "Hue has changed from %d to %d", mParams.params.pa_params.hue,data.hsicData.hue); needUpdate = true; } if (!isEqual(mParams.params.pa_params.sat, data.hsicData.saturation)) { ALOGD_IF(HSIC_SETTINGS_DEBUG, "Saturation has changed from %f to %f", mParams.params.pa_params.sat, data.hsicData.saturation); needUpdate = true; } if (mParams.params.pa_params.intensity != data.hsicData.intensity) { ALOGD_IF(HSIC_SETTINGS_DEBUG, "Intensity has changed from %d to %d", mParams.params.pa_params.intensity, data.hsicData.intensity); needUpdate = true; } if (!isEqual(mParams.params.pa_params.contrast, data.hsicData.contrast)) { ALOGD_IF(HSIC_SETTINGS_DEBUG, "Contrast has changed from %f to %f", mParams.params.pa_params.contrast, data.hsicData.contrast); needUpdate = true; } if (needUpdate) { mParams.params.pa_params.hue = data.hsicData.hue; mParams.params.pa_params.sat = data.hsicData.saturation; mParams.params.pa_params.intensity = data.hsicData.intensity; mParams.params.pa_params.contrast = data.hsicData.contrast; mParams.params.pa_params.ops = MDP_PP_OPS_WRITE | MDP_PP_OPS_ENABLE; mParams.operation |= PP_OP_PA; } } if (data.operation & PP_PARAM_SHARP2) { if (mParams.params.sharp_params.strength != data.Sharp2Data.strength) { needUpdate = true; } if (mParams.params.sharp_params.edge_thr != data.Sharp2Data.edge_thr) { needUpdate = true; } if (mParams.params.sharp_params.smooth_thr != data.Sharp2Data.smooth_thr) { needUpdate = true; } if (mParams.params.sharp_params.noise_thr != data.Sharp2Data.noise_thr) { needUpdate = true; } if (needUpdate) { mParams.params.sharp_params.strength = data.Sharp2Data.strength; mParams.params.sharp_params.edge_thr = data.Sharp2Data.edge_thr; mParams.params.sharp_params.smooth_thr = data.Sharp2Data.smooth_thr; mParams.params.sharp_params.noise_thr = data.Sharp2Data.noise_thr; mParams.params.sharp_params.ops = MDP_PP_OPS_WRITE | MDP_PP_OPS_ENABLE; mParams.operation |= PP_OP_SHARP; } } if (data.operation & PP_PARAM_IGC) { if (mOVInfo.overlay_pp_cfg.igc_cfg.c0_c1_data == NULL){ uint32_t *igcData = (uint32_t *)malloc(2 * MAX_IGC_LUT_ENTRIES * sizeof(uint32_t)); if (!igcData) { ALOGE("IGC storage allocated failed"); return false; } mOVInfo.overlay_pp_cfg.igc_cfg.c0_c1_data = igcData; mOVInfo.overlay_pp_cfg.igc_cfg.c2_data = igcData + MAX_IGC_LUT_ENTRIES; } memcpy(mParams.params.igc_lut_params.c0, data.igcData.c0, sizeof(uint16_t) * MAX_IGC_LUT_ENTRIES); memcpy(mParams.params.igc_lut_params.c1, data.igcData.c1, sizeof(uint16_t) * MAX_IGC_LUT_ENTRIES); memcpy(mParams.params.igc_lut_params.c2, data.igcData.c2, sizeof(uint16_t) * MAX_IGC_LUT_ENTRIES); mParams.params.igc_lut_params.ops = MDP_PP_OPS_WRITE | MDP_PP_OPS_ENABLE; mParams.operation |= PP_OP_IGC; needUpdate = true; } if (data.operation & PP_PARAM_VID_INTFC) { mParams.params.conv_params.interface = (interface_type) data.video_interface; needUpdate = true; } if (needUpdate) { display_pp_compute_params(&mParams, &mOVInfo.overlay_pp_cfg); } #endif return true; } bool MdpCtrl::validateAndSet(MdpCtrl* mdpCtrlArray[], const int& count, const int& fbFd) { mdp_overlay* ovArray[count]; memset(&ovArray, 0, sizeof(ovArray)); for(int i = 0; i < count; i++) { ovArray[i] = &mdpCtrlArray[i]->mOVInfo; } struct mdp_overlay_list list; memset(&list, 0, sizeof(struct mdp_overlay_list)); list.num_overlays = count; list.overlay_list = ovArray; int (*fnProgramScale)(struct mdp_overlay_list *) = Overlay::getFnProgramScale(); if(fnProgramScale) { fnProgramScale(&list); } if(!mdp_wrapper::validateAndSet(fbFd, list)) { /* No dump for failure due to insufficient resource */ if(errno != E2BIG) { mdp_wrapper::dump("Bad ov dump: ", *list.overlay_list[list.processed_overlays]); } return false; } return true; } //// MdpData //////////// bool MdpData::init(const int& dpy) { int fbnum = Overlay::getFbForDpy(dpy); if( fbnum < 0 ) { ALOGE("%s: Invalid FB for the display: %d",__FUNCTION__, dpy); return false; } // FD init if(!utils::openDev(mFd, fbnum, Res::fbPath, O_RDWR)){ ALOGE("Ctrl failed to init fbnum=%d", fbnum); return false; } return true; } } // overlay