/* * Copyright (C) 2008 The Android Open Source Project * Copyright (c) 2010-2013, 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. */ #ifndef OVERLAY_MDP_H #define OVERLAY_MDP_H #include #include "overlayUtils.h" #include "mdpWrapper.h" #include "qdMetaData.h" #ifdef USES_POST_PROCESSING #include "lib-postproc.h" #endif namespace overlay{ /* * Mdp Ctrl holds corresponding fd and MDP related struct. * It is simple wrapper to MDP services * */ class MdpCtrl { public: /* ctor reset */ explicit MdpCtrl(const int& dpy); /* dtor close */ ~MdpCtrl(); /* init underlying device using fbnum for dpy */ bool init(const int& dpy); /* unset overlay, reset and close fd */ bool close(); /* reset and set ov id to -1 / MSMFB_NEW_REQUEST */ void reset(); /* calls overlay set * Set would always consult last good known ov instance. * Only if it is different, set would actually exectue ioctl. * On a sucess ioctl. last good known ov instance is updated */ bool set(); /* Sets the source total width, height, format */ void setSource(const utils::PipeArgs& pargs); /* * Sets ROI, the unpadded region, for source buffer. * Dim - ROI dimensions. */ void setCrop(const utils::Dim& d); /* set color for mdp pipe */ void setColor(const uint32_t color); void setTransform(const utils::eTransform& orient); /* given a dim and w/h, set overlay dim */ void setPosition(const utils::Dim& dim); /* using user_data, sets/unsets roationvalue in mdp flags */ void setRotationFlags(); /* Performs downscale calculations */ void setDownscale(int dscale_factor); /* Update the src format with rotator's dest*/ void updateSrcFormat(const uint32_t& rotDstFormat); /* dump state of the object */ void dump() const; /* Return the dump in the specified buffer */ void getDump(char *buf, size_t len); /* returns session id */ int getPipeId() const; /* returns the fd associated to ctrl*/ int getFd() const; /* returns a copy ro dst rect dim */ utils::Dim getDstRectDim() const; /* returns a copy to src rect dim */ utils::Dim getSrcRectDim() const; /* return pipe priority */ uint8_t getPriority() const; /* setVisualParam */ bool setVisualParams(const MetaData_t& data); static bool validateAndSet(MdpCtrl* mdpCtrlArray[], const int& count, const int& fbFd); private: /* Perform transformation calculations */ void doTransform(); void doDownscale(); /* get orient / user_data[0] */ int getOrient() const; /* returns flags from mdp structure */ int getFlags() const; /* set flags to mdp structure */ void setFlags(int f); /* set z order */ void setZ(utils::eZorder z); /* set isFg flag */ void setIsFg(utils::eIsFg isFg); /* return a copy of src whf*/ utils::Whf getSrcWhf() const; /* set plane alpha */ void setPlaneAlpha(int planeAlpha); /* set blending method */ void setBlending(overlay::utils::eBlending blending); /* set src whf */ void setSrcWhf(const utils::Whf& whf); /* set src/dst rect dim */ void setSrcRectDim(const utils::Dim d); void setDstRectDim(const utils::Dim d); /* returns user_data[0]*/ int getUserData() const; /* sets user_data[0] */ void setUserData(int v); utils::eTransform mOrientation; //Holds requested orientation /* Actual overlay mdp structure */ mdp_overlay mOVInfo; /* FD for the mdp fbnum */ OvFD mFd; int mDownscale; int mDpy; #ifdef USES_POST_PROCESSING /* PP Compute Params */ struct compute_params mParams; #endif }; /* MDP 3D related ctrl */ class MdpCtrl3D { public: /* ctor reset data */ MdpCtrl3D(); /* calls MSMFB_OVERLAY_3D */ bool close(); /* set w/h. format is ignored*/ void setWh(const utils::Whf& whf); /* set is_3d calls MSMFB_OVERLAY_3D */ bool useVirtualFB(); /* set fd to be used in ioctl */ void setFd(int fd); /* dump */ void dump() const; private: /* reset */ void reset(); /* actual MSM 3D info */ msmfb_overlay_3d m3DOVInfo; /* FD for the mdp 3D */ OvFD mFd; }; /* MDP data */ class MdpData { public: /* ctor reset data */ explicit MdpData(const int& dpy); /* dtor close*/ ~MdpData(); /* init FD */ bool init(const int& dpy); /* memset0 the underlying mdp object */ void reset(); /* close fd, and reset */ bool close(); /* set id of mdp data */ void setPipeId(int id); /* return ses id of data */ int getPipeId() const; /* get underlying fd*/ int getFd() const; /* get memory_id */ int getSrcMemoryId() const; /* calls wrapper play */ bool play(int fd, uint32_t offset); /* dump state of the object */ void dump() const; /* Return the dump in the specified buffer */ void getDump(char *buf, size_t len); private: /* actual overlay mdp data */ msmfb_overlay_data mOvData; /* fd to mdp fbnum */ OvFD mFd; }; //--------------Inlines--------------------------------- ///// MdpCtrl ////// inline MdpCtrl::MdpCtrl(const int& dpy) { reset(); init(dpy); } inline MdpCtrl::~MdpCtrl() { close(); } inline int MdpCtrl::getOrient() const { return getUserData(); } inline int MdpCtrl::getPipeId() const { return mOVInfo.id; } inline int MdpCtrl::getFd() const { return mFd.getFD(); } inline int MdpCtrl::getFlags() const { return mOVInfo.flags; } inline void MdpCtrl::setFlags(int f) { mOVInfo.flags = f; } inline void MdpCtrl::setZ(overlay::utils::eZorder z) { mOVInfo.z_order = z; } inline void MdpCtrl::setIsFg(overlay::utils::eIsFg isFg) { mOVInfo.is_fg = isFg; } inline void MdpCtrl::setDownscale(int dscale) { mDownscale = dscale; } inline void MdpCtrl::setPlaneAlpha(int planeAlpha) { mOVInfo.alpha = planeAlpha; } inline void MdpCtrl::setBlending(overlay::utils::eBlending blending) { switch((int) blending) { case utils::OVERLAY_BLENDING_OPAQUE: mOVInfo.blend_op = BLEND_OP_OPAQUE; break; case utils::OVERLAY_BLENDING_PREMULT: mOVInfo.blend_op = BLEND_OP_PREMULTIPLIED; break; case utils::OVERLAY_BLENDING_COVERAGE: default: mOVInfo.blend_op = BLEND_OP_COVERAGE; } } inline overlay::utils::Whf MdpCtrl::getSrcWhf() const { return utils::Whf( mOVInfo.src.width, mOVInfo.src.height, mOVInfo.src.format); } inline void MdpCtrl::setSrcWhf(const overlay::utils::Whf& whf) { mOVInfo.src.width = whf.w; mOVInfo.src.height = whf.h; mOVInfo.src.format = whf.format; } inline overlay::utils::Dim MdpCtrl::getSrcRectDim() const { return utils::Dim( mOVInfo.src_rect.x, mOVInfo.src_rect.y, mOVInfo.src_rect.w, mOVInfo.src_rect.h); } inline void MdpCtrl::setSrcRectDim(const overlay::utils::Dim d) { mOVInfo.src_rect.x = d.x; mOVInfo.src_rect.y = d.y; mOVInfo.src_rect.w = d.w; mOVInfo.src_rect.h = d.h; } inline overlay::utils::Dim MdpCtrl::getDstRectDim() const { return utils::Dim( mOVInfo.dst_rect.x, mOVInfo.dst_rect.y, mOVInfo.dst_rect.w, mOVInfo.dst_rect.h); } inline void MdpCtrl::setDstRectDim(const overlay::utils::Dim d) { mOVInfo.dst_rect.x = d.x; mOVInfo.dst_rect.y = d.y; mOVInfo.dst_rect.w = d.w; mOVInfo.dst_rect.h = d.h; } inline int MdpCtrl::getUserData() const { return mOVInfo.user_data[0]; } inline void MdpCtrl::setUserData(int v) { mOVInfo.user_data[0] = v; } inline void MdpCtrl::setRotationFlags() { const int u = getUserData(); if (u & MDP_ROT_90) mOVInfo.flags |= MDP_SOURCE_ROTATED_90; } inline uint8_t MdpCtrl::getPriority() const { return mOVInfo.priority; } /////// MdpCtrl3D ////// inline MdpCtrl3D::MdpCtrl3D() { reset(); } inline bool MdpCtrl3D::close() { if (m3DOVInfo.is_3d) { m3DOVInfo.is_3d = 0; if(!mdp_wrapper::set3D(mFd.getFD(), m3DOVInfo)) { ALOGE("MdpCtrl3D close failed set3D with 0"); return false; } } reset(); return true; } inline void MdpCtrl3D::reset() { utils::memset0(m3DOVInfo); } inline void MdpCtrl3D::setFd(int fd) { mFd.copy(fd); OVASSERT(mFd.valid(), "MdpCtrl3D setFd, FD should be valid"); } inline void MdpCtrl3D::setWh(const utils::Whf& whf) { // ignore fmt. Needed for useVirtualFB callflow m3DOVInfo.width = whf.w; m3DOVInfo.height = whf.h; } inline bool MdpCtrl3D::useVirtualFB() { if(!m3DOVInfo.is_3d) { m3DOVInfo.is_3d = 1; if(!mdp_wrapper::set3D(mFd.getFD(), m3DOVInfo)) { ALOGE("MdpCtrl3D close failed set3D with 0"); return false; } } return true; } /////// MdpData ////// inline MdpData::MdpData(const int& dpy) { reset(); init(dpy); } inline MdpData::~MdpData() { close(); } inline void MdpData::reset() { overlay::utils::memset0(mOvData); mOvData.data.memory_id = -1; } inline bool MdpData::close() { reset(); return mFd.close(); } inline int MdpData::getSrcMemoryId() const { return mOvData.data.memory_id; } inline void MdpData::setPipeId(int id) { mOvData.id = id; } inline int MdpData::getPipeId() const { return mOvData.id; } inline int MdpData::getFd() const { return mFd.getFD(); } inline bool MdpData::play(int fd, uint32_t offset) { mOvData.data.memory_id = fd; mOvData.data.offset = offset; if(!mdp_wrapper::play(mFd.getFD(), mOvData)){ ALOGE("MdpData failed to play"); dump(); return false; } return true; } } // overlay #endif // OVERLAY_MDP_H