liboverlay/overlayMdp.h - platform/hardware/qcom/display - Git at Google

 /*
 * Copyright (C) 2008 The Android Open Source Project
 * Copyright (c) 2010-2012, 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.
 */

 #ifndef OVERLAY_MDP_H
 #define OVERLAY_MDP_H

 #include <linux/msm_mdp.h>

 #include "overlayUtils.h"
 #include "mdpWrapper.h"

 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();

     /* dtor close */
     ~MdpCtrl();

     /* init underlying device using fbnum */
     bool init(uint32_t fbnum);

     /* unset overlay, reset and close fd */
     bool close();

     /* reset and set ov id to -1 / MSMFB_NEW_REQUEST */
     void reset();

     /* get orient / user_data[0] */
     int getOrient() const;

     /* returns session id */
     int getPipeId() const;

     /* returns the fd associated to ctrl*/
     int getFd() const;

     /* Get screen info. out: info*/
     bool getScreenInfo(utils::ScreenInfo& info);

     /* overlay get */
     bool get();

     /* 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);

     /* 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();

     /* return a copy of src whf*/
     utils::Whf getSrcWhf() const;

     /* set src whf */
     void setSrcWhf(const utils::Whf& whf);

     /* adjust source width height format based on rot info */
     void adjustSrcWhf(const bool& rotUsed);

     /* swap src w/h*/
     void swapSrcWH();

     /* swap src rect w/h */
     void swapSrcRectWH();

     /* returns a copy to src rect dim */
     utils::Dim getSrcRectDim() const;

     /* set src/dst rect dim */
     void setSrcRectDim(const utils::Dim d);
     void setDstRectDim(const utils::Dim d);

     /* returns a copy ro dst rect dim */
     utils::Dim getDstRectDim() const;

     /* returns user_data[0]*/
     int getUserData() const;

     /* sets user_data[0] */
     void setUserData(int v);

     /* return true if current overlay is different
      * than last known good overlay */
     bool ovChanged() const;

     /* save mOVInfo to be last known good ov*/
     void save();

     /* restore last known good ov to be the current */
     void restore();

     /* Sets the source total width, height, format */
     bool setSource(const utils::PipeArgs& pargs);

     /*
      * Sets ROI, the unpadded region, for source buffer.
      * Should be called before a setPosition, for small clips.
      * Dim - ROI dimensions.
      */
     bool setCrop(const utils::Dim& d);

     bool setTransform(const utils::eTransform& orient, const bool& rotUsed);

     /* given a dim and w/h, set overlay dim */
     bool setPosition(const utils::Dim& dim, int w, int h);

     /* using user_data, sets/unsets roationvalue in mdp flags */
     void setRotationFlags();

     /* dump state of the object */
     void dump() const;

 private:

     /* helper functions for overlayTransform */
     void doTransform();
     void overlayTransFlipH();
     void overlayTransFlipV();
     void overlayTransRot90();

     utils::eTransform mOrientation; //Holds requested orientation
     bool mRotUsed; //whether rotator should be used even if requested
                    //orientation is 0.

     /* last good known ov info */
     mdp_overlay   mLkgo;

     /* Actual overlay mdp structure */
     mdp_overlay   mOVInfo;

     /* FD for the mdp fbnum */
     OvFD          mFd;
 };


 /* 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();

     /* dtor close*/
     ~MdpData();

     /* init FD */
     bool init(uint32_t fbnum);

     /* 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;
 private:

     /* actual overlay mdp data */
     msmfb_overlay_data mOvData;

     /* fd to mdp fbnum */
     OvFD mFd;
 };

 //--------------Inlines---------------------------------
 namespace {
 // just a helper func for common operations x-(y+z)
 int compute(uint32_t x, uint32_t y, uint32_t z) {
     return x-(y+z);
 }
 }

 /////   MdpCtrl  //////

 inline MdpCtrl::MdpCtrl() {
     reset();
 }

 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 bool MdpCtrl::ovChanged() const {
     // 0 means same
     if(0 == ::memcmp(&mOVInfo, &mLkgo, sizeof (mdp_overlay))) {
         return false;
     }
     return true;
 }

 inline void MdpCtrl::save() {
     if(static_cast<ssize_t>(mOVInfo.id) == MSMFB_NEW_REQUEST) {
         ALOGE("MdpCtrl current ov has id -1, will not save");
         return;
     }
     mLkgo = mOVInfo;
 }

 inline void MdpCtrl::restore() {
     if(static_cast<ssize_t>(mLkgo.id) == MSMFB_NEW_REQUEST) {
         ALOGE("MdpCtrl Lkgo ov has id -1, will not restore");
         return;
     }
     mOVInfo = mLkgo;
 }

 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 || u == MDP_ROT_270)
         mOVInfo.flags |= MDP_SOURCE_ROTATED_90;
     else
         mOVInfo.flags &= ~MDP_SOURCE_ROTATED_90;
 }

 inline void MdpCtrl::swapSrcWH() {
     utils::swap(mOVInfo.src.width,
             mOVInfo.src.height);
 }

 inline void MdpCtrl::swapSrcRectWH() {
     utils::swap(mOVInfo.src_rect.w,
             mOVInfo.src_rect.h);
 }

 inline void MdpCtrl::overlayTransFlipH()
 {
     utils::Dim d   = getSrcRectDim();
     utils::Whf whf = getSrcWhf();
     d.x = compute(whf.w, d.x, d.w);
     setSrcRectDim(d);
 }

 inline void MdpCtrl::overlayTransFlipV()
 {
     utils::Dim d   = getSrcRectDim();
     utils::Whf whf = getSrcWhf();
     d.y = compute(whf.h, d.y, d.h);
     setSrcRectDim(d);
 }

 inline void MdpCtrl::overlayTransRot90()
 {
     utils::Dim d   = getSrcRectDim();
     utils::Whf whf = getSrcWhf();
     int tmp = d.x;
     d.x = compute(whf.h,
             d.y,
             d.h);
     d.y = tmp;
     setSrcRectDim(d);
     swapSrcWH();
     swapSrcRectWH();
 }


 ///////    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() { reset(); }

 inline MdpData::~MdpData() { close(); }

 inline bool MdpData::init(uint32_t fbnum) {
     // FD init
     if(!utils::openDev(mFd, fbnum, Res::fbPath, O_RDWR)){
         ALOGE("Ctrl failed to init fbnum=%d", fbnum);
         return false;
     }
     return true;
 }

 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
	/*
	* Copyright (C) 2008 The Android Open Source Project
	* Copyright (c) 2010-2012, 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.
	*/

	#ifndef OVERLAY_MDP_H
	#define OVERLAY_MDP_H

	#include <linux/msm_mdp.h>

	#include "overlayUtils.h"
	#include "mdpWrapper.h"

	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();

	/* dtor close */
	~MdpCtrl();

	/* init underlying device using fbnum */
	bool init(uint32_t fbnum);

	/* unset overlay, reset and close fd */
	bool close();

	/* reset and set ov id to -1 / MSMFB_NEW_REQUEST */
	void reset();

	/* get orient / user_data[0] */
	int getOrient() const;

	/* returns session id */
	int getPipeId() const;

	/* returns the fd associated to ctrl*/
	int getFd() const;

	/* Get screen info. out: info*/
	bool getScreenInfo(utils::ScreenInfo& info);

	/* overlay get */
	bool get();

	/* 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);

	/* 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();

	/* return a copy of src whf*/
	utils::Whf getSrcWhf() const;

	/* set src whf */
	void setSrcWhf(const utils::Whf& whf);

	/* adjust source width height format based on rot info */
	void adjustSrcWhf(const bool& rotUsed);

	/* swap src w/h*/
	void swapSrcWH();

	/* swap src rect w/h */
	void swapSrcRectWH();

	/* returns a copy to src rect dim */
	utils::Dim getSrcRectDim() const;

	/* set src/dst rect dim */
	void setSrcRectDim(const utils::Dim d);
	void setDstRectDim(const utils::Dim d);

	/* returns a copy ro dst rect dim */
	utils::Dim getDstRectDim() const;

	/* returns user_data[0]*/
	int getUserData() const;

	/* sets user_data[0] */
	void setUserData(int v);

	/* return true if current overlay is different
	* than last known good overlay */
	bool ovChanged() const;

	/* save mOVInfo to be last known good ov*/
	void save();

	/* restore last known good ov to be the current */
	void restore();

	/* Sets the source total width, height, format */
	bool setSource(const utils::PipeArgs& pargs);

	/*
	* Sets ROI, the unpadded region, for source buffer.
	* Should be called before a setPosition, for small clips.
	* Dim - ROI dimensions.
	*/
	bool setCrop(const utils::Dim& d);

	bool setTransform(const utils::eTransform& orient, const bool& rotUsed);

	/* given a dim and w/h, set overlay dim */
	bool setPosition(const utils::Dim& dim, int w, int h);

	/* using user_data, sets/unsets roationvalue in mdp flags */
	void setRotationFlags();

	/* dump state of the object */
	void dump() const;

	private:

	/* helper functions for overlayTransform */
	void doTransform();
	void overlayTransFlipH();
	void overlayTransFlipV();
	void overlayTransRot90();

	utils::eTransform mOrientation; //Holds requested orientation
	bool mRotUsed; //whether rotator should be used even if requested
	//orientation is 0.

	/* last good known ov info */
	mdp_overlay mLkgo;

	/* Actual overlay mdp structure */
	mdp_overlay mOVInfo;

	/* FD for the mdp fbnum */
	OvFD mFd;
	};


	/* 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();

	/* dtor close*/
	~MdpData();

	/* init FD */
	bool init(uint32_t fbnum);

	/* 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;
	private:

	/* actual overlay mdp data */
	msmfb_overlay_data mOvData;

	/* fd to mdp fbnum */
	OvFD mFd;
	};

	//--------------Inlines---------------------------------
	namespace {
	// just a helper func for common operations x-(y+z)
	int compute(uint32_t x, uint32_t y, uint32_t z) {
	return x-(y+z);
	}
	}

	///// MdpCtrl //////

	inline MdpCtrl::MdpCtrl() {
	reset();
	}

	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 bool MdpCtrl::ovChanged() const {
	// 0 means same
	if(0 == ::memcmp(&mOVInfo, &mLkgo, sizeof (mdp_overlay))) {
	return false;
	}
	return true;
	}

	inline void MdpCtrl::save() {
	if(static_cast<ssize_t>(mOVInfo.id) == MSMFB_NEW_REQUEST) {
	ALOGE("MdpCtrl current ov has id -1, will not save");
	return;
	}
	mLkgo = mOVInfo;
	}

	inline void MdpCtrl::restore() {
	if(static_cast<ssize_t>(mLkgo.id) == MSMFB_NEW_REQUEST) {
	ALOGE("MdpCtrl Lkgo ov has id -1, will not restore");
	return;
	}
	mOVInfo = mLkgo;
	}

	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 \|\| u == MDP_ROT_270)
	mOVInfo.flags \|= MDP_SOURCE_ROTATED_90;
	else
	mOVInfo.flags &= ~MDP_SOURCE_ROTATED_90;
	}

	inline void MdpCtrl::swapSrcWH() {
	utils::swap(mOVInfo.src.width,
	mOVInfo.src.height);
	}

	inline void MdpCtrl::swapSrcRectWH() {
	utils::swap(mOVInfo.src_rect.w,
	mOVInfo.src_rect.h);
	}

	inline void MdpCtrl::overlayTransFlipH()
	{
	utils::Dim d = getSrcRectDim();
	utils::Whf whf = getSrcWhf();
	d.x = compute(whf.w, d.x, d.w);
	setSrcRectDim(d);
	}

	inline void MdpCtrl::overlayTransFlipV()
	{
	utils::Dim d = getSrcRectDim();
	utils::Whf whf = getSrcWhf();
	d.y = compute(whf.h, d.y, d.h);
	setSrcRectDim(d);
	}

	inline void MdpCtrl::overlayTransRot90()
	{
	utils::Dim d = getSrcRectDim();
	utils::Whf whf = getSrcWhf();
	int tmp = d.x;
	d.x = compute(whf.h,
	d.y,
	d.h);
	d.y = tmp;
	setSrcRectDim(d);
	swapSrcWH();
	swapSrcRectWH();
	}


	/////// 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() { reset(); }

	inline MdpData::~MdpData() { close(); }

	inline bool MdpData::init(uint32_t fbnum) {
	// FD init
	if(!utils::openDev(mFd, fbnum, Res::fbPath, O_RDWR)){
	ALOGE("Ctrl failed to init fbnum=%d", fbnum);
	return false;
	}
	return true;
	}

	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