/*
* Copyright (c) 2011-2013, The Linux Foundation. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met:
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following
* disclaimer in the documentation and/or other materials provided
* with the distribution.
* * Neither the name of The Linux Foundation. nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED "AS IS" AND ANY EXPRESS OR IMPLIED
* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS
* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
* BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
* WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
* OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
* IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#ifndef OVERLAY_H
#define OVERLAY_H
#include "overlayUtils.h"
#include "mdp_version.h"
#include "utils/threads.h"
struct MetaData_t;
namespace overlay {
class GenericPipe;
class Overlay : utils::NoCopy {
public:
enum { DMA_BLOCK_MODE, DMA_LINE_MODE };
//Abstract Display types. Each backed by a LayerMixer,
//represented by a fb node.
//High res panels can be backed by 2 layer mixers and a single fb node.
enum { DPY_PRIMARY, DPY_EXTERNAL, DPY_TERTIARY, DPY_WRITEBACK, DPY_UNUSED };
enum { DPY_MAX = DPY_UNUSED };
enum { MIXER_LEFT, MIXER_RIGHT, MIXER_UNUSED };
enum { MIXER_DEFAULT = MIXER_LEFT, MIXER_MAX = MIXER_UNUSED };
enum { MAX_FB_DEVICES = DPY_MAX };
enum { FORMAT_YUV, FORMAT_RGB , FORMAT_NONE };
struct PipeSpecs {
PipeSpecs() : formatClass(FORMAT_RGB), needsScaling(false), fb(false),
dpy(DPY_PRIMARY), mixer(MIXER_DEFAULT), numActiveDisplays(1) {}
int formatClass;
bool needsScaling;
bool fb;
int dpy;
int mixer;
int numActiveDisplays;
};
/* dtor close */
~Overlay();
/* Marks the beginning of a drawing round, resets usage bits on pipes
* Should be called when drawing begins before any pipe config is done.
*/
void configBegin();
/* Marks the end of config for this drawing round
* Will do garbage collection of pipe objects and thus calling UNSETs,
* closing FDs, removing rotator objects and memory, if allocated.
* Should be called after all pipe configs are done.
*/
void configDone();
/* Get a pipe that supported the specified format class (yuv, rgb) and has
* scaling capabilities.
*/
utils::eDest getPipe(const PipeSpecs& pipeSpecs);
/* Returns the eDest corresponding to an already allocated pipeid.
* Useful for the reservation case, when libvpu reserves the pipe at its
* end, and expect the overlay to allocate a given pipe for a layer.
*/
utils::eDest reservePipe(int pipeid);
/* getting dest for the given pipeid */
utils::eDest getDest(int pipeid);
/* getting overlay.pipeid for the given dest */
int getPipeId(utils::eDest dest);
void setSource(const utils::PipeArgs args, utils::eDest dest);
void setCrop(const utils::Dim& d, utils::eDest dest);
void setColor(const uint32_t color, utils::eDest dest);
void setTransform(const int orientation, utils::eDest dest);
void setPosition(const utils::Dim& dim, utils::eDest dest);
void setVisualParams(const MetaData_t& data, utils::eDest dest);
bool commit(utils::eDest dest);
bool queueBuffer(int fd, uint32_t offset, utils::eDest dest);
/* pipe reservation session is running */
bool sessionInProgress(utils::eDest dest);
/* pipe reservation session has ended*/
bool isSessionEnded(utils::eDest dest);
/* start session for the pipe reservation */
void startSession(utils::eDest dest);
/* end all started sesisons */
void endAllSessions();
/* Returns available ("unallocated") pipes for a display's mixer */
int availablePipes(int dpy, int mixer);
/* Returns available ("unallocated") pipes for a display */
int availablePipes(int dpy);
/* Returns available ("unallocated") pipe of given type for a display */
int availablePipes(int dpy, utils::eMdpPipeType type);
/* Returns if any of the requested pipe type is attached to any of the
* displays
*/
bool isPipeTypeAttached(utils::eMdpPipeType type);
/* Compare pipe priorities and return
* 1 if 1st pipe has a higher priority
* 0 if both have the same priority
*-1 if 2nd pipe has a higher priority
*/
int comparePipePriority(utils::eDest pipe1Index, utils::eDest pipe2Index);
/* Returns pipe dump. Expects a NULL terminated buffer of big enough size
* to populate.
*/
/* Returns if DMA pipe multiplexing is supported by the mdss driver */
static bool isDMAMultiplexingSupported();
/* Returns if UI scaling on external is supported on the targets */
static bool isUIScalingOnExternalSupported();
void getDump(char *buf, size_t len);
/* Reset usage and allocation bits on all pipes for given display */
void clear(int dpy);
/* Validate the set of pipes for a display and set them in driver */
bool validateAndSet(const int& dpy, const int& fbFd);
/* Closes open pipes, called during startup */
static int initOverlay();
/* Returns the singleton instance of overlay */
static Overlay* getInstance();
static void setDMAMode(const int& mode);
static int getDMAMode();
/* Returns the framebuffer node backing up the display */
static int getFbForDpy(const int& dpy);
static bool displayCommit(const int& fd);
/* Overloads display commit with ROI's of each halves.
* Single interface panels will only update left ROI. */
static bool displayCommit(const int& fd, const utils::Dim& lRoi,
const utils::Dim& rRoi);
/* Logs pipe lifecycle events like set, unset, commit when enabled */
static void debugPipeLifecycle(const bool& enable);
/* Returns true if pipe life cycle logging is enabled */
static bool isDebugPipeLifecycle();
private:
/* Ctor setup */
explicit Overlay();
/*Validate index range, abort if invalid */
void validate(int index);
static void setDMAMultiplexingSupported();
/* Returns an available pipe based on the type of pipe requested. When ANY
* is requested, the first available VG or RGB is returned. If no pipe is
* available for the display "dpy" then INV is returned. Note: If a pipe is
* assigned to a certain display, then it cannot be assigned to another
* display without being garbage-collected once. To add if a pipe is
* asisgned to a mixer within a display it cannot be reused for another
* mixer without being UNSET once*/
utils::eDest nextPipe(utils::eMdpPipeType, const PipeSpecs& pipeSpecs);
/* Helpers that enfore target specific policies while returning pipes */
utils::eDest getPipe_8x26(const PipeSpecs& pipeSpecs);
utils::eDest getPipe_8x16(const PipeSpecs& pipeSpecs);
utils::eDest getPipe_8x39(const PipeSpecs& pipeSpecs);
utils::eDest getPipe_8994(const PipeSpecs& pipeSpecs);
/* Returns the handle to libscale.so's programScale function */
static int (*getFnProgramScale())(struct mdp_overlay_list *);
/* Creates a scalar object using libscale.so */
static void initScalar();
/* Destroys the scalar object using libscale.so */
static void destroyScalar();
/* Sets the pipe type RGB/VG/DMA*/
void setPipeType(utils::eDest pipeIndex, const utils::eMdpPipeType pType);
/* Just like a Facebook for pipes, but much less profile info */
struct PipeBook {
void init();
void destroy();
/* Check if pipe exists and return true, false otherwise */
bool valid();
/* Hardware pipe wrapper */
GenericPipe *mPipe;
/* Display using this pipe. Refer to enums above */
int mDisplay;
/* Mixer within a split display this pipe is attached to */
int mMixer;
/* Format for which this pipe is attached to the mixer*/
int mFormatType;
/* operations on bitmap */
static bool pipeUsageUnchanged();
static void setUse(int index);
static void resetUse(int index);
static bool isUsed(int index);
static bool isNotUsed(int index);
static void save();
static void setAllocation(int index);
static void resetAllocation(int index);
static bool isAllocated(int index);
static bool isNotAllocated(int index);
static utils::eMdpPipeType getPipeType(utils::eDest dest);
static const char* getDestStr(utils::eDest dest);
static int NUM_PIPES;
static utils::eMdpPipeType pipeTypeLUT[utils::OV_MAX];
/* Session for reserved pipes */
enum Session {
NONE,
START,
END
};
Session mSession;
private:
//usage tracks if a successful commit happened. So a pipe could be
//allocated to a display, but it may not end up using it for various
//reasons. If one display actually uses a pipe then it amy not be
//used by another display, without an UNSET in between.
static int sPipeUsageBitmap;
static int sLastUsageBitmap;
//Tracks which pipe objects are allocated. This does not imply that they
//will actually be used. For example, a display might choose to acquire
//3 pipe objects in one shot and proceed with config only if it gets all
//3. The bitmap helps allocate different pipe objects on each request.
static int sAllocatedBitmap;
};
PipeBook mPipeBook[utils::OV_INVALID]; //Used as max
/* Singleton Instance*/
static Overlay *sInstance;
static int sDpyFbMap[DPY_MAX];
static int sDMAMode;
static bool sDMAMultiplexingSupported;
static void *sLibScaleHandle;
static int (*sFnProgramScale)(struct mdp_overlay_list *);
static bool sDebugPipeLifecycle;
friend class MdpCtrl;
};
inline void Overlay::validate(int index) {
OVASSERT(index >=0 && index < PipeBook::NUM_PIPES, \
"%s, Index out of bounds: %d", __FUNCTION__, index);
OVASSERT(mPipeBook[index].valid(), "Pipe does not exist %s",
PipeBook::getDestStr((utils::eDest)index));
}
inline int Overlay::availablePipes(int dpy, int mixer) {
int avail = 0;
for(int i = 0; i < PipeBook::NUM_PIPES; i++) {
if( (mPipeBook[i].mDisplay == DPY_UNUSED ||
mPipeBook[i].mDisplay == dpy) &&
(mPipeBook[i].mMixer == MIXER_UNUSED ||
mPipeBook[i].mMixer == mixer) &&
PipeBook::isNotAllocated(i) &&
!(Overlay::getDMAMode() == Overlay::DMA_BLOCK_MODE &&
PipeBook::getPipeType((utils::eDest)i) ==
utils::OV_MDP_PIPE_DMA)) {
avail++;
}
}
return avail;
}
inline int Overlay::availablePipes(int dpy) {
int avail = 0;
for(int i = 0; i < PipeBook::NUM_PIPES; i++) {
if( (mPipeBook[i].mDisplay == DPY_UNUSED ||
mPipeBook[i].mDisplay == dpy) &&
PipeBook::isNotAllocated(i) &&
!(Overlay::getDMAMode() == Overlay::DMA_BLOCK_MODE &&
PipeBook::getPipeType((utils::eDest)i) ==
utils::OV_MDP_PIPE_DMA)) {
avail++;
}
}
return avail;
}
inline int Overlay::availablePipes(int dpy, utils::eMdpPipeType type) {
int avail = 0;
for(int i = 0; i < PipeBook::NUM_PIPES; i++) {
if((mPipeBook[i].mDisplay == DPY_UNUSED ||
mPipeBook[i].mDisplay == dpy) &&
PipeBook::isNotAllocated(i) &&
type == PipeBook::getPipeType((utils::eDest)i)) {
avail++;
}
}
return avail;
}
inline void Overlay::setDMAMode(const int& mode) {
if(mode == DMA_LINE_MODE || mode == DMA_BLOCK_MODE)
sDMAMode = mode;
}
inline void Overlay::setDMAMultiplexingSupported() {
sDMAMultiplexingSupported = false;
if(qdutils::MDPVersion::getInstance().is8x26())
sDMAMultiplexingSupported = true;
}
inline bool Overlay::isDMAMultiplexingSupported() {
return sDMAMultiplexingSupported;
}
inline bool Overlay::isUIScalingOnExternalSupported() {
if(qdutils::MDPVersion::getInstance().is8x26() or
qdutils::MDPVersion::getInstance().is8x16() or
qdutils::MDPVersion::getInstance().is8x39()) {
return false;
}
return true;
}
inline int Overlay::getDMAMode() {
return sDMAMode;
}
inline int Overlay::getFbForDpy(const int& dpy) {
OVASSERT(dpy >= 0 && dpy < DPY_MAX, "Invalid dpy %d", dpy);
return sDpyFbMap[dpy];
}
inline int (*Overlay::getFnProgramScale())(struct mdp_overlay_list *) {
return sFnProgramScale;
}
inline void Overlay::debugPipeLifecycle(const bool& enable) {
sDebugPipeLifecycle = enable;
}
inline bool Overlay::isDebugPipeLifecycle() {
return sDebugPipeLifecycle;
}
inline bool Overlay::PipeBook::valid() {
return (mPipe != NULL);
}
inline bool Overlay::PipeBook::pipeUsageUnchanged() {
return (sPipeUsageBitmap == sLastUsageBitmap);
}
inline void Overlay::PipeBook::setUse(int index) {
sPipeUsageBitmap |= (1 << index);
}
inline void Overlay::PipeBook::resetUse(int index) {
sPipeUsageBitmap &= ~(1 << index);
}
inline bool Overlay::PipeBook::isUsed(int index) {
return sPipeUsageBitmap & (1 << index);
}
inline bool Overlay::PipeBook::isNotUsed(int index) {
return !isUsed(index);
}
inline void Overlay::PipeBook::save() {
sLastUsageBitmap = sPipeUsageBitmap;
}
inline void Overlay::PipeBook::setAllocation(int index) {
sAllocatedBitmap |= (1 << index);
}
inline void Overlay::PipeBook::resetAllocation(int index) {
sAllocatedBitmap &= ~(1 << index);
}
inline bool Overlay::PipeBook::isAllocated(int index) {
return sAllocatedBitmap & (1 << index);
}
inline bool Overlay::PipeBook::isNotAllocated(int index) {
return !isAllocated(index);
}
inline utils::eMdpPipeType Overlay::PipeBook::getPipeType(utils::eDest dest) {
return pipeTypeLUT[(int)dest];
}
inline void Overlay::startSession(utils::eDest dest) {
mPipeBook[(int)dest].mSession = PipeBook::START;
}
inline bool Overlay::sessionInProgress(utils::eDest dest) {
return (mPipeBook[(int)dest].mSession == PipeBook::START);
}
inline bool Overlay::isSessionEnded(utils::eDest dest) {
return (mPipeBook[(int)dest].mSession == PipeBook::END);
}
inline const char* Overlay::PipeBook::getDestStr(utils::eDest dest) {
switch(getPipeType(dest)) {
case utils::OV_MDP_PIPE_RGB: return "RGB";
case utils::OV_MDP_PIPE_VG: return "VG";
case utils::OV_MDP_PIPE_DMA: return "DMA";
default: return "Invalid";
}
return "Invalid";
}
}; // overlay
#endif // OVERLAY_H