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c62f39861aa0589a47fb0776b1e7e80d253b9efc
android_vendor_qcom_opensou…/liboverlay/overlay.cpp
Saurabh Shah c62f39861a overlay: Support for returning pipe based on capability 
Add support for returning pipes based on capabilities.
getPipe() API takes in pipe specifications like format class,
scaling, display, mixer, fb and decides what pipe to return.
The nextPipe() API is now just a private helper.

Change-Id: I0ab809662c0ad6297e19a44f39264ee929944d13
2014-04-14 10:17:11 -07:00

617 lines
20 KiB
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/*
* 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.
*/
#include <dlfcn.h>
#include "overlay.h"
#include "pipes/overlayGenPipe.h"
#include "mdp_version.h"
#include "qdMetaData.h"
#ifdef USES_QSEED_SCALAR
#include <scale/scale.h>
using namespace scale;
#endif
#define PIPE_DEBUG 0
namespace overlay {
using namespace utils;
using namespace qdutils;
Overlay::Overlay() {
int numPipes = qdutils::MDPVersion::getInstance().getTotalPipes();
PipeBook::NUM_PIPES = (numPipes <= utils::OV_MAX)? numPipes : utils::OV_MAX;
for(int i = 0; i < PipeBook::NUM_PIPES; i++) {
mPipeBook[i].init();
}
mDumpStr[0] = '\0';
initScalar();
setDMAMultiplexingSupported();
}
Overlay::~Overlay() {
for(int i = 0; i < PipeBook::NUM_PIPES; i++) {
mPipeBook[i].destroy();
}
destroyScalar();
}
void Overlay::configBegin() {
for(int i = 0; i < PipeBook::NUM_PIPES; i++) {
//Mark as available for this round.
PipeBook::resetUse(i);
PipeBook::resetAllocation(i);
}
mDumpStr[0] = '\0';
}
void Overlay::configDone() {
for(int i = 0; i < PipeBook::NUM_PIPES; i++) {
if((PipeBook::isNotUsed(i) && !sessionInProgress((eDest)i)) ||
isSessionEnded((eDest)i)) {
//Forces UNSET on pipes, flushes rotator memory and session, closes
//fds
if(mPipeBook[i].valid()) {
char str[32];
snprintf(str, 32, "Unset=%s dpy=%d mix=%d; ",
PipeBook::getDestStr((eDest)i),
mPipeBook[i].mDisplay, mPipeBook[i].mMixer);
#if PIPE_DEBUG
strlcat(mDumpStr, str, sizeof(mDumpStr));
#endif
}
mPipeBook[i].destroy();
}
}
dump();
PipeBook::save();
}
int Overlay::getPipeId(utils::eDest dest) {
return mPipeBook[(int)dest].mPipe->getPipeId();
}
eDest Overlay::getDest(int pipeid) {
eDest dest = OV_INVALID;
// finding the dest corresponding to the given pipe
for(int i=0; i < PipeBook::NUM_PIPES; ++i) {
if(mPipeBook[i].valid() && mPipeBook[i].mPipe->getPipeId() == pipeid) {
return (eDest)i;
}
}
return dest;
}
eDest Overlay::reservePipe(int pipeid) {
eDest dest = getDest(pipeid);
PipeBook::setAllocation((int)dest);
return dest;
}
eDest Overlay::nextPipe(eMdpPipeType type, int dpy, int mixer) {
eDest dest = OV_INVALID;
for(int i = 0; i < PipeBook::NUM_PIPES; i++) {
if( (type == OV_MDP_PIPE_ANY || //Pipe type match
type == PipeBook::getPipeType((eDest)i)) &&
(mPipeBook[i].mDisplay == DPY_UNUSED || //Free or same display
mPipeBook[i].mDisplay == dpy) &&
(mPipeBook[i].mMixer == MIXER_UNUSED || //Free or same mixer
mPipeBook[i].mMixer == mixer) &&
PipeBook::isNotAllocated(i) && //Free pipe
( (sDMAMultiplexingSupported && dpy) ||
!(sDMAMode == DMA_BLOCK_MODE && //DMA pipe in Line mode
PipeBook::getPipeType((eDest)i) == OV_MDP_PIPE_DMA)) ){
//DMA-Multiplexing is only supported for WB on 8x26
dest = (eDest)i;
PipeBook::setAllocation(i);
break;
}
}
if(dest != OV_INVALID) {
int index = (int)dest;
mPipeBook[index].mDisplay = dpy;
mPipeBook[index].mMixer = mixer;
if(not mPipeBook[index].valid()) {
mPipeBook[index].mPipe = new GenericPipe(dpy);
mPipeBook[index].mSession = PipeBook::NONE;
char str[32];
snprintf(str, 32, "Set=%s dpy=%d mix=%d; ",
PipeBook::getDestStr(dest), dpy, mixer);
#if PIPE_DEBUG
strlcat(mDumpStr, str, sizeof(mDumpStr));
#endif
}
} else {
ALOGD_IF(PIPE_DEBUG, "Pipe unavailable type=%d display=%d mixer=%d",
(int)type, dpy, mixer);
}
return dest;
}
utils::eDest Overlay::getPipe(const PipeSpecs& pipeSpecs) {
if(MDPVersion::getInstance().is8x26()) {
return getPipe_8x26(pipeSpecs);
} else if(MDPVersion::getInstance().is8x16()) {
return getPipe_8x16(pipeSpecs);
}
eDest dest = OV_INVALID;
//The default behavior is to assume RGB and VG pipes have scalars
if(pipeSpecs.formatClass == FORMAT_YUV) {
return nextPipe(OV_MDP_PIPE_VG, pipeSpecs.dpy, pipeSpecs.mixer);
} else if(pipeSpecs.fb == false) { //RGB App layers
if(not pipeSpecs.needsScaling) {
dest = nextPipe(OV_MDP_PIPE_DMA, pipeSpecs.dpy, pipeSpecs.mixer);
}
if(dest == OV_INVALID) {
dest = nextPipe(OV_MDP_PIPE_RGB, pipeSpecs.dpy, pipeSpecs.mixer);
}
if(dest == OV_INVALID) {
dest = nextPipe(OV_MDP_PIPE_VG, pipeSpecs.dpy, pipeSpecs.mixer);
}
} else { //FB layer
dest = nextPipe(OV_MDP_PIPE_RGB, pipeSpecs.dpy, pipeSpecs.mixer);
if(dest == OV_INVALID) {
dest = nextPipe(OV_MDP_PIPE_VG, pipeSpecs.dpy, pipeSpecs.mixer);
}
//Some features can cause FB to have scaling as well.
//If we ever come to this block with FB needing scaling,
//the screen will be black for a frame, since the FB won't get a pipe
//but atleast this will prevent a hang
if(dest == OV_INVALID and (not pipeSpecs.needsScaling)) {
dest = nextPipe(OV_MDP_PIPE_DMA, pipeSpecs.dpy, pipeSpecs.mixer);
}
}
return dest;
}
utils::eDest Overlay::getPipe_8x26(const PipeSpecs& pipeSpecs) {
//Use this to hide all the 8x26 requirements that cannot be humanly
//described in a generic way
eDest dest = OV_INVALID;
if(pipeSpecs.formatClass == FORMAT_YUV) { //video
return nextPipe(OV_MDP_PIPE_VG, pipeSpecs.dpy, pipeSpecs.mixer);
} else if(pipeSpecs.fb == false) { //RGB app layers
if(not pipeSpecs.needsScaling) {
dest = nextPipe(OV_MDP_PIPE_DMA, pipeSpecs.dpy, pipeSpecs.mixer);
}
if(dest == OV_INVALID) {
dest = nextPipe(OV_MDP_PIPE_RGB, pipeSpecs.dpy, pipeSpecs.mixer);
}
if(dest == OV_INVALID) {
dest = nextPipe(OV_MDP_PIPE_VG, pipeSpecs.dpy, pipeSpecs.mixer);
}
} else { //FB layer
//For 8x26 Secondary we use DMA always for FB for inline rotation
if(pipeSpecs.dpy == DPY_PRIMARY) {
dest = nextPipe(OV_MDP_PIPE_RGB, pipeSpecs.dpy, pipeSpecs.mixer);
if(dest == OV_INVALID) {
dest = nextPipe(OV_MDP_PIPE_VG, pipeSpecs.dpy, pipeSpecs.mixer);
}
}
if(dest == OV_INVALID and (not pipeSpecs.needsScaling)) {
dest = nextPipe(OV_MDP_PIPE_DMA, pipeSpecs.dpy, pipeSpecs.mixer);
}
}
return dest;
}
utils::eDest Overlay::getPipe_8x16(const PipeSpecs& pipeSpecs) {
//Having such functions help keeping the interface generic but code specific
//and rife with assumptions
eDest dest = OV_INVALID;
if(pipeSpecs.formatClass == FORMAT_YUV or pipeSpecs.needsScaling) {
return nextPipe(OV_MDP_PIPE_VG, pipeSpecs.dpy, pipeSpecs.mixer);
} else if(pipeSpecs.fb == false) { //RGB app layers
//Since this is a specific func, we can assume stuff like RGB pipe not
//having scalar blocks
dest = nextPipe(OV_MDP_PIPE_RGB, pipeSpecs.dpy, pipeSpecs.mixer);
if(dest == OV_INVALID) {
dest = nextPipe(OV_MDP_PIPE_DMA, pipeSpecs.dpy, pipeSpecs.mixer);
}
} else {
//For 8x16 Secondary we use DMA always for FB for inline rotation
if(pipeSpecs.dpy == DPY_PRIMARY) {
dest = nextPipe(OV_MDP_PIPE_RGB, pipeSpecs.dpy, pipeSpecs.mixer);
if(dest == OV_INVALID) {
dest = nextPipe(OV_MDP_PIPE_VG, pipeSpecs.dpy, pipeSpecs.mixer);
}
}
if(dest == OV_INVALID) {
dest = nextPipe(OV_MDP_PIPE_DMA, pipeSpecs.dpy, pipeSpecs.mixer);
}
}
return dest;
}
void Overlay::endAllSessions() {
for(int i = 0; i < PipeBook::NUM_PIPES; i++) {
if(mPipeBook[i].valid() && mPipeBook[i].mSession==PipeBook::START)
mPipeBook[i].mSession = PipeBook::END;
}
}
bool Overlay::isPipeTypeAttached(eMdpPipeType type) {
for(int i = 0; i < PipeBook::NUM_PIPES; i++) {
if(type == PipeBook::getPipeType((eDest)i) &&
mPipeBook[i].mDisplay != DPY_UNUSED) {
return true;
}
}
return false;
}
int Overlay::comparePipePriority(utils::eDest pipe1Index,
utils::eDest pipe2Index) {
validate((int)pipe1Index);
validate((int)pipe2Index);
uint8_t pipe1Prio = mPipeBook[(int)pipe1Index].mPipe->getPriority();
uint8_t pipe2Prio = mPipeBook[(int)pipe2Index].mPipe->getPriority();
if(pipe1Prio > pipe2Prio)
return 1;
if(pipe1Prio < pipe2Prio)
return -1;
return 0;
}
bool Overlay::commit(utils::eDest dest) {
bool ret = false;
int index = (int)dest;
validate(index);
if(mPipeBook[index].mPipe->commit()) {
ret = true;
PipeBook::setUse((int)dest);
} else {
int dpy = mPipeBook[index].mDisplay;
for(int i = 0; i < PipeBook::NUM_PIPES; i++) {
if (mPipeBook[i].mDisplay == dpy) {
PipeBook::resetAllocation(i);
PipeBook::resetUse(i);
}
}
}
return ret;
}
bool Overlay::queueBuffer(int fd, uint32_t offset,
utils::eDest dest) {
int index = (int)dest;
bool ret = false;
validate(index);
//Queue only if commit() has succeeded (and the bit set)
if(PipeBook::isUsed((int)dest)) {
ret = mPipeBook[index].mPipe->queueBuffer(fd, offset);
}
return ret;
}
void Overlay::setCrop(const utils::Dim& d,
utils::eDest dest) {
int index = (int)dest;
validate(index);
mPipeBook[index].mPipe->setCrop(d);
}
void Overlay::setColor(const uint32_t color,
utils::eDest dest) {
int index = (int)dest;
validate(index);
mPipeBook[index].mPipe->setColor(color);
}
void Overlay::setPosition(const utils::Dim& d,
utils::eDest dest) {
int index = (int)dest;
validate(index);
mPipeBook[index].mPipe->setPosition(d);
}
void Overlay::setTransform(const int orient,
utils::eDest dest) {
int index = (int)dest;
validate(index);
utils::eTransform transform =
static_cast<utils::eTransform>(orient);
mPipeBook[index].mPipe->setTransform(transform);
}
void Overlay::setSource(const utils::PipeArgs args,
utils::eDest dest) {
int index = (int)dest;
validate(index);
PipeArgs newArgs(args);
if(PipeBook::getPipeType(dest) == OV_MDP_PIPE_VG) {
setMdpFlags(newArgs.mdpFlags, OV_MDP_PIPE_SHARE);
} else {
clearMdpFlags(newArgs.mdpFlags, OV_MDP_PIPE_SHARE);
}
if(PipeBook::getPipeType(dest) == OV_MDP_PIPE_DMA) {
setMdpFlags(newArgs.mdpFlags, OV_MDP_PIPE_FORCE_DMA);
} else {
clearMdpFlags(newArgs.mdpFlags, OV_MDP_PIPE_FORCE_DMA);
}
mPipeBook[index].mPipe->setSource(newArgs);
}
void Overlay::setVisualParams(const MetaData_t& metadata, utils::eDest dest) {
int index = (int)dest;
validate(index);
mPipeBook[index].mPipe->setVisualParams(metadata);
}
Overlay* Overlay::getInstance() {
if(sInstance == NULL) {
sInstance = new Overlay();
}
return sInstance;
}
// Clears any VG pipes allocated to the fb devices
// Generates a LUT for pipe types.
int Overlay::initOverlay() {
int mdpVersion = qdutils::MDPVersion::getInstance().getMDPVersion();
int numPipesXType[OV_MDP_PIPE_ANY] = {0};
numPipesXType[OV_MDP_PIPE_RGB] =
qdutils::MDPVersion::getInstance().getRGBPipes();
numPipesXType[OV_MDP_PIPE_VG] =
qdutils::MDPVersion::getInstance().getVGPipes();
numPipesXType[OV_MDP_PIPE_DMA] =
qdutils::MDPVersion::getInstance().getDMAPipes();
int index = 0;
for(int X = 0; X < (int)OV_MDP_PIPE_ANY; X++) { //iterate over types
for(int j = 0; j < numPipesXType[X]; j++) { //iterate over num
PipeBook::pipeTypeLUT[index] = (utils::eMdpPipeType)X;
index++;
}
}
if (mdpVersion < qdutils::MDSS_V5 && mdpVersion != qdutils::MDP_V3_0_4) {
msmfb_mixer_info_req req;
mdp_mixer_info *minfo = NULL;
char name[64];
int fd = -1;
for(int i = 0; i < MAX_FB_DEVICES; i++) {
snprintf(name, 64, FB_DEVICE_TEMPLATE, i);
ALOGD("initoverlay:: opening the device:: %s", name);
fd = ::open(name, O_RDWR, 0);
if(fd < 0) {
ALOGE("cannot open framebuffer(%d)", i);
return -1;
}
//Get the mixer configuration */
req.mixer_num = i;
if (ioctl(fd, MSMFB_MIXER_INFO, &req) == -1) {
ALOGE("ERROR: MSMFB_MIXER_INFO ioctl failed");
close(fd);
return -1;
}
minfo = req.info;
for (int j = 0; j < req.cnt; j++) {
ALOGD("ndx=%d num=%d z_order=%d", minfo->pndx, minfo->pnum,
minfo->z_order);
// except the RGB base layer with z_order of -1, clear any
// other pipes connected to mixer.
if((minfo->z_order) != -1) {
int index = minfo->pndx;
ALOGD("Unset overlay with index: %d at mixer %d", index, i);
if(ioctl(fd, MSMFB_OVERLAY_UNSET, &index) == -1) {
ALOGE("ERROR: MSMFB_OVERLAY_UNSET failed");
close(fd);
return -1;
}
}
minfo++;
}
close(fd);
fd = -1;
}
}
FILE *displayDeviceFP = NULL;
const int MAX_FRAME_BUFFER_NAME_SIZE = 128;
char fbType[MAX_FRAME_BUFFER_NAME_SIZE];
char msmFbTypePath[MAX_FRAME_BUFFER_NAME_SIZE];
const char *strDtvPanel = "dtv panel";
const char *strWbPanel = "writeback panel";
for(int num = 1; num < MAX_FB_DEVICES; num++) {
snprintf (msmFbTypePath, sizeof(msmFbTypePath),
"/sys/class/graphics/fb%d/msm_fb_type", num);
displayDeviceFP = fopen(msmFbTypePath, "r");
if(displayDeviceFP){
fread(fbType, sizeof(char), MAX_FRAME_BUFFER_NAME_SIZE,
displayDeviceFP);
if(strncmp(fbType, strDtvPanel, strlen(strDtvPanel)) == 0) {
sDpyFbMap[DPY_EXTERNAL] = num;
} else if(strncmp(fbType, strWbPanel, strlen(strWbPanel)) == 0) {
sDpyFbMap[DPY_WRITEBACK] = num;
}
fclose(displayDeviceFP);
}
}
return 0;
}
bool Overlay::displayCommit(const int& fd) {
utils::Dim roi;
return displayCommit(fd, roi);
}
bool Overlay::displayCommit(const int& fd, const utils::Dim& roi) {
//Commit
struct mdp_display_commit info;
memset(&info, 0, sizeof(struct mdp_display_commit));
info.flags = MDP_DISPLAY_COMMIT_OVERLAY;
info.roi.x = roi.x;
info.roi.y = roi.y;
info.roi.w = roi.w;
info.roi.h = roi.h;
if(!mdp_wrapper::displayCommit(fd, info)) {
ALOGE("%s: commit failed", __func__);
return false;
}
return true;
}
void Overlay::dump() const {
#if PIPE_DEBUG
if(strlen(mDumpStr)) { //dump only on state change
ALOGD("%s\n", mDumpStr);
}
#endif
}
void Overlay::getDump(char *buf, size_t len) {
int totalPipes = 0;
const char *str = "\nOverlay State\n\n";
strlcat(buf, str, len);
for(int i = 0; i < PipeBook::NUM_PIPES; i++) {
if(mPipeBook[i].valid()) {
mPipeBook[i].mPipe->getDump(buf, len);
char str[64] = {'\0'};
snprintf(str, 64, "Display=%d\n\n", mPipeBook[i].mDisplay);
strlcat(buf, str, len);
totalPipes++;
}
}
char str_pipes[64] = {'\0'};
snprintf(str_pipes, 64, "Pipes=%d\n\n", totalPipes);
strlcat(buf, str_pipes, len);
}
void Overlay::clear(int dpy) {
for(int i = 0; i < PipeBook::NUM_PIPES; i++) {
if (mPipeBook[i].mDisplay == dpy) {
// Mark as available for this round
PipeBook::resetUse(i);
PipeBook::resetAllocation(i);
}
}
}
bool Overlay::validateAndSet(const int& dpy, const int& fbFd) {
GenericPipe* pipeArray[PipeBook::NUM_PIPES];
memset(&pipeArray, 0, sizeof(pipeArray));
int num = 0;
for(int i = 0; i < PipeBook::NUM_PIPES; i++) {
if(PipeBook::isUsed(i) && mPipeBook[i].valid() &&
mPipeBook[i].mDisplay == dpy) {
pipeArray[num++] = mPipeBook[i].mPipe;
}
}
//Protect against misbehaving clients
return num ? GenericPipe::validateAndSet(pipeArray, num, fbFd) : true;
}
void Overlay::initScalar() {
#ifdef USES_QSEED_SCALAR
if(sLibScaleHandle == NULL) {
sLibScaleHandle = dlopen("libscale.so", RTLD_NOW);
}
if(sLibScaleHandle) {
if(sScale == NULL) {
Scale* (*getInstance)();
*(void **) &getInstance = dlsym(sLibScaleHandle, "getInstance");
if(getInstance) {
sScale = getInstance();
}
}
}
#endif
}
void Overlay::destroyScalar() {
#ifdef USES_QSEED_SCALAR
if(sLibScaleHandle) {
if(sScale) {
void (*destroyInstance)(Scale*);
*(void **) &destroyInstance = dlsym(sLibScaleHandle,
"destroyInstance");
if(destroyInstance) {
destroyInstance(sScale);
sScale = NULL;
}
}
dlclose(sLibScaleHandle);
sLibScaleHandle = NULL;
}
#endif
}
void Overlay::PipeBook::init() {
mPipe = NULL;
mDisplay = DPY_UNUSED;
mMixer = MIXER_UNUSED;
}
void Overlay::PipeBook::destroy() {
if(mPipe) {
delete mPipe;
mPipe = NULL;
}
mDisplay = DPY_UNUSED;
mMixer = MIXER_UNUSED;
mSession = NONE;
}
Overlay* Overlay::sInstance = 0;
int Overlay::sDpyFbMap[DPY_MAX] = {0, -1, -1};
int Overlay::sDMAMode = DMA_LINE_MODE;
bool Overlay::sDMAMultiplexingSupported = false;
int Overlay::PipeBook::NUM_PIPES = 0;
int Overlay::PipeBook::sPipeUsageBitmap = 0;
int Overlay::PipeBook::sLastUsageBitmap = 0;
int Overlay::PipeBook::sAllocatedBitmap = 0;
utils::eMdpPipeType Overlay::PipeBook::pipeTypeLUT[utils::OV_MAX] =
{utils::OV_MDP_PIPE_ANY};
void *Overlay::sLibScaleHandle = NULL;
scale::Scale *Overlay::sScale = NULL;
}; // namespace overlay
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