Nagram/TMessagesProj/jni/voip/libtgvoip/os/android/VideoRendererAndroid.cpp
2020-09-30 16:48:47 +03:00

151 lines
4.0 KiB
C++

//
// Created by Grishka on 12.08.2018.
//
#include "VideoRendererAndroid.h"
#include "JNIUtilities.h"
#include "../../PrivateDefines.h"
#include "../../logging.h"
using namespace tgvoip;
using namespace tgvoip::video;
jmethodID VideoRendererAndroid::resetMethod=NULL;
jmethodID VideoRendererAndroid::decodeAndDisplayMethod=NULL;
jmethodID VideoRendererAndroid::setStreamEnabledMethod=NULL;
jmethodID VideoRendererAndroid::setRotationMethod=NULL;
std::vector<uint32_t> VideoRendererAndroid::availableDecoders;
int VideoRendererAndroid::maxResolution;
extern JavaVM* sharedJVM;
VideoRendererAndroid::VideoRendererAndroid(jobject jobj) : queue(50){
this->jobj=jobj;
}
VideoRendererAndroid::~VideoRendererAndroid(){
running=false;
Request req{
Buffer(0),
Request::Type::Shutdown
};
queue.Put(std::move(req));
thread->Join();
delete thread;
/*decoderThread.Post([this]{
decoderEnv->DeleteGlobalRef(jobj);
});*/
}
void VideoRendererAndroid::Reset(uint32_t codec, unsigned int width, unsigned int height, std::vector<Buffer> &_csd){
csd.clear();
for(Buffer& b:_csd){
csd.push_back(Buffer::CopyOf(b));
}
this->codec=codec;
this->width=width;
this->height=height;
Request req{
Buffer(0),
Request::Type::ResetDecoder
};
queue.Put(std::move(req));
Request req2{
Buffer(0),
Request::Type::UpdateStreamState
};
queue.Put(std::move(req2));
if(!thread){
thread=new Thread(std::bind(&VideoRendererAndroid::RunThread, this));
thread->Start();
}
}
void VideoRendererAndroid::DecodeAndDisplay(Buffer frame, uint32_t pts){
/*decoderThread.Post(std::bind([this](Buffer frame){
}, std::move(frame)));*/
//LOGV("2 before decode %u", (unsigned int)frame.Length());
Request req{
std::move(frame),
Request::Type::DecodeFrame
};
queue.Put(std::move(req));
}
void VideoRendererAndroid::RunThread(){
JNIEnv* env;
sharedJVM->AttachCurrentThread(&env, NULL);
constexpr size_t bufferSize=200*1024;
unsigned char* buf=reinterpret_cast<unsigned char*>(malloc(bufferSize));
jobject jbuf=env->NewDirectByteBuffer(buf, bufferSize);
uint16_t lastSetRotation=0;
while(running){
//LOGV("before get from queue");
Request request=std::move(queue.GetBlocking());
//LOGV("1 before decode %u", (unsigned int)request.Length());
if(request.type==Request::Type::Shutdown){
LOGI("Shutting down video decoder thread");
break;
}else if(request.type==Request::Type::DecodeFrame){
if(request.buffer.Length()>bufferSize){
LOGE("Frame data is too long (%u, max %u)", (int) request.buffer.Length(), (int) bufferSize);
}else{
if(lastSetRotation!=rotation){
lastSetRotation=rotation;
env->CallVoidMethod(jobj, setRotationMethod, (jint)rotation);
}
memcpy(buf, *request.buffer, request.buffer.Length());
env->CallVoidMethod(jobj, decodeAndDisplayMethod, jbuf, (jint) request.buffer.Length(), 0);
}
}else if(request.type==Request::Type::ResetDecoder){
jobjectArray jcsd=NULL;
if(!csd.empty()){
jcsd=env->NewObjectArray((jsize)csd.size(), env->FindClass("[B"), NULL);
jsize i=0;
for(Buffer& b:csd){
env->SetObjectArrayElement(jcsd, i, jni::BufferToByteArray(env, b));
i++;
}
}
std::string codecStr="";
switch(codec){
case CODEC_AVC:
codecStr="video/avc";
break;
case CODEC_HEVC:
codecStr="video/hevc";
break;
case CODEC_VP8:
codecStr="video/x-vnd.on2.vp8";
break;
case CODEC_VP9:
codecStr="video/x-vnd.on2.vp9";
break;
}
env->CallVoidMethod(jobj, resetMethod, env->NewStringUTF(codecStr.c_str()), (jint)width, (jint)height, jcsd);
}else if(request.type==Request::Type::UpdateStreamState){
env->CallVoidMethod(jobj, setStreamEnabledMethod, streamEnabled);
}
}
free(buf);
sharedJVM->DetachCurrentThread();
LOGI("==== decoder thread exiting ====");
}
void VideoRendererAndroid::SetStreamEnabled(bool enabled){
LOGI("Video stream state: %d", enabled);
streamEnabled=enabled;
Request req{
Buffer(0),
Request::Type::UpdateStreamState
};
queue.Put(std::move(req));
}
void VideoRendererAndroid::SetRotation(uint16_t rotation){
this->rotation=rotation;
}