ZLMediaKit/server/VideoStack.cpp

#if defined(ENABLE_VIDEOSTACK) && defined(ENABLE_X264) && defined(ENABLE_FFMPEG)
#include "VideoStack.h"
#include "Codec/Transcode.h"
#include "Common/Device.h"
#include "Util/logger.h"
#include "Util/util.h"
#include "json/value.h"
#include <Thread/WorkThreadPool.h>
#include <fstream>
#include <libavutil/pixfmt.h>
#include <memory>
#include <mutex>

// ITU-R BT.601
// #define  RGB_TO_Y(R, G, B) ((( 66 * (R) + 129 * (G) +  25 * (B)+128) >> 8)+16)
// #define  RGB_TO_U(R, G, B) (((-38 * (R) -  74 * (G) + 112 * (B)+128) >> 8)+128)
// #define  RGB_TO_V(R, G, B) (((112 * (R) -  94 * (G) -  18 * (B)+128) >> 8)+128)

// ITU-R BT.709
#define RGB_TO_Y(R, G, B) (((47 * (R) + 157 * (G) + 16 * (B) + 128) >> 8) + 16)
#define RGB_TO_U(R, G, B) (((-26 * (R)-87 * (G) + 112 * (B) + 128) >> 8) + 128)
#define RGB_TO_V(R, G, B) (((112 * (R)-102 * (G)-10 * (B) + 128) >> 8) + 128)

INSTANCE_IMP(VideoStackManager)

Param::~Param()
{
    VideoStackManager::Instance().unrefChannel(
        id, width, height, pixfmt);
}

Channel::Channel(const std::string& id, int width, int height, AVPixelFormat pixfmt)
    : _id(id)
    , _width(width)
    , _height(height)
    , _pixfmt(pixfmt)
{
    _tmp = std::make_shared<mediakit::FFmpegFrame>();

    _tmp->get()->width = _width;
    _tmp->get()->height = _height;
    _tmp->get()->format = _pixfmt;

    av_frame_get_buffer(_tmp->get(), 32);

    memset(_tmp->get()->data[0], 0, _tmp->get()->linesize[0] * _height);
    memset(_tmp->get()->data[1], 0, _tmp->get()->linesize[1] * _height / 2);
    memset(_tmp->get()->data[2], 0, _tmp->get()->linesize[2] * _height / 2);

    auto frame = VideoStackManager::Instance().getBgImg();
    _sws = std::make_shared<mediakit::FFmpegSws>(_pixfmt, _width, _height);

    _tmp = _sws->inputFrame(frame);
}

void Channel::addParam(const std::weak_ptr<Param>& p)
{
    std::lock_guard<std::recursive_mutex> lock(_mx);
    _params.push_back(p);
}

void Channel::onFrame(const mediakit::FFmpegFrame::Ptr& frame)
{
    std::weak_ptr<Channel> weakSelf = shared_from_this();
    _poller = _poller ? _poller : toolkit::WorkThreadPool::Instance().getPoller();
    _poller->async([weakSelf, frame]() {
        auto self = weakSelf.lock();
        if (!self) {
            return;
        }
        self->_tmp = self->_sws->inputFrame(frame);

        self->forEachParam([self](const Param::Ptr& p) { self->fillBuffer(p); });
    });
}

void Channel::forEachParam(const std::function<void(const Param::Ptr&)>& func)
{
    for (auto& wp : _params) {
        if (auto sp = wp.lock()) {
            func(sp);
        }
    }
}

void Channel::fillBuffer(const Param::Ptr& p)
{
    if (auto buf = p->weak_buf.lock()) {
        copyData(buf, p);
    }
}

void Channel::copyData(const mediakit::FFmpegFrame::Ptr& buf, const Param::Ptr& p)
{

    switch (p->pixfmt) {
    case AV_PIX_FMT_YUV420P: {
        for (int i = 0; i < p->height; i++) {
            memcpy(buf->get()->data[0] + buf->get()->linesize[0] * (i + p->posY) + p->posX,
                _tmp->get()->data[0] + _tmp->get()->linesize[0] * i,
                _tmp->get()->width);
        }
        //确保height为奇数时，也能正确的复制到最后一行uv数据
        for (int i = 0; i < (p->height + 1) / 2; i++) {
            // U平面
            memcpy(buf->get()->data[1] + buf->get()->linesize[1] * (i + p->posY / 2) + p->posX / 2,
                _tmp->get()->data[1] + _tmp->get()->linesize[1] * i,
                _tmp->get()->width / 2);

            // V平面
            memcpy(buf->get()->data[2] + buf->get()->linesize[2] * (i + p->posY / 2) + p->posX / 2,
                _tmp->get()->data[2] + _tmp->get()->linesize[2] * i,
                _tmp->get()->width / 2);
        }
        break;
    }
    case AV_PIX_FMT_NV12: {
        //TODO: 待实现
        break;
    }

    default:
        WarnL << "No support pixformat: " << av_get_pix_fmt_name(p->pixfmt);
        break;
    }
}
void StackPlayer::addChannel(const std::weak_ptr<Channel>& chn)
{
    std::lock_guard<std::recursive_mutex> lock(_mx);
    _channels.push_back(chn);
}

void StackPlayer::play()
{

    auto url = _url;
    //创建拉流 解码对象
    _player = std::make_shared<mediakit::MediaPlayer>();
    std::weak_ptr<mediakit::MediaPlayer> weakPlayer = _player;

    std::weak_ptr<StackPlayer> weakSelf = shared_from_this();

    (*_player)[mediakit::Client::kWaitTrackReady] = false;
    (*_player)[mediakit::Client::kRtpType] = mediakit::Rtsp::RTP_TCP;

    _player->setOnPlayResult([weakPlayer, weakSelf, url](const toolkit::SockException& ex) mutable {
        TraceL << "StackPlayer: " << url << " OnPlayResult: " << ex.what();
        auto strongPlayer = weakPlayer.lock();
        if (!strongPlayer) {
            return;
        }
        auto self = weakSelf.lock();
        if (!self) {
            return;
        }

        if (!ex) {
            // 取消定时器
            self->_timer.reset();
            self->_failedCount = 0;

        } else {
            self->onDisconnect();
            self->rePlay(url);
        }

        auto videoTrack = std::dynamic_pointer_cast<mediakit::VideoTrack>(strongPlayer->getTrack(mediakit::TrackVideo, false));
        //auto audioTrack = std::dynamic_pointer_cast<mediakit::AudioTrack>(strongPlayer->getTrack(mediakit::TrackAudio, false));

        if (videoTrack) {
            //TODO:添加使用显卡还是cpu解码的判断逻辑
            //auto decoder = std::make_shared<FFmpegDecoder>(videoTrack, 1, std::vector<std::string>{ "hevc_cuvid", "h264_cuvid"});
            auto decoder = std::make_shared<mediakit::FFmpegDecoder>(videoTrack, 0, std::vector<std::string> { "h264", "hevc" });

            decoder->setOnDecode([weakSelf](const mediakit::FFmpegFrame::Ptr& frame) mutable {
                auto self = weakSelf.lock();
                if (!self) {
                    return;
                }

                self->onFrame(frame);
            });

            videoTrack->addDelegate([decoder](const mediakit::Frame::Ptr& frame) {
                return decoder->inputFrame(frame, false, true);
            });
        }
    });

    _player->setOnShutdown([weakPlayer, url, weakSelf](const toolkit::SockException& ex) {
        TraceL << "StackPlayer: " << url << " OnShutdown: " << ex.what();
        auto strongPlayer = weakPlayer.lock();
        if (!strongPlayer) {
            return;
        }

        auto self = weakSelf.lock();
        if (!self) {
            return;
        }

        self->onDisconnect();

        self->rePlay(url);
    });

    _player->play(url);
}

void StackPlayer::onFrame(const mediakit::FFmpegFrame::Ptr& frame)
{
    std::lock_guard<std::recursive_mutex> lock(_mx);
    for (auto& weak_chn : _channels) {
        if (auto chn = weak_chn.lock()) {
            chn->onFrame(frame);
        }
    }
}

void StackPlayer::onDisconnect()
{
    std::lock_guard<std::recursive_mutex> lock(_mx);
    for (auto& weak_chn : _channels) {
        if (auto chn = weak_chn.lock()) {
            auto frame = VideoStackManager::Instance().getBgImg();
            chn->onFrame(frame);
        }
    }
}

void StackPlayer::rePlay(const std::string& url)
{
    _failedCount++;
    auto delay = MAX(2 * 1000, MIN(_failedCount * 3 * 1000, 60 * 1000)); //步进延迟 重试间隔
    std::weak_ptr<StackPlayer> weakSelf = shared_from_this();
    _timer = std::make_shared<toolkit::Timer>(
        delay / 1000.0f, [weakSelf, url]() {
            auto self = weakSelf.lock();
            if (!self) {
            }
            WarnL << "replay [" << self->_failedCount << "]:" << url;
            self->_player->play(url);
            return false;
        },
        nullptr);
}

VideoStack::VideoStack(const std::string& id, int width, int height, AVPixelFormat pixfmt, float fps, int bitRate)
    : _id(id)
    , _width(width)
    , _height(height)
    , _pixfmt(pixfmt)
    , _fps(fps)
    , _bitRate(bitRate)
{

    _buffer = std::make_shared<mediakit::FFmpegFrame>();

    _buffer->get()->width = _width;
    _buffer->get()->height = _height;
    _buffer->get()->format = _pixfmt;

    av_frame_get_buffer(_buffer->get(), 32);

    _dev = std::make_shared<mediakit::DevChannel>(mediakit::MediaTuple { DEFAULT_VHOST, "live", _id });

    mediakit::VideoInfo info;
    info.codecId = mediakit::CodecH264;
    info.iWidth = _width;
    info.iHeight = _height;
    info.iFrameRate = _fps;
    info.iBitRate = _bitRate;

    _dev->initVideo(info);
    //dev->initAudio();         //TODO:音频
    _dev->addTrackCompleted();

    _isExit = false;
}

VideoStack::~VideoStack()
{
    _isExit = true;
    if (_thread.joinable()) {
        _thread.join();
    }
}

void VideoStack::setParam(const Params& params)
{
    if (_params) {
        for (auto& p : (*_params)) {
            if (!p)
                continue;
            p->weak_buf.reset();
        }
    }

    initBgColor();
    for (auto& p : (*params)) {
        if (!p)
            continue;
        p->weak_buf = _buffer;
        if (auto chn = p->weak_chn.lock()) {
            chn->addParam(p);
            chn->fillBuffer(p);
        }
    }
    _params = params;
}

void VideoStack::start()
{
    _thread = std::thread([&]() {
        uint64_t pts = 0;
        int frameInterval = 1000 / _fps;
        auto lastEncTP = std::chrono::steady_clock::now();
        while (!_isExit) {
            if (std::chrono::steady_clock::now() - lastEncTP > std::chrono::milliseconds(frameInterval)) {
                lastEncTP = std::chrono::steady_clock::now();

                _dev->inputYUV((char**)_buffer->get()->data, _buffer->get()->linesize, pts);
                pts += frameInterval;
            }
        }
    });
}

void VideoStack::initBgColor()
{
    //填充底色
    auto R = 20;
    auto G = 20;
    auto B = 20;

    double Y = RGB_TO_Y(R, G, B);
    double U = RGB_TO_U(R, G, B);
    double V = RGB_TO_V(R, G, B);

    memset(_buffer->get()->data[0], Y, _buffer->get()->linesize[0] * _height);
    memset(_buffer->get()->data[1], U, _buffer->get()->linesize[1] * _height / 2);
    memset(_buffer->get()->data[2], V, _buffer->get()->linesize[2] * _height / 2);
}

Channel::Ptr VideoStackManager::getChannel(const std::string& id,
    int width,
    int height,
    AVPixelFormat pixfmt)
{

    std::lock_guard<std::recursive_mutex> lock(_mx);
    auto key = id + std::to_string(width) + std::to_string(height) + std::to_string(pixfmt);
    auto it = _channelMap.find(key);
    if (it != _channelMap.end()) {
        return it->second->acquire();
    }

    return createChannel(id, width, height, pixfmt);
}

void VideoStackManager::unrefChannel(const std::string& id,
    int width,
    int height,
    AVPixelFormat pixfmt)
{

    std::lock_guard<std::recursive_mutex> lock(_mx);
    auto key = id + std::to_string(width) + std::to_string(height) + std::to_string(pixfmt);
    auto chn_it = _channelMap.find(key);
    if (chn_it != _channelMap.end() && chn_it->second->dispose()) {
        _channelMap.erase(chn_it);

        auto player_it = _playerMap.find(id);
        if (player_it != _playerMap.end() && player_it->second->dispose()) {
            _playerMap.erase(player_it);
        }
    }
}

int VideoStackManager::startVideoStack(const Json::Value& json)
{

    std::string id;
    int width, height;
    auto params = parseParams(json, id, width, height);

    if (!params) {
        ErrorL << "Videostack parse params failed!";
        return -1;
    }

    auto stack = std::make_shared<VideoStack>(id, width, height);

    for (auto& p : (*params)) {
        if (!p)
            continue;
        p->weak_chn = getChannel(p->id, p->width, p->height, p->pixfmt);
    }

    stack->setParam(params);
    stack->start();

    std::lock_guard<std::recursive_mutex> lock(_mx);
    _stackMap[id] = stack;
    return 0;
}

int VideoStackManager::resetVideoStack(const Json::Value& json)
{
    std::string id;
    int width, height;
    auto params = parseParams(json, id, width, height);

    if (!params) {
        return -1;
    }

    VideoStack::Ptr stack;
    {
        std::lock_guard<std::recursive_mutex> lock(_mx);
        auto it = _stackMap.find(id);
        if (it == _stackMap.end()) {
            return -2;
        }
        stack = it->second;
    }

    for (auto& p : (*params)) {
        if (!p)
            continue;
        p->weak_chn = getChannel(p->id, p->width, p->height, p->pixfmt);
    }

    stack->setParam(params);
    return 0;
}

int VideoStackManager::stopVideoStack(const std::string& id)
{
    std::lock_guard<std::recursive_mutex> lock(_mx);
    auto it = _stackMap.find(id);
    if (it != _stackMap.end()) {
        _stackMap.erase(it);
        InfoL << "VideoStack stop: " << id;
        return 0;
    }
    return -1;
}

mediakit::FFmpegFrame::Ptr VideoStackManager::getBgImg()
{
    return _bgImg;
}

Params VideoStackManager::parseParams(const Json::Value& json,
    std::string& id,
    int& width,
    int& height)
{
    try {
        id = json["id"].asString();

        width = json["width"].asInt();
        height = json["height"].asInt();

        int rows = json["row"].asInt(); //堆叠行数
        int cols = json["col"].asInt(); //堆叠列数
        float gapv = json["gapv"].asFloat(); //垂直间距
        float gaph = json["gaph"].asFloat(); //水平间距

        //单个间距
        int gaphPix = static_cast<int>(round(width * gaph));
        int gapvPix = static_cast<int>(round(height * gapv));

        // 根据间距计算格子宽高
        int gridWidth = cols > 1 ? (width - gaphPix * (cols - 1)) / cols : width;
        int gridHeight = rows > 1 ? (height - gapvPix * (rows - 1)) / rows : height;

        auto params = std::make_shared<std::vector<Param::Ptr>>(rows * cols);

        for (int row = 0; row < rows; row++) {
            for (int col = 0; col < cols; col++) {
                std::string url = json["url"][row][col].asString();

                auto param = std::make_shared<Param>();
                param->posX = gridWidth * col + col * gaphPix;
                param->posY = gridHeight * row + row * gapvPix;
                param->width = gridWidth;
                param->height = gridHeight;
                param->id = url;

                (*params)[row * cols + col] = param;
            }
        }

        //判断是否需要合并格子 （焦点屏）
        if (!json["span"].empty() && json.isMember("span")) {
            for (const auto& subArray : json["span"]) {
                if (!subArray.isArray() || subArray.size() != 2) {
                    throw Json::LogicError("Incorrect 'span' sub-array format in JSON");
                }
                std::array<int, 4> mergePos;
                int index = 0;

                for (const auto& innerArray : subArray) {
                    if (!innerArray.isArray() || innerArray.size() != 2) {
                        throw Json::LogicError("Incorrect 'span' inner-array format in JSON");
                    }
                    for (const auto& number : innerArray) {
                        if (index < mergePos.size()) {
                            mergePos[index++] = number.asInt();
                        }
                    }
                }

                for (int i = mergePos[0]; i <= mergePos[2]; i++) {
                    for (int j = mergePos[1]; j <= mergePos[3]; j++) {
                        if (i == mergePos[0] && j == mergePos[1]) {
                            (*params)[i * cols + j]->width = (mergePos[3] - mergePos[1] + 1) * gridWidth + (mergePos[3] - mergePos[1]) * gapvPix;
                            (*params)[i * cols + j]->height = (mergePos[2] - mergePos[0] + 1) * gridHeight + (mergePos[2] - mergePos[0]) * gaphPix;
                        } else {
                            (*params)[i * cols + j] = nullptr;
                        }
                    }
                }
            }
        }
        return params;
    } catch (const std::exception& e) {
        ErrorL << "Videostack parse params failed! " << e.what();
        return nullptr;
    }
}

bool VideoStackManager::loadBgImg(const std::string& path)
{
    _bgImg = std::make_shared<mediakit::FFmpegFrame>();

    _bgImg->get()->width = 1280;
    _bgImg->get()->height = 720;
    _bgImg->get()->format = AV_PIX_FMT_YUV420P;

    av_frame_get_buffer(_bgImg->get(), 32);

    std::ifstream file(path, std::ios::binary);
    if (!file.is_open()) {
        return false;
    }

    file.read((char*)_bgImg->get()->data[0], _bgImg->get()->linesize[0] * _bgImg->get()->height); // Y
    file.read((char*)_bgImg->get()->data[1], _bgImg->get()->linesize[1] * _bgImg->get()->height / 2); // U
    file.read((char*)_bgImg->get()->data[2], _bgImg->get()->linesize[2] * _bgImg->get()->height / 2); // V
    return true;
}

Channel::Ptr VideoStackManager::createChannel(const std::string& id,
    int width,
    int height,
    AVPixelFormat pixfmt)
{

    std::lock_guard<std::recursive_mutex> lock(_mx);
    StackPlayer::Ptr player;
    auto it = _playerMap.find(id);
    if (it != _playerMap.end()) {
        player = it->second->acquire();
    } else {
        player = createPlayer(id);
    }

    auto refChn = std::make_shared<RefWrapper<Channel::Ptr>>(std::make_shared<Channel>(id, width, height, pixfmt));
    auto chn = refChn->acquire();
    player->addChannel(chn);

    _channelMap[id + std::to_string(width) + std::to_string(height) + std::to_string(pixfmt)] = refChn;
    return chn;
}

StackPlayer::Ptr VideoStackManager::createPlayer(const std::string& id)
{
    std::lock_guard<std::recursive_mutex> lock(_mx);
    auto refPlayer = std::make_shared<RefWrapper<StackPlayer::Ptr>>(std::make_shared<StackPlayer>(id));
    _playerMap[id] = refPlayer;

    auto player = refPlayer->acquire();
    if (!id.empty()) {
        player->play();
    }

    return player;
}
#endif