Merge remote-tracking branch 'origin/master'

2024-10-06 20:23:43 +08:00 · 2021-07-20 12:43:28 +08:00 · 2021-07-20 12:43:28 +08:00 · 46722546a6
commit 46722546a6
parent 4b34e58d3c 09d5fdaf41
7 changed files with 60 additions and 48 deletions
--- a/src/Http/HttpRequestSplitter.h
+++ b/src/Http/HttpRequestSplitter.h
@ -27,6 +27,7 @@ public:
     * 添加数据
     * @param data 需要添加的数据
     * @param len 数据长度
     * @warning 实际内存需保证不小于 len + 1, 内部使用 strstr 进行查找, 为防止查找越界, 会在 @p len + 1 的位置设置 '\0' 结束符.
     */
    virtual void input(const char *data, size_t len);
--- a/src/Rtp/Decoder.cpp
+++ b/src/Rtp/Decoder.cpp
@ -203,7 +203,8 @@ void DecoderImp::onDecode(int stream,int codecid,int flags,int64_t pts,int64_t d
        }
        default:
-            if (codecid != 0) {
+            // 海康的 PS 流中会有 codecid 为 0xBD 的包
            if (codecid != 0 && codecid != 0xBD) {
                if (_last_unsported_print.elapsedTime() / 1000 > 5) {
                    _last_unsported_print.resetTime();
                    WarnL << "unsupported codec type:" << getCodecName(codecid) << " " << (int) codecid;
--- a/src/Rtp/GB28181Process.cpp
+++ b/src/Rtp/GB28181Process.cpp
@ -150,27 +150,6 @@ bool GB28181Process::inputRtp(bool, const char *data, size_t data_len) {
    return ref->inputRtp(TrackVideo, (unsigned char *) data, data_len);
 }
 const char *GB28181Process::onSearchPacketTail(const char *packet,size_t bytes){
    try {
        auto ret = _decoder->input((uint8_t *) packet, bytes);
        if (ret >= 0) {
            //解析成功全部或部分
            return packet + ret;
        }
        //解析失败，丢弃所有数据
        return packet + bytes;
    } catch (std::exception &ex) {
        InfoL << "解析ps或ts异常: bytes=" << bytes
              << " ,exception=" << ex.what()
              << " ,hex=" << hexdump((uint8_t *) packet, MIN(bytes,32));
        if (remainDataSize() > 256 * 1024) {
            //缓存太多数据无法处理则上抛异常
            throw;
        }
        return nullptr;
    }
 }
 void GB28181Process::onRtpDecode(const Frame::Ptr &frame) {
    if (frame->getCodecId() != CodecInvalid) {
        //这里不是ps或ts
@ -197,7 +176,7 @@ void GB28181Process::onRtpDecode(const Frame::Ptr &frame) {
    }
    if (_decoder) {
-        HttpRequestSplitter::input(frame->data(), frame->size());
+        _decoder->input(reinterpret_cast<const uint8_t *>(frame->data()), frame->size());
    }
 }
--- a/src/Rtp/GB28181Process.h
+++ b/src/Rtp/GB28181Process.h
@ -22,7 +22,7 @@
 namespace mediakit{
 class RtpReceiverImp;
-class GB28181Process : public HttpRequestSplitter, public ProcessInterface{
+class GB28181Process : public ProcessInterface {
 public:
    typedef std::shared_ptr<GB28181Process> Ptr;
    GB28181Process(const MediaInfo &media_info, MediaSinkInterface *interface);
@ -38,8 +38,6 @@ public:
 protected:
    void onRtpSorted(RtpPacket::Ptr rtp);
    const char *onSearchPacketTail(const char *data,size_t len) override;
    ssize_t onRecvHeader(const char *data,size_t len) override { return 0; };
 private:
    void onRtpDecode(const Frame::Ptr &frame);
--- a/src/Rtp/PSDecoder.cpp
+++ b/src/Rtp/PSDecoder.cpp
@ -45,7 +45,8 @@ PSDecoder::~PSDecoder() {
 }
 ssize_t PSDecoder::input(const uint8_t *data, size_t bytes) {
-    return ps_demuxer_input((struct ps_demuxer_t*)_ps_demuxer,data,bytes);
+    HttpRequestSplitter::input(reinterpret_cast<const char *>(data), bytes);
    return bytes;
 }
 void PSDecoder::setOnDecode(Decoder::onDecode cb) {
@ -56,5 +57,28 @@ void PSDecoder::setOnStream(Decoder::onStream cb) {
    _on_stream = std::move(cb);
 }
 const char *PSDecoder::onSearchPacketTail(const char *data, size_t len) {
    try {
        auto ret = ps_demuxer_input(static_cast<struct ps_demuxer_t *>(_ps_demuxer), reinterpret_cast<const uint8_t *>(data), len);
        if (ret >= 0) {
            //解析成功全部或部分
            return data + ret;
        }
        //解析失败，丢弃所有数据
        return data + len;
    } catch (std::exception &ex) {
        InfoL << "解析 ps 异常: bytes=" << len
              << ", exception=" << ex.what()
              << ", hex=" << hexdump(data, MIN(len, 32));
        if (remainDataSize() > 256 * 1024) {
            //缓存太多数据无法处理则上抛异常
            throw;
        }
        return nullptr;
    }
 }
 }//namespace mediakit
 #endif//#if defined(ENABLE_RTPPROXY)
--- a/src/Rtp/PSDecoder.h
+++ b/src/Rtp/PSDecoder.h
@ -14,17 +14,26 @@
 #if defined(ENABLE_RTPPROXY)
 #include <stdint.h>
 #include "Decoder.h"
 #include "Http/HttpRequestSplitter.h"
 namespace mediakit{
 //ps解析器
-class PSDecoder : public Decoder {
+class PSDecoder : public Decoder, private HttpRequestSplitter {
 public:
    PSDecoder();
    ~PSDecoder();
    ssize_t input(const uint8_t* data, size_t bytes) override;
    void setOnDecode(onDecode cb) override;
    void setOnStream(onStream cb) override;
    // HttpRequestSplitter interface
 private:
    using HttpRequestSplitter::input;
    const char *onSearchPacketTail(const char *data, size_t len) override;
    ssize_t onRecvHeader(const char *, size_t) override { return 0; };
 private:
    void *_ps_demuxer = nullptr;
    onDecode _on_decode;
--- a/src/Rtsp/RtpReceiver.h
+++ b/src/Rtsp/RtpReceiver.h
@ -37,7 +37,7 @@ public:
     */
    void clear() {
        _seq_cycle_count = 0;
-        _rtp_sort_cache_map.clear();
+        _pkt_sort_cache_map.clear();
        _next_seq_out = 0;
        _max_sort_size = kMin;
    }
@ -46,7 +46,7 @@ public:
     * 获取排序缓存长度
     */
    size_t getJitterSize() const{
-        return _rtp_sort_cache_map.size();
+        return _pkt_sort_cache_map.size();
    }
    /**
@ -67,27 +67,27 @@ public:
                //过滤seq回退包(回环包除外)
                return;
            }
-        } else if (_next_seq_out && seq - _next_seq_out > (0xFFFF >> 1)) {
+        } else if (_next_seq_out && seq - _next_seq_out > ((std::numeric_limits<SEQ>::max)() >> 1)) {
            //过滤seq跳变非常大的包(防止回环时乱序时收到非常大的seq)
            return;
        }
        //放入排序缓存
-        _rtp_sort_cache_map.emplace(seq, std::move(packet));
+        _pkt_sort_cache_map.emplace(seq, std::move(packet));
        //尝试输出排序后的包
        tryPopPacket();
    }
    void flush(){
        //清空缓存
-        while (!_rtp_sort_cache_map.empty()) {
+        while (!_pkt_sort_cache_map.empty()) {
-            popIterator(_rtp_sort_cache_map.begin());
+            popIterator(_pkt_sort_cache_map.begin());
        }
    }
 private:
    void popPacket() {
-        auto it = _rtp_sort_cache_map.begin();
+        auto it = _pkt_sort_cache_map.begin();
        if (it->first >= _next_seq_out) {
            //过滤回跳包
            popIterator(it);
@ -96,37 +96,37 @@ private:
        if (_next_seq_out - it->first > (0xFFFF >> 1)) {
            //产生回环了
-            if (_rtp_sort_cache_map.size() < 2 * kMin) {
+            if (_pkt_sort_cache_map.size() < 2 * kMin) {
                //等足够多的数据后才处理回环, 因为后面还可能出现大的SEQ
                return;
            }
            ++_seq_cycle_count;
            //找到大的SEQ并清空掉，然后从小的SEQ重新开始排序
-            auto hit = _rtp_sort_cache_map.upper_bound((SEQ) (_next_seq_out - _rtp_sort_cache_map.size()));
+            auto hit = _pkt_sort_cache_map.upper_bound((SEQ) (_next_seq_out - _pkt_sort_cache_map.size()));
-            while (hit != _rtp_sort_cache_map.end()) {
+            while (hit != _pkt_sort_cache_map.end()) {
                //回环前，清空剩余的大的SEQ的数据
                _cb(hit->first, hit->second);
-                hit = _rtp_sort_cache_map.erase(hit);
+                hit = _pkt_sort_cache_map.erase(hit);
            }
            //下一个回环的数据
-            popIterator(_rtp_sort_cache_map.begin());
+            popIterator(_pkt_sort_cache_map.begin());
            return;
        }
        //删除回跳的数据包
-        _rtp_sort_cache_map.erase(it);
+        _pkt_sort_cache_map.erase(it);
    }
    void popIterator(typename map<SEQ, T>::iterator it) {
        auto seq = it->first;
        auto data = std::move(it->second);
-        _rtp_sort_cache_map.erase(it);
+        _pkt_sort_cache_map.erase(it);
        _next_seq_out = seq + 1;
        _cb(seq, data);
    }
    void tryPopPacket() {
        int count = 0;
-        while ((!_rtp_sort_cache_map.empty() && _rtp_sort_cache_map.begin()->first == _next_seq_out)) {
+        while ((!_pkt_sort_cache_map.empty() && _pkt_sort_cache_map.begin()->first == _next_seq_out)) {
            //找到下个包，直接输出
            popPacket();
            ++count;
@ -134,7 +134,7 @@ private:
        if (count) {
            setSortSize();
-        } else if (_rtp_sort_cache_map.size() > _max_sort_size) {
+        } else if (_pkt_sort_cache_map.size() > _max_sort_size) {
            //排序缓存溢出，不再继续排序
            popPacket();
            setSortSize();
@ -142,7 +142,7 @@ private:
    }
    void setSortSize() {
-        _max_sort_size = kMin + _rtp_sort_cache_map.size();
+        _max_sort_size = kMin + _pkt_sort_cache_map.size();
        if (_max_sort_size > kMax) {
            _max_sort_size = kMax;
        }
@ -155,8 +155,8 @@ private:
    size_t _seq_cycle_count = 0;
    //排序缓存长度
    size_t _max_sort_size = kMin;
-    //rtp排序缓存，根据seq排序
+    //pkt排序缓存，根据seq排序
-    map<SEQ, T> _rtp_sort_cache_map;
+    map<SEQ, T> _pkt_sort_cache_map;
    //回调
    function<void(SEQ seq, T &packet)> _cb;
 };