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cxh 2025-10-17 13:36:22 +08:00
parent b2e59af1bf
commit e44e914297
3 changed files with 159 additions and 52 deletions
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9
include/rtmp_manager.hpp
View File

@ -57,6 +57,8 @@ class RTMPManager
static std::vector<StreamResultInfo> process_push_request(const VideoPushRequest &req);
static void stop_all();
// 自动启动所有录像流(上电调用一次)
static void start_all_record_streams();
static bool is_streaming(const std::string &cam_name, StreamType type);
static bool is_any_streaming();
static std::string get_stream_url(const std::string &cam_name, StreamType type);
@ -67,6 +69,7 @@ class RTMPManager
std::atomic<bool> running{false};
std::thread thread;
// 启动阶段的 promise用于首次启动结果反馈7s 内)
std::promise<StreamStatus> start_promise;
std::atomic<bool> start_promise_set{false};
@ -96,6 +99,7 @@ class RTMPManager
static std::string make_stream_key(const std::string &cam_name, StreamType type);
static GstElement *create_pipeline(const Camera &cam, StreamType type);
static void stream_loop(Camera cam, StreamType type, StreamContext *ctx);
static bool do_stream_once(const Camera &cam, StreamType type, StreamContext *ctx);
static void update_status(const std::string &key, const StreamStatus &status);
@ -104,6 +108,7 @@ class RTMPManager
static StreamCallback status_callback;
// 自动重试参数
static constexpr int MAX_RETRIES = 3;
static constexpr int RETRY_DELAY_MS = 2000;
// MAINrecord为永久重试SUBlive使用限次重试
static constexpr int LIVE_MAX_RETRIES = 5;
static constexpr int RETRY_BASE_DELAY_MS = 2000; // 2s -> 可指数退避
};

6
src/mqtt_client_wrapper.cpp
View File

@ -63,7 +63,8 @@ static void on_mqtt_message_received(const std::string &topic, const std::string
{
VideoPushRequest::DataItem item;
item.switchVal = data.value("switch", 0);
item.streamType = data.value("streamType", 0);
item.streamType = data.value("streamType", 1); // ✅ 默认子码流
if (item.streamType == 0) item.streamType = 1; // ✅ 防止平台误发 main
item.channels = data.value("channels", std::vector<int>{});
req.data.push_back(item);
}
@ -73,7 +74,8 @@ static void on_mqtt_message_received(const std::string &topic, const std::string
{
VideoPushRequest::DataItem item;
item.switchVal = d.value("switch", 0);
item.streamType = d.value("streamType", 0);
item.streamType = data.value("streamType", 1); // ✅ 默认子码流
if (item.streamType == 0) item.streamType = 1; // ✅ 防止平台误发 main
item.channels = d.value("channels", std::vector<int>{});
req.data.push_back(item);
}

196
src/rtmp_manager.cpp
View File

@ -17,6 +17,8 @@
#include "logger.hpp"
// ---------- 小工具 ----------
static bool device_exists(const std::string &path)
{
struct stat st;
@ -38,7 +40,6 @@ static std::string get_ip_address(const std::string &ifname)
{
if (ifa->ifa_addr == nullptr) continue;
// 只看 IPv4
if (ifa->ifa_addr->sa_family == AF_INET && ifname == ifa->ifa_name)
{
void *addr = &((struct sockaddr_in *)ifa->ifa_addr)->sin_addr;
@ -56,10 +57,14 @@ static std::string get_ip_address(const std::string &ifname)
static inline std::string stream_type_suffix(StreamType type) { return (type == StreamType::MAIN) ? "_main" : "_sub"; }
// ---------- 静态成员 ----------
std::unordered_map<std::string, std::unique_ptr<RTMPManager::StreamContext>> RTMPManager::streams;
std::mutex RTMPManager::streams_mutex;
RTMPManager::StreamCallback RTMPManager::status_callback = nullptr;
// ---------- 内部工具 ----------
std::string RTMPManager::make_stream_key(const std::string &cam_name, StreamType type)
{
return cam_name + stream_type_suffix(type);
@ -83,23 +88,21 @@ void RTMPManager::update_status(const std::string &key, const StreamStatus &stat
if (status_callback) status_callback(key, status);
}
// 决定 appMAIN -> record录像SUB -> live按需
static inline std::string pick_app(StreamType type) { return (type == StreamType::MAIN) ? "record" : "live"; }
GstElement *RTMPManager::create_pipeline(const Camera &cam, StreamType type)
{
int width = cam.width, height = cam.height, fps = cam.fps, bitrate = cam.bitrate;
if (type == StreamType::SUB)
{
width = std::max(160, width / 2);
height = std::max(120, height / 2);
fps = std::max(10, fps / 2);
bitrate = std::max(300000, bitrate / 2);
}
std::string stream_name = cam.name + stream_type_suffix(type);
const std::string stream_name = cam.name + stream_type_suffix(type);
const std::string app = pick_app(type);
// 说明:
// 1) 维持你当前的视频链路NV12 -> mpph264enc -> h264parse -> flvmux
// 2) 加一个静音音轨audiotestsrc wave=silence -> voaacenc -> aacparse -> mux.
// 3) 给 rtmpsink 命名 name=rtmp_sink供后续在 bus loop 中识别并判断“真正连上”时机。
// NV12 -> mpph264enc -> h264parse -> flvmux(+静音音轨) -> rtmpsink
std::string pipeline_str = "v4l2src device=" + cam.device + " ! video/x-raw,width=" + std::to_string(width) +
",height=" + std::to_string(height) + ",framerate=" + std::to_string(fps) +
"/1 "
@ -110,10 +113,10 @@ GstElement *RTMPManager::create_pipeline(const Camera &cam, StreamType type)
"! h264parse "
"! flvmux name=mux streamable=true "
"audiotestsrc wave=silence ! audioconvert ! audioresample ! voaacenc ! aacparse ! mux. "
"mux. ! rtmpsink name=rtmp_sink location=\"rtmp://127.0.0.1/live/" +
stream_name + " live=1\" sync=false";
"mux. ! rtmpsink name=rtmp_sink location=\"rtmp://127.0.0.1/" +
app + "/" + stream_name + " live=1\" sync=false";
LOG_INFO("[RTMP] Creating pipeline for '" + stream_name + "': " + pipeline_str);
LOG_INFO("[RTMP] Creating pipeline for '" + stream_name + "' -> app '" + app + "': " + pipeline_str);
GError *error = nullptr;
GstElement *pipeline = gst_parse_launch(pipeline_str.c_str(), &error);
@ -126,13 +129,16 @@ GstElement *RTMPManager::create_pipeline(const Camera &cam, StreamType type)
return pipeline;
}
int get_camera_index(const std::string &name)
// 摄像头在配置中的索引(用于 reply.loc
static int get_camera_index(const std::string &name)
{
for (size_t i = 0; i < g_app_config.cameras.size(); ++i)
if (g_app_config.cameras[i].name == name) return static_cast<int>(i);
return -1;
}
// ---------- 对外接口:启动/停止 ----------
RTMPManager::StreamResultInfo RTMPManager::start_camera(const Camera &cam, StreamType type)
{
StreamResultInfo res;
@ -146,8 +152,8 @@ RTMPManager::StreamResultInfo RTMPManager::start_camera(const Camera &cam, Strea
return res;
}
// 新增:设备节点存在性检查
if (!device_exists(cam.device))
// 主码流record允许设备缺失时也进入“重试守护”所以这里只在 SUB 时严格检查
if (type == StreamType::SUB && !device_exists(cam.device))
{
res.result = 1;
res.reason = "Device not found: " + cam.device;
@ -163,7 +169,7 @@ RTMPManager::StreamResultInfo RTMPManager::start_camera(const Camera &cam, Strea
std::lock_guard<std::mutex> lock(streams_mutex);
auto it = streams.find(key);
// 若旧线程仍在运行,先安全停止
// 若旧线程仍在运行,先安全停止并移除
if (it != streams.end())
{
if (it->second->running.load())
@ -246,9 +252,8 @@ RTMPManager::StreamResultInfo RTMPManager::stop_camera(const std::string &cam_na
streams.erase(it);
}
bool was_running = ctx->running.load(); // ✅ 改为使用 running
bool was_running = ctx->running.load();
ctx->running.store(false);
if (ctx->thread.joinable()) ctx->thread.join();
if (was_running)
@ -265,6 +270,8 @@ RTMPManager::StreamResultInfo RTMPManager::stop_camera(const std::string &cam_na
return res;
}
// ---------- 核心:推流循环(带重试策略) ----------
void RTMPManager::stream_loop(Camera cam, StreamType type, StreamContext *ctx)
{
const std::string key = make_stream_key(cam.name, type);
@ -284,7 +291,68 @@ void RTMPManager::stream_loop(Camera cam, StreamType type, StreamContext *ctx)
}
};
StreamStatus status;
// MAINrecord= 永久自动重试SUBlive= 限次重试
if (type == StreamType::MAIN)
{
int backoff_ms = RETRY_BASE_DELAY_MS; // 可指数退避
while (ctx->running.load())
{
const bool ok = do_stream_once(cam, type, ctx);
if (!ok && ctx->running.load())
{
LOG_WARN("[RTMP] MAIN(record) stream lost, retry in " + std::to_string(backoff_ms) + "ms: " + cam.name);
std::this_thread::sleep_for(std::chrono::milliseconds(backoff_ms));
backoff_ms = std::min(backoff_ms * 2, 60000); // up to 60s
}
else
{
backoff_ms = RETRY_BASE_DELAY_MS; // 成功后重置退避
}
}
}
else // SUB / live
{
int retries = 0;
while (ctx->running.load())
{
const bool ok = do_stream_once(cam, type, ctx);
if (ok) break; // 正常退出(被 stop 或 EOS
retries++;
if (retries >= LIVE_MAX_RETRIES || !ctx->running.load())
{
LOG_ERROR("[RTMP] SUB(live) stream failed after retries, giving up: " + cam.name);
break;
}
LOG_WARN("[RTMP] SUB(live) retry " + std::to_string(retries) + "/" + std::to_string(LIVE_MAX_RETRIES) +
" in " + std::to_string(RETRY_BASE_DELAY_MS) + "ms: " + cam.name);
std::this_thread::sleep_for(std::chrono::milliseconds(RETRY_BASE_DELAY_MS));
}
}
ctx->status.running = false;
}
// 单次推流:创建 pipeline -> PLAYING -> loop 直到 ERROR/EOS/stop
bool RTMPManager::do_stream_once(const Camera &cam, StreamType type, StreamContext *ctx)
{
const std::string key = make_stream_key(cam.name, type);
auto try_set_start = [&](const StreamStatus &st)
{
bool expected = false;
if (ctx && ctx->start_promise_set.compare_exchange_strong(expected, true))
{
try
{
ctx->start_promise.set_value(st);
}
catch (...)
{
}
}
};
RTMPManager::StreamStatus status;
status.running = false;
status.last_result = StreamResult::UNKNOWN;
status.last_error.clear();
@ -294,17 +362,21 @@ void RTMPManager::stream_loop(Camera cam, StreamType type, StreamContext *ctx)
{
status.last_result = StreamResult::PIPELINE_ERROR;
status.last_error = "Failed to create pipeline";
update_status(key, status);
try_set_start(status);
return;
return false;
}
GstBus *bus = gst_element_get_bus(pipeline);
gst_element_set_state(pipeline, GST_STATE_PLAYING);
bool started_reported = false; // 是否已经上报“启动成功”
bool started_reported = false;
auto t0 = std::chrono::steady_clock::now();
const int first_frame_timeout_s = 5; // 首帧/连通性保护上限(与原逻辑一致)
const int connect_guard_ms = 2000; // 连接保护窗口:给 rtmpsink 一点时间去连接
const int first_frame_timeout_s = 5;
const int connect_guard_ms = 2000;
bool need_restart = false;
bool ok = false;
while (true)
{
@ -313,11 +385,12 @@ void RTMPManager::stream_loop(Camera cam, StreamType type, StreamContext *ctx)
status.running = false;
status.last_result = StreamResult::UNKNOWN;
status.last_error = "Stream stopped manually";
update_status(key, status);
try_set_start(status);
break;
}
// 超时保护:既没报错也没确认连接成功,超过上限则判失败
// 首帧/连通性超时保护
if (!started_reported)
{
auto elapsed_s =
@ -327,7 +400,9 @@ void RTMPManager::stream_loop(Camera cam, StreamType type, StreamContext *ctx)
status.running = false;
status.last_result = StreamResult::TIMEOUT;
status.last_error = "No frames/connection established within timeout";
update_status(key, status);
try_set_start(status);
need_restart = true;
break;
}
}
@ -339,8 +414,7 @@ void RTMPManager::stream_loop(Camera cam, StreamType type, StreamContext *ctx)
if (!msg)
{
// 保底:过了 connect_guard_ms 仍然没有 ERROR
// 并且 rtmpsink 进入 PLAYING就认为真的起来了。
// 过了 connect_guard_ms 且 rtmpsink 进入 PLAYING认为启动成功
if (!started_reported)
{
auto elapsed_ms =
@ -359,6 +433,7 @@ void RTMPManager::stream_loop(Camera cam, StreamType type, StreamContext *ctx)
ctx->status.running = true;
status.last_result = StreamResult::OK;
status.last_error.clear();
update_status(key, status);
try_set_start(status);
started_reported = true;
LOG_INFO("[RTMP] Guard-start OK for '" + cam.name + "'");
@ -374,7 +449,6 @@ void RTMPManager::stream_loop(Camera cam, StreamType type, StreamContext *ctx)
{
case GST_MESSAGE_STREAM_STATUS:
{
// 优先判断 rtmpsink 的 STREAM_STATUSCREATE/START来认定“真正连上”
GstStreamStatusType type_ss;
GstElement *owner = nullptr;
gst_message_parse_stream_status(msg, &type_ss, &owner);
@ -390,6 +464,7 @@ void RTMPManager::stream_loop(Camera cam, StreamType type, StreamContext *ctx)
ctx->status.running = true;
status.last_result = StreamResult::OK;
status.last_error.clear();
update_status(key, status);
try_set_start(status);
started_reported = true;
LOG_INFO(std::string("[RTMP] Connected (STREAM_STATUS) for '") + cam.name + "'");
@ -400,11 +475,8 @@ void RTMPManager::stream_loop(Camera cam, StreamType type, StreamContext *ctx)
}
case GST_MESSAGE_STATE_CHANGED:
{
// 不再用 pipeline 进入 PLAYING 判成功(容易误判)
// 这里仅用于日志或后续扩展
// 可用于扩展日志;不以 pipeline 的 PLAYING 作为成功判据
break;
}
case GST_MESSAGE_ERROR:
{
@ -418,15 +490,12 @@ void RTMPManager::stream_loop(Camera cam, StreamType type, StreamContext *ctx)
LOG_ERROR("[RTMP] Stream error from '" + cam.name + "': " + status.last_error);
// 立刻标记为停止,避免线程继续循环误判
ctx->status.running = false;
ctx->running.store(false);
gst_element_set_state(pipeline, GST_STATE_NULL);
need_restart = true;
if (err) g_error_free(err);
if (dbg) g_free(dbg);
update_status(key, status);
try_set_start(status);
break;
}
@ -436,7 +505,9 @@ void RTMPManager::stream_loop(Camera cam, StreamType type, StreamContext *ctx)
status.running = false;
status.last_result = StreamResult::EOS_RECEIVED;
status.last_error = "EOS received";
update_status(key, status);
try_set_start(status);
need_restart = true;
break;
}
@ -446,20 +517,24 @@ void RTMPManager::stream_loop(Camera cam, StreamType type, StreamContext *ctx)
gst_message_unref(msg);
// 发生错误或 EOS 就退出循环
if (status.last_result == StreamResult::CONNECTION_FAIL || status.last_result == StreamResult::EOS_RECEIVED)
if (need_restart) break;
if (started_reported)
{
break;
// 正常运行中,继续监听
}
}
// 收尾
gst_element_set_state(pipeline, GST_STATE_NULL);
if (bus) gst_object_unref(bus);
gst_object_unref(pipeline);
ctx->status.running = false;
ok = started_reported && !need_restart; // 若在 stop 前一直运行且未触发重启则认为 ok
return ok;
}
// ---------- 其他工具 ----------
void RTMPManager::stop_all()
{
std::vector<std::unique_ptr<StreamContext>> ctxs;
@ -493,17 +568,18 @@ bool RTMPManager::is_any_streaming()
std::string RTMPManager::get_stream_url(const std::string &cam_name, StreamType type)
{
// 获取当前设备 enp1s0 网卡 IP或者改成你希望的接口
// 你可以把这里的网卡名替换成你的默认上行网卡
std::string ip = get_ip_address("enP2p33s0");
if (ip.empty()) ip = "127.0.0.1";
// 构建流名,例如 AHD2_main
std::string stream_name = make_stream_key(cam_name, type);
const std::string app = pick_app(type);
const std::string stream_name = make_stream_key(cam_name, type);
// 最终返回 WebRTC 拉流地址(不加 .flv
return "http://" + ip + ":1985/rtc/v1/whep/?app=live&stream=" + stream_name;
// 返回 WebRTC 拉流地址WHEP
return "http://" + ip + ":1985/rtc/v1/whep/?app=" + app + "&stream=" + stream_name;
}
// 批量处理
std::vector<RTMPManager::StreamResultInfo> RTMPManager::process_push_request(const VideoPushRequest &req)
{
std::vector<StreamResultInfo> results;
@ -521,20 +597,17 @@ std::vector<RTMPManager::StreamResultInfo> RTMPManager::process_push_request(con
if (item.switchVal == 0)
{
// 异步启动推流
futures.emplace_back(
std::async(std::launch::async, [&, cam, type]() { return start_camera(cam, type); }));
}
else
{
// 异步停止推流
futures.emplace_back(
std::async(std::launch::async, [&, cam, type]() { return stop_camera(cam.name, type); }));
}
}
}
// 收集所有结果
for (auto &f : futures)
{
try
@ -552,3 +625,30 @@ std::vector<RTMPManager::StreamResultInfo> RTMPManager::process_push_request(con
return results;
}
void RTMPManager::start_all_record_streams()
{
LOG_INFO("[RTMP] Auto-starting all record (MAIN) streams...");
for (const auto &cam : g_app_config.cameras)
{
// 检查是否已经存在
if (is_streaming(cam.name, StreamType::MAIN))
{
LOG_INFO("[RTMP] Record stream already running: " + cam.name);
continue;
}
auto res = start_camera(cam, StreamType::MAIN);
if (res.result == 0)
{
LOG_INFO("[RTMP] Record stream started for " + cam.name + ": " + res.reason);
}
else
{
LOG_WARN("[RTMP] Failed to start record stream for " + cam.name + ": " + res.reason);
}
}
LOG_INFO("[RTMP] Auto-start for record streams done.");
}