读取帧优化

core/rtc.py

@@ -0,0 +1,117 @@
+import asyncio
+import logging
+from aiortc import RTCPeerConnection, RTCSessionDescription
+import aiohttp
+
+# 配置日志
+logging.basicConfig(level=logging.INFO)
+logger = logging.getLogger("whep_video_puller")
+
+
+async def whep_pull_video_stream(whep_url):
+    """
+    通过WHEP从指定URL拉取视频流并在收到每一帧时打印消息
+
+    Args:
+        whep_url: WHEP端点的URL
+    """
+    pc = RTCPeerConnection()
+
+    # 添加连接状态变化监听
+    @pc.on("connectionstatechange")
+    async def on_connectionstatechange():
+        print(f"连接状态: {pc.connectionState}")
+
+    # 添加ICE连接状态变化监听
+    @pc.on("iceconnectionstatechange")
+    async def on_iceconnectionstatechange():
+        print(f"ICE连接状态: {pc.iceConnectionState}")
+
+    # 添加视频接收器
+    pc.addTransceiver("video", direction="recvonly")
+
+    # 处理接收到的视频轨道
+    @pc.on("track")
+    def on_track(track):
+        print(f"接收到轨道: {track.kind}")
+        if track.kind == "video":
+            print(f"轨道ID: {track.id}")
+            print(f"轨道就绪状态: {track.readyState}")
+            # 创建异步任务来处理视频帧
+            asyncio.ensure_future(handle_video_track(track))
+
+    async def handle_video_track(track):
+        """处理视频轨道，接收并打印每一帧"""
+        frame_count = 0
+        print("开始处理视频轨道...")
+
+        while True:
+            try:
+                # 尝试接收帧
+                frame = await track.recv()
+                frame_count += 1
+                print(f"收到原始帧 (第{frame_count}帧)")
+
+                # 打印帧的基本信息
+                if hasattr(frame, 'width') and hasattr(frame, 'height'):
+                    print(f"  尺寸: {frame.width}x{frame.height}")
+                if hasattr(frame, 'time_base'):
+                    print(f"  时间基准: {frame.time_base}")
+                if hasattr(frame, 'pts'):
+                    print(f"  显示时间戳: {frame.pts}")
+
+            except Exception as e:
+                print(f"接收帧时出错: {e}")
+                # 等待一段时间后重试
+                await asyncio.sleep(0.1)
+                continue
+
+    # 创建offer
+    offer = await pc.createOffer()
+    await pc.setLocalDescription(offer)
+
+    print(f"本地SDP信息:\n{offer.sdp}")
+
+    # 通过HTTP POST发送offer到WHEP端点
+    async with aiohttp.ClientSession() as session:
+        async with session.post(
+                whep_url,
+                data=offer.sdp,
+                headers={"Content-Type": "application/sdp"}
+        ) as response:
+            if response.status != 201:
+                print(f"WHEP服务器返回错误: {response.status}")
+                print(f"响应内容: {await response.text()}")
+                raise Exception(f"WHEP服务器返回错误: {response.status}")
+
+            # 获取answer SDP
+            answer_sdp = await response.text()
+
+            # 创建RTCSessionDescription对象
+            answer = RTCSessionDescription(sdp=answer_sdp, type="answer")
+
+            print(f"收到远程SDP:\n{answer_sdp}")
+
+    # 设置远程描述
+    await pc.setRemoteDescription(answer)
+
+    print("连接已建立，开始接收视频流...")
+
+    # 保持连接，直到用户中断
+    try:
+        while True:
+            await asyncio.sleep(1)
+            # 检查连接状态
+            print(f"当前连接状态: {pc.connectionState}")
+    except KeyboardInterrupt:
+        print("用户中断，关闭连接...")
+    finally:
+        await pc.close()
+
+
+if __name__ == "__main__":
+    # 替换为你的WHEP端点URL
+    WHEP_URL = "http://192.168.110.25:1985/rtc/v1/whep/?app=live&stream=473b95a47e338301cbd96809ea7ac416"
+
+    # 运行拉流任务
+    asyncio.run(whep_pull_video_stream(WHEP_URL))

core/rtmp.py

@@ -0,0 +1,101 @@
+import asyncio
+import logging
+import cv2
+import time
+
+# 配置日志（与WHEP代码保持一致的日志风格）
+logging.basicConfig(level=logging.INFO)
+logger = logging.getLogger("rtmp_video_puller")
+
+
+async def rtmp_pull_video_stream(rtmp_url):
+    """
+    通过RTMP从指定URL拉取视频流并在收到每一帧时打印消息
+    功能与WHEP拉流函数对齐：流状态反馈、帧信息打印、帧率统计、异常处理
+
+    Args:
+        rtmp_url: RTMP流的URL地址（如 rtmp://xxx/live/stream_key）
+    """
+    cap = None  # 初始化视频捕获对象
+    try:
+        # 1. 异步打开RTMP流（指定FFmpeg后端确保RTMP兼容性，同步操作通过to_thread避免阻塞事件循环）
+        cap = await asyncio.to_thread(
+            cv2.VideoCapture,
+            rtmp_url,
+            cv2.CAP_FFMPEG  # 必须指定FFmpeg后端，RTMP协议依赖该后端解析
+        )
+
+        # 2. 检查RTMP流是否成功打开
+        is_opened = await asyncio.to_thread(cap.isOpened)
+        if not is_opened:
+            raise Exception(f"RTMP流打开失败: {rtmp_url}（请检查URL有效性和FFmpeg环境）")
+
+        # 3. 异步获取RTMP流基础信息（分辨率、帧率）
+        width = await asyncio.to_thread(cap.get, cv2.CAP_PROP_FRAME_WIDTH)
+        height = await asyncio.to_thread(cap.get, cv2.CAP_PROP_FRAME_HEIGHT)
+        fps = await asyncio.to_thread(cap.get, cv2.CAP_PROP_FPS)
+
+        # 处理异常情况：部分RTMP流未返回帧率时默认30FPS
+        fps = fps if fps > 0 else 30.0
+        # 分辨率转为整数（视频尺寸必然是整数）
+        width, height = int(width), int(height)
+
+        # 打印流初始化成功信息（与WHEP连接成功信息风格一致）
+        print(f"RTMP流状态: 已成功连接")
+        print(f"流基础信息: 分辨率 {width}x{height} | 配置帧率 {fps:.2f} FPS")
+        print("开始接收视频帧...（按 Ctrl+C 中断）")
+
+        # 4. 初始化帧统计参数
+        frame_count = 0  # 总接收帧数
+        start_time = time.time()  # 统计起始时间
+
+        # 5. 循环异步读取视频帧（核心逻辑）
+        while True:
+            # 异步读取一帧（cv2.read是同步操作，用to_thread适配异步环境）
+            ret, frame = await asyncio.to_thread(cap.read)
+
+            # 检查帧是否读取成功（流中断/结束时ret为False）
+            if not ret:
+                print(f"RTMP流状态: 帧读取失败（可能流已中断或结束）")
+                break
+
+            # 帧计数累加
+            frame_count += 1
+
+            # 6. 打印当前帧基础信息（与WHEP帧信息打印风格对齐）
+            print(f"收到帧 (第{frame_count}帧)")
+            print(f"  帧尺寸: {width}x{height}")
+            print(f"  配置帧率: {fps:.2f} FPS")
+
+            # 7. 每100帧统计一次实际接收帧率（补充性能监控，与原RTMP示例逻辑一致）
+            if frame_count % 100 == 0:
+                elapsed_time = time.time() - start_time
+                actual_fps = frame_count / elapsed_time  # 实际接收帧率（可能低于配置帧率）
+                print(f"---- 帧统计: 累计{frame_count}帧 | 实际平均帧率 {actual_fps:.2f} FPS ----")
+
+            # （可选）帧数据处理入口：如需处理帧（如推流、分析），可在此处添加逻辑
+            # 示例：yield frame （若需生成器模式，可调整函数为异步生成器）
+
+    # 8. 异常处理（覆盖用户中断、通用错误）
+    except KeyboardInterrupt:
+        print(f"\n用户操作: 已通过 Ctrl+C 中断程序")
+    except Exception as e:
+        # 日志记录详细错误（便于问题排查），同时打印用户可见信息
+        logger.error(f"RTMP流处理异常: {str(e)}", exc_info=True)
+        print(f"错误信息: {str(e)}")
+    finally:
+        # 9. 资源释放（无论成功/失败都确保释放，避免内存泄漏）
+        if cap is not None:
+            await asyncio.to_thread(cap.release)
+            print(f"\n资源释放: RTMP流已关闭")
+            print(f"最终统计: 共接收 {frame_count if 'frame_count' in locals() else 0} 帧")
+
+
+if __name__ == "__main__":
+    RTMP_URL = "rtmp://192.168.110.25:1935/live/473b95a47e338301cbd96809ea7ac416"
+
+    # 运行RTMP拉流任务（与WHEP一致的异步执行方式）
+    try:
+        asyncio.run(rtmp_pull_video_stream(RTMP_URL))
+    except Exception as e:
+        print(f"程序启动失败: {str(e)}")

rtc/rtc.py

@@ -1,155 +1,117 @@
-import queue
 import asyncio
+import logging
+from aiortc import RTCPeerConnection, RTCSessionDescription
 import aiohttp
-import threading
-import time
-from aiortc import RTCPeerConnection, RTCSessionDescription, RTCConfiguration
-from aiortc.mediastreams import MediaStreamTrack
 
-# 创建一个长度为1的队列，用于生产者和消费者之间的通信
-frame_queue = queue.Queue(maxsize=1)
+# 配置日志
+logging.basicConfig(level=logging.INFO)
+logger = logging.getLogger("whep_video_puller")
 
 
-class VideoTrack(MediaStreamTrack):
-    """自定义视频轨道类，继承自MediaStreamTrack"""
-    kind = "video"
-
-    def __init__(self, max_frames=100):
-        super().__init__()
-        self.frames = queue.Queue(maxsize=max_frames)
-
-    async def recv(self):
-        return await super().recv()
-
-
-def webrtc_producer(webrtc_url):
+async def whep_pull_video_stream(whep_url):
     """
-    生产者方法：从WEBRTC读取视频帧并放入队列
-    仅当队列空时才放入新帧，否则丢弃
+    通过WHEP从指定URL拉取视频流并在收到每一帧时打印消息
+
+    Args:
+        whep_url: WHEP端点的URL
     """
-    loop = asyncio.new_event_loop()
-    asyncio.set_event_loop(loop)
+    pc = RTCPeerConnection()
 
-    # 创建RTCPeerConnection对象，不使用ICE服务器
-    pc = RTCPeerConnection(RTCConfiguration(iceServers=[]))
-    video_track = VideoTrack()
-    pc.addTrack(video_track)
+    # 添加连接状态变化监听
+    @pc.on("connectionstatechange")
+    async def on_connectionstatechange():
+        print(f"连接状态: {pc.connectionState}")
 
+    # 添加ICE连接状态变化监听
+    @pc.on("iceconnectionstatechange")
+    async def on_iceconnectionstatechange():
+        print(f"ICE连接状态: {pc.iceConnectionState}")
+
+    # 添加视频接收器
+    pc.addTransceiver("video", direction="recvonly")
+
+    # 处理接收到的视频轨道
     @pc.on("track")
-    async def on_track(track):
+    def on_track(track):
+        print(f"接收到轨道: {track.kind}")
         if track.kind == "video":
-            print("接收到视频轨道，开始接收视频帧")
+            print(f"轨道ID: {track.id}")
+            print(f"轨道就绪状态: {track.readyState}")
+            # 创建异步任务来处理视频帧
+            asyncio.ensure_future(handle_video_track(track))
+
+    async def handle_video_track(track):
+        """处理视频轨道，接收并打印每一帧"""
+        frame_count = 0
+        print("开始处理视频轨道...")
+
         while True:
-                # 从轨道接收视频帧
-                frame = await track.recv()
-                # 转换为BGR24格式的NumPy数组
-                frame_bgr24 = frame.to_ndarray(format='bgr24')
-
-                # 检查队列是否为空，为空则加入，否则丢弃
-                if frame_queue.empty():
             try:
-                        frame_queue.put_nowait(frame_bgr24)
-                        print("帧已放入队列")
-                    except queue.Full:
-                        print("队列已满，丢弃帧")
-                else:
-                    print("队列非空，丢弃帧")
+                # 尝试接收帧
+                frame = await track.recv()
+                frame_count += 1
+                print(f"收到原始帧 (第{frame_count}帧)")
 
-    async def main():
-        # 创建并发送SDP Offer
+                # 打印帧的基本信息
+                if hasattr(frame, 'width') and hasattr(frame, 'height'):
+                    print(f"  尺寸: {frame.width}x{frame.height}")
+                if hasattr(frame, 'time_base'):
+                    print(f"  时间基准: {frame.time_base}")
+                if hasattr(frame, 'pts'):
+                    print(f"  显示时间戳: {frame.pts}")
+
+            except Exception as e:
+                print(f"接收帧时出错: {e}")
+                # 等待一段时间后重试
+                await asyncio.sleep(0.1)
+                continue
+
+    # 创建offer
     offer = await pc.createOffer()
-        print("已创建本地SDP Offer")
     await pc.setLocalDescription(offer)
 
-        # 发送Offer到服务器并接收Answer
+    print(f"本地SDP信息:\n{offer.sdp}")
+
+    # 通过HTTP POST发送offer到WHEP端点
     async with aiohttp.ClientSession() as session:
-            print(f"开始向服务器 {webrtc_url} 发送SDP Offer")
         async with session.post(
-                    webrtc_url,
-                    data=offer.sdp.encode(),
-                    headers={
-                        "Content-Type": "application/sdp",
-                        "Content-Length": str(len(offer.sdp))
-                    },
-                    ssl=False
+                whep_url,
+                data=offer.sdp,
+                headers={"Content-Type": "application/sdp"}
         ) as response:
-                print("已接收到服务器的响应")
+            if response.status != 201:
+                print(f"WHEP服务器返回错误: {response.status}")
+                print(f"响应内容: {await response.text()}")
+                raise Exception(f"WHEP服务器返回错误: {response.status}")
+
+            # 获取answer SDP
             answer_sdp = await response.text()
-                await pc.setRemoteDescription(RTCSessionDescription(sdp=answer_sdp, type='answer'))
 
-        # 保持连接
+            # 创建RTCSessionDescription对象
+            answer = RTCSessionDescription(sdp=answer_sdp, type="answer")
+
+            print(f"收到远程SDP:\n{answer_sdp}")
+
+    # 设置远程描述
+    await pc.setRemoteDescription(answer)
+
+    print("连接已建立，开始接收视频流...")
+
+    # 保持连接，直到用户中断
     try:
         while True:
-                await asyncio.sleep(0.1)
+            await asyncio.sleep(1)
+            # 检查连接状态
+            print(f"当前连接状态: {pc.connectionState}")
     except KeyboardInterrupt:
-            pass
+        print("用户中断，关闭连接...")
     finally:
-            print("关闭RTCPeerConnection")
         await pc.close()
 
-    try:
-        loop.run_until_complete(main())
-    finally:
-        loop.close()
-
-
-def frame_consumer():
-    """
-    消费者方法：从队列中读取帧并处理
-    每次处理后休眠200ms模拟延迟
-    """
-    print("消费者启动，开始等待帧...")
-    try:
-        while True:
-            # 阻塞等待队列中的帧
-            frame = frame_queue.get()
-            print(f"消费帧，大小: {frame.shape}")
-
-            # 模拟处理延迟
-            time.sleep(0.2)  # 200ms
-
-            # 标记任务完成
-            frame_queue.task_done()
-    except KeyboardInterrupt:
-        print("消费者退出")
-
-
-def start_webrtc_stream(webrtc_url):
-    """
-    启动WebRTC视频流处理的主方法
-    参数: webrtc_url - WebRTC服务器地址
-    """
-    print(f"开始连接到WebRTC服务器: {webrtc_url}")
-
-    # 启动生产者线程
-    producer_thread = threading.Thread(
-        target=webrtc_producer,
-        args=(webrtc_url,),
-        daemon=True,
-        name="webrtc-producer"
-    )
-
-    # 启动消费者线程
-    consumer_thread = threading.Thread(
-        target=frame_consumer,
-        daemon=True,
-        name="frame-consumer"
-    )
-
-    producer_thread.start()
-    consumer_thread.start()
-    print("生产者和消费者线程已启动")
-
-    try:
-        # 保持主线程运行
-        while True:
-            time.sleep(1)
-    except KeyboardInterrupt:
-        print("程序正在退出...")
-
 
 if __name__ == "__main__":
-    # 示例用法
-    # 实际使用时替换为真实的WebRTC服务器地址
-    webrtc_server_url = "http://192.168.110.65:1985/rtc/v1/whep/?app=live&stream=677a4845aa48cb8526c811ad56fc5e60"
-    start_webrtc_stream(webrtc_server_url)
+    # 替换为你的WHEP端点URL
+    WHEP_URL = "http://192.168.110.25:1985/rtc/v1/whep/?app=live&stream=473b95a47e338301cbd96809ea7ac416"
+
+    # 运行拉流任务
+    asyncio.run(whep_pull_video_stream(WHEP_URL))

rtmp/rtmp.py

@@ -0,0 +1,101 @@
+import asyncio
+import logging
+import cv2
+import time
+
+# 配置日志（与WHEP代码保持一致的日志风格）
+logging.basicConfig(level=logging.INFO)
+logger = logging.getLogger("rtmp_video_puller")
+
+
+async def rtmp_pull_video_stream(rtmp_url):
+    """
+    通过RTMP从指定URL拉取视频流并在收到每一帧时打印消息
+    功能与WHEP拉流函数对齐：流状态反馈、帧信息打印、帧率统计、异常处理
+
+    Args:
+        rtmp_url: RTMP流的URL地址（如 rtmp://xxx/live/stream_key）
+    """
+    cap = None  # 初始化视频捕获对象
+    try:
+        # 1. 异步打开RTMP流（指定FFmpeg后端确保RTMP兼容性，同步操作通过to_thread避免阻塞事件循环）
+        cap = await asyncio.to_thread(
+            cv2.VideoCapture,
+            rtmp_url,
+            cv2.CAP_FFMPEG  # 必须指定FFmpeg后端，RTMP协议依赖该后端解析
+        )
+
+        # 2. 检查RTMP流是否成功打开
+        is_opened = await asyncio.to_thread(cap.isOpened)
+        if not is_opened:
+            raise Exception(f"RTMP流打开失败: {rtmp_url}（请检查URL有效性和FFmpeg环境）")
+
+        # 3. 异步获取RTMP流基础信息（分辨率、帧率）
+        width = await asyncio.to_thread(cap.get, cv2.CAP_PROP_FRAME_WIDTH)
+        height = await asyncio.to_thread(cap.get, cv2.CAP_PROP_FRAME_HEIGHT)
+        fps = await asyncio.to_thread(cap.get, cv2.CAP_PROP_FPS)
+
+        # 处理异常情况：部分RTMP流未返回帧率时默认30FPS
+        fps = fps if fps > 0 else 30.0
+        # 分辨率转为整数（视频尺寸必然是整数）
+        width, height = int(width), int(height)
+
+        # 打印流初始化成功信息（与WHEP连接成功信息风格一致）
+        print(f"RTMP流状态: 已成功连接")
+        print(f"流基础信息: 分辨率 {width}x{height} | 配置帧率 {fps:.2f} FPS")
+        print("开始接收视频帧...（按 Ctrl+C 中断）")
+
+        # 4. 初始化帧统计参数
+        frame_count = 0  # 总接收帧数
+        start_time = time.time()  # 统计起始时间
+
+        # 5. 循环异步读取视频帧（核心逻辑）
+        while True:
+            # 异步读取一帧（cv2.read是同步操作，用to_thread适配异步环境）
+            ret, frame = await asyncio.to_thread(cap.read)
+
+            # 检查帧是否读取成功（流中断/结束时ret为False）
+            if not ret:
+                print(f"RTMP流状态: 帧读取失败（可能流已中断或结束）")
+                break
+
+            # 帧计数累加
+            frame_count += 1
+
+            # 6. 打印当前帧基础信息（与WHEP帧信息打印风格对齐）
+            print(f"收到帧 (第{frame_count}帧)")
+            print(f"  帧尺寸: {width}x{height}")
+            print(f"  配置帧率: {fps:.2f} FPS")
+
+            # 7. 每100帧统计一次实际接收帧率（补充性能监控，与原RTMP示例逻辑一致）
+            if frame_count % 100 == 0:
+                elapsed_time = time.time() - start_time
+                actual_fps = frame_count / elapsed_time  # 实际接收帧率（可能低于配置帧率）
+                print(f"---- 帧统计: 累计{frame_count}帧 | 实际平均帧率 {actual_fps:.2f} FPS ----")
+
+            # （可选）帧数据处理入口：如需处理帧（如推流、分析），可在此处添加逻辑
+            # 示例：yield frame （若需生成器模式，可调整函数为异步生成器）
+
+    # 8. 异常处理（覆盖用户中断、通用错误）
+    except KeyboardInterrupt:
+        print(f"\n用户操作: 已通过 Ctrl+C 中断程序")
+    except Exception as e:
+        # 日志记录详细错误（便于问题排查），同时打印用户可见信息
+        logger.error(f"RTMP流处理异常: {str(e)}", exc_info=True)
+        print(f"错误信息: {str(e)}")
+    finally:
+        # 9. 资源释放（无论成功/失败都确保释放，避免内存泄漏）
+        if cap is not None:
+            await asyncio.to_thread(cap.release)
+            print(f"\n资源释放: RTMP流已关闭")
+            print(f"最终统计: 共接收 {frame_count if 'frame_count' in locals() else 0} 帧")
+
+
+if __name__ == "__main__":
+    RTMP_URL = "rtmp://192.168.110.25:1935/live/473b95a47e338301cbd96809ea7ac416"
+
+    # 运行RTMP拉流任务（与WHEP一致的异步执行方式）
+    try:
+        asyncio.run(rtmp_pull_video_stream(RTMP_URL))
+    except Exception as e:
+        print(f"程序启动失败: {str(e)}")