hls适配新的分片下载逻辑

2026-02-28 14:51:16 +08:00
parent 85bad4aa78
commit cd27032e6d
3 changed files with 107 additions and 62 deletions
--- a/common/contants.py
+++ b/common/contants.py
@@ -7,6 +7,8 @@ logger = get_logger(__name__)
 ALERT_PUSH_URL = ""
 HLS_ROOT_PATH = ""
 HLS_SEGMENT_PATTERN = "segment_%09d.ts"  # TS文件命名模式
 def init_config(config_path: str = "config.yaml"):
    """
--- a/hls_service_ws_kadian.py
+++ b/hls_service_ws_kadian.py
@@ -27,21 +27,27 @@ from utils.logger import get_logger
 logger = get_logger(__name__)
 # HLS配置
 HLS_SEGMENT_DIR = "D:\\ProjectDoc\\Police\\data\\hls"  # TS分片存储目录
 HLS_SEGMENT_PATTERN = "segment_%09d.ts"  # TS文件命名模式
 # ========================= 合并的TS读取和帧处理线程 =========================
 class HLSFrameProcessor(threading.Thread):
-    def __init__(self, camera_cfg: CameraConfig, raw_queue: queue.Queue, stop_event: threading.Event):
+    def __init__(self, camera_cfg: CameraConfig, hls_root_path: str, raw_queue: queue.Queue, stop_event: threading.Event):
        super().__init__(daemon=True)
        self.camera_cfg = camera_cfg
        self.hls_root_path = hls_root_path
        self.raw_queue = raw_queue
        self.stop_event = stop_event
        # 获取index_code
        self.index_code = camera_cfg.index
        if not self.index_code:
            logger.error(f"[ERROR] Camera {camera_cfg.name} has no index_code")
            return
        # 计算摄像头对应的根目录
        self.camera_root_dir = os.path.join(hls_root_path, self.index_code)
        # HLS状态变量
-        self.current_segment_num = -1  # 当前处理的TS分片序号
+        self.current_segment_path = None  # 当前处理的TS分片路径
        self.start_time = None  # 播放开始时间
        self.base_pts = None  # 第一个帧的PTS基准
@@ -52,65 +58,107 @@ class HLSFrameProcessor(threading.Thread):
        self.should_reset_time = False
-    def find_segment_files(self):
+    def get_latest_n_segments(self, n: int) -> list:
-        """查找TS分片文件，返回排序后的文件名列表"""
+        """
-        pattern = os.path.join(HLS_SEGMENT_DIR, "segment_*.ts")
+        获取最新的n个TS分片
-        files = glob.glob(pattern)
+        
-        # 按文件名中的数字排序
+        逻辑：
-        files.sort(key=lambda x: int(x.split('_')[-1].split('.')[0]))
+        1. 获取index_code文件夹下所有时间戳文件夹
-        return files
+        2. 按时间戳名称降序排序（最新的在前）
        3. 从最新的时间戳文件夹开始获取分片
        4. 如果分片数不足n，继续从上一个时间戳文件夹获取
        5. 返回最新的n个分片路径list（按时间顺序，最旧的在前）
        """
        if not os.path.exists(self.camera_root_dir):
            return []
        # 获取所有时间戳文件夹并排序（字符串排序即时间排序）
        timestamp_folders = []
        for folder_name in os.listdir(self.camera_root_dir):
            folder_path = os.path.join(self.camera_root_dir, folder_name)
            if os.path.isdir(folder_path):
                timestamp_folders.append(folder_name)
        if not timestamp_folders:
            return []
        # 降序排序，最新的在前
        timestamp_folders.sort(reverse=True)
        # 收集分片
        all_segments = []
        for ts_folder in timestamp_folders:
            ts_folder_path = os.path.join(self.camera_root_dir, ts_folder)
            pattern = os.path.join(ts_folder_path, "segment_*.ts")
            segment_files = glob.glob(pattern)
            # 按分片序号排序
            segment_files.sort(key=lambda x: int(os.path.basename(x).split('_')[-1].split('.')[0]))
            all_segments.extend(segment_files)
            # 已经收集够了
            if len(all_segments) >= n:
                break
        # 返回最新的n个（取最后n个，因为最新的在后面）
        if len(all_segments) >= n:
            return all_segments[-n:]
        else:
            return all_segments
    def get_segment_number(self, filename):
        """从文件名中提取序号"""
-        return int(filename.split('_')[-1].split('.')[0])
+        basename = os.path.basename(filename)
        return int(basename.split('_')[-1].split('.')[0])
    def find_nth_largest_segment(self, n):
-        """查找第n大的TS分片"""
+        """查找第n大的TS分片（最新的n个中的第1个，即倒数第n个）"""
-        files = self.find_segment_files()
+        segments = self.get_latest_n_segments(n + 2)  # 多获取几个确保有缓冲
-        if len(files) < n:
+        if len(segments) < n:
            return None
-        # 返回第n大的文件（从大到小排序）
+        # 返回倒数第n个（最新的n个中最旧的那个）
-        files_sorted = sorted(files, key=self.get_segment_number, reverse=True)
+        return segments[-n]
        return files_sorted[n-1] if n-1 < len(files_sorted) else None
    def find_next_segment(self):
        """查找下一个TS分片"""
-        next_segment_num = self.current_segment_num + 1
+        latest_segments = self.get_latest_n_segments(10)
        next_segment_path = os.path.join(HLS_SEGMENT_DIR, f"segment_{next_segment_num:09d}.ts")
-        # 检查+1, +2, +3是否存在
+        if not latest_segments:
-        check_segments = [
+            return None
            next_segment_num + 0,  # +1
            next_segment_num + 1,  # +2  
            next_segment_num + 2   # +3
        ]
-        for seg_num in check_segments:
+        # 情况1：当前分片在list中 → 返回下一个
-            seg_path = os.path.join(HLS_SEGMENT_DIR, f"segment_{seg_num:09d}.ts")
+        if self.current_segment_path in latest_segments:
-            if not os.path.exists(seg_path):
+            current_index = latest_segments.index(self.current_segment_path)
-                return None
+            if current_index + 3 < len(latest_segments):
                return latest_segments[current_index + 1]
            else:
                return None  # 当前是最新分片，等待
-        # 所有检查的分片都存在，返回下一个分片
+        # 情况2：当前分片不在list中 → 返回最新第3个（重新同步）
-        return next_segment_path
+        if len(latest_segments) >= 3:
            logger.warning(f"[WARN] Current segment not in latest list, re-syncing")
            return latest_segments[-3]  # 倒数第3个
        else:
            return None  # 分片不足，等待
    def initialize_playback(self):
-        """初始化播放：找到第3大的TS分片，建立时间基准"""
+        """初始化播放：找到最新第3大的TS分片，建立时间基准"""
        while not self.stop_event.is_set():
-            # 查找第3大的TS分片
+            # 查找最新第3大的TS分片
            third_largest = self.find_nth_largest_segment(3)
            if third_largest is not None:
-                segment_num = self.get_segment_number(third_largest)
+                logger.info(f"[INFO] Found segment: {os.path.basename(third_largest)}, starting playback")
                logger.info(f"[INFO] Found segment {segment_num}, starting playback")
                # 设置基准时间
-                self.current_segment_num = segment_num
+                self.current_segment_path = third_largest
                self.start_time = time.time()
                return third_largest
            # 等待0.5秒后重试
            time.sleep(0.5)
-            logger.warning(f"[WARN] No segments found, waiting...")
+            logger.warning(f"[WARN] No segments found in {self.camera_root_dir}, waiting...")
        return None
@@ -129,15 +177,6 @@ class HLSFrameProcessor(threading.Thread):
        # 计算时间差
        wait_time = expected_play_time - current_time
        # # 打印距离上次处理过去的时间
        # current_time = time.time()
        # if self.last_process_time is not None:
        #     time_since_last = (current_time - self.last_process_time) * 1000  # 转换为毫秒
        #     self.pts_diff = frame_pts - self.last_frame_pts  # 与上一帧的PTS差
        #     # logger.info(f"[INFO] Time since last frame: {time_since_last:.1f}ms, pts: {frame_pts} ms, pts_diff: {self.pts_diff}ms")
        # self.last_process_time = current_time
        # self.last_frame_pts = frame_pts
        if wait_time > 0:
            if wait_time > 1:  # 如果等待时间过长，重置时间基准
                logger.info(f"[WARN] Too far ahead, resetting time base")
@@ -145,14 +184,11 @@ class HLSFrameProcessor(threading.Thread):
                self.base_pts = frame_pts
            else:
                time.sleep(wait_time)
                # logger.info(f"[DEBUG] Frame Waiting for {wait_time*1000:.1f}ms")
        else :
            if wait_time < -1:
                logger.info(f"[WARN] Too far behind, resetting time base")
                self.start_time = current_time
                self.base_pts = frame_pts
            # else:
            #     logger.info(f"[WARN] frame ahead, no waiting")
        item = {
            "camera_id": self.camera_cfg.id,
@@ -171,8 +207,6 @@ class HLSFrameProcessor(threading.Thread):
                    pass
            self.raw_queue.put(item, timeout=0.5)
            # if self.pts_diff > 0:
            #     time.sleep(self.pts_diff/1000)
            return True
        except queue.Full:
@@ -204,12 +238,12 @@ class HLSFrameProcessor(threading.Thread):
                        consecutive_failures = 0
                        # 处理下一个分片
-                        logger.info(f"[INFO] Starting to process TS segment: {next_segment}")
+                        logger.info(f"[INFO] Starting to process TS segment: {os.path.basename(next_segment)}")
-                        self.current_segment_num += 1
+                        self.current_segment_path = next_segment
                        self.process_segment_with_rate_control(next_segment)
-                        logger.info(f"[INFO] Finished processing segment {self.current_segment_num}")
+                        logger.info(f"[INFO] Finished processing segment: {os.path.basename(next_segment)}")
                    else:
                        # 下一个分片不存在，根据连续失败次数调整等待时间
                        consecutive_failures += 1
@@ -287,8 +321,9 @@ class HLSFrameProcessor(threading.Thread):
 # ========================= 服务主类 =========================
 class HLSKadianService:
-    def __init__(self, cameras: list[CameraConfig], ws_host: str = "0.0.0.0", ws_port: int = 8765, algorithm: str = ""):
+    def __init__(self, cameras: list[CameraConfig], hls_root_path: str, ws_host: str = "0.0.0.0", ws_port: int = 8765, algorithm: str = ""):
        self.cameras = cameras
        self.hls_root_path = hls_root_path
        self.ws_host = ws_host
        self.ws_port = ws_port
        self.algorithm = algorithm
@@ -302,16 +337,19 @@ class HLSKadianService:
        self.ws_sender = WebSocketSender(self.ws_queue, self.stop_event, self.ws_host, self.ws_port)
    def start(self):
-        # 确保TS分片目录存在
+        # 确保HLS根目录存在
-        os.makedirs(HLS_SEGMENT_DIR, exist_ok=True)
+        os.makedirs(self.hls_root_path, exist_ok=True)
        self.ws_sender.start()
        self.biz_processor.start()
        # 为每个摄像头启动合并后的帧处理线程
        for cam in self.cameras:
            if not cam.index:
                logger.warning(f"[WARN] Camera {cam.name} has no index_code, skipping")
                continue
            # 启动合并后的帧处理线程（包含TS读取和帧率控制）
-            frame_processor = HLSFrameProcessor(cam, self.raw_queue, self.stop_event)
+            frame_processor = HLSFrameProcessor(cam, self.hls_root_path, self.raw_queue, self.stop_event)
            frame_processor.start()
            self.frame_processor_workers.append(frame_processor)
@@ -337,6 +375,7 @@ if __name__ == "__main__":
    parser.add_argument("--ws-host", type=str, default="0.0.0.0", help="WebSocket host")
    parser.add_argument("--ws-port", type=int, default=8765, help="WebSocket port")
    parser.add_argument("--algorithm", type=str, default="", help="Algorithm type")
    parser.add_argument("--hls-root-path", type=str, required=True, help="HLS root path for TS segments")
    args = parser.parse_args()
    # 初始化全局配置
@@ -354,7 +393,7 @@ if __name__ == "__main__":
        logger.error("[ERROR] No cameras configured, exiting...")
        sys.exit(1)
-    service = HLSKadianService(cameras, ws_host=args.ws_host, ws_port=args.ws_port, algorithm=args.algorithm)
+    service = HLSKadianService(cameras, hls_root_path=args.hls_root_path, ws_host=args.ws_host, ws_port=args.ws_port, algorithm=args.algorithm)
    service.start()
    try:
        while True:
--- a/main_start.py
+++ b/main_start.py
@@ -190,6 +190,10 @@ def start_service_group(group: dict, hls_config: dict = None):
        "--algorithm", algorithm
    ]
    # 如果是HLS类型，添加hls-root-path参数
    if video_source_type == "hls" and hls_config:
        cmd.extend(["--hls-root-path", hls_config.get("hls_root_path", "")])
    logger.info(f"[INFO] Starting service group '{group_name}': ws={ws_host}:{ws_port}, algorithm={algorithm}, source={video_source_type}")
    # DEBUG_MODE=True 时前台运行，方便调试；False 时后台运行，适合部署