mirror of
https://github.com/pacnpal/Pac-cogs.git
synced 2025-12-20 10:51:05 -05:00
772 lines
34 KiB
Python
772 lines
34 KiB
Python
import os
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import sys
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import platform
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import subprocess
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import logging
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import shutil
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import requests
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import zipfile
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import tarfile
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from pathlib import Path
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import stat
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import multiprocessing
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import ffmpeg
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import tempfile
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import json
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import time
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from typing import Dict, Optional, Tuple
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import contextlib
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logger = logging.getLogger("VideoArchiver")
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class FFmpegError(Exception):
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"""Base exception for FFmpeg-related errors"""
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pass
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class GPUError(FFmpegError):
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"""Raised when GPU operations fail"""
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pass
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class DownloadError(FFmpegError):
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"""Raised when FFmpeg download fails"""
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pass
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@contextlib.contextmanager
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def temp_path_context():
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"""Context manager for temporary path creation and cleanup"""
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temp_dir = tempfile.mkdtemp(prefix="ffmpeg_")
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try:
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os.chmod(temp_dir, stat.S_IRWXU)
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yield temp_dir
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finally:
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try:
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shutil.rmtree(temp_dir, ignore_errors=True)
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except Exception as e:
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logger.error(f"Error cleaning up temp directory {temp_dir}: {e}")
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class FFmpegManager:
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FFMPEG_URLS = {
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"Windows": {
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"x86_64": {
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"url": "https://github.com/BtbN/FFmpeg-Builds/releases/download/latest/ffmpeg-master-latest-win64-gpl.zip",
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"bin_name": "ffmpeg.exe",
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}
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},
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"Linux": {
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"x86_64": {
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"url": "https://github.com/BtbN/FFmpeg-Builds/releases/download/latest/ffmpeg-master-latest-linux64-gpl.tar.xz",
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"bin_name": "ffmpeg",
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},
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"aarch64": { # ARM64
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"url": "https://github.com/BtbN/FFmpeg-Builds/releases/download/latest/ffmpeg-master-latest-linuxarm64-gpl.tar.xz",
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"bin_name": "ffmpeg",
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},
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"armv7l": { # ARM32
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"url": "https://github.com/BtbN/FFmpeg-Builds/releases/download/latest/ffmpeg-master-latest-linuxarm32-gpl.tar.xz",
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"bin_name": "ffmpeg",
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},
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},
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"Darwin": { # macOS
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"x86_64": {
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"url": "https://evermeet.cx/ffmpeg/getrelease/zip",
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"bin_name": "ffmpeg",
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},
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"arm64": { # Apple Silicon
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"url": "https://evermeet.cx/ffmpeg/getrelease/zip",
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"bin_name": "ffmpeg",
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},
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},
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}
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MAX_RETRIES = 3
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RETRY_DELAY = 1 # seconds
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def __init__(self):
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self.base_path = Path(__file__).parent / "bin"
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self.base_path.mkdir(exist_ok=True)
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# Get system architecture
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self.system = platform.system()
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self.machine = platform.machine().lower()
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if self.machine == "arm64":
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self.machine = "aarch64" # Normalize ARM64 naming
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# Try to use system FFmpeg first
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system_ffmpeg = shutil.which("ffmpeg")
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if system_ffmpeg:
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self.ffmpeg_path = Path(system_ffmpeg)
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logger.info(f"Using system FFmpeg: {self.ffmpeg_path}")
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else:
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# Check for existing FFmpeg in our bin directory
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try:
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arch_config = self.FFMPEG_URLS[self.system][self.machine]
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self.ffmpeg_path = self.base_path / arch_config["bin_name"]
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if not self.ffmpeg_path.exists():
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# Only download if FFmpeg doesn't exist
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self._download_ffmpeg()
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if not self._verify_ffmpeg():
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raise FFmpegError("Downloaded FFmpeg binary is not functional")
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elif not self._verify_ffmpeg():
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logger.warning(
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"Existing FFmpeg binary not functional, downloading new copy"
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)
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self._download_ffmpeg()
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if not self._verify_ffmpeg():
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raise FFmpegError("Downloaded FFmpeg binary is not functional")
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except KeyError:
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raise FFmpegError(
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f"Unsupported system/architecture: {self.system}/{self.machine}"
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)
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self._gpu_info = self._detect_gpu()
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self._cpu_cores = multiprocessing.cpu_count()
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def _verify_ffmpeg(self) -> bool:
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"""Verify FFmpeg binary works"""
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for attempt in range(self.MAX_RETRIES):
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try:
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if not self.ffmpeg_path.exists():
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return False
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# Make binary executable on Unix systems
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if self.system != "Windows":
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try:
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self.ffmpeg_path.chmod(
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self.ffmpeg_path.stat().st_mode | stat.S_IEXEC
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)
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except Exception as e:
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logger.error(
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f"Failed to set FFmpeg executable permissions: {str(e)}"
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)
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return False
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# Test FFmpeg and check for required encoders
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result = subprocess.run(
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[str(self.ffmpeg_path), "-encoders"],
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stdout=subprocess.PIPE,
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stderr=subprocess.PIPE,
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timeout=5,
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)
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if result.returncode != 0:
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if attempt < self.MAX_RETRIES - 1:
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time.sleep(self.RETRY_DELAY)
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continue
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return False
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# Verify encoders are available
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encoders = result.stdout.decode()
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required_encoders = ["libx264"] # Base requirement
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if self._gpu_info["nvidia"]:
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required_encoders.append("h264_nvenc")
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if self._gpu_info["amd"]:
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required_encoders.append("h264_amf")
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if self._gpu_info["intel"]:
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required_encoders.append("h264_qsv")
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for encoder in required_encoders:
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if encoder not in encoders:
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logger.warning(f"Required encoder {encoder} not available")
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if encoder != "libx264": # Only warn for GPU encoders
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self._gpu_info[encoder.split('_')[1].replace('h264', '')] = False
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return True
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except Exception as e:
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logger.error(f"FFmpeg verification attempt {attempt + 1} failed: {str(e)}")
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if attempt < self.MAX_RETRIES - 1:
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time.sleep(self.RETRY_DELAY)
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else:
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return False
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return False
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def _detect_gpu(self) -> dict:
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"""Detect available GPU and its capabilities"""
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gpu_info = {"nvidia": False, "amd": False, "intel": False, "arm": False}
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try:
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if self.system == "Linux":
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# Check for NVIDIA GPU
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try:
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# First check for NVENC capability
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nvidia_smi = subprocess.run(
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["nvidia-smi", "-q", "-d", "ENCODER"],
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stdout=subprocess.PIPE,
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stderr=subprocess.PIPE,
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timeout=5,
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)
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if nvidia_smi.returncode == 0 and b"Encoder" in nvidia_smi.stdout:
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# Verify NVENC functionality
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test_cmd = [
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str(self.ffmpeg_path),
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"-f", "lavfi",
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"-i", "testsrc=duration=1:size=1280x720:rate=30",
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"-c:v", "h264_nvenc",
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"-f", "null",
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"-"
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]
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result = subprocess.run(test_cmd, stdout=subprocess.PIPE, stderr=subprocess.PIPE)
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if result.returncode == 0:
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gpu_info["nvidia"] = True
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except (subprocess.TimeoutExpired, FileNotFoundError):
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pass
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# Check for AMD GPU
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try:
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if os.path.exists("/dev/dri/renderD128"):
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with open("/sys/class/drm/renderD128/device/vendor", "r") as f:
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vendor = f.read().strip()
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if vendor == "0x1002": # AMD vendor ID
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# Verify AMF functionality
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test_cmd = [
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str(self.ffmpeg_path),
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"-f", "lavfi",
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"-i", "testsrc=duration=1:size=1280x720:rate=30",
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"-c:v", "h264_amf",
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"-f", "null",
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"-"
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]
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result = subprocess.run(test_cmd, stdout=subprocess.PIPE, stderr=subprocess.PIPE)
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if result.returncode == 0:
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gpu_info["amd"] = True
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except (IOError, OSError):
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pass
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# Check for Intel GPU
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try:
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lspci = subprocess.run(
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["lspci"],
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stdout=subprocess.PIPE,
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stderr=subprocess.PIPE,
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timeout=5,
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)
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output = lspci.stdout.decode().lower()
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if "intel" in output and ("vga" in output or "display" in output):
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# Verify QSV functionality
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test_cmd = [
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str(self.ffmpeg_path),
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"-f", "lavfi",
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"-i", "testsrc=duration=1:size=1280x720:rate=30",
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"-c:v", "h264_qsv",
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"-f", "null",
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"-"
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]
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result = subprocess.run(test_cmd, stdout=subprocess.PIPE, stderr=subprocess.PIPE)
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if result.returncode == 0:
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gpu_info["intel"] = True
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except (subprocess.TimeoutExpired, FileNotFoundError):
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pass
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# Check for ARM GPU
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if self.machine in ["aarch64", "armv7l"]:
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gpu_info["arm"] = True
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elif self.system == "Windows":
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try:
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# Use PowerShell to get GPU info
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ps_command = "Get-WmiObject Win32_VideoController | ConvertTo-Json"
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result = subprocess.run(
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["powershell", "-Command", ps_command],
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capture_output=True,
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text=True,
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timeout=10
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)
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if result.returncode == 0:
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gpu_data = json.loads(result.stdout)
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if not isinstance(gpu_data, list):
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gpu_data = [gpu_data]
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for gpu in gpu_data:
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name = gpu.get("Name", "").lower()
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if "nvidia" in name:
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# Verify NVENC
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test_cmd = [
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str(self.ffmpeg_path),
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"-f", "lavfi",
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"-i", "testsrc=duration=1:size=1280x720:rate=30",
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"-c:v", "h264_nvenc",
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"-f", "null",
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"-"
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]
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result = subprocess.run(test_cmd, stdout=subprocess.PIPE, stderr=subprocess.PIPE)
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if result.returncode == 0:
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gpu_info["nvidia"] = True
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if "amd" in name or "radeon" in name:
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# Verify AMF
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test_cmd = [
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str(self.ffmpeg_path),
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"-f", "lavfi",
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"-i", "testsrc=duration=1:size=1280x720:rate=30",
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"-c:v", "h264_amf",
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"-f", "null",
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"-"
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]
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result = subprocess.run(test_cmd, stdout=subprocess.PIPE, stderr=subprocess.PIPE)
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if result.returncode == 0:
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gpu_info["amd"] = True
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if "intel" in name:
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# Verify QSV
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test_cmd = [
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str(self.ffmpeg_path),
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"-f", "lavfi",
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"-i", "testsrc=duration=1:size=1280x720:rate=30",
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"-c:v", "h264_qsv",
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"-f", "null",
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"-"
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]
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result = subprocess.run(test_cmd, stdout=subprocess.PIPE, stderr=subprocess.PIPE)
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if result.returncode == 0:
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gpu_info["intel"] = True
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except Exception:
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# Fallback to dxdiag if PowerShell method fails
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with temp_path_context() as temp_dir:
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temp_path = os.path.join(temp_dir, "dxdiag.txt")
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try:
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subprocess.run(
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["dxdiag", "/t", temp_path],
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stdout=subprocess.PIPE,
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stderr=subprocess.PIPE,
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timeout=10,
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)
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if os.path.exists(temp_path):
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with open(temp_path, "r", errors="ignore") as f:
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content = f.read().lower()
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# Only set GPU flags if we can verify encoder functionality
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if "nvidia" in content:
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test_cmd = [
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str(self.ffmpeg_path),
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"-f", "lavfi",
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"-i", "testsrc=duration=1:size=1280x720:rate=30",
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"-c:v", "h264_nvenc",
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"-f", "null",
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"-"
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]
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result = subprocess.run(test_cmd, stdout=subprocess.PIPE, stderr=subprocess.PIPE)
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if result.returncode == 0:
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gpu_info["nvidia"] = True
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if "amd" in content or "radeon" in content:
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test_cmd = [
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str(self.ffmpeg_path),
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"-f", "lavfi",
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"-i", "testsrc=duration=1:size=1280x720:rate=30",
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"-c:v", "h264_amf",
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"-f", "null",
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"-"
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]
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result = subprocess.run(test_cmd, stdout=subprocess.PIPE, stderr=subprocess.PIPE)
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if result.returncode == 0:
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gpu_info["amd"] = True
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if "intel" in content:
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test_cmd = [
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str(self.ffmpeg_path),
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"-f", "lavfi",
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"-i", "testsrc=duration=1:size=1280x720:rate=30",
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"-c:v", "h264_qsv",
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"-f", "null",
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"-"
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]
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result = subprocess.run(test_cmd, stdout=subprocess.PIPE, stderr=subprocess.PIPE)
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if result.returncode == 0:
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gpu_info["intel"] = True
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except Exception as e:
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logger.error(f"Error during dxdiag GPU detection: {str(e)}")
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except Exception as e:
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logger.warning(f"GPU detection failed: {str(e)}")
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return gpu_info
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def _analyze_video(self, input_path: str) -> dict:
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"""Analyze video content for optimal encoding settings"""
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try:
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probe = ffmpeg.probe(input_path)
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video_info = next(s for s in probe['streams'] if s['codec_type'] == 'video')
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# Get video properties
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width = int(video_info.get('width', 0))
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height = int(video_info.get('height', 0))
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fps = eval(video_info.get('r_frame_rate', '30/1'))
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duration = float(probe['format'].get('duration', 0))
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bitrate = float(probe['format'].get('bit_rate', 0))
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# Advanced analysis
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has_high_motion = False
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has_dark_scenes = False
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has_complex_scenes = False
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# Analyze frame statistics if available
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if video_info.get('avg_frame_rate'):
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avg_fps = eval(video_info['avg_frame_rate'])
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if abs(avg_fps - fps) > 5: # Significant frame rate variation
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has_high_motion = True
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# Check for dark scenes and complexity
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try:
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# Sample frames for analysis
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with temp_path_context() as temp_dir:
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frames_file = os.path.join(temp_dir, "frames.txt")
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sample_cmd = [
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str(self.ffmpeg_path),
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"-i", input_path,
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"-vf", "select='eq(pict_type,I)',signalstats",
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"-show_entries", "frame_tags=lavfi.signalstats.YAVG",
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"-f", "null", "-"
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]
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result = subprocess.run(sample_cmd, capture_output=True, text=True)
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# Analyze brightness levels
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dark_frames = 0
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total_frames = 0
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for line in result.stderr.split('\n'):
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if 'YAVG' in line:
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avg_brightness = float(line.split('=')[1])
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if avg_brightness < 40: # Dark scene threshold
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dark_frames += 1
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total_frames += 1
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if total_frames > 0 and (dark_frames / total_frames) > 0.2:
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has_dark_scenes = True
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except Exception as e:
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logger.warning(f"Advanced scene analysis failed: {str(e)}")
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# Get audio properties
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audio_info = next((s for s in probe['streams'] if s['codec_type'] == 'audio'), None)
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audio_bitrate = 0
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audio_channels = 2
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audio_sample_rate = 48000
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if audio_info:
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audio_bitrate = int(audio_info.get('bit_rate', 0))
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audio_channels = int(audio_info.get('channels', 2))
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audio_sample_rate = int(audio_info.get('sample_rate', 48000))
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return {
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'width': width,
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'height': height,
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'fps': fps,
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'duration': duration,
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'bitrate': bitrate,
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'has_high_motion': has_high_motion,
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'has_dark_scenes': has_dark_scenes,
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'has_complex_scenes': has_complex_scenes,
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'audio_bitrate': audio_bitrate,
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'audio_channels': audio_channels,
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'audio_sample_rate': audio_sample_rate
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}
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except Exception as e:
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logger.error(f"Error analyzing video: {str(e)}")
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return {}
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def _get_optimal_ffmpeg_params(
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self, input_path: str, target_size_bytes: int
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) -> dict:
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"""Get optimal FFmpeg parameters based on hardware and video analysis"""
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# Analyze video content
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video_info = self._analyze_video(input_path)
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# Base parameters
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params = {
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"c:v": "libx264", # Default to CPU encoding
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"threads": str(self._cpu_cores), # Use all CPU cores
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"preset": "medium",
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"crf": "23", # Default quality
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"maxrate": None,
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"bufsize": None,
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"movflags": "+faststart", # Optimize for web playback
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"profile:v": "high", # High profile for better quality
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"level": "4.1", # Compatibility level
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"pix_fmt": "yuv420p", # Standard pixel format
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}
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# Add advanced encoding parameters
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params.update({
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"x264opts": "rc-lookahead=60:me=umh:subme=7:ref=4:b-adapt=2:direct=auto",
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"tune": "film", # General-purpose tuning
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"fastfirstpass": "1", # Fast first pass for two-pass encoding
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})
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# Adjust for content type
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if video_info.get('has_high_motion'):
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params.update({
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"tune": "grain", # Better for high motion
|
|
"x264opts": params["x264opts"] + ":deblock=-1,-1:psy-rd=1.0:aq-strength=0.8"
|
|
})
|
|
|
|
if video_info.get('has_dark_scenes'):
|
|
# Optimize for dark scenes
|
|
params.update({
|
|
"x264opts": params["x264opts"] + ":aq-mode=3:aq-strength=1.0:deblock=1:1",
|
|
"tune": "film" if not video_info.get('has_high_motion') else "grain"
|
|
})
|
|
|
|
# GPU-specific optimizations with fallback
|
|
if self._gpu_info["nvidia"]:
|
|
try:
|
|
params.update({
|
|
"c:v": "h264_nvenc",
|
|
"preset": "p7", # Highest quality NVENC preset
|
|
"rc:v": "vbr", # Variable bitrate
|
|
"cq:v": "19", # Quality level
|
|
"b_ref_mode": "middle",
|
|
"spatial-aq": "1",
|
|
"temporal-aq": "1",
|
|
"rc-lookahead": "32",
|
|
"surfaces": "64",
|
|
"max_muxing_queue_size": "1024",
|
|
"gpu": "any", # Allow any available GPU
|
|
})
|
|
|
|
# Test NVENC configuration
|
|
test_cmd = [
|
|
str(self.ffmpeg_path),
|
|
"-f", "lavfi",
|
|
"-i", "testsrc=duration=1:size=1280x720:rate=30",
|
|
"-c:v", "h264_nvenc"
|
|
] + [f"-{k}" if len(k) == 1 else f"-{k}" if not v else f"-{k}" f" {v}" for k, v in params.items() if k != "c:v"] + [
|
|
"-f", "null",
|
|
"-"
|
|
]
|
|
result = subprocess.run(test_cmd, capture_output=True)
|
|
if result.returncode != 0:
|
|
raise GPUError("NVENC test failed")
|
|
|
|
except Exception as e:
|
|
logger.error(f"NVENC initialization failed, falling back to CPU: {str(e)}")
|
|
self._gpu_info["nvidia"] = False
|
|
params["c:v"] = "libx264" # Fallback to CPU
|
|
|
|
elif self._gpu_info["amd"]:
|
|
try:
|
|
params.update({
|
|
"c:v": "h264_amf",
|
|
"quality": "quality",
|
|
"rc": "vbr_peak",
|
|
"enforce_hrd": "1",
|
|
"vbaq": "1",
|
|
"preanalysis": "1",
|
|
"max_muxing_queue_size": "1024",
|
|
})
|
|
|
|
# Test AMF configuration
|
|
test_cmd = [
|
|
str(self.ffmpeg_path),
|
|
"-f", "lavfi",
|
|
"-i", "testsrc=duration=1:size=1280x720:rate=30",
|
|
"-c:v", "h264_amf"
|
|
] + [f"-{k}" if len(k) == 1 else f"-{k}" if not v else f"-{k}" f" {v}" for k, v in params.items() if k != "c:v"] + [
|
|
"-f", "null",
|
|
"-"
|
|
]
|
|
result = subprocess.run(test_cmd, capture_output=True)
|
|
if result.returncode != 0:
|
|
raise GPUError("AMF test failed")
|
|
|
|
except Exception as e:
|
|
logger.error(f"AMF initialization failed, falling back to CPU: {str(e)}")
|
|
self._gpu_info["amd"] = False
|
|
params["c:v"] = "libx264" # Fallback to CPU
|
|
|
|
elif self._gpu_info["intel"]:
|
|
try:
|
|
params.update({
|
|
"c:v": "h264_qsv",
|
|
"preset": "veryslow",
|
|
"look_ahead": "1",
|
|
"global_quality": "23",
|
|
"max_muxing_queue_size": "1024",
|
|
})
|
|
|
|
# Test QSV configuration
|
|
test_cmd = [
|
|
str(self.ffmpeg_path),
|
|
"-f", "lavfi",
|
|
"-i", "testsrc=duration=1:size=1280x720:rate=30",
|
|
"-c:v", "h264_qsv"
|
|
] + [f"-{k}" if len(k) == 1 else f"-{k}" if not v else f"-{k}" f" {v}" for k, v in params.items() if k != "c:v"] + [
|
|
"-f", "null",
|
|
"-"
|
|
]
|
|
result = subprocess.run(test_cmd, capture_output=True)
|
|
if result.returncode != 0:
|
|
raise GPUError("QSV test failed")
|
|
|
|
except Exception as e:
|
|
logger.error(f"QSV initialization failed, falling back to CPU: {str(e)}")
|
|
self._gpu_info["intel"] = False
|
|
params["c:v"] = "libx264" # Fallback to CPU
|
|
|
|
try:
|
|
# Calculate target bitrate
|
|
input_size = os.path.getsize(input_path)
|
|
duration = video_info.get('duration', 0)
|
|
|
|
if duration > 0 and input_size > target_size_bytes:
|
|
# Reserve 5% for container overhead
|
|
video_size_target = int(target_size_bytes * 0.95)
|
|
|
|
# Calculate optimal audio bitrate
|
|
total_bitrate = (video_size_target * 8) / duration
|
|
|
|
# Determine audio quality based on content
|
|
audio_channels = video_info.get('audio_channels', 2)
|
|
min_audio_bitrate = 64000 * audio_channels # Minimum per channel
|
|
max_audio_bitrate = 192000 * audio_channels # Maximum per channel
|
|
|
|
# Allocate 10-20% for audio depending on content
|
|
audio_bitrate = min(
|
|
max_audio_bitrate,
|
|
max(
|
|
min_audio_bitrate,
|
|
int(total_bitrate * 0.15) # 15% baseline
|
|
)
|
|
)
|
|
|
|
# Remaining bitrate for video
|
|
video_bitrate = int((video_size_target * 8) / duration - audio_bitrate)
|
|
|
|
# Set bitrate constraints
|
|
params["maxrate"] = str(int(video_bitrate * 1.5)) # Allow 50% overflow
|
|
params["bufsize"] = str(int(video_bitrate * 2)) # Double buffer size
|
|
|
|
# Adjust quality based on compression ratio and content
|
|
ratio = input_size / target_size_bytes
|
|
if ratio > 4:
|
|
params["crf"] = "26" if params["c:v"] == "libx264" else "23"
|
|
params["preset"] = "faster"
|
|
elif ratio > 2:
|
|
params["crf"] = "23" if params["c:v"] == "libx264" else "21"
|
|
params["preset"] = "medium"
|
|
else:
|
|
params["crf"] = "20" if params["c:v"] == "libx264" else "19"
|
|
params["preset"] = "slow"
|
|
|
|
# Adjust for dark scenes
|
|
if video_info.get('has_dark_scenes'):
|
|
if params["c:v"] == "libx264":
|
|
params["crf"] = str(max(18, int(params["crf"]) - 2)) # Better quality for dark scenes
|
|
elif params["c:v"] == "h264_nvenc":
|
|
params["cq:v"] = str(max(15, int(params["cq:v"]) - 2))
|
|
|
|
# Audio settings
|
|
params.update({
|
|
"c:a": "aac",
|
|
"b:a": f"{int(audio_bitrate/1000)}k",
|
|
"ar": str(video_info.get('audio_sample_rate', 48000)),
|
|
"ac": str(video_info.get('audio_channels', 2)),
|
|
})
|
|
|
|
except Exception as e:
|
|
logger.error(f"Error calculating bitrates: {str(e)}")
|
|
# Use safe default parameters
|
|
params.update({
|
|
"crf": "23",
|
|
"preset": "medium",
|
|
"maxrate": f"{2 * 1024 * 1024}", # 2 Mbps
|
|
"bufsize": f"{4 * 1024 * 1024}", # 4 Mbps buffer
|
|
"c:a": "aac",
|
|
"b:a": "128k",
|
|
"ar": "48000",
|
|
"ac": "2",
|
|
})
|
|
|
|
return params
|
|
|
|
def _download_ffmpeg(self):
|
|
"""Download and extract FFmpeg binary"""
|
|
try:
|
|
arch_config = self.FFMPEG_URLS[self.system][self.machine]
|
|
except KeyError:
|
|
raise DownloadError(
|
|
f"Unsupported system/architecture: {self.system}/{self.machine}"
|
|
)
|
|
|
|
url = arch_config["url"]
|
|
|
|
with temp_path_context() as temp_dir:
|
|
archive_path = Path(temp_dir) / f"ffmpeg_archive{'.zip' if self.system == 'Windows' else '.tar.xz'}"
|
|
|
|
try:
|
|
# Download archive with retries
|
|
for attempt in range(self.MAX_RETRIES):
|
|
try:
|
|
response = requests.get(url, stream=True, timeout=30)
|
|
response.raise_for_status()
|
|
with open(archive_path, "wb") as f:
|
|
for chunk in response.iter_content(chunk_size=8192):
|
|
f.write(chunk)
|
|
break
|
|
except Exception as e:
|
|
if attempt == self.MAX_RETRIES - 1:
|
|
raise DownloadError(f"Failed to download FFmpeg: {str(e)}")
|
|
time.sleep(self.RETRY_DELAY)
|
|
|
|
# Remove existing ffmpeg if it exists (handle both file and directory)
|
|
if self.ffmpeg_path.exists():
|
|
if self.ffmpeg_path.is_dir():
|
|
shutil.rmtree(self.ffmpeg_path)
|
|
else:
|
|
self.ffmpeg_path.unlink()
|
|
|
|
# Extract archive
|
|
if self.system == "Windows":
|
|
with zipfile.ZipFile(archive_path, "r") as zip_ref:
|
|
ffmpeg_files = [
|
|
f for f in zip_ref.namelist() if arch_config["bin_name"] in f
|
|
]
|
|
if not ffmpeg_files:
|
|
raise DownloadError("FFmpeg binary not found in archive")
|
|
zip_ref.extract(ffmpeg_files[0], self.base_path)
|
|
os.rename(self.base_path / ffmpeg_files[0], self.ffmpeg_path)
|
|
else:
|
|
with tarfile.open(archive_path, "r:xz") as tar_ref:
|
|
ffmpeg_files = [
|
|
f for f in tar_ref.getnames() if arch_config["bin_name"] in f
|
|
]
|
|
if not ffmpeg_files:
|
|
raise DownloadError("FFmpeg binary not found in archive")
|
|
tar_ref.extract(ffmpeg_files[0], self.base_path)
|
|
os.rename(self.base_path / ffmpeg_files[0], self.ffmpeg_path)
|
|
|
|
# Set executable permissions on Unix systems
|
|
if self.system != "Windows":
|
|
try:
|
|
self.ffmpeg_path.chmod(
|
|
self.ffmpeg_path.stat().st_mode | stat.S_IEXEC
|
|
)
|
|
except Exception as e:
|
|
logger.error(f"Failed to set executable permissions: {str(e)}")
|
|
|
|
except Exception as e:
|
|
logger.error(f"FFmpeg download/extraction failed: {str(e)}")
|
|
raise DownloadError(str(e))
|
|
|
|
def force_download(self) -> bool:
|
|
"""Force re-download of FFmpeg binary"""
|
|
try:
|
|
# Remove existing binary if it exists
|
|
if self.ffmpeg_path.exists():
|
|
try:
|
|
self.ffmpeg_path.unlink()
|
|
except Exception as e:
|
|
logger.error(f"Failed to remove existing FFmpeg: {str(e)}")
|
|
return False
|
|
|
|
# Download new binary
|
|
self._download_ffmpeg()
|
|
|
|
# Verify new binary
|
|
return self._verify_ffmpeg()
|
|
except Exception as e:
|
|
logger.error(f"Failed to force download FFmpeg: {str(e)}")
|
|
return False
|
|
|
|
def get_ffmpeg_path(self) -> str:
|
|
"""Get path to FFmpeg binary"""
|
|
if not self.ffmpeg_path.exists():
|
|
raise FFmpegError("FFmpeg is not available")
|
|
return str(self.ffmpeg_path)
|
|
|
|
def get_compression_params(self, input_path: str, target_size_mb: int) -> dict:
|
|
"""Get optimal compression parameters for the given input file"""
|
|
return self._get_optimal_ffmpeg_params(input_path, target_size_mb * 1024 * 1024)
|