lbry-sdk/lbry/file_analysis.py

import asyncio
import json
import logging
import os
import pathlib
import platform
import re
import shlex
import shutil
import subprocess

import lbry.utils
from lbry.conf import TranscodeConfig

log = logging.getLogger(__name__)


class VideoFileAnalyzer:

    def _replace_or_pop_env(self, variable):
        if variable + '_ORIG' in self._env_copy:
            self._env_copy[variable] = self._env_copy[variable + '_ORIG']
        else:
            self._env_copy.pop(variable, None)

    def __init__(self, conf: TranscodeConfig):
        self._conf = conf
        self._available_encoders = ""
        self._ffmpeg_installed = None
        self._which_ffmpeg = None
        self._which_ffprobe = None
        self._env_copy = dict(os.environ)
        if lbry.utils.is_running_from_bundle():
            # handle the situation where PyInstaller overrides our runtime environment:
            self._replace_or_pop_env('LD_LIBRARY_PATH')

    @staticmethod
    def _execute(command, environment):
        # log.debug("Executing: %s", command)
        try:
            with subprocess.Popen(
                    shlex.split(command) if platform.system() != 'Windows' else command,
                    stdout=subprocess.PIPE, stderr=subprocess.PIPE, env=environment
            ) as process:
                (stdout, stderr) = process.communicate()  # blocks until the process exits
                return stdout.decode(errors='replace') + stderr.decode(errors='replace'), process.returncode
        except subprocess.SubprocessError as e:
            return str(e), -1

    # This create_subprocess_exec call is broken in Windows Python 3.7, but it's prettier than what's here.
    # The recommended fix is switching to ProactorEventLoop, but that breaks UDP in Linux Python 3.7.
    # We work around that issue here by using run_in_executor. Check it again in Python 3.8.
    async def _execute_ffmpeg(self, arguments):
        arguments = self._which_ffmpeg + " " + arguments
        return await asyncio.get_event_loop().run_in_executor(None, self._execute, arguments, self._env_copy)

    async def _execute_ffprobe(self, arguments):
        arguments = self._which_ffprobe + " " + arguments
        return await asyncio.get_event_loop().run_in_executor(None, self._execute, arguments, self._env_copy)

    async def _verify_executables(self):
        try:
            await self._execute_ffprobe("-version")
            version, code = await self._execute_ffmpeg("-version")
        except Exception as e:
            code = -1
            version = str(e)
        if code != 0 or not version.startswith("ffmpeg"):
            log.warning("Unable to run ffmpeg, but it was requested. Code: %d; Message: %s", code, version)
            raise FileNotFoundError(f"Unable to locate or run ffmpeg or ffprobe. Please install FFmpeg "
                                    f"and ensure that it is callable via PATH or conf.ffmpeg_path")
        log.debug("Using %s at %s", version.splitlines()[0].split(" Copyright")[0], self._which_ffmpeg)
        return version

    async def _verify_ffmpeg_installed(self):
        if self._ffmpeg_installed:
            return
        self._ffmpeg_installed = False
        path = self._conf.ffmpeg_path
        if hasattr(self._conf, "data_dir"):
            path += os.path.pathsep + os.path.join(getattr(self._conf, "data_dir"), "ffmpeg", "bin")
        path += os.path.pathsep + self._env_copy.get("PATH", "")

        self._which_ffmpeg = shutil.which("ffmpeg", path=path)
        if not self._which_ffmpeg:
            log.warning("Unable to locate ffmpeg executable. Path: %s", path)
            raise FileNotFoundError(f"Unable to locate ffmpeg executable. Path: {path}")
        self._which_ffprobe = shutil.which("ffprobe", path=path)
        if not self._which_ffprobe:
            log.warning("Unable to locate ffprobe executable. Path: %s", path)
            raise FileNotFoundError(f"Unable to locate ffprobe executable. Path: {path}")
        if os.path.dirname(self._which_ffmpeg) != os.path.dirname(self._which_ffprobe):
            log.warning("ffmpeg and ffprobe are in different folders!")
        await self._verify_executables()
        self._ffmpeg_installed = True

    async def status(self, reset=False):
        if reset:
            self._available_encoders = ""
            self._ffmpeg_installed = None
        if self._ffmpeg_installed is None:
            try:
                await self._verify_ffmpeg_installed()
            except FileNotFoundError:
                pass
        return {
            "available": self._ffmpeg_installed,
            "which": self._which_ffmpeg,
            "analyze_audio_volume": int(self._conf.volume_analysis_time) > 0
        }

    @staticmethod
    def _verify_container(scan_data: json):
        container = scan_data["format"]["format_name"]
        log.debug("   Detected container is %s", container)
        if not {"webm", "mp4", "3gp", "ogg"}.intersection(container.split(",")):
            return "Container format is not in the approved list of WebM, MP4. " \
                   f"Actual: {container} [{scan_data['format']['format_long_name']}]"
        return ""

    @staticmethod
    def _verify_video_encoding(scan_data: json):
        for stream in scan_data["streams"]:
            if stream["codec_type"] != "video":
                continue
            codec = stream["codec_name"]
            log.debug("   Detected video codec is %s, format is %s", codec, stream["pix_fmt"])
            if not {"h264", "vp8", "vp9", "av1", "theora"}.intersection(codec.split(",")):
                return "Video codec is not in the approved list of H264, VP8, VP9, AV1, Theora. " \
                       f"Actual: {codec} [{stream['codec_long_name']}]"

            if "h264" in codec.split(",") and stream["pix_fmt"] != "yuv420p":
                return "Video codec is H264, but its pixel format does not match the approved yuv420p. " \
                       f"Actual: {stream['pix_fmt']}"

        return ""

    def _verify_bitrate(self, scan_data: json, file_path):
        bit_rate_max = float(self._conf.video_bitrate_maximum)
        if bit_rate_max <= 0:
            return ""

        if "bit_rate" in scan_data["format"]:
            bit_rate = float(scan_data["format"]["bit_rate"])
        else:
            bit_rate = os.stat(file_path).st_size / float(scan_data["format"]["duration"])
        log.debug("   Detected bitrate is %s Mbps. Allowed max: %s Mbps",
                  str(bit_rate / 1000000.0), str(bit_rate_max / 1000000.0))

        if bit_rate > bit_rate_max:
            return "The bit rate is above the configured maximum. Actual: " \
                   f"{bit_rate / 1000000.0} Mbps; Allowed max: {bit_rate_max / 1000000.0} Mbps"

        return ""

    async def _verify_fast_start(self, scan_data: json, video_file):
        container = scan_data["format"]["format_name"]
        if {"webm", "ogg"}.intersection(container.split(",")):
            return ""

        result, _ = await self._execute_ffprobe(f'-v debug "{video_file}"')
        match = re.search(r"Before avformat_find_stream_info.+?\s+seeks:(\d+)\s+", result)
        if match and int(match.group(1)) != 0:
            return "Video stream descriptors are not at the start of the file (the faststart flag was not used)."
        return ""

    @staticmethod
    def _verify_audio_encoding(scan_data: json):
        for stream in scan_data["streams"]:
            if stream["codec_type"] != "audio":
                continue
            codec = stream["codec_name"]
            log.debug("   Detected audio codec is %s", codec)
            if not {"aac", "mp3", "flac", "vorbis", "opus"}.intersection(codec.split(",")):
                return "Audio codec is not in the approved list of AAC, FLAC, MP3, Vorbis, and Opus. " \
                       f"Actual: {codec} [{stream['codec_long_name']}]"

        return ""

    async def _verify_audio_volume(self, seconds, video_file):
        try:
            validate_volume = int(seconds) > 0
        except ValueError:
            validate_volume = False

        if not validate_volume:
            return ""

        result, _ = await self._execute_ffmpeg(f'-i "{video_file}" -t {seconds} '
                                               f'-af volumedetect -vn -sn -dn -f null "{os.devnull}"')
        try:
            mean_volume = float(re.search(r"mean_volume:\s+([-+]?\d*\.\d+|\d+)", result).group(1))
            max_volume = float(re.search(r"max_volume:\s+([-+]?\d*\.\d+|\d+)", result).group(1))
        except Exception as e:
            log.debug("   Failure in volume analysis. Message: %s", str(e))
            return ""

        if max_volume < -5.0 and mean_volume < -22.0:
            return "Audio is at least five dB lower than prime. " \
                   f"Actual max: {max_volume}, mean: {mean_volume}"

        log.debug("   Detected audio volume has mean, max of %f, %f dB", mean_volume, max_volume)

        return ""

    @staticmethod
    def _compute_crf(scan_data):
        height = 240.0
        for stream in scan_data["streams"]:
            if stream["codec_type"] == "video":
                height = max(height, float(stream["height"]))

        # https://developers.google.com/media/vp9/settings/vod/
        return int(-0.011 * height + 40)

    def _get_video_scaler(self):
        return self._conf.video_scaler

    async def _get_video_encoder(self, scan_data):
        # use what the user said if it's there:
        # if it's not there, use h264 if we can because it's way faster than the others
        # if we don't have h264 use vp9; it's fairly compatible even though it's slow

        if not self._available_encoders:
            self._available_encoders, _ = await self._execute_ffmpeg("-encoders -v quiet")

        encoder = self._conf.video_encoder.split(" ", 1)[0]
        if re.search(fr"^\s*V..... {encoder} ", self._available_encoders, re.MULTILINE):
            return self._conf.video_encoder

        if re.search(r"^\s*V..... libx264 ", self._available_encoders, re.MULTILINE):
            if encoder:
                log.warning("   Using libx264 since the requested encoder was unavailable. Requested: %s", encoder)
            return 'libx264 -crf 19 -vf "format=yuv420p"'

        if not encoder:
            encoder = "libx264"

        if re.search(r"^\s*V..... libvpx-vp9 ", self._available_encoders, re.MULTILINE):
            log.warning("   Using libvpx-vp9 since the requested encoder was unavailable. Requested: %s", encoder)
            crf = self._compute_crf(scan_data)
            return f"libvpx-vp9 -crf {crf} -b:v 0"

        if re.search(r"^\s*V..... libtheora", self._available_encoders, re.MULTILINE):
            log.warning("   Using libtheora since the requested encoder was unavailable. Requested: %s", encoder)
            return "libtheora -q:v 7"

        raise Exception(f"The video encoder is not available. Requested: {encoder}")

    async def _get_audio_encoder(self, extension):
        # if the video encoding is theora or av1/vp8/vp9 use opus (or fallback to vorbis)
        # or we don't have a video encoding but we have an ogg or webm container use opus
        # if we need to use opus/vorbis see if the conf file has it else use our own params
        # else use the user-set value if it exists
        # else use aac

        wants_opus = extension != "mp4"
        if not self._available_encoders:
            self._available_encoders, _ = await self._execute_ffmpeg("-encoders -v quiet")

        encoder = self._conf.audio_encoder.split(" ", 1)[0]
        if wants_opus and 'opus' in encoder:
            return self._conf.audio_encoder

        if wants_opus and re.search(r"^\s*A..... libopus ", self._available_encoders, re.MULTILINE):
            return "libopus -b:a 160k"

        if wants_opus and 'vorbis' in encoder:
            return self._conf.audio_encoder

        if wants_opus and re.search(r"^\s*A..... libvorbis ", self._available_encoders, re.MULTILINE):
            return "libvorbis -q:a 6"

        if re.search(fr"^\s*A..... {encoder} ", self._available_encoders, re.MULTILINE):
            return self._conf.audio_encoder

        if re.search(r"^\s*A..... aac ", self._available_encoders, re.MULTILINE):
            return "aac -b:a 192k"

        raise Exception(f"The audio encoder is not available. Requested: {encoder or 'aac'}")

    async def _get_volume_filter(self):
        return self._conf.volume_filter if self._conf.volume_filter else "-af loudnorm"

    @staticmethod
    def _get_best_container_extension(scan_data, video_encoder):
        # the container is chosen by the video format
        # if we are theora-encoded, we want ogg
        # if we are vp8/vp9/av1 we want webm
        # use mp4 for anything else

        if not video_encoder:  # not re-encoding video
            for stream in scan_data["streams"]:
                if stream["codec_type"] != "video":
                    continue
                codec = stream["codec_name"].split(",")
                if "theora" in codec:
                    return "ogv"
                if {"vp8", "vp9", "av1"}.intersection(codec):
                    return "webm"

        if "theora" in video_encoder:
            return "ogv"
        elif re.search(r"vp[89x]|av1", video_encoder.split(" ", 1)[0]):
            return "webm"
        return "mp4"

    async def _get_scan_data(self, validate, file_path):
        arguments = f'-v quiet -print_format json -show_format -show_streams "{file_path}"'
        result, _ = await self._execute_ffprobe(arguments)
        try:
            scan_data = json.loads(result)
        except Exception as e:
            log.debug("Failure in JSON parsing ffprobe results. Message: %s", str(e))
            raise ValueError(f'Absent or unreadable video file: {file_path}')

        if "format" not in scan_data or "duration" not in scan_data["format"]:
            log.debug("Format data is missing from ffprobe results for: %s", file_path)
            raise ValueError(f'Media file does not appear to contain video content: {file_path}')

        if float(scan_data["format"]["duration"]) < 0.1:
            log.debug("Media file appears to be an image: %s", file_path)
            raise ValueError(f'Assuming image file at: {file_path}')

        return scan_data

    async def verify_or_repair(self, validate, repair, file_path, ignore_non_video=False):
        if not validate and not repair:
            return file_path

        if ignore_non_video and not file_path:
            return file_path

        await self._verify_ffmpeg_installed()
        try:
            scan_data = await self._get_scan_data(validate, file_path)
        except ValueError:
            if ignore_non_video:
                return file_path
            raise

        fast_start_msg = await self._verify_fast_start(scan_data, file_path)
        log.debug("Analyzing %s:", file_path)
        log.debug("   Detected faststart is %s", "false" if fast_start_msg else "true")
        container_msg = self._verify_container(scan_data)
        bitrate_msg = self._verify_bitrate(scan_data, file_path)
        video_msg = self._verify_video_encoding(scan_data)
        audio_msg = self._verify_audio_encoding(scan_data)
        volume_msg = await self._verify_audio_volume(self._conf.volume_analysis_time, file_path)
        messages = [container_msg, bitrate_msg, fast_start_msg, video_msg, audio_msg, volume_msg]

        if not any(messages):
            return file_path

        if not repair:
            errors = ["Streamability verification failed:"]
            errors.extend(filter(None, messages))
            raise Exception("\n   ".join(errors))

        # the plan for transcoding:
        # we have to re-encode the video if it is in a nonstandard format
        # we also re-encode if we are h264 but not yuv420p (both errors caught in video_msg)
        # we also re-encode if our bitrate is too high

        try:
            transcode_command = [f'-i "{file_path}" -y -c:s copy -c:d copy -c:v']

            video_encoder = ""
            if video_msg or bitrate_msg:
                video_encoder = await self._get_video_encoder(scan_data)
                transcode_command.append(video_encoder)
                # could do the scaling only if bitrate_msg, but if we're going to the effort to re-encode anyway...
                transcode_command.append(self._get_video_scaler())
            else:
                transcode_command.append("copy")

            transcode_command.append("-movflags +faststart -c:a")
            extension = self._get_best_container_extension(scan_data, video_encoder)

            if audio_msg or volume_msg:
                audio_encoder = await self._get_audio_encoder(extension)
                transcode_command.append(audio_encoder)
                if volume_msg:
                    volume_filter = await self._get_volume_filter()
                    transcode_command.append(volume_filter)
            else:
                transcode_command.append("copy")

            # TODO: put it in a temp folder and delete it after we upload?
            path = pathlib.Path(file_path)
            output = path.parent / f"{path.stem}_fixed.{extension}"
            transcode_command.append(f'"{output}"')

            ffmpeg_command = " ".join(transcode_command)
            log.info("Proceeding on transcode via: ffmpeg %s", ffmpeg_command)
            result, code = await self._execute_ffmpeg(ffmpeg_command)
            if code != 0:
                raise Exception(f"Failure to complete the transcode command. Output: {result}")
        except Exception as e:
            if validate:
                raise
            log.info("Unable to transcode %s . Message: %s", file_path, str(e))
            # TODO: delete partial output file here if it exists?
            return file_path

        return str(output)