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• ffmpeg Command in Docker with Rust Tokio Closes Warp Server Connection (curl 52 Error)

  3 juin 2024, par user762345

  I’m encountering an issue where executing an ffmpeg concatenation command through Rust’s Tokio process in a Docker container causes subsequent HTTP requests to fail. The error occurs exclusively after running the ffmpeg command and making immediate requests, resulting in a “curl 52 empty response from server” error with the connection being closed. Notably, this issue does not occur when running the same setup outside of Docker. Additionally, if no HTTP requests are made after the ffmpeg command, the curl 52 error does not occur.

  


  Here is the verbose curl output of my minimum reproducible example (see below).

  


  curl -v "http://localhost:3030"
*   Trying 127.0.0.1:3030...
* Connected to localhost (127.0.0.1) port 3030 (#0)
> GET / HTTP/1.1
> Host: localhost:3030
> User-Agent: curl/8.1.2
> Accept: */*
> 
* Empty reply from server
* Closing connection 0
curl: (52) Empty reply from server


  


  Here are Docker logs from my minimum reproducible example (see below). The wav files are concatenated successfully, then the container appears to rebuild.

  


  [2024-06-03T05:26:58Z INFO  minimal_docker_webserver_post_error] Starting server on 0.0.0.0:3030
[2024-06-03T05:26:58Z INFO  warp::server] Server::run; addr=0.0.0.0:3030
[2024-06-03T05:26:58Z INFO  warp::server] listening on http://0.0.0.0:3030
[2024-06-03T05:27:07Z INFO  minimal_docker_webserver_post_error] WAV files concatenated successfully
[Running 'cargo run']
    Finished `dev` profile [unoptimized + debuginfo] target(s) in 0.06s
     Running `target/debug/minimal_docker_webserver_post_error`
[2024-06-03T05:27:08Z INFO  minimal_docker_webserver_post_error] Starting server on 0.0.0.0:3030
[2024-06-03T05:27:08Z INFO  warp::server] Server::run; addr=0.0.0.0:3030
[2024-06-03T05:27:08Z INFO  warp::server] listening on http://0.0.0.0:3030


  


  What I have tried :
I tried using different web frameworks (Warp, Actix-web) and request crates (reqwest, ureq). I also tried running the setup outside of Docker, which worked as expected without any issues. Additionally, I tried running the setup in Docker without making any HTTP requests after the ffmpeg command, and the connection closed successfully without errors. I also tried posting to httpbin with a minimal request, but the issue persisted.

  


  Minimum reproducible example :

  


  main.rs

  


  use warp::Filter;&#xA;use reqwest::Client;&#xA;use std::convert::Infallible;&#xA;use log::{info, error};&#xA;use env_logger;&#xA;use tokio::process::Command;&#xA;&#xA;#[tokio::main]&#xA;async fn main() {&#xA;    std::env::set_var("RUST_LOG", "debug");&#xA;    env_logger::init();&#xA;&#xA;    let route = warp::path::end()&#xA;        .and_then(handle_request);&#xA;&#xA;    info!("Starting server on 0.0.0.0:3030");&#xA;    warp::serve(route)&#xA;        .run(([0, 0, 0, 0], 3030))&#xA;        .await;&#xA;}&#xA;&#xA;async fn handle_request() -> Result<impl infallible="infallible"> {&#xA;    let client = Client::new();&#xA;&#xA;    let output = Command::new("ffmpeg")&#xA;        .args(&amp;[&#xA;            "y",&#xA;            "-i", "concat:/usr/src/minimal_docker_webserver_post_error/file1.wav|/usr/src/minimal_docker_webserver_post_error/file2.wav",&#xA;            "-c", "copy",&#xA;            "/usr/src/minimal_docker_webserver_post_error/combined.wav"&#xA;        ])&#xA;        .output()&#xA;        .await;&#xA;&#xA;    match output {&#xA;        Ok(output) => {&#xA;            if output.status.success() {&#xA;                info!("WAV files concatenated successfully");&#xA;            } else {&#xA;                error!("Failed to concatenate WAV files: {:?}", output);&#xA;                return Ok(warp::reply::with_status("Failed to concatenate WAV files", warp::http::StatusCode::INTERNAL_SERVER_ERROR));&#xA;            }&#xA;        },&#xA;        Err(e) => {&#xA;            error!("Failed to execute ffmpeg: {:?}", e);&#xA;            return Ok(warp::reply::with_status("Failed to execute ffmpeg", warp::http::StatusCode::INTERNAL_SERVER_ERROR));&#xA;        }&#xA;    }&#xA;&#xA;    // ISSUE: Connection closes with curl: (52) Empty reply from server&#xA;    match client.get("https://httpbin.org/get").send().await {&#xA;        Ok(response) => info!("GET request successful: {:?}", response),&#xA;        Err(e) => error!("GET request failed: {:?}", e),&#xA;    }&#xA;&#xA;    match client.post("https://httpbin.org/post")&#xA;        .body("field1=value1&amp;field2=value2")&#xA;        .send().await {&#xA;        Ok(response) => info!("POST request successful: {:?}", response),&#xA;        Err(e) => error!("POST request failed: {:?}", e),&#xA;    }&#xA;&#xA;    Ok(warp::reply::with_status("Request handled", warp::http::StatusCode::OK))&#xA;}&#xA;</impl>

  


  FFMPEG command to generate the two wav files for concatenation

  


  ffmpeg -f lavfi -i "sine=frequency=1000:duration=5" file1.wav && ffmpeg -f lavfi -i "sine=frequency=500:duration=5" file2.wav


  


  Dockerfile

  


  # Use the official Rust image as the base image
FROM rust:latest

# Install cargo-watch
RUN cargo install cargo-watch

# Install ffmpeg
RUN apt-get update && apt-get install -y ffmpeg

# Set the working directory inside the container
WORKDIR /usr/src/minimal_docker_webserver_post_error

# Copy the Cargo.toml and Cargo.lock files
COPY Cargo.toml Cargo.lock ./

# Copy the source code
COPY src ./src

# Copy wav files
COPY file1.wav /usr/src/minimal_docker_webserver_post_error/file1.wav
COPY file2.wav /usr/src/minimal_docker_webserver_post_error/file2.wav

# Install dependencies
RUN cargo build --release

# Expose the port that the application will run on
EXPOSE 3030

# Set the entry point to use cargo-watch
CMD ["cargo", "watch", "-x", "run"]


  


  Cargo.toml

  


  [package]
name = "minimal_docker_webserver_post_error"
version = "0.1.0"
edition = "2021"

# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html

[dependencies]
warp = "0.3"
reqwest = { version = "0.12.4", features = ["json"] }
tokio = { version = "1", features = ["full"] }
log = "0.4"
env_logger = "0.11.3"


  


  Making the request to the warp server

  


  curl -v "http://localhost:3030"


  


• ffmpeg 4 : Using the stream_loop parameter to loop the audio during a video ends up with an infinite loop

  17 juin 2020, par JarsOfJam-Scheduler

  Summary

  



  

  1. Context

  


  2. The software I use

  


  3. The problem

  


  4. Results
     
4.1. Actual Results

     



     4.2. Expected Results

  


  5. What did I try to fix the bug ?

  


  6. How to reproduce this bug : minimal and testable example with the provided required data

  


  7. The question

  


  8. Sources

  


  



  ---

  



  Context

  



  I would want to set an audio WAV as the background sound of a video WEBM. The video can be shorter or longer than the audio. At the moment I add the audio over the video, I don't know the length of both streams. The audio must repeat until the video ends (the audio can be truncated if the video ends before the end of the last repetition of the audio).

  



  The software I use

  



  I use ffmpeg version 4.2.2-1ubuntu1 18.04.sav0.

  



  The problem

  



  ffmpeg seems to enter in an infinite loop when it proccesses in order to mix the audio and the video. Also, the length of the currently-generating-output-file (which contains both video and audio) is equal to the length of the audio, instead of the length of the video.

  



  The problem seems to be triggered by this command line :

  



  ffmpeg -i directory_1/video.webm -stream_loop -1 -fflags +shortest -max_interleave_delta 50000 -i directory_2/audio.wav directory_3/video_and_audio.webm


  



  Results

  



  Actual Results

  



  Three things :

  



  


  1. The infinite loop of the ffmpeg process : I must manually stop the ffmpeg process

  


  2. The output video file with music (which is currently generating but output anyway) : it contains both audio and video. But the length of the output file is equal to the length of the audio, instead of the length of the video.

  


  3. The following output logs :

  


  



  


  ffmpeg version 4.2.2-1ubuntu1 18.04.sav0 Copyright (c) 2000-2019 the
 FFmpeg developers built with gcc 7 (Ubuntu 7.5.0-3ubuntu1 18.04)
  
 configuration : —prefix=/usr —extra-version='1ubuntu1 18.04.sav0'
 —toolchain=hardened —libdir=/usr/lib/x86_64-linux-gnu —incdir=/usr/include/x86_64-linux-gnu —arch=amd64 —enable-gpl —disable-stripping —enable-avresample —disable-filter=resample —enable-avisynth —enable-gnutls —enable-ladspa —enable-libaom —enable-libass —enable-libbluray —enable-libbs2b —enable-libcaca —enable-libcdio —enable-libcodec2 —enable-libflite —enable-libfontconfig —enable-libfreetype —enable-libfribidi —enable-libgme —enable-libgsm —enable-libjack —enable-libmp3lame —enable-libmysofa —enable-libopenjpeg —enable-libopenmpt —enable-libopus —enable-libpulse —enable-librsvg —enable-librubberband —enable-libshine —enable-libsnappy —enable-libsoxr —enable-libspeex —enable-libssh —enable-libtheora —enable-libtwolame —enable-libvidstab —enable-libvorbis —enable-libvpx —enable-libwavpack —enable-libwebp —enable-libx265 —enable-libxml2 —enable-libxvid —enable-libzmq —enable-libzvbi —enable-lv2 —enable-omx —enable-openal —enable-opencl —enable-opengl —enable-sdl2 —enable-libdc1394 —enable-libdrm —enable-libiec61883 —enable-nvenc —enable-chromaprint —enable-frei0r —enable-libx264 —enable-shared libavutil 56. 31.100 / 56. 31.100 libavcodec 58. 54.100 / 58. 54.100 libavformat 58. 29.100 / 58. 29.100 libavdevice 58. 8.100 /
 58. 8.100 libavfilter 7. 57.100 / 7. 57.100 libavresample 4. 0. 0 / 4. 0. 0 libswscale 5. 5.100 / 5. 5.100 libswresample 3. 5.100 / 3. 5.100 libpostproc 55. 5.100 /
 55. 5.100 Input #0, matroska,webm, from 'youtubed/my_youtube_video.webm' : Metadata :
 encoder : Chrome Duration : N/A, start : 0.000000, bitrate : N/A
 Stream #0:0(eng) : Video : vp8, yuv420p(progressive), 3200x1608, SAR 1:1 DAR 400:201, 1k tbr, 1k tbn, 1k tbc (default)
 Metadata :
 alpha_mode : 1 Guessed Channel Layout for Input Stream #1.0 : stereo Input #1, wav, from 'tmp_music/original_music.wav' :
  
 Duration : 00:00:11.78, bitrate : 1411 kb/s
 Stream #1:0 : Audio : pcm_s16le ([1][0][0][0] / 0x0001), 44100 Hz, stereo, s16, 1411 kb/s Stream mapping : Stream #0:0 -> #0:0 (vp8
 (native) -> vp9 (libvpx-vp9)) Stream #1:0 -> #0:1 (pcm_s16le
 (native) -> opus (libopus)) Press [q] to stop, [?] for help
 [libvpx-vp9 @ 0x5645268aed80] v1.8.2 [libopus @ 0x5645268b09c0] No bit
 rate set. Defaulting to 96000 bps. Output #0, webm, to
 'youtubed/my_youtube_video_with_music.webm' : Metadata :
 encoder : Lavf58.29.100
 Stream #0:0(eng) : Video : vp9 (libvpx-vp9), yuv420p(progressive), 3200x1608 [SAR 1:1 DAR 400:201], q=-1—1, 200 kb/s, 1k fps, 1k tbn, 1k
 tbc (default)
 Metadata :
 alpha_mode : 1
 encoder : Lavc58.54.100 libvpx-vp9
 Side data :
 cpb : bitrate max/min/avg : 0/0/0 buffer size : 0 vbv_delay : -1
 Stream #0:1 : Audio : opus (libopus), 48000 Hz, stereo, s16, 96 kb/s
 Metadata :
 encoder : Lavc58.54.100 libopus

  


  



  Expected Results

  



  


  1. No infinite loop during the ffmpeg process

  


  2. Concerning the output logs, I don't know what it should look.

  


  3. The output file with the audio and the video should :

     



     3.1. If the video is longer than the audio, then the audio is repeated until it exactly fits the video. The audio can be truncated.

     



     3.2. If the video is shorter than the audio, then the audio is truncated and exactly fits the video.

     



     3.3. If both video and audio are of the same length, then the audio exactly fits the video.

  


  



  How to reproduce this bug ? (+ required data)

  



  


  1. Download the following files (resp. audio and video) (I must refresh these download links every 24 hours) :

     



     1.1. https://a.uguu.se/dmgsmItjJMDq_audio.wav

     



     1.2. https://a.uguu.se/w3qHDlGq6mOW_video.webm

  


  2. Move them into the directory/directories of your choice.

  


  3. Open your CLI, move to the adequat directory and copy/paste/execute the instruction given in Part. The Problem (don't forget to eventually modify this instruction by indicating the adequat directories, according to step 2.).

  


  4. You'll face my problem.

  


  



  What did I try to fix the bug ?

  



  Nothing, since I don't even understand why the bug occures.

  



  The question

  



  How to correct my command in order to mix these audio and video streams without any infinite loop during the ffmpeg process, keeping in mind that I don't know their length, and that audio must be repeated in order to fit the video, even if audio must be truncated (in the case of the last repetition of the audio file must be truncated because the video stream has just ended) ?

  



  Sources

  



  The source is the command line you can find in Part. The problem.

  


• Salty Game Music

  31 mai 2011, par Multimedia Mike — General

  Have you heard of Google’s Native Client (NaCl) project ? Probably not. Basically, it allows native code modules to run inside a browser (where ‘browser’ is defined pretty narrowly as ‘Google Chrome’ in this case). Programs are sandboxed so they aren’t a security menace (or so the whitepapers claim) but are allowed to access a variety of APIs including video and audio. The latter API is significant because sound tends to be forgotten in all the hullabaloo surrounding non-Flash web technologies. At any rate, enjoy NaCl while you can because I suspect it won’t be around much longer.

  After my recent work upgrading some old music synthesis programs to user more modern audio APIs, I got the idea to try porting the same code to run under NaCl in Chrome (first Nosefart, then Game Music Emu/GME). In this exercise, I met with very limited success. This blog post documents some of the pitfalls in my excursion.

  
  
  

  Infrastructure
  People who know me know that I’m rather partial — to put it gently — to straight-up C vs. C++. The NaCl SDK is heavily skewed towards C++. However, it does provide a Python tool called init_project.py which can create the skeleton of a project and can do so in C with the '-c' option :

  ./init_project.py -c -n saltynosefart
  

  This generates something that can be built using a simple ‘make’. When I added Nosefart’s C files, I learned that the project Makefile has places for project-necessary CFLAGS but does not honor them. The problem is that the generated Makefile includes a broader system Makefile that overrides the CFLAGS in the project Makefile. Going into the system Makefile and changing "CFLAGS =" -> "CFLAGS +=" solves this problem.

  Still, maybe I’m the first person to attempt building something in Native Client so I’m the first person to notice this ?

  Basic Playback
  At least the process to create an audio-enabled NaCl app is well-documented. Too bad it doesn’t seem to compile as advertised. According to my notes on the matter, I filled in PPP_InitializeModule() with the appropriate boilerplate as outlined in the docs but got a linker error concerning get_browser_interface().

  Plan B : C++
  Obviously, the straight C stuff is very much a second-class citizen in this NaCl setup. Fortunately, there is already that fully functional tone generator example program in the limited samples suite. Plan B is to copy that project and edit it until it accepts Nosefart/GME audio instead of a sine wave.

  The build system assumes all C++ files should have .cc extensions. I have to make some fixes so that it will accept .cpp files (either that, or rename all .cpp to .cc, but that’s not very clean).

  Making Noise
  You’ll be happy to know that I did successfully swap out the tone generator for either Nosefart or GME. Nosefart has a slightly fickle API that requires revving the emulator frame by frame and generating a certain number of audio samples. GME’s API is much easier to work with in this situation — just tell it how many samples it needs to generate and give it a pointer to a buffer. I played NES and SNES music play through this ad-hoc browser plugin, and I’m confident all the other supported formats would have worked if I went through the bother of converting the music data files into C headers to be included in the NaCl executable binaries (dynamically loading data via the network promised to be a far more challenging prospect reserved for phase 3 of the project).

  Portable ?
  I wouldn’t say so. I developed it on Linux and things ran fine there. I tried to run the same binaries on the Windows version of Chrome to no avail. It looks like it wasn’t even loading the .nexe files (NaCl executables).

  Thinking About The (Lack Of A) Future
  As I was working on this project, I noticed that the online NaCl documentation materialized explicit banners warning that my NaCl binaries compiled for Chrome 11 won’t work for Chrome 12 and that I need to code to the newly-released 0.3 SDK version. Not a fuzzy feeling. I also don’t feel good that I’m working from examples using bleeding edge APIs that feature deprecation as part of their naming convention, e.g., pp::deprecated::ScriptableObject().

  Ever-changing API + minimal API documentation + API that only works in one browser brand + requiring end user to explicitly enable feature = … well, that’s why I didn’t bother to release any showcase pertaining to this little experiment. Would have been neat, but I strongly suspect that this is yet another one of those APIs that Google decides to deprecate soon.

  See Also :

  • I eventually got a second wind and made this work using the C interface.