Awesome
FFmpeg Sidecar ๐
Wrap a standalone FFmpeg binary in an intuitive Iterator interface.
Features
- โจ Minimal dependencies
- โก Automatic FFmpeg CLI download (if needed)
- ๐ค Support for Windows, MacOS, and Linux
- ๐งช Thoroughly unit tested
๐ Jump to Getting Started ๐
Motivation
The core goal of this project is to provide a method of interacting with any video as if it were an array of raw RGB frames.
Of course, that's what video is, fundamentally, but there is a whole pandora's box of complexity in terms of receiving and decoding video before you get there.
Using FFmpeg as the core engine provides interoperability between a massive range of formats, containers, extensions, protocols, encoders, decoders, hardware accelerations, and more.
Why CLI?
One method of using FFmpeg is low-level bindings to the code used inside the CLI itself -- there are good crates in the Rust ecosystem that do this.
Low level bindings have drawbacks, though:
- Difficult, time-consuming build, toolchain, and dependencies, especially on Windows
- Complexity, especially for beginners
- You end up manually re-implementing a lot of the standard conversions you need from scratch
By wrapping the CLI, this crate avoids those downsides, and also solves some of the pain points that you would encounter if you were to use the CLI directly on its own:
- Raw data can easily move in and out of FFmpeg instances, or pipe between them. Under the hood they are moving across stdin and stdout.
- Rich semantic information is recovered from the FFmpeg stderr logs, including:
- Progress updates (frame #, timestamp, speed, bitrate, ...)
- Input/output metadata and stream mappings
- Warnings & errors
- Argument presets and aliases with discoverable names through Intellisense/autocomplete
The only remaining downside is the size of the FFmpeg binary itself, but it's less than 100MB when zipped. It can be automatically downloaded by the crate, so you may choose to not even ship it with your own application and instead download it at runtime.
Getting Started
1. Cargo Install
cargo add ffmpeg-sidecar
2. Download FFmpeg
To automatically download & install a FFmpeg binary for your platform (Windows, MacOS, and Linux), call this function anywhere in your program:
ffmpeg_sidecar::download::auto_download().unwrap();
You can do this once to set up your dev environment, or include it as a feature of your client application.
To customize or extend the download, see
/examples/download_ffmpeg.rs.
Examples
Hello world ๐
Read raw video frames.
use ffmpeg_sidecar::command::FfmpegCommand;
fn main() -> anyhow::Result<()> {
// Run an FFmpeg command that generates a test video
let iter = FfmpegCommand::new() // <- Builder API like `std::process::Command`
.testsrc() // <- Discoverable aliases for FFmpeg args
.rawvideo() // <- Convenient argument presets
.spawn()? // <- Ordinary `std::process::Child`
.iter()?; // <- Blocking iterator over logs and output
// Use a regular "for" loop to read decoded video data
for frame in iter.filter_frames() {
println!("frame: {}x{}", frame.width, frame.height);
let _pixels: Vec<u8> = frame.data; // <- raw RGB pixels! ๐จ
}
Ok(())
}
Source: /examples/hello_world.rs
cargo run --example hello_world
H265 Transcoding
Decode H265, modify the decoded frames, and then write back to H265.
Source: /examples/h265_transcode.rs
cargo run --example h265_transcode
FFplay
Pipe an FFmpeg instance to FFplay for debugging purposes.
Source: /examples/ffplay_preview.rs
cargo run --example ffplay_preview
Named pipes
Pipe multiple outputs from FFmpeg into a Rust program.
Source: /examples/named_pipes.rs
cargo run --example named_pipes --features named_pipes
Others
For a myriad of other use cases, check any of the examples, as well as the unit tests in /src/test.rs.
See also
Inspired loosely by Node.js
fluent-ffmpeg, which does
something similar in Javascript.
Uses setup-ffmpeg for
Github Actions and as a reference for the auto-download behavior.