4 releases (2 breaking)
0.3.0 | Oct 18, 2024 |
---|---|
0.2.1 | Sep 26, 2024 |
0.2.0 | Sep 6, 2024 |
0.1.0 | Sep 2, 2024 |
#37 in Multimedia
266 downloads per month
Used in 2 crates
(via moq-karp)
220KB
5.5K
SLoC
mp4-atom
This library provides encoding for the ISO Base Media File Format (ISO/IEC 14496-12). It's meant to be low level, performing encoding/decoding of the binary format without validation or interpretation of the data. You have to know what boxes to expect!
Atoms
MP4 files are made up of atoms, which are boxes of data.
They have an upfront size and a 4-byte code to identify the type of box.
Examples include moov
, mdat
, trak
, etc.
Unfortunately, the specification is quite complex and often gated behind a paywall. Using this library does require some additional knowledge of the format otherwise you should use a higher level library.
See the documentation.
Examples
Decoding/encoding a byte buffer
use bytes::{Bytes, BufMut};
use mp4_atom::{Any, Encode, Decode, Ftyp};
// A simple ftyp atom
let mut input = Bytes::from_static(b"\0\0\0\x14ftypiso6\0\0\x02\0mp41");
let atom = Any::decode(&mut input.clone())?;
// Make sure we got the right atom
assert_eq!(atom, Ftyp {
major_brand: b"iso6".into(),
minor_version: 512,
compatible_brands: vec![b"mp41".into()],
}.into());
// Encode it back
let mut output = BufMut::new();
atom.encode(&mut output)?;
assert_eq!(input, output.freeze());
Synchronous IO
NOTE: reading a Mdat
atom will read the entire contents into memory.
See the next example to avoid this.
use mp4_atom::{Any, ReadFrom, WriteTo, Ftyp};
let mut reader = std::io::stdin();
let atom = Any::read_from(&mut reader)?;
// Make sure we got the right atom
assert_eq!(atom, Ftyp {
major_brand: b"iso6".into(),
minor_version: 512,
compatible_brands: vec![b"mp41".into()],
}.into());
// Encode it back to a Write type
let writer = std::io::stdout();
atom.write_to(&mut writer)?;
Handling large atoms
To avoid reading large files into memory, you can call Header::read_from
manually:
use mp4_atom::{Atom, Any, Header, ReadFrom, ReadAtom, WriteTo, Ftyp, Moov};
let mut reader = std::io::stdin();
let header = Header::read_from(&mut reader)?;
match header.kind {
Ftyp::KIND => {
let ftyp = Ftyp::read_atom(&header, &mut reader)?;
// Make sure we got the right atom
assert_eq!(ftyp, Ftyp {
major_brand: b"iso6".into(),
minor_version: 512,
compatible_brands: vec![b"mp41".into()],
});
},
Moov::KIND => {
// Manually decode the moov
match header.size {
Some(size) => { /* read size bytes */ },
None => { /* read until EOF */ },
};
},
_ => {
// You can also use Any if you prefer
let any = Any::read_atom(&header, &mut reader)?;
println!("Unknown atom: {:?}", any);
}
};
Asynchronous IO
Enable using the tokio
feature.
It's the same as the above two but using the AsyncReadFrom
, AsyncWriteTo
, and AsyncReadAtom
traits instead.
There's also the bytes
features which enables encoding for Bytes
and BytesMut
from the bytes
crate, often used with tokio.
Dependencies
~1–7MB
~53K SLoC