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README.md

Fork of github.com/hraban/opus

Go wrapper for Opus

This package provides Go bindings for the xiph.org C libraries libopus and libopusfile.

The C libraries and docs are hosted at https://opus-codec.org/. This package just handles the wrapping in Go, and is unaffiliated with xiph.org.

Details

This wrapper provides a Go translation layer for three elements from the xiph.org opus libs:

  • encoders
  • decoders
  • files & streams

Import

import "git.gammaspectra.live/S.O.N.G/go-pus"

Encoding

To encode raw audio to the Opus format, create an encoder first:

const sampleRate = 48000
const channels = 1 // mono; 2 for stereo

enc, err := opus.NewEncoder(sampleRate, channels, opus.AppVoIP)
if err != nil {
    ...
}

Then pass it some raw PCM data to encode.

Make sure that the raw PCM data you want to encode has a legal Opus frame size. This means it must be exactly 2.5, 5, 10, 20, 40 or 60 ms long. The number of bytes this corresponds to depends on the sample rate (see the libopus documentation).

var pcm []int16 = ... // obtain your raw PCM data somewhere
const bufferSize = 1000 // choose any buffer size you like. 1k is plenty.

// Check the frame size. You don't need to do this if you trust your input.
frameSize := len(pcm) // must be interleaved if stereo
frameSizeMs := float32(frameSize) / channels * 1000 / sampleRate
switch frameSizeMs {
case 2.5, 5, 10, 20, 40, 60:
    // Good.
default:
    return fmt.Errorf("Illegal frame size: %d bytes (%f ms)", frameSize, frameSizeMs)
}

data := make([]byte, bufferSize)
n, err := enc.Encode(pcm, data)
if err != nil {
    ...
}
data = data[:n] // only the first N bytes are opus data. Just like io.Reader.

Note that you must choose a target buffer size, and this buffer size will affect the encoding process:

Size of the allocated memory for the output payload. This may be used to impose an upper limit on the instant bitrate, but should not be used as the only bitrate control. Use OPUS_SET_BITRATE to control the bitrate.

-- https://opus-codec.org/docs/opus_api-1.1.3/group__opus__encoder.html

Decoding

To decode opus data to raw PCM format, first create a decoder:

dec, err := opus.NewDecoder(sampleRate, channels)
if err != nil {
    ...
}

Now pass it the opus bytes, and a buffer to store the PCM sound in:

var frameSizeMs float32 = ...  // if you don't know, go with 60 ms.
frameSize := channels * frameSizeMs * sampleRate / 1000
pcm := make([]int16, int(frameSize))
n, err := dec.Decode(data, pcm)
if err != nil {
    ...
}

// To get all samples (interleaved if multiple channels):
pcm = pcm[:n*channels] // only necessary if you didn't know the right frame size

// or access sample per sample, directly:
for i := 0; i < n; i++ {
    ch1 := pcm[i*channels+0]
    // For stereo output: copy ch1 into ch2 in mono mode, or deinterleave stereo
    ch2 := pcm[(i*channels)+(channels-1)]
}

To handle packet loss from an unreliable network, see the DecodePLC and DecodeFEC options.

Streams (and Files)

To decode a .opus file (or .ogg with Opus data), or to decode a "Opus stream" (which is a Ogg stream with Opus data), use the Stream interface. It wraps an io.Reader providing the raw stream bytes and returns the decoded Opus data.

A crude example for reading from a .opus file:

f, err := os.Open(fname)
if err != nil {
    ...
}
s, err := opus.NewStream(f)
if err != nil {
    ...
}
defer s.Close()
pcmbuf := make([]int16, 16384)
for {
    n, err = s.Read(pcmbuf)
    if err == io.EOF {
        break
    } else if err != nil {
        ...
    }
    pcm := pcmbuf[:n*channels]

    // send pcm to audio device here, or write to a .wav file

}

See https://godoc.org/gopkg.in/hraban/opus.v2#Stream for further info.

"My .ogg/.opus file doesn't play!" or "How do I play Opus in VLC / mplayer / ...?"

Note: this package only does encoding of your audio, to raw opus data. You can't just dump those all in one big file and play it back. You need extra info. First of all, you need to know how big each individual block is. Remember: opus data is a stream of encoded separate blocks, not one big stream of bytes. Second, you need meta-data: how many channels? What's the sampling rate? Frame size? Etc.

Look closely at the decoding sample code (not stream), above: we're passing all that meta-data in, hard-coded. If you just put all your encoded bytes in one big file and gave that to a media player, it wouldn't know what to do with it. It wouldn't even know that it's Opus data. It would just look like /dev/random.

What you need is a container format.

Compare it to video:

  • Encodings: MPEG[1234], VP9, H26[45], AV1
  • Container formats: .mkv, .avi, .mov, .ogv

For Opus audio, the most common container format is OGG, aka .ogg or .opus. You'll know OGG from OGG/Vorbis: that's Vorbis encoded audio in an OGG container. So for Opus, you'd call it OGG/Opus. But technically you could stick opus data in any container format that supports it, including e.g. Matroska (.mka for audio, you probably know it from .mkv for video).

Note: libopus, the C library that this wraps, technically comes with libopusfile, which can help with the creation of OGG/Opus streams from raw audio data. I just never needed it myself, so I haven't added the necessary code for it. If you find yourself adding it: send me a PR and we'll get it merged.

This libopus wrapper does come with code for decoding an OGG/Opus stream. Just not for writing one.

API Docs

Go wrapper API reference: https://godoc.org/gopkg.in/hraban/opus.v2

Full libopus C API reference: https://www.opus-codec.org/docs/opus_api-1.1.3/

For more examples, see the _test.go files.

Build & Installation

This package requires libopus and libopusfile development packages to be installed on your system. These are available on Debian based systems from aptitude as libopus-dev and libopusfile-dev, and on Mac OS X from homebrew.

They are linked into the app using pkg-config.

Debian, Ubuntu, ...:

sudo apt-get install pkg-config libopus-dev libopusfile-dev

Mac:

brew install pkg-config opus opusfile

Building Without libopusfile

This package can be built without libopusfile by using the build tag nolibopusfile. This enables the compilation of statically-linked binaries with no external dependencies on operating systems without a static libopusfile, such as Alpine Linux.

Note: this will disable all file and Stream APIs.

To enable this feature, add -tags nolibopusfile to your go build or go test commands:

# Build
go build -tags nolibopusfile ...

# Test
go test -tags nolibopusfile ./...

Using in Docker

If your Dockerized app has this library as a dependency (directly or indirectly), it will need to install the aforementioned packages, too.

This means you can't use the standard golang:*-onbuild images, because those will try to build the app from source before allowing you to install extra dependencies. Instead, try this as a Dockerfile:

# Choose any golang image, just make sure it doesn't have -onbuild
FROM golang:1

RUN apt-get update && apt-get -y install libopus-dev libopusfile-dev

# Everything below is copied manually from the official -onbuild image,
# with the ONBUILD keywords removed.

RUN mkdir -p /go/src/app
WORKDIR /go/src/app

CMD ["go-wrapper", "run"]
COPY . /go/src/app
RUN go-wrapper download
RUN go-wrapper install

For more information, see https://hub.docker.com/_/golang/.

Linking libopus and libopusfile

The opus and opusfile libraries will be linked into your application dynamically. This means everyone who uses the resulting binary will need those libraries available on their system. E.g. if you use this wrapper to write a music app in Go, everyone using that music app will need libopus and libopusfile on their system. On Debian systems the packages are called libopus0 and libopusfile0.

The "cleanest" way to do this is to publish your software through a package manager and specify libopus and libopusfile as dependencies of your program. If that is not an option, you can compile the dynamic libraries yourself and ship them with your software as seperate (.dll or .so) files.

On Linux, for example, you would need the libopus.so.0 and libopusfile.so.0 files in the same directory as the binary. Set your ELF binary's rpath to $ORIGIN (this is not a shell variable but elf magic):

patchelf --set-origin '$ORIGIN' your-app-binary

Now you can run the binary and it will automatically pick up shared library files from its own directory.

Wrap it all in a .zip, and ship.

I know there is a similar trick for Mac (involving prefixing the shared library names with ./, which is, arguably, better). And Windows... probably just picks up .dll files from the same dir by default? I don't know. But there are ways.

License

The licensing terms for the Go bindings are found in the LICENSE file. The authors and copyright holders are listed in the AUTHORS file.

The copyright notice uses range notation to indicate all years in between are subject to copyright, as well. This statement is necessary, apparently. For all those nefarious actors ready to abuse a copyright notice with incorrect notation, but thwarted by a mention in the README. Pfew!