BrotliSharpLib 0.3.1

BrotliSharpLib

BrotliSharpLib is a full C# port of the brotli library/compression code by Google. It is intended to be a mostly 1:1 conversion of the original C code. All code is correct as of v0.6.0 of the reference implementation.

The projects uses a minimal set of APIs to ensure compatibility with a wide range of frameworks including .NET Standard and .NET Core. It also supports little-endian and big-endian architectures and is optimised for x86, x64 and ARM processors.

BrotliSharpLib is licensed under MIT.

Installation

BrotliSharpLib can be installed via the NuGet package here.

Install-Package BrotliSharpLib

Usage

Generic/basic usage:

/** Decompression **/
byte[] brotliCompressedData = ...; // arbritary data source
byte[] uncompressedData = Brotli.DecompressBuffer(brotliCompressedData, 0, brotliCompressedData.Length /**, customDictionary **/);

/** Compression **/
byte[] uncompressedData = ...; // arbritary data source

// By default, brotli uses a quality value of 11 and window size of 22 if the parameters are omitted.
byte[] compressedData = Brotli.CompressBuffer(uncompressedData, 0, uncompressedData.Length /**, quality, windowSize, customDictionary **/);

Stream usage:

/** Decompression **/
using (var ms = new MemoryStream())
using (var bs = new BrotliStream(compressedStream, CompressionMode.Decompress))
{
    bs.CopyTo(ms);
}

/** Compression **/
using (var fs = File.OpenRead(filePath))
using (var ms = new MemoryStream())
{
    using (var bs = new BrotliStream(ms, CompressionMode.Compress))
    {
        // By default, BrotliSharpLib uses a quality value of 1 and window size of 22 if the methods are not called.
        /** bs.SetQuality(quality); **/
        /** bs.SetWindow(windowSize); **/
        /** bs.SetCustomDictionary(customDict); **/
        fs.CopyTo(bs);
        
        /* IMPORTANT: Only use the destination stream after closing/disposing the BrotliStream
           as the BrotliStream must be closed in order to signal that no more blocks are being written
           for the final block to be flushed out 
        */
        bs.Dispose();
        byte[] compressed = ms.ToArray();
    }
}

Real-life example: The following allows for acceptance and decompression of brotli encoded web content via a HttpClient and falls back to gzip or deflate when required.

static class HttpClientEx
{
    private class BrotliCompressionHandler : DelegatingHandler
    {
        protected override async Task<HttpResponseMessage> SendAsync(HttpRequestMessage request, CancellationToken cancellationToken)
        {
            request.Headers.AcceptEncoding.Add(new StringWithQualityHeaderValue("br"));
            var response = await base.SendAsync(request, cancellationToken);
            IEnumerable<string> ce;
            if (response.Content.Headers.TryGetValues("Content-Encoding", out ce) && ce.First() == "br")
            {
                var buffer = await response.Content.ReadAsByteArrayAsync();
                response.Content = new ByteArrayContent(Brotli.DecompressBuffer(buffer, 0, buffer.Length));
            }
            return response;
        }
    }

    public static HttpClient Create()
    {
        var handler = new HttpClientHandler();
        if (handler.SupportsAutomaticDecompression)
            handler.AutomaticDecompression = System.Net.DecompressionMethods.Deflate | System.Net.DecompressionMethods.GZip;
        return HttpClientFactory.Create(handler, new BrotliCompressionHandler());
    }
}

Performance

Considerations for Build

For optimal performance, ensure to build BrotliSharpLib in Release mode to enable all possible JIT optimisations.

Performance can also be further improved by building BrotliSharpLib using .NET Framework 4.5 or above (or any framework that supports AggressiveInlining). Selecting a specific target platform (instead of AnyCPU) where possible can also further improve performance. All of this however, is completely optional as BrotliSharpLib is designed to run in a wide range of contexts and configurations regardless.

Benchmark

The following are benchmark results using DotNetBenchmark with BrotliSharpLib (v0.2.1) and Google's C# implementation built against .NET Framework 4.6.1. The original C version was compiled in Release mode using Visual Studio 2017 (v141) as a 64-bit Windows executable.

BenchmarkDotNet=v0.10.6, OS=Windows 10 Redstone 2 (10.0.15063)
Processor=Intel Core i5-6600K CPU 3.50GHz (Skylake), ProcessorCount=4
Frequency=3421875 Hz, Resolution=292.2374 ns, Timer=TSC
  [Host]       : Clr 4.0.30319.42000, 64bit RyuJIT-v4.7.2046.0
  RyuJitX64    : Clr 4.0.30319.42000, 64bit RyuJIT-v4.7.2046.0
Runtime=Clr  

Decompression

File: UPX v3.91 (Windows Executable)

As seen above, BrotliSharpLib performs close to the original C version in terms of decompression.

Compression

File: plrabn12.txt

While BrotliSharpLib performs comparatively at lower quality levels, it performs up to three times worse at level 11. Future versions of the port will hopefully bring this down.