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HttpClient与APS.NET Web API:请求内容的压缩与解压

时间:2015-07-17 20:25:24      阅读:472      评论:0      收藏:0      [点我收藏+]

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首先说明一下,这里的压缩与解压不是通常所说的http compression——那是响应内容在服务端压缩、在客户端解压,而这里是请求内容在客户端压缩、在服务端解压。

对于响应内容的压缩,一般Web服务器(比如IIS)都提供了内置支持,只需在请求头中包含 Accept-Encoding: gzip, deflate ,客户端浏览器与HttpClient都提供了内置的解压支持。HttpClient中启用这个压缩的代码如下:

var httpClient = new HttpClient(new HttpClientHandler { AutomaticDecompression = 
    System.Net.DecompressionMethods.GZip | System.Net.DecompressionMethods.Deflate });

对于请求内容的压缩,.NET中的HttpClient并没有提供内置支持,IIS也没有提供对解压的内置支持,需要自己写代码实现,本文也是由此而生。

为什么要对请求内容进行压缩呢?目前我们在2种应用场景下遇到:1)用HttpClient调用第三方Web API;2)或者iOS App调用自己的Web API时需要提交大文本数据。

对于压缩与解压,System.IO.Compression中提供了对应的类库——GZipStream与DeflateStream,我们只需要在HttpClient与Web API中应用它们即可。

先来看看客户端HttpClient的实现。我们需要实现一个支持压缩的HttpContent——CompressedContent,实现代码如下:

public enum CompressionMethod
{
    GZip = 1,
    Deflate = 2
}

public class CompressedContent : HttpContent
{
    private readonly HttpContent _originalContent;
    private readonly CompressionMethod _compressionMethod;

    public CompressedContent(HttpContent content, CompressionMethod compressionMethod)
    {
        if (content == null)
        {
            throw new ArgumentNullException("content");
        }

        _originalContent = content;
        _compressionMethod = compressionMethod;

        foreach (KeyValuePair<string, IEnumerable<string>> header in _originalContent.Headers)
        {
            Headers.TryAddWithoutValidation(header.Key, header.Value);
        }

        Headers.ContentEncoding.Add(_compressionMethod.ToString().ToLowerInvariant());
    }

    protected override bool TryComputeLength(out long length)
    {
        length = -1;
        return false;
    }

    protected async override Task SerializeToStreamAsync(Stream stream, TransportContext context)
    {
        if (_compressionMethod == CompressionMethod.GZip)
        {
            using (var gzipStream = new GZipStream(stream, CompressionMode.Compress, leaveOpen: true))
            {
                await _originalContent.CopyToAsync(gzipStream);
            }
        }
        else if (_compressionMethod == CompressionMethod.Deflate)
        {
            using (var deflateStream = new DeflateStream(stream, CompressionMode.Compress, leaveOpen: true))
            {
                await _originalContent.CopyToAsync(deflateStream);
            }
        }
    }
}

主要就是重载HttpContent.SerializeToStreamAsync()方法,在其中使用相应的压缩算法进行压缩。

HttpClient使用这个CompressedContent的方法如下:

var json = JsonConvert.SerializeObject(bookmark);
var content = new CompressedContent(
    new StringContent(json, Encoding.UTF8, "application/json"), 
    CompressionMethod.GZip);
var response = await _httpClient.PostAsync("/api/bookmarks", content);

再来看看服务端ASP.NET Web API中的实现,需要实现一个DelegatingHandler——DecompressionHandler:

public class DecompressionHandler : DelegatingHandler
{
    protected override async Task<HttpResponseMessage> SendAsync(HttpRequestMessage request, 
        CancellationToken cancellationToken)
    {
        if (request.Method == HttpMethod.Post)
        {
            bool isGzip = request.Content.Headers.ContentEncoding.Contains("gzip");
            bool isDeflate = !isGzip && request.Content.Headers.ContentEncoding.Contains("deflate");

            if (isGzip || isDeflate)
            {
                Stream decompressedStream = new MemoryStream();

                if (isGzip)
                {
                    using (var gzipStream = new GZipStream(await request.Content.ReadAsStreamAsync(),
                        CompressionMode.Decompress))
                    {
                        await gzipStream.CopyToAsync(decompressedStream);
                    }
                }
                else if (isDeflate)
                {

                    using (var gzipStream = new DeflateStream(await request.Content.ReadAsStreamAsync(),
                        CompressionMode.Decompress))
                    {
                        await gzipStream.CopyToAsync(decompressedStream);
                    }
                }

                decompressedStream.Seek(0, SeekOrigin.Begin);

                var originContent = request.Content;
                request.Content = new StreamContent(decompressedStream);

                foreach (var header in originContent.Headers)
                {
                    request.Content.Headers.Add(header.Key, header.Value);
                }
            }
        }

        return await base.SendAsync(request, cancellationToken);
    }
}

重载DelegatingHandler.SendAsync()方法,在其中用GZipStream或DeflateStream完成解压操作。

然后在WebApiConfig中应用这个DecompressionHandler,代码如下:

public static class WebApiConfig
{
    public static void Register(HttpConfiguration config)
    {
        config.MessageHandlers.Add(new DecompressionHandler());
    }
}

最后用这个支持请求内容压缩的HttpClient调用一下这个支持请求内容解压的Web API测试一下,用WireShark抓包看一下压缩是否生效。

技术分享

测试成功!

【参考资料】

How to compress http request on the fly and without loading compressed buffer in memory

How do enable a .Net web-API to accept g-ziped posts

HTTP Message Handlers in ASP.NET Web API

Compressed HTTP Requests

HttpClient与APS.NET Web API:请求内容的压缩与解压

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原文地址:http://www.cnblogs.com/dudu/p/4654114.html

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