Exemplo n.º 1
0
 public StreamCopyHttpContent(Stream source, StreamCopier streamCopier, bool autoFlushHttpClientOutgoingStream, CancellationToken cancellation)
 {
     _source       = source ?? throw new ArgumentNullException(nameof(source));
     _streamCopier = streamCopier ?? throw new ArgumentNullException(nameof(streamCopier));
     _autoFlushHttpClientOutgoingStream = autoFlushHttpClientOutgoingStream;
     _cancellation = cancellation;
 }
Exemplo n.º 2
0
        private StreamCopyHttpContent SetupCopyBodyUpstream(HttpRequest request, HttpRequestMessage upstreamRequest, bool isStreamingRequest, CancellationToken cancellation)
        {
            // If we generate an HttpContent without a Content-Length then for HTTP/1.1 HttpClient will add a Transfer-Encoding: chunked header
            // even if it's a GET request. Some servers reject requests containing a Transfer-Encoding header if they're not expecting a body.
            // Try to be as specific as possible about the client's intent to send a body. The one thing we don't want to do is to start
            // reading the body early because that has side-effects like 100-continue.
            var hasBody       = true;
            var contentLength = request.Headers.ContentLength;
            var method        = request.Method;

            // https://tools.ietf.org/html/rfc7231#section-4.3.8
            // A client MUST NOT send a message body in a TRACE request.
            if (HttpMethods.IsTrace(method))
            {
                hasBody = false;
            }
            // https://tools.ietf.org/html/rfc7230#section-3.3.3
            // All HTTP/1.1 requests should have Transfer-Encoding or Content-Length.
            // Http.Sys/IIS will even add a Transfer-Encoding header to HTTP/2 requests with bodies for back-compat.
            // HTTP/1.0 Connection: close bodies are only allowed on responses, not requests.
            // https://tools.ietf.org/html/rfc1945#section-7.2.2
            //
            // Transfer-Encoding overrides Content-Length per spec
            else if (request.Headers.TryGetValue(HeaderNames.TransferEncoding, out var transferEncoding) &&
                     transferEncoding.Count == 1 &&
                     string.Equals("chunked", transferEncoding.ToString(), StringComparison.OrdinalIgnoreCase))
            {
                hasBody = true;
            }
            else if (contentLength.HasValue)
            {
                hasBody = contentLength > 0;
            }
            // Kestrel HTTP/2: There are no required headers that indicate if there is a request body so we need to sniff other fields.
            else if (!ProtocolHelper.IsHttp2OrGreater(request.Protocol))
            {
                hasBody = false;
            }
            // https://tools.ietf.org/html/rfc7231#section-5.1.1
            // A client MUST NOT generate a 100-continue expectation in a request that does not include a message body.
            else if (request.Headers.TryGetValue(HeaderNames.Expect, out var expect) &&
                     expect.Count == 1 &&
                     string.Equals("100-continue", expect.ToString(), StringComparison.OrdinalIgnoreCase))
            {
                hasBody = true;
            }
            // https://tools.ietf.org/html/rfc7231#section-4.3.1
            // A payload within a GET/HEAD/DELETE/CONNECT request message has no defined semantics; sending a payload body on a
            // GET/HEAD/DELETE/CONNECT request might cause some existing implementations to reject the request.
            else if (HttpMethods.IsGet(method) ||
                     HttpMethods.IsHead(method) ||
                     HttpMethods.IsDelete(method) ||
                     HttpMethods.IsConnect(method))
            {
                hasBody = false;
            }
            // else hasBody defaults to true

            StreamCopyHttpContent contentToUpstream = null;

            if (hasBody)
            {
                ////this.logger.LogInformation($"   Setting up downstream --> Proxy --> upstream body proxying");

                // Note on `autoFlushHttpClientOutgoingStream: isStreamingRequest`:
                // The.NET Core HttpClient stack keeps its own buffers on top of the underlying outgoing connection socket.
                // We flush those buffers down to the socket on every write when this is set,
                // but it does NOT result in calls to flush on the underlying socket.
                // This is necessary because we proxy http2 transparently,
                // and we are deliberately unaware of packet structure used e.g. in gRPC duplex channels.
                // Because the sockets aren't flushed, the perf impact of this choice is expected to be small.
                // Future: It may be wise to set this to true for *all* http2 incoming requests,
                // but for now, out of an abundance of caution, we only do it for requests that look like gRPC.
                var streamCopier = new StreamCopier();
                contentToUpstream = new StreamCopyHttpContent(
                    source: request.Body,
                    streamCopier: streamCopier,
                    autoFlushHttpClientOutgoingStream: isStreamingRequest,
                    cancellation: cancellation);
                upstreamRequest.Content = contentToUpstream;
            }

            return(contentToUpstream);
        }
Exemplo n.º 3
0
        /// <summary>
        /// Proxies an upgradable request to the upstream server, treating the upgraded stream as an opaque duplex channel.
        /// </summary>
        /// <remarks>
        /// Upgradable request proxying comprises the following steps:
        ///    (1)  Create outgoing HttpRequestMessage
        ///    (2)  Copy request headers                                              Downstream ---► Proxy ---► Upstream
        ///    (3)  Send the outgoing request using HttpMessageInvoker                Downstream ---► Proxy ---► Upstream
        ///    (4)  Copy response status line                                         Downstream ◄--- Proxy ◄--- Upstream
        ///    (5)  Copy response headers                                             Downstream ◄--- Proxy ◄--- Upstream
        ///       Scenario A: upgrade with upstream worked (got 101 response)
        ///          (A-6)  Upgrade downstream channel (also sends response headers)  Downstream ◄--- Proxy ◄--- Upstream
        ///          (A-7)  Copy duplex streams                                       Downstream ◄--► Proxy ◄--► Upstream
        ///       ---- or ----
        ///       Scenario B: upgrade with upstream failed (got non-101 response)
        ///          (B-6)  Send response headers                                     Downstream ◄--- Proxy ◄--- Upstream
        ///          (B-7)  Copy response body                                        Downstream ◄--- Proxy ◄--- Upstream
        ///
        /// This takes care of WebSockets as well as any other upgradable protocol.
        /// </remarks>
        private async Task UpgradableProxyAsync(
            HttpContext context,
            IHttpUpgradeFeature upgradeFeature,
            HttpRequestMessage upstreamRequest,
            HttpMessageInvoker httpClient,
            CancellationToken shortCancellation,
            CancellationToken longCancellation,
            Action <HttpRequestMessage> requestAction = null)
        {
            _ = context ?? throw new ArgumentNullException(nameof(context));
            _ = upgradeFeature ?? throw new ArgumentNullException(nameof(upgradeFeature));
            _ = upstreamRequest ?? throw new ArgumentNullException(nameof(upstreamRequest));
            _ = httpClient ?? throw new ArgumentNullException(nameof(httpClient));

            // :::::::::::::::::::::::::::::::::::::::::::::
            // :: Step 2: Copy request headers Downstream --► Proxy --► Upstream
            CopyHeadersToUpstream(context, upstreamRequest);

            if (requestAction != null)
            {
                requestAction(upstreamRequest);
            }

            // :::::::::::::::::::::::::::::::::::::::::::::
            // :: Step 3: Send the outgoing request using HttpMessageInvoker
            var upstreamResponse = await httpClient.SendAsync(upstreamRequest, shortCancellation);

            var upgraded = upstreamResponse.StatusCode == HttpStatusCode.SwitchingProtocols && upstreamResponse.Content != null;

            // :::::::::::::::::::::::::::::::::::::::::::::
            // :: Step 4: Copy response status line Downstream ◄-- Proxy ◄-- Upstream
            context.Response.StatusCode = (int)upstreamResponse.StatusCode;
            context.Features.Get <IHttpResponseFeature>().ReasonPhrase = upstreamResponse.ReasonPhrase;

            // :::::::::::::::::::::::::::::::::::::::::::::
            // :: Step 5: Copy response headers Downstream ◄-- Proxy ◄-- Upstream
            CopyHeadersToDownstream(upstreamResponse, context);

            if (!upgraded)
            {
                // :::::::::::::::::::::::::::::::::::::::::::::
                // :: Step B-6: Send response headers Downstream ◄-- Proxy ◄-- Upstream
                // This is important to avoid any extra delays in sending response headers
                // e.g. if the upstream server is slow to provide its response body.
                await context.Response.StartAsync(shortCancellation);

                // :::::::::::::::::::::::::::::::::::::::::::::
                // :: Step B-7: Copy response body Downstream ◄-- Proxy ◄-- Upstream
                await CopyBodyDownstreamAsync(upstreamResponse.Content, context.Response.Body, longCancellation);

                return;
            }

            // :::::::::::::::::::::::::::::::::::::::::::::
            // :: Step A-6: Upgrade the downstream channel. This will send all response headers too.
            using var downstreamStream = await upgradeFeature.UpgradeAsync();

            // :::::::::::::::::::::::::::::::::::::::::::::
            // :: Step A-7: Copy duplex streams
            var upstreamStream = await upstreamResponse.Content.ReadAsStreamAsync();

            var upstreamCopier = new StreamCopier();
            var upstreamTask   = upstreamCopier.CopyAsync(downstreamStream, upstreamStream, longCancellation);

            var downstreamCopier = new StreamCopier();
            var downstreamTask   = downstreamCopier.CopyAsync(upstreamStream, downstreamStream, longCancellation);

            await Task.WhenAll(upstreamTask, downstreamTask);
        }