File: src\Shared\Http2cat\Http2Utilities.cs
Web Access
Project: src\src\Servers\IIS\IIS\test\IIS.FunctionalTests\IIS.FunctionalTests.csproj (IIS.FunctionalTests)
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
 
using System;
using System.Buffers;
using System.Buffers.Binary;
using System.Collections.Generic;
using System.IO;
using System.IO.Pipelines;
using System.Linq;
using System.Net.Http;
using System.Net.Http.HPack;
using System.Runtime.CompilerServices;
using System.Text;
using System.Threading;
using System.Threading.Tasks;
using Microsoft.AspNetCore.Connections;
using Microsoft.AspNetCore.Http;
using Microsoft.AspNetCore.Server;
using Microsoft.AspNetCore.Server.Kestrel.Core;
using Microsoft.AspNetCore.Server.Kestrel.Core.Internal.Http2;
using Microsoft.AspNetCore.Server.Kestrel.Core.Internal.Infrastructure;
using Microsoft.AspNetCore.InternalTesting;
using Microsoft.Extensions.Logging;
using Microsoft.Net.Http.Headers;
 
namespace Microsoft.AspNetCore.Http2Cat;
 
internal sealed class Http2Utilities : IHttpStreamHeadersHandler
{
    public static ReadOnlySpan<byte> ClientPreface => "PRI * HTTP/2.0\r\n\r\nSM\r\n\r\n"u8;
    public const int MaxRequestHeaderFieldSize = 16 * 1024;
    public static readonly string FourKHeaderValue = new string('a', 4096);
    private static readonly Encoding HeaderValueEncoding = new UTF8Encoding(encoderShouldEmitUTF8Identifier: false, throwOnInvalidBytes: true);
 
    public static readonly IEnumerable<KeyValuePair<string, string>> BrowserRequestHeaders = new[]
    {
            new KeyValuePair<string, string>(InternalHeaderNames.Method, "GET"),
            new KeyValuePair<string, string>(InternalHeaderNames.Path, "/"),
            new KeyValuePair<string, string>(InternalHeaderNames.Scheme, "https"),
            new KeyValuePair<string, string>(InternalHeaderNames.Authority, "localhost:443"),
            new KeyValuePair<string, string>("user-agent", "Mozilla/5.0 (X11; Ubuntu; Linux x86_64; rv:54.0) Gecko/20100101 Firefox/54.0"),
            new KeyValuePair<string, string>("accept", "text/html,application/xhtml+xml,application/xml;q=0.9,*/*;q=0.8"),
            new KeyValuePair<string, string>("accept-language", "en-US,en;q=0.5"),
            new KeyValuePair<string, string>("accept-encoding", "gzip, deflate, br"),
            new KeyValuePair<string, string>("upgrade-insecure-requests", "1"),
        };
 
    public static readonly IEnumerable<KeyValuePair<string, string>> BrowserRequestHeadersHttp = new[]
    {
            new KeyValuePair<string, string>(InternalHeaderNames.Method, "GET"),
            new KeyValuePair<string, string>(InternalHeaderNames.Path, "/"),
            new KeyValuePair<string, string>(InternalHeaderNames.Scheme, "http"),
            new KeyValuePair<string, string>(InternalHeaderNames.Authority, "localhost:80"),
            new KeyValuePair<string, string>("user-agent", "Mozilla/5.0 (X11; Ubuntu; Linux x86_64; rv:54.0) Gecko/20100101 Firefox/54.0"),
            new KeyValuePair<string, string>("accept", "text/html,application/xhtml+xml,application/xml;q=0.9,*/*;q=0.8"),
            new KeyValuePair<string, string>("accept-language", "en-US,en;q=0.5"),
            new KeyValuePair<string, string>("accept-encoding", "gzip, deflate, br"),
            new KeyValuePair<string, string>("upgrade-insecure-requests", "1"),
        };
 
    public static readonly IEnumerable<KeyValuePair<string, string>> PostRequestHeaders = new[]
    {
            new KeyValuePair<string, string>(InternalHeaderNames.Method, "POST"),
            new KeyValuePair<string, string>(InternalHeaderNames.Path, "/"),
            new KeyValuePair<string, string>(InternalHeaderNames.Scheme, "https"),
            new KeyValuePair<string, string>(InternalHeaderNames.Authority, "localhost:80"),
        };
 
    public static readonly IEnumerable<KeyValuePair<string, string>> ExpectContinueRequestHeaders = new[]
    {
            new KeyValuePair<string, string>(InternalHeaderNames.Method, "POST"),
            new KeyValuePair<string, string>(InternalHeaderNames.Path, "/"),
            new KeyValuePair<string, string>(InternalHeaderNames.Authority, "127.0.0.1"),
            new KeyValuePair<string, string>(InternalHeaderNames.Scheme, "https"),
            new KeyValuePair<string, string>("expect", "100-continue"),
        };
 
    public static readonly IEnumerable<KeyValuePair<string, string>> RequestTrailers = new[]
    {
            new KeyValuePair<string, string>("trailer-one", "1"),
            new KeyValuePair<string, string>("trailer-two", "2"),
        };
 
    public static readonly IEnumerable<KeyValuePair<string, string>> OneContinuationRequestHeaders = new[]
    {
            new KeyValuePair<string, string>(InternalHeaderNames.Method, "GET"),
            new KeyValuePair<string, string>(InternalHeaderNames.Path, "/"),
            new KeyValuePair<string, string>(InternalHeaderNames.Scheme, "https"),
            new KeyValuePair<string, string>(InternalHeaderNames.Authority, "localhost:80"),
            new KeyValuePair<string, string>("a", FourKHeaderValue),
            new KeyValuePair<string, string>("b", FourKHeaderValue),
            new KeyValuePair<string, string>("c", FourKHeaderValue),
            new KeyValuePair<string, string>("d", FourKHeaderValue)
        };
 
    public static readonly IEnumerable<KeyValuePair<string, string>> TwoContinuationsRequestHeaders = new[]
    {
            new KeyValuePair<string, string>(InternalHeaderNames.Method, "GET"),
            new KeyValuePair<string, string>(InternalHeaderNames.Path, "/"),
            new KeyValuePair<string, string>(InternalHeaderNames.Scheme, "https"),
            new KeyValuePair<string, string>(InternalHeaderNames.Authority, "localhost:80"),
            new KeyValuePair<string, string>("a", FourKHeaderValue),
            new KeyValuePair<string, string>("b", FourKHeaderValue),
            new KeyValuePair<string, string>("c", FourKHeaderValue),
            new KeyValuePair<string, string>("d", FourKHeaderValue),
            new KeyValuePair<string, string>("e", FourKHeaderValue),
            new KeyValuePair<string, string>("f", FourKHeaderValue),
            new KeyValuePair<string, string>("g", FourKHeaderValue),
        };
 
    public static IEnumerable<KeyValuePair<string, string>> ReadRateRequestHeaders(int expectedBytes) => new[]
    {
            new KeyValuePair<string, string>(InternalHeaderNames.Method, "POST"),
            new KeyValuePair<string, string>(InternalHeaderNames.Path, "/" + expectedBytes),
            new KeyValuePair<string, string>(InternalHeaderNames.Scheme, "https"),
            new KeyValuePair<string, string>(InternalHeaderNames.Authority, "localhost:80"),
        };
 
    public static readonly byte[] _helloBytes = Encoding.ASCII.GetBytes("hello");
    public static readonly byte[] _worldBytes = Encoding.ASCII.GetBytes("world");
    public static readonly byte[] _helloWorldBytes = Encoding.ASCII.GetBytes("hello, world");
    public static readonly byte[] _noData = Array.Empty<byte>();
    public static readonly byte[] _maxData = Encoding.ASCII.GetBytes(new string('a', Http2PeerSettings.MinAllowedMaxFrameSize));
 
    internal readonly Http2PeerSettings _clientSettings = new Http2PeerSettings();
    internal readonly HPackDecoder _hpackDecoder;
    private readonly byte[] _headerEncodingBuffer = new byte[Http2PeerSettings.MinAllowedMaxFrameSize];
 
    public readonly Dictionary<string, string> _decodedHeaders = new Dictionary<string, string>(StringComparer.OrdinalIgnoreCase);
 
    internal DuplexPipe.DuplexPipePair _pair;
    public long _bytesReceived;
 
    public Http2Utilities(ConnectionContext clientConnectionContext, ILogger logger, CancellationToken stopToken)
    {
        _hpackDecoder = new HPackDecoder((int)_clientSettings.HeaderTableSize, MaxRequestHeaderFieldSize);
        _pair = new DuplexPipe.DuplexPipePair(transport: null, application: clientConnectionContext.Transport);
        Logger = logger;
        StopToken = stopToken;
    }
 
    public ILogger Logger { get; }
    public CancellationToken StopToken { get; }
 
    void IHttpStreamHeadersHandler.OnHeader(ReadOnlySpan<byte> name, ReadOnlySpan<byte> value)
    {
        var headerName = name.GetAsciiString();
        var headerValue = value.GetAsciiOrUTF8String(HeaderValueEncoding);
        if (headerName.Contains('\0') || headerValue.Contains('\0'))
        {
            throw new InvalidOperationException();
        }
 
        _decodedHeaders[headerName] = headerValue;
    }
 
    void IHttpStreamHeadersHandler.OnHeadersComplete(bool endStream) { }
 
    public async Task InitializeConnectionAsync(int expectedSettingsCount = 3)
    {
        await SendPreambleAsync().ConfigureAwait(false);
        await SendSettingsAsync();
 
        await ExpectAsync(Http2FrameType.SETTINGS,
            withLength: expectedSettingsCount * Http2FrameReader.SettingSize,
            withFlags: 0,
            withStreamId: 0);
 
        await ExpectAsync(Http2FrameType.WINDOW_UPDATE,
            withLength: 4,
            withFlags: 0,
            withStreamId: 0);
 
        await ExpectAsync(Http2FrameType.SETTINGS,
            withLength: 0,
            withFlags: (byte)Http2SettingsFrameFlags.ACK,
            withStreamId: 0);
    }
 
    public Task StartStreamAsync(int streamId, IEnumerable<KeyValuePair<string, string>> headers, bool endStream)
    {
        var writableBuffer = _pair.Application.Output;
 
        var frame = new Http2Frame();
        frame.PrepareHeaders(Http2HeadersFrameFlags.NONE, streamId);
 
        var buffer = _headerEncodingBuffer.AsSpan();
        var headersEnumerator = GetHeadersEnumerator(headers);
        var done = HPackHeaderWriter.BeginEncodeHeaders(headersEnumerator, buffer, out var length);
        frame.PayloadLength = length;
 
        if (done)
        {
            frame.HeadersFlags = Http2HeadersFrameFlags.END_HEADERS;
        }
 
        if (endStream)
        {
            frame.HeadersFlags |= Http2HeadersFrameFlags.END_STREAM;
        }
 
        WriteHeader(frame, writableBuffer);
        writableBuffer.Write(buffer.Slice(0, length));
 
        while (!done)
        {
            frame.PrepareContinuation(Http2ContinuationFrameFlags.NONE, streamId);
 
            done = HPackHeaderWriter.ContinueEncodeHeaders(headersEnumerator, buffer, out length);
            frame.PayloadLength = length;
 
            if (done)
            {
                frame.ContinuationFlags = Http2ContinuationFrameFlags.END_HEADERS;
            }
 
            WriteHeader(frame, writableBuffer);
            writableBuffer.Write(buffer.Slice(0, length));
        }
 
        return FlushAsync(writableBuffer);
    }
 
    private static IEnumerator<KeyValuePair<string, string>> GetHeadersEnumerator(IEnumerable<KeyValuePair<string, string>> headers)
    {
        var headersEnumerator = headers.GetEnumerator();
        return headersEnumerator;
    }
 
    internal Dictionary<string, string> DecodeHeaders(Http2FrameWithPayload frame, bool endHeaders = false)
    {
        Assert.Equal(Http2FrameType.HEADERS, frame.Type);
        _hpackDecoder.Decode(frame.PayloadSequence, endHeaders, handler: this);
        return _decodedHeaders;
    }
 
    internal void ResetHeaders()
    {
        _decodedHeaders.Clear();
    }
 
    /* https://tools.ietf.org/html/rfc7540#section-4.1
        +-----------------------------------------------+
        |                 Length (24)                   |
        +---------------+---------------+---------------+
        |   Type (8)    |   Flags (8)   |
        +-+-------------+---------------+-------------------------------+
        |R|                 Stream Identifier (31)                      |
        +=+=============================================================+
        |                   Frame Payload (0...)                      ...
        +---------------------------------------------------------------+
    */
    internal static void WriteHeader(Http2Frame frame, PipeWriter output)
    {
        var buffer = output.GetSpan(Http2FrameReader.HeaderLength);
 
        Bitshifter.WriteUInt24BigEndian(buffer, (uint)frame.PayloadLength);
        buffer = buffer.Slice(3);
 
        buffer[0] = (byte)frame.Type;
        buffer[1] = frame.Flags;
        buffer = buffer.Slice(2);
 
        Bitshifter.WriteUInt31BigEndian(buffer, (uint)frame.StreamId, preserveHighestBit: false);
 
        output.Advance(Http2FrameReader.HeaderLength);
    }
 
    /* https://tools.ietf.org/html/rfc7540#section-6.2
        +---------------+
        |Pad Length? (8)|
        +-+-------------+-----------------------------------------------+
        |                   Header Block Fragment (*)                 ...
        +---------------------------------------------------------------+
        |                           Padding (*)                       ...
        +---------------------------------------------------------------+
    */
    public Task SendHeadersWithPaddingAsync(int streamId, IEnumerable<KeyValuePair<string, string>> headers, byte padLength, bool endStream)
    {
        var writableBuffer = _pair.Application.Output;
 
        var frame = new Http2Frame();
 
        frame.PrepareHeaders(Http2HeadersFrameFlags.END_HEADERS | Http2HeadersFrameFlags.PADDED, streamId);
        frame.HeadersPadLength = padLength;
 
        var extendedHeaderLength = 1; // Padding length field
        var buffer = _headerEncodingBuffer.AsSpan();
        var extendedHeader = buffer.Slice(0, extendedHeaderLength);
        extendedHeader[0] = padLength;
        var payload = buffer.Slice(extendedHeaderLength, buffer.Length - padLength - extendedHeaderLength);
 
        HPackHeaderWriter.BeginEncodeHeaders(GetHeadersEnumerator(headers), payload, out var length);
        var padding = buffer.Slice(extendedHeaderLength + length, padLength);
        padding.Clear();
 
        frame.PayloadLength = extendedHeaderLength + length + padLength;
 
        if (endStream)
        {
            frame.HeadersFlags |= Http2HeadersFrameFlags.END_STREAM;
        }
 
        WriteHeader(frame, writableBuffer);
        writableBuffer.Write(buffer.Slice(0, frame.PayloadLength));
        return FlushAsync(writableBuffer);
    }
 
    /* https://tools.ietf.org/html/rfc7540#section-6.2
        +-+-------------+-----------------------------------------------+
        |E|                 Stream Dependency? (31)                     |
        +-+-------------+-----------------------------------------------+
        |  Weight? (8)  |
        +-+-------------+-----------------------------------------------+
        |                   Header Block Fragment (*)                 ...
        +---------------------------------------------------------------+
    */
    public Task SendHeadersWithPriorityAsync(int streamId, IEnumerable<KeyValuePair<string, string>> headers, byte priority, int streamDependency, bool endStream)
    {
        var writableBuffer = _pair.Application.Output;
 
        var frame = new Http2Frame();
        frame.PrepareHeaders(Http2HeadersFrameFlags.END_HEADERS | Http2HeadersFrameFlags.PRIORITY, streamId);
        frame.HeadersPriorityWeight = priority;
        frame.HeadersStreamDependency = streamDependency;
 
        var extendedHeaderLength = 5; // stream dependency + weight
        var buffer = _headerEncodingBuffer.AsSpan();
        var extendedHeader = buffer.Slice(0, extendedHeaderLength);
        Bitshifter.WriteUInt31BigEndian(extendedHeader, (uint)streamDependency);
        extendedHeader[4] = priority;
        var payload = buffer.Slice(extendedHeaderLength);
 
        HPackHeaderWriter.BeginEncodeHeaders(GetHeadersEnumerator(headers), payload, out var length);
 
        frame.PayloadLength = extendedHeaderLength + length;
 
        if (endStream)
        {
            frame.HeadersFlags |= Http2HeadersFrameFlags.END_STREAM;
        }
 
        WriteHeader(frame, writableBuffer);
        writableBuffer.Write(buffer.Slice(0, frame.PayloadLength));
        return FlushAsync(writableBuffer);
    }
 
    /* https://tools.ietf.org/html/rfc7540#section-6.2
        +---------------+
        |Pad Length? (8)|
        +-+-------------+-----------------------------------------------+
        |E|                 Stream Dependency? (31)                     |
        +-+-------------+-----------------------------------------------+
        |  Weight? (8)  |
        +-+-------------+-----------------------------------------------+
        |                   Header Block Fragment (*)                 ...
        +---------------------------------------------------------------+
        |                           Padding (*)                       ...
        +---------------------------------------------------------------+
    */
    public Task SendHeadersWithPaddingAndPriorityAsync(int streamId, IEnumerable<KeyValuePair<string, string>> headers, byte padLength, byte priority, int streamDependency, bool endStream)
    {
        var writableBuffer = _pair.Application.Output;
 
        var frame = new Http2Frame();
        frame.PrepareHeaders(Http2HeadersFrameFlags.END_HEADERS | Http2HeadersFrameFlags.PADDED | Http2HeadersFrameFlags.PRIORITY, streamId);
        frame.HeadersPadLength = padLength;
        frame.HeadersPriorityWeight = priority;
        frame.HeadersStreamDependency = streamDependency;
 
        var extendedHeaderLength = 6; // pad length + stream dependency + weight
        var buffer = _headerEncodingBuffer.AsSpan();
        var extendedHeader = buffer.Slice(0, extendedHeaderLength);
        extendedHeader[0] = padLength;
        Bitshifter.WriteUInt31BigEndian(extendedHeader.Slice(1), (uint)streamDependency);
        extendedHeader[5] = priority;
        var payload = buffer.Slice(extendedHeaderLength, buffer.Length - padLength - extendedHeaderLength);
 
        HPackHeaderWriter.BeginEncodeHeaders(GetHeadersEnumerator(headers), payload, out var length);
        var padding = buffer.Slice(extendedHeaderLength + length, padLength);
        padding.Clear();
 
        frame.PayloadLength = extendedHeaderLength + length + padLength;
 
        if (endStream)
        {
            frame.HeadersFlags |= Http2HeadersFrameFlags.END_STREAM;
        }
 
        WriteHeader(frame, writableBuffer);
        writableBuffer.Write(buffer.Slice(0, frame.PayloadLength));
        return FlushAsync(writableBuffer);
    }
 
    public Task SendAsync(ReadOnlySpan<byte> span)
    {
        var writableBuffer = _pair.Application.Output;
        writableBuffer.Write(span);
        return FlushAsync(writableBuffer);
    }
 
    public static async Task FlushAsync(PipeWriter writableBuffer)
    {
        await writableBuffer.FlushAsync().AsTask().DefaultTimeout();
    }
 
    public Task SendPreambleAsync() => SendAsync(ClientPreface);
 
    public async Task SendSettingsAsync()
    {
        var writableBuffer = _pair.Application.Output;
        var frame = new Http2Frame();
        frame.PrepareSettings(Http2SettingsFrameFlags.NONE);
        var settings = _clientSettings.GetNonProtocolDefaults();
        var payload = new byte[settings.Count * Http2FrameReader.SettingSize];
        frame.PayloadLength = payload.Length;
        WriteSettings(settings, payload);
        WriteHeader(frame, writableBuffer);
        await SendAsync(payload);
    }
 
    internal static void WriteSettings(IList<Http2PeerSetting> settings, Span<byte> destination)
    {
        foreach (var setting in settings)
        {
            BinaryPrimitives.WriteUInt16BigEndian(destination, (ushort)setting.Parameter);
            BinaryPrimitives.WriteUInt32BigEndian(destination.Slice(2), setting.Value);
            destination = destination.Slice(Http2FrameReader.SettingSize);
        }
    }
 
    public async Task SendSettingsAckWithInvalidLengthAsync(int length)
    {
        var writableBuffer = _pair.Application.Output;
        var frame = new Http2Frame();
        frame.PrepareSettings(Http2SettingsFrameFlags.ACK);
        frame.PayloadLength = length;
        WriteHeader(frame, writableBuffer);
        await SendAsync(new byte[length]);
    }
 
    public async Task SendSettingsWithInvalidStreamIdAsync(int streamId)
    {
        var writableBuffer = _pair.Application.Output;
        var frame = new Http2Frame();
        frame.PrepareSettings(Http2SettingsFrameFlags.NONE);
        frame.StreamId = streamId;
        var settings = _clientSettings.GetNonProtocolDefaults();
        var payload = new byte[settings.Count * Http2FrameReader.SettingSize];
        frame.PayloadLength = payload.Length;
        WriteSettings(settings, payload);
        WriteHeader(frame, writableBuffer);
        await SendAsync(payload);
    }
 
    public async Task SendSettingsWithInvalidLengthAsync(int length)
    {
        var writableBuffer = _pair.Application.Output;
        var frame = new Http2Frame();
        frame.PrepareSettings(Http2SettingsFrameFlags.NONE);
 
        frame.PayloadLength = length;
        var payload = new byte[length];
        WriteHeader(frame, writableBuffer);
        await SendAsync(payload);
    }
 
    internal async Task SendSettingsWithInvalidParameterValueAsync(Http2SettingsParameter parameter, uint value)
    {
        var writableBuffer = _pair.Application.Output;
        var frame = new Http2Frame();
        frame.PrepareSettings(Http2SettingsFrameFlags.NONE);
        frame.PayloadLength = 6;
        var payload = new byte[Http2FrameReader.SettingSize];
        payload[0] = (byte)((ushort)parameter >> 8);
        payload[1] = (byte)(ushort)parameter;
        payload[2] = (byte)(value >> 24);
        payload[3] = (byte)(value >> 16);
        payload[4] = (byte)(value >> 8);
        payload[5] = (byte)value;
 
        WriteHeader(frame, writableBuffer);
        await SendAsync(payload);
    }
 
    public Task SendPushPromiseFrameAsync()
    {
        var writableBuffer = _pair.Application.Output;
        var frame = new Http2Frame();
        frame.PayloadLength = 0;
        frame.Type = Http2FrameType.PUSH_PROMISE;
        frame.StreamId = 1;
 
        WriteHeader(frame, writableBuffer);
        return FlushAsync(writableBuffer);
    }
 
    internal async Task<bool> SendHeadersAsync(int streamId, Http2HeadersFrameFlags flags, IEnumerable<KeyValuePair<string, string>> headers)
    {
        var outputWriter = _pair.Application.Output;
        var frame = new Http2Frame();
 
        frame.PrepareHeaders(flags, streamId);
        var buffer = _headerEncodingBuffer.AsMemory();
        var done = HPackHeaderWriter.BeginEncodeHeaders(GetHeadersEnumerator(headers), buffer.Span, out var length);
        frame.PayloadLength = length;
 
        WriteHeader(frame, outputWriter);
        await SendAsync(buffer.Span.Slice(0, length));
 
        return done;
    }
 
    internal async Task SendHeadersAsync(int streamId, Http2HeadersFrameFlags flags, byte[] headerBlock)
    {
        var outputWriter = _pair.Application.Output;
        var frame = new Http2Frame();
 
        frame.PrepareHeaders(flags, streamId);
        frame.PayloadLength = headerBlock.Length;
 
        WriteHeader(frame, outputWriter);
        await SendAsync(headerBlock);
    }
 
    public async Task SendInvalidHeadersFrameAsync(int streamId, int payloadLength, byte padLength)
    {
        Assert.True(padLength >= payloadLength, $"{nameof(padLength)} must be greater than or equal to {nameof(payloadLength)} to create an invalid frame.");
 
        var outputWriter = _pair.Application.Output;
        var frame = new Http2Frame();
 
        frame.PrepareHeaders(Http2HeadersFrameFlags.PADDED, streamId);
        frame.PayloadLength = payloadLength;
        var payload = new byte[payloadLength];
        if (payloadLength > 0)
        {
            payload[0] = padLength;
        }
 
        WriteHeader(frame, outputWriter);
        await SendAsync(payload);
    }
 
    public async Task SendIncompleteHeadersFrameAsync(int streamId)
    {
        var outputWriter = _pair.Application.Output;
        var frame = new Http2Frame();
 
        frame.PrepareHeaders(Http2HeadersFrameFlags.END_HEADERS, streamId);
        frame.PayloadLength = 3;
        var payload = new byte[3];
        // Set up an incomplete Literal Header Field w/ Incremental Indexing frame,
        // with an incomplete new name
        payload[0] = 0;
        payload[1] = 2;
        payload[2] = (byte)'a';
 
        WriteHeader(frame, outputWriter);
        await SendAsync(payload);
    }
 
    internal async Task<bool> SendContinuationAsync(int streamId, Http2ContinuationFrameFlags flags, IEnumerator<KeyValuePair<string, string>> headersEnumerator)
    {
        var outputWriter = _pair.Application.Output;
        var frame = new Http2Frame();
 
        frame.PrepareContinuation(flags, streamId);
        var buffer = _headerEncodingBuffer.AsMemory();
        var done = HPackHeaderWriter.ContinueEncodeHeaders(headersEnumerator, buffer.Span, out var length);
        frame.PayloadLength = length;
 
        WriteHeader(frame, outputWriter);
        await SendAsync(buffer.Span.Slice(0, length));
 
        return done;
    }
 
    internal async Task SendContinuationAsync(int streamId, Http2ContinuationFrameFlags flags, byte[] payload)
    {
        var outputWriter = _pair.Application.Output;
        var frame = new Http2Frame();
 
        frame.PrepareContinuation(flags, streamId);
        frame.PayloadLength = payload.Length;
 
        WriteHeader(frame, outputWriter);
        await SendAsync(payload);
    }
 
    internal async Task<bool> SendContinuationAsync(int streamId, Http2ContinuationFrameFlags flags, IEnumerable<KeyValuePair<string, string>> headers)
    {
        var outputWriter = _pair.Application.Output;
        var frame = new Http2Frame();
 
        frame.PrepareContinuation(flags, streamId);
        var buffer = _headerEncodingBuffer.AsMemory();
        var done = HPackHeaderWriter.BeginEncodeHeaders(GetHeadersEnumerator(headers), buffer.Span, out var length);
        frame.PayloadLength = length;
 
        WriteHeader(frame, outputWriter);
        await SendAsync(buffer.Span.Slice(0, length));
 
        return done;
    }
 
    internal Task SendEmptyContinuationFrameAsync(int streamId, Http2ContinuationFrameFlags flags)
    {
        var outputWriter = _pair.Application.Output;
        var frame = new Http2Frame();
 
        frame.PrepareContinuation(flags, streamId);
        frame.PayloadLength = 0;
 
        WriteHeader(frame, outputWriter);
        return FlushAsync(outputWriter);
    }
 
    public async Task SendIncompleteContinuationFrameAsync(int streamId)
    {
        var outputWriter = _pair.Application.Output;
        var frame = new Http2Frame();
 
        frame.PrepareContinuation(Http2ContinuationFrameFlags.END_HEADERS, streamId);
        frame.PayloadLength = 3;
        var payload = new byte[3];
        // Set up an incomplete Literal Header Field w/ Incremental Indexing frame,
        // with an incomplete new name
        payload[0] = 0;
        payload[1] = 2;
        payload[2] = (byte)'a';
 
        WriteHeader(frame, outputWriter);
        await SendAsync(payload);
    }
 
    public Task SendDataAsync(int streamId, Memory<byte> data, bool endStream)
    {
        var outputWriter = _pair.Application.Output;
        var frame = new Http2Frame();
 
        frame.PrepareData(streamId);
        frame.PayloadLength = data.Length;
        frame.DataFlags = endStream ? Http2DataFrameFlags.END_STREAM : Http2DataFrameFlags.NONE;
 
        WriteHeader(frame, outputWriter);
        return SendAsync(data.Span);
    }
 
    public async Task SendDataWithPaddingAsync(int streamId, Memory<byte> data, byte padLength, bool endStream)
    {
        var outputWriter = _pair.Application.Output;
        var frame = new Http2Frame();
 
        frame.PrepareData(streamId, padLength);
        frame.PayloadLength = data.Length + 1 + padLength;
 
        if (endStream)
        {
            frame.DataFlags |= Http2DataFrameFlags.END_STREAM;
        }
 
        WriteHeader(frame, outputWriter);
        outputWriter.GetSpan(1)[0] = padLength;
        outputWriter.Advance(1);
        await SendAsync(data.Span);
        await SendAsync(new byte[padLength]);
    }
 
    public Task SendInvalidDataFrameAsync(int streamId, int frameLength, byte padLength)
    {
        Assert.True(padLength >= frameLength, $"{nameof(padLength)} must be greater than or equal to {nameof(frameLength)} to create an invalid frame.");
 
        var outputWriter = _pair.Application.Output;
        var frame = new Http2Frame();
 
        frame.PrepareData(streamId);
        frame.DataFlags = Http2DataFrameFlags.PADDED;
        frame.PayloadLength = frameLength;
        var payload = new byte[frameLength];
        if (frameLength > 0)
        {
            payload[0] = padLength;
        }
 
        WriteHeader(frame, outputWriter);
        return SendAsync(payload);
    }
 
    internal Task SendPingAsync(Http2PingFrameFlags flags)
    {
        var outputWriter = _pair.Application.Output;
        var pingFrame = new Http2Frame();
        pingFrame.PreparePing(flags);
        WriteHeader(pingFrame, outputWriter);
        return SendAsync(new byte[8]); // Empty payload
    }
 
    public Task SendPingWithInvalidLengthAsync(int length)
    {
        var outputWriter = _pair.Application.Output;
        var pingFrame = new Http2Frame();
        pingFrame.PreparePing(Http2PingFrameFlags.NONE);
        pingFrame.PayloadLength = length;
        WriteHeader(pingFrame, outputWriter);
        return SendAsync(new byte[length]);
    }
 
    public Task SendPingWithInvalidStreamIdAsync(int streamId)
    {
        Assert.NotEqual(0, streamId);
 
        var outputWriter = _pair.Application.Output;
        var pingFrame = new Http2Frame();
        pingFrame.PreparePing(Http2PingFrameFlags.NONE);
        pingFrame.StreamId = streamId;
        WriteHeader(pingFrame, outputWriter);
        return SendAsync(new byte[pingFrame.PayloadLength]);
    }
 
    /* https://tools.ietf.org/html/rfc7540#section-6.3
        +-+-------------------------------------------------------------+
        |E|                  Stream Dependency (31)                     |
        +-+-------------+-----------------------------------------------+
        |   Weight (8)  |
        +-+-------------+
    */
    public Task SendPriorityAsync(int streamId, int streamDependency = 0)
    {
        var outputWriter = _pair.Application.Output;
        var priorityFrame = new Http2Frame();
        priorityFrame.PreparePriority(streamId, streamDependency: streamDependency, exclusive: false, weight: 0);
 
        var payload = new byte[priorityFrame.PayloadLength].AsSpan();
        Bitshifter.WriteUInt31BigEndian(payload, (uint)streamDependency);
        payload[4] = 0; // Weight
 
        WriteHeader(priorityFrame, outputWriter);
        return SendAsync(payload);
    }
 
    public Task SendInvalidPriorityFrameAsync(int streamId, int length)
    {
        var outputWriter = _pair.Application.Output;
        var priorityFrame = new Http2Frame();
        priorityFrame.PreparePriority(streamId, streamDependency: 0, exclusive: false, weight: 0);
        priorityFrame.PayloadLength = length;
 
        WriteHeader(priorityFrame, outputWriter);
        return SendAsync(new byte[length]);
    }
 
    /* https://tools.ietf.org/html/rfc7540#section-6.4
        +---------------------------------------------------------------+
        |                        Error Code (32)                        |
        +---------------------------------------------------------------+
    */
    public Task SendRstStreamAsync(int streamId)
    {
        var outputWriter = _pair.Application.Output;
        var rstStreamFrame = new Http2Frame();
        rstStreamFrame.PrepareRstStream(streamId, Http2ErrorCode.CANCEL);
        var payload = new byte[rstStreamFrame.PayloadLength];
        BinaryPrimitives.WriteUInt32BigEndian(payload, (uint)Http2ErrorCode.CANCEL);
 
        WriteHeader(rstStreamFrame, outputWriter);
        return SendAsync(payload);
    }
 
    public Task SendInvalidRstStreamFrameAsync(int streamId, int length)
    {
        var outputWriter = _pair.Application.Output;
        var frame = new Http2Frame();
        frame.PrepareRstStream(streamId, Http2ErrorCode.CANCEL);
        frame.PayloadLength = length;
        WriteHeader(frame, outputWriter);
        return SendAsync(new byte[length]);
    }
 
    public Task SendGoAwayAsync()
    {
        var outputWriter = _pair.Application.Output;
        var frame = new Http2Frame();
        frame.PrepareGoAway(0, Http2ErrorCode.NO_ERROR);
        WriteHeader(frame, outputWriter);
        return SendAsync(new byte[frame.PayloadLength]);
    }
 
    public Task SendInvalidGoAwayFrameAsync()
    {
        var outputWriter = _pair.Application.Output;
        var frame = new Http2Frame();
        frame.PrepareGoAway(0, Http2ErrorCode.NO_ERROR);
        frame.StreamId = 1;
        WriteHeader(frame, outputWriter);
        return SendAsync(new byte[frame.PayloadLength]);
    }
 
    public Task SendWindowUpdateAsync(int streamId, int sizeIncrement)
    {
        var outputWriter = _pair.Application.Output;
        var frame = new Http2Frame();
        frame.PrepareWindowUpdate(streamId, sizeIncrement);
        WriteHeader(frame, outputWriter);
        var buffer = outputWriter.GetSpan(4);
        BinaryPrimitives.WriteUInt32BigEndian(buffer, (uint)sizeIncrement);
        outputWriter.Advance(4);
        return FlushAsync(outputWriter);
    }
 
    public Task SendInvalidWindowUpdateAsync(int streamId, int sizeIncrement, int length)
    {
        var outputWriter = _pair.Application.Output;
        var frame = new Http2Frame();
        frame.PrepareWindowUpdate(streamId, sizeIncrement);
        frame.PayloadLength = length;
        WriteHeader(frame, outputWriter);
        return SendAsync(new byte[length]);
    }
 
    public Task SendUnknownFrameTypeAsync(int streamId, int frameType)
    {
        var outputWriter = _pair.Application.Output;
        var frame = new Http2Frame();
        frame.StreamId = streamId;
        frame.Type = (Http2FrameType)frameType;
        frame.PayloadLength = 0;
        WriteHeader(frame, outputWriter);
        return FlushAsync(outputWriter);
    }
 
    internal async Task<Http2FrameWithPayload> ReceiveFrameAsync(uint maxFrameSize = Http2PeerSettings.DefaultMaxFrameSize)
    {
        var frame = new Http2FrameWithPayload();
 
        while (true)
        {
            var result = await _pair.Application.Input.ReadAsync().AsTask().DefaultTimeout();
            var buffer = result.Buffer;
            var consumed = buffer.Start;
            var examined = buffer.Start;
 
            try
            {
                Assert.True(buffer.Length > 0);
 
                if (Http2FrameReader.TryReadFrame(ref buffer, frame, maxFrameSize, out var framePayload))
                {
                    consumed = examined = framePayload.End;
                    frame.Payload = framePayload.ToArray();
                    return frame;
                }
                else
                {
                    examined = buffer.End;
                }
 
                if (result.IsCompleted)
                {
                    throw new IOException("The reader completed without returning a frame.");
                }
            }
            finally
            {
                _bytesReceived += buffer.Slice(buffer.Start, consumed).Length;
                _pair.Application.Input.AdvanceTo(consumed, examined);
            }
        }
    }
 
    internal async Task<Http2FrameWithPayload> ExpectAsync(Http2FrameType type, int withLength, byte withFlags, int withStreamId)
    {
        var frame = await ReceiveFrameAsync((uint)withLength);
 
        Assert.Equal(type, frame.Type);
        Assert.Equal(withLength, frame.PayloadLength);
        Assert.Equal(withFlags, frame.Flags);
        Assert.Equal(withStreamId, frame.StreamId);
 
        return frame;
    }
 
    public async Task StopConnectionAsync(int expectedLastStreamId, bool ignoreNonGoAwayFrames)
    {
        await SendGoAwayAsync();
        await WaitForConnectionStopAsync(expectedLastStreamId, ignoreNonGoAwayFrames);
 
        _pair.Application.Output.Complete();
    }
 
    public Task WaitForConnectionStopAsync(int expectedLastStreamId, bool ignoreNonGoAwayFrames)
    {
        return WaitForConnectionErrorAsync<Exception>(ignoreNonGoAwayFrames, expectedLastStreamId, Http2ErrorCode.NO_ERROR);
    }
 
    internal Task ReceiveHeadersAsync(int expectedStreamId, Action<IDictionary<string, string>> verifyHeaders = null)
        => ReceiveHeadersAsync(expectedStreamId, endStream: false, verifyHeaders);
 
    internal async Task ReceiveHeadersAsync(int expectedStreamId, bool endStream = false, Action<IDictionary<string, string>> verifyHeaders = null)
    {
        var headersFrame = await ReceiveFrameAsync();
        Assert.Equal(Http2FrameType.HEADERS, headersFrame.Type);
        Assert.Equal(expectedStreamId, headersFrame.StreamId);
        Assert.True((headersFrame.Flags & (byte)Http2HeadersFrameFlags.END_HEADERS) != 0);
        Assert.Equal(endStream, (headersFrame.Flags & (byte)Http2HeadersFrameFlags.END_STREAM) != 0);
        Logger.LogInformation("Received headers in a single frame.");
 
        ResetHeaders();
        DecodeHeaders(headersFrame);
        verifyHeaders?.Invoke(_decodedHeaders);
    }
 
    internal static void VerifyDataFrame(Http2Frame frame, int expectedStreamId, bool endOfStream, int length)
    {
        Assert.Equal(Http2FrameType.DATA, frame.Type);
        Assert.Equal(expectedStreamId, frame.StreamId);
        Assert.Equal(endOfStream ? Http2DataFrameFlags.END_STREAM : Http2DataFrameFlags.NONE, frame.DataFlags);
        Assert.Equal(length, frame.PayloadLength);
    }
 
    internal static void VerifyGoAway(Http2Frame frame, int expectedLastStreamId, Http2ErrorCode expectedErrorCode)
    {
        Assert.Equal(Http2FrameType.GOAWAY, frame.Type);
        Assert.Equal(8, frame.PayloadLength);
        Assert.Equal(0, frame.Flags);
        Assert.Equal(0, frame.StreamId);
        Assert.Equal(expectedLastStreamId, frame.GoAwayLastStreamId);
        Assert.Equal(expectedErrorCode, frame.GoAwayErrorCode);
    }
 
    internal static void VerifyResetFrame(Http2Frame frame, int expectedStreamId, Http2ErrorCode expectedErrorCode)
    {
        Assert.Equal(Http2FrameType.RST_STREAM, frame.Type);
        Assert.Equal(expectedStreamId, frame.StreamId);
        Assert.Equal(expectedErrorCode, frame.RstStreamErrorCode);
        Assert.Equal(4, frame.PayloadLength);
        Assert.Equal(0, frame.Flags);
    }
 
    internal async Task WaitForConnectionErrorAsync<TException>(bool ignoreNonGoAwayFrames, int expectedLastStreamId, Http2ErrorCode expectedErrorCode)
        where TException : Exception
    {
        await WaitForConnectionErrorAsyncDoNotCloseTransport<TException>(ignoreNonGoAwayFrames, expectedLastStreamId, expectedErrorCode);
        _pair.Application.Output.Complete();
    }
 
    internal async Task WaitForConnectionErrorAsyncDoNotCloseTransport<TException>(bool ignoreNonGoAwayFrames, int expectedLastStreamId, Http2ErrorCode expectedErrorCode)
        where TException : Exception
    {
        var frame = await ReceiveFrameAsync();
 
        if (ignoreNonGoAwayFrames)
        {
            while (frame.Type != Http2FrameType.GOAWAY)
            {
                frame = await ReceiveFrameAsync();
            }
        }
 
        VerifyGoAway(frame, expectedLastStreamId, expectedErrorCode);
    }
 
    internal async Task WaitForStreamErrorAsync(int expectedStreamId, Http2ErrorCode expectedErrorCode)
    {
        var frame = await ReceiveFrameAsync();
 
        Assert.Equal(Http2FrameType.RST_STREAM, frame.Type);
        Assert.Equal(4, frame.PayloadLength);
        Assert.Equal(0, frame.Flags);
        Assert.Equal(expectedStreamId, frame.StreamId);
        Assert.Equal(expectedErrorCode, frame.RstStreamErrorCode);
    }
 
    public void OnStaticIndexedHeader(int index)
    {
        ref readonly var entry = ref H2StaticTable.Get(index - 1);
        ((IHttpStreamHeadersHandler)this).OnHeader(entry.Name, entry.Value);
    }
 
    public void OnStaticIndexedHeader(int index, ReadOnlySpan<byte> value)
    {
        ((IHttpStreamHeadersHandler)this).OnHeader(H2StaticTable.Get(index - 1).Name, value);
    }
 
    public void OnDynamicIndexedHeader(int? index, ReadOnlySpan<byte> name, ReadOnlySpan<byte> value)
    {
        ((IHttpStreamHeadersHandler)this).OnHeader(name, value);
    }
 
    internal sealed class Http2FrameWithPayload : Http2Frame
    {
        public Http2FrameWithPayload() : base()
        {
        }
 
        // This does not contain extended headers
        public Memory<byte> Payload { get; set; }
 
        public ReadOnlySequence<byte> PayloadSequence => new ReadOnlySequence<byte>(Payload);
    }
 
    private static class Assert
    {
        public static void True(bool condition, string message = "")
        {
            if (!condition)
            {
                throw new Exception($"Assert.True failed: '{message}'");
            }
        }
 
        public static void Equal<T>(T expected, T actual)
        {
            if (!expected.Equals(actual))
            {
                throw new Exception($"Assert.Equal('{expected}', '{actual}') failed");
            }
        }
 
        public static void Equal(string expected, string actual, bool ignoreCase = false)
        {
            if (!expected.Equals(actual, ignoreCase ? StringComparison.InvariantCultureIgnoreCase : StringComparison.InvariantCulture))
            {
                throw new Exception($"Assert.Equal('{expected}', '{actual}') failed");
            }
        }
 
        public static void NotEqual<T>(T value1, T value2)
        {
            if (value1.Equals(value2))
            {
                throw new Exception($"Assert.NotEqual('{value1}', '{value2}') failed");
            }
        }
 
        public static void Contains<T>(IEnumerable<T> collection, T value)
        {
            if (!collection.Contains(value))
            {
                throw new Exception($"Assert.Contains(collection, '{value}') failed");
            }
        }
    }
}