using System;
using System.Collections.Generic;
using System.Linq;
using System.Net.Http;
namespace Rssdp.Infrastructure
{
///
/// A base class for the and classes. Not intended for direct use.
///
///
public abstract class HttpParserBase where T : new()
{
#region Fields
private readonly string[] LineTerminators = new string[] { "\r\n", "\n" };
private readonly char[] SeparatorCharacters = new char[] { ',', ';' };
#endregion
#region Public Methods
///
/// Parses the provided into either a or object.
///
/// A string containing the HTTP message to parse.
/// Either a or object containing the parsed data.
public abstract T Parse(string data);
///
/// Parses a string containing either an HTTP request or response into a or object.
///
/// A or object representing the parsed message.
/// A reference to the collection for the object.
/// A string containing the data to be parsed.
/// An object containing the content of the parsed message.
[System.Diagnostics.CodeAnalysis.SuppressMessage("Microsoft.Usage", "CA2202:Do not dispose objects multiple times", Justification = "Honestly, it's fine. MemoryStream doesn't mind.")]
protected virtual void Parse(T message, System.Net.Http.Headers.HttpHeaders headers, string data)
{
if (data == null) throw new ArgumentNullException(nameof(data));
if (data.Length == 0) throw new ArgumentException("data cannot be an empty string.", nameof(data));
if (!LineTerminators.Any(data.Contains)) throw new ArgumentException("data is not a valid request, it does not contain any CRLF/LF terminators.", nameof(data));
using (var retVal = new ByteArrayContent(Array.Empty()))
{
var lines = data.Split(LineTerminators, StringSplitOptions.None);
// First line is the 'request' line containing http protocol details like method, uri, http version etc.
ParseStatusLine(lines[0], message);
ParseHeaders(headers, retVal.Headers, lines);
}
}
///
/// Used to parse the first line of an HTTP request or response and assign the values to the appropriate properties on the .
///
/// The first line of the HTTP message to be parsed.
/// Either a or to assign the parsed values to.
protected abstract void ParseStatusLine(string data, T message);
///
/// Returns a boolean indicating whether the specified HTTP header name represents a content header (true), or a message header (false).
///
/// A string containing the name of the header to return the type of.
protected abstract bool IsContentHeader(string headerName);
///
/// Parses the HTTP version text from an HTTP request or response status line and returns a object representing the parsed values.
///
/// A string containing the HTTP version, from the message status line.
/// A object containing the parsed version data.
protected Version ParseHttpVersion(string versionData)
{
if (versionData == null) throw new ArgumentNullException(nameof(versionData));
var versionSeparatorIndex = versionData.IndexOf('/');
if (versionSeparatorIndex <= 0 || versionSeparatorIndex == versionData.Length) throw new ArgumentException("request header line is invalid. Http Version not supplied or incorrect format.", nameof(versionData));
return Version.Parse(versionData.Substring(versionSeparatorIndex + 1));
}
#endregion
#region Private Methods
///
/// Parses a line from an HTTP request or response message containing a header name and value pair.
///
/// A string containing the data to be parsed.
/// A reference to a collection to which the parsed header will be added.
/// A reference to a collection for the message content, to which the parsed header will be added.
private void ParseHeader(string line, System.Net.Http.Headers.HttpHeaders headers, System.Net.Http.Headers.HttpHeaders contentHeaders)
{
// Header format is
// name: value
var headerKeySeparatorIndex = line.IndexOf(":", StringComparison.OrdinalIgnoreCase);
var headerName = line.Substring(0, headerKeySeparatorIndex).Trim();
var headerValue = line.Substring(headerKeySeparatorIndex + 1).Trim();
// Not sure how to determine where request headers and and content headers begin,
// at least not without a known set of headers (general headers first the content headers)
// which seems like a bad way of doing it. So we'll assume if it's a known content header put it there
// else use request headers.
var values = ParseValues(headerValue);
var headersToAddTo = IsContentHeader(headerName) ? contentHeaders : headers;
if (values.Count > 1)
headersToAddTo.TryAddWithoutValidation(headerName, values);
else
headersToAddTo.TryAddWithoutValidation(headerName, values.First());
}
private int ParseHeaders(System.Net.Http.Headers.HttpHeaders headers, System.Net.Http.Headers.HttpHeaders contentHeaders, string[] lines)
{
// Blank line separates headers from content, so read headers until we find blank line.
int lineIndex = 1;
string line = null, nextLine = null;
while (lineIndex + 1 < lines.Length && !String.IsNullOrEmpty((line = lines[lineIndex++])))
{
// If the following line starts with space or tab (or any whitespace), it is really part of this header but split for human readability.
// Combine these lines into a single comma separated style header for easier parsing.
while (lineIndex < lines.Length && !String.IsNullOrEmpty((nextLine = lines[lineIndex])))
{
if (nextLine.Length > 0 && Char.IsWhiteSpace(nextLine[0]))
{
line += "," + nextLine.TrimStart();
lineIndex++;
}
else
break;
}
ParseHeader(line, headers, contentHeaders);
}
return lineIndex;
}
private IList ParseValues(string headerValue)
{
// This really should be better and match the HTTP 1.1 spec,
// but this should actually be good enough for SSDP implementations
// I think.
var values = new List();
if (headerValue == "\"\"")
{
values.Add(String.Empty);
return values;
}
var indexOfSeparator = headerValue.IndexOfAny(SeparatorCharacters);
if (indexOfSeparator <= 0)
values.Add(headerValue);
else
{
var segments = headerValue.Split(SeparatorCharacters);
if (headerValue.Contains("\""))
{
for (int segmentIndex = 0; segmentIndex < segments.Length; segmentIndex++)
{
var segment = segments[segmentIndex];
if (segment.Trim().StartsWith("\"", StringComparison.OrdinalIgnoreCase))
segment = CombineQuotedSegments(segments, ref segmentIndex, segment);
values.Add(segment);
}
}
else
values.AddRange(segments);
}
return values;
}
private string CombineQuotedSegments(string[] segments, ref int segmentIndex, string segment)
{
var trimmedSegment = segment.Trim();
for (int index = segmentIndex; index < segments.Length; index++)
{
if (trimmedSegment == "\"\"" ||
(
trimmedSegment.EndsWith("\"", StringComparison.OrdinalIgnoreCase)
&& !trimmedSegment.EndsWith("\"\"", StringComparison.OrdinalIgnoreCase)
&& !trimmedSegment.EndsWith("\\\"", StringComparison.OrdinalIgnoreCase))
)
{
segmentIndex = index;
return trimmedSegment.Substring(1, trimmedSegment.Length - 2);
}
if (index + 1 < segments.Length)
trimmedSegment += "," + segments[index + 1].TrimEnd();
}
segmentIndex = segments.Length;
if (trimmedSegment.StartsWith("\"", StringComparison.OrdinalIgnoreCase) && trimmedSegment.EndsWith("\"", StringComparison.OrdinalIgnoreCase))
return trimmedSegment.Substring(1, trimmedSegment.Length - 2);
else
return trimmedSegment;
}
#endregion
}
}