Exemple #1
0
        /// <summary>
        /// Parses the header of the next section of the multipart stream and
        ///     determines if it contains file data or parameter data.
        /// </summary>
        /// <param name="reader">
        /// The StreamReader to read data from.
        /// </param>
        /// <exception cref="MultipartParseException">
        /// thrown if unexpected data is hit such as end of stream.
        /// </exception>
        private void ParseSection(RebufferableBinaryReader reader)
        {
            // Our first job is to determine what type of section this is: form data or file.
            // This is a bit tricky because files can still be encoded with Content-Disposition: form-data
            // in the case of single file uploads. Multi-file uploads have Content-Disposition: file according
            // to the spec however in practise it seems that multiple files will be represented by
            // multiple Content-Disposition: form-data files.
            var parameters = new Dictionary <string, string>();

            string line = reader.ReadLine();

            while (line != string.Empty)
            {
                if (line == null)
                {
                    throw new MultipartParseException("Unexpected end of stream");
                }

                if (line == this.boundary || line == this.endBoundary)
                {
                    throw new MultipartParseException("Unexpected end of section");
                }


                // This line parses the header values into a set of key/value pairs. For example:
                // Content-Disposition: form-data; name="textdata"
                // ["content-disposition"] = "form-data"
                // ["name"] = "textdata"
                // Content-Disposition: form-data; name="file"; filename="data.txt"
                // ["content-disposition"] = "form-data"
                // ["name"] = "file"
                // ["filename"] = "data.txt"
                // Content-Type: text/plain
                // ["content-type"] = "text/plain"
                var values = SplitBySemicolonIgnoringSemicolonsInQuotes(line)
                             .Select(x => x.Split(new[] { ':', '=' }, 2)) // Limit split to 2 splits so we don't accidently split characters in file paths.
                             .ToDictionary(
                    x => x[0].Trim().Replace("\"", string.Empty).ToLower(),
                    x => x[1].Trim().Replace("\"", string.Empty));


                // Here we just want to push all the values that we just retrieved into the
                // parameters dictionary.
                try
                {
                    foreach (var pair in values)
                    {
                        parameters.Add(pair.Key, pair.Value);
                    }
                }
                catch (ArgumentException)
                {
                    throw new MultipartParseException("Duplicate field in section");
                }

                line = reader.ReadLine();
            }

            // Now that we've consumed all the parameters we're up to the body. We're going to do
            // different things depending on if we're parsing a, relatively small, form value or a
            // potentially large file.
            if (parameters.ContainsKey("filename"))
            {
                // Right now we assume that if a section contains filename then it is a file.
                // This assumption needs to be checked, it holds true in firefox but is untested for other
                // browsers.
                FilePart part = this.ParseFilePart(parameters, reader);
                this.Files.Add(part);
            }
            else
            {
                ParameterPart part = this.ParseParameterPart(parameters, reader);
                this.Parameters.Add(part.Name, part);
            }
        }
        /// <summary>
        /// Parses a section of the stream that is known to be file data.
        /// </summary>
        /// <param name="parameters">
        /// The header parameters of this file, expects "name" and "filename" to be valid keys
        /// </param>
        /// <param name="reader">
        /// The StreamReader to read the data from
        /// </param>
        /// <returns>
        /// The <see cref="FilePart"/> containing the parsed data (name, filename, stream containing file).
        /// </returns>
        private FilePart ParseFilePart(Dictionary<string, string> parameters, RebufferableBinaryReader reader)
        {
            // We want to create a stream and fill it with the data from the
            // file.
            var data = new MemoryStream();
            var curBuffer = new byte[this.BinaryBufferSize];
            var prevBuffer = new byte[this.BinaryBufferSize];
            int curLength = 0;
            int prevLength = 0;

            prevLength = reader.Read(prevBuffer, 0, prevBuffer.Length);
            do
            {
                curLength = reader.Read(curBuffer, 0, curBuffer.Length);

                // Combine both buffers into the fullBuffer
                // See: http://stackoverflow.com/questions/415291/best-way-to-combine-two-or-more-byte-arrays-in-c-sharp
                var fullBuffer = new byte[this.BinaryBufferSize * 2];
                Buffer.BlockCopy(prevBuffer, 0, fullBuffer, 0, prevLength);
                Buffer.BlockCopy(curBuffer, 0, fullBuffer, prevLength, curLength);

                // Now we want to check for a substring within the current buffer.
                // We need to find the closest substring greedily. That is find the
                // closest boundary and don't miss the end --'s if it's an end boundary.
                int endBoundaryPos = SubsequenceFinder.Search(fullBuffer, this.endBoundaryBinary);
                int endBoundaryLength = this.endBoundaryBinary.Length;
                int boundaryPos = SubsequenceFinder.Search(fullBuffer, this.boundaryBinary);
                int boundaryLength = this.boundaryBinary.Length;

                // We need to select the appropriate position and length
                // based on the smallest non-negative position.
                int endPos = -1;
                int endPosLength = 0;

                if (endBoundaryPos >= 0 && boundaryPos >= 0)
                {
                    if (boundaryPos < endBoundaryPos)
                    {
                        // Select boundary
                        endPos = boundaryPos;
                        endPosLength = boundaryLength;
                    }
                    else
                    {
                        // Select end boundary
                        endPos = endBoundaryPos;
                        endPosLength = endBoundaryLength;
                        this.readEndBoundary = true;
                    }
                }
                else if (boundaryPos >= 0 && endBoundaryPos < 0)
                {
                    // Select boundary
                    endPos = boundaryPos;
                    endPosLength = boundaryLength;
                }
                else if (boundaryPos < 0 && endBoundaryPos >= 0)
                {
                    // Select end boundary
                    endPos = endBoundaryPos;
                    endPosLength = endBoundaryLength;
                    this.readEndBoundary = true;
                }

                if (endPos != -1)
                {
                    // Now we need to check if the endPos is followed by \r\n or just \n. HTTP
                    // specifies \r\n but some clients might encode with \n. Or we might get 0 if
                    // we are at the end of the file.
                    int boundaryNewlineOffset = this.CalculateNewlineLength(ref fullBuffer, endPos + endPosLength);

                    // We also need to check if the last n characters of the buffer to write
                    // are a newline and if they are ignore them.
                    var maxNewlineBytes = Encoding.GetMaxByteCount(2);
                    int bufferNewlineOffset = this.FindNextNewline(
                        ref fullBuffer, Math.Max(0, endPos - maxNewlineBytes), maxNewlineBytes);
                    int bufferNewlineLength = this.CalculateNewlineLength(ref fullBuffer, bufferNewlineOffset);

                    // We've found an end. We need to consume all the binary up to it
                    // and then write the remainder back to the original stream. Then we
                    // need to modify the original streams position to take into account
                    // the new data.
                    // We also want to chop off the newline that is inserted by the protocl.
                    // We can do this by reducing endPos by the length of newline in this environment
                    // and encoding
                    data.Write(fullBuffer, 0, endPos - bufferNewlineLength);

                    int writeBackOffset = endPos + endPosLength + boundaryNewlineOffset;
                    int writeBackAmount = (prevLength + curLength) - writeBackOffset;
                    var writeBackBuffer = new byte[writeBackAmount];
                    Buffer.BlockCopy(fullBuffer, writeBackOffset, writeBackBuffer, 0, writeBackAmount);
                    reader.Buffer(writeBackBuffer);

                    // stream.Write(fullBuffer, writeBackOffset, writeBackAmount);
                    // stream.Position = stream.Position - writeBackAmount;
                    // stream.Flush();
                    data.Position = 0;
                    data.Flush();
                    break;
                }

                // No end, consume the entire previous buffer
                data.Write(prevBuffer, 0, prevLength);
                data.Flush();

                // Now we want to swap the two buffers, we don't care
                // what happens to the data from prevBuffer so we set
                // curBuffer to it so it gets overwrited.
                byte[] tempBuffer = curBuffer;
                curBuffer = prevBuffer;
                prevBuffer = tempBuffer;

                // We don't need to swap the lengths because
                // curLength will be overwritten in the next
                // iteration of the loop.
                prevLength = curLength;
            }
            while (prevLength != 0);

            var contentType = parameters.ContainsKey("content-type") ? parameters["content-type"] : "text/plain";
            var contentDisposition = parameters.ContainsKey("content-disposition") ? parameters["content-disposition"] : "form-data";
            var part = new FilePart(parameters["name"], parameters["filename"], data, contentType, contentDisposition);

            return part;
        }
Exemple #3
0
        /// <summary>
        /// Parses a section of the stream that is known to be file data.
        /// </summary>
        /// <param name="parameters">
        /// The header parameters of this file, expects "name" and "filename" to be valid keys
        /// </param>
        /// <param name="reader">
        /// The StreamReader to read the data from
        /// </param>
        /// <returns>
        /// The <see cref="FilePart"/> containing the parsed data (name, filename, stream containing file).
        /// </returns>
        private FilePart ParseFilePart(Dictionary <string, string> parameters, RebufferableBinaryReader reader)
        {
            // We want to create a stream and fill it with the data from the
            // file.
            var data       = new MemoryStream();
            var curBuffer  = new byte[this.BinaryBufferSize];
            var prevBuffer = new byte[this.BinaryBufferSize];
            int curLength  = 0;
            int prevLength = 0;

            prevLength = reader.Read(prevBuffer, 0, prevBuffer.Length);
            do
            {
                curLength = reader.Read(curBuffer, 0, curBuffer.Length);

                // Combine both buffers into the fullBuffer
                // See: http://stackoverflow.com/questions/415291/best-way-to-combine-two-or-more-byte-arrays-in-c-sharp
                var fullBuffer = new byte[this.BinaryBufferSize * 2];
                Buffer.BlockCopy(prevBuffer, 0, fullBuffer, 0, prevLength);
                Buffer.BlockCopy(curBuffer, 0, fullBuffer, prevLength, curLength);

                // Now we want to check for a substring within the current buffer.
                // We need to find the closest substring greedily. That is find the
                // closest boundary and don't miss the end --'s if it's an end boundary.
                int endBoundaryPos    = SubsequenceFinder.Search(fullBuffer, this.endBoundaryBinary);
                int endBoundaryLength = this.endBoundaryBinary.Length;
                int boundaryPos       = SubsequenceFinder.Search(fullBuffer, this.boundaryBinary);
                int boundaryLength    = this.boundaryBinary.Length;

                // We need to select the appropriate position and length
                // based on the smallest non-negative position.
                int endPos       = -1;
                int endPosLength = 0;

                if (endBoundaryPos >= 0 && boundaryPos >= 0)
                {
                    if (boundaryPos < endBoundaryPos)
                    {
                        // Select boundary
                        endPos       = boundaryPos;
                        endPosLength = boundaryLength;
                    }
                    else
                    {
                        // Select end boundary
                        endPos               = endBoundaryPos;
                        endPosLength         = endBoundaryLength;
                        this.readEndBoundary = true;
                    }
                }
                else if (boundaryPos >= 0 && endBoundaryPos < 0)
                {
                    // Select boundary
                    endPos       = boundaryPos;
                    endPosLength = boundaryLength;
                }
                else if (boundaryPos < 0 && endBoundaryPos >= 0)
                {
                    // Select end boundary
                    endPos               = endBoundaryPos;
                    endPosLength         = endBoundaryLength;
                    this.readEndBoundary = true;
                }

                if (endPos != -1)
                {
                    // Now we need to check if the endPos is followed by \r\n or just \n. HTTP
                    // specifies \r\n but some clients might encode with \n. Or we might get 0 if
                    // we are at the end of the file.
                    int boundaryNewlineOffset = this.CalculateNewlineLength(ref fullBuffer, endPos + endPosLength);

                    // We also need to check if the last n characters of the buffer to write
                    // are a newline and if they are ignore them.
                    var maxNewlineBytes     = Encoding.GetMaxByteCount(2);
                    int bufferNewlineOffset = this.FindNextNewline(
                        ref fullBuffer, Math.Max(0, endPos - maxNewlineBytes), maxNewlineBytes);
                    int bufferNewlineLength = this.CalculateNewlineLength(ref fullBuffer, bufferNewlineOffset);

                    // We've found an end. We need to consume all the binary up to it
                    // and then write the remainder back to the original stream. Then we
                    // need to modify the original streams position to take into account
                    // the new data.
                    // We also want to chop off the newline that is inserted by the protocl.
                    // We can do this by reducing endPos by the length of newline in this environment
                    // and encoding
                    data.Write(fullBuffer, 0, endPos - bufferNewlineLength);

                    int writeBackOffset = endPos + endPosLength + boundaryNewlineOffset;
                    int writeBackAmount = (prevLength + curLength) - writeBackOffset;
                    var writeBackBuffer = new byte[writeBackAmount];
                    Buffer.BlockCopy(fullBuffer, writeBackOffset, writeBackBuffer, 0, writeBackAmount);
                    reader.Buffer(writeBackBuffer);

                    // stream.Write(fullBuffer, writeBackOffset, writeBackAmount);
                    // stream.Position = stream.Position - writeBackAmount;
                    // stream.Flush();
                    data.Position = 0;
                    data.Flush();
                    break;
                }

                // No end, consume the entire previous buffer
                data.Write(prevBuffer, 0, prevLength);
                data.Flush();

                // Now we want to swap the two buffers, we don't care
                // what happens to the data from prevBuffer so we set
                // curBuffer to it so it gets overwrited.
                byte[] tempBuffer = curBuffer;
                curBuffer  = prevBuffer;
                prevBuffer = tempBuffer;

                // We don't need to swap the lengths because
                // curLength will be overwritten in the next
                // iteration of the loop.
                prevLength = curLength;
            }while (prevLength != 0);

            var contentType        = parameters.ContainsKey("content-type") ? parameters["content-type"] : "text/plain";
            var contentDisposition = parameters.ContainsKey("content-disposition") ? parameters["content-disposition"] : "form-data";
            var part = new FilePart(parameters["name"], parameters["filename"], data, contentType, contentDisposition);

            return(part);
        }