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// Copyright (c) Microsoft Corporation. All rights reserved. See License.txt in the project root for license information.
using System.Collections.Generic;
using System.IO;
using System.Linq;
using System.Net.Http.Formatting.Parsers;
using System.Net.Http.Headers;
using System.Text;
using System.Threading.Tasks;
using Microsoft.TestCommon;
using Xunit;
using Xunit.Extensions;
using Assert = Microsoft.TestCommon.AssertEx;
using FactAttribute = Microsoft.TestCommon.DefaultTimeoutFactAttribute;
using TheoryAttribute = Microsoft.TestCommon.DefaultTimeoutTheoryAttribute;
namespace System.Net.Http
{
public class HttpContentMultipartExtensionsTests
{
private const string DefaultContentType = "text/plain";
private const string DefaultContentDisposition = "form-data";
private const string ExceptionStreamProviderMessage = "Bad Stream Provider!";
private const string ExceptionSyncStreamMessage = "Bad Sync Stream!";
private const string ExceptionAsyncStreamMessage = "Bad Async Stream!";
private const string LongText = "0123456789012345678901234567890123456789012345678901234567890123456789012345678901234567890123456789";
[Fact]
[Trait("Description", "HttpContentMultipartExtensionMethods is a public static class")]
public void TypeIsCorrect()
{
Assert.Type.HasProperties(
typeof(HttpContentMultipartExtensions),
TypeAssert.TypeProperties.IsPublicVisibleClass |
TypeAssert.TypeProperties.IsStatic);
}
private static HttpContent CreateContent(string boundary, params string[] bodyEntity)
{
List<string> entities = new List<string>();
int cnt = 0;
foreach (var body in bodyEntity)
{
byte[] header = InternetMessageFormatHeaderParserTests.CreateBuffer(
String.Format("N{0}: V{0}", cnt),
String.Format("Content-Type: {0}", DefaultContentType),
String.Format("Content-Disposition: {0}; FileName=\"N{1}\"", DefaultContentDisposition, cnt));
entities.Add(Encoding.UTF8.GetString(header) + body);
cnt++;
}
byte[] message = MimeMultipartParserTests.CreateBuffer(boundary, entities.ToArray());
HttpContent result = new ByteArrayContent(message);
var contentType = new MediaTypeHeaderValue("multipart/form-data");
contentType.Parameters.Add(new NameValueHeaderValue("boundary", String.Format("\"{0}\"", boundary)));
result.Headers.ContentType = contentType;
return result;
}
private static void ValidateContents(IEnumerable<HttpContent> contents)
{
int cnt = 0;
foreach (var content in contents)
{
Assert.NotNull(content);
Assert.NotNull(content.Headers);
Assert.Equal(4, content.Headers.Count());
IEnumerable<string> parsedValues = content.Headers.GetValues(String.Format("N{0}", cnt));
Assert.Equal(1, parsedValues.Count());
Assert.Equal(String.Format("V{0}", cnt), parsedValues.ElementAt(0));
Assert.Equal(DefaultContentType, content.Headers.ContentType.MediaType);
Assert.Equal(DefaultContentDisposition, content.Headers.ContentDisposition.DispositionType);
Assert.Equal(String.Format("\"N{0}\"", cnt), content.Headers.ContentDisposition.FileName);
cnt++;
}
}
[Fact]
public void ReadAsMultipartAsync_DetectsNonMultipartContent()
{
Assert.ThrowsArgumentNull(() => HttpContentMultipartExtensions.IsMimeMultipartContent(null), "content");
Assert.ThrowsArgument(() => new ByteArrayContent(new byte[0]).ReadAsMultipartAsync().Result, "content");
Assert.ThrowsArgument(() => new StringContent(String.Empty).ReadAsMultipartAsync().Result, "content");
Assert.ThrowsArgument(() => new StringContent(String.Empty, Encoding.UTF8, "multipart/form-data").ReadAsMultipartAsync().Result, "content");
}
public static IEnumerable<object[]> Boundaries
{
get { return ParserData.Boundaries; }
}
[Fact]
public void ReadAsMultipartAsync_NullStreamProviderThrows()
{
HttpContent content = CreateContent("---");
Assert.ThrowsArgumentNull(() =>
{
content.ReadAsMultipartAsync(null);
}, "streamProvider");
}
[Theory]
[PropertyData("Boundaries")]
[Trait("Description", "ReadAsMultipartAsync(HttpContent, IMultipartStreamProvider, int) throws on buffersize.")]
public void ReadAsMultipartAsyncStreamProviderThrowsOnBufferSize(string boundary)
{
HttpContent content = CreateContent(boundary);
Assert.NotNull(content);
Assert.ThrowsArgumentGreaterThanOrEqualTo(
() => content.ReadAsMultipartAsync(new MemoryStreamProvider(), ParserData.MinBufferSize - 1),
"bufferSize", ParserData.MinBufferSize.ToString(), ParserData.MinBufferSize - 1);
}
[Fact]
[Trait("Description", "IsMimeMultipartContent(HttpContent) checks extension method arguments.")]
public void IsMimeMultipartContentVerifyArguments()
{
Assert.ThrowsArgumentNull(() =>
{
HttpContent content = null;
HttpContentMultipartExtensions.IsMimeMultipartContent(content);
}, "content");
}
[Fact]
public void IsMumeMultipartContentReturnsFalseForEmptyValues()
{
Assert.False(new ByteArrayContent(new byte[] { }).IsMimeMultipartContent(), "HttpContent should not be valid MIME multipart content");
Assert.False(new StringContent(String.Empty).IsMimeMultipartContent(), "HttpContent should not be valid MIME multipart content");
Assert.False(new StringContent(String.Empty, Encoding.UTF8, "multipart/form-data").IsMimeMultipartContent(), "HttpContent should not be valid MIME multipart content");
}
[Theory]
[PropertyData("Boundaries")]
[Trait("Description", "IsMimeMultipartContent(HttpContent) responds correctly to MIME multipart and other content")]
public void IsMimeMultipartContent(string boundary)
{
HttpContent content = CreateContent(boundary);
Assert.NotNull(content);
Assert.True(content.IsMimeMultipartContent());
}
[Theory]
[PropertyData("Boundaries")]
[Trait("Description", "IsMimeMultipartContent(HttpContent, string) throws on null string.")]
public void IsMimeMultipartContentThrowsOnNullString(string boundary)
{
HttpContent content = CreateContent(boundary);
Assert.NotNull(content);
foreach (var subtype in CommonUnitTestDataSets.EmptyStrings)
{
Assert.ThrowsArgumentNull(() =>
{
content.IsMimeMultipartContent(subtype);
}, "subtype");
}
}
[Fact]
public void ReadAsMultipartAsync_SuccessfullyParsesContent()
{
HttpContent successContent;
Task<IEnumerable<HttpContent>> task;
IEnumerable<HttpContent> result;
successContent = CreateContent("boundary", "A", "B", "C");
task = successContent.ReadAsMultipartAsync();
task.Wait(TimeoutConstant.DefaultTimeout);
result = task.Result;
Assert.Equal(3, result.Count());
successContent = CreateContent("boundary", "A", "B", "C");
task = successContent.ReadAsMultipartAsync(new MemoryStreamProvider());
task.Wait(TimeoutConstant.DefaultTimeout);
result = task.Result;
Assert.Equal(3, result.Count());
successContent = CreateContent("boundary", "A", "B", "C");
task = successContent.ReadAsMultipartAsync(new MemoryStreamProvider(), 1024);
task.Wait(TimeoutConstant.DefaultTimeout);
result = task.Result;
Assert.Equal(3, result.Count());
}
[Theory]
[PropertyData("Boundaries")]
public void ReadAsMultipartAsync_ParsesEmptyContentSuccessfully(string boundary)
{
HttpContent content = CreateContent(boundary);
Task<IEnumerable<HttpContent>> task = content.ReadAsMultipartAsync();
task.Wait(TimeoutConstant.DefaultTimeout);
IEnumerable<HttpContent> result = task.Result;
Assert.Equal(0, result.Count());
}
[Fact]
public void ReadAsMultipartAsync_WithBadStreamProvider_Throws()
{
HttpContent content = CreateContent("--", "A", "B", "C");
var invalidOperationException = Assert.Throws<InvalidOperationException>(
() => content.ReadAsMultipartAsync(new BadStreamProvider()).Result,
"The stream provider of type 'BadStreamProvider' threw an exception."
);
Assert.NotNull(invalidOperationException.InnerException);
Assert.Equal(ExceptionStreamProviderMessage, invalidOperationException.InnerException.Message);
}
[Fact]
public void ReadAsMultipartAsync_NullStreamProvider_Throws()
{
HttpContent content = CreateContent("--", "A", "B", "C");
Assert.Throws<InvalidOperationException>(
() => content.ReadAsMultipartAsync(new NullStreamProvider()).Result,
"The stream provider of type 'NullStreamProvider' returned null. It must return a writable 'Stream' instance."
);
}
[Fact]
public void ReadAsMultipartAsync_ReadOnlyStream_Throws()
{
HttpContent content = CreateContent("--", "A", "B", "C");
Assert.Throws<InvalidOperationException>(
() => content.ReadAsMultipartAsync(new ReadOnlyStreamProvider()).Result,
"The stream provider of type 'ReadOnlyStreamProvider' returned a read-only stream. It must return a writable 'Stream' instance."
);
}
[Fact]
public void ReadAsMultipartAsync_PrematureEndOfStream_Throws()
{
HttpContent content = new StreamContent(Stream.Null);
var contentType = new MediaTypeHeaderValue("multipart/form-data");
contentType.Parameters.Add(new NameValueHeaderValue("boundary", "\"{--\""));
content.Headers.ContentType = contentType;
Assert.Throws<IOException>(
() => content.ReadAsMultipartAsync().Result,
"Unexpected end of MIME multipart stream. MIME multipart message is not complete."
);
}
[Fact]
public void ReadAsMultipartAsync_ReadErrorOnStream_Throws()
{
HttpContent content = new StreamContent(new ReadErrorStream());
var contentType = new MediaTypeHeaderValue("multipart/form-data");
contentType.Parameters.Add(new NameValueHeaderValue("boundary", "\"--\""));
content.Headers.ContentType = contentType;
var ioException = Assert.Throws<IOException>(
() => content.ReadAsMultipartAsync().Result,
"Error reading MIME multipart body part."
);
Assert.NotNull(ioException.InnerException);
Assert.Equal(ExceptionAsyncStreamMessage, ioException.InnerException.Message);
}
[Fact]
public void ReadAsMultipartAsync_WriteErrorOnStream_Throws()
{
HttpContent content = CreateContent("--", "A", "B", "C");
var ioException = Assert.Throws<IOException>(
() => content.ReadAsMultipartAsync(new WriteErrorStreamProvider()).Result,
"Error writing MIME multipart body part to output stream."
);
Assert.NotNull(ioException.InnerException);
Assert.Equal(ExceptionAsyncStreamMessage, ioException.InnerException.Message);
}
[Theory]
[PropertyData("Boundaries")]
public void ReadAsMultipartAsync_SingleShortBodyPart_ParsesSuccessfully(string boundary)
{
HttpContent content = CreateContent(boundary, "A");
IEnumerable<HttpContent> result = content.ReadAsMultipartAsync().Result;
Assert.Equal(1, result.Count());
Assert.Equal("A", result.ElementAt(0).ReadAsStringAsync().Result);
ValidateContents(result);
}
[Theory]
[PropertyData("Boundaries")]
public void ReadAsMultipartAsync_MultipleShortBodyParts_ParsesSuccessfully(string boundary)
{
string[] text = new string[] { "A", "B", "C", "D", "E", "F", "G", "H", "I", "J", "K", "L", "M", "N", "O", "P", "Q", "R", "S", "T", "U", "V", "W", "X", "Y", "Z" };
HttpContent content = CreateContent(boundary, text);
IEnumerable<HttpContent> result = content.ReadAsMultipartAsync().Result;
Assert.Equal(text.Length, result.Count());
for (var check = 0; check < text.Length; check++)
{
Assert.Equal(text[check], result.ElementAt(check).ReadAsStringAsync().Result);
}
ValidateContents(result);
}
[Theory]
[PropertyData("Boundaries")]
[Trait("Description", "ReadAsMultipartAsync(HttpContent) parses with single long body asynchronously.")]
public void ReadAsMultipartAsyncSingleLongBodyPartAsync(string boundary)
{
HttpContent content = CreateContent(boundary, LongText);
Task<IEnumerable<HttpContent>> task = content.ReadAsMultipartAsync();
task.Wait(TimeoutConstant.DefaultTimeout);
IEnumerable<HttpContent> result = task.Result;
Assert.Equal(1, result.Count());
Assert.Equal(LongText, result.ElementAt(0).ReadAsStringAsync().Result);
ValidateContents(result);
}
[Theory]
[PropertyData("Boundaries")]
[Trait("Description", "ReadAsMultipartAsync(HttpContent) parses with multiple long bodies asynchronously.")]
public void ReadAsMultipartAsyncMultipleLongBodyPartsAsync(string boundary)
{
string[] text = new string[] {
"A" + LongText + "A",
"B" + LongText + "B",
"C" + LongText + "C",
"D" + LongText + "D",
"E" + LongText + "E",
"F" + LongText + "F",
"G" + LongText + "G",
"H" + LongText + "H",
"I" + LongText + "I",
"J" + LongText + "J",
"K" + LongText + "K",
"L" + LongText + "L",
"M" + LongText + "M",
"N" + LongText + "N",
"O" + LongText + "O",
"P" + LongText + "P",
"Q" + LongText + "Q",
"R" + LongText + "R",
"S" + LongText + "S",
"T" + LongText + "T",
"U" + LongText + "U",
"V" + LongText + "V",
"W" + LongText + "W",
"X" + LongText + "X",
"Y" + LongText + "Y",
"Z" + LongText + "Z"};
HttpContent content = CreateContent(boundary, text);
Task<IEnumerable<HttpContent>> task = content.ReadAsMultipartAsync(new MemoryStreamProvider(), ParserData.MinBufferSize);
task.Wait(TimeoutConstant.DefaultTimeout);
IEnumerable<HttpContent> result = task.Result;
Assert.Equal(text.Length, result.Count());
for (var check = 0; check < text.Length; check++)
{
Assert.Equal(text[check], result.ElementAt(check).ReadAsStringAsync().Result);
}
ValidateContents(result);
}
[Theory]
[PropertyData("Boundaries")]
[Trait("Description", "ReadAsMultipartAsync(HttpContent) parses content generated by MultipartContent asynchronously.")]
public void ReadAsMultipartAsyncUsingMultipartContentAsync(string boundary)
{
MultipartContent content = new MultipartContent("mixed", boundary);
content.Add(new StringContent("A"));
content.Add(new StringContent("B"));
content.Add(new StringContent("C"));
MemoryStream memStream = new MemoryStream();
content.CopyToAsync(memStream).Wait();
memStream.Position = 0;
byte[] data = memStream.ToArray();
var byteContent = new ByteArrayContent(data);
byteContent.Headers.ContentType = content.Headers.ContentType;
Task<IEnumerable<HttpContent>> task = byteContent.ReadAsMultipartAsync();
task.Wait(TimeoutConstant.DefaultTimeout);
IEnumerable<HttpContent> result = task.Result;
Assert.Equal(3, result.Count());
Assert.Equal("A", result.ElementAt(0).ReadAsStringAsync().Result);
Assert.Equal("B", result.ElementAt(1).ReadAsStringAsync().Result);
Assert.Equal("C", result.ElementAt(2).ReadAsStringAsync().Result);
}
[Theory]
[PropertyData("Boundaries")]
[Trait("Description", "ReadAsMultipartAsync(HttpContent) parses nested content generated by MultipartContent asynchronously.")]
public void ReadAsMultipartAsyncNestedMultipartContentAsync(string boundary)
{
const int nesting = 10;
const string innerText = "Content";
MultipartContent innerContent = new MultipartContent("mixed", boundary);
innerContent.Add(new StringContent(innerText));
for (var cnt = 0; cnt < nesting; cnt++)
{
string outerBoundary = String.Format("{0}_{1}", boundary, cnt);
MultipartContent outerContent = new MultipartContent("mixed", outerBoundary);
outerContent.Add(innerContent);
innerContent = outerContent;
}
MemoryStream memStream = new MemoryStream();
innerContent.CopyToAsync(memStream).Wait();
memStream.Position = 0;
byte[] data = memStream.ToArray();
HttpContent content = new ByteArrayContent(data);
content.Headers.ContentType = innerContent.Headers.ContentType;
for (var cnt = 0; cnt < nesting + 1; cnt++)
{
Task<IEnumerable<HttpContent>> task = content.ReadAsMultipartAsync();
task.Wait(TimeoutConstant.DefaultTimeout);
IEnumerable<HttpContent> result = task.Result;
Assert.Equal(1, result.Count());
content = result.ElementAt(0);
Assert.NotNull(content);
}
string text = content.ReadAsStringAsync().Result;
Assert.Equal(innerText, text);
}
public class ReadOnlyStream : MemoryStream
{
public override bool CanWrite
{
get
{
return false;
}
}
}
public class ReadErrorStream : MemoryStream
{
public override int Read(byte[] buffer, int offset, int count)
{
throw new Exception(ExceptionSyncStreamMessage);
}
public override IAsyncResult BeginRead(byte[] buffer, int offset, int count, AsyncCallback callback, object state)
{
throw new Exception(ExceptionAsyncStreamMessage);
}
}
public class WriteErrorStream : MemoryStream
{
public override void Write(byte[] buffer, int offset, int count)
{
throw new Exception(ExceptionSyncStreamMessage);
}
public override IAsyncResult BeginWrite(byte[] buffer, int offset, int count, AsyncCallback callback, object state)
{
throw new Exception(ExceptionAsyncStreamMessage);
}
}
public class MemoryStreamProvider : IMultipartStreamProvider
{
public Stream GetStream(HttpContentHeaders headers)
{
return new MemoryStream();
}
}
public class BadStreamProvider : IMultipartStreamProvider
{
public Stream GetStream(HttpContentHeaders headers)
{
throw new Exception(ExceptionStreamProviderMessage);
}
}
public class NullStreamProvider : IMultipartStreamProvider
{
public Stream GetStream(HttpContentHeaders headers)
{
return null;
}
}
public class ReadOnlyStreamProvider : IMultipartStreamProvider
{
public Stream GetStream(HttpContentHeaders headers)
{
return new ReadOnlyStream();
}
}
public class WriteErrorStreamProvider : IMultipartStreamProvider
{
public Stream GetStream(HttpContentHeaders headers)
{
return new WriteErrorStream();
}
}
}
}
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