public void TestBase64Encode ()
{
using (var original = new MemoryStream ()) {
using (var file = File.OpenRead ("../../TestData/encoders/photo.b64"))
file.CopyTo (original, 4096);
using (var encoded = new MemoryStream ()) {
using (var filtered = new FilteredStream (encoded)) {
filtered.Add (EncoderFilter.Create (ContentEncoding.Base64));
using (var file = File.OpenRead ("../../TestData/encoders/photo.jpg"))
file.CopyTo (filtered, 4096);
filtered.Flush ();
}
var buf0 = original.GetBuffer ();
var buf1 = encoded.GetBuffer ();
int n = (int) original.Length;
Assert.AreEqual (original.Length, encoded.Length, "Encoded length is incorrect.");
for (int i = 0; i < n; i++)
Assert.AreEqual (buf0[i], buf1[i], "The byte at offset {0} does not match.", i);
}
}
}
public ImapReplayCommand (string command, string resource)
{
Command = command;
using (var stream = GetType ().Assembly.GetManifestResourceStream ("UnitTests.Net.Imap.Resources." + resource)) {
var memory = new MemoryBlockStream ();
using (var filtered = new FilteredStream (memory)) {
filtered.Add (new Unix2DosFilter ());
stream.CopyTo (filtered, 4096);
}
Response = memory.ToArray ();
}
}
public void TestDecodeSimpleYEncMessage ()
{
using (var file = File.OpenRead ("../../TestData/yenc/simple.msg")) {
var message = MimeMessage.Load (file);
using (var decoded = new MemoryStream ()) {
var ydec = new YDecoder ();
using (var filtered = new FilteredStream (decoded)) {
filtered.Add (new DecoderFilter (ydec));
((MimePart) message.Body).ContentObject.WriteTo (filtered);
}
Assert.AreEqual (584, decoded.Length, "The decoded size does not match.");
Assert.AreEqual (0xded29f4f, ydec.Checksum ^ 0xffffffff, "The checksum does not match.");
}
}
}
public void TestBase64Decode ()
{
using (var original = new MemoryStream ()) {
using (var file = File.OpenRead ("../../TestData/encoders/photo.jpg"))
file.CopyTo (original, 4096);
using (var decoded = new MemoryStream ()) {
using (var file = File.OpenRead ("../../TestData/encoders/photo.b64")) {
using (var filtered = new FilteredStream (file)) {
filtered.Add (DecoderFilter.Create (ContentEncoding.Base64));
filtered.CopyTo (decoded, 4096);
}
}
var buf0 = original.GetBuffer ();
var buf1 = decoded.GetBuffer ();
int n = (int) original.Length;
Assert.AreEqual (original.Length, decoded.Length, "Decoded length is incorrect.");
for (int i = 0; i < n; i++)
Assert.AreEqual (buf0[i], buf1[i], "The byte at offset {0} does not match.", i);
}
}
var decoder = new Base64Decoder ();
var output = new byte[4096];
Assert.AreEqual (ContentEncoding.Base64, decoder.Encoding);
for (int i = 0; i < base64EncodedPatterns.Length; i++) {
decoder.Reset ();
var buf = Encoding.ASCII.GetBytes (base64EncodedPatterns[i]);
int n = decoder.Decode (buf, 0, buf.Length, output);
var actual = Encoding.ASCII.GetString (output, 0, n);
Assert.AreEqual (base64DecodedPatterns[i], actual, "Failed to decode base64EncodedPatterns[{0}]", i);
}
for (int i = 0; i < base64EncodedLongPatterns.Length; i++) {
decoder.Reset ();
var buf = Encoding.ASCII.GetBytes (base64EncodedLongPatterns[i]);
int n = decoder.Decode (buf, 0, buf.Length, output);
for (int j = 0; j < n; j++)
Assert.AreEqual (output[j], (byte) (j + i), "Failed to decode base64EncodedLongPatterns[{0}]", i);
}
}
void Data(MimeMessage message, CancellationToken cancellationToken)
{
var response = SendCommand ("DATA", cancellationToken);
if (response.StatusCode != SmtpStatusCode.StartMailInput)
throw new SmtpCommandException (SmtpErrorCode.UnexpectedStatusCode, response.StatusCode, response.Response);
var options = FormatOptions.Default.Clone ();
options.NewLineFormat = NewLineFormat.Dos;
options.HiddenHeaders.Add (HeaderId.ContentLength);
options.HiddenHeaders.Add (HeaderId.ResentBcc);
options.HiddenHeaders.Add (HeaderId.Bcc);
using (var filtered = new FilteredStream (stream)) {
filtered.Add (new SmtpDataFilter ());
message.WriteTo (options, filtered, cancellationToken);
filtered.Flush ();
}
stream.Write (EndData, 0, EndData.Length);
response = ReadResponse (cancellationToken);
switch (response.StatusCode) {
default:
throw new SmtpCommandException (SmtpErrorCode.MessageNotAccepted, response.StatusCode, response.Response);
case SmtpStatusCode.AuthenticationRequired:
throw new UnauthorizedAccessException (response.Response);
case SmtpStatusCode.Ok:
break;
}
}
/// <summary>
/// Verify the specified DKIM-Signature header.
/// </summary>
/// <remarks>
/// Verifies the specified DKIM-Signature header.
/// </remarks>
/// <param name="options">The formatting options.</param>
/// <param name="dkimSignature">The DKIM-Signature header.</param>
/// <param name="publicKeyLocator">The public key locator service.</param>
/// <param name="cancellationToken">The cancellation token.</param>
/// <exception cref="System.ArgumentNullException">
/// <para><paramref name="options"/> is <c>null</c>.</para>
/// <para>-or-</para>
/// <para><paramref name="dkimSignature"/> is <c>null</c>.</para>
/// <para>-or-</para>
/// <para><paramref name="publicKeyLocator"/> is <c>null</c>.</para>
/// </exception>
/// <exception cref="System.ArgumentException">
/// <paramref name="dkimSignature"/> is not a DKIM-Signature header.
/// </exception>
/// <exception cref="System.FormatException">
/// The DKIM-Signature header value is malformed.
/// </exception>
/// <exception cref="System.OperationCanceledException">
/// The operation was canceled via the cancellation token.
/// </exception>
bool Verify (FormatOptions options, Header dkimSignature, IDkimPublicKeyLocator publicKeyLocator, CancellationToken cancellationToken = default (CancellationToken))
{
if (options == null)
throw new ArgumentNullException ("options");
if (dkimSignature == null)
throw new ArgumentNullException ("dkimSignature");
if (dkimSignature.Id != HeaderId.DkimSignature)
throw new ArgumentException ("The dkimSignature parameter MUST be a DKIM-Signature header.", "dkimSignature");
if (publicKeyLocator == null)
throw new ArgumentNullException ("publicKeyLocator");
var parameters = ParseDkimSignature (dkimSignature.Value);
DkimCanonicalizationAlgorithm headerAlgorithm, bodyAlgorithm;
DkimSignatureAlgorithm signatureAlgorithm;
AsymmetricKeyParameter key;
string d, s, q, h, bh, b;
int maxLength;
ValidateDkimSignatureParameters (parameters, out signatureAlgorithm, out headerAlgorithm, out bodyAlgorithm,
out d, out s, out q, out h, out bh, out b, out maxLength);
key = publicKeyLocator.LocatePublicKey (q, d, s, cancellationToken);
options = options.Clone ();
options.NewLineFormat = NewLineFormat.Dos;
// first check the body hash (if that's invalid, then the entire signature is invalid)
var hash = Convert.ToBase64String (DkimHashBody (options, signatureAlgorithm, bodyAlgorithm, maxLength));
if (hash != bh)
return false;
using (var stream = new DkimSignatureStream (DkimGetDigestSigner (signatureAlgorithm, key))) {
using (var filtered = new FilteredStream (stream)) {
filtered.Add (options.CreateNewLineFilter ());
DkimWriteHeaders (options, h.Split (':'), headerAlgorithm, filtered);
// now include the DKIM-Signature header that we are verifying,
// but only after removing the "b=" signature value.
var header = GetSignedDkimSignatureHeader (dkimSignature);
switch (headerAlgorithm) {
case DkimCanonicalizationAlgorithm.Relaxed:
DkimWriteHeaderRelaxed (options, filtered, header);
break;
default:
DkimWriteHeaderSimple (options, filtered, header);
break;
}
filtered.Flush ();
}
return stream.VerifySignature (b);
}
}
byte[] DkimHashBody (FormatOptions options, DkimSignatureAlgorithm signatureAlgorithm, DkimCanonicalizationAlgorithm bodyCanonicalizationAlgorithm, int maxLength)
{
using (var stream = new DkimHashStream (signatureAlgorithm, maxLength)) {
using (var filtered = new FilteredStream (stream)) {
filtered.Add (options.CreateNewLineFilter ());
if (bodyCanonicalizationAlgorithm == DkimCanonicalizationAlgorithm.Relaxed)
filtered.Add (new DkimRelaxedBodyFilter ());
else
filtered.Add (new DkimSimpleBodyFilter ());
if (Body != null) {
try {
Body.Headers.Suppress = true;
Body.WriteTo (options, stream, CancellationToken.None);
} finally {
Body.Headers.Suppress = false;
}
}
filtered.Flush ();
}
return stream.GenerateHash ();
}
}
/// <summary>
/// Creates a new <see cref="MultipartSigned"/>.
/// </summary>
/// <remarks>
/// Cryptographically signs the entity using the supplied signer in order
/// to generate a detached signature and then adds the entity along with
/// the detached signature data to a new multipart/signed part.
/// </remarks>
/// <returns>A new <see cref="MultipartSigned"/> instance.</returns>
/// <param name="ctx">The S/MIME context to use for signing.</param>
/// <param name="signer">The signer.</param>
/// <param name="entity">The entity to sign.</param>
/// <exception cref="System.ArgumentNullException">
/// <para><paramref name="ctx"/> is <c>null</c>.</para>
/// <para>-or-</para>
/// <para><paramref name="signer"/> is <c>null</c>.</para>
/// <para>-or-</para>
/// <para><paramref name="entity"/> is <c>null</c>.</para>
/// </exception>
/// <exception cref="Org.BouncyCastle.Cms.CmsException">
/// An error occurred in the cryptographic message syntax subsystem.
/// </exception>
public static MultipartSigned Create (SecureMimeContext ctx, CmsSigner signer, MimeEntity entity)
{
if (ctx == null)
throw new ArgumentNullException ("ctx");
if (signer == null)
throw new ArgumentNullException ("signer");
if (entity == null)
throw new ArgumentNullException ("entity");
PrepareEntityForSigning (entity);
using (var memory = new MemoryBlockStream ()) {
using (var filtered = new FilteredStream (memory)) {
// Note: see rfc3156, section 3 - second note
filtered.Add (new ArmoredFromFilter ());
// Note: see rfc3156, section 5.4 (this is the main difference between rfc2015 and rfc3156)
filtered.Add (new TrailingWhitespaceFilter ());
// Note: see rfc2015 or rfc3156, section 5.1
filtered.Add (new Unix2DosFilter ());
entity.WriteTo (filtered);
filtered.Flush ();
}
memory.Position = 0;
// Note: we need to parse the modified entity structure to preserve any modifications
var parser = new MimeParser (memory, MimeFormat.Entity);
var parsed = parser.ParseEntity ();
memory.Position = 0;
// sign the cleartext content
var micalg = ctx.GetDigestAlgorithmName (signer.DigestAlgorithm);
var signature = ctx.Sign (signer, memory);
var signed = new MultipartSigned ();
// set the protocol and micalg Content-Type parameters
signed.ContentType.Parameters["protocol"] = ctx.SignatureProtocol;
signed.ContentType.Parameters["micalg"] = micalg;
// add the modified/parsed entity as our first part
signed.Add (parsed);
// add the detached signature as the second part
signed.Add (signature);
return signed;
}
}
/// <summary>
/// Writes the <see cref="MimeKit.MimePart"/> to the specified output stream.
/// </summary>
/// <remarks>
/// Writes the MIME part to the output stream.
/// </remarks>
/// <param name="options">The formatting options.</param>
/// <param name="stream">The output stream.</param>
/// <param name="cancellationToken">A cancellation token.</param>
/// <exception cref="System.ArgumentNullException">
/// <para><paramref name="options"/> is <c>null</c>.</para>
/// <para>-or-</para>
/// <para><paramref name="stream"/> is <c>null</c>.</para>
/// </exception>
/// <exception cref="System.OperationCanceledException">
/// The operation was canceled via the cancellation token.
/// </exception>
/// <exception cref="System.IO.IOException">
/// An I/O error occurred.
/// </exception>
public override void WriteTo (FormatOptions options, Stream stream, CancellationToken cancellationToken = default (CancellationToken))
{
base.WriteTo (options, stream, cancellationToken);
if (ContentObject == null)
return;
var cancellable = stream as ICancellableStream;
if (ContentObject.Encoding != encoding) {
if (encoding == ContentEncoding.UUEncode) {
var begin = string.Format ("begin 0644 {0}", FileName ?? "unknown");
var buffer = Encoding.UTF8.GetBytes (begin);
if (cancellable != null) {
cancellable.Write (buffer, 0, buffer.Length, cancellationToken);
cancellable.Write (options.NewLineBytes, 0, options.NewLineBytes.Length, cancellationToken);
} else {
cancellationToken.ThrowIfCancellationRequested ();
stream.Write (buffer, 0, buffer.Length);
stream.Write (options.NewLineBytes, 0, options.NewLineBytes.Length);
}
}
// transcode the content into the desired Content-Transfer-Encoding
using (var filtered = new FilteredStream (stream)) {
filtered.Add (EncoderFilter.Create (encoding));
if (encoding != ContentEncoding.Binary)
filtered.Add (options.CreateNewLineFilter (true));
ContentObject.DecodeTo (filtered, cancellationToken);
filtered.Flush (cancellationToken);
}
if (encoding == ContentEncoding.UUEncode) {
var buffer = Encoding.ASCII.GetBytes ("end");
if (cancellable != null) {
cancellable.Write (buffer, 0, buffer.Length, cancellationToken);
cancellable.Write (options.NewLineBytes, 0, options.NewLineBytes.Length, cancellationToken);
} else {
cancellationToken.ThrowIfCancellationRequested ();
stream.Write (buffer, 0, buffer.Length);
stream.Write (options.NewLineBytes, 0, options.NewLineBytes.Length);
}
}
} else if (encoding != ContentEncoding.Binary) {
using (var filtered = new FilteredStream (stream)) {
// Note: if we are writing the top-level MimePart, make sure it ends with a new-line so that
// MimeMessage.WriteTo() *always* ends with a new-line.
filtered.Add (options.CreateNewLineFilter (Headers.Suppress));
ContentObject.WriteTo (filtered, cancellationToken);
filtered.Flush (cancellationToken);
}
} else {
ContentObject.WriteTo (stream, cancellationToken);
}
}
/// <summary>
/// Gets the decoded text content using the provided charset to override
/// the charset specified in the Content-Type parameters.
/// </summary>
/// <remarks>
/// Uses the provided charset encoding to convert the raw text content
/// into a unicode string, overriding any charset specified in the
/// Content-Type header.
/// </remarks>
/// <returns>The decoded text.</returns>
/// <param name="charset">The charset encoding to use.</param>
/// <exception cref="System.ArgumentNullException">
/// <paramref name="charset"/> is <c>null</c>.
/// </exception>
public string GetText (Encoding charset)
{
if (charset == null)
throw new ArgumentNullException ("charset");
using (var memory = new MemoryStream ()) {
using (var filtered = new FilteredStream (memory)) {
filtered.Add (new CharsetFilter (charset, Encoding.UTF8));
ContentObject.DecodeTo (filtered);
filtered.Flush ();
#if PORTABLE
var buffer = memory.ToArray ();
int length = buffer.Length;
#else
var buffer = memory.GetBuffer ();
int length = (int) memory.Length;
#endif
return Encoding.UTF8.GetString (buffer, 0, length);
}
}
}
Stream GetResponseStream (ImapReplayCommand command)
{
MemoryStream memory;
if (testUnixFormat) {
memory = new MemoryStream ();
using (var filtered = new FilteredStream (memory)) {
filtered.Add (new Dos2UnixFilter ());
filtered.Write (command.Response, 0, command.Response.Length);
filtered.Flush ();
}
memory.Position = 0;
} else {
memory = new MemoryStream (command.Response, false);
}
return memory;
}
/// <summary>
/// Create a multipart/encrypted MIME part by encrypting the specified entity.
/// </summary>
/// <remarks>
/// Encrypts the entity to the specified recipients, encapsulating the result in a
/// new multipart/encrypted part.
/// </remarks>
/// <returns>A new <see cref="MultipartEncrypted"/> instance containing
/// the encrypted version of the specified entity.</returns>
/// <param name="ctx">The OpenPGP cryptography context to use for encrypting.</param>
/// <param name="algorithm">The encryption algorithm.</param>
/// <param name="recipients">The recipients for the encrypted entity.</param>
/// <param name="entity">The entity to sign and encrypt.</param>
/// <exception cref="System.ArgumentNullException">
/// <para><paramref name="ctx"/> is <c>null</c>.</para>
/// <para>-or-</para>
/// <para><paramref name="recipients"/> is <c>null</c>.</para>
/// <para>-or-</para>
/// <para><paramref name="entity"/> is <c>null</c>.</para>
/// </exception>
/// <exception cref="System.ArgumentException">
/// One or more of the recipient keys cannot be used for encrypting.
/// </exception>
/// <exception cref="System.NotSupportedException">
/// THe specified encryption algorithm is not supported.
/// </exception>
public static MultipartEncrypted Encrypt (OpenPgpContext ctx, EncryptionAlgorithm algorithm, IEnumerable<MailboxAddress> recipients, MimeEntity entity)
{
if (ctx == null)
throw new ArgumentNullException (nameof (ctx));
if (recipients == null)
throw new ArgumentNullException (nameof (recipients));
if (entity == null)
throw new ArgumentNullException (nameof (entity));
using (var memory = new MemoryBlockStream ()) {
using (var filtered = new FilteredStream (memory)) {
filtered.Add (new Unix2DosFilter ());
entity.WriteTo (filtered);
filtered.Flush ();
}
memory.Position = 0;
var encrypted = new MultipartEncrypted ();
encrypted.ContentType.Parameters["protocol"] = ctx.EncryptionProtocol;
// add the protocol version part
encrypted.Add (new ApplicationPgpEncrypted ());
// add the encrypted entity as the second part
encrypted.Add (ctx.Encrypt (algorithm, recipients, memory));
return encrypted;
}
}
/// <summary>
/// Gets the decoded text content using the provided charset to override
/// the charset specified in the Content-Type parameters.
/// </summary>
/// <returns>The decoded text.</returns>
/// <param name="charset">The charset encoding to use.</param>
/// <exception cref="System.ArgumentNullException">
/// <paramref name="charset"/> is <c>null</c>.
/// </exception>
public string GetText(Encoding charset)
{
if (charset == null)
throw new ArgumentNullException ("charset");
using (var memory = new MemoryStream ()) {
using (var filtered = new FilteredStream (memory)) {
filtered.Add (new CharsetFilter (charset, Encoding.UTF8));
ContentObject.DecodeTo (filtered);
filtered.Flush ();
return Encoding.UTF8.GetString (memory.GetBuffer (), 0, (int) memory.Length);
}
}
}
/// <summary>
/// Writes the message to the specified output stream.
/// </summary>
/// <remarks>
/// Writes the message to the output stream using the provided formatting options.
/// </remarks>
/// <param name="options">The formatting options.</param>
/// <param name="stream">The output stream.</param>
/// <param name="cancellationToken">A cancellation token.</param>
/// <exception cref="System.ArgumentNullException">
/// <para><paramref name="options"/> is <c>null</c>.</para>
/// <para>-or-</para>
/// <para><paramref name="stream"/> is <c>null</c>.</para>
/// </exception>
/// <exception cref="System.OperationCanceledException">
/// The operation was canceled via the cancellation token.
/// </exception>
/// <exception cref="System.IO.IOException">
/// An I/O error occurred.
/// </exception>
public void WriteTo (FormatOptions options, Stream stream, CancellationToken cancellationToken = default (CancellationToken))
{
if (options == null)
throw new ArgumentNullException ("options");
if (stream == null)
throw new ArgumentNullException ("stream");
if (version == null && Body != null && Body.Headers.Count > 0)
MimeVersion = new Version (1, 0);
if (Body == null) {
Headers.WriteTo (options, stream, cancellationToken);
cancellationToken.ThrowIfCancellationRequested ();
stream.Write (options.NewLineBytes, 0, options.NewLineBytes.Length);
} else {
cancellationToken.ThrowIfCancellationRequested ();
using (var filtered = new FilteredStream (stream)) {
filtered.Add (options.CreateNewLineFilter ());
foreach (var header in MergeHeaders ()) {
if (options.HiddenHeaders.Contains (header.Id))
continue;
cancellationToken.ThrowIfCancellationRequested ();
var name = Encoding.ASCII.GetBytes (header.Field);
filtered.Write (name, 0, name.Length);
filtered.WriteByte ((byte) ':');
filtered.Write (header.RawValue, 0, header.RawValue.Length);
}
filtered.Flush ();
}
options.WriteHeaders = false;
Body.WriteTo (options, stream, cancellationToken);
}
}
static void ExtractAttachments (TnefReader reader, BodyBuilder builder)
{
var attachMethod = TnefAttachMethod.ByValue;
var filter = new BestEncodingFilter ();
var prop = reader.TnefPropertyReader;
MimePart attachment = null;
int outIndex, outLength;
TnefAttachFlags flags;
string[] mimeType;
byte[] attachData;
string text;
do {
if (reader.AttributeLevel != TnefAttributeLevel.Attachment)
break;
switch (reader.AttributeTag) {
case TnefAttributeTag.AttachRenderData:
attachMethod = TnefAttachMethod.ByValue;
attachment = new MimePart ();
break;
case TnefAttributeTag.Attachment:
if (attachment == null)
break;
while (prop.ReadNextProperty ()) {
switch (prop.PropertyTag.Id) {
case TnefPropertyId.AttachLongFilename:
attachment.FileName = prop.ReadValueAsString ();
break;
case TnefPropertyId.AttachFilename:
if (attachment.FileName == null)
attachment.FileName = prop.ReadValueAsString ();
break;
case TnefPropertyId.AttachContentLocation:
text = prop.ReadValueAsString ();
if (Uri.IsWellFormedUriString (text, UriKind.Absolute))
attachment.ContentLocation = new Uri (text, UriKind.Absolute);
else if (Uri.IsWellFormedUriString (text, UriKind.Relative))
attachment.ContentLocation = new Uri (text, UriKind.Relative);
break;
case TnefPropertyId.AttachContentBase:
text = prop.ReadValueAsString ();
attachment.ContentBase = new Uri (text, UriKind.Absolute);
break;
case TnefPropertyId.AttachContentId:
attachment.ContentId = prop.ReadValueAsString ();
break;
case TnefPropertyId.AttachDisposition:
text = prop.ReadValueAsString ();
if (attachment.ContentDisposition == null)
attachment.ContentDisposition = new ContentDisposition (text);
else
attachment.ContentDisposition.Disposition = text;
break;
case TnefPropertyId.AttachData:
var stream = prop.GetRawValueReadStream ();
var content = new MemoryStream ();
var guid = new byte[16];
if (attachMethod == TnefAttachMethod.EmbeddedMessage) {
var tnef = new TnefPart ();
foreach (var param in attachment.ContentType.Parameters)
tnef.ContentType.Parameters[param.Name] = param.Value;
if (attachment.ContentDisposition != null)
tnef.ContentDisposition = attachment.ContentDisposition;
attachment = tnef;
}
// read the GUID
stream.Read (guid, 0, 16);
// the rest is content
using (var filtered = new FilteredStream (content)) {
filtered.Add (filter);
stream.CopyTo (filtered, 4096);
filtered.Flush ();
}
content.Position = 0;
attachment.ContentTransferEncoding = filter.GetBestEncoding (EncodingConstraint.SevenBit);
attachment.ContentObject = new ContentObject (content);
filter.Reset ();
builder.Attachments.Add (attachment);
break;
case TnefPropertyId.AttachMethod:
attachMethod = (TnefAttachMethod) prop.ReadValueAsInt32 ();
break;
case TnefPropertyId.AttachMimeTag:
mimeType = prop.ReadValueAsString ().Split ('/');
if (mimeType.Length == 2) {
attachment.ContentType.MediaType = mimeType[0].Trim ();
attachment.ContentType.MediaSubtype = mimeType[1].Trim ();
}
break;
case TnefPropertyId.AttachFlags:
flags = (TnefAttachFlags) prop.ReadValueAsInt32 ();
if ((flags & TnefAttachFlags.RenderedInBody) != 0) {
if (attachment.ContentDisposition == null)
attachment.ContentDisposition = new ContentDisposition (ContentDisposition.Inline);
else
attachment.ContentDisposition.Disposition = ContentDisposition.Inline;
}
break;
case TnefPropertyId.AttachSize:
if (attachment.ContentDisposition == null)
attachment.ContentDisposition = new ContentDisposition ();
attachment.ContentDisposition.Size = prop.ReadValueAsInt64 ();
break;
case TnefPropertyId.DisplayName:
attachment.ContentType.Name = prop.ReadValueAsString ();
break;
}
}
break;
case TnefAttributeTag.AttachCreateDate:
if (attachment != null) {
if (attachment.ContentDisposition == null)
attachment.ContentDisposition = new ContentDisposition ();
attachment.ContentDisposition.CreationDate = prop.ReadValueAsDateTime ();
}
break;
case TnefAttributeTag.AttachModifyDate:
if (attachment != null) {
if (attachment.ContentDisposition == null)
attachment.ContentDisposition = new ContentDisposition ();
attachment.ContentDisposition.ModificationDate = prop.ReadValueAsDateTime ();
}
break;
case TnefAttributeTag.AttachTitle:
if (attachment != null && string.IsNullOrEmpty (attachment.FileName))
attachment.FileName = prop.ReadValueAsString ();
break;
case TnefAttributeTag.AttachMetaFile:
if (attachment == null)
break;
// TODO: what to do with the meta data?
break;
case TnefAttributeTag.AttachData:
if (attachment == null || attachMethod != TnefAttachMethod.ByValue)
break;
attachData = prop.ReadValueAsBytes ();
filter.Flush (attachData, 0, attachData.Length, out outIndex, out outLength);
attachment.ContentTransferEncoding = filter.GetBestEncoding (EncodingConstraint.EightBit);
attachment.ContentObject = new ContentObject (new MemoryStream (attachData, false));
filter.Reset ();
builder.Attachments.Add (attachment);
break;
}
} while (reader.ReadNextAttribute ());
}
/// <summary>
/// Calculates the most efficient content encoding given the specified constraint.
/// </summary>
/// <remarks>
/// If no <see cref="ContentObject"/> is set, <see cref="ContentEncoding.SevenBit"/> will be returned.
/// </remarks>
/// <returns>The most efficient content encoding.</returns>
/// <param name="constraint">The encoding constraint.</param>
/// <param name="maxLineLength">The maximum allowable length for a line (not counting the CRLF). Must be between <c>72</c> and <c>998</c> (inclusive).</param>
/// <param name="cancellationToken">A cancellation token.</param>
/// <exception cref="System.ArgumentOutOfRangeException">
/// <para><paramref name="maxLineLength"/> is not between <c>72</c> and <c>998</c> (inclusive).</para>
/// <para>-or-</para>
/// <para><paramref name="constraint"/> is not a valid value.</para>
/// </exception>
/// <exception cref="System.OperationCanceledException">
/// The operation was canceled via the cancellation token.
/// </exception>
/// <exception cref="System.IO.IOException">
/// An I/O error occurred.
/// </exception>
public ContentEncoding GetBestEncoding (EncodingConstraint constraint, int maxLineLength, CancellationToken cancellationToken = default (CancellationToken))
{
if (ContentObject == null)
return ContentEncoding.SevenBit;
using (var measure = new MeasuringStream ()) {
using (var filtered = new FilteredStream (measure)) {
var filter = new BestEncodingFilter ();
filtered.Add (filter);
ContentObject.DecodeTo (filtered, cancellationToken);
filtered.Flush ();
return filter.GetBestEncoding (constraint, maxLineLength);
}
}
}
/// <summary>
/// Computes the MD5 checksum of the content.
/// </summary>
/// <remarks>
/// Computes the MD5 checksum of the MIME content in its canonical
/// format and then base64-encodes the result.
/// </remarks>
/// <returns>The md5sum of the content.</returns>
/// <exception cref="System.InvalidOperationException">
/// The <see cref="ContentObject"/> is <c>null</c>.
/// </exception>
public string ComputeContentMd5 ()
{
if (ContentObject == null)
throw new InvalidOperationException ("Cannot compute Md5 checksum without a ContentObject.");
using (var stream = ContentObject.Open ()) {
byte[] checksum;
using (var filtered = new FilteredStream (stream)) {
if (ContentType.Matches ("text", "*"))
filtered.Add (new Unix2DosFilter ());
using (var md5 = MD5.Create ())
checksum = md5.ComputeHash (filtered);
}
var base64 = new Base64Encoder (true);
var digest = new byte[base64.EstimateOutputLength (checksum.Length)];
int n = base64.Flush (checksum, 0, checksum.Length, digest);
return Encoding.ASCII.GetString (digest, 0, n);
}
}
/// <summary>
/// Opens the decoded content stream.
/// </summary>
/// <remarks>
/// Provides a means of reading the decoded content without having to first write it to another
/// stream using <see cref="DecodeTo(System.IO.Stream,System.Threading.CancellationToken)"/>.
/// </remarks>
/// <returns>The decoded content stream.</returns>
public Stream Open ()
{
content.Seek (0, SeekOrigin.Begin);
var filtered = new FilteredStream (content);
filtered.Add (DecoderFilter.Create (Encoding));
return filtered;
}
/// <summary>
/// Decodes the content stream into another stream.
/// </summary>
/// <remarks>
/// Uses the <see cref="Encoding"/> to decode the content stream to the output stream.
/// </remarks>
/// <param name="stream">The output stream.</param>
/// <param name="cancellationToken">A cancellation token.</param>
/// <exception cref="System.ArgumentNullException">
/// <paramref name="stream"/> is <c>null</c>.
/// </exception>
/// <exception cref="System.OperationCanceledException">
/// The operation was canceled via the cancellation token.
/// </exception>
/// <exception cref="System.IO.IOException">
/// An I/O error occurred.
/// </exception>
public void DecodeTo(Stream stream, CancellationToken cancellationToken)
{
if (stream == null)
throw new ArgumentNullException ("stream");
using (var filtered = new FilteredStream (stream)) {
filtered.Add (DecoderFilter.Create (Encoding));
WriteTo (filtered, cancellationToken);
filtered.Flush ();
}
}
static void ExtractMapiProperties(TnefReader reader, MimeMessage message, BodyBuilder builder)
{
var prop = reader.TnefPropertyReader;
while (prop.ReadNextProperty ()) {
switch (prop.PropertyTag.Id) {
case TnefPropertyId.InternetMessageId:
if (prop.PropertyTag.ValueTnefType == TnefPropertyType.String8 ||
prop.PropertyTag.ValueTnefType == TnefPropertyType.Unicode) {
message.MessageId = prop.ReadValueAsString ();
Console.WriteLine ("Message Property: {0} = {1}", prop.PropertyTag.Id, message.MessageId);
} else {
Assert.Fail ("Unknown property type for Message-Id: {0}", prop.PropertyTag.ValueTnefType);
}
break;
case TnefPropertyId.Subject:
if (prop.PropertyTag.ValueTnefType == TnefPropertyType.String8 ||
prop.PropertyTag.ValueTnefType == TnefPropertyType.Unicode) {
message.Subject = prop.ReadValueAsString ();
Console.WriteLine ("Message Property: {0} = {1}", prop.PropertyTag.Id, message.Subject);
} else {
Assert.Fail ("Unknown property type for Subject: {0}", prop.PropertyTag.ValueTnefType);
}
break;
case TnefPropertyId.RtfCompressed:
if (prop.PropertyTag.ValueTnefType == TnefPropertyType.String8 ||
prop.PropertyTag.ValueTnefType == TnefPropertyType.Unicode ||
prop.PropertyTag.ValueTnefType == TnefPropertyType.Binary) {
var rtf = new TextPart ("rtf");
rtf.ContentType.Name = "body.rtf";
var converter = new RtfCompressedToRtf ();
var content = new MemoryStream ();
using (var filtered = new FilteredStream (content)) {
filtered.Add (converter);
using (var compressed = prop.GetRawValueReadStream ()) {
compressed.CopyTo (filtered, 4096);
filtered.Flush ();
}
}
rtf.ContentObject = new ContentObject (content);
content.Position = 0;
builder.Attachments.Add (rtf);
Console.WriteLine ("Message Property: {0} = <compressed rtf data>", prop.PropertyTag.Id);
} else {
Assert.Fail ("Unknown property type for {0}: {1}", prop.PropertyTag.Id, prop.PropertyTag.ValueTnefType);
}
break;
case TnefPropertyId.BodyHtml:
if (prop.PropertyTag.ValueTnefType == TnefPropertyType.String8 ||
prop.PropertyTag.ValueTnefType == TnefPropertyType.Unicode ||
prop.PropertyTag.ValueTnefType == TnefPropertyType.Binary) {
var html = new TextPart ("html");
html.ContentType.Name = "body.html";
html.Text = prop.ReadValueAsString ();
builder.Attachments.Add (html);
Console.WriteLine ("Message Property: {0} = {1}", prop.PropertyTag.Id, html.Text);
} else {
Assert.Fail ("Unknown property type for {0}: {1}", prop.PropertyTag.Id, prop.PropertyTag.ValueTnefType);
}
break;
case TnefPropertyId.Body:
if (prop.PropertyTag.ValueTnefType == TnefPropertyType.String8 ||
prop.PropertyTag.ValueTnefType == TnefPropertyType.Unicode ||
prop.PropertyTag.ValueTnefType == TnefPropertyType.Binary) {
var plain = new TextPart ("plain");
plain.ContentType.Name = "body.txt";
plain.Text = prop.ReadValueAsString ();
builder.Attachments.Add (plain);
Console.WriteLine ("Message Property: {0} = {1}", prop.PropertyTag.Id, plain.Text);
} else {
Assert.Fail ("Unknown property type for {0}: {1}", prop.PropertyTag.Id, prop.PropertyTag.ValueTnefType);
}
break;
default:
Console.WriteLine ("Message Property (unhandled): {0} = {1}", prop.PropertyTag.Id, prop.ReadValue ());
break;
}
}
}
void Data (FormatOptions options, MimeMessage message, CancellationToken cancellationToken, ITransferProgress progress)
{
var response = SendCommand ("DATA", cancellationToken);
if (response.StatusCode != SmtpStatusCode.StartMailInput)
throw new SmtpCommandException (SmtpErrorCode.UnexpectedStatusCode, response.StatusCode, response.Response);
if (progress != null) {
var ctx = new SendContext (progress, null);
using (var stream = new ProgressStream (Stream, ctx.Update)) {
using (var filtered = new FilteredStream (stream)) {
filtered.Add (new SmtpDataFilter ());
message.WriteTo (options, filtered, cancellationToken);
filtered.Flush ();
}
}
} else {
using (var filtered = new FilteredStream (Stream)) {
filtered.Add (new SmtpDataFilter ());
message.WriteTo (options, filtered, cancellationToken);
filtered.Flush ();
}
}
Stream.Write (EndData, 0, EndData.Length, cancellationToken);
Stream.Flush (cancellationToken);
response = Stream.ReadResponse (cancellationToken);
switch (response.StatusCode) {
default:
throw new SmtpCommandException (SmtpErrorCode.MessageNotAccepted, response.StatusCode, response.Response);
case SmtpStatusCode.AuthenticationRequired:
throw new ServiceNotAuthenticatedException (response.Response);
case SmtpStatusCode.Ok:
OnMessageSent (new MessageSentEventArgs (message, response.Response));
break;
}
}
static void ExtractMapiProperties (TnefReader reader, MimeMessage message, BodyBuilder builder)
{
var prop = reader.TnefPropertyReader;
while (prop.ReadNextProperty ()) {
switch (prop.PropertyTag.Id) {
case TnefPropertyId.InternetMessageId:
if (prop.PropertyTag.ValueTnefType == TnefPropertyType.String8 ||
prop.PropertyTag.ValueTnefType == TnefPropertyType.Unicode) {
message.MessageId = prop.ReadValueAsString ();
}
break;
case TnefPropertyId.Subject:
if (prop.PropertyTag.ValueTnefType == TnefPropertyType.String8 ||
prop.PropertyTag.ValueTnefType == TnefPropertyType.Unicode) {
message.Subject = prop.ReadValueAsString ();
}
break;
case TnefPropertyId.RtfCompressed:
if (prop.PropertyTag.ValueTnefType == TnefPropertyType.String8 ||
prop.PropertyTag.ValueTnefType == TnefPropertyType.Unicode ||
prop.PropertyTag.ValueTnefType == TnefPropertyType.Binary) {
var rtf = new TextPart ("rtf");
rtf.ContentType.Name = "body.rtf";
var converter = new RtfCompressedToRtf ();
var content = new MemoryStream ();
using (var filtered = new FilteredStream (content)) {
filtered.Add (converter);
using (var compressed = prop.GetRawValueReadStream ()) {
compressed.CopyTo (filtered, 4096);
filtered.Flush ();
}
}
rtf.ContentObject = new ContentObject (content);
content.Position = 0;
builder.Attachments.Add (rtf);
}
break;
case TnefPropertyId.BodyHtml:
if (prop.PropertyTag.ValueTnefType == TnefPropertyType.String8 ||
prop.PropertyTag.ValueTnefType == TnefPropertyType.Unicode ||
prop.PropertyTag.ValueTnefType == TnefPropertyType.Binary) {
var html = new TextPart ("html");
html.ContentType.Name = "body.html";
html.Text = prop.ReadValueAsString ();
builder.Attachments.Add (html);
}
break;
case TnefPropertyId.Body:
if (prop.PropertyTag.ValueTnefType == TnefPropertyType.String8 ||
prop.PropertyTag.ValueTnefType == TnefPropertyType.Unicode ||
prop.PropertyTag.ValueTnefType == TnefPropertyType.Binary) {
var plain = new TextPart ("plain");
plain.ContentType.Name = "body.txt";
plain.Text = prop.ReadValueAsString ();
builder.Attachments.Add (plain);
}
break;
}
}
}
Stream GetResourceStream (string name)
{
using (var response = GetType ().Assembly.GetManifestResourceStream ("UnitTests.Net.Pop3.Resources." + name)) {
var memory = new MemoryBlockStream ();
using (var filtered = new FilteredStream (memory)) {
if (testUnixFormat)
filtered.Add (new Dos2UnixFilter ());
else
filtered.Add (new Unix2DosFilter ());
response.CopyTo (filtered, 4096);
}
memory.Position = 0;
return memory;
}
}
/// <summary>
/// Creates a new <see cref="MultipartEncrypted"/>.
/// </summary>
/// <remarks>
/// Encrypts the entity to the specified recipients, encapsulating the result in a
/// new multipart/encrypted part.
/// </remarks>
/// <returns>A new <see cref="MimeKit.Cryptography.MultipartEncrypted"/> instance containing
/// the encrypted version of the specified entity.</returns>
/// <param name="ctx">The OpenPGP cryptography context to use for encrypting.</param>
/// <param name="recipients">The recipients for the encrypted entity.</param>
/// <param name="entity">The entity to sign and encrypt.</param>
/// <exception cref="System.ArgumentNullException">
/// <para><paramref name="ctx"/> is <c>null</c>.</para>
/// <para>-or-</para>
/// <para><paramref name="recipients"/> is <c>null</c>.</para>
/// <para>-or-</para>
/// <para><paramref name="entity"/> is <c>null</c>.</para>
/// </exception>
/// <exception cref="System.ArgumentException">
/// One or more of the recipient keys cannot be used for encrypting.
/// </exception>
public static MultipartEncrypted Create (OpenPgpContext ctx, IEnumerable<PgpPublicKey> recipients, MimeEntity entity)
{
if (ctx == null)
throw new ArgumentNullException ("ctx");
if (recipients == null)
throw new ArgumentNullException ("recipients");
if (entity == null)
throw new ArgumentNullException ("entity");
using (var memory = new MemoryStream ()) {
using (var filtered = new FilteredStream (memory)) {
filtered.Add (new Unix2DosFilter ());
PrepareEntityForEncrypting (entity);
entity.WriteTo (filtered);
filtered.Flush ();
}
memory.Position = 0;
var encrypted = new MultipartEncrypted ();
encrypted.ContentType.Parameters["protocol"] = ctx.EncryptionProtocol;
// add the protocol version part
encrypted.Add (new ApplicationPgpEncrypted ());
// add the encrypted entity as the second part
encrypted.Add (ctx.Encrypt (recipients, memory));
return encrypted;
}
}
/// <summary>
/// Digitally sign the message using a DomainKeys Identified Mail (DKIM) signature.
/// </summary>
/// <remarks>
/// Digitally signs the message using a DomainKeys Identified Mail (DKIM) signature.
/// </remarks>
/// <param name="options">The formatting options.</param>
/// <param name="signer">The DKIM signer.</param>
/// <param name="headers">The list of header fields to sign.</param>
/// <param name="headerCanonicalizationAlgorithm">The header canonicalization algorithm.</param>
/// <param name="bodyCanonicalizationAlgorithm">The body canonicalization algorithm.</param>
/// <exception cref="System.ArgumentNullException">
/// <para><paramref name="options"/> is <c>null</c>.</para>
/// <para>-or-</para>
/// <para><paramref name="signer"/> is <c>null</c>.</para>
/// <para>-or-</para>
/// <para><paramref name="headers"/> is <c>null</c>.</para>
/// </exception>
/// <exception cref="System.ArgumentException">
/// <para><paramref name="headers"/> does not contain the 'From' header.</para>
/// <para>-or-</para>
/// <para><paramref name="headers"/> contains one or more of the following headers: Return-Path,
/// Received, Comments, Keywords, Bcc, Resent-Bcc, or DKIM-Signature.</para>
/// </exception>
void Sign (FormatOptions options, DkimSigner signer, IList<HeaderId> headers, DkimCanonicalizationAlgorithm headerCanonicalizationAlgorithm = DkimCanonicalizationAlgorithm.Simple, DkimCanonicalizationAlgorithm bodyCanonicalizationAlgorithm = DkimCanonicalizationAlgorithm.Simple)
{
if (options == null)
throw new ArgumentNullException ("options");
if (signer == null)
throw new ArgumentNullException ("signer");
if (headers == null)
throw new ArgumentNullException ("headers");
if (!headers.Contains (HeaderId.From))
throw new ArgumentException ("The list of headers to sign MUST include the 'From' header.");
var fields = new string[headers.Count];
for (int i = 0; i < headers.Count; i++) {
if (DkimShouldNotInclude.Contains (headers[i]))
throw new ArgumentException (string.Format ("The list of headers to sign SHOULD NOT include the '{0}' header.", headers[i].ToHeaderName ()));
fields[i] = headers[i].ToHeaderName ().ToLowerInvariant ();
}
if (version == null && Body != null && Body.Headers.Count > 0)
MimeVersion = new Version (1, 0);
Prepare (EncodingConstraint.SevenBit, 78);
var t = DateTime.Now - DateUtils.UnixEpoch;
var value = new StringBuilder ("v=1");
byte[] signature, hash;
Header dkim;
options = options.Clone ();
options.NewLineFormat = NewLineFormat.Dos;
switch (signer.SignatureAlgorithm) {
case DkimSignatureAlgorithm.RsaSha256:
value.Append ("; a=rsa-sha256");
break;
default:
value.Append ("; a=rsa-sha1");
break;
}
value.AppendFormat ("; d={0}; s={1}", signer.Domain, signer.Selector);
value.AppendFormat ("; c={0}/{1}",
headerCanonicalizationAlgorithm.ToString ().ToLowerInvariant (),
bodyCanonicalizationAlgorithm.ToString ().ToLowerInvariant ());
if (!string.IsNullOrEmpty (signer.QueryMethod))
value.AppendFormat ("; q={0}", signer.QueryMethod);
if (!string.IsNullOrEmpty (signer.AgentOrUserIdentifier))
value.AppendFormat ("; i={0}", signer.AgentOrUserIdentifier);
value.AppendFormat ("; t={0}", (long) t.TotalSeconds);
using (var stream = new DkimSignatureStream (DkimGetDigestSigner (signer.SignatureAlgorithm, signer.PrivateKey))) {
using (var filtered = new FilteredStream (stream)) {
filtered.Add (options.CreateNewLineFilter ());
// write the specified message headers
DkimWriteHeaders (options, fields, headerCanonicalizationAlgorithm, filtered);
value.AppendFormat ("; h={0}", string.Join (":", fields.ToArray ()));
hash = DkimHashBody (options, signer.SignatureAlgorithm, bodyCanonicalizationAlgorithm, -1);
value.AppendFormat ("; bh={0}", Convert.ToBase64String (hash));
value.Append ("; b=");
dkim = new Header (HeaderId.DkimSignature, value.ToString ());
Headers.Insert (0, dkim);
switch (headerCanonicalizationAlgorithm) {
case DkimCanonicalizationAlgorithm.Relaxed:
DkimWriteHeaderRelaxed (options, filtered, dkim);
break;
default:
DkimWriteHeaderSimple (options, filtered, dkim);
break;
}
filtered.Flush ();
}
signature = stream.GenerateSignature ();
dkim.Value += Convert.ToBase64String (signature);
}
}
public void TestSimpleYEncMessage ()
{
using (var file = File.OpenRead ("../../TestData/yenc/simple.msg")) {
var message = MimeMessage.Load (file);
using (var decoded = new MemoryStream ()) {
var ydec = new YDecoder ();
using (var filtered = new FilteredStream (decoded)) {
filtered.Add (new DecoderFilter (ydec));
((MimePart) message.Body).ContentObject.WriteTo (filtered);
filtered.Flush ();
}
decoded.Position = 0;
Assert.AreEqual (584, decoded.Length, "The decoded size does not match.");
Assert.AreEqual (0xded29f4f, ydec.Checksum ^ 0xffffffff, "The decoded checksum does not match.");
// now re-encode it
using (var encoded = new MemoryStream ()) {
var ybegin = Encoding.ASCII.GetBytes ("-- \n=ybegin line=128 size=584 name=testfile.txt \n");
var yend = Encoding.ASCII.GetBytes ("=yend size=584 crc32=ded29f4f \n");
var yenc = new YEncoder ();
encoded.Write (ybegin, 0, ybegin.Length);
using (var filtered = new FilteredStream (encoded)) {
filtered.Add (new EncoderFilter (yenc));
decoded.CopyTo (filtered, 4096);
filtered.Flush ();
}
encoded.Write (yend, 0, yend.Length);
Assert.AreEqual (0xded29f4f, yenc.Checksum ^ 0xffffffff, "The encoded checksum does not match.");
using (var original = new MemoryStream ()) {
using (var filtered = new FilteredStream (original)) {
filtered.Add (new Dos2UnixFilter ());
((MimePart) message.Body).ContentObject.WriteTo (filtered);
filtered.Flush ();
}
var latin1 = Encoding.GetEncoding ("iso-8859-1");
var buf = original.GetBuffer ();
var expected = latin1.GetString (buf, 0, (int) original.Length);
buf = encoded.GetBuffer ();
var actual = latin1.GetString (buf, 0, (int) encoded.Length);
Assert.AreEqual (expected, actual, "Encoded value does not match original.");
}
}
}
}
}
/// <summary>
/// Writes the message to the specified output stream.
/// </summary>
/// <remarks>
/// Writes the message to the output stream using the provided formatting options.
/// </remarks>
/// <param name="options">The formatting options.</param>
/// <param name="stream">The output stream.</param>
/// <param name="cancellationToken">A cancellation token.</param>
/// <exception cref="System.ArgumentNullException">
/// <para><paramref name="options"/> is <c>null</c>.</para>
/// <para>-or-</para>
/// <para><paramref name="stream"/> is <c>null</c>.</para>
/// </exception>
/// <exception cref="System.OperationCanceledException">
/// The operation was canceled via the cancellation token.
/// </exception>
/// <exception cref="System.IO.IOException">
/// An I/O error occurred.
/// </exception>
public void WriteTo (FormatOptions options, Stream stream, CancellationToken cancellationToken = default (CancellationToken))
{
if (options == null)
throw new ArgumentNullException ("options");
if (stream == null)
throw new ArgumentNullException ("stream");
if (version == null && Body != null && Body.Headers.Count > 0)
MimeVersion = new Version (1, 0);
if (Body != null) {
using (var filtered = new FilteredStream (stream)) {
filtered.Add (options.CreateNewLineFilter ());
foreach (var header in MergeHeaders ()) {
if (options.HiddenHeaders.Contains (header.Id))
continue;
filtered.Write (header.RawField, 0, header.RawField.Length, cancellationToken);
filtered.Write (new [] { (byte) ':' }, 0, 1, cancellationToken);
filtered.Write (header.RawValue, 0, header.RawValue.Length, cancellationToken);
}
filtered.Flush (cancellationToken);
}
var cancellable = stream as ICancellableStream;
if (cancellable != null) {
cancellable.Write (options.NewLineBytes, 0, options.NewLineBytes.Length, cancellationToken);
} else {
cancellationToken.ThrowIfCancellationRequested ();
stream.Write (options.NewLineBytes, 0, options.NewLineBytes.Length);
}
try {
Body.Headers.Suppress = true;
Body.WriteTo (options, stream, cancellationToken);
} finally {
Body.Headers.Suppress = false;
}
} else {
Headers.WriteTo (options, stream, cancellationToken);
}
}
public void TestUUEncode ()
{
using (var original = new MemoryStream ()) {
using (var file = File.OpenRead ("../../TestData/encoders/photo.uu"))
file.CopyTo (original, 4096);
using (var encoded = new MemoryStream ()) {
var begin = Encoding.ASCII.GetBytes ("begin 644 photo.jpg");
var eol = FormatOptions.Default.NewLineBytes;
var end = Encoding.ASCII.GetBytes ("end");
encoded.Write (begin, 0, begin.Length);
encoded.Write (eol, 0, eol.Length);
using (var filtered = new FilteredStream (encoded)) {
filtered.Add (EncoderFilter.Create (ContentEncoding.UUEncode));
using (var file = File.OpenRead ("../../TestData/encoders/photo.jpg"))
file.CopyTo (filtered, 4096);
filtered.Flush ();
}
encoded.Write (end, 0, end.Length);
encoded.Write (eol, 0, eol.Length);
var buf0 = original.GetBuffer ();
var buf1 = encoded.GetBuffer ();
int n = (int) original.Length;
Assert.AreEqual (original.Length, encoded.Length, "Encoded length is incorrect.");
for (int i = 0; i < n; i++)
Assert.AreEqual (buf0[i], buf1[i], "The byte at offset {0} does not match.", i);
}
}
}
/// <summary>
/// Join the specified message/partial parts into the complete message.
/// </summary>
/// <param name="options">The parser options to use.</param>
/// <param name="partials">The list of partial message parts.</param>
/// <exception cref="System.ArgumentNullException">
/// <para><paramref name="options"/> is <c>null</c>.</para>
/// <para>-or-</para>
/// <para><paramref name="partials"/>is <c>null</c>.</para>
/// </exception>
public static MimeMessage Join(ParserOptions options, IEnumerable<MessagePartial> partials)
{
if (options == null)
throw new ArgumentNullException ("options");
if (partials == null)
throw new ArgumentNullException ("partials");
var parts = partials.ToList ();
if (parts.Count == 0)
return null;
parts.Sort (PartialCompare);
if (!parts[parts.Count - 1].Total.HasValue)
throw new ArgumentException ("partials");
int total = parts[parts.Count - 1].Total.Value;
if (parts.Count != total)
throw new ArgumentException ("partials");
string id = parts[0].Id;
using (var chained = new ChainedStream ()) {
// chain all of the partial content streams...
for (int i = 0; i < parts.Count; i++) {
int number = parts[i].Number.Value;
if (number != i + 1)
throw new ArgumentException ("partials");
var content = parts[i].ContentObject;
content.Stream.Seek (0, SeekOrigin.Begin);
var filtered = new FilteredStream (content.Stream);
filtered.Add (DecoderFilter.Create (content.Encoding));
chained.Add (filtered);
}
var parser = new MimeParser (options, chained);
return parser.ParseMessage ();
}
}
byte[] DkimHashBody (FormatOptions options, DkimSignatureAlgorithm signatureAlgorithm, DkimCanonicalizationAlgorithm bodyCanonicalizationAlgorithm, int maxLength)
{
using (var stream = new DkimHashStream (signatureAlgorithm, maxLength)) {
using (var filtered = new FilteredStream (stream)) {
DkimBodyFilter dkim;
if (bodyCanonicalizationAlgorithm == DkimCanonicalizationAlgorithm.Relaxed)
dkim = new DkimRelaxedBodyFilter ();
else
dkim = new DkimSimpleBodyFilter ();
filtered.Add (options.CreateNewLineFilter ());
filtered.Add (dkim);
if (Body != null) {
try {
Body.EnsureNewLine = compliance == RfcComplianceMode.Strict;
Body.Headers.Suppress = true;
Body.WriteTo (options, filtered, CancellationToken.None);
} finally {
Body.Headers.Suppress = false;
Body.EnsureNewLine = false;
}
}
filtered.Flush ();
if (!dkim.LastWasNewLine)
stream.Write (options.NewLineBytes, 0, options.NewLineBytes.Length);
}
return stream.GenerateHash ();
}
}