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A C# MIME creation and parser library with support for S/MIME and Unix mbox spools

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MimeKit

Join the chat at https://gitter.im/jstedfast/MimeKit

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What is MimeKit?

MimeKit is a C# library which may be used for the creation and parsing of messages using the Multipurpose Internet Mail Extension (MIME), as defined by numerous IETF specifications.

History

As a developer and user of email clients, I had come to realize that the vast majority of email client (and server) software had less-than-satisfactory MIME implementations. More often than not these email clients created broken MIME messages and/or would incorrectly try to parse a MIME message thus subtracting from the full benefits that MIME was meant to provide. MimeKit is meant to address this issue by following the MIME specification as closely as possible while also providing programmers with an extremely easy to use high-level API.

This led me, at first, to implement another MIME parser library called GMime which is implemented in C and later added a C# binding called GMime-Sharp.

Now that I typically find myself working in C# rather than lower level languages like C, I decided to begin writing a new parser in C# which would not depend on GMime. This would also allow me to have more flexibility in that I'd be able to use Generics and create a more .NET-compliant API.

Performance

While mainstream beliefs may suggest that C# can never be as fast as C, it turns out that with a bit of creative parser design and a few clever optimizations [1] [2], MimeKit's performance is actually on par with GMime.

Since GMime is pretty well-known as a high-performance native MIME parser and MimeKit more-or-less matches GMime's performance, it stands to reason that MimeKit is likely unsurpassed in performance in the .NET MIME parser space.

For a comparison, as I blogged here (I have since optimized MimeKit by at least another 30%), MimeKit is more than 25x faster than OpenPOP.NET, 75x faster than SharpMimeTools, and 65x faster than regex-based parsers. Even the commercial MIME parser offerings such as LimiLabs' Mail.dll and NewtonIdeas' Mime4Net cannot even come close to matching MimeKit's performance (they are both orders of magnitude slower than MimeKit).

For comparison purposes, I've published a MIME parser benchmark to make it easier for anyone else to compare the performance of MimeKit to their favourite MIME parser.

Here are the results:

Parsing startrek.msg (1000 iterations):
MimeKit:        0.6989221 seconds
OpenPop:        25.3056064 seconds
AE.Net.Mail:    17.5971438 seconds
MailSystem.NET: 26.3891218 seconds
MIMER:          76.4538978 seconds

Parsing xamarin3.msg (1000 iterations):
MimeKit:        3.4215505 seconds
OpenPop:        159.3308053 seconds
AE.Net.Mail:    132.3044291 seconds
MailSystem.NET: 133.5832078 seconds
MIMER:          784.433441 seconds

How does your MIME parser compare?

License Information

MimeKit is Copyright (C) 2012-2016 Xamarin Inc. and is licensed under the MIT license:

Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:

The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.

THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
THE SOFTWARE.

Installing via NuGet

The easiest way to install MimeKit is via NuGet.

In Visual Studio's Package Manager Console, simply enter the following command:

Install-Package MimeKit

Building

First, you'll need to clone MimeKit from my GitHub repository:

git clone https://github.com/jstedfast/MimeKit.git
cd MimeKit
git submodule update --init --recursive

In the top-level MimeKit source directory, there are several solution files:

  • MimeKit.sln includes projects for .NET 3.5, .NET 4.0, .NET 4.5, PCL (Profile7 and Profile111), Xamarin.Android, and Xamarin.iOS as well as the unit tests.
  • MimeKit.Mobile.sln just includes the Xamarin.Android and Xamarin.iOS projects.
  • MimeKit.Net40.sln just includes the .NET 4.0 project.
  • MimeKit.Net45.sln includes the .NET 4.5 project and the unit tests.

If you don't have the Xamarin products, you'll probably want to open the MimeKit.Net45.sln instead of MimeKit.sln.

Once you've opened the appropriate MimeKit solution file in either Xamarin Studio or Visual Studio 2010+ (either will work), you can simply choose the Debug or Release build configuration and then build.

Note: The Release build will generate the xml API documentation, but the Debug build will not.

Using MimeKit

Parsing Messages

One of the more common operations that MimeKit is meant for is parsing email messages from arbitrary streams. There are two ways of accomplishing this task.

The first way is to use one of the Load() methods on MimeKit.MimeMessage:

// Load a MimeMessage from a stream
var message = MimeMessage.Load (stream);

The second way is to use the MimeParser class. For the most part, using the MimeParser directly is not necessary unless you wish to parse a Unix mbox file stream. However, this is how you would do it:

// Load a MimeMessage from a stream
var parser = new MimeParser (stream, MimeFormat.Entity);
var message = parser.ParseMessage ();

For Unix mbox file streams, you would use the parser like this:

// Load every message from a Unix mbox
var parser = new MimeParser (stream, MimeFormat.Mbox);
while (!parser.IsEndOfStream) {
    var message = parser.ParseMessage ();

    // do something with the message
}

Getting the Body of a Message

A common misunderstanding about email is that there is a well-defined message body and then a list of attachments. This is not really the case. The reality is that MIME is a tree structure of content, much like a file system.

Luckily, MIME does define a set of general rules for how mail clients should interpret this tree structure of MIME parts. The Content-Disposition header is meant to provide hints to the receiving client as to which parts are meant to be displayed as part of the message body and which are meant to be interpreted as attachments.

The Content-Disposition header will generally have one of two values: inline or attachment.

The meaning of these value should be fairly obvious. If the value is attachment, then the content of said MIME part is meant to be presented as a file attachment separate from the core message. However, if the value is inline, then the content of that MIME part is meant to be displayed inline within the mail client's rendering of the core message body. If the Content-Disposition header does not exist, then it should be treated as if the value were inline.

Technically, every part that lacks a Content-Disposition header or that is marked as inline, then, is part of the core message body.

There's a bit more to it than that, though.

Modern MIME messages will often contain a multipart/alternative MIME container which will generally contain a text/plain and text/html version of the text that the sender wrote. The text/html version is typically formatted much closer to what the sender saw in his or her WYSIWYG editor than the text/plain version.

The reason for sending the message text in both formats is that not all mail clients are capable of displaying HTML.

The receiving client should only display one of the alternative views contained within the multipart/alternative container. Since alternative views are listed in order of least faithful to most faithful with what the sender saw in his or her WYSIWYG editor, the receiving client should walk over the list of alternative views starting at the end and working backwards until it finds a part that it is capable of displaying.

Example:

multipart/alternative
  text/plain
  text/html

As seen in the example above, the text/html part is listed last because it is the most faithful to what the sender saw in his or her WYSIWYG editor when writing the message.

To make matters even more complicated, sometimes modern mail clients will use a multipart/related MIME container instead of a simple text/html part in order to embed images and other content within the HTML.

Example:

multipart/alternative
  text/plain
  multipart/related
    text/html
    image/jpeg
    video/mp4
    image/png

In the example above, one of the alternative views is a multipart/related container which contains an HTML version of the message body that references the sibling video and images.

Now that you have a rough idea of how a message is structured and how to interpret various MIME entities, the next step is learning how to traverse the MIME tree using MimeKit.

Note: For your convenience, MimeKit's MimeMessage class has two properties that can help you get the text/plain or text/html version of the message body. These are TextBody and HtmlBody, respectively.

Keep in mind, however, that at least with the HtmlBody property, it may be that the HTML part is a child of a multipart/related, allowing it to refer to images and other types of media that are also contained within that multipart/related entity. This property is really only a convenience property and is not a really good substitute for traversing the MIME structure yourself so that you may properly interpret related content.

Traversing a MimeMessage

The MimeMessage.Body is the top-level MIME entity of the message. Generally, it will either be a TextPart or a Multipart.

As an example, if you wanted to rip out all of the attachments of a message, your code might look something like this:

var attachments = new List<MimePart> ();
var multiparts = new List<Multipart> ();
var iter = new MimeIterator (message);

// collect our list of attachments and their parent multiparts
while (iter.MoveNext ()) {
    var multipart = iter.Parent as Multipart;
    var part = iter.Current as MimePart;

    if (multipart != null && part != null && part.IsAttachment) {
        // keep track of each attachment's parent multipart
        multiparts.Add (multipart);
        attachments.Add (part);
    }
}

// now remove each attachment from its parent multipart...
for (int i = 0; i < attachments.Count; i++)
    multiparts[i].Remove (attachments[i]);

Quick and Dirty Enumeration of Message Body Parts

If you would rather skip the proper way of traversing a MIME tree, another option that MimeKit provides is a simple enumerator over the message's body parts in a flat (depth-first) list.

You can access this flat list via the BodyParts property, like so:

foreach (var part in message.BodyParts) {
   // do something
}

Another helper property on the MimeMessage class is the Attachments property which works much the same way as the BodyParts property except that it will only contain MIME parts which have a Content-Disposition header value that is set to attachment.

Getting the Decoded Content of a MIME Part

At some point, you're going to want to extract the decoded content of a MimePart (such as an image) and save it to disk or feed it to a UI control to display it.

Once you've found the MimePart object that you'd like to extract the content of, here's how you can save the decoded content to a file:

// This will get the name of the file as specified by the sending mail client.
// Note: this value *may* be null, so you'll want to handle that case in your code.
var fileName = part.FileName;

using (var stream = File.Create (fileName)) {
    part.ContentObject.DecodeTo (stream);
}

You can also get access to the original raw content by "opening" the ContentObject. This might be useful if you want to pass the content off to a UI control that can do its own loading from a stream.

using (var stream = part.ContentObject.Open ()) {
    // At this point, you can now read from the stream as if it were the original,
    // raw content. Assuming you have an image UI control that could load from a
    // stream, you could do something like this:
    imageControl.Load (stream);
}

There are a number of useful filters that can be applied to a FilteredStream, so if you find this type of interface appealing, I suggest taking a look at the available filters in the MimeKit.IO.Filters namespace or even write your own! The possibilities are limited only by your imagination.

Creating a Simple Message

Creating MIME messages using MimeKit is really trivial.

var message = new MimeMessage ();
message.From.Add (new MailboxAddress ("Joey", "[email protected]"));
message.To.Add (new MailboxAddress ("Alice", "[email protected]"));
message.Subject = "How you doin?";

message.Body = new TextPart ("plain") {
    Text = @"Hey Alice,

What are you up to this weekend? Monica is throwing one of her parties on
Saturday and I was hoping you could make it.

Will you be my +1?

-- Joey
"
};

A TextPart is a leaf-node MIME part with a text media-type. The first argument to the TextPart constructor specifies the media-subtype, in this case, "plain". Another media subtype you are probably familiar with is the "html" subtype. Some other examples include "enriched", "rtf", and "csv".

The Text property is the easiest way to both get and set the string content of the MIME part.

Creating a Message with Attachments

Attachments are just like any other MimePart, the only difference is that they typically have a Content-Disposition header with a value of "attachment" instead of "inline" or no Content-Disposition header at all.

Typically, when a mail client adds attachments to a message, it will create a multipart/mixed part and add the text body part and all of the file attachments to the multipart/mixed.

Here's how you can do that with MimeKit:

var message = new MimeMessage ();
message.From.Add (new MailboxAddress ("Joey", "[email protected]"));
message.To.Add (new MailboxAddress ("Alice", "[email protected]"));
message.Subject = "How you doin?";

// create our message text, just like before (except don't set it as the message.Body)
var body = new TextPart ("plain") {
    Text = @"Hey Alice,

What are you up to this weekend? Monica is throwing one of her parties on
Saturday and I was hoping you could make it.

Will you be my +1?

-- Joey
"
};

// create an image attachment for the file located at path
var attachment = new MimePart ("image", "gif") {
    ContentObject = new ContentObject (File.OpenRead (path), ContentEncoding.Default),
    ContentDisposition = new ContentDisposition (ContentDisposition.Attachment),
    ContentTransferEncoding = ContentEncoding.Base64,
    FileName = Path.GetFileName (path)
};

// now create the multipart/mixed container to hold the message text and the
// image attachment
var multipart = new Multipart ("mixed");
multipart.Add (body);
multipart.Add (attachment);

// now set the multipart/mixed as the message body
message.Body = multipart;

Of course, that is just a simple example. A lot of modern mail clients such as Outlook or Thunderbird will send out both a text/html and a text/plain version of the message text. To do this, you'd create a TextPart for the text/plain part and a TextPart for the text/html part and then add them to a multipart/alternative like so:

var attachment = CreateAttachment ();
var plain = CreateTextPlainPart ();
var html = CreateTextHtmlPart ();

// Note: it is important that the text/html part is added second, because it is the
// most expressive version and (probably) the most faithful to the sender's WYSIWYG 
// editor.
var alternative = new Multipart ("alternative");
alternative.Add (plain);
alternative.Add (html);

// now create the multipart/mixed container to hold the multipart/alternative
// and the image attachment
var multipart = new Multipart ("mixed");
multipart.Add (alternative);
multipart.Add (attachment);

// now set the multipart/mixed as the message body
message.Body = multipart;

Creating a Message Using a BodyBuilder (not Arnold Schwarzenegger)

If you are used to System.Net.Mail's API for creating messages, you will probably find using a BodyBuilder much more friendly than manually creating the tree of MIME parts. Here's how you could create a message body using a BodyBuilder:

var message = new MimeMessage ();
message.From.Add (new MailboxAddress ("Joey", "[email protected]"));
message.To.Add (new MailboxAddress ("Alice", "[email protected]"));
message.Subject = "How you doin?";

var builder = new BodyBuilder ();

// Set the plain-text version of the message text
builder.TextBody = @"Hey Alice,

What are you up to this weekend? Monica is throwing one of her parties on
Saturday and I was hoping you could make it.

Will you be my +1?

-- Joey
";

// Set the html version of the message text
builder.HtmlBody = @"<p>Hey Alice,<br>
<p>What are you up to this weekend? Monica is throwing one of her parties on
Saturday and I was hoping you could make it.<br>
<p>Will you be my +1?<br>
<p>-- Joey<br>
<center><img src=""sexy-pose.jpg""></center>";

// Since sexy-pose.jpg is referenced from the html text, we'll need to add it
// to builder.LinkedResources
builder.LinkedResources.Add (@"C:\Users\Joey\Documents\Selfies\sexy-pose.jpg");

// We may also want to attach a calendar event for Monica's party...
builder.Attachments.Add (@"C:\Users\Joey\Documents\party.ics");

// Now we just need to set the message body and we're done
message.Body = builder.ToMessageBody ();

Preparing to use MimeKit's S/MIME support

Before you can begin using MimeKit's S/MIME support, you will need to decide which database to use for certificate storage.

If you are targetting any of the Xamarin platforms (or Linux), you won't need to do anything (although you certainly can if you want to) because, by default, I've configured MimeKit to use the Mono.Data.Sqlite binding to SQLite.

If you are, however, on any of the Windows platforms, you'll need to pick a System.Data provider such as System.Data.SQLite. Once you've made your choice and installed it (via NuGet or however), you'll need to implement your own SecureMimeContext subclass. Luckily, it's very simple to do. Assuming you've chosen System.Data.SQLite, here's how you'd implement your own SecureMimeContext class:

using System.Data.SQLite;
using MimeKit.Cryptography;

using MyAppNamespace {
    class MySecureMimeContext : DefaultSecureMimeContext
    {
        public MySecureMimeContext () : base (OpenDatabase ("C:\\wherever\\certdb.sqlite"))
        {
        }

        static IX509CertificateDatabase OpenDatabase (string fileName)
        {
            var builder = new SQLiteConnectionStringBuilder ();
            builder.DateTimeFormat = SQLiteDateFormats.Ticks;
            builder.DataSource = fileName;

            if (!File.Exists (fileName))
                SQLiteConnection.CreateFile (fileName);

            var sqlite = new SQLiteConnection (builder.ConnectionString);
            sqlite.Open ();

            return new SqliteCertificateDatabase (sqlite, "password");
        }
    }
}

Now that you've implemented your own SecureMimeContext, you'll want to register it with MimeKit:

CryptographyContext.Register (typeof (MySecureMimeContext));

Now you are ready to encrypt, decrypt, sign and verify S/MIME messages!

Preparing to use MimeKit's PGP/MIME support

Like with S/MIME support, you also need to register your own OpenPgpContext. Unlike S/MIME, however, you don't need to choose a database if you subclass GnuPGContext because it uses GnuPG's PGP keyrings to load and store public and private keys. If you choose to subclass GnuPGContext, the only thing you you need to do is implement a password callback method:

using MimeKit.Cryptography;

namespace MyAppNamespace {
    class MyGnuPGContext : GnuPGContext
    {
        public MyGnuPgContext () : base ()
        {
        }

        protected override string GetPasswordForKey (PgpSecretKey key)
        {
            // prompt the user (or a secure password cache) for the password for the specified secret key.
            return "password";
        }
    }
}

Once again, to register your OpenPgpContext, you can use the following code snippet:

CryptographyContext.Register (typeof (MyGnuPGContext));

Now you are ready to encrypt, decrypt, sign and verify PGP/MIME messages!

Encrypting Messages with S/MIME

S/MIME uses an application/pkcs7-mime MIME part to encapsulate encrypted content (as well as other things).

var joey = new MailboxAddress ("Joey", "[email protected]");
var alice = new MailboxAddress ("Alice", "[email protected]");

var message = new MimeMessage ();
message.From.Add (joey);
message.To.Add (alice);
message.Subject = "How you doin?";

// create our message body (perhaps a multipart/mixed with the message text and some
// image attachments, for example)
var body = CreateMessageBody ();

// now to encrypt our message body using our custom S/MIME cryptography context
using (var ctx = new MySecureMimeContext ()) {
    // Note: this assumes that "Alice" has an S/MIME certificate with an X.509
    // Subject Email identifier that matches her email address. If she doesn't,
    // try using a SecureMailboxAddress which allows you to specify the
    // fingerprint of her certificate to use for lookups.
    message.Body = ApplicationPkcs7Mime.Encrypt (ctx, message.To.Mailboxes, body);
}

Decrypting S/MIME Messages

As mentioned earlier, S/MIME uses an application/pkcs7-mime part with an "smime-type" parameter with a value of "enveloped-data" to encapsulate the encrypted content.

The first thing you must do is find the ApplicationPkcs7Mime part (see the section on traversing MIME parts).

if (entity is ApplicationPkcs7Mime) {
    var pkcs7 = (ApplicationPkcs7Mime) entity;

    if (pkcs7.SecureMimeType == SecureMimeType.EnvelopedData)
        return pkcs7.Decrypt ();
}

Encrypting Messages with PGP/MIME

Unlike S/MIME, PGP/MIME uses multipart/encrypted to encapsulate its encrypted data.

var joey = new MailboxAddress ("Joey", "[email protected]");
var alice = new MailboxAddress ("Alice", "[email protected]");

var message = new MimeMessage ();
message.From.Add (joey);
message.To.Add (alice);
message.Subject = "How you doin?";

// create our message body (perhaps a multipart/mixed with the message text and some
// image attachments, for example)
var body = CreateMessageBody ();

// now to encrypt our message body using our custom PGP/MIME cryptography context
using (var ctx = new MyGnuPGContext ()) {
    // Note: this assumes that "Alice" has a public PGP key that matches her email
    // address. If she doesn't, try using a SecureMailboxAddress which allows you
    // to specify the fingerprint of her public PGP key to use for lookups.
    message.Body = MultipartEncrypted.Encrypt (ctx, message.To.Mailboxes, body);
}

Decrypting PGP/MIME Messages

As mentioned earlier, PGP/MIME uses a multipart/encrypted part to encapsulate the encrypted content.

A multipart/encrypted contains exactly 2 parts: the first MimeEntity is the version information while the second MimeEntity is the actual encrypted content and will typically be an application/octet-stream.

The first thing you must do is find the MultipartEncrypted part (see the section on traversing MIME parts).

if (entity is MultipartEncrypted) {
    var encrypted = (MultipartEncrypted) entity;

    return encrypted.Decrypt ();
}

Digitally Signing Messages with S/MIME or PGP/MIME

Both S/MIME and PGP/MIME use a multipart/signed to contain the signed content and the detached signature data.

Here's how you might digitally sign a message using S/MIME:

var joey = new MailboxAddress ("Joey", "[email protected]");
var alice = new MailboxAddress ("Alice", "[email protected]");

var message = new MimeMessage ();
message.From.Add (joey);
message.To.Add (alice);
message.Subject = "How you doin?";

// create our message body (perhaps a multipart/mixed with the message text and some
// image attachments, for example)
var body = CreateMessageBody ();

// now to digitally sign our message body using our custom S/MIME cryptography context
using (var ctx = new MySecureMimeContext ()) {
    // Note: this assumes that "Joey" has an S/MIME signing certificate and private key
    // with an X.509 Subject Email identifier that matches Joey's email address.
    message.Body = MultipartSigned.Create (ctx, joey, DigestAlgorithm.Sha1, body);
}

For S/MIME, if you have a way for the user to configure which S/MIME certificate to use as their signing certificate, you could also do something more like this:

// now to digitally sign our message body using our custom S/MIME cryptography context
using (var ctx = new MySecureMimeContext ()) {
    var certificate = GetJoeysX509Certificate ();
    var signer = new CmsSigner (certificate);
    signer.DigestAlgorithm = DigestAlgorithm.Sha1;

    message.Body = MultipartSigned.Create (ctx, signer, body);
}

If you'd prefer to use PGP instead of S/MIME, things work almost exactly the same except that you would use an OpenPGP cryptography context. For example, you might use a subclass of the GnuPGContext that comes with MimeKit if you want to re-use the user's GnuPG keyrings (you can't use GnuPGContext directly because it has no way of prompting the user for their passphrase).

For the sake of this example, let's pretend that you've written a minimal subclass of MimeKit.Cryptography.GnuPGContext that simply overrides the GetPassword() method and that this subclass is called MyGnuPGContext.

// now to digitally sign our message body using our custom OpenPGP cryptography context
using (var ctx = new MyGnuPGContext ()) {
    // Note: this assumes that "Joey" has a PGP key that matches his email address.
    message.Body = MultipartSigned.Create (ctx, joey, DigestAlgorithm.Sha1, body);
}

Just like S/MIME, however, you can also do your own PGP key lookups instead of relying on email addresses to match up with the user's private key.

// now to digitally sign our message body using our custom OpenPGP cryptography context
using (var ctx = new MyGnuPGContext ()) {
    var key = GetJoeysPrivatePgpKey ();
    message.Body = MultipartSigned.Create (ctx, key, DigestAlgorithm.Sha1, body);
}

Verifying S/MIME and PGP/MIME Digital Signatures

As mentioned earlier, both S/MIME and PGP/MIME typically use a multipart/signed part to contain the signed content and the detached signature data.

A multipart/signed contains exactly 2 parts: the first MimeEntity is the signed content while the second MimeEntity is the detached signature and, by default, will either be an ApplicationPgpSignature part or an ApplicationPkcs7Signature part (depending on whether the sending client signed using OpenPGP or S/MIME).

Because the multipart/signed part may have been signed by multiple signers, it is important to verify each of the digital signatures (one for each signer) that are returned by the MultipartSigned.Verify() method:

if (entity is MultipartSigned) {
    var signed = (MultipartSigned) entity;

    foreach (var signature in signed.Verify ()) {
        try {
            bool valid = signature.Verify ();

            // If valid is true, then it signifies that the signed content has not been
            // modified since this particular signer signed the content.
            //
            // However, if it is false, then it indicates that the signed content has
            // been modified.
        } catch (DigitalSignatureVerifyException) {
            // There was an error verifying the signature.
        }
    }
}

It should be noted, however, that while most S/MIME clients will use the preferred multipart/signed approach, it is possible that you may encounter an application/pkcs7-mime part with an "smime-type" parameter set to "signed-data". Luckily, MimeKit can handle this format as well:

if (entity is ApplicationPkcs7Mime) {
    var pkcs7 = (ApplicationPkcs7Mime) entity;

    if (pkcs7.SecureMimeType == SecureMimeType.SignedData) {
        // extract the original content and get a list of signatures
        MimeEntity extracted;

        // Note: if you are rendering the message, you'll want to render the
        // extracted mime part rather than the application/pkcs7-mime part.
        foreach (var signature in pkcs7.Verify (out extracted)) {
            try {
                bool valid = signature.Verify ();

                // If valid is true, then it signifies that the signed content has not
                // been modified since this particular signer signed the content.
                //
                // However, if it is false, then it indicates that the signed content
                // has been modified.
            } catch (DigitalSignatureVerifyException) {
                // There was an error verifying the signature.
            }
        }
    }
}

Contributing

The first thing you'll need to do is fork MimeKit to your own GitHub repository. Once you do that,

git clone [email protected]/<your-account>/MimeKit.git

If you use Xamarin Studio or MonoDevelop, all of the solution files are configured with the coding style used by MimeKit. If you use Visual Studio or some other editor, please try to maintain the existing coding style as best as you can.

Once you've got some changes that you'd like to submit upstream to the official MimeKit repository, simply send me a Pull Request and I will try to review your changes in a timely manner.

If you'd like to contribute but don't have any particular features in mind to work on, check out the issue tracker and look for something that might pique your interest!

Donate

MimeKit is a personal open source project that I have put thousands of hours into perfecting with the goal of making it not only the very best MIME parser framework for .NET, but the best MIME parser framework for any programming language. I need your help to achieve this.

Donating helps pay for things such as web hosting and licenses for developer tools such as a performance profiler, memory profiler, a static code analysis tool, and more.

Click here to lend your support to MimeKit and MailKit by making a donation via pledgie.com!

Reporting Bugs

Have a bug or a feature request? Please open a new issue.

Before opening a new issue, please search for existing issues to avoid submitting duplicates.

Documentation

API documentation can be found at http://mimekit.net/docs.

A copy of the xml formatted API documentation is also included in the NuGet and/or Xamarin Component package.

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A C# MIME creation and parser library with support for S/MIME and Unix mbox spools

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