Letters, or how to parse emails in Go

Letters is a minimalistic Golang library for parsing plaintext and MIME emails.

It correctly handles text and MIME mime-types, Base64 and Quoted-Printable Content-Transfer-Encoding, as well as any text encoding that Golang standard library is capable of handling. Letters will parse an email into a simple struct with standard headers and text, enriched text, and HTML content, and decode inline and attached files.

Quickstart

Install

go get github.com/mnako/letters@v0.2.2

Parse a raw email from a Reader:

email, err := letters.ParseEmail(r)
if err != nil {
    log.Fatal(err)
}

and you can access the common headers:

email.Headers.Sender
// mail.Address{Name: "Alice Sender", Address: "alice.sender@example.com"}

email.Headers.From
// []mail.Address{
//  {Name: "Alice Sender", Address: "alice.sender@example.com"}, 
//  {Name: "Alice Sender", Address: "alice.sender@example.net"},
// }

email.Headers.Subject
// "📧 Test English Pangrams"

email.Headers.To
// []mail.Address{
//  {Name: "Bob Recipient", Address: "bob.recipient@example.com"}, 
//  {Name: "Carol Recipient", Address: "carol.recipient@example.com"},
// }

email.Headers.Cc
// []mail.Address{
//  {Name: "Dan Recipient", Address: "dan.recipient@example.com"}, 
//  {Name: "Eve Recipient", Address: "eve.recipient@example.com"},
// }

email.Headers.Bcc
// []mail.Address{
//  {Name: "Frank Recipient", Address: "frank.recipient@example.com"}, 
//  {Name: "Grace Recipient", Address: "grace.recipient@example.com"},
// }

get custom headers:

email.Headers.ExtraHeaders
// map[string][]string{
//    "X-Clacks-Overhead": {"GNU Terry Pratchett"},
// }

get decoded bodies:

email.Text
// "The quick brown fox jumps over a lazy dog..."

email.HTML
// "<html><div dir="ltr"><p>The quick brown fox jumps over a lazy dog..."

inline files:

email.InlineFiles
// []InlineFile{
//    {
//        ContentType: ContentTypeHeader{
//            ContentType: "image/jpeg",
//            Params: map[string]string{
//                "name": "inline-jpg-image-without-disposition.jpg",
//            },
//        },
//        ContentDisposition: ContentDispositionHeader{
//            ContentDisposition: "",
//            Params:             map[string]string(nil),
//        },
//        Data: []byte{255, ...},
//    },
//    {
//        ContentID: "inline-jpg-image.jpg@example.com",
//        ContentType: ContentTypeHeader{
//            ContentType: "image/jpeg",
//            Params: map[string]string{
//                "name": "inline-jpg-image-name.jpg",
//            },
//        },
//        ContentDisposition: ContentDispositionHeader{
//            ContentDisposition: inline,
//            Params: map[string]string{
//                "filename": "inline-jpg-image-filename.jpg",
//            },
//        },
//        Data: []byte{255, ...},
//    },
// }

and attached files:

email.AttachedFiles
// []AttachedFile{
//    {
//        ContentType: ContentTypeHeader{
//            ContentType: "application/pdf",
//            Params: map[string]string{
//                "name": "attached-pdf-name.pdf",
//            },
//        },
//        ContentDisposition: ContentDispositionHeader{
//            ContentDisposition: attachment,
//            Params: map[string]string{
//                "filename": "attached-pdf-filename.pdf",
//            },
//        },
//        Data: []byte{37, ...},
//    },
//    {
//        ContentType: ContentTypeHeader{
//            ContentType: "application/pdf",
//            Params: map[string]string{
//                "name": "attached-pdf-without-disposition.pdf",
//            },
//        },
//        ContentDisposition: ContentDispositionHeader{
//            ContentDisposition: "",
//            Params:             map[string]string(nil),
//        },
//        Data: []byte{37, ...},
// }

The same parser and methods will work for other languages, text encodings, and transfer-encodings:

r := strings.NewReader(```Subject: =?ISO-2022-JP?Q?=1B=24=42=24=24=24=6D=24=4F=32=4E=1B=28=42?=
Content-Type: text/plain; charset=ISO-2022-JP


=1B$B?'$OFw$($I=1B(B
=1B$B;6$j$L$k$r=1B(B```)

email, _ := letters.ParseEmail(r)

email.Headers.Subject
// "いろは歌"

email.Text
// "色は匂えど散りぬるを..."

Current Scope and Features

• Parsing plaintext emails and recursively traversing multipart (multipart/alternative, multipart/mixed, multipart/parallel, multipart/related, multipart/signed) emails
• Unfolding headers
• Decoding non-US-ASCII email headers according to RFC 2047
• Decoding Base64 and Quoted-Printable Content-Transfer-Encodings
• Decoding any text encoding (e.g. UTF-8, Chinese GB18030 or GBK, Finnish ISO-8859-15, Icelandic ISO-8859-1, Japanese ISO-2022-JP, Korean EUC-KR, Polish ISO-8859-2) in combination with any Transfer Encoding (e.g. ASCII-over-7bit, UTF-8-over-Base64, Japanese ISO-2022-JP-over-7bit, Polish ISO-8859-2-over-Quoted-Printable, etc.)
• Easy access to text, enriched text and HTML content of the email
• Easy access to inline attachments
• Easy access to attached files

All of that and more in a minimal Golang library with realistic email examples and thorough test coverage.

Current Limitations

• S/MIME multipart/signed email are limited to clear-signed messages
• The decryption and signature verification and any other cryptography-related tasks need to be performed outside of letters.

Current Status

Feature-complete and tests passing.

Currently, gathering feedback and refactoring code before releasing v1.0.0. Fields and API are still subject to change.