// Package email is designed to provide an "email interface for humans." // Designed to be robust and flexible, the email package aims to make sending email easy without getting in the way. package email import ( "bufio" "bytes" "encoding/base64" "errors" "fmt" "io" "math/rand" "mime" "mime/multipart" "mime/quotedprintable" "net/mail" "net/smtp" "net/textproto" "os" "path/filepath" "strings" "time" ) const ( MaxLineLength = 76 // MaxLineLength is the maximum line length per RFC 2045 defaultContentType = "text/plain; charset=us-ascii" // defaultContentType is the default Content-Type according to RFC 2045, section 5.2 ) // ErrMissingBoundary is returned when there is no boundary given for a multipart entity var ErrMissingBoundary = errors.New("No boundary found for multipart entity") // ErrMissingContentType is returned when there is no "Content-Type" header for a MIME entity var ErrMissingContentType = errors.New("No Content-Type found for MIME entity") // Email is the type used for email messages type Email struct { From string To []string Bcc []string Cc []string Subject string Text []byte // Plaintext message (optional) HTML []byte // Html message (optional) Headers textproto.MIMEHeader Attachments []*Attachment ReadReceipt []string } // part is a copyable representation of a multipart.Part type part struct { header textproto.MIMEHeader body []byte } // NewEmail creates an Email, and returns the pointer to it. func NewEmail() *Email { return &Email{Headers: textproto.MIMEHeader{}} } // NewEmailFromReader reads a stream of bytes from an io.Reader, r, // and returns an email struct containing the parsed data. // This function expects the data in RFC 5322 format. func NewEmailFromReader(r io.Reader) (*Email, error) { e := NewEmail() tp := textproto.NewReader(bufio.NewReader(r)) // Parse the main headers hdrs, err := tp.ReadMIMEHeader() if err != nil { return e, err } // Set the subject, to, cc, bcc, and from for h, v := range hdrs { switch { case h == "Subject": e.Subject = v[0] delete(hdrs, h) case h == "To": e.To = v delete(hdrs, h) case h == "Cc": e.Cc = v delete(hdrs, h) case h == "Bcc": e.Bcc = v delete(hdrs, h) case h == "From": e.From = v[0] delete(hdrs, h) } } e.Headers = hdrs body := tp.R // Recursively parse the MIME parts ps, err := parseMIMEParts(e.Headers, body) if err != nil { return e, err } for _, p := range ps { if ct := p.header.Get("Content-Type"); ct == "" { return e, ErrMissingContentType } ct, _, err := mime.ParseMediaType(p.header.Get("Content-Type")) if err != nil { return e, err } switch { case ct == "text/plain": e.Text = p.body case ct == "text/html": e.HTML = p.body } } return e, nil } // parseMIMEParts will recursively walk a MIME entity and return a []mime.Part containing // each (flattened) mime.Part found. // It is important to note that there are no limits to the number of recursions, so be // careful when parsing unknown MIME structures! func parseMIMEParts(hs textproto.MIMEHeader, b io.Reader) ([]*part, error) { var ps []*part // If no content type is given, set it to the default if _, ok := hs["Content-Type"]; !ok { hs.Set("Content-Type", defaultContentType) } ct, params, err := mime.ParseMediaType(hs.Get("Content-Type")) if err != nil { return ps, err } // If it's a multipart email, recursively parse the parts if strings.HasPrefix(ct, "multipart/") { if _, ok := params["boundary"]; !ok { return ps, ErrMissingBoundary } mr := multipart.NewReader(b, params["boundary"]) for { var buf bytes.Buffer p, err := mr.NextPart() if err == io.EOF { break } if err != nil { return ps, err } if _, ok := p.Header["Content-Type"]; !ok { p.Header.Set("Content-Type", defaultContentType) } subct, _, err := mime.ParseMediaType(p.Header.Get("Content-Type")) if strings.HasPrefix(subct, "multipart/") { sps, err := parseMIMEParts(p.Header, p) if err != nil { return ps, err } ps = append(ps, sps...) } else { // Otherwise, just append the part to the list // Copy the part data into the buffer if _, err := io.Copy(&buf, p); err != nil { return ps, err } ps = append(ps, &part{body: buf.Bytes(), header: p.Header}) } } } else { // If it is not a multipart email, parse the body content as a single "part" var buf bytes.Buffer if _, err := io.Copy(&buf, b); err != nil { return ps, err } ps = append(ps, &part{body: buf.Bytes(), header: hs}) } return ps, nil } // Attach is used to attach content from an io.Reader to the email. // Required parameters include an io.Reader, the desired filename for the attachment, and the Content-Type // The function will return the created Attachment for reference, as well as nil for the error, if successful. func (e *Email) Attach(r io.Reader, filename string, c string) (a *Attachment, err error) { var buffer bytes.Buffer if _, err = io.Copy(&buffer, r); err != nil { return } at := &Attachment{ Filename: filename, Header: textproto.MIMEHeader{}, Content: buffer.Bytes(), } // Get the Content-Type to be used in the MIMEHeader if c != "" { at.Header.Set("Content-Type", c) } else { // If the Content-Type is blank, set the Content-Type to "application/octet-stream" at.Header.Set("Content-Type", "application/octet-stream") } at.Header.Set("Content-Disposition", fmt.Sprintf("attachment;\r\n filename=\"%s\"", filename)) at.Header.Set("Content-ID", fmt.Sprintf("<%s>", filename)) at.Header.Set("Content-Transfer-Encoding", "base64") e.Attachments = append(e.Attachments, at) return at, nil } // AttachFile is used to attach content to the email. // It attempts to open the file referenced by filename and, if successful, creates an Attachment. // This Attachment is then appended to the slice of Email.Attachments. // The function will then return the Attachment for reference, as well as nil for the error, if successful. func (e *Email) AttachFile(filename string) (a *Attachment, err error) { f, err := os.Open(filename) if err != nil { return } ct := mime.TypeByExtension(filepath.Ext(filename)) basename := filepath.Base(filename) return e.Attach(f, basename, ct) } // msgHeaders merges the Email's various fields and custom headers together in a // standards compliant way to create a MIMEHeader to be used in the resulting // message. It does not alter e.Headers. // // "e"'s fields To, Cc, From, Subject will be used unless they are present in // e.Headers. Unless set in e.Headers, "Date" will filled with the current time. func (e *Email) msgHeaders() textproto.MIMEHeader { res := make(textproto.MIMEHeader, len(e.Headers)+4) if e.Headers != nil { for _, h := range []string{"To", "Cc", "From", "Subject", "Date", "Message-Id"} { if v, ok := e.Headers[h]; ok { res[h] = v } } } // Set headers if there are values. if _, ok := res["To"]; !ok && len(e.To) > 0 { res.Set("To", strings.Join(e.To, ", ")) } if _, ok := res["Cc"]; !ok && len(e.Cc) > 0 { res.Set("Cc", strings.Join(e.Cc, ", ")) } if _, ok := res["Subject"]; !ok && e.Subject != "" { res.Set("Subject", e.Subject) } if _, ok := res["Message-Id"]; !ok { res.Set("Message-Id", generateMessageID()) } // Date and From are required headers. if _, ok := res["From"]; !ok { res.Set("From", e.From) } if _, ok := res["Date"]; !ok { res.Set("Date", time.Now().Format(time.RFC1123Z)) } if _, ok := res["Mime-Version"]; !ok { res.Set("Mime-Version", "1.0") } for field, vals := range e.Headers { if _, ok := res[field]; !ok { res[field] = vals } } return res } // Bytes converts the Email object to a []byte representation, including all needed MIMEHeaders, boundaries, etc. func (e *Email) Bytes() ([]byte, error) { // TODO: better guess buffer size buff := bytes.NewBuffer(make([]byte, 0, 4096)) headers := e.msgHeaders() w := multipart.NewWriter(buff) // TODO: determine the content type based on message/attachment mix. headers.Set("Content-Type", "multipart/mixed;\r\n boundary="+w.Boundary()) headerToBytes(buff, headers) io.WriteString(buff, "\r\n") // Start the multipart/mixed part fmt.Fprintf(buff, "--%s\r\n", w.Boundary()) header := textproto.MIMEHeader{} // Check to see if there is a Text or HTML field if len(e.Text) > 0 || len(e.HTML) > 0 { subWriter := multipart.NewWriter(buff) // Create the multipart alternative part header.Set("Content-Type", fmt.Sprintf("multipart/alternative;\r\n boundary=%s\r\n", subWriter.Boundary())) // Write the header headerToBytes(buff, header) // Create the body sections if len(e.Text) > 0 { header.Set("Content-Type", fmt.Sprintf("text/plain; charset=UTF-8")) header.Set("Content-Transfer-Encoding", "quoted-printable") if _, err := subWriter.CreatePart(header); err != nil { return nil, err } qp := quotedprintable.NewWriter(buff) // Write the text if _, err := qp.Write(e.Text); err != nil { return nil, err } if err := qp.Close(); err != nil { return nil, err } } if len(e.HTML) > 0 { header.Set("Content-Type", fmt.Sprintf("text/html; charset=UTF-8")) header.Set("Content-Transfer-Encoding", "quoted-printable") if _, err := subWriter.CreatePart(header); err != nil { return nil, err } qp := quotedprintable.NewWriter(buff) // Write the HTML if _, err := qp.Write(e.HTML); err != nil { return nil, err } if err := qp.Close(); err != nil { return nil, err } } if err := subWriter.Close(); err != nil { return nil, err } } // Create attachment part, if necessary for _, a := range e.Attachments { ap, err := w.CreatePart(a.Header) if err != nil { return nil, err } // Write the base64Wrapped content to the part base64Wrap(ap, a.Content) } if err := w.Close(); err != nil { return nil, err } return buff.Bytes(), nil } // Send an email using the given host and SMTP auth (optional), returns any error thrown by smtp.SendMail // This function merges the To, Cc, and Bcc fields and calls the smtp.SendMail function using the Email.Bytes() output as the message func (e *Email) Send(addr string, a smtp.Auth) error { // Merge the To, Cc, and Bcc fields to := make([]string, 0, len(e.To)+len(e.Cc)+len(e.Bcc)) to = append(append(append(to, e.To...), e.Cc...), e.Bcc...) for i := 0; i < len(to); i++ { addr, err := mail.ParseAddress(to[i]) if err != nil { return err } to[i] = addr.Address } // Check to make sure there is at least one recipient and one "From" address if e.From == "" || len(to) == 0 { return errors.New("Must specify at least one From address and one To address") } from, err := mail.ParseAddress(e.From) if err != nil { return err } raw, err := e.Bytes() if err != nil { return err } return smtp.SendMail(addr, a, from.Address, to, raw) } // Attachment is a struct representing an email attachment. // Based on the mime/multipart.FileHeader struct, Attachment contains the name, MIMEHeader, and content of the attachment in question type Attachment struct { Filename string Header textproto.MIMEHeader Content []byte } // base64Wrap encodes the attachment content, and wraps it according to RFC 2045 standards (every 76 chars) // The output is then written to the specified io.Writer func base64Wrap(w io.Writer, b []byte) { // 57 raw bytes per 76-byte base64 line. const maxRaw = 57 // Buffer for each line, including trailing CRLF. buffer := make([]byte, MaxLineLength+len("\r\n")) copy(buffer[MaxLineLength:], "\r\n") // Process raw chunks until there's no longer enough to fill a line. for len(b) >= maxRaw { base64.StdEncoding.Encode(buffer, b[:maxRaw]) w.Write(buffer) b = b[maxRaw:] } // Handle the last chunk of bytes. if len(b) > 0 { out := buffer[:base64.StdEncoding.EncodedLen(len(b))] base64.StdEncoding.Encode(out, b) out = append(out, "\r\n"...) w.Write(out) } } // headerToBytes renders "header" to "buff". If there are multiple values for a // field, multiple "Field: value\r\n" lines will be emitted. func headerToBytes(buff *bytes.Buffer, header textproto.MIMEHeader) { for field, vals := range header { for _, subval := range vals { // bytes.Buffer.Write() never returns an error. io.WriteString(buff, field) io.WriteString(buff, ": ") // Write the encoded header if needed switch { case field == "Content-Type" || field == "Content-Disposition": buff.Write([]byte(subval)) default: buff.Write([]byte(mime.QEncoding.Encode("UTF-8", subval))) } io.WriteString(buff, "\r\n") } } } // generateMessageID generates and returns a string suitable for an RFC 2822 // compliant Message-ID, e.g.: // <1444789264909237300.3464.1819418242800517193@DESKTOP01> // // The following parameters are used to generate a Message-ID: // - The nanoseconds since Epoch // - The calling PID // - A pseudo-random int64 // - The sending hostname func generateMessageID() string { t := time.Now().UnixNano() pid := os.Getpid() r := rand.New(rand.NewSource(time.Now().UTC().UnixNano())) rint := r.Int63() h, err := os.Hostname() // If we can't get the hostname, we'll use localhost if err != nil { h = "localhost.localdomain" } msgid := fmt.Sprintf("<%d.%d.%d@%s>", t, pid, rint, h) return msgid }