package mail import ( "bytes" "encoding/base64" "io" "mime/multipart" "mime/quotedprintable" "net/textproto" "regexp" "strconv" "strings" "time" ) type message struct { headers textproto.MIMEHeader body *bytes.Buffer writers []*multipart.Writer parts uint8 cids map[string]string charset string encoding encoding } func newMessage(email *Email) *message { return &message{ headers: email.headers, body: new(bytes.Buffer), cids: make(map[string]string), charset: email.Charset, encoding: email.Encoding} } func encodeHeader(text string, charset string, usedChars int) string { // create buffer buf := new(bytes.Buffer) // encode encoder := newEncoder(buf, charset, usedChars) encoder.encode([]byte(text)) return buf.String() /* switch encoding { case EncodingBase64: return mime.BEncoding.Encode(charset, text) default: return mime.QEncoding.Encode(charset, text) } */ } // getHeaders returns the message headers func (msg *message) getHeaders() (headers string) { // if the date header isn't set, set it if date := msg.headers.Get("Date"); date == "" { msg.headers.Set("Date", time.Now().Format(time.RFC1123Z)) } // encode and combine the headers for header, values := range msg.headers { headers += header + ": " + encodeHeader(strings.Join(values, ", "), msg.charset, len(header)+2) + "\r\n" } headers = headers + "\r\n" return } // getCID gets the generated CID for the provided text func (msg *message) getCID(text string) (cid string) { // set the date format to use const dateFormat = "20060102.150405" // get the cid if we have one cid, exists := msg.cids[text] if !exists { // generate a new cid cid = time.Now().Format(dateFormat) + "." + strconv.Itoa(len(msg.cids)+1) + "@mail.0" // save it msg.cids[text] = cid } return } // replaceCIDs replaces the CIDs found in a text string // with generated ones func (msg *message) replaceCIDs(text string) string { // regular expression to find cids re := regexp.MustCompile(`(src|href)="cid:(.*?)"`) // replace all of the found cids with generated ones for _, matches := range re.FindAllStringSubmatch(text, -1) { cid := msg.getCID(matches[2]) text = strings.Replace(text, "cid:"+matches[2], "cid:"+cid, -1) } return text } // openMultipart creates a new part of a multipart message func (msg *message) openMultipart(multipartType string) { // create a new multipart writer msg.writers = append(msg.writers, multipart.NewWriter(msg.body)) // create the boundary contentType := "multipart/" + multipartType + ";\n \tboundary=" + msg.writers[msg.parts].Boundary() // if no existing parts, add header to main header group if msg.parts == 0 { msg.headers.Set("Content-Type", contentType) } else { // add header to multipart section header := make(textproto.MIMEHeader) header.Set("Content-Type", contentType) msg.writers[msg.parts-1].CreatePart(header) } msg.parts++ } // closeMultipart closes a part of a multipart message func (msg *message) closeMultipart() { if msg.parts > 0 { msg.writers[msg.parts-1].Close() msg.parts-- } } // base64Encode base64 encodes the provided text with line wrapping func base64Encode(text []byte) []byte { // create buffer buf := new(bytes.Buffer) // create base64 encoder that linewraps encoder := base64.NewEncoder(base64.StdEncoding, &base64LineWrap{writer: buf}) // write the encoded text to buf encoder.Write(text) encoder.Close() return buf.Bytes() } // qpEncode uses the quoted-printable encoding to encode the provided text func qpEncode(text []byte) []byte { // create buffer buf := new(bytes.Buffer) encoder := quotedprintable.NewWriter(buf) encoder.Write(text) encoder.Close() return buf.Bytes() } const maxLineChars = 76 type base64LineWrap struct { writer io.Writer numLineChars int } func (e *base64LineWrap) Write(p []byte) (n int, err error) { n = 0 // while we have more chars than are allowed for len(p)+e.numLineChars > maxLineChars { numCharsToWrite := maxLineChars - e.numLineChars // write the chars we can e.writer.Write(p[:numCharsToWrite]) // write a line break e.writer.Write([]byte("\r\n")) // reset the line count e.numLineChars = 0 // remove the chars that have been written p = p[numCharsToWrite:] // set the num of chars written n += numCharsToWrite } // write what is left e.writer.Write(p) e.numLineChars += len(p) n += len(p) return } func (msg *message) write(header textproto.MIMEHeader, body []byte, encoding encoding) { msg.writeHeader(header) msg.writeBody(body, encoding) } func (msg *message) writeHeader(headers textproto.MIMEHeader) { // if there are no parts add header to main headers if msg.parts == 0 { for header, value := range headers { msg.headers[header] = value } } else { // add header to multipart section msg.writers[msg.parts-1].CreatePart(headers) } } func (msg *message) writeBody(body []byte, encoding encoding) { // encode and write the body switch encoding { case EncodingQuotedPrintable: msg.body.Write(qpEncode(body)) case EncodingBase64: msg.body.Write(base64Encode(body)) default: msg.body.Write(body) } } func (msg *message) addBody(contentType string, body []byte) { body = []byte(msg.replaceCIDs(string(body))) header := make(textproto.MIMEHeader) header.Set("Content-Type", contentType+"; charset="+msg.charset) header.Set("Content-Transfer-Encoding", msg.encoding.string()) msg.write(header, body, msg.encoding) } var quoteEscaper = strings.NewReplacer("\\", "\\\\", `"`, "\\\"") func escapeQuotes(s string) string { return quoteEscaper.Replace(s) } func (msg *message) addFiles(files []*File, inline bool) { encoding := EncodingBase64 for _, file := range files { header := make(textproto.MIMEHeader) header.Set("Content-Type", file.MimeType+";\n \tname=\""+encodeHeader(escapeQuotes(file.Name), msg.charset, 6)+`"`) header.Set("Content-Transfer-Encoding", encoding.string()) if inline { header.Set("Content-Disposition", "inline;\n \tfilename=\""+encodeHeader(escapeQuotes(file.Name), msg.charset, 10)+`"`) header.Set("Content-ID", "<"+msg.getCID(file.Name)+">") } else { header.Set("Content-Disposition", "attachment;\n \tfilename=\""+encodeHeader(escapeQuotes(file.Name), msg.charset, 10)+`"`) } msg.write(header, file.Data, encoding) } }