package mail import ( "bytes" "crypto/md5" "crypto/tls" "encoding/base64" "encoding/hex" "errors" "fmt" "io/ioutil" "log" "net/mail" "net/smtp" "path" "path/filepath" "regexp" "strconv" "strings" "github.com/astaxie/beego" ) var ( imageRegex = regexp.MustCompile(`(src|background)=["'](.*?)["']`) schemeRegxp = regexp.MustCompile(`^[a-zA-Z]+://`) ) // Mail will represent a formatted email type Mail struct { To []string ToName []string Subject string HTML string Text string From string Bcc []string FromName string ReplyTo string Date string Files map[string]string Headers string BaseDir string //内容中图片路径 Charset string //编码 RetReceipt string //回执地址,空白则禁用回执 } // NewMail returns a new Mail func NewMail() Mail { return Mail{} } // SMTPClient struct type SMTPClient struct { smtpAuth smtp.Auth host string port string user string secure string } // SMTPConfig 配置结构体 type SMTPConfig struct { Username string Password string Host string Port int Secure string Identity string } func (s *SMTPConfig) Address() string { if s.Port == 0 { s.Port = 25 } return s.Host + `:` + strconv.Itoa(s.Port) } func (s *SMTPConfig) Auth() smtp.Auth { var auth smtp.Auth s.Secure = strings.ToUpper(s.Secure) switch s.Secure { case "NONE": auth = unencryptedAuth{smtp.PlainAuth(s.Identity, s.Username, s.Password, s.Host)} case "LOGIN": auth = LoginAuth(s.Username, s.Password) case "SSL": fallthrough default: //auth = smtp.PlainAuth(s.Identity, s.Username, s.Password, s.Host) auth = unencryptedAuth{smtp.PlainAuth(s.Identity, s.Username, s.Password, s.Host)} } return auth } func NewSMTPClient(conf *SMTPConfig) SMTPClient { return SMTPClient{ smtpAuth: conf.Auth(), host: conf.Host, port: strconv.Itoa(conf.Port), user: conf.Username, secure: conf.Secure, } } // NewMail returns a new Mail func (c *SMTPClient) NewMail() Mail { return NewMail() } // Send - It can be used for generic SMTP stuff func (c *SMTPClient) Send(m Mail) error { length := 0 if len(m.Charset) == 0 { m.Charset = "utf-8" } boundary := "COSCMSBOUNDARYFORSMTPGOLIB" var message bytes.Buffer message.WriteString(fmt.Sprintf("X-SMTPAPI: %s\r\n", m.Headers)) //回执 if len(m.RetReceipt) > 0 { message.WriteString(fmt.Sprintf("Return-Receipt-To: %s\r\n", m.RetReceipt)) message.WriteString(fmt.Sprintf("Disposition-Notification-To: %s\r\n", m.RetReceipt)) } message.WriteString(fmt.Sprintf("From: %s <%s>\r\n", m.FromName, m.From)) if len(m.ReplyTo) > 0 { message.WriteString(fmt.Sprintf("Return-Path: %s\r\n", m.ReplyTo)) } length = len(m.To) if length > 0 { nameLength := len(m.ToName) if nameLength > 0 { message.WriteString(fmt.Sprintf("To: %s <%s>", m.ToName[0], m.To[0])) } else { message.WriteString(fmt.Sprintf("To: <%s>", m.To[0])) } for i := 1; i < length; i++ { if nameLength > i { message.WriteString(fmt.Sprintf(", %s <%s>", m.ToName[i], m.To[i])) } else { message.WriteString(fmt.Sprintf(", <%s>", m.To[i])) } } } length = len(m.Bcc) if length > 0 { message.WriteString(fmt.Sprintf("Bcc: <%s>", m.Bcc[0])) for i := 1; i < length; i++ { message.WriteString(fmt.Sprintf(", <%s>", m.Bcc[i])) } } message.WriteString("\r\n") message.WriteString(fmt.Sprintf("Subject: %s\r\n", m.Subject)) message.WriteString("MIME-Version: 1.0\r\n") if m.Files != nil { message.WriteString(fmt.Sprintf("Content-Type: multipart/mixed; boundary=\"%s\"\r\n\n--%s\r\n", boundary, boundary)) } if len(m.HTML) > 0 { //解析内容中的图片 rs := imageRegex.FindAllStringSubmatch(m.HTML, -1) var embedImages string for _, v := range rs { surl := v[2] if v2 := schemeRegxp.FindStringIndex(surl); v2 == nil { filename := path.Base(surl) directory := path.Dir(surl) if directory == "." { directory = "" } h := md5.New() h.Write([]byte(surl + "@coscms.0")) cid := hex.EncodeToString(h.Sum(nil)) if len(m.BaseDir) > 0 && !strings.HasSuffix(m.BaseDir, "/") { m.BaseDir += "/" } if len(directory) > 0 && !strings.HasSuffix(directory, "/") { directory += "/" } if str, err := m.ReadAttachment(m.BaseDir + directory + filename); err == nil { re3 := regexp.MustCompile(v[1] + `=["']` + regexp.QuoteMeta(surl) + `["']`) m.HTML = re3.ReplaceAllString(m.HTML, v[1]+`="cid:`+cid+`"`) embedImages += fmt.Sprintf("--%s\r\n", boundary) embedImages += fmt.Sprintf("Content-Type: application/octet-stream; name=\"%s\"; charset=\"%s\"\r\n", filename, m.Charset) embedImages += fmt.Sprintf("Content-Description: %s\r\n", filename) embedImages += fmt.Sprintf("Content-Disposition: inline; filename=\"%s\"; charset=\"%s\"\r\n", filename, m.Charset) embedImages += fmt.Sprintf("Content-Transfer-Encoding: base64\r\nContent-ID: <%s>\r\n\r\n%s\r\n\n", cid, str) } } } part := fmt.Sprintf("Content-Type: text/html\r\n\n%s\r\n\n", m.HTML) message.WriteString(part) message.WriteString(embedImages) } else { part := fmt.Sprintf("Content-Type: text/plain\r\n\n%s\r\n\n", m.Text) message.WriteString(part) } if m.Files != nil { for key, value := range m.Files { message.WriteString(fmt.Sprintf("--%s\r\n", boundary)) message.WriteString("Content-Type: application/octect-stream\r\n") message.WriteString("Content-Transfer-Encoding:base64\r\n") message.WriteString(fmt.Sprintf("Content-Disposition: attachment; filename=\"%s\"; charset=\"%s\"\r\n\r\n%s\r\n\n", key, m.Charset, value)) } message.WriteString(fmt.Sprintf("--%s--", boundary)) } if c.secure == "SSL" || c.secure == "TLS" { return c.SendTLS(m, message) } return smtp.SendMail(c.host+":"+c.port, c.smtpAuth, m.From, m.To, message.Bytes()) } //SendTLS 通过TLS发送 func (c *SMTPClient) SendTLS(m Mail, message bytes.Buffer) error { var ct *smtp.Client var err error // TLS config tlsconfig := &tls.Config{ InsecureSkipVerify: true, ServerName: c.host, } // Here is the key, you need to call tls.Dial instead of smtp.Dial // for smtp servers running on 465 that require an ssl connection // from the very beginning (no starttls) conn, err := tls.Dial("tcp", c.host+":"+c.port, tlsconfig) if err != nil { log.Println(err, c.host) return err } ct, err = smtp.NewClient(conn, c.host) if err != nil { log.Println(err) return err } //if err := ct.StartTLS(tlsconfig);err != nil { // log.Println("StartTLS Error:",err,c.host,c.port) // return err //} //if err := ct.StartTLS(tlsconfig);err != nil { // fmt.Println(err) // return err //} fmt.Println(c.smtpAuth) if ok,s := ct.Extension("AUTH"); ok { beego.Info(s) // Auth if err = ct.Auth(c.smtpAuth); err != nil { log.Println("Auth Error:", err, c.user, ) return err } } // To && From if err = ct.Mail(m.From); err != nil { log.Println("Mail Error:", err, m.From) return err } for _, v := range m.To { if err := ct.Rcpt(v); err != nil { log.Println("Rcpt Error:", err, v) return err } } // Data w, err := ct.Data() if err != nil { log.Println("Data Object Error:", err) return err } _, err = w.Write(message.Bytes()) if err != nil { log.Println("Write Data Object Error:", err) return err } err = w.Close() if err != nil { log.Println("Data Object Close Error:", err) return err } ct.Quit() return nil } // AddTo will take a valid email address and store it in the mail. // It will return an error if the email is invalid. func (m *Mail) AddTo(email string) error { //Parses a single RFC 5322 address, e.g. "Barry Gibbs " parsedAddess, e := mail.ParseAddress(email) if e != nil { return e } m.AddRecipient(parsedAddess) return nil } // SetTos 设置收信人Email地址 func (m *Mail) SetTos(emails []string) { m.To = emails } // AddToName will add a new receipient name to mail func (m *Mail) AddToName(name string) { m.ToName = append(m.ToName, name) } // AddRecipient will take an already parsed mail.Address func (m *Mail) AddRecipient(receipient *mail.Address) { m.To = append(m.To, receipient.Address) if len(receipient.Name) > 0 { m.ToName = append(m.ToName, receipient.Name) } } // AddSubject will set the subject of the mail func (m *Mail) AddSubject(s string) { m.Subject = s } // AddHTML will set the body of the mail func (m *Mail) AddHTML(html string) { m.HTML = html } // AddText will set the body of the email func (m *Mail) AddText(text string) { m.Text = text } // AddFrom will set the senders email func (m *Mail) AddFrom(from string) error { //Parses a single RFC 5322 address, e.g. "Barry Gibbs " parsedAddess, e := mail.ParseAddress(from) if e != nil { return e } m.From = parsedAddess.Address m.FromName = parsedAddess.Name return nil } // AddBCC works like AddTo but for BCC func (m *Mail) AddBCC(email string) error { parsedAddess, e := mail.ParseAddress(email) if e != nil { return e } m.Bcc = append(m.Bcc, parsedAddess.Address) return nil } // AddRecipientBCC works like AddRecipient but for BCC func (m *Mail) AddRecipientBCC(email *mail.Address) { m.Bcc = append(m.Bcc, email.Address) } // AddFromName will set the senders name func (m *Mail) AddFromName(name string) { m.FromName = name } // AddReplyTo will set the return address func (m *Mail) AddReplyTo(reply string) { m.ReplyTo = reply } // AddDate specifies the date func (m *Mail) AddDate(date string) { m.Date = date } // AddAttachment will include file/s in mail func (m *Mail) AddAttachment(filePath string) error { if m.Files == nil { m.Files = make(map[string]string) } str, err := m.ReadAttachment(filePath) if err != nil { return err } _, filename := filepath.Split(filePath) m.Files[filename] = str return nil } // ReadAttachment reading attachment func (m *Mail) ReadAttachment(filePath string) (string, error) { file, e := ioutil.ReadFile(filePath) if e != nil { return "", e } encoded := base64.StdEncoding.EncodeToString(file) totalChars := len(encoded) maxLength := 500 //每行最大长度 totalLines := totalChars / maxLength var buf bytes.Buffer for i := 0; i < totalLines; i++ { buf.WriteString(encoded[i*maxLength:(i+1)*maxLength] + "\n") } buf.WriteString(encoded[totalLines*maxLength:]) return buf.String(), nil } // AddHeaders addding header string func (m *Mail) AddHeaders(headers string) { m.Headers = headers } // ======================================================= // unencryptedAuth // ======================================================= type unencryptedAuth struct { smtp.Auth } func (a unencryptedAuth) Start(server *smtp.ServerInfo) (string, []byte, error) { s := *server s.TLS = true return a.Auth.Start(&s) } // ====================================================== // loginAuth // ====================================================== type loginAuth struct { username, password string } // LoginAuth loginAuth方式认证 func LoginAuth(username, password string) smtp.Auth { return &loginAuth{username, password} } func (a *loginAuth) Start(server *smtp.ServerInfo) (string, []byte, error) { if !server.TLS { return "", nil, errors.New("unencrypted connection") } return "LOGIN", []byte(a.username), nil } func (a *loginAuth) Next(fromServer []byte, more bool) ([]byte, error) { if more { switch string(fromServer) { case "Username:": return []byte(a.username), nil case "Password:": return []byte(a.password), nil default: return nil, errors.New("Unkown fromServer") } } return nil, nil }