// SPDX-FileCopyrightText: Copyright 2010 The Go Authors. All rights reserved. // SPDX-FileCopyrightText: Copyright (c) 2022-2023 The go-mail Authors // // Original net/smtp code from the Go stdlib by the Go Authors. // Use of this source code is governed by a BSD-style // LICENSE file that can be found in this directory. // // go-mail specific modifications by the go-mail Authors. // Licensed under the MIT License. // See [PROJECT ROOT]/LICENSES directory for more information. // // SPDX-License-Identifier: BSD-3-Clause AND MIT // Package smtp implements the Simple Mail Transfer Protocol as defined in RFC 5321. // It also implements the following extensions: // // 8BITMIME RFC 1652 // AUTH RFC 2554 // STARTTLS RFC 3207 // DSN RFC 1891 package smtp import ( "crypto/tls" "encoding/base64" "errors" "fmt" "io" "net" "net/textproto" "os" "strings" "sync" "time" "github.com/wneessen/go-mail/log" ) var ( // ErrNonTLSConnection is returned when an attempt is made to retrieve TLS state on a non-TLS connection. ErrNonTLSConnection = errors.New("connection is not using TLS") // ErrNoConnection is returned when attempting to perform an operation that requires an established // connection but none exists. ErrNoConnection = errors.New("connection is not established") ) // A Client represents a client connection to an SMTP server. type Client struct { // Text is the textproto.Conn used by the Client. It is exported to allow for clients to add extensions. Text *textproto.Conn // auth supported auth mechanisms auth []string // authIsActive indicates that the Client is currently during SMTP authentication authIsActive bool // keep a reference to the connection so it can be used to create a TLS connection later conn net.Conn // debug logging is enabled debug bool // didHello indicates whether we've said HELO/EHLO didHello bool // dsnmrtype defines the mail return option in case DSN is enabled dsnmrtype string // dsnrntype defines the recipient notify option in case DSN is enabled dsnrntype string // ext is a map of supported extensions ext map[string]string // helloError is the error from the hello helloError error // isConnected indicates if the Client has an active connection isConnected bool // logAuthData indicates if the Client should include SMTP authentication data in the logs logAuthData bool // localName is the name to use in HELO/EHLO localName string // the name to use in HELO/EHLO // logger will be used for debug logging logger log.Logger // mutex is used to synchronize access to shared resources, ensuring that only one goroutine can access // the resource at a time. mutex sync.RWMutex // tls indicates whether the Client is using TLS tls bool // serverName denotes the name of the server to which the application will connect. Used for // identification and routing. serverName string } // Dial returns a new [Client] connected to an SMTP server at addr. // The addr must include a port, as in "mail.example.com:smtp". func Dial(addr string) (*Client, error) { conn, err := net.Dial("tcp", addr) if err != nil { return nil, err } host, _, _ := net.SplitHostPort(addr) return NewClient(conn, host) } // NewClient returns a new [Client] using an existing connection and host as a // server name to be used when authenticating. func NewClient(conn net.Conn, host string) (*Client, error) { text := textproto.NewConn(conn) _, _, err := text.ReadResponse(220) if err != nil { if cerr := text.Close(); cerr != nil { // Since we are being Go <1.20 compatible, we can't combine errorrs and // duplicate %w vers are not suppored. Therefore let's ignore this linting // error for now // nolint:errorlint return nil, fmt.Errorf("%w, %s", err, cerr) } return nil, err } c := &Client{Text: text, conn: conn, serverName: host, localName: "localhost"} _, c.tls = conn.(*tls.Conn) c.isConnected = true return c, nil } // Close closes the connection. func (c *Client) Close() error { c.mutex.Lock() err := c.Text.Close() c.isConnected = false c.mutex.Unlock() return err } // hello runs a hello exchange if needed. func (c *Client) hello() error { if !c.didHello { c.didHello = true err := c.ehlo() if err != nil { c.helloError = c.helo() } } return c.helloError } // Hello sends a HELO or EHLO to the server as the given host name. // Calling this method is only necessary if the client needs control // over the host name used. The client will introduce itself as "localhost" // automatically otherwise. If Hello is called, it must be called before // any of the other methods. func (c *Client) Hello(localName string) error { if err := validateLine(localName); err != nil { return err } if c.didHello { return errors.New("smtp: Hello called after other methods") } c.mutex.Lock() c.localName = localName c.mutex.Unlock() return c.hello() } // cmd is a convenience function that sends a command and returns the response func (c *Client) cmd(expectCode int, format string, args ...interface{}) (int, string, error) { c.mutex.Lock() var logMsg []interface{} logMsg = args logFmt := format if c.authIsActive { logMsg = []interface{}{""} logFmt = "%s" } c.debugLog(log.DirClientToServer, logFmt, logMsg...) id, err := c.Text.Cmd(format, args...) if err != nil { c.mutex.Unlock() return 0, "", err } c.Text.StartResponse(id) code, msg, err := c.Text.ReadResponse(expectCode) logMsg = []interface{}{code, msg} if c.authIsActive && code >= 300 && code <= 400 { logMsg = []interface{}{code, ""} } c.debugLog(log.DirServerToClient, "%d %s", logMsg...) c.Text.EndResponse(id) c.mutex.Unlock() return code, msg, err } // helo sends the HELO greeting to the server. It should be used only when the // server does not support ehlo. func (c *Client) helo() error { c.mutex.Lock() c.ext = nil c.mutex.Unlock() _, _, err := c.cmd(250, "HELO %s", c.localName) return err } // StartTLS sends the STARTTLS command and encrypts all further communication. // Only servers that advertise the STARTTLS extension support this function. func (c *Client) StartTLS(config *tls.Config) error { if err := c.hello(); err != nil { return err } _, _, err := c.cmd(220, "STARTTLS") if err != nil { return err } c.mutex.Lock() c.conn = tls.Client(c.conn, config) c.Text = textproto.NewConn(c.conn) c.tls = true c.mutex.Unlock() return c.ehlo() } // TLSConnectionState returns the client's TLS connection state. // The return values are their zero values if [Client.StartTLS] did // not succeed. func (c *Client) TLSConnectionState() (state tls.ConnectionState, ok bool) { c.mutex.RLock() defer c.mutex.RUnlock() tc, ok := c.conn.(*tls.Conn) if !ok { return } state, ok = tc.ConnectionState(), true return } // Verify checks the validity of an email address on the server. // If Verify returns nil, the address is valid. A non-nil return // does not necessarily indicate an invalid address. Many servers // will not verify addresses for security reasons. func (c *Client) Verify(addr string) error { if err := validateLine(addr); err != nil { return err } if err := c.hello(); err != nil { return err } _, _, err := c.cmd(250, "VRFY %s", addr) return err } // Auth authenticates a client using the provided authentication mechanism. // A failed authentication closes the connection. // Only servers that advertise the AUTH extension support this function. func (c *Client) Auth(a Auth) error { if err := c.hello(); err != nil { return err } c.mutex.Lock() if !c.logAuthData { c.authIsActive = true } c.mutex.Unlock() defer func() { c.mutex.Lock() if !c.logAuthData { c.authIsActive = false } c.mutex.Unlock() }() encoding := base64.StdEncoding mech, resp, err := a.Start(&ServerInfo{c.serverName, c.tls, c.auth}) if err != nil { if qerr := c.Quit(); qerr != nil { // Since we are being Go <1.20 compatible, we can't combine errorrs and // duplicate %w vers are not suppored. Therefore let's ignore this linting // error for now // nolint:errorlint return fmt.Errorf("%w, %s", err, qerr) } return err } resp64 := make([]byte, encoding.EncodedLen(len(resp))) encoding.Encode(resp64, resp) code, msg64, err := c.cmd(0, "%s", strings.TrimSpace(fmt.Sprintf("AUTH %s %s", mech, resp64))) for err == nil { var msg []byte switch code { case 334: msg, err = encoding.DecodeString(msg64) case 235: // the last message isn't base64 because it isn't a challenge msg = []byte(msg64) default: err = &textproto.Error{Code: code, Msg: msg64} } if err == nil { resp, err = a.Next(msg, code == 334) } if err != nil { if mech != "XOAUTH2" { // abort the AUTH. Not required for XOAUTH2 _, _, _ = c.cmd(501, "*") } _ = c.Quit() break } if resp == nil { break } resp64 = make([]byte, encoding.EncodedLen(len(resp))) encoding.Encode(resp64, resp) code, msg64, err = c.cmd(0, "%s", resp64) } return err } // Mail issues a MAIL command to the server using the provided email address. // If the server supports the 8BITMIME extension, Mail adds the BODY=8BITMIME // parameter. If the server supports the SMTPUTF8 extension, Mail adds the // SMTPUTF8 parameter. // This initiates a mail transaction and is followed by one or more [Client.Rcpt] calls. func (c *Client) Mail(from string) error { if err := validateLine(from); err != nil { return err } if err := c.hello(); err != nil { return err } cmdStr := "MAIL FROM:<%s>" c.mutex.RLock() if c.ext != nil { if _, ok := c.ext["8BITMIME"]; ok { cmdStr += " BODY=8BITMIME" } if _, ok := c.ext["SMTPUTF8"]; ok { cmdStr += " SMTPUTF8" } _, ok := c.ext["DSN"] if ok && c.dsnmrtype != "" { cmdStr += fmt.Sprintf(" RET=%s", c.dsnmrtype) } } c.mutex.RUnlock() _, _, err := c.cmd(250, cmdStr, from) return err } // Rcpt issues a RCPT command to the server using the provided email address. // A call to Rcpt must be preceded by a call to [Client.Mail] and may be followed by // a [Client.Data] call or another Rcpt call. func (c *Client) Rcpt(to string) error { if err := validateLine(to); err != nil { return err } c.mutex.RLock() _, ok := c.ext["DSN"] c.mutex.RUnlock() if ok && c.dsnrntype != "" { _, _, err := c.cmd(25, "RCPT TO:<%s> NOTIFY=%s", to, c.dsnrntype) return err } _, _, err := c.cmd(25, "RCPT TO:<%s>", to) return err } type dataCloser struct { c *Client io.WriteCloser } // Close releases the lock, closes the WriteCloser, waits for a response, and then returns any error encountered. func (d *dataCloser) Close() error { d.c.mutex.Lock() _ = d.WriteCloser.Close() _, _, err := d.c.Text.ReadResponse(250) d.c.mutex.Unlock() return err } // Write writes data to the underlying WriteCloser while ensuring thread-safety by locking and unlocking a mutex. func (d *dataCloser) Write(p []byte) (n int, err error) { d.c.mutex.Lock() n, err = d.WriteCloser.Write(p) d.c.mutex.Unlock() return } // Data issues a DATA command to the server and returns a writer that // can be used to write the mail headers and body. The caller should // close the writer before calling any more methods on c. A call to // Data must be preceded by one or more calls to [Client.Rcpt]. func (c *Client) Data() (io.WriteCloser, error) { _, _, err := c.cmd(354, "DATA") if err != nil { return nil, err } datacloser := &dataCloser{} c.mutex.Lock() datacloser.c = c datacloser.WriteCloser = c.Text.DotWriter() c.mutex.Unlock() return datacloser, nil } var testHookStartTLS func(*tls.Config) // nil, except for tests // SendMail connects to the server at addr, switches to TLS if // possible, authenticates with the optional mechanism a if possible, // and then sends an email from address from, to addresses to, with // message msg. // The addr must include a port, as in "mail.example.com:smtp". // // The addresses in the to parameter are the SMTP RCPT addresses. // // The msg parameter should be an RFC 822-style email with headers // first, a blank line, and then the message body. The lines of msg // should be CRLF terminated. The msg headers should usually include // fields such as "From", "To", "Subject", and "Cc". Sending "Bcc" // messages is accomplished by including an email address in the to // parameter but not including it in the msg headers. // // The SendMail function and the net/smtp package are low-level // mechanisms and provide no support for DKIM signing, MIME // attachments (see the mime/multipart package), or other mail // functionality. Higher-level packages exist outside of the standard // library. func SendMail(addr string, a Auth, from string, to []string, msg []byte) error { if err := validateLine(from); err != nil { return err } for _, recp := range to { if err := validateLine(recp); err != nil { return err } } c, err := Dial(addr) if err != nil { return err } defer func() { _ = c.Close() }() if err = c.hello(); err != nil { return err } if ok, _ := c.Extension("STARTTLS"); ok { config := &tls.Config{ServerName: c.serverName} if testHookStartTLS != nil { testHookStartTLS(config) } if err = c.StartTLS(config); err != nil { return err } } if a != nil && c.ext != nil { if _, ok := c.ext["AUTH"]; !ok { return errors.New("smtp: server doesn't support AUTH") } if err = c.Auth(a); err != nil { return err } } if err = c.Mail(from); err != nil { return err } for _, addr := range to { if err = c.Rcpt(addr); err != nil { return err } } w, err := c.Data() if err != nil { return err } _, err = w.Write(msg) if err != nil { return err } err = w.Close() if err != nil { return err } return c.Quit() } // Extension reports whether an extension is support by the server. // The extension name is case-insensitive. If the extension is supported, // Extension also returns a string that contains any parameters the // server specifies for the extension. func (c *Client) Extension(ext string) (bool, string) { if err := c.hello(); err != nil { return false, "" } if c.ext == nil { return false, "" } ext = strings.ToUpper(ext) c.mutex.RLock() param, ok := c.ext[ext] c.mutex.RUnlock() return ok, param } // Reset sends the RSET command to the server, aborting the current mail // transaction. func (c *Client) Reset() error { if err := c.hello(); err != nil { return err } _, _, err := c.cmd(250, "RSET") return err } // Noop sends the NOOP command to the server. It does nothing but check // that the connection to the server is okay. func (c *Client) Noop() error { if err := c.hello(); err != nil { return err } _, _, err := c.cmd(250, "NOOP") return err } // Quit sends the QUIT command and closes the connection to the server. func (c *Client) Quit() error { // See https://github.com/golang/go/issues/70011 _ = c.hello() // ignore error; we're quitting anyhow _, _, err := c.cmd(221, "QUIT") if err != nil { return err } c.mutex.Lock() err = c.Text.Close() c.isConnected = false c.mutex.Unlock() return err } // SetDebugLog enables the debug logging for incoming and outgoing SMTP messages func (c *Client) SetDebugLog(v bool) { c.debug = v if v { if c.logger == nil { c.logger = log.New(os.Stderr, log.LevelDebug) } return } c.logger = nil } // SetLogger overrides the default log.Stdlog for the debug logging with a logger that // satisfies the log.Logger interface func (c *Client) SetLogger(l log.Logger) { if l == nil { return } c.logger = l } // SetLogAuthData enables logging of authentication data in the Client. func (c *Client) SetLogAuthData() { c.mutex.Lock() c.logAuthData = true c.mutex.Unlock() } // SetDSNMailReturnOption sets the DSN mail return option for the Mail method func (c *Client) SetDSNMailReturnOption(d string) { c.dsnmrtype = d } // SetDSNRcptNotifyOption sets the DSN recipient notify option for the Mail method func (c *Client) SetDSNRcptNotifyOption(d string) { c.dsnrntype = d } // HasConnection checks if the client has an active connection. // Returns true if the `conn` field is not nil, indicating an active connection. func (c *Client) HasConnection() bool { c.mutex.RLock() isConn := c.isConnected c.mutex.RUnlock() return isConn } // UpdateDeadline sets a new deadline on the SMTP connection with the specified timeout duration. func (c *Client) UpdateDeadline(timeout time.Duration) error { c.mutex.Lock() defer c.mutex.Unlock() if err := c.conn.SetDeadline(time.Now().Add(timeout)); err != nil { return fmt.Errorf("smtp: failed to update deadline: %w", err) } return nil } // GetTLSConnectionState retrieves the TLS connection state of the client's current connection. // Returns an error if the connection is not using TLS or if the connection is not established. func (c *Client) GetTLSConnectionState() (*tls.ConnectionState, error) { c.mutex.RLock() defer c.mutex.RUnlock() if !c.isConnected { return nil, ErrNoConnection } if !c.tls { return nil, ErrNonTLSConnection } if conn, ok := c.conn.(*tls.Conn); ok { cstate := conn.ConnectionState() return &cstate, nil } return nil, errors.New("unable to retrieve TLS connection state") } // debugLog checks if the debug flag is set and if so logs the provided message to // the log.Logger interface func (c *Client) debugLog(d log.Direction, f string, a ...interface{}) { if c.debug { c.logger.Debugf(log.Log{Direction: d, Format: f, Messages: a}) } } // validateLine checks to see if a line has CR or LF as per RFC 5321. func validateLine(line string) error { if strings.ContainsAny(line, "\n\r") { return errors.New("smtp: A line must not contain CR or LF") } return nil }