// Package smtpclient is an SMTP client, for submitting to an SMTP server or // delivering from a queue. // // Email clients can submit a message to SMTP server, after which the server is // responsible for delivery to the final destination. A submission client // typically connects with TLS, and PKIX-verifies the server's certificate. The // client then authenticates using a SASL mechanism. // // Email servers manage a message queue, from which they will try to deliver // messages. In case of temporary failures, the message is kept in the queue and // tried again later. For delivery, no authentication is done. TLS is opportunistic // by default (TLS certificates not verified), but TLS and certificate verification // can be opted into by domains by specifying an MTA-STS policy for the domain, or // DANE TLSA records for their MX hosts. // // Delivering a message from a queue would involve: // 1. Looking up an MTA-STS policy, through a cache. // 2. Resolving the MX targets for a domain, through smtpclient.GatherDestinations, // and for each destination try delivery through: // 3. Looking up IP addresses for the destination, with smtpclient.GatherIPs. // 4. Looking up TLSA records for DANE, in case of authentic DNS responses // (DNSSEC), with smtpclient.GatherTLSA. // 5. Dialing the MX target with smtpclient.Dial. // 6. Initializing a SMTP session with smtpclient.New, with proper TLS // configuration based on discovered MTA-STS and DANE policies, and finally calling // client.Deliver. package smtpclient import ( "bufio" "bytes" "context" "crypto/tls" "crypto/x509" "encoding/base64" "errors" "fmt" "io" "log/slog" "net" "reflect" "strconv" "strings" "time" "github.com/mjl-/adns" "github.com/mjl-/mox/dane" "github.com/mjl-/mox/dns" "github.com/mjl-/mox/mlog" "github.com/mjl-/mox/moxio" "github.com/mjl-/mox/sasl" "github.com/mjl-/mox/smtp" "github.com/mjl-/mox/stub" "github.com/mjl-/mox/tlsrpt" ) // todo future: add function to deliver message to multiple recipients. requires more elaborate return value, indicating success per message: some recipients may succeed, others may fail, and we should still deliver. to prevent backscatter, we also sometimes don't allow multiple recipients. ../rfc/5321:1144 var ( MetricCommands stub.HistogramVec = stub.HistogramVecIgnore{} MetricTLSRequiredNoIgnored stub.CounterVec = stub.CounterVecIgnore{} MetricPanicInc = func() {} ) var ( ErrSize = errors.New("message too large for remote smtp server") // SMTP server announced a maximum message size and the message to be delivered exceeds it. Err8bitmimeUnsupported = errors.New("remote smtp server does not implement 8bitmime extension, required by message") ErrSMTPUTF8Unsupported = errors.New("remote smtp server does not implement smtputf8 extension, required by message") ErrRequireTLSUnsupported = errors.New("remote smtp server does not implement requiretls extension, required for delivery") ErrStatus = errors.New("remote smtp server sent unexpected response status code") // Relatively common, e.g. when a 250 OK was expected and server sent 451 temporary error. ErrProtocol = errors.New("smtp protocol error") // After a malformed SMTP response or inconsistent multi-line response. ErrTLS = errors.New("tls error") // E.g. handshake failure, or hostname verification was required and failed. ErrBotched = errors.New("smtp connection is botched") // Set on a client, and returned for new operations, after an i/o error or malformed SMTP response. ErrClosed = errors.New("client is closed") ) // TLSMode indicates if TLS must, should or must not be used. type TLSMode string const ( // TLS immediately ("implicit TLS"), directly starting TLS on the TCP connection, // so not using STARTTLS. Whether PKIX and/or DANE is verified is specified // separately. TLSImmediate TLSMode = "immediate" // Required TLS with STARTTLS for SMTP servers. The STARTTLS command is always // executed, even if the server does not announce support. // Whether PKIX and/or DANE is verified is specified separately. TLSRequiredStartTLS TLSMode = "requiredstarttls" // Use TLS with STARTTLS if remote claims to support it. TLSOpportunistic TLSMode = "opportunistic" // TLS must not be attempted, e.g. due to earlier TLS handshake error. TLSSkip TLSMode = "skip" ) // Client is an SMTP client that can deliver messages to a mail server. // // Use New to make a new client. type Client struct { // OrigConn is the original (TCP) connection. We'll read from/write to conn, which // can be wrapped in a tls.Client. We close origConn instead of conn because // closing the TLS connection would send a TLS close notification, which may block // for 5s if the server isn't reading it (because it is also sending it). origConn net.Conn conn net.Conn tlsVerifyPKIX bool ignoreTLSVerifyErrors bool rootCAs *x509.CertPool remoteHostname dns.Domain // TLS with SNI and name verification. daneRecords []adns.TLSA // For authenticating (START)TLS connection. daneMoreHostnames []dns.Domain // Additional allowed names in TLS certificate for DANE-TA. daneVerifiedRecord *adns.TLSA // If non-nil, then will be set to verified DANE record if any. clientCert *tls.Certificate // If non-nil, tls client authentication is done. // TLS connection success/failure are added. These are always non-nil, regardless // of what was passed in opts. It lets us unconditionally dereference them. recipientDomainResult *tlsrpt.Result // Either "sts" or "no-policy-found". hostResult *tlsrpt.Result // Either "dane" or "no-policy-found". r *bufio.Reader w *bufio.Writer tr *moxio.TraceReader // Kept for changing trace levels between cmd/auth/data. tw *moxio.TraceWriter log mlog.Log lastlog time.Time // For adding delta timestamps between log lines. cmds []string // Last or active command, for generating errors and metrics. cmdStart time.Time // Start of command. tls bool // Whether connection is TLS protected. firstReadAfterHandshake bool // To detect TLS alert error from remote just after handshake. botched bool // If set, protocol is out of sync and no further commands can be sent. needRset bool // If set, a new delivery requires an RSET command. remoteHelo string // From 220 greeting line. extEcodes bool // Remote server supports sending extended error codes. extStartTLS bool // Remote server supports STARTTLS. ext8bitmime bool extSize bool // Remote server supports SIZE parameter. Must only be used if > 0. maxSize int64 // Max size of email message. extPipelining bool // Remote server supports command pipelining. extSMTPUTF8 bool // Remote server supports SMTPUTF8 extension. extAuthMechanisms []string // Supported authentication mechanisms. extRequireTLS bool // Remote supports REQUIRETLS extension. ExtLimits map[string]string // For LIMITS extension, only if present and valid, with uppercase keys. ExtLimitMailMax int // Max "MAIL" commands in a connection, if > 0. ExtLimitRcptMax int // Max "RCPT" commands in a transaction, if > 0. ExtLimitRcptDomainMax int // Max unique domains in a connection, if > 0. } // Error represents a failure to deliver a message. // // Code, Secode, Command and Line are only set for SMTP-level errors, and are zero // values otherwise. type Error struct { // Whether failure is permanent, typically because of 5xx response. Permanent bool // SMTP response status, e.g. 2xx for success, 4xx for transient error and 5xx for // permanent failure. Code int // Short enhanced status, minus first digit and dot. Can be empty, e.g. for io // errors or if remote does not send enhanced status codes. If remote responds with // "550 5.7.1 ...", the Secode will be "7.1". Secode string // SMTP command causing failure. Command string // For errors due to SMTP responses, the full SMTP line excluding CRLF that caused // the error. First line of a multi-line response. Line string // Optional additional lines in case of multi-line SMTP response. Most SMTP // responses are single-line, leaving this field empty. MoreLines []string // Underlying error, e.g. one of the Err variables in this package, or io errors. Err error } type Response Error // Unwrap returns the underlying Err. func (e Error) Unwrap() error { return e.Err } // Error returns a readable error string. func (e Error) Error() string { s := "" if e.Err != nil { s = e.Err.Error() + ", " } if e.Permanent { s += "permanent" } else { s += "transient" } if e.Line != "" { s += ": " + e.Line } return s } // Opts influence behaviour of Client. type Opts struct { // If auth is non-nil, authentication will be done with the returned sasl client. // The function should select the preferred mechanism. Mechanisms are in upper // case. // // The TLS connection state can be used for the SCRAM PLUS mechanisms, binding the // authentication exchange to a TLS connection. It is only present for TLS // connections. // // If no mechanism is supported, a nil client and nil error can be returned, and // the connection will fail. Auth func(mechanisms []string, cs *tls.ConnectionState) (sasl.Client, error) DANERecords []adns.TLSA // If not nil, DANE records to verify. DANEMoreHostnames []dns.Domain // For use with DANE, where additional certificate host names are allowed. DANEVerifiedRecord *adns.TLSA // If non-empty, set to the DANE record that verified the TLS connection. // If set, TLS verification errors (for DANE or PKIX) are ignored. Useful for // delivering messages with message header "TLS-Required: No". // Certificates are still verified, and results are still tracked for TLS // reporting, but the connections will continue. IgnoreTLSVerifyErrors bool // If not nil, used instead of the system default roots for TLS PKIX verification. RootCAs *x509.CertPool // If set, the TLS client certificate authentication is done. ClientCert *tls.Certificate // TLS verification successes/failures is added to these TLS reporting results. // Once the STARTTLS handshake is attempted, a successful/failed connection is // tracked. RecipientDomainResult *tlsrpt.Result // MTA-STS or no policy. HostResult *tlsrpt.Result // DANE or no policy. } // New initializes an SMTP session on the given connection, returning a client that // can be used to deliver messages. // // New optionally starts TLS (for submission), reads the server greeting, // identifies itself with a HELO or EHLO command, initializes TLS with STARTTLS if // remote supports it and optionally authenticates. If successful, a client is // returned on which eventually Close must be called. Otherwise an error is // returned and the caller is responsible for closing the connection. // // Connecting to the correct host for delivery can be done using the Gather // functions, and with Dial. The queue managing outgoing messages typically decides // which host to deliver to, taking multiple MX records with preferences, other DNS // records, MTA-STS, retries and special cases into account. // // tlsMode indicates if and how TLS may/must (not) be used. // // tlsVerifyPKIX indicates if TLS certificates must be validated against the // PKIX/WebPKI certificate authorities (if TLS is done). // // DANE-verification is done when opts.DANERecords is not nil. // // TLS verification errors will be ignored if opts.IgnoreTLSVerification is set. // // If TLS is done, PKIX verification is always performed for tracking the results // for TLS reporting, but if tlsVerifyPKIX is false, the verification result does // not affect the connection. // // At the time of writing, delivery of email on the internet is done with // opportunistic TLS without PKIX verification by default. Recipient domains can // opt-in to PKIX verification by publishing an MTA-STS policy, or opt-in to DANE // verification by publishing DNSSEC-protected TLSA records in DNS. func New(ctx context.Context, elog *slog.Logger, conn net.Conn, tlsMode TLSMode, tlsVerifyPKIX bool, ehloHostname, remoteHostname dns.Domain, opts Opts) (*Client, error) { ensureResult := func(r *tlsrpt.Result) *tlsrpt.Result { if r == nil { return &tlsrpt.Result{} } return r } c := &Client{ origConn: conn, tlsVerifyPKIX: tlsVerifyPKIX, ignoreTLSVerifyErrors: opts.IgnoreTLSVerifyErrors, rootCAs: opts.RootCAs, remoteHostname: remoteHostname, daneRecords: opts.DANERecords, daneMoreHostnames: opts.DANEMoreHostnames, daneVerifiedRecord: opts.DANEVerifiedRecord, clientCert: opts.ClientCert, lastlog: time.Now(), cmds: []string{"(none)"}, recipientDomainResult: ensureResult(opts.RecipientDomainResult), hostResult: ensureResult(opts.HostResult), } c.log = mlog.New("smtpclient", elog).WithFunc(func() []slog.Attr { now := time.Now() l := []slog.Attr{ slog.Duration("delta", now.Sub(c.lastlog)), } c.lastlog = now return l }) if tlsMode == TLSImmediate { config := c.tlsConfig() tlsconn := tls.Client(conn, config) // The tlsrpt tracking isn't used by caller, but won't hurt. if err := tlsconn.HandshakeContext(ctx); err != nil { c.tlsResultAdd(0, 1, err) return nil, err } c.firstReadAfterHandshake = true c.tlsResultAdd(1, 0, nil) c.conn = tlsconn tlsversion, ciphersuite := moxio.TLSInfo(tlsconn) c.log.Debug("tls client handshake done", slog.String("tls", tlsversion), slog.String("ciphersuite", ciphersuite), slog.Any("servername", remoteHostname)) c.tls = true } else { c.conn = conn } // We don't wrap reads in a timeoutReader for fear of an optional TLS wrapper doing // reads without the client asking for it. Such reads could result in a timeout // error. c.tr = moxio.NewTraceReader(c.log, "RS: ", c.conn) c.r = bufio.NewReader(c.tr) // We use a single write timeout of 30 seconds. // todo future: use different timeouts ../rfc/5321:3610 c.tw = moxio.NewTraceWriter(c.log, "LC: ", timeoutWriter{c.conn, 30 * time.Second, c.log}) c.w = bufio.NewWriter(c.tw) if err := c.hello(ctx, tlsMode, ehloHostname, opts.Auth); err != nil { return nil, err } return c, nil } // reportedError wraps an error while indicating it was already tracked for TLS // reporting. type reportedError struct{ err error } func (e reportedError) Error() string { return e.err.Error() } func (e reportedError) Unwrap() error { return e.err } func (c *Client) tlsConfig() *tls.Config { // We always manage verification ourselves: We need to report in detail about // failures. And we may have to verify both PKIX and DANE, record errors for // each, and possibly ignore the errors. verifyConnection := func(cs tls.ConnectionState) error { // Collect verification errors. If there are none at the end, TLS validation // succeeded. We may find validation problems below, record them for a TLS report // but continue due to policies. We track the TLS reporting result in this // function, wrapping errors in a reportedError. var daneErr, pkixErr error // DANE verification. // daneRecords can be non-nil and empty, that's intended. if c.daneRecords != nil { verified, record, err := dane.Verify(c.log.Logger, c.daneRecords, cs, c.remoteHostname, c.daneMoreHostnames, c.rootCAs) c.log.Debugx("dane verification", err, slog.Bool("verified", verified), slog.Any("record", record)) if verified { if c.daneVerifiedRecord != nil { *c.daneVerifiedRecord = record } } else { // Track error for reports. // todo spec: may want to propose adding a result for no-dane-match. dane allows multiple records, some mismatching/failing isn't fatal and reporting on each record is probably not productive. ../rfc/8460:541 fd := c.tlsrptFailureDetails(tlsrpt.ResultValidationFailure, "dane-no-match") if err != nil { // todo future: potentially add more details. e.g. dane-ta verification errors. tlsrpt does not have "result types" to indicate those kinds of errors. we would probably have to pass c.daneResult to dane.Verify. // We may have encountered errors while evaluation some of the TLSA records. fd.FailureReasonCode += "+errors" } c.hostResult.Add(0, 0, fd) if c.ignoreTLSVerifyErrors { // We ignore the failure and continue the connection. c.log.Infox("verifying dane failed, continuing with connection", err) MetricTLSRequiredNoIgnored.IncLabels("daneverification") } else { // This connection will fail. daneErr = dane.ErrNoMatch } } } // PKIX verification. opts := x509.VerifyOptions{ DNSName: cs.ServerName, Intermediates: x509.NewCertPool(), Roots: c.rootCAs, } for _, cert := range cs.PeerCertificates[1:] { opts.Intermediates.AddCert(cert) } if _, err := cs.PeerCertificates[0].Verify(opts); err != nil { resultType, reasonCode := tlsrpt.TLSFailureDetails(err) fd := c.tlsrptFailureDetails(resultType, reasonCode) c.recipientDomainResult.Add(0, 0, fd) if c.tlsVerifyPKIX && !c.ignoreTLSVerifyErrors { pkixErr = err } } if daneErr != nil && pkixErr != nil { return reportedError{errors.Join(daneErr, pkixErr)} } else if daneErr != nil { return reportedError{daneErr} } else if pkixErr != nil { return reportedError{pkixErr} } return nil } var certs []tls.Certificate if c.clientCert != nil { certs = []tls.Certificate{*c.clientCert} } return &tls.Config{ ServerName: c.remoteHostname.ASCII, // For SNI. // todo: possibly accept older TLS versions for TLSOpportunistic? or would our private key be at risk? MinVersion: tls.VersionTLS12, // ../rfc/8996:31 ../rfc/8997:66 InsecureSkipVerify: true, // VerifyConnection below is called and will do all verification. VerifyConnection: verifyConnection, Certificates: certs, } } // xbotchf generates a temporary error and marks the client as botched. e.g. for // i/o errors or invalid protocol messages. func (c *Client) xbotchf(code int, secode string, firstLine string, moreLines []string, format string, args ...any) { panic(c.botchf(code, secode, firstLine, moreLines, format, args...)) } // botchf generates a temporary error and marks the client as botched. e.g. for // i/o errors or invalid protocol messages. func (c *Client) botchf(code int, secode string, firstLine string, moreLines []string, format string, args ...any) error { c.botched = true return c.errorf(false, code, secode, firstLine, moreLines, format, args...) } func (c *Client) errorf(permanent bool, code int, secode, firstLine string, moreLines []string, format string, args ...any) error { var cmd string if len(c.cmds) > 0 { cmd = c.cmds[0] } return Error{permanent, code, secode, cmd, firstLine, moreLines, fmt.Errorf(format, args...)} } func (c *Client) xerrorf(permanent bool, code int, secode, firstLine string, moreLines []string, format string, args ...any) { panic(c.errorf(permanent, code, secode, firstLine, moreLines, format, args...)) } // timeoutWriter passes each Write on to conn after setting a write deadline on conn based on // timeout. type timeoutWriter struct { conn net.Conn timeout time.Duration log mlog.Log } func (w timeoutWriter) Write(buf []byte) (int, error) { if err := w.conn.SetWriteDeadline(time.Now().Add(w.timeout)); err != nil { w.log.Errorx("setting write deadline", err) } return w.conn.Write(buf) } var bufs = moxio.NewBufpool(8, 2*1024) func (c *Client) readline() (string, error) { // todo: could have per-operation timeouts. and rfc suggests higher minimum timeouts. ../rfc/5321:3610 if err := c.conn.SetReadDeadline(time.Now().Add(30 * time.Second)); err != nil { c.log.Errorx("setting read deadline", err) } line, err := bufs.Readline(c.log, c.r) if err != nil { // See if this is a TLS alert from remote, and one other than 0 (which notifies // that the connection is being closed. If so, we register a TLS connection // failure. This handles TLS alerts that happen just after a successful handshake. var netErr *net.OpError if c.firstReadAfterHandshake && errors.As(err, &netErr) && netErr.Op == "remote error" && netErr.Err != nil && reflect.ValueOf(netErr.Err).Kind() == reflect.Uint8 && reflect.ValueOf(netErr.Err).Uint() != 0 { resultType, reasonCode := tlsrpt.TLSFailureDetails(err) // We count -1 success to compensate for the assumed success right after the handshake. c.tlsResultAddFailureDetails(-1, 1, c.tlsrptFailureDetails(resultType, reasonCode)) } return line, c.botchf(0, "", "", nil, "%s: %w", strings.Join(c.cmds, ","), err) } c.firstReadAfterHandshake = false return line, nil } func (c *Client) xtrace(level slog.Level) func() { c.xflush() c.tr.SetTrace(level) c.tw.SetTrace(level) return func() { c.xflush() c.tr.SetTrace(mlog.LevelTrace) c.tw.SetTrace(mlog.LevelTrace) } } func (c *Client) xwritelinef(format string, args ...any) { c.xbwritelinef(format, args...) c.xflush() } func (c *Client) xwriteline(line string) { c.xbwriteline(line) c.xflush() } func (c *Client) xbwritelinef(format string, args ...any) { c.xbwriteline(fmt.Sprintf(format, args...)) } func (c *Client) xbwriteline(line string) { _, err := fmt.Fprintf(c.w, "%s\r\n", line) if err != nil { c.xbotchf(0, "", "", nil, "write: %w", err) } } func (c *Client) xflush() { err := c.w.Flush() if err != nil { c.xbotchf(0, "", "", nil, "writes: %w", err) } } // read response, possibly multiline, with supporting extended codes based on configuration in client. func (c *Client) xread() (code int, secode, firstLine string, moreLines []string) { var err error code, secode, firstLine, moreLines, err = c.read() if err != nil { panic(err) } return } func (c *Client) read() (code int, secode, firstLine string, moreLines []string, rerr error) { code, secode, _, firstLine, moreLines, _, rerr = c.readecode(c.extEcodes) return } // read response, possibly multiline. // if ecodes, extended codes are parsed. func (c *Client) readecode(ecodes bool) (code int, secode, lastText, firstLine string, moreLines, moreTexts []string, rerr error) { first := true for { co, sec, text, line, last, err := c.read1(ecodes) if first { firstLine = line first = false } else if line != "" { moreLines = append(moreLines, line) if text != "" { moreTexts = append(moreTexts, text) } } if err != nil { rerr = err return } if code != 0 && co != code { // ../rfc/5321:2771 err := c.botchf(0, "", firstLine, moreLines, "%w: multiline response with different codes, previous %d, last %d", ErrProtocol, code, co) return 0, "", "", "", nil, nil, err } code = co if last { if code != smtp.C334ContinueAuth { cmd := "" if len(c.cmds) > 0 { cmd = c.cmds[0] // We only keep the last, so we're not creating new slices all the time. if len(c.cmds) > 1 { c.cmds = c.cmds[1:] } } MetricCommands.ObserveLabels(float64(time.Since(c.cmdStart))/float64(time.Second), cmd, fmt.Sprintf("%d", co), sec) c.log.Debug("smtpclient command result", slog.String("cmd", cmd), slog.Int("code", co), slog.String("secode", sec), slog.Duration("duration", time.Since(c.cmdStart))) } return co, sec, text, firstLine, moreLines, moreTexts, nil } } } func (c *Client) xreadecode(ecodes bool) (code int, secode, lastText, firstLine string, moreLines, moreTexts []string) { var err error code, secode, lastText, firstLine, moreLines, moreTexts, err = c.readecode(ecodes) if err != nil { panic(err) } return } // read single response line. // if ecodes, extended codes are parsed. func (c *Client) read1(ecodes bool) (code int, secode, text, line string, last bool, rerr error) { line, rerr = c.readline() if rerr != nil { return } i := 0 for ; i < len(line) && line[i] >= '0' && line[i] <= '9'; i++ { } if i != 3 { rerr = c.botchf(0, "", line, nil, "%w: expected response code: %s", ErrProtocol, line) return } v, err := strconv.ParseInt(line[:i], 10, 32) if err != nil { rerr = c.botchf(0, "", line, nil, "%w: bad response code (%s): %s", ErrProtocol, err, line) return } code = int(v) major := code / 100 s := line[3:] if strings.HasPrefix(s, "-") || strings.HasPrefix(s, " ") { last = s[0] == ' ' s = s[1:] } else if s == "" { // Allow missing space. ../rfc/5321:2570 ../rfc/5321:2612 last = true } else { rerr = c.botchf(0, "", line, nil, "%w: expected space or dash after response code: %s", ErrProtocol, line) return } if ecodes { secode, s = parseEcode(major, s) } return code, secode, s, line, last, nil } func parseEcode(major int, s string) (secode string, remain string) { o := 0 bad := false take := func(need bool, a, b byte) bool { if !bad && o < len(s) && s[o] >= a && s[o] <= b { o++ return true } bad = bad || need return false } digit := func(need bool) bool { return take(need, '0', '9') } dot := func() bool { return take(true, '.', '.') } digit(true) dot() xo := o digit(true) for digit(false) { } dot() digit(true) for digit(false) { } secode = s[xo:o] take(false, ' ', ' ') if bad || int(s[0])-int('0') != major { return "", s } return secode, s[o:] } func (c *Client) recover(rerr *error) { x := recover() if x == nil { return } cerr, ok := x.(Error) if !ok { MetricPanicInc() panic(x) } *rerr = cerr } func (c *Client) hello(ctx context.Context, tlsMode TLSMode, ehloHostname dns.Domain, auth func(mechanisms []string, cs *tls.ConnectionState) (sasl.Client, error)) (rerr error) { defer c.recover(&rerr) // perform EHLO handshake, falling back to HELO if server does not appear to // implement EHLO. hello := func(heloOK bool) { // Write EHLO and parse the supported extensions. // ../rfc/5321:987 c.cmds[0] = "ehlo" c.cmdStart = time.Now() // Syntax: ../rfc/5321:1827 c.xwritelinef("EHLO %s", ehloHostname.ASCII) code, _, _, firstLine, moreLines, moreTexts := c.xreadecode(false) switch code { // ../rfc/5321:997 // ../rfc/5321:3098 case smtp.C500BadSyntax, smtp.C501BadParamSyntax, smtp.C502CmdNotImpl, smtp.C503BadCmdSeq, smtp.C504ParamNotImpl: if !heloOK { c.xerrorf(true, code, "", firstLine, moreLines, "%w: remote claims ehlo is not supported", ErrProtocol) } // ../rfc/5321:996 c.cmds[0] = "helo" c.cmdStart = time.Now() c.xwritelinef("HELO %s", ehloHostname.ASCII) code, _, _, firstLine, _, _ = c.xreadecode(false) if code != smtp.C250Completed { c.xerrorf(code/100 == 5, code, "", firstLine, moreLines, "%w: expected 250 to HELO, got %d", ErrStatus, code) } return case smtp.C250Completed: default: c.xerrorf(code/100 == 5, code, "", firstLine, moreLines, "%w: expected 250, got %d", ErrStatus, code) } for _, s := range moreTexts { // ../rfc/5321:1869 s = strings.ToUpper(strings.TrimSpace(s)) switch s { case "STARTTLS": c.extStartTLS = true case "ENHANCEDSTATUSCODES": c.extEcodes = true case "8BITMIME": c.ext8bitmime = true case "PIPELINING": c.extPipelining = true case "REQUIRETLS": c.extRequireTLS = true default: // For SMTPUTF8 we must ignore any parameter. ../rfc/6531:207 if s == "SMTPUTF8" || strings.HasPrefix(s, "SMTPUTF8 ") { c.extSMTPUTF8 = true } else if strings.HasPrefix(s, "SIZE ") { // ../rfc/1870:77 c.extSize = true if v, err := strconv.ParseInt(s[len("SIZE "):], 10, 64); err == nil { c.maxSize = v } } else if strings.HasPrefix(s, "AUTH ") { c.extAuthMechanisms = strings.Split(s[len("AUTH "):], " ") } else if strings.HasPrefix(s, "LIMITS ") { c.ExtLimits, c.ExtLimitMailMax, c.ExtLimitRcptMax, c.ExtLimitRcptDomainMax = parseLimits([]byte(s[len("LIMITS"):])) } } } } // Read greeting. c.cmds = []string{"(greeting)"} c.cmdStart = time.Now() code, _, _, firstLine, moreLines, _ := c.xreadecode(false) if code != smtp.C220ServiceReady { c.xerrorf(code/100 == 5, code, "", firstLine, moreLines, "%w: expected 220, got %d", ErrStatus, code) } // ../rfc/5321:2588 _, c.remoteHelo, _ = strings.Cut(firstLine, " ") // Write EHLO, falling back to HELO if server doesn't appear to support it. hello(true) // Attempt TLS if remote understands STARTTLS and we aren't doing immediate TLS or if caller requires it. if c.extStartTLS && tlsMode == TLSOpportunistic || tlsMode == TLSRequiredStartTLS { c.log.Debug("starting tls client", slog.Any("tlsmode", tlsMode), slog.Any("servername", c.remoteHostname)) c.cmds[0] = "starttls" c.cmdStart = time.Now() c.xwritelinef("STARTTLS") code, secode, firstLine, _ := c.xread() // ../rfc/3207:107 if code != smtp.C220ServiceReady { c.tlsResultAddFailureDetails(0, 1, c.tlsrptFailureDetails(tlsrpt.ResultSTARTTLSNotSupported, fmt.Sprintf("smtp-starttls-reply-code-%d", code))) c.xerrorf(code/100 == 5, code, secode, firstLine, moreLines, "%w: STARTTLS: got %d, expected 220", ErrTLS, code) } // We don't want to do TLS on top of c.r because it also prints protocol traces: We // don't want to log the TLS stream. So we'll do TLS on the underlying connection, // but make sure any bytes already read and in the buffer are used for the TLS // handshake. conn := c.conn if n := c.r.Buffered(); n > 0 { conn = &moxio.PrefixConn{ PrefixReader: io.LimitReader(c.r, int64(n)), Conn: conn, } } tlsConfig := c.tlsConfig() nconn := tls.Client(conn, tlsConfig) c.conn = nconn nctx, cancel := context.WithTimeout(ctx, time.Minute) defer cancel() err := nconn.HandshakeContext(nctx) if err != nil { // For each STARTTLS failure, we track a failed TLS session. For deliveries with // multiple MX targets, we may add multiple failures, and delivery may succeed with // a later MX target with which we can do STARTTLS. ../rfc/8460:524 c.tlsResultAdd(0, 1, err) c.xerrorf(false, 0, "", "", nil, "%w: STARTTLS TLS handshake: %s", ErrTLS, err) } c.firstReadAfterHandshake = true cancel() c.tr = moxio.NewTraceReader(c.log, "RS: ", c.conn) c.tw = moxio.NewTraceWriter(c.log, "LC: ", c.conn) // No need to wrap in timeoutWriter, it would just set the timeout on the underlying connection, which is still active. c.r = bufio.NewReader(c.tr) c.w = bufio.NewWriter(c.tw) tlsversion, ciphersuite := moxio.TLSInfo(nconn) c.log.Debug("starttls client handshake done", slog.Any("tlsmode", tlsMode), slog.Bool("verifypkix", c.tlsVerifyPKIX), slog.Bool("verifydane", c.daneRecords != nil), slog.Bool("ignoretlsverifyerrors", c.ignoreTLSVerifyErrors), slog.String("tls", tlsversion), slog.String("ciphersuite", ciphersuite), slog.Any("servername", c.remoteHostname), slog.Any("danerecord", c.daneVerifiedRecord)) c.tls = true // Track successful TLS connection. ../rfc/8460:515 c.tlsResultAdd(1, 0, nil) hello(false) } else if tlsMode == TLSOpportunistic { // Result: ../rfc/8460:538 c.tlsResultAddFailureDetails(0, 0, c.tlsrptFailureDetails(tlsrpt.ResultSTARTTLSNotSupported, "")) } if auth != nil { return c.auth(auth) } return } // parse text after "LIMITS", including leading space. func parseLimits(b []byte) (map[string]string, int, int, int) { // ../rfc/9422:150 var o int // Read next " name=value". pair := func() ([]byte, []byte) { if o >= len(b) || b[o] != ' ' { return nil, nil } o++ ns := o for o < len(b) { c := b[o] if c >= 'a' && c <= 'z' || c >= 'A' && c <= 'Z' || c >= '0' && c <= '9' || c == '-' || c == '_' { o++ } else { break } } es := o if ns == es || o >= len(b) || b[o] != '=' { return nil, nil } o++ vs := o for o < len(b) { c := b[o] if c > 0x20 && c < 0x7f && c != ';' { o++ } else { break } } if vs == o { return nil, nil } return b[ns:es], b[vs:o] } limits := map[string]string{} var mailMax, rcptMax, rcptDomainMax int for o < len(b) { name, value := pair() if name == nil { // We skip the entire LIMITS extension for syntax errors. ../rfc/9422:232 return nil, 0, 0, 0 } k := strings.ToUpper(string(name)) if _, ok := limits[k]; ok { // Not specified, but we treat duplicates as error. return nil, 0, 0, 0 } limits[k] = string(value) // For individual value syntax errors, we skip that value, leaving the default 0. // ../rfc/9422:254 switch string(name) { case "MAILMAX": if v, err := strconv.Atoi(string(value)); err == nil && v > 0 && len(value) <= 6 { mailMax = v } case "RCPTMAX": if v, err := strconv.Atoi(string(value)); err == nil && v > 0 && len(value) <= 6 { rcptMax = v } case "RCPTDOMAINMAX": if v, err := strconv.Atoi(string(value)); err == nil && v > 0 && len(value) <= 6 { rcptDomainMax = v } } } return limits, mailMax, rcptMax, rcptDomainMax } func addrIP(addr net.Addr) string { if t, ok := addr.(*net.TCPAddr); ok { return t.IP.String() } host, _, _ := net.SplitHostPort(addr.String()) ip := net.ParseIP(host) if ip == nil { return "" // For pipe during tests. } return ip.String() } // tlsrptFailureDetails returns FailureDetails with connection details (such as // IP addresses) for inclusion in a TLS report. func (c *Client) tlsrptFailureDetails(resultType tlsrpt.ResultType, reasonCode string) tlsrpt.FailureDetails { return tlsrpt.FailureDetails{ ResultType: resultType, SendingMTAIP: addrIP(c.origConn.LocalAddr()), ReceivingMXHostname: c.remoteHostname.ASCII, ReceivingMXHelo: c.remoteHelo, ReceivingIP: addrIP(c.origConn.RemoteAddr()), FailedSessionCount: 1, FailureReasonCode: reasonCode, } } // tlsResultAdd adds TLS success/failure to all results. func (c *Client) tlsResultAdd(success, failure int64, err error) { // Only track failure if not already done so in tls.Config.VerifyConnection. var fds []tlsrpt.FailureDetails var repErr reportedError if err != nil && !errors.As(err, &repErr) { resultType, reasonCode := tlsrpt.TLSFailureDetails(err) fd := c.tlsrptFailureDetails(resultType, reasonCode) fds = []tlsrpt.FailureDetails{fd} } c.tlsResultAddFailureDetails(success, failure, fds...) } func (c *Client) tlsResultAddFailureDetails(success, failure int64, fds ...tlsrpt.FailureDetails) { c.recipientDomainResult.Add(success, failure, fds...) c.hostResult.Add(success, failure, fds...) } // ../rfc/4954:139 func (c *Client) auth(auth func(mechanisms []string, cs *tls.ConnectionState) (sasl.Client, error)) (rerr error) { defer c.recover(&rerr) c.cmds[0] = "auth" c.cmdStart = time.Now() mechanisms := make([]string, len(c.extAuthMechanisms)) for i, m := range c.extAuthMechanisms { mechanisms[i] = strings.ToUpper(m) } a, err := auth(mechanisms, c.TLSConnectionState()) if err != nil { c.xerrorf(true, 0, "", "", nil, "get authentication mechanism: %s, server supports %s", err, strings.Join(c.extAuthMechanisms, ", ")) } else if a == nil { c.xerrorf(true, 0, "", "", nil, "no matching authentication mechanisms, server supports %s", strings.Join(c.extAuthMechanisms, ", ")) } name, cleartextCreds := a.Info() abort := func() (int, string, string, []string) { // Abort authentication. ../rfc/4954:193 c.xwriteline("*") // Server must respond with 501. // ../rfc/4954:195 code, secode, firstLine, moreLines := c.xread() if code != smtp.C501BadParamSyntax { c.botched = true } return code, secode, firstLine, moreLines } toserver, last, err := a.Next(nil) if err != nil { c.xerrorf(false, 0, "", "", nil, "initial step in auth mechanism %s: %w", name, err) } if cleartextCreds { defer c.xtrace(mlog.LevelTraceauth)() } if toserver == nil { c.xwriteline("AUTH " + name) } else if len(toserver) == 0 { c.xwriteline("AUTH " + name + " =") // ../rfc/4954:214 } else { c.xwriteline("AUTH " + name + " " + base64.StdEncoding.EncodeToString(toserver)) } for { if cleartextCreds && last { c.xtrace(mlog.LevelTrace) // Restore. } code, secode, lastText, firstLine, moreLines, _ := c.xreadecode(last) if code == smtp.C235AuthSuccess { if !last { c.xerrorf(false, code, secode, firstLine, moreLines, "server completed authentication earlier than client expected") } return nil } else if code == smtp.C334ContinueAuth { if last { c.xerrorf(false, code, secode, firstLine, moreLines, "server requested unexpected continuation of authentication") } if len(moreLines) > 0 { abort() c.xerrorf(false, code, secode, firstLine, moreLines, "server responded with multiline contination") } fromserver, err := base64.StdEncoding.DecodeString(lastText) if err != nil { abort() c.xerrorf(false, code, secode, firstLine, moreLines, "malformed base64 data in authentication continuation response") } toserver, last, err = a.Next(fromserver) if err != nil { // For failing SCRAM, the client stops due to message about invalid proof. The // server still sends an authentication result (it probably should send 501 // instead). xcode, xsecode, xfirstLine, xmoreLines := abort() c.xerrorf(false, xcode, xsecode, xfirstLine, xmoreLines, "client aborted authentication: %w", err) } c.xwriteline(base64.StdEncoding.EncodeToString(toserver)) } else { c.xerrorf(code/100 == 5, code, secode, firstLine, moreLines, "unexpected response during authentication, expected 334 continue or 235 auth success") } } } // Supports8BITMIME returns whether the SMTP server supports the 8BITMIME // extension, needed for sending data with non-ASCII bytes. func (c *Client) Supports8BITMIME() bool { return c.ext8bitmime } // SupportsSMTPUTF8 returns whether the SMTP server supports the SMTPUTF8 // extension, needed for sending messages with UTF-8 in headers or in an (SMTP) // address. func (c *Client) SupportsSMTPUTF8() bool { return c.extSMTPUTF8 } // SupportsStartTLS returns whether the SMTP server supports the STARTTLS // extension. func (c *Client) SupportsStartTLS() bool { return c.extStartTLS } // SupportsRequireTLS returns whether the SMTP server supports the REQUIRETLS // extension. The REQUIRETLS extension is only announced after enabling // STARTTLS. func (c *Client) SupportsRequireTLS() bool { return c.extRequireTLS } // TLSConnectionState returns TLS details if TLS is enabled, and nil otherwise. func (c *Client) TLSConnectionState() *tls.ConnectionState { if tlsConn, ok := c.conn.(*tls.Conn); ok { cs := tlsConn.ConnectionState() return &cs } return nil } // Deliver attempts to deliver a message to a mail server. // // mailFrom must be an email address, or empty in case of a DSN. rcptTo must be // an email address. // // If the message contains bytes with the high bit set, req8bitmime must be true. If // set, the remote server must support the 8BITMIME extension or delivery will // fail. // // If the message is internationalized, e.g. when headers contain non-ASCII // character, or when UTF-8 is used in a localpart, reqSMTPUTF8 must be true. If set, // the remote server must support the SMTPUTF8 extension or delivery will fail. // // If requireTLS is true, the remote server must support the REQUIRETLS // extension, or delivery will fail. // // Deliver uses the following SMTP extensions if the remote server supports them: // 8BITMIME, SMTPUTF8, SIZE, PIPELINING, ENHANCEDSTATUSCODES, STARTTLS. // // Returned errors can be of type Error, one of the Err-variables in this package // or other underlying errors, e.g. for i/o. Use errors.Is to check. func (c *Client) Deliver(ctx context.Context, mailFrom string, rcptTo string, msgSize int64, msg io.Reader, req8bitmime, reqSMTPUTF8, requireTLS bool) (rerr error) { _, err := c.DeliverMultiple(ctx, mailFrom, []string{rcptTo}, msgSize, msg, req8bitmime, reqSMTPUTF8, requireTLS) return err } var errNoRecipientsPipelined = errors.New("no recipients accepted in pipelined transaction") var errNoRecipients = errors.New("no recipients accepted in transaction") // DeliverMultiple is like Deliver, but attempts to deliver a message to multiple // recipients. Errors about the entire transaction, such as i/o errors or error // responses to the MAIL FROM or DATA commands, are returned by a non-nil rerr. If // rcptTo has a single recipient, an error to the RCPT TO command is returned in // rerr instead of rcptResps. Otherwise, the SMTP response for each recipient is // returned in rcptResps. // // The caller should take extLimit* into account when sending. And recognize // recipient response code "452" to mean that a recipient limit was reached, // another transaction can be attempted immediately after instead of marking the // delivery attempt as failed. Also code "552" must be treated like temporary error // code "452" for historic reasons. func (c *Client) DeliverMultiple(ctx context.Context, mailFrom string, rcptTo []string, msgSize int64, msg io.Reader, req8bitmime, reqSMTPUTF8, requireTLS bool) (rcptResps []Response, rerr error) { defer c.recover(&rerr) if len(rcptTo) == 0 { return nil, fmt.Errorf("need at least one recipient") } if c.origConn == nil { return nil, ErrClosed } else if c.botched { return nil, ErrBotched } else if c.needRset { if err := c.Reset(); err != nil { return nil, err } } if !c.ext8bitmime && req8bitmime { // Temporary error, e.g. OpenBSD spamd does not announce 8bitmime support, but once // you get through, the mail server behind it probably does. Just needs a few // retries. c.xerrorf(false, 0, "", "", nil, "%w", Err8bitmimeUnsupported) } if !c.extSMTPUTF8 && reqSMTPUTF8 { // ../rfc/6531:313 c.xerrorf(false, 0, "", "", nil, "%w", ErrSMTPUTF8Unsupported) } if !c.extRequireTLS && requireTLS { c.xerrorf(false, 0, "", "", nil, "%w", ErrRequireTLSUnsupported) } // Max size enforced, only when not zero. ../rfc/1870:79 if c.extSize && c.maxSize > 0 && msgSize > c.maxSize { c.xerrorf(true, 0, "", "", nil, "%w: message is %d bytes, remote has a %d bytes maximum size", ErrSize, msgSize, c.maxSize) } var mailSize, bodyType string if c.extSize { mailSize = fmt.Sprintf(" SIZE=%d", msgSize) } if c.ext8bitmime { if req8bitmime { bodyType = " BODY=8BITMIME" } else { bodyType = " BODY=7BIT" } } var smtputf8Arg string if reqSMTPUTF8 { // ../rfc/6531:213 smtputf8Arg = " SMTPUTF8" } var requiretlsArg string if requireTLS { // ../rfc/8689:155 requiretlsArg = " REQUIRETLS" } // Transaction overview: ../rfc/5321:1015 // MAIL FROM: ../rfc/5321:1879 // RCPT TO: ../rfc/5321:1916 // DATA: ../rfc/5321:1992 lineMailFrom := fmt.Sprintf("MAIL FROM:<%s>%s%s%s%s", mailFrom, mailSize, bodyType, smtputf8Arg, requiretlsArg) // We are going into a transaction. We'll clear this when done. c.needRset = true if c.extPipelining { c.cmds = make([]string, 1+len(rcptTo)+1) c.cmds[0] = "mailfrom" for i := range rcptTo { c.cmds[1+i] = "rcptto" } c.cmds[len(c.cmds)-1] = "data" c.cmdStart = time.Now() // Write and read in separte goroutines. Otherwise, writing a large recipient list // could block when a server doesn't read more commands before we read their // response. errc := make(chan error, 1) // Make sure we don't return before we're done writing to the connection. defer func() { if errc != nil { <-errc } }() go func() { var b bytes.Buffer b.WriteString(lineMailFrom) b.WriteString("\r\n") for _, rcpt := range rcptTo { b.WriteString("RCPT TO:<") b.WriteString(rcpt) b.WriteString(">\r\n") } b.WriteString("DATA\r\n") _, err := c.w.Write(b.Bytes()) if err == nil { err = c.w.Flush() } errc <- err }() // Read response to MAIL FROM. mfcode, mfsecode, mffirstLine, mfmoreLines := c.xread() // We read the response to RCPT TOs and DATA without panic on read error. Servers // may be aborting the connection after a failed MAIL FROM, e.g. outlook when it // has blocklisted your IP. We don't want the read for the response to RCPT TO to // cause a read error as it would result in an unhelpful error message and a // temporary instead of permanent error code. // Read responses to RCPT TO. rcptResps = make([]Response, len(rcptTo)) nok := 0 for i := 0; i < len(rcptTo); i++ { code, secode, firstLine, moreLines, err := c.read() // 552 should be treated as temporary historically, ../rfc/5321:3576 permanent := code/100 == 5 && code != smtp.C552MailboxFull rcptResps[i] = Response{permanent, code, secode, "rcptto", firstLine, moreLines, err} if code == smtp.C250Completed { nok++ } } // Read response to DATA. datacode, datasecode, datafirstLine, datamoreLines, dataerr := c.read() writeerr := <-errc errc = nil // If MAIL FROM failed, it's an error for the entire transaction. We may have been // blocked. if mfcode != smtp.C250Completed { if writeerr != nil || dataerr != nil { c.botched = true } c.xerrorf(mfcode/100 == 5, mfcode, mfsecode, mffirstLine, mfmoreLines, "%w: got %d, expected 2xx", ErrStatus, mfcode) } // If there was an i/o error writing the commands, there is no point continuing. if writeerr != nil { c.xbotchf(0, "", "", nil, "writing pipelined mail/rcpt/data: %w", writeerr) } // If remote closed the connection before writing a DATA response, and the RCPT // TO's failed (e.g. after deciding we're on a blocklist), use the last response // for a rcptto as result. if dataerr != nil && errors.Is(dataerr, io.ErrUnexpectedEOF) && nok == 0 { c.botched = true r := rcptResps[len(rcptResps)-1] c.xerrorf(r.Permanent, r.Code, r.Secode, r.Line, r.MoreLines, "%w: server closed connection just before responding to data command", ErrStatus) } // If the data command had an i/o or protocol error, it's also a failure for the // entire transaction. if dataerr != nil { panic(dataerr) } // If we didn't have any successful recipient, there is no point in continuing. if nok == 0 { // Servers may return success for a DATA without valid recipients. Write a dot to // end DATA and restore the connection to a known state. // ../rfc/2920:328 if datacode == smtp.C354Continue { _, doterr := fmt.Fprintf(c.w, ".\r\n") if doterr == nil { doterr = c.w.Flush() } if doterr == nil { _, _, _, _, doterr = c.read() } if doterr != nil { c.botched = true } } if len(rcptTo) == 1 { panic(Error(rcptResps[0])) } c.xerrorf(false, 0, "", "", nil, "%w", errNoRecipientsPipelined) } if datacode != smtp.C354Continue { c.xerrorf(datacode/100 == 5, datacode, datasecode, datafirstLine, datamoreLines, "%w: got %d, expected 354", ErrStatus, datacode) } } else { c.cmds[0] = "mailfrom" c.cmdStart = time.Now() c.xwriteline(lineMailFrom) code, secode, firstLine, moreLines := c.xread() if code != smtp.C250Completed { c.xerrorf(code/100 == 5, code, secode, firstLine, moreLines, "%w: got %d, expected 2xx", ErrStatus, code) } rcptResps = make([]Response, len(rcptTo)) nok := 0 for i, rcpt := range rcptTo { c.cmds[0] = "rcptto" c.cmdStart = time.Now() c.xwriteline(fmt.Sprintf("RCPT TO:<%s>", rcpt)) code, secode, firstLine, moreLines = c.xread() if i > 0 && (code == smtp.C452StorageFull || code == smtp.C552MailboxFull) { // Remote doesn't accept more recipients for this transaction. Don't send more, give // remaining recipients the same error result. for j := i; j < len(rcptTo); j++ { rcptResps[j] = Response{false, code, secode, "rcptto", firstLine, moreLines, fmt.Errorf("no more recipients accepted in transaction")} } break } var err error if code == smtp.C250Completed { nok++ } else { err = fmt.Errorf("%w: got %d, expected 2xx", ErrStatus, code) } rcptResps[i] = Response{code/100 == 5, code, secode, "rcptto", firstLine, moreLines, err} } if nok == 0 { if len(rcptTo) == 1 { panic(Error(rcptResps[0])) } c.xerrorf(false, 0, "", "", nil, "%w", errNoRecipients) } c.cmds[0] = "data" c.cmdStart = time.Now() c.xwriteline("DATA") code, secode, firstLine, moreLines = c.xread() if code != smtp.C354Continue { c.xerrorf(code/100 == 5, code, secode, firstLine, moreLines, "%w: got %d, expected 354", ErrStatus, code) } } // For a DATA write, the suggested timeout is 3 minutes, we use 30 seconds for all // writes through timeoutWriter. ../rfc/5321:3651 defer c.xtrace(mlog.LevelTracedata)() err := smtp.DataWrite(c.w, msg) if err != nil { c.xbotchf(0, "", "", nil, "writing message as smtp data: %w", err) } c.xflush() c.xtrace(mlog.LevelTrace) // Restore. code, secode, firstLine, moreLines := c.xread() if code != smtp.C250Completed { c.xerrorf(code/100 == 5, code, secode, firstLine, moreLines, "%w: got %d, expected 2xx", ErrStatus, code) } c.needRset = false return } // Reset sends an SMTP RSET command to reset the message transaction state. Deliver // automatically sends it if needed. func (c *Client) Reset() (rerr error) { if c.origConn == nil { return ErrClosed } else if c.botched { return ErrBotched } defer c.recover(&rerr) // ../rfc/5321:2079 c.cmds[0] = "rset" c.cmdStart = time.Now() c.xwriteline("RSET") code, secode, firstLine, moreLines := c.xread() if code != smtp.C250Completed { c.xerrorf(code/100 == 5, code, secode, firstLine, moreLines, "%w: got %d, expected 2xx", ErrStatus, code) } c.needRset = false return } // Botched returns whether this connection is botched, e.g. a protocol error // occurred and the connection is in unknown state, and cannot be used for message // delivery. func (c *Client) Botched() bool { return c.botched || c.origConn == nil } // Close cleans up the client, closing the underlying connection. // // If the connection is initialized and not botched, a QUIT command is sent and the // response read with a short timeout before closing the underlying connection. // // Close returns any error encountered during QUIT and closing. func (c *Client) Close() (rerr error) { if c.origConn == nil { return ErrClosed } defer c.recover(&rerr) if !c.botched { // ../rfc/5321:2205 c.cmds[0] = "quit" c.cmdStart = time.Now() c.xwriteline("QUIT") if err := c.conn.SetReadDeadline(time.Now().Add(5 * time.Second)); err != nil { c.log.Infox("setting read deadline for reading quit response", err) } else if _, err := bufs.Readline(c.log, c.r); err != nil { rerr = fmt.Errorf("reading response to quit command: %v", err) c.log.Debugx("reading quit response", err) } } err := c.origConn.Close() if c.conn != c.origConn { // This is the TLS connection. Close will attempt to write a close notification. // But it will fail quickly because the underlying socket was closed. c.conn.Close() } c.origConn = nil c.conn = nil if rerr != nil { rerr = err } return } // Conn returns the connection with initialized SMTP session. Once the caller uses // this connection it is in control, and responsible for closing the connection, // and other functions on the client must not be called anymore. func (c *Client) Conn() (net.Conn, error) { if err := c.conn.SetDeadline(time.Time{}); err != nil { return nil, fmt.Errorf("clearing io deadlines: %w", err) } return c.conn, nil }