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conn.go
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conn.go
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package smtp
import (
"crypto/tls"
"encoding/base64"
"errors"
"fmt"
"io"
"io/ioutil"
"net"
"net/textproto"
"regexp"
"runtime/debug"
"strconv"
"strings"
"sync"
"time"
"github.com/emersion/go-sasl"
)
// Number of errors we'll tolerate per connection before closing. Defaults to 3.
const errThreshold = 3
type Conn struct {
conn net.Conn
text *textproto.Conn
server *Server
helo string
// Number of errors witnessed on this connection
errCount int
session Session
locker sync.Mutex
binarymime bool
lineLimitReader *lineLimitReader
bdatPipe *io.PipeWriter
bdatStatus *statusCollector // used for BDAT on LMTP
dataResult chan error
bytesReceived int64 // counts total size of chunks when BDAT is used
fromReceived bool
recipients []string
didAuth bool
}
func newConn(c net.Conn, s *Server) *Conn {
sc := &Conn{
server: s,
conn: c,
}
sc.init()
return sc
}
func (c *Conn) init() {
c.lineLimitReader = &lineLimitReader{
R: c.conn,
LineLimit: c.server.MaxLineLength,
}
rwc := struct {
io.Reader
io.Writer
io.Closer
}{
Reader: c.lineLimitReader,
Writer: c.conn,
Closer: c.conn,
}
if c.server.Debug != nil {
rwc = struct {
io.Reader
io.Writer
io.Closer
}{
io.TeeReader(rwc.Reader, c.server.Debug),
io.MultiWriter(rwc.Writer, c.server.Debug),
rwc.Closer,
}
}
c.text = textproto.NewConn(rwc)
}
// Commands are dispatched to the appropriate handler functions.
func (c *Conn) handle(cmd string, arg string) {
// If panic happens during command handling - send 421 response
// and close connection.
defer func() {
if err := recover(); err != nil {
c.writeResponse(421, EnhancedCode{4, 0, 0}, "Internal server error")
c.Close()
stack := debug.Stack()
c.server.ErrorLog.Printf("panic serving %v: %v\n%s", c.conn.RemoteAddr(), err, stack)
}
}()
if cmd == "" {
c.protocolError(500, EnhancedCode{5, 5, 2}, "Error: bad syntax")
return
}
cmd = strings.ToUpper(cmd)
switch cmd {
case "SEND", "SOML", "SAML", "EXPN", "HELP", "TURN":
// These commands are not implemented in any state
c.writeResponse(502, EnhancedCode{5, 5, 1}, fmt.Sprintf("%v command not implemented", cmd))
case "HELO", "EHLO", "LHLO":
lmtp := cmd == "LHLO"
enhanced := lmtp || cmd == "EHLO"
if c.server.LMTP && !lmtp {
c.writeResponse(500, EnhancedCode{5, 5, 1}, "This is a LMTP server, use LHLO")
return
}
if !c.server.LMTP && lmtp {
c.writeResponse(500, EnhancedCode{5, 5, 1}, "This is not a LMTP server")
return
}
c.handleGreet(enhanced, arg)
case "MAIL":
c.handleMail(arg)
case "RCPT":
c.handleRcpt(arg)
case "VRFY":
c.writeResponse(252, EnhancedCode{2, 5, 0}, "Cannot VRFY user, but will accept message")
case "NOOP":
c.writeResponse(250, EnhancedCode{2, 0, 0}, "I have successfully done nothing")
case "RSET": // Reset session
c.reset()
c.writeResponse(250, EnhancedCode{2, 0, 0}, "Session reset")
case "BDAT":
c.handleBdat(arg)
case "DATA":
c.handleData(arg)
case "QUIT":
c.writeResponse(221, EnhancedCode{2, 0, 0}, "Bye")
c.Close()
case "AUTH":
c.handleAuth(arg)
case "STARTTLS":
c.handleStartTLS()
default:
msg := fmt.Sprintf("Syntax errors, %v command unrecognized", cmd)
c.protocolError(500, EnhancedCode{5, 5, 2}, msg)
}
}
func (c *Conn) Server() *Server {
return c.server
}
func (c *Conn) Session() Session {
c.locker.Lock()
defer c.locker.Unlock()
return c.session
}
func (c *Conn) setSession(session Session) {
c.locker.Lock()
defer c.locker.Unlock()
c.session = session
}
func (c *Conn) Close() error {
c.locker.Lock()
defer c.locker.Unlock()
if c.bdatPipe != nil {
c.bdatPipe.CloseWithError(ErrDataReset)
c.bdatPipe = nil
}
if c.session != nil {
c.session.Logout()
c.session = nil
}
return c.conn.Close()
}
// TLSConnectionState returns the connection's TLS connection state.
// Zero values are returned if the connection doesn't use TLS.
func (c *Conn) TLSConnectionState() (state tls.ConnectionState, ok bool) {
tc, ok := c.conn.(*tls.Conn)
if !ok {
return
}
return tc.ConnectionState(), true
}
func (c *Conn) Hostname() string {
return c.helo
}
func (c *Conn) Conn() net.Conn {
return c.conn
}
func (c *Conn) authAllowed() bool {
_, isTLS := c.TLSConnectionState()
return isTLS || c.server.AllowInsecureAuth
}
// protocolError writes errors responses and closes the connection once too many
// have occurred.
func (c *Conn) protocolError(code int, ec EnhancedCode, msg string) {
c.writeResponse(code, ec, msg)
c.errCount++
if c.errCount > errThreshold {
c.writeResponse(500, EnhancedCode{5, 5, 1}, "Too many errors. Quiting now")
c.Close()
}
}
// GREET state -> waiting for HELO
func (c *Conn) handleGreet(enhanced bool, arg string) {
domain, err := parseHelloArgument(arg)
if err != nil {
c.writeResponse(501, EnhancedCode{5, 5, 2}, "Domain/address argument required for HELO")
return
}
// c.helo is populated before NewSession so
// NewSession can access it via Conn.Hostname.
c.helo = domain
sess, err := c.server.Backend.NewSession(c)
if err != nil {
c.helo = ""
c.writeError(451, EnhancedCode{4, 0, 0}, err)
return
}
c.setSession(sess)
if !enhanced {
c.writeResponse(250, EnhancedCode{2, 0, 0}, fmt.Sprintf("Hello %s", domain))
return
}
caps := []string{
"PIPELINING",
"8BITMIME",
"ENHANCEDSTATUSCODES",
"CHUNKING",
}
if _, isTLS := c.TLSConnectionState(); c.server.TLSConfig != nil && !isTLS {
caps = append(caps, "STARTTLS")
}
if c.authAllowed() {
mechs := c.authMechanisms()
authCap := "AUTH"
for _, name := range mechs {
authCap += " " + name
}
if len(mechs) > 0 {
caps = append(caps, authCap)
}
}
if c.server.EnableSMTPUTF8 {
caps = append(caps, "SMTPUTF8")
}
if _, isTLS := c.TLSConnectionState(); isTLS && c.server.EnableREQUIRETLS {
caps = append(caps, "REQUIRETLS")
}
if c.server.EnableBINARYMIME {
caps = append(caps, "BINARYMIME")
}
if c.server.EnableDSN {
caps = append(caps, "DSN")
}
if c.server.MaxMessageBytes > 0 {
caps = append(caps, fmt.Sprintf("SIZE %v", c.server.MaxMessageBytes))
} else {
caps = append(caps, "SIZE")
}
if c.server.MaxRecipients > 0 {
caps = append(caps, fmt.Sprintf("LIMITS RCPTMAX=%v", c.server.MaxRecipients))
}
args := []string{"Hello " + domain}
args = append(args, caps...)
c.writeResponse(250, NoEnhancedCode, args...)
}
// READY state -> waiting for MAIL
func (c *Conn) handleMail(arg string) {
if c.helo == "" {
c.writeResponse(502, EnhancedCode{5, 5, 1}, "Please introduce yourself first.")
return
}
if c.bdatPipe != nil {
c.writeResponse(502, EnhancedCode{5, 5, 1}, "MAIL not allowed during message transfer")
return
}
arg, ok := cutPrefixFold(arg, "FROM:")
if !ok {
c.writeResponse(501, EnhancedCode{5, 5, 2}, "Was expecting MAIL arg syntax of FROM:<address>")
return
}
p := parser{s: strings.TrimSpace(arg)}
from, err := p.parseReversePath()
if err != nil {
c.writeResponse(501, EnhancedCode{5, 5, 2}, "Was expecting MAIL arg syntax of FROM:<address>")
return
}
args, err := parseArgs(p.s)
if err != nil {
c.writeResponse(501, EnhancedCode{5, 5, 4}, "Unable to parse MAIL ESMTP parameters")
return
}
opts := &MailOptions{}
c.binarymime = false
// This is where the Conn may put BODY=8BITMIME, but we already
// read the DATA as bytes, so it does not effect our processing.
for key, value := range args {
switch key {
case "SIZE":
size, err := strconv.ParseUint(value, 10, 32)
if err != nil {
c.writeResponse(501, EnhancedCode{5, 5, 4}, "Unable to parse SIZE as an integer")
return
}
if c.server.MaxMessageBytes > 0 && int64(size) > c.server.MaxMessageBytes {
c.writeResponse(552, EnhancedCode{5, 3, 4}, "Max message size exceeded")
return
}
opts.Size = int64(size)
case "SMTPUTF8":
if !c.server.EnableSMTPUTF8 {
c.writeResponse(504, EnhancedCode{5, 5, 4}, "SMTPUTF8 is not implemented")
return
}
opts.UTF8 = true
case "REQUIRETLS":
if !c.server.EnableREQUIRETLS {
c.writeResponse(504, EnhancedCode{5, 5, 4}, "REQUIRETLS is not implemented")
return
}
opts.RequireTLS = true
case "BODY":
value = strings.ToUpper(value)
switch BodyType(value) {
case BodyBinaryMIME:
if !c.server.EnableBINARYMIME {
c.writeResponse(504, EnhancedCode{5, 5, 4}, "BINARYMIME is not implemented")
return
}
c.binarymime = true
case Body7Bit, Body8BitMIME:
// This space is intentionally left blank
default:
c.writeResponse(501, EnhancedCode{5, 5, 4}, "Unknown BODY value")
return
}
opts.Body = BodyType(value)
case "RET":
if !c.server.EnableDSN {
c.writeResponse(504, EnhancedCode{5, 5, 4}, "RET is not implemented")
return
}
value = strings.ToUpper(value)
switch DSNReturn(value) {
case DSNReturnFull, DSNReturnHeaders:
// This space is intentionally left blank
default:
c.writeResponse(501, EnhancedCode{5, 5, 4}, "Unknown RET value")
return
}
opts.Return = DSNReturn(value)
case "ENVID":
if !c.server.EnableDSN {
c.writeResponse(504, EnhancedCode{5, 5, 4}, "ENVID is not implemented")
return
}
value, err := decodeXtext(value)
if err != nil || value == "" || !isPrintableASCII(value) {
c.writeResponse(501, EnhancedCode{5, 5, 4}, "Malformed ENVID parameter value")
return
}
opts.EnvelopeID = value
case "AUTH":
value, err := decodeXtext(value)
if err != nil || value == "" {
c.writeResponse(500, EnhancedCode{5, 5, 4}, "Malformed AUTH parameter value")
return
}
if value == "<>" {
value = ""
} else {
p := parser{s: value}
value, err = p.parseMailbox()
if err != nil || p.s != "" {
c.writeResponse(500, EnhancedCode{5, 5, 4}, "Malformed AUTH parameter mailbox")
return
}
}
opts.Auth = &value
default:
c.writeResponse(500, EnhancedCode{5, 5, 4}, "Unknown MAIL FROM argument")
return
}
}
if err := c.Session().Mail(from, opts); err != nil {
c.writeError(451, EnhancedCode{4, 0, 0}, err)
return
}
c.writeResponse(250, EnhancedCode{2, 0, 0}, fmt.Sprintf("Roger, accepting mail from <%v>", from))
c.fromReceived = true
}
// This regexp matches 'hexchar' token defined in
// https://tools.ietf.org/html/rfc4954#section-8 however it is intentionally
// relaxed by requiring only '+' to be present. It allows us to detect
// malformed values such as +A or +HH and report them appropriately.
var hexcharRe = regexp.MustCompile(`\+[0-9A-F]?[0-9A-F]?`)
func decodeXtext(val string) (string, error) {
if !strings.Contains(val, "+") {
return val, nil
}
var replaceErr error
decoded := hexcharRe.ReplaceAllStringFunc(val, func(match string) string {
if len(match) != 3 {
replaceErr = errors.New("incomplete hexchar")
return ""
}
char, err := strconv.ParseInt(match, 16, 8)
if err != nil {
replaceErr = err
return ""
}
return string(rune(char))
})
if replaceErr != nil {
return "", replaceErr
}
return decoded, nil
}
// This regexp matches 'EmbeddedUnicodeChar' token defined in
// https://datatracker.ietf.org/doc/html/rfc6533.html#section-3
// however it is intentionally relaxed by requiring only '\x{HEX}' to be
// present. It also matches disallowed characters in QCHAR and QUCHAR defined
// in above.
// So it allows us to detect malformed values and report them appropriately.
var eUOrDCharRe = regexp.MustCompile(`\\x[{][0-9A-F]+[}]|[[:cntrl:] \\+=]`)
// Decodes the utf-8-addr-xtext or the utf-8-addr-unitext form.
func decodeUTF8AddrXtext(val string) (string, error) {
var replaceErr error
decoded := eUOrDCharRe.ReplaceAllStringFunc(val, func(match string) string {
if len(match) == 1 {
replaceErr = errors.New("disallowed character:" + match)
return ""
}
hexpoint := match[3 : len(match)-1]
char, err := strconv.ParseUint(hexpoint, 16, 21)
if err != nil {
replaceErr = err
return ""
}
switch len(hexpoint) {
case 2:
switch {
// all xtext-specials
case 0x01 <= char && char <= 0x09 ||
0x11 <= char && char <= 0x19 ||
char == 0x10 || char == 0x20 ||
char == 0x2B || char == 0x3D || char == 0x7F:
// 2-digit forms
case char == 0x5C || 0x80 <= char && char <= 0xFF:
// This space is intentionally left blank
default:
replaceErr = errors.New("illegal hexpoint:" + hexpoint)
return ""
}
// 3-digit forms
case 3:
switch {
case 0x100 <= char && char <= 0xFFF:
// This space is intentionally left blank
default:
replaceErr = errors.New("illegal hexpoint:" + hexpoint)
return ""
}
// 4-digit forms excluding surrogate
case 4:
switch {
case 0x1000 <= char && char <= 0xD7FF:
case 0xE000 <= char && char <= 0xFFFF:
// This space is intentionally left blank
default:
replaceErr = errors.New("illegal hexpoint:" + hexpoint)
return ""
}
// 5-digit forms
case 5:
switch {
case 0x1_0000 <= char && char <= 0xF_FFFF:
// This space is intentionally left blank
default:
replaceErr = errors.New("illegal hexpoint:" + hexpoint)
return ""
}
// 6-digit forms
case 6:
switch {
case 0x10_0000 <= char && char <= 0x10_FFFF:
// This space is intentionally left blank
default:
replaceErr = errors.New("illegal hexpoint:" + hexpoint)
return ""
}
// the other invalid forms
default:
replaceErr = errors.New("illegal hexpoint:" + hexpoint)
return ""
}
return string(rune(char))
})
if replaceErr != nil {
return "", replaceErr
}
return decoded, nil
}
func decodeTypedAddress(val string) (DSNAddressType, string, error) {
tv := strings.SplitN(val, ";", 2)
if len(tv) != 2 || tv[0] == "" || tv[1] == "" {
return "", "", errors.New("bad address")
}
aType, aAddr := strings.ToUpper(tv[0]), tv[1]
var err error
switch DSNAddressType(aType) {
case DSNAddressTypeRFC822:
aAddr, err = decodeXtext(aAddr)
if err == nil && !isPrintableASCII(aAddr) {
err = errors.New("illegal address:" + aAddr)
}
case DSNAddressTypeUTF8:
aAddr, err = decodeUTF8AddrXtext(aAddr)
default:
err = errors.New("unknown address type:" + aType)
}
if err != nil {
return "", "", err
}
return DSNAddressType(aType), aAddr, nil
}
func encodeXtext(raw string) string {
var out strings.Builder
out.Grow(len(raw))
for _, ch := range raw {
switch {
case ch >= '!' && ch <= '~' && ch != '+' && ch != '=':
// printable non-space US-ASCII except '+' and '='
out.WriteRune(ch)
default:
out.WriteRune('+')
out.WriteString(strings.ToUpper(strconv.FormatInt(int64(ch), 16)))
}
}
return out.String()
}
// Encodes raw string to the utf-8-addr-xtext form in RFC 6533.
func encodeUTF8AddrXtext(raw string) string {
var out strings.Builder
out.Grow(len(raw))
for _, ch := range raw {
switch {
case ch >= '!' && ch <= '~' && ch != '+' && ch != '=':
// printable non-space US-ASCII except '+' and '='
out.WriteRune(ch)
default:
out.WriteRune('\\')
out.WriteRune('x')
out.WriteRune('{')
out.WriteString(strings.ToUpper(strconv.FormatInt(int64(ch), 16)))
out.WriteRune('}')
}
}
return out.String()
}
// Encodes raw string to the utf-8-addr-unitext form in RFC 6533.
func encodeUTF8AddrUnitext(raw string) string {
var out strings.Builder
out.Grow(len(raw))
for _, ch := range raw {
switch {
case ch >= '!' && ch <= '~' && ch != '+' && ch != '=':
// printable non-space US-ASCII except '+' and '='
out.WriteRune(ch)
case ch <= '\x7F':
// other ASCII: CTLs, space and specials
out.WriteRune('\\')
out.WriteRune('x')
out.WriteRune('{')
out.WriteString(strings.ToUpper(strconv.FormatInt(int64(ch), 16)))
out.WriteRune('}')
default:
// UTF-8 non-ASCII
out.WriteRune(ch)
}
}
return out.String()
}
func isPrintableASCII(val string) bool {
for _, ch := range val {
if ch < ' ' || '~' < ch {
return false
}
}
return true
}
// MAIL state -> waiting for RCPTs followed by DATA
func (c *Conn) handleRcpt(arg string) {
if !c.fromReceived {
c.writeResponse(502, EnhancedCode{5, 5, 1}, "Missing MAIL FROM command.")
return
}
if c.bdatPipe != nil {
c.writeResponse(502, EnhancedCode{5, 5, 1}, "RCPT not allowed during message transfer")
return
}
arg, ok := cutPrefixFold(arg, "TO:")
if !ok {
c.writeResponse(501, EnhancedCode{5, 5, 2}, "Was expecting RCPT arg syntax of TO:<address>")
return
}
p := parser{s: strings.TrimSpace(arg)}
recipient, err := p.parsePath()
if err != nil {
c.writeResponse(501, EnhancedCode{5, 5, 2}, "Was expecting RCPT arg syntax of TO:<address>")
return
}
if c.server.MaxRecipients > 0 && len(c.recipients) >= c.server.MaxRecipients {
c.writeResponse(452, EnhancedCode{4, 5, 3}, fmt.Sprintf("Maximum limit of %v recipients reached", c.server.MaxRecipients))
return
}
args, err := parseArgs(p.s)
if err != nil {
c.writeResponse(501, EnhancedCode{5, 5, 4}, "Unable to parse RCPT ESMTP parameters")
return
}
opts := &RcptOptions{}
for key, value := range args {
switch key {
case "NOTIFY":
if !c.server.EnableDSN {
c.writeResponse(504, EnhancedCode{5, 5, 4}, "NOTIFY is not implemented")
return
}
notify := []DSNNotify{}
for _, val := range strings.Split(value, ",") {
notify = append(notify, DSNNotify(strings.ToUpper(val)))
}
if err := checkNotifySet(notify); err != nil {
c.writeResponse(501, EnhancedCode{5, 5, 4}, "Malformed NOTIFY parameter value")
return
}
opts.Notify = notify
case "ORCPT":
if !c.server.EnableDSN {
c.writeResponse(504, EnhancedCode{5, 5, 4}, "ORCPT is not implemented")
return
}
aType, aAddr, err := decodeTypedAddress(value)
if err != nil || aAddr == "" {
c.writeResponse(501, EnhancedCode{5, 5, 4}, "Malformed ORCPT parameter value")
return
}
opts.OriginalRecipientType = aType
opts.OriginalRecipient = aAddr
default:
c.writeResponse(500, EnhancedCode{5, 5, 4}, "Unknown RCPT TO argument")
return
}
}
if err := c.Session().Rcpt(recipient, opts); err != nil {
c.writeError(451, EnhancedCode{4, 0, 0}, err)
return
}
c.recipients = append(c.recipients, recipient)
c.writeResponse(250, EnhancedCode{2, 0, 0}, fmt.Sprintf("I'll make sure <%v> gets this", recipient))
}
func checkNotifySet(values []DSNNotify) error {
if len(values) == 0 {
return errors.New("Malformed NOTIFY parameter value")
}
seen := map[DSNNotify]struct{}{}
for _, val := range values {
switch val {
case DSNNotifyNever, DSNNotifyDelayed, DSNNotifyFailure, DSNNotifySuccess:
if _, ok := seen[val]; ok {
return errors.New("Malformed NOTIFY parameter value")
}
default:
return errors.New("Malformed NOTIFY parameter value")
}
seen[val] = struct{}{}
}
if _, ok := seen[DSNNotifyNever]; ok && len(seen) > 1 {
return errors.New("Malformed NOTIFY parameter value")
}
return nil
}
func (c *Conn) handleAuth(arg string) {
if c.helo == "" {
c.writeResponse(502, EnhancedCode{5, 5, 1}, "Please introduce yourself first.")
return
}
if c.didAuth {
c.writeResponse(503, EnhancedCode{5, 5, 1}, "Already authenticated")
return
}
parts := strings.Fields(arg)
if len(parts) == 0 {
c.writeResponse(502, EnhancedCode{5, 5, 4}, "Missing parameter")
return
}
if !c.authAllowed() {
c.writeResponse(523, EnhancedCode{5, 7, 10}, "TLS is required")
return
}
mechanism := strings.ToUpper(parts[0])
// Parse client initial response if there is one
var ir []byte
if len(parts) > 1 {
var err error
ir, err = decodeSASLResponse(parts[1])
if err != nil {
c.writeResponse(454, EnhancedCode{4, 7, 0}, "Invalid base64 data")
return
}
}
sasl, err := c.auth(mechanism)
if err != nil {
c.writeError(454, EnhancedCode{4, 7, 0}, err)
return
}
response := ir
for {
challenge, done, err := sasl.Next(response)
if err != nil {
c.writeError(454, EnhancedCode{4, 7, 0}, err)
return
}
if done {
break
}
encoded := ""
if len(challenge) > 0 {
encoded = base64.StdEncoding.EncodeToString(challenge)
}
c.writeResponse(334, NoEnhancedCode, encoded)
encoded, err = c.readLine()
if err != nil {
return // TODO: error handling
}
if encoded == "*" {
// https://tools.ietf.org/html/rfc4954#page-4
c.writeResponse(501, EnhancedCode{5, 0, 0}, "Negotiation cancelled")
return
}
response, err = decodeSASLResponse(encoded)
if err != nil {
c.writeResponse(454, EnhancedCode{4, 7, 0}, "Invalid base64 data")
return
}
}
c.writeResponse(235, EnhancedCode{2, 0, 0}, "Authentication succeeded")
c.didAuth = true
}
func decodeSASLResponse(s string) ([]byte, error) {
if s == "=" {
return []byte{}, nil
}
return base64.StdEncoding.DecodeString(s)
}
func (c *Conn) authMechanisms() []string {
if authSession, ok := c.Session().(AuthSession); ok {
return authSession.AuthMechanisms()
}
return nil
}
func (c *Conn) auth(mech string) (sasl.Server, error) {
if authSession, ok := c.Session().(AuthSession); ok {
return authSession.Auth(mech)
}
return nil, ErrAuthUnknownMechanism
}
func (c *Conn) handleStartTLS() {
if _, isTLS := c.TLSConnectionState(); isTLS {
c.writeResponse(502, EnhancedCode{5, 5, 1}, "Already running in TLS")
return
}
if c.server.TLSConfig == nil {
c.writeResponse(502, EnhancedCode{5, 5, 1}, "TLS not supported")
return
}
c.writeResponse(220, EnhancedCode{2, 0, 0}, "Ready to start TLS")
// Upgrade to TLS
tlsConn := tls.Server(c.conn, c.server.TLSConfig)
if err := tlsConn.Handshake(); err != nil {
c.writeResponse(550, EnhancedCode{5, 0, 0}, "Handshake error")
return
}
c.conn = tlsConn
c.init()
// Reset all state and close the previous Session.
// This is different from just calling reset() since we want the Backend to
// be able to see the information about TLS connection in the
// ConnectionState object passed to it.
if session := c.Session(); session != nil {
session.Logout()
c.setSession(nil)
}
c.helo = ""
c.didAuth = false
c.reset()
}
// DATA
func (c *Conn) handleData(arg string) {
if arg != "" {
c.writeResponse(501, EnhancedCode{5, 5, 4}, "DATA command should not have any arguments")
return
}
if c.bdatPipe != nil {
c.writeResponse(502, EnhancedCode{5, 5, 1}, "DATA not allowed during message transfer")
return
}
if c.binarymime {
c.writeResponse(502, EnhancedCode{5, 5, 1}, "DATA not allowed for BINARYMIME messages")
return
}
if !c.fromReceived || len(c.recipients) == 0 {
c.writeResponse(502, EnhancedCode{5, 5, 1}, "Missing RCPT TO command.")
return
}
// We have recipients, go to accept data
c.writeResponse(354, NoEnhancedCode, "Go ahead. End your data with <CR><LF>.<CR><LF>")
defer c.reset()
if c.server.LMTP {
c.handleDataLMTP()
return
}
r := newDataReader(c)
code, enhancedCode, msg := dataErrorToStatus(c.Session().Data(r))
r.limited = false
io.Copy(ioutil.Discard, r) // Make sure all the data has been consumed
c.writeResponse(code, enhancedCode, msg)
}
func (c *Conn) handleBdat(arg string) {
args := strings.Fields(arg)
if len(args) == 0 {
c.writeResponse(501, EnhancedCode{5, 5, 4}, "Missing chunk size argument")
return
}
if len(args) > 2 {
c.writeResponse(501, EnhancedCode{5, 5, 4}, "Too many arguments")
return
}
if !c.fromReceived || len(c.recipients) == 0 {
c.writeResponse(502, EnhancedCode{5, 5, 1}, "Missing RCPT TO command.")
return
}
last := false
if len(args) == 2 {
if !strings.EqualFold(args[1], "LAST") {
c.writeResponse(501, EnhancedCode{5, 5, 4}, "Unknown BDAT argument")
return
}
last = true
}
// ParseUint instead of Atoi so we will not accept negative values.
size, err := strconv.ParseUint(args[0], 10, 32)
if err != nil {
c.writeResponse(501, EnhancedCode{5, 5, 4}, "Malformed size argument")
return
}
if c.server.MaxMessageBytes != 0 && c.bytesReceived+int64(size) > c.server.MaxMessageBytes {
c.writeResponse(552, EnhancedCode{5, 3, 4}, "Max message size exceeded")
// Discard chunk itself without passing it to backend.
io.Copy(ioutil.Discard, io.LimitReader(c.text.R, int64(size)))
c.reset()
return
}
if c.bdatStatus == nil && c.server.LMTP {
c.bdatStatus = c.createStatusCollector()
}
if c.bdatPipe == nil {
var r *io.PipeReader
r, c.bdatPipe = io.Pipe()
c.dataResult = make(chan error, 1)
go func() {
defer func() {
if err := recover(); err != nil {
c.handlePanic(err, c.bdatStatus)
c.dataResult <- errPanic
r.CloseWithError(errPanic)
}
}()
var err error
if !c.server.LMTP {
err = c.Session().Data(r)
} else {
lmtpSession, ok := c.Session().(LMTPSession)
if !ok {
err = c.Session().Data(r)
for _, rcpt := range c.recipients {
c.bdatStatus.SetStatus(rcpt, err)
}
} else {
err = lmtpSession.LMTPData(r, c.bdatStatus)
}
}