mox/smtpserver/parse.go

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package smtpserver
import (
"errors"
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"fmt"
"net"
"strconv"
"strings"
"github.com/mjl-/mox/dns"
"github.com/mjl-/mox/moxvar"
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"github.com/mjl-/mox/smtp"
)
// Parser holds the original string and string with ascii a-z upper-cased for easy
// case-insensitive parsing.
type parser struct {
orig string
upper string
o int // Offset into orig/upper.
smtputf8 bool // Whether SMTPUTF8 extension is enabled, making IDNA domains and utf8 localparts valid.
conn *conn
utf8LocalpartCode int // If non-zero, error for utf-8 localpart when smtputf8 not enabled.
}
// toUpper upper cases bytes that are a-z. strings.ToUpper does too much. and
// would replace invalid bytes with unicode replacement characters, which would
// break our requirement that offsets into the original and upper case strings
// point to the same character.
func toUpper(s string) string {
r := []byte(s)
for i, c := range r {
if c >= 'a' && c <= 'z' {
r[i] = c - 0x20
}
}
return string(r)
}
func newParser(s string, smtputf8 bool, conn *conn) *parser {
return &parser{orig: s, upper: toUpper(s), smtputf8: smtputf8, conn: conn}
}
func (p *parser) xerrorf(format string, args ...any) {
// For submission, send the remaining unparsed line. Otherwise, only log it.
var err error
errmsg := "bad syntax: " + fmt.Sprintf(format, args...)
remaining := fmt.Sprintf(" (remaining %q)", p.orig[p.o:])
if p.conn.account != nil {
errmsg += remaining
err = errors.New(errmsg)
} else {
err = errors.New(errmsg + remaining)
}
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// ../rfc/5321:2377
panic(smtpError{smtp.C501BadParamSyntax, smtp.SeProto5Syntax2, errmsg, err, false, true})
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}
func (p *parser) xutf8localparterrorf() {
code := p.utf8LocalpartCode
if code == 0 {
code = smtp.C550MailboxUnavail
}
// ../rfc/6531:466
xsmtpUserErrorf(code, smtp.SeMsg6NonASCIIAddrNotPermitted7, "non-ascii address not permitted without smtputf8")
}
func (p *parser) empty() bool {
return p.o == len(p.orig)
}
// note: use xend() for check for end of line with remaining white space, to be used by commands.
func (p *parser) xempty() {
if p.o != len(p.orig) {
p.xerrorf("expected end of line")
}
}
// check we are at the end of a command.
func (p *parser) xend() {
// For submission, we are strict.
if p.conn.submission {
p.xempty()
}
// Otherwise we allow trailing white space. ../rfc/5321:1758
rem := p.remainder()
for _, c := range rem {
if c != ' ' && c != '\t' {
p.xerrorf("trailing data, not white space: %q", rem)
}
}
}
func (p *parser) hasPrefix(s string) bool {
return strings.HasPrefix(p.upper[p.o:], s)
}
func (p *parser) take(s string) bool {
if p.hasPrefix(s) {
p.o += len(s)
return true
}
return false
}
func (p *parser) xtake(s string) {
if !p.take(s) {
p.xerrorf("expected %q", s)
}
}
func (p *parser) space() bool {
return p.take(" ")
}
func (p *parser) xspace() {
p.xtake(" ")
}
func (p *parser) xtaken(n int) string {
r := p.orig[p.o : p.o+n]
p.o += n
return r
}
func (p *parser) remainder() string {
r := p.orig[p.o:]
p.o = len(p.orig)
return r
}
func (p *parser) peekchar() rune {
for _, c := range p.upper[p.o:] {
return c
}
return -1
}
func (p *parser) takefn1(what string, fn func(c rune, i int) bool) string {
if p.empty() {
p.xerrorf("need at least one char for %s", what)
}
for i, c := range p.upper[p.o:] {
if !fn(c, i) {
if i == 0 {
p.xerrorf("expected at least one char for %s", what)
}
return p.xtaken(i)
}
}
return p.remainder()
}
func (p *parser) takefn1case(what string, fn func(c rune, i int) bool) string {
if p.empty() {
p.xerrorf("need at least one char for %s", what)
}
for i, c := range p.orig[p.o:] {
if !fn(c, i) {
if i == 0 {
p.xerrorf("expected at least one char for %s", what)
}
return p.xtaken(i)
}
}
return p.remainder()
}
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func (p *parser) takefn(fn func(c rune, i int) bool) string {
for i, c := range p.upper[p.o:] {
if !fn(c, i) {
return p.xtaken(i)
}
}
return p.remainder()
}
// xrawReversePath returns the raw string between the <>'s. We cannot parse it
// immediately, because if this is an IDNA (internationalization) address, we would
// only see the SMTPUTF8 indicator after having parsed the reverse path here. So we
// parse the raw data here, and validate it after having seen all parameters.
// ../rfc/5321:2260
func (p *parser) xrawReversePath() string {
p.xtake("<")
s := p.takefn(func(c rune, i int) bool {
return c != '>'
})
p.xtake(">")
return s
}
// xbareReversePath parses a reverse-path without <>, as returned by
// xrawReversePath. It takes smtputf8 into account.
// ../rfc/5321:2260
func (p *parser) xbareReversePath() smtp.Path {
if p.empty() {
return smtp.Path{}
}
// ../rfc/6531:468
p.utf8LocalpartCode = smtp.C550MailboxUnavail
defer func() {
p.utf8LocalpartCode = 0
}()
return p.xbarePath()
}
func (p *parser) xforwardPath() smtp.Path {
// ../rfc/6531:466
p.utf8LocalpartCode = smtp.C553BadMailbox
defer func() {
p.utf8LocalpartCode = 0
}()
return p.xpath()
}
// ../rfc/5321:2264
func (p *parser) xpath() smtp.Path {
o := p.o
p.xtake("<")
r := p.xbarePath()
p.xtake(">")
if p.o-o > 256 {
// ../rfc/5321:3495
p.xerrorf("path longer than 256 octets")
}
return r
}
func (p *parser) xbarePath() smtp.Path {
// We parse but ignore any source routing.
// ../rfc/5321:1081 ../rfc/5321:1430 ../rfc/5321:1925
if p.take("@") {
p.xdomain()
for p.take(",") {
p.xtake("@")
p.xdomain()
}
p.xtake(":")
}
return p.xmailbox()
}
// ../rfc/5321:2291
func (p *parser) xdomain() dns.Domain {
s := p.xsubdomain()
for p.take(".") {
s += "." + p.xsubdomain()
}
d, err := dns.ParseDomain(s)
if err != nil {
p.xerrorf("parsing domain name %q: %s", s, err)
}
if len(s) > 255 {
// ../rfc/5321:3491
p.xerrorf("domain longer than 255 octets")
}
return d
}
// ../rfc/5321:2303
// ../rfc/5321:2303 ../rfc/6531:411
func (p *parser) xsubdomain() string {
return p.takefn1("subdomain", func(c rune, i int) bool {
return c >= '0' && c <= '9' || c >= 'A' && c <= 'Z' || i > 0 && c == '-' || c > 0x7f && p.smtputf8
})
}
// ../rfc/5321:2314
func (p *parser) xmailbox() smtp.Path {
localpart := p.xlocalpart()
p.xtake("@")
return smtp.Path{Localpart: localpart, IPDomain: p.xipdomain()}
}
// ../rfc/5321:2307
func (p *parser) xldhstr() string {
return p.takefn1("ldh-str", func(c rune, i int) bool {
return c >= 'A' && c <= 'Z' || c >= '0' && c <= '9' || i == 0 && c == '-'
})
}
// parse address-literal or domain.
func (p *parser) xipdomain() dns.IPDomain {
// ../rfc/5321:2309
// ../rfc/5321:2397
if p.take("[") {
c := p.peekchar()
var ipv6 bool
if !(c >= '0' && c <= '9') {
addrlit := p.xldhstr()
p.xtake(":")
if !strings.EqualFold(addrlit, "IPv6") {
p.xerrorf("unrecognized address literal %q", addrlit)
}
ipv6 = true
}
ipaddr := p.takefn1("address literal", func(c rune, i int) bool {
return c != ']'
})
p.take("]")
ip := net.ParseIP(ipaddr)
if ip == nil {
p.xerrorf("invalid ip in address: %q", ipaddr)
}
isv4 := ip.To4() != nil
if ipv6 && isv4 {
p.xerrorf("ip is not ipv6")
} else if !ipv6 && !isv4 {
p.xerrorf("ip is not ipv4")
}
return dns.IPDomain{IP: ip}
}
return dns.IPDomain{Domain: p.xdomain()}
}
// todo: reduce duplication between implementations: ../smtp/address.go:/xlocalpart ../dkim/parser.go:/xlocalpart ../smtpserver/parse.go:/xlocalpart
func (p *parser) xlocalpart() smtp.Localpart {
// ../rfc/5321:2316
var s string
if p.hasPrefix(`"`) {
s = p.xquotedString(true)
} else {
s = p.xatom(true)
for p.take(".") {
s += "." + p.xatom(true)
}
}
// In the wild, some services use large localparts for generated (bounce) addresses.
if moxvar.Pedantic && len(s) > 64 || len(s) > 128 {
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// ../rfc/5321:3486
p.xerrorf("localpart longer than 64 octets")
}
return smtp.Localpart(s)
}
// ../rfc/5321:2324
func (p *parser) xquotedString(islocalpart bool) string {
var s string
var esc bool
for {
c := p.xchar()
if esc {
if c >= ' ' && c < 0x7f {
s += string(c)
esc = false
continue
}
p.xerrorf("invalid localpart, bad escaped char %c", c)
}
if c == '\\' {
esc = true
continue
}
if c == '"' {
return s
}
// ../rfc/5321:2332 ../rfc/6531:419
if islocalpart && c > 0x7f && !p.smtputf8 {
p.xutf8localparterrorf()
}
if c >= ' ' && c < 0x7f && c != '\\' && c != '"' || (c > 0x7f && p.smtputf8) {
s += string(c)
continue
}
p.xerrorf("invalid localpart, invalid character %c", c)
}
}
func (p *parser) xchar() rune {
// We are careful to track invalid utf-8 properly.
if p.empty() {
p.xerrorf("need another character")
}
var r rune
var o int
for i, c := range p.orig[p.o:] {
if i > 0 {
o = i
break
}
r = c
}
if o == 0 {
p.o = len(p.orig)
} else {
p.o += o
}
return r
}
// ../rfc/5321:2320 ../rfc/6531:414
func (p *parser) xatom(islocalpart bool) string {
return p.takefn1("atom", func(c rune, i int) bool {
switch c {
case '!', '#', '$', '%', '&', '\'', '*', '+', '-', '/', '=', '?', '^', '_', '`', '{', '|', '}', '~':
return true
}
if islocalpart && c > 0x7f && !p.smtputf8 {
p.xutf8localparterrorf()
}
return c >= '0' && c <= '9' || c >= 'A' && c <= 'Z' || (c > 0x7f && p.smtputf8)
})
}
// ../rfc/5321:2338
func (p *parser) xstring() string {
if p.peekchar() == '"' {
return p.xquotedString(false)
}
return p.xatom(false)
}
// ../rfc/5321:2279
func (p *parser) xparamKeyword() string {
return p.takefn1("parameter keyword", func(c rune, i int) bool {
return c >= '0' && c <= '9' || c >= 'A' && c <= 'Z' || (i > 0 && c == '-')
})
}
// ../rfc/5321:2281 ../rfc/6531:422
func (p *parser) xparamValue() string {
return p.takefn1("parameter value", func(c rune, i int) bool {
return c > ' ' && c < 0x7f && c != '=' || (c > 0x7f && p.smtputf8)
})
}
// for smtp parameters that take a numeric parameter with specified number of
// digits, eg SIZE=... for MAIL FROM.
func (p *parser) xnumber(maxDigits int) int64 {
s := p.takefn1("number", func(c rune, i int) bool {
return c >= '0' && c <= '9' && i < maxDigits
})
v, err := strconv.ParseInt(s, 10, 64)
if err != nil {
p.xerrorf("bad number %q: %s", s, err)
}
return v
}
// sasl mechanism, for AUTH command.
// ../rfc/4422:436
func (p *parser) xsaslMech() string {
return p.takefn1case("sasl-mech", func(c rune, i int) bool {
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return i < 20 && (c >= 'A' && c <= 'Z' || c >= '0' && c <= '9' || c == '-' || c == '_')
})
}
// ../rfc/4954:696 ../rfc/6533:259
func (p *parser) xtext() string {
r := ""
for !p.empty() {
b := p.orig[p.o]
if b >= 0x21 && b < 0x7f && b != '+' && b != '=' && b != ' ' {
r += string(b)
p.xtaken(1)
continue
}
if b != '+' {
break
}
p.xtaken(1)
x := p.xtaken(2)
for _, b := range x {
if b >= '0' && b <= '9' || b >= 'A' && b <= 'F' {
continue
}
p.xerrorf("parsing xtext: invalid hexadecimal %q", x)
}
const hex = "0123456789ABCDEF"
b = byte(strings.IndexByte(hex, x[0])<<4) | byte(strings.IndexByte(hex, x[1])<<0)
r += string(rune(b))
}
return r
}