mox/tlsrpt/parse.go

package tlsrpt

import (
	"fmt"
	"net/url"
	"strings"
)

// Extension is an additional key/value pair for a TLSRPT record.
type Extension struct {
	Key   string
	Value string
}

// Record is a parsed TLSRPT record, to be served under "_smtp._tls.<domain>".
//
// Example:
//
//	v=TLSRPTv1; rua=mailto:tlsrpt@mox.example;
type Record struct {
	Version string // "TLSRPTv1", for "v=".

	// Aggregate reporting URI, for "rua=". "rua=" can occur multiple times, each can
	// be a list.
	RUAs [][]RUA
	// ../rfc/8460:383

	Extensions []Extension
}

// RUA is a reporting address with scheme and special characters ",", "!" and
// ";" not encoded.
type RUA string

// String returns the RUA with special characters encoded, for inclusion in a
// TLSRPT record.
func (rua RUA) String() string {
	s := string(rua)
	s = strings.ReplaceAll(s, ",", "%2C")
	s = strings.ReplaceAll(s, "!", "%21")
	s = strings.ReplaceAll(s, ";", "%3B")
	return s
}

// URI parses a RUA as URI, with either a mailto or https scheme.
func (rua RUA) URI() (*url.URL, error) {
	return url.Parse(string(rua))
}

// String returns a string or use as a TLSRPT DNS TXT record.
func (r Record) String() string {
	b := &strings.Builder{}
	fmt.Fprint(b, "v="+r.Version)
	for _, ruas := range r.RUAs {
		l := make([]string, len(ruas))
		for i, rua := range ruas {
			l[i] = rua.String()
		}
		fmt.Fprint(b, "; rua="+strings.Join(l, ","))
	}
	for _, p := range r.Extensions {
		fmt.Fprint(b, "; "+p.Key+"="+p.Value)
	}
	return b.String()
}

type parseErr string

func (e parseErr) Error() string {
	return string(e)
}

var _ error = parseErr("")

// ParseRecord parses a TLSRPT record.
func ParseRecord(txt string) (record *Record, istlsrpt bool, err error) {
	defer func() {
		x := recover()
		if x == nil {
			return
		}
		if xerr, ok := x.(parseErr); ok {
			record = nil
			err = fmt.Errorf("%w: %s", ErrRecordSyntax, xerr)
			return
		}
		panic(x)
	}()

	p := newParser(txt)

	record = &Record{
		Version: "TLSRPTv1",
	}

	p.xtake("v=TLSRPTv1")
	p.xdelim()
	istlsrpt = true
	for {
		k := p.xkey()
		p.xtake("=")
		// note: duplicates are allowed.
		switch k {
		case "rua":
			record.RUAs = append(record.RUAs, p.xruas())
		default:
			v := p.xvalue()
			record.Extensions = append(record.Extensions, Extension{k, v})
		}
		if !p.delim() || p.empty() {
			break
		}
	}
	if !p.empty() {
		p.xerrorf("leftover chars")
	}
	if record.RUAs == nil {
		p.xerrorf("missing rua")
	}
	return
}

type parser struct {
	s string
	o int
}

func newParser(s string) *parser {
	return &parser{s: s}
}

func (p *parser) xerrorf(format string, args ...any) {
	msg := fmt.Sprintf(format, args...)
	if p.o < len(p.s) {
		msg += fmt.Sprintf(" (remain %q)", p.s[p.o:])
	}
	panic(parseErr(msg))
}

func (p *parser) xtake(s string) string {
	if !p.prefix(s) {
		p.xerrorf("expected %q", s)
	}
	p.o += len(s)
	return s
}

func (p *parser) xdelim() {
	if !p.delim() {
		p.xerrorf("expected semicolon")
	}
}

func (p *parser) xtaken(n int) string {
	r := p.s[p.o : p.o+n]
	p.o += n
	return r
}

func (p *parser) prefix(s string) bool {
	return strings.HasPrefix(p.s[p.o:], s)
}

func (p *parser) take(s string) bool {
	if p.prefix(s) {
		p.o += len(s)
		return true
	}
	return false
}

func (p *parser) xtakefn1(fn func(rune, int) bool) string {
	for i, b := range p.s[p.o:] {
		if !fn(b, i) {
			if i == 0 {
				p.xerrorf("expected at least one char")
			}
			return p.xtaken(i)
		}
	}
	if p.empty() {
		p.xerrorf("expected at least 1 char")
	}
	return p.xtaken(len(p.s) - p.o)
}

// ../rfc/8460:368
func (p *parser) xkey() string {
	return p.xtakefn1(func(b rune, i int) bool {
		return i < 32 && (b >= 'a' && b <= 'z' || b >= 'A' && b <= 'Z' || b >= '0' && b <= '9' || (i > 0 && b == '_' || b == '-' || b == '.'))
	})
}

// ../rfc/8460:371
func (p *parser) xvalue() string {
	return p.xtakefn1(func(b rune, i int) bool {
		return b > ' ' && b < 0x7f && b != '=' && b != ';'
	})
}

// ../rfc/8460:399
func (p *parser) delim() bool {
	o := p.o
	e := len(p.s)
	for o < e && (p.s[o] == ' ' || p.s[o] == '\t') {
		o++
	}
	if o >= e || p.s[o] != ';' {
		return false
	}
	o++
	for o < e && (p.s[o] == ' ' || p.s[o] == '\t') {
		o++
	}
	p.o = o
	return true
}

func (p *parser) empty() bool {
	return p.o >= len(p.s)
}

func (p *parser) wsp() {
	for p.o < len(p.s) && (p.s[p.o] == ' ' || p.s[p.o] == '\t') {
		p.o++
	}
}

// ../rfc/8460:358
func (p *parser) xruas() []RUA {
	l := []RUA{p.xuri()}
	p.wsp()
	for p.take(",") {
		p.wsp()
		l = append(l, p.xuri())
		p.wsp()
	}
	return l
}

// ../rfc/8460:360
func (p *parser) xuri() RUA {
	v := p.xtakefn1(func(b rune, i int) bool {
		return b != ',' && b != '!' && b != ' ' && b != '\t' && b != ';'
	})
	u, err := url.Parse(v)
	if err != nil {
		p.xerrorf("parsing uri %q: %s", v, err)
	}
	if u.Scheme == "" {
		p.xerrorf("missing scheme in uri")
	}
	return RUA(v)
}
mox! 2023-01-30 16:27:06 +03:00			`package tlsrpt`

			`import (`
			`"fmt"`
			`"net/url"`
			`"strings"`
			`)`

			`// Extension is an additional key/value pair for a TLSRPT record.`
			`type Extension struct {`
			`Key string`
			`Value string`
			`}`

			`// Record is a parsed TLSRPT record, to be served under "_smtp._tls.<domain>".`
			`//`
			`// Example:`
			`//`
			`// v=TLSRPTv1; rua=mailto:tlsrpt@mox.example;`
			`type Record struct {`
implement outgoing tls reports we were already accepting, processing and displaying incoming tls reports. now we start tracking TLS connection and security-policy-related errors for outgoing message deliveries as well. we send reports once a day, to the reporting addresses specified in TLSRPT records (rua) of a policy domain. these reports are about MTA-STS policies and/or DANE policies, and about STARTTLS-related failures. sending reports is enabled by default, but can be disabled through setting NoOutgoingTLSReports in mox.conf. only at the end of the implementation process came the realization that the TLSRPT policy domain for DANE (MX) hosts are separate from the TLSRPT policy for the recipient domain, and that MTA-STS and DANE TLS/policy results are typically delivered in separate reports. so MX hosts need their own TLSRPT policies. config for the per-host TLSRPT policy should be added to mox.conf for existing installs, in field HostTLSRPT. it is automatically configured by quickstart for new installs. with a HostTLSRPT config, the "dns records" and "dns check" admin pages now suggest the per-host TLSRPT record. by creating that record, you're requesting TLS reports about your MX host. gathering all the TLS/policy results is somewhat tricky. the tentacles go throughout the code. the positive result is that the TLS/policy-related code had to be cleaned up a bit. for example, the smtpclient TLS modes now reflect reality better, with independent settings about whether PKIX and/or DANE verification has to be done, and/or whether verification errors have to be ignored (e.g. for tls-required: no header). also, cached mtasts policies of mode "none" are now cleaned up once the MTA-STS DNS record goes away. 2023-11-09 19:40:46 +03:00			`Version string // "TLSRPTv1", for "v=".`

			`// Aggregate reporting URI, for "rua=". "rua=" can occur multiple times, each can`
when checking domain settings, check that dmarc & tls reporting addresses are present if there is a record 2023-11-10 22:25:06 +03:00			`// be a list.`
			`RUAs [][]RUA`
implement outgoing tls reports we were already accepting, processing and displaying incoming tls reports. now we start tracking TLS connection and security-policy-related errors for outgoing message deliveries as well. we send reports once a day, to the reporting addresses specified in TLSRPT records (rua) of a policy domain. these reports are about MTA-STS policies and/or DANE policies, and about STARTTLS-related failures. sending reports is enabled by default, but can be disabled through setting NoOutgoingTLSReports in mox.conf. only at the end of the implementation process came the realization that the TLSRPT policy domain for DANE (MX) hosts are separate from the TLSRPT policy for the recipient domain, and that MTA-STS and DANE TLS/policy results are typically delivered in separate reports. so MX hosts need their own TLSRPT policies. config for the per-host TLSRPT policy should be added to mox.conf for existing installs, in field HostTLSRPT. it is automatically configured by quickstart for new installs. with a HostTLSRPT config, the "dns records" and "dns check" admin pages now suggest the per-host TLSRPT record. by creating that record, you're requesting TLS reports about your MX host. gathering all the TLS/policy results is somewhat tricky. the tentacles go throughout the code. the positive result is that the TLS/policy-related code had to be cleaned up a bit. for example, the smtpclient TLS modes now reflect reality better, with independent settings about whether PKIX and/or DANE verification has to be done, and/or whether verification errors have to be ignored (e.g. for tls-required: no header). also, cached mtasts policies of mode "none" are now cleaned up once the MTA-STS DNS record goes away. 2023-11-09 19:40:46 +03:00			`// ../rfc/8460:383`

mox! 2023-01-30 16:27:06 +03:00			`Extensions []Extension`
			`}`

when checking domain settings, check that dmarc & tls reporting addresses are present if there is a record 2023-11-10 22:25:06 +03:00			`// RUA is a reporting address with scheme and special characters ",", "!" and`
			`// ";" not encoded.`
			`type RUA string`

			`// String returns the RUA with special characters encoded, for inclusion in a`
			`// TLSRPT record.`
			`func (rua RUA) String() string {`
			`s := string(rua)`
			`s = strings.ReplaceAll(s, ",", "%2C")`
			`s = strings.ReplaceAll(s, "!", "%21")`
			`s = strings.ReplaceAll(s, ";", "%3B")`
			`return s`
			`}`

			`// URI parses a RUA as URI, with either a mailto or https scheme.`
			`func (rua RUA) URI() (*url.URL, error) {`
			`return url.Parse(string(rua))`
			`}`

mox! 2023-01-30 16:27:06 +03:00			`// String returns a string or use as a TLSRPT DNS TXT record.`
			`func (r Record) String() string {`
			`b := &strings.Builder{}`
			`fmt.Fprint(b, "v="+r.Version)`
when checking domain settings, check that dmarc & tls reporting addresses are present if there is a record 2023-11-10 22:25:06 +03:00			`for _, ruas := range r.RUAs {`
			`l := make([]string, len(ruas))`
			`for i, rua := range ruas {`
			`l[i] = rua.String()`
			`}`
			`fmt.Fprint(b, "; rua="+strings.Join(l, ","))`
mox! 2023-01-30 16:27:06 +03:00			`}`
			`for _, p := range r.Extensions {`
			`fmt.Fprint(b, "; "+p.Key+"="+p.Value)`
			`}`
			`return b.String()`
			`}`

			`type parseErr string`

			`func (e parseErr) Error() string {`
			`return string(e)`
			`}`

			`var _ error = parseErr("")`

			`// ParseRecord parses a TLSRPT record.`
			`func ParseRecord(txt string) (record *Record, istlsrpt bool, err error) {`
			`defer func() {`
			`x := recover()`
			`if x == nil {`
			`return`
			`}`
			`if xerr, ok := x.(parseErr); ok {`
			`record = nil`
			`err = fmt.Errorf("%w: %s", ErrRecordSyntax, xerr)`
			`return`
			`}`
			`panic(x)`
			`}()`

			`p := newParser(txt)`

			`record = &Record{`
			`Version: "TLSRPTv1",`
			`}`

			`p.xtake("v=TLSRPTv1")`
			`p.xdelim()`
			`istlsrpt = true`
			`for {`
			`k := p.xkey()`
			`p.xtake("=")`
			`// note: duplicates are allowed.`
			`switch k {`
			`case "rua":`
			`record.RUAs = append(record.RUAs, p.xruas())`
			`default:`
			`v := p.xvalue()`
			`record.Extensions = append(record.Extensions, Extension{k, v})`
			`}`
			`if !p.delim() \|\| p.empty() {`
			`break`
			`}`
			`}`
			`if !p.empty() {`
			`p.xerrorf("leftover chars")`
			`}`
			`if record.RUAs == nil {`
			`p.xerrorf("missing rua")`
			`}`
			`return`
			`}`

			`type parser struct {`
			`s string`
			`o int`
			`}`

			`func newParser(s string) *parser {`
			`return &parser{s: s}`
			`}`

			`func (p *parser) xerrorf(format string, args ...any) {`
			`msg := fmt.Sprintf(format, args...)`
			`if p.o < len(p.s) {`
			`msg += fmt.Sprintf(" (remain %q)", p.s[p.o:])`
			`}`
			`panic(parseErr(msg))`
			`}`

			`func (p *parser) xtake(s string) string {`
			`if !p.prefix(s) {`
			`p.xerrorf("expected %q", s)`
			`}`
			`p.o += len(s)`
			`return s`
			`}`

			`func (p *parser) xdelim() {`
			`if !p.delim() {`
			`p.xerrorf("expected semicolon")`
			`}`
			`}`

			`func (p *parser) xtaken(n int) string {`
			`r := p.s[p.o : p.o+n]`
			`p.o += n`
			`return r`
			`}`

			`func (p *parser) prefix(s string) bool {`
			`return strings.HasPrefix(p.s[p.o:], s)`
			`}`

			`func (p *parser) take(s string) bool {`
			`if p.prefix(s) {`
			`p.o += len(s)`
			`return true`
			`}`
			`return false`
			`}`

			`func (p *parser) xtakefn1(fn func(rune, int) bool) string {`
			`for i, b := range p.s[p.o:] {`
			`if !fn(b, i) {`
			`if i == 0 {`
			`p.xerrorf("expected at least one char")`
			`}`
			`return p.xtaken(i)`
			`}`
			`}`
			`if p.empty() {`
			`p.xerrorf("expected at least 1 char")`
			`}`
			`return p.xtaken(len(p.s) - p.o)`
			`}`

			`// ../rfc/8460:368`
			`func (p *parser) xkey() string {`
			`return p.xtakefn1(func(b rune, i int) bool {`
			`return i < 32 && (b >= 'a' && b <= 'z' \|\| b >= 'A' && b <= 'Z' \|\| b >= '0' && b <= '9' \|\| (i > 0 && b == '_' \|\| b == '-' \|\| b == '.'))`
			`})`
			`}`

			`// ../rfc/8460:371`
			`func (p *parser) xvalue() string {`
			`return p.xtakefn1(func(b rune, i int) bool {`
			`return b > ' ' && b < 0x7f && b != '=' && b != ';'`
			`})`
			`}`

			`// ../rfc/8460:399`
			`func (p *parser) delim() bool {`
			`o := p.o`
			`e := len(p.s)`
			`for o < e && (p.s[o] == ' ' \|\| p.s[o] == '\t') {`
			`o++`
			`}`
			`if o >= e \|\| p.s[o] != ';' {`
			`return false`
			`}`
			`o++`
			`for o < e && (p.s[o] == ' ' \|\| p.s[o] == '\t') {`
			`o++`
			`}`
			`p.o = o`
			`return true`
			`}`

			`func (p *parser) empty() bool {`
			`return p.o >= len(p.s)`
			`}`

			`func (p *parser) wsp() {`
			`for p.o < len(p.s) && (p.s[p.o] == ' ' \|\| p.s[p.o] == '\t') {`
			`p.o++`
			`}`
			`}`

			`// ../rfc/8460:358`
when checking domain settings, check that dmarc & tls reporting addresses are present if there is a record 2023-11-10 22:25:06 +03:00			`func (p *parser) xruas() []RUA {`
			`l := []RUA{p.xuri()}`
mox! 2023-01-30 16:27:06 +03:00			`p.wsp()`
			`for p.take(",") {`
			`p.wsp()`
			`l = append(l, p.xuri())`
			`p.wsp()`
			`}`
			`return l`
			`}`

			`// ../rfc/8460:360`
when checking domain settings, check that dmarc & tls reporting addresses are present if there is a record 2023-11-10 22:25:06 +03:00			`func (p *parser) xuri() RUA {`
mox! 2023-01-30 16:27:06 +03:00			`v := p.xtakefn1(func(b rune, i int) bool {`
			`return b != ',' && b != '!' && b != ' ' && b != '\t' && b != ';'`
			`})`
			`u, err := url.Parse(v)`
			`if err != nil {`
			`p.xerrorf("parsing uri %q: %s", v, err)`
			`}`
			`if u.Scheme == "" {`
			`p.xerrorf("missing scheme in uri")`
			`}`
when checking domain settings, check that dmarc & tls reporting addresses are present if there is a record 2023-11-10 22:25:06 +03:00			`return RUA(v)`
mox! 2023-01-30 16:27:06 +03:00			`}`