mirror of
https://github.com/mjl-/mox.git
synced 2024-12-25 16:03:48 +03:00
466 lines
11 KiB
Go
466 lines
11 KiB
Go
package spf
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import (
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"fmt"
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"net"
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"strconv"
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"strings"
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)
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// Record is a parsed SPF DNS record.
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//
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// An example record for example.com:
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//
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// v=spf1 +mx a:colo.example.com/28 -all
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type Record struct {
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Version string // Must be "spf1".
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Directives []Directive // An IP is evaluated against each directive until a match is found.
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Redirect string // Modifier that redirects SPF checks to other domain after directives did not match. Optional. For "redirect=".
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Explanation string // Modifier for creating a user-friendly error message when an IP results in status "fail".
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Other []Modifier // Other modifiers.
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}
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// Directive consists of a mechanism that describes how to check if an IP matches,
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// an (optional) qualifier indicating the policy for a match, and optional
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// parameters specific to the mechanism.
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type Directive struct {
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Qualifier string // Sets the result if this directive matches. "" and "+" are "pass", "-" is "fail", "?" is "neutral", "~" is "softfail".
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Mechanism string // "all", "include", "a", "mx", "ptr", "ip4", "ip6", "exists".
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DomainSpec string // For include, a, mx, ptr, exists. Always in lower-case when parsed using ParseRecord.
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IP net.IP `json:"-"` // For ip4, ip6.
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IPstr string // Original string for IP, always with /subnet.
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IP4CIDRLen *int // For a, mx, ip4.
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IP6CIDRLen *int // For a, mx, ip6.
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}
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// MechanismString returns a directive in string form for use in the Received-SPF header.
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func (d Directive) MechanismString() string {
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s := d.Qualifier + d.Mechanism
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if d.DomainSpec != "" {
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s += ":" + d.DomainSpec
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} else if d.IP != nil {
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s += ":" + d.IP.String()
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}
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if d.IP4CIDRLen != nil {
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s += fmt.Sprintf("/%d", *d.IP4CIDRLen)
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}
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if d.IP6CIDRLen != nil {
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if d.Mechanism != "ip6" {
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s += "/"
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}
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s += fmt.Sprintf("/%d", *d.IP6CIDRLen)
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}
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return s
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}
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// Modifier provides additional information for a policy.
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// "redirect" and "exp" are not represented as a Modifier but explicitly in a Record.
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type Modifier struct {
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Key string // Key is case-insensitive.
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Value string
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}
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// Record returns an DNS record, to be configured as a TXT record for a domain,
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// e.g. a TXT record for example.com.
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func (r Record) Record() (string, error) {
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b := &strings.Builder{}
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b.WriteString("v=")
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b.WriteString(r.Version)
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for _, d := range r.Directives {
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b.WriteString(" " + d.MechanismString())
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}
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if r.Redirect != "" {
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fmt.Fprintf(b, " redirect=%s", r.Redirect)
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}
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if r.Explanation != "" {
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fmt.Fprintf(b, " exp=%s", r.Explanation)
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}
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for _, m := range r.Other {
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fmt.Fprintf(b, " %s=%s", m.Key, m.Value)
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}
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return b.String(), nil
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}
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type parser struct {
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s string
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lower string
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o int
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}
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type parseError string
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func (e parseError) Error() string {
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return string(e)
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}
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// toLower lower cases bytes that are A-Z. strings.ToLower does too much. and
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// would replace invalid bytes with unicode replacement characters, which would
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// break our requirement that offsets into the original and upper case strings
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// point to the same character.
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func toLower(s string) string {
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r := []byte(s)
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for i, c := range r {
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if c >= 'A' && c <= 'Z' {
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r[i] = c + 0x20
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}
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}
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return string(r)
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}
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// ParseRecord parses an SPF DNS TXT record.
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func ParseRecord(s string) (r *Record, isspf bool, rerr error) {
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p := parser{s: s, lower: toLower(s)}
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r = &Record{
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Version: "spf1",
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}
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defer func() {
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x := recover()
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if x == nil {
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return
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}
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if err, ok := x.(parseError); ok {
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rerr = err
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return
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}
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panic(x)
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}()
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p.xtake("v=spf1")
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for !p.empty() {
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p.xtake(" ")
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isspf = true // ../rfc/7208:825
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for p.take(" ") {
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}
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if p.empty() {
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break
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}
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qualifier := p.takelist("+", "-", "?", "~")
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mechanism := p.takelist("all", "include:", "a", "mx", "ptr", "ip4:", "ip6:", "exists:")
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if qualifier != "" && mechanism == "" {
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p.xerrorf("expected mechanism after qualifier")
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}
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if mechanism == "" {
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// ../rfc/7208:2597
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modifier := p.takelist("redirect=", "exp=")
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if modifier == "" {
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// ../rfc/7208:2600
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name := p.xtakefn1(func(c rune, i int) bool {
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alpha := c >= 'a' && c <= 'z' || c >= 'A' && c <= 'Z'
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return alpha || i > 0 && (c >= '0' && c <= '9' || c == '-' || c == '_' || c == '.')
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})
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p.xtake("=")
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v := p.xmacroString(true)
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r.Other = append(r.Other, Modifier{name, v})
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continue
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}
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v := p.xdomainSpec(true)
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modifier = strings.TrimSuffix(modifier, "=")
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if modifier == "redirect" {
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if r.Redirect != "" {
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// ../rfc/7208:1419
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p.xerrorf("duplicate redirect modifier")
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}
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r.Redirect = v
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}
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if modifier == "exp" {
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if r.Explanation != "" {
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// ../rfc/7208:1419
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p.xerrorf("duplicate exp modifier")
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}
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r.Explanation = v
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}
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continue
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}
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// ../rfc/7208:2585
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d := Directive{
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Qualifier: qualifier,
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Mechanism: strings.TrimSuffix(mechanism, ":"),
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}
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switch d.Mechanism {
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case "all":
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case "include":
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d.DomainSpec = p.xdomainSpec(false)
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case "a", "mx":
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if p.take(":") {
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d.DomainSpec = p.xdomainSpec(false)
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}
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if p.take("/") {
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if !p.take("/") {
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num, _ := p.xnumber()
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if num > 32 {
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p.xerrorf("invalid ip4 cidr length %d", num)
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}
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d.IP4CIDRLen = &num
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if !p.take("//") {
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break
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}
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}
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num, _ := p.xnumber()
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if num > 128 {
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p.xerrorf("invalid ip6 cidr length %d", num)
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}
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d.IP6CIDRLen = &num
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}
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case "ptr":
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if p.take(":") {
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d.DomainSpec = p.xdomainSpec(false)
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}
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case "ip4":
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d.IP, d.IPstr = p.xip4address()
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if p.take("/") {
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num, _ := p.xnumber()
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if num > 32 {
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p.xerrorf("invalid ip4 cidr length %d", num)
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}
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d.IP4CIDRLen = &num
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d.IPstr += fmt.Sprintf("/%d", num)
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} else {
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d.IPstr += "/32"
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}
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case "ip6":
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d.IP, d.IPstr = p.xip6address()
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if p.take("/") {
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num, _ := p.xnumber()
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if num > 128 {
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p.xerrorf("invalid ip6 cidr length %d", num)
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}
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d.IP6CIDRLen = &num
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d.IPstr += fmt.Sprintf("/%d", num)
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} else {
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d.IPstr += "/128"
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}
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case "exists":
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d.DomainSpec = p.xdomainSpec(false)
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default:
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return nil, true, fmt.Errorf("internal error, missing case for mechanism %q", d.Mechanism)
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}
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r.Directives = append(r.Directives, d)
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}
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return r, true, nil
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}
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func (p *parser) xerrorf(format string, args ...any) {
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msg := fmt.Sprintf(format, args...)
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if !p.empty() {
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msg += fmt.Sprintf(" (leftover %q)", p.s[p.o:])
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}
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panic(parseError(msg))
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}
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// operates on original-cased characters.
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func (p *parser) xtakefn1(fn func(rune, int) bool) string {
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r := ""
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for i, c := range p.s[p.o:] {
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if !fn(c, i) {
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break
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}
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r += string(c)
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}
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if r == "" {
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p.xerrorf("need at least 1 char")
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}
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p.o += len(r)
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return r
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}
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// caller should set includingSlash to false when parsing "a" or "mx", or the / would be consumed as valid macro literal.
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func (p *parser) xdomainSpec(includingSlash bool) string {
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// ../rfc/7208:1579
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// This also consumes the "domain-end" part, which we check below.
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s := p.xmacroString(includingSlash)
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// The ABNF says s must either end in macro-expand, or "." toplabel ["."]. The
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// toplabel rule implies the intention is to force a valid DNS name. We cannot just
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// check if the name is valid, because "macro-expand" is not a valid label. So we
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// recognize the macro-expand, and check for valid toplabel otherwise, because we
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// syntax errors must result in Permerror.
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for _, suf := range []string{"%%", "%_", "%-", "}"} {
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// The check for "}" assumes a "%{" precedes it...
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if strings.HasSuffix(s, suf) {
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return s
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}
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}
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tl := strings.Split(strings.TrimSuffix(s, "."), ".")
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t := tl[len(tl)-1]
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if t == "" {
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p.xerrorf("invalid empty toplabel")
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}
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nums := 0
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for i, c := range t {
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switch {
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case c >= 'a' && c <= 'z' || c >= 'A' && c <= 'Z':
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case c >= '0' && c <= '9':
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nums++
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case c == '-':
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if i == 0 {
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p.xerrorf("bad toplabel, invalid leading dash")
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}
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if i == len(t)-1 {
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p.xerrorf("bad toplabel, invalid trailing dash")
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}
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default:
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p.xerrorf("bad toplabel, invalid character")
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}
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}
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if nums == len(t) {
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p.xerrorf("bad toplabel, cannot be all digits")
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}
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return s
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}
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func (p *parser) xmacroString(includingSlash bool) string {
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// ../rfc/7208:1588
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r := ""
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for !p.empty() {
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w := p.takelist("%{", "%%", "%_", "%-") // "macro-expand"
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if w == "" {
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// "macro-literal"
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if !p.empty() {
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b := p.peekchar()
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if b > ' ' && b < 0x7f && b != '%' && (includingSlash || b != '/') {
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r += string(b)
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p.o++
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continue
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}
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}
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break
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}
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r += w
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if w != "%{" {
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continue
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}
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r += p.xtakelist("s", "l", "o", "d", "i", "p", "h", "c", "r", "t", "v") // "macro-letter"
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digits := p.digits()
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if digits != "" {
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if v, err := strconv.Atoi(digits); err != nil {
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p.xerrorf("bad digits: %v", err)
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} else if v == 0 {
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p.xerrorf("bad digits 0 for 0 labels")
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}
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}
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r += digits
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if p.take("r") {
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r += "r"
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}
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for {
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delimiter := p.takelist(".", "-", "+", ",", "/", "_", "=")
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if delimiter == "" {
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break
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}
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r += delimiter
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}
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r += p.xtake("}")
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}
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return r
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}
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func (p *parser) empty() bool {
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return p.o >= len(p.s)
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}
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// returns next original-cased character.
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func (p *parser) peekchar() byte {
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return p.s[p.o]
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}
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func (p *parser) xtakelist(l ...string) string {
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w := p.takelist(l...)
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if w == "" {
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p.xerrorf("no match for %v", l)
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}
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return w
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}
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func (p *parser) takelist(l ...string) string {
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for _, w := range l {
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if strings.HasPrefix(p.lower[p.o:], w) {
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p.o += len(w)
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return w
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}
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}
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return ""
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}
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// digits parses zero or more digits.
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func (p *parser) digits() string {
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r := ""
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for !p.empty() {
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b := p.peekchar()
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if b >= '0' && b <= '9' {
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r += string(b)
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p.o++
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} else {
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break
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}
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}
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return r
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}
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func (p *parser) take(s string) bool {
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if strings.HasPrefix(p.lower[p.o:], s) {
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p.o += len(s)
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return true
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}
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return false
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}
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func (p *parser) xtake(s string) string {
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ok := p.take(s)
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if !ok {
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p.xerrorf("expected %q", s)
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}
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return s
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}
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func (p *parser) xnumber() (int, string) {
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s := p.digits()
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if s == "" {
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p.xerrorf("expected number")
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}
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if s == "0" {
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return 0, s
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}
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if strings.HasPrefix(s, "0") {
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p.xerrorf("bogus leading 0 in number")
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}
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v, err := strconv.Atoi(s)
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if err != nil {
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p.xerrorf("parsing number for %q: %s", s, err)
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}
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return v, s
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}
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func (p *parser) xip4address() (net.IP, string) {
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// ../rfc/7208:2607
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ip4num := func() (byte, string) {
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v, vs := p.xnumber()
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if v > 255 {
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p.xerrorf("bad ip4 number %d", v)
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}
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return byte(v), vs
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}
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a, as := ip4num()
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p.xtake(".")
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b, bs := ip4num()
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p.xtake(".")
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c, cs := ip4num()
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p.xtake(".")
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d, ds := ip4num()
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return net.IPv4(a, b, c, d), as + "." + bs + "." + cs + "." + ds
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}
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func (p *parser) xip6address() (net.IP, string) {
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// ../rfc/7208:2614
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// We just take in a string that has characters that IPv6 uses, then parse it.
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s := p.xtakefn1(func(c rune, i int) bool {
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return c >= '0' && c <= '9' || c >= 'a' && c <= 'f' || c >= 'A' && c <= 'F' || c == ':' || c == '.'
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})
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ip := net.ParseIP(s)
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if ip == nil {
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p.xerrorf("ip6 address %q not valid", s)
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}
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return ip, s
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}
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