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codec.go
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codec.go
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package lnurl
import (
"errors"
"fmt"
"net"
"net/url"
"strings"
"golang.org/x/net/idna"
"golang.org/x/net/publicsuffix"
)
var lud17ValidSchemes = map[string]struct{}{"lnurla": {}, "lnurlp": {}, "lnurlw": {}, "lnurlc": {}, "keyauth": {}}
// LNURLDecode takes a bech32-encoded lnurl string and returns a plain-text https URL.
func LNURLDecode(code string) (string, error) {
code = strings.ToLower(code)
switch {
case strings.HasPrefix(code, "lnurl1"):
// bech32
tag, data, err := decode(code)
if err != nil {
return "", err
}
if tag != "lnurl" {
return "", errors.New("tag is not 'lnurl', but '" + tag + "'")
}
converted, err := convertBits(data, 5, 8, false)
if err != nil {
return "", err
}
return string(converted), nil
case strings.HasPrefix(code, "lnurlp://"),
strings.HasPrefix(code, "lnurlw://"),
strings.HasPrefix(code, "lnurlc://"),
strings.HasPrefix(code, "keyauth://"),
strings.HasPrefix(code, "https://"):
u := "https://" + strings.SplitN(code, "://", 2)[1]
if parsed, err := url.Parse(u); err == nil &&
strings.HasSuffix(parsed.Host, ".onion") {
u = "https://" + strings.SplitN(code, "://", 2)[1]
}
return u, nil
}
return "", errors.New("unrecognized lnurl format: " + code)
}
// LNURLEncode takes a plain-text https URL and returns a bech32-encoded uppercased lnurl string.
func LNURLEncode(actualurl string) (lnurl string, err error) {
asbytes := []byte(actualurl)
converted, err := convertBits(asbytes, 8, 5, true)
if err != nil {
return
}
lnurl, err = encode("lnurl", converted)
return strings.ToUpper(lnurl), err
}
// LURL embeds net/url and adds extra fields ontop
type lnUrl struct {
subdomain, domain, tld, port, publicSuffix string
icann, isDomain, isIp bool
*url.URL
}
func (u lnUrl) String() string {
decodedValue, err := url.QueryUnescape(u.URL.String())
if err != nil {
return ""
}
return decodedValue
}
// parse mirrors net/url.Parse except instead it returns
// a tld.URL, which contains extra fields.
func parse(s string) (*lnUrl, error) {
s = addDefaultScheme(s)
parsedUrl, err := url.Parse(s)
if err != nil {
return nil, err
}
if parsedUrl.Host == "" {
return &lnUrl{URL: parsedUrl}, nil
}
dom, port := domainPort(parsedUrl.Host)
//etld+1
etld1, err := publicsuffix.EffectiveTLDPlusOne(dom)
if err != nil {
return nil, err
}
//convert to domain name, and tld
i := strings.Index(etld1, ".")
domName := etld1[0:i]
tld := etld1[i+1:]
//and subdomain
sub := ""
if rest := strings.TrimSuffix(dom, "."+etld1); rest != dom {
sub = rest
}
s, err = idna.New(idna.ValidateForRegistration()).ToASCII(dom)
if err != nil {
return nil, err
}
psuf, icann := publicsuffix.PublicSuffix(tld)
return &lnUrl{
subdomain: sub,
domain: domName,
tld: tld,
port: port,
URL: parsedUrl,
publicSuffix: psuf,
icann: icann,
isDomain: IsDomainName(s),
isIp: net.ParseIP(dom) != nil,
}, nil
}
// adds default scheme //, if nothing is defined at all
func addDefaultScheme(s string) string {
if strings.Index(s, "//") == -1 {
return fmt.Sprintf("//%s", s)
}
return s
}
// domainPort splits domain.com:8080
func domainPort(host string) (string, string) {
for i := len(host) - 1; i >= 0; i-- {
if host[i] == ':' {
return host[:i], host[i+1:]
} else if host[i] < '0' || host[i] > '9' {
return host, ""
}
}
//will only land here if the string is all digits,
//net/url should prevent that from happening
return host, ""
}
// LNURLDecodeStrict takes a string and returns a valid lnurl, if possible.
// code can be
func LNURLDecodeStrict(code string) (string, error) {
code = strings.ToLower(code)
switch {
case strings.HasPrefix(code, "lnurl1"):
// bech32
tag, data, err := decode(code)
if err != nil {
return "", err
}
if tag != "lnurl" {
return "", errors.New("tag is not 'lnurl', but '" + tag + "'")
}
converted, err := convertBits(data, 5, 8, false)
if err != nil {
return "", err
}
u, err := parse(string(converted))
if err != nil {
return string(converted), err
}
if u.isIp {
if u.Scheme != "https" {
err := fmt.Errorf("invalid scheme: %s", string(converted))
u.Scheme = "https"
return u.String(), err
}
return u.String(), nil
}
if !u.isDomain {
return string(converted), fmt.Errorf("invalid domain: %s", string(converted))
}
if setScheme(u) {
return u.String(), fmt.Errorf("invalid scheme: %s", u.Scheme)
}
return u.String(), nil
case strings.HasPrefix(code, "https://"):
return code, nil
default:
u, err := parse(code)
if err != nil {
return "", err
}
scheme := u.Scheme
lud17 := validLud17(scheme)
if setScheme(u) {
if !lud17 {
return u.String(), fmt.Errorf("invalid scheme: %s", scheme)
}
}
return u.String(), nil
}
}
// setScheme will parse string url to url.Url.
// if no scheme was found,
func setScheme(u *lnUrl) (updated bool) {
if u.tld == "onion" {
if u.Scheme != "http" {
u.Scheme = "http"
updated = true
}
} else {
if u.Scheme != "https" {
u.Scheme = "https"
updated = true
}
}
return
}
// validLud17 will return true, if scheme is valid for lud17
func validLud17(schema string) bool {
_, ok := lud17ValidSchemes[schema]
return ok
}
// LNURLEncodeStrict will encode the actualurl to lnurl.
// based on the input url, it will determine whether bech32 encoding / url manipulation is necessary
func LNURLEncodeStrict(actualurl string) (string, error) {
lnurl, err := parse(actualurl)
if err != nil {
enc, encErr := Encode(actualurl)
if encErr != nil {
return "", encErr
}
return enc, fmt.Errorf("invalid url: %s", actualurl)
}
if validLud17(lnurl.Scheme) {
return lnurl.String(), nil
}
if lnurl.isIp {
// actualurl is an ip. just change scheme
lnurl.Scheme = "https"
return Encode(lnurl.String())
}
if !lnurl.isDomain {
enc, encErr := Encode(actualurl)
if encErr != nil {
return "", encErr
}
return enc, fmt.Errorf("invalid domain: %s", lnurl.tld)
}
updated := false
if lnurl.tld != "onion" {
// check tld
if !lnurl.icann {
enc, encErr := Encode(actualurl)
if encErr != nil {
return "", encErr
}
return enc, fmt.Errorf("invalid tld: %s", lnurl.tld)
}
if lnurl.Scheme != "https" {
lnurl.Scheme = "https"
updated = true
}
} else {
if lnurl.Scheme != "http" {
lnurl.Scheme = "http"
updated = true
}
}
enc, err := Encode(lnurl.String())
if err != nil {
return enc, err
}
if updated {
return enc, fmt.Errorf("invalid protocol schema: %s", lnurl.Scheme)
}
return enc, err
}
func Encode(s string) (string, error) {
asbytes := []byte(s)
converted, err := convertBits(asbytes, 8, 5, true)
if err != nil {
return s, err
}
lnurl, err := encode("lnurl", converted)
return strings.ToUpper(lnurl), err
}
// IsDomainName (from net package) checks if a string is a presentation-format domain name
// (currently restricted to hostname-compatible "preferred name" LDH labels and
// SRV-like "underscore labels"; see golang.org/issue/12421).
func IsDomainName(s string) bool {
// The root domain name is valid. See golang.org/issue/45715.
if s == "." {
return true
}
// See RFC 1035, RFC 3696.
// Presentation format has dots before every label except the first, and the
// terminal empty label is optional here because we assume fully-qualified
// (absolute) input. We must therefore reserve space for the first and last
// labels' length octets in wire format, where they are necessary and the
// maximum total length is 255.
// So our _effective_ maximum is 253, but 254 is not rejected if the last
// character is a dot.
l := len(s)
if l == 0 || l > 254 || l == 254 && s[l-1] != '.' {
return false
}
last := byte('.')
nonNumeric := false // true once we've seen a letter or hyphen
partlen := 0
for i := 0; i < len(s); i++ {
c := s[i]
switch {
default:
return false
case 'a' <= c && c <= 'z' || 'A' <= c && c <= 'Z' || c == '_':
nonNumeric = true
partlen++
case '0' <= c && c <= '9':
// fine
partlen++
case c == '-':
// Byte before dash cannot be dot.
if last == '.' {
return false
}
partlen++
nonNumeric = true
case c == '.':
// Byte before dot cannot be dot, dash.
if last == '.' || last == '-' {
return false
}
if partlen > 63 || partlen == 0 {
return false
}
partlen = 0
}
last = c
}
if last == '-' || partlen > 63 {
return false
}
return nonNumeric
}