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bech32.go
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bech32.go
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package lnurl
import (
"fmt"
"strings"
)
const charset = "qpzry9x8gf2tvdw0s3jn54khce6mua7l"
var gen = []int{0x3b6a57b2, 0x26508e6d, 0x1ea119fa, 0x3d4233dd, 0x2a1462b3}
// decode decodes a bech32 encoded string, returning the human-readable
// part and the data part excluding the checksum.
func decode(bech string) (string, []byte, error) {
// Only ASCII characters between 33 and 126 are allowed.
for i := 0; i < len(bech); i++ {
if bech[i] < 33 || bech[i] > 126 {
return "", nil, fmt.Errorf("invalid character in "+
"string: '%c'", bech[i])
}
}
// The characters must be either all lowercase or all uppercase.
lower := strings.ToLower(bech)
upper := strings.ToUpper(bech)
if bech != lower && bech != upper {
return "", nil, fmt.Errorf("string not all lowercase or all " +
"uppercase")
}
// We'll work with the lowercase string from now on.
bech = lower
// The string is invalid if the last '1' is non-existent, it is the
// first character of the string (no human-readable part) or one of the
// last 6 characters of the string (since checksum cannot contain '1'),
// or if the string is more than 90 characters in total.
one := strings.LastIndexByte(bech, '1')
if one < 1 || one+7 > len(bech) {
return "", nil, fmt.Errorf("invalid index of 1")
}
// The human-readable part is everything before the last '1'.
hrp := bech[:one]
data := bech[one+1:]
// Each character corresponds to the byte with value of the index in
// 'charset'.
decoded, err := toBytes(data)
if err != nil {
return "", nil, fmt.Errorf("failed converting data to bytes: "+
"%v", err)
}
if !bech32VerifyChecksum(hrp, decoded) {
moreInfo := ""
checksum := bech[len(bech)-6:]
expected, err := toChars(bech32Checksum(hrp,
decoded[:len(decoded)-6]))
if err == nil {
moreInfo = fmt.Sprintf("Expected %v, got %v.",
expected, checksum)
}
return "", nil, fmt.Errorf("checksum failed. " + moreInfo)
}
// We exclude the last 6 bytes, which is the checksum.
return hrp, decoded[:len(decoded)-6], nil
}
// encode encodes a byte slice into a bech32 string with the
// human-readable part hrb. Note that the bytes must each encode 5 bits
// (base32).
func encode(hrp string, data []byte) (string, error) {
// Calculate the checksum of the data and append it at the end.
checksum := bech32Checksum(hrp, data)
combined := append(data, checksum...)
// The resulting bech32 string is the concatenation of the hrp, the
// separator 1, data and checksum. Everything after the separator is
// represented using the specified charset.
dataChars, err := toChars(combined)
if err != nil {
return "", fmt.Errorf("unable to convert data bytes to chars: "+
"%v", err)
}
return hrp + "1" + dataChars, nil
}
// toBytes converts each character in the string 'chars' to the value of the
// index of the correspoding character in 'charset'.
func toBytes(chars string) ([]byte, error) {
decoded := make([]byte, 0, len(chars))
for i := 0; i < len(chars); i++ {
index := strings.IndexByte(charset, chars[i])
if index < 0 {
return nil, fmt.Errorf("invalid character not part of "+
"charset: %v", chars[i])
}
decoded = append(decoded, byte(index))
}
return decoded, nil
}
// toChars converts the byte slice 'data' to a string where each byte in 'data'
// encodes the index of a character in 'charset'.
func toChars(data []byte) (string, error) {
result := make([]byte, 0, len(data))
for _, b := range data {
if int(b) >= len(charset) {
return "", fmt.Errorf("invalid data byte: %v", b)
}
result = append(result, charset[b])
}
return string(result), nil
}
// convertBits converts a byte slice where each byte is encoding fromBits bits,
// to a byte slice where each byte is encoding toBits bits.
func convertBits(data []byte, fromBits, toBits uint8, pad bool) ([]byte, error) {
if fromBits < 1 || fromBits > 8 || toBits < 1 || toBits > 8 {
return nil, fmt.Errorf("only bit groups between 1 and 8 allowed")
}
// The final bytes, each byte encoding toBits bits.
var regrouped []byte
// Keep track of the next byte we create and how many bits we have
// added to it out of the toBits goal.
nextByte := byte(0)
filledBits := uint8(0)
for _, b := range data {
// Discard unused bits.
b = b << (8 - fromBits)
// How many bits remaining to extract from the input data.
remFromBits := fromBits
for remFromBits > 0 {
// How many bits remaining to be added to the next byte.
remToBits := toBits - filledBits
// The number of bytes to next extract is the minimum of
// remFromBits and remToBits.
toExtract := remFromBits
if remToBits < toExtract {
toExtract = remToBits
}
// Add the next bits to nextByte, shifting the already
// added bits to the left.
nextByte = (nextByte << toExtract) | (b >> (8 - toExtract))
// Discard the bits we just extracted and get ready for
// next iteration.
b = b << toExtract
remFromBits -= toExtract
filledBits += toExtract
// If the nextByte is completely filled, we add it to
// our regrouped bytes and start on the next byte.
if filledBits == toBits {
regrouped = append(regrouped, nextByte)
filledBits = 0
nextByte = 0
}
}
}
// We pad any unfinished group if specified.
if pad && filledBits > 0 {
nextByte = nextByte << (toBits - filledBits)
regrouped = append(regrouped, nextByte)
filledBits = 0
nextByte = 0
}
// Any incomplete group must be <= 4 bits, and all zeroes.
if filledBits > 0 && (filledBits > 4 || nextByte != 0) {
return nil, fmt.Errorf("invalid incomplete group")
}
return regrouped, nil
}
// For more details on the checksum calculation, please refer to BIP 173.
func bech32Checksum(hrp string, data []byte) []byte {
// Convert the bytes to list of integers, as this is needed for the
// checksum calculation.
integers := make([]int, len(data))
for i, b := range data {
integers[i] = int(b)
}
values := append(bech32HrpExpand(hrp), integers...)
values = append(values, []int{0, 0, 0, 0, 0, 0}...)
polymod := bech32Polymod(values) ^ 1
var res []byte
for i := 0; i < 6; i++ {
res = append(res, byte((polymod>>uint(5*(5-i)))&31))
}
return res
}
// For more details on the polymod calculation, please refer to BIP 173.
func bech32Polymod(values []int) int {
chk := 1
for _, v := range values {
b := chk >> 25
chk = (chk&0x1ffffff)<<5 ^ v
for i := 0; i < 5; i++ {
if (b>>uint(i))&1 == 1 {
chk ^= gen[i]
}
}
}
return chk
}
// For more details on HRP expansion, please refer to BIP 173.
func bech32HrpExpand(hrp string) []int {
v := make([]int, 0, len(hrp)*2+1)
for i := 0; i < len(hrp); i++ {
v = append(v, int(hrp[i]>>5))
}
v = append(v, 0)
for i := 0; i < len(hrp); i++ {
v = append(v, int(hrp[i]&31))
}
return v
}
// For more details on the checksum verification, please refer to BIP 173.
func bech32VerifyChecksum(hrp string, data []byte) bool {
integers := make([]int, len(data))
for i, b := range data {
integers[i] = int(b)
}
concat := append(bech32HrpExpand(hrp), integers...)
return bech32Polymod(concat) == 1
}