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authormsglm <msglm@techchud.xyz>2023-10-27 07:08:25 -0500
committermsglm <msglm@techchud.xyz>2023-10-27 07:08:25 -0500
commit032a7e0c1188d3507b8d9a9571f2446a43cf775b (patch)
tree2bd38c01bc7761a6195e426082ce7191ebc765a1 /vendor/maunium.net/go/mautrix/util/base58/base58.go
parent56e7bd01ca09ad52b0c4f48f146a20a4f1b78696 (diff)
downloadmatterbridge-msglm-1.26.0+0.1.0.tar.gz
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apply https://github.com/42wim/matterbridge/pull/1864v1.26.0+0.1.0
Diffstat (limited to 'vendor/maunium.net/go/mautrix/util/base58/base58.go')
-rw-r--r--vendor/maunium.net/go/mautrix/util/base58/base58.go138
1 files changed, 138 insertions, 0 deletions
diff --git a/vendor/maunium.net/go/mautrix/util/base58/base58.go b/vendor/maunium.net/go/mautrix/util/base58/base58.go
new file mode 100644
index 00000000..8ee59567
--- /dev/null
+++ b/vendor/maunium.net/go/mautrix/util/base58/base58.go
@@ -0,0 +1,138 @@
+// Copyright (c) 2013-2015 The btcsuite developers
+// Use of this source code is governed by an ISC
+// license that can be found in the LICENSE file.
+
+package base58
+
+import (
+ "math/big"
+)
+
+//go:generate go run genalphabet.go
+
+var bigRadix = [...]*big.Int{
+ big.NewInt(0),
+ big.NewInt(58),
+ big.NewInt(58 * 58),
+ big.NewInt(58 * 58 * 58),
+ big.NewInt(58 * 58 * 58 * 58),
+ big.NewInt(58 * 58 * 58 * 58 * 58),
+ big.NewInt(58 * 58 * 58 * 58 * 58 * 58),
+ big.NewInt(58 * 58 * 58 * 58 * 58 * 58 * 58),
+ big.NewInt(58 * 58 * 58 * 58 * 58 * 58 * 58 * 58),
+ big.NewInt(58 * 58 * 58 * 58 * 58 * 58 * 58 * 58 * 58),
+ bigRadix10,
+}
+
+var bigRadix10 = big.NewInt(58 * 58 * 58 * 58 * 58 * 58 * 58 * 58 * 58 * 58) // 58^10
+
+// Decode decodes a modified base58 string to a byte slice.
+func Decode(b string) []byte {
+ answer := big.NewInt(0)
+ scratch := new(big.Int)
+
+ // Calculating with big.Int is slow for each iteration.
+ // x += b58[b[i]] * j
+ // j *= 58
+ //
+ // Instead we can try to do as much calculations on int64.
+ // We can represent a 10 digit base58 number using an int64.
+ //
+ // Hence we'll try to convert 10, base58 digits at a time.
+ // The rough idea is to calculate `t`, such that:
+ //
+ // t := b58[b[i+9]] * 58^9 ... + b58[b[i+1]] * 58^1 + b58[b[i]] * 58^0
+ // x *= 58^10
+ // x += t
+ //
+ // Of course, in addition, we'll need to handle boundary condition when `b` is not multiple of 58^10.
+ // In that case we'll use the bigRadix[n] lookup for the appropriate power.
+ for t := b; len(t) > 0; {
+ n := len(t)
+ if n > 10 {
+ n = 10
+ }
+
+ total := uint64(0)
+ for _, v := range t[:n] {
+ tmp := b58[v]
+ if tmp == 255 {
+ return []byte("")
+ }
+ total = total*58 + uint64(tmp)
+ }
+
+ answer.Mul(answer, bigRadix[n])
+ scratch.SetUint64(total)
+ answer.Add(answer, scratch)
+
+ t = t[n:]
+ }
+
+ tmpval := answer.Bytes()
+
+ var numZeros int
+ for numZeros = 0; numZeros < len(b); numZeros++ {
+ if b[numZeros] != alphabetIdx0 {
+ break
+ }
+ }
+ flen := numZeros + len(tmpval)
+ val := make([]byte, flen)
+ copy(val[numZeros:], tmpval)
+
+ return val
+}
+
+// Encode encodes a byte slice to a modified base58 string.
+func Encode(b []byte) string {
+ x := new(big.Int)
+ x.SetBytes(b)
+
+ // maximum length of output is log58(2^(8*len(b))) == len(b) * 8 / log(58)
+ maxlen := int(float64(len(b))*1.365658237309761) + 1
+ answer := make([]byte, 0, maxlen)
+ mod := new(big.Int)
+ for x.Sign() > 0 {
+ // Calculating with big.Int is slow for each iteration.
+ // x, mod = x / 58, x % 58
+ //
+ // Instead we can try to do as much calculations on int64.
+ // x, mod = x / 58^10, x % 58^10
+ //
+ // Which will give us mod, which is 10 digit base58 number.
+ // We'll loop that 10 times to convert to the answer.
+
+ x.DivMod(x, bigRadix10, mod)
+ if x.Sign() == 0 {
+ // When x = 0, we need to ensure we don't add any extra zeros.
+ m := mod.Int64()
+ for m > 0 {
+ answer = append(answer, alphabet[m%58])
+ m /= 58
+ }
+ } else {
+ m := mod.Int64()
+ for i := 0; i < 10; i++ {
+ answer = append(answer, alphabet[m%58])
+ m /= 58
+ }
+ }
+ }
+
+ // leading zero bytes
+ for _, i := range b {
+ if i != 0 {
+ break
+ }
+ answer = append(answer, alphabetIdx0)
+ }
+
+ // reverse
+ alen := len(answer)
+ for i := 0; i < alen/2; i++ {
+ answer[i], answer[alen-1-i] = answer[alen-1-i], answer[i]
+ }
+
+ return string(answer)
+}