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handle_base58.go
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// Copyright 2017-2018 The qitmeer developers
// Use of this source code is governed by an ISC
// license that can be found in the LICENSE file.
package core
import (
"encoding/hex"
"fmt"
"github.com/Qitmeer/qitmeer-lib/common/encode/base58"
"github.com/Qitmeer/qitmeer-lib/common/hash"
"github.com/Qitmeer/qitmeer-lib/common/util"
"github.com/pkg/errors"
"strconv"
)
func Base58CheckEncode(version []byte, mode string,hasher string, cksumSize int, input string){
if hasher != "" && mode != "qitmeer" {
ErrExit(fmt.Errorf("invaid flag -a %s with -m %s",hasher,mode))
}
data, err := hex.DecodeString(input)
if err!=nil {
ErrExit(err)
}
var encoded string
if hasher != "" {
var cksumfunc func([]byte) []byte
switch (hasher) {
case "sha256":
cksumfunc = base58.SingleHashChecksumFunc(hash.GetHasher(hash.SHA256), cksumSize)
case "dsha256":
cksumfunc = base58.DoubleHashChecksumFunc(hash.GetHasher(hash.SHA256), cksumSize)
case "blake2b256":
cksumfunc = base58.SingleHashChecksumFunc(hash.GetHasher(hash.Blake2b_256), cksumSize)
case "dblake2b256":
cksumfunc = base58.DoubleHashChecksumFunc(hash.GetHasher(hash.Blake2b_256), cksumSize)
case "blake2b512":
cksumfunc = base58.SingleHashChecksumFunc(hash.GetHasher(hash.Blake2b_512), cksumSize)
default:
err = fmt.Errorf("unknown hasher %s", hasher)
}
if err!=nil {
ErrExit(err)
}
encoded = base58.CheckEncode(data, version, cksumSize, cksumfunc)
}else {
switch mode {
case "qitmeer":
if len(version) != 2 {
ErrExit(fmt.Errorf("invaid version byte size for qitmeer base58 check encode. input = %x (len = %d, required 2)",version,len(version)))
}
encoded = base58.QitmeerCheckEncode(data, version[:])
case "btc":
if len(version) > 1 {
ErrExit(fmt.Errorf("invaid version size for btc base58check encode"))
}
encoded = base58.BtcCheckEncode(data, version[0])
case "ss":
encoded = base58.CheckEncode(data, version[:], 2, base58.SingleHashChecksumFunc(hash.GetHasher(hash.Blake2b_512), 2))
default:
ErrExit(fmt.Errorf("unknown encode mode %s", mode))
}
}
// Show the encoded data.
//fmt.Printf("Encoded Data ver[%v] : %s\n",ver, encoded)
fmt.Printf("%s\n",encoded)
}
func Base58CheckDecode(mode, hasher string, versionSize, cksumSize int, input string,showDetails bool) {
var err error
var data []byte
var version []byte
if hasher != "" && mode != "qitmeer" {
ErrExit(fmt.Errorf("invaid flag -a %s with -m %s",hasher,mode))
}
if hasher != "" {
var v []byte
switch hasher {
case "sha256":
data, v, err = base58.CheckDecode(input, versionSize, cksumSize, base58.SingleHashChecksumFunc(hash.GetHasher(hash.SHA256), cksumSize))
case "dsha256":
data, v, err = base58.CheckDecode(input, versionSize, cksumSize, base58.DoubleHashChecksumFunc(hash.GetHasher(hash.SHA256), cksumSize))
case "blake2b256":
data, v, err = base58.CheckDecode(input, versionSize, cksumSize, base58.SingleHashChecksumFunc(hash.GetHasher(hash.Blake2b_256), cksumSize))
case "dblake2b256":
data, v, err = base58.CheckDecode(input, versionSize, cksumSize, base58.DoubleHashChecksumFunc(hash.GetHasher(hash.Blake2b_256), cksumSize))
case "blake2b512":
data, v, err = base58.CheckDecode(input, versionSize, cksumSize, base58.SingleHashChecksumFunc(hash.GetHasher(hash.Blake2b_512), cksumSize))
default:
err = fmt.Errorf("unknown hasher %s",hasher)
}
if err!=nil {
ErrExit(err)
}
version = v
}else {
switch mode {
case "btc":
v := byte(0)
data, v, err = base58.BtcCheckDecode(input)
if err != nil {
ErrExit(err)
}
version = []byte{0x0, v}
case "qitmeer":
v := [2]byte{}
data, v, err = base58.QitmeerCheckDecode(input)
if err != nil {
ErrExit(err)
}
version = []byte{v[0], v[1]}
case "ss":
var v []byte
data, v, err = base58.CheckDecode(input, 1, 2, base58.SingleHashChecksumFunc(hash.GetHasher(hash.Blake2b_512), 2))
if err != nil {
ErrExit(err)
}
version = v
default:
ErrExit(fmt.Errorf("unknown mode %s", mode))
}
}
if showDetails {
decoded := base58.Decode(input)
if hasher!="" {
fmt.Printf("hasher : %s\n", hasher)
}else {
fmt.Printf("mode : %s\n", mode)
}
version_d, err := strconv.ParseUint(fmt.Sprintf("%x",version[:]), 16, 64)
version_r := util.CopyBytes(version[:])
util.ReverseBytes(version_r)
version_d2, err := strconv.ParseUint(fmt.Sprintf("%x",version_r[:]), 16, 64)
if err!=nil {
ErrExit(errors.Wrapf(err,"convert version %x error",version[:]))
}
fmt.Printf("version : %x (hex) %v (BE) %v (LE)\n", version, version_d, version_d2)
fmt.Printf("payload : %x\n", data)
cksum := decoded[len(decoded)-cksumSize:]
cksum_d, err := strconv.ParseUint(fmt.Sprintf("%x",cksum[:]), 16, 64)
if err!=nil {
ErrExit(errors.Wrapf(err,"convert version %x error",cksum[:]))
}
//convere to little endian
cksum_r := util.CopyBytes(cksum[:])
util.ReverseBytes(cksum_r)
cksum_d2, err := strconv.ParseUint(fmt.Sprintf("%x",cksum_r[:]), 16, 64)
fmt.Printf("checksum: %x (hex) %v (BE) %v (LE)\n", cksum, cksum_d, cksum_d2)
} else {
fmt.Printf("%x\n", data)
}
}
func Base58Encode(input string){
data, err := hex.DecodeString(input)
if err!=nil {
ErrExit(err)
}
encoded := base58.Encode(data)
fmt.Printf("%s\n",encoded)
}
func Base58Decode(input string){
data := base58.Decode(input)
fmt.Printf("%x\n", data)
}