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package common
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import (
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"bytes"
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"encoding/binary"
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"encoding/hex"
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"fmt"
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"math/big"
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"strings"
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)
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type Bytes []byte
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func (self Bytes) String() string {
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return string(self)
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}
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func DeleteFromByteSlice(s [][]byte, hash []byte) [][]byte {
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for i, h := range s {
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if bytes.Compare(h, hash) == 0 {
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return append(s[:i:i], s[i+1:]...)
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}
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}
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return s
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}
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// Number to bytes
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//
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// Returns the number in bytes with the specified base
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func NumberToBytes(num interface{}, bits int) []byte {
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buf := new(bytes.Buffer)
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err := binary.Write(buf, binary.BigEndian, num)
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if err != nil {
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fmt.Println("NumberToBytes failed:", err)
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}
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return buf.Bytes()[buf.Len()-(bits/8):]
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}
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// Bytes to number
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//
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// Attempts to cast a byte slice to a unsigned integer
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func BytesToNumber(b []byte) uint64 {
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var number uint64
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// Make sure the buffer is 64bits
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data := make([]byte, 8)
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data = append(data[:len(b)], b...)
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buf := bytes.NewReader(data)
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err := binary.Read(buf, binary.BigEndian, &number)
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if err != nil {
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fmt.Println("BytesToNumber failed:", err)
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}
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return number
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}
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// Read variable int
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//
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// Read a variable length number in big endian byte order
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func ReadVarInt(buff []byte) (ret uint64) {
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switch l := len(buff); {
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case l > 4:
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d := LeftPadBytes(buff, 8)
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binary.Read(bytes.NewReader(d), binary.BigEndian, &ret)
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case l > 2:
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var num uint32
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d := LeftPadBytes(buff, 4)
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binary.Read(bytes.NewReader(d), binary.BigEndian, &num)
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ret = uint64(num)
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case l > 1:
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var num uint16
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d := LeftPadBytes(buff, 2)
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binary.Read(bytes.NewReader(d), binary.BigEndian, &num)
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ret = uint64(num)
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default:
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var num uint8
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binary.Read(bytes.NewReader(buff), binary.BigEndian, &num)
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ret = uint64(num)
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}
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return
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}
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// Binary length
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//
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// Returns the true binary length of the given number
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func BinaryLength(num int) int {
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if num == 0 {
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return 0
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}
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return 1 + BinaryLength(num>>8)
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}
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// Copy bytes
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//
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// Returns an exact copy of the provided bytes
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func CopyBytes(b []byte) (copiedBytes []byte) {
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copiedBytes = make([]byte, len(b))
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copy(copiedBytes, b)
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return
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}
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func IsHex(str string) bool {
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l := len(str)
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return l >= 4 && l%2 == 0 && str[0:2] == "0x"
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}
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func Bytes2Hex(d []byte) string {
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return hex.EncodeToString(d)
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}
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func Hex2Bytes(str string) []byte {
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h, _ := hex.DecodeString(str)
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return h
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}
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func StringToByteFunc(str string, cb func(str string) []byte) (ret []byte) {
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if len(str) > 1 && str[0:2] == "0x" && !strings.Contains(str, "\n") {
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ret = Hex2Bytes(str[2:])
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} else {
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ret = cb(str)
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}
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return
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}
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func FormatData(data string) []byte {
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if len(data) == 0 {
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return nil
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}
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// Simple stupid
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d := new(big.Int)
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if data[0:1] == "\"" && data[len(data)-1:] == "\"" {
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return RightPadBytes([]byte(data[1:len(data)-1]), 32)
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} else if len(data) > 1 && data[:2] == "0x" {
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d.SetBytes(Hex2Bytes(data[2:]))
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} else {
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d.SetString(data, 0)
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}
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return BigToBytes(d, 256)
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}
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func ParseData(data ...interface{}) (ret []byte) {
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for _, item := range data {
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switch t := item.(type) {
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case string:
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var str []byte
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if IsHex(t) {
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str = Hex2Bytes(t[2:])
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} else {
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str = []byte(t)
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}
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ret = append(ret, RightPadBytes(str, 32)...)
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case []byte:
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ret = append(ret, LeftPadBytes(t, 32)...)
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}
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}
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return
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}
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func RightPadBytes(slice []byte, l int) []byte {
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if l < len(slice) {
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return slice
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}
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padded := make([]byte, l)
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copy(padded[0:len(slice)], slice)
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return padded
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}
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func LeftPadBytes(slice []byte, l int) []byte {
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if l < len(slice) {
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return slice
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}
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padded := make([]byte, l)
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copy(padded[l-len(slice):], slice)
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return padded
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}
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func LeftPadString(str string, l int) string {
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if l < len(str) {
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return str
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}
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zeros := Bytes2Hex(make([]byte, (l-len(str))/2))
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return zeros + str
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}
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func RightPadString(str string, l int) string {
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if l < len(str) {
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return str
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}
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zeros := Bytes2Hex(make([]byte, (l-len(str))/2))
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return str + zeros
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}
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func ToAddress(slice []byte) (addr []byte) {
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if len(slice) < 20 {
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addr = LeftPadBytes(slice, 20)
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} else if len(slice) > 20 {
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addr = slice[len(slice)-20:]
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} else {
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addr = slice
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}
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addr = CopyBytes(addr)
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return
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}
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func ByteSliceToInterface(slice [][]byte) (ret []interface{}) {
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for _, i := range slice {
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ret = append(ret, i)
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}
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return
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}
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