github.com/flyinox/gosm@v0.0.0-20171117061539-16768cb62077/src/encoding/hex/hex.go (about) 1 // Copyright 2009 The Go Authors. All rights reserved. 2 // Use of this source code is governed by a BSD-style 3 // license that can be found in the LICENSE file. 4 5 // Package hex implements hexadecimal encoding and decoding. 6 package hex 7 8 import ( 9 "bytes" 10 "errors" 11 "fmt" 12 "io" 13 ) 14 15 const hextable = "0123456789abcdef" 16 17 // EncodedLen returns the length of an encoding of n source bytes. 18 // Specifically, it returns n * 2. 19 func EncodedLen(n int) int { return n * 2 } 20 21 // Encode encodes src into EncodedLen(len(src)) 22 // bytes of dst. As a convenience, it returns the number 23 // of bytes written to dst, but this value is always EncodedLen(len(src)). 24 // Encode implements hexadecimal encoding. 25 func Encode(dst, src []byte) int { 26 for i, v := range src { 27 dst[i*2] = hextable[v>>4] 28 dst[i*2+1] = hextable[v&0x0f] 29 } 30 31 return len(src) * 2 32 } 33 34 // ErrLength results from decoding an odd length slice. 35 var ErrLength = errors.New("encoding/hex: odd length hex string") 36 37 // InvalidByteError values describe errors resulting from an invalid byte in a hex string. 38 type InvalidByteError byte 39 40 func (e InvalidByteError) Error() string { 41 return fmt.Sprintf("encoding/hex: invalid byte: %#U", rune(e)) 42 } 43 44 // DecodedLen returns the length of a decoding of x source bytes. 45 // Specifically, it returns x / 2. 46 func DecodedLen(x int) int { return x / 2 } 47 48 // Decode decodes src into DecodedLen(len(src)) bytes, 49 // returning the actual number of bytes written to dst. 50 // 51 // Decode expects that src contain only hexadecimal 52 // characters and that src should have an even length. 53 func Decode(dst, src []byte) (int, error) { 54 if len(src)%2 == 1 { 55 return 0, ErrLength 56 } 57 58 for i := 0; i < len(src)/2; i++ { 59 a, ok := fromHexChar(src[i*2]) 60 if !ok { 61 return 0, InvalidByteError(src[i*2]) 62 } 63 b, ok := fromHexChar(src[i*2+1]) 64 if !ok { 65 return 0, InvalidByteError(src[i*2+1]) 66 } 67 dst[i] = (a << 4) | b 68 } 69 70 return len(src) / 2, nil 71 } 72 73 // fromHexChar converts a hex character into its value and a success flag. 74 func fromHexChar(c byte) (byte, bool) { 75 switch { 76 case '0' <= c && c <= '9': 77 return c - '0', true 78 case 'a' <= c && c <= 'f': 79 return c - 'a' + 10, true 80 case 'A' <= c && c <= 'F': 81 return c - 'A' + 10, true 82 } 83 84 return 0, false 85 } 86 87 // EncodeToString returns the hexadecimal encoding of src. 88 func EncodeToString(src []byte) string { 89 dst := make([]byte, EncodedLen(len(src))) 90 Encode(dst, src) 91 return string(dst) 92 } 93 94 // DecodeString returns the bytes represented by the hexadecimal string s. 95 func DecodeString(s string) ([]byte, error) { 96 src := []byte(s) 97 dst := make([]byte, DecodedLen(len(src))) 98 _, err := Decode(dst, src) 99 if err != nil { 100 return nil, err 101 } 102 return dst, nil 103 } 104 105 // Dump returns a string that contains a hex dump of the given data. The format 106 // of the hex dump matches the output of `hexdump -C` on the command line. 107 func Dump(data []byte) string { 108 var buf bytes.Buffer 109 dumper := Dumper(&buf) 110 dumper.Write(data) 111 dumper.Close() 112 return buf.String() 113 } 114 115 // Dumper returns a WriteCloser that writes a hex dump of all written data to 116 // w. The format of the dump matches the output of `hexdump -C` on the command 117 // line. 118 func Dumper(w io.Writer) io.WriteCloser { 119 return &dumper{w: w} 120 } 121 122 type dumper struct { 123 w io.Writer 124 rightChars [18]byte 125 buf [14]byte 126 used int // number of bytes in the current line 127 n uint // number of bytes, total 128 } 129 130 func toChar(b byte) byte { 131 if b < 32 || b > 126 { 132 return '.' 133 } 134 return b 135 } 136 137 func (h *dumper) Write(data []byte) (n int, err error) { 138 // Output lines look like: 139 // 00000010 2e 2f 30 31 32 33 34 35 36 37 38 39 3a 3b 3c 3d |./0123456789:;<=| 140 // ^ offset ^ extra space ^ ASCII of line. 141 for i := range data { 142 if h.used == 0 { 143 // At the beginning of a line we print the current 144 // offset in hex. 145 h.buf[0] = byte(h.n >> 24) 146 h.buf[1] = byte(h.n >> 16) 147 h.buf[2] = byte(h.n >> 8) 148 h.buf[3] = byte(h.n) 149 Encode(h.buf[4:], h.buf[:4]) 150 h.buf[12] = ' ' 151 h.buf[13] = ' ' 152 _, err = h.w.Write(h.buf[4:]) 153 if err != nil { 154 return 155 } 156 } 157 Encode(h.buf[:], data[i:i+1]) 158 h.buf[2] = ' ' 159 l := 3 160 if h.used == 7 { 161 // There's an additional space after the 8th byte. 162 h.buf[3] = ' ' 163 l = 4 164 } else if h.used == 15 { 165 // At the end of the line there's an extra space and 166 // the bar for the right column. 167 h.buf[3] = ' ' 168 h.buf[4] = '|' 169 l = 5 170 } 171 _, err = h.w.Write(h.buf[:l]) 172 if err != nil { 173 return 174 } 175 n++ 176 h.rightChars[h.used] = toChar(data[i]) 177 h.used++ 178 h.n++ 179 if h.used == 16 { 180 h.rightChars[16] = '|' 181 h.rightChars[17] = '\n' 182 _, err = h.w.Write(h.rightChars[:]) 183 if err != nil { 184 return 185 } 186 h.used = 0 187 } 188 } 189 return 190 } 191 192 func (h *dumper) Close() (err error) { 193 // See the comments in Write() for the details of this format. 194 if h.used == 0 { 195 return 196 } 197 h.buf[0] = ' ' 198 h.buf[1] = ' ' 199 h.buf[2] = ' ' 200 h.buf[3] = ' ' 201 h.buf[4] = '|' 202 nBytes := h.used 203 for h.used < 16 { 204 l := 3 205 if h.used == 7 { 206 l = 4 207 } else if h.used == 15 { 208 l = 5 209 } 210 _, err = h.w.Write(h.buf[:l]) 211 if err != nil { 212 return 213 } 214 h.used++ 215 } 216 h.rightChars[nBytes] = '|' 217 h.rightChars[nBytes+1] = '\n' 218 _, err = h.w.Write(h.rightChars[:nBytes+2]) 219 return 220 }