从sha1的计算例子,理解计算机的数据表示?16进制输出?二进制输出??
将[]byte转成16进制
import "crypto/md5"
import "fmt"
sign := md5.Sum([]byte("date string"))
signStr := fmt.Sprintf("%x", sign) //将[]byte转成16进制
上面这一行就完成了 byte类型转16进制。也就是二进制文件转16进制!!
1.以十进制输出
1 2 3 4 5 6 7 8 9 10 11 12 13 14 | package mainimport ( "crypto/sha1" "fmt" "io")func main() { h := sha1.New() io.WriteString(h, "hello") fmt.Printf("%d\n", h.Sum(nil))} |
2.已等宽8进制输出
1 2 3 4 5 6 7 8 9 10 11 12 13 | package mainimport ( "crypto/sha1" "fmt" "io")func main() { h := sha1.New() io.WriteString(h, "hello") fmt.Printf("%8b\n", h.Sum(nil))} |
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golang 和php 计算同一个字符串的sha1值,输出的结果不一样??
1 2 3 4 5 6 7 8 9 10 11 12 13 14 | package mainimport ( "crypto/sha1" "fmt" "io") func main() { h := sha1.New() io.WriteString(h, "hello") //fmt.Printf("%x\n", h.Sum(nil)) fmt.Printf(h.Sum(nil))} |
php计算的结果为:
结果不同
why ?
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你应该以十六进制字符输出才能算是一样的值:
十六进制输出:
php: https://tools.vaptu.com/onlin...
golang: https://tools.vaptu.com/onlin...
结果一样
而你的golang算出来的是二进制的,php的 sha1()函数在第二次参数为TRUE的时候则输出二进制。当然输出大部分情况是乱码。
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可以发现和之前16进制显示的结果也是一样的了!!!
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https://www.jb51.net/article/202356.htm
golang 将[]byte转成16进制的实现
更新时间:2020年12月17日 11:22:07 作者:-缘故-
这篇文章主要介绍了golang 将[]byte转成16进制的实现,具有很好的参考价值,希望对大家有所帮助。一起跟随小编过来看看吧
将[]byte转成16进制
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import "crypto/md5"import "fmt"sign := md5.Sum([]byte("date string"))signStr := fmt.Sprintf("%x", sign) //将[]byte转成16进制 |
补充:golang []byte存储存储的16进制转10进制
项目中有用[]byte存储16进制需要转到10进制,如果用系统自带的函数处理,需要先将[]byte通过hex.EncodeToString转为string,再用strconv.ParseInt转到10进制,过程中由于两次转换导致内存分配过多(每秒执行近100w次),GC出现错误导致进程挂掉。
自己写了一个函数来转,主要是避免出现内存泄漏:
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 230 231 232 233 234 235 236 237 238 239 240 241 242 243 244 245 246 247 248 249 250 251 252 253 254 255 256 257 258 259 260 261 262 263 264 265 266 267 268 269 270 271 272 273 274 275 276 | var b2m_map map[byte]uint64 = map[byte]uint64{ 0x00: 0, 0x01: 1, 0x02: 2, 0x03: 3, 0x04: 4, 0x05: 5, 0x06: 6, 0x07: 7, 0x08: 8, 0x09: 9, 0x0A: 10, 0x0B: 11, 0x0C: 12, 0x0D: 13, 0x0E: 14, 0x0F: 15, 0x10: 16, 0x11: 17, 0x12: 18, 0x13: 19, 0x14: 20, 0x15: 21, 0x16: 22, 0x17: 23, 0x18: 24, 0x19: 25, 0x1A: 26, 0x1B: 27, 0x1C: 28, 0x1D: 29, 0x1E: 30, 0x1F: 31, 0x20: 32, 0x21: 33, 0x22: 34, 0x23: 35, 0x24: 36, 0x25: 37, 0x26: 38, 0x27: 39, 0x28: 40, 0x29: 41, 0x2A: 42, 0x2B: 43, 0x2C: 44, 0x2D: 45, 0x2E: 46, 0x2F: 47, 0x30: 48, 0x31: 49, 0x32: 50, 0x33: 51, 0x34: 52, 0x35: 53, 0x36: 54, 0x37: 55, 0x38: 56, 0x39: 57, 0x3A: 58, 0x3B: 59, 0x3C: 60, 0x3D: 61, 0x3E: 62, 0x3F: 63, 0x40: 64, 0x41: 65, 0x42: 66, 0x43: 67, 0x44: 68, 0x45: 69, 0x46: 70, 0x47: 71, 0x48: 72, 0x49: 73, 0x4A: 74, 0x4B: 75, 0x4C: 76, 0x4D: 77, 0x4E: 78, 0x4F: 79, 0x50: 80, 0x51: 81, 0x52: 82, 0x53: 83, 0x54: 84, 0x55: 85, 0x56: 86, 0x57: 87, 0x58: 88, 0x59: 89, 0x5A: 90, 0x5B: 91, 0x5C: 92, 0x5D: 93, 0x5E: 94, 0x5F: 95, 0x60: 96, 0x61: 97, 0x62: 98, 0x63: 99, 0x64: 100, 0x65: 101, 0x66: 102, 0x67: 103, 0x68: 104, 0x69: 105, 0x6A: 106, 0x6B: 107, 0x6C: 108, 0x6D: 109, 0x6E: 110, 0x6F: 111, 0x70: 112, 0x71: 113, 0x72: 114, 0x73: 115, 0x74: 116, 0x75: 117, 0x76: 118, 0x77: 119, 0x78: 120, 0x79: 121, 0x7A: 122, 0x7B: 123, 0x7C: 124, 0x7D: 125, 0x7E: 126, 0x7F: 127, 0x80: 128, 0x81: 129, 0x82: 130, 0x83: 131, 0x84: 132, 0x85: 133, 0x86: 134, 0x87: 135, 0x88: 136, 0x89: 137, 0x8A: 138, 0x8B: 139, 0x8C: 140, 0x8D: 141, 0x8E: 142, 0x8F: 143, 0x90: 144, 0x91: 145, 0x92: 146, 0x93: 147, 0x94: 148, 0x95: 149, 0x96: 150, 0x97: 151, 0x98: 152, 0x99: 153, 0x9A: 154, 0x9B: 155, 0x9C: 156, 0x9D: 157, 0x9E: 158, 0x9F: 159, 0xA0: 160, 0xA1: 161, 0xA2: 162, 0xA3: 163, 0xA4: 164, 0xA5: 165, 0xA6: 166, 0xA7: 167, 0xA8: 168, 0xA9: 169, 0xAA: 170, 0xAB: 171, 0xAC: 172, 0xAD: 173, 0xAE: 174, 0xAF: 175, 0xB0: 176, 0xB1: 177, 0xB2: 178, 0xB3: 179, 0xB4: 180, 0xB5: 181, 0xB6: 182, 0xB7: 183, 0xB8: 184, 0xB9: 185, 0xBA: 186, 0xBB: 187, 0xBC: 188, 0xBD: 189, 0xBE: 190, 0xBF: 191, 0xC0: 192, 0xC1: 193, 0xC2: 194, 0xC3: 195, 0xC4: 196, 0xC5: 197, 0xC6: 198, 0xC7: 199, 0xC8: 200, 0xC9: 201, 0xCA: 202, 0xCB: 203, 0xCC: 204, 0xCD: 205, 0xCE: 206, 0xCF: 207, 0xD0: 208, 0xD1: 209, 0xD2: 210, 0xD3: 211, 0xD4: 212, 0xD5: 213, 0xD6: 214, 0xD7: 215, 0xD8: 216, 0xD9: 217, 0xDA: 218, 0xDB: 219, 0xDC: 220, 0xDD: 221, 0xDE: 222, 0xDF: 223, 0xE0: 224, 0xE1: 225, 0xE2: 226, 0xE3: 227, 0xE4: 228, 0xE5: 229, 0xE6: 230, 0xE7: 231, 0xE8: 232, 0xE9: 233, 0xEA: 234, 0xEB: 235, 0xEC: 236, 0xED: 237, 0xEE: 238, 0xEF: 239, 0xF0: 240, 0xF1: 241, 0xF2: 242, 0xF3: 243, 0xF4: 244, 0xF5: 245, 0xF6: 246, 0xF7: 247, 0xF8: 248, 0xF9: 249, 0xFA: 250, 0xFB: 251, 0xFC: 252, 0xFD: 253, 0xFE: 254, 0xFF: 255,}func hex2int(hexB *[]byte) uint64 { var retInt uint64 hexLen := len(*hexB) for k, v := range *hexB { retInt += b2m_map[v] * exponent(16, uint64(2*(hexLen-k-1))) } return retInt}func exponent(a, n uint64) uint64 { result := uint64(1) for i := n; i > 0; i >>= 1 { if i&1 != 0 { result *= a } a *= a } return result} |
经过测试,性能和自带的方法接近,略有提升。
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goos: windowsgoarch: amd64pkg: benchmarkBenchmark_General-4 10000000 144 ns/opBenchmark_Better-4 10000000 128 ns/opPASSok benchmark 3.086s |
以上为个人经验,希望能给大家一个参考,也希望大家多多支持脚本之家。如有错误或未考虑完全的地方,望不吝赐教。
Go的代码有点问题,你需要使用%x来强制使用16进制输出。
比如:
fmt.Printf("%x\n", h.Sum(nil))