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# 加密工具(Crypto)
> 本模块是对原生的`crypto`模块二次封装的,在使用上更加简单方便。
## 属性
> 其实就一个属性,即 `crypto`,即为原生的`crypto`对象,方便在封装的方法中无法满足需求时,可以自行调用原生的`crypto`实现。
## 常用API方法
> 对使用频率非常高的几种加密/编码进行更加简便的封装。
### 1. rand(len[, forceNum])
- len `<Number>`
- forceNum `<Boolean>` 可选
> 该方法用于生成指定长度的随机字符串`[a-z-A-z0-9]`,参数`len`即为要生成的字符串长度了; 而`forceNum` 顾名思义,就是是否强制返回纯数字字符串。
```javascript
let crypto = require('crypto.js')
crypto.rand(6) // ddjF7d
crypto.rand(16) // 4sf7dJH6tGHDjhdf
crypto.rand(6, true) // 439875
crypto.rand(10, true) // 3458765234
```
### 2. md5(str[, encode])
- str `<Number>` | `<String>`
- encode `<String>` 可选
> 这方法,应该没有人不知道是做什么的了,`encode`是要返回的字符串编码,默认为`hex` 可选`base64` 不过有这需求的人可能也许大概...很少吧。
```javascript
crypto.md5(123456) // e10adc3949ba59abbe56e057f20f883e
crypto.md5('123456') // e10adc3949ba59abbe56e057f20f883e
crypto.md5('hello world') // 5eb63bbbe01eeed093cb22bb8f5acdc3
crypto.md5('hello world', 'base64') // XrY7u+Ae7tCTyyK7j1rNww==
```
### 3. md5Sign(file)
- file `<String>`
> 该方法用于计算文件的md5签名`file`即为文件的绝对路径。
```javascript
crypto.md5Sign('xx.jpg')
```
### 4. sha1(str[, encode])
- str `<Number>` | `<String>`
- encode `<String>` 可选
> 这方法也应该没有人不知道是做什么的了,`encode`是要返回的字符串编码,默认为`hex` 可选`base64` 不过有这需求的人可能也许大概...很少吧。
```javascript
crypto.sha1(123456) // 7c4a8d09ca3762af61e59520943dc26494f8941b
crypto.sha1('123456') // 7c4a8d09ca3762af61e59520943dc26494f8941b
crypto.sha1('hello world') // 2aae6c35c94fcfb415dbe95f408b9ce91ee846ed
crypto.sha1('hello world', 'base64') // Kq5sNclPz7QV2+lfQIuc6R7oRu0=
```
### 5. sha1Sign(file)
- file `<String>`
> 该方法用于计算文件的sha1签名`file`即为文件的绝对路径。
```javascript
crypto.sha1Sign('xx.jpg')
```
### 6. sha256(str[, encode])
- str `<Number>` | `<String>`
- encode `<String>` 可选
> 自然这方法,也没啥好说的了。
### 7. base64encode(str[, urlFriendly])
- str `<Number>` | `<String>` | `<Buffer>`
- urlFriendly `<Boolean>` 可选
> 这是用来进行base64编码的本身没啥好说。主要是第2个参数是指编码的结果是否对URL友好默认为否; 如果为true则会把+转成-/转成_ (遵循RFC4648标准)。
```javascript
crypto.base64encode('hello world') //aGVsbG8gd29ybGQ=
```
### 8. base64decode(str[, urlFriendly])
- str `<String>`
- urlFriendly `<Boolean>` 可选
> 与之对应的便是这个base解码了。同样`urlFriendly`是指要解码的字符串之前是否采用了URL友好处理默认否。
```javascript
crypto.base64decode('aGVsbG8gd29ybGQ=') //hello world
```
## 更强大的API方法
> 除去上面8个更为常用的方法之外还有很多很多也经常要到的比如AES加密等那此时就可以使用下面这里方法自行配置了。
### 1. 散列算法
#### hash(mode, data[, outEncode])
- mode `<String>`
- data `<String>` | `<Buffer>`
- outEncode '<String>' 可选
> 散列算法(也称为哈希算法),用来实现一些重要数据的模糊处理,以达到隐藏明文的目的。
> 上面的md5、sha1、sha256等其实就是基于这个再次封装的结果;
> `mode`,即算法类型,常用的有 `md5, sha1, sha256, sha512`等;
> `data` 即为要加密的字符串;
> `outEncode`是输出的编码类型;
```javascript
crypto.hash('md5', '123456') //e10adc3949ba59abbe56e057f20f883e
```
### 2. HMAC算法
#### hmac(mode, data[, key][, outEncode])
- mode `<String>`
- data `<String>` | `<Buffer>`
- key `<String>` 可选
- outEncode '<String>' 可选
> HMAC算法是在散列算法的基础上与一个密钥结合在一起以阻止对签名完整性的破坏。
> 与上面的散列算法相比,多了一个密钥的参数`key`;
```javascript
//a21cf00de4343af1b8b2087af07eb7b9
crypto.hmac('md5', '123456', 'sdfvkjfhd')
```
### 3. 公钥加密
> 在上面的2种算法中加密都是不可逆的也就是说加密后的字符我们是没办法再还原回去了但是有很多场景需要我们对拿到的加密字符还原到明文状态。
> 所以出现了公钥加密这种算法; 而`Node.js`本身给我们提供了4种与公钥加密相关的类`Cipher/Decipher、Sign、Verify`这里只讲前面2个以及它们衍生出来的`Cipheriv/Decipheriv`;
#### cipher(mode, data[, key][, inEncode][, outEncode])
- mode `<String>`
- data `<String>` | `<Buffer>`
- key `<String>` 可选
- inEncode '<String>' 可选
- outEncode '<String>' 可选默认base64
> `mode`为算法类型,常见的有`aes-128-cbc、aes-128-gcm`等等地,很多,具体有哪些可以通过 `this.crypto.getCiphers()` 来查看。
> 其他的参数与上面的HMAC算法相似; `inEncode`即声明要加密的数据是什么编码的,默认根据要加密的数据进行判断。
```javascript
//这里给出一个AES-128-CBC的加密例子
//
crypto.cipher('aes-128-cbc', '123456', 'abcdefg')
//mqA9ZPh9VV+fwKlfpicGVg==
crypto.cipher('aes-128-cbc', '123456', 'abcdefg', 'utf8', 'hex')
//9aa03d64f87d555f9fc0a95fa6270656
```
#### decipher(mode, data[, key][, inEncode][, outEncode])
- mode `<String>`
- data `<String>` | `<Buffer>`
- key `<String>` 可选
- inEncode '<String>' 可选, 默认是base64
- outEncode '<String>' 可选默认utf8
> 这是与上面的`cipher`对应的解密方法;
```javascript
// 这里不用指定编码默认即为base64
crypto.decipher('aes-128-cbc', 'mqA9ZPh9VV+fwKlfpicGVg==', 'abcdefg')
// 123456
// 这里一定要指定因为之前加密的时候指定输出为hex所以这里也要指定输入的是hex编码
crypto.decipher('aes-128-cbc', '9aa03d64f87d555f9fc0a95fa6270656', 'abcdefg', 'hex')
//123456
```
> 至于另外的`cipheriv/decipheriv`这2个方法这里就不细讲了和上面的这2个是同样的用法只是要多1个参数`向量(iv)`, **`特别要注意的一点是选择128位的加密算法那key的长度就必须是16位256则是32位依此类推; 向量iv是16位`,具体的请看相关文档**

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/**
* 加密类 md5/sha1/base64
* @authors yutent (yutent@doui.cc)
* @date 2015-09-10 13:56:18
*/
"use strict";
let crypto = require('crypto')
let fs = require('fs')
class C {
constructor(){
this.crypto = crypto
this.hash = (mode, data, outEncode) => {
let sum = crypto.createHash(mode)
let isBuffer = Buffer.isBuffer(data)
sum.update(data, isBuffer ? 'binary' : 'utf8')
return sum.digest(outEncode || 'hex')
}
this.hmac = (mode, data, key, outEncode) => {
key = key || ''
let sum = crypto.createHmac(mode, key)
let isBuffer = Buffer.isBuffer(data)
sum.update(data, isBuffer ? 'binary' : 'utf8')
return sum.digest(outEncode || 'hex')
}
this.cipher = (mode, data, key, inEncode, outEncode) => {
key = key || ''
let isBuffer = Buffer.isBuffer(data)
inEncode = isBuffer ? 'binary' : (inEncode || 'utf8')
outEncode = outEncode || 'base64'
let cp = crypto.createCipher(mode, key)
let res = cp.update(data, inEncode, outEncode)
return res + cp.final(outEncode)
}
this.decipher = (mode, data, key, inEncode, outEncode) => {
key = key || ''
let isBuffer = Buffer.isBuffer(data)
inEncode = isBuffer ? 'binary' : (inEncode || 'base64')
outEncode = outEncode || 'utf8'
let dcp = crypto.createDecipher(mode, key)
let res = dcp.update(data, inEncode, outEncode)
return res + dcp.final(outEncode)
}
this.cipheriv = (mode, data, key, iv, inEncode, outEncode) => {
key = key || '0000000000000000'
iv = iv || ''
let isBuffer = Buffer.isBuffer(data)
inEncode = isBuffer ? 'binary' : (inEncode || 'utf8')
outEncode = outEncode || 'base64'
let cp = crypto.createCipheriv(mode, key, iv)
let res = cp.update(data, inEncode, outEncode)
return res + cp.final(outEncode)
}
this.decipheriv = (mode, data, key, iv, inEncode, outEncode) => {
key = key || '0000000000000000'
iv = iv || ''
let isBuffer = Buffer.isBuffer(data)
inEncode = isBuffer ? 'binary' : (inEncode || 'base64')
outEncode = outEncode || 'utf8'
let dcp = crypto.createDecipheriv(mode, key, iv)
let res = dcp.update(data, inEncode, outEncode)
return res + dcp.final(outEncode)
}
}
/**
* [rand 生成指定长度的随机字符串]
* @param {[type]} len [要得到的字符串长度]
* @param {[type]} forceNum [是否强制返回纯数字]
*/
rand(len, forceNum){
let str = 'qwertyuiopasdfghjklzxcvbnmQWERTYUIOPASDFGHJKLZXCVBNM0123456789'
if(forceNum)
str = '0123456789'
let max = str.length
let tmp = ''
for(let i = 0; i < len; i++){
let r = Math.floor(Math.random() * max)
tmp += str[r]
}
return tmp
}
/**
* [md5 md5加密]
* @param {Str/Num} str [要加密的字符串]
* @param {Str} encode [hex/base64]
*/
md5(str, encode){
if(typeof str !== 'string' && typeof str !== 'number')
return str
return this.hash('md5', str + '', encode)
}
/**
* [md5Sign 获取文件的md5签名]
* @param {Str} file [文件路径]
*/
md5Sign(file){
if(!fs.existsSync(file))
return
let fileStream = fs.readFileSync(file)
return this.hash('md5', fileStream)
}
/**
* [sha1 sha1加密]
* @param {Str/Num} str [要加密的字符串]
* @param {Str} encode [hex/base64]
*/
sha1(str, encode){
if(typeof str !== 'string' && typeof str !== 'number')
return str
return this.hash('sha1', str + '', encode)
}
/**
* [sha1Sign 获取文件的sha1签名]
* @param {Str} file [文件路径]
*/
sha1Sign(file){
if(!fs.existsSync(file))
return
let fileStream = fs.readFileSync(file)
return this.hash('sha1', fileStream)
}
/**
* [sha256 sha256加密]
* @param {Str/Num} str [要加密的字符串]
* @param {Str} encoding [hex/base64]
*/
sha256(str, encoding){
if(typeof str !== 'string' && typeof str !== 'number')
return str
return this.hash('sha256', str + '', encoding)
}
/**
* [base64encode base64加密]
* @param {Str/Num/Buffer} str [要加密的字符串]
* @param {bool} urlFriendly [是否对URL友好默认否是则会把+转成-/转成_]
*/
base64encode(str, urlFriendly){
if(!Buffer.isBuffer(str))
str = Buffer.from(str)
let encode = str.toString('base64')
if(urlFriendly)
encode = encode.replace(/[+\/]/g, m => {return m === '+' ? '-' : '_'}).replace(/=/g, '')
return encode
}
/**
* [base64decode base64解密]
* @param {Str} str [要解密的字符串]
* @param {bool} urlFriendly [之前是否对结果采用了URL友好处理]
* @param {Str/Buffer} encoding [编码默认utf-8]
*/
base64decode(str, urlFriendly, encoding){
if(urlFriendly)
str = str.replace(/[-_]/g, m => {return m === '-' ? '+' : '/'}).replace(/[^A-Za-z0-9\+\/]/g, '')
let buff = Buffer.from(str, 'base64')
if (encoding === 'buffer')
return buff
return buff.toString(encoding || 'ascii')
}
}
module.exports = new C

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{
"name": "crypto.js",
"version": "1.0.0",
"description": "原生crypto加密模块的二次封装,简化常用加密函数的使用",
"keywords": [
"md5",
"sha1",
"base64",
"dojs",
"crypto"
],
"author": "yutent <yutent@doui.cc>",
"repository": { "type": "git", "url": "https://github.com/yutent/crypto.js.git" },
"dependencies": {},
"devDependencies": {},
"main": "lib/main.js"
}