execjs安装及使用
pyexecjs是一个可以帮助我们运行js代码的一个第三方模块. 其使用是非常容易上手的.
但是它的运行是要依赖能运行js的第三方环境的. 这里我们选择用node作为我们运行js的位置.
1.1 安装Nodejs
略......
切记. 重启pycharm或者重启电脑.
1.2 安装pyexecjs
pip install pyexecjs 测试一下: import execjs print(execjs.get().name) # 需要重启pycharm或者重启电脑 Node.js (V8)
1.3 简单使用
import execjs print(execjs.get().name) # execjs.eval 可以直接运行js代码并得到结果 js = """ "鲁班_王昭君_猴子_亚瑟_蔡文姬".split("_") """ res = execjs.eval(js) print(res) # execjs.compile(), call() # execjs.compile() 事先加载好一段js代码, jj = execjs.compile(""" function an(a, b){ return a + b } """) # call() 运行代码中的xxx函数. 后续的参数是xxx的参数 ret = jj.call("an", 10, 20) print(ret)
windows中如果出现编码错误. 在引入execjs之前. 插入以下代码即可.
import subprocess from functools import partial subprocess.Popen = partial(subprocess.Popen, encoding='utf-8') import execjs
1.4 实战案例之网易云
网易云.js
// 网易云.... // 免费歌曲...付费不管. vip的不管... // https://music.163.com/#/song?id=1325905146 // 引入你安装的第三方库 -> from xxxx improt xxxx var CryptoJS = require("crypto-js"); var maxDigits, ZERO_ARRAY, bigZero, bigOne, dpl10, lr10, hexatrigesimalToChar, hexToChar, highBitMasks, lowBitMasks, biRadixBase = 2, biRadixBits = 16, bitsPerDigit = biRadixBits, biRadix = 65536, biHalfRadix = biRadix >>> 1, biRadixSquared = biRadix * biRadix, maxDigitVal = biRadix - 1, maxInteger = 9999999999999998; setMaxDigits(20), dpl10 = 15, lr10 = biFromNumber(1e15), hexatrigesimalToChar = new Array("0","1","2","3","4","5","6","7","8","9","a","b","c","d","e","f","g","h","i","j","k","l","m","n","o","p","q","r","s","t","u","v","w","x","y","z"), hexToChar = new Array("0","1","2","3","4","5","6","7","8","9","a","b","c","d","e","f"), highBitMasks = new Array(0,32768,49152,57344,61440,63488,64512,65024,65280,65408,65472,65504,65520,65528,65532,65534,65535), lowBitMasks = new Array(0,1,3,7,15,31,63,127,255,511,1023,2047,4095,8191,16383,32767,65535); function biFromNumber(a) { var c, b = new BigInt; for (b.isNeg = 0 > a, a = Math.abs(a), c = 0; a > 0; ) b.digits[c++] = a & maxDigitVal, a >>= biRadixBits; return b } function biMultiplyByRadixPower(a, b) { var c = new BigInt; return arrayCopy(a.digits, 0, c.digits, b, c.digits.length - b), c } function biCompare(a, b) { if (a.isNeg != b.isNeg) return 1 - 2 * Number(a.isNeg); for (var c = a.digits.length - 1; c >= 0; --c) if (a.digits[c] != b.digits[c]) return a.isNeg ? 1 - 2 * Number(a.digits[c] > b.digits[c]) : 1 - 2 * Number(a.digits[c] < b.digits[c]); return 0 } function biSubtract(a, b) { var c, d, e, f; if (a.isNeg != b.isNeg) b.isNeg = !b.isNeg, c = biAdd(a, b), b.isNeg = !b.isNeg; else { for (c = new BigInt, e = 0, f = 0; f < a.digits.length; ++f) d = a.digits[f] - b.digits[f] + e, c.digits[f] = 65535 & d, c.digits[f] < 0 && (c.digits[f] += biRadix), e = 0 - Number(0 > d); if (-1 == e) { for (e = 0, f = 0; f < a.digits.length; ++f) d = 0 - c.digits[f] + e, c.digits[f] = 65535 & d, c.digits[f] < 0 && (c.digits[f] += biRadix), e = 0 - Number(0 > d); c.isNeg = !a.isNeg } else c.isNeg = a.isNeg } return c } function biMultiplyDigit(a, b) { var c, d, e, f; for (result = new BigInt, c = biHighIndex(a), d = 0, f = 0; c >= f; ++f) e = result.digits[f] + a.digits[f] * b + d, result.digits[f] = e & maxDigitVal, d = e >>> biRadixBits; return result.digits[1 + c] = d, result } function a(a) { var d, e, b = "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789", c = ""; for (d = 0; a > d; d += 1) e = Math.random() * b.length, e = Math.floor(e), c += b.charAt(e); return c } function biModuloByRadixPower(a, b) { var c = new BigInt; return arrayCopy(a.digits, 0, c.digits, 0, b), c } function BarrettMu_modulo(a) { var i, b = biDivideByRadixPower(a, this.k - 1), c = biMultiply(b, this.mu), d = biDivideByRadixPower(c, this.k + 1), e = biModuloByRadixPower(a, this.k + 1), f = biMultiply(d, this.modulus), g = biModuloByRadixPower(f, this.k + 1), h = biSubtract(e, g); for (h.isNeg && (h = biAdd(h, this.bkplus1)), i = biCompare(h, this.modulus) >= 0; i; ) h = biSubtract(h, this.modulus), i = biCompare(h, this.modulus) >= 0; return h } function BarrettMu_powMod(a, b) { var d, e, c = new BigInt; for (c.digits[0] = 1, d = a, e = b; ; ) { if (0 != (1 & e.digits[0]) && (c = this.multiplyMod(c, d)), e = biShiftRight(e, 1), 0 == e.digits[0] && 0 == biHighIndex(e)) break; d = this.multiplyMod(d, d) } return c } function BarrettMu_multiplyMod(a, b) { var c = biMultiply(a, b); return this.modulo(c) } function biMultiply(a, b) { var d, h, i, k, c = new BigInt, e = biHighIndex(a), f = biHighIndex(b); for (k = 0; f >= k; ++k) { for (d = 0, i = k, j = 0; e >= j; ++j, ++i) h = c.digits[i] + a.digits[j] * b.digits[k] + d, c.digits[i] = h & maxDigitVal, d = h >>> biRadixBits; c.digits[k + e + 1] = d } return c.isNeg = a.isNeg != b.isNeg, c } function biDivideByRadixPower(a, b) { var c = new BigInt; return arrayCopy(a.digits, b, c.digits, 0, c.digits.length - b), c } function b(a, b) { // 当你在js代码中看到了如下格式... 它是一个第三方库... var c = CryptoJS.enc.Utf8.parse(b) , d = CryptoJS.enc.Utf8.parse("0102030405060708") , e = CryptoJS.enc.Utf8.parse(a) , f = CryptoJS.AES.encrypt(e, c, { iv: d, mode: CryptoJS.mode.CBC }); return f.toString() } function setMaxDigits(a) { maxDigits = a, ZERO_ARRAY = new Array(maxDigits); for (var b = 0; b < ZERO_ARRAY.length; b++) ZERO_ARRAY[b] = 0; bigZero = new BigInt, bigOne = new BigInt, bigOne.digits[0] = 1 } function BigInt(a) { this.digits = "boolean" == typeof a && 1 == a ? null : ZERO_ARRAY.slice(0), this.isNeg = !1 } function encryptedString(a, b) { for (var f, g, h, i, j, k, l, c = new Array, d = b.length, e = 0; d > e; ) c[e] = b.charCodeAt(e), e++; for (; 0 != c.length % a.chunkSize; ) c[e++] = 0; for (f = c.length, g = "", e = 0; f > e; e += a.chunkSize) { for (j = new BigInt, h = 0, i = e; i < e + a.chunkSize; ++h) j.digits[h] = c[i++], j.digits[h] += c[i++] << 8; k = a.barrett.powMod(j, a.e), l = 16 == a.radix ? biToHex(k) : biToString(k, a.radix), g += l + " " } return g.substring(0, g.length - 1) } function biToString(a, b) { var d, e, c = new BigInt; for (c.digits[0] = b, d = biDivideModulo(a, c), e = hexatrigesimalToChar[d[1].digits[0]]; 1 == biCompare(d[0], bigZero); ) d = biDivideModulo(d[0], c), digit = d[1].digits[0], e += hexatrigesimalToChar[d[1].digits[0]]; return (a.isNeg ? "-" : "") + reverseStr(e) } function digitToHex(a) { var b = 15 , c = ""; for (i = 0; 4 > i; ++i) c += hexToChar[a & b], a >>>= 4; return reverseStr(c) } function reverseStr(a) { var c, b = ""; for (c = a.length - 1; c > -1; --c) b += a.charAt(c); return b } function biToHex(a) { var d, b = ""; for (biHighIndex(a), d = biHighIndex(a); d > -1; --d) b += digitToHex(a.digits[d]); return b } function c(a, b, c) { var d, e; return setMaxDigits(131), d = new RSAKeyPair(b,"",c), e = encryptedString(d, a) } function biFromHex(a) { var d, e, b = new BigInt, c = a.length; for (d = c, e = 0; d > 0; d -= 4, ++e) b.digits[e] = hexToDigit(a.substr(Math.max(d - 4, 0), Math.min(d, 4))); return b } function hexToDigit(a) { var d, b = 0, c = Math.min(a.length, 4); for (d = 0; c > d; ++d) b <<= 4, b |= charToHex(a.charCodeAt(d)); return b } function charToHex(a) { var h, b = 48, c = b + 9, d = 97, e = d + 25, f = 65, g = 90; return h = a >= b && c >= a ? a - b : a >= f && g >= a ? 10 + a - f : a >= d && e >= a ? 10 + a - d : 0 } function biHighIndex(a) { for (var b = a.digits.length - 1; b > 0 && 0 == a.digits[b]; ) --b; return b } function biCopy(a) { var b = new BigInt(!0); return b.digits = a.digits.slice(0), b.isNeg = a.isNeg, b } function biDivide(a, b) { return biDivideModulo(a, b)[0] } function biNumBits(a) { var e, b = biHighIndex(a), c = a.digits[b], d = (b + 1) * bitsPerDigit; for (e = d; e > d - bitsPerDigit && 0 == (32768 & c); --e) c <<= 1; return e } function biShiftLeft(a, b) { var e, f, g, h, c = Math.floor(b / bitsPerDigit), d = new BigInt; for (arrayCopy(a.digits, 0, d.digits, c, d.digits.length - c), e = b % bitsPerDigit, f = bitsPerDigit - e, g = d.digits.length - 1, h = g - 1; g > 0; --g, --h) d.digits[g] = d.digits[g] << e & maxDigitVal | (d.digits[h] & highBitMasks[e]) >>> f; return d.digits[0] = d.digits[g] << e & maxDigitVal, d.isNeg = a.isNeg, d } function arrayCopy(a, b, c, d, e) { var g, h, f = Math.min(b + e, a.length); for (g = b, h = d; f > g; ++g, ++h) c[h] = a[g] } function biShiftRight(a, b) { var e, f, g, h, c = Math.floor(b / bitsPerDigit), d = new BigInt; for (arrayCopy(a.digits, c, d.digits, 0, a.digits.length - c), e = b % bitsPerDigit, f = bitsPerDigit - e, g = 0, h = g + 1; g < d.digits.length - 1; ++g, ++h) d.digits[g] = d.digits[g] >>> e | (d.digits[h] & lowBitMasks[e]) << f; return d.digits[d.digits.length - 1] >>>= e, d.isNeg = a.isNeg, d } function biDivideModulo(a, b) { var f, g, h, i, j, k, l, m, n, o, p, q, r, s, c = biNumBits(a), d = biNumBits(b), e = b.isNeg; if (d > c) return a.isNeg ? (f = biCopy(bigOne), f.isNeg = !b.isNeg, a.isNeg = !1, b.isNeg = !1, g = biSubtract(b, a), a.isNeg = !0, b.isNeg = e) : (f = new BigInt, g = biCopy(a)), new Array(f,g); for (f = new BigInt, g = a, h = Math.ceil(d / bitsPerDigit) - 1, i = 0; b.digits[h] < biHalfRadix; ) b = biShiftLeft(b, 1), ++i, ++d, h = Math.ceil(d / bitsPerDigit) - 1; for (g = biShiftLeft(g, i), c += i, j = Math.ceil(c / bitsPerDigit) - 1, k = biMultiplyByRadixPower(b, j - h); -1 != biCompare(g, k); ) ++f.digits[j - h], g = biSubtract(g, k); for (l = j; l > h; --l) { for (m = l >= g.digits.length ? 0 : g.digits[l], n = l - 1 >= g.digits.length ? 0 : g.digits[l - 1], o = l - 2 >= g.digits.length ? 0 : g.digits[l - 2], p = h >= b.digits.length ? 0 : b.digits[h], q = h - 1 >= b.digits.length ? 0 : b.digits[h - 1], f.digits[l - h - 1] = m == p ? maxDigitVal : Math.floor((m * biRadix + n) / p), r = f.digits[l - h - 1] * (p * biRadix + q), s = m * biRadixSquared + (n * biRadix + o); r > s; ) --f.digits[l - h - 1], r = f.digits[l - h - 1] * (p * biRadix | q), s = m * biRadix * biRadix + (n * biRadix + o); k = biMultiplyByRadixPower(b, l - h - 1), g = biSubtract(g, biMultiplyDigit(k, f.digits[l - h - 1])), g.isNeg && (g = biAdd(g, k), --f.digits[l - h - 1]) } return g = biShiftRight(g, i), f.isNeg = a.isNeg != e, a.isNeg && (f = e ? biAdd(f, bigOne) : biSubtract(f, bigOne), b = biShiftRight(b, i), g = biSubtract(b, g)), 0 == g.digits[0] && 0 == biHighIndex(g) && (g.isNeg = !1), new Array(f,g) } function BarrettMu(a) { this.modulus = biCopy(a), this.k = biHighIndex(this.modulus) + 1; var b = new BigInt; b.digits[2 * this.k] = 1, this.mu = biDivide(b, this.modulus), this.bkplus1 = new BigInt, this.bkplus1.digits[this.k + 1] = 1, this.modulo = BarrettMu_modulo, this.multiplyMod = BarrettMu_multiplyMod, this.powMod = BarrettMu_powMod } function RSAKeyPair(a, b, c) { this.e = biFromHex(a), this.d = biFromHex(b), this.m = biFromHex(c), this.chunkSize = 2 * biHighIndex(this.m), this.radix = 16, this.barrett = new BarrettMu(this.m) } function d(d, e, f, g) { var h = {} , i = a(16); return h.encText = b(d, g), h.encText = b(h.encText, i), h.encSecKey = c(i, e, f), h } // 本地做测试, window is not defined 这里你用的是node环境. node里面没有window let i0x = { "csrf_token": "", "encodeType": "aac", "ids": "[1325905146]", "level": "standard" } function fn(i0x){ return d(JSON.stringify(i0x), '010001', '00e0b509f6259df8642dbc35662901477df22677ec152b5ff68ace615bb7b725152b3ab17a876aea8a5aa76d2e417629ec4ee341f56135fccf695280104e0312ecbda92557c93870114af6c9d05c4f7f0c3685b7a46bee255932575cce10b424d813cfe4875d3e82047b97ddef52741d546b8e289dc6935b3ece0462db0a22b8e7', '0CoJUm6Qyw8W8jud'); }
使用python调用网易云.js完成解密
# 在python中完成网易云音乐的下载 from functools import partial # 锁定参数 import subprocess subprocess.Popen = partial(subprocess.Popen, encoding="utf-8") import execjs import requests url = "https://music.163.com/weapi/song/enhance/player/url/v1?csrf_token=" data = { "csrf_token": "", "encodeType": "aac", "ids": "[1325905146]", "level": "standard" } # 把参数进行加密. 得到密文. 发请求 f = open("网易云(没弄).js", mode="r", encoding="utf-8") js_code = f.read() f.close() js = execjs.compile(js_code) # 加载JS代码 mi = js.call("fn", data) # 运行JS代码 # print(mi) print(type(mi)) resp = requests.post(url, data={ "params": mi['encText'], "encSecKey": mi['encSecKey'] }, headers={ "user-agent": "Mozilla/5.0 (Windows NT 10.0; Win64; x64) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/112.0.0.0 Safari/537.36" }) song_url = resp.json()['data'][0]['url'] # print(song_url) song_resp = requests.get(song_url, headers={ "user-agent": "Mozilla/5.0 (Windows NT 10.0; Win64; x64) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/112.0.0.0 Safari/537.36" }) with open('mymusic.m4a', mode="wb") as f: f.write(song_resp.content)
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