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某房天下js逆向,这个简单,练手★

某房天下js逆向,这个简单,练手★

作者: 八月欢喜 | 来源:发表于2021-10-12 17:26 被阅读0次

    前言

    网址:
    aHR0cHM6Ly9wYXNzcG9ydC5mYW5nLmNvbS8=
    端口:
    aHR0cHM6Ly9wYXNzcG9ydC5mYW5nLmNvbS9sb2dpbi5hcGkK

    加密位置:
    登录端口的密码加密


    image.png

    第一步、全局搜索参数

    image.png

    点进去查看

    打断点,重新看js

    that.password.val() 是咱们的密码
    key_to_encode 是一个方法函数


    image.png

    跳转进方法看看


    image.png
    找到了加密方法,扣呗

    扣js

    key_to_encode
    全局搜索一下会发现、


    image.png

    这不就会了,RSA加密要么自己写,要么扣js

    成品

    扣的就是这样,js巨多

    function setMaxDigits(n) {
        maxDigits = n;
        ZERO_ARRAY = new Array(maxDigits);
        for (var t = 0; t < ZERO_ARRAY.length; t++)
            ZERO_ARRAY[t] = 0;
        bigZero = new BigInt;
        bigOne = new BigInt;
        bigOne.digits[0] = 1
    }
    function BigInt(n) {
        this.digits = typeof n == "boolean" && n == !0 ? null : ZERO_ARRAY.slice(0);
        this.isNeg = !1
    }
    function biFromDecimal(n) {
        for (var u = n.charAt(0) == "-", t = u ? 1 : 0, i, f, r; t < n.length && n.charAt(t) == "0"; )
            ++t;
        if (t == n.length)
            i = new BigInt;
        else {
            for (f = n.length - t,
            r = f % dpl10,
            r == 0 && (r = dpl10),
            i = biFromNumber(Number(n.substr(t, r))),
            t += r; t < n.length; )
                i = biAdd(biMultiply(i, lr10), biFromNumber(Number(n.substr(t, dpl10)))),
                t += dpl10;
            i.isNeg = u
        }
        return i
    }
    function biCopy(n) {
        var t = new BigInt(!0);
        return t.digits = n.digits.slice(0),
        t.isNeg = n.isNeg,
        t
    }
    function biFromNumber(n) {
        var t = new BigInt, i;
        for (t.isNeg = n < 0,
        n = Math.abs(n),
        i = 0; n > 0; )
            t.digits[i++] = n & maxDigitVal,
            n = Math.floor(n / biRadix);
        return t
    }
    function reverseStr(n) {
        for (var i = "", t = n.length - 1; t > -1; --t)
            i += n.charAt(t);
        return i
    }
    function biToString(n, t) {
        var r = new BigInt, i, u;
        for (r.digits[0] = t,
        i = biDivideModulo(n, r),
        u = hexatrigesimalToChar[i[1].digits[0]]; biCompare(i[0], bigZero) == 1; )
            i = biDivideModulo(i[0], r),
            digit = i[1].digits[0],
            u += hexatrigesimalToChar[i[1].digits[0]];
        return (n.isNeg ? "-" : "") + reverseStr(u)
    }
    function biToDecimal(n) {
        var i = new BigInt, t, r;
        for (i.digits[0] = 10,
        t = biDivideModulo(n, i),
        r = String(t[1].digits[0]); biCompare(t[0], bigZero) == 1; )
            t = biDivideModulo(t[0], i),
            r += String(t[1].digits[0]);
        return (n.isNeg ? "-" : "") + reverseStr(r)
    }
    function digitToHex(n) {
        var t = "";
        for (i = 0; i < 4; ++i)
            t += hexToChar[n & 15],
            n >>>= 4;
        return reverseStr(t)
    }
    function biToHex(n) {
        for (var i = "", r = biHighIndex(n), t = biHighIndex(n); t > -1; --t)
            i += digitToHex(n.digits[t]);
        return i
    }
    function charToHex(n) {
        var t = 48
          , u = t + 9
          , i = 97
          , f = i + 25
          , r = 65;
        return n >= t && n <= u ? n - t : n >= r && n <= 90 ? 10 + n - r : n >= i && n <= f ? 10 + n - i : 0
    }
    function hexToDigit(n) {
        for (var t = 0, r = Math.min(n.length, 4), i = 0; i < r; ++i)
            t <<= 4,
            t |= charToHex(n.charCodeAt(i));
        return t
    }
    function biFromHex(n) {
        for (var i = new BigInt, u = n.length, t = u, r = 0; t > 0; t -= 4,
        ++r)
            i.digits[r] = hexToDigit(n.substr(Math.max(t - 4, 0), Math.min(t, 4)));
        return i
    }
    function biFromString(n, t) {
        var f = n.charAt(0) == "-", e = f ? 1 : 0, i = new BigInt, r = new BigInt, u;
        for (r.digits[0] = 1,
        u = n.length - 1; u >= e; u--) {
            var o = n.charCodeAt(u)
              , s = charToHex(o)
              , h = biMultiplyDigit(r, s);
            i = biAdd(i, h);
            r = biMultiplyDigit(r, t)
        }
        return i.isNeg = f,
        i
    }
    function biDump(n) {
        return (n.isNeg ? "-" : "") + n.digits.join(" ")
    }
    function biAdd(n, t) {
        var r, u, f, i;
        if (n.isNeg != t.isNeg)
            t.isNeg = !t.isNeg,
            r = biSubtract(n, t),
            t.isNeg = !t.isNeg;
        else {
            for (r = new BigInt,
            u = 0,
            i = 0; i < n.digits.length; ++i)
                f = n.digits[i] + t.digits[i] + u,
                r.digits[i] = f % biRadix,
                u = Number(f >= biRadix);
            r.isNeg = n.isNeg
        }
        return r
    }
    function biSubtract(n, t) {
        var r, f, u, i;
        if (n.isNeg != t.isNeg)
            t.isNeg = !t.isNeg,
            r = biAdd(n, t),
            t.isNeg = !t.isNeg;
        else {
            for (r = new BigInt,
            u = 0,
            i = 0; i < n.digits.length; ++i)
                f = n.digits[i] - t.digits[i] + u,
                r.digits[i] = f % biRadix,
                r.digits[i] < 0 && (r.digits[i] += biRadix),
                u = 0 - Number(f < 0);
            if (u == -1) {
                for (u = 0,
                i = 0; i < n.digits.length; ++i)
                    f = 0 - r.digits[i] + u,
                    r.digits[i] = f % biRadix,
                    r.digits[i] < 0 && (r.digits[i] += biRadix),
                    u = 0 - Number(f < 0);
                r.isNeg = !n.isNeg
            } else
                r.isNeg = n.isNeg
        }
        return r
    }
    function biHighIndex(n) {
        for (var t = n.digits.length - 1; t > 0 && n.digits[t] == 0; )
            --t;
        return t
    }
    function biNumBits(n) {
        for (var i = biHighIndex(n), r = n.digits[i], u = (i + 1) * bitsPerDigit, t = u; t > u - bitsPerDigit; --t) {
            if ((r & 32768) != 0)
                break;
            r <<= 1
        }
        return t
    }
    function biMultiply(n, t) {
        for (var i = new BigInt, u, o = biHighIndex(n), s = biHighIndex(t), e, f, r = 0; r <= s; ++r) {
            for (u = 0,
            f = r,
            j = 0; j <= o; ++j,
            ++f)
                e = i.digits[f] + n.digits[j] * t.digits[r] + u,
                i.digits[f] = e & maxDigitVal,
                u = e >>> biRadixBits;
            i.digits[r + o + 1] = u
        }
        return i.isNeg = n.isNeg != t.isNeg,
        i
    }
    function biMultiplyDigit(n, t) {
        var u, r, f, i;
        for (result = new BigInt,
        u = biHighIndex(n),
        r = 0,
        i = 0; i <= u; ++i)
            f = result.digits[i] + n.digits[i] * t + r,
            result.digits[i] = f & maxDigitVal,
            r = f >>> biRadixBits;
        return result.digits[1 + u] = r,
        result
    }
    function arrayCopy(n, t, i, r, u) {
        for (var o = Math.min(t + u, n.length), f = t, e = r; f < o; ++f,
        ++e)
            i[e] = n[f]
    }
    function biShiftLeft(n, t) {
        var e = Math.floor(t / bitsPerDigit), i = new BigInt, u, o, r, f;
        for (arrayCopy(n.digits, 0, i.digits, e, i.digits.length - e),
        u = t % bitsPerDigit,
        o = bitsPerDigit - u,
        r = i.digits.length - 1,
        f = r - 1; r > 0; --r,
        --f)
            i.digits[r] = i.digits[r] << u & maxDigitVal | (i.digits[f] & highBitMasks[u]) >>> o;
        return i.digits[0] = i.digits[r] << u & maxDigitVal,
        i.isNeg = n.isNeg,
        i
    }
    function biShiftRight(n, t) {
        var e = Math.floor(t / bitsPerDigit), i = new BigInt, u, o, r, f;
        for (arrayCopy(n.digits, e, i.digits, 0, n.digits.length - e),
        u = t % bitsPerDigit,
        o = bitsPerDigit - u,
        r = 0,
        f = r + 1; r < i.digits.length - 1; ++r,
        ++f)
            i.digits[r] = i.digits[r] >>> u | (i.digits[f] & lowBitMasks[u]) << o;
        return i.digits[i.digits.length - 1] >>>= u,
        i.isNeg = n.isNeg,
        i
    }
    function biMultiplyByRadixPower(n, t) {
        var i = new BigInt;
        return arrayCopy(n.digits, 0, i.digits, t, i.digits.length - t),
        i
    }
    function biDivideByRadixPower(n, t) {
        var i = new BigInt;
        return arrayCopy(n.digits, t, i.digits, 0, i.digits.length - t),
        i
    }
    function biModuloByRadixPower(n, t) {
        var i = new BigInt;
        return arrayCopy(n.digits, 0, i.digits, 0, t),
        i
    }
    function biCompare(n, t) {
        if (n.isNeg != t.isNeg)
            return 1 - 2 * Number(n.isNeg);
        for (var i = n.digits.length - 1; i >= 0; --i)
            if (n.digits[i] != t.digits[i])
                return n.isNeg ? 1 - 2 * Number(n.digits[i] > t.digits[i]) : 1 - 2 * Number(n.digits[i] < t.digits[i]);
        return 0
    }
    function biDivideModulo(n, t) {
        var a = biNumBits(n), s = biNumBits(t), v = t.isNeg, r, i, u, e, h, o, f, y, p;
        if (a < s)
            return n.isNeg ? (r = biCopy(bigOne),
            r.isNeg = !t.isNeg,
            n.isNeg = !1,
            t.isNeg = !1,
            i = biSubtract(t, n),
            n.isNeg = !0,
            t.isNeg = v) : (r = new BigInt,
            i = biCopy(n)),
            [r, i];
        for (r = new BigInt,
        i = n,
        u = Math.ceil(s / bitsPerDigit) - 1,
        e = 0; t.digits[u] < biHalfRadix; )
            t = biShiftLeft(t, 1),
            ++e,
            ++s,
            u = Math.ceil(s / bitsPerDigit) - 1;
        for (i = biShiftLeft(i, e),
        a += e,
        h = Math.ceil(a / bitsPerDigit) - 1,
        o = biMultiplyByRadixPower(t, h - u); biCompare(i, o) != -1; )
            ++r.digits[h - u],
            i = biSubtract(i, o);
        for (f = h; f > u; --f) {
            var c = f >= i.digits.length ? 0 : i.digits[f]
              , w = f - 1 >= i.digits.length ? 0 : i.digits[f - 1]
              , b = f - 2 >= i.digits.length ? 0 : i.digits[f - 2]
              , l = u >= t.digits.length ? 0 : t.digits[u]
              , k = u - 1 >= t.digits.length ? 0 : t.digits[u - 1];
            for (r.digits[f - u - 1] = c == l ? maxDigitVal : Math.floor((c * biRadix + w) / l),
            y = r.digits[f - u - 1] * (l * biRadix + k),
            p = c * biRadixSquared + (w * biRadix + b); y > p; )
                --r.digits[f - u - 1],
                y = r.digits[f - u - 1] * (l * biRadix | k),
                p = c * biRadix * biRadix + (w * biRadix + b);
            o = biMultiplyByRadixPower(t, f - u - 1);
            i = biSubtract(i, biMultiplyDigit(o, r.digits[f - u - 1]));
            i.isNeg && (i = biAdd(i, o),
            --r.digits[f - u - 1])
        }
        return i = biShiftRight(i, e),
        r.isNeg = n.isNeg != v,
        n.isNeg && (r = v ? biAdd(r, bigOne) : biSubtract(r, bigOne),
        t = biShiftRight(t, e),
        i = biSubtract(t, i)),
        i.digits[0] == 0 && biHighIndex(i) == 0 && (i.isNeg = !1),
        [r, i]
    }
    function biDivide(n, t) {
        return biDivideModulo(n, t)[0]
    }
    function biModulo(n, t) {
        return biDivideModulo(n, t)[1]
    }
    function biMultiplyMod(n, t, i) {
        return biModulo(biMultiply(n, t), i)
    }
    function biPow(n, t) {
        for (var r = bigOne, i = n; ; ) {
            if ((t & 1) != 0 && (r = biMultiply(r, i)),
            t >>= 1,
            t == 0)
                break;
            i = biMultiply(i, i)
        }
        return r
    }
    function biPowMod(n, t, i) {
        for (var f = bigOne, u = n, r = t; ; ) {
            if ((r.digits[0] & 1) != 0 && (f = biMultiplyMod(f, u, i)),
            r = biShiftRight(r, 1),
            r.digits[0] == 0 && biHighIndex(r) == 0)
                break;
            u = biMultiplyMod(u, u, i)
        }
        return f
    }
    function BarrettMu(n) {
        this.modulus = biCopy(n);
        this.k = biHighIndex(this.modulus) + 1;
        var t = new BigInt;
        t.digits[2 * this.k] = 1;
        this.mu = biDivide(t, 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 BarrettMu_modulo(n) {
        var r = biDivideByRadixPower(n, this.k - 1), u = biMultiply(r, this.mu), f = biDivideByRadixPower(u, this.k + 1), e = biModuloByRadixPower(n, this.k + 1), o = biMultiply(f, this.modulus), s = biModuloByRadixPower(o, this.k + 1), t = biSubtract(e, s), i;
        for (t.isNeg && (t = biAdd(t, this.bkplus1)),
        i = biCompare(t, this.modulus) >= 0; i; )
            t = biSubtract(t, this.modulus),
            i = biCompare(t, this.modulus) >= 0;
        return t
    }
    function BarrettMu_multiplyMod(n, t) {
        var i = biMultiply(n, t);
        return this.modulo(i)
    }
    function BarrettMu_powMod(n, t) {
        var u = new BigInt, r, i;
        for (u.digits[0] = 1,
        r = n,
        i = t; ; ) {
            if ((i.digits[0] & 1) != 0 && (u = this.multiplyMod(u, r)),
            i = biShiftRight(i, 1),
            i.digits[0] == 0 && biHighIndex(i) == 0)
                break;
            r = this.multiplyMod(r, r)
        }
        return u
    }
    function RSAKeyPair(n, t, i) {
        this.e = biFromHex(n);
        this.d = biFromHex(t);
        this.m = biFromHex(i);
        this.digitSize = 2 * biHighIndex(this.m) + 2;
        this.chunkSize = this.digitSize - 11;
        this.radix = 16;
        this.barrett = new BarrettMu(this.m)
    }
    function twoDigit(n) {
        return (n < 10 ? "0" : "") + String(n)
    }
    function encryptedString(n, t) {
        var e, o, s, h, c, i, f, u, v, l, y;
        if (n.chunkSize > n.digitSize - 11)
            return "Error";
        for (var a = [], p = t.length, r = 0; r < p; )
            a[r] = t.charCodeAt(r),
            r++;
        for (e = a.length,
        o = "",
        r = 0; r < e; r += n.chunkSize) {
            for (c = new BigInt,
            s = 0,
            f = r + n.chunkSize > e ? e % n.chunkSize : n.chunkSize,
            u = [],
            i = 0; i < f; i++)
                u[i] = a[r + f - 1 - i];
            for (u[f] = 0,
            v = Math.max(8, n.digitSize - 3 - f),
            i = 0; i < v; i++)
                u[f + 1 + i] = Math.floor(Math.random() * 254) + 1;
            for (u[n.digitSize - 2] = 2,
            u[n.digitSize - 1] = 0,
            h = 0; h < n.digitSize; ++s)
                c.digits[s] = u[h++],
                c.digits[s] += u[h++] << 8;
            l = n.barrett.powMod(c, n.e);
            y = n.radix == 16 ? biToHex(l) : biToString(l, n.radix);
            o += y + " "
        }
        return o.substring(0, o.length - 1)
    }
    function decryptedString(n, t) {
        for (var e = t.split(" "), i = "", r, u, o, f = 0; f < e.length; ++f)
            for (o = n.radix == 16 ? biFromHex(e[f]) : biFromString(e[f], n.radix),
            u = n.barrett.powMod(o, n.d),
            r = 0; r <= biHighIndex(u); ++r)
                i += String.fromCharCode(u.digits[r] & 255, u.digits[r] >> 8);
        return i.charCodeAt(i.length - 1) == 0 && (i = i.substring(0, i.length - 1)),
        i
    }
    var biRadixBase = 2, biRadixBits = 16, bitsPerDigit = biRadixBits, biRadix = 65536, biHalfRadix = biRadix >>> 1, biRadixSquared = biRadix * biRadix, maxDigitVal = biRadix - 1, maxInteger = 9999999999999998, maxDigits, ZERO_ARRAY, bigZero, bigOne, dpl10, lr10, hexatrigesimalToChar, hexToChar, highBitMasks, lowBitMasks;
    setMaxDigits(20);
    dpl10 = 15;
    lr10 = biFromNumber(1e15);
    hexatrigesimalToChar = ["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 = ["0", "1", "2", "3", "4", "5", "6", "7", "8", "9", "a", "b", "c", "d", "e", "f"];
    highBitMasks = [0, 32768, 49152, 57344, 61440, 63488, 64512, 65024, 65280, 65408, 65472, 65504, 65520, 65528, 65532, 65534, 65535];
    lowBitMasks = [0, 1, 3, 7, 15, 31, 63, 127, 255, 511, 1023, 2047, 4095, 8191, 16383, 32767, 65535];
    setMaxDigits(129);
    
    function encryptedString(n, t) {
        var e, o, s, h, c, i, f, u, v, l, y;
        if (n.chunkSize > n.digitSize - 11)
            return "Error";
        for (var a = [], p = t.length, r = 0; r < p; )
            a[r] = t.charCodeAt(r),
            r++;
        for (e = a.length,
        o = "",
        r = 0; r < e; r += n.chunkSize) {
            for (c = new BigInt,
            s = 0,
            f = r + n.chunkSize > e ? e % n.chunkSize : n.chunkSize,
            u = [],
            i = 0; i < f; i++)
                u[i] = a[r + f - 1 - i];
            for (u[f] = 0,
            v = Math.max(8, n.digitSize - 3 - f),
            i = 0; i < v; i++)
                u[f + 1 + i] = Math.floor(Math.random() * 254) + 1;
            for (u[n.digitSize - 2] = 2,
            u[n.digitSize - 1] = 0,
            h = 0; h < n.digitSize; ++s)
                c.digits[s] = u[h++],
                c.digits[s] += u[h++] << 8;
            l = n.barrett.powMod(c, n.e);
            y = n.radix == 16 ? biToHex(l) : biToString(l, n.radix);
            o += y + " "
        }
        return o.substring(0, o.length - 1)
    }
    var key_to_encode = new RSAKeyPair("010001", "", "978C0A92D2173439707498F0944AA476B1B62595877DD6FA87F6E2AC6DCB3D0BF0B82857439C99B5091192BC134889DFF60C562EC54EFBA4FF2F9D55ADBCCEA4A2FBA80CB398ED501280A007C83AF30C3D1A142D6133C63012B90AB26AC60C898FB66EDC3192C3EC4FF66925A64003B72496099F4F09A9FB72A2CF9E4D770C41");
    
    console.log(encryptedString(key_to_encode, "123456"))
    

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