gostDigest.js

/**
 * @file GOST R 34.11-94 / GOST R 34.11-12 implementation
 * @version 1.76
 * @copyright 2014-2016, Rudolf Nickolaev. All rights reserved.
 */

/*
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *     http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 *    
 * Converted to JavaScript from source https://www.streebog.net/
 * Copyright (c) 2013, Alexey Degtyarev.
 * All rights reserved.
 * 
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
 * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
 * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
 * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
 * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
 * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
 * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
 * 
 */

(function (root, factory) {

    /*
     * Module imports and exports
     * 
     */ // <editor-fold defaultstate="collapsed">
    if (typeof define === 'function' && define.amd) {
        define(['gostRandom', 'gostCipher'], factory);
    } else if (typeof exports === 'object') {
        module.exports = factory(require('gostRandom'), require('gostCipher'));
    } else {
        root.GostDigest = factory(root.GostRandom, root.GostCipher);
    }
    // </editor-fold>

}(this, function (GostRandom, GostCipher) {

    /*
     * GOST R 34.11
     * Common methods 
     * 
     */ // <editor-fold defaultstate="collapsed">

    var root = this;
    var rootCrypto = root.crypto || root.msCrypto;

    var DataError = root.DataError || Error,
            NotSupportedError = root.NotSupportedError || Error;

    // Copy len values from s[sOfs] to d[dOfs]
    function arraycopy(s, sOfs, d, dOfs, len) {
        for (var i = 0; i < len; i++)
            d[dOfs + i] = s[sOfs + i];
    }

    // Swap bytes in buffer
    function swap(s) {
        var src = new Uint8Array(s),
                dst = new Uint8Array(src.length);
        for (var i = 0, n = src.length; i < n; i++)
            dst[n - i - 1] = src[i];
        return dst.buffer;
    }

    // Convert BASE64 string to Uint8Array
    // for decompression of constants and precalc values
    function b64decode(s) {
        // s = s.replace(/[^A-Za-z0-9\+\/]/g, '');
        var n = s.length,
                k = n * 3 + 1 >> 2, r = new Uint8Array(k);

        for (var m3, m4, u24 = 0, j = 0, i = 0; i < n; i++) {
            m4 = i & 3;
            var c = s.charCodeAt(i);

            c = c > 64 && c < 91 ?
                    c - 65 : c > 96 && c < 123 ?
                    c - 71 : c > 47 && c < 58 ?
                    c + 4 : c === 43 ?
                    62 : c === 47 ?
                    63 : 0;

            u24 |= c << 18 - 6 * m4;
            if (m4 === 3 || n - i === 1) {
                for (m3 = 0; m3 < 3 && j < k; m3++, j++) {
                    r[j] = u24 >>> (16 >>> m3 & 24) & 255;
                }
                u24 = 0;

            }
        }
        return r.buffer;
    }

    // Random seed
    function getSeed(length) {
        GostRandom = GostRandom || root.GostRandom;
        var randomSource = GostRandom ? new (GostRandom || root.GostRandom) : rootCrypto;
        if (randomSource.getRandomValues) {
            var d = new Uint8Array(Math.ceil(length / 8));
            randomSource.getRandomValues(d);
            return d;
        } else
            throw new NotSupportedError('Random generator not found');
    }

    // Check buffer
    function buffer(d) {
        if (d instanceof ArrayBuffer)
            return d;
        else if (d && d.buffer && d.buffer instanceof ArrayBuffer)
            return d.byteOffset === 0 && d.byteLength === d.buffer.byteLength ?
                    d.buffer : new Uint8Array(new Uint8Array(d, d.byteOffset, d.byteLength)).buffer;
        else
            throw new DataError('ArrayBuffer or ArrayBufferView required');
    } // </editor-fold>

    /**
     * Algorithm name GOST R 34.11 or GOST R 34.11-12<br><br>
     * 
     * http://tools.ietf.org/html/rfc6986
     * 
     * The digest method returns digest data in according to GOST R 4311-2012.<br>
     * Size of digest also defines in algorithm name. 
     *  <ul>
     *      <li>GOST R 34.11-256-12 - 256 bits digest</li>
     *      <li>GOST R 34.11-512-12 - 512 bits digest</li>
     *  </ul>
     *  
     * @memberOf GostDigest
     * @method digest
     * @instance
     * @param {(ArrayBuffer|TypedArray)} data Data
     * @returns {ArrayBuffer} Digest of data
     */
    var digest2012 = (function () // <editor-fold defaultstate="collapsed">
    {
        // Constants 
        var buffer0 = new Int32Array(16); // [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0];  

        var buffer512 = new Int32Array(16); // [512, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]; 
        buffer512[0] = 512;

        // Constant C 
        var C = (function (s) {
            var h = new Int32Array(b64decode(s)),
                    r = new Array(12);
            for (var i = 0; i < 12; i++)
                r[i] = new Int32Array(h.buffer, i * 64, 16);
            return r;
        })(
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        // Precalc Ax 
        var Ax = (function (s) {
            return new Int32Array(b64decode(s));
        })(
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                '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' +
                'sQ3wgn+/lqlqaSea1Pja4eeGidzT1f8ugS4aKx+lU9H7rZDW66DKGBrFQ7I0MQ45FgT33yy5eCemJBxpURifAnU1E8zqr3xeZPKln8hMTvokfSseSJ9fWttk1xirR0xIefSnofInCkAVc9qDKpvrrjSXhnloYhxyUUg40qIwIwTwr2U3/XL2hR0GAj46a0S6Z4WIw85u3XNmqJP3zHCs/9TSTim17anfOFYyFHDqamwHw0GMDlpKgyvLsi9WNbrNBLRs0Ah42QoG7lq4DEQ7DzshH0h2yPnlCVjDiRLu3pjRSznNv4sBWTl7KSBy9Bvgh8BAkxPhaN6tJumIR8qjn04UDIScZ4W71f9VHbfz2FOgykbRXVykDc1gIMeH/jRvhLdtzxXD+1fe/aD8oSHkzkuNe2CWAS09msZCrSmKLGQIddi9EPCvFLNXxup7g3SsTWMh2JpFFjLtqWcJxxmyP/dsJLvzKLwGxmLVJpEsCPI84l7EeJKzZrl4KD9vTzm9wIyPnp1oM/1PORewnnn0N1k94G+ywIwQ1oh4QbHRS9oZsm7uMhOdsLSUh2Z12T4vglk3dxmHwFiQ6ax4PUZhdfGCfgP/bIcJ' +
                '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' +
                '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' +
                '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' +
                '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' +
                '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' +
                '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' +
                '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'); //==

        // Variables
        var sigma, N, h;

        // 64bit tools 
        function get8(x, i) {
            return (x[i >> 2] >> ((i & 3) << 3)) & 0xff;
        }

        // 512bit tools 
        function add512(x, y) {
            var CF = 0, w0, w1;
            for (var i = 0; i < 16; i++) {
                w0 = (x[i] & 0xffff) + (y[i] & 0xffff) + (CF || 0);
                w1 = (x[i] >>> 16) + (y[i] >>> 16) + (w0 >>> 16);
                x[i] = (w0 & 0xffff) | (w1 << 16);
                CF = (w1 >>> 16);
            }
        }

        function get512(d) {
            return new Int32Array(d.buffer, d.byteOffset, 16);
        }


        function copy512(r, d) {
            for (var i = 0; i < 16; i++)
                r[i] = d[i];
        }

        function new512() {
            return new Int32Array(16);
        }

        // Core private algorithms
        function xor512(x, y) {
            for (var i = 0; i < 16; i++)
                x[i] = x[i] ^ y[i];
        }


        var r = new512();
        function XLPS(x, y) {
            copy512(r, x);
            xor512(r, y);
            for (var i = 0; i < 8; i++) {
                var z0, z1, k = get8(r, i) << 1;
                z0 = Ax[k];
                z1 = Ax[k + 1];
                for (var j = 1; j < 8; j++) {
                    k = (j << 9) + (get8(r, (j << 3) + i) << 1);
                    z0 = z0 ^ Ax[k];
                    z1 = z1 ^ Ax[k + 1];
                }
                x[i << 1] = z0;
                x[(i << 1) + 1] = z1;
            }
        }

        var data = new512(), Ki = new512();
        function g(h, N, m)
        {
            var i;

            copy512(data, h);
            XLPS(data, N);

            /* Starting E() */
            copy512(Ki, data);
            XLPS(data, m);

            for (i = 0; i < 11; i++) {
                XLPS(Ki, C[i]);
                XLPS(data, Ki);
            }

            XLPS(Ki, C[11]);
            xor512(data, Ki);
            /* E() done */

            xor512(h, data);
            xor512(h, m);
        }

        // Stages
        function stage2(d) {
            var m = get512(d);
            g(h, N, m);

            add512(N, buffer512);
            add512(sigma, m);
        }

        function stage3(d) {
            var n = d.length;
            if (n > 63)
                return;

            var b0 = new Int32Array(16);
            b0[0] = n << 3;

            var b = new Uint8Array(64);
            for (var i = 0; i < n; i++)
                b[i] = d[i];
            b[n] = 0x01;

            var m = get512(b), m0 = get512(b0);
            g(h, N, m);

            add512(N, m0);
            add512(sigma, m);

            g(h, buffer0, N);
            g(h, buffer0, sigma);
        }

        return function (data) {

            // Cleanup 
            sigma = new512();
            N = new512();

            // Initial vector
            h = new512();
            for (var i = 0; i < 16; i++)
                if (this.bitLength === 256)
                    h[i] = 0x01010101;

            // Make data
            var d = new Uint8Array(buffer(data));

            var n = d.length;
            var r = n % 64, q = (n - r) / 64;

            for (var i = 0; i < q; i++)
                stage2.call(this, new Uint8Array(d.buffer, i * 64, 64));

            stage3.call(this, new Uint8Array(d.buffer, q * 64, r));

            var digest;
            if (this.bitLength === 256) {
                digest = new Int32Array(8);
                for (var i = 0; i < 8; i++)
                    digest[i] = h[8 + i];
            } else {
                digest = new Int32Array(16);
                for (var i = 0; i < 16; i++)
                    digest[i] = h[i];
            }
            // Swap hash for SignalCom
            if (this.procreator === 'SC' || this.procreator === 'VN')
                return swap(digest.buffer);
            else
                return digest.buffer;
        };
    } // </editor-fold>
    )();

    /**
     * Algorithm name GOST R 34.11-94<br><br>
     * 
     * http://tools.ietf.org/html/rfc5831
     * 
     * The digest method returns digest data in according to GOST R 34.11-94.
     * @memberOf GostDigest
     * @method digest
     * @instance
     * @param {(ArrayBuffer|TypedArray)} data Data
     * @returns {ArrayBuffer} Digest of data
     */
    var digest94 = (function () // <editor-fold defaultstate="collapsed">
    {
        var C, H, M, Sum;

        // (i + 1 + 4(k - 1)) = 8i + k      i = 0-3, k = 1-8
        function P(d) {
            var K = new Uint8Array(32);

            for (var k = 0; k < 8; k++) {
                K[4 * k] = d[k];
                K[1 + 4 * k] = d[ 8 + k];
                K[2 + 4 * k] = d[16 + k];
                K[3 + 4 * k] = d[24 + k];
            }

            return K;
        }

        //A (x) = (x0 ^ x1) || x3 || x2 || x1
        function A(d)
        {
            var a = new Uint8Array(8);

            for (var j = 0; j < 8; j++)
            {
                a[j] = (d[j] ^ d[j + 8]);
            }

            arraycopy(d, 8, d, 0, 24);
            arraycopy(a, 0, d, 24, 8);

            return d;
        }

        // (in:) n16||..||n1 ==> (out:) n1^n2^n3^n4^n13^n16||n16||..||n2
        function fw(d) {
            var wS = new Uint16Array(d.buffer, 0, 16);
            var wS15 = wS[0] ^ wS[1] ^ wS[2] ^ wS[3] ^ wS[12] ^ wS[15];
            arraycopy(wS, 1, wS, 0, 15);
            wS[15] = wS15;
        }

        //Encrypt function, ECB mode
        function encrypt(key, s, sOff, d, dOff) {
            var t = new Uint8Array(8);
            arraycopy(d, dOff, t, 0, 8);
            var r = new Uint8Array(this.cipher.encrypt(key, t));
            arraycopy(r, 0, s, sOff, 8);
        }

        // block processing
        function process(d, dOff) {
            var S = new Uint8Array(32), U = new Uint8Array(32),
                    V = new Uint8Array(32), W = new Uint8Array(32);

            arraycopy(d, dOff, M, 0, 32);

            //key step 1

            // H = h3 || h2 || h1 || h0
            // S = s3 || s2 || s1 || s0
            arraycopy(H, 0, U, 0, 32);
            arraycopy(M, 0, V, 0, 32);
            for (var j = 0; j < 32; j++)
            {
                W[j] = (U[j] ^ V[j]);
            }
            // Encrypt GOST 28147-ECB
            encrypt.call(this, P(W), S, 0, H, 0); // s0 = EK0 [h0]

            //keys step 2,3,4
            for (var i = 1; i < 4; i++) {
                var tmpA = A(U);
                for (var j = 0; j < 32; j++) {
                    U[j] = (tmpA[j] ^ C[i][j]);
                }
                V = A(A(V));
                for (var j = 0; j < 32; j++) {
                    W[j] = (U[j] ^ V[j]);
                }
                // Encrypt GOST 28147-ECB
                encrypt.call(this, P(W), S, i * 8, H, i * 8); // si = EKi [hi]
            }

            // x(M, H) = y61(H^y(M^y12(S)))
            for (var n = 0; n < 12; n++) {
                fw(S);
            }
            for (var n = 0; n < 32; n++) {
                S[n] = (S[n] ^ M[n]);
            }

            fw(S);

            for (var n = 0; n < 32; n++) {
                S[n] = (H[n] ^ S[n]);
            }
            for (var n = 0; n < 61; n++) {
                fw(S);
            }
            arraycopy(S, 0, H, 0, H.length);
        }


        //  256 bitsblock modul -> (Sum + a mod (2^256))
        function summing(d)
        {
            var carry = 0;
            for (var i = 0; i < Sum.length; i++)
            {
                var sum = (Sum[i] & 0xff) + (d[i] & 0xff) + carry;

                Sum[i] = sum;

                carry = sum >>> 8;
            }
        }

        // reset the chaining variables to the IV values.
        var C2 = new Uint8Array([
            0x00, 0xFF, 0x00, 0xFF, 0x00, 0xFF, 0x00, 0xFF,
            0xFF, 0x00, 0xFF, 0x00, 0xFF, 0x00, 0xFF, 0x00,
            0x00, 0xFF, 0xFF, 0x00, 0xFF, 0x00, 0x00, 0xFF,
            0xFF, 0x00, 0x00, 0x00, 0xFF, 0xFF, 0x00, 0xFF
        ]);

        return function (data) {

            // Reset buffers
            H = new Uint8Array(32);
            M = new Uint8Array(32);
            Sum = new Uint8Array(32);

            // Reset IV value
            C = new Array(4);
            for (var i = 0; i < 4; i++)
                C[i] = new Uint8Array(32);
            arraycopy(C2, 0, C[2], 0, C2.length);

            // Make data
            var d = new Uint8Array(buffer(data));

            var n = d.length;
            var r = n % 32, q = (n - r) / 32;

            // Proccess full blocks 
            for (var i = 0; i < q; i++) {
                var b = new Uint8Array(d.buffer, i * 32, 32);

                summing.call(this, b); // calc sum M
                process.call(this, b, 0);
            }

            // load d the remadder with padding zero;
            if (r > 0) {
                var b = new Uint8Array(d.buffer, q * 32),
                        c = new Uint8Array(32);
                arraycopy(b, 0, c, 0, r);
                summing.call(this, c); // calc sum M
                process.call(this, c, 0);

            }

            // get length into L (byteCount * 8 = bitCount) in little endian.
            var L = new Uint8Array(32), n8 = n * 8, k = 0;
            while (n8 > 0) {
                L[k++] = n8 & 0xff;
                n8 = Math.floor(n8 / 256);
            }
            process.call(this, L, 0);
            process.call(this, Sum, 0);

            var h = H.buffer;

            // Swap hash for SignalCom
            if (this.procreator === 'SC')
                h = swap(h);

            return h;
        };

    } // </editor-fold>
    )();

    /**
     * Algorithm name SHA-1<br><br>
     * 
     * https://tools.ietf.org/html/rfc3174
     * 
     * The digest method returns digest data in according to SHA-1.<br>
     *  
     * @memberOf GostDigest
     * @method digest
     * @instance
     * @param {(ArrayBuffer|TypedArray)} data Data
     * @returns {ArrayBuffer} Digest of data
     */
    var digestSHA1 = (function () // <editor-fold defaultstate="collapsed">
    {

        // Create a buffer for each 80 word block.
        var state, block = new Uint32Array(80);

        function common(a, e, w, k, f) {
            return (f + e + w + k + ((a << 5) | (a >>> 27))) >>> 0;
        }

        function f1(a, b, c, d, e, w) {
            return common(a, e, w, 0x5A827999, d ^ (b & (c ^ d)));
        }

        function f2(a, b, c, d, e, w) {
            return common(a, e, w, 0x6ED9EBA1, b ^ c ^ d);
        }

        function f3(a, b, c, d, e, w) {
            return common(a, e, w, 0x8F1BBCDC, (b & c) | (d & (b | c)));
        }

        function f4(a, b, c, d, e, w) {
            return common(a, e, w, 0xCA62C1D6, b ^ c ^ d);
        }

        function cycle(state, block) {
            var a = state[0],
                    b = state[1],
                    c = state[2],
                    d = state[3],
                    e = state[4];

            // Partially unroll loops so we don't have to shift variables.
            var fn = f1;
            for (var i = 0; i < 80; i += 5) {
                if (i === 20) {
                    fn = f2;
                }
                else if (i === 40) {
                    fn = f3;
                }
                else if (i === 60) {
                    fn = f4;
                }
                e = fn(a, b, c, d, e, block[i]);
                b = ((b << 30) | (b >>> 2)) >>> 0;
                d = fn(e, a, b, c, d, block[i + 1]);
                a = ((a << 30) | (a >>> 2)) >>> 0;
                c = fn(d, e, a, b, c, block[i + 2]);
                e = ((e << 30) | (e >>> 2)) >>> 0;
                b = fn(c, d, e, a, b, block[i + 3]);
                d = ((d << 30) | (d >>> 2)) >>> 0;
                a = fn(b, c, d, e, a, block[i + 4]);
                c = ((c << 30) | (c >>> 2)) >>> 0;
            }
            state[0] += a;
            state[1] += b;
            state[2] += c;
            state[3] += d;
            state[4] += e;
        }

        // Swap bytes for 32bits word
        function swap32(b) {
            return ((b & 0xff) << 24)
                    | ((b & 0xff00) << 8)
                    | ((b >> 8) & 0xff00)
                    | ((b >> 24) & 0xff);
        }

        // input is a Uint8Array bitstream of the data
        return function (data) {
            var d = new Uint8Array(buffer(data)), dlen = d.length;

            // Pad the input string length.
            var len = dlen + 9;
            if (len % 64) {
                len += 64 - (len % 64);
            }

            state = new Uint32Array(5);
            state[0] = 0x67452301;
            state[1] = 0xefcdab89;
            state[2] = 0x98badcfe;
            state[3] = 0x10325476;
            state[4] = 0xc3d2e1f0;

            for (var ofs = 0; ofs < len; ofs += 64) {

                // Copy input to block and write padding as needed
                for (var i = 0; i < 64; i++) {
                    var b = 0,
                            o = ofs + i;
                    if (o < dlen) {
                        b = d[o];
                    }
                    else if (o === dlen) {
                        b = 0x80;
                    }
                    else {
                        // Write original bit length as a 64bit big-endian integer to the end.
                        var x = len - o - 1;
                        if (x >= 0 && x < 4) {
                            b = (dlen << 3 >>> (x * 8)) & 0xff;
                        }
                    }

                    // Interpret the input bytes as big-endian per the spec
                    if (i % 4 === 0) {
                        block[i >> 2] = b << 24;
                    }
                    else {
                        block[i >> 2] |= b << ((3 - (i % 4)) * 8);
                    }
                }

                // Extend the block
                for (var i = 16; i < 80; i++) {
                    var w = block[i - 3] ^ block[i - 8] ^ block[i - 14] ^ block[i - 16];
                    block[i] = (w << 1) | (w >>> 31);
                }

                cycle(state, block);

            }

            // Swap the bytes around since they are big endian internally
            for (var i = 0; i < 5; i++)
                state[i] = swap32(state[i]);
            return state.buffer;
        };

    } // </editor-fold>
    )();

    /** 
     * Algorithm name GOST R 34.11-HMAC<br><br>
     * 
     * HMAC with the specified hash function.
     * @memberOf GostDigest
     * @method sign
     * @instance
     * @param {ArrayBuffer} key The key for HMAC.
     * @param {Hash} data Data
     */
    function signHMAC(key, data) // <editor-fold defaultstate="collapsed">
    {
        // GOST R 34.11-94 - B=32b, L=32b
        // GOST R 34.11-256 - B=64b, L=32b
        // GOST R 34.11-512 - B=64b, L=64b
        var b = (this.digest === digest94) ? 32 : 64,
                l = this.bitLength / 8,
                k = buffer(key),
                d = buffer(data), k0;
        if (k.byteLength === b)
            k0 = new Uint8Array(k);
        else {
            var k0 = new Uint8Array(b);
            if (k.byteLength > b) {
                k0.set(new Uint8Array(this.digest(k)));
            } else {
                k0.set(new Uint8Array(k));
            }
        }
        var s0 = new Uint8Array(b + d.byteLength),
                s1 = new Uint8Array(b + l);
        for (var i = 0; i < b; i++) {
            s0[i] = k0[i] ^ 0x36;
            s1[i] = k0[i] ^ 0x5C;
        }
        s0.set(new Uint8Array(d), b);
        s1.set(new Uint8Array(this.digest(s0)), b);
        return this.digest(s1);
    } // </editor-fold>

    /**
     * Algorithm name GOST R 34.11-HMAC<br><br>
     * 
     * Verify HMAC based on GOST R 34.11 hash
     * 
     * @memberOf GostDigest
     * @method verify
     * @instance
     * @param {(ArrayBuffer|TypedArray)} key Key which used for HMAC generation
     * @param {(ArrayBuffer|TypedArray)} signature generated HMAC
     * @param {(ArrayBuffer|TypedArray)} data Data
     * @returns {boolean} HMAC verified = true
     */
    function verifyHMAC(key, signature, data) // <editor-fold defaultstate="collapsed">
    {
        var hmac = new Uint8Array(this.sign(key, data)),
                test = new Uint8Array(signature);
        if (hmac.length !== test.length)
            return false;
        for (var i = 0, n = hmac.length; i < n; i++)
            if (hmac[i] !== test[i])
                return false;
        return true;
    } // </editor-fold>


    /**
     * Algorithm name GOST R 34.11-KDF<br><br>
     * 
     * Simple generate key 256/512 bit random seed for derivation algorithms
     * 
     * @memberOf GostDigest
     * @method generateKey
     * @instance
     * @returns {ArrayBuffer} Generated key
     */
    function generateKey() // <editor-fold defaultstate="collapsed">
    {
        return getSeed(this.bitLength).buffer;
    } // </editor-fold>

    /**
     * Algorithm name GOST R 34.11-PFXKDF<br><br>
     * 
     * Derive bits from password (PKCS12 mode)
     *  <ul>
     *      <li>algorithm.salt - random value, salt</li>
     *      <li>algorithm.iterations - number of iterations</li>
     *  </ul>
     * @memberOf GostDigest
     * @method deriveBits
     * @instance
     * @param {ArrayBuffer} baseKey - password after UTF-8 decoding
     * @param {number} length output bit-length
     * @returns {ArrayBuffer} result
     */
    function deriveBitsPFXKDF(baseKey, length) // <editor-fold defaultstate="collapsed">
    {
        if (length % 8 > 0)
            throw new DataError('Length must multiple of 8');
        var u = this.bitLength / 8, v = (this.digest === digest94) ? 32 : 64,
                n = length / 8, r = this.iterations;
        //   1.  Construct a string, D (the "diversifier"), by concatenating v/8
        //       copies of ID.
        var ID = this.diversifier, D = new Uint8Array(v);
        for (var i = 0; i < v; i++)
            D[i] = ID;
        //   2.  Concatenate copies of the salt together to create a string S of
        //       length v(ceiling(s/v)) bits (the final copy of the salt may be
        //       truncated to create S).  Note that if the salt is the empty
        //       string, then so is S.
        var S0 = new Uint8Array(buffer(this.salt)), s = S0.length,
                slen = v * Math.ceil(s / v), S = new Uint8Array(slen);
        for (var i = 0; i < slen; i++)
            S[i] = S0[i % s];
        //   3.  Concatenate copies of the password together to create a string P
        //       of length v(ceiling(p/v)) bits (the final copy of the password
        //       may be truncated to create P).  Note that if the password is the
        //       empty string, then so is P.
        var P0 = new Uint8Array(buffer(baseKey)), p = P0.length,
                plen = v * Math.ceil(p / v), P = new Uint8Array(plen);
        for (var i = 0; i < plen; i++)
            P[i] = P0[i % p];
        //   4.  Set I=S||P to be the concatenation of S and P.
        var I = new Uint8Array(slen + plen);
        arraycopy(S, 0, I, 0, slen);
        arraycopy(P, 0, I, slen, plen);
        //   5.  Set c=ceiling(n/u).
        var c = Math.ceil(n / u);
        //   6.  For i=1, 2, ..., c, do the following:
        var A = new Uint8Array(c * u);
        for (var i = 0; i < c; i++) {
            //  A.  Set A2=H^r(D||I). (i.e., the r-th hash of D||1,
            //      H(H(H(... H(D||I))))
            var H = new Uint8Array(v + slen + plen);
            arraycopy(D, 0, H, 0, v);
            arraycopy(I, 0, H, v, slen + plen);
            for (var j = 0; j < r; j++)
                H = new Uint8Array(this.digest(H));
            arraycopy(H, 0, A, i * u, u);
            //  B.  Concatenate copies of Ai to create a string B of length v
            //      bits (the final copy of Ai may be truncated to create B).
            var B = new Uint8Array(v);
            for (var j = 0; j < v; j++)
                B[j] = H[j % u];
            //  C.  Treating I as a concatenation I_0, I_1, ..., I_(k-1) of v-bit
            //      blocks, where k=ceiling(s/v)+ceiling(p/v), modify I by
            //      setting I_j=(I_j+B+1) mod 2^v for each j.
            var k = (slen + plen) / v;
            for (j = 0; j < k; j++) {
                var cf = 1, w;
                for (var l = v - 1; l >= 0; --l) {
                    w = I[v * j + l] + B[l] + cf;
                    cf = w >>> 8;
                    I[v * j + l] = w & 0xff;
                }
            }
        }
        //   7.  Concatenate A_1, A_2, ..., A_c together to form a pseudorandom
        //       bit string, A.
        //   8.  Use the first n bits of A as the output of this entire process.
        var R = new Uint8Array(n);
        arraycopy(A, 0, R, 0, n);
        return R.buffer;
    } // </editor-fold>

    /**
     * Algorithm name GOST R 34.11-KDF<br><br>
     * 
     * Derive bits for KEK deversification in 34.10-2012 algorithm
     * KDF(KEK, UKM, label) = HMAC256 (KEK,  0x01|label|0x00|UKM|0x01|0x00) 
     * Default label = 0x26|0xBD|0xB8|0x78 
     * 
     * @memberOf GostDigest
     * @method deriveBits
     * @instance
     * @param {(ArrayBuffer|TypedArray)} baseKey base key for deriviation
     * @param {number} length output bit-length 
     * @returns {ArrayBuffer} result
     */
    function deriveBitsKDF(baseKey, length) // <editor-fold defaultstate="collapsed">
    {
        if (length % 8 > 0)
            throw new DataError('Length must be multiple of 8');
        var rlen = length / 8, label, context = new Uint8Array(buffer(this.context)),
                blen = this.bitLength / 8, n = Math.ceil(rlen / blen);
        if (this.label)
            label = new Uint8Array(buffer(this.label));
        else
            label = new Uint8Array([0x26, 0xBD, 0xB8, 0x78]);
        var result = new Uint8Array(rlen);
        for (var i = 0; i < n; i++) {
            var data = new Uint8Array(label.length + context.length + 4);
            data[0] = i + 1;
            data.set(label, 1);
            data[label.length + 1] = 0x00;
            data.set(context, label.length + 2);
            data[data.length - 2] = length >>> 8;
            data[data.length - 1] = length & 0xff;
            result.set(new Uint8Array(signHMAC.call(this, baseKey, data), 0,
                    i < n - 1 ? blen : rlen - i * blen), i * blen);
        }
        return result.buffer;
    } // </editor-fold>

    /**
     * Algorithm name GOST R 34.11-PBKDF1<br><br>
     * 
     * Derive bits from password
     *  <ul>
     *      <li>algorithm.salt - random value, salt</li>
     *      <li>algorithm.iterations - number of iterations</li>
     *  </ul>
     * @memberOf GostDigest
     * @method deriveBits
     * @instance
     * @param {ArrayBuffer} baseKey - password after UTF-8 decoding
     * @param {number} length output bit-length
     * @returns {ArrayBuffer} result
     */
    function deriveBitsPBKDF1(baseKey, length) // <editor-fold defaultstate="collapsed">
    {
        if (length < this.bitLength / 2 || length % 8 > 0)
            throw new DataError('Length must be more than ' + this.bitLength / 2 + ' bits and multiple of 8');
        var hLen = this.bitLength / 8, dkLen = length / 8,
                c = this.iterations,
                P = new Uint8Array(buffer(baseKey)),
                S = new Uint8Array(buffer(this.salt)),
                slen = S.length, plen = P.length,
                T = new Uint8Array(plen + slen),
                DK = new Uint8Array(dkLen);
        if (dkLen > hLen)
            throw new DataError('Invalid parameters: Length value');
        arraycopy(P, 0, T, 0, plen);
        arraycopy(S, 0, T, plen, slen);
        for (var i = 0; i < c; i++)
            T = new Uint8Array(this.digest(T));
        arraycopy(T, 0, DK, 0, dkLen);
        return DK.buffer;
    } // </editor-fold>

    /**
     * Algorithm name GOST R 34.11-PBKDF2<br><br>
     * 
     * Derive bits from password
     *  <ul>
     *      <li>algorithm.salt - random value, salt</li>
     *      <li>algorithm.iterations - number of iterations</li>
     *  </ul>
     * @memberOf GostDigest
     * @method deriveBits
     * @instance
     * @param {ArrayBuffer} baseKey - password after UTF-8 decoding
     * @param {number} length output bit-length
     * @returns {ArrayBuffer} result
     */
    function deriveBitsPBKDF2(baseKey, length) // <editor-fold defaultstate="collapsed">
    {
        var diversifier = this.diversifier || 1; // For PKCS12 MAC required 3*length
        length = length * diversifier;
        if (length < this.bitLength / 2 || length % 8 > 0)
            throw new DataError('Length must be more than ' + this.bitLength / 2 + ' bits and multiple of 8');
        var hLen = this.bitLength / 8, dkLen = length / 8,
                c = this.iterations,
                P = new Uint8Array(buffer(baseKey)),
                S = new Uint8Array(buffer(this.salt));
        var slen = S.byteLength,
                data = new Uint8Array(slen + 4);
        arraycopy(S, 0, data, 0, slen);

        if (dkLen > (0xffffffff - 1) * 32)
            throw new DataError('Invalid parameters: Length value');
        var n = Math.ceil(dkLen / hLen),
                DK = new Uint8Array(dkLen);
        for (var i = 1; i <= n; i++) {
            data[slen] = i >>> 24 & 0xff;
            data[slen + 1] = i >>> 16 & 0xff;
            data[slen + 2] = i >>> 8 & 0xff;
            data[slen + 3] = i & 0xff;

            var U = new Uint8Array(signHMAC.call(this, P, data)), Z = U;
            for (var j = 1; j < c; j++) {
                U = new Uint8Array(signHMAC.call(this, P, U));
                for (var k = 0; k < hLen; k++)
                    Z[k] = U[k] ^ Z[k];
            }
            var ofs = (i - 1) * hLen;
            arraycopy(Z, 0, DK, ofs, Math.min(hLen, dkLen - ofs));
        }
        if (diversifier > 1) {
            var rLen = dkLen / diversifier, R = new Uint8Array(rLen);
            arraycopy(DK, dkLen - rLen, R, 0, rLen);
            return R.buffer;
        } else
            return DK.buffer;
    } // </editor-fold>

    /**
     * Algorithm name GOST R 34.11-CPKDF<br><br>
     * 
     * Derive bits from password. CryptoPro algorithm
     *  <ul>
     *      <li>algorithm.salt - random value, salt</li>
     *      <li>algorithm.iterations - number of iterations</li>
     *  </ul>
     * @memberOf GostDigest
     * @method deriveBits
     * @instance
     * @param {ArrayBuffer} baseKey - password after UTF-8 decoding
     * @param {number} length output bit-length
     * @returns {ArrayBuffer} result
     */
    function deriveBitsCP(baseKey, length) {
        if (length > this.bitLength || length % 8 > 0)
            throw new DataError('Length can\'t be more than ' + this.bitLength + ' bits and multiple of 8');
        // GOST R 34.11-94 - B=32b, L=32b
        // GOST R 34.11-256 - B=64b, L=32b
        // GOST R 34.11-512 - B=64b, L=64b
        var b = (this.digest === digest94) ? 32 : 64,
                l = this.bitLength / 8,
                p = baseKey && baseKey.byteLength > 0 ? new Uint8Array(buffer(baseKey)) : false,
                plen = p ? p.length : 0,
                iterations = this.iterations,
                salt = new Uint8Array(buffer(this.salt)),
                slen = salt.length,
                d = new Uint8Array(slen + plen);
        arraycopy(salt, 0, d, 0, slen);
        if (p)
            arraycopy(p, 0, d, slen, plen);

        var h = new Uint8Array(this.digest(d)),
                k = new Uint8Array(b),
                s0 = new Uint8Array(b),
                s1 = new Uint8Array(b);
        var c = 'DENEFH028.760246785.IUEFHWUIO.EF';
        for (var i = 0; i < c.length; i++)
            k[i] = c.charCodeAt(i);

        d = new Uint8Array(2 * (b + l));
        for (var j = 0; j < iterations; j++) {
            for (var i = 0; i < b; i++) {
                s0[i] = k[i] ^ 0x36;
                s1[i] = k[i] ^ 0x5C;
                k[i] = 0;
            }
            arraycopy(s0, 0, d, 0, b);
            arraycopy(h, 0, d, b, l);
            arraycopy(s1, 0, d, b + l, b);
            arraycopy(h, 0, d, b + l + b, l);
            arraycopy(new Uint8Array(this.digest(d)), 0, k, 0, l);
        }
        for (var i = 0; i < l; i++) {
            s0[i] = k[i] ^ 0x36;
            s1[i] = k[i] ^ 0x5C;
            k[i] = 0;
        }
        d = new Uint8Array(2 * l + slen + plen);
        arraycopy(s0, 0, d, 0, l);
        arraycopy(salt, 0, d, l, slen);
        arraycopy(s1, 0, d, l + slen, l);
        if (p)
            arraycopy(p, 0, d, l + slen + l, plen);
        h = this.digest(this.digest(d));
        if (length === this.bitLength)
            return h;
        else {
            var rlen = length / 8, r = new Uint8Array(rlen);
            arraycopy(h, 0, r, 0, rlen);
            return r.buffer;
        }
    }

    /**
     * Algorithm name GOST R 34.11-KDF or GOST R 34.11-PBKDF2 or other<br><br>
     * 
     * Derive key from derive bits subset
     * 
     * @memberOf GostDigest
     * @method deriveKey
     * @instance
     * @param {ArrayBuffer} baseKey
     * @returns {ArrayBuffer}
     */
    function deriveKey(baseKey) // <editor-fold defaultstate="collapsed">
    {
        return this.deriveBits(baseKey, this.keySize * 8);
    } // </editor-fold>

    /**
     * GOST R 34.11 Algorithm<br><br>
     * 
     * References: {@link http://tools.ietf.org/html/rfc6986} and {@link http://tools.ietf.org/html/rfc5831}<br><br>
     * 
     * Normalized algorithm identifier common parameters:
     * 
     *  <ul>
     *      <li><b>name</b> Algorithm name 'GOST R 34.11'</li>
     *      <li><b>version</b> Algorithm version
     *          <ul>
     *              <li><b>1994</b> old-style 256 bits digest based on GOST 28147-89</li>
     *              <li><b>2012</b> 256 ro 512 bits digest algorithm "Streebog" GOST R 34.11-2012 (default)</li>
     *          </ul>
     *      </li>
     *      <li><b>length</b> Digest length
     *          <ul>
     *              <li><b>256</b> 256 bits digest</li>
     *              <li><b>512</b> 512 bits digest, valid only for algorithm "Streebog"</li>
     *          </ul>
     *      </li>
     *      <li><b>mode</b> Algorithm mode
     *          <ul>
     *              <li><b>HASH</b> simple digest mode (default)</li>
     *              <li><b>HMAC</b> HMAC algorithm based on GOST R 34.11</li>
     *              <li><b>KDF</b> Derive bits for KEK deversification</li>
     *              <li><b>PBKDF2</b> Password based key dirivation algorithms PBKDF2 (based on HMAC)</li>
     *              <li><b>PFXKDF</b> Password based PFX key dirivation algorithms</li>
     *              <li><b>CPKDF</b> CpyptoPro Password based key dirivation algorithms</li>
     *          </ul>
     *      </li>
     *      <li><b>sBox</b> Paramset sBox for GOST 28147-89. Used only if version = 1994</li>
     *  </ul>
     * 
     * Supported algorithms, modes and parameters:
     * 
     *  <ul>
     *      <li>Digest HASH mode (default)</li>
     *      <li>Sign/Verify HMAC modes parameters depends on version and length
     *          <ul>
     *              <li><b>version: 1994</b> HMAC parameters (B = 32, L = 32)</li>
     *              <li><b>version: 2012, length: 256</b> HMAC parameters (B = 64, L = 32)</li>
     *              <li><b>version: 2012, length: 512</b> HMAC parameters  (B = 64, L = 64)</li>
     *          </ul>
     *      </li>
     *      <li>DeriveBits/DeriveKey KDF mode
     *          <ul>
     *              <li><b>context</b> {@link CryptoOperationData} Context of the key derivation</li>
     *              <li><b>label</b> {@link CryptoOperationData} Label that identifies the purpose for the derived keying material</li>
     *          </ul>
     *      </li>
     *      <li>DeriveBits/DeriveKey PBKDF2 mode
     *          <ul>
     *              <li><b>salt</b> {@link CryptoOperationData} Random salt as input for HMAC algorithm</li>
     *              <li><b>iterations</b> Iteration count. GOST recomended value 1000 (default) or 2000</li>
     *              <li><b>diversifier</b> Deversifier, ID=1 - key material for performing encryption or decryption, ID=3 - integrity key for MACing</li>
     *          </ul>
     *      </li>
     *      <li>DeriveBits/DeriveKey PFXKDF mode
     *          <ul>
     *              <li><b>salt</b> {@link CryptoOperationData} Random salt as input for HMAC algorithm</li>
     *              <li><b>iterations</b> Iteration count. GOST recomended value 1000 (default) or 2000</li>
     *              <li><b>diversifier</b> Deversifier, ID=1 - key material for performing encryption or decryption, 
     *              ID=2 - IV (Initial Value) for encryption or decryption, ID=3 - integrity key for MACing</li>
     *          </ul>
     *      </li>
     *      <li>DeriveBits/DeriveKey CPKDF mode
     *          <ul>
     *              <li><b>salt</b> {@link CryptoOperationData} Random salt as input for HMAC algorithm</li>
     *              <li><b>iterations</b> Iteration count. GOST recomended value 1000 (default) or 2000</li>
     *          </ul>
     *      </li>
     *  </ul>
     * 
     * @class GostDigest
     * @param {AlgorithmIdentifier} algorithm WebCryptoAPI algorithm identifier
     */
    function GostDigest(algorithm) // <editor-fold defaultstate="collapsed">
    {

        algorithm = algorithm || {};

        this.name = (algorithm.name || 'GOST R 34.10') + '-' + ((algorithm.version || 2012) % 100) +
                ((algorithm.version || 2012) > 1 ? '-' + (algorithm.length || 256) : '') +
                (((algorithm.mode || 'HASH') !== 'HASH') ? '-' + algorithm.mode : '') +
                (algorithm.procreator ? '/' + algorithm.procreator : '') +
                (typeof algorithm.sBox === 'string' ? '/' + algorithm.sBox : '');

        // Algorithm procreator
        this.procreator = algorithm.procreator;

        // Bit length
        this.bitLength = algorithm.length || 256;

        switch (algorithm.version || 2012) {
            case 1: // SHA-1
                this.digest = digestSHA1;
                this.bitLength = 160;
                break;
            case 1994:
                this.digest = digest94;
                // Define chiper algorithm
                this.sBox = (algorithm.sBox || (algorithm.procreator === 'SC' ? 'D-SC' : 'D-A')).toUpperCase();

                if (!GostCipher)
                    GostCipher = root.GostCipher;
                if (!GostCipher)
                    throw new NotSupportedError('Object GostCipher not found');

                this.cipher = new GostCipher({
                    name: 'GOST 28147',
                    block: 'ECB',
                    sBox: this.sBox,
                    procreator: this.procreator
                });

                break;
            case 2012:
                this.digest = digest2012;
                break;
            default:
                throw new NotSupportedError('Algorithm version ' + algorithm.version + ' not supported');
        }

        // Key size
        this.keySize = algorithm.keySize || (algorithm.version <= 2 ? this.bitLength / 8 : 32);

        switch (algorithm.mode || 'HASH') {
            case 'HASH':
                break;
            case 'HMAC':
                this.sign = signHMAC;
                this.verify = verifyHMAC;
                this.generateKey = generateKey;
                break;
            case 'KDF':
                this.deriveKey = deriveKey;
                this.deriveBits = deriveBitsKDF;
                this.label = algorithm.label;
                this.context = algorithm.context;
                break;
            case 'PBKDF2':
                this.deriveKey = deriveKey;
                this.deriveBits = deriveBitsPBKDF2;
                this.generateKey = generateKey;
                this.salt = algorithm.salt;
                this.iterations = algorithm.iterations || 2000;
                this.diversifier = algorithm.diversifier || 1;
                break;
            case 'PFXKDF':
                this.deriveKey = deriveKey;
                this.deriveBits = deriveBitsPFXKDF;
                this.generateKey = generateKey;
                this.salt = algorithm.salt;
                this.iterations = algorithm.iterations || 2000;
                this.diversifier = algorithm.diversifier || 1;
                break;
            case 'CPKDF':
                this.deriveKey = deriveKey;
                this.deriveBits = deriveBitsCP;
                this.generateKey = generateKey;
                this.salt = algorithm.salt;
                this.iterations = algorithm.iterations || 2000;
                break;
            default:
                throw new NotSupportedError('Algorithm mode ' + algorithm.mode + ' not supported');
        }
    } // </editor-fold>

    return GostDigest;

}));