zig/std/crypto/sha3.zig

const mem = @import("../mem.zig");
const math = @import("../math/index.zig");
const endian = @import("../endian.zig");
const debug = @import("../debug/index.zig");
const builtin = @import("builtin");
const htest = @import("test.zig");

pub const Sha3_224 = Keccak(224, 0x06);
pub const Sha3_256 = Keccak(256, 0x06);
pub const Sha3_384 = Keccak(384, 0x06);
pub const Sha3_512 = Keccak(512, 0x06);

fn Keccak(comptime bits: usize, comptime delim: u8) type { return struct {
    const Self = this;
    const block_size = 200;
    const digest_size = bits / 8;

    s: [200]u8,
    offset: usize,
    rate: usize,

    pub fn init() Self {
        var d: Self = undefined;
        d.reset();
        return d;
    }

    pub fn reset(d: &Self) void {
        mem.set(u8, d.s[0..], 0);
        d.offset = 0;
        d.rate = 200 - (bits / 4);
    }

    pub fn hash(b: []const u8, out: []u8) void {
        var d = Self.init();
        d.update(b);
        d.final(out);
    }

    pub fn update(d: &Self, b: []const u8) void {
        var ip: usize = 0;
        var len = b.len;
        var rate = d.rate - d.offset;
        var offset = d.offset;

        // absorb
        while (len >= rate) {
            for (d.s[offset .. offset + rate]) |*r, i|
                *r ^= b[ip..][i];

            keccak_f(1600, d.s[0..]);

            ip += rate;
            len -= rate;
            rate = d.rate;
            offset = 0;
        }

        for (d.s[offset .. offset + len]) |*r, i|
            *r ^= b[ip..][i];

        d.offset = offset + len;
    }

    pub fn final(d: &Self, out: []u8) void {
        // padding
        d.s[d.offset] ^= delim;
        d.s[d.rate - 1] ^= 0x80;

        keccak_f(1600, d.s[0..]);

        // squeeze
        var op: usize = 0;
        var len: usize = bits / 8;

        while (len >= d.rate) {
            mem.copy(u8, out[op..], d.s[0..d.rate]);
            keccak_f(1600, d.s[0..]);
            op += d.rate;
            len -= d.rate;
        }

        mem.copy(u8, out[op..], d.s[0..len]);
    }
};}

const RC = []const u64 {
    0x0000000000000001, 0x0000000000008082, 0x800000000000808a, 0x8000000080008000,
    0x000000000000808b, 0x0000000080000001, 0x8000000080008081, 0x8000000000008009,
    0x000000000000008a, 0x0000000000000088, 0x0000000080008009, 0x000000008000000a,
    0x000000008000808b, 0x800000000000008b, 0x8000000000008089, 0x8000000000008003,
    0x8000000000008002, 0x8000000000000080, 0x000000000000800a, 0x800000008000000a,
    0x8000000080008081, 0x8000000000008080, 0x0000000080000001, 0x8000000080008008,
};

const ROTC = []const usize {
    1, 3, 6, 10, 15, 21, 28, 36,
    45, 55, 2, 14, 27, 41, 56, 8,
    25, 43, 62, 18, 39, 61, 20, 44
};

const PIL = []const usize {
    10, 7, 11, 17, 18, 3, 5, 16,
    8, 21, 24, 4, 15, 23, 19, 13,
    12, 2, 20, 14, 22, 9, 6, 1
};

const M5 = []const usize {
    0, 1, 2, 3, 4, 0, 1, 2, 3, 4
};

fn keccak_f(comptime F: usize, d: []u8) void {
    debug.assert(d.len == F / 8);

    const B = F / 25;
    const no_rounds = comptime x: { break :x 12 + 2 * math.log2(B); };

    var s = []const u64 {0} ** 25;
    var t = []const u64 {0} ** 1;
    var c = []const u64 {0} ** 5;

    for (s) |*r, i| {
        *r = mem.readIntLE(u64, d[8*i .. 8*i + 8]);
    }

    var x: usize = 0;
    var y: usize = 0;
    // TODO: Cannot unroll all loops here due to comptime differences.
    inline for (RC[0..no_rounds]) |round| {
        // theta
        x = 0; while (x < 5) : (x += 1) {
            c[x] = s[x] ^ s[x+5] ^ s[x+10] ^ s[x+15] ^ s[x+20];
        }
        x = 0; while (x < 5) : (x += 1) {
            t[0] = c[M5[x+4]] ^ math.rotl(u64, c[M5[x+1]], usize(1));
            y = 0; while (y < 5) : (y += 1) {
                s[x + y*5] ^= t[0];
            }
        }

        // rho+pi
        t[0] = s[1];
        x = 0; while (x < 24) : (x += 1) {
            c[0] = s[PIL[x]];
            s[PIL[x]] = math.rotl(u64, t[0], ROTC[x]);
            t[0] = c[0];
        }

        // chi
        y = 0; while (y < 5) : (y += 1) {
            x = 0; while (x < 5) : (x += 1) {
                c[x] = s[x + y*5];
            }
            x = 0; while (x < 5) : (x += 1) {
                s[x + y*5] = c[x] ^ (~c[M5[x+1]] & c[M5[x+2]]);
            }
        }

        // iota
        s[0] ^= round;
    }

    for (s) |r, i| {
        mem.writeInt(d[8*i .. 8*i + 8], r, builtin.Endian.Little);
    }
}


test "sha3-224 single" {
    htest.assertEqualHash(Sha3_224, "6b4e03423667dbb73b6e15454f0eb1abd4597f9a1b078e3f5b5a6bc7", "");
    htest.assertEqualHash(Sha3_224, "e642824c3f8cf24ad09234ee7d3c766fc9a3a5168d0c94ad73b46fdf", "abc");
    htest.assertEqualHash(Sha3_224, "543e6868e1666c1a643630df77367ae5a62a85070a51c14cbf665cbc", "abcdefghbcdefghicdefghijdefghijkefghijklfghijklmghijklmnhijklmnoijklmnopjklmnopqklmnopqrlmnopqrsmnopqrstnopqrstu");
}

test "sha3-224 streaming" {
    var h = Sha3_224.init();
    var out: [28]u8 = undefined;

    h.final(out[0..]);
    htest.assertEqual("6b4e03423667dbb73b6e15454f0eb1abd4597f9a1b078e3f5b5a6bc7", out[0..]);

    h.reset();
    h.update("abc");
    h.final(out[0..]);
    htest.assertEqual("e642824c3f8cf24ad09234ee7d3c766fc9a3a5168d0c94ad73b46fdf", out[0..]);

    h.reset();
    h.update("a");
    h.update("b");
    h.update("c");
    h.final(out[0..]);
    htest.assertEqual("e642824c3f8cf24ad09234ee7d3c766fc9a3a5168d0c94ad73b46fdf", out[0..]);
}

test "sha3-256 single" {
    htest.assertEqualHash(Sha3_256, "a7ffc6f8bf1ed76651c14756a061d662f580ff4de43b49fa82d80a4b80f8434a" , "");
    htest.assertEqualHash(Sha3_256, "3a985da74fe225b2045c172d6bd390bd855f086e3e9d525b46bfe24511431532", "abc");
    htest.assertEqualHash(Sha3_256, "916f6061fe879741ca6469b43971dfdb28b1a32dc36cb3254e812be27aad1d18", "abcdefghbcdefghicdefghijdefghijkefghijklfghijklmghijklmnhijklmnoijklmnopjklmnopqklmnopqrlmnopqrsmnopqrstnopqrstu");
}

test "sha3-256 streaming" {
    var h = Sha3_256.init();
    var out: [32]u8 = undefined;

    h.final(out[0..]);
    htest.assertEqual("a7ffc6f8bf1ed76651c14756a061d662f580ff4de43b49fa82d80a4b80f8434a", out[0..]);

    h.reset();
    h.update("abc");
    h.final(out[0..]);
    htest.assertEqual("3a985da74fe225b2045c172d6bd390bd855f086e3e9d525b46bfe24511431532", out[0..]);

    h.reset();
    h.update("a");
    h.update("b");
    h.update("c");
    h.final(out[0..]);
    htest.assertEqual("3a985da74fe225b2045c172d6bd390bd855f086e3e9d525b46bfe24511431532", out[0..]);
}

test "sha3-384 single" {
    const h1 = "0c63a75b845e4f7d01107d852e4c2485c51a50aaaa94fc61995e71bbee983a2ac3713831264adb47fb6bd1e058d5f004";
    htest.assertEqualHash(Sha3_384, h1 , "");
    const h2 = "ec01498288516fc926459f58e2c6ad8df9b473cb0fc08c2596da7cf0e49be4b298d88cea927ac7f539f1edf228376d25";
    htest.assertEqualHash(Sha3_384, h2, "abc");
    const h3 = "79407d3b5916b59c3e30b09822974791c313fb9ecc849e406f23592d04f625dc8c709b98b43b3852b337216179aa7fc7";
    htest.assertEqualHash(Sha3_384, h3, "abcdefghbcdefghicdefghijdefghijkefghijklfghijklmghijklmnhijklmnoijklmnopjklmnopqklmnopqrlmnopqrsmnopqrstnopqrstu");
}

test "sha3-384 streaming" {
    var h = Sha3_384.init();
    var out: [48]u8 = undefined;

    const h1 = "0c63a75b845e4f7d01107d852e4c2485c51a50aaaa94fc61995e71bbee983a2ac3713831264adb47fb6bd1e058d5f004";
    h.final(out[0..]);
    htest.assertEqual(h1, out[0..]);

    const h2 = "ec01498288516fc926459f58e2c6ad8df9b473cb0fc08c2596da7cf0e49be4b298d88cea927ac7f539f1edf228376d25";
    h.reset();
    h.update("abc");
    h.final(out[0..]);
    htest.assertEqual(h2, out[0..]);

    h.reset();
    h.update("a");
    h.update("b");
    h.update("c");
    h.final(out[0..]);
    htest.assertEqual(h2, out[0..]);
}

test "sha3-512 single" {
    const h1 = "a69f73cca23a9ac5c8b567dc185a756e97c982164fe25859e0d1dcc1475c80a615b2123af1f5f94c11e3e9402c3ac558f500199d95b6d3e301758586281dcd26";
    htest.assertEqualHash(Sha3_512, h1 , "");
    const h2 = "b751850b1a57168a5693cd924b6b096e08f621827444f70d884f5d0240d2712e10e116e9192af3c91a7ec57647e3934057340b4cf408d5a56592f8274eec53f0";
    htest.assertEqualHash(Sha3_512, h2, "abc");
    const h3 = "afebb2ef542e6579c50cad06d2e578f9f8dd6881d7dc824d26360feebf18a4fa73e3261122948efcfd492e74e82e2189ed0fb440d187f382270cb455f21dd185";
    htest.assertEqualHash(Sha3_512, h3, "abcdefghbcdefghicdefghijdefghijkefghijklfghijklmghijklmnhijklmnoijklmnopjklmnopqklmnopqrlmnopqrsmnopqrstnopqrstu");
}

test "sha3-512 streaming" {
    var h = Sha3_512.init();
    var out: [64]u8 = undefined;

    const h1 = "a69f73cca23a9ac5c8b567dc185a756e97c982164fe25859e0d1dcc1475c80a615b2123af1f5f94c11e3e9402c3ac558f500199d95b6d3e301758586281dcd26";
    h.final(out[0..]);
    htest.assertEqual(h1, out[0..]);

    const h2 = "b751850b1a57168a5693cd924b6b096e08f621827444f70d884f5d0240d2712e10e116e9192af3c91a7ec57647e3934057340b4cf408d5a56592f8274eec53f0";
    h.reset();
    h.update("abc");
    h.final(out[0..]);
    htest.assertEqual(h2, out[0..]);

    h.reset();
    h.update("a");
    h.update("b");
    h.update("c");
    h.final(out[0..]);
    htest.assertEqual(h2, out[0..]);
}