/* This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */

/* This implementation is by Ted Krovetz and was submitted to SUPERCOP and
 * marked as public domain. It was been altered to allow for non-aligned inputs
 * and to allow the block counter to be passed in specifically. */

#include <string.h>

#include "chacha20.h"
#include "blapii.h"

#ifndef CHACHA_RNDS
#define CHACHA_RNDS 20 /* 8 (high speed), 20 (conservative), 12 (middle) */
#endif

/* Architecture-neutral way to specify 16-byte vector of ints              */
typedef unsigned vec __attribute__((vector_size(16)));

/* This implementation is designed for Neon, SSE and AltiVec machines. The
 * following specify how to do certain vector operations efficiently on
 * each architecture, using intrinsics.
 * This implementation supports parallel processing of multiple blocks,
 * including potentially using general-purpose registers.
 */
#if __ARM_NEON__
#include <arm_neon.h>
#define GPR_TOO 1
#define VBPI 2
#define ONE (vec) vsetq_lane_u32(1, vdupq_n_u32(0), 0)
#define LOAD(m) (vec)(*((vec *)(m)))
#define STORE(m, r) (*((vec *)(m))) = (r)
#define ROTV1(x) (vec) vextq_u32((uint32x4_t)x, (uint32x4_t)x, 1)
#define ROTV2(x) (vec) vextq_u32((uint32x4_t)x, (uint32x4_t)x, 2)
#define ROTV3(x) (vec) vextq_u32((uint32x4_t)x, (uint32x4_t)x, 3)
#define ROTW16(x) (vec) vrev32q_u16((uint16x8_t)x)
#if __clang__
#define ROTW7(x) (x << ((vec){ 7, 7, 7, 7 })) ^ (x >> ((vec){ 25, 25, 25, 25 }))
#define ROTW8(x) (x << ((vec){ 8, 8, 8, 8 })) ^ (x >> ((vec){ 24, 24, 24, 24 }))
#define ROTW12(x) (x << ((vec){ 12, 12, 12, 12 })) ^ (x >> ((vec){ 20, 20, 20, 20 }))
#else
#define ROTW7(x) (vec) vsriq_n_u32(vshlq_n_u32((uint32x4_t)x, 7), (uint32x4_t)x, 25)
#define ROTW8(x) (vec) vsriq_n_u32(vshlq_n_u32((uint32x4_t)x, 8), (uint32x4_t)x, 24)
#define ROTW12(x) (vec) vsriq_n_u32(vshlq_n_u32((uint32x4_t)x, 12), (uint32x4_t)x, 20)
#endif
#elif __SSE2__
#include <emmintrin.h>
#define GPR_TOO 0
#if __clang__
#define VBPI 4
#else
#define VBPI 3
#endif
#define ONE (vec) _mm_set_epi32(0, 0, 0, 1)
#define LOAD(m) (vec) _mm_loadu_si128((__m128i *)(m))
#define STORE(m, r) _mm_storeu_si128((__m128i *)(m), (__m128i)(r))
#define ROTV1(x) (vec) _mm_shuffle_epi32((__m128i)x, _MM_SHUFFLE(0, 3, 2, 1))
#define ROTV2(x) (vec) _mm_shuffle_epi32((__m128i)x, _MM_SHUFFLE(1, 0, 3, 2))
#define ROTV3(x) (vec) _mm_shuffle_epi32((__m128i)x, _MM_SHUFFLE(2, 1, 0, 3))
#define ROTW7(x) (vec)(_mm_slli_epi32((__m128i)x, 7) ^ _mm_srli_epi32((__m128i)x, 25))
#define ROTW12(x) (vec)(_mm_slli_epi32((__m128i)x, 12) ^ _mm_srli_epi32((__m128i)x, 20))
#if __SSSE3__
#include <tmmintrin.h>
#define ROTW8(x) (vec) _mm_shuffle_epi8((__m128i)x, _mm_set_epi8(14, 13, 12, 15, 10, 9, 8, 11, 6, 5, 4, 7, 2, 1, 0, 3))
#define ROTW16(x) (vec) _mm_shuffle_epi8((__m128i)x, _mm_set_epi8(13, 12, 15, 14, 9, 8, 11, 10, 5, 4, 7, 6, 1, 0, 3, 2))
#else
#define ROTW8(x) (vec)(_mm_slli_epi32((__m128i)x, 8) ^ _mm_srli_epi32((__m128i)x, 24))
#define ROTW16(x) (vec)(_mm_slli_epi32((__m128i)x, 16) ^ _mm_srli_epi32((__m128i)x, 16))
#endif
#else
#error-- Implementation supports only machines with neon or SSE2
#endif

#ifndef REVV_BE
#define REVV_BE(x) (x)
#endif

#ifndef REVW_BE
#define REVW_BE(x) (x)
#endif

#define BPI (VBPI + GPR_TOO) /* Blocks computed per loop iteration   */

#define DQROUND_VECTORS(a, b, c, d) \
    a += b;                         \
    d ^= a;                         \
    d = ROTW16(d);                  \
    c += d;                         \
    b ^= c;                         \
    b = ROTW12(b);                  \
    a += b;                         \
    d ^= a;                         \
    d = ROTW8(d);                   \
    c += d;                         \
    b ^= c;                         \
    b = ROTW7(b);                   \
    b = ROTV1(b);                   \
    c = ROTV2(c);                   \
    d = ROTV3(d);                   \
    a += b;                         \
    d ^= a;                         \
    d = ROTW16(d);                  \
    c += d;                         \
    b ^= c;                         \
    b = ROTW12(b);                  \
    a += b;                         \
    d ^= a;                         \
    d = ROTW8(d);                   \
    c += d;                         \
    b ^= c;                         \
    b = ROTW7(b);                   \
    b = ROTV3(b);                   \
    c = ROTV2(c);                   \
    d = ROTV1(d);

#define QROUND_WORDS(a, b, c, d) \
    a = a + b;                   \
    d ^= a;                      \
    d = d << 16 | d >> 16;       \
    c = c + d;                   \
    b ^= c;                      \
    b = b << 12 | b >> 20;       \
    a = a + b;                   \
    d ^= a;                      \
    d = d << 8 | d >> 24;        \
    c = c + d;                   \
    b ^= c;                      \
    b = b << 7 | b >> 25;

#define WRITE_XOR(in, op, d, v0, v1, v2, v3)           \
    STORE(op + d + 0, LOAD(in + d + 0) ^ REVV_BE(v0)); \
    STORE(op + d + 4, LOAD(in + d + 4) ^ REVV_BE(v1)); \
    STORE(op + d + 8, LOAD(in + d + 8) ^ REVV_BE(v2)); \
    STORE(op + d + 12, LOAD(in + d + 12) ^ REVV_BE(v3));

void NO_SANITIZE_ALIGNMENT
ChaCha20XOR(unsigned char *out, const unsigned char *in, unsigned int inlen,
            const unsigned char key[32], const unsigned char nonce[12],
            uint32_t counter)
{
    unsigned iters, i, *op = (unsigned *)out, *ip = (unsigned *)in, *kp;
#if defined(__ARM_NEON__)
    unsigned *np;
#endif
    vec s0, s1, s2, s3;
#if !defined(__ARM_NEON__) && !defined(__SSE2__)
    __attribute__((aligned(16))) unsigned key[8], nonce[4];
#endif
    __attribute__((aligned(16))) unsigned chacha_const[] =
        { 0x61707865, 0x3320646E, 0x79622D32, 0x6B206574 };
#if defined(__ARM_NEON__) || defined(__SSE2__)
    kp = (unsigned *)key;
#else
    ((vec *)key)[0] = REVV_BE(((vec *)key)[0]);
    ((vec *)key)[1] = REVV_BE(((vec *)key)[1]);
    ((unsigned *)nonce)[0] = REVW_BE(((unsigned *)nonce)[0]);
    ((unsigned *)nonce)[1] = REVW_BE(((unsigned *)nonce)[1]);
    ((unsigned *)nonce)[2] = REVW_BE(((unsigned *)nonce)[2]);
    ((unsigned *)nonce)[3] = REVW_BE(((unsigned *)nonce)[3]);
    kp = (unsigned *)key;
    np = (unsigned *)nonce;
#endif
#if defined(__ARM_NEON__)
    np = (unsigned *)nonce;
#endif
    s0 = LOAD(chacha_const);
    s1 = LOAD(&((vec *)kp)[0]);
    s2 = LOAD(&((vec *)kp)[1]);
    s3 = (vec){
        counter,
        ((uint32_t *)nonce)[0],
        ((uint32_t *)nonce)[1],
        ((uint32_t *)nonce)[2]
    };

    for (iters = 0; iters < inlen / (BPI * 64); iters++) {
#if GPR_TOO
        register unsigned x0, x1, x2, x3, x4, x5, x6, x7, x8,
            x9, x10, x11, x12, x13, x14, x15;
#endif
#if VBPI > 2
        vec v8, v9, v10, v11;
#endif
#if VBPI > 3
        vec v12, v13, v14, v15;
#endif

        vec v0, v1, v2, v3, v4, v5, v6, v7;
        v4 = v0 = s0;
        v5 = v1 = s1;
        v6 = v2 = s2;
        v3 = s3;
        v7 = v3 + ONE;
#if VBPI > 2
        v8 = v4;
        v9 = v5;
        v10 = v6;
        v11 = v7 + ONE;
#endif
#if VBPI > 3
        v12 = v8;
        v13 = v9;
        v14 = v10;
        v15 = v11 + ONE;
#endif
#if GPR_TOO
        x0 = chacha_const[0];
        x1 = chacha_const[1];
        x2 = chacha_const[2];
        x3 = chacha_const[3];
        x4 = kp[0];
        x5 = kp[1];
        x6 = kp[2];
        x7 = kp[3];
        x8 = kp[4];
        x9 = kp[5];
        x10 = kp[6];
        x11 = kp[7];
        x12 = counter + BPI * iters + (BPI - 1);
        x13 = np[0];
        x14 = np[1];
        x15 = np[2];
#endif
        for (i = CHACHA_RNDS / 2; i; i--) {
            DQROUND_VECTORS(v0, v1, v2, v3)
            DQROUND_VECTORS(v4, v5, v6, v7)
#if VBPI > 2
            DQROUND_VECTORS(v8, v9, v10, v11)
#endif
#if VBPI > 3
            DQROUND_VECTORS(v12, v13, v14, v15)
#endif
#if GPR_TOO
            QROUND_WORDS(x0, x4, x8, x12)
            QROUND_WORDS(x1, x5, x9, x13)
            QROUND_WORDS(x2, x6, x10, x14)
            QROUND_WORDS(x3, x7, x11, x15)
            QROUND_WORDS(x0, x5, x10, x15)
            QROUND_WORDS(x1, x6, x11, x12)
            QROUND_WORDS(x2, x7, x8, x13)
            QROUND_WORDS(x3, x4, x9, x14)
#endif
        }

        WRITE_XOR(ip, op, 0, v0 + s0, v1 + s1, v2 + s2, v3 + s3)
        s3 += ONE;
        WRITE_XOR(ip, op, 16, v4 + s0, v5 + s1, v6 + s2, v7 + s3)
        s3 += ONE;
#if VBPI > 2
        WRITE_XOR(ip, op, 32, v8 + s0, v9 + s1, v10 + s2, v11 + s3)
        s3 += ONE;
#endif
#if VBPI > 3
        WRITE_XOR(ip, op, 48, v12 + s0, v13 + s1, v14 + s2, v15 + s3)
        s3 += ONE;
#endif
        ip += VBPI * 16;
        op += VBPI * 16;
#if GPR_TOO
        op[0] = REVW_BE(REVW_BE(ip[0]) ^ (x0 + chacha_const[0]));
        op[1] = REVW_BE(REVW_BE(ip[1]) ^ (x1 + chacha_const[1]));
        op[2] = REVW_BE(REVW_BE(ip[2]) ^ (x2 + chacha_const[2]));
        op[3] = REVW_BE(REVW_BE(ip[3]) ^ (x3 + chacha_const[3]));
        op[4] = REVW_BE(REVW_BE(ip[4]) ^ (x4 + kp[0]));
        op[5] = REVW_BE(REVW_BE(ip[5]) ^ (x5 + kp[1]));
        op[6] = REVW_BE(REVW_BE(ip[6]) ^ (x6 + kp[2]));
        op[7] = REVW_BE(REVW_BE(ip[7]) ^ (x7 + kp[3]));
        op[8] = REVW_BE(REVW_BE(ip[8]) ^ (x8 + kp[4]));
        op[9] = REVW_BE(REVW_BE(ip[9]) ^ (x9 + kp[5]));
        op[10] = REVW_BE(REVW_BE(ip[10]) ^ (x10 + kp[6]));
        op[11] = REVW_BE(REVW_BE(ip[11]) ^ (x11 + kp[7]));
        op[12] = REVW_BE(REVW_BE(ip[12]) ^ (x12 + counter + BPI * iters + (BPI - 1)));
        op[13] = REVW_BE(REVW_BE(ip[13]) ^ (x13 + np[0]));
        op[14] = REVW_BE(REVW_BE(ip[14]) ^ (x14 + np[1]));
        op[15] = REVW_BE(REVW_BE(ip[15]) ^ (x15 + np[2]));
        s3 += ONE;
        ip += 16;
        op += 16;
#endif
    }

    for (iters = inlen % (BPI * 64) / 64; iters != 0; iters--) {
        vec v0 = s0, v1 = s1, v2 = s2, v3 = s3;
        for (i = CHACHA_RNDS / 2; i; i--) {
            DQROUND_VECTORS(v0, v1, v2, v3);
        }
        WRITE_XOR(ip, op, 0, v0 + s0, v1 + s1, v2 + s2, v3 + s3)
        s3 += ONE;
        ip += 16;
        op += 16;
    }

    inlen = inlen % 64;
    if (inlen) {
        __attribute__((aligned(16))) vec buf[4];
        vec v0, v1, v2, v3;
        v0 = s0;
        v1 = s1;
        v2 = s2;
        v3 = s3;
        for (i = CHACHA_RNDS / 2; i; i--) {
            DQROUND_VECTORS(v0, v1, v2, v3);
        }

        if (inlen >= 16) {
            STORE(op + 0, LOAD(ip + 0) ^ REVV_BE(v0 + s0));
            if (inlen >= 32) {
                STORE(op + 4, LOAD(ip + 4) ^ REVV_BE(v1 + s1));
                if (inlen >= 48) {
                    STORE(op + 8, LOAD(ip + 8) ^ REVV_BE(v2 + s2));
                    buf[3] = REVV_BE(v3 + s3);
                } else {
                    buf[2] = REVV_BE(v2 + s2);
                }
            } else {
                buf[1] = REVV_BE(v1 + s1);
            }
        } else {
            buf[0] = REVV_BE(v0 + s0);
        }

        for (i = inlen & ~15; i < inlen; i++) {
            ((char *)op)[i] = ((char *)ip)[i] ^ ((char *)buf)[i];
        }
    }
}