#include "crypto_decode_761x1531.h" /* auto-generated; do not edit */ #define int16 int16_t #define uint16 uint16_t #define uint32 uint32_t #define uint64 uint64_t /* CPU division instruction typically takes time depending on x. This software is designed to take time independent of x. Time still varies depending on m; user must ensure that m is constant. Time also varies on CPUs where multiplication is variable-time. There could be more CPU issues. There could also be compiler issues. */ static void uint32_divmod_uint14(uint32 *q, uint16 *r, uint32 x, uint16 m) { uint32 v = 0x80000000; uint32 qpart; uint32 mask; v /= m; /* caller guarantees m > 0 */ /* caller guarantees m < 16384 */ /* vm <= 2^31 <= vm+m-1 */ /* xvm <= 2^31 x <= xvm+x(m-1) */ *q = 0; qpart = (x * (uint64)v) >> 31; /* 2^31 qpart <= xv <= 2^31 qpart + 2^31-1 */ /* 2^31 qpart m <= xvm <= 2^31 qpart m + (2^31-1)m */ /* 2^31 qpart m <= 2^31 x <= 2^31 qpart m + (2^31-1)m + x(m-1) */ /* 0 <= 2^31 newx <= (2^31-1)m + x(m-1) */ /* 0 <= newx <= (1-1/2^31)m + x(m-1)/2^31 */ /* 0 <= newx <= (1-1/2^31)(2^14-1) + (2^32-1)((2^14-1)-1)/2^31 */ x -= qpart * m; *q += qpart; /* x <= 49146 */ qpart = (x * (uint64)v) >> 31; /* 0 <= newx <= (1-1/2^31)m + x(m-1)/2^31 */ /* 0 <= newx <= m + 49146(2^14-1)/2^31 */ /* 0 <= newx <= m + 0.4 */ /* 0 <= newx <= m */ x -= qpart * m; *q += qpart; /* x <= m */ x -= m; *q += 1; mask = -(x >> 31); x += mask & (uint32)m; *q += mask; /* x < m */ *r = x; } static uint16 uint32_mod_uint14(uint32 x, uint16 m) { uint32 q; uint16 r; uint32_divmod_uint14(&q, &r, x, m); return r; } void PQCLEAN_NTRULPR761_CLEAN_crypto_decode_761x1531(void *v, const unsigned char *s) { int16 *R0 = v; uint16 R1[381], R2[191], R3[96], R4[48], R5[24], R6[12], R7[6], R8[3], R9[2], R10[1]; long long i; uint16 r0; uint32 r1, r2; s += PQCLEAN_NTRULPR761_CLEAN_crypto_decode_761x1531_STRBYTES; r1 = 0; r1 = (r1 << 8) | *--s; r1 = (r1 << 8) | *--s; r1 = uint32_mod_uint14(r1, 3475); /* needed only for invalid inputs */ R10[0] = r1; r2 = R10[0]; r2 = (r2 << 8) | *--s; uint32_divmod_uint14(&r1, &r0, r2, 593); R9[0] = r0; r1 = uint32_mod_uint14(r1, 1500); /* needed only for invalid inputs */ R9[1] = r1; R8[2] = R9[1]; r2 = R9[0]; r2 = (r2 << 8) | *--s; r2 = (r2 << 8) | *--s; uint32_divmod_uint14(&r1, &r0, r2, 6232); R8[0] = r0; r1 = uint32_mod_uint14(r1, 6232); /* needed only for invalid inputs */ R8[1] = r1; r2 = R8[2]; r2 = (r2 << 8) | *--s; uint32_divmod_uint14(&r1, &r0, r2, 1263); R7[4] = r0; r1 = uint32_mod_uint14(r1, 304); /* needed only for invalid inputs */ R7[5] = r1; for (i = 1; i >= 0; --i) { r2 = R8[i]; r2 = (r2 << 8) | *--s; uint32_divmod_uint14(&r1, &r0, r2, 1263); R7[2 * i] = r0; r1 = uint32_mod_uint14(r1, 1263); /* needed only for invalid inputs */ R7[2 * i + 1] = r1; } r2 = R7[5]; r2 = (r2 << 8) | *--s; r2 = (r2 << 8) | *--s; uint32_divmod_uint14(&r1, &r0, r2, 9097); R6[10] = r0; r1 = uint32_mod_uint14(r1, 2188); /* needed only for invalid inputs */ R6[11] = r1; for (i = 4; i >= 0; --i) { r2 = R7[i]; r2 = (r2 << 8) | *--s; r2 = (r2 << 8) | *--s; uint32_divmod_uint14(&r1, &r0, r2, 9097); R6[2 * i] = r0; r1 = uint32_mod_uint14(r1, 9097); /* needed only for invalid inputs */ R6[2 * i + 1] = r1; } r2 = R6[11]; r2 = (r2 << 8) | *--s; uint32_divmod_uint14(&r1, &r0, r2, 1526); R5[22] = r0; r1 = uint32_mod_uint14(r1, 367); /* needed only for invalid inputs */ R5[23] = r1; for (i = 10; i >= 0; --i) { r2 = R6[i]; r2 = (r2 << 8) | *--s; uint32_divmod_uint14(&r1, &r0, r2, 1526); R5[2 * i] = r0; r1 = uint32_mod_uint14(r1, 1526); /* needed only for invalid inputs */ R5[2 * i + 1] = r1; } r2 = R5[23]; r2 = (r2 << 8) | *--s; uint32_divmod_uint14(&r1, &r0, r2, 625); R4[46] = r0; r1 = uint32_mod_uint14(r1, 150); /* needed only for invalid inputs */ R4[47] = r1; for (i = 22; i >= 0; --i) { r2 = R5[i]; r2 = (r2 << 8) | *--s; uint32_divmod_uint14(&r1, &r0, r2, 625); R4[2 * i] = r0; r1 = uint32_mod_uint14(r1, 625); /* needed only for invalid inputs */ R4[2 * i + 1] = r1; } r2 = R4[47]; r2 = (r2 << 8) | *--s; r2 = (r2 << 8) | *--s; uint32_divmod_uint14(&r1, &r0, r2, 6400); R3[94] = r0; r1 = uint32_mod_uint14(r1, 1531); /* needed only for invalid inputs */ R3[95] = r1; for (i = 46; i >= 0; --i) { r2 = R4[i]; r2 = (r2 << 8) | *--s; r2 = (r2 << 8) | *--s; uint32_divmod_uint14(&r1, &r0, r2, 6400); R3[2 * i] = r0; r1 = uint32_mod_uint14(r1, 6400); /* needed only for invalid inputs */ R3[2 * i + 1] = r1; } R2[190] = R3[95]; for (i = 94; i >= 0; --i) { r2 = R3[i]; r2 = (r2 << 8) | *--s; uint32_divmod_uint14(&r1, &r0, r2, 1280); R2[2 * i] = r0; r1 = uint32_mod_uint14(r1, 1280); /* needed only for invalid inputs */ R2[2 * i + 1] = r1; } R1[380] = R2[190]; for (i = 189; i >= 0; --i) { r2 = R2[i]; r2 = (r2 << 8) | *--s; r2 = (r2 << 8) | *--s; uint32_divmod_uint14(&r1, &r0, r2, 9157); R1[2 * i] = r0; r1 = uint32_mod_uint14(r1, 9157); /* needed only for invalid inputs */ R1[2 * i + 1] = r1; } R0[760] = 3 * R1[380] - 2295; for (i = 379; i >= 0; --i) { r2 = R1[i]; r2 = (r2 << 8) | *--s; uint32_divmod_uint14(&r1, &r0, r2, 1531); R0[2 * i] = 3 * r0 - 2295; r1 = uint32_mod_uint14(r1, 1531); /* needed only for invalid inputs */ R0[2 * i + 1] = 3 * r1 - 2295; } }