#ifndef OSSL_CRYPTO_EC_CURVE448_FIELD_H
#define OSSL_CRYPTO_EC_CURVE448_FIELD_H
#include "internal/constant_time.h"
#include <string.h>
#include <assert.h>
#include "word.h"
#define NLIMBS (64 / sizeof(word_t))
#define X_SER_BYTES 56
#define SER_BYTES 56
#if defined(__GNUC__) || defined(__clang__)
#define INLINE_UNUSED __inline__ __attribute__((__unused__, __always_inline__))
#define RESTRICT __restrict__
#define ALIGNED __attribute__((__aligned__(16)))
#else
#define INLINE_UNUSED ossl_inline
#define RESTRICT
#define ALIGNED
#endif
typedef struct gf_s {
word_t limb[NLIMBS];
} ALIGNED gf_s, gf[1];
#define X_PUBLIC_BYTES X_SER_BYTES
#define X_PRIVATE_BYTES X_PUBLIC_BYTES
#define X_PRIVATE_BITS 448
static INLINE_UNUSED void gf_copy(gf out, const gf a)
{
*out = *a;
}
static INLINE_UNUSED void gf_add_RAW(gf out, const gf a, const gf b);
static INLINE_UNUSED void gf_sub_RAW(gf out, const gf a, const gf b);
static INLINE_UNUSED void gf_bias(gf inout, int amount);
static INLINE_UNUSED void gf_weak_reduce(gf inout);
void gf_strong_reduce(gf inout);
void gf_add(gf out, const gf a, const gf b);
void gf_sub(gf out, const gf a, const gf b);
void ossl_gf_mul(gf_s *RESTRICT out, const gf a, const gf b);
void ossl_gf_mulw_unsigned(gf_s *RESTRICT out, const gf a, uint32_t b);
void ossl_gf_sqr(gf_s *RESTRICT out, const gf a);
mask_t gf_isr(gf a, const gf x);
mask_t gf_eq(const gf x, const gf y);
mask_t gf_lobit(const gf x);
mask_t gf_hibit(const gf x);
void gf_serialize(uint8_t serial[SER_BYTES], const gf x, int with_highbit);
mask_t gf_deserialize(gf x, const uint8_t serial[SER_BYTES], int with_hibit,
uint8_t hi_nmask);
#define LIMBPERM(i) (i)
#if (ARCH_WORD_BITS == 32)
#include "arch_32/f_impl.h"
#define LIMB_MASK(i) (((1) << LIMB_PLACE_VALUE(i)) - 1)
#elif (ARCH_WORD_BITS == 64)
#include "arch_64/f_impl.h"
#define LIMB_MASK(i) (((1ULL) << LIMB_PLACE_VALUE(i)) - 1)
#endif
static const gf ZERO = { { { 0 } } }, ONE = { { { 1 } } };
static ossl_inline void gf_sqrn(gf_s *RESTRICT y, const gf x, int n)
{
gf tmp;
assert(n > 0);
if (n & 1) {
ossl_gf_sqr(y, x);
n--;
} else {
ossl_gf_sqr(tmp, x);
ossl_gf_sqr(y, tmp);
n -= 2;
}
for (; n; n -= 2) {
ossl_gf_sqr(tmp, y);
ossl_gf_sqr(y, tmp);
}
}
#define gf_add_nr gf_add_RAW
static ossl_inline void gf_sub_nr(gf c, const gf a, const gf b)
{
gf_sub_RAW(c, a, b);
gf_bias(c, 2);
if (GF_HEADROOM < 3)
gf_weak_reduce(c);
}
static ossl_inline void gf_subx_nr(gf c, const gf a, const gf b, int amt)
{
gf_sub_RAW(c, a, b);
gf_bias(c, amt);
if (GF_HEADROOM < amt + 1)
gf_weak_reduce(c);
}
static ossl_inline void gf_mulw(gf c, const gf a, int32_t w)
{
if (w > 0) {
ossl_gf_mulw_unsigned(c, a, w);
} else {
ossl_gf_mulw_unsigned(c, a, -w);
gf_sub(c, ZERO, c);
}
}
static ossl_inline void gf_cond_sel(gf x, const gf y, const gf z, mask_t is_z)
{
size_t i;
for (i = 0; i < NLIMBS; i++) {
#if ARCH_WORD_BITS == 32
x[0].limb[i] = constant_time_select_32(is_z, z[0].limb[i],
y[0].limb[i]);
#else
x[0].limb[i] = constant_time_select_64(is_z, z[0].limb[i],
y[0].limb[i]);
#endif
}
}
static ossl_inline void gf_cond_neg(gf x, mask_t neg)
{
gf y;
gf_sub(y, ZERO, x);
gf_cond_sel(x, x, y, neg);
}
static ossl_inline void gf_cond_swap(gf x, gf_s *RESTRICT y, mask_t swap)
{
size_t i;
for (i = 0; i < NLIMBS; i++) {
#if ARCH_WORD_BITS == 32
constant_time_cond_swap_32(swap, &(x[0].limb[i]), &(y->limb[i]));
#else
constant_time_cond_swap_64(swap, &(x[0].limb[i]), &(y->limb[i]));
#endif
}
}
#endif
