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|
/*
* Copyright 2019-2024 The OpenSSL Project Authors. All Rights Reserved.
*
* Licensed under the Apache License 2.0 (the "License"). You may not use
* this file except in compliance with the License. You can obtain a copy
* in the file LICENSE in the source distribution or at
* https://www.openssl.org/source/license.html
*/
#include <string.h>
#include <openssl/core_names.h>
#include <openssl/crypto.h>
#include <openssl/evp.h>
#include <openssl/params.h>
#include <openssl/err.h>
#include <openssl/proverr.h>
#include "internal/numbers.h"
#include "internal/sha3.h"
#include "prov/digestcommon.h"
#include "prov/implementations.h"
#define SHA3_FLAGS PROV_DIGEST_FLAG_ALGID_ABSENT
#define SHAKE_FLAGS PROV_DIGEST_FLAG_XOF
#define KMAC_FLAGS PROV_DIGEST_FLAG_XOF
/*
* Forward declaration of any unique methods implemented here. This is not strictly
* necessary for the compiler, but provides an assurance that the signatures
* of the functions in the dispatch table are correct.
*/
static OSSL_FUNC_digest_init_fn keccak_init;
static OSSL_FUNC_digest_init_fn keccak_init_params;
static OSSL_FUNC_digest_update_fn keccak_update;
static OSSL_FUNC_digest_final_fn keccak_final;
static OSSL_FUNC_digest_freectx_fn keccak_freectx;
static OSSL_FUNC_digest_dupctx_fn keccak_dupctx;
static OSSL_FUNC_digest_squeeze_fn shake_squeeze;
static OSSL_FUNC_digest_get_ctx_params_fn shake_get_ctx_params;
static OSSL_FUNC_digest_gettable_ctx_params_fn shake_gettable_ctx_params;
static OSSL_FUNC_digest_set_ctx_params_fn shake_set_ctx_params;
static OSSL_FUNC_digest_settable_ctx_params_fn shake_settable_ctx_params;
static sha3_absorb_fn generic_sha3_absorb;
static sha3_final_fn generic_sha3_final;
static sha3_squeeze_fn generic_sha3_squeeze;
#if defined(OPENSSL_CPUID_OBJ) && defined(__s390__) && defined(KECCAK1600_ASM)
/*
* IBM S390X support
*/
# include "s390x_arch.h"
# define S390_SHA3 1
# define S390_SHA3_CAPABLE(name) \
((OPENSSL_s390xcap_P.kimd[0] & S390X_CAPBIT(S390X_##name)) && \
(OPENSSL_s390xcap_P.klmd[0] & S390X_CAPBIT(S390X_##name)))
#endif
static int keccak_init(void *vctx, ossl_unused const OSSL_PARAM params[])
{
if (!ossl_prov_is_running())
return 0;
/* The newctx() handles most of the ctx fixed setup. */
ossl_sha3_reset((KECCAK1600_CTX *)vctx);
return 1;
}
static int keccak_init_params(void *vctx, const OSSL_PARAM params[])
{
return keccak_init(vctx, NULL)
&& shake_set_ctx_params(vctx, params);
}
static int keccak_update(void *vctx, const unsigned char *inp, size_t len)
{
KECCAK1600_CTX *ctx = vctx;
const size_t bsz = ctx->block_size;
size_t num, rem;
if (len == 0)
return 1;
/* Is there anything in the buffer already ? */
if ((num = ctx->bufsz) != 0) {
/* Calculate how much space is left in the buffer */
rem = bsz - num;
/* If the new input does not fill the buffer then just add it */
if (len < rem) {
memcpy(ctx->buf + num, inp, len);
ctx->bufsz += len;
return 1;
}
/* otherwise fill up the buffer and absorb the buffer */
memcpy(ctx->buf + num, inp, rem);
/* Update the input pointer */
inp += rem;
len -= rem;
ctx->meth.absorb(ctx, ctx->buf, bsz);
ctx->bufsz = 0;
}
/* Absorb the input - rem = leftover part of the input < blocksize) */
rem = ctx->meth.absorb(ctx, inp, len);
/* Copy the leftover bit of the input into the buffer */
if (rem) {
memcpy(ctx->buf, inp + len - rem, rem);
ctx->bufsz = rem;
}
return 1;
}
static int keccak_final(void *vctx, unsigned char *out, size_t *outl,
size_t outlen)
{
int ret = 1;
KECCAK1600_CTX *ctx = vctx;
if (!ossl_prov_is_running())
return 0;
if (ctx->md_size == SIZE_MAX) {
ERR_raise(ERR_LIB_PROV, PROV_R_INVALID_DIGEST_LENGTH);
return 0;
}
if (outlen > 0)
ret = ctx->meth.final(ctx, out, ctx->md_size);
*outl = ctx->md_size;
return ret;
}
static int shake_squeeze(void *vctx, unsigned char *out, size_t *outl,
size_t outlen)
{
int ret = 1;
KECCAK1600_CTX *ctx = vctx;
if (!ossl_prov_is_running())
return 0;
if (ctx->meth.squeeze == NULL)
return 0;
if (outlen > 0)
ret = ctx->meth.squeeze(ctx, out, outlen);
*outl = outlen;
return ret;
}
/*-
* Generic software version of the absorb() and final().
*/
static size_t generic_sha3_absorb(void *vctx, const void *inp, size_t len)
{
KECCAK1600_CTX *ctx = vctx;
if (!(ctx->xof_state == XOF_STATE_INIT ||
ctx->xof_state == XOF_STATE_ABSORB))
return 0;
ctx->xof_state = XOF_STATE_ABSORB;
return SHA3_absorb(ctx->A, inp, len, ctx->block_size);
}
static int generic_sha3_final(void *vctx, unsigned char *out, size_t outlen)
{
return ossl_sha3_final((KECCAK1600_CTX *)vctx, out, outlen);
}
static int generic_sha3_squeeze(void *vctx, unsigned char *out, size_t outlen)
{
return ossl_sha3_squeeze((KECCAK1600_CTX *)vctx, out, outlen);
}
static PROV_SHA3_METHOD sha3_generic_md = {
generic_sha3_absorb,
generic_sha3_final,
NULL
};
static PROV_SHA3_METHOD shake_generic_md =
{
generic_sha3_absorb,
generic_sha3_final,
generic_sha3_squeeze
};
#if defined(S390_SHA3)
static sha3_absorb_fn s390x_sha3_absorb;
static sha3_final_fn s390x_sha3_final;
static sha3_final_fn s390x_shake_final;
/*-
* The platform specific parts of the absorb() and final() for S390X.
*/
static size_t s390x_sha3_absorb(void *vctx, const void *inp, size_t len)
{
KECCAK1600_CTX *ctx = vctx;
size_t rem = len % ctx->block_size;
unsigned int fc;
if (!(ctx->xof_state == XOF_STATE_INIT ||
ctx->xof_state == XOF_STATE_ABSORB))
return 0;
if (len - rem > 0) {
fc = ctx->pad;
fc |= ctx->xof_state == XOF_STATE_INIT ? S390X_KIMD_NIP : 0;
ctx->xof_state = XOF_STATE_ABSORB;
s390x_kimd(inp, len - rem, fc, ctx->A);
}
return rem;
}
static int s390x_sha3_final(void *vctx, unsigned char *out, size_t outlen)
{
KECCAK1600_CTX *ctx = vctx;
unsigned int fc;
if (!ossl_prov_is_running())
return 0;
if (!(ctx->xof_state == XOF_STATE_INIT ||
ctx->xof_state == XOF_STATE_ABSORB))
return 0;
fc = ctx->pad | S390X_KLMD_DUFOP;
fc |= ctx->xof_state == XOF_STATE_INIT ? S390X_KLMD_NIP : 0;
ctx->xof_state = XOF_STATE_FINAL;
s390x_klmd(ctx->buf, ctx->bufsz, NULL, 0, fc, ctx->A);
memcpy(out, ctx->A, outlen);
return 1;
}
static int s390x_shake_final(void *vctx, unsigned char *out, size_t outlen)
{
KECCAK1600_CTX *ctx = vctx;
unsigned int fc;
if (!ossl_prov_is_running())
return 0;
if (!(ctx->xof_state == XOF_STATE_INIT ||
ctx->xof_state == XOF_STATE_ABSORB))
return 0;
fc = ctx->pad | S390X_KLMD_DUFOP;
fc |= ctx->xof_state == XOF_STATE_INIT ? S390X_KLMD_NIP : 0;
ctx->xof_state = XOF_STATE_FINAL;
s390x_klmd(ctx->buf, ctx->bufsz, out, outlen, fc, ctx->A);
return 1;
}
static int s390x_shake_squeeze(void *vctx, unsigned char *out, size_t outlen)
{
KECCAK1600_CTX *ctx = vctx;
unsigned int fc;
size_t len;
if (!ossl_prov_is_running())
return 0;
if (ctx->xof_state == XOF_STATE_FINAL)
return 0;
/*
* On the first squeeze call, finish the absorb process (incl. padding).
*/
if (ctx->xof_state != XOF_STATE_SQUEEZE) {
fc = ctx->pad;
fc |= ctx->xof_state == XOF_STATE_INIT ? S390X_KLMD_NIP : 0;
ctx->xof_state = XOF_STATE_SQUEEZE;
s390x_klmd(ctx->buf, ctx->bufsz, out, outlen, fc, ctx->A);
ctx->bufsz = outlen % ctx->block_size;
/* reuse ctx->bufsz to count bytes squeezed from current sponge */
return 1;
}
ctx->xof_state = XOF_STATE_SQUEEZE;
if (ctx->bufsz != 0) {
len = ctx->block_size - ctx->bufsz;
if (outlen < len)
len = outlen;
memcpy(out, (char *)ctx->A + ctx->bufsz, len);
out += len;
outlen -= len;
ctx->bufsz += len;
if (ctx->bufsz == ctx->block_size)
ctx->bufsz = 0;
}
if (outlen == 0)
return 1;
s390x_klmd(NULL, 0, out, outlen, ctx->pad | S390X_KLMD_PS, ctx->A);
ctx->bufsz = outlen % ctx->block_size;
return 1;
}
static int s390x_keccakc_final(void *vctx, unsigned char *out, size_t outlen,
int padding)
{
KECCAK1600_CTX *ctx = vctx;
size_t bsz = ctx->block_size;
size_t num = ctx->bufsz;
size_t needed = outlen;
unsigned int fc;
if (!ossl_prov_is_running())
return 0;
if (!(ctx->xof_state == XOF_STATE_INIT ||
ctx->xof_state == XOF_STATE_ABSORB))
return 0;
fc = ctx->pad;
fc |= ctx->xof_state == XOF_STATE_INIT ? S390X_KIMD_NIP : 0;
ctx->xof_state = XOF_STATE_FINAL;
if (outlen == 0)
return 1;
memset(ctx->buf + num, 0, bsz - num);
ctx->buf[num] = padding;
ctx->buf[bsz - 1] |= 0x80;
s390x_kimd(ctx->buf, bsz, fc, ctx->A);
num = needed > bsz ? bsz : needed;
memcpy(out, ctx->A, num);
needed -= num;
if (needed > 0)
s390x_klmd(NULL, 0, out + bsz, needed,
ctx->pad | S390X_KLMD_PS | S390X_KLMD_DUFOP, ctx->A);
return 1;
}
static int s390x_keccak_final(void *vctx, unsigned char *out, size_t outlen)
{
return s390x_keccakc_final(vctx, out, outlen, 0x01);
}
static int s390x_kmac_final(void *vctx, unsigned char *out, size_t outlen)
{
return s390x_keccakc_final(vctx, out, outlen, 0x04);
}
static int s390x_keccakc_squeeze(void *vctx, unsigned char *out, size_t outlen,
int padding)
{
KECCAK1600_CTX *ctx = vctx;
size_t len;
unsigned int fc;
if (!ossl_prov_is_running())
return 0;
if (ctx->xof_state == XOF_STATE_FINAL)
return 0;
/*
* On the first squeeze call, finish the absorb process
* by adding the trailing padding and then doing
* a final absorb.
*/
if (ctx->xof_state != XOF_STATE_SQUEEZE) {
len = ctx->block_size - ctx->bufsz;
memset(ctx->buf + ctx->bufsz, 0, len);
ctx->buf[ctx->bufsz] = padding;
ctx->buf[ctx->block_size - 1] |= 0x80;
fc = ctx->pad;
fc |= ctx->xof_state == XOF_STATE_INIT ? S390X_KIMD_NIP : 0;
s390x_kimd(ctx->buf, ctx->block_size, fc, ctx->A);
ctx->bufsz = 0;
/* reuse ctx->bufsz to count bytes squeezed from current sponge */
}
if (ctx->bufsz != 0 || ctx->xof_state != XOF_STATE_SQUEEZE) {
len = ctx->block_size - ctx->bufsz;
if (outlen < len)
len = outlen;
memcpy(out, (char *)ctx->A + ctx->bufsz, len);
out += len;
outlen -= len;
ctx->bufsz += len;
if (ctx->bufsz == ctx->block_size)
ctx->bufsz = 0;
}
ctx->xof_state = XOF_STATE_SQUEEZE;
if (outlen == 0)
return 1;
s390x_klmd(NULL, 0, out, outlen, ctx->pad | S390X_KLMD_PS, ctx->A);
ctx->bufsz = outlen % ctx->block_size;
return 1;
}
static int s390x_keccak_squeeze(void *vctx, unsigned char *out, size_t outlen)
{
return s390x_keccakc_squeeze(vctx, out, outlen, 0x01);
}
static int s390x_kmac_squeeze(void *vctx, unsigned char *out, size_t outlen)
{
return s390x_keccakc_squeeze(vctx, out, outlen, 0x04);
}
static PROV_SHA3_METHOD sha3_s390x_md = {
s390x_sha3_absorb,
s390x_sha3_final,
NULL,
};
static PROV_SHA3_METHOD keccak_s390x_md = {
s390x_sha3_absorb,
s390x_keccak_final,
s390x_keccak_squeeze,
};
static PROV_SHA3_METHOD shake_s390x_md = {
s390x_sha3_absorb,
s390x_shake_final,
s390x_shake_squeeze,
};
static PROV_SHA3_METHOD kmac_s390x_md = {
s390x_sha3_absorb,
s390x_kmac_final,
s390x_kmac_squeeze,
};
# define SHAKE_SET_MD(uname, typ) \
if (S390_SHA3_CAPABLE(uname)) { \
ctx->pad = S390X_##uname; \
ctx->meth = typ##_s390x_md; \
} else { \
ctx->meth = shake_generic_md; \
}
# define SHA3_SET_MD(uname, typ) \
if (S390_SHA3_CAPABLE(uname)) { \
ctx->pad = S390X_##uname; \
ctx->meth = typ##_s390x_md; \
} else { \
ctx->meth = sha3_generic_md; \
}
# define KMAC_SET_MD(bitlen) \
if (S390_SHA3_CAPABLE(SHAKE_##bitlen)) { \
ctx->pad = S390X_SHAKE_##bitlen; \
ctx->meth = kmac_s390x_md; \
} else { \
ctx->meth = sha3_generic_md; \
}
#elif defined(__aarch64__) && defined(KECCAK1600_ASM)
# include "arm_arch.h"
static sha3_absorb_fn armsha3_sha3_absorb;
size_t SHA3_absorb_cext(uint64_t A[5][5], const unsigned char *inp, size_t len,
size_t r);
/*-
* Hardware-assisted ARMv8.2 SHA3 extension version of the absorb()
*/
static size_t armsha3_sha3_absorb(void *vctx, const void *inp, size_t len)
{
KECCAK1600_CTX *ctx = vctx;
return SHA3_absorb_cext(ctx->A, inp, len, ctx->block_size);
}
static PROV_SHA3_METHOD sha3_ARMSHA3_md = {
armsha3_sha3_absorb,
generic_sha3_final
};
static PROV_SHA3_METHOD shake_ARMSHA3_md =
{
armsha3_sha3_absorb,
generic_sha3_final,
generic_sha3_squeeze
};
# define SHAKE_SET_MD(uname, typ) \
if (OPENSSL_armcap_P & ARMV8_HAVE_SHA3_AND_WORTH_USING) { \
ctx->meth = shake_ARMSHA3_md; \
} else { \
ctx->meth = shake_generic_md; \
}
# define SHA3_SET_MD(uname, typ) \
if (OPENSSL_armcap_P & ARMV8_HAVE_SHA3_AND_WORTH_USING) { \
ctx->meth = sha3_ARMSHA3_md; \
} else { \
ctx->meth = sha3_generic_md; \
}
# define KMAC_SET_MD(bitlen) \
if (OPENSSL_armcap_P & ARMV8_HAVE_SHA3_AND_WORTH_USING) { \
ctx->meth = sha3_ARMSHA3_md; \
} else { \
ctx->meth = sha3_generic_md; \
}
#else
# define SHA3_SET_MD(uname, typ) ctx->meth = sha3_generic_md;
# define KMAC_SET_MD(bitlen) ctx->meth = sha3_generic_md;
# define SHAKE_SET_MD(uname, typ) ctx->meth = shake_generic_md;
#endif /* S390_SHA3 */
#define SHA3_newctx(typ, uname, name, bitlen, pad) \
static OSSL_FUNC_digest_newctx_fn name##_newctx; \
static void *name##_newctx(void *provctx) \
{ \
KECCAK1600_CTX *ctx = ossl_prov_is_running() ? OPENSSL_zalloc(sizeof(*ctx)) \
: NULL; \
\
if (ctx == NULL) \
return NULL; \
ossl_sha3_init(ctx, pad, bitlen); \
SHA3_SET_MD(uname, typ) \
return ctx; \
}
#define SHAKE_newctx(typ, uname, name, bitlen, mdlen, pad) \
static OSSL_FUNC_digest_newctx_fn name##_newctx; \
static void *name##_newctx(void *provctx) \
{ \
KECCAK1600_CTX *ctx = ossl_prov_is_running() ? OPENSSL_zalloc(sizeof(*ctx))\
: NULL; \
\
if (ctx == NULL) \
return NULL; \
ossl_keccak_init(ctx, pad, bitlen, mdlen); \
if (mdlen == 0) \
ctx->md_size = SIZE_MAX; \
SHAKE_SET_MD(uname, typ) \
return ctx; \
}
#define KMAC_newctx(uname, bitlen, pad) \
static OSSL_FUNC_digest_newctx_fn uname##_newctx; \
static void *uname##_newctx(void *provctx) \
{ \
KECCAK1600_CTX *ctx = ossl_prov_is_running() ? OPENSSL_zalloc(sizeof(*ctx)) \
: NULL; \
\
if (ctx == NULL) \
return NULL; \
ossl_keccak_init(ctx, pad, bitlen, 2 * bitlen); \
KMAC_SET_MD(bitlen) \
return ctx; \
}
#define PROV_FUNC_SHA3_DIGEST_COMMON(name, bitlen, blksize, dgstsize, flags) \
PROV_FUNC_DIGEST_GET_PARAM(name, blksize, dgstsize, flags) \
const OSSL_DISPATCH ossl_##name##_functions[] = { \
{ OSSL_FUNC_DIGEST_NEWCTX, (void (*)(void))name##_newctx }, \
{ OSSL_FUNC_DIGEST_UPDATE, (void (*)(void))keccak_update }, \
{ OSSL_FUNC_DIGEST_FINAL, (void (*)(void))keccak_final }, \
{ OSSL_FUNC_DIGEST_FREECTX, (void (*)(void))keccak_freectx }, \
{ OSSL_FUNC_DIGEST_DUPCTX, (void (*)(void))keccak_dupctx }, \
PROV_DISPATCH_FUNC_DIGEST_GET_PARAMS(name)
#define PROV_FUNC_SHA3_DIGEST(name, bitlen, blksize, dgstsize, flags) \
PROV_FUNC_SHA3_DIGEST_COMMON(name, bitlen, blksize, dgstsize, flags), \
{ OSSL_FUNC_DIGEST_INIT, (void (*)(void))keccak_init }, \
PROV_DISPATCH_FUNC_DIGEST_CONSTRUCT_END
#define PROV_FUNC_SHAKE_DIGEST(name, bitlen, blksize, dgstsize, flags) \
PROV_FUNC_SHA3_DIGEST_COMMON(name, bitlen, blksize, dgstsize, flags), \
{ OSSL_FUNC_DIGEST_SQUEEZE, (void (*)(void))shake_squeeze }, \
{ OSSL_FUNC_DIGEST_INIT, (void (*)(void))keccak_init_params }, \
{ OSSL_FUNC_DIGEST_SET_CTX_PARAMS, (void (*)(void))shake_set_ctx_params }, \
{ OSSL_FUNC_DIGEST_SETTABLE_CTX_PARAMS, \
(void (*)(void))shake_settable_ctx_params }, \
{ OSSL_FUNC_DIGEST_GET_CTX_PARAMS, (void (*)(void))shake_get_ctx_params }, \
{ OSSL_FUNC_DIGEST_GETTABLE_CTX_PARAMS, \
(void (*)(void))shake_gettable_ctx_params }, \
PROV_DISPATCH_FUNC_DIGEST_CONSTRUCT_END
static void keccak_freectx(void *vctx)
{
KECCAK1600_CTX *ctx = (KECCAK1600_CTX *)vctx;
OPENSSL_clear_free(ctx, sizeof(*ctx));
}
static void *keccak_dupctx(void *ctx)
{
KECCAK1600_CTX *in = (KECCAK1600_CTX *)ctx;
KECCAK1600_CTX *ret = ossl_prov_is_running() ? OPENSSL_malloc(sizeof(*ret))
: NULL;
if (ret != NULL)
*ret = *in;
return ret;
}
static const OSSL_PARAM *shake_gettable_ctx_params(ossl_unused void *ctx,
ossl_unused void *provctx)
{
static const OSSL_PARAM known_shake_gettable_ctx_params[] = {
{OSSL_DIGEST_PARAM_XOFLEN, OSSL_PARAM_UNSIGNED_INTEGER, NULL, 0, 0},
{OSSL_DIGEST_PARAM_SIZE, OSSL_PARAM_UNSIGNED_INTEGER, NULL, 0, 0},
OSSL_PARAM_END
};
return known_shake_gettable_ctx_params;
}
static int shake_get_ctx_params(void *vctx, OSSL_PARAM params[])
{
OSSL_PARAM *p;
KECCAK1600_CTX *ctx = (KECCAK1600_CTX *)vctx;
if (ctx == NULL)
return 0;
if (params == NULL)
return 1;
p = OSSL_PARAM_locate(params, OSSL_DIGEST_PARAM_XOFLEN);
if (p != NULL && !OSSL_PARAM_set_size_t(p, ctx->md_size)) {
ERR_raise(ERR_LIB_PROV, PROV_R_FAILED_TO_GET_PARAMETER);
return 0;
}
/* Size is an alias of xoflen */
p = OSSL_PARAM_locate(params, OSSL_DIGEST_PARAM_SIZE);
if (p != NULL && !OSSL_PARAM_set_size_t(p, ctx->md_size)) {
ERR_raise(ERR_LIB_PROV, PROV_R_FAILED_TO_GET_PARAMETER);
return 0;
}
return 1;
}
static const OSSL_PARAM *shake_settable_ctx_params(ossl_unused void *ctx,
ossl_unused void *provctx)
{
static const OSSL_PARAM known_shake_settable_ctx_params[] = {
{OSSL_DIGEST_PARAM_XOFLEN, OSSL_PARAM_UNSIGNED_INTEGER, NULL, 0, 0},
{OSSL_DIGEST_PARAM_SIZE, OSSL_PARAM_UNSIGNED_INTEGER, NULL, 0, 0},
OSSL_PARAM_END
};
return known_shake_settable_ctx_params;
}
static int shake_set_ctx_params(void *vctx, const OSSL_PARAM params[])
{
const OSSL_PARAM *p;
KECCAK1600_CTX *ctx = (KECCAK1600_CTX *)vctx;
if (ctx == NULL)
return 0;
if (params == NULL)
return 1;
p = OSSL_PARAM_locate_const(params, OSSL_DIGEST_PARAM_XOFLEN);
if (p == NULL)
p = OSSL_PARAM_locate_const(params, OSSL_DIGEST_PARAM_SIZE);
if (p != NULL && !OSSL_PARAM_get_size_t(p, &ctx->md_size)) {
ERR_raise(ERR_LIB_PROV, PROV_R_FAILED_TO_GET_PARAMETER);
return 0;
}
return 1;
}
#define IMPLEMENT_SHA3_functions(bitlen) \
SHA3_newctx(sha3, SHA3_##bitlen, sha3_##bitlen, bitlen, '\x06') \
PROV_FUNC_SHA3_DIGEST(sha3_##bitlen, bitlen, \
SHA3_BLOCKSIZE(bitlen), SHA3_MDSIZE(bitlen), \
SHA3_FLAGS)
#define IMPLEMENT_KECCAK_functions(bitlen) \
SHA3_newctx(keccak, KECCAK_##bitlen, keccak_##bitlen, bitlen, '\x01') \
PROV_FUNC_SHA3_DIGEST(keccak_##bitlen, bitlen, \
SHA3_BLOCKSIZE(bitlen), SHA3_MDSIZE(bitlen), \
SHA3_FLAGS)
#define IMPLEMENT_SHAKE_functions(bitlen) \
SHAKE_newctx(shake, SHAKE_##bitlen, shake_##bitlen, bitlen, \
0 /* no default md length */, '\x1f') \
PROV_FUNC_SHAKE_DIGEST(shake_##bitlen, bitlen, \
SHA3_BLOCKSIZE(bitlen), 0, \
SHAKE_FLAGS)
#define IMPLEMENT_KMAC_functions(bitlen) \
KMAC_newctx(keccak_kmac_##bitlen, bitlen, '\x04') \
PROV_FUNC_SHAKE_DIGEST(keccak_kmac_##bitlen, bitlen, \
SHA3_BLOCKSIZE(bitlen), KMAC_MDSIZE(bitlen), \
KMAC_FLAGS)
/* ossl_sha3_224_functions */
IMPLEMENT_SHA3_functions(224)
/* ossl_sha3_256_functions */
IMPLEMENT_SHA3_functions(256)
/* ossl_sha3_384_functions */
IMPLEMENT_SHA3_functions(384)
/* ossl_sha3_512_functions */
IMPLEMENT_SHA3_functions(512)
/* ossl_keccak_224_functions */
IMPLEMENT_KECCAK_functions(224)
/* ossl_keccak_256_functions */
IMPLEMENT_KECCAK_functions(256)
/* ossl_keccak_384_functions */
IMPLEMENT_KECCAK_functions(384)
/* ossl_keccak_512_functions */
IMPLEMENT_KECCAK_functions(512)
/* ossl_shake_128_functions */
IMPLEMENT_SHAKE_functions(128)
/* ossl_shake_256_functions */
IMPLEMENT_SHAKE_functions(256)
/* ossl_keccak_kmac_128_functions */
IMPLEMENT_KMAC_functions(128)
/* ossl_keccak_kmac_256_functions */
IMPLEMENT_KMAC_functions(256)
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