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ed576acdf5
For functions that exist in 1.1.1 provide a simple aliases via #define. Fixes #15236 Functions with OSSL_DECODER_, OSSL_ENCODER_, OSSL_STORE_LOADER_, EVP_KEYEXCH_, EVP_KEM_, EVP_ASYM_CIPHER_, EVP_SIGNATURE_, EVP_KEYMGMT_, EVP_RAND_, EVP_MAC_, EVP_KDF_, EVP_PKEY_, EVP_MD_, and EVP_CIPHER_ prefixes are renamed. Reviewed-by: Paul Dale <pauli@openssl.org> (Merged from https://github.com/openssl/openssl/pull/15405)
394 lines
10 KiB
C
394 lines
10 KiB
C
/*
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* Copyright 2018-2021 The OpenSSL Project Authors. All Rights Reserved.
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*
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* Licensed under the Apache License 2.0 (the "License"). You may not use
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* this file except in compliance with the License. You can obtain a copy
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* in the file LICENSE in the source distribution or at
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* https://www.openssl.org/source/license.html
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*/
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#include <string.h>
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#include <stdlib.h>
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#include <openssl/crypto.h>
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#include <openssl/evp.h>
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#include <openssl/core_names.h>
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#include <openssl/params.h>
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#include "internal/endian.h"
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#include "crypto/modes.h"
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#include "crypto/siv.h"
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#ifndef OPENSSL_NO_SIV
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__owur static ossl_inline uint32_t rotl8(uint32_t x)
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{
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return (x << 8) | (x >> 24);
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}
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__owur static ossl_inline uint32_t rotr8(uint32_t x)
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{
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return (x >> 8) | (x << 24);
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}
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__owur static ossl_inline uint64_t byteswap8(uint64_t x)
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{
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uint32_t high = (uint32_t)(x >> 32);
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uint32_t low = (uint32_t)x;
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high = (rotl8(high) & 0x00ff00ff) | (rotr8(high) & 0xff00ff00);
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low = (rotl8(low) & 0x00ff00ff) | (rotr8(low) & 0xff00ff00);
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return ((uint64_t)low) << 32 | (uint64_t)high;
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}
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__owur static ossl_inline uint64_t siv128_getword(SIV_BLOCK const *b, size_t i)
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{
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DECLARE_IS_ENDIAN;
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if (IS_LITTLE_ENDIAN)
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return byteswap8(b->word[i]);
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return b->word[i];
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}
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static ossl_inline void siv128_putword(SIV_BLOCK *b, size_t i, uint64_t x)
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{
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DECLARE_IS_ENDIAN;
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if (IS_LITTLE_ENDIAN)
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b->word[i] = byteswap8(x);
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else
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b->word[i] = x;
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}
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static ossl_inline void siv128_xorblock(SIV_BLOCK *x,
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SIV_BLOCK const *y)
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{
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x->word[0] ^= y->word[0];
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x->word[1] ^= y->word[1];
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}
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/*
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* Doubles |b|, which is 16 bytes representing an element
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* of GF(2**128) modulo the irreducible polynomial
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* x**128 + x**7 + x**2 + x + 1.
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* Assumes two's-complement arithmetic
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*/
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static ossl_inline void siv128_dbl(SIV_BLOCK *b)
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{
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uint64_t high = siv128_getword(b, 0);
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uint64_t low = siv128_getword(b, 1);
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uint64_t high_carry = high & (((uint64_t)1) << 63);
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uint64_t low_carry = low & (((uint64_t)1) << 63);
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int64_t low_mask = -((int64_t)(high_carry >> 63)) & 0x87;
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uint64_t high_mask = low_carry >> 63;
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high = (high << 1) | high_mask;
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low = (low << 1) ^ (uint64_t)low_mask;
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siv128_putword(b, 0, high);
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siv128_putword(b, 1, low);
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}
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__owur static ossl_inline int siv128_do_s2v_p(SIV128_CONTEXT *ctx, SIV_BLOCK *out,
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unsigned char const* in, size_t len)
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{
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SIV_BLOCK t;
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size_t out_len = sizeof(out->byte);
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EVP_MAC_CTX *mac_ctx;
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int ret = 0;
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mac_ctx = EVP_MAC_CTX_dup(ctx->mac_ctx_init);
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if (mac_ctx == NULL)
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return 0;
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if (len >= SIV_LEN) {
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if (!EVP_MAC_update(mac_ctx, in, len - SIV_LEN))
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goto err;
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memcpy(&t, in + (len-SIV_LEN), SIV_LEN);
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siv128_xorblock(&t, &ctx->d);
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if (!EVP_MAC_update(mac_ctx, t.byte, SIV_LEN))
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goto err;
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} else {
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memset(&t, 0, sizeof(t));
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memcpy(&t, in, len);
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t.byte[len] = 0x80;
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siv128_dbl(&ctx->d);
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siv128_xorblock(&t, &ctx->d);
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if (!EVP_MAC_update(mac_ctx, t.byte, SIV_LEN))
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goto err;
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}
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if (!EVP_MAC_final(mac_ctx, out->byte, &out_len, sizeof(out->byte))
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|| out_len != SIV_LEN)
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goto err;
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ret = 1;
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err:
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EVP_MAC_CTX_free(mac_ctx);
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return ret;
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}
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__owur static ossl_inline int siv128_do_encrypt(EVP_CIPHER_CTX *ctx, unsigned char *out,
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unsigned char const *in, size_t len,
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SIV_BLOCK *icv)
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{
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int out_len = (int)len;
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if (!EVP_CipherInit_ex(ctx, NULL, NULL, NULL, icv->byte, 1))
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return 0;
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return EVP_EncryptUpdate(ctx, out, &out_len, in, out_len);
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}
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/*
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* Create a new SIV128_CONTEXT
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*/
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SIV128_CONTEXT *ossl_siv128_new(const unsigned char *key, int klen,
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EVP_CIPHER *cbc, EVP_CIPHER *ctr,
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OSSL_LIB_CTX *libctx, const char *propq)
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{
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SIV128_CONTEXT *ctx;
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int ret;
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if ((ctx = OPENSSL_malloc(sizeof(*ctx))) != NULL) {
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ret = ossl_siv128_init(ctx, key, klen, cbc, ctr, libctx, propq);
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if (ret)
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return ctx;
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OPENSSL_free(ctx);
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}
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return NULL;
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}
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/*
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* Initialise an existing SIV128_CONTEXT
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*/
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int ossl_siv128_init(SIV128_CONTEXT *ctx, const unsigned char *key, int klen,
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const EVP_CIPHER *cbc, const EVP_CIPHER *ctr,
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OSSL_LIB_CTX *libctx, const char *propq)
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{
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static const unsigned char zero[SIV_LEN] = { 0 };
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size_t out_len = SIV_LEN;
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EVP_MAC_CTX *mac_ctx = NULL;
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OSSL_PARAM params[3];
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const char *cbc_name;
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if (ctx == NULL)
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return 0;
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memset(&ctx->d, 0, sizeof(ctx->d));
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EVP_CIPHER_CTX_free(ctx->cipher_ctx);
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EVP_MAC_CTX_free(ctx->mac_ctx_init);
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EVP_MAC_free(ctx->mac);
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ctx->mac = NULL;
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ctx->cipher_ctx = NULL;
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ctx->mac_ctx_init = NULL;
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if (key == NULL || cbc == NULL || ctr == NULL)
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return 0;
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cbc_name = EVP_CIPHER_get0_name(cbc);
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params[0] = OSSL_PARAM_construct_utf8_string(OSSL_MAC_PARAM_CIPHER,
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(char *)cbc_name, 0);
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params[1] = OSSL_PARAM_construct_octet_string(OSSL_MAC_PARAM_KEY,
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(void *)key, klen);
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params[2] = OSSL_PARAM_construct_end();
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if ((ctx->cipher_ctx = EVP_CIPHER_CTX_new()) == NULL
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|| (ctx->mac =
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EVP_MAC_fetch(libctx, OSSL_MAC_NAME_CMAC, propq)) == NULL
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|| (ctx->mac_ctx_init = EVP_MAC_CTX_new(ctx->mac)) == NULL
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|| !EVP_MAC_CTX_set_params(ctx->mac_ctx_init, params)
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|| !EVP_EncryptInit_ex(ctx->cipher_ctx, ctr, NULL, key + klen, NULL)
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|| (mac_ctx = EVP_MAC_CTX_dup(ctx->mac_ctx_init)) == NULL
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|| !EVP_MAC_update(mac_ctx, zero, sizeof(zero))
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|| !EVP_MAC_final(mac_ctx, ctx->d.byte, &out_len,
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sizeof(ctx->d.byte))) {
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EVP_CIPHER_CTX_free(ctx->cipher_ctx);
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EVP_MAC_CTX_free(ctx->mac_ctx_init);
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EVP_MAC_CTX_free(mac_ctx);
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EVP_MAC_free(ctx->mac);
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return 0;
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}
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EVP_MAC_CTX_free(mac_ctx);
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ctx->final_ret = -1;
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ctx->crypto_ok = 1;
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return 1;
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}
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/*
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* Copy an SIV128_CONTEXT object
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*/
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int ossl_siv128_copy_ctx(SIV128_CONTEXT *dest, SIV128_CONTEXT *src)
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{
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memcpy(&dest->d, &src->d, sizeof(src->d));
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if (dest->cipher_ctx == NULL) {
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dest->cipher_ctx = EVP_CIPHER_CTX_new();
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if (dest->cipher_ctx == NULL)
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return 0;
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}
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if (!EVP_CIPHER_CTX_copy(dest->cipher_ctx, src->cipher_ctx))
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return 0;
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EVP_MAC_CTX_free(dest->mac_ctx_init);
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dest->mac_ctx_init = EVP_MAC_CTX_dup(src->mac_ctx_init);
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if (dest->mac_ctx_init == NULL)
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return 0;
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dest->mac = src->mac;
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if (dest->mac != NULL)
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EVP_MAC_up_ref(dest->mac);
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return 1;
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}
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/*
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* Provide any AAD. This can be called multiple times.
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* Per RFC5297, the last piece of associated data
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* is the nonce, but it's not treated special
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*/
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int ossl_siv128_aad(SIV128_CONTEXT *ctx, const unsigned char *aad,
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size_t len)
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{
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SIV_BLOCK mac_out;
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size_t out_len = SIV_LEN;
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EVP_MAC_CTX *mac_ctx;
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siv128_dbl(&ctx->d);
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if ((mac_ctx = EVP_MAC_CTX_dup(ctx->mac_ctx_init)) == NULL
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|| !EVP_MAC_update(mac_ctx, aad, len)
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|| !EVP_MAC_final(mac_ctx, mac_out.byte, &out_len,
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sizeof(mac_out.byte))
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|| out_len != SIV_LEN) {
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EVP_MAC_CTX_free(mac_ctx);
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return 0;
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}
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EVP_MAC_CTX_free(mac_ctx);
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siv128_xorblock(&ctx->d, &mac_out);
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return 1;
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}
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/*
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* Provide any data to be encrypted. This can be called once.
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*/
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int ossl_siv128_encrypt(SIV128_CONTEXT *ctx,
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const unsigned char *in, unsigned char *out,
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size_t len)
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{
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SIV_BLOCK q;
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/* can only do one crypto operation */
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if (ctx->crypto_ok == 0)
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return 0;
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ctx->crypto_ok--;
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if (!siv128_do_s2v_p(ctx, &q, in, len))
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return 0;
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memcpy(ctx->tag.byte, &q, SIV_LEN);
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q.byte[8] &= 0x7f;
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q.byte[12] &= 0x7f;
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if (!siv128_do_encrypt(ctx->cipher_ctx, out, in, len, &q))
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return 0;
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ctx->final_ret = 0;
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return len;
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}
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/*
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* Provide any data to be decrypted. This can be called once.
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*/
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int ossl_siv128_decrypt(SIV128_CONTEXT *ctx,
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const unsigned char *in, unsigned char *out,
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size_t len)
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{
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unsigned char* p;
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SIV_BLOCK t, q;
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int i;
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/* can only do one crypto operation */
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if (ctx->crypto_ok == 0)
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return 0;
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ctx->crypto_ok--;
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memcpy(&q, ctx->tag.byte, SIV_LEN);
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q.byte[8] &= 0x7f;
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q.byte[12] &= 0x7f;
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if (!siv128_do_encrypt(ctx->cipher_ctx, out, in, len, &q)
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|| !siv128_do_s2v_p(ctx, &t, out, len))
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return 0;
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p = ctx->tag.byte;
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for (i = 0; i < SIV_LEN; i++)
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t.byte[i] ^= p[i];
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if ((t.word[0] | t.word[1]) != 0) {
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OPENSSL_cleanse(out, len);
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return 0;
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}
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ctx->final_ret = 0;
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return len;
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}
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/*
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* Return the already calculated final result.
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*/
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int ossl_siv128_finish(SIV128_CONTEXT *ctx)
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{
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return ctx->final_ret;
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}
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/*
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* Set the tag
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*/
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int ossl_siv128_set_tag(SIV128_CONTEXT *ctx, const unsigned char *tag, size_t len)
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{
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if (len != SIV_LEN)
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return 0;
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/* Copy the tag from the supplied buffer */
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memcpy(ctx->tag.byte, tag, len);
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return 1;
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}
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/*
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* Retrieve the calculated tag
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*/
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int ossl_siv128_get_tag(SIV128_CONTEXT *ctx, unsigned char *tag, size_t len)
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{
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if (len != SIV_LEN)
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return 0;
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/* Copy the tag into the supplied buffer */
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memcpy(tag, ctx->tag.byte, len);
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return 1;
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}
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/*
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* Release all resources
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*/
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int ossl_siv128_cleanup(SIV128_CONTEXT *ctx)
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{
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if (ctx != NULL) {
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EVP_CIPHER_CTX_free(ctx->cipher_ctx);
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ctx->cipher_ctx = NULL;
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EVP_MAC_CTX_free(ctx->mac_ctx_init);
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ctx->mac_ctx_init = NULL;
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EVP_MAC_free(ctx->mac);
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ctx->mac = NULL;
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OPENSSL_cleanse(&ctx->d, sizeof(ctx->d));
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OPENSSL_cleanse(&ctx->tag, sizeof(ctx->tag));
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ctx->final_ret = -1;
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ctx->crypto_ok = 1;
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}
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return 1;
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}
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int ossl_siv128_speed(SIV128_CONTEXT *ctx, int arg)
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{
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ctx->crypto_ok = (arg == 1) ? -1 : 1;
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return 1;
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}
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#endif /* OPENSSL_NO_SIV */
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