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/*
 * Run list of standard CBC test vectors through encode and decode checks.
 */

#include <stdlib.h>
#include <stdio.h>
#include <stdint.h>
#include <string.h>
#include <aes_cbc.h>
#include "types.h"
#include "cbc_std_vectors.h"

typedef void (*aes_cbc_generic) (uint8_t * in, uint8_t * IV, uint8_t * keys, uint8_t * out,
				 uint64_t len_bytes);

int check_data(uint8_t * test, uint8_t * expected, uint64_t len, char *data_name)
{
	int mismatch;
	int OK = 0;
	uint64_t a;

	mismatch = memcmp(test, expected, len);
	if (!mismatch) {
		return OK;

	} else {
		OK = 1;
		printf("  failed %s \t\t", data_name);
		for (a = 0; a < len; a++) {
			if (test[a] != expected[a]) {
				printf(" '%x' != '%x' at %lx of %lx\n",
				       test[a], expected[a], a, len);
				break;
			}
		}
	}
	return OK;
}

int check_vector(struct cbc_vector *vector)
{
	uint8_t *pt_test = NULL;
	int OK = 0;
	aes_cbc_generic enc;
	aes_cbc_generic dec;

	DEBUG_PRINT((" Keylen:%d PLen:%d ", (int)vector->K_LEN, (int)vector->P_LEN));
	DEBUG_PRINT((" K:%p P:%p C:%p IV:%p expC:%p Keys:%p ", vector->K, vector->P, vector->C,
		     vector->IV, vector->EXP_C, vector->KEYS));
	printf(".");

	switch (vector->K_LEN) {
	case CBC_128_BITS:
		enc = (aes_cbc_generic) & aes_cbc_enc_128;
		dec = (aes_cbc_generic) & aes_cbc_dec_128;
		DEBUG_PRINT((" CBC128 "));
		break;
	case CBC_192_BITS:
		enc = (aes_cbc_generic) & aes_cbc_enc_192;
		dec = (aes_cbc_generic) & aes_cbc_dec_192;
		DEBUG_PRINT((" CBC192 "));
		break;
	case CBC_256_BITS:
		enc = (aes_cbc_generic) & aes_cbc_enc_256;
		dec = (aes_cbc_generic) & aes_cbc_dec_256;
		DEBUG_PRINT((" CBC256 "));
		break;
	default:
		printf("Invalid key length: %d\n", vector->K_LEN);
		return 1;
	}

	// Allocate space for the calculated ciphertext
	pt_test = malloc(vector->P_LEN);

	if (pt_test == NULL) {
		fprintf(stderr, "Can't allocate ciphertext memory\n");
		return 1;
	}

	aes_cbc_precomp(vector->K, vector->K_LEN, vector->KEYS);

	////
	// ISA-l Encrypt
	////
	enc(vector->P, vector->IV, vector->KEYS->enc_keys, vector->C, vector->P_LEN);

	if (NULL != vector->EXP_C) {	//when the encrypted text is known verify correct
		OK |= check_data(vector->EXP_C, vector->C, vector->P_LEN,
				 "ISA-L expected cypher text (C)");
	}
	memcpy(pt_test, vector->P, vector->P_LEN);
	memset(vector->P, 0, vector->P_LEN);

	////
	// ISA-l Decrypt
	////
	dec(vector->C, vector->IV, vector->KEYS->dec_keys, vector->P, vector->P_LEN);
	OK |= check_data(vector->P, pt_test, vector->P_LEN, "ISA-L decrypted plain text (P)");
	DEBUG_PRINT((OK ? "Failed\n" : "Passed\n"));

	free(pt_test);
	return OK;
}

int test_std_combinations(void)
{
	int const vectors_cnt = sizeof(cbc_vectors) / sizeof(cbc_vectors[0]);
	int i;
	uint8_t *iv = NULL;

	printf("AES CBC standard test vectors: ");

	posix_memalign((void **)&iv, 16, (CBC_IV_DATA_LEN));
	if (NULL == iv)
		return 1;

	for (i = 0; (i < vectors_cnt); i++) {
		struct cbc_vector vect = cbc_vectors[i];

		posix_memalign((void **)&(vect.KEYS), 16, sizeof(*vect.KEYS));
		if (NULL == vect.KEYS)
			return 1;

		// IV data must be aligned to 16 byte boundary so move data in
		// aligned buffer and change out the pointer
		memcpy(iv, vect.IV, CBC_IV_DATA_LEN);
		vect.IV = iv;
		vect.C = malloc(vect.P_LEN);
		if (NULL == vect.C)
			return 1;

		DEBUG_PRINT(("vector[%d of %d] ", i, vectors_cnt));

		if (0 != check_vector(&vect))
			return 1;

		aligned_free(vect.KEYS);
		free(vect.C);
	}

	aligned_free(iv);
	return 0;
}

int main(void)
{
	uint32_t OK = 0;

	OK = test_std_combinations();

	printf(0 == OK ? "Pass\n" : "Fail\n");
	return OK;
}