1
/*
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 *  Copyright (C) 2021 - This file is part of libecc project
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 *
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 *  Authors:
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 *      Ryad BENADJILA <[email protected]>
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 *      Arnaud EBALARD <[email protected]>
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 *
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 *  This software is licensed under a dual BSD and GPL v2 license.
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 *  See LICENSE file at the root folder of the project.
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 */
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#include "mdc2.h"
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13
/* Include DES helpers */
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#include "tdes.h"
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16
ATTRIBUTE_WARN_UNUSED_RET int mdc2_set_padding_type(mdc2_context *ctx,
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								padding_type p)
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{
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	int ret;
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	MDC2_HASH_CHECK_INITIALIZED(ctx, ret, err);
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	/* We cannot change the padding type after the first update */
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	MUST_HAVE((ctx->mdc2_total == 0), ret, err);
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	if((p != ISOIEC10118_TYPE1) && (p != ISOIEC10118_TYPE2)){
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		ret = -1;
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		goto err;
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	}
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	ctx->padding = p;
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	ret = 0;
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err:
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	return ret;
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}
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/* MDC-2 core processing. Returns 0 on success, -1 on error. */
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ATTRIBUTE_WARN_UNUSED_RET static inline int mdc2_process(mdc2_context *ctx,
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			   const u8 data[MDC2_BLOCK_SIZE])
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{
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	int ret;
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	unsigned int j;
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	u8 V[8], W[8];
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	u8 *A, *B;
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	des_context des_ctx;
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	/* Get the current internal state in A and B */
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	A = (u8*)&(ctx->mdc2_state[0]);
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	B = (u8*)&(ctx->mdc2_state[8]);
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	A[0] = (u8)((A[0] & 0x9f) | 0x40);
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	B[0] = (u8)((B[0] & 0x9f) | 0x20);
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	/* Set odd parity */
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	for(j = 0; j < 8; j++){
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		A[j] = odd_parity[A[j]];
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		B[j] = odd_parity[B[j]];
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	}
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	/* Compute V_i = M_i + E(M_i, A_i) */
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	ret = local_memset(&des_ctx, 0, sizeof(des_context)); EG(ret, err);
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	ret = des_set_key(&des_ctx, A, DES_ENCRYPTION); EG(ret, err);
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	ret = des(&des_ctx, &data[0], V); EG(ret, err);
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	for(j = 0; j < 8; j++){
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		V[j] = (V[j] ^ data[j]);
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	}
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	/* Compute W_i = M_i + E(M_i, B_i) */
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	ret = local_memset(&des_ctx, 0, sizeof(des_context)); EG(ret, err);
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	ret = des_set_key(&des_ctx, B, DES_ENCRYPTION); EG(ret, err);
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	ret = des(&des_ctx, &data[0], W); EG(ret, err);
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	for(j = 0; j < 8; j++){
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		W[j] = (W[j] ^ data[j]);
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	}
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	/* Cross the results */
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	/* In A */
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	ret = local_memcpy(&A[0], &V[0], 4); EG(ret, err);
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	ret = local_memcpy(&A[4], &W[4], 4); EG(ret, err);
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	/* In B */
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	ret = local_memcpy(&B[0], &W[0], 4); EG(ret, err);
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	ret = local_memcpy(&B[4], &V[4], 4); EG(ret, err);
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err:
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	return ret;
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}
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/* Init hash function. Returns 0 on success, -1 on error. */
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ATTRIBUTE_WARN_UNUSED_RET int mdc2_init(mdc2_context *ctx)
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{
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	int ret;
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	MUST_HAVE((ctx != NULL), ret, err);
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        /* Sanity check on size */
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	MUST_HAVE((MDC2_DIGEST_SIZE <= MAX_DIGEST_SIZE), ret, err);
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	ctx->mdc2_total = 0;
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	/* Initialize A1 */
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	ret = local_memset(&(ctx->mdc2_state[0]), 0x52, 8); EG(ret, err);
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	/* Initialize B1 */
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	ret = local_memset(&(ctx->mdc2_state[8]), 0x25, 8); EG(ret, err);
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	/* Initialize default padding type */
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	ctx->padding = ISOIEC10118_TYPE1;
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	/* Tell that we are initialized */
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	ctx->magic = MDC2_HASH_MAGIC;
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107
	ret = 0;
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109
err:
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	return ret;
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}
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ATTRIBUTE_WARN_UNUSED_RET int mdc2_update(mdc2_context *ctx, const u8 *input, u32 ilen)
114
{
115
	const u8 *data_ptr = input;
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	u32 remain_ilen = ilen;
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	u16 fill;
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	u8 left;
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	int ret;
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121
	MUST_HAVE((input != NULL) || (ilen == 0), ret, err);
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	MDC2_HASH_CHECK_INITIALIZED(ctx, ret, err);
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	/* Nothing to process, return */
125
	if (ilen == 0) {
126
		ret = 0;
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		goto err;
128
	}
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130
	/* Get what's left in our local buffer */
131
	left = (ctx->mdc2_total & 0xF);
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	fill = (u16)(MDC2_BLOCK_SIZE - left);
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	ctx->mdc2_total += ilen;
135

136
	if ((left > 0) && (remain_ilen >= fill)) {
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		/* Copy data at the end of the buffer */
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		ret = local_memcpy(ctx->mdc2_buffer + left, data_ptr, fill); EG(ret, err);
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		ret = mdc2_process(ctx, ctx->mdc2_buffer); EG(ret, err);
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		data_ptr += fill;
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		remain_ilen -= fill;
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		left = 0;
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	}
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	while (remain_ilen >= MDC2_BLOCK_SIZE) {
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		ret = mdc2_process(ctx, data_ptr); EG(ret, err);
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		data_ptr += MDC2_BLOCK_SIZE;
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		remain_ilen -= MDC2_BLOCK_SIZE;
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	}
150

151
	if (remain_ilen > 0) {
152
		ret = local_memcpy(ctx->mdc2_buffer + left, data_ptr, remain_ilen); EG(ret, err);
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	}
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	ret = 0;
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err:
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	return ret;
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}
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/* Finalize. Returns 0 on success, -1 on error.*/
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ATTRIBUTE_WARN_UNUSED_RET int mdc2_final(mdc2_context *ctx, u8 output[MDC2_DIGEST_SIZE])
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{
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	int ret;
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	unsigned int i;
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	u8 pad_byte;
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168
	MUST_HAVE((output != NULL), ret, err);
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	MDC2_HASH_CHECK_INITIALIZED(ctx, ret, err);
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171
	if(ctx->padding == ISOIEC10118_TYPE1){
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		/* "Padding method 1" in ISO-IEC-10118 */
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		/* This is our final step, so we proceed with the padding: the last block
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		 * is padded with zeroes.
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		 */
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		pad_byte = 0x00;
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		if((ctx->mdc2_total % MDC2_BLOCK_SIZE) != 0){
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			for(i = (ctx->mdc2_total % MDC2_BLOCK_SIZE); i < MDC2_BLOCK_SIZE; i++){
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				ctx->mdc2_buffer[i] = pad_byte;
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			}
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			/* And process the block */
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			ret = mdc2_process(ctx, ctx->mdc2_buffer); EG(ret, err);
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		}
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	}
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	else if(ctx->padding == ISOIEC10118_TYPE2){
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		/* "Padding method 2" in ISO-IEC-10118 */
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		/* This is our final step, so we proceed with the padding: the last block
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		 * is appended 0x80 and then padded with zeroes.
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		 */
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		ctx->mdc2_buffer[(ctx->mdc2_total % MDC2_BLOCK_SIZE)] = 0x80;
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		pad_byte = 0x00;
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		for(i = ((unsigned int)(ctx->mdc2_total % MDC2_BLOCK_SIZE) + 1); i < MDC2_BLOCK_SIZE; i++){
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			ctx->mdc2_buffer[i] = pad_byte;
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		}
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		/* And process the block */
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		ret = mdc2_process(ctx, ctx->mdc2_buffer); EG(ret, err);
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	}
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	else{
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		/* Unkown padding */
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		ret = -1;
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		goto err;
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	}
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	/* Output the hash result */
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	ret = local_memcpy(output, ctx->mdc2_state, MDC2_DIGEST_SIZE); EG(ret, err);
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	/* Tell that we are uninitialized */
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	ctx->magic = WORD(0);
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	ret = 0;
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err:
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	return ret;
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}
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/*
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 * Scattered version performing init/update/finalize on a vector of buffers
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 * 'inputs' with the length of each buffer passed via 'ilens'. The function
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 * loops on pointers in 'inputs' until it finds a NULL pointer. The function
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 * returns 0 on success, -1 on error.
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 */
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ATTRIBUTE_WARN_UNUSED_RET int mdc2_scattered(const u8 **inputs, const u32 *ilens,
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		      u8 output[MDC2_DIGEST_SIZE], padding_type p)
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{
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	mdc2_context ctx;
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	int ret, pos = 0;
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229
	MUST_HAVE((inputs != NULL) && (ilens != NULL) && (output != NULL), ret, err);
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231
	ret = mdc2_init(&ctx); EG(ret, err);
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233
	ret = mdc2_set_padding_type(&ctx, p); EG(ret, err);
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235
	while (inputs[pos] != NULL) {
236
		ret = mdc2_update(&ctx, inputs[pos], ilens[pos]); EG(ret, err);
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		pos += 1;
238
	}
239

240
	ret = mdc2_final(&ctx, output);
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242
err:
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	return ret;
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}
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246
/*
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 * Scattered version performing init/update/finalize on a vector of buffers
248
 * 'inputs' with the length of each buffer passed via 'ilens'. The function
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 * loops on pointers in 'inputs' until it finds a NULL pointer. The function
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 * returns 0 on success, -1 on error.
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 */
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ATTRIBUTE_WARN_UNUSED_RET int mdc2_scattered_padding1(const u8 **inputs, const u32 *ilens,
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		      u8 output[MDC2_DIGEST_SIZE])
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{
255
	return mdc2_scattered(inputs, ilens, output, ISOIEC10118_TYPE1);
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}
257

258
/*
259
 * Scattered version performing init/update/finalize on a vector of buffers
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 * 'inputs' with the length of each buffer passed via 'ilens'. The function
261
 * loops on pointers in 'inputs' until it finds a NULL pointer. The function
262
 * returns 0 on success, -1 on error.
263
 */
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ATTRIBUTE_WARN_UNUSED_RET int mdc2_scattered_padding2(const u8 **inputs, const u32 *ilens,
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		      u8 output[MDC2_DIGEST_SIZE])
266
{
267
	return mdc2_scattered(inputs, ilens, output, ISOIEC10118_TYPE2);
268
}
269

270
/*
271
 * Single call version performing init/update/final on given input.
272
 * Returns 0 on success, -1 on error.
273
 */
274
ATTRIBUTE_WARN_UNUSED_RET int mdc2(const u8 *input, u32 ilen, u8 output[MDC2_DIGEST_SIZE], padding_type p)
275
{
276
	mdc2_context ctx;
277
	int ret;
278

279
	ret = mdc2_init(&ctx); EG(ret, err);
280
	ret = mdc2_set_padding_type(&ctx, p); EG(ret, err);
281
	ret = mdc2_update(&ctx, input, ilen); EG(ret, err);
282
	ret = mdc2_final(&ctx, output);
283

284
err:
285
	return ret;
286
}
287

288

289
/*
290
 * Single call version performing init/update/final on given input.
291
 * Returns 0 on success, -1 on error.
292
 */
293
ATTRIBUTE_WARN_UNUSED_RET int mdc2_padding1(const u8 *input, u32 ilen, u8 output[MDC2_DIGEST_SIZE])
294
{
295
	return mdc2(input, ilen, output, ISOIEC10118_TYPE1);
296
}
297

298
/*
299
 * Single call version performing init/update/final on given input.
300
 * Returns 0 on success, -1 on error.
301
 */
302
ATTRIBUTE_WARN_UNUSED_RET int mdc2_padding2(const u8 *input, u32 ilen, u8 output[MDC2_DIGEST_SIZE])
303
{
304
	return mdc2(input, ilen, output, ISOIEC10118_TYPE2);
305
}
306

307