mirror of
https://github.com/yuzu-emu/mbedtls
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c70b982056
A new OID module has been created that contains the main OID searching functionality based on type-dependent arrays. A base type is used to contain the basic values (oid_descriptor_t) and that type is extended to contain type specific information (like a pk_alg_t). As a result the rsa sign and verify function prototypes have changed. They now expect a md_type_t identifier instead of the removed RSA_SIG_XXX defines. All OID definitions have been moved to oid.h All OID matching code is in the OID module. The RSA PKCS#1 functions cleaned up as a result and adapted to use the MD layer. The SSL layer cleanup up as a result and adapted to use the MD layer. The X509 parser cleaned up and matches OIDs in certificates with new module and adapted to use the MD layer. The X509 writer cleaned up and adapted to use the MD layer. Apps and tests modified accordingly
290 lines
7.6 KiB
C
290 lines
7.6 KiB
C
/*
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* Diffie-Hellman-Merkle key exchange (client side)
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*
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* Copyright (C) 2006-2011, Brainspark B.V.
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*
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* This file is part of PolarSSL (http://www.polarssl.org)
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* Lead Maintainer: Paul Bakker <polarssl_maintainer at polarssl.org>
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*
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* All rights reserved.
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License along
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* with this program; if not, write to the Free Software Foundation, Inc.,
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* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
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*/
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#ifndef _CRT_SECURE_NO_DEPRECATE
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#define _CRT_SECURE_NO_DEPRECATE 1
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#endif
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#include <string.h>
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#include <stdio.h>
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#include "polarssl/config.h"
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#include "polarssl/net.h"
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#include "polarssl/aes.h"
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#include "polarssl/dhm.h"
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#include "polarssl/rsa.h"
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#include "polarssl/sha1.h"
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#include "polarssl/entropy.h"
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#include "polarssl/ctr_drbg.h"
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#define SERVER_NAME "localhost"
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#define SERVER_PORT 11999
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#if !defined(POLARSSL_AES_C) || !defined(POLARSSL_DHM_C) || \
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!defined(POLARSSL_ENTROPY_C) || !defined(POLARSSL_NET_C) || \
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!defined(POLARSSL_RSA_C) || !defined(POLARSSL_SHA1_C) || \
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!defined(POLARSSL_FS_IO) || !defined(POLARSSL_CTR_DRBG_C)
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int main( int argc, char *argv[] )
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{
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((void) argc);
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((void) argv);
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printf("POLARSSL_AES_C and/or POLARSSL_DHM_C and/or POLARSSL_ENTROPY_C "
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"and/or POLARSSL_NET_C and/or POLARSSL_RSA_C and/or "
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"POLARSSL_SHA1_C and/or POLARSSL_FS_IO and/or "
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"POLARSSL_CTR_DRBG_C not defined.\n");
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return( 0 );
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}
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#else
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int main( int argc, char *argv[] )
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{
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FILE *f;
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int ret;
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size_t n, buflen;
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int server_fd = -1;
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unsigned char *p, *end;
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unsigned char buf[2048];
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unsigned char hash[20];
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char *pers = "dh_client";
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entropy_context entropy;
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ctr_drbg_context ctr_drbg;
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rsa_context rsa;
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dhm_context dhm;
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aes_context aes;
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((void) argc);
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((void) argv);
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memset( &rsa, 0, sizeof( rsa ) );
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memset( &dhm, 0, sizeof( dhm ) );
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/*
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* 1. Setup the RNG
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*/
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printf( "\n . Seeding the random number generator" );
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fflush( stdout );
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entropy_init( &entropy );
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if( ( ret = ctr_drbg_init( &ctr_drbg, entropy_func, &entropy,
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(unsigned char *) pers, strlen( pers ) ) ) != 0 )
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{
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printf( " failed\n ! ctr_drbg_init returned %d\n", ret );
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goto exit;
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}
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/*
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* 2. Read the server's public RSA key
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*/
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printf( "\n . Reading public key from rsa_pub.txt" );
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fflush( stdout );
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if( ( f = fopen( "rsa_pub.txt", "rb" ) ) == NULL )
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{
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ret = 1;
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printf( " failed\n ! Could not open rsa_pub.txt\n" \
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" ! Please run rsa_genkey first\n\n" );
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goto exit;
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}
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rsa_init( &rsa, RSA_PKCS_V15, 0 );
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if( ( ret = mpi_read_file( &rsa.N, 16, f ) ) != 0 ||
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( ret = mpi_read_file( &rsa.E, 16, f ) ) != 0 )
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{
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printf( " failed\n ! mpi_read_file returned %d\n\n", ret );
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goto exit;
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}
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rsa.len = ( mpi_msb( &rsa.N ) + 7 ) >> 3;
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fclose( f );
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/*
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* 3. Initiate the connection
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*/
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printf( "\n . Connecting to tcp/%s/%d", SERVER_NAME,
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SERVER_PORT );
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fflush( stdout );
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if( ( ret = net_connect( &server_fd, SERVER_NAME,
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SERVER_PORT ) ) != 0 )
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{
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printf( " failed\n ! net_connect returned %d\n\n", ret );
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goto exit;
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}
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/*
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* 4a. First get the buffer length
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*/
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printf( "\n . Receiving the server's DH parameters" );
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fflush( stdout );
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memset( buf, 0, sizeof( buf ) );
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if( ( ret = net_recv( &server_fd, buf, 2 ) ) != 2 )
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{
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printf( " failed\n ! net_recv returned %d\n\n", ret );
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goto exit;
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}
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n = buflen = ( buf[0] << 8 ) | buf[1];
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if( buflen < 1 || buflen > sizeof( buf ) )
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{
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printf( " failed\n ! Got an invalid buffer length\n\n" );
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goto exit;
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}
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/*
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* 4b. Get the DHM parameters: P, G and Ys = G^Xs mod P
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*/
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memset( buf, 0, sizeof( buf ) );
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if( ( ret = net_recv( &server_fd, buf, n ) ) != (int) n )
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{
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printf( " failed\n ! net_recv returned %d\n\n", ret );
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goto exit;
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}
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p = buf, end = buf + buflen;
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if( ( ret = dhm_read_params( &dhm, &p, end ) ) != 0 )
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{
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printf( " failed\n ! dhm_read_params returned %d\n\n", ret );
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goto exit;
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}
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if( dhm.len < 64 || dhm.len > 512 )
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{
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ret = 1;
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printf( " failed\n ! Invalid DHM modulus size\n\n" );
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goto exit;
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}
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/*
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* 5. Check that the server's RSA signature matches
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* the SHA-1 hash of (P,G,Ys)
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*/
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printf( "\n . Verifying the server's RSA signature" );
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fflush( stdout );
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p += 2;
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if( ( n = (size_t) ( end - p ) ) != rsa.len )
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{
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ret = 1;
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printf( " failed\n ! Invalid RSA signature size\n\n" );
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goto exit;
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}
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sha1( buf, (int)( p - 2 - buf ), hash );
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if( ( ret = rsa_pkcs1_verify( &rsa, RSA_PUBLIC, POLARSSL_MD_SHA1,
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0, hash, p ) ) != 0 )
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{
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printf( " failed\n ! rsa_pkcs1_verify returned %d\n\n", ret );
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goto exit;
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}
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/*
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* 6. Send our public value: Yc = G ^ Xc mod P
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*/
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printf( "\n . Sending own public value to server" );
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fflush( stdout );
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n = dhm.len;
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if( ( ret = dhm_make_public( &dhm, dhm.len, buf, n,
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ctr_drbg_random, &ctr_drbg ) ) != 0 )
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{
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printf( " failed\n ! dhm_make_public returned %d\n\n", ret );
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goto exit;
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}
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if( ( ret = net_send( &server_fd, buf, n ) ) != (int) n )
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{
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printf( " failed\n ! net_send returned %d\n\n", ret );
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goto exit;
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}
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/*
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* 7. Derive the shared secret: K = Ys ^ Xc mod P
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*/
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printf( "\n . Shared secret: " );
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fflush( stdout );
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n = dhm.len;
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if( ( ret = dhm_calc_secret( &dhm, buf, &n ) ) != 0 )
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{
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printf( " failed\n ! dhm_calc_secret returned %d\n\n", ret );
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goto exit;
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}
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for( n = 0; n < 16; n++ )
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printf( "%02x", buf[n] );
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/*
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* 8. Setup the AES-256 decryption key
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*
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* This is an overly simplified example; best practice is
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* to hash the shared secret with a random value to derive
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* the keying material for the encryption/decryption keys,
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* IVs and MACs.
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*/
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printf( "...\n . Receiving and decrypting the ciphertext" );
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fflush( stdout );
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aes_setkey_dec( &aes, buf, 256 );
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memset( buf, 0, sizeof( buf ) );
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if( ( ret = net_recv( &server_fd, buf, 16 ) ) != 16 )
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{
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printf( " failed\n ! net_recv returned %d\n\n", ret );
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goto exit;
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}
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aes_crypt_ecb( &aes, AES_DECRYPT, buf, buf );
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buf[16] = '\0';
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printf( "\n . Plaintext is \"%s\"\n\n", (char *) buf );
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exit:
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net_close( server_fd );
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rsa_free( &rsa );
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dhm_free( &dhm );
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#if defined(_WIN32)
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printf( " + Press Enter to exit this program.\n" );
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fflush( stdout ); getchar();
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#endif
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return( ret );
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}
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#endif /* POLARSSL_AES_C && POLARSSL_DHM_C && POLARSSL_ENTROPY_C &&
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POLARSSL_NET_C && POLARSSL_RSA_C && POLARSSL_SHA1_C &&
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POLARSSL_FS_IO && POLARSSL_CTR_DRBG_C */
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