mirror of
https://github.com/yuzu-emu/mbedtls.git
synced 2024-11-27 08:14:22 +01:00
258 lines
7.8 KiB
Plaintext
258 lines
7.8 KiB
Plaintext
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BEGIN_HEADER
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#include <polarssl/config.h>
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#include <polarssl/rsa.h>
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#include <polarssl/md.h>
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#include <polarssl/md2.h>
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#include <polarssl/md4.h>
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#include <polarssl/md5.h>
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#include <polarssl/sha1.h>
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#include <polarssl/sha2.h>
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#include <polarssl/sha4.h>
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END_HEADER
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BEGIN_CASE
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pkcs1_rsaes_oaep_encrypt:mod:radix_N:input_N:radix_E:input_E:hash:message_hex_string:seed:result_hex_str:result
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{
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unsigned char message_str[1000];
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unsigned char output[1000];
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unsigned char output_str[1000];
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unsigned char rnd_buf[1000];
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rsa_context ctx;
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int msg_len;
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rnd_info info;
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info.length = unhexify( rnd_buf, {seed} );
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info.buf = rnd_buf;
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info.per_call = 1;
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rsa_init( &ctx, RSA_PKCS_V21, {hash} );
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memset( message_str, 0x00, 1000 );
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memset( output, 0x00, 1000 );
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memset( output_str, 0x00, 1000 );
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ctx.len = {mod} / 8 + ( ( {mod} % 8 ) ? 1 : 0 );
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TEST_ASSERT( mpi_read_string( &ctx.N, {radix_N}, {input_N} ) == 0 );
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TEST_ASSERT( mpi_read_string( &ctx.E, {radix_E}, {input_E} ) == 0 );
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TEST_ASSERT( rsa_check_pubkey( &ctx ) == 0 );
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msg_len = unhexify( message_str, {message_hex_string} );
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TEST_ASSERT( rsa_pkcs1_encrypt( &ctx, &rnd_buffer_rand, &info, RSA_PUBLIC, msg_len, message_str, output ) == {result} );
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if( {result} == 0 )
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{
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hexify( output_str, output, ctx.len );
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TEST_ASSERT( strcasecmp( (char *) output_str, {result_hex_str} ) == 0 );
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}
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}
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END_CASE
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BEGIN_CASE
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pkcs1_rsaes_oaep_decrypt:mod:radix_P:input_P:radix_Q:input_Q:radix_N:input_N:radix_E:input_E:hash:result_hex_str:seed:message_hex_string:result
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{
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unsigned char message_str[1000];
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unsigned char output[1000];
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unsigned char output_str[1000];
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rsa_context ctx;
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mpi P1, Q1, H, G;
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int output_len;
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int msg_len;
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mpi_init( &P1, &Q1, &H, &G, NULL );
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rsa_init( &ctx, RSA_PKCS_V21, {hash} );
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memset( message_str, 0x00, 1000 );
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memset( output, 0x00, 1000 );
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memset( output_str, 0x00, 1000 );
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ctx.len = {mod} / 8 + ( ( {mod} % 8 ) ? 1 : 0 );
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TEST_ASSERT( mpi_read_string( &ctx.P, {radix_P}, {input_P} ) == 0 );
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TEST_ASSERT( mpi_read_string( &ctx.Q, {radix_Q}, {input_Q} ) == 0 );
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TEST_ASSERT( mpi_read_string( &ctx.N, {radix_N}, {input_N} ) == 0 );
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TEST_ASSERT( mpi_read_string( &ctx.E, {radix_E}, {input_E} ) == 0 );
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TEST_ASSERT( mpi_sub_int( &P1, &ctx.P, 1 ) == 0 );
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TEST_ASSERT( mpi_sub_int( &Q1, &ctx.Q, 1 ) == 0 );
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TEST_ASSERT( mpi_mul_mpi( &H, &P1, &Q1 ) == 0 );
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TEST_ASSERT( mpi_gcd( &G, &ctx.E, &H ) == 0 );
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TEST_ASSERT( mpi_inv_mod( &ctx.D , &ctx.E, &H ) == 0 );
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TEST_ASSERT( mpi_mod_mpi( &ctx.DP, &ctx.D, &P1 ) == 0 );
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TEST_ASSERT( mpi_mod_mpi( &ctx.DQ, &ctx.D, &Q1 ) == 0 );
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TEST_ASSERT( mpi_inv_mod( &ctx.QP, &ctx.Q, &ctx.P ) == 0 );
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TEST_ASSERT( rsa_check_privkey( &ctx ) == 0 );
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msg_len = unhexify( message_str, {message_hex_string} );
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TEST_ASSERT( rsa_pkcs1_decrypt( &ctx, RSA_PRIVATE, &output_len, message_str, output, 1000 ) == {result} );
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if( {result} == 0 )
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{
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hexify( output_str, output, ctx.len );
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TEST_ASSERT( strncasecmp( (char *) output_str, {result_hex_str}, strlen( {result_hex_str} ) ) == 0 );
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}
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}
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END_CASE
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BEGIN_CASE
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pkcs1_rsassa_pss_sign:mod:radix_P:input_P:radix_Q:input_Q:radix_N:input_N:radix_E:input_E:digest:hash:message_hex_string:salt:result_hex_str:result
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{
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unsigned char message_str[1000];
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unsigned char hash_result[1000];
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unsigned char output[1000];
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unsigned char output_str[1000];
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unsigned char rnd_buf[1000];
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rsa_context ctx;
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mpi P1, Q1, H, G;
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int msg_len;
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rnd_info info;
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info.length = unhexify( rnd_buf, {salt} );
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info.buf = rnd_buf;
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info.per_call = 1;
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mpi_init( &P1, &Q1, &H, &G, NULL );
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rsa_init( &ctx, RSA_PKCS_V21, {hash} );
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memset( message_str, 0x00, 1000 );
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memset( hash_result, 0x00, 1000 );
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memset( output, 0x00, 1000 );
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memset( output_str, 0x00, 1000 );
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ctx.len = {mod} / 8 + ( ( {mod} % 8 ) ? 1 : 0 );
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TEST_ASSERT( mpi_read_string( &ctx.P, {radix_P}, {input_P} ) == 0 );
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TEST_ASSERT( mpi_read_string( &ctx.Q, {radix_Q}, {input_Q} ) == 0 );
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TEST_ASSERT( mpi_read_string( &ctx.N, {radix_N}, {input_N} ) == 0 );
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TEST_ASSERT( mpi_read_string( &ctx.E, {radix_E}, {input_E} ) == 0 );
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TEST_ASSERT( mpi_sub_int( &P1, &ctx.P, 1 ) == 0 );
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TEST_ASSERT( mpi_sub_int( &Q1, &ctx.Q, 1 ) == 0 );
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TEST_ASSERT( mpi_mul_mpi( &H, &P1, &Q1 ) == 0 );
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TEST_ASSERT( mpi_gcd( &G, &ctx.E, &H ) == 0 );
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TEST_ASSERT( mpi_inv_mod( &ctx.D , &ctx.E, &H ) == 0 );
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TEST_ASSERT( mpi_mod_mpi( &ctx.DP, &ctx.D, &P1 ) == 0 );
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TEST_ASSERT( mpi_mod_mpi( &ctx.DQ, &ctx.D, &Q1 ) == 0 );
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TEST_ASSERT( mpi_inv_mod( &ctx.QP, &ctx.Q, &ctx.P ) == 0 );
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TEST_ASSERT( rsa_check_privkey( &ctx ) == 0 );
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msg_len = unhexify( message_str, {message_hex_string} );
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switch( {digest} )
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{
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#ifdef POLARSSL_MD2_C
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case SIG_RSA_MD2:
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md2( message_str, msg_len, hash_result );
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break;
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#endif
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#ifdef POLARSSL_MD4_C
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case SIG_RSA_MD4:
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md4( message_str, msg_len, hash_result );
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break;
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#endif
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#ifdef POLARSSL_MD5_C
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case SIG_RSA_MD5:
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md5( message_str, msg_len, hash_result );
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break;
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#endif
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#ifdef POLARSSL_SHA1_C
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case SIG_RSA_SHA1:
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sha1( message_str, msg_len, hash_result );
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break;
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#endif
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#ifdef POLARSSL_SHA2_C
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case SIG_RSA_SHA224:
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sha2( message_str, msg_len, hash_result, 1 );
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break;
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case SIG_RSA_SHA256:
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sha2( message_str, msg_len, hash_result, 0 );
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break;
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#endif
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#ifdef POLARSSL_SHA4_C
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case SIG_RSA_SHA384:
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sha4( message_str, msg_len, hash_result, 1 );
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break;
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case SIG_RSA_SHA512:
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sha4( message_str, msg_len, hash_result, 0 );
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break;
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#endif
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}
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TEST_ASSERT( rsa_pkcs1_sign( &ctx, &rnd_buffer_rand, &info, RSA_PRIVATE, {digest}, 0, hash_result, output ) == {result} );
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if( {result} == 0 )
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{
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hexify( output_str, output, ctx.len);
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TEST_ASSERT( strcasecmp( (char *) output_str, {result_hex_str} ) == 0 );
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}
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}
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END_CASE
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BEGIN_CASE
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pkcs1_rsassa_pss_verify:mod:radix_N:input_N:radix_E:input_E:digest:hash:message_hex_string:salt:result_hex_str:result
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{
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unsigned char message_str[1000];
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unsigned char hash_result[1000];
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unsigned char result_str[1000];
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rsa_context ctx;
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int msg_len;
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rsa_init( &ctx, RSA_PKCS_V21, {hash} );
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memset( message_str, 0x00, 1000 );
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memset( hash_result, 0x00, 1000 );
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memset( result_str, 0x00, 1000 );
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ctx.len = {mod} / 8 + ( ( {mod} % 8 ) ? 1 : 0 );
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TEST_ASSERT( mpi_read_string( &ctx.N, {radix_N}, {input_N} ) == 0 );
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TEST_ASSERT( mpi_read_string( &ctx.E, {radix_E}, {input_E} ) == 0 );
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TEST_ASSERT( rsa_check_pubkey( &ctx ) == 0 );
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msg_len = unhexify( message_str, {message_hex_string} );
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unhexify( result_str, {result_hex_str} );
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switch( {digest} )
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{
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#ifdef POLARSSL_MD2_C
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case SIG_RSA_MD2:
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md2( message_str, msg_len, hash_result );
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break;
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#endif
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#ifdef POLARSSL_MD4_C
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case SIG_RSA_MD4:
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md4( message_str, msg_len, hash_result );
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break;
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#endif
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#ifdef POLARSSL_MD5_C
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case SIG_RSA_MD5:
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md5( message_str, msg_len, hash_result );
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break;
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#endif
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#ifdef POLARSSL_SHA1_C
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case SIG_RSA_SHA1:
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sha1( message_str, msg_len, hash_result );
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break;
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#endif
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#ifdef POLARSSL_SHA2_C
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case SIG_RSA_SHA224:
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sha2( message_str, msg_len, hash_result, 1 );
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break;
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case SIG_RSA_SHA256:
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sha2( message_str, msg_len, hash_result, 0 );
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break;
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#endif
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#ifdef POLARSSL_SHA4_C
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case SIG_RSA_SHA384:
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sha4( message_str, msg_len, hash_result, 1 );
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break;
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case SIG_RSA_SHA512:
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sha4( message_str, msg_len, hash_result, 0 );
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break;
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#endif
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}
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TEST_ASSERT( rsa_pkcs1_verify( &ctx, RSA_PUBLIC, {digest}, 0, hash_result, result_str ) == {result} );
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}
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END_CASE
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