tests/suites/test_suite_hkdf.function - third_party/github/ARMmbed/mbedtls - Git at Google

 /* BEGIN_HEADER */
 #include "mbedtls/hkdf.h"
 #include "mbedtls/md_internal.h"
 /* END_HEADER */

 /* BEGIN_DEPENDENCIES
  * depends_on:MBEDTLS_HKDF_C
  * END_DEPENDENCIES
  */

 /* BEGIN_CASE */
 void test_hkdf( int md_alg, char *hex_ikm_string, char *hex_salt_string,
                 char *hex_info_string, char *hex_okm_string )
 {
     int ret;
     size_t ikm_len, salt_len, info_len, okm_len;
     unsigned char ikm[128] = { '\0' };
     unsigned char salt[128] = { '\0' };
     unsigned char info[128] = { '\0' };
     unsigned char expected_okm[128] = { '\0' };
     unsigned char okm[128] = { '\0' };
     /*
      * okm_hex is the string representation of okm,
      * so its size is twice the size of okm, and an extra null-termination.
      */
     unsigned char okm_hex[257] = { '\0' };

     const mbedtls_md_info_t *md = mbedtls_md_info_from_type( md_alg );
     TEST_ASSERT( md != NULL );

     ikm_len = unhexify( ikm, hex_ikm_string );
     salt_len = unhexify( salt, hex_salt_string );
     info_len = unhexify( info, hex_info_string );
     okm_len = unhexify( expected_okm, hex_okm_string );

     ret = mbedtls_hkdf( md, salt, salt_len, ikm, ikm_len, info, info_len, okm,
                         okm_len);
     TEST_ASSERT( ret == 0 );

     // Run hexify on it so that it looks nicer if the assertion fails
     hexify( okm_hex, okm, okm_len );
     TEST_ASSERT( !strcmp( (char *)okm_hex, hex_okm_string ) );
 }
 /* END_CASE */

 /* BEGIN_CASE */
 void test_hkdf_extract( int md_alg, char *hex_ikm_string,
                         char *hex_salt_string, char *hex_prk_string )
 {
     int ret;
     unsigned char *ikm = NULL;
     unsigned char *salt = NULL;
     unsigned char *prk = NULL;
     unsigned char *output_prk = NULL;
     size_t ikm_len, salt_len, prk_len, output_prk_len;

     const mbedtls_md_info_t *md = mbedtls_md_info_from_type( md_alg );
     TEST_ASSERT( md != NULL );

     output_prk_len = mbedtls_md_get_size( md );
     output_prk = mbedtls_calloc( 1, output_prk_len );

     ikm = unhexify_alloc( hex_ikm_string, &ikm_len );
     salt = unhexify_alloc( hex_salt_string, &salt_len );
     prk = unhexify_alloc( hex_prk_string, &prk_len );
     TEST_ASSERT( prk_len == output_prk_len );

     ret = mbedtls_hkdf_extract( md, salt, salt_len, ikm, ikm_len, output_prk );
     TEST_ASSERT( ret == 0 );

     TEST_ASSERT( !memcmp( output_prk, prk, prk_len ) );

 exit:
     mbedtls_free(ikm);
     mbedtls_free(salt);
     mbedtls_free(prk);
     mbedtls_free(output_prk);
 }
 /* END_CASE */

 /* BEGIN_CASE */
 void test_hkdf_expand( int md_alg, char *hex_info_string,
                        char *hex_prk_string, char *hex_okm_string )
 {
     enum { OKM_LEN  = 1024 };
     int ret;
     unsigned char *info = NULL;
     unsigned char *prk = NULL;
     unsigned char *okm = NULL;
     unsigned char *output_okm = NULL;
     size_t info_len, prk_len, okm_len;

     const mbedtls_md_info_t *md = mbedtls_md_info_from_type( md_alg );
     TEST_ASSERT( md != NULL );

     output_okm = mbedtls_calloc( OKM_LEN, 1 );

     prk = unhexify_alloc( hex_prk_string, &prk_len );
     info = unhexify_alloc( hex_info_string, &info_len );
     okm = unhexify_alloc( hex_okm_string, &okm_len );
     TEST_ASSERT( prk_len == mbedtls_md_get_size( md ) );
     TEST_ASSERT( okm_len < OKM_LEN );

     ret = mbedtls_hkdf_expand( md, prk, prk_len, info, info_len,
                                output_okm, OKM_LEN );
     TEST_ASSERT( ret == 0 );
     TEST_ASSERT( !memcmp( output_okm, okm, okm_len ) );

 exit:
     mbedtls_free(info);
     mbedtls_free(prk);
     mbedtls_free(okm);
     mbedtls_free(output_okm);
 }
 /* END_CASE */

 /* BEGIN_CASE */
 void test_hkdf_extract_ret( int hash_len, int ret )
 {
     int output_ret;
     unsigned char *salt = NULL;
     unsigned char *ikm = NULL;
     unsigned char *prk = NULL;
     size_t salt_len, ikm_len;
     struct mbedtls_md_info_t fake_md_info;

     memset( &fake_md_info, 0, sizeof( fake_md_info ) );
     fake_md_info.type = MBEDTLS_MD_NONE;
     fake_md_info.size = hash_len;

     prk = mbedtls_calloc( MBEDTLS_MD_MAX_SIZE, 1 );
     salt_len = 0;
     ikm_len = 0;

     output_ret = mbedtls_hkdf_extract( &fake_md_info, salt, salt_len,
                                        ikm, ikm_len, prk );
     TEST_ASSERT( output_ret == ret );

 exit:
     mbedtls_free(prk);
 }
 /* END_CASE */

 /* BEGIN_CASE */
 void test_hkdf_expand_ret( int hash_len, int prk_len, int okm_len, int ret )
 {
     int output_ret;
     unsigned char *info = NULL;
     unsigned char *prk = NULL;
     unsigned char *okm = NULL;
     size_t info_len;
     struct mbedtls_md_info_t fake_md_info;

     memset( &fake_md_info, 0, sizeof( fake_md_info ) );
     fake_md_info.type = MBEDTLS_MD_NONE;
     fake_md_info.size = hash_len;

     info_len = 0;

     if (prk_len > 0)
         prk = mbedtls_calloc( prk_len, 1 );

     if (okm_len > 0)
         okm = mbedtls_calloc( okm_len, 1 );

     output_ret = mbedtls_hkdf_expand( &fake_md_info, prk, prk_len,
                                       info, info_len, okm, okm_len );
     TEST_ASSERT( output_ret == ret );

 exit:
     mbedtls_free(prk);
     mbedtls_free(okm);
 }
 /* END_CASE */
	/* BEGIN_HEADER */
	#include "mbedtls/hkdf.h"
	#include "mbedtls/md_internal.h"
	/* END_HEADER */

	/* BEGIN_DEPENDENCIES
	* depends_on:MBEDTLS_HKDF_C
	* END_DEPENDENCIES
	*/

	/* BEGIN_CASE */
	void test_hkdf( int md_alg, char hex_ikm_string, char hex_salt_string,
	char hex_info_string, char hex_okm_string )
	{
	int ret;
	size_t ikm_len, salt_len, info_len, okm_len;
	unsigned char ikm[128] = { '\0' };
	unsigned char salt[128] = { '\0' };
	unsigned char info[128] = { '\0' };
	unsigned char expected_okm[128] = { '\0' };
	unsigned char okm[128] = { '\0' };
	/*
	* okm_hex is the string representation of okm,
	* so its size is twice the size of okm, and an extra null-termination.
	*/
	unsigned char okm_hex[257] = { '\0' };

	const mbedtls_md_info_t *md = mbedtls_md_info_from_type( md_alg );
	TEST_ASSERT( md != NULL );

	ikm_len = unhexify( ikm, hex_ikm_string );
	salt_len = unhexify( salt, hex_salt_string );
	info_len = unhexify( info, hex_info_string );
	okm_len = unhexify( expected_okm, hex_okm_string );

	ret = mbedtls_hkdf( md, salt, salt_len, ikm, ikm_len, info, info_len, okm,
	okm_len);
	TEST_ASSERT( ret == 0 );

	// Run hexify on it so that it looks nicer if the assertion fails
	hexify( okm_hex, okm, okm_len );
	TEST_ASSERT( !strcmp( (char *)okm_hex, hex_okm_string ) );
	}
	/* END_CASE */

	/* BEGIN_CASE */
	void test_hkdf_extract( int md_alg, char *hex_ikm_string,
	char hex_salt_string, char hex_prk_string )
	{
	int ret;
	unsigned char *ikm = NULL;
	unsigned char *salt = NULL;
	unsigned char *prk = NULL;
	unsigned char *output_prk = NULL;
	size_t ikm_len, salt_len, prk_len, output_prk_len;

	const mbedtls_md_info_t *md = mbedtls_md_info_from_type( md_alg );
	TEST_ASSERT( md != NULL );

	output_prk_len = mbedtls_md_get_size( md );
	output_prk = mbedtls_calloc( 1, output_prk_len );

	ikm = unhexify_alloc( hex_ikm_string, &ikm_len );
	salt = unhexify_alloc( hex_salt_string, &salt_len );
	prk = unhexify_alloc( hex_prk_string, &prk_len );
	TEST_ASSERT( prk_len == output_prk_len );

	ret = mbedtls_hkdf_extract( md, salt, salt_len, ikm, ikm_len, output_prk );
	TEST_ASSERT( ret == 0 );

	TEST_ASSERT( !memcmp( output_prk, prk, prk_len ) );

	exit:
	mbedtls_free(ikm);
	mbedtls_free(salt);
	mbedtls_free(prk);
	mbedtls_free(output_prk);
	}
	/* END_CASE */

	/* BEGIN_CASE */
	void test_hkdf_expand( int md_alg, char *hex_info_string,
	char hex_prk_string, char hex_okm_string )
	{
	enum { OKM_LEN = 1024 };
	int ret;
	unsigned char *info = NULL;
	unsigned char *prk = NULL;
	unsigned char *okm = NULL;
	unsigned char *output_okm = NULL;
	size_t info_len, prk_len, okm_len;

	const mbedtls_md_info_t *md = mbedtls_md_info_from_type( md_alg );
	TEST_ASSERT( md != NULL );

	output_okm = mbedtls_calloc( OKM_LEN, 1 );

	prk = unhexify_alloc( hex_prk_string, &prk_len );
	info = unhexify_alloc( hex_info_string, &info_len );
	okm = unhexify_alloc( hex_okm_string, &okm_len );
	TEST_ASSERT( prk_len == mbedtls_md_get_size( md ) );
	TEST_ASSERT( okm_len < OKM_LEN );

	ret = mbedtls_hkdf_expand( md, prk, prk_len, info, info_len,
	output_okm, OKM_LEN );
	TEST_ASSERT( ret == 0 );
	TEST_ASSERT( !memcmp( output_okm, okm, okm_len ) );

	exit:
	mbedtls_free(info);
	mbedtls_free(prk);
	mbedtls_free(okm);
	mbedtls_free(output_okm);
	}
	/* END_CASE */

	/* BEGIN_CASE */
	void test_hkdf_extract_ret( int hash_len, int ret )
	{
	int output_ret;
	unsigned char *salt = NULL;
	unsigned char *ikm = NULL;
	unsigned char *prk = NULL;
	size_t salt_len, ikm_len;
	struct mbedtls_md_info_t fake_md_info;

	memset( &fake_md_info, 0, sizeof( fake_md_info ) );
	fake_md_info.type = MBEDTLS_MD_NONE;
	fake_md_info.size = hash_len;

	prk = mbedtls_calloc( MBEDTLS_MD_MAX_SIZE, 1 );
	salt_len = 0;
	ikm_len = 0;

	output_ret = mbedtls_hkdf_extract( &fake_md_info, salt, salt_len,
	ikm, ikm_len, prk );
	TEST_ASSERT( output_ret == ret );

	exit:
	mbedtls_free(prk);
	}
	/* END_CASE */

	/* BEGIN_CASE */
	void test_hkdf_expand_ret( int hash_len, int prk_len, int okm_len, int ret )
	{
	int output_ret;
	unsigned char *info = NULL;
	unsigned char *prk = NULL;
	unsigned char *okm = NULL;
	size_t info_len;
	struct mbedtls_md_info_t fake_md_info;

	memset( &fake_md_info, 0, sizeof( fake_md_info ) );
	fake_md_info.type = MBEDTLS_MD_NONE;
	fake_md_info.size = hash_len;

	info_len = 0;

	if (prk_len > 0)
	prk = mbedtls_calloc( prk_len, 1 );

	if (okm_len > 0)
	okm = mbedtls_calloc( okm_len, 1 );

	output_ret = mbedtls_hkdf_expand( &fake_md_info, prk, prk_len,
	info, info_len, okm, okm_len );
	TEST_ASSERT( output_ret == ret );

	exit:
	mbedtls_free(prk);
	mbedtls_free(okm);
	}
	/* END_CASE */