CryptSelfTest.c - platform/external/tpm2 - Gitiles

 // This file was extracted from the TCG Published
 // Trusted Platform Module Library
 // Part 4: Supporting Routines
 // Family "2.0"
 // Level 00 Revision 01.16
 // October 30, 2014

 #include        "Global.h"
 #include        "CryptoEngine.h"
 #include        "InternalRoutines.h"
 #include        "AlgorithmCap_fp.h"
 //
 //
 //     10.4.2     Functions
 //
 //     10.4.2.1     RunSelfTest()
 //
 //     Local function to run self-test
 //
 static TPM_RC
 CryptRunSelfTests(
     ALGORITHM_VECTOR             *toTest            // IN: the vector of the algorithms to test
     )
 {
     TPM_ALG_ID                    alg;
     // For each of the algorithms that are in the toTestVecor, need to run a
     // test
     for(alg = TPM_ALG_FIRST; alg <= TPM_ALG_LAST; alg++)
     {
         if(TEST_BIT(alg, *toTest))
         {
             TPM_RC          result = CryptTestAlgorithm(alg, toTest);
             if(result != TPM_RC_SUCCESS)
                 return result;
         }
     }
     return TPM_RC_SUCCESS;
 }
 //
 //
 //     10.4.2.2     CryptSelfTest()
 //
 //     This function is called to start/complete a full self-test. If fullTest is NO, then only the untested algorithms
 //     will be run. If fullTest is YES, then g_untestedDecryptionAlgorithms is reinitialized and then all tests are
 //     run. This implementation of the reference design does not support processing outside the framework of a
 //     TPM command. As a consequence, this command does not complete until all tests are done. Since this
 //     can take a long time, the TPM will check after each test to see if the command is canceled. If so, then the
 //     TPM will returned TPM_RC_CANCELLED. To continue with the self-tests, call TPM2_SelfTest(fullTest ==
 //     No) and the TPM will complete the testing.
 //
 //     Error Returns                       Meaning
 //
 //     TPM_RC_CANCELED                     if the command is canceled
 //
 LIB_EXPORT
 TPM_RC
 CryptSelfTest(
     TPMI_YES_NO           fullTest             // IN: if full test is required
     )
 {
     if(g_forceFailureMode)
         FAIL(FATAL_ERROR_FORCED);
     // If the caller requested a full test, then reset the to test vector so that
     // all the tests will be run
    if(fullTest == YES)
    {
        MemoryCopy(g_toTest,
                   g_implementedAlgorithms,
                   sizeof(g_toTest), sizeof(g_toTest));
    }
    return CryptRunSelfTests(&g_toTest);
 }
 //
 //
 //     10.4.2.3     CryptIncrementalSelfTest()
 //
 //     This function is used to perform an incremental self-test. This implementation will perform the toTest
 //     values before returning. That is, it assumes that the TPM cannot perform background tasks between
 //     commands.
 //     This command may be canceled. If it is, then there is no return result. However, this command can be run
 //     again and the incremental progress will not be lost.
 //
 //     Error Returns                   Meaning
 //
 //     TPM_RC_CANCELED                 processing of this command was canceled
 //     TPM_RC_TESTING                  if toTest list is not empty
 //     TPM_RC_VALUE                    an algorithm in the toTest list is not implemented
 //
 TPM_RC
 CryptIncrementalSelfTest(
    TPML_ALG            *toTest,              // IN: list of algorithms to be tested
    TPML_ALG            *toDoList             // OUT: list of algorithms needing test
    )
 {
    ALGORITHM_VECTOR          toTestVector = {0};
    TPM_ALG_ID                alg;
    UINT32                       i;
    pAssert(toTest != NULL && toDoList != NULL);
    if(toTest->count > 0)
    {
        // Transcribe the toTest list into the toTestVector
        for(i = 0; i < toTest->count; i++)
        {
            TPM_ALG_ID      alg = toTest->algorithms[i];
                // make sure that the algorithm value is not out of range
                if((alg > TPM_ALG_LAST) || !TEST_BIT(alg, g_implementedAlgorithms))
                    return TPM_RC_VALUE;
                SET_BIT(alg, toTestVector);
           }
           // Run the test
           if(CryptRunSelfTests(&toTestVector) == TPM_RC_CANCELED)
               return TPM_RC_CANCELED;
    }
    // Fill in the toDoList with the algorithms that are still untested
    toDoList->count = 0;
    for(alg = TPM_ALG_FIRST;
        toDoList->count < MAX_ALG_LIST_SIZE && alg <= TPM_ALG_LAST;
        alg++)
    {
        if(TEST_BIT(alg, g_toTest))
            toDoList->algorithms[toDoList->count++] = alg;
    }
    return TPM_RC_SUCCESS;
 //
 }
 //
 //
 //      10.4.2.4    CryptInitializeToTest()
 //
 //      This function will initialize the data structures for testing all the algorithms. This should not be called
 //      unless CryptAlgsSetImplemented() has been called
 //
 void
 CryptInitializeToTest(
     void
     )
 {
     MemoryCopy(g_toTest,
                g_implementedAlgorithms,
                sizeof(g_toTest),
                sizeof(g_toTest));
     // Setting the algorithm to null causes the test function to just clear
     // out any algorithms for which there is no test.
     CryptTestAlgorithm(TPM_ALG_ERROR, &g_toTest);
     return;
 }
 //
 //
 //      10.4.2.5    CryptTestAlgorithm()
 //
 //      Only point of contact with the actual self tests. If a self-test fails, there is no return and the TPM goes into
 //      failure mode. The call to TestAlgorithm() uses an algorithms selector and a bit vector. When the test is
 //      run, the corresponding bit in toTest and in g_toTest is CLEAR. If toTest is NULL, then only the bit in
 //      g_toTest is CLEAR. There is a special case for the call to TestAlgorithm(). When alg is
 //      TPM_ALG_ERROR, TestAlgorithm() will CLEAR any bit in toTest for which it has no test. This allows the
 //      knowledge about which algorithms have test to be accessed through the interface that provides the test.
 //
 //      Error Returns                     Meaning
 //
 //      TPM_RC_SUCCESS                    test complete
 //      TPM_RC_CANCELED                   test was canceled
 //
 LIB_EXPORT
 TPM_RC
 CryptTestAlgorithm(
     TPM_ALG_ID                 alg,
     ALGORITHM_VECTOR          *toTest
     )
 {
    TPM_RC                   result = TPM_RC_SUCCESS;
 #ifdef SELF_TEST
    // This is the function prototype for TestAlgorithms(). It is here and not
    // in a _fp.h file to avoid a compiler error when SELF_TEST is not defined and
    // AlgorithmTexts.c is not part of the build.
    TPM_RC TestAlgorithm(TPM_ALG_ID alg, ALGORITHM_VECTOR *toTest);
    result = TestAlgorithm(alg, toTest);
 #else
    // If this is an attempt to determine the algorithms for which there is a
    // self test, pretend that all of them do. We do that by not clearing any
    // of the algorithm bits. When/if this function is called to run tests, it
    // will over report. This can be changed so that any call to check on which
    // algorithms have tests, 'toTest' can be cleared.
    if(alg != TPM_ALG_ERROR)
    {
        CLEAR_BIT(alg, g_toTest);
        if(toTest != NULL)
            CLEAR_BIT(alg, *toTest);
    }
 #endif
    return result;
 }
	// This file was extracted from the TCG Published
	// Trusted Platform Module Library
	// Part 4: Supporting Routines
	// Family "2.0"
	// Level 00 Revision 01.16
	// October 30, 2014

	#include "Global.h"
	#include "CryptoEngine.h"
	#include "InternalRoutines.h"
	#include "AlgorithmCap_fp.h"
	//
	//
	// 10.4.2 Functions
	//
	// 10.4.2.1 RunSelfTest()
	//
	// Local function to run self-test
	//
	static TPM_RC
	CryptRunSelfTests(
	ALGORITHM_VECTOR *toTest // IN: the vector of the algorithms to test
	)
	{
	TPM_ALG_ID alg;
	// For each of the algorithms that are in the toTestVecor, need to run a
	// test
	for(alg = TPM_ALG_FIRST; alg <= TPM_ALG_LAST; alg++)
	{
	if(TEST_BIT(alg, *toTest))
	{
	TPM_RC result = CryptTestAlgorithm(alg, toTest);
	if(result != TPM_RC_SUCCESS)
	return result;
	}
	}
	return TPM_RC_SUCCESS;
	}
	//
	//
	// 10.4.2.2 CryptSelfTest()
	//
	// This function is called to start/complete a full self-test. If fullTest is NO, then only the untested algorithms
	// will be run. If fullTest is YES, then g_untestedDecryptionAlgorithms is reinitialized and then all tests are
	// run. This implementation of the reference design does not support processing outside the framework of a
	// TPM command. As a consequence, this command does not complete until all tests are done. Since this
	// can take a long time, the TPM will check after each test to see if the command is canceled. If so, then the
	// TPM will returned TPM_RC_CANCELLED. To continue with the self-tests, call TPM2_SelfTest(fullTest ==
	// No) and the TPM will complete the testing.
	//
	// Error Returns Meaning
	//
	// TPM_RC_CANCELED if the command is canceled
	//
	LIB_EXPORT
	TPM_RC
	CryptSelfTest(
	TPMI_YES_NO fullTest // IN: if full test is required
	)
	{
	if(g_forceFailureMode)
	FAIL(FATAL_ERROR_FORCED);
	// If the caller requested a full test, then reset the to test vector so that
	// all the tests will be run
	if(fullTest == YES)
	{
	MemoryCopy(g_toTest,
	g_implementedAlgorithms,
	sizeof(g_toTest), sizeof(g_toTest));
	}
	return CryptRunSelfTests(&g_toTest);
	}
	//
	//
	// 10.4.2.3 CryptIncrementalSelfTest()
	//
	// This function is used to perform an incremental self-test. This implementation will perform the toTest
	// values before returning. That is, it assumes that the TPM cannot perform background tasks between
	// commands.
	// This command may be canceled. If it is, then there is no return result. However, this command can be run
	// again and the incremental progress will not be lost.
	//
	// Error Returns Meaning
	//
	// TPM_RC_CANCELED processing of this command was canceled
	// TPM_RC_TESTING if toTest list is not empty
	// TPM_RC_VALUE an algorithm in the toTest list is not implemented
	//
	TPM_RC
	CryptIncrementalSelfTest(
	TPML_ALG *toTest, // IN: list of algorithms to be tested
	TPML_ALG *toDoList // OUT: list of algorithms needing test
	)
	{
	ALGORITHM_VECTOR toTestVector = {0};
	TPM_ALG_ID alg;
	UINT32 i;
	pAssert(toTest != NULL && toDoList != NULL);
	if(toTest->count > 0)
	{
	// Transcribe the toTest list into the toTestVector
	for(i = 0; i < toTest->count; i++)
	{
	TPM_ALG_ID alg = toTest->algorithms[i];
	// make sure that the algorithm value is not out of range
	if((alg > TPM_ALG_LAST) \|\| !TEST_BIT(alg, g_implementedAlgorithms))
	return TPM_RC_VALUE;
	SET_BIT(alg, toTestVector);
	}
	// Run the test
	if(CryptRunSelfTests(&toTestVector) == TPM_RC_CANCELED)
	return TPM_RC_CANCELED;
	}
	// Fill in the toDoList with the algorithms that are still untested
	toDoList->count = 0;
	for(alg = TPM_ALG_FIRST;
	toDoList->count < MAX_ALG_LIST_SIZE && alg <= TPM_ALG_LAST;
	alg++)
	{
	if(TEST_BIT(alg, g_toTest))
	toDoList->algorithms[toDoList->count++] = alg;
	}
	return TPM_RC_SUCCESS;
	//
	}
	//
	//
	// 10.4.2.4 CryptInitializeToTest()
	//
	// This function will initialize the data structures for testing all the algorithms. This should not be called
	// unless CryptAlgsSetImplemented() has been called
	//
	void
	CryptInitializeToTest(
	void
	)
	{
	MemoryCopy(g_toTest,
	g_implementedAlgorithms,
	sizeof(g_toTest),
	sizeof(g_toTest));
	// Setting the algorithm to null causes the test function to just clear
	// out any algorithms for which there is no test.
	CryptTestAlgorithm(TPM_ALG_ERROR, &g_toTest);
	return;
	}
	//
	//
	// 10.4.2.5 CryptTestAlgorithm()
	//
	// Only point of contact with the actual self tests. If a self-test fails, there is no return and the TPM goes into
	// failure mode. The call to TestAlgorithm() uses an algorithms selector and a bit vector. When the test is
	// run, the corresponding bit in toTest and in g_toTest is CLEAR. If toTest is NULL, then only the bit in
	// g_toTest is CLEAR. There is a special case for the call to TestAlgorithm(). When alg is
	// TPM_ALG_ERROR, TestAlgorithm() will CLEAR any bit in toTest for which it has no test. This allows the
	// knowledge about which algorithms have test to be accessed through the interface that provides the test.
	//
	// Error Returns Meaning
	//
	// TPM_RC_SUCCESS test complete
	// TPM_RC_CANCELED test was canceled
	//
	LIB_EXPORT
	TPM_RC
	CryptTestAlgorithm(
	TPM_ALG_ID alg,
	ALGORITHM_VECTOR *toTest
	)
	{
	TPM_RC result = TPM_RC_SUCCESS;
	#ifdef SELF_TEST
	// This is the function prototype for TestAlgorithms(). It is here and not
	// in a _fp.h file to avoid a compiler error when SELF_TEST is not defined and
	// AlgorithmTexts.c is not part of the build.
	TPM_RC TestAlgorithm(TPM_ALG_ID alg, ALGORITHM_VECTOR *toTest);
	result = TestAlgorithm(alg, toTest);
	#else
	// If this is an attempt to determine the algorithms for which there is a
	// self test, pretend that all of them do. We do that by not clearing any
	// of the algorithm bits. When/if this function is called to run tests, it
	// will over report. This can be changed so that any call to check on which
	// algorithms have tests, 'toTest' can be cleared.
	if(alg != TPM_ALG_ERROR)
	{
	CLEAR_BIT(alg, g_toTest);
	if(toTest != NULL)
	CLEAR_BIT(alg, *toTest);
	}
	#endif
	return result;
	}