Attest_spt.c - platform/external/tpm2 - Git at Google

 // 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 "InternalRoutines.h"
 #include "Attest_spt_fp.h"
 //
 //
 //          Functions
 //
 //          FillInAttestInfo()
 //
 //     Fill in common fields of TPMS_ATTEST structure.
 //
 //     Error Returns                     Meaning
 //
 //     TPM_RC_KEY                        key referenced by signHandle is not a signing key
 //     TPM_RC_SCHEME                     both scheme and key's default scheme are empty; or scheme is
 //                                       empty while key's default scheme requires explicit input scheme (split
 //                                       signing); or non-empty default key scheme differs from scheme
 //
 TPM_RC
 FillInAttestInfo(
      TPMI_DH_OBJECT         signHandle,            //   IN: handle of signing object
      TPMT_SIG_SCHEME       *scheme,                //   IN/OUT: scheme to be used for signing
      TPM2B_DATA            *data,                  //   IN: qualifying data
      TPMS_ATTEST           *attest                 //   OUT: attest structure
      )
 {
      TPM_RC                         result;
      TPMI_RH_HIERARCHY              signHierarhcy;
      result = CryptSelectSignScheme(signHandle, scheme);
      if(result != TPM_RC_SUCCESS)
          return result;
      // Magic number
      attest->magic = TPM_GENERATED_VALUE;
      if(signHandle == TPM_RH_NULL)
      {
          BYTE     *buffer;
          INT32     bufferSize;
          // For null sign handle, the QN is TPM_RH_NULL
          buffer = attest->qualifiedSigner.t.name;
          bufferSize = sizeof(TPM_HANDLE);
          attest->qualifiedSigner.t.size =
               TPM_HANDLE_Marshal(&signHandle, &buffer, &bufferSize);
      }
      else
      {
          // Certifying object qualified name
          // if the scheme is anonymous, this is an empty buffer
          if(CryptIsSchemeAnonymous(scheme->scheme))
               attest->qualifiedSigner.t.size = 0;
          else
               ObjectGetQualifiedName(signHandle, &attest->qualifiedSigner);
    }
    // current clock in plain text
    TimeFillInfo(&attest->clockInfo);
    // Firmware version in plain text
    attest->firmwareVersion = ((UINT64) gp.firmwareV1 << (sizeof(UINT32) * 8));
    attest->firmwareVersion += gp.firmwareV2;
    // Get the hierarchy of sign object. For NULL sign handle, the hierarchy
    // will be TPM_RH_NULL
    signHierarhcy = EntityGetHierarchy(signHandle);
    if(signHierarhcy != TPM_RH_PLATFORM && signHierarhcy != TPM_RH_ENDORSEMENT)
    {
        // For sign object is not in platform or endorsement hierarchy,
        // obfuscate the clock and firmwereVersion information
        UINT64          obfuscation[2];
        TPMI_ALG_HASH   hashAlg;
          // Get hash algorithm
          if(signHandle == TPM_RH_NULL || signHandle == TPM_RH_OWNER)
          {
               hashAlg = CONTEXT_INTEGRITY_HASH_ALG;
          }
          else
          {
               OBJECT          *signObject = NULL;
               signObject = ObjectGet(signHandle);
               hashAlg = signObject->publicArea.nameAlg;
          }
          KDFa(hashAlg, &gp.shProof.b, "OBFUSCATE",
                &attest->qualifiedSigner.b, NULL, 128, (BYTE *)&obfuscation[0], NULL);
          // Obfuscate data
          attest->firmwareVersion += obfuscation[0];
          attest->clockInfo.resetCount += (UINT32)(obfuscation[1] >> 32);
          attest->clockInfo.restartCount += (UINT32)obfuscation[1];
    }
    // External data
    if(CryptIsSchemeAnonymous(scheme->scheme))
        attest->extraData.t.size = 0;
    else
    {
        // If we move the data to the attestation structure, then we will not use
        // it in the signing operation except as part of the signed data
        attest->extraData = *data;
        data->t.size = 0;
    }
    return TPM_RC_SUCCESS;
 }
 //
 //
 //          SignAttestInfo()
 //
 //     Sign a TPMS_ATTEST structure. If signHandle is TPM_RH_NULL, a null signature is returned.
 //
 //
 //
 //
 //      Error Returns                     Meaning
 //
 //      TPM_RC_ATTRIBUTES                 signHandle references not a signing key
 //      TPM_RC_SCHEME                     scheme is not compatible with signHandle type
 //      TPM_RC_VALUE                      digest generated for the given scheme is greater than the modulus of
 //                                        signHandle (for an RSA key); invalid commit status or failed to
 //                                        generate r value (for an ECC key)
 //
 TPM_RC
 SignAttestInfo(
    TPMI_DH_OBJECT           signHandle,                //   IN: handle of sign object
    TPMT_SIG_SCHEME         *scheme,                    //   IN: sign scheme
    TPMS_ATTEST             *certifyInfo,               //   IN: the data to be signed
    TPM2B_DATA              *qualifyingData,            //   IN: extra data for the signing proce
    TPM2B_ATTEST            *attest,                    //   OUT: marshaled attest blob to be
                                                        //       signed
    TPMT_SIGNATURE          *signature                  //   OUT: signature
    )
 {
    TPM_RC                         result;
    TPMI_ALG_HASH                  hashAlg;
    BYTE                           *buffer;
    INT32                          bufferSize;
    HASH_STATE                     hashState;
    TPM2B_DIGEST                   digest;
    // Marshal TPMS_ATTEST structure for hash
    buffer = attest->t.attestationData;
    bufferSize = sizeof(TPMS_ATTEST);
    attest->t.size = TPMS_ATTEST_Marshal(certifyInfo, &buffer, &bufferSize);
    if(signHandle == TPM_RH_NULL)
    {
        signature->sigAlg = TPM_ALG_NULL;
    }
    else
    {
        // Attestation command may cause the orderlyState to be cleared due to
        // the reporting of clock info. If this is the case, check if NV is
        // available first
        if(gp.orderlyState != SHUTDOWN_NONE)
        {
            // The command needs NV update. Check if NV is available.
            // A TPM_RC_NV_UNAVAILABLE or TPM_RC_NV_RATE error may be returned at
            // this point
            result = NvIsAvailable();
            if(result != TPM_RC_SUCCESS)
                return result;
        }
          // Compute hash
          hashAlg = scheme->details.any.hashAlg;
          digest.t.size = CryptStartHash(hashAlg, &hashState);
          CryptUpdateDigest(&hashState, attest->t.size, attest->t.attestationData);
          CryptCompleteHash2B(&hashState, &digest.b);
          // If there is qualifying data, need to rehash the the data
          // hash(qualifyingData || hash(attestationData))
          if(qualifyingData->t.size != 0)
          {
              CryptStartHash(hashAlg, &hashState);
              CryptUpdateDigest(&hashState,
                                qualifyingData->t.size,
                                qualifyingData->t.buffer);
              CryptUpdateDigest(&hashState, digest.t.size, digest.t.buffer);
              CryptCompleteHash2B(&hashState, &digest.b);
           }
           // Sign the hash. A TPM_RC_VALUE, TPM_RC_SCHEME, or
           // TPM_RC_ATTRIBUTES error may be returned at this point
           return CryptSign(signHandle,
                            scheme,
                            &digest,
                            signature);
      }
      return TPM_RC_SUCCESS;
 }
	// 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 "InternalRoutines.h"
	#include "Attest_spt_fp.h"
	//
	//
	// Functions
	//
	// FillInAttestInfo()
	//
	// Fill in common fields of TPMS_ATTEST structure.
	//
	// Error Returns Meaning
	//
	// TPM_RC_KEY key referenced by signHandle is not a signing key
	// TPM_RC_SCHEME both scheme and key's default scheme are empty; or scheme is
	// empty while key's default scheme requires explicit input scheme (split
	// signing); or non-empty default key scheme differs from scheme
	//
	TPM_RC
	FillInAttestInfo(
	TPMI_DH_OBJECT signHandle, // IN: handle of signing object
	TPMT_SIG_SCHEME *scheme, // IN/OUT: scheme to be used for signing
	TPM2B_DATA *data, // IN: qualifying data
	TPMS_ATTEST *attest // OUT: attest structure
	)
	{
	TPM_RC result;
	TPMI_RH_HIERARCHY signHierarhcy;
	result = CryptSelectSignScheme(signHandle, scheme);
	if(result != TPM_RC_SUCCESS)
	return result;
	// Magic number
	attest->magic = TPM_GENERATED_VALUE;
	if(signHandle == TPM_RH_NULL)
	{
	BYTE *buffer;
	INT32 bufferSize;
	// For null sign handle, the QN is TPM_RH_NULL
	buffer = attest->qualifiedSigner.t.name;
	bufferSize = sizeof(TPM_HANDLE);
	attest->qualifiedSigner.t.size =
	TPM_HANDLE_Marshal(&signHandle, &buffer, &bufferSize);
	}
	else
	{
	// Certifying object qualified name
	// if the scheme is anonymous, this is an empty buffer
	if(CryptIsSchemeAnonymous(scheme->scheme))
	attest->qualifiedSigner.t.size = 0;
	else
	ObjectGetQualifiedName(signHandle, &attest->qualifiedSigner);
	}
	// current clock in plain text
	TimeFillInfo(&attest->clockInfo);
	// Firmware version in plain text
	attest->firmwareVersion = ((UINT64) gp.firmwareV1 << (sizeof(UINT32) * 8));
	attest->firmwareVersion += gp.firmwareV2;
	// Get the hierarchy of sign object. For NULL sign handle, the hierarchy
	// will be TPM_RH_NULL
	signHierarhcy = EntityGetHierarchy(signHandle);
	if(signHierarhcy != TPM_RH_PLATFORM && signHierarhcy != TPM_RH_ENDORSEMENT)
	{
	// For sign object is not in platform or endorsement hierarchy,
	// obfuscate the clock and firmwereVersion information
	UINT64 obfuscation[2];
	TPMI_ALG_HASH hashAlg;
	// Get hash algorithm
	if(signHandle == TPM_RH_NULL \|\| signHandle == TPM_RH_OWNER)
	{
	hashAlg = CONTEXT_INTEGRITY_HASH_ALG;
	}
	else
	{
	OBJECT *signObject = NULL;
	signObject = ObjectGet(signHandle);
	hashAlg = signObject->publicArea.nameAlg;
	}
	KDFa(hashAlg, &gp.shProof.b, "OBFUSCATE",
	&attest->qualifiedSigner.b, NULL, 128, (BYTE *)&obfuscation[0], NULL);
	// Obfuscate data
	attest->firmwareVersion += obfuscation[0];
	attest->clockInfo.resetCount += (UINT32)(obfuscation[1] >> 32);
	attest->clockInfo.restartCount += (UINT32)obfuscation[1];
	}
	// External data
	if(CryptIsSchemeAnonymous(scheme->scheme))
	attest->extraData.t.size = 0;
	else
	{
	// If we move the data to the attestation structure, then we will not use
	// it in the signing operation except as part of the signed data
	attest->extraData = *data;
	data->t.size = 0;
	}
	return TPM_RC_SUCCESS;
	}
	//
	//
	// SignAttestInfo()
	//
	// Sign a TPMS_ATTEST structure. If signHandle is TPM_RH_NULL, a null signature is returned.
	//
	//
	//
	//
	// Error Returns Meaning
	//
	// TPM_RC_ATTRIBUTES signHandle references not a signing key
	// TPM_RC_SCHEME scheme is not compatible with signHandle type
	// TPM_RC_VALUE digest generated for the given scheme is greater than the modulus of
	// signHandle (for an RSA key); invalid commit status or failed to
	// generate r value (for an ECC key)
	//
	TPM_RC
	SignAttestInfo(
	TPMI_DH_OBJECT signHandle, // IN: handle of sign object
	TPMT_SIG_SCHEME *scheme, // IN: sign scheme
	TPMS_ATTEST *certifyInfo, // IN: the data to be signed
	TPM2B_DATA *qualifyingData, // IN: extra data for the signing proce
	TPM2B_ATTEST *attest, // OUT: marshaled attest blob to be
	// signed
	TPMT_SIGNATURE *signature // OUT: signature
	)
	{
	TPM_RC result;
	TPMI_ALG_HASH hashAlg;
	BYTE *buffer;
	INT32 bufferSize;
	HASH_STATE hashState;
	TPM2B_DIGEST digest;
	// Marshal TPMS_ATTEST structure for hash
	buffer = attest->t.attestationData;
	bufferSize = sizeof(TPMS_ATTEST);
	attest->t.size = TPMS_ATTEST_Marshal(certifyInfo, &buffer, &bufferSize);
	if(signHandle == TPM_RH_NULL)
	{
	signature->sigAlg = TPM_ALG_NULL;
	}
	else
	{
	// Attestation command may cause the orderlyState to be cleared due to
	// the reporting of clock info. If this is the case, check if NV is
	// available first
	if(gp.orderlyState != SHUTDOWN_NONE)
	{
	// The command needs NV update. Check if NV is available.
	// A TPM_RC_NV_UNAVAILABLE or TPM_RC_NV_RATE error may be returned at
	// this point
	result = NvIsAvailable();
	if(result != TPM_RC_SUCCESS)
	return result;
	}
	// Compute hash
	hashAlg = scheme->details.any.hashAlg;
	digest.t.size = CryptStartHash(hashAlg, &hashState);
	CryptUpdateDigest(&hashState, attest->t.size, attest->t.attestationData);
	CryptCompleteHash2B(&hashState, &digest.b);
	// If there is qualifying data, need to rehash the the data
	// hash(qualifyingData \|\| hash(attestationData))
	if(qualifyingData->t.size != 0)
	{
	CryptStartHash(hashAlg, &hashState);
	CryptUpdateDigest(&hashState,
	qualifyingData->t.size,
	qualifyingData->t.buffer);
	CryptUpdateDigest(&hashState, digest.t.size, digest.t.buffer);
	CryptCompleteHash2B(&hashState, &digest.b);
	}
	// Sign the hash. A TPM_RC_VALUE, TPM_RC_SCHEME, or
	// TPM_RC_ATTRIBUTES error may be returned at this point
	return CryptSign(signHandle,
	scheme,
	&digest,
	signature);
	}
	return TPM_RC_SUCCESS;
	}