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|
/********************************************************************************/
/* */
/* TPM Identity Handling */
/* Written by Ken Goldman */
/* IBM Thomas J. Watson Research Center */
/* $Id: tpm_identity.c 4526 2011-03-24 21:14:42Z kgoldman $ */
/* */
/* (c) Copyright IBM Corporation 2006, 2010. */
/* */
/* All rights reserved. */
/* */
/* Redistribution and use in source and binary forms, with or without */
/* modification, are permitted provided that the following conditions are */
/* met: */
/* */
/* Redistributions of source code must retain the above copyright notice, */
/* this list of conditions and the following disclaimer. */
/* */
/* Redistributions in binary form must reproduce the above copyright */
/* notice, this list of conditions and the following disclaimer in the */
/* documentation and/or other materials provided with the distribution. */
/* */
/* Neither the names of the IBM Corporation nor the names of its */
/* contributors may be used to endorse or promote products derived from */
/* this software without specific prior written permission. */
/* */
/* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS */
/* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT */
/* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR */
/* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT */
/* HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, */
/* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT */
/* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, */
/* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY */
/* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT */
/* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE */
/* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */
/********************************************************************************/
#include <stdio.h>
#include <stdlib.h>
#include "tpm_auth.h"
#include "tpm_crypto.h"
#include "tpm_cryptoh.h"
#include "tpm_debug.h"
#include "tpm_digest.h"
#include "tpm_error.h"
#include "tpm_io.h"
#include "tpm_key.h"
#include "tpm_memory.h"
#include "tpm_pcr.h"
#include "tpm_process.h"
#include "tpm_secret.h"
#include "tpm_storage.h"
#include "tpm_ver.h"
#include "tpm_identity.h"
/*
TPM_EK_BLOB
*/
/* TPM_EKBlob_Init()
sets members to default values
sets all pointers to NULL and sizes to 0
always succeeds - no return code
*/
void TPM_EKBlob_Init(TPM_EK_BLOB *tpm_ek_blob)
{
printf(" TPM_EKBlob_Init:\n");
tpm_ek_blob->ekType = 0;
TPM_SizedBuffer_Init(&(tpm_ek_blob->blob));
return;
}
/* TPM_EKBlob_Load()
deserialize the structure from a 'stream'
'stream_size' is checked for sufficient data
returns 0 or error codes
Before use, call TPM_EKBlob_Init()
After use, call TPM_EKBlob_Delete() to free memory
*/
TPM_RESULT TPM_EKBlob_Load(TPM_EK_BLOB *tpm_ek_blob,
unsigned char **stream,
uint32_t *stream_size)
{
TPM_RESULT rc = 0;
printf(" TPM_EKBlob_Load:\n");
/* check the tag */
if (rc == 0) {
rc = TPM_CheckTag(TPM_TAG_EK_BLOB, stream, stream_size);
}
/* load ekType */
if (rc == 0) {
rc = TPM_Load16(&(tpm_ek_blob->ekType), stream, stream_size);
}
/* load blob */
if (rc == 0) {
rc = TPM_SizedBuffer_Load(&(tpm_ek_blob->blob), stream, stream_size);
}
return rc;
}
#if 0
/* TPM_EKBlob_Store()
serialize the structure to a stream contained in 'sbuffer'
returns 0 or error codes
*/
TPM_RESULT TPM_EKBlob_Store(TPM_STORE_BUFFER *sbuffer,
const TPM_EK_BLOB *tpm_ek_blob)
{
TPM_RESULT rc = 0;
printf(" TPM_EKBlob_Store:\n");
if (rc == 0) {
rc = TPM_Sbuffer_Append16(sbuffer, TPM_TAG_EK_BLOB);
}
if (rc == 0) {
rc = TPM_Sbuffer_Append16(sbuffer, tpm_ek_blob->ekType);
}
if (rc == 0) {
rc = TPM_SizedBuffer_Store(sbuffer, &(tpm_ek_blob->blob));
}
return rc;
}
#endif
/* TPM_EKBlob_Delete()
No-OP if the parameter is NULL, else:
frees memory allocated for the object
sets pointers to NULL
calls TPM_EKBlob_Init to set members back to default values
The object itself is not freed
*/
void TPM_EKBlob_Delete(TPM_EK_BLOB *tpm_ek_blob)
{
printf(" TPM_EKBlob_Delete:\n");
if (tpm_ek_blob != NULL) {
TPM_SizedBuffer_Delete(&(tpm_ek_blob->blob));
TPM_EKBlob_Init(tpm_ek_blob);
}
return;
}
/*
TPM_EK_BLOB_ACTIVATE
*/
/* TPM_EKBlobActivate_Init()
sets members to default values
sets all pointers to NULL and sizes to 0
always succeeds - no return code
*/
void TPM_EKBlobActivate_Init(TPM_EK_BLOB_ACTIVATE *tpm_ek_blob_activate)
{
printf(" TPM_EKBlobActivate_Init:\n");
TPM_SymmetricKey_Init(&(tpm_ek_blob_activate->sessionKey));
TPM_Digest_Init(tpm_ek_blob_activate->idDigest);
TPM_PCRInfoShort_Init(&(tpm_ek_blob_activate->pcrInfo));
return;
}
/* TPM_EKBlobActivate_Load()
deserialize the structure from a 'stream'
'stream_size' is checked for sufficient data
returns 0 or error codes
Before use, call TPM_EKBlobActivate_Init()
After use, call TPM_EKBlobActivate_Delete() to free memory
*/
TPM_RESULT TPM_EKBlobActivate_Load(TPM_EK_BLOB_ACTIVATE *tpm_ek_blob_activate,
unsigned char **stream,
uint32_t *stream_size)
{
TPM_RESULT rc = 0;
printf(" TPM_EKBlobActivate_Load:\n");
/* check tag */
if (rc == 0) {
rc = TPM_CheckTag(TPM_TAG_EK_BLOB_ACTIVATE, stream, stream_size);
}
/* load sessionKey */
if (rc == 0) {
rc = TPM_SymmetricKey_Load(&(tpm_ek_blob_activate->sessionKey), stream, stream_size);
}
/* load idDigest */
if (rc == 0) {
rc = TPM_Digest_Load(tpm_ek_blob_activate->idDigest, stream, stream_size);
}
/* load pcrInfo */
if (rc == 0) {
rc = TPM_PCRInfoShort_Load(&(tpm_ek_blob_activate->pcrInfo), stream, stream_size, FALSE);
}
return rc;
}
#if 0
/* TPM_EKBlobActivate_Store()
serialize the structure to a stream contained in 'sbuffer'
returns 0 or error codes
*/
TPM_RESULT TPM_EKBlobActivate_Store(TPM_STORE_BUFFER *sbuffer,
const TPM_EK_BLOB_ACTIVATE *tpm_ek_blob_activate)
{
TPM_RESULT rc = 0;
printf(" TPM_EKBlobActivate_Store:\n");
/* store tag */
if (rc == 0) {
rc = TPM_Sbuffer_Append16(sbuffer, TPM_TAG_EK_BLOB_ACTIVATE);
}
/* store sessionKey */
if (rc == 0) {
rc = TPM_SymmetricKey_Store(sbuffer, &(tpm_ek_blob_activate->sessionKey));
}
/* store idDigest */
if (rc == 0) {
rc = TPM_Digest_Store(sbuffer, tpm_ek_blob_activate->idDigest);
}
/* store pcrInfo */
if (rc == 0) {
rc = TPM_PCRInfoShort_Store(sbuffer, &(tpm_ek_blob_activate->pcrInfo), FALSE);
}
return rc;
}
#endif
/* TPM_EKBlobActivate_Delete()
No-OP if the parameter is NULL, else:
frees memory allocated for the object
sets pointers to NULL
calls TPM_EKBlobActivate_Init to set members back to default values
The object itself is not freed
*/
void TPM_EKBlobActivate_Delete(TPM_EK_BLOB_ACTIVATE *tpm_ek_blob_activate)
{
printf(" TPM_EKBlobActivate_Delete:\n");
if (tpm_ek_blob_activate != NULL) {
TPM_SymmetricKey_Delete(&(tpm_ek_blob_activate->sessionKey));
TPM_PCRInfoShort_Delete(&(tpm_ek_blob_activate->pcrInfo));
TPM_EKBlobActivate_Init(tpm_ek_blob_activate);
}
return;
}
/*
TPM_EK_BLOB_AUTH
*/
#if 0
/* TPM_EKBlobAuth_Init()
sets members to default values
sets all pointers to NULL and sizes to 0
always succeeds - no return code
*/
void TPM_EKBlobAuth_Init(TPM_EK_BLOB_AUTH *tpm_ek_blob_auth)
{
printf(" TPM_EKBlobAuth_Init:\n");
TPM_Secret_Init(tpm_ek_blob_auth->authValue);
return;
}
/* TPM_EKBlobAuth_Load()
deserialize the structure from a 'stream'
'stream_size' is checked for sufficient data
returns 0 or error codes
Before use, call TPM_EKBlobAuth_Init()
After use, call TPM_EKBlobAuth_Delete() to free memory
*/
TPM_RESULT TPM_EKBlobAuth_Load(TPM_EK_BLOB_AUTH *tpm_ek_blob_auth,
unsigned char **stream,
uint32_t *stream_size)
{
TPM_RESULT rc = 0;
printf(" TPM_EKBlobAuth_Load:\n");
/* check tag */
if (rc == 0) {
rc = TPM_CheckTag(TPM_TAG_EK_BLOB_AUTH, stream, stream_size);
}
/* load authValue */
if (rc == 0) {
rc = TPM_Secret_Load(tpm_ek_blob_auth->authValue, stream, stream_size);
}
return rc;
}
/* TPM_EKBlobAuth_Store()
serialize the structure to a stream contained in 'sbuffer'
returns 0 or error codes
*/
TPM_RESULT TPM_EKBlobAuth_Store(TPM_STORE_BUFFER *sbuffer,
const TPM_EK_BLOB_AUTH *tpm_ek_blob_auth)
{
TPM_RESULT rc = 0;
printf(" TPM_EKBlobAuth_Store:\n");
if (rc == 0) {
rc = TPM_Sbuffer_Append16(sbuffer, TPM_TAG_EK_BLOB_AUTH);
}
if (rc == 0) {
rc = TPM_Secret_Store(sbuffer, tpm_ek_blob_auth->authValue);
}
return rc;
}
/* TPM_EKBlobAuth_Delete()
No-OP if the parameter is NULL, else:
frees memory allocated for the object
sets pointers to NULL
calls TPM_EKBlobAuth_Init to set members back to default values
The object itself is not freed
*/
void TPM_EKBlobAuth_Delete(TPM_EK_BLOB_AUTH *tpm_ek_blob_auth)
{
printf(" TPM_EKBlobAuth_Delete:\n");
if (tpm_ek_blob_auth != NULL) {
TPM_EKBlobAuth_Init(tpm_ek_blob_auth);
}
return;
}
#endif
/*
TPM_IDENTITY_CONTENTS
*/
/* TPM_IdentityContents_Init()
sets members to default values
sets all pointers to NULL and sizes to 0
always succeeds - no return code
*/
void TPM_IdentityContents_Init(TPM_IDENTITY_CONTENTS *tpm_identity_contents)
{
printf(" TPM_IdentityContents_Init:\n");
TPM_StructVer_Init(&(tpm_identity_contents->ver));
tpm_identity_contents->ordinal = TPM_ORD_MakeIdentity;
TPM_Digest_Init(tpm_identity_contents->labelPrivCADigest);
TPM_Pubkey_Init(&(tpm_identity_contents->identityPubKey));
return;
}
/* TPM_IdentityContents_Load()
deserialize the structure from a 'stream'
'stream_size' is checked for sufficient data
returns 0 or error codes
Before use, call TPM_IdentityContents_Init()
After use, call TPM_IdentityContents_Delete() to free memory
NOTE: Never called.
*/
#if 0
TPM_RESULT TPM_IdentityContents_Load(TPM_IDENTITY_CONTENTS *tpm_identity_contents,
unsigned char **stream,
uint32_t *stream_size)
{
TPM_RESULT rc = 0;
printf(" TPM_IdentityContents_Load:\n");
/* load ver */
if (rc == 0) {
rc = TPM_StructVer_Load(&(tpm_identity_contents->ver), stream, stream_size);
}
/* check ver immediately to ease debugging */
if (rc == 0) {
rc = TPM_StructVer_CheckVer(&(tpm_identity_contents->ver));
}
/* load ordinal */
if (rc == 0) {
rc = TPM_Load32(&(tpm_identity_contents->ordinal), stream, stream_size);
}
/* load labelPrivCADigest */
if (rc == 0) {
rc = TPM_Digest_Load(tpm_identity_contents->labelPrivCADigest, stream, stream_size);
}
/* load identityPubKey */
if (rc == 0) {
rc = TPM_Pubkey_Load(&(tpm_identity_contents->identityPubKey), stream, stream_size);
}
return rc;
}
#endif
/* TPM_IdentityContents_Store()
serialize the structure to a stream contained in 'sbuffer'
returns 0 or error codes
*/
TPM_RESULT TPM_IdentityContents_Store(TPM_STORE_BUFFER *sbuffer,
TPM_IDENTITY_CONTENTS *tpm_identity_contents)
{
TPM_RESULT rc = 0;
printf(" TPM_IdentityContents_Store:\n");
/* store ver */
if (rc == 0) {
rc = TPM_StructVer_Store(sbuffer, &(tpm_identity_contents->ver));
}
/* store ordinal */
if (rc == 0) {
rc = TPM_Sbuffer_Append32(sbuffer, tpm_identity_contents->ordinal);
}
/* store labelPrivCADigest */
if (rc == 0) {
rc = TPM_Digest_Store(sbuffer, tpm_identity_contents->labelPrivCADigest);
}
/* store identityPubKey */
if (rc == 0) {
rc = TPM_Pubkey_Store(sbuffer, &(tpm_identity_contents->identityPubKey));
}
return rc;
}
/* TPM_IdentityContents_Delete()
No-OP if the parameter is NULL, else:
frees memory allocated for the object
sets pointers to NULL
calls TPM_IdentityContents_Init to set members back to default values
The object itself is not freed
*/
void TPM_IdentityContents_Delete(TPM_IDENTITY_CONTENTS *tpm_identity_contents)
{
printf(" TPM_IdentityContents_Delete:\n");
if (tpm_identity_contents != NULL) {
TPM_Pubkey_Delete(&(tpm_identity_contents->identityPubKey));
TPM_IdentityContents_Init(tpm_identity_contents);
}
return;
}
/*
TPM_ASYM_CA_CONTENTS
*/
/* TPM_AsymCaContents_Init()
sets members to default values
sets all pointers to NULL and sizes to 0
always succeeds - no return code
*/
void TPM_AsymCaContents_Init(TPM_ASYM_CA_CONTENTS *tpm_asym_ca_contents)
{
printf(" TPM_AsymCaContents_Init:\n");
TPM_SymmetricKey_Init(&(tpm_asym_ca_contents->sessionKey));
TPM_Digest_Init(tpm_asym_ca_contents->idDigest);
return;
}
/* TPM_AsymCaContents_Load()
deserialize the structure from a 'stream'
'stream_size' is checked for sufficient data
returns 0 or error codes
Before use, call TPM_AsymCaContents_Init()
After use, call TPM_AsymCaContents_Delete() to free memory
*/
TPM_RESULT TPM_AsymCaContents_Load(TPM_ASYM_CA_CONTENTS *tpm_asym_ca_contents,
unsigned char **stream,
uint32_t *stream_size)
{
TPM_RESULT rc = 0;
printf(" TPM_AsymCaContents_Load:\n");
if (rc == 0) {
rc = TPM_SymmetricKey_Load(&(tpm_asym_ca_contents->sessionKey), stream, stream_size);
}
if (rc == 0) {
rc = TPM_Digest_Load(tpm_asym_ca_contents->idDigest, stream, stream_size);
}
return rc;
}
#if 0
/* TPM_AsymCaContents_Store()
serialize the structure to a stream contained in 'sbuffer'
returns 0 or error codes
*/
TPM_RESULT TPM_AsymCaContents_Store(TPM_STORE_BUFFER *sbuffer,
const TPM_ASYM_CA_CONTENTS *tpm_asym_ca_contents)
{
TPM_RESULT rc = 0;
printf(" TPM_AsymCaContents_Store:\n");
if (rc == 0) {
rc = TPM_SymmetricKey_Store(sbuffer, &(tpm_asym_ca_contents->sessionKey));
}
if (rc == 0) {
rc = TPM_Digest_Store(sbuffer, tpm_asym_ca_contents->idDigest);
}
return rc;
}
#endif
/* TPM_AsymCaContents_Delete()
No-OP if the parameter is NULL, else:
frees memory allocated for the object
sets pointers to NULL
calls TPM_AsymCaContents_Init to set members back to default values
The object itself is not freed
*/
void TPM_AsymCaContents_Delete(TPM_ASYM_CA_CONTENTS *tpm_asym_ca_contents)
{
printf(" TPM_AsymCaContents_Delete:\n");
if (tpm_asym_ca_contents != NULL) {
TPM_SymmetricKey_Delete(&(tpm_asym_ca_contents->sessionKey));
TPM_AsymCaContents_Init(tpm_asym_ca_contents);
}
return;
}
/*
Processing Functions
*/
/* 15.1 TPM_MakeIdentity rev 114
Generate a new Attestation Identity Key (AIK)
labelPrivCADigest identifies the privacy CA that the owner expects to be the target CA for the
AIK. The selection is not enforced by the TPM. It is advisory only. It is included because the
TSS cannot be trusted to send the AIK to the correct privacy CA. The privacy CA can use this
parameter to validate that it is the target privacy CA and label intended by the TPM owner at the
time the key was created. The label can be used to indicate an application purpose.
The public key of the new TPM identity SHALL be identityPubKey. The private key of the new TPM
identity SHALL be tpm_signature_key.
Properties of the new identity
TPM_PUBKEY identityPubKey This SHALL be the public key of a previously unused asymmetric key
pair.
TPM_STORE_ASYMKEY tpm_signature_key This SHALL be the private key that forms a pair with
identityPubKey and SHALL be extant only in a TPM-shielded location.
This capability also generates a TPM_KEY containing the tpm_signature_key.
If identityPubKey is stored on a platform it SHALL exist only in storage to which access is
controlled and is available to authorized entities.
*/
TPM_RESULT TPM_Process_MakeIdentity(tpm_state_t *tpm_state,
TPM_STORE_BUFFER *response,
TPM_TAG tag,
uint32_t paramSize,
TPM_COMMAND_CODE ordinal,
unsigned char *command,
TPM_TRANSPORT_INTERNAL *transportInternal)
{
TPM_RESULT rcf = 0; /* fatal error precluding response */
TPM_RESULT returnCode = TPM_SUCCESS; /* command return code */
/* input parameters */
TPM_ENCAUTH identityAuth; /* Encrypted usage authorization data for the new identity
*/
TPM_CHOSENID_HASH labelPrivCADigest; /* The digest of the identity label and privacy CA
chosen for the new TPM identity. */
TPM_KEY idKeyParams; /* Structure containing all parameters of new identity
key. pubKey.keyLength & idKeyParams.encData are both 0
MAY be TPM_KEY12 */
TPM_AUTHHANDLE srkAuthHandle; /* The authorization handle used for SRK authorization. */
TPM_NONCE srknonceOdd; /* Nonce generated by system associated with srkAuthHandle
*/
TPM_BOOL continueSrkSession = TRUE; /* Ignored */
TPM_AUTHDATA srkAuth; /* The authorization digest for the inputs and the SRK. HMAC
key: srk.usageAuth. */
TPM_AUTHHANDLE authHandle; /* The authorization handle used for owner
authorization. Session type MUST be OSAP. */
TPM_NONCE nonceOdd; /* Nonce generated by system associated with authHandle */
TPM_BOOL continueAuthSession = TRUE; /* Ignored */
TPM_AUTHDATA ownerAuth; /* The authorization digest for inputs and owner. HMAC key:
ownerAuth. */
/* processing parameters */
unsigned char * inParamStart; /* starting point of inParam's */
unsigned char * inParamEnd; /* ending point of inParam's */
TPM_DIGEST inParamDigest;
TPM_BOOL auditStatus; /* audit the ordinal */
TPM_BOOL transportEncrypt; /* wrapped in encrypted transport session */
TPM_BOOL srkAuthHandleValid = FALSE;
TPM_BOOL authHandleValid = FALSE;
TPM_AUTH_SESSION_DATA *srk_auth_session_data = NULL; /* session data for authHandle */
TPM_AUTH_SESSION_DATA *auth_session_data = NULL; /* session data for dataAuthHandle */
TPM_SECRET *srkHmacKey;
TPM_SECRET *hmacKey;
TPM_SECRET a1Auth;
TPM_STORE_ASYMKEY *idKeyStoreAsymkey;
TPM_IDENTITY_CONTENTS idContents;
TPM_DIGEST h1Digest; /* digest of TPM_IDENTITY_CONTENTS structure */
int ver;
/* output parameters */
uint32_t outParamStart; /* starting point of outParam's */
uint32_t outParamEnd; /* ending point of outParam's */
TPM_DIGEST outParamDigest;
TPM_KEY idKey; /* The newly created identity key. MAY be TPM_KEY12
*/
TPM_SIZED_BUFFER identityBinding; /* Signature of TPM_IDENTITY_CONTENTS using
idKey.private. */
printf("TPM_Process_MakeIdentity: Ordinal Entry\n");
TPM_Key_Init(&idKeyParams); /* freed @1 */
TPM_Key_Init(&idKey); /* freed @2 */
TPM_SizedBuffer_Init(&identityBinding); /* freed @3 */
TPM_IdentityContents_Init(&idContents); /* freed @4 */
/*
get inputs
*/
/* save the starting point of inParam's for authorization and auditing */
inParamStart = command;
/* get identityAuth parameter */
if (returnCode == TPM_SUCCESS) {
returnCode = TPM_Authdata_Load(identityAuth, &command, ¶mSize);
}
/* get labelPrivCADigest parameter */
if (returnCode == TPM_SUCCESS) {
returnCode = TPM_Digest_Load(labelPrivCADigest, &command, ¶mSize);
}
/* get idKeyParams parameter */
if (returnCode == TPM_SUCCESS) {
returnCode = TPM_Key_Load(&idKeyParams, &command, ¶mSize);
}
/* save the ending point of inParam's for authorization and auditing */
inParamEnd = command;
/* digest the input parameters */
if (returnCode == TPM_SUCCESS) {
returnCode = TPM_GetInParamDigest(inParamDigest, /* output */
&auditStatus, /* output */
&transportEncrypt, /* output */
tpm_state,
tag,
ordinal,
inParamStart,
inParamEnd,
transportInternal);
}
/* check state */
if (returnCode == TPM_SUCCESS) {
returnCode = TPM_CheckState(tpm_state, tag, TPM_CHECK_ALL);
}
/* check tag */
if (returnCode == TPM_SUCCESS) {
returnCode = TPM_CheckRequestTag21(tag);
}
/* get the optional 'below the line' authorization parameters */
if ((returnCode == TPM_SUCCESS) && (tag == TPM_TAG_RQU_AUTH2_COMMAND)) {
returnCode = TPM_AuthParams_Get(&srkAuthHandle,
&srkAuthHandleValid,
srknonceOdd,
&continueSrkSession,
srkAuth,
&command, ¶mSize);
printf("TPM_Process_MakeIdentity: srkAuthHandle %08x\n", srkAuthHandle);
}
/* get the 'below the line' authorization parameters */
if (returnCode == TPM_SUCCESS) {
returnCode = TPM_AuthParams_Get(&authHandle,
&authHandleValid,
nonceOdd,
&continueAuthSession,
ownerAuth,
&command, ¶mSize);
}
if (returnCode == TPM_SUCCESS) {
printf("TPM_Process_MakeIdentity: authHandle %08x\n", authHandle);
}
if (returnCode == TPM_SUCCESS) {
if (paramSize != 0) {
printf("TPM_Process_MakeIdentity: Error, command has %u extra bytes\n",
paramSize);
returnCode = TPM_BAD_PARAM_SIZE;
}
}
/* do not terminate sessions if the command did not parse correctly */
if (returnCode != TPM_SUCCESS) {
srkAuthHandleValid = FALSE;
authHandleValid = FALSE;
}
/*
Processing
*/
/* 1. Validate the idKeyParams parameters for the key description */
/* a. If the algorithm type is RSA the key length MUST be a minimum of 2048 and MUST use the
default exponent. For interoperability the key length SHOULD be 2048 */
/* b. If the algorithm type is other than RSA the strength provided by the key MUST be
comparable to RSA 2048 */
/* c. If the TPM is not designed to create a key of the requested type, return the error code
TPM_BAD_KEY_PROPERTY */
/* d. If TPM_PERMANENT_FLAGS -> FIPS is TRUE then */
/* i. If authDataUsage specifies TPM_AUTH_NEVER return TPM_NOTFIPS */
if (returnCode == TPM_SUCCESS) {
returnCode = TPM_Key_CheckProperties(&ver, &idKeyParams, 2048,
tpm_state->tpm_permanent_flags.FIPS);
printf("TPM_Process_MakeIdentity: key parameters v = %d\n", ver);
}
/* 2. Use authHandle to verify that the Owner authorized all TPM_MakeIdentity input
parameters. */
/* get the session data */
if (returnCode == TPM_SUCCESS) {
returnCode = TPM_AuthSessions_GetData(&auth_session_data,
&hmacKey,
tpm_state,
authHandle,
TPM_PID_OSAP,
TPM_ET_OWNER,
ordinal,
NULL,
NULL,
tpm_state->tpm_permanent_data.ownerAuth);
}
/* Validate the authorization to use the key pointed to by keyHandle */
if (returnCode == TPM_SUCCESS) {
returnCode = TPM_Auth2data_Check(tpm_state,
*hmacKey, /* HMAC key */
inParamDigest,
auth_session_data, /* authorization session */
nonceOdd, /* Nonce generated by system
associated with authHandle */
continueAuthSession,
ownerAuth); /* Authorization digest for input */
}
/* 3. Use srkAuthHandle to verify that the SRK owner authorized all TPM_MakeIdentity input
parameters. */
/* get the session data */
if ((returnCode == TPM_SUCCESS) && (tag == TPM_TAG_RQU_AUTH2_COMMAND)) {
returnCode = TPM_AuthSessions_GetData
(&srk_auth_session_data,
&srkHmacKey,
tpm_state,
srkAuthHandle,
TPM_PID_NONE,
TPM_ET_KEYHANDLE,
ordinal,
&(tpm_state->tpm_permanent_data.srk),
/* OIAP */
&(tpm_state->tpm_permanent_data.srk.tpm_store_asymkey->usageAuth),
/* OSAP */
tpm_state->tpm_permanent_data.srk.tpm_store_asymkey->pubDataDigest);
}
/* Validate the authorization to use the key pointed to by keyHandle */
if ((returnCode == TPM_SUCCESS) && (tag == TPM_TAG_RQU_AUTH2_COMMAND)) {
returnCode = TPM_Authdata_Check(tpm_state,
*srkHmacKey, /* HMAC key */
inParamDigest,
srk_auth_session_data, /* authorization session */
srknonceOdd, /* Nonce generated by system
associated with authHandle */
continueSrkSession,
srkAuth); /* Authorization digest for input */
}
/* if there is no SRK authorization, check that the SRK authDataUsage is TPM_AUTH_NEVER */
if ((returnCode == TPM_SUCCESS) && (tag != TPM_TAG_RQU_AUTH2_COMMAND)) {
if (tpm_state->tpm_permanent_data.srk.authDataUsage != TPM_AUTH_NEVER) {
printf("TPM_Process_MakeIdentity: Error, SRK authorization required\n");
returnCode = TPM_AUTHFAIL;
}
}
/* 4. Verify that idKeyParams -> keyUsage is TPM_KEY_IDENTITY. If it is not, return
TPM_INVALID_KEYUSAGE */
/* NOTE: TPM_KEY_IDENTITY keys must use TPM_SS_RSASSAPKCS1v15_SHA1 */
if (returnCode == TPM_SUCCESS) {
printf("TPM_Process_MakeIdentity: Checking key parameters\n");
if (idKeyParams.keyUsage != TPM_KEY_IDENTITY) {
printf("TPM_Process_MakeIdentity: Error, "
"idKeyParams keyUsage %08x should be TPM_KEY_IDENTITY\n",
idKeyParams.keyUsage);
returnCode = TPM_INVALID_KEYUSAGE;
}
}
/* 5. Verify that idKeyParams -> keyFlags -> migratable is FALSE. If it is not, return
TPM_INVALID_KEYUSAGE */
if (returnCode == TPM_SUCCESS) {
if (idKeyParams.keyFlags & TPM_MIGRATABLE) {
printf("TPM_Process_MakeIdentity: Error, "
"idKeyParams keyFlags %08x cannot be migratable\n",
idKeyParams.keyFlags);
returnCode = TPM_INVALID_KEYUSAGE;
}
}
/* 6. Create a1 by decrypting identityAuth according to the ADIP indicated by authHandle. */
if (returnCode == TPM_SUCCESS) {
returnCode = TPM_AuthSessionData_Decrypt(a1Auth,
NULL,
identityAuth,
auth_session_data,
NULL,
NULL,
FALSE); /* even and odd */
}
/* 7. Set continueAuthSession and continueSRKSession to FALSE. */
if (returnCode == TPM_SUCCESS) {
continueAuthSession = FALSE;
continueSrkSession = FALSE;
/* 8. Determine the structure version */
/* a. If idKeyParams -> tag is TPM_TAG_KEY12 */
/* i. Set V1 to 2 */
/* ii. Create idKey a TPM_KEY12 structure using idKeyParams as the default values for the
structure */
/* b. If idKeyParams -> ver is 1.1 */
/* i. Set V1 to 1 */
/* ii. Create idKey a TPM_KEY structure using idKeyParams as the default values for the
structure */
/* NOTE Done by TPM_Key_CheckProperties() */
/* NOTE The creation determination is done by TPM_Key_GenerateRSA() */
}
/* 9. Set the digestAtCreation values for pcrInfo */
/* NOTE Done as the key is generated */
/* a. For PCR_INFO_LONG include the locality of the current command */
/* 10. Create an asymmetric key pair (identityPubKey and tpm_signature_key) using a
TPM-protected capability, in accordance with the algorithm specified in idKeyParams */
if (returnCode == TPM_SUCCESS) {
/* generate the key pair, create the tpm_store_asymkey cache, copy key parameters, create
tpm_pcr_info cache, copies pcr parameters, sets digestAtCreation, sets pubKey, serializes
pcrInfo
does not set encData */
printf("TPM_Process_MakeIdentity: Generating key\n");
returnCode = TPM_Key_GenerateRSA(&idKey,
tpm_state,
&(tpm_state->tpm_permanent_data.srk), /* parent key */
tpm_state->tpm_stclear_data.PCRS, /* PCR array */
ver,
idKeyParams.keyUsage,
idKeyParams.keyFlags,
idKeyParams.authDataUsage, /* TPM_AUTH_DATA_USAGE */
&(idKeyParams.algorithmParms), /* TPM_KEY_PARMS */
idKeyParams.tpm_pcr_info, /* TPM_PCR_INFO */
idKeyParams.tpm_pcr_info_long);/* TPM_PCR_INFO_LONG */
}
/* 11. Ensure that the authorization information in A1 is properly stored in the idKey as
usageAuth. */
if (returnCode == TPM_SUCCESS) {
returnCode = TPM_Key_GetStoreAsymkey(&idKeyStoreAsymkey,
&idKey);
}
if (returnCode == TPM_SUCCESS) {
TPM_Secret_Copy(idKeyStoreAsymkey->usageAuth, a1Auth);
/* 12. Attach identityPubKey and tpm_signature_key to idKey */
/* Note: Done as the key is generated */
/* 13. Set idKey -> migrationAuth to TPM_PERMANENT_DATA -> tpmProof */
TPM_Secret_Copy(idKeyStoreAsymkey->migrationAuth, tpm_state->tpm_permanent_data.tpmProof);
/* 14. Ensure that all TPM_PAYLOAD_TYPE structures identity this key as TPM_PT_ASYM */
/* NOTE Done as the key is generated */
}
/* 15. Encrypt the private portion of idKey using the SRK as the parent key */
if (returnCode == TPM_SUCCESS) {
printf("TPM_Process_MakeIdentity: Encrypting key private part with SRK\n");
returnCode = TPM_Key_GenerateEncData(&idKey, &(tpm_state->tpm_permanent_data.srk));
}
/* 16. Create a TPM_IDENTITY_CONTENTS structure named idContents using labelPrivCADigest and the
information from idKey */
if (returnCode == TPM_SUCCESS) {
TPM_Digest_Copy(idContents.labelPrivCADigest, labelPrivCADigest);
returnCode = TPM_Pubkey_Set(&(idContents.identityPubKey), &idKey);
}
/* 17. Sign idContents using tpm_signature_key and TPM_SS_RSASSAPKCS1v15_SHA1. Store the result
in identityBinding. */
/* NOTE: TPM_Key_CheckProperties() verified TPM_SS_RSASSAPKCS1v15_SHA1 */
/* serialize tpm_identity_contents and hash the results*/
if (returnCode == TPM_SUCCESS) {
returnCode = TPM_SHA1_GenerateStructure(h1Digest,
&idContents,
(TPM_STORE_FUNCTION_T)TPM_IdentityContents_Store);
}
/* sign the digest */
if (returnCode == TPM_SUCCESS) {
printf("TPM_Process_MakeIdentity: Signing digest of TPM_IDENTITY_CONTENTS\n");
returnCode = TPM_RSASignToSizedBuffer(&identityBinding, h1Digest, TPM_DIGEST_SIZE, &idKey);
}
#if 0 /* NOTE Debug code to reverse the signature */
if (returnCode == TPM_SUCCESS) {
unsigned char *message = NULL;
unsigned char *narr = NULL;
uint32_t nbytes;
unsigned char *earr = NULL;
uint32_t ebytes;
if (returnCode == 0) {
returnCode = TPM_Malloc(&message, identityBinding.size); /* freed @10 */
}
if (returnCode == 0) {
returnCode = TPM_Key_GetPublicKey(&nbytes, &narr, &idKey);
}
if (returnCode == 0) {
returnCode = TPM_Key_GetExponent(&ebytes, &earr, &idKey);
}
if (returnCode == 0) {
returnCode = TPM_RSAPublicEncryptRaw(message, /* output */
identityBinding.size,
identityBinding.buffer, /* input */
identityBinding.size,
narr, /* public modulus */
nbytes,
earr, /* public exponent */
ebytes);
}
free(message); /* @10 */
}
#endif
/*
response
*/
/* standard response: tag, (dummy) paramSize, returnCode. Failure is fatal. */
if (rcf == 0) {
printf("TPM_Process_MakeIdentity: Ordinal returnCode %08x %u\n",
returnCode, returnCode);
rcf = TPM_Sbuffer_StoreInitialResponse(response, tag, returnCode);
}
/* success response, append the rest of the parameters. */
if (rcf == 0) {
if (returnCode == TPM_SUCCESS) {
/* checkpoint the beginning of the outParam's */
outParamStart = response->buffer_current - response->buffer;
/* return idKey */
returnCode = TPM_Key_Store(response, &idKey);
}
if (returnCode == TPM_SUCCESS) {
/* return identityBinding */
returnCode = TPM_SizedBuffer_Store(response, &identityBinding);
/* checkpoint the end of the outParam's */
outParamEnd = response->buffer_current - response->buffer;
}
/* digest the above the line output parameters */
if (returnCode == TPM_SUCCESS) {
returnCode = TPM_GetOutParamDigest(outParamDigest, /* output */
auditStatus, /* input audit status */
transportEncrypt,
tag,
returnCode,
ordinal, /* command ordinal */
response->buffer + outParamStart, /* start */
outParamEnd - outParamStart); /* length */
}
/* calculate and set the below the line parameters */
if ((returnCode == TPM_SUCCESS) && (tag == TPM_TAG_RQU_AUTH2_COMMAND)) {
returnCode = TPM_AuthParams_Set(response,
*srkHmacKey, /* owner HMAC key */
srk_auth_session_data,
outParamDigest,
srknonceOdd,
continueSrkSession);
}
/* calculate and set the below the line parameters */
if (returnCode == TPM_SUCCESS) {
returnCode = TPM_AuthParams_Set(response,
*hmacKey, /* owner HMAC key */
auth_session_data,
outParamDigest,
nonceOdd,
continueAuthSession);
}
/* audit if required */
if ((returnCode == TPM_SUCCESS) && auditStatus) {
returnCode = TPM_ProcessAudit(tpm_state,
transportEncrypt,
inParamDigest,
outParamDigest,
ordinal);
}
/* adjust the initial response */
rcf = TPM_Sbuffer_StoreFinalResponse(response, returnCode, tpm_state);
}
/* if there was an error, or continueSrkSession is FALSE, terminate the session */
if (((rcf != 0) ||
((returnCode != TPM_SUCCESS) && (returnCode != TPM_DEFEND_LOCK_RUNNING)) ||
!continueSrkSession) &&
srkAuthHandleValid) {
TPM_AuthSessions_TerminateHandle(tpm_state->tpm_stclear_data.authSessions, srkAuthHandle);
}
/* if there was an error, or continueAuthSession is FALSE, terminate the session */
if (((rcf != 0) ||
((returnCode != TPM_SUCCESS) && (returnCode != TPM_DEFEND_LOCK_RUNNING)) ||
!continueAuthSession) &&
authHandleValid) {
TPM_AuthSessions_TerminateHandle(tpm_state->tpm_stclear_data.authSessions, authHandle);
}
/*
cleanup
*/
TPM_Key_Delete(&idKeyParams); /* freed @1 */
TPM_Key_Delete(&idKey); /* freed @2 */
TPM_SizedBuffer_Delete(&identityBinding); /* freed @3 */
TPM_IdentityContents_Delete(&idContents); /* freed @4 */
return rcf;
}
/* 15.2 TPM_ActivateIdentity rev 107
The purpose of TPM_ActivateIdentity is to twofold. The first purpose is to obtain assurance that
the credential in the TPM_SYM_CA_ATTESTATION is for this TPM. The second purpose is to obtain the
session key used to encrypt the TPM_IDENTITY_CREDENTIAL.
The command TPM_ActivateIdentity activates a TPM identity created using the command
TPM_MakeIdentity.
The command assumes the availability of the private key associated with the identity. The command
will verify the association between the keys during the process.
The command will decrypt the input blob and extract the session key and verify the connection
between the public and private keys. The input blob can be in 1.1 or 1.2 format.
*/
TPM_RESULT TPM_Process_ActivateIdentity(tpm_state_t *tpm_state,
TPM_STORE_BUFFER *response,
TPM_TAG tag,
uint32_t paramSize,
TPM_COMMAND_CODE ordinal,
unsigned char *command,
TPM_TRANSPORT_INTERNAL *transportInternal)
{
TPM_RESULT rcf = 0; /* fatal error precluding response */
TPM_RESULT returnCode = TPM_SUCCESS; /* command return code */
/* input parameters */
TPM_KEY_HANDLE idKeyHandle; /* handle of identity key to be activated */
TPM_SIZED_BUFFER blob; /* The encrypted ASYM_CA_CONTENTS or TPM_EK_BLOB */
TPM_AUTHHANDLE idKeyAuthHandle; /* The authorization handle used for ID key
authorization. */
TPM_NONCE idKeynonceOdd; /* Nonce generated by system associated with idKeyAuthHandle
*/
TPM_BOOL continueIdKeySession = TRUE; /* Continue usage flag for idKeyAuthHandle. */
TPM_AUTHDATA idKeyAuth; /* The authorization digest for the inputs and ID key. HMAC
key: idKey.usageAuth. */
TPM_AUTHHANDLE authHandle; /* The authorization handle used for owner authorization. */
TPM_NONCE nonceOdd; /* Nonce generated by system associated with authHandle */
TPM_BOOL continueAuthSession = TRUE; /* The continue use flag for the authorization
handle */
TPM_AUTHDATA ownerAuth; /* The authorization digest for inputs and
owner. HMAC key: ownerAuth. */
/* processing parameters */
unsigned char * inParamStart; /* starting point of inParam's */
unsigned char * inParamEnd; /* ending point of inParam's */
TPM_DIGEST inParamDigest;
TPM_BOOL auditStatus; /* audit the ordinal */
TPM_BOOL transportEncrypt; /* wrapped in encrypted transport session */
TPM_BOOL idKeyAuthHandleValid = FALSE;
TPM_BOOL authHandleValid = FALSE;
TPM_AUTH_SESSION_DATA *id_key_auth_session_data = NULL; /* session data for authHandle */
TPM_AUTH_SESSION_DATA *auth_session_data = NULL; /* session data for dataAuthHandle */
TPM_SECRET *idKeyHmacKey;
TPM_SECRET *hmacKey;
TPM_KEY *idKey; /* Identity key to be activated */
TPM_SECRET *idKeyUsageAuth;
TPM_BOOL idPCRStatus;
TPM_DIGEST h1Digest; /* digest of public key in idKey */
unsigned char *b1Blob = NULL; /* decrypted blob */
uint32_t b1BlobLength = 0; /* actual valid data */
TPM_STRUCTURE_TAG hTag; /* b1 tag in host byte order */
int vers = 0; /* version of blob */
unsigned char *stream;
uint32_t stream_size;
TPM_EK_BLOB b1EkBlob;
TPM_ASYM_CA_CONTENTS b1AsymCaContents;
TPM_SYMMETRIC_KEY *k1 = NULL;
TPM_EK_BLOB_ACTIVATE a1;
/* output parameters */
uint32_t outParamStart; /* starting point of outParam's */
uint32_t outParamEnd; /* ending point of outParam's */
TPM_DIGEST outParamDigest;
TPM_SYMMETRIC_KEY symmetricKey; /* The decrypted symmetric key. */
printf("TPM_Process_ActivateIdentity: Ordinal Entry\n");
TPM_SizedBuffer_Init(&blob); /* freed @1 */
TPM_SymmetricKey_Init(&symmetricKey); /* freed @2 */
TPM_AsymCaContents_Init(&b1AsymCaContents); /* freed @4 */
TPM_EKBlob_Init(&b1EkBlob); /* freed @5 */
TPM_EKBlobActivate_Init(&a1); /* freed @6 */
/*
get inputs
*/
/* get idKey parameter */
if (returnCode == TPM_SUCCESS) {
returnCode = TPM_Load32(&idKeyHandle, &command, ¶mSize);
}
/* save the starting point of inParam's for authorization and auditing */
inParamStart = command;
/* get blob parameter */
if (returnCode == TPM_SUCCESS) {
returnCode = TPM_SizedBuffer_Load(&blob, &command, ¶mSize);
}
/* save the ending point of inParam's for authorization and auditing */
inParamEnd = command;
/* digest the input parameters */
if (returnCode == TPM_SUCCESS) {
returnCode = TPM_GetInParamDigest(inParamDigest, /* output */
&auditStatus, /* output */
&transportEncrypt, /* output */
tpm_state,
tag,
ordinal,
inParamStart,
inParamEnd,
transportInternal);
}
/* check state */
if (returnCode == TPM_SUCCESS) {
returnCode = TPM_CheckState(tpm_state, tag, TPM_CHECK_ALL);
}
/* check tag */
if (returnCode == TPM_SUCCESS) {
returnCode = TPM_CheckRequestTag21(tag);
}
/* get the optional 'below the line' authorization parameters */
if ((returnCode == TPM_SUCCESS) && (tag == TPM_TAG_RQU_AUTH2_COMMAND)) {
returnCode = TPM_AuthParams_Get(&idKeyAuthHandle,
&idKeyAuthHandleValid,
idKeynonceOdd,
&continueIdKeySession,
idKeyAuth,
&command, ¶mSize);
printf("TPM_Process_ActivateIdentity: idKeyAuthHandle %08x\n", idKeyAuthHandle);
}
/* get the 'below the line' authorization parameters */
if (returnCode == TPM_SUCCESS) {
returnCode = TPM_AuthParams_Get(&authHandle,
&authHandleValid,
nonceOdd,
&continueAuthSession,
ownerAuth,
&command, ¶mSize);
}
if (returnCode == TPM_SUCCESS) {
printf("TPM_Process_ActivateIdentity: authHandle %08x\n", authHandle);
}
if (returnCode == TPM_SUCCESS) {
if (paramSize != 0) {
printf("TPM_Process_ActivateIdentity: Error, command has %u extra bytes\n",
paramSize);
returnCode = TPM_BAD_PARAM_SIZE;
}
}
/* do not terminate sessions if the command did not parse correctly */
if (returnCode != TPM_SUCCESS) {
idKeyAuthHandleValid = FALSE;
authHandleValid = FALSE;
}
/*
Processing
*/
/* 1. Using the authHandle field, validate the owner's authorization to execute the command and
all of the incoming parameters. */
/* get the session data */
if (returnCode == TPM_SUCCESS) {
returnCode = TPM_AuthSessions_GetData(&auth_session_data,
&hmacKey,
tpm_state,
authHandle,
TPM_PID_NONE,
TPM_ET_OWNER,
ordinal,
NULL,
&(tpm_state->tpm_permanent_data.ownerAuth), /* OIAP */
tpm_state->tpm_permanent_data.ownerAuth); /* OSAP */
}
/* Validate the authorization to use the key pointed to by keyHandle */
if (returnCode == TPM_SUCCESS) {
returnCode = TPM_Authdata_Check(tpm_state,
*hmacKey, /* HMAC key */
inParamDigest,
auth_session_data, /* authorization session */
nonceOdd, /* Nonce generated by system
associated with authHandle */
continueAuthSession,
ownerAuth); /* Authorization digest for input */
}
/* 2. Using the idKeyAuthHandle, validate the authorization to execute command and all of the
incoming parameters */
/* get the idKey */
if (returnCode == TPM_SUCCESS) {
returnCode = TPM_KeyHandleEntries_GetKey(&idKey, &idPCRStatus, tpm_state, idKeyHandle,
FALSE, /* not r/o, using to authenticate */
FALSE, /* do not ignore PCRs */
FALSE); /* cannot use EK */
}
/* get keyHandle -> usageAuth */
if (returnCode == TPM_SUCCESS) {
returnCode = TPM_Key_GetUsageAuth(&idKeyUsageAuth, idKey);
}
/* get the session data */
if ((returnCode == TPM_SUCCESS) && (tag == TPM_TAG_RQU_AUTH2_COMMAND)) {
returnCode = TPM_AuthSessions_GetData(&id_key_auth_session_data,
&idKeyHmacKey,
tpm_state,
idKeyAuthHandle,
TPM_PID_NONE,
TPM_ET_KEYHANDLE,
ordinal,
idKey,
idKeyUsageAuth, /* OIAP */
idKey->tpm_store_asymkey->pubDataDigest); /* OSAP */
}
/* Validate the authorization to use the key pointed to by keyHandle */
if ((returnCode == TPM_SUCCESS) && (tag == TPM_TAG_RQU_AUTH2_COMMAND)) {
returnCode = TPM_Auth2data_Check(tpm_state,
*idKeyHmacKey, /* HMAC key */
inParamDigest,
id_key_auth_session_data, /* authorization session */
idKeynonceOdd, /* Nonce generated by system
associated with authHandle */
continueIdKeySession,
idKeyAuth); /* Authorization digest for input */
}
/* if there is no idKey authorization, check that the idKey -> authDataUsage is TPM_AUTH_NEVER
*/
if ((returnCode == TPM_SUCCESS) && (tag != TPM_TAG_RQU_AUTH2_COMMAND)) {
if (idKey->authDataUsage != TPM_AUTH_NEVER) {
printf("TPM_Process_ActivateIdentity: Error, ID key authorization required\n");
returnCode = TPM_AUTHFAIL;
}
}
/* 3. Validate that the idKey is the public key of a valid TPM identity by checking that
idKeyHandle -> keyUsage is TPM_KEY_IDENTITY. Return TPM_BAD_PARAMETER on mismatch */
if (returnCode == TPM_SUCCESS) {
printf("TPM_Process_ActivateIdentity: Checking for identity key\n");
if (idKey->keyUsage != TPM_KEY_IDENTITY) {
printf("TPM_Process_ActivateIdentity: Error, keyUsage %04hx must be TPM_KEY_IDENTITY\n",
idKey->keyUsage);
returnCode = TPM_BAD_PARAMETER;
}
}
/* 4. Create H1 the digest of a TPM_PUBKEY derived from idKey */
if (returnCode == TPM_SUCCESS) {
returnCode = TPM_Key_GeneratePubkeyDigest(h1Digest, idKey);
}
/* 5. Decrypt blob creating B1 using PRIVEK as the decryption key */
if (returnCode == TPM_SUCCESS) {
printf("TPM_Process_ActivateIdentity: Decrypting blob with EK\n");
returnCode = TPM_RSAPrivateDecryptMalloc(&b1Blob, /* decrypted data */
&b1BlobLength, /* actual size of b1 data */
blob.buffer,
blob.size,
&(tpm_state->tpm_permanent_data.endorsementKey));
}
/* 6. Determine the type and version of B1 */
if (returnCode == TPM_SUCCESS) {
stream = b1Blob; /* b1 must be preserved for the free */
stream_size = b1BlobLength;
/* convert possible tag to uint16_t */
hTag = ntohs(*(TPM_STRUCTURE_TAG *)b1Blob);
/* a. If B1 -> tag is TPM_TAG_EK_BLOB then */
if (hTag == TPM_TAG_EK_BLOB) {
/* i. B1 is a TPM_EK_BLOB */
printf("TPM_Process_ActivateIdentity: b1 is TPM_EK_BLOB\n");
vers = 2;
returnCode = TPM_EKBlob_Load(&b1EkBlob, &stream, &stream_size);
}
/* b. Else */
else {
/* i. B1 is a TPM_ASYM_CA_CONTENTS. As there is no tag for this structure it is possible
for the TPM to make a mistake here but other sections of the structure undergo
validation */
printf("TPM_Process_ActivateIdentity: b1 is TPM_ASYM_CA_CONTENTS\n");
vers = 1;
returnCode = TPM_AsymCaContents_Load(&b1AsymCaContents, &stream, &stream_size);
}
}
/* 7. If B1 is a version 1.1 TPM_ASYM_CA_CONTENTS then */
if ((returnCode == TPM_SUCCESS) && (vers == 1)) {
/* a. Compare H1 to B1 -> idDigest on mismatch return TPM_BAD_PARAMETER */
if (returnCode == TPM_SUCCESS) {
returnCode = TPM_Digest_Compare(h1Digest, b1AsymCaContents.idDigest);
if (returnCode != 0) {
printf("TPM_Process_ActivateIdentity: Error "
"comparing TPM_ASYM_CA_CONTENTS idDigest\n");
returnCode = TPM_BAD_PARAMETER;
}
}
/* b. Set K1 to B1 -> sessionKey */
if (returnCode == TPM_SUCCESS) {
k1 = &(b1AsymCaContents.sessionKey);
}
}
/* 8. If B1 is a TPM_EK_BLOB then */
if ((returnCode == TPM_SUCCESS) && (vers == 2)) {
/* a. Validate that B1 -> ekType is TPM_EK_TYPE_ACTIVATE, return TPM_BAD_TYPE if not. */
if (returnCode == TPM_SUCCESS) {
if (b1EkBlob.ekType != TPM_EK_TYPE_ACTIVATE) {
printf("TPM_Process_ActivateIdentity: Error, "
"TPM_EK_BLOB not ekType TPM_EK_TYPE_ACTIVATE\n");
returnCode = TPM_BAD_TYPE;
}
}
/* b. Assign A1 as a TPM_EK_BLOB_ACTIVATE structure from B1 -> blob */
if (returnCode == TPM_SUCCESS) {
stream = b1EkBlob.blob.buffer;
stream_size = b1EkBlob.blob.size;
returnCode = TPM_EKBlobActivate_Load(&a1, &stream, &stream_size);
}
/* c. Compare H1 to A1 -> idDigest on mismatch return TPM_BAD_PARAMETER */
if (returnCode == TPM_SUCCESS) {
returnCode = TPM_Digest_Compare(h1Digest, a1.idDigest);
if (returnCode != 0) {
printf("TPM_Process_ActivateIdentity: Error "
"comparing TPM_EK_TYPE_ACTIVATE idDigest\n");
returnCode = TPM_BAD_PARAMETER;
}
}
/* d. If A1 -> pcrSelection is not NULL */
/* i. Compute a composite hash C1 using the PCR selection A1 -> pcrSelection */
/* ii. Compare C1 to A1 -> pcrInfo -> digestAtRelease and return TPM_WRONGPCRVAL on a
mismatch */
/* e. If A1 -> pcrInfo specifies a locality ensure that the appropriate locality has been
asserted, return TPM_BAD_LOCALITY on error */
if (returnCode == TPM_SUCCESS) {
if (returnCode == TPM_SUCCESS) {
returnCode =
TPM_PCRInfoShort_CheckDigest(&(a1.pcrInfo),
tpm_state->tpm_stclear_data.PCRS, /* PCR array */
tpm_state->tpm_stany_flags.localityModifier);
}
}
/* f. Set K1 to A1 -> symmetricKey */
if (returnCode == TPM_SUCCESS) {
k1 = &(a1.sessionKey);
}
}
/*
response
*/
/* standard response: tag, (dummy) paramSize, returnCode. Failure is fatal. */
if (rcf == 0) {
printf("TPM_Process_ActivateIdentity: Ordinal returnCode %08x %u\n",
returnCode, returnCode);
rcf = TPM_Sbuffer_StoreInitialResponse(response, tag, returnCode);
}
/* success response, append the rest of the parameters. */
if (rcf == 0) {
if (returnCode == TPM_SUCCESS) {
/* checkpoint the beginning of the outParam's */
outParamStart = response->buffer_current - response->buffer;
/* 9. Return K1 */
returnCode = TPM_SymmetricKey_Store(response, k1);
/* checkpoint the end of the outParam's */
outParamEnd = response->buffer_current - response->buffer;
}
/* digest the above the line output parameters */
if (returnCode == TPM_SUCCESS) {
returnCode = TPM_GetOutParamDigest(outParamDigest, /* output */
auditStatus, /* input audit status */
transportEncrypt,
tag,
returnCode,
ordinal, /* command ordinal */
response->buffer + outParamStart, /* start */
outParamEnd - outParamStart); /* length */
}
/* calculate and set the below the line parameters */
if ((returnCode == TPM_SUCCESS) && (tag == TPM_TAG_RQU_AUTH2_COMMAND)) {
returnCode = TPM_AuthParams_Set(response,
*idKeyHmacKey, /* owner HMAC key */
id_key_auth_session_data,
outParamDigest,
idKeynonceOdd,
continueIdKeySession);
}
/* calculate and set the below the line parameters */
if (returnCode == TPM_SUCCESS) {
returnCode = TPM_AuthParams_Set(response,
*hmacKey, /* owner HMAC key */
auth_session_data,
outParamDigest,
nonceOdd,
continueAuthSession);
}
/* audit if required */
if ((returnCode == TPM_SUCCESS) && auditStatus) {
returnCode = TPM_ProcessAudit(tpm_state,
transportEncrypt,
inParamDigest,
outParamDigest,
ordinal);
}
/* adjust the initial response */
rcf = TPM_Sbuffer_StoreFinalResponse(response, returnCode, tpm_state);
}
/* if there was an error, or continueAuthSession is FALSE, terminate the session */
if (((rcf != 0) ||
((returnCode != TPM_SUCCESS) && (returnCode != TPM_DEFEND_LOCK_RUNNING)) ||
!continueIdKeySession) &&
idKeyAuthHandleValid) {
TPM_AuthSessions_TerminateHandle(tpm_state->tpm_stclear_data.authSessions, idKeyAuthHandle);
}
/* if there was an error, or continueAuthSession is FALSE, terminate the session */
if (((rcf != 0) ||
((returnCode != TPM_SUCCESS) && (returnCode != TPM_DEFEND_LOCK_RUNNING)) ||
!continueAuthSession) &&
authHandleValid) {
TPM_AuthSessions_TerminateHandle(tpm_state->tpm_stclear_data.authSessions, authHandle);
}
/*
cleanup
*/
TPM_SizedBuffer_Delete(&blob); /* @1 */
TPM_SymmetricKey_Delete(&symmetricKey); /* @2 */
free(b1Blob); /* @3 */
TPM_AsymCaContents_Delete(&b1AsymCaContents); /* @4 */
TPM_EKBlob_Delete(&b1EkBlob); /* @5 */
TPM_EKBlobActivate_Delete(&a1); /* @6 */
return rcf;
}
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