1 files changed, 1271 insertions, 0 deletions

diff --git a/src/tpm12/tpm_audit.c b/src/tpm12/tpm_audit.c
new file mode 100644
index 0000000..529dee3
--- /dev/null
+++ b/src/tpm12/tpm_audit.c
@@ -0,0 +1,1271 @@
+/********************************************************************************/
+/*										*/
+/*				Audit Handler					*/
+/*			     Written by Ken Goldman				*/
+/*		       IBM Thomas J. Watson Research Center			*/
+/*	      $Id: tpm_audit.c 4438 2011-02-13 23:03:56Z 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 <string.h>
+
+#include "tpm_auth.h"
+#include "tpm_counter.h"
+#include "tpm_cryptoh.h"
+#include "tpm_debug.h"
+#include "tpm_digest.h"
+#include "tpm_error.h"
+#include "tpm_global.h"
+#include "tpm_key.h"
+#include "tpm_nonce.h"
+#include "tpm_permanent.h"
+#include "tpm_process.h"
+
+#include "tpm_audit.h"
+
+/*
+  TPM_AUDIT_EVENT_IN 
+*/
+
+/* TPM_AuditEventIn_Init()
+
+   sets members to default values
+   sets all pointers to NULL and sizes to 0
+   always succeeds - no return code
+*/
+
+void TPM_AuditEventIn_Init(TPM_AUDIT_EVENT_IN *tpm_audit_event_in)
+{
+    printf(" TPM_AuditEventIn_Init:\n");
+    TPM_Digest_Init(tpm_audit_event_in->inputParms);
+    TPM_CounterValue_Init(&(tpm_audit_event_in->auditCount));
+    return;
+}
+
+/* TPM_AuditEventIn_Store()
+   
+   serialize the structure to a stream contained in 'sbuffer'
+   returns 0 or error codes
+*/
+
+TPM_RESULT TPM_AuditEventIn_Store(TPM_STORE_BUFFER *sbuffer,
+				  const TPM_AUDIT_EVENT_IN *tpm_audit_event_in)
+{
+    TPM_RESULT		rc = 0;
+
+    printf(" TPM_AuditEventIn_Store:\n");
+    /* store tag */
+    if (rc == 0) {
+	rc = TPM_Sbuffer_Append16(sbuffer, TPM_TAG_AUDIT_EVENT_IN); 
+    }
+    /* store inputParms */
+    if (rc == 0) {
+	rc = TPM_Digest_Store(sbuffer, tpm_audit_event_in->inputParms);
+    }
+    /* store auditCount */
+    if (rc == 0) {
+	rc = TPM_CounterValue_StorePublic(sbuffer, &(tpm_audit_event_in->auditCount));
+    }
+    return rc;
+}
+
+/* TPM_AuditEventIn_Delete()
+
+   No-OP if the parameter is NULL, else:
+   frees memory allocated for the object
+   sets pointers to NULL
+   calls TPM_AuditEventIn_Init to set members back to default values
+   The object itself is not freed
+*/   
+
+void TPM_AuditEventIn_Delete(TPM_AUDIT_EVENT_IN *tpm_audit_event_in)
+{
+    printf(" TPM_AuditEventIn_Delete:\n");
+    if (tpm_audit_event_in != NULL) {
+	TPM_AuditEventIn_Init(tpm_audit_event_in);
+    }
+    return;
+}
+
+/*
+  TPM_AUDIT_EVENT_OUT
+*/
+
+/* TPM_AuditEventOut_Init()
+
+   sets members to default values
+   sets all pointers to NULL and sizes to 0
+   always succeeds - no return code
+*/
+
+void TPM_AuditEventOut_Init(TPM_AUDIT_EVENT_OUT *tpm_audit_event_out)
+{
+    printf(" TPM_AuditEventOut_Init:\n");
+    TPM_Digest_Init(tpm_audit_event_out->outputParms);
+    TPM_CounterValue_Init(&(tpm_audit_event_out->auditCount));
+    return;
+}
+
+/* TPM_AuditEventOut_Store()
+   
+   serialize the structure to a stream contained in 'sbuffer'
+   returns 0 or error codes
+*/
+
+TPM_RESULT TPM_AuditEventOut_Store(TPM_STORE_BUFFER *sbuffer,
+				  const TPM_AUDIT_EVENT_OUT *tpm_audit_event_out)
+{
+    TPM_RESULT		rc = 0;
+
+    printf(" TPM_AuditEventOut_Store:\n");
+    /* store tag */
+    if (rc == 0) {
+	rc = TPM_Sbuffer_Append16(sbuffer, TPM_TAG_AUDIT_EVENT_OUT); 
+    }
+    /* store outputParms */
+    if (rc == 0) {
+	rc = TPM_Digest_Store(sbuffer, tpm_audit_event_out->outputParms);
+    }
+    /* store auditCount */
+    if (rc == 0) {
+	rc = TPM_CounterValue_StorePublic(sbuffer, &(tpm_audit_event_out->auditCount));
+    }
+    return rc;
+}
+
+/* TPM_AuditEventOut_Delete()
+
+   No-OP if the parameter is NULL, else:
+   frees memory allocated for the object
+   sets pointers to NULL
+   calls TPM_AuditEventOut_Init to set members back to default values
+   The object itself is not freed
+*/   
+
+void TPM_AuditEventOut_Delete(TPM_AUDIT_EVENT_OUT *tpm_audit_event_out)
+{
+    printf(" TPM_AuditEventOut_Delete:\n");
+    if (tpm_audit_event_out != NULL) {
+	TPM_AuditEventOut_Init(tpm_audit_event_out);
+    }
+    return;
+}
+
+/*
+  ordinalAuditStatus Processing
+*/
+
+/* TPM_OrdinalAuditStatus_Init() initializes the TPM_PERMANENT_DATA 'ordinalAuditStatus' to the
+   default
+
+   The flags are stored as a bit map to conserve NVRAM.
+
+   The array is not written back to NVRAM.
+*/
+
+TPM_RESULT TPM_OrdinalAuditStatus_Init(TPM_PERMANENT_DATA *tpm_permanent_data)
+{
+    TPM_RESULT		rc = 0;
+    TPM_COMMAND_CODE	ord;		/* iterate through all ordinals */
+    TPM_BOOL		auditDefault;	/* result for an ordinal */
+    TPM_BOOL 		altered;
+    
+    printf(" TPM_OrdinalAuditStatus_Init:\n");
+
+    for (ord = 0 ; (rc == 0) && (ord < TPM_ORDINALS_MAX) ; ord++) {
+	/* get the default audit state from the ordinals table */
+	TPM_OrdinalTable_GetAuditDefault(&auditDefault, ord);
+	/* write to the TPM_PERMANENT_DATA bit map */
+	rc = TPM_OrdinalAuditStatus_SetAuditStatus(&altered, tpm_permanent_data, auditDefault, ord);
+    }
+    /* hack for TSC ordinals */
+    if (rc == 0) {
+	TPM_OrdinalTable_GetAuditDefault(&auditDefault, TSC_ORD_PhysicalPresence);
+	rc = TPM_OrdinalAuditStatus_SetAuditStatus(&altered, tpm_permanent_data, auditDefault,
+						   TSC_ORD_PhysicalPresence);
+    }
+    if (rc == 0) {
+	TPM_OrdinalTable_GetAuditDefault(&auditDefault, TSC_ORD_ResetEstablishmentBit);
+	rc = TPM_OrdinalAuditStatus_SetAuditStatus(&altered, tpm_permanent_data, auditDefault,
+						   TSC_ORD_ResetEstablishmentBit);
+    }
+    return rc;
+}
+
+/* TPM_OrdinalAuditStatus_Store() stores a list of all ordinals being audited
+ */
+
+TPM_RESULT TPM_OrdinalAuditStatus_Store(TPM_SIZED_BUFFER *ordinalList,
+					TPM_PERMANENT_DATA *tpm_permanent_data,
+					TPM_COMMAND_CODE startOrdinal)
+{
+    TPM_RESULT		rc = 0;
+    TPM_STORE_BUFFER	sbuffer;
+    TPM_COMMAND_CODE	ord;
+    TPM_BOOL		auditStatus;
+    
+    printf(" TPM_OrdinalAuditStatus_Store\n");
+    TPM_Sbuffer_Init(&sbuffer);			/* freed @1 */	
+    /* scan through the ordinals array */
+    for (ord = startOrdinal ; (rc == 0) && (ord < TPM_ORDINALS_MAX) ; ord++ ) {
+	/* determine if the ordinal being audited */
+	if (rc == 0) {
+	    rc = TPM_OrdinalAuditStatus_GetAuditStatus(&auditStatus, ord, tpm_permanent_data);
+	}
+	/* if being audited */
+	if ((rc == 0) && auditStatus) {
+	    rc = TPM_Sbuffer_Append32(&sbuffer, ord);	/* append ordinal to the list */
+	}
+    }
+    /* scan the TSC ordinals */
+    if (rc == 0) {
+	if (rc == 0) {
+	    rc = TPM_OrdinalAuditStatus_GetAuditStatus(&auditStatus,
+						       TSC_ORD_PhysicalPresence,
+						       tpm_permanent_data);
+	}
+	if ((rc == 0) && auditStatus) {
+	    rc = TPM_Sbuffer_Append32(&sbuffer, TSC_ORD_PhysicalPresence);
+	}
+	if (rc == 0) {
+	    rc = TPM_OrdinalAuditStatus_GetAuditStatus(&auditStatus,
+						       TSC_ORD_ResetEstablishmentBit,
+						       tpm_permanent_data);
+	}
+	/* if being audited */
+	if ((rc == 0) && auditStatus) {
+	    rc = TPM_Sbuffer_Append32(&sbuffer, TSC_ORD_ResetEstablishmentBit);
+	}
+    }
+    /* convert the list to a TPM_SIZED_BUFFER */
+    if (rc == 0) {
+	rc = TPM_SizedBuffer_SetFromStore(ordinalList, &sbuffer);
+    }
+    TPM_Sbuffer_Delete(&sbuffer);	/* @1 */
+    return rc;
+}
+
+/* TPM_OrdinalAuditStatus_GetAuditState() gets the audit state for the ordinal
+ */
+
+TPM_RESULT TPM_OrdinalAuditStatus_GetAuditStatus(TPM_BOOL *auditStatus,
+						 TPM_COMMAND_CODE ordinal,
+						 TPM_PERMANENT_DATA *tpm_permanent_data)
+{
+    TPM_RESULT		rc = 0;
+    size_t		index;		/* index of ordinal in array */
+    unsigned int	offset;		/* bit position of ordinal in array */
+    unsigned char	bit;	
+
+    if (rc == 0) {
+	/* handle the TPM ordinals */
+	if (ordinal < TPM_ORDINALS_MAX) {
+	    index = ordinal/CHAR_BIT;
+	    offset = ordinal % CHAR_BIT;
+	    bit = 0x01 << offset;
+	    *auditStatus = tpm_permanent_data->ordinalAuditStatus[index] & bit;
+	}
+	/* handle the TSC ordinals */
+	else if (ordinal == TSC_ORD_PhysicalPresence) {
+	    *auditStatus = tpm_permanent_data->tscOrdinalAuditStatus & TSC_PHYS_PRES_AUDIT;
+	}
+	else if (ordinal == TSC_ORD_ResetEstablishmentBit) {
+	    *auditStatus = tpm_permanent_data->tscOrdinalAuditStatus & TSC_RESET_ESTAB_AUDIT;
+	}
+	else {
+	    printf("TPM_OrdinalAuditStatus_GetAuditStatus: Error (fatal) "
+		   "ordinal %08x out of range\n", ordinal);
+	    rc = TPM_FAIL;	/* should never occur, always called with ordinal processing */
+	}
+    }
+    /* trace the ordinals with auditing enabled */
+    if ((rc == 0) && *auditStatus) {
+	printf("  TPM_OrdinalAuditStatus_GetAuditStatus: ordinal %08x status %02x\n",
+	       ordinal, *auditStatus);
+    }
+    return rc;
+}
+
+/* TPM_OrdinalAuditStatus_SetAuditStatus() sets the TPM_PERMANENT_DATA -> ordinalAuditStatus for the
+   ordinal
+
+   The flags are stored as a bit map to conserve NVRAM.
+
+   The array is not written back to NVRAM.  On error, TPM_PERMANENT_DATA is not changed.
+
+   altered is TRUE if the bit was changed, 
+*/
+
+TPM_RESULT TPM_OrdinalAuditStatus_SetAuditStatus(TPM_BOOL *altered,
+						 TPM_PERMANENT_DATA *tpm_permanent_data,
+						 TPM_BOOL auditStatus,
+						 TPM_COMMAND_CODE ordinal)
+{
+    TPM_RESULT		rc = 0;
+    TPM_BOOL		auditable;	/* TRUE if the ordinal is auditable by this TPM
+					   implementation */
+    size_t		index;		/* index of ordinal in array */
+    unsigned int	offset;		/* bit position of ordinal in array */
+    unsigned char	bit;
+
+    *altered = FALSE;			/* default, returned on error */
+#if 0
+    printf(" TPM_OrdinalAuditStatus_SetAuditStatus: ordinal %08x status %02x\n",
+	   ordinal, auditStatus);
+#endif
+    /* If trying to set, screen against the 'never audit' ordinal table */
+    if ((rc == 0) && auditStatus) {
+	TPM_OrdinalTable_GetAuditable(&auditable, ordinal);
+	/* if it is a 'never audit' ordinal, it can not be set */
+	if (!auditable) {
+	    printf("TPM_OrdinalAuditStatus_SetAuditStatus: "
+		   "Error, cannot audit ordinal %08x\n", ordinal);
+	    rc = TPM_BAD_PARAMETER;
+	}
+    }
+    if (rc == 0) {
+	/* handle the TPM ordinals */
+	if (ordinal < TPM_ORDINALS_MAX) {
+	    index = ordinal/CHAR_BIT;
+	    offset = ordinal % CHAR_BIT;
+	    bit = 0x01 << offset;
+	    /* determine if the bit is to be altered */
+	    if (((tpm_permanent_data->ordinalAuditStatus[index] & bit) && !auditStatus) ||
+		(!(tpm_permanent_data->ordinalAuditStatus[index] & bit) && auditStatus)) {
+
+		*altered = TRUE;
+	    }
+	    if (auditStatus) {
+		/* set the bit */
+		tpm_permanent_data->ordinalAuditStatus[index] |= bit;
+	    }
+	    else {
+		/* clear the bit */
+		tpm_permanent_data->ordinalAuditStatus[index] &= ~bit;
+	    }
+	}
+	/* handle the TSC ordinals */
+	else if (ordinal == TSC_ORD_PhysicalPresence) {
+	    /* determine if the bit is to be altered */
+	    if (((tpm_permanent_data->tscOrdinalAuditStatus & TSC_PHYS_PRES_AUDIT)
+		 && !auditStatus) ||
+		(!(tpm_permanent_data->tscOrdinalAuditStatus & TSC_PHYS_PRES_AUDIT)
+		 && auditStatus)) {
+
+		*altered = TRUE;
+	    }
+	    if (auditStatus) {
+		tpm_permanent_data->tscOrdinalAuditStatus |= TSC_PHYS_PRES_AUDIT;
+	    }
+	    else {
+		tpm_permanent_data->tscOrdinalAuditStatus &= ~TSC_PHYS_PRES_AUDIT;
+	    }
+	}
+	else if (ordinal == TSC_ORD_ResetEstablishmentBit) {
+	    if (auditStatus) {
+		/* determine if the bit is to be altered */
+		if (((tpm_permanent_data->tscOrdinalAuditStatus & TSC_RESET_ESTAB_AUDIT)
+		     && !auditStatus) ||
+		    (!(tpm_permanent_data->tscOrdinalAuditStatus & TSC_RESET_ESTAB_AUDIT)
+		     && auditStatus)) {
+
+		    *altered = TRUE;
+		}
+		tpm_permanent_data->tscOrdinalAuditStatus |= TSC_RESET_ESTAB_AUDIT;
+	    }
+	    else {
+		tpm_permanent_data->tscOrdinalAuditStatus &= ~TSC_RESET_ESTAB_AUDIT;
+	    }
+	}
+	else {
+	    printf("TPM_OrdinalAuditStatus_SetAuditStatus: Error ordinal %08x out of range\n",
+		   ordinal);
+	    rc = TPM_BADINDEX;
+	}
+    }
+    return rc;
+}
+
+/*
+  Common Processing Functions
+*/
+
+/* 8.1 Audit Generation rev 109
+
+   TPM_AuditDigest_ExtendIn() extends the audit digest with a digest of input parameters
+*/
+
+TPM_RESULT TPM_AuditDigest_ExtendIn(tpm_state_t *tpm_state,
+				    TPM_DIGEST inParamDigest)
+{
+    TPM_RESULT		rc = 0;
+    TPM_AUDIT_EVENT_IN	tpm_audit_event_in;
+    TPM_STORE_BUFFER	eventIn_sbuffer;
+    const unsigned char *eventIn_buffer;	/* serialized buffer */
+    uint32_t		eventIn_length;		/* serialization length */
+    
+    printf(" TPM_AuditDigest_ExtendIn:\n");
+    TPM_AuditEventIn_Init(&tpm_audit_event_in);		/* freed @1 */
+    TPM_Sbuffer_Init(&eventIn_sbuffer);			/* freed @2 */
+
+    if (rc == 0) {
+	/* b. Create A1 a TPM_AUDIT_EVENT_IN structure */
+	/* NOTE Done by TPM_AuditEventIn_Init() */
+	/* i. Set A1 -> inputParms to the digest of the input parameters from the command */
+	/* (1) Digest value according to the HMAC digest rules of the "above the line" parameters
+	   (i.e. the first HMAC digest calculation). */
+	TPM_Digest_Copy(tpm_audit_event_in.inputParms, inParamDigest);
+	/* ii. Set A1 -> auditCount to TPM_PERMANENT_DATA -> auditMonotonicCounter */
+	TPM_CounterValue_CopyPublic(&(tpm_audit_event_in.auditCount),
+				    &(tpm_state->tpm_permanent_data.auditMonotonicCounter));
+	/* serialize the A1 TPM_AUDIT_EVENT_IN object */
+	rc = TPM_AuditEventIn_Store(&eventIn_sbuffer, &tpm_audit_event_in);
+
+    }
+    if (rc == 0) {
+	/* get the serialization results */
+	TPM_Sbuffer_Get(&eventIn_sbuffer, &eventIn_buffer, &eventIn_length);
+	/* c. Set TPM_STANY_DATA -> auditDigest to SHA-1 (TPM_STANY_DATA -> auditDigest || A1) */
+	TPM_PrintFour("  TPM_AuditDigest_ExtendIn: Previous digest",
+		      tpm_state->tpm_stclear_data.auditDigest);
+	TPM_PrintAll("  TPM_AuditDigest_ExtendIn: TPM_AUDIT_EVENT_IN", eventIn_buffer, eventIn_length);
+	rc = TPM_SHA1(tpm_state->tpm_stclear_data.auditDigest,
+		      TPM_DIGEST_SIZE, tpm_state->tpm_stclear_data.auditDigest,
+		      eventIn_length, eventIn_buffer,
+		      0, NULL);
+	TPM_PrintFour("  TPM_AuditDigest_ExtendIn: Current digest (in)",
+		      tpm_state->tpm_stclear_data.auditDigest);
+    }
+    TPM_AuditEventIn_Delete(&tpm_audit_event_in);	/* @1 */
+    TPM_Sbuffer_Delete(&eventIn_sbuffer);		/* @2 */
+    return rc;
+}
+
+/* 8.1 Audit Generation rev 109
+
+   TPM_AuditDigest_ExtendOut() extends the audit digest with a digest of output parameters
+*/
+
+TPM_RESULT TPM_AuditDigest_ExtendOut(tpm_state_t *tpm_state,
+				     TPM_DIGEST outParamDigest)
+{
+    TPM_RESULT		rc = 0;
+    TPM_AUDIT_EVENT_OUT tpm_audit_event_out;
+    TPM_STORE_BUFFER	eventOut_sbuffer;
+    const unsigned char *eventOut_buffer;	/* serialized buffer */
+    uint32_t		eventOut_length;	/* serialization length */
+    
+    printf(" TPM_AuditDigest_ExtendOut:\n");
+    TPM_AuditEventOut_Init(&tpm_audit_event_out);	/* freed @1 */
+    TPM_Sbuffer_Init(&eventOut_sbuffer);		/* freed @2 */
+
+    if (rc == 0) {
+	/* d. Create A2 a TPM_AUDIT_EVENT_OUT structure */
+	/* NOTE Done by TPM_AuditEventOut_Init() */
+	/* i. Set A2 -> outputParms to the digest of the output parameters from the command */
+	/* (1). Digest value according to the HMAC digest rules of the "above the line" parameters
+	   (i.e. the first HMAC digest calculation). */
+	TPM_Digest_Copy(tpm_audit_event_out.outputParms, outParamDigest);
+	/* ii. Set A2 -> auditCount to TPM_PERMANENT_DATA -> auditMonotonicCounter */
+	TPM_CounterValue_CopyPublic(&(tpm_audit_event_out.auditCount),
+				    &(tpm_state->tpm_permanent_data.auditMonotonicCounter));
+	/* serialize the A2 TPM_AUDIT_EVENT_OUT object */
+	rc = TPM_AuditEventOut_Store(&eventOut_sbuffer, &tpm_audit_event_out);
+    }
+    if (rc == 0) {
+	/* get the serialization results */
+	TPM_Sbuffer_Get(&eventOut_sbuffer, &eventOut_buffer, &eventOut_length);
+	/* e. Set TPM_STANY_DATA -> auditDigest to SHA-1 (TPM_STANY_DATA -> auditDigest || A2) */
+	TPM_PrintFour("  TPM_AuditDigest_ExtendOut: Previous digest",
+		      tpm_state->tpm_stclear_data.auditDigest);
+	TPM_PrintAll("  TPM_AuditDigest_ExtendOut: TPM_AUDIT_EVENT_OUT", eventOut_buffer, eventOut_length);
+	rc = TPM_SHA1(tpm_state->tpm_stclear_data.auditDigest,
+		      TPM_DIGEST_SIZE, tpm_state->tpm_stclear_data.auditDigest,
+		      eventOut_length, eventOut_buffer,
+		      0, NULL);
+	TPM_PrintFour("  TPM_AuditDigest_ExtendOut: Current digest (out)",
+		      tpm_state->tpm_stclear_data.auditDigest);
+    }
+    TPM_AuditEventOut_Delete(&tpm_audit_event_out);	/* @1 */
+    TPM_Sbuffer_Delete(&eventOut_sbuffer);		/* @2 */
+    return rc;
+}
+
+/*
+  Processing Functions
+*/
+
+/* The TPM generates an audit event in response to the TPM executing a command that has the audit
+   flag set to TRUE for that command.
+
+   The TPM maintains an extended value for all audited operations.
+*/
+
+/* 8.3 TPM_GetAuditDigest rev 87
+
+   This returns the current audit digest. The external audit log has the responsibility to track the
+   parameters that constitute the audit digest.
+
+   This value may be unique to an individual TPM.  The value however will be changing at a rate set
+   by the TPM Owner. Those attempting to use this value may find it changing without their
+   knowledge.  This value represents a very poor source of tracking uniqueness.
+*/
+
+TPM_RESULT TPM_Process_GetAuditDigest(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 */
+    uint32_t	startOrdinal;	/* The starting ordinal for the list of audited ordinals */
+
+    /* 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 */
+
+    /* output parameters */
+    uint32_t		outParamStart;	/* starting point of outParam's */
+    uint32_t		outParamEnd;	/* ending point of outParam's */
+    TPM_DIGEST		outParamDigest;
+    TPM_DIGEST		auditDigest;	/* Log of all audited events */
+    TPM_BOOL		more;		/* TRUE if the output does not contain a full list of
+					   audited ordinals */
+    TPM_SIZED_BUFFER	ordList;	/* List of ordinals that are audited. */
+
+    printf("TPM_Process_GetAuditDigest: Ordinal Entry\n");
+    TPM_SizedBuffer_Init(&ordList);	/* freed @1 */
+    /*
+      get inputs
+    */
+    /* save the starting point of inParam's for authorization and auditing */
+    inParamStart = command;
+    /* get startOrdinal parameter */
+    if (returnCode == TPM_SUCCESS) {
+	returnCode = TPM_Load32(&startOrdinal, &command, &paramSize);
+    }
+    if (returnCode == TPM_SUCCESS) {
+	printf("TPM_Process_GetAuditDigest: startOrdinal %08x\n", startOrdinal);
+    }
+    /* 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_ALLOW_NO_OWNER);
+    }
+    /* check tag */
+    if (returnCode == TPM_SUCCESS) {
+	returnCode = TPM_CheckRequestTag0(tag);
+    }
+    if (returnCode == TPM_SUCCESS) {
+	if (paramSize != 0) {
+	    printf("TPM_Process_GetAuditDigest: Error, command has %u extra bytes\n",
+		   paramSize);
+	    returnCode = TPM_BAD_PARAM_SIZE;
+	}
+    }
+    /*
+      Processing
+    */
+    if (returnCode == TPM_SUCCESS) {
+	/* 1. The TPM sets auditDigest to TPM_STANY_DATA -> auditDigest */
+	TPM_Digest_Copy(auditDigest, tpm_state->tpm_stclear_data.auditDigest);
+	/* 2. The TPM sets counterValue to TPM_PERMANENT_DATA -> auditMonotonicCounter */
+	/* NOTE Since there is only one, use it directly on the output */
+	printf("TPM_Process_GetAuditDigest: Counter value %08x\n",
+	       tpm_state->tpm_permanent_data.auditMonotonicCounter.counter);
+	/* 3. The TPM creates an ordered list of audited ordinals. The list starts at startOrdinal
+	   listing each ordinal that is audited. */
+	/* a. If startOrdinal is 0 then the first ordinal that could be audited would be TPM_OIAP
+	   (ordinal 0x0000000A) */
+	/* b. The next ordinal would be TPM_OSAP (ordinal 0x0000000B) */
+	returnCode = TPM_OrdinalAuditStatus_Store(&ordList,
+						  &(tpm_state->tpm_permanent_data),
+						  startOrdinal);
+    }
+    if (returnCode == TPM_SUCCESS) {
+	printf("TPM_Process_GetAuditDigest: ordSize %u\n", ordList.size);
+	/* 4. If the ordered list does not fit in the output buffer the TPM sets more to TRUE */
+	more = FALSE;
+    }
+    /*
+      response
+    */
+    /* standard response: tag, (dummy) paramSize, returnCode.  Failure is fatal. */
+    if (rcf == 0) {
+	printf("TPM_Process_GetAuditDigest: 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) {
+	/* append counterValue */
+	if (returnCode == TPM_SUCCESS) {
+	    /* checkpoint the beginning of the outParam's */
+	    outParamStart = response->buffer_current - response->buffer;
+	    /* append counterValue */
+	    returnCode = TPM_CounterValue_StorePublic
+			 (response,
+			  &(tpm_state->tpm_permanent_data.auditMonotonicCounter));
+	}
+	/* 5. Return TPM_STANY_DATA -> auditDigest as auditDigest */
+	if (returnCode == TPM_SUCCESS) {
+	    returnCode = TPM_Digest_Store(response, auditDigest);
+	}
+	/* append more */
+	if (returnCode == TPM_SUCCESS) {
+	    returnCode = TPM_Sbuffer_Append(response, &more, sizeof(TPM_BOOL));
+	}
+	/* append ordList */
+	if (returnCode == TPM_SUCCESS) {
+	    returnCode = TPM_SizedBuffer_Store(response, &ordList);
+	    /* 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 */
+	}
+	/* 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);
+    }
+    /*
+      cleanup
+    */
+    TPM_SizedBuffer_Delete(&ordList);	/* @1 */
+    return rcf;
+}
+
+/* 8.4	TPM_GetAuditDigestSigned rev 101
+
+   The signing of the audit log returns the entire digest value and the list of currently audited
+   commands.
+
+   The inclusion of the list of audited commands as an atomic operation is to tie the current digest
+   value with the list of commands that are being audited.
+
+   Note to future architects
+
+   When auditing functionality is active in a TPM, it may seem logical to remove this ordinal from
+   the active set of ordinals as the signing functionality of this command could be handled in a
+   signed transport session. While true this command has a secondary affect also, resetting the
+   audit log digest. As the reset requires TPM Owner authentication there must be some way in this
+   command to reflect the TPM Owner wishes. By requiring that a TPM Identity key be the only key
+   that can sign and reset the TPM Owners authentication is implicit in the execution of the command
+   (TPM Identity Keys are created and controlled by the TPM Owner only). Hence while one might want
+   to remove an ordinal this is not one that can be removed if auditing is functional.
+*/
+
+TPM_RESULT TPM_Process_GetAuditDigestSigned(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	keyHandle;	/* The handle of a loaded key that can perform digital
+					   signatures. */
+    TPM_BOOL		closeAudit;	/* Indication if audit session should be closed */
+    TPM_NONCE		antiReplay;	/* A nonce to prevent replay attacks */
+    TPM_AUTHHANDLE	authHandle;	/* The authorization session handle used for key
+					   authentication. */
+    TPM_NONCE		nonceOdd;	/* Nonce generated by system associated with authHandle */
+    TPM_BOOL	continueAuthSession;	/* The continue use flag for the authorization session
+					   handle */
+    TPM_AUTHDATA	keyAuth;	/* Authorization. HMAC key: key.usageAuth. */
+
+    /* 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			authHandleValid = FALSE;
+    TPM_SECRET			*hmacKey;
+    TPM_KEY			*sigKey = NULL;			/* the key specified by keyHandle */
+    TPM_SECRET			*keyUsageAuth;
+    TPM_BOOL			parentPCRStatus;
+    TPM_AUTH_SESSION_DATA	*auth_session_data = NULL;	/* session data for authHandle */
+    TPM_SIGN_INFO		d1SignInfo;
+    TPM_SIZED_BUFFER		d3SizedBuffer;	/* List of ordinals that are audited. */
+    TPM_STORE_BUFFER		d2Sbuffer;	/* data to be signed */
+    TPM_DIGEST			h1;
+    
+    /* output parameters */
+    uint32_t			outParamStart;	/* starting point of outParam's */
+    uint32_t			outParamEnd;	/* ending point of outParam's */
+    TPM_DIGEST			outParamDigest;
+    TPM_DIGEST			ordinalDigest;	/* Digest of all audited ordinals */
+    TPM_SIZED_BUFFER		sig;		/* The signature of the area */
+
+    printf("TPM_Process_GetAuditDigestSigned: Ordinal Entry\n");
+    TPM_SignInfo_Init(&d1SignInfo);		/* freed @1 */
+    TPM_SizedBuffer_Init(&d3SizedBuffer);	/* freed @2 */
+    TPM_Sbuffer_Init(&d2Sbuffer);		/* freed @3 */
+    TPM_SizedBuffer_Init(&sig);			/* freed @4 */
+    /*
+      get inputs
+    */
+    /* get keyHandle parameter */
+    if (returnCode == TPM_SUCCESS) {
+	returnCode = TPM_Load32(&keyHandle, &command, &paramSize);
+    }
+    /* save the starting point of inParam's for authorization and auditing */
+    inParamStart = command;
+    /* get closeAudit parameter */
+    if (returnCode == TPM_SUCCESS) {
+	printf("TPM_Process_GetAuditDigestSigned: keyHandle %08x\n", keyHandle);
+	returnCode = TPM_LoadBool(&closeAudit, &command, &paramSize);
+    }
+    /* get antiReplay parameter */
+    if (returnCode == TPM_SUCCESS) {
+	returnCode = TPM_Digest_Load(antiReplay, &command, &paramSize);
+    }
+    /* 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_CheckRequestTag10(tag);
+    }
+    /* get the optional 'below the line' authorization parameters */
+    if ((returnCode == TPM_SUCCESS) && (tag == TPM_TAG_RQU_AUTH1_COMMAND)) {
+	returnCode = TPM_AuthParams_Get(&authHandle,
+					&authHandleValid,
+					nonceOdd,
+					&continueAuthSession,
+					keyAuth,
+					&command, &paramSize);
+    }
+    if (returnCode == TPM_SUCCESS) {
+	if (paramSize != 0) {
+	    printf("TPM_Process_GetAuditDigestSigned: 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) {
+	authHandleValid = FALSE;
+    }
+    /*
+      Processing
+    */
+    /* 1. Validate the AuthData and parameters using keyAuth, return TPM_AUTHFAIL on error */
+    /* get the key corresponding to the keyHandle parameter */
+    if (returnCode == TPM_SUCCESS) {
+	returnCode = TPM_KeyHandleEntries_GetKey(&sigKey, &parentPCRStatus, tpm_state, keyHandle,
+						 FALSE,		/* not read-only */
+						 FALSE,		/* do not ignore PCRs */
+						 FALSE);	/* cannot use EK */
+    }
+    if ((returnCode == TPM_SUCCESS) && (tag == TPM_TAG_RQU_COMMAND)){
+	if (sigKey->authDataUsage != TPM_AUTH_NEVER) {
+	    printf("TPM_Process_GetAuditDigestSigned: Error, authorization required\n");
+	    returnCode = TPM_AUTHFAIL;
+	}
+    }
+    /* get keyHandle -> usageAuth */
+    if ((returnCode == TPM_SUCCESS) && (tag == TPM_TAG_RQU_AUTH1_COMMAND)) {
+	returnCode = TPM_Key_GetUsageAuth(&keyUsageAuth, sigKey);
+    }	 
+    /* get the session data */
+    if ((returnCode == TPM_SUCCESS) && (tag == TPM_TAG_RQU_AUTH1_COMMAND)) {
+	returnCode = TPM_AuthSessions_GetData(&auth_session_data,
+					      &hmacKey,
+					      tpm_state,
+					      authHandle,
+					      TPM_PID_NONE,
+					      TPM_ET_KEYHANDLE,
+					      ordinal,
+					      sigKey,
+					      keyUsageAuth,		/* OIAP */
+					      sigKey->tpm_store_asymkey->pubDataDigest); /* OSAP */
+    }
+    /* validate the authorization to use the key pointed to by keyHandle */
+    if ((returnCode == TPM_SUCCESS) && (tag == TPM_TAG_RQU_AUTH1_COMMAND)) {
+	returnCode = TPM_Authdata_Check(tpm_state,
+					*hmacKey,		/* HMAC key */
+					inParamDigest,
+					auth_session_data,	/* authorization session */
+					nonceOdd,		/* Nonce generated by system
+								   associated with authHandle */
+					continueAuthSession,
+					keyAuth);		/* Authorization digest for input */
+    }
+    /* 2.Validate that keyHandle -> keyUsage is TPM_KEY_SIGNING, TPM_KEY_IDENTITY or TPM_KEY_LEGACY,
+	 if not return TPM_INVALID_KEYUSAGE */
+    if (returnCode == TPM_SUCCESS) {
+	if ((sigKey->keyUsage != TPM_KEY_SIGNING) &&
+	    (sigKey->keyUsage != TPM_KEY_IDENTITY) &&
+	    (sigKey->keyUsage != TPM_KEY_LEGACY)) {
+	    printf("TPM_Process_GetAuditDigestSigned: Error, keyUsage %04hx is invalid\n",
+		   sigKey->keyUsage);
+	    returnCode = TPM_INVALID_KEYUSAGE;
+	}
+    }
+    /* 3. The TPM validates that the key pointed to by keyHandle has a signature scheme of
+       TPM_SS_RSASSAPKCS1v15_SHA1 or TPM_SS_RSASSAPKCS1v15_INFO, return TPM_INVALID_KEYUSAGE on
+       error */
+    if (returnCode == TPM_SUCCESS) {
+	if ((sigKey->algorithmParms.sigScheme != TPM_SS_RSASSAPKCS1v15_SHA1) &&
+	    (sigKey->algorithmParms.sigScheme != TPM_SS_RSASSAPKCS1v15_INFO)) {
+	    printf("TPM_Process_GetAuditDigestSigned: Error, invalid sigScheme %04hx\n",
+		   sigKey->algorithmParms.sigScheme);
+	    returnCode = TPM_INVALID_KEYUSAGE;
+	}
+    }
+    if (returnCode == TPM_SUCCESS) {
+	/* 4. Create D1 a TPM_SIGN_INFO structure and set the structure defaults */
+	/* NOTE Done by TPM_SignInfo_Init() */
+	/* a. Set D1 -> fixed to "ADIG" */
+	memcpy(d1SignInfo.fixed, "ADIG", TPM_SIGN_INFO_FIXED_SIZE);
+	/* b. Set D1 -> replay to antiReplay */
+	TPM_Nonce_Copy(d1SignInfo.replay, antiReplay);
+	/* c. Create D3 a list of all audited ordinals as defined in the TPM_GetAuditDigest
+	   uint32_t[] ordList outgoing parameter */
+	returnCode = TPM_OrdinalAuditStatus_Store(&d3SizedBuffer,
+						  &(tpm_state->tpm_permanent_data),
+						  0);
+    }
+    /* d. Create D4 (ordinalDigest outgoing parameter) the SHA-1 of D3 */
+    if (returnCode == TPM_SUCCESS) {
+	returnCode = TPM_SHA1(ordinalDigest,
+			      d3SizedBuffer.size, d3SizedBuffer.buffer, 
+			      0, NULL);
+    }
+    if (returnCode == TPM_SUCCESS) {
+	/* e. Set auditDigest to TPM_STANY_DATA -> auditDigest */
+	/* NOTE: Use it directly on the output */
+	/* f. Set counterValue to TPM_PERMANENT_DATA -> auditMonotonicCounter */
+	/* NOTE Since there is only one, use it directly on the output */
+	/* g. Create D2 the concatenation of auditDigest || counterValue || D4 */
+	returnCode = TPM_Sbuffer_Append(&d2Sbuffer,
+					tpm_state->tpm_stclear_data.auditDigest, TPM_DIGEST_SIZE);
+    }
+    if (returnCode == TPM_SUCCESS) {
+	returnCode =
+	    TPM_CounterValue_StorePublic(&d2Sbuffer,
+					 &(tpm_state->tpm_permanent_data.auditMonotonicCounter));
+    }
+    if (returnCode == TPM_SUCCESS) {
+	returnCode = TPM_Sbuffer_Append(&d2Sbuffer,
+					ordinalDigest, TPM_DIGEST_SIZE);
+    }
+    /* h. Set D1 -> data to D2 */
+    if (returnCode == TPM_SUCCESS) {
+	returnCode = TPM_SizedBuffer_SetFromStore(&(d1SignInfo.data), &d2Sbuffer);
+    }
+    /* i. Create a digital signature of the SHA-1 of D1 by using the signature scheme for keyHandle
+     */
+    if (returnCode == TPM_SUCCESS) {
+	returnCode = TPM_SHA1_GenerateStructure(h1, &d1SignInfo,
+						(TPM_STORE_FUNCTION_T)TPM_SignInfo_Store);
+    }
+    if (returnCode == TPM_SUCCESS) {
+	returnCode = TPM_RSASignToSizedBuffer(&sig,		/* signature */
+					      h1,		/* message */
+					      TPM_DIGEST_SIZE,	/* message size */
+					      sigKey);		/* input, signing key */
+    }
+    if (returnCode == TPM_SUCCESS) {
+	TPM_PrintFour("TPM_Process_GetAuditDigestSigned: auditDigest",
+		      tpm_state->tpm_stclear_data.auditDigest); 
+	TPM_PrintFour("TPM_Process_GetAuditDigestSigned: ordinalDigest",
+		      ordinalDigest); 
+    }
+    /* j. Set ordinalDigest to D4 */
+    /* NOTE Created directly in ordinalDigest */
+    /* 5. If closeAudit == TRUE */
+    if ((returnCode == TPM_SUCCESS) && closeAudit) {
+	/* a. If keyHandle->keyUsage is TPM_KEY_IDENTITY */
+	if (sigKey->keyUsage == TPM_KEY_IDENTITY) {
+	    /* i. TPM_STANY_DATA -> auditDigest MUST be set to all zeros. */
+	    TPM_Digest_Init(tpm_state->tpm_stclear_data.auditDigest);
+	}
+	/* b. Else */
+	else {
+	    /* i. Return TPM_INVALID_KEYUSAGE */
+	    printf("TPM_Process_GetAuditDigestSigned: Error, "
+		   "cannot closeAudit with keyUsage %04hx\n", sigKey->keyUsage);
+	    returnCode = TPM_INVALID_KEYUSAGE;
+	}
+    }
+    /*
+      response
+    */
+    /* standard response: tag, (dummy) paramSize, returnCode.  Failure is fatal. */
+    if (rcf == 0) {
+	printf("TPM_Process_GetAuditDigestSigned: 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 counterValue */
+	    returnCode = TPM_CounterValue_StorePublic
+			 (response,
+			  &(tpm_state->tpm_permanent_data.auditMonotonicCounter));
+	}
+	/* return auditDigest */
+	if (returnCode == TPM_SUCCESS) {
+	    returnCode = TPM_Digest_Store(response,  tpm_state->tpm_stclear_data.auditDigest);
+	}
+	/* return ordinalDigest */
+	if (returnCode == TPM_SUCCESS) {
+	    returnCode = TPM_Digest_Store(response, ordinalDigest);
+	}
+	/* return sig */
+	if (returnCode == TPM_SUCCESS) {
+	    returnCode = TPM_SizedBuffer_Store(response, &sig);
+	    /* 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_AUTH1_COMMAND)) {
+	    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)) ||
+	 !continueAuthSession) &&
+	authHandleValid) {
+	TPM_AuthSessions_TerminateHandle(tpm_state->tpm_stclear_data.authSessions, authHandle);
+    }
+    /*
+      cleanup
+    */
+    TPM_SignInfo_Delete(&d1SignInfo);		/* @1 */
+    TPM_SizedBuffer_Delete(&d3SizedBuffer);	/* @2 */
+    TPM_Sbuffer_Delete(&d2Sbuffer);		/* @3 */
+    TPM_SizedBuffer_Delete(&sig);		/* @4 */
+    return rcf;
+}
+
+/* 8.5 TPM_SetOrdinalAuditStatus rev 109
+
+   Set the audit flag for a given ordinal. This command requires the authentication of the TPM
+   Owner.
+*/
+
+TPM_RESULT TPM_Process_SetOrdinalAuditStatus(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_COMMAND_CODE	ordinalToAudit; /* The ordinal whose audit flag is to be set */
+    TPM_BOOL		auditState;	/* Value for audit flag */
+    TPM_AUTHHANDLE	authHandle;	/* The authorization session handle used for owner
+					   authentication. */
+    TPM_NONCE		nonceOdd;	/* Nonce generated by system associated with authHandle */
+    TPM_BOOL	continueAuthSession = TRUE;	/* The continue use flag for the authorization
+						   session handle */
+    TPM_AUTHDATA	ownerAuth;	/* The authorization session digest for inputs and owner
+					   authentication.  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			altered;		/* status is changing */
+    TPM_BOOL			transportEncrypt;	/* wrapped in encrypted transport session */
+    TPM_BOOL			authHandleValid = FALSE;
+    TPM_SECRET			*hmacKey;
+    TPM_AUTH_SESSION_DATA	*auth_session_data = NULL;	/* session data for authHandle */
+    
+    /* output parameters */
+    uint32_t			outParamStart;	/* starting point of outParam's */
+    uint32_t			outParamEnd;	/* ending point of outParam's */
+    TPM_DIGEST			outParamDigest;
+
+    printf("TPM_Process_SetOrdinalAuditStatus: Ordinal Entry\n");
+    /*
+      get inputs
+    */
+    /* save the starting point of inParam's for authorization and auditing */
+    inParamStart = command;
+    /* get ordinalToAudit parameter */
+    if (returnCode == TPM_SUCCESS) {
+	returnCode = TPM_Load32(&ordinalToAudit, &command, &paramSize);
+    }
+    /* get auditState parameter */
+    if (returnCode == TPM_SUCCESS) {
+	returnCode = TPM_LoadBool(&auditState, &command, &paramSize);
+    }
+    if (returnCode == TPM_SUCCESS) {
+	printf("TPM_Process_SetOrdinalAuditStatus: ordinalToAudit %08x auditState %02x\n",
+	       ordinalToAudit, auditState);
+    }
+    /* 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_CheckRequestTag1(tag);
+    }
+    /* get the 'below the line' authorization parameters */
+    if (returnCode == TPM_SUCCESS) {
+	returnCode = TPM_AuthParams_Get(&authHandle,
+					&authHandleValid,
+					nonceOdd,
+					&continueAuthSession,
+					ownerAuth,
+					&command, &paramSize);
+    }
+    if (returnCode == TPM_SUCCESS) {
+	if (paramSize != 0) {
+	    printf("TPM_Process_SetOrdinalAuditStatus: 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) {
+	authHandleValid = FALSE;
+    }
+    /*
+      Processing
+    */
+    /* 1. Validate the AuthData to execute the command and the parameters */
+    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 */
+    }
+    /* calculate and set the below the line parameters */
+    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. Validate that the ordinal points to a valid TPM ordinal, return TPM_BADINDEX on error */
+    /* a. Valid TPM ordinal means an ordinal that the TPM implementation supports */
+    /* Done by TPM_OrdinalAuditStatus_SetAuditState() */
+    /* 3. Set the non-volatile flag associated with ordinalToAudit to the value in auditState */
+    /* NOTE: On error, TPM_PERMANENT_DATA is not changed */
+    if (returnCode == TPM_SUCCESS) {
+	returnCode =
+	    TPM_OrdinalAuditStatus_SetAuditStatus(&altered,
+						  &(tpm_state->tpm_permanent_data),
+						  auditState,		/* uninitialized */
+						  ordinalToAudit);
+	/* It's not really uninitialized, but beam doesn't understand that TPM_GetInParamDigest()
+	   can't turn a FALSE into a TRUE */
+    }
+    /* Store the permanent data back to NVRAM */
+    if (returnCode == TPM_SUCCESS) {
+	returnCode = TPM_PermanentAll_NVStore(tpm_state,
+					      altered,
+					      returnCode);
+    }
+    /* Audit Generation 3.b. Corner Cases: TPM_SetOrdinalAuditStatus: In the case where the
+       ordinalToAudit is TPM_ORD_SetOrdinalAuditStatus, audit is based on the initial state, not the
+       final state. */
+    /*
+      response
+    */
+    /* standard response: tag, (dummy) paramSize, returnCode.  Failure is fatal. */
+    if (rcf == 0) {
+	printf("TPM_Process_SetOrdinalAuditStatus: 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;
+	    /* 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) {
+	    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, 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);
+    }
+    return rcf;
+}