src/tss2-esys/api/Esys_Commit.c - third_party/github.com/tpm2-software/tpm2-tss - Git at Google

 /* SPDX-License-Identifier: BSD-2-Clause */
 /*******************************************************************************
  * Copyright 2017-2018, Fraunhofer SIT sponsored by Infineon Technologies AG
  * All rights reserved.
  ******************************************************************************/

 #ifdef HAVE_CONFIG_H
 #include <config.h>
 #endif

 #include "tss2_mu.h"
 #include "tss2_sys.h"
 #include "tss2_esys.h"

 #include "esys_types.h"
 #include "esys_iutil.h"
 #include "esys_mu.h"
 #define LOGMODULE esys
 #include "util/log.h"
 #include "util/aux_util.h"

 /** One-Call function for TPM2_Commit
  *
  * This function invokes the TPM2_Commit command in a one-call
  * variant. This means the function will block until the TPM response is
  * available. All input parameters are const. The memory for non-simple output
  * parameters is allocated by the function implementation.
  *
  * @param[in,out] esysContext The ESYS_CONTEXT.
  * @param[in]  signHandle Handle of the key that will be used in the signing
  *             operation.
  * @param[in]  shandle1 Session handle for authorization of signHandle
  * @param[in]  shandle2 Second session handle.
  * @param[in]  shandle3 Third session handle.
  * @param[in]  P1 A point (M) on the curve used by signHandle .
  * @param[in]  s2 Octet array used to derive x-coordinate of a base point.
  * @param[in]  y2 Y coordinate of the point associated with s2.
  * @param[out] K ECC point K := [ds](x2, y2).
  *             (callee-allocated)
  * @param[out] L ECC point L := [r](x2, y2).
  *             (callee-allocated)
  * @param[out] E ECC point E := [r]P1.
  *             (callee-allocated)
  * @param[out] counter Least-significant 16 bits of commitCount.
  *             (callee-allocated)
  * @retval TSS2_RC_SUCCESS if the function call was a success.
  * @retval TSS2_ESYS_RC_BAD_REFERENCE if the esysContext or required input
  *         pointers or required output handle references are NULL.
  * @retval TSS2_ESYS_RC_BAD_CONTEXT: if esysContext corruption is detected.
  * @retval TSS2_ESYS_RC_MEMORY: if the ESAPI cannot allocate enough memory for
  *         internal operations or return parameters.
  * @retval TSS2_ESYS_RC_BAD_SEQUENCE: if the context has an asynchronous
  *         operation already pending.
  * @retval TSS2_ESYS_RC_INSUFFICIENT_RESPONSE: if the TPM's response does not
  *          at least contain the tag, response length, and response code.
  * @retval TSS2_ESYS_RC_MALFORMED_RESPONSE: if the TPM's response is corrupted.
  * @retval TSS2_ESYS_RC_RSP_AUTH_FAILED: if the response HMAC from the TPM
            did not verify.
  * @retval TSS2_ESYS_RC_MULTIPLE_DECRYPT_SESSIONS: if more than one session has
  *         the 'decrypt' attribute bit set.
  * @retval TSS2_ESYS_RC_MULTIPLE_ENCRYPT_SESSIONS: if more than one session has
  *         the 'encrypt' attribute bit set.
  * @retval TSS2_ESYS_RC_BAD_TR: if any of the ESYS_TR objects are unknown
  *         to the ESYS_CONTEXT or are of the wrong type or if required
  *         ESYS_TR objects are ESYS_TR_NONE.
  * @retval TSS2_RCs produced by lower layers of the software stack may be
  *         returned to the caller unaltered unless handled internally.
  */
 TSS2_RC
 Esys_Commit(
     ESYS_CONTEXT *esysContext,
     ESYS_TR signHandle,
     ESYS_TR shandle1,
     ESYS_TR shandle2,
     ESYS_TR shandle3,
     const TPM2B_ECC_POINT *P1,
     const TPM2B_SENSITIVE_DATA *s2,
     const TPM2B_ECC_PARAMETER *y2,
     TPM2B_ECC_POINT **K,
     TPM2B_ECC_POINT **L,
     TPM2B_ECC_POINT **E,
     UINT16 *counter)
 {
     TSS2_RC r;

     r = Esys_Commit_Async(esysContext, signHandle, shandle1, shandle2, shandle3,
                           P1, s2, y2);
     return_if_error(r, "Error in async function");

     /* Set the timeout to indefinite for now, since we want _Finish to block */
     int32_t timeouttmp = esysContext->timeout;
     esysContext->timeout = -1;
     /*
      * Now we call the finish function, until return code is not equal to
      * from TSS2_BASE_RC_TRY_AGAIN.
      * Note that the finish function may return TSS2_RC_TRY_AGAIN, even if we
      * have set the timeout to -1. This occurs for example if the TPM requests
      * a retransmission of the command via TPM2_RC_YIELDED.
      */
     do {
         r = Esys_Commit_Finish(esysContext, K, L, E, counter);
         /* This is just debug information about the reattempt to finish the
            command */
         if (base_rc(r) == TSS2_BASE_RC_TRY_AGAIN)
             LOG_DEBUG("A layer below returned TRY_AGAIN: %" PRIx32
                       " => resubmitting command", r);
     } while (base_rc(r) == TSS2_BASE_RC_TRY_AGAIN);

     /* Restore the timeout value to the original value */
     esysContext->timeout = timeouttmp;
     return_if_error(r, "Esys Finish");

     return TSS2_RC_SUCCESS;
 }

 /** Asynchronous function for TPM2_Commit
  *
  * This function invokes the TPM2_Commit command in a asynchronous
  * variant. This means the function will return as soon as the command has been
  * sent downwards the stack to the TPM. All input parameters are const.
  * In order to retrieve the TPM's response call Esys_Commit_Finish.
  *
  * @param[in,out] esysContext The ESYS_CONTEXT.
  * @param[in]  signHandle Handle of the key that will be used in the signing
  *             operation.
  * @param[in]  shandle1 Session handle for authorization of signHandle
  * @param[in]  shandle2 Second session handle.
  * @param[in]  shandle3 Third session handle.
  * @param[in]  P1 A point (M) on the curve used by signHandle .
  * @param[in]  s2 Octet array used to derive x-coordinate of a base point.
  * @param[in]  y2 Y coordinate of the point associated with s2.
  * @retval ESYS_RC_SUCCESS if the function call was a success.
  * @retval TSS2_ESYS_RC_BAD_REFERENCE if the esysContext or required input
  *         pointers or required output handle references are NULL.
  * @retval TSS2_ESYS_RC_BAD_CONTEXT: if esysContext corruption is detected.
  * @retval TSS2_ESYS_RC_MEMORY: if the ESAPI cannot allocate enough memory for
  *         internal operations or return parameters.
  * @retval TSS2_RCs produced by lower layers of the software stack may be
            returned to the caller unaltered unless handled internally.
  * @retval TSS2_ESYS_RC_MULTIPLE_DECRYPT_SESSIONS: if more than one session has
  *         the 'decrypt' attribute bit set.
  * @retval TSS2_ESYS_RC_MULTIPLE_ENCRYPT_SESSIONS: if more than one session has
  *         the 'encrypt' attribute bit set.
  * @retval TSS2_ESYS_RC_BAD_TR: if any of the ESYS_TR objects are unknown
  *         to the ESYS_CONTEXT or are of the wrong type or if required
  *         ESYS_TR objects are ESYS_TR_NONE.
  */
 TSS2_RC
 Esys_Commit_Async(
     ESYS_CONTEXT *esysContext,
     ESYS_TR signHandle,
     ESYS_TR shandle1,
     ESYS_TR shandle2,
     ESYS_TR shandle3,
     const TPM2B_ECC_POINT *P1,
     const TPM2B_SENSITIVE_DATA *s2,
     const TPM2B_ECC_PARAMETER *y2)
 {
     TSS2_RC r;
     LOG_TRACE("context=%p, signHandle=%"PRIx32 ", P1=%p,"
               "s2=%p, y2=%p",
               esysContext, signHandle, P1, s2, y2);
     TSS2L_SYS_AUTH_COMMAND auths;
     RSRC_NODE_T *signHandleNode;

     /* Check context, sequence correctness and set state to error for now */
     if (esysContext == NULL) {
         LOG_ERROR("esyscontext is NULL.");
         return TSS2_ESYS_RC_BAD_REFERENCE;
     }
     r = iesys_check_sequence_async(esysContext);
     if (r != TSS2_RC_SUCCESS)
         return r;
     esysContext->state = _ESYS_STATE_INTERNALERROR;

     /* Check input parameters */
     r = check_session_feasibility(shandle1, shandle2, shandle3, 1);
     return_state_if_error(r, _ESYS_STATE_INIT, "Check session usage");

     /* Retrieve the metadata objects for provided handles */
     r = esys_GetResourceObject(esysContext, signHandle, &signHandleNode);
     return_state_if_error(r, _ESYS_STATE_INIT, "signHandle unknown.");

     /* Initial invocation of SAPI to prepare the command buffer with parameters */
     r = Tss2_Sys_Commit_Prepare(esysContext->sys,
                                 (signHandleNode == NULL) ? TPM2_RH_NULL
                                  : signHandleNode->rsrc.handle, P1, s2, y2);
     return_state_if_error(r, _ESYS_STATE_INIT, "SAPI Prepare returned error.");

     /* Calculate the cpHash Values */
     r = init_session_tab(esysContext, shandle1, shandle2, shandle3);
     return_state_if_error(r, _ESYS_STATE_INIT, "Initialize session resources");
     if (signHandleNode != NULL)
         iesys_compute_session_value(esysContext->session_tab[0],
                 &signHandleNode->rsrc.name, &signHandleNode->auth);
     else
         iesys_compute_session_value(esysContext->session_tab[0], NULL, NULL);

     iesys_compute_session_value(esysContext->session_tab[1], NULL, NULL);
     iesys_compute_session_value(esysContext->session_tab[2], NULL, NULL);

     /* Generate the auth values and set them in the SAPI command buffer */
     r = iesys_gen_auths(esysContext, signHandleNode, NULL, NULL, &auths);
     return_state_if_error(r, _ESYS_STATE_INIT,
                           "Error in computation of auth values");

     esysContext->authsCount = auths.count;
     if (auths.count > 0) {
         r = Tss2_Sys_SetCmdAuths(esysContext->sys, &auths);
         return_state_if_error(r, _ESYS_STATE_INIT, "SAPI error on SetCmdAuths");
     }

     /* Trigger execution and finish the async invocation */
     r = Tss2_Sys_ExecuteAsync(esysContext->sys);
     return_state_if_error(r, _ESYS_STATE_INTERNALERROR,
                           "Finish (Execute Async)");

     esysContext->state = _ESYS_STATE_SENT;

     return r;
 }

 /** Asynchronous finish function for TPM2_Commit
  *
  * This function returns the results of a TPM2_Commit command
  * invoked via Esys_Commit_Finish. All non-simple output parameters
  * are allocated by the function's implementation. NULL can be passed for every
  * output parameter if the value is not required.
  *
  * @param[in,out] esysContext The ESYS_CONTEXT.
  * @param[out] K ECC point K := [ds](x2, y2).
  *             (callee-allocated)
  * @param[out] L ECC point L := [r](x2, y2).
  *             (callee-allocated)
  * @param[out] E ECC point E := [r]P1.
  *             (callee-allocated)
  * @param[out] counter Least-significant 16 bits of commitCount.
  *             (callee-allocated)
  * @retval TSS2_RC_SUCCESS on success
  * @retval ESYS_RC_SUCCESS if the function call was a success.
  * @retval TSS2_ESYS_RC_BAD_REFERENCE if the esysContext or required input
  *         pointers or required output handle references are NULL.
  * @retval TSS2_ESYS_RC_BAD_CONTEXT: if esysContext corruption is detected.
  * @retval TSS2_ESYS_RC_MEMORY: if the ESAPI cannot allocate enough memory for
  *         internal operations or return parameters.
  * @retval TSS2_ESYS_RC_BAD_SEQUENCE: if the context has an asynchronous
  *         operation already pending.
  * @retval TSS2_ESYS_RC_TRY_AGAIN: if the timeout counter expires before the
  *         TPM response is received.
  * @retval TSS2_ESYS_RC_INSUFFICIENT_RESPONSE: if the TPM's response does not
  *         at least contain the tag, response length, and response code.
  * @retval TSS2_ESYS_RC_RSP_AUTH_FAILED: if the response HMAC from the TPM did
  *         not verify.
  * @retval TSS2_ESYS_RC_MALFORMED_RESPONSE: if the TPM's response is corrupted.
  * @retval TSS2_RCs produced by lower layers of the software stack may be
  *         returned to the caller unaltered unless handled internally.
  */
 TSS2_RC
 Esys_Commit_Finish(
     ESYS_CONTEXT *esysContext,
     TPM2B_ECC_POINT **K,
     TPM2B_ECC_POINT **L,
     TPM2B_ECC_POINT **E,
     UINT16 *counter)
 {
     TSS2_RC r;
     LOG_TRACE("context=%p, K=%p, L=%p,"
               "E=%p, counter=%p",
               esysContext, K, L,
               E, counter);

     if (esysContext == NULL) {
         LOG_ERROR("esyscontext is NULL.");
         return TSS2_ESYS_RC_BAD_REFERENCE;
     }

     /* Check for correct sequence and set sequence to irregular for now */
     if (esysContext->state != _ESYS_STATE_SENT &&
         esysContext->state != _ESYS_STATE_RESUBMISSION) {
         LOG_ERROR("Esys called in bad sequence.");
         return TSS2_ESYS_RC_BAD_SEQUENCE;
     }
     esysContext->state = _ESYS_STATE_INTERNALERROR;

     /* Initialize parameter to avoid unitialized usage */
     if (E != NULL)
         *E = NULL;

     /* Allocate memory for response parameters */
     if (K != NULL) {
         *K = calloc(sizeof(TPM2B_ECC_POINT), 1);
         if (*K == NULL) {
             return_error(TSS2_ESYS_RC_MEMORY, "Out of memory");
         }
     }
     if (L != NULL) {
         *L = calloc(sizeof(TPM2B_ECC_POINT), 1);
         if (*L == NULL) {
             goto_error(r, TSS2_ESYS_RC_MEMORY, "Out of memory", error_cleanup);
         }
     }
     if (E != NULL) {
         *E = calloc(sizeof(TPM2B_ECC_POINT), 1);
         if (*E == NULL) {
             goto_error(r, TSS2_ESYS_RC_MEMORY, "Out of memory", error_cleanup);
         }
     }

     /*Receive the TPM response and handle resubmissions if necessary. */
     r = Tss2_Sys_ExecuteFinish(esysContext->sys, esysContext->timeout);
     if (base_rc(r) == TSS2_BASE_RC_TRY_AGAIN) {
         LOG_DEBUG("A layer below returned TRY_AGAIN: %" PRIx32, r);
         esysContext->state = _ESYS_STATE_SENT;
         goto error_cleanup;
     }
     /* This block handle the resubmission of TPM commands given a certain set of
      * TPM response codes. */
     if (r == TPM2_RC_RETRY || r == TPM2_RC_TESTING || r == TPM2_RC_YIELDED) {
         LOG_DEBUG("TPM returned RETRY, TESTING or YIELDED, which triggers a "
             "resubmission: %" PRIx32, r);
         if (esysContext->submissionCount++ >= _ESYS_MAX_SUBMISSIONS) {
             LOG_WARNING("Maximum number of (re)submissions has been reached.");
             esysContext->state = _ESYS_STATE_INIT;
             goto error_cleanup;
         }
         esysContext->state = _ESYS_STATE_RESUBMISSION;
         r = Tss2_Sys_ExecuteAsync(esysContext->sys);
         if (r != TSS2_RC_SUCCESS) {
             LOG_WARNING("Error attempting to resubmit");
             /* We do not set esysContext->state here but inherit the most recent
              * state of the _async function. */
             goto error_cleanup;
         }
         r = TSS2_ESYS_RC_TRY_AGAIN;
         LOG_DEBUG("Resubmission initiated and returning RC_TRY_AGAIN.");
         goto error_cleanup;
     }
     /* The following is the "regular error" handling. */
     if (iesys_tpm_error(r)) {
         LOG_WARNING("Received TPM Error");
         esysContext->state = _ESYS_STATE_INIT;
         goto error_cleanup;
     } else if (r != TSS2_RC_SUCCESS) {
         LOG_ERROR("Received a non-TPM Error");
         esysContext->state = _ESYS_STATE_INTERNALERROR;
         goto error_cleanup;
     }

     /*
      * Now the verification of the response (hmac check) and if necessary the
      * parameter decryption have to be done.
      */
     r = iesys_check_response(esysContext);
     goto_state_if_error(r, _ESYS_STATE_INTERNALERROR, "Error: check response",
                         error_cleanup);

     /*
      * After the verification of the response we call the complete function
      * to deliver the result.
      */
     r = Tss2_Sys_Commit_Complete(esysContext->sys,
                                  (K != NULL) ? *K : NULL,
                                  (L != NULL) ? *L : NULL,
                                  (E != NULL) ? *E : NULL, counter);
     goto_state_if_error(r, _ESYS_STATE_INTERNALERROR,
                         "Received error from SAPI unmarshaling" ,
                         error_cleanup);

     esysContext->state = _ESYS_STATE_INIT;

     return TSS2_RC_SUCCESS;

 error_cleanup:
     if (K != NULL)
         SAFE_FREE(*K);
     if (L != NULL)
         SAFE_FREE(*L);
     if (E != NULL)
         SAFE_FREE(*E);

     return r;
 }
	/* SPDX-License-Identifier: BSD-2-Clause */
	/*******************************************************************************
	* Copyright 2017-2018, Fraunhofer SIT sponsored by Infineon Technologies AG
	* All rights reserved.
	******************************************************************************/

	#ifdef HAVE_CONFIG_H
	#include <config.h>
	#endif

	#include "tss2_mu.h"
	#include "tss2_sys.h"
	#include "tss2_esys.h"

	#include "esys_types.h"
	#include "esys_iutil.h"
	#include "esys_mu.h"
	#define LOGMODULE esys
	#include "util/log.h"
	#include "util/aux_util.h"

	/** One-Call function for TPM2_Commit
	*
	* This function invokes the TPM2_Commit command in a one-call
	* variant. This means the function will block until the TPM response is
	* available. All input parameters are const. The memory for non-simple output
	* parameters is allocated by the function implementation.
	*
	* @param[in,out] esysContext The ESYS_CONTEXT.
	* @param[in] signHandle Handle of the key that will be used in the signing
	* operation.
	* @param[in] shandle1 Session handle for authorization of signHandle
	* @param[in] shandle2 Second session handle.
	* @param[in] shandle3 Third session handle.
	* @param[in] P1 A point (M) on the curve used by signHandle .
	* @param[in] s2 Octet array used to derive x-coordinate of a base point.
	* @param[in] y2 Y coordinate of the point associated with s2.
	* @param[out] K ECC point K := [ds](x2, y2).
	* (callee-allocated)
	* @param[out] L ECC point L := [r](x2, y2).
	* (callee-allocated)
	* @param[out] E ECC point E := [r]P1.
	* (callee-allocated)
	* @param[out] counter Least-significant 16 bits of commitCount.
	* (callee-allocated)
	* @retval TSS2_RC_SUCCESS if the function call was a success.
	* @retval TSS2_ESYS_RC_BAD_REFERENCE if the esysContext or required input
	* pointers or required output handle references are NULL.
	* @retval TSS2_ESYS_RC_BAD_CONTEXT: if esysContext corruption is detected.
	* @retval TSS2_ESYS_RC_MEMORY: if the ESAPI cannot allocate enough memory for
	* internal operations or return parameters.
	* @retval TSS2_ESYS_RC_BAD_SEQUENCE: if the context has an asynchronous
	* operation already pending.
	* @retval TSS2_ESYS_RC_INSUFFICIENT_RESPONSE: if the TPM's response does not
	* at least contain the tag, response length, and response code.
	* @retval TSS2_ESYS_RC_MALFORMED_RESPONSE: if the TPM's response is corrupted.
	* @retval TSS2_ESYS_RC_RSP_AUTH_FAILED: if the response HMAC from the TPM
	did not verify.
	* @retval TSS2_ESYS_RC_MULTIPLE_DECRYPT_SESSIONS: if more than one session has
	* the 'decrypt' attribute bit set.
	* @retval TSS2_ESYS_RC_MULTIPLE_ENCRYPT_SESSIONS: if more than one session has
	* the 'encrypt' attribute bit set.
	* @retval TSS2_ESYS_RC_BAD_TR: if any of the ESYS_TR objects are unknown
	* to the ESYS_CONTEXT or are of the wrong type or if required
	* ESYS_TR objects are ESYS_TR_NONE.
	* @retval TSS2_RCs produced by lower layers of the software stack may be
	* returned to the caller unaltered unless handled internally.
	*/
	TSS2_RC
	Esys_Commit(
	ESYS_CONTEXT *esysContext,
	ESYS_TR signHandle,
	ESYS_TR shandle1,
	ESYS_TR shandle2,
	ESYS_TR shandle3,
	const TPM2B_ECC_POINT *P1,
	const TPM2B_SENSITIVE_DATA *s2,
	const TPM2B_ECC_PARAMETER *y2,
	TPM2B_ECC_POINT **K,
	TPM2B_ECC_POINT **L,
	TPM2B_ECC_POINT **E,
	UINT16 *counter)
	{
	TSS2_RC r;

	r = Esys_Commit_Async(esysContext, signHandle, shandle1, shandle2, shandle3,
	P1, s2, y2);
	return_if_error(r, "Error in async function");

	/* Set the timeout to indefinite for now, since we want _Finish to block */
	int32_t timeouttmp = esysContext->timeout;
	esysContext->timeout = -1;
	/*
	* Now we call the finish function, until return code is not equal to
	* from TSS2_BASE_RC_TRY_AGAIN.
	* Note that the finish function may return TSS2_RC_TRY_AGAIN, even if we
	* have set the timeout to -1. This occurs for example if the TPM requests
	* a retransmission of the command via TPM2_RC_YIELDED.
	*/
	do {
	r = Esys_Commit_Finish(esysContext, K, L, E, counter);
	/* This is just debug information about the reattempt to finish the
	command */
	if (base_rc(r) == TSS2_BASE_RC_TRY_AGAIN)
	LOG_DEBUG("A layer below returned TRY_AGAIN: %" PRIx32
	" => resubmitting command", r);
	} while (base_rc(r) == TSS2_BASE_RC_TRY_AGAIN);

	/* Restore the timeout value to the original value */
	esysContext->timeout = timeouttmp;
	return_if_error(r, "Esys Finish");

	return TSS2_RC_SUCCESS;
	}

	/** Asynchronous function for TPM2_Commit
	*
	* This function invokes the TPM2_Commit command in a asynchronous
	* variant. This means the function will return as soon as the command has been
	* sent downwards the stack to the TPM. All input parameters are const.
	* In order to retrieve the TPM's response call Esys_Commit_Finish.
	*
	* @param[in,out] esysContext The ESYS_CONTEXT.
	* @param[in] signHandle Handle of the key that will be used in the signing
	* operation.
	* @param[in] shandle1 Session handle for authorization of signHandle
	* @param[in] shandle2 Second session handle.
	* @param[in] shandle3 Third session handle.
	* @param[in] P1 A point (M) on the curve used by signHandle .
	* @param[in] s2 Octet array used to derive x-coordinate of a base point.
	* @param[in] y2 Y coordinate of the point associated with s2.
	* @retval ESYS_RC_SUCCESS if the function call was a success.
	* @retval TSS2_ESYS_RC_BAD_REFERENCE if the esysContext or required input
	* pointers or required output handle references are NULL.
	* @retval TSS2_ESYS_RC_BAD_CONTEXT: if esysContext corruption is detected.
	* @retval TSS2_ESYS_RC_MEMORY: if the ESAPI cannot allocate enough memory for
	* internal operations or return parameters.
	* @retval TSS2_RCs produced by lower layers of the software stack may be
	returned to the caller unaltered unless handled internally.
	* @retval TSS2_ESYS_RC_MULTIPLE_DECRYPT_SESSIONS: if more than one session has
	* the 'decrypt' attribute bit set.
	* @retval TSS2_ESYS_RC_MULTIPLE_ENCRYPT_SESSIONS: if more than one session has
	* the 'encrypt' attribute bit set.
	* @retval TSS2_ESYS_RC_BAD_TR: if any of the ESYS_TR objects are unknown
	* to the ESYS_CONTEXT or are of the wrong type or if required
	* ESYS_TR objects are ESYS_TR_NONE.
	*/
	TSS2_RC
	Esys_Commit_Async(
	ESYS_CONTEXT *esysContext,
	ESYS_TR signHandle,
	ESYS_TR shandle1,
	ESYS_TR shandle2,
	ESYS_TR shandle3,
	const TPM2B_ECC_POINT *P1,
	const TPM2B_SENSITIVE_DATA *s2,
	const TPM2B_ECC_PARAMETER *y2)
	{
	TSS2_RC r;
	LOG_TRACE("context=%p, signHandle=%"PRIx32 ", P1=%p,"
	"s2=%p, y2=%p",
	esysContext, signHandle, P1, s2, y2);
	TSS2L_SYS_AUTH_COMMAND auths;
	RSRC_NODE_T *signHandleNode;

	/* Check context, sequence correctness and set state to error for now */
	if (esysContext == NULL) {
	LOG_ERROR("esyscontext is NULL.");
	return TSS2_ESYS_RC_BAD_REFERENCE;
	}
	r = iesys_check_sequence_async(esysContext);
	if (r != TSS2_RC_SUCCESS)
	return r;
	esysContext->state = _ESYS_STATE_INTERNALERROR;

	/* Check input parameters */
	r = check_session_feasibility(shandle1, shandle2, shandle3, 1);
	return_state_if_error(r, _ESYS_STATE_INIT, "Check session usage");

	/* Retrieve the metadata objects for provided handles */
	r = esys_GetResourceObject(esysContext, signHandle, &signHandleNode);
	return_state_if_error(r, _ESYS_STATE_INIT, "signHandle unknown.");

	/* Initial invocation of SAPI to prepare the command buffer with parameters */
	r = Tss2_Sys_Commit_Prepare(esysContext->sys,
	(signHandleNode == NULL) ? TPM2_RH_NULL
	: signHandleNode->rsrc.handle, P1, s2, y2);
	return_state_if_error(r, _ESYS_STATE_INIT, "SAPI Prepare returned error.");

	/* Calculate the cpHash Values */
	r = init_session_tab(esysContext, shandle1, shandle2, shandle3);
	return_state_if_error(r, _ESYS_STATE_INIT, "Initialize session resources");
	if (signHandleNode != NULL)
	iesys_compute_session_value(esysContext->session_tab[0],
	&signHandleNode->rsrc.name, &signHandleNode->auth);
	else
	iesys_compute_session_value(esysContext->session_tab[0], NULL, NULL);

	iesys_compute_session_value(esysContext->session_tab[1], NULL, NULL);
	iesys_compute_session_value(esysContext->session_tab[2], NULL, NULL);

	/* Generate the auth values and set them in the SAPI command buffer */
	r = iesys_gen_auths(esysContext, signHandleNode, NULL, NULL, &auths);
	return_state_if_error(r, _ESYS_STATE_INIT,
	"Error in computation of auth values");

	esysContext->authsCount = auths.count;
	if (auths.count > 0) {
	r = Tss2_Sys_SetCmdAuths(esysContext->sys, &auths);
	return_state_if_error(r, _ESYS_STATE_INIT, "SAPI error on SetCmdAuths");
	}

	/* Trigger execution and finish the async invocation */
	r = Tss2_Sys_ExecuteAsync(esysContext->sys);
	return_state_if_error(r, _ESYS_STATE_INTERNALERROR,
	"Finish (Execute Async)");

	esysContext->state = _ESYS_STATE_SENT;

	return r;
	}

	/** Asynchronous finish function for TPM2_Commit
	*
	* This function returns the results of a TPM2_Commit command
	* invoked via Esys_Commit_Finish. All non-simple output parameters
	* are allocated by the function's implementation. NULL can be passed for every
	* output parameter if the value is not required.
	*
	* @param[in,out] esysContext The ESYS_CONTEXT.
	* @param[out] K ECC point K := [ds](x2, y2).
	* (callee-allocated)
	* @param[out] L ECC point L := [r](x2, y2).
	* (callee-allocated)
	* @param[out] E ECC point E := [r]P1.
	* (callee-allocated)
	* @param[out] counter Least-significant 16 bits of commitCount.
	* (callee-allocated)
	* @retval TSS2_RC_SUCCESS on success
	* @retval ESYS_RC_SUCCESS if the function call was a success.
	* @retval TSS2_ESYS_RC_BAD_REFERENCE if the esysContext or required input
	* pointers or required output handle references are NULL.
	* @retval TSS2_ESYS_RC_BAD_CONTEXT: if esysContext corruption is detected.
	* @retval TSS2_ESYS_RC_MEMORY: if the ESAPI cannot allocate enough memory for
	* internal operations or return parameters.
	* @retval TSS2_ESYS_RC_BAD_SEQUENCE: if the context has an asynchronous
	* operation already pending.
	* @retval TSS2_ESYS_RC_TRY_AGAIN: if the timeout counter expires before the
	* TPM response is received.
	* @retval TSS2_ESYS_RC_INSUFFICIENT_RESPONSE: if the TPM's response does not
	* at least contain the tag, response length, and response code.
	* @retval TSS2_ESYS_RC_RSP_AUTH_FAILED: if the response HMAC from the TPM did
	* not verify.
	* @retval TSS2_ESYS_RC_MALFORMED_RESPONSE: if the TPM's response is corrupted.
	* @retval TSS2_RCs produced by lower layers of the software stack may be
	* returned to the caller unaltered unless handled internally.
	*/
	TSS2_RC
	Esys_Commit_Finish(
	ESYS_CONTEXT *esysContext,
	TPM2B_ECC_POINT **K,
	TPM2B_ECC_POINT **L,
	TPM2B_ECC_POINT **E,
	UINT16 *counter)
	{
	TSS2_RC r;
	LOG_TRACE("context=%p, K=%p, L=%p,"
	"E=%p, counter=%p",
	esysContext, K, L,
	E, counter);

	if (esysContext == NULL) {
	LOG_ERROR("esyscontext is NULL.");
	return TSS2_ESYS_RC_BAD_REFERENCE;
	}

	/* Check for correct sequence and set sequence to irregular for now */
	if (esysContext->state != _ESYS_STATE_SENT &&
	esysContext->state != _ESYS_STATE_RESUBMISSION) {
	LOG_ERROR("Esys called in bad sequence.");
	return TSS2_ESYS_RC_BAD_SEQUENCE;
	}
	esysContext->state = _ESYS_STATE_INTERNALERROR;

	/* Initialize parameter to avoid unitialized usage */
	if (E != NULL)
	*E = NULL;

	/* Allocate memory for response parameters */
	if (K != NULL) {
	*K = calloc(sizeof(TPM2B_ECC_POINT), 1);
	if (*K == NULL) {
	return_error(TSS2_ESYS_RC_MEMORY, "Out of memory");
	}
	}
	if (L != NULL) {
	*L = calloc(sizeof(TPM2B_ECC_POINT), 1);
	if (*L == NULL) {
	goto_error(r, TSS2_ESYS_RC_MEMORY, "Out of memory", error_cleanup);
	}
	}
	if (E != NULL) {
	*E = calloc(sizeof(TPM2B_ECC_POINT), 1);
	if (*E == NULL) {
	goto_error(r, TSS2_ESYS_RC_MEMORY, "Out of memory", error_cleanup);
	}
	}

	/Receive the TPM response and handle resubmissions if necessary. /
	r = Tss2_Sys_ExecuteFinish(esysContext->sys, esysContext->timeout);
	if (base_rc(r) == TSS2_BASE_RC_TRY_AGAIN) {
	LOG_DEBUG("A layer below returned TRY_AGAIN: %" PRIx32, r);
	esysContext->state = _ESYS_STATE_SENT;
	goto error_cleanup;
	}
	/* This block handle the resubmission of TPM commands given a certain set of
	* TPM response codes. */
	if (r == TPM2_RC_RETRY \|\| r == TPM2_RC_TESTING \|\| r == TPM2_RC_YIELDED) {
	LOG_DEBUG("TPM returned RETRY, TESTING or YIELDED, which triggers a "
	"resubmission: %" PRIx32, r);
	if (esysContext->submissionCount++ >= _ESYS_MAX_SUBMISSIONS) {
	LOG_WARNING("Maximum number of (re)submissions has been reached.");
	esysContext->state = _ESYS_STATE_INIT;
	goto error_cleanup;
	}
	esysContext->state = _ESYS_STATE_RESUBMISSION;
	r = Tss2_Sys_ExecuteAsync(esysContext->sys);
	if (r != TSS2_RC_SUCCESS) {
	LOG_WARNING("Error attempting to resubmit");
	/* We do not set esysContext->state here but inherit the most recent
	* state of the _async function. */
	goto error_cleanup;
	}
	r = TSS2_ESYS_RC_TRY_AGAIN;
	LOG_DEBUG("Resubmission initiated and returning RC_TRY_AGAIN.");
	goto error_cleanup;
	}
	/* The following is the "regular error" handling. */
	if (iesys_tpm_error(r)) {
	LOG_WARNING("Received TPM Error");
	esysContext->state = _ESYS_STATE_INIT;
	goto error_cleanup;
	} else if (r != TSS2_RC_SUCCESS) {
	LOG_ERROR("Received a non-TPM Error");
	esysContext->state = _ESYS_STATE_INTERNALERROR;
	goto error_cleanup;
	}

	/*
	* Now the verification of the response (hmac check) and if necessary the
	* parameter decryption have to be done.
	*/
	r = iesys_check_response(esysContext);
	goto_state_if_error(r, _ESYS_STATE_INTERNALERROR, "Error: check response",
	error_cleanup);

	/*
	* After the verification of the response we call the complete function
	* to deliver the result.
	*/
	r = Tss2_Sys_Commit_Complete(esysContext->sys,
	(K != NULL) ? *K : NULL,
	(L != NULL) ? *L : NULL,
	(E != NULL) ? *E : NULL, counter);
	goto_state_if_error(r, _ESYS_STATE_INTERNALERROR,
	"Received error from SAPI unmarshaling" ,
	error_cleanup);

	esysContext->state = _ESYS_STATE_INIT;

	return TSS2_RC_SUCCESS;

	error_cleanup:
	if (K != NULL)
	SAFE_FREE(*K);
	if (L != NULL)
	SAFE_FREE(*L);
	if (E != NULL)
	SAFE_FREE(*E);

	return r;
	}