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ara-mdk / platform / hardware / samsung_slsi / exynos5 / 39ed516364d4f0b2648113cb3f94533e86c2da95 / . / libkeymaster / tlcTeeKeymaster_if.c
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/**
* @file tlcTeeKeymaster_if.c
* @brief Contains trustlet connector interface implementations to
* handle key operations with TEE Keymaster trustlet
*
* Copyright Giesecke & Devrient GmbH 2012
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. 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.
* 3. The name of the author may not be used to endorse or promote
* products derived from this software without specific prior
* written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``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 AUTHOR 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 <stdlib.h>
#include "MobiCoreDriverApi.h"
#include "tlTeeKeymaster_Api.h"
#include "tlcTeeKeymaster_log.h"
#include "tlcTeeKeymaster_if.h"
/* Global definitions */
static const uint32_t DEVICE_ID = MC_DEVICE_ID_DEFAULT;
static const mcUuid_t uuid = TEE_KEYMASTER_TL_UUID;
/**
* TEE_Open
*
* Open session to the TEE Keymaster trustlet
*
* @param pSessionHandle [out] Return pointer to the session handle
*/
static tciMessage_ptr TEE_Open(
mcSessionHandle_t *pSessionHandle
){
tciMessage_ptr pTci = NULL;
mcResult_t mcRet;
do
{
/* Validate session handle */
if (!pSessionHandle)
{
LOG_E("TEE_Open(): Invalid session handle\n");
break;
}
/* Initialize session handle data */
bzero(pSessionHandle, sizeof(mcSessionHandle_t));
/* Open MobiCore device */
mcRet = mcOpenDevice(DEVICE_ID);
if (MC_DRV_OK != mcRet)
{
LOG_E("TEE_Open(): mcOpenDevice returned: %d\n", mcRet);
break;
}
/* Allocating WSM for TCI */
mcRet = mcMallocWsm(DEVICE_ID, 0, sizeof(tciMessage_t), (uint8_t **) &pTci, 0);
if (MC_DRV_OK != mcRet)
{
LOG_E("TEE_Open(): mcMallocWsm returned: %d\n", mcRet);
break;
}
/* Open session the TEE Keymaster trustlet */
pSessionHandle->deviceId = DEVICE_ID;
mcRet = mcOpenSession(pSessionHandle,
&uuid,
(uint8_t *) pTci,
(uint32_t) sizeof(tciMessage_t));
if (MC_DRV_OK != mcRet)
{
LOG_E("TEE_Open(): mcOpenSession returned: %d\n", mcRet);
break;
}
} while (false);
return pTci;
}
/**
* TEE_Close
*
* Close session to the TEE Keymaster trustlet
*
* @param sessionHandle [in] Session handle
*/
static void TEE_Close(
mcSessionHandle_t sessionHandle
){
teeResult_t ret = TEE_ERR_NONE;
mcResult_t mcRet;
do {
/* Close session */
mcRet = mcCloseSession(&sessionHandle);
if (MC_DRV_OK != mcRet)
{
LOG_E("TEE_Close(): mcCloseSession returned: %d\n", mcRet);
ret = TEE_ERR_SESSION;
break;
}
/* Close MobiCore device */
mcRet = mcCloseDevice(DEVICE_ID);
if (MC_DRV_OK != mcRet)
{
LOG_E("TEE_Close(): mcCloseDevice returned: %d\n", mcRet);
ret = TEE_ERR_MC_DEVICE;
}
} while (false);
}
/**
* TEE_RSAGenerateKeyPair
*
* Generates RSA key pair and returns key pair data as wrapped object
*
* @param keyType [in] Key pair type. RSA or RSACRT
* @param keyData [in] Pointer to the key data buffer
* @param keyDataLength [in] Key data buffer length
* @param keySize [in] Key size
* @param exponent [in] Exponent number
* @param soLen [out] Key data secure object length
*/
teeResult_t TEE_RSAGenerateKeyPair(
teeRsaKeyPairType_t keyType,
uint8_t* keyData,
uint32_t keyDataLength,
uint32_t keySize,
uint32_t exponent,
uint32_t* soLen
){
teeResult_t ret = TEE_ERR_NONE;
tciMessage_ptr pTci = NULL;
mcSessionHandle_t sessionHandle;
mcBulkMap_t mapInfo;
mcResult_t mcRet;
do {
/* Open session to the trustlet */
pTci = TEE_Open(&sessionHandle);
if (!pTci) {
ret = TEE_ERR_MEMORY;
break;
}
/* Map memory to the secure world */
mcRet = mcMap(&sessionHandle, keyData, keyDataLength, &mapInfo);
if (MC_DRV_OK != mcRet) {
ret = TEE_ERR_MAP;
break;
}
/* Update TCI buffer */
pTci->command.header.commandId = CMD_ID_TEE_RSA_GEN_KEY_PAIR;
pTci->rsagenkey.type = keyType;
pTci->rsagenkey.keysize = keySize;
pTci->rsagenkey.keydata = (uint32_t)mapInfo.sVirtualAddr;
pTci->rsagenkey.keydatalen = keyDataLength;
pTci->rsagenkey.exponent = exponent;
/* Notify the trustlet */
mcRet = mcNotify(&sessionHandle);
if (MC_DRV_OK != mcRet)
{
ret = TEE_ERR_NOTIFICATION;
break;
}
/* Wait for response from the trustlet */
if (MC_DRV_OK != mcWaitNotification(&sessionHandle, MC_INFINITE_TIMEOUT))
{
ret = TEE_ERR_NOTIFICATION;
break;
}
/* Unmap memory */
mcRet = mcUnmap(&sessionHandle, keyData, &mapInfo);
if (MC_DRV_OK != mcRet)
{
ret = TEE_ERR_MAP;
break;
}
if (RET_OK != pTci->response.header.returnCode)
{
LOG_E("TEE_RSAGenerateKeyPair(): TEE Keymaster trustlet returned: 0x%.8x\n",
pTci->response.header.returnCode);
ret = TEE_ERR_FAIL;
break;
}
/* Update secure object length */
*soLen = pTci->rsagenkey.solen;
} while (false);
/* Close session to the trustlet */
TEE_Close(sessionHandle);
return ret;
}
/**
* TEE_RSASign
*
* Signs given plain data and returns signature data
*
* @param keyData [in] Pointer to key data buffer
* @param keyDataLength [in] Key data buffer length
* @param plainData [in] Pointer to plain data to be signed
* @param plainDataLength [in] Plain data length
* @param signatureData [out] Pointer to signature data
* @param signatureDataLength [out] Signature data length
* @param algorithm [in] RSA signature algorithm
*/
teeResult_t TEE_RSASign(
const uint8_t* keyData,
const uint32_t keyDataLength,
const uint8_t* plainData,
const uint32_t plainDataLength,
uint8_t* signatureData,
uint32_t* signatureDataLength,
teeRsaSigAlg_t algorithm
){
teeResult_t ret = TEE_ERR_NONE;
tciMessage_ptr pTci = NULL;
mcSessionHandle_t sessionHandle;
mcBulkMap_t keyMapInfo;
mcBulkMap_t plainMapInfo;
mcBulkMap_t signatureMapInfo;
mcResult_t mcRet;
do {
/* Open session to the trustlet */
pTci = TEE_Open(&sessionHandle);
if (!pTci) {
ret = TEE_ERR_MEMORY;
break;
}
/* Map memory to the secure world */
mcRet = mcMap(&sessionHandle, (void*)keyData, keyDataLength, &keyMapInfo);
if (MC_DRV_OK != mcRet) {
ret = TEE_ERR_MAP;
break;
}
mcRet = mcMap(&sessionHandle, (void*)plainData, plainDataLength, &plainMapInfo);
if (MC_DRV_OK != mcRet) {
ret = TEE_ERR_MAP;
break;
}
mcRet = mcMap(&sessionHandle, (void*)signatureData, *signatureDataLength, &signatureMapInfo);
if (MC_DRV_OK != mcRet) {
ret = TEE_ERR_MAP;
break;
}
/* Update TCI buffer */
pTci->command.header.commandId = CMD_ID_TEE_RSA_SIGN;
pTci->rsasign.keydata = (uint32_t)keyMapInfo.sVirtualAddr;
pTci->rsasign.keydatalen = keyDataLength;
pTci->rsasign.plaindata = (uint32_t)plainMapInfo.sVirtualAddr;
pTci->rsasign.plaindatalen = plainDataLength;
pTci->rsasign.signaturedata = (uint32_t)signatureMapInfo.sVirtualAddr;
pTci->rsasign.signaturedatalen = *signatureDataLength;
pTci->rsasign.algorithm = algorithm;
/* Notify the trustlet */
mcRet = mcNotify(&sessionHandle);
if (MC_DRV_OK != mcRet)
{
ret = TEE_ERR_NOTIFICATION;
break;
}
/* Wait for response from the trustlet */
if (MC_DRV_OK != mcWaitNotification(&sessionHandle, MC_INFINITE_TIMEOUT))
{
ret = TEE_ERR_NOTIFICATION;
break;
}
/* Unmap memory */
mcRet = mcUnmap(&sessionHandle, (void*)keyData, &keyMapInfo);
if (MC_DRV_OK != mcRet)
{
ret = TEE_ERR_MAP;
break;
}
mcRet = mcUnmap(&sessionHandle, (void*)plainData, &plainMapInfo);
if (MC_DRV_OK != mcRet)
{
ret = TEE_ERR_MAP;
break;
}
mcRet = mcUnmap(&sessionHandle, (void*)signatureData, &signatureMapInfo);
if (MC_DRV_OK != mcRet)
{
ret = TEE_ERR_MAP;
break;
}
if (RET_OK != pTci->response.header.returnCode)
{
LOG_E("TEE_RSASign(): TEE Keymaster trustlet returned: 0x%.8x\n",
pTci->response.header.returnCode);
ret = TEE_ERR_FAIL;
break;
}
/* Retrieve signature data length */
*signatureDataLength = pTci->rsasign.signaturedatalen;
} while (false);
/* Close session to the trustlet */
TEE_Close(sessionHandle);
return ret;
}
/**
* TEE_RSAVerify
*
* Verifies given data with RSA public key and return status
*
* @param keyData [in] Pointer to key data buffer
* @param keyDataLength [in] Key data buffer length
* @param plainData [in] Pointer to plain data to be signed
* @param plainDataLength [in] Plain data length
* @param signatureData [in] Pointer to signed data
* @param signatureData [in] Plain data length
* @param algorithm [in] RSA signature algorithm
* @param validity [out] Signature validity
*/
teeResult_t TEE_RSAVerify(
const uint8_t* keyData,
const uint32_t keyDataLength,
const uint8_t* plainData,
const uint32_t plainDataLength,
const uint8_t* signatureData,
const uint32_t signatureDataLength,
teeRsaSigAlg_t algorithm,
bool *validity
){
teeResult_t ret = TEE_ERR_NONE;
tciMessage_ptr pTci = NULL;
mcSessionHandle_t sessionHandle;
mcBulkMap_t keyMapInfo;
mcBulkMap_t plainMapInfo;
mcBulkMap_t signatureMapInfo;
mcResult_t mcRet;
do {
/* Open session to the trustlet */
pTci = TEE_Open(&sessionHandle);
if (!pTci) {
ret = TEE_ERR_MEMORY;
break;
}
/* Map memory to the secure world */
mcRet = mcMap(&sessionHandle, (void*)keyData, keyDataLength, &keyMapInfo);
if (MC_DRV_OK != mcRet) {
ret = TEE_ERR_MAP;
break;
}
mcRet = mcMap(&sessionHandle, (void*)plainData, plainDataLength, &plainMapInfo);
if (MC_DRV_OK != mcRet) {
ret = TEE_ERR_MAP;
break;
}
mcRet = mcMap(&sessionHandle, (void*)signatureData, signatureDataLength, &signatureMapInfo);
if (MC_DRV_OK != mcRet) {
ret = TEE_ERR_MAP;
break;
}
/* Update TCI buffer */
pTci->command.header.commandId = CMD_ID_TEE_RSA_VERIFY;
pTci->rsaverify.keydata = (uint32_t)keyMapInfo.sVirtualAddr;
pTci->rsaverify.keydatalen = keyDataLength;
pTci->rsaverify.plaindata = (uint32_t)plainMapInfo.sVirtualAddr;
pTci->rsaverify.plaindatalen = plainDataLength;
pTci->rsaverify.signaturedata = (uint32_t)signatureMapInfo.sVirtualAddr;
pTci->rsaverify.signaturedatalen = signatureDataLength;
pTci->rsaverify.algorithm = algorithm;
pTci->rsaverify.validity = false;
/* Notify the trustlet */
mcRet = mcNotify(&sessionHandle);
if (MC_DRV_OK != mcRet)
{
ret = TEE_ERR_NOTIFICATION;
break;
}
/* Wait for response from the trustlet */
if (MC_DRV_OK != mcWaitNotification(&sessionHandle, MC_INFINITE_TIMEOUT))
{
ret = TEE_ERR_NOTIFICATION;
break;
}
/* Unmap memory */
mcRet = mcUnmap(&sessionHandle, (void*)keyData, &keyMapInfo);
if (MC_DRV_OK != mcRet)
{
ret = TEE_ERR_MAP;
break;
}
mcRet = mcUnmap(&sessionHandle, (void*)plainData, &plainMapInfo);
if (MC_DRV_OK != mcRet)
{
ret = TEE_ERR_MAP;
break;
}
mcRet = mcUnmap(&sessionHandle, (void*)signatureData, &signatureMapInfo);
if (MC_DRV_OK != mcRet)
{
ret = TEE_ERR_MAP;
break;
}
if (RET_OK != pTci->response.header.returnCode)
{
LOG_E("TEE_RSAVerify(): TEE Keymaster trustlet returned: 0x%.8x\n",
pTci->response.header.returnCode);
ret = TEE_ERR_FAIL;
break;
}
*validity = pTci->rsaverify.validity;
} while (false);
/* Close session to the trustlet */
TEE_Close(sessionHandle);
return ret;
}
/**
* TEE_HMACKeyGenerate
*
* Generates random key for HMAC calculation and returns key data as wrapped object
* (key is encrypted)
*
* @param keyData [out] Pointer to key data
* @param keyDataLength [in] Key data buffer length
* @param soLen [out] Key data secure object length
*/
teeResult_t TEE_HMACKeyGenerate(
uint8_t* keyData,
uint32_t keyDataLength,
uint32_t* soLen
){
teeResult_t ret = TEE_ERR_NONE;
tciMessage_ptr pTci = NULL;
mcSessionHandle_t sessionHandle;
mcBulkMap_t keyMapInfo;
mcResult_t mcRet;
do {
/* Open session to the trustlet */
pTci = TEE_Open(&sessionHandle);
if (!pTci) {
ret = TEE_ERR_MEMORY;
break;
}
/* Map memory to the secure world */
mcRet = mcMap(&sessionHandle, (void*)keyData, keyDataLength, &keyMapInfo);
if (MC_DRV_OK != mcRet) {
ret = TEE_ERR_MAP;
break;
}
/* Update TCI buffer */
pTci->command.header.commandId = CMD_ID_TEE_HMAC_GEN_KEY;
pTci->hmacgenkey.keydata = (uint32_t)keyMapInfo.sVirtualAddr;
pTci->hmacgenkey.keydatalen = keyDataLength;
/* Notify the trustlet */
mcRet = mcNotify(&sessionHandle);
if (MC_DRV_OK != mcRet)
{
ret = TEE_ERR_NOTIFICATION;
break;
}
/* Wait for response from the trustlet */
if (MC_DRV_OK != mcWaitNotification(&sessionHandle, MC_INFINITE_TIMEOUT))
{
ret = TEE_ERR_NOTIFICATION;
break;
}
/* Unmap memory */
mcRet = mcUnmap(&sessionHandle, (void*)keyData, &keyMapInfo);
if (MC_DRV_OK != mcRet)
{
ret = TEE_ERR_MAP;
break;
}
if (RET_OK != pTci->response.header.returnCode)
{
LOG_E("TEE_RSAVerify(): TEE Keymaster trustlet returned: 0x%.8x\n",
pTci->response.header.returnCode);
ret = TEE_ERR_FAIL;
}
/* Update secure object length */
*soLen = pTci->hmacgenkey.solen;
}while (false);
/* Close session to the trustlet */
TEE_Close(sessionHandle);
return ret;
}
/**
* TEE_HMACSign
*
* Signs given plain data and returns HMAC signature data
*
* @param keyData [in] Pointer to key data buffer
* @param keyDataLength [in] Key data buffer length
* @param plainData [in] Pointer to plain data to be signed
* @param plainDataLength [in] Plain data length
* @param signatureData [out] Pointer to signature data
* @param signatureDataLength [out] Signature data length
* @param digest [in] Digest type
*/
teeResult_t TEE_HMACSign(
const uint8_t* keyData,
const uint32_t keyDataLength,
const uint8_t* plainData,
const uint32_t plainDataLength,
uint8_t* signatureData,
uint32_t* signatureDataLength,
teeDigest_t digest
){
teeResult_t ret = TEE_ERR_NONE;
tciMessage_ptr pTci = NULL;
mcSessionHandle_t sessionHandle;
mcBulkMap_t keyMapInfo;
mcBulkMap_t plainMapInfo;
mcBulkMap_t signatureMapInfo;
mcResult_t mcRet;
do {
/* Open session to the trustlet */
pTci = TEE_Open(&sessionHandle);
if (!pTci) {
ret = TEE_ERR_MEMORY;
break;
}
/* Map memory to the secure world */
mcRet = mcMap(&sessionHandle, (void*)keyData, keyDataLength, &keyMapInfo);
if (MC_DRV_OK != mcRet) {
ret = TEE_ERR_MAP;
break;
}
mcRet = mcMap(&sessionHandle, (void*)plainData, plainDataLength, &plainMapInfo);
if (MC_DRV_OK != mcRet) {
ret = TEE_ERR_MAP;
break;
}
mcRet = mcMap(&sessionHandle, (void*)signatureData, *signatureDataLength, &signatureMapInfo);
if (MC_DRV_OK != mcRet) {
ret = TEE_ERR_MAP;
break;
}
/* Update TCI buffer */
pTci->command.header.commandId = CMD_ID_TEE_HMAC_SIGN;
pTci->hmacsign.keydata = (uint32_t)keyMapInfo.sVirtualAddr;
pTci->hmacsign.keydatalen = keyDataLength;
pTci->hmacsign.plaindata = (uint32_t)plainMapInfo.sVirtualAddr;
pTci->hmacsign.plaindatalen = plainDataLength;
pTci->hmacsign.signaturedata = (uint32_t)signatureMapInfo.sVirtualAddr;
pTci->hmacsign.signaturedatalen = *signatureDataLength;
pTci->hmacsign.digest = digest;
/* Notify the trustlet */
mcRet = mcNotify(&sessionHandle);
if (MC_DRV_OK != mcRet)
{
ret = TEE_ERR_NOTIFICATION;
break;
}
/* Wait for response from the trustlet */
if (MC_DRV_OK != mcWaitNotification(&sessionHandle, MC_INFINITE_TIMEOUT))
{
ret = TEE_ERR_NOTIFICATION;
break;
}
/* Unmap memory */
mcRet = mcUnmap(&sessionHandle, (void*)keyData, &keyMapInfo);
if (MC_DRV_OK != mcRet)
{
ret = TEE_ERR_MAP;
break;
}
mcRet = mcUnmap(&sessionHandle, (void*)plainData, &plainMapInfo);
if (MC_DRV_OK != mcRet)
{
ret = TEE_ERR_MAP;
break;
}
mcRet = mcUnmap(&sessionHandle, (void*)signatureData, &signatureMapInfo);
if (MC_DRV_OK != mcRet)
{
ret = TEE_ERR_MAP;
break;
}
if (RET_OK != pTci->response.header.returnCode)
{
LOG_E("TEE_HMACSign(): TEE Keymaster trustlet returned: 0x%.8x\n",
pTci->response.header.returnCode);
ret = TEE_ERR_FAIL;
break;
}
/* Retrieve signature data length */
*signatureDataLength = pTci->hmacsign.signaturedatalen;
} while (false);
/* Close session to the trustlet */
TEE_Close(sessionHandle);
return ret;
}
/**
* TEE_HMACVerify
*
* Verifies given data HMAC key data and return status
*
* @param plainData [in] Pointer to plain data to be signed
* @param plainDataLength [in] Plain data length
* @param signatureData [in] Pointer to signed data
* @param signatureData [in] Plain data length
* @param digest [in] Digest type
* @param validity [out] Signature validity
*/
teeResult_t TEE_HMACVerify(
const uint8_t* keyData,
const uint32_t keyDataLength,
const uint8_t* plainData,
const uint32_t plainDataLength,
const uint8_t* signatureData,
const uint32_t signatureDataLength,
teeDigest_t digest,
bool *validity
){
teeResult_t ret = TEE_ERR_NONE;
tciMessage_ptr pTci = NULL;
mcSessionHandle_t sessionHandle;
mcBulkMap_t keyMapInfo;
mcBulkMap_t plainMapInfo;
mcBulkMap_t signatureMapInfo;
mcResult_t mcRet;
do {
/* Open session to the trustlet */
pTci = TEE_Open(&sessionHandle);
if (!pTci) {
ret = TEE_ERR_MEMORY;
break;
}
/* Map memory to the secure world */
mcRet = mcMap(&sessionHandle, (void*)keyData, keyDataLength, &keyMapInfo);
if (MC_DRV_OK != mcRet) {
ret = TEE_ERR_MAP;
break;
}
mcRet = mcMap(&sessionHandle, (void*)plainData, plainDataLength, &plainMapInfo);
if (MC_DRV_OK != mcRet) {
ret = TEE_ERR_MAP;
break;
}
mcRet = mcMap(&sessionHandle, (void*)signatureData, signatureDataLength, &signatureMapInfo);
if (MC_DRV_OK != mcRet) {
ret = TEE_ERR_MAP;
break;
}
/* Update TCI buffer */
pTci->command.header.commandId = CMD_ID_TEE_HMAC_VERIFY;
pTci->hmacverify.keydata = (uint32_t)keyMapInfo.sVirtualAddr;
pTci->hmacverify.keydatalen = keyDataLength;
pTci->hmacverify.plaindata = (uint32_t)plainMapInfo.sVirtualAddr;
pTci->hmacverify.plaindatalen = plainDataLength;
pTci->hmacverify.signaturedata = (uint32_t)signatureMapInfo.sVirtualAddr;
pTci->hmacverify.signaturedatalen = signatureDataLength;
pTci->hmacverify.digest = digest;
pTci->hmacverify.validity = false;
/* Notify the trustlet */
mcRet = mcNotify(&sessionHandle);
if (MC_DRV_OK != mcRet)
{
ret = TEE_ERR_NOTIFICATION;
break;
}
/* Wait for response from the trustlet */
if (MC_DRV_OK != mcWaitNotification(&sessionHandle, MC_INFINITE_TIMEOUT))
{
ret = TEE_ERR_NOTIFICATION;
break;
}
/* Unmap memory */
mcRet = mcUnmap(&sessionHandle, (void*)keyData, &keyMapInfo);
if (MC_DRV_OK != mcRet)
{
ret = TEE_ERR_MAP;
break;
}
mcRet = mcUnmap(&sessionHandle, (void*)plainData, &plainMapInfo);
if (MC_DRV_OK != mcRet)
{
ret = TEE_ERR_MAP;
break;
}
mcRet = mcUnmap(&sessionHandle, (void*)signatureData, &signatureMapInfo);
if (MC_DRV_OK != mcRet)
{
ret = TEE_ERR_MAP;
break;
}
if (RET_OK != pTci->response.header.returnCode)
{
LOG_E("TEE_HMACVerify(): TEE Keymaster trustlet returned: 0x%.8x\n",
pTci->response.header.returnCode);
ret = TEE_ERR_FAIL;
break;
}
*validity = pTci->hmacverify.validity;
} while (false);
/* Close session to the trustlet */
TEE_Close(sessionHandle);
return ret;
}
/**
* TEE_KeyImport
*
* Imports key data and returns key data as secure object
*
* Key data needs to be in the following format
*
* RSA key data:
* |--key metadata--|--public modulus--|--public exponent--|--private exponent--|
*
* RSA CRT key data:
* |--key metadata--|--public modulus--|--public exponent--|--P--|--Q--|--DP--|--DQ--|--Qinv--|
*
* Where:
* P: secret prime factor
* Q: secret prime factor
* DP: d mod (p-1)
* DQ: d mod (q-1)
* Qinv: q^-1 mod p
*
* @param keyData [in] Pointer to key data
* @param keyDataLength [in] Key data length
* @param soData [out] Pointer to wrapped key data
* @param soDataLength [out] Wrapped key data length
*/
teeResult_t TEE_KeyImport(
const uint8_t* keyData,
const uint32_t keyDataLength,
uint8_t* soData,
uint32_t* soDataLength
){
teeResult_t ret = TEE_ERR_NONE;
tciMessage_ptr pTci = NULL;
mcSessionHandle_t sessionHandle;
mcBulkMap_t keyMapInfo;
mcBulkMap_t soMapInfo;
mcResult_t mcRet;
do {
/* Open session to the trustlet */
pTci = TEE_Open(&sessionHandle);
if (!pTci) {
ret = TEE_ERR_MEMORY;
break;
}
/* Map memory to the secure world */
mcRet = mcMap(&sessionHandle, (void*)keyData, keyDataLength, &keyMapInfo);
if (MC_DRV_OK != mcRet) {
ret = TEE_ERR_MAP;
break;
}
mcRet = mcMap(&sessionHandle, (void*)soData, *soDataLength, &soMapInfo);
if (MC_DRV_OK != mcRet) {
ret = TEE_ERR_MAP;
break;
}
/* Update TCI buffer */
pTci->command.header.commandId = CMD_ID_TEE_KEY_IMPORT;
pTci->keyimport.keydata = (uint32_t)keyMapInfo.sVirtualAddr;
pTci->keyimport.keydatalen = keyDataLength;
pTci->keyimport.sodata = (uint32_t)soMapInfo.sVirtualAddr;
pTci->keyimport.sodatalen = *soDataLength;
/* Notify the trustlet */
mcRet = mcNotify(&sessionHandle);
if (MC_DRV_OK != mcRet)
{
ret = TEE_ERR_NOTIFICATION;
break;
}
/* Wait for response from the trustlet */
if (MC_DRV_OK != mcWaitNotification(&sessionHandle, MC_INFINITE_TIMEOUT))
{
ret = TEE_ERR_NOTIFICATION;
break;
}
/* Unmap memory */
mcRet = mcUnmap(&sessionHandle, (void*)keyData, &keyMapInfo);
if (MC_DRV_OK != mcRet)
{
ret = TEE_ERR_MAP;
break;
}
mcRet = mcUnmap(&sessionHandle, (void*)soData, &soMapInfo);
if (MC_DRV_OK != mcRet)
{
ret = TEE_ERR_MAP;
break;
}
if (RET_OK != pTci->response.header.returnCode)
{
LOG_E("TEE_KeyWrap(): TEE Keymaster trustlet returned: 0x%.8x\n",
pTci->response.header.returnCode);
ret = TEE_ERR_FAIL;
break;
}
/* Update secure object length */
*soDataLength = pTci->keyimport.sodatalen;
} while (false);
/* Close session to the trustlet */
TEE_Close(sessionHandle);
return ret;
}
/** * TEE_GetPubKey
*
* Retrieves public key daya (modulus and exponent) from wrapped key data
*
* @param keyData [in] Pointer to key data
* @param keyDataLength [in] Key data length
* @param modulus [out] Pointer to public key modulus data
* @param modulusLength [out] Modulus data length
* @param exponent [out] Pointer to public key exponent data
* @param exponentLength [out] Exponent data length
*/
teeResult_t TEE_GetPubKey(
const uint8_t* keyData,
const uint32_t keyDataLength,
uint8_t* modulus,
uint32_t* modulusLength,
uint8_t* exponent,
uint32_t* exponentLength
){
teeResult_t ret = TEE_ERR_NONE;
tciMessage_ptr pTci = NULL;
mcSessionHandle_t sessionHandle;
mcBulkMap_t keyMapInfo;
mcBulkMap_t modMapInfo;
mcBulkMap_t expMapInfo;
mcResult_t mcRet;
do {
/* Open session to the trustlet */
pTci = TEE_Open(&sessionHandle);
if (!pTci) {
ret = TEE_ERR_MEMORY;
break;
}
/* Map memory to the secure world */
mcRet = mcMap(&sessionHandle, (void*)keyData, keyDataLength, &keyMapInfo);
if (MC_DRV_OK != mcRet) {
ret = TEE_ERR_MAP;
break;
}
mcRet = mcMap(&sessionHandle, (void*)modulus, *modulusLength, &modMapInfo);
if (MC_DRV_OK != mcRet) {
ret = TEE_ERR_MAP;
break;
}
mcRet = mcMap(&sessionHandle, (void*)exponent, *exponentLength, &expMapInfo);
if (MC_DRV_OK != mcRet) {
ret = TEE_ERR_MAP;
break;
}
/* Update TCI buffer */
pTci->command.header.commandId = CMD_ID_TEE_GET_PUB_KEY;
pTci->getpubkey.keydata = (uint32_t)keyMapInfo.sVirtualAddr;
pTci->getpubkey.keydatalen = keyDataLength;
pTci->getpubkey.modulus = (uint32_t)modMapInfo.sVirtualAddr;
pTci->getpubkey.moduluslen = *modulusLength;
pTci->getpubkey.exponent = (uint32_t)expMapInfo.sVirtualAddr;
pTci->getpubkey.exponentlen = *exponentLength;
/* Notify the trustlet */
mcRet = mcNotify(&sessionHandle);
if (MC_DRV_OK != mcRet)
{
ret = TEE_ERR_NOTIFICATION;
break;
}
/* Wait for response from the trustlet */
if (MC_DRV_OK != mcWaitNotification(&sessionHandle, MC_INFINITE_TIMEOUT))
{
ret = TEE_ERR_NOTIFICATION;
break;
}
/* Unmap memory */
mcRet = mcUnmap(&sessionHandle, (void*)keyData, &keyMapInfo);
if (MC_DRV_OK != mcRet)
{
ret = TEE_ERR_MAP;
break;
}
mcRet = mcUnmap(&sessionHandle, (void*)modulus, &modMapInfo);
if (MC_DRV_OK != mcRet)
{
ret = TEE_ERR_MAP;
break;
}
mcRet = mcUnmap(&sessionHandle, (void*)exponent, &expMapInfo);
if (MC_DRV_OK != mcRet)
{
ret = TEE_ERR_MAP;
break;
}
if (RET_OK != pTci->response.header.returnCode)
{
LOG_E("TEE_GetPubKey(): TEE Keymaster trustlet returned: 0x%.8x\n",
pTci->response.header.returnCode);
ret = TEE_ERR_FAIL;
break;
}
/* Update modulus and exponent lengths */
*modulusLength = pTci->getpubkey.moduluslen;
*exponentLength = pTci->getpubkey.exponentlen;
} while (false);
/* Close session to the trustlet */
TEE_Close(sessionHandle);
return ret;
}