static TEE_Result read_rb_idx(uint32_t pt, TEE_Param params[TEE_NUM_PARAMS])
{
const uint32_t exp_pt = TEE_PARAM_TYPES(TEE_PARAM_TYPE_VALUE_INPUT,
TEE_PARAM_TYPE_VALUE_OUTPUT,
TEE_PARAM_TYPE_NONE,
TEE_PARAM_TYPE_NONE);
size_t slot_offset;
uint64_t idx;
uint32_t count;
TEE_Result res;
TEE_ObjectHandle h;
if (pt != exp_pt)
return TEE_ERROR_BAD_PARAMETERS;
res = get_slot_offset(params[0].value.a, &slot_offset);
if (res)
return res;
res = open_rb_state(DEFAULT_LOCK_STATE, &h);
if (res)
return res;
res = TEE_SeekObjectData(h, slot_offset, TEE_DATA_SEEK_SET);
if (res)
goto out;
res = TEE_ReadObjectData(h, &idx, sizeof(idx), &count);
if (res)
goto out;
if (count != sizeof(idx)) {
idx = 0; /* Not yet written slots are reported as 0 */
if (count) {
/*
* Somehow the file didn't even hold a complete
* slot index entry. Write it as 0.
*/
res = TEE_SeekObjectData(h, slot_offset,
TEE_DATA_SEEK_SET);
if (res)
goto out;
res = TEE_WriteObjectData(h, &idx, sizeof(idx));
if (res)
goto out;
}
}
params[1].value.a = idx >> 32;
params[1].value.b = idx;
out:
TEE_CloseObject(h);
return res;
}
static TEE_Result write_rb_idx(uint32_t pt, TEE_Param params[TEE_NUM_PARAMS])
{
const uint32_t exp_pt = TEE_PARAM_TYPES(TEE_PARAM_TYPE_VALUE_INPUT,
TEE_PARAM_TYPE_VALUE_INPUT,
TEE_PARAM_TYPE_NONE,
TEE_PARAM_TYPE_NONE);
size_t slot_offset;
uint64_t widx;
uint64_t idx;
uint32_t count;
TEE_Result res;
TEE_ObjectHandle h;
if (pt != exp_pt)
return TEE_ERROR_BAD_PARAMETERS;
res = get_slot_offset(params[0].value.a, &slot_offset);
if (res)
return res;
widx = ((uint64_t)params[1].value.a << 32) | params[1].value.b;
res = open_rb_state(DEFAULT_LOCK_STATE, &h);
if (res)
return res;
res = TEE_SeekObjectData(h, slot_offset, TEE_DATA_SEEK_SET);
if (res)
goto out;
res = TEE_ReadObjectData(h, &idx, sizeof(idx), &count);
if (res)
goto out;
if (count != sizeof(idx))
idx = 0; /* Not yet written slots are reported as 0 */
if (widx < idx) {
res = TEE_ERROR_SECURITY;
goto out;
}
res = TEE_SeekObjectData(h, slot_offset, TEE_DATA_SEEK_SET);
if (res)
goto out;
res = TEE_WriteObjectData(h, &widx, sizeof(widx));
out:
TEE_CloseObject(h);
return res;
}
static void __attribute__((unused)) pri_obj_data(TEE_ObjectHandle object)
{
void *data = NULL;
TEE_ObjectInfo info;
uint32_t cur_pos;
TEE_Result ret;
uint32_t count = 0;
if (object == NULL)
return;
TEE_GetObjectInfo(object, &info);
data = calloc(1, info.dataSize);
if (data == NULL) {
printf("Fail: pri_obj_data(mem)\n");
}
cur_pos = info.dataPosition;
ret = TEE_SeekObjectData(object, 0, TEE_DATA_SEEK_SET);
if (ret != TEE_SUCCESS) {
printf("Fail: pri_obj_data(seek beginning)\n");
goto err;
}
ret = TEE_ReadObjectData(object, data, info.dataSize, &count);
if (ret != TEE_SUCCESS || count != info.dataSize) {
printf("Fail: pri_obj_data(read)\n");
goto err;
}
ret = TEE_SeekObjectData(object, cur_pos, TEE_DATA_SEEK_SET);
if (ret != TEE_SUCCESS) {
printf("Fail: pri_obj_data(set back prev pos)\n");
goto err;
}
pri_void_buf(data, info.dataSize);
err:
free(data);
}
static void pure_data_obj_and_truncate_and_write()
{
printf(" #### pure_data_obj_and_truncate_and_write ####\n");
TEE_Result ret;
TEE_ObjectHandle handler;
char objID[] = "56c5d1b260704de30fe7af67e5b9327613abebe6172a2b4e949d84b8e561e2fb";
size_t objID_len = 64;
uint32_t flags = 0xffffffff ^ TEE_DATA_FLAG_EXCLUSIVE;
void * init_data;
size_t init_data_len = 10;
void *write_data = NULL;
size_t write_data_size = 10;
init_data = malloc(init_data_len);
if (init_data == NULL)
goto err;
RAND_bytes(init_data, init_data_len);
write_data = calloc(1, write_data_size);
if (write_data == NULL)
goto err;
RAND_bytes(write_data, write_data_size);
ret = TEE_CreatePersistentObject(TEE_STORAGE_PRIVATE, (void *)objID, objID_len,
flags, NULL, init_data, init_data_len, &handler);
if (ret != TEE_SUCCESS) {
printf("Fail: per creation\n");
goto err;
}
TEE_TruncateObjectData(handler, 20);
ret = TEE_SeekObjectData(handler, 5, TEE_DATA_SEEK_SET);
if (ret != TEE_SUCCESS) {
printf("Fail: per seek\n");
goto err;
}
ret = TEE_WriteObjectData(handler, write_data, write_data_size);
if (ret != TEE_SUCCESS) {
printf("Fail: per write\n");
goto err;
}
err:
TEE_CloseAndDeletePersistentObject(handler);
free(init_data);
free(write_data);
}
static TEE_Result get_counter_value(uint64_t *mem_data)
{
TEE_ObjectHandle counter;
TEE_Result ret;
uint64_t previous_value = 0, next_value = 0;
uint32_t bytes_read;
/* Open the object here if it exists */
ret = TEE_OpenPersistentObject(TEE_STORAGE_PRIVATE, &object_id, sizeof(object_id),
TEE_DATA_FLAG_ACCESS_READ | TEE_DATA_FLAG_ACCESS_WRITE,
&counter);
if (ret != TEE_SUCCESS) {
OT_LOG(LOG_ERR, "TEE_OpenPersistentObject failed: 0x%x", ret);
} else {
OT_LOG(LOG_ERR, "TEE_OpenPersistentObject succesful");
ret = TEE_ReadObjectData(counter, (void *)&previous_value, sizeof(uint64_t),
&bytes_read);
if (ret != TEE_SUCCESS) {
OT_LOG(LOG_ERR, "TEE_ReadObjectData failed: 0x%x", ret);
goto end_ctr;
}
*mem_data = previous_value;
/* Increment the value */
next_value = ++previous_value;
OT_LOG(LOG_ERR, "New counter value: %d", (int)next_value);
/* Set data position back to the start of object */
ret = TEE_SeekObjectData(counter, 0, TEE_DATA_SEEK_SET);
if (ret != TEE_SUCCESS) {
OT_LOG(LOG_ERR, "TEE_SeekObjectData failed: 0x%x", ret);
goto end_ctr;
}
/* Write the new counter value back to the persistent object */
ret = TEE_WriteObjectData(counter, (void *)&next_value, sizeof(uint64_t));
if (ret != TEE_SUCCESS)
OT_LOG(LOG_ERR, "TEE_WriteObjectData failed: 0x%x\n", ret);
}
end_ctr:
TEE_CloseObject(counter);
return ret;
}
static TEE_Result verify_file_data(TEE_ObjectHandle object, size_t data_size,
uint8_t *chunk_buf, size_t chunk_size)
{
TEE_Result res;
size_t tmp_data_size = data_size;
res = TEE_SeekObjectData(object, 0, TEE_DATA_SEEK_SET);
if (res != TEE_SUCCESS) {
EMSG("Failed to seek to offset 0");
goto exit;
}
TEE_MemFill(chunk_buf, 0, chunk_size);
tmp_data_size = data_size;
while (tmp_data_size > 0) {
uint32_t read_bytes = 0;
res = TEE_ReadObjectData(object, chunk_buf, chunk_size,
&read_bytes);
if (res != TEE_SUCCESS) {
EMSG("Failed to read data, res=0x%08x", res);
goto exit;
}
if (read_bytes != chunk_size) {
EMSG("Data size not match");
res = TEE_ERROR_CORRUPT_OBJECT;
goto exit;
}
res = verify_buffer(chunk_buf, chunk_size);
if (res != TEE_SUCCESS) {
EMSG("Verify data failed, res=0x%08x", res);
goto exit;
}
tmp_data_size -= chunk_size;
}
exit:
return res;
}
TEE_Result ta_storage_cmd_seek(uint32_t param_types, TEE_Param params[4])
{
TEE_Result res;
TEE_ObjectInfo info;
TEE_ObjectHandle o = VAL2HANDLE(params[0].value.a);
ASSERT_PARAM_TYPE(TEE_PARAM_TYPES
(TEE_PARAM_TYPE_VALUE_INPUT,
TEE_PARAM_TYPE_VALUE_INOUT, TEE_PARAM_TYPE_NONE,
TEE_PARAM_TYPE_NONE));
res = TEE_SeekObjectData(o, params[0].value.b, params[1].value.a);
if (res != TEE_SUCCESS)
return res;
res = TEE_GetObjectInfo1(o, &info);
params[1].value.b = info.dataPosition;
return res;
}
static TEE_Result test_rewrite(TEE_ObjectHandle object, size_t data_size,
uint8_t *chunk_buf, size_t chunk_size,
uint32_t *spent_time_in_ms)
{
TEE_Time start_time, stop_time;
size_t remain_bytes = data_size;
TEE_Result res = TEE_SUCCESS;
uint32_t read_bytes = 0;
TEE_GetSystemTime(&start_time);
while (remain_bytes) {
size_t write_size;
int32_t negative_chunk_size;
if (remain_bytes < chunk_size)
write_size = remain_bytes;
else
write_size = chunk_size;
negative_chunk_size = -(int32_t)write_size;
/* Read a chunk */
res = TEE_ReadObjectData(object, chunk_buf, write_size,
&read_bytes);
if (res != TEE_SUCCESS) {
EMSG("Failed to read data, res=0x%08x", res);
goto exit;
}
if (read_bytes != write_size) {
EMSG("Partial data read, bytes=%u", read_bytes);
res = TEE_ERROR_CORRUPT_OBJECT;
goto exit;
}
/* Seek to the position before read */
res = TEE_SeekObjectData(object, negative_chunk_size,
TEE_DATA_SEEK_CUR);
if (res != TEE_SUCCESS) {
EMSG("Failed to seek to previous offset");
goto exit;
}
/* Write a chunk*/
res = TEE_WriteObjectData(object, chunk_buf, write_size);
if (res != TEE_SUCCESS) {
EMSG("Failed to write data, res=0x%08x", res);
goto exit;
}
remain_bytes -= write_size;
}
TEE_GetSystemTime(&stop_time);
*spent_time_in_ms = get_delta_time_in_ms(start_time, stop_time);
IMSG("start: %u.%u(s), stop: %u.%u(s), delta: %u(ms)",
start_time.seconds, start_time.millis,
stop_time.seconds, stop_time.millis,
*spent_time_in_ms);
exit:
return res;
}
/**
* @brief
*/
void test_storage_api()
{
uint32_t storageID=TEE_OBJECT_STORAGE_PRIVATE,
r_flags=TEE_DATA_FLAG_ACCESS_READ,
w_flags=TEE_DATA_FLAG_ACCESS_WRITE,
rw_flags=(TEE_DATA_FLAG_ACCESS_READ | TEE_DATA_FLAG_ACCESS_WRITE),
a_attribute_val=0x00000005,b_attribute_val=0x00000007,
pop_ret_val,attribute_cnt=0x00000003,seek_ret_val,open_seek_retval,
crt_ret_val,write_ret_val,open_write_retval,read_ret_val,
open_read_retval,open_ret_val,open_delete_retval,allocate1_ret_val,
allocate2_ret_val,rd_trunc_cnt=0x00000000,open_truncate_retval,
trunc_size=0x0000000A,truncate_ret_val,rdtest_truncated_retval,
optest_truncated_retval,rdtest_written_retval,
optest_written_retval,rd_write_cnt=0x00000000,read_cnt=0x00000000,
trunc_cnt=0x00000000,open_rename_retval,de_a,
rd_rename_cnt=0x00000000,optest_renamed_retval,rename_ret_val,
rdtest_renamed_retval,optest_deleted_retval;
typedef signed int int32_t;
int32_t offset=0x00000003;
size_t objectIDLen=0x00000040,read_size=0x0000000F,rd_trunc_size=0x0000000A,
rd_write_size=0x0000002C,rd_rename_size=0x0000000C;
void* open_objectID="/test.dir/test.txt";
void* rename_objectID="/test.dir/new.txt";
void* initialData="This a sierraware created sample initial data\n";
void* create_objectID="/test.dir/crt.txt";
void* read_objectID="/test.dir/read.txt";
void* write_objectID="/test.dir/write.txt";
void* seek_objectID="/test.dir/seek.txt";
void* delete_objectID="/test.dir/delete.txt";
void* trunc_objectID="/test.dir/truncate.txt";
char wrie_buffer[255]={"This a sierraware created sample test string\n"};
char read_buffer[255],rd_trunc_buffer[255],rd_write_buffer[255],
rd_rename_buffer[255];
void* attrsbuffer="This will get populated sometimes in the test fn\n";
void* p_buffer="And finally we tested GP_INTERNAL_STORAGE APP\n";
TEE_ObjectHandle crtattributes;
TEE_ObjectHandle *first_object;
TEE_ObjectHandle *second_object;
TEE_Whence whence;
whence=0x00000000;
sw_printf("-----------Allocating Memory For Create Object--------------\n");
first_object=(TEE_ObjectHandle*)TEE_Malloc(sizeof(TEE_ObjectHandle),0);
sw_printf("-------Allocating Memory For Create Object members----------\n");
allocate1_ret_val=TEE_AllocateTransientObject(TEE_TYPE_AES,0x00000800,
first_object);
sw_printf("the allocate transient function returns value is %x \n",
allocate1_ret_val);
crt_ret_val=TEE_CreatePersistentObject(storageID,create_objectID,
objectIDLen,w_flags,crtattributes,initialData,
(size_t)(sw_strlen((char*)initialData)),first_object);
sw_printf("The create Persistent object funtion \
returns value is %x \n \n",crt_ret_val);
sw_printf("------------Allocating Memory For open Object---------------\n");
second_object=(TEE_ObjectHandle*)TEE_Malloc(sizeof(TEE_ObjectHandle),0);
sw_printf("------------Allocating Memory For open Object members-------\n");
allocate2_ret_val=TEE_AllocateTransientObject(TEE_TYPE_RSA_KEYPAIR,
0x00000800,second_object);
sw_printf("the allocate transient function returns value is %x \n",
allocate2_ret_val);
open_ret_val=TEE_OpenPersistentObject(storageID,open_objectID,objectIDLen,
r_flags,second_object);
sw_printf("The open Persistent object funtion returns value is %x \n \n",
open_ret_val);
sw_printf("*****Reset the open object***** \n");
TEE_ResetTransientObject(*second_object);
open_read_retval=TEE_OpenPersistentObject(storageID,read_objectID,
objectIDLen,r_flags,second_object);
sw_printf("The open Persistent object funtion \
returns value is %x \n \n",open_read_retval);
read_ret_val=TEE_ReadObjectData(*second_object,(void*)&read_buffer,
read_size,&read_cnt);
sw_printf("The Read Persistent funtion returns value is %x \n \n",
read_ret_val);
sw_printf("*****Reset the read object***** \n");
TEE_ResetTransientObject(*second_object);
open_write_retval=TEE_OpenPersistentObject(storageID,write_objectID,
objectIDLen,w_flags,second_object);
sw_printf("The open Persistent object funtion \
returns value is %x \n \n",open_write_retval);
write_ret_val=TEE_WriteObjectData(*second_object,(void*)&wrie_buffer,
(size_t)(sw_strlen((char*)&wrie_buffer)));
sw_printf("The write Persistent funtion returns value is %x \n \n",
write_ret_val);
sw_printf("*****Reset the write object***** \n");
TEE_ResetTransientObject(*second_object);
optest_written_retval=TEE_OpenPersistentObject(storageID,write_objectID,
objectIDLen,r_flags,second_object);
sw_printf("The open Persistent object funtion \
returns value is %x \n \n",optest_written_retval);
rdtest_written_retval=TEE_ReadObjectData(*second_object,
(void*)&rd_write_buffer,rd_write_size,
&rd_write_cnt);
sw_printf("The Read Persistent funtion returns value is %x \n \n",
rdtest_written_retval);
sw_printf("******TESTING:write persistent object*******\n");
if(rdtest_written_retval==1) {
sw_printf("SUCCESS \n");
}
else {
sw_printf("FAILURE \n");
}
sw_printf("*****Reset the read object***** \n");
TEE_ResetTransientObject(*second_object);
open_truncate_retval=TEE_OpenPersistentObject(storageID,trunc_objectID,
objectIDLen,w_flags,second_object);
sw_printf("The open Persistent object funtion \
returns value is %x \n \n",open_truncate_retval);
truncate_ret_val=TEE_TruncateObjectData(*second_object,trunc_size);
sw_printf("The truncate Persistent funtion returns value is %x \n \n",
truncate_ret_val);
sw_printf("*****Reset the truncate object***** \n");
TEE_ResetTransientObject(*second_object);
optest_truncated_retval=TEE_OpenPersistentObject(storageID,trunc_objectID,
objectIDLen,r_flags,second_object);
sw_printf("The open Persistent object funtion \
returns value is %x \n \n",optest_truncated_retval);
rdtest_truncated_retval=TEE_ReadObjectData(*second_object,
(void*)&rd_trunc_buffer,rd_trunc_size,
&rd_trunc_cnt);
sw_printf("The Read Persistent funtion returns value is %x \n \n",
rdtest_truncated_retval);
sw_printf("******TESTING:truncate persistent object*******\n");
if(rdtest_truncated_retval==1) {
sw_printf("SUCCESS \n");
}
else {
sw_printf("FAILS \n");
}
sw_printf("*****Reset the read object***** \n");
TEE_ResetTransientObject(*second_object);
open_rename_retval=TEE_OpenPersistentObject(storageID,open_objectID,
objectIDLen,rw_flags,second_object);
sw_printf("The open Persistent object funtion \
returns value is %x \n \n",open_rename_retval);
rename_ret_val=TEE_RenamePersistentObject(*second_object,rename_objectID,
objectIDLen);
sw_printf("The rename Persistent funtion returns value is %x \n \n",
rename_ret_val);
sw_printf("*****Reset the rename object***** \n");
TEE_ResetTransientObject(*second_object);
optest_renamed_retval=TEE_OpenPersistentObject(storageID,rename_objectID,
objectIDLen,r_flags,second_object);
sw_printf("The open Persistent object funtion \
returns value is %x \n \n",optest_renamed_retval);
rdtest_renamed_retval=TEE_ReadObjectData(*second_object,
(void*)&rd_rename_buffer,rd_rename_size,
&rd_rename_cnt);
sw_printf("The Read Persistent funtion returns value is %x \n \n",
rdtest_renamed_retval);
sw_printf("******TESTING:rename persistent object*******\n");
if(rdtest_renamed_retval==1) {
sw_printf("SUCCESS \n");
}
else {
sw_printf("FAILS \n");
}
sw_printf("*****Reset the read object***** \n");
TEE_ResetTransientObject(*second_object);
open_seek_retval=TEE_OpenPersistentObject(storageID,seek_objectID,
objectIDLen,rw_flags,second_object);
sw_printf("The open Persistent object funtion \
returns value is %x \n \n",open_seek_retval);
seek_ret_val=TEE_SeekObjectData(*second_object,offset,whence);
sw_printf("The seek Persistent funtion returns value is %x \n \n",
seek_ret_val);
sw_printf("*****Reset the seek object***** \n");
TEE_ResetTransientObject(*second_object);
open_delete_retval=TEE_OpenPersistentObject(storageID,delete_objectID,
objectIDLen,r_flags,second_object);
sw_printf("The open Persistent object funtion returns value is %x \n",
open_delete_retval);
TEE_CloseAndDeletePersistentObject(*second_object);
sw_printf("*****Reset the close object***** \n");
TEE_ResetTransientObject(*second_object);
optest_deleted_retval=TEE_OpenPersistentObject(storageID,delete_objectID,
objectIDLen,r_flags,second_object);
sw_printf("The open Persistent object funtion \
returns value is %x \n \n",optest_deleted_retval);
sw_printf("******TESTING:close and delete persistent object*******\n");
if(optest_deleted_retval!=1) {
sw_printf("SUCCESS \n");
}
else {
sw_printf("FAILS\n");
}
sw_printf("*****Reset the seek object***** \n");
TEE_ResetTransientObject(*second_object);
TEE_Attribute* attref;
attref=(TEE_Attribute*)TEE_Malloc(sizeof(TEE_Attribute),0);
TEE_InitRefAttribute(attref,0x00000001,p_buffer,
(size_t)(sw_strlen((char*)p_buffer)));
TEE_Free((void*)attref);
TEE_Attribute* attval;
attval=(TEE_Attribute*)TEE_Malloc(sizeof(TEE_Attribute),0);
TEE_InitValueAttribute(attval,0x20000000,a_attribute_val,b_attribute_val);
TEE_Free((void*)attval);
TEE_Attribute attributes[3];
attributes[0].attributeID=0x20000000;
attributes[0].content.value.a=0x0000000A;
attributes[0].content.value.b=0x0000000B;
attributes[1].attributeID=0x00000275;
attributes[1].content.ref.length=(size_t)(sw_strlen((char*)attrsbuffer));
attributes[1].content.ref.buffer=TEE_Malloc
(attributes[1].content.ref.length,0);
TEE_MemCpy(attributes[1].content.ref.buffer,attrsbuffer,
(u32)(attributes[1].content.ref.length));
attributes[2].attributeID=0x23425676;
attributes[2].content.value.a=0x0000001E;
attributes[2].content.value.b=0x0000001F;
pop_ret_val=TEE_PopulateTransientObject(*second_object,attributes,
attribute_cnt);
sw_printf("the populate transient function returns value is %x \n",
pop_ret_val);
sw_printf("*****Reset the populate object***** \n");
TEE_ResetTransientObject(*second_object);
TEE_CopyObjectAttributes(*second_object,*first_object);
sw_printf("*****free the create object by call TEE_FreeTransientObject \
fn***** \n");
TEE_FreeTransientObject(*first_object);
sw_printf("*****free the common object by call TEE_FreeTransientObject \
fn***** \n");
TEE_FreeTransientObject(*second_object);
sw_printf("--------------Program Successfully Terminated--------------\n");
}
static void data_stream_write_read()
{
printf(" #### data_stream_write_read ####\n");
TEE_Result ret;
TEE_ObjectHandle handler;
TEE_ObjectHandle per_han;
size_t key_size = 512;
char objID[] = "56c5d1b260704de30fe7af67e5b9327613abebe6172a2b4e949d84b8e561e2fb";
size_t objID_len = 64;
uint32_t flags = 0xffffffff ^ TEE_DATA_FLAG_EXCLUSIVE;
void *write_data = NULL;
void *read_data = NULL;
size_t data_size = 50;
uint32_t count = 0;
write_data = calloc(1, data_size);
if (write_data == NULL)
goto err;
read_data = calloc(1, data_size);
if (read_data == NULL)
goto err;
/* gen random data */
RAND_bytes(write_data, data_size);
ret = TEE_AllocateTransientObject(TEE_TYPE_RSA_KEYPAIR, key_size, &handler);
if (ret == TEE_ERROR_OUT_OF_MEMORY) {
printf("Fail: no mem\n");
goto err;
}
if (ret == TEE_ERROR_NOT_SUPPORTED) {
printf("Fail: no sup\n");
goto err;
}
ret = TEE_GenerateKey(handler, key_size, NULL, 0);
if (ret != TEE_SUCCESS) {
printf("Fail: bad para\n");
goto err;
}
ret = TEE_CreatePersistentObject(TEE_STORAGE_PRIVATE, (void *)objID, objID_len,
flags, handler, NULL, 0, &per_han);
if (ret != TEE_SUCCESS) {
printf("Fail: per creation\n");
goto err;
}
ret = TEE_WriteObjectData(per_han, write_data, data_size);
if (ret != TEE_SUCCESS) {
printf("Fail: per write\n");
goto err;
}
ret = TEE_SeekObjectData(per_han, 0, TEE_DATA_SEEK_SET);
if (ret != TEE_SUCCESS) {
printf("Fail: per seek\n");
goto err;
}
ret = TEE_ReadObjectData(per_han, read_data, data_size, &count);
if (ret != TEE_SUCCESS) {
printf("Fail: per read\n");
goto err;
}
err:
TEE_CloseAndDeletePersistentObject(per_han);
TEE_CloseObject(handler);
free(write_data);
free(read_data);
}
