kernel_samsung_a34x-permissive/drivers/tee/tzdev/4.2.1/teec/session.c

912 lines
24 KiB
C
Raw Permalink Normal View History

/*
* Copyright (C) 2012-2019, Samsung Electronics Co., Ltd.
*
* This software is licensed under the terms of the GNU General Public
* License version 2, as published by the Free Software Foundation, and
* may be copied, distributed, and modified under those terms.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*/
#include <linux/export.h>
#include <linux/list.h>
#include <linux/mutex.h>
#include <linux/slab.h>
#include <linux/socket.h>
#include <asm/barrier.h>
#include <asm/cmpxchg.h>
#include <tzdev/tee_client_api.h>
#include "iw_messages.h"
#include "misc.h"
#include "types.h"
#include "core/iwsock.h"
#include "core/log.h"
#include "core/sysdep.h"
#include "core/wait.h"
enum {
TZDEV_TEEC_OPERATION_NOT_STARTED,
TZDEV_TEEC_OPERATION_COMMAND_BEGIN,
TZDEV_TEEC_OPERATION_COMMAND_END,
TZDEV_TEEC_OPERATION_CANCEL_BEGIN,
TZDEV_TEEC_OPERATION_CANCEL_END,
};
static DEFINE_MUTEX(tzdev_teec_operation_lock);
static LIST_HEAD(tzdev_teec_operation_cancel_list);
static void tzdev_teec_convert_uuid(struct tz_uuid *uuid, const TEEC_UUID *teec_uuid)
{
unsigned int i;
uuid->time_low = teec_uuid->timeLow;
uuid->time_mid = teec_uuid->timeMid;
uuid->time_hi_and_version = teec_uuid->timeHiAndVersion;
for (i = 0; i < 8; ++i)
uuid->clock_seq_and_node[i] = teec_uuid->clockSeqAndNode[i];
}
static uint32_t tzdev_teec_session_init(TEEC_Context *context, TEEC_Session *session)
{
struct tzdev_teec_session *ses;
uint32_t result;
log_debug(tzdev_teec, "Enter, context = %pK session = %pK\n", context, session);
ses = kmalloc(sizeof(struct tzdev_teec_session), GFP_KERNEL);
if (!ses) {
log_error(tzdev_teec, "Failed to allocate session struct\n");
result = TEEC_ERROR_OUT_OF_MEMORY;
goto out;
}
mutex_init(&ses->mutex);
init_waitqueue_head(&ses->wq);
ses->cancel = 0;
ses->context = context;
ses->socket = NULL;
ses->serial = 0;
session->imp = ses;
result = TEEC_SUCCESS;
out:
log_debug(tzdev_teec, "Exit, context = %pK session = %pK\n", context, session);
return result;
}
static void tzdev_teec_session_fini(TEEC_Session *session)
{
struct tzdev_teec_session *ses = session->imp;
log_debug(tzdev_teec, "Enter, session = %pK\n", session);
session->imp = NULL;
mutex_destroy(&ses->mutex);
kfree(ses);
log_debug(tzdev_teec, "Exit, session = %pK\n", session);
}
static uint32_t tzdev_teec_operation_begin(TEEC_Session *session, TEEC_Operation *operation)
{
struct tzdev_teec_session *ses = session->imp;
struct tzdev_teec_operation *op;
uint32_t result = TEEC_SUCCESS;
mutex_lock(&tzdev_teec_operation_lock);
list_for_each_entry(op, &tzdev_teec_operation_cancel_list, link) {
if (op->operation == operation) {
list_del(&op->link);
result = TEEC_ERROR_CANCEL;
goto out;
}
}
ses->cancel = 0;
operation->imp = session;
set_mb(operation->started, TZDEV_TEEC_OPERATION_COMMAND_BEGIN);
out:
mutex_unlock(&tzdev_teec_operation_lock);
if (result == TEEC_ERROR_CANCEL)
kfree(op);
return result;
}
static void tzdev_teec_operation_end(TEEC_Operation *operation)
{
TEEC_Session *session = operation->imp;
struct tzdev_teec_session *ses = session->imp;
uint32_t old_started;
old_started = xchg(&operation->started, TZDEV_TEEC_OPERATION_COMMAND_END);
BUG_ON(old_started != TZDEV_TEEC_OPERATION_COMMAND_BEGIN
&& old_started != TZDEV_TEEC_OPERATION_CANCEL_BEGIN
&& old_started != TZDEV_TEEC_OPERATION_CANCEL_END);
if (unlikely(old_started == TZDEV_TEEC_OPERATION_CANCEL_BEGIN))
wait_event_uninterruptible_freezable_nested(ses->wq, ses->cancel == 1);
}
static uint32_t tzdev_teec_operation_add_to_cancel_list(TEEC_Operation *operation)
{
struct tzdev_teec_operation *op;
list_for_each_entry(op, &tzdev_teec_operation_cancel_list, link) {
if (op->operation == operation)
return TEEC_ERROR_CANCEL;
}
op = kmalloc(sizeof(struct tzdev_teec_operation), GFP_KERNEL);
if (!op) {
log_error(tzdev_teec, "Failed to allocate operation struct\n");
return TEEC_ERROR_OUT_OF_MEMORY;
}
INIT_LIST_HEAD(&op->link);
op->operation = operation;
list_add(&op->link, &tzdev_teec_operation_cancel_list);
return TEEC_ERROR_CANCEL;
}
static uint32_t tzdev_teec_operation_cancel_begin(TEEC_Operation *operation)
{
uint32_t old_started;
uint32_t result;
mutex_lock(&tzdev_teec_operation_lock);
old_started = xchg(&operation->started, TZDEV_TEEC_OPERATION_CANCEL_BEGIN);
switch (old_started) {
case TZDEV_TEEC_OPERATION_NOT_STARTED:
result = tzdev_teec_operation_add_to_cancel_list(operation);
break;
case TZDEV_TEEC_OPERATION_COMMAND_BEGIN:
result = TEEC_SUCCESS;
break;
default:
log_error(tzdev_teec, "Trying to cancel operation with started = %u\n", old_started);
result = TEEC_ERROR_BAD_STATE;
break;
}
mutex_unlock(&tzdev_teec_operation_lock);
return result;
}
static void tzdev_teec_operation_cancel_end(TEEC_Operation *operation)
{
TEEC_Session *session = operation->imp;
struct tzdev_teec_session *ses = session->imp;
uint32_t old_started;
old_started = xchg(&operation->started, TZDEV_TEEC_OPERATION_CANCEL_END);
BUG_ON(old_started != TZDEV_TEEC_OPERATION_COMMAND_END
&& old_started != TZDEV_TEEC_OPERATION_CANCEL_BEGIN);
ses->cancel = 1;
wake_up(&ses->wq);
}
static uint32_t tzdev_teec_operation_init(TEEC_Session *session,
TEEC_Operation *operation, struct tee_operation *op,
uint32_t *origin)
{
TEEC_RegisteredMemoryReference *memref;
TEEC_SharedMemory *sharedMem;
struct tzdev_teec_session *ses;
struct tzdev_teec_shared_memory *shm;
unsigned int i, j;
uint32_t type;
uint32_t result;
log_debug(tzdev_teec, "Enter, session = %pK operation = %pK\n", session, operation);
*origin = TEEC_ORIGIN_API;
result = tzdev_teec_operation_begin(session, operation);
if (result != TEEC_SUCCESS)
goto out;
ses = session->imp;
for (i = 0; i < MAX_PARAM_COUNT; ++i) {
type = PARAM_TYPE_GET(operation->paramTypes, i);
ses->tmpref[i].exists = false;
switch (type) {
case TEEC_NONE:
case TEEC_VALUE_OUTPUT:
op->tee_param_types |= PARAM_TYPE_SET(type, i);
memset(&op->tee_params[i], 0x0, sizeof(struct entry_point_params));
break;
case TEEC_VALUE_INPUT:
case TEEC_VALUE_INOUT:
op->tee_param_types |= PARAM_TYPE_SET(type, i);
op->tee_params[i].val.a = operation->params[i].value.a;
op->tee_params[i].val.b = operation->params[i].value.b;
break;
case TEEC_MEMREF_TEMP_INPUT:
case TEEC_MEMREF_TEMP_OUTPUT:
case TEEC_MEMREF_TEMP_INOUT:
op->tee_param_types |= PARAM_TYPE_SET(type, i);
if (operation->params[i].tmpref.buffer == NULL) {
op->tee_params[i].shared_buffer_description.offset = 0;
op->tee_params[i].shared_buffer_description.size = 0;
op->tee_params[i].shared_buffer_description.id = 0;
} else {
ses->tmpref[i].shmem.buffer = operation->params[i].tmpref.buffer;
ses->tmpref[i].shmem.size = operation->params[i].tmpref.size;
ses->tmpref[i].exists = true;
if (type == TEEC_MEMREF_TEMP_INPUT)
ses->tmpref[i].shmem.flags = TEEC_MEM_INPUT;
else if (type == TEEC_MEMREF_TEMP_OUTPUT)
ses->tmpref[i].shmem.flags = TEEC_MEM_OUTPUT;
else
ses->tmpref[i].shmem.flags = TEEC_MEM_INPUT | TEEC_MEM_OUTPUT;
result = TEEC_RegisterSharedMemory(ses->context, &ses->tmpref[i].shmem);
if (result != TEEC_SUCCESS)
goto out_free_tmpref;
shm = ses->tmpref[i].shmem.imp;
op->tee_params[i].shared_buffer_description.offset = shm->offset;
op->tee_params[i].shared_buffer_description.id = shm->id;
op->tee_params[i].shared_buffer_description.size = ses->tmpref[i].shmem.size;
}
break;
case TEEC_MEMREF_WHOLE:
sharedMem = operation->params[i].memref.parent;
switch (sharedMem->flags) {
case TEEC_MEM_INPUT:
op->tee_param_types |= PARAM_TYPE_SET(TEEC_MEMREF_TEMP_INPUT, i);
break;
case TEEC_MEM_OUTPUT:
op->tee_param_types |= PARAM_TYPE_SET(TEEC_MEMREF_TEMP_OUTPUT, i);
break;
case TEEC_MEM_INPUT | TEEC_MEM_OUTPUT:
op->tee_param_types |= PARAM_TYPE_SET(TEEC_MEMREF_TEMP_INOUT, i);
break;
default:
result = TEEC_ERROR_BAD_PARAMETERS;
goto out_free_tmpref;
}
shm = sharedMem->imp;
op->tee_params[i].shared_buffer_description.offset = shm->offset;
op->tee_params[i].shared_buffer_description.id = shm->id;
op->tee_params[i].shared_buffer_description.size = sharedMem->size;
break;
case TEEC_MEMREF_PARTIAL_INPUT:
case TEEC_MEMREF_PARTIAL_OUTPUT:
case TEEC_MEMREF_PARTIAL_INOUT:
memref = &operation->params[i].memref;
sharedMem = memref->parent;
op->tee_param_types |= PARAM_TYPE_SET((type +
TEEC_MEMREF_TEMP_INPUT - TEEC_MEMREF_PARTIAL_INPUT), i);
shm = sharedMem->imp;
op->tee_params[i].shared_buffer_description.offset = shm->offset + memref->offset;
op->tee_params[i].shared_buffer_description.id = shm->id;
op->tee_params[i].shared_buffer_description.size = memref->size;
break;
default:
result = TEEC_ERROR_BAD_PARAMETERS;
goto out_free_tmpref;
}
}
result = TEEC_SUCCESS;
goto out;
out_free_tmpref:
for (j = 0; j < i; j++) {
if (ses->tmpref[j].exists)
TEEC_ReleaseSharedMemory(&ses->tmpref[j].shmem);
}
tzdev_teec_operation_end(operation);
out:
log_debug(tzdev_teec, "Exit, session = %pK operation = %pK\n", session, operation);
return result;
}
static void tzdev_teec_operation_fini(TEEC_Operation *operation,
struct tee_operation *op)
{
TEEC_Session *session;
struct tzdev_teec_session *ses;
unsigned int i;
uint32_t type;
log_debug(tzdev_teec, "Enter, operation = %pK\n", operation);
session = operation->imp;
ses = session->imp;
tzdev_teec_operation_end(operation);
for (i = 0; i < MAX_PARAM_COUNT; ++i) {
type = PARAM_TYPE_GET(operation->paramTypes, i);
if (ses->tmpref[i].exists)
TEEC_ReleaseSharedMemory(&ses->tmpref[i].shmem);
if (!op)
continue;
switch (type) {
case TEEC_VALUE_OUTPUT:
case TEEC_VALUE_INOUT:
operation->params[i].value.a = op->tee_params[i].val.a;
operation->params[i].value.b = op->tee_params[i].val.b;
break;
case TEEC_MEMREF_TEMP_OUTPUT:
case TEEC_MEMREF_TEMP_INOUT:
operation->params[i].tmpref.size = op->tee_params[i].shared_buffer_description.size;
break;
case TEEC_MEMREF_PARTIAL_OUTPUT:
case TEEC_MEMREF_PARTIAL_INOUT:
operation->params[i].memref.size = op->tee_params[i].shared_buffer_description.size;
break;
case TEEC_MEMREF_WHOLE:
if (operation->params[i].memref.parent->flags & TEEC_MEM_OUTPUT)
operation->params[i].memref.size = op->tee_params[i].shared_buffer_description.size;
break;
default:
break;
}
}
log_debug(tzdev_teec, "Exit, operation = %pK\n", operation);
}
static uint32_t tzdev_teec_prepare_session(TEEC_Session *session,
const TEEC_UUID *destination, struct tzdev_teec_shared_memory *shm, size_t shm_size, uint32_t *origin)
{
struct tzdev_teec_session *ses = session->imp;
struct tzdev_teec_context *ctx = ses->context->imp;
struct cmd_prepare_session cmd;
struct cmd_prepare_session_reply ack;
uint32_t result;
int ret;
log_debug(tzdev_teec, "Enter, session = %pK\n", session);
*origin = TEEC_ORIGIN_API;
memset(&cmd, 0, sizeof(cmd));
cmd.base.cmd = CMD_PREPARE_SESSION;
cmd.base.serial = ses->serial;
cmd.ctx_id = ctx->id;
if (shm && shm_size != 0) {
cmd.buf_desc.offset = shm->offset;
cmd.buf_desc.id = shm->id;
cmd.buf_desc.size = shm_size;
}
tzdev_teec_convert_uuid(&cmd.ta_uuid, destination);
ret = tzdev_teec_send_then_recv(ses->socket,
&cmd, sizeof(cmd), 0x0,
&ack, sizeof(ack), 0x0,
&result, origin);
if (ret < 0) {
log_error(tzdev_teec, "Failed to xmit prepare session, ret = %d\n", ret);
goto out;
}
ret = tzdev_teec_check_reply(&ack.base, CMD_REPLY_PREPARE_SESSION,
ses->serial, &result, origin);
if (ret) {
log_error(tzdev_teec, "Failed to check prepare session reply, ret = %d\n", ret);
goto out;
}
result = ack.base.result;
*origin = ack.base.origin;
out:
ses->serial++;
tzdev_teec_fixup_origin(result, origin);
log_debug(tzdev_teec, "Exit, session = %pK\n", session);
return result;
}
static void tzdev_teec_prepare_connection_data(uint32_t conn_meth, void *conn_data, void *buf)
{
switch(conn_meth) {
case TEEC_LOGIN_PUBLIC:
case TEEC_LOGIN_USER:
case TEEC_LOGIN_APPLICATION:
case TEEC_LOGIN_USER_APPLICATION:
break;
case TEEC_LOGIN_GROUP:
case TEEC_LOGIN_GROUP_APPLICATION:
memcpy(buf, conn_data, sizeof(uint32_t));
break;
default:
BUG();
}
}
static uint32_t tzdev_teec_open_session(TEEC_Session *session, TEEC_Operation *operation,
uint32_t connectionMethod, void *connectionData, uint32_t *origin)
{
struct tzdev_teec_session *ses = session->imp;
struct cmd_open_session cmd;
struct cmd_reply_open_session ack;
struct tee_operation *op = NULL;
uint32_t result;
int ret;
log_debug(tzdev_teec, "Enter, session = %pK\n", session);
*origin = TEEC_ORIGIN_API;
memset(&cmd, 0, sizeof(cmd));
if (operation) {
result = tzdev_teec_operation_init(session, operation, &cmd.op, origin);
if (result != TEEC_SUCCESS)
goto out;
}
cmd.base.cmd = CMD_OPEN_SESSION;
cmd.base.serial = ses->serial;
cmd.cancel_time = IWD_TIMEOUT_INFINITY;
cmd.conn_meth = connectionMethod;
tzdev_teec_prepare_connection_data(connectionMethod, connectionData, cmd.conn_data);
ret = tzdev_teec_send_then_recv(ses->socket,
&cmd, sizeof(cmd), 0x0,
&ack, sizeof(ack), 0x0,
&result, origin);
if (ret < 0) {
log_error(tzdev_teec, "Failed to xmit open session, ret = %d\n", ret);
goto out_fini_op;
}
ret = tzdev_teec_check_reply(&ack.base, CMD_REPLY_OPEN_SESSION,
ses->serial, &result, origin);
if (ret) {
log_error(tzdev_teec, "Failed to check open session reply, ret = %d\n", ret);
goto out_fini_op;
}
result = ack.base.result;
*origin = ack.base.origin;
op = &ack.op;
out_fini_op:
if (operation)
tzdev_teec_operation_fini(operation, op);
ses->serial++;
out:
tzdev_teec_fixup_origin(result, origin);
log_debug(tzdev_teec, "Exit, session = %pK\n", session);
return result;
}
static uint32_t tzdev_teec_close_session(TEEC_Session *session, uint32_t *origin)
{
struct tzdev_teec_session *ses = session->imp;
struct cmd_close_session cmd;
struct cmd_reply_close_session ack;
uint32_t result;
int ret;
log_debug(tzdev_teec, "Enter, session = %pK\n", session);
*origin = TEEC_ORIGIN_API;
memset(&cmd, 0, sizeof(cmd));
cmd.base.cmd = CMD_CLOSE_SESSION;
cmd.base.serial = ses->serial;
ret = tzdev_teec_send_then_recv(ses->socket,
&cmd, sizeof(cmd), 0x0,
&ack, sizeof(ack), 0x0,
&result, origin);
if (ret < 0) {
log_error(tzdev_teec, "Failed to xmit close session, ret = %d\n", ret);
goto out;
}
ret = tzdev_teec_check_reply(&ack.base, CMD_REPLY_CLOSE_SESSION,
ses->serial, &result, origin);
if (ret) {
log_error(tzdev_teec, "Failed to check close session reply, ret = %d\n", ret);
goto out;
}
result = ack.base.result;
*origin = ack.base.origin;
out:
ses->serial++;
tzdev_teec_fixup_origin(result, origin);
log_debug(tzdev_teec, "Exit, session = %pK\n", session);
return result;
}
static uint32_t tzdev_teec_invoke_cmd(TEEC_Session *session, TEEC_Operation *operation,
uint32_t cmd_id, uint32_t *origin)
{
struct tzdev_teec_session *ses = session->imp;
struct cmd_invoke_command cmd;
struct cmd_reply_invoke_command ack;
struct tee_operation *op = NULL;
uint32_t result;
int ret;
log_debug(tzdev_teec, "Enter, session = %pK operation = %pK\n", session, operation);
*origin = TEEC_ORIGIN_API;
memset(&cmd, 0, sizeof(cmd));
if (operation) {
result = tzdev_teec_operation_init(session, operation, &cmd.op, origin);
if (result != TEEC_SUCCESS)
goto out;
}
cmd.base.cmd = CMD_INVOKE_COMMAND;
cmd.base.serial = ses->serial;
cmd.cancel_time = IWD_TIMEOUT_INFINITY;
cmd.tee_cmd_id = cmd_id;
ret = tzdev_teec_send_then_recv(ses->socket,
&cmd, sizeof(cmd), 0x0,
&ack, sizeof(ack), 0x0,
&result, origin);
if (ret < 0) {
log_error(tzdev_teec, "Failed to xmit invoke command, ret = %d\n", ret);
goto out_fini_op;
}
ret = tzdev_teec_check_reply(&ack.base, CMD_REPLY_INVOKE_COMMAND,
ses->serial, &result, origin);
if (ret) {
log_error(tzdev_teec, "Failed to check invoke command reply, ret = %d\n", ret);
goto out_fini_op;
}
result = ack.base.result;
*origin = ack.base.origin;
op = &ack.op;
out_fini_op:
if (operation)
tzdev_teec_operation_fini(operation, op);
ses->serial++;
out:
tzdev_teec_fixup_origin(result, origin);
log_debug(tzdev_teec, "Exit, session = %pK\n", session);
return result;
}
static uint32_t tzdev_teec_cancel_cmd(TEEC_Operation *operation, uint32_t *origin)
{
TEEC_Session *session = operation->imp;
struct tzdev_teec_session *ses = session->imp;
struct cmd_cancellation cmd;
uint32_t result;
int ret;
cmd.base.cmd = CMD_CANCELLATION;
cmd.base.serial = 0;
cmd.op_serial = ses->serial;
ret = tzdev_teec_send(ses->socket,
&cmd, sizeof(cmd), MSG_OOB,
&result, origin);
if (ret < 0)
log_error(tzdev_teec, "Failed to send cancellation request, ret = %d\n", ret);
else if (ret != sizeof(cmd))
log_error(tzdev_teec, "Failed to send cancellation request due to invalid size, ret = %d\n", ret);
return result;
}
static uint32_t tzdev_teec_session_check_args(TEEC_Context *context,
TEEC_Session *session, const TEEC_UUID *destination,
uint32_t connectionMethod, void *connectionData)
{
if (!context) {
log_error(tzdev_teec, "Null context passed\n");
return TEEC_ERROR_BAD_PARAMETERS;
}
if (!session) {
log_error(tzdev_teec, "Null session passed\n");
return TEEC_ERROR_BAD_PARAMETERS;
}
if (!destination) {
log_error(tzdev_teec, "Null destination passed\n");
return TEEC_ERROR_BAD_PARAMETERS;
}
switch(connectionMethod) {
case TEEC_LOGIN_PUBLIC:
case TEEC_LOGIN_USER:
case TEEC_LOGIN_APPLICATION:
case TEEC_LOGIN_USER_APPLICATION:
if (connectionData) {
log_error(tzdev_teec, "Unexpected non-null connection data passed\n");
return TEEC_ERROR_BAD_PARAMETERS;
}
break;
case TEEC_LOGIN_GROUP:
case TEEC_LOGIN_GROUP_APPLICATION:
if (!connectionData) {
log_error(tzdev_teec, "Unexpected null connection data passed\n");
return TEEC_ERROR_BAD_PARAMETERS;
}
break;
default:
log_error(tzdev_teec, "Unknown connection method passed = %u\n", connectionMethod);
return TEEC_ERROR_BAD_PARAMETERS;
}
return TEEC_SUCCESS;
}
TEEC_Result TEEC_OpenSession(TEEC_Context *context, TEEC_Session *session,
const TEEC_UUID *destination, uint32_t connectionMethod,
void *connectionData, TEEC_Operation *operation,
uint32_t *returnOrigin)
{
return TEECS_OpenSession(context, session, destination, NULL, 0,
connectionMethod, connectionData, operation, returnOrigin);
}
EXPORT_SYMBOL(TEEC_OpenSession);
TEEC_Result TEECS_OpenSession(TEEC_Context *context, TEEC_Session *session,
const TEEC_UUID *destination, const void *src_ta_image,
const size_t src_image_size, uint32_t connectionMethod,
void *connectionData, TEEC_Operation *operation,
uint32_t *returnOrigin)
{
TEEC_SharedMemory sharedMem;
struct tzdev_teec_session *ses;
struct sock_desc *sd;
uint32_t result;
uint32_t origin;
int ret;
log_debug(tzdev_teec, "Enter, context = %pK session = %pK operation = %pK\n",
context, session, operation);
origin = TEEC_ORIGIN_API;
result = tzdev_teec_session_check_args(context, session, destination,
connectionMethod, connectionData);
if (result != TEEC_SUCCESS)
goto out;
tzdev_teec_session_init(context, session);
sd = tz_iwsock_socket(1, TZ_NON_INTERRUPTIBLE);
if (IS_ERR(sd))
goto out_fini_session;
ret = tzdev_teec_connect(sd, ROOT_TASK_SOCK, &result, &origin);
if (ret < 0) {
log_error(tzdev_teec, "Failed to connect to root task, session = %pK ret = %d\n",
session, ret);
goto out_disconnect;
}
ses = session->imp;
ses->socket = sd;
memset(&sharedMem, 0, sizeof(sharedMem));
if (src_ta_image && src_image_size != 0) {
sharedMem.size = src_image_size;
sharedMem.flags = TEEC_MEM_INPUT;
sharedMem.buffer = (void *)src_ta_image;
ret = TEEC_RegisterSharedMemory(context, &sharedMem);
if (result != TEEC_SUCCESS) {
log_error(tzdev_teec, "Failed to allocate shared memory for TA, session = %pK\n", session);
goto out_disconnect;
}
}
result = tzdev_teec_prepare_session(session, destination, (struct tzdev_teec_shared_memory *)sharedMem.imp, sharedMem.size, &origin);
if (result != TEEC_SUCCESS) {
log_error(tzdev_teec, "Failed to prepare session, session = %pK\n", session);
goto out_release_shared_memory;
}
if (src_ta_image && src_image_size != 0)
TEEC_ReleaseSharedMemory(&sharedMem);
result = tzdev_teec_open_session(session, operation, connectionMethod,
connectionData, &origin);
if (result != TEEC_SUCCESS) {
log_error(tzdev_teec, "Failed to open session, session = %pK\n", session);
goto out_disconnect;
}
log_debug(tzdev_teec, "Success, context = %pK session = %pK socket = %u\n",
context, session, ses->socket->id);
goto out;
out_release_shared_memory:
if (src_ta_image && src_image_size != 0)
TEEC_ReleaseSharedMemory(&sharedMem);
out_disconnect:
tzdev_teec_disconnect(sd);
out_fini_session:
tzdev_teec_session_fini(session);
out:
if (returnOrigin)
*returnOrigin = origin;
log_debug(tzdev_teec, "Exit, context = %pK session = %pK operation = %pK result = %x origin = %u\n",
context, session, operation, result, origin);
return result;
}
EXPORT_SYMBOL(TEECS_OpenSession);
void TEEC_CloseSession(TEEC_Session *session)
{
struct tzdev_teec_session *ses;
uint32_t result;
uint32_t origin;
log_debug(tzdev_teec, "Enter, session = %pK\n", session);
origin = TEEC_ORIGIN_API;
if (!session || !session->imp) {
log_error(tzdev_teec, "Null session passed\n");
result = TEEC_ERROR_BAD_PARAMETERS;
goto out;
}
ses = session->imp;
result = tzdev_teec_close_session(session, &origin);
if (result != TEEC_SUCCESS) {
log_error(tzdev_teec, "Failed to close session, session = %pK socket = %u\n",
session, ses->socket->id);
goto out_fini;
}
log_debug(tzdev_teec, "Success, session = %pK socket = %u\n", session, ses->socket->id);
out_fini:
tzdev_teec_disconnect(ses->socket);
tzdev_teec_session_fini(session);
out:
log_debug(tzdev_teec, "Exit, session = %pK result = %x origin = %u\n", session, result, origin);
}
EXPORT_SYMBOL(TEEC_CloseSession);
TEEC_Result TEEC_InvokeCommand(TEEC_Session *session, uint32_t commandID,
TEEC_Operation *operation, uint32_t *returnOrigin)
{
struct tzdev_teec_session *ses;
uint32_t result;
uint32_t origin;
log_debug(tzdev_teec, "Enter, session = %pK operation = %pK\n", session, operation);
origin = TEEC_ORIGIN_API;
if (!session || !session->imp) {
log_error(tzdev_teec, "Null session passed\n");
result = TEEC_ERROR_BAD_PARAMETERS;
goto out;
}
ses = session->imp;
mutex_lock(&ses->mutex);
result = tzdev_teec_invoke_cmd(session, operation, commandID, &origin);
mutex_unlock(&ses->mutex);
if (result != TEEC_SUCCESS) {
log_error(tzdev_teec, "Failed request invoke command, session = %pK socket = %u\n",
session, ses->socket->id);
goto out;
}
log_debug(tzdev_teec, "Success, session = %pK socket = %u\n", session, ses->socket->id);
out:
if (returnOrigin)
*returnOrigin = origin;
log_debug(tzdev_teec, "Exit, session = %pK operation = %pK\n", session, operation);
return result;
}
EXPORT_SYMBOL(TEEC_InvokeCommand);
void TEEC_RequestCancellation(TEEC_Operation *operation)
{
uint32_t origin;
uint32_t result;
log_debug(tzdev_teec, "Enter, operation = %pK\n", operation);
origin = TEEC_ORIGIN_API;
result = TEEC_SUCCESS;
if (!operation) {
log_error(tzdev_teec, "Null operation passed\n");
result = TEEC_ERROR_BAD_PARAMETERS;
goto out;
}
result = tzdev_teec_operation_cancel_begin(operation);
if (result != TEEC_SUCCESS)
goto out;
result = tzdev_teec_cancel_cmd(operation, &origin);
tzdev_teec_operation_cancel_end(operation);
out:
log_debug(tzdev_teec, "Enter, operation = %pK result = %x origin = %u\n", operation, result, origin);
}
EXPORT_SYMBOL(TEEC_RequestCancellation);