/* * Copyright (c) 2017 Samsung Electronics Co., Ltd All Rights Reserved * * 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 #include #include #include #include #include #include #include #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; cmd.ta_src = IW_TA_SRC_DEFAULT; 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);