/*
* Copyright (c) 2013-2021 Arm Limited. All rights reserved.
*
* SPDX-License-Identifier: Apache-2.0
*
* Licensed under the Apache License, Version 2.0 (the License); you may
* not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an AS IS BASIS, WITHOUT
* WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
* -----------------------------------------------------------------------------
*
* $Revision: V5.5.2
*
* Project: CMSIS-RTOS RTX
* Title: RTX Configuration definitions
*
* -----------------------------------------------------------------------------
*/
#ifndef RTX_CONFIG_H_
#define RTX_CONFIG_H_
#ifdef _RTE_
#include "RTE_Components.h"
#ifdef RTE_RTX_CONFIG_H
#include RTE_RTX_CONFIG_H
#endif
#endif
//-------- <<< Use Configuration Wizard in Context Menu >>> --------------------
// System Configuration
// =======================
// Global Dynamic Memory size [bytes] <0-1073741824:8>
// Defines the combined global dynamic memory size.
// Default: 32768
#ifndef OS_DYNAMIC_MEM_SIZE
#define OS_DYNAMIC_MEM_SIZE 32768
#endif
// Kernel Tick Frequency [Hz] <1-1000000>
// Defines base time unit for delays and timeouts.
// Default: 1000 (1ms tick)
#ifndef OS_TICK_FREQ
#define OS_TICK_FREQ 1000
#endif
// Round-Robin Thread switching
// Enables Round-Robin Thread switching.
#ifndef OS_ROBIN_ENABLE
#define OS_ROBIN_ENABLE 1
#endif
// Round-Robin Timeout <1-1000>
// Defines how many ticks a thread will execute before a thread switch.
// Default: 5
#ifndef OS_ROBIN_TIMEOUT
#define OS_ROBIN_TIMEOUT 5
#endif
//
// ISR FIFO Queue
// <4=> 4 entries <8=> 8 entries <12=> 12 entries <16=> 16 entries
// <24=> 24 entries <32=> 32 entries <48=> 48 entries <64=> 64 entries
// <96=> 96 entries <128=> 128 entries <196=> 196 entries <256=> 256 entries
// RTOS Functions called from ISR store requests to this buffer.
// Default: 16 entries
#ifndef OS_ISR_FIFO_QUEUE
#define OS_ISR_FIFO_QUEUE 16
#endif
// Object Memory usage counters
// Enables object memory usage counters (requires RTX source variant).
#ifndef OS_OBJ_MEM_USAGE
#define OS_OBJ_MEM_USAGE 0
#endif
//
// Thread Configuration
// =======================
// Object specific Memory allocation
// Enables object specific memory allocation.
#ifndef OS_THREAD_OBJ_MEM
#define OS_THREAD_OBJ_MEM 0
#endif
// Number of user Threads <1-1000>
// Defines maximum number of user threads that can be active at the same time.
// Applies to user threads with system provided memory for control blocks.
#ifndef OS_THREAD_NUM
#define OS_THREAD_NUM 1
#endif
// Number of user Threads with default Stack size <0-1000>
// Defines maximum number of user threads with default stack size.
// Applies to user threads with zero stack size specified.
#ifndef OS_THREAD_DEF_STACK_NUM
#define OS_THREAD_DEF_STACK_NUM 0
#endif
// Total Stack size [bytes] for user Threads with user-provided Stack size <0-1073741824:8>
// Defines the combined stack size for user threads with user-provided stack size.
// Applies to user threads with user-provided stack size and system provided memory for stack.
// Default: 0
#ifndef OS_THREAD_USER_STACK_SIZE
#define OS_THREAD_USER_STACK_SIZE 0
#endif
//
// Default Thread Stack size [bytes] <96-1073741824:8>
// Defines stack size for threads with zero stack size specified.
// Default: 3072
#ifndef OS_STACK_SIZE
#define OS_STACK_SIZE 3072
#endif
// Idle Thread Stack size [bytes] <72-1073741824:8>
// Defines stack size for Idle thread.
// Default: 512
#ifndef OS_IDLE_THREAD_STACK_SIZE
#define OS_IDLE_THREAD_STACK_SIZE 512
#endif
// Idle Thread TrustZone Module Identifier
// Defines TrustZone Thread Context Management Identifier.
// Applies only to cores with TrustZone technology.
// Default: 0 (not used)
#ifndef OS_IDLE_THREAD_TZ_MOD_ID
#define OS_IDLE_THREAD_TZ_MOD_ID 0
#endif
// Stack overrun checking
// Enables stack overrun check at thread switch (requires RTX source variant).
// Enabling this option increases slightly the execution time of a thread switch.
#ifndef OS_STACK_CHECK
#define OS_STACK_CHECK 0
#endif
// Stack usage watermark
// Initializes thread stack with watermark pattern for analyzing stack usage.
// Enabling this option increases significantly the execution time of thread creation.
#ifndef OS_STACK_WATERMARK
#define OS_STACK_WATERMARK 0
#endif
// Processor mode for Thread execution
// <0=> Unprivileged mode
// <1=> Privileged mode
// Default: Privileged mode
#ifndef OS_PRIVILEGE_MODE
#define OS_PRIVILEGE_MODE 1
#endif
//
// Timer Configuration
// ======================
// Object specific Memory allocation
// Enables object specific memory allocation.
#ifndef OS_TIMER_OBJ_MEM
#define OS_TIMER_OBJ_MEM 0
#endif
// Number of Timer objects <1-1000>
// Defines maximum number of objects that can be active at the same time.
// Applies to objects with system provided memory for control blocks.
#ifndef OS_TIMER_NUM
#define OS_TIMER_NUM 1
#endif
//
// Timer Thread Priority
// <8=> Low
// <16=> Below Normal <24=> Normal <32=> Above Normal
// <40=> High
// <48=> Realtime
// Defines priority for timer thread
// Default: High
#ifndef OS_TIMER_THREAD_PRIO
#define OS_TIMER_THREAD_PRIO 40
#endif
// Timer Thread Stack size [bytes] <0-1073741824:8>
// Defines stack size for Timer thread.
// May be set to 0 when timers are not used.
// Default: 512
#ifndef OS_TIMER_THREAD_STACK_SIZE
#define OS_TIMER_THREAD_STACK_SIZE 512
#endif
// Timer Thread TrustZone Module Identifier
// Defines TrustZone Thread Context Management Identifier.
// Applies only to cores with TrustZone technology.
// Default: 0 (not used)
#ifndef OS_TIMER_THREAD_TZ_MOD_ID
#define OS_TIMER_THREAD_TZ_MOD_ID 0
#endif
// Timer Callback Queue entries <0-256>
// Number of concurrent active timer callback functions.
// May be set to 0 when timers are not used.
// Default: 4
#ifndef OS_TIMER_CB_QUEUE
#define OS_TIMER_CB_QUEUE 4
#endif
//
// Event Flags Configuration
// ============================
// Object specific Memory allocation
// Enables object specific memory allocation.
#ifndef OS_EVFLAGS_OBJ_MEM
#define OS_EVFLAGS_OBJ_MEM 0
#endif
// Number of Event Flags objects <1-1000>
// Defines maximum number of objects that can be active at the same time.
// Applies to objects with system provided memory for control blocks.
#ifndef OS_EVFLAGS_NUM
#define OS_EVFLAGS_NUM 1
#endif
//
//
// Mutex Configuration
// ======================
// Object specific Memory allocation
// Enables object specific memory allocation.
#ifndef OS_MUTEX_OBJ_MEM
#define OS_MUTEX_OBJ_MEM 0
#endif
// Number of Mutex objects <1-1000>
// Defines maximum number of objects that can be active at the same time.
// Applies to objects with system provided memory for control blocks.
#ifndef OS_MUTEX_NUM
#define OS_MUTEX_NUM 1
#endif
//
//
// Semaphore Configuration
// ==========================
// Object specific Memory allocation
// Enables object specific memory allocation.
#ifndef OS_SEMAPHORE_OBJ_MEM
#define OS_SEMAPHORE_OBJ_MEM 0
#endif
// Number of Semaphore objects <1-1000>
// Defines maximum number of objects that can be active at the same time.
// Applies to objects with system provided memory for control blocks.
#ifndef OS_SEMAPHORE_NUM
#define OS_SEMAPHORE_NUM 1
#endif
//
//
// Memory Pool Configuration
// ============================
// Object specific Memory allocation
// Enables object specific memory allocation.
#ifndef OS_MEMPOOL_OBJ_MEM
#define OS_MEMPOOL_OBJ_MEM 0
#endif
// Number of Memory Pool objects <1-1000>
// Defines maximum number of objects that can be active at the same time.
// Applies to objects with system provided memory for control blocks.
#ifndef OS_MEMPOOL_NUM
#define OS_MEMPOOL_NUM 1
#endif
// Data Storage Memory size [bytes] <0-1073741824:8>
// Defines the combined data storage memory size.
// Applies to objects with system provided memory for data storage.
// Default: 0
#ifndef OS_MEMPOOL_DATA_SIZE
#define OS_MEMPOOL_DATA_SIZE 0
#endif
//
//
// Message Queue Configuration
// ==============================
// Object specific Memory allocation
// Enables object specific memory allocation.
#ifndef OS_MSGQUEUE_OBJ_MEM
#define OS_MSGQUEUE_OBJ_MEM 0
#endif
// Number of Message Queue objects <1-1000>
// Defines maximum number of objects that can be active at the same time.
// Applies to objects with system provided memory for control blocks.
#ifndef OS_MSGQUEUE_NUM
#define OS_MSGQUEUE_NUM 1
#endif
// Data Storage Memory size [bytes] <0-1073741824:8>
// Defines the combined data storage memory size.
// Applies to objects with system provided memory for data storage.
// Default: 0
#ifndef OS_MSGQUEUE_DATA_SIZE
#define OS_MSGQUEUE_DATA_SIZE 0
#endif
//
//
// Event Recorder Configuration
// ===============================
// Global Initialization
// Initialize Event Recorder during 'osKernelInitialize'.
#ifndef OS_EVR_INIT
#define OS_EVR_INIT 0
#endif
// Start recording
// Start event recording after initialization.
#ifndef OS_EVR_START
#define OS_EVR_START 1
#endif
// Global Event Filter Setup
// Initial recording level applied to all components.
// Error events
// API function call events
// Operation events
// Detailed operation events
//
#ifndef OS_EVR_LEVEL
#define OS_EVR_LEVEL 0x00U
#endif
// RTOS Event Filter Setup
// Recording levels for RTX components.
// Only applicable if events for the respective component are generated.
// Memory Management
// Recording level for Memory Management events.
// Error events
// API function call events
// Operation events
// Detailed operation events
//
#ifndef OS_EVR_MEMORY_LEVEL
#define OS_EVR_MEMORY_LEVEL 0x81U
#endif
// Kernel
// Recording level for Kernel events.
// Error events
// API function call events
// Operation events
// Detailed operation events
//
#ifndef OS_EVR_KERNEL_LEVEL
#define OS_EVR_KERNEL_LEVEL 0x81U
#endif
// Thread
// Recording level for Thread events.
// Error events
// API function call events
// Operation events
// Detailed operation events
//
#ifndef OS_EVR_THREAD_LEVEL
#define OS_EVR_THREAD_LEVEL 0x85U
#endif
// Generic Wait
// Recording level for Generic Wait events.
// Error events
// API function call events
// Operation events
// Detailed operation events
//
#ifndef OS_EVR_WAIT_LEVEL
#define OS_EVR_WAIT_LEVEL 0x81U
#endif
// Thread Flags
// Recording level for Thread Flags events.
// Error events
// API function call events
// Operation events
// Detailed operation events
//
#ifndef OS_EVR_THFLAGS_LEVEL
#define OS_EVR_THFLAGS_LEVEL 0x81U
#endif
// Event Flags
// Recording level for Event Flags events.
// Error events
// API function call events
// Operation events
// Detailed operation events
//
#ifndef OS_EVR_EVFLAGS_LEVEL
#define OS_EVR_EVFLAGS_LEVEL 0x81U
#endif
// Timer
// Recording level for Timer events.
// Error events
// API function call events
// Operation events
// Detailed operation events
//
#ifndef OS_EVR_TIMER_LEVEL
#define OS_EVR_TIMER_LEVEL 0x81U
#endif
// Mutex
// Recording level for Mutex events.
// Error events
// API function call events
// Operation events
// Detailed operation events
//
#ifndef OS_EVR_MUTEX_LEVEL
#define OS_EVR_MUTEX_LEVEL 0x81U
#endif
// Semaphore
// Recording level for Semaphore events.
// Error events
// API function call events
// Operation events
// Detailed operation events
//
#ifndef OS_EVR_SEMAPHORE_LEVEL
#define OS_EVR_SEMAPHORE_LEVEL 0x81U
#endif
// Memory Pool
// Recording level for Memory Pool events.
// Error events
// API function call events
// Operation events
// Detailed operation events
//
#ifndef OS_EVR_MEMPOOL_LEVEL
#define OS_EVR_MEMPOOL_LEVEL 0x81U
#endif
// Message Queue
// Recording level for Message Queue events.
// Error events
// API function call events
// Operation events
// Detailed operation events
//
#ifndef OS_EVR_MSGQUEUE_LEVEL
#define OS_EVR_MSGQUEUE_LEVEL 0x81U
#endif
//
//
// RTOS Event Generation
// Enables event generation for RTX components (requires RTX source variant).
// Memory Management
// Enables Memory Management event generation.
#ifndef OS_EVR_MEMORY
#define OS_EVR_MEMORY 1
#endif
// Kernel
// Enables Kernel event generation.
#ifndef OS_EVR_KERNEL
#define OS_EVR_KERNEL 1
#endif
// Thread
// Enables Thread event generation.
#ifndef OS_EVR_THREAD
#define OS_EVR_THREAD 1
#endif
// Generic Wait
// Enables Generic Wait event generation.
#ifndef OS_EVR_WAIT
#define OS_EVR_WAIT 1
#endif
// Thread Flags
// Enables Thread Flags event generation.
#ifndef OS_EVR_THFLAGS
#define OS_EVR_THFLAGS 1
#endif
// Event Flags
// Enables Event Flags event generation.
#ifndef OS_EVR_EVFLAGS
#define OS_EVR_EVFLAGS 1
#endif
// Timer
// Enables Timer event generation.
#ifndef OS_EVR_TIMER
#define OS_EVR_TIMER 1
#endif
// Mutex
// Enables Mutex event generation.
#ifndef OS_EVR_MUTEX
#define OS_EVR_MUTEX 1
#endif
// Semaphore
// Enables Semaphore event generation.
#ifndef OS_EVR_SEMAPHORE
#define OS_EVR_SEMAPHORE 1
#endif
// Memory Pool
// Enables Memory Pool event generation.
#ifndef OS_EVR_MEMPOOL
#define OS_EVR_MEMPOOL 1
#endif
// Message Queue
// Enables Message Queue event generation.
#ifndef OS_EVR_MSGQUEUE
#define OS_EVR_MSGQUEUE 1
#endif
//
//
// Number of Threads which use standard C/C++ library libspace
// (when thread specific memory allocation is not used).
#if (OS_THREAD_OBJ_MEM == 0)
#ifndef OS_THREAD_LIBSPACE_NUM
#define OS_THREAD_LIBSPACE_NUM 4
#endif
#else
#define OS_THREAD_LIBSPACE_NUM OS_THREAD_NUM
#endif
//------------- <<< end of configuration section >>> ---------------------------
#endif // RTX_CONFIG_H_