FreeRTOS is an open source real-time operating system kernel that acts as the operating system for ESP-IDF applications and is integrated into ESP-IDF as a component. The FreeRTOS component in ESP-IDF contains ports of the FreeRTOS kernel for all the CPU architectures used by ESP targets (i.e., Xtensa and RISC-V). Furthermore, ESP-IDF provides different implementations of FreeRTOS in order to support SMP (Symmetric Multiprocessing) on multi-core ESP targets. This document provides an overview of the FreeRTOS component, the FreeRTOS implementations offered by ESP-IDF, and the common aspects across all implementations.
The `official FreeRTOS <https://www.freertos.org/index.html>`_ (henceforth referred to as Vanilla FreeRTOS) is a single-core RTOS. In order to support the various multi-core ESP targets, ESP-IDF supports different FreeRTOS implementations, namely **ESP-IDF FreeRTOS** and **Amazon SMP FreeRTOS**.
ESP-IDF FreeRTOS is a FreeRTOS implementation based on Vanilla FreeRTOS v10.4.3, but contains significant modifications to support SMP. ESP-IDF FreeRTOS only supports two cores at most (i.e., dual core SMP), but is more optimized for this scenario by design. For more details regarding ESP-IDF FreeRTOS and its modifications, please refer to the :doc:`freertos_idf` document.
Amazon SMP FreeRTOS is an SMP implementation of FreeRTOS that is officially supported by Amazon. Amazon SMP FreeRTOS is able to support N-cores (i.e., more than two cores). Amazon SMP FreeRTOS can be enabled via the :ref:`CONFIG_FREERTOS_SMP` option. For more details regarding Amazon SMP FreeRTOS, please refer to the `official Amazon SMP FreeRTOS documentation <https://freertos.org/symmetric-multiprocessing-introduction.html>`_.
The Amazon SMP FreeRTOS implementation (and its port in ESP-IDF) are currently in experimental/beta state. Therefore, significant behavioral changes and breaking API changes can occur.
Vanilla FreeRTOS requires that ports and applications configure the kernel by adding various ``#define config...`` macros to ``FreeRTOSConfig.h``. Vanilla FreeRTOS supports a list of kernel configuration options which allow various kernel behaviors and features to be enabled or disabled.
**However, for all FreeRTOS ports in ESP-IDF, the ``FreeRTOSConfig.h`` file is considered private and must not be modified by users**. A large number of kernel configuration options in ``FreeRTOSConfig.h`` are hard coded as they are either required or not supported in ESP-IDF. All kernel configuration options that are configurable by the user will be exposed via menuconfig under ``Component Config/FreeRTOS/Kernel``.
For the full list of user configurable kernel options, see :doc:`/api-reference/kconfig`. The list below highlights some commonly used kernel configuration options:
-:ref:`CONFIG_FREERTOS_UNICORE` will run FreeRTOS only on CPU0. Note that this is **not equivalent to running Vanilla FreeRTOS**. Furthermore, this option may affect behavior of components other than :component:`freertos`. For more details regarding the effects of running FreeRTOS on a single core, refer to :ref:`freertos-smp-single-core` (if using ESP-IDF FreeRTOS) or the official Amazon SMP FreeRTOS documentation. Alternatively, users can also search for occurrences of ``CONFIG_FREERTOS_UNICORE`` in the ESP-IDF components.
-:ref:`CONFIG_FREERTOS_ENABLE_BACKWARD_COMPATIBILITY` enables backward compatibility with some FreeRTOS macros/types/functions that were deprecated from v8.0 onwards.
All other FreeRTOS related configuration options that are not part of the kernel configuration are exposed via menuconfig under ``Component Config/FreeRTOS/Port``. These options configure aspects such as:
Unlike Vanilla FreeRTOS, users of FreeRTOS in ESP-IDF **must never call**:cpp:func:`vTaskStartScheduler` and :cpp:func:`vTaskEndScheduler`. Instead, ESP-IDF will start FreeRTOS automatically. Users must define a ``void app_main(void)`` function which acts as the entry point for user's application and is automatically called on ESP-IDF startup.
During startup, ESP-IDF and FreeRTOS will automatically create multiple tasks that run in the background (listed in the the table below).
..list-table:: List of Tasks Created During Startup
:widths:10 75 5 5 5
:header-rows:1
* - Task Name
- Description
- Stack Size
- Affinity
- Priority
* - Idle Tasks (``IDLEx``)
- An idle task (``IDLEx``) is created for (and pinned to) each CPU, where ``x`` is the CPU's number.
-:ref:`CONFIG_FREERTOS_IDLE_TASK_STACKSIZE`
- CPUx
-``0``
* - FreeRTOS Timer Task (``Tmr Svc``)
- FreeRTOS will create the Timer Service/Daemon Task if any FreeRTOS Timer APIs are called by the application.
-:ref:`CONFIG_FREERTOS_TIMER_TASK_STACK_DEPTH`
- CPU0
-:ref:`CONFIG_FREERTOS_TIMER_TASK_PRIORITY`
* - Main Task (``main``)
- Task that simply calls ``app_main``. This task will self delete when ``app_main`` returns
-:ref:`CONFIG_ESP_MAIN_TASK_STACK_SIZE`
-:ref:`CONFIG_ESP_MAIN_TASK_AFFINITY`
-``1``
* - IPC Tasks (``ipcx``)
- When :ref:`CONFIG_FREERTOS_UNICORE` is false, an IPC task (``ipcx``) is created for (and pinned to) each CPU. IPC tasks are used to implement the Inter-processor Call (IPC) feature.
-:ref:`CONFIG_ESP_IPC_TASK_STACK_SIZE`
- CPUx
-``24``
* - ESP Timer Task (``esp_timer``)
- ESP-IDF will create the ESP Timer Task used to process ESP Timer callbacks.
Note that if an application uses other ESP-IDF features (e.g., WiFi or Bluetooth), those features may create their own background tasks in addition to the tasks listed in the table above.
ESP-IDF provides some supplemental features to FreeRTOS such as Ring Buffers, ESP-IDF style Tick and Idle Hooks, and TLSP deletion callbacks. See :doc:`freertos_additions` for more details.