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Using the bare metal profile

This guide shows how to create a bare metal profile application, or move an existing Mbed 2 application to Mbed OS 6 bare metal:

  1. By default, the build tool uses the full profile for all application builds. To use the bare metal profile, set up your application to override this default behaviour.
  2. The bare metal profile uses a minimal set of default APIs. You can add additional ones from the list of supported APIs if your application needs them.

Here is a code snippet that can work for both Mbed OS profiles; it prints text at regular intervals using the EventQueue class. You will create an application that uses this code, set it to use the bare metal profile, and add the non-default EventQueue class.

/*
 * Copyright (c) 2020 Arm Limited and affiliates.
 * SPDX-License-Identifier: Apache-2.0
 */
#include "mbed_events.h"
#include <stdio.h>
using namespace std::chrono_literals;

// In the example below there are 3 types of event callbacks
// 1) Call the provided function immediately
// 2) Call the provided function once (after the specified period)
// 3) Call the provided function every specified period
//
// Expected output:
//
// called immediately
// called every 1 seconds
// called in 2 seconds
// called every 1 seconds
// called every 1 seconds
//    ^ repeated forever
//
int main()
{
    // creates a queue with the default size
    EventQueue queue;

    // events are simple callbacks
    queue.call(printf, "called immediately\n");
    queue.call_in(2000ms, printf, "called in 2 seconds\n");
    queue.call_every(1000ms, printf, "called every 1 seconds\n");

    // events are executed by the dispatch_forever method
    queue.dispatch_forever();
}

Note: To be compatible with Arm microlib, a bare metal application should not return from main(). In this example, the queue.dispatch_forever() call never returns. For more details, see Non-returning main().

1. Creating a bare metal application

To create the application using Mbed CLI:

  1. Create a new Mbed OS application and navigate to its directory:

    mbed new example_app && cd example_app
    

    The directory contains the full Mbed OS library (mbed-os/) and no application files.

  2. Create a main.cpp file.

  3. Copy the code snippet above into main.cpp.

  4. Open mbed_app.json (in the root of the application) and replace it with the following content:

    {
        "requires": ["bare-metal"],
        "target_overrides": {
            "*": {
                "target.c_lib": "small"
            }
        }
    }
    

    The mbed_app.json file specifies which profile to use ("requires": ["bare-metal"]) and which C library to use ("target.c_lib": "small").

    This example uses "target.c_lib": "small" (small C library). This means your application will use an optimized version of the C library with lower memory footprint. For more details, see Using small C libraries in Mbed OS bare metal.

2. Adding APIs

Your application is set to use the bare metal profile with the default APIs. However, this example uses APIs that are not part of the default bare metal profile. You need to manually add support for those APIs to the application (for a list of default and supported APIs, please see our full API list).

To add API support, add the library name to the same requires array you used to set the bare metal profile. The following example shows how to find the library name, and how to add it to the array.

This example depends on the EventQueue class, and adds the library that contains that class to the mbed_app.json file:

  1. In mbed-os/, locate the API and the library in which it is declared.

  2. In the library folder, open mbed_lib.json and find the library's name. You will need it for the next step.

    For example: mbed-os/events/mbed_lib.json:

    {
        "name": "events",
        "config": {
            "present": 1,
            ...
        }
    }
    
  3. Go back to the application's root directory.

  4. Open mbed_app.json again, and add the library to the "requires" array:

    {
        "requires": ["bare-metal", "events"],
        "target_overrides": {
            "*": {
                "target.c_lib": "small"
            }
        }
    }
    

The application is now ready to compile, and will include the events library (which has no dependencies).

Note: Including a library does not automatically include all of its dependencies. Review compilation errors to find missing dependencies.

3. Compiling and running the application

Connect a supported board to your computer, and compile and run your application:

mbed compile -t <TOOLCHAIN> -m <TARGET> --flash --sterm

When the example is flashed to the board, a serial terminal opens (because of --sterm). The output is:

called immediately
called every 1 seconds
called in 2 seconds
called every 1 seconds
called every 1 seconds
called every 1 seconds

To exit the serial terminal, press Ctrl + C.

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