# AWS IoT Fleet Provisioning Library The Fleet Provisioning library enables you to provision IoT devices without device certificates using the [Fleet Provisioning feature of AWS IoT Core][a1]. For an overview of provisioning options available, see [Device provisioning][a2]. This library has no dependencies on any additional libraries other than the standard C library, and therefore, can be used with any MQTT library. This library is distributed under the [MIT Open Source License][a3]. [a1]: https://docs.aws.amazon.com/iot/latest/developerguide/provision-wo-cert.html [a2]: https://docs.aws.amazon.com/iot/latest/developerguide/iot-provision.html [a3]: LICENSE This library has gone through code quality checks including verification that no function has a [GNU Complexity][a4] score over 8, and checks against deviations from mandatory rules in the [MISRA coding standard][a5]. Deviations from the MISRA C:2012 guidelines are documented under [MISRA Deviations][a6]. This library has also undergone static code analysis using [Coverity static analysis][a7], and validation of memory safety through the [CBMC automated reasoning tool][a8]. [a4]: https://www.gnu.org/software/complexity/manual/complexity.html [a5]: https://www.misra.org.uk [a6]: MISRA.md [a7]: https://scan.coverity.com/ [a8]: https://www.cprover.org/cbmc/ See memory requirements for this library [here][a9]. [a9]: ./docs/doxygen/include/size_table.md **AWS IoT Fleet Provisioning Library v1.1.0 [source code](https://github.com/aws/Fleet-Provisioning-for-AWS-IoT-embedded-sdk/tree/v1.1.0/source) is part of the [FreeRTOS 202210.00 LTS](https://github.com/FreeRTOS/FreeRTOS-LTS/tree/202210.00-LTS) release.** ## AWS IoT Fleet Provisioning Library Config File The AWS IoT Fleet Provisioning Library exposes build configuration macros that are required for building the library. A list of all the configurations and their default values are defined in [fleet\_provisioning\_config\_defaults.h][b1]. To provide custom values for the configuration macros, a config file named `fleet_provisioning_config.h` can be provided by the application to the library. [b1]: source/include/fleet_provisioning_config_defaults.h By default, a `fleet_provisioning_config.h` config file is required to build the library. To disable this requirement and build the library with default configuration values, provide `FLEET_PROVISIONING_DO_NOT_USE_CUSTOM_CONFIG` as a compile time preprocessor macro. **Thus, the Fleet Provisioning library can be built by either**: * Defining a `fleet_provisioning_config.h` file in the application, and adding it to the include directories list of the library. **OR** * Defining the `FLEET_PROVISIONING_DO_NOT_USE_CUSTOM_CONFIG` preprocessor macro for the library build. ## Building the Library The [fleetprovisioningFilePaths.cmake][c1] file contains the information of all source files and the header include paths required to build the Fleet Provisioning library. [c1]: fleetprovisioningFilePaths.cmake As mentioned in the previous section, either a custom config file (i.e. `fleet_provisioning_config.h`) or `FLEET_PROVISIONING_DO_NOT_USE_CUSTOM_CONFIG` macro needs to be provided to build the Fleet Provisioning library. For a CMake example of building the Fleet Provisioning library with the `fleetprovisioningFilePaths.cmake` file, refer to the `coverity_analysis` library target in [test/CMakeLists.txt][c2] file. [c2]: test/CMakeLists.txt ## Building Unit Tests ### Platform Prerequisites - For running unit tests: - **C90 compiler** like gcc. - **CMake 3.13.0 or later**. - For running the coverage target, **gcov** and **lcov** are additionally required. ### Steps to build **Unit Tests** 1. Go to the root directory of this repository. 1. Run the *cmake* command: `cmake -S test -B build -DBUILD_CLONE_SUBMODULES=ON`. 1. Run this command to build the library and unit tests: `make -C build all`. 1. The generated test executables will be present in `build/bin/tests` folder. 1. Run `cd build && ctest` to execute all tests and view the test run summary. ## CBMC To learn more about CBMC and proofs specifically, review the training material [here](https://model-checking.github.io/cbmc-training). The `test/cbmc/proofs` directory contains CBMC proofs. In order to run these proofs you will need to install CBMC and other tools by following the instructions [here](https://model-checking.github.io/cbmc-training/installation.html). ## Reference examples The [AWS IoT Embedded C-SDK repository][e1] contains a demo showing the use of the AWS IoT Fleet Provisioning Library on a POSIX platform [here][e2]. [e1]: https://github.com/aws/aws-iot-device-sdk-embedded-C [e2]: https://github.com/aws/aws-iot-device-sdk-embedded-C/tree/main/demos/fleet_provisioning/fleet_provisioning_with_csr ## Generating documentation The Doxygen references were created using Doxygen version 1.9.2. To generate the Doxygen pages, please run the following command from the root of this repository: ```sh doxygen docs/doxygen/config.doxyfile ``` ## Contributing See [CONTRIBUTING.md][g1] for information on contributing. [g1]: .github/CONTRIBUTING.md