| TF-A CMake buildsystem |
| ====================== |
| |
| :Author: Balint Dobszay |
| :Organization: Arm Limited |
| :Contact: Balint Dobszay <balint.dobszay@arm.com> |
| :Status: Accepted |
| |
| .. contents:: Table of Contents |
| |
| Abstract |
| -------- |
| This document presents a proposal for a new buildsystem for TF-A using CMake, |
| and as part of this a reusable CMake framework for embedded projects. |
| |
| Introduction |
| ------------ |
| The current Makefile based buildsystem of TF-A has become complicated and hard |
| to maintain, there is a need for a new, more flexible solution. The proposal is |
| to use CMake language for the new buildsystem. The main reasons of this decision |
| are the following: |
| |
| * It is a well-established, mature tool, widely accepted by open-source |
| projects. |
| * TF-M is already using CMake, reducing fragmentation for tf.org projects can be |
| beneficial. |
| * CMake has various advantages over Make, e.g.: |
| |
| * Host and target system agnostic project. |
| * CMake project is scalable, supports project modularization. |
| * Supports software integration. |
| * Out-of-the-box support for integration with several tools (e.g. project |
| generation for various IDEs, integration with cppcheck, etc). |
| |
| Of course there are drawbacks too: |
| |
| * Language is problematic (e.g. variable scope). |
| * Not embedded approach. |
| |
| To overcome these and other problems, we need to create workarounds for some |
| tasks, wrap CMake functions, etc. Since this functionality can be useful in |
| other embedded projects too, it is beneficial to collect the new code into a |
| reusable framework and store this in a separate repository. The following |
| diagram provides an overview of the framework structure: |
| |
| |Framework structure| |
| |
| Main features |
| ------------- |
| |
| Structured configuration description |
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ |
| In the current Makefile system the build configuration description, validation, |
| processing, and the target creation, source file description are mixed and |
| spread across several files. One of the goals of the framework is to organize |
| this. |
| |
| The framework provides a solution to describe the input build parameters, flags, |
| macros, etc. in a structured way. It contains two utilities for this purpose: |
| |
| * Map: simple key-value pair implementation. |
| * Group: collection of related maps. |
| |
| The related parameters shall be packed into a group (or "setting group"). The |
| setting groups shall be defined and filled with content in config files. |
| Currently the config files are created and edited manually, but later a |
| configuration management tool (e.g. Kconfig) shall be used to generate these |
| files. Therefore, the framework does not contain parameter validation and |
| conflict checking, these shall be handled by the configuration tool. |
| |
| Target description |
| ^^^^^^^^^^^^^^^^^^ |
| The framework provides an API called STGT ('simple target') to describe the |
| targets, i.e. what is the build output, what source files are used, what |
| libraries are linked, etc. The API wraps the CMake target functions, and also |
| extends the built-in functionality, it can use the setting groups described in |
| the previous section. A group can be applied onto a target, i.e. a collection of |
| macros, flags, etc. can be applied onto the given output executable/library. |
| This provides a more granular way than the current Makefile system where most of |
| these are global and applied onto each target. |
| |
| Compiler abstraction |
| ^^^^^^^^^^^^^^^^^^^^ |
| Apart from the built-in CMake usage of the compiler, there are some common tasks |
| that CMake does not solve (e.g. preprocessing a file). For these tasks the |
| framework uses wrapper functions instead of direct calls to the compiler. This |
| way it is not tied to one specific compiler. |
| |
| External tools |
| ^^^^^^^^^^^^^^ |
| In the TF-A buildsystem some external tools are used, e.g. fiptool for image |
| generation or dtc for device tree compilation. These tools have to be found |
| and/or built by the framework. For this, the CMake find_package functionality is |
| used, any other necessary tools can be added later. |
| |
| Workflow |
| -------- |
| The following diagram demonstrates the development workflow using the framework: |
| |
| |Framework workflow| |
| |
| The process can be split into two main phases: |
| |
| In the provisioning phase, first we have to obtain the necessary resources, i.e. |
| clone the code repository and other dependencies. Next we have to do the |
| configuration, preferably using a config tool like KConfig. |
| |
| In the development phase first we run CMake, which will generate the buildsystem |
| using the selected generator backend (currently only the Makefile generator is |
| supported). After this we run the selected build tool which in turn calls the |
| compiler, linker, packaging tool, etc. Finally we can run and debug the output |
| executables. |
| |
| Usually during development only the steps in this second phase have to be |
| repeated, while the provisioning phase needs to be done only once (or rarely). |
| |
| Example |
| ------- |
| This is a short example for the basic framework usage. |
| |
| First, we create a setting group called *mem_conf* and fill it with several |
| parameters. It is worth noting the difference between *CONFIG* and *DEFINE* |
| types: the former is only a CMake domain option, the latter is only a C language |
| macro. |
| |
| Next, we create a target called *fw1* and add the *mem_conf* setting group to |
| it. This means that all source and header files used by the target will have all |
| the parameters declared in the setting group. Then we set the target type to |
| executable, and add some source files. Since the target has the parameters from |
| the settings group, we can use it for conditionally adding source files. E.g. |
| *dram_controller.c* will only be added if MEM_TYPE equals dram. |
| |
| .. code-block:: cmake |
| |
| group_new(NAME mem_conf) |
| group_add(NAME mem_conf TYPE DEFINE KEY MEM_SIZE VAL 1024) |
| group_add(NAME mem_conf TYPE CONFIG DEFINE KEY MEM_TYPE VAL dram) |
| group_add(NAME mem_conf TYPE CFLAG KEY -Os) |
| |
| stgt_create(NAME fw1) |
| stgt_add_setting(NAME fw1 GROUPS mem_conf) |
| stgt_set_target(NAME fw1 TYPE exe) |
| |
| stgt_add_src(NAME fw1 SRC |
| ${CMAKE_SOURCE_DIR}/main.c |
| ) |
| |
| stgt_add_src_cond(NAME fw1 KEY MEM_TYPE VAL dram SRC |
| ${CMAKE_SOURCE_DIR}/dram_controller.c |
| ) |
| |
| .. |Framework structure| image:: |
| ../resources/diagrams/cmake_framework_structure.png |
| :width: 75 % |
| |
| .. |Framework workflow| image:: |
| ../resources/diagrams/cmake_framework_workflow.png |
| |
| -------------- |
| |
| *Copyright (c) 2019-2024, Arm Limited and Contributors. All rights reserved.* |