Konstantin Oblaukhov
301fc01fa2
README Updated.
|
10 лет назад | |
|---|---|---|
| cmake | 10 лет назад | |
| cmsis | 10 лет назад | |
| hal | 10 лет назад | |
| packages | 12 лет назад | |
| stm32-blinky | 10 лет назад | |
| stm32-chibios | 10 лет назад | |
| stm32-newlib | 10 лет назад | |
| stm32-template | 10 лет назад | |
| README.mediawiki | 10 лет назад | |
| gcc_stm32.cmake | 11 лет назад | |
| gcc_stm32f1.cmake | 10 лет назад | |
| gcc_stm32f4.cmake | 10 лет назад |
README.mediawiki
== About ==
This project is used to develop applications for stm32 - ST's ARM Cortex-M3(4) MCUs, using cmake, GCC, newlib (libc), STM32CubeMX package or ChibiOS.
Requirements:
* cmake >= 2.8
* GCC toolchain with newlib (optionally).
* STM32CubeMX package for STM32F1 or STM32F4 families.
Project contains:
* CMake common toolchain file, that configures cmake to use arm toolchain.
* CMake family-specific toolchain file, that configures family-specific parameters.
* CMake projects that installs CMSIS and STM32CubeMX (STM32HAL) sources into sysroot.
* CMake modules to find and configure CMSIS ans STM32HAL components.
* CMake modules to find and configure ChibiOS components.
* CMake project template.
* Example projects
** blinky - blink LED using timers and PWM.
** newlib - show date using uart and libc functions from newlib
** stm32-chibios - blink led using ChibiOS/NIL
== Building & Installing ==
First of all you need to configure toolchain and libraries, you can do this by editing gcc_stm32.cmake or (better way) pass it throught command line.
Variables for toolchain:
* TOOLCHAIN_PREFIX - where toolchain is located, '''default''': /usr
* TARGET_TRIPLET - toolchain target triplet, '''default''': arm-none-eabi
* STM32_FAMILY - STM32 family (F0, F1, F4, etc.) currently, F1 and F4 family are supported.
'''Note:''' If STM32_CHIP variable is set, STM32_FAMILY is optional.
Variables for CMSIS and STM32CubeMX:
* STM32Cube_DIR - path to STM32CubeMX directory '''default''': /opt/STM32Cube_FW_F1_V1.1.0 /opt/STM32Cube_FW_F4_V1.6.0
=== Build CMSIS and Standard Peripherals Library ===
In cmsis folder:
cmake -DCMAKE_TOOLCHAIN_FILE=../gcc_stm32.cmake -DSTM32_FAMILY=F1 -DCMAKE_INSTALL_PREFIX=/arm-none-eabi/ -DCMAKE_BUILD_TYPE=Release
make && make install
In stdperiph folder
cmake -DCMAKE_TOOLCHAIN_FILE=../gcc_stm32.cmake -DCMAKE_MODULE_PATH=/Modules -DSTM32_FAMILY=F1 -DCMAKE_INSTALL_PREFIX=/arm-none-eabi/ -DCMAKE_BUILD_TYPE=Release
make && make install
'''Note:''' For building for STM32F4 family, change -DSTM32_FAMILY=F1 to -DSTM32_FAMILY=F4
'''Note:''' You can use different CMAKE_INSTALL_PREFIX, but than you'll have to configure cmake search paths when using cmake modules. You may specify an additional search path with -DEXTRA_FIND_PATH=
== Usage ==
After building you need to copy cmake modules in cmake's modules path, or just set CMAKE_MODULE_PATH in project.
Template project can be found in stm32-template folder.
=== Configure ===
Common usage:
cmake -DSTM32_CHIP= -DCMAKE_TOOLCHAIN_FILE= -DCMAKE_BUILD_TYPE=Debug
Where - stm32 chip name (e.g. STM32F100C8, STM32F407IG).
This command will generate Makefile for project.
Scripts will try to detected chip parameters (type, flash/ram size) from chip name.
You can set this parameters directly using following cmake variables:
* STM32_CHIP_TYPE - family-depended chip type. Global variable STM32_CHIP_TYPES contains list of valid types for current family
* STM32_FLASH_SIZE - chip flash size (e.g. 64K)
* STM32_RAM_SIZE - chip RAM size (e.g. 4K)
For using with Eclipse CDT:
cmake -DSTM32_CHIP= -DCMAKE_TOOLCHAIN_FILE= -DCMAKE_BUILD_TYPE=Debug -G "Eclipse CDT4 - Unix Makefiles"
For release build:
cmake -DSTM32_CHIP= -DCMAKE_TOOLCHAIN_FILE= -DCMAKE_BUILD_TYPE=Release
=== Build ===
make
To build .hex:
make .hex
or .bin:
make .bin
=== Linker script variables ===
Next cmake variables are useful for linker tuning:
* STM32_FLASH_ORIGIN - Start address of flash (default: 0x08000000)
* STM32_RAM_ORIGIN - Start address of RAM (default: 0x20000000)
* STM32_STACK_ADDRESS - Address of stack bottom (default: RAM_ORIGIN + RAM_SIZE)
* STM32_FLASH_SIZE - Flash size (default: from chip name)
* STM32_RAM_SIZE - RAM size (default: from chip name)
* STM32_MIN_STACK_SIZE - Minimum stack size for error detection at link-time (default: 512 bytes)
* STM32_MIN_HEAP_SIZE - Minimum heap size for error detection at link-time (default: 0 bytes)
=== Useful cmake macros ===
* STM32_GET_CHIP_TYPE(CHIP CHIP_TYPE) - gets chip type (HD, MD, etc.) from chip name.
* STM32_GET_CHIP_PARAMETERS(CHIP FLASH_SIZE RAM_SIZE) - gets chip ram/flash size from chip name.
* STM32_SET_CHIP_DEFINITIONS(TARGET CHIP_TYPE) - sets chip family and type-specific compiler flags for target.
* STM32_SET_FLASH_PARAMS(TARGET ...) - sets chip flash/ram parameters for targer.
* STM32_SET_TARGET_PROPERTIES(TARGET) - sets all needed parameters and compiler flags for target.
* STM32_GENERATE_LIBRARIES(NAME SOURCES LIBRARIES) - generates libraries for all chip types in family. Resulting libraries stored in LIBRARIES and have names in ${NAME}_${FAMILY}_${CHIP_TYPE} format.
* STM32_SET_HSE_VALUE - change HSE frequency definitions (in Hz).
=== ChibiOS Support ===
This projects also supports ChibiOS v3.x.x (both nil and rt kernels).
CMake modules for ChibiOS can find specified ChibiOS components using COMPONENTS directive.
See project stm32-chibios for example usage.
This project is used to develop applications for stm32 - ST's ARM Cortex-M3(4) MCUs, using cmake, GCC, newlib (libc), STM32CubeMX package or ChibiOS.
Requirements:
* cmake >= 2.8
* GCC toolchain with newlib (optionally).
* STM32CubeMX package for STM32F1 or STM32F4 families.
Project contains:
* CMake common toolchain file, that configures cmake to use arm toolchain.
* CMake family-specific toolchain file, that configures family-specific parameters.
* CMake projects that installs CMSIS and STM32CubeMX (STM32HAL) sources into sysroot.
* CMake modules to find and configure CMSIS ans STM32HAL components.
* CMake modules to find and configure ChibiOS components.
* CMake project template.
* Example projects
** blinky - blink LED using timers and PWM.
** newlib - show date using uart and libc functions from newlib
** stm32-chibios - blink led using ChibiOS/NIL
== Building & Installing ==
First of all you need to configure toolchain and libraries, you can do this by editing gcc_stm32.cmake or (better way) pass it throught command line.
Variables for toolchain:
* TOOLCHAIN_PREFIX - where toolchain is located, '''default''': /usr
* TARGET_TRIPLET - toolchain target triplet, '''default''': arm-none-eabi
* STM32_FAMILY - STM32 family (F0, F1, F4, etc.) currently, F1 and F4 family are supported.
'''Note:''' If STM32_CHIP variable is set, STM32_FAMILY is optional.
Variables for CMSIS and STM32CubeMX:
* STM32Cube_DIR - path to STM32CubeMX directory '''default''': /opt/STM32Cube_FW_F1_V1.1.0 /opt/STM32Cube_FW_F4_V1.6.0
=== Build CMSIS and Standard Peripherals Library ===
In cmsis folder:
cmake -DCMAKE_TOOLCHAIN_FILE=../gcc_stm32.cmake -DSTM32_FAMILY=F1 -DCMAKE_INSTALL_PREFIX=/arm-none-eabi/ -DCMAKE_BUILD_TYPE=Release
make && make install
In stdperiph folder
cmake -DCMAKE_TOOLCHAIN_FILE=../gcc_stm32.cmake -DCMAKE_MODULE_PATH=/Modules -DSTM32_FAMILY=F1 -DCMAKE_INSTALL_PREFIX=/arm-none-eabi/ -DCMAKE_BUILD_TYPE=Release
make && make install
'''Note:''' For building for STM32F4 family, change -DSTM32_FAMILY=F1 to -DSTM32_FAMILY=F4
'''Note:''' You can use different CMAKE_INSTALL_PREFIX, but than you'll have to configure cmake search paths when using cmake modules. You may specify an additional search path with -DEXTRA_FIND_PATH=
== Usage ==
After building you need to copy cmake modules in cmake's modules path, or just set CMAKE_MODULE_PATH in project.
Template project can be found in stm32-template folder.
=== Configure ===
Common usage:
cmake -DSTM32_CHIP= -DCMAKE_TOOLCHAIN_FILE= -DCMAKE_BUILD_TYPE=Debug
Where - stm32 chip name (e.g. STM32F100C8, STM32F407IG).
This command will generate Makefile for project.
Scripts will try to detected chip parameters (type, flash/ram size) from chip name.
You can set this parameters directly using following cmake variables:
* STM32_CHIP_TYPE - family-depended chip type. Global variable STM32_CHIP_TYPES contains list of valid types for current family
* STM32_FLASH_SIZE - chip flash size (e.g. 64K)
* STM32_RAM_SIZE - chip RAM size (e.g. 4K)
For using with Eclipse CDT:
cmake -DSTM32_CHIP= -DCMAKE_TOOLCHAIN_FILE= -DCMAKE_BUILD_TYPE=Debug -G "Eclipse CDT4 - Unix Makefiles"
For release build:
cmake -DSTM32_CHIP= -DCMAKE_TOOLCHAIN_FILE= -DCMAKE_BUILD_TYPE=Release
=== Build ===
make
To build .hex:
make .hex
or .bin:
make .bin
=== Linker script variables ===
Next cmake variables are useful for linker tuning:
* STM32_FLASH_ORIGIN - Start address of flash (default: 0x08000000)
* STM32_RAM_ORIGIN - Start address of RAM (default: 0x20000000)
* STM32_STACK_ADDRESS - Address of stack bottom (default: RAM_ORIGIN + RAM_SIZE)
* STM32_FLASH_SIZE - Flash size (default: from chip name)
* STM32_RAM_SIZE - RAM size (default: from chip name)
* STM32_MIN_STACK_SIZE - Minimum stack size for error detection at link-time (default: 512 bytes)
* STM32_MIN_HEAP_SIZE - Minimum heap size for error detection at link-time (default: 0 bytes)
=== Useful cmake macros ===
* STM32_GET_CHIP_TYPE(CHIP CHIP_TYPE) - gets chip type (HD, MD, etc.) from chip name.
* STM32_GET_CHIP_PARAMETERS(CHIP FLASH_SIZE RAM_SIZE) - gets chip ram/flash size from chip name.
* STM32_SET_CHIP_DEFINITIONS(TARGET CHIP_TYPE) - sets chip family and type-specific compiler flags for target.
* STM32_SET_FLASH_PARAMS(TARGET ...) - sets chip flash/ram parameters for targer.
* STM32_SET_TARGET_PROPERTIES(TARGET) - sets all needed parameters and compiler flags for target.
* STM32_GENERATE_LIBRARIES(NAME SOURCES LIBRARIES) - generates libraries for all chip types in family. Resulting libraries stored in LIBRARIES and have names in ${NAME}_${FAMILY}_${CHIP_TYPE} format.
* STM32_SET_HSE_VALUE - change HSE frequency definitions (in Hz).
=== ChibiOS Support ===
This projects also supports ChibiOS v3.x.x (both nil and rt kernels).
CMake modules for ChibiOS can find specified ChibiOS components using COMPONENTS directive.
See project stm32-chibios for example usage.