MCUXpresso: Difference between revisions
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setenv m4_bin myapp.bin; saveenv | setenv m4_bin myapp.bin; saveenv | ||
The uboot boot command will take care | The uboot '''boot''' command will take care to correctly load the M4 firmware and start Linux for {{#var:HARWARE_NAME}} | ||
=Debugging a demo= | =Debugging a demo= |
Revision as of 20:15, 5 May 2019
Overview
MCUXpresso SDK
MCUXpresso SDK board support provides example applications for NXP development and evaluation boards for Arm Cortex-M cores. Board support packages are found inside of the top level boards folder, and each supported board has its own folder (MCUXpresso SDK package can support multiple boards). Within each <board_name> folder there are various sub-folders to classify the type of examples they contain. These include (but are not limited to):
- cmsis_driver_examples: Simple applications intended to concisely illustrate how to use CMSIS drivers.
- demo_apps: Full-featured applications intended to highlight key functionality and use cases of the target MCU. These applications typically use multiple MCU peripherals and may leverage stacks and middleware.
- driver_examples: Simple applications intended to concisely illustrate how to use the MCUXpresso SDK’s peripheral drivers for a single use case.
- rtos_examples: Basic FreeRTOS OS examples showcasing the use of various RTOS objects (semaphores, queues, and so on) and interfacing with the MCUXpresso SDK’s RTOS drivers
- multicore_examples: Simple applications intended to concisely illustrate how to use middleware/multicore stack
Here we describe how to use ARM GCC toolchain, officially supported following Getting Started with MCUXpresso SDK i.MX 8M Devices.pdf.
Prerequisites
Before starting, prepare a Yocto boot SD (Sumo or newer).
Installing required packages
Download and install GNU-ARM bare-metal toolchain:
mkdir ~/var-mcuxpresso cd ~/var-mcuxpresso wget https://developer.arm.com/-/media/Files/downloads/gnu-rm/7-2018q2/gcc-arm-none-eabi-7-2018-q2-update-linux.tar.bz2 tar xvf gcc-arm-none-eabi-7-2018-q2-update-linux.tar.bz2
Download MCUXpresso SDK for the SOM:
cd ~/var-mcuxpresso git clone https://github.com/varigit/freertos-variscite -b mcuxpresso_sdk_2.5.x-var01 cd freertos-variscite
Documentation
Original NXP documentation is available online or in the following folder:
~/var-mcuxpresso/freertos-variscite/docs
Available demos
All of the Variscite examples are located under the following folder
~/var-mcuxpresso/freertos-variscite/boards/dart_mx8mq
Default M4 pin settings are used by demo applications:
function | pin |
---|---|
debug UART (UART2) | RX: J12.6 / TX: J12.4 |
GPIO (GPIO4_IO03) | LED1 |
I2C (I2C3) | SCL: J12.18 / SDA: J12.20 |
PWM (PWM4) | J14.3 |
The available demos for DART-MX8M are:
- driver_examples/i2c/interrupt_b2b_transfer/slave
- driver_examples/i2c/interrupt_b2b_transfer/master
- driver_examples/i2c/polling_b2b_transfer/slave
- driver_examples/i2c/polling_b2b_transfer/master
- driver_examples/wdog
- driver_examples/gpio/led_output
- driver_examples/tmu/tmu_monitor_report
- driver_examples/pwm
- driver_examples/uart/auto_baudrate_detect
- driver_examples/uart/interrupt
- driver_examples/uart/interrupt_rb_transfer
- driver_examples/uart/polling
- driver_examples/uart/interrupt_transfer
- driver_examples/gpt/timer
- driver_examples/gpt/capture
- driver_examples/ecspi/ecspi_loopback
- driver_examples/qspi/polling_transfer
- driver_examples/rdc
- driver_examples/sema4/uboot
- rtos_examples/freertos_ecspi/ecspi_loopback
- rtos_examples/freertos_hello
- rtos_examples/freertos_queue
- rtos_examples/freertos_sem
- rtos_examples/freertos_generic
- rtos_examples/freertos_uart
- rtos_examples/freertos_tickless
- rtos_examples/freertos_mutex
- rtos_examples/freertos_event
- rtos_examples/freertos_swtimer
- rtos_examples/freertos_i2c
- cmsis_driver_examples/i2c/int_b2b_transfer/slave
- cmsis_driver_examples/i2c/int_b2b_transfer/master
- cmsis_driver_examples/uart/interrupt_transfer
- cmsis_driver_examples/ecspi/int_loopback_transfer
- multicore_examples/rpmsg_lite_str_echo_rtos
- multicore_examples/rpmsg_lite_pingpong_rtos/linux_remote
- demo_apps/hello_world
Almost all of the above demos are also available for EVK-MIMX8MQ.
You can build and run the demos following official NXP documentation for EVK-MIMX8MQ, available online or in the following document:
~/var-mcuxpresso/freertos-variscite/docs/Getting Started with MCUXpresso SDK i.MX 8M Devices.pdf
Building a demo
For any demo just follow this steps:
cd ~/var-mcuxpresso/freertos-variscite/boards/dart_mx8mq cd <demo_folder> cd armgcc export ARMGCC_DIR=~/var-mcuxpresso/gcc-arm-none-eabi-7-2018-q2-update ./build_all.sh > /dev/null
Then copy the ".bin" in the same location hosting the Linux device trees.
Memory types
The SDK allow linking using 2 different memory types: DDR, TCM.
Here is available a short summary of memory areas used by Cortex-M4 as described in related linker file.
memory type | M4 memory area | A53 memory area | memory lentgh | linker file |
---|---|---|---|---|
DDR | 0x80000000-0x801FFFFF (code) 0x80200000-0x803FFFFF (data) 0x80400000-0x80FFFFFF (data2) |
0x80000000-0x801FFFFF (code) 0x80200000-0x803FFFFF (data) 0x80400000-0x80FFFFFF (data2) |
16MB (DDR) | MIMX8MQ6xxxJZ_cm4_ddr_ram.ld |
TCM | 0x1FFE0000-0x1FFFFFFF (code) 0x20000000-0x2001FFFF (data) 0x80000000-0x80FFFFFF (data2) |
0x007E0000-0x007FFFFF (code) 0x00800000-0x0081FFFF (data) 0x80000000-0x80FFFFFF (data2) |
256kB (TCM) + 16MB (DDR) | MIMX8MQ6xxxJZ_cm4_ram.ld |
All linker files are locate in the armgcc folder of each demo.
The DDR reserved area must match the one declared in the kernel device tree: at least 2 GB of RAM is required on the SoM to allow Cortex-M4 accessing the range 0x80000000 - 0x80FFFFFF.
The RPMSG area is located at 0xB8000000: at least 3 GB of RAM is required on the SoM to allow Cortex-M4 accessing the RPMSG area. After launching the build_all.sh command the following folder will be created in the armgcc folder
- ddr_debug: containing DDR binaries compiled in debug mode (not stripped: symbols available)
- ddr_release: containing DDR binaries compiled in release mode (stripped: no symbols available)
- debug: containing TCM binaries compiled in debug mode (not stripped: symbols available)
- release: containing TCM binaries compiled in release mode (stripped: no symbols available)
Further details about memory mapping are available in the following i.MX 8M Applications Processor Reference Manual paragraphs:
- 2.1.2 Cortex-A53 Memory Map
- 2.1.3 Cortex-M4 Memory Map
Running a demo
A detailed step by step procedure to running each of the demos is available online or in the following document:
~/var-mcuxpresso/freertos-variscite/docs/Getting Started with MCUXpresso SDK i.MX 8M Devices.pdf
To allow Cortex M4 accessing shared resources without experiencing Linux kernel conflicts, a dedicated device tree must be loaded.
To enable Cortex M4:
setenv use_m4 yes; saveenv
To disable Cortex M4:
setenv use_m4 no; saveenv
Binary demos must be loaded to the memory type used for linking.
To use TCM:
setenv m4_addr 0x7e0000; saveenv
To use DDR:
setenv m4_addr 0x80000000; saveenv
To set the name of the M4 binary
setenv m4_bin myapp.bin; saveenv
The uboot boot command will take care to correctly load the M4 firmware and start Linux for
Debugging a demo
JTAG interface
Cortex M4 debugging requires JTAG.
The VAR-DT8MCustomBoard exports the DART-MX8M JTAG signals through J29, a standard 1.27" 10 pin header.
Here is the pinout:
pin | signal | description | pin | signal | description |
---|---|---|---|---|---|
1 | JTAG_VREF | JTAG IO reference voltage, connects to SOM_NVCC_3V3. |
2 | JTAG_TMS | JTAG Mode Select signal |
3 | GND | Digital Ground | 4 | JTAG_TCK | JTAG Clock signal, requires 10K pull down. |
5 | GND | Digital Ground | 6 | JTAG_TDO | JTAG Data Out signal |
7 | GND | Digital Ground | 8 | JTAG_TDI | JTAG Data In signal |
9 | JTAG_NTRST_C | JTAG Reset signal | 10 | NRST_CON | Programmer Reset, used to put the SOC in reset state. |
Please refer to board schematics for further details.
Debugging GUI
A detailed step by step procedure to debug using SEGGER J-Link is available online or in the following document:
~/var-mcuxpresso/freertos-variscite/docs/Getting Started with MCUXpresso SDK i.MX 8M Devices.pdf