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FORK INFO

Adjusted examples/stm32/f1/other/usb_cdcacm/ for STM32F103C8 blue pill board - pulling A12 for a while for USB enumeration.

Add 1.6k resistor between 3.3V and A12.

make in / make in examples/stm32/f1/other/usb_cdcacm cd examples/stm32/f1/other/usb_cdcacm ; ./BURN_WORKS.sh (cheap stlinkv2)

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README

Gitter channel

This repository contains assorted example projects for libopencm3.

The libopencm3 project aims to create an open-source firmware library for various ARM Cortex-M microcontrollers.

For more information visit http://libopencm3.org

The examples are meant as starting points for different subsystems on multitude of platforms.

Feel free to add new examples and send them to us either via the mailinglist or preferably via a github pull request.

Usage

You must run "make" in the top level directory first. This builds the library and all examples. If you're simply hacking on a single example after that, you can type "make clean; make" in any of the individual project directories later.

Some examples use the libopencm3 dynamic linker script generator. This (currently) requires GNU awk. (mawk will not work) See libopencm3/libopencm3#731

For more verbose output, to see compiler command lines, use "make V=1" For insanity levels of verboseness, use "make V=99"

The makefiles are generally useable for your own projects with only minimal changes for the libopencm3 install path (See Reuse)

Make Flash Target

Please note, the "make flash" target is complicated and not always self-consistent. Please see: libopencm3#34

For flashing the 'miniblink' example (after you built libopencm3 and the examples by typing 'make' at the top-level directory) onto the Olimex STM32-H103 eval board (ST STM32F1 series microcontroller), you can execute:

cd examples/stm32/f1/stm32-h103/miniblink
make flash V=1

The Makefiles of the examples are configured to use a certain OpenOCD flash programmer, you might need to change some of the variables in the Makefile if you use a different one.

To program via a Black Magic Probe, simply provide the serial port, eg:

cd examples/stm32/f1/stm32-h103/miniblink
make flash BMP_PORT=/dev/ttyACM0

To program via texane/stlink (st-flash utility), use the special target:

cd examples/stm32/f1/stm32vl-discovery/miniblink
make miniblink.stlink-flash

If you rather use GDB to connect to the st-util you can provide the STLINK_PORT to the flash target.

cd examples/stm32/f1/stm32vl-discovery/miniblink
make flash STLINK_PORT=:4242

Flashing Manually

You can also flash manually. Using a miriad of different tools depending on your setup. Here are a few examples.

OpenOCD

openocd -f interface/jtagkey-tiny.cfg -f target/stm32f1x.cfg
telnet localhost 4444
reset halt
flash write_image erase foobar.hex
reset

Replace the "jtagkey-tiny.cfg" with whatever JTAG device you are using, and/or replace "stm32f1x.cfg" with your respective config file. Replace "foobar.hex" with the file name of the image you want to flash.

Black Magic Probe

cd examples/stm32/f1/stm32vl-discovery/miniblink
arm-none-eabi-gdb miniblink.elf
target extended_remote /dev/ttyACM0
monitor swdp_scan
attach 1
load
run

To exit the gdb session type <Ctrl>-C and <Ctrl>-D. It is useful to add the following to the .gdbinit to make the flashing and debugging easier:

set target-async on
set confirm off
set mem inaccessible-by-default off
#set debug remote 1
tar ext /dev/ttyACM0
mon version
mon swdp_scan
att 1

Having this in your .gdbinit boils down the flashing/debugging process to:

cd examples/stm32/f1/stm32vl-discovery/miniblink
arm-none-eabi-gdb miniblink.elf
load
run

ST-Link (st-util)

This example uses the st-util by texane that you can find on GitHub.

cd examples/stm32/f1/stm32vl-discovery/miniblink
arm-none-eabi-gdb miniblink.elf
tar extended-remote :4242
load
run

Reuse

If you want to use libopencm3 in your own project, this examples repository shows the general way. (If there's interest, we can make a stub template repository)

  1. Create an empty repository

    mkdir mycoolrobot && cd mycoolrobot && git init .
    
  2. Add libopencm3 as a submodule

    git submodule add https://github.com/libopencm3/libopencm3
    
  3. Grab a copy of the basic rules These urls grab the latest from the libopencm3-examples repository

    wget \
      https://raw.githubusercontent.com/libopencm3/libopencm3-examples/master/examples/rules.mk \
      -O libopencm3.rules.mk
    
  4. Grab a copy of your target Makefile in this case, for STM32L1

    wget \  
      https://raw.githubusercontent.com/libopencm3/libopencm3-examples/master/examples/stm32/l1/Makefile.include \  
      -O libopencm3.target.mk
    
  5. Edit paths in libopencm3.target.mk
    Edit the last line of libopencm3.target.mk and change the include to read include ../libopencm3.rules.mk (the amount of .. depends on where you put your project in the next step..

  6. beg/borrow/steal an example project For sanity's sake, use the same target as the makefile you grabbed up above)

    cp -a \
      somewhere/libopencm3-examples/examples/stm32/l1/stm32ldiscovery/miniblink \
      myproject
    

Add the path to OPENCM3_DIR, and modify the path to makefile include

diff -u
---
2014-01-24 21:10:52.687477831 +0000
+++ Makefile    2014-03-23 12:27:57.696088076 +0000
@@ -19,7 +19,8 @@
 
 BINARY = miniblink
 
+OPENCM3_DIR=../libopencm3
 LDSCRIPT = $(OPENCM3_DIR)/lib/stm32/l1/stm32l15xxb.ld
 
-include ../../Makefile.include
+include ../libopencm3.target.mk

You're done :)

You need to run "make" inside the libopencm3 directory once to build the library, then you can just run make/make clean in your project directory as often as you like.