STMHAL_BUILD_DIR=vendor/micropython/stmhal/build-TREZORV2 help: ## show this help @awk 'BEGIN {FS = ":.*?## "} /^[a-zA-Z_-]+:.*?## / {printf "\033[36mmake %-15s\033[0m %s\n", $$1, $$2}' $(MAKEFILE_LIST) update: ## update git submodules git submodule update build: build_stmhal build_unix ## build both stmhal and unix micropython ports build_stmhal: update ## build stmhal port make -C vendor/micropython/stmhal build_unix: update ## build unix port (32-bit) make -C vendor/micropython/unix MICROPY_FORCE_32BIT=1 build_unix64: update ## build unix port (64-bit) make -C vendor/micropython/unix run_unix: ## run unix port cd src ; ../vendor/micropython/unix/micropython clean: clean_stmhal clean_unix ## clean all builds clean_stmhal: ## clean stmhal build make -C vendor/micropython/stmhal clean clean_unix: ## clean unix build make -C vendor/micropython/unix clean test: ## run unit tests cd src/tests ; ./run_tests.sh flash: ## flash firmware using st-flash st-flash write $(STMHAL_BUILD_DIR)/firmware0.bin 0x8000000 sleep 0.1 st-flash write $(STMHAL_BUILD_DIR)/firmware1.bin 0x8020000 openocd: ## start openocd which connects to the device openocd -f interface/stlink-v2.cfg -f target/stm32f4x.cfg gdb: ## start remote gdb session which connects to the openocd gdb $(STMHAL_BUILD_DIR)/firmware.elf -ex 'target remote localhost:3333' load: ## load contents of src into mass storage of trezor rm -rf /run/media/${USER}/PYBFLASH/* cp -a src/apps /run/media/${USER}/PYBFLASH/ cp -a src/lib /run/media/${USER}/PYBFLASH/ cp -a src/trezor /run/media/${USER}/PYBFLASH/ cp -a src/*.py /run/media/${USER}/PYBFLASH/ sync