CLSH1001-Firmware/managed_components/espressif__tinyusb/examples/rules.mk
2024-03-05 16:09:49 -06:00

170 lines
4.2 KiB
Makefile

# ---------------------------------------
# Common make rules for all examples
# ---------------------------------------
# Set all as default goal
.DEFAULT_GOAL := all
# ---------------- GNU Make Start -----------------------
# ESP32-Sx and RP2040 has its own CMake build system
ifeq (,$(findstring $(FAMILY),espressif rp2040))
# ---------------------------------------
# Compiler Flags
# ---------------------------------------
CFLAGS += $(addprefix -I,$(INC))
# Verbose mode
ifeq ("$(V)","1")
$(info CFLAGS $(CFLAGS) ) $(info )
$(info LDFLAGS $(LDFLAGS)) $(info )
$(info ASFLAGS $(ASFLAGS)) $(info )
endif
# ---------------------------------------
# Rules
# ---------------------------------------
all: $(BUILD)/$(PROJECT).bin $(BUILD)/$(PROJECT).hex size
uf2: $(BUILD)/$(PROJECT).uf2
# We set vpath to point to the top of the tree so that the source files
# can be located. By following this scheme, it allows a single build rule
# to be used to compile all .c files.
vpath %.c . $(TOP)
vpath %.s . $(TOP)
vpath %.S . $(TOP)
include $(TOP)/tools/make/toolchain/arm_$(TOOLCHAIN)_rules.mk
OBJ_DIRS = $(sort $(dir $(OBJ)))
$(OBJ): | $(OBJ_DIRS)
$(OBJ_DIRS):
ifeq ($(CMDEXE),1)
-@$(MKDIR) $(subst /,\,$@)
else
@$(MKDIR) -p $@
endif
# UF2 generation, iMXRT need to strip to text only before conversion
ifneq ($(FAMILY),imxrt)
$(BUILD)/$(PROJECT).uf2: $(BUILD)/$(PROJECT).hex
@echo CREATE $@
$(PYTHON) $(TOP)/tools/uf2/utils/uf2conv.py -f $(UF2_FAMILY_ID) -c -o $@ $^
endif
copy-artifact: $(BUILD)/$(PROJECT).bin $(BUILD)/$(PROJECT).hex $(BUILD)/$(PROJECT).uf2
endif
# ---------------- GNU Make End -----------------------
.PHONY: clean
clean:
ifeq ($(CMDEXE),1)
rd /S /Q $(subst /,\,$(BUILD))
else
$(RM) -rf $(BUILD)
endif
# get depenecies
.PHONY: get-deps
get-deps:
$(PYTHON) $(TOP)/tools/get_deps.py $(DEPS_SUBMODULES)
.PHONY: size
size: $(BUILD)/$(PROJECT).elf
-@echo ''
@$(SIZE) $<
-@echo ''
# linkermap must be install previously at https://github.com/hathach/linkermap
linkermap: $(BUILD)/$(PROJECT).elf
@linkermap -v $<.map
# ---------------------------------------
# Flash Targets
# ---------------------------------------
# Jlink binary
ifeq ($(OS),Windows_NT)
JLINKEXE = JLink.exe
else
JLINKEXE = JLinkExe
endif
# Jlink Interface
JLINK_IF ?= swd
# Jlink script
define jlink_script
halt
loadfile $^
r
go
exit
endef
export jlink_script
# Flash using jlink
flash-jlink: $(BUILD)/$(PROJECT).hex
@echo "$$jlink_script" > $(BUILD)/$(BOARD).jlink
$(JLINKEXE) -device $(JLINK_DEVICE) -if $(JLINK_IF) -JTAGConf -1,-1 -speed auto -CommandFile $(BUILD)/$(BOARD).jlink
# Flash STM32 MCU using stlink with STM32 Cube Programmer CLI
flash-stlink: $(BUILD)/$(PROJECT).elf
STM32_Programmer_CLI --connect port=swd --write $< --go
$(BUILD)/$(PROJECT)-sunxi.bin: $(BUILD)/$(PROJECT).bin
$(PYTHON) $(TOP)/tools/mksunxi.py $< $@
flash-xfel: $(BUILD)/$(PROJECT)-sunxi.bin
xfel spinor write 0 $<
xfel reset
# Flash using pyocd
PYOCD_OPTION ?=
flash-pyocd: $(BUILD)/$(PROJECT).hex
pyocd flash -t $(PYOCD_TARGET) $(PYOCD_OPTION) $<
#pyocd reset -t $(PYOCD_TARGET)
# Flash using openocd
OPENOCD_OPTION ?=
flash-openocd: $(BUILD)/$(PROJECT).elf
openocd $(OPENOCD_OPTION) -c "program $< verify reset exit"
# flash with Black Magic Probe
# This symlink is created by https://github.com/blacksphere/blackmagic/blob/master/driver/99-blackmagic.rules
BMP ?= /dev/ttyBmpGdb
flash-bmp: $(BUILD)/$(PROJECT).elf
$(GDB) --batch -ex 'target extended-remote $(BMP)' -ex 'monitor swdp_scan' -ex 'attach 1' -ex load $<
debug-bmp: $(BUILD)/$(PROJECT).elf
$(GDB) -ex 'target extended-remote $(BMP)' -ex 'monitor swdp_scan' -ex 'attach 1' $<
#-------------- Artifacts --------------
# Create binary directory
$(BIN):
ifeq ($(CMDEXE),1)
@$(MKDIR) $(subst /,\,$@)
else
@$(MKDIR) -p $@
endif
# Copy binaries .elf, .bin, .hex, .uf2 to BIN for upload
# due to large size of combined artifacts, only uf2 is uploaded for now
copy-artifact: $(BIN)
@$(CP) $(BUILD)/$(PROJECT).uf2 $(BIN)
#@$(CP) $(BUILD)/$(PROJECT).bin $(BIN)
#@$(CP) $(BUILD)/$(PROJECT).hex $(BIN)
#@$(CP) $(BUILD)/$(PROJECT).elf $(BIN)
# Print out the value of a make variable.
# https://stackoverflow.com/questions/16467718/how-to-print-out-a-variable-in-makefile
print-%:
@echo $* = $($*)