forked from forks/qmk_firmware
Add WSL specific logic for avrdude device detection (#12392)
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@ -154,38 +154,43 @@ dfu-split-left: $(BUILD_DIR)/$(TARGET).hex cpfirmware check-size
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dfu-split-right: $(BUILD_DIR)/$(TARGET).hex cpfirmware check-size
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dfu-split-right: $(BUILD_DIR)/$(TARGET).hex cpfirmware check-size
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$(call EXEC_DFU,eeprom-righthand.eep)
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$(call EXEC_DFU,eeprom-righthand.eep)
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AVRDUDE_PROGRAMMER ?= avrdude
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define EXEC_AVRDUDE
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define EXEC_AVRDUDE
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USB= ;\
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list_devices() { \
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if $(GREP) -q -s Microsoft /proc/version; then \
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if $(GREP) -q -s icrosoft /proc/version; then \
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echo 'ERROR: AVR flashing cannot be automated within the Windows Subsystem for Linux (WSL) currently. Instead, take the .hex file generated and flash it using QMK Toolbox, AVRDUDE, AVRDUDESS, or XLoader.'; \
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wmic.exe path Win32_SerialPort get DeviceID 2>/dev/null | LANG=C perl -pne 's/COM(\d+)/COM.($$1-1)/e' | sed 's!COM!/dev/ttyS!' | xargs echo -n | sort; \
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else \
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else \
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ls /dev/tty*; \
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fi; \
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}; \
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USB= ;\
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printf "Detecting USB port, reset your controller now."; \
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printf "Detecting USB port, reset your controller now."; \
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TMP1=`mktemp`; \
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TMP1=`mktemp`; \
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TMP2=`mktemp`; \
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TMP2=`mktemp`; \
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ls /dev/tty* > $$TMP1; \
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list_devices > $$TMP1; \
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while [ -z $$USB ]; do \
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while [ -z $$USB ]; do \
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sleep 0.5; \
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sleep 0.5; \
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printf "."; \
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printf "."; \
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ls /dev/tty* > $$TMP2; \
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list_devices > $$TMP2; \
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USB=`comm -13 $$TMP1 $$TMP2 | $(GREP) -o '/dev/tty.*'`; \
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USB=`comm -13 $$TMP1 $$TMP2 | $(GREP) -o '/dev/tty.*'`; \
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mv $$TMP2 $$TMP1; \
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mv $$TMP2 $$TMP1; \
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done; \
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done; \
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rm $$TMP1; \
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rm $$TMP1; \
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echo ""; \
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echo ""; \
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echo "Device $$USB has appeared; assuming it is the controller."; \
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echo "Device $$USB has appeared; assuming it is the controller."; \
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if $(GREP) -q -s 'MINGW\|MSYS' /proc/version; then \
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if $(GREP) -q -s 'MINGW\|MSYS\|icrosoft' /proc/version; then \
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USB=`echo "$$USB" | perl -pne 's/\/dev\/ttyS(\d+)/COM.($$1+1)/e'`; \
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USB=`echo "$$USB" | LANG=C perl -pne 's/\/dev\/ttyS(\d+)/COM.($$1+1)/e'`; \
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echo "Remapped MSYS2 USB port to $$USB"; \
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echo "Remapped USB port to $$USB"; \
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sleep 1; \
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sleep 1; \
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else \
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else \
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printf "Waiting for $$USB to become writable."; \
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printf "Waiting for $$USB to become writable."; \
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while [ ! -w "$$USB" ]; do sleep 0.5; printf "."; done; echo ""; \
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while [ ! -w "$$USB" ]; do sleep 0.5; printf "."; done; echo ""; \
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fi; \
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fi; \
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if [ -z "$(1)" ]; then \
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if [ -z "$(1)" ]; then \
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avrdude -p $(MCU) -c avr109 -P $$USB -U flash:w:$(BUILD_DIR)/$(TARGET).hex; \
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$(AVRDUDE_PROGRAMMER) -p $(MCU) -c avr109 -P $$USB -U flash:w:$(BUILD_DIR)/$(TARGET).hex; \
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else \
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else \
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avrdude -p $(MCU) -c avr109 -P $$USB -U flash:w:$(BUILD_DIR)/$(TARGET).hex -U eeprom:w:$(QUANTUM_PATH)/split_common/$(1); \
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$(AVRDUDE_PROGRAMMER) -p $(MCU) -c avr109 -P $$USB -U flash:w:$(BUILD_DIR)/$(TARGET).hex -U eeprom:w:$(QUANTUM_PATH)/split_common/$(1); \
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fi \
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fi
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fi
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endef
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endef
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@ -204,7 +209,7 @@ avrdude-split-right: $(BUILD_DIR)/$(TARGET).hex check-size cpfirmware
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$(call EXEC_AVRDUDE,eeprom-righthand.eep)
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$(call EXEC_AVRDUDE,eeprom-righthand.eep)
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define EXEC_USBASP
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define EXEC_USBASP
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avrdude -p $(AVRDUDE_MCU) -c usbasp -U flash:w:$(BUILD_DIR)/$(TARGET).hex
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$(AVRDUDE_PROGRAMMER) -p $(AVRDUDE_MCU) -c usbasp -U flash:w:$(BUILD_DIR)/$(TARGET).hex
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endef
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endef
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usbasp: $(BUILD_DIR)/$(TARGET).hex check-size cpfirmware
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usbasp: $(BUILD_DIR)/$(TARGET).hex check-size cpfirmware
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