micropython/ports/rp2/CMakeLists.txt

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cmake_minimum_required(VERSION 3.13)
# Set build type to reduce firmware size
if(NOT CMAKE_BUILD_TYPE)
set(CMAKE_BUILD_TYPE MinSizeRel)
endif()
# Set main target and component locations
set(MICROPY_TARGET firmware)
get_filename_component(MICROPY_DIR "../.." ABSOLUTE)
if (PICO_SDK_PATH_OVERRIDE)
set(PICO_SDK_PATH ${PICO_SDK_PATH_OVERRIDE})
else()
set(PICO_SDK_PATH ../../lib/pico-sdk)
endif()
# Use the local tinyusb instead of the one in pico-sdk
set(PICO_TINYUSB_PATH ${MICROPY_DIR}/lib/tinyusb)
# Use the local lwip instead of the one in pico-sdk
set(PICO_LWIP_PATH ${MICROPY_DIR}/lib/lwip)
# Use the local btstack instead of the one in pico-sdk
set(PICO_BTSTACK_PATH ${MICROPY_DIR}/lib/btstack)
# Set the location of this port's directory.
set(MICROPY_PORT_DIR ${CMAKE_CURRENT_LIST_DIR})
# Set the board if it's not already set.
if(NOT MICROPY_BOARD)
set(MICROPY_BOARD RPI_PICO)
endif()
# Set the board directory and check that it exists.
if(NOT MICROPY_BOARD_DIR)
set(MICROPY_BOARD_DIR ${MICROPY_PORT_DIR}/boards/${MICROPY_BOARD})
endif()
get_filename_component(MICROPY_BOARD_DIR ${MICROPY_BOARD_DIR} ABSOLUTE)
if(NOT EXISTS ${MICROPY_BOARD_DIR}/mpconfigboard.cmake)
message(FATAL_ERROR "Invalid MICROPY_BOARD specified: ${MICROPY_BOARD}")
endif()
set(MICROPY_USER_FROZEN_MANIFEST ${MICROPY_FROZEN_MANIFEST})
# Include board config, it may override MICROPY_FROZEN_MANIFEST
include(${MICROPY_BOARD_DIR}/mpconfigboard.cmake)
# Set the PICO_BOARD if it's not already set (allow a board to override it).
if(NOT PICO_BOARD)
string(TOLOWER ${MICROPY_BOARD} PICO_BOARD)
endif()
# Set the amount of C heap, if it's not already set.
# If a board uses malloc then it must set this to at least 4096.
if(NOT MICROPY_C_HEAP_SIZE)
set(MICROPY_C_HEAP_SIZE 0)
endif()
# Enable extmod components that will be configured by extmod.cmake.
# A board may also have enabled additional components.
set(MICROPY_SSL_MBEDTLS ON)
# Use the local cyw43_driver instead of the one in pico-sdk
if (MICROPY_PY_NETWORK_CYW43)
set(PICO_CYW43_DRIVER_PATH ${MICROPY_DIR}/lib/cyw43-driver)
endif()
# Necessary submodules for all boards.
string(CONCAT GIT_SUBMODULES "${GIT_SUBMODULES} " lib/mbedtls)
string(CONCAT GIT_SUBMODULES "${GIT_SUBMODULES} " lib/tinyusb)
# Include component cmake fragments
include(${MICROPY_DIR}/py/py.cmake)
include(${MICROPY_DIR}/extmod/extmod.cmake)
include(${PICO_SDK_PATH}/pico_sdk_init.cmake)
# Define the top-level project
project(${MICROPY_TARGET})
pico_sdk_init()
include(${MICROPY_DIR}/py/usermod.cmake)
add_executable(${MICROPY_TARGET})
set(MICROPY_QSTRDEFS_PORT
${MICROPY_PORT_DIR}/qstrdefsport.h
)
set(MICROPY_SOURCE_LIB
${MICROPY_DIR}/lib/littlefs/lfs1.c
${MICROPY_DIR}/lib/littlefs/lfs1_util.c
${MICROPY_DIR}/lib/littlefs/lfs2.c
${MICROPY_DIR}/lib/littlefs/lfs2_util.c
${MICROPY_DIR}/lib/oofatfs/ff.c
${MICROPY_DIR}/lib/oofatfs/ffunicode.c
${MICROPY_DIR}/shared/netutils/dhcpserver.c
${MICROPY_DIR}/shared/netutils/netutils.c
${MICROPY_DIR}/shared/netutils/trace.c
${MICROPY_DIR}/shared/readline/readline.c
${MICROPY_DIR}/shared/runtime/gchelper_thumb1.s
${MICROPY_DIR}/shared/runtime/gchelper_native.c
${MICROPY_DIR}/shared/runtime/interrupt_char.c
${MICROPY_DIR}/shared/runtime/mpirq.c
${MICROPY_DIR}/shared/runtime/pyexec.c
${MICROPY_DIR}/shared/runtime/stdout_helpers.c
${MICROPY_DIR}/shared/runtime/softtimer.c
${MICROPY_DIR}/shared/runtime/sys_stdio_mphal.c
${MICROPY_DIR}/shared/timeutils/timeutils.c
${MICROPY_DIR}/shared/tinyusb/mp_cdc_common.c
${MICROPY_DIR}/shared/tinyusb/mp_usbd.c
${MICROPY_DIR}/shared/tinyusb/mp_usbd_descriptor.c
)
set(MICROPY_SOURCE_DRIVERS
${MICROPY_DIR}/drivers/bus/softspi.c
${MICROPY_DIR}/drivers/dht/dht.c
)
set(MICROPY_SOURCE_PORT
fatfs_port.c
help.c
machine_bitstream.c
machine_i2c.c
machine_pin.c
machine_rtc.c
machine_spi.c
machine_timer.c
main.c
modrp2.c
mphalport.c
mpnetworkport.c
mpthreadport.c
mutex_extra.c
pendsv.c
rp2_flash.c
rp2_pio.c
rp2/rp2_dma: Introduce a new rp2.DMA class for control over DMA xfers. This commit implements fairly complete support for the DMA controller in the rp2 series of microcontrollers. It provides a class for accessing the DMA channels through a high-level, Pythonic interface, and functions for setting and manipulating the DMA channel configurations. Creating an instance of the rp2.DMA class claims one of the processor's DMA channels. A sensible, per-channel default value for the ctrl register can be fetched from the DMA.pack_ctrl() function, and the components of this register can be set via keyword arguments to pack_ctrl(). The read, write, count and ctrl attributes of the DMA class provide read/write access to the respective registers of the DMA controller. The config() method allows any or all of these values to be set simultaneously and adds a trigger keyword argument to allow the setup to immediately be triggered. The read and write attributes (or keywords in config()) accept either actual addresses or any object that supports the buffer interface. The active() method provides read/write control of the channel's activity, allowing the user to start and stop the channel and test if it is running. Standard MicroPython interrupt handlers are supported through the irq() method and the channel can be released either by deleting it and allowing it to be garbage-collected or with the explicit close() method. Direct, unfettered access to the DMA controllers registers is provided through a proxy memoryview() object returned by the DMA.registers attribute that maps directly onto the memory-mapped registers. This is necessary for more fine-grained control and is helpful for allowing chaining of DMA channels. As a simple example, using DMA to do a fast memory copy just needs: src = bytearray(32*1024) dest = bytearray(32*1024) dma = rp2.DMA() dma.config(read=src, write=dest, count=len(src) // 4, ctrl=dma.pack_ctrl(), trigger=True) # Wait for completion while dma.active(): pass This API aims to strike a balance between simplicity and comprehensiveness. Signed-off-by: Nicko van Someren <nicko@nicko.org> Signed-off-by: Damien George <damien@micropython.org>
2023-09-30 23:54:47 +01:00
rp2_dma.c
uart.c
usbd.c
msc_disk.c
mbedtls/mbedtls_port.c
${CMAKE_BINARY_DIR}/pins_${MICROPY_BOARD}.c
)
set(MICROPY_SOURCE_QSTR
${MICROPY_SOURCE_PY}
${MICROPY_DIR}/shared/readline/readline.c
${MICROPY_DIR}/shared/runtime/mpirq.c
${MICROPY_DIR}/shared/runtime/sys_stdio_mphal.c
${MICROPY_PORT_DIR}/machine_adc.c
${MICROPY_PORT_DIR}/machine_i2c.c
${MICROPY_PORT_DIR}/machine_pin.c
${MICROPY_PORT_DIR}/machine_rtc.c
${MICROPY_PORT_DIR}/machine_spi.c
${MICROPY_PORT_DIR}/machine_timer.c
${MICROPY_PORT_DIR}/machine_uart.c
${MICROPY_PORT_DIR}/machine_wdt.c
${MICROPY_PORT_DIR}/modrp2.c
${MICROPY_PORT_DIR}/modos.c
${MICROPY_PORT_DIR}/rp2_flash.c
${MICROPY_PORT_DIR}/rp2_pio.c
rp2/rp2_dma: Introduce a new rp2.DMA class for control over DMA xfers. This commit implements fairly complete support for the DMA controller in the rp2 series of microcontrollers. It provides a class for accessing the DMA channels through a high-level, Pythonic interface, and functions for setting and manipulating the DMA channel configurations. Creating an instance of the rp2.DMA class claims one of the processor's DMA channels. A sensible, per-channel default value for the ctrl register can be fetched from the DMA.pack_ctrl() function, and the components of this register can be set via keyword arguments to pack_ctrl(). The read, write, count and ctrl attributes of the DMA class provide read/write access to the respective registers of the DMA controller. The config() method allows any or all of these values to be set simultaneously and adds a trigger keyword argument to allow the setup to immediately be triggered. The read and write attributes (or keywords in config()) accept either actual addresses or any object that supports the buffer interface. The active() method provides read/write control of the channel's activity, allowing the user to start and stop the channel and test if it is running. Standard MicroPython interrupt handlers are supported through the irq() method and the channel can be released either by deleting it and allowing it to be garbage-collected or with the explicit close() method. Direct, unfettered access to the DMA controllers registers is provided through a proxy memoryview() object returned by the DMA.registers attribute that maps directly onto the memory-mapped registers. This is necessary for more fine-grained control and is helpful for allowing chaining of DMA channels. As a simple example, using DMA to do a fast memory copy just needs: src = bytearray(32*1024) dest = bytearray(32*1024) dma = rp2.DMA() dma.config(read=src, write=dest, count=len(src) // 4, ctrl=dma.pack_ctrl(), trigger=True) # Wait for completion while dma.active(): pass This API aims to strike a balance between simplicity and comprehensiveness. Signed-off-by: Nicko van Someren <nicko@nicko.org> Signed-off-by: Damien George <damien@micropython.org>
2023-09-30 23:54:47 +01:00
${MICROPY_PORT_DIR}/rp2_dma.c
${CMAKE_BINARY_DIR}/pins_${MICROPY_BOARD}.c
)
set(PICO_SDK_COMPONENTS
cmsis_core
hardware_adc
hardware_base
hardware_clocks
hardware_dma
hardware_flash
hardware_gpio
hardware_i2c
hardware_irq
hardware_pio
hardware_pll
hardware_pwm
hardware_regs
hardware_rtc
hardware_spi
hardware_structs
hardware_sync
hardware_timer
hardware_uart
hardware_watchdog
hardware_xosc
pico_base_headers
pico_binary_info
pico_bootrom
pico_multicore
pico_platform
pico_stdio
pico_stdlib
pico_sync
pico_time
pico_unique_id
pico_util
tinyusb_common
tinyusb_device
)
# Use our custom pico_float_micropython float implementation. This is needed for two reasons:
# - to fix inf handling in pico-sdk's __wrap___aeabi_fadd();
# - so we can use our own libm functions, to fix inaccuracies in the pico-sdk versions.
pico_set_float_implementation(${MICROPY_TARGET} micropython)
# Define our custom pico_float_micropython component.
pico_add_library(pico_float_micropython)
# pico_float_micropython: add pico-sdk float and our libm source files.
target_sources(pico_float_micropython INTERFACE
${PICO_SDK_PATH}/src/rp2_common/pico_float/float_aeabi.S
${PICO_SDK_PATH}/src/rp2_common/pico_float/float_init_rom.c
${PICO_SDK_PATH}/src/rp2_common/pico_float/float_v1_rom_shim.S
${MICROPY_SOURCE_LIB_LIBM}
${MICROPY_SOURCE_LIB_LIBM_SQRT_SW}
${MICROPY_PORT_DIR}/libm_extra.c
)
# pico_float_micropython: wrap low-level floating-point ops, to call the pico-sdk versions.
pico_wrap_function(pico_float_micropython __aeabi_fdiv)
pico_wrap_function(pico_float_micropython __aeabi_fmul)
pico_wrap_function(pico_float_micropython __aeabi_frsub)
pico_wrap_function(pico_float_micropython __aeabi_fsub)
pico_wrap_function(pico_float_micropython __aeabi_cfcmpeq)
pico_wrap_function(pico_float_micropython __aeabi_cfrcmple)
pico_wrap_function(pico_float_micropython __aeabi_cfcmple)
pico_wrap_function(pico_float_micropython __aeabi_fcmpeq)
pico_wrap_function(pico_float_micropython __aeabi_fcmplt)
pico_wrap_function(pico_float_micropython __aeabi_fcmple)
pico_wrap_function(pico_float_micropython __aeabi_fcmpge)
pico_wrap_function(pico_float_micropython __aeabi_fcmpgt)
pico_wrap_function(pico_float_micropython __aeabi_fcmpun)
pico_wrap_function(pico_float_micropython __aeabi_i2f)
pico_wrap_function(pico_float_micropython __aeabi_l2f)
pico_wrap_function(pico_float_micropython __aeabi_ui2f)
pico_wrap_function(pico_float_micropython __aeabi_ul2f)
pico_wrap_function(pico_float_micropython __aeabi_f2iz)
pico_wrap_function(pico_float_micropython __aeabi_f2lz)
pico_wrap_function(pico_float_micropython __aeabi_f2uiz)
pico_wrap_function(pico_float_micropython __aeabi_f2ulz)
pico_wrap_function(pico_float_micropython __aeabi_f2d)
if (MICROPY_PY_LWIP)
target_link_libraries(${MICROPY_TARGET} micropy_lib_lwip)
target_include_directories(${MICROPY_TARGET} PRIVATE
lwip_inc
)
target_compile_definitions(${MICROPY_TARGET} PRIVATE
MICROPY_PY_LWIP=1
)
endif()
if(MICROPY_PY_BLUETOOTH)
list(APPEND MICROPY_SOURCE_PORT mpbthciport.c)
target_compile_definitions(${MICROPY_TARGET} PRIVATE
MICROPY_PY_BLUETOOTH=1
MICROPY_PY_BLUETOOTH_USE_SYNC_EVENTS=1
MICROPY_PY_BLUETOOTH_ENABLE_CENTRAL_MODE=1
)
endif()
if (MICROPY_PY_BLUETOOTH_CYW43)
target_compile_definitions(${MICROPY_TARGET} PRIVATE
CYW43_ENABLE_BLUETOOTH=1
MICROPY_PY_BLUETOOTH_CYW43=1
)
if (MICROPY_BLUETOOTH_BTSTACK)
target_link_libraries(${MICROPY_TARGET}
pico_btstack_hci_transport_cyw43
)
endif()
endif()
if (MICROPY_BLUETOOTH_BTSTACK)
string(CONCAT GIT_SUBMODULES "${GIT_SUBMODULES} " lib/btstack)
list(APPEND MICROPY_SOURCE_PORT mpbtstackport.c)
include(${MICROPY_DIR}/extmod/btstack/btstack.cmake)
target_link_libraries(${MICROPY_TARGET} micropy_extmod_btstack)
target_compile_definitions(${MICROPY_TARGET} PRIVATE
MICROPY_BLUETOOTH_BTSTACK=1
MICROPY_BLUETOOTH_BTSTACK_CONFIG_FILE=\"btstack_inc/btstack_config.h\"
)
# For modbluetooth_btstack.c includes
get_target_property(BTSTACK_INCLUDE micropy_extmod_btstack INTERFACE_INCLUDE_DIRECTORIES)
list(APPEND MICROPY_INC_CORE ${BTSTACK_INCLUDE})
endif()
if(MICROPY_BLUETOOTH_NIMBLE)
string(CONCAT GIT_SUBMODULES "${GIT_SUBMODULES} " lib/mynewt-nimble)
if(NOT (${ECHO_SUBMODULES}) AND NOT EXISTS ${MICROPY_DIR}/lib/mynewt-nimble/nimble/host/include/host/ble_hs.h)
message(FATAL_ERROR " mynewt-nimble not initialized.\n Run 'make BOARD=${MICROPY_BOARD} submodules'")
endif()
list(APPEND MICROPY_SOURCE_PORT mpnimbleport.c)
target_compile_definitions(${MICROPY_TARGET} PRIVATE
MICROPY_BLUETOOTH_NIMBLE=1
MICROPY_BLUETOOTH_NIMBLE_BINDINGS_ONLY=0
MICROPY_PY_BLUETOOTH_ENABLE_PAIRING_BONDING=1
MICROPY_PY_BLUETOOTH_ENABLE_L2CAP_CHANNELS=1
)
target_compile_options(${MICROPY_TARGET} PRIVATE
# TODO: This flag is currently needed to make nimble build.
-Wno-unused-but-set-variable
)
include(${MICROPY_DIR}/extmod/nimble/nimble.cmake)
target_link_libraries(${MICROPY_TARGET} micropy_extmod_nimble)
get_target_property(NIMBLE_INCLUDE micropy_extmod_nimble INTERFACE_INCLUDE_DIRECTORIES)
list(APPEND MICROPY_INC_CORE ${NIMBLE_INCLUDE})
endif()
# tinyusb helper
target_include_directories(${MICROPY_TARGET} PRIVATE
${MICROPY_DIR}/shared/tinyusb/
)
if (MICROPY_PY_NETWORK_CYW43)
string(CONCAT GIT_SUBMODULES "${GIT_SUBMODULES} " lib/cyw43-driver)
if((NOT (${ECHO_SUBMODULES})) AND NOT EXISTS ${MICROPY_DIR}/lib/cyw43-driver/src/cyw43.h)
message(FATAL_ERROR " cyw43-driver not initialized.\n Run 'make BOARD=${MICROPY_BOARD} submodules'")
endif()
target_compile_definitions(${MICROPY_TARGET} PRIVATE
MICROPY_PY_NETWORK_CYW43=1
MICROPY_PY_SOCKET_DEFAULT_TIMEOUT_MS=30000 # default socket timeout
)
if (CMAKE_BUILD_TYPE MATCHES Debug)
target_compile_definitions(${MICROPY_TARGET} PRIVATE
CYW43_USE_STATS=1
)
endif()
list(APPEND MICROPY_SOURCE_PORT
machine_pin_cyw43.c
)
target_link_libraries(${MICROPY_TARGET}
cyw43_driver_picow
cmsis_core
)
target_include_directories(${MICROPY_TARGET} PRIVATE
${MICROPY_DIR}/lib/cyw43-driver/
)
endif()
if (MICROPY_PY_NETWORK_NINAW10)
target_compile_definitions(${MICROPY_TARGET} PRIVATE
MICROPY_PY_NETWORK_NINAW10=1
)
target_include_directories(${MICROPY_TARGET} PRIVATE
${MICROPY_DIR}/drivers/ninaw10/
)
# Enable NINA-W10 WiFi and Bluetooth drivers.
list(APPEND MICROPY_SOURCE_DRIVERS
${MICROPY_DIR}/drivers/ninaw10/nina_bt_hci.c
${MICROPY_DIR}/drivers/ninaw10/nina_wifi_drv.c
${MICROPY_DIR}/drivers/ninaw10/nina_wifi_bsp.c
${MICROPY_DIR}/drivers/ninaw10/machine_pin_nina.c
)
endif()
if (MICROPY_PY_NETWORK_WIZNET5K)
string(CONCAT GIT_SUBMODULES "${GIT_SUBMODULES} " lib/wiznet5k)
if((NOT (${ECHO_SUBMODULES})) AND NOT EXISTS ${MICROPY_DIR}/lib/wiznet5k/README.md)
message(FATAL_ERROR " wiznet5k not initialized.\n Run 'make BOARD=${MICROPY_BOARD} submodules'")
endif()
target_compile_definitions(${MICROPY_TARGET} PRIVATE
MICROPY_PY_NETWORK_WIZNET5K=1
WIZCHIP_PREFIXED_EXPORTS=1
_WIZCHIP_=${MICROPY_PY_NETWORK_WIZNET5K}
WIZCHIP_YIELD=mpy_wiznet_yield
)
if (MICROPY_PY_LWIP)
target_compile_definitions(${MICROPY_TARGET} PRIVATE
# When using MACRAW mode (with lwIP), maximum buffer space must be used for the raw socket
WIZCHIP_USE_MAX_BUFFER=1
)
endif()
target_include_directories(${MICROPY_TARGET} PRIVATE
${MICROPY_DIR}/lib/wiznet5k/
${MICROPY_DIR}/lib/wiznet5k/Ethernet/
)
list(APPEND MICROPY_SOURCE_LIB
${MICROPY_DIR}/lib/wiznet5k/Ethernet/W5100/w5100.c
${MICROPY_DIR}/lib/wiznet5k/Ethernet/W5100S/w5100s.c
${MICROPY_DIR}/lib/wiznet5k/Ethernet/W5200/w5200.c
${MICROPY_DIR}/lib/wiznet5k/Ethernet/W5300/w5300.c
${MICROPY_DIR}/lib/wiznet5k/Ethernet/W5500/w5500.c
${MICROPY_DIR}/lib/wiznet5k/Ethernet/socket.c
${MICROPY_DIR}/lib/wiznet5k/Ethernet/wizchip_conf.c
${MICROPY_DIR}/lib/wiznet5k/Internet/DNS/dns.c
${MICROPY_DIR}/lib/wiznet5k/Internet/DHCP/dhcp.c
)
endif()
# Add qstr sources for extmod and usermod, in case they are modified by components above.
list(APPEND MICROPY_SOURCE_QSTR
${MICROPY_SOURCE_EXTMOD}
${MICROPY_SOURCE_USERMOD}
)
# Define mpy-cross flags
set(MICROPY_CROSS_FLAGS -march=armv6m)
# Set the frozen manifest file
if (MICROPY_USER_FROZEN_MANIFEST)
set(MICROPY_FROZEN_MANIFEST ${MICROPY_USER_FROZEN_MANIFEST})
elseif (NOT MICROPY_FROZEN_MANIFEST)
set(MICROPY_FROZEN_MANIFEST ${MICROPY_PORT_DIR}/boards/manifest.py)
endif()
target_sources(${MICROPY_TARGET} PRIVATE
${MICROPY_SOURCE_PY}
${MICROPY_SOURCE_EXTMOD}
${MICROPY_SOURCE_LIB}
${MICROPY_SOURCE_DRIVERS}
${MICROPY_SOURCE_PORT}
)
target_link_libraries(${MICROPY_TARGET} micropy_lib_mbedtls)
target_link_libraries(${MICROPY_TARGET} usermod)
target_include_directories(${MICROPY_TARGET} PRIVATE
${MICROPY_INC_CORE}
${MICROPY_INC_USERMOD}
${MICROPY_BOARD_DIR}
"${MICROPY_PORT_DIR}"
"${CMAKE_BINARY_DIR}"
)
target_compile_options(${MICROPY_TARGET} PRIVATE
-Wall
-Werror
-g # always include debug information in the ELF
)
target_link_options(${MICROPY_TARGET} PRIVATE
-Wl,--defsym=__micropy_c_heap_size__=${MICROPY_C_HEAP_SIZE}
-Wl,--wrap=dcd_event_handler
)
set_source_files_properties(
${PICO_SDK_PATH}/src/rp2_common/pico_double/double_math.c
${PICO_SDK_PATH}/src/rp2_common/pico_float/float_math.c
PROPERTIES
COMPILE_OPTIONS "-Wno-error=uninitialized"
)
set_source_files_properties(
${PICO_TINYUSB_PATH}/src/portable/raspberrypi/rp2040/dcd_rp2040.c
${PICO_TINYUSB_PATH}/src/portable/raspberrypi/rp2040/rp2040_usb.c
PROPERTIES
COMPILE_OPTIONS "-Wno-error=array-bounds;-Wno-error=unused-but-set-variable"
)
target_compile_definitions(${MICROPY_TARGET} PRIVATE
FFCONF_H=\"${MICROPY_OOFATFS_DIR}/ffconf.h\"
LFS1_NO_MALLOC LFS1_NO_DEBUG LFS1_NO_WARN LFS1_NO_ERROR LFS1_NO_ASSERT
LFS2_NO_MALLOC LFS2_NO_DEBUG LFS2_NO_WARN LFS2_NO_ERROR LFS2_NO_ASSERT
PICO_FLOAT_PROPAGATE_NANS=1
PICO_STACK_SIZE=0x2000
PICO_CORE1_STACK_SIZE=0
PICO_PROGRAM_NAME="MicroPython"
PICO_NO_PROGRAM_VERSION_STRING=1 # do it ourselves in main.c
MICROPY_BUILD_TYPE="${CMAKE_C_COMPILER_ID} ${CMAKE_C_COMPILER_VERSION} ${CMAKE_BUILD_TYPE}"
PICO_NO_BI_STDIO_UART=1 # we call it UART REPL
PICO_RP2040_USB_DEVICE_ENUMERATION_FIX=1
)
target_link_libraries(${MICROPY_TARGET}
${PICO_SDK_COMPONENTS}
)
if (MICROPY_HW_ENABLE_DOUBLE_TAP)
# Enable double tap reset into bootrom.
target_link_libraries(${MICROPY_TARGET}
pico_bootsel_via_double_reset
)
endif()
# todo this is a bit brittle, but we want to move a few source files into RAM (which requires
# a linker script modification) until we explicitly add macro calls around the function
# defs to move them into RAM.
if (PICO_ON_DEVICE AND NOT PICO_NO_FLASH AND NOT PICO_COPY_TO_RAM)
pico_set_linker_script(${MICROPY_TARGET} ${CMAKE_CURRENT_LIST_DIR}/memmap_mp.ld)
endif()
pico_add_extra_outputs(${MICROPY_TARGET})
pico_find_compiler(PICO_COMPILER_SIZE ${PICO_GCC_TRIPLE}-size)
add_custom_command(TARGET ${MICROPY_TARGET}
POST_BUILD
COMMAND ${PICO_COMPILER_SIZE} --format=berkeley ${PROJECT_BINARY_DIR}/${MICROPY_TARGET}.elf
VERBATIM
)
# Collect all the include directories and compile definitions for the pico-sdk components.
foreach(comp ${PICO_SDK_COMPONENTS})
micropy_gather_target_properties(${comp})
micropy_gather_target_properties(${comp}_headers)
endforeach()
# Include the main MicroPython cmake rules.
include(${MICROPY_DIR}/py/mkrules.cmake)
set(MICROPY_BOARDS_DIR "${MICROPY_PORT_DIR}/boards")
set(GEN_PINS_AF_CSV "${MICROPY_BOARDS_DIR}/rp2_af.csv")
set(GEN_PINS_PREFIX "${MICROPY_BOARDS_DIR}/rp2_prefix.c")
set(GEN_PINS_MKPINS "${MICROPY_BOARDS_DIR}/make-pins.py")
set(GEN_PINS_SRC "${CMAKE_BINARY_DIR}/pins_${MICROPY_BOARD}.c")
set(GEN_PINS_HDR "${MICROPY_GENHDR_DIR}/pins.h")
if(EXISTS "${MICROPY_BOARDS_DIR}/${MICROPY_BOARD}/pins.csv")
set(GEN_PINS_BOARD_CSV "${MICROPY_BOARDS_DIR}/${MICROPY_BOARD}/pins.csv")
set(GEN_PINS_CSV_ARG --board-csv "${GEN_PINS_BOARD_CSV}")
endif()
target_sources(${MICROPY_TARGET} PRIVATE
${GEN_PINS_HDR}
)
# Generate pins
add_custom_command(
OUTPUT ${GEN_PINS_HDR} ${GEN_PINS_SRC}
COMMAND ${Python3_EXECUTABLE} ${GEN_PINS_MKPINS} ${GEN_PINS_CSV_ARG} --af-csv ${GEN_PINS_AF_CSV} --prefix ${GEN_PINS_PREFIX} --output-source ${GEN_PINS_SRC} --output-header ${GEN_PINS_HDR}
DEPENDS
${GEN_PINS_AF_CSV}
${GEN_PINS_BOARD_CSV}
${GEN_PINS_MKPINS}
${GEN_PINS_PREFIX}
${MICROPY_MPVERSION}
VERBATIM
COMMAND_EXPAND_LISTS
)