unleashed-firmware/SConstruct
hedger 1a8f6dbed8
toolchain: v38; clangd as default language server (#3774)
* libs: removed cxxheaderparser submodule, expecting one from toolchain
* toolchain: v38
* vscode: now using clangd from toolchain
* vscode: clangd path in config is now generated by fbt
* vscode, fbt: improved clangd path generation
* fbt: fixed LANG_SERVER handling; switched to clangd as default
* vscode: removed deprecated options from config
* ufbt: project template: updated clang-format, added clangd config
* ufbt: now using clangd as default language server
* ufbt: now using clangd as default language server
2024-07-15 10:56:21 +09:00

447 lines
11 KiB
Python

#
# Main Flipper Build System entry point
#
# This file is evaluated by scons (the build system) every time fbt is invoked.
# Scons constructs all referenced environments & their targets' dependency
# trees on startup. So, to keep startup time as low as possible, we're hiding
# construction of certain targets behind command-line options.
import os
from fbt.util import open_browser_action
DefaultEnvironment(tools=[])
EnsurePythonVersion(3, 8)
# Progress(["OwO\r", "owo\r", "uwu\r", "owo\r"], interval=15)
# This environment is created only for loading options & validating file/dir existence
fbt_variables = SConscript("site_scons/commandline.scons")
cmd_environment = Environment(
toolpath=["#/scripts/fbt_tools"],
tools=[
("fbt_help", {"vars": fbt_variables}),
],
variables=fbt_variables,
)
# Building basic environment - tools, utility methods, cross-compilation
# settings, gcc flags for Cortex-M4, basic builders and more
coreenv = SConscript(
"site_scons/environ.scons",
exports={"VAR_ENV": cmd_environment},
toolpath=["#/scripts/fbt_tools"],
)
SConscript("site_scons/cc.scons", exports={"ENV": coreenv})
# Create a separate "dist" environment and add construction envs to it
distenv = coreenv.Clone(
tools=[
"fbt_dist",
"fbt_debugopts",
"openocd",
"blackmagic",
"jflash",
"doxygen",
"textfile",
],
ENV=os.environ,
UPDATE_BUNDLE_DIR="dist/${DIST_DIR}/f${TARGET_HW}-update-${DIST_SUFFIX}",
)
firmware_env = distenv.AddFwProject(
base_env=coreenv,
fw_type="firmware",
fw_env_key="FW_ENV",
)
# If enabled, initialize updater-related targets
if GetOption("fullenv") or any(
filter(lambda target: "updater" in target or "flash_usb" in target, BUILD_TARGETS)
):
updater_env = distenv.AddFwProject(
base_env=coreenv,
fw_type="updater",
fw_env_key="UPD_ENV",
)
# Target for self-update package
dist_basic_arguments = [
"${ARGS}",
"--bundlever",
"${UPDATE_VERSION_STRING}",
]
dist_radio_arguments = [
"--radio",
"${ROOT_DIR.abspath}/${COPRO_STACK_BIN_DIR}/${COPRO_STACK_BIN}",
"--radiotype",
"${COPRO_STACK_TYPE}",
"${COPRO_DISCLAIMER}",
"--obdata",
"${ROOT_DIR.abspath}/${COPRO_OB_DATA}",
"--stackversion",
"${COPRO_CUBE_VERSION}",
]
dist_resource_arguments = [
"-r",
firmware_env.subst("${RESOURCES_ROOT}"),
]
dist_splash_arguments = (
[
"--splash",
distenv.subst("assets/slideshow/$UPDATE_SPLASH"),
]
if distenv["UPDATE_SPLASH"]
else []
)
selfupdate_dist = distenv.DistCommand(
"updater_package",
(distenv["DIST_DEPENDS"], firmware_env["FW_RESOURCES_MANIFEST"]),
DIST_EXTRA=[
*dist_basic_arguments,
*dist_radio_arguments,
*dist_resource_arguments,
*dist_splash_arguments,
],
)
selfupdate_min_dist = distenv.DistCommand(
"updater_minpackage",
distenv["DIST_DEPENDS"],
DIST_EXTRA=dist_basic_arguments,
)
# Updater debug
distenv.PhonyTarget(
"updater_debug",
"${GDBPYCOM}",
source=updater_env["FW_ELF"],
GDBREMOTE="${OPENOCD_GDB_PIPE}",
)
distenv.PhonyTarget(
"updater_blackmagic",
"${GDBPYCOM}",
source=updater_env["FW_ELF"],
GDBOPTS=distenv.subst("$GDBOPTS_BLACKMAGIC"),
GDBREMOTE="${BLACKMAGIC_ADDR}",
)
# Installation over USB & CLI
usb_update_package = distenv.AddUsbFlashTarget(
"#build/usbinstall.flag",
(firmware_env["FW_RESOURCES_MANIFEST"], selfupdate_dist),
)
distenv.Alias("flash_usb_full", usb_update_package)
usb_minupdate_package = distenv.AddUsbFlashTarget(
"#build/minusbinstall.flag", (selfupdate_min_dist,)
)
distenv.Alias("flash_usb", usb_minupdate_package)
# Target for copying & renaming binaries to dist folder
basic_dist = distenv.DistCommand("fw_dist", distenv["DIST_DEPENDS"])
distenv.Default(basic_dist)
dist_dir_name = distenv.GetProjetDirName()
dist_dir = distenv.Dir(f"#/dist/{dist_dir_name}")
external_apps_artifacts = firmware_env["FW_EXTAPPS"]
external_app_list = external_apps_artifacts.application_map.values()
fap_dist = [
distenv.Install(
dist_dir.Dir("debug_elf"),
list(app_artifact.debug for app_artifact in external_app_list),
),
*(
distenv.Install(
dist_dir.File(dist_entry[1]).dir,
app_artifact.compact,
)
for app_artifact in external_app_list
for dist_entry in app_artifact.dist_entries
),
]
Depends(
fap_dist,
list(app_artifact.validator for app_artifact in external_app_list),
)
Alias("fap_dist", fap_dist)
# Copy all faps to device
fap_deploy = distenv.PhonyTarget(
"fap_deploy",
Action(
[
[
"${PYTHON3}",
"${FBT_SCRIPT_DIR}/storage.py",
"-p",
"${FLIP_PORT}",
"send",
"${SOURCE}",
"/ext/apps",
"${ARGS}",
]
]
),
source=firmware_env.Dir(("${RESOURCES_ROOT}/apps")),
)
Depends(fap_deploy, firmware_env["FW_RESOURCES_MANIFEST"])
# Target for bundling core2 package for qFlipper
copro_dist = distenv.CoproBuilder(
"#/build/core2_firmware.tgz",
[],
)
distenv.AlwaysBuild(copro_dist)
distenv.Alias("copro_dist", copro_dist)
firmware_flash = distenv.AddFwFlashTarget(firmware_env)
distenv.Alias("flash", firmware_flash)
# To be implemented in fwflash.py
firmware_jflash = distenv.AddJFlashTarget(firmware_env)
distenv.Alias("jflash", firmware_jflash)
distenv.PhonyTarget(
"gdb_trace_all",
[["${GDB}", "${GDBOPTS}", "${SOURCES}", "${GDBFLASH}"]],
source=firmware_env["FW_ELF"],
GDBOPTS="${GDBOPTS_BASE}",
GDBREMOTE="${OPENOCD_GDB_PIPE}",
GDBFLASH=[
"-ex",
"thread apply all bt",
"-ex",
"quit",
],
)
# Debugging firmware
firmware_debug = distenv.PhonyTarget(
"debug",
"${GDBPYCOM}",
source=firmware_env["FW_ELF"],
GDBOPTS="${GDBOPTS_BASE}",
GDBREMOTE="${OPENOCD_GDB_PIPE}",
FBT_FAP_DEBUG_ELF_ROOT=firmware_env["FBT_FAP_DEBUG_ELF_ROOT"],
)
distenv.Depends(firmware_debug, firmware_flash)
distenv.PhonyTarget(
"blackmagic",
"${GDBPYCOM}",
source=firmware_env["FW_ELF"],
GDBOPTS="${GDBOPTS_BASE} ${GDBOPTS_BLACKMAGIC}",
GDBREMOTE="${BLACKMAGIC_ADDR}",
FBT_FAP_DEBUG_ELF_ROOT=firmware_env["FBT_FAP_DEBUG_ELF_ROOT"],
)
# Debug alien elf
debug_other_opts = [
"-ex",
"source ${FBT_DEBUG_DIR}/PyCortexMDebug/PyCortexMDebug.py",
# "-ex",
# "source ${FBT_DEBUG_DIR}/FreeRTOS/FreeRTOS.py",
"-ex",
"source ${FBT_DEBUG_DIR}/flipperversion.py",
"-ex",
"fw-version",
]
distenv.PhonyTarget(
"debug_other",
"${GDBPYCOM}",
GDBOPTS="${GDBOPTS_BASE}",
GDBREMOTE="${OPENOCD_GDB_PIPE}",
GDBPYOPTS=debug_other_opts,
)
distenv.PhonyTarget(
"debug_other_blackmagic",
"${GDBPYCOM}",
GDBOPTS="${GDBOPTS_BASE} ${GDBOPTS_BLACKMAGIC}",
GDBREMOTE="${BLACKMAGIC_ADDR}",
GDBPYOPTS=debug_other_opts,
)
# Just start OpenOCD
distenv.PhonyTarget(
"openocd",
[["${OPENOCDCOM}", "${ARGS}"]],
)
# Linter
distenv.PhonyTarget(
"lint",
[
[
"${PYTHON3}",
"${FBT_SCRIPT_DIR}/lint.py",
"check",
"${LINT_SOURCES}",
"${ARGS}",
]
],
LINT_SOURCES=[n.srcnode() for n in firmware_env["LINT_SOURCES"]],
)
distenv.PhonyTarget(
"format",
[
[
"${PYTHON3}",
"${FBT_SCRIPT_DIR}/lint.py",
"format",
"${LINT_SOURCES}",
"${ARGS}",
]
],
LINT_SOURCES=[n.srcnode() for n in firmware_env["LINT_SOURCES"]],
)
# PY_LINT_SOURCES contains recursively-built modules' SConscript files
# Here we add additional Python files residing in repo root
firmware_env.Append(
PY_LINT_SOURCES=[
# Py code folders
"site_scons",
"scripts",
"applications",
"applications_user",
"assets",
"targets",
# Extra files
"SConstruct",
"firmware.scons",
"fbt_options.py",
]
)
black_commandline = [
[
"@${PYTHON3}",
"-m",
"black",
"${PY_BLACK_ARGS}",
"${PY_LINT_SOURCES}",
"${ARGS}",
]
]
black_base_args = [
"--include",
'"(\\.scons|\\.py|SConscript|SConstruct|\\.fam)$"',
]
distenv.PhonyTarget(
"lint_py",
black_commandline,
PY_BLACK_ARGS=[
"--check",
"--diff",
*black_base_args,
],
PY_LINT_SOURCES=firmware_env["PY_LINT_SOURCES"],
)
distenv.PhonyTarget(
"format_py",
black_commandline,
PY_BLACK_ARGS=black_base_args,
PY_LINT_SOURCES=firmware_env["PY_LINT_SOURCES"],
)
# Start Flipper CLI via PySerial's miniterm
distenv.PhonyTarget(
"cli",
[
[
"${PYTHON3}",
"${FBT_SCRIPT_DIR}/serial_cli.py",
"-p",
"${FLIP_PORT}",
"${ARGS}",
]
],
)
# Update WiFi devboard firmware with release channel
distenv.PhonyTarget(
"devboard_flash",
[
[
"${PYTHON3}",
"${FBT_SCRIPT_DIR}/wifi_board.py",
"${ARGS}",
]
],
)
# Find blackmagic probe
distenv.PhonyTarget(
"get_blackmagic",
"@echo $( ${BLACKMAGIC_ADDR} $)",
)
# Find STLink probe ids
distenv.PhonyTarget(
"get_stlink",
distenv.Action(
lambda **_: distenv.GetDevices(),
None,
),
)
# Prepare vscode environment
vscode_dist = distenv.Install(
"#.vscode",
[
distenv.Glob("#.vscode/example/*.json", exclude="*.tmpl"),
distenv.Glob("#.vscode/example/${LANG_SERVER}/*.json"),
],
)
for template_file in distenv.Glob("#.vscode/example/*.tmpl"):
vscode_dist.append(
distenv.Substfile(
distenv.Dir("#.vscode").File(template_file.name.replace(".tmpl", "")),
template_file,
SUBST_DICT={
"@FBT_PLATFORM_EXECUTABLE_EXT@": ".exe" if os.name == "nt" else ""
},
)
)
distenv.Precious(vscode_dist)
distenv.NoClean(vscode_dist)
distenv.Alias("vscode_dist", (vscode_dist, firmware_env["FW_CDB"]))
# Configure shell with build tools
distenv.PhonyTarget(
"env",
"@echo $( ${FBT_SCRIPT_DIR.abspath}/toolchain/fbtenv.sh $)",
)
doxy_build = distenv.DoxyBuild(
"documentation/doxygen/build/html/index.html",
"documentation/doxygen/Doxyfile-awesome.cfg",
doxy_env_variables={
"DOXY_SRC_ROOT": Dir(".").abspath,
"DOXY_BUILD_DIR": Dir("documentation/doxygen/build").abspath,
"DOXY_CONFIG_DIR": "documentation/doxygen",
},
)
distenv.Alias("doxygen", doxy_build)
distenv.AlwaysBuild(doxy_build)
# Open generated documentation in browser
distenv.PhonyTarget("doxy", open_browser_action, source=doxy_build)