# # For a description of the syntax of this configuration file, # see misc/tools/kconfig-language.txt. # mainmenu "Nuttx/$ARCH Configuration" config APPSDIR string option env="APPSDIR" menu "Build Setup" config EXPERIMENTAL bool "Prompt for development and/or incomplete code/drivers" config DEFAULT_SMALL bool "Default to smallest size" default n ---help--- When options are present, the default value for certain options will be the one the results in the smallest size (at a loss of featurs). The default is a fuller feature set at a larger size. NOTE: This option does not prevent you from overriding the default to select another alternative. Nor does it affect the settings that have already been selected in your configuration file. This applies only to new settings that require a default value. choice prompt "Build Host Platform" default HOST_LINUX config HOST_LINUX bool "Linux" config HOST_OSX bool "OSX" config HOST_WINDOWS bool "Windows" config HOST_OTHER bool "Other" endchoice choice prompt "Windows Build Environment" default WINDOWS_CYGWIN depends on HOST_WINDOWS config WINDOWS_NATIVE bool "Windows Native" ---help--- Build natively in a CMD.exe environment with Windows style paths (like C:\cgywin\home) config WINDOWS_CYGWIN bool "Cygwin" ---help--- Build natively in a Cygwin environment with POSIX style paths (like /cygdrive/c/cgywin/home) config WINDOWS_MSYS bool "MSYS" ---help--- Build natively in a Cygwin environment with POSIX style paths (like /cygdrive/c/cgywin/home) config WINDOWS_OTHER bool "Windows POSIX-like environment" ---help--- Build natively in another POSIX-like environment. Additional support may be necessary endchoice config WINDOWS_MKLINK bool "Use mklink" default n depends on WINDOWS_NATIVE ---help--- Use the mklink command to set up symbolic links when NuttX is configured. Otherwise, configuration directories will be copied to establish the configuration. If directories are copied, then some confusion can result ("Which version of the file did I modify?"). In that case, it is recommended that you re-build using 'make clean_context all'. That will cause the configured directories to be recopied on each build. NOTE: This option also (1) that you have administrator privileges, (2) that you are using Windows 2000 or better, and (3) that you are using the NTFS file system. Select 'n' is that is not the case. menu "Build Configuration" config APPS_DIR string "Application directory" default "../apps" if !WINDOWS_NATIVE default "..\apps" if WINDOWS_NATIVE ---help--- Identifies the directory that builds the application to link with NuttX. Default: ../apps This symbol must be assigned to the path to the application build directory *relative* to the NuttX top build directory. If you had an application directory and the NuttX directory each in separate directory trees like this: build |-nuttx | | | `- Makefile `-application | `- Makefile Then you would set APPS_DIR=../application. The application direction must contain Makefile and this make file must support the following targets: 1)libapps$(LIBEXT) (usually libapps.a). libapps.a is a static library ( an archive) that contains all of application object files. 2)clean. Do whatever is appropriate to clean the application directories for a fresh build. 3)distclean. Clean everything -- auto-generated files, symbolic links etc. -- so that the directory contents are the same as the contents in your configuration management system. This is only done when you change the NuttX configuration. 4)depend. Make or update the application build dependencies. When this application is invoked it will receive the setting TOPDIR like: $(MAKE) -C $(CONFIG_APPS_DIR) TOPDIR="$(TOPDIR)" TOPDIR is the full path to the NuttX directory. It can be used, for example, to include makefile fragments (e.g., .config or Make.defs) or to set up include file paths. choice prompt "Memory organization" default BUILD_FLAT config BUILD_FLAT bool "Flat address space" ---help--- Build NuttX as one large, executable "blob". All of the code within the blob can interrupt with all of the other code within the blob. There are no special privileges, protections, or restraints. config BUILD_PROTECTED bool "NuttX protected build" depends on ARCH_USE_MPU select LIB_SYSCALL select BUILD_2PASS ---help--- Builds NuttX and selected applications as two "blobs": A protected, privileged kernel blob and a separate unprivileged, user blob. This require sue of the two pass build with each blob being build on each pass. NOTE: This build configuration requires that the platform support a memory protection unit (MPU). Support, however, may not be implemented on all platforms. config BUILD_KERNEL bool "NuttX kernel build" depends on ARCH_USE_MMU && ARCH_ADDRENV && EXPERIMENTAL select LIB_SYSCALL ---help--- Builds NuttX as a separately compiled kernel. No applications are built. All user applications must reside in a file system where they can be loaded into memory for execution. NOTE: This build configuration requires that the platform support a memory management unit (MPU) and address environments. Support, however, may not be implemented on all platforms. endchoice # Build configuration config BUILD_2PASS bool "Two pass build" default n depends on !BUILD_KERNEL ---help--- Enables the two pass build options. Two-pass build options. If the 2 pass build option is selected, then these options configure the make system build a extra link object. This link object is assumed to be an incremental (relative) link object, but could be a static library (archive) (some modification to this Makefile would be required if PASS1_TARGET generates an archive). Pass 1 1ncremental (relative) link objects should be put into the processor-specific source directory (where other link objects will be created). If the pass1 object is an archive, it could go anywhere. if BUILD_2PASS config PASS1_TARGET string "Pass one target" default "all" ---help--- The name of the first pass build target. This can be specific build target, a special build target (all, default, etc.) or may just be left undefined. config PASS1_BUILDIR string "Pass one build directory" default "build" ---help--- The path, relative to the top NuttX build directory to directory that contains the Makefile to build the first pass object. The Makefile must support the following targets: The special target PASS1_TARGET (if defined) and the usual depend, clean, and distclean targets. config PASS1_OBJECT string "Pass one object" default "" ---help--- May be used to include an extra, pass1 object into the final link. This would probably be the object generated from the PASS1_TARGET. It may be available at link time in the arch//src directory. config NUTTX_USERSPACE hex "Beginning of user-space blob" default 0x0 depends on BUILD_PROTECTED ---help--- In the kernel build, the NuttX kernel and the user-space blob are built separately linked objects. NUTTX_USERSPACE provides the address where the user-space blob is loaded into memory. NuttX will expect to find and instance of struct userspace_s at this location. endif # Build 2-pass endmenu # Build Setup menu "Binary Output Formats" config RRLOAD_BINARY bool "rrload binary format" default n ---help--- Create nuttx.rr in the rrload binary format used with BSPs from www.ridgerun.com using the tools/mkimage.sh script. config INTELHEX_BINARY bool "Intel HEX binary format" default n ---help--- Create the nuttx.hex in the Intel HEX binary format that is used with many different loaders. This option will use the GNU objcopy program and should not be selected if you are not using the GNU toolchain. config MOTOROLA_SREC bool "Motorola S-Record binary format" default n ---help--- Create the nuttx.srec in the Motorola S-Record binary format that is used with many different loaders. This option will use the GNU objcopy program and should not be selected if you are not using the GNU toolchain. config RAW_BINARY bool "Raw binary format" default n ---help--- Create the nuttx.bin in the raw binary format that is used with many different loaders using the GNU objcopy program. This option should not be selected if you are not using the GNU toolchain. menuconfig UBOOT_UIMAGE bool "U-Boot uImage" select RAW_BINARY depends on !WINDOWS_NATIVE ---help--- Create the uImage binary used with U-Boot. if UBOOT_UIMAGE config UIMAGE_LOAD_ADDRESS hex "uImage load address" default 0x0 config UIMAGE_ENTRY_POINT hex "uImage entry point" default 0x0 endif endmenu # Binary Output Formats menu "Customize Header Files" config ARCH_STDINT_H bool "stdint.h" default n ---help--- The stdint.h header file can be found at nuttx/include/stdint.h. However, that header includes logic to redirect the inclusion of an architecture specific header file like: #ifdef CONFIG_ARCH_STDINT_H # include #else ... #endif Recall that that include path, include/arch, is a symbolic link and will refer to a version of stdint.h at nuttx/arch//include/stdint.h. config ARCH_STDBOOL_H bool "stdbool.h" default n ---help--- The stdbool.h header file can be found at nuttx/include/stdbool.h. However, that header includes logic to redirect the inclusion of an architecture specific header file like: #ifdef CONFIG_ARCH_STDBOOL_H # include #else ... #endif Recall that that include path, include/arch, is a symbolic link and will refer to a version of stdbool.h at nuttx/arch//include/stdbool.h. config ARCH_MATH_H bool "math.h" default n ---help--- There is also a re-directing version of math.h in the source tree. However, it resides out-of-the-way at include/nuttx/math.h because it conflicts too often with the system math.h. If ARCH_MATH_H=y is defined, however, the top-level makefile will copy the redirecting math.h header file from include/nuttx/math.h to include/math.h. math.h will then include the architecture-specific version of math.h that you must provide at nuttx/arch/>architecture #endif So for the architectures that define ARCH_MATH_H=y, include/math.h will be the redirecting math.h header file; for the architectures that don't select ARCH_MATH_H, the redirecting math.h header file will stay out-of-the-way in include/nuttx/. config ARCH_FLOAT_H bool "float.h" default n ---help--- The float.h header file defines the properties of your floating point implementation. It would always be best to use your toolchain's float.h header file but if none is available, a default float.h header file will provided if this option is selected. However there is no assurance that the settings in this float.h are actually correct for your platform! config ARCH_STDARG_H bool "stdarg.h" default n ---help--- There is also a redirecting version of stdarg.h in the source tree as well. It also resides out-of-the-way at include/nuttx/stdarg.h. This is because you should normally use your toolchain's stdarg.h file. But sometimes, your toolchain's stdarg.h file may have other header file dependencies and so may not be usable in the NuttX build environment. In those cases, you may have to create a architecture- specific stdarg.h header file at nuttx/arch//include/stdarg.h If ARCH_STDARG_H=y is defined, the top-level makefile will copy the re-directing stdarg.h header file from include/nuttx/stdarg.h to include/stdarg.h. So for the architectures that cannot use their toolchain's stdarg.h file, they can use this alternative by defining ARCH_STDARG_H=y and providing. If ARCH_STDARG_H, is not defined, then the stdarg.h header file will stay out-of-the-way in include/nuttx/. endmenu # Customize Header Files menu "Debug Options" config DEBUG bool "Enable Debug Features" default n ---help--- Enables built-in debug features. Selecting this option will (1) Enable debug assertions in the code, (2) enable extended parameter testing in many functions, and (3) enable support for debug output to the SYSLOG. Note that enabling this option by itself does not produce debug output. Debug output must also be selected on a subsystem-by-subsystem basis. config ARCH_HAVE_STACKCHECK bool default n config ARCH_HAVE_HEAPCHECK bool default n if DEBUG config DEBUG_VERBOSE bool "Enable Debug Verbose Output" default n ---help--- Enables verbose debug output (assuming debug features are enabled). As a general rule, when DEBUG is enabled only errors will be reported in the debug SYSLOG output. But if you also enable DEBUG_VERBOSE, then very chatty (and often annoying) output will be generated. This means there are two levels of debug output: errors-only and everything. comment "Subsystem Debug Options" config DEBUG_AUDIO bool "Audio Device Debug Output" default n ---help--- Enable low level debug SYSLOG output from the audio subsystem and device drivers. (disabled by default). Support for this debug option is architecture-specific and may not be available for some MCUs. config DEBUG_BINFMT bool "Binary Loader Debug Output" default n ---help--- Enable binary loader debug SYSLOG output (disabled by default) config DEBUG_CRYPTO bool "Crypto Debug Output" default n depends on CRYPTO ---help--- Enable Crypto debug SYSLOG output (disabled by default) config DEBUG_FS bool "File System Debug Output" default n ---help--- Enable file system debug SYSLOG output (disabled by default) config DEBUG_GRAPHICS bool "Graphics Debug Output" default n ---help--- Enable NX graphics debug SYSLOG output (disabled by default) config DEBUG_LIB bool "C Library Debug Output" default n ---help--- Enable C library debug SYSLOG output (disabled by default) config DEBUG_MM bool "Memory Manager Debug Output" default n ---help--- Enable memory management debug SYSLOG output (disabled by default) config DEBUG_SHM bool "Shared Memory Debug Output" default n depends on MM_SHM ---help--- Enable shared memory management debug SYSLOG output (disabled by default) config DEBUG_NET bool "Network Debug Output" default n depends on ARCH_HAVE_NET ---help--- Enable network debug SYSLOG output (disabled by default) config DEBUG_SCHED bool "Scheduler Debug Output" default n ---help--- Enable OS debug SYSLOG output (disabled by default) config DEBUG_SYSCALL bool "SYSCALL Debug Output" default n depends on LIB_SYSCALL ---help--- Enable very low level output related to system calls. This gives you basically a poor man's version of strace. comment "OS Function Debug Options" config DEBUG_DMA bool "DMA Debug Output" default n depends on ARCH_DMA ---help--- Enable DMA-releated debug SYSLOG output (disabled by default). Support for this debug option is architecture-specific and may not be available for some MCUs. config DEBUG_HEAP bool "Heap usage debug hooks" default n depends on ARCH_HAVE_HEAPCHECK ---help--- Enable hooks to check heap usage. Only supported by a few architectures. config DEBUG_IRQ bool "Interrupt Controller Debug Output" default n ---help--- Some (but not all) architectures support debug output to verify interrupt controller logic. If supported, then option will enable that output. This may interfere with normal operations! You should *not* enable interrupt controller debug unless you suspect that here is a problem with that logic. On some platforms, this option may even cause crashes! Use with care! config DEBUG_PAGING bool "Demand Paging Debug Output" default n depends on PAGING ---help--- Enable demand paging debug SYSLOG output (disabled by default) config DEBUG_STACK bool "Stack usage debug hooks" default n depends on ARCH_HAVE_STACKCHECK ---help--- Enable hooks to check stack usage. Only supported by a few architectures. comment "Driver Debug Options" config DEBUG_LCD bool "Low-level LCD Debug Output" default n depends on LCD ---help--- Enable low level debug SYSLOG output from the LCD driver (disabled by default). Support for this debug option is board-specific and may not be available for some boards. config DEBUG_LEDS bool "Low-level LED Debug Output" default n depends on ARCH_HAVE_LEDS ---help--- Enable low level debug from board-specific LED logic. Support for this debug option is board-specific and may not be available for some boards. config DEBUG_INPUT bool "Input Device Debug Output" default n depends on INPUT ---help--- Enable low level debug SYSLOG output from the input device drivers such as mice and touchscreens (disabled by default). Support for this debug option is board-specific and may not be available for some boards. config DEBUG_ANALOG bool "Analog Device Debug Output" default n ---help--- Enable low level debug SYSLOG output from the analog device drivers such as A/D and D/A converters (disabled by default). Support for this debug option is architecture-specific and may not be available for some MCUs. config DEBUG_CAN bool "CAN Debug Output" default n depends on CAN ---help--- Enable CAN driver debug SYSLOG output (disabled by default). Support for this debug option is architecture-specific and may not be available for some MCUs. config DEBUG_GPIO bool "GPIO Debug Output" default n ---help--- Enable GPIO-releated debug SYSLOG output (disabled by default). Support for this debug option is architecture-specific and may not be available for some MCUs. config DEBUG_I2C bool "I2C Debug Output" default n depends on I2C ---help--- Enable I2C driver debug SYSLOG output (disabled by default). Support for this debug option is architecture-specific and may not be available for some MCUs. config DEBUG_I2S bool "I2S Debug Output" default n depends on I2S ---help--- Enable I2S driver debug SYSLOG output (disabled by default). Support for this debug option is architecture-specific and may not be available for some MCUs. config DEBUG_PWM bool "PWM Debug Output" default n depends on PWM ---help--- Enable PWM driver debug SYSLOG output (disabled by default). Support for this debug option is architecture-specific and may not be available for some MCUs. config DEBUG_RTC bool "RTC Debug Output" default n depends on RTC ---help--- Enable RTC driver debug SYSLOG output (disabled by default). Support for this debug option is architecture-specific and may not be available for some MCUs. config DEBUG_SDIO bool "SDIO Debug Output" default n depends on MMCSD_SDIO ---help--- Enable SDIO driver debug SYSLOG output (disabled by default). Support for this debug option is architecture-specific and may not be available for some MCUs. config DEBUG_SENSORS bool "Sensor Debug Output" default n depends on SENSORS ---help--- Enable sensor driver debug SYSLOG output (disabled by default). Support for this debug option is architecture-specific and may not be available for some MCUs. config DEBUG_SPI bool "SPI Debug Output" default n depends on SPI ---help--- Enable I2C driver debug SYSLOG output (disabled by default). Support for this debug option is architecture-specific and may not be available for some MCUs. config DEBUG_TIMER bool "Timer Debug Output" default n depends on TIMER ---help--- Enable timer debug SYSLOG output (disabled by default). Support for this debug option is architecture-specific and may not be available for some MCUs. config DEBUG_USB bool "USB Debug Output" default n depends on USBDEV || USBHOST ---help--- Enable usb debug SYSLOG output (disabled by default) config DEBUG_WATCHDOG bool "Watchdog Timer Debug Output" default n depends on WATCHDOG ---help--- Enable watchdog timer debug SYSLOG output (disabled by default). Support for this debug option is architecture-specific and may not be available for some MCUs. endif # DEBUG config DEBUG_SYMBOLS bool "Generate Debug Symbols" default n ---help--- Build with debug symbols (needed for use with a debugger). endmenu # Debug Options config ARCH_HAVE_CUSTOMOPT bool default n choice prompt "Optimization Level" default DEBUG_NOOPT if DEBUG_SYMBOLS default DEBUG_FULLOPT if !DEBUG_SYMBOLS config DEBUG_NOOPT bool "Suppress Optimization" ---help--- Build without optimization. This is often helpful when debugging code. config DEBUG_CUSTOMOPT bool "Custom Optimization" depends on ARCH_HAVE_CUSTOMOPT ---help--- Select a custom debug level. This is often helpful if you suspect an optimization level error and want to lower the level of optimization. config DEBUG_FULLOPT bool "Normal, Full optimization" ---help--- Build full optimization. This is the normal case for production firmware. endchoice # Optimization Level config DEBUG_OPTLEVEL string "Custom Optimization Level" default "-O2" depends on DEBUG_CUSTOMOPT ---help--- This string represents the custom optimization level that will be used if DEBUG_CUSTOMOPT. endmenu # Build Setup menu "System Type" source "arch/Kconfig" endmenu menu "Board Selection" source "configs/Kconfig" endmenu menu "RTOS Features" source sched/Kconfig source syscall/Kconfig endmenu menu "Device Drivers" source drivers/Kconfig endmenu menu "Networking Support" source net/Kconfig endmenu menu "Crypto API" source crypto/Kconfig endmenu menu "File Systems" source fs/Kconfig endmenu menu "Graphics Support" source graphics/Kconfig endmenu menu "Memory Management" source mm/Kconfig endmenu menu "Audio Support" source audio/Kconfig endmenu menu "Binary Loader" source binfmt/Kconfig endmenu menu "Library Routines" source libc/Kconfig source libxx/Kconfig endmenu menu "Application Configuration" source "$APPSDIR/Kconfig" endmenu