From 5375bb5b86e266157ceceef08c367da711b8144e Mon Sep 17 00:00:00 2001 From: Lorenz Meier Date: Sat, 1 Jun 2013 01:04:32 +0200 Subject: Cleanup, WIP, needs a NuttX checkout to Firmware/NuttX now --- nuttx/configs/README.txt | 2098 ---------------------------------------------- 1 file changed, 2098 deletions(-) delete mode 100644 nuttx/configs/README.txt (limited to 'nuttx/configs/README.txt') diff --git a/nuttx/configs/README.txt b/nuttx/configs/README.txt deleted file mode 100644 index 8d9bb381f..000000000 --- a/nuttx/configs/README.txt +++ /dev/null @@ -1,2098 +0,0 @@ -Board-Specific Configurations -^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ -Table of Contents -^^^^^^^^^^^^^^^^^ - - o Board-Specific Configurations - o Summary of Files - o Supported Architectures - o Configuring NuttX - o Building Symbol Tables - -Board-Specific Configurations -^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ - -The NuttX configuration consists of: - -o Processor architecture specific files. These are the files contained - in the arch// directory. - -o Chip/SoC specific files. Each processor processor architecture - is embedded in chip or System-on-a-Chip (SoC) architecture. The - full chip architecture includes the processor architecture plus - chip-specific interrupt logic, general purpose I/O (GIO) logic, and - specialized, internal peripherals (such as UARTs, USB, etc.). - - These chip-specific files are contained within chip-specific - sub-directories in the arch// directory and are selected - via the CONFIG_ARCH_name selection - -o Board specific files. In order to be usable, the chip must be - contained in a board environment. The board configuration defines - additional properties of the board including such things as - peripheral LEDs, external peripherals (such as network, USB, etc.). - - These board-specific configuration files can be found in the - configs// sub-directories and are discussed in this - README. Additional configuration information maybe available in - board-specific configs//README.txt files. - -The configs/ subdirectory contains configuration data for each board. These -board-specific configurations plus the architecture-specific configurations in -the arch/ subdirectory completely define a customized port of NuttX. - -Directory Structure -^^^^^^^^^^^^^^^^^^^ - -The configs directory contains board specific configurationlogic. Each -board must provide a subdirectory under configs/ with the -following characteristics: - - - - |-- README.txt - |-- include/ - | `-- (board-specific header files) - |-- src/ - | |-- Makefile - | `-- (board-specific source files) - |-- - | |-- Make.defs - | |-- defconfig - | |-- appconfig* - | `-- setenv.sh - |-- - | |-- Make.defs - | |-- defconfig - | |-- appconfig* - | `-- setenv.sh - ... - - *optional - -Summary of Files -^^^^^^^^^^^^^^^^ - -README.txt -- This text file provides additional information unique to - each board configuration sub-directory. - -include/ -- This directory contains board specific header files. This - directory will be linked as include/arch/board at configuration time and - can be included via '#include '. These header file - can only be included by files in arch/include/ and - arch//src - -src/ -- This directory contains board specific drivers. This - directory will be linked as arch//src/board at configuration - time and will be integrated into the build system. - -src/Makefile -- This makefile will be invoked to build the board specific - drivers. It must support the following targets: libext$(LIBEXT), clean, - and distclean. - -A board may have various different configurations using these common source -files. Each board configuration is described by three files: Make.defs, -defconfig, and setenv.sh. Typically, each set of configuration files is -retained in a separate configuration sub-directory (, -, .. in the above diagram). - -Make.defs -- This makefile fragment provides architecture and - tool-specific build options. It will be included by all other - makefiles in the build (once it is installed). This make fragment - should define: - - Tools: CC, LD, AR, NM, OBJCOPY, OBJDUMP - Tool options: CFLAGS, LDFLAGS - - When this makefile fragment runs, it will be passed TOPDIR which - is the path to the root directory of the build. This makefile - fragment should include: - - $(TOPDIR)/.config : Nuttx configuration - $(TOPDIR)/tools/Config.mk : Common definitions - - Definitions in the Make.defs file probably depend on some of the - settings in the .config file. For example, the CFLAGS will most likely be - different if CONFIG_DEBUG=y. - - The included tools/Config.mk file contains additional definitions that may - be overriden in the architecture-specific Make.defs file as necessary: - - COMPILE, ASSEMBLE, ARCHIVE, CLEAN, and MKDEP macros - -defconfig -- This is a configuration file similar to the Linux - configuration file. In contains variable/value pairs like: - - CONFIG_VARIABLE=value - - This configuration file will be used at build time: - - (1) as a makefile fragment included in other makefiles, and - (2) to generate include/nuttx/config.h which is included by - most C files in the system. - - The following variables are recognized by the build (you may - also include architecture/board-specific settings). - - Architecture selection: - - CONFIG_ARCH - Identifies the arch/ subdirectory - CONFIG_ARCH_name - For use in C code - CONFIG_ARCH_CHIP - Identifies the arch/*/chip subdirectory - CONFIG_ARCH_CHIP_name - For use in C code - CONFIG_ARCH_BOARD - Identifies the configs subdirectory and - hence, the board that supports the particular chip or SoC. - CONFIG_ARCH_BOARD_name - For use in C code - CONFIG_ENDIAN_BIG - define if big endian (default is little - endian) - CONFIG_ARCH_NOINTC - define if the architecture does not - support an interrupt controller or otherwise cannot support - APIs like up_enable_irq() and up_disable_irq(). - CONFIG_ARCH_VECNOTIRQ - Usually the interrupt vector number provided - to interfaces like irq_attach() and irq_detach are the same as IRQ - numbers that are provied to IRQ management functions like - up_enable_irq() and up_disable_irq(). But that is not true for all - interrupt controller implementations. For example, the PIC32MX - interrupt controller manages interrupt sources that have a many-to-one - relationship to interrupt vectors. In such cases, CONFIG_ARCH_VECNOTIRQ - must defined so that the OS logic will know not to assume it can use - a vector number to enable or disable interrupts. - CONFIG_ARCH_IRQPRIO - Define if the architecture suports prioritizaton of interrupts - and the up_prioritize_irq() API. - CONFIG_ADDRENV - The CPU supports an MMU and CPU port supports provision of address - environments for tasks (making the, perhaps, processes). - - Some architectures require a description of the RAM configuration: - - CONFIG_DRAM_SIZE - Describes the installed DRAM. - CONFIG_DRAM_START - The start address of DRAM (physical) - CONFIG_DRAM_VSTART - The start address of DRAM (virtual) - - General build options: - - CONFIG_RRLOAD_BINARY - make the rrload binary format used with - BSPs from www.ridgerun.com using the tools/mkimage.sh script. - CONFIG_INTELHEX_BINARY - make the Intel HEX binary format - used with many different loaders using the GNU objcopy program - Should not be selected if you are not using the GNU toolchain. - CONFIG_MOTOROLA_SREC - make the Motorola S-Record binary format - used with many different loaders using the GNU objcopy program - Should not be selected if you are not using the GNU toolchain. - CONFIG_RAW_BINARY - make a raw binary format file used with many - different loaders using the GNU objcopy program. This option - should not be selected if you are not using the GNU toolchain. - CONFIG_HAVE_CXX - toolchain supports C++ and CXX, CXXFLAGS, and - COMPILEXX have been defined in the configurations Make.defs - file. - CONFIG_HAVE_CXXINITIALIZE - The platform-specific logic includes support - for initialization of static C++ instances for this architecture - and for the selected toolchain (via up_cxxinitialize()). - - Building application code: - - CONFIG_APPS_DIR - 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 direcory. 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 CONFIG_APPS_DIR=../application. - - The application direction must contain Makefile and this make - file must support the following targets: - - - libapps$(LIBEXT) (usually libapps.a). libapps.a is a static - library ( an archive) that contains all of application object - files. - - clean. Do whatever is appropriate to clean the application - directories for a fresh build. - - distclean. Clean everthing -- 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. - - 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. - - 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 - CONFIG_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 obect is an archive, it could - go anywhere. - - CONFIG_BUILD_2PASS - Enables the two pass build options. - - When the two pass build option is enabled, the following also apply: - - CONFIG_PASS1_TARGET - 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 - 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 CONFIG_PASS1_TARGET (if defined) - - and the usual depend, clean, and distclean targets. - CONFIG_PASS1_OBJECT - May be used to include an extra, pass1 object - into the final link. This would probably be the object generated - from the CONFIG_PASS1_TARGET. It may be available at link time - in the arch//src directory. - - General OS setup - - CONFIG_DEBUG - enables built-in debug options - CONFIG_DEBUG_VERBOSE - enables verbose debug output - CCONFIG_SYSLOG_ENABLE - Support an interface to enable or disable debug output. - CONFIG_DEBUG_SYMBOLS - build without optimization and with - debug symbols (needed for use with a debugger). - CONFIG_DEBUG_SCHED - enable OS debug output (disabled by - default) - CONFIG_DEBUG_MM - enable memory management debug output - (disabled by default) - CONFIG_DEBUG_NET - enable network debug output (disabled - by default) - CONFIG_DEBUG_USB - enable usb debug output (disabled by - default) - CONFIG_DEBUG_FS - enable filesystem debug output (disabled - by default) - CONFIG_DEBUG_LIB - enable C library debug output (disabled - by default) - CONFIG_DEBUG_BINFMT - enable binary loader debug output (disabled - by default) - CONFIG_DEBUG_GRAPHICS - enable NX graphics debug output - (disabled by default) - - CONFIG_MM_REGIONS - If the architecture includes multiple - regions of memory to allocate from, this specifies the - number of memory regions that the memory manager must - handle and enables the API mm_addregion(start, end); - CONFIG_MM_SMALL - Each memory allocation has a small allocation - overhead. The size of that overhead is normally determined by - the "width" of the address support by the MCU. MCUs that support - 16-bit addressability have smaller overhead than devices that - support 32-bit addressability. However, there are many MCUs - that support 32-bit addressability *but* have internal SRAM - of size less than or equal to 64Kb. In this case, CONFIG_MM_SMALL - can be defined so that those MCUs will also benefit from the - smaller, 16-bit-based allocation overhead. - CONFIG_HEAP2_BASE and CONFIG_HEAP2_SIZE - Some architectures use these settings to specify the size of - a second heap region. - CONFIG_GRAN - Enable granual allocator support. Allocations will be aligned to the - granule size; allocations will be in units of the granule size. - Larger granules will give better performance and less overhead but - more losses of memory due to alignment and quantization waste. - NOTE: The current implementation also restricts the maximum - allocation size to 32 granaules. That restriction could be - eliminated with some additional coding effort. - CONFIG_GRAN_SINGLE - Select if there is only one instance of the granule allocator (i.e., - gran_initialize will be called only once. In this case, (1) there - are a few optimizations that can can be done and (2) the GRAN_HANDLE - is not needed. - CONFIG_GRAN_INTR - Normally mutual exclusive access to granule allocator - data is assured using a semaphore. If this option is set then, instead, - mutual exclusion logic will disable interrupts. While this options is - more invasive to system performance, it will also support use of the - granule allocator from interrupt level logic. - CONFIG_DEBUG_GRAM - Just like CONFIG_DEBUG_MM, but only generates ouput from the gran - allocation logic. - - CONFIG_ARCH_LOWPUTC - architecture supports low-level, boot - time console output - CONFIG_MSEC_PER_TICK - The default system timer is 100Hz - or MSEC_PER_TICK=10. This setting may be defined to - inform NuttX that the processor hardware is providing - system timer interrupts at some interrupt interval other - than 10 msec. - CONFIG_RR_INTERVAL - The round robin timeslice will be set - this number of milliseconds; Round robin scheduling can - be disabled by setting this value to zero. - CONFIG_SCHED_INSTRUMENTATION - enables instrumentation in - scheduler to monitor system performance - CONFIG_TASK_NAME_SIZE - Specifies that maximum size of a - task name to save in the TCB. Useful if scheduler - instrumentation is selected. Set to zero to disable. - CONFIG_SCHED_HAVE_PARENT - Remember the ID of the parent task - when a new child task is created. This support enables some - additional features (such as SIGCHLD) and modifies the behavior - of other interfaces. For example, it makes waitpid() more - standards complete by restricting the waited-for tasks to the - children of the caller. Default: disabled. - CONFIG_SCHED_CHILD_STATUS - If this option is selected, then the exit status of the child task - will be retained after the child task exits. This option should be - selected if you require knowledge of a child process' exit status. - Without this setting, wait(), waitpid() or waitid() may fail. For - example, if you do: - - 1) Start child task - 2) Wait for exit status (using wait(), waitpid(), or waitid()). - - This can fail because the child task may run to completion before - the wait begins. There is a non-standard work-around in this case: - The above sequence will work if you disable pre-emption using - sched_lock() prior to starting the child task, then re-enable pre- - emption with sched_unlock() after the wait completes. This works - because the child task is not permitted to run until the wait is in - place. - - The standard solution would be to enable CONFIG_SCHED_CHILD_STATUS. In - this case the exit status of the child task is retained after the - child exits and the wait will successful obtain the child task's - exit status whether it is called before the child task exits or not. - - Warning: If you enable this feature, then your application must - either (1) take responsibility for reaping the child status with wait(), - waitpid(), or waitid(), or (2) suppress retention of child status. - If you do not reap the child status, then you have a memory leak and - your system will eventually fail. - - Retention of child status can be suppressed on the parent using logic like: - - struct sigaction sa; - - sa.sa_handler = SIG_IGN; - sa.sa_flags = SA_NOCLDWAIT; - int ret = sigaction(SIGCHLD, &sa, NULL); - - CONFIG_PREALLOC_CHILDSTATUS - To prevent runaway child status allocations and to improve - allocation performance, child task exit status structures are pre- - allocated when the system boots. This setting determines the number - of child status structures that will be pre-allocated. If this - setting is not defined or if it is defined to be zero then a value - of 2*MAX_TASKS is used. - - Note that there cannot be more that CONFIG_MAX_TASKS tasks in total. - However, the number of child status structures may need to be - significantly larger because this number includes the maximum number - of tasks that are running PLUS the number of tasks that have exit'ed - without having their exit status reaped (via wait(), waitid(), or - waitpid()). - - Obviously, if tasks spawn children indefinitely and never have the - exit status reaped, then you may have a memory leak! If you enable - the SCHED_CHILD_STATUS feature, then your application must take - responsibility for either (1) reaping the child status with wait(), - waitpid(), or waitid() or it must (2) suppress retention of child - status. Otherwise, your system will eventually fail. - - Retention of child status can be suppressed on the parent using logic like: - - struct sigaction sa; - - sa.sa_handler = SIG_IGN; - sa.sa_flags = SA_NOCLDWAIT; - int ret = sigaction(SIGCHLD, &sa, NULL); - - CONFIG_START_YEAR, CONFIG_START_MONTH, CONFIG_START_DAY - - Used to initialize the internal time logic. - CONFIG_GREGORIAN_TIME - Enables Gregorian time conversions. - You would only need this if you are concerned about accurate - time conversions in the past or in the distant future. - CONFIG_JULIAN_TIME - Enables Julian time conversions. You - would only need this if you are concerned about accurate - time conversion in the distand past. You must also define - CONFIG_GREGORIAN_TIME in order to use Julian time. - CONFIG_DEV_CONSOLE - Set if architecture-specific logic - provides /dev/console. Enables stdout, stderr, stdin. - This implies the "normal" serial driver provides the - console unless another console device is specified - (See CONFIG_DEV_LOWCONSOLE). - CONFIG_MUTEX_TYPES - Set to enable support for recursive and - errorcheck mutexes. Enables pthread_mutexattr_settype(). - CONFIG_PRIORITY_INHERITANCE - Set to enable support for - priority inheritance on mutexes and semaphores. - Priority inheritance is a strategy for addressing priority - inversion. - CONFIG_SEM_PREALLOCHOLDERS: This setting is only used if priority - inheritance is enabled. It defines the maximum number of - different threads (minus one) that can take counts on a - semaphore with priority inheritance support. This may be - set to zero if priority inheritance is disabled OR if you - are only using semaphores as mutexes (only one holder) OR - if no more than two threads participate using a counting - semaphore. If defined, then this should be a relatively - large number because this is the total number of counts on - the total number of semaphores (like 64 or 100). - CONFIG_SEM_NNESTPRIO. If priority inheritance is enabled, - then this setting is the maximum number of higher priority - threads (minus 1) than can be waiting for another thread - to release a count on a semaphore. This value may be set - to zero if no more than one thread is expected to wait for - a semaphore. If defined, then this should be a relatively - small number because this the number of maximumum of waiters - on one semaphore (like 4 or 8). - CONFIG_FDCLONE_DISABLE. Disable cloning of all file descriptors - by task_create() when a new task is started. If set, all - files/drivers will appear to be closed in the new task. - CONFIG_FDCLONE_STDIO. Disable cloning of all but the first - three file descriptors (stdin, stdout, stderr) by task_create() - when a new task is started. If set, all files/drivers will - appear to be closed in the new task except for stdin, stdout, - and stderr. - CONFIG_SDCLONE_DISABLE. Disable cloning of all socket - desciptors by task_create() when a new task is started. If - set, all sockets will appear to be closed in the new task. - CONFIG_SCHED_WORKQUEUE. Create a dedicated "worker" thread to - handle delayed processing from interrupt handlers. This feature - is required for some drivers but, if there are not complaints, - can be safely disabled. The worker thread also performs - garbage collection -- completing any delayed memory deallocations - from interrupt handlers. If the worker thread is disabled, - then that clean will be performed by the IDLE thread instead - (which runs at the lowest of priority and may not be appropriate - if memory reclamation is of high priority). If CONFIG_SCHED_WORKQUEUE - is enabled, then the following options can also be used: - CONFIG_SCHED_WORKPRIORITY - The execution priority of the worker - thread. Default: 192 - CONFIG_SCHED_WORKPERIOD - How often the worker thread checks for - work in units of microseconds. Default: 50*1000 (50 MS). - CONFIG_SCHED_WORKSTACKSIZE - The stack size allocated for the worker - thread. Default: CONFIG_IDLETHREAD_STACKSIZE. - CONFIG_SIG_SIGWORK - The signal number that will be used to wake-up - the worker thread. Default: 17 - CONFIG_SCHED_LPWORK. If CONFIG_SCHED_WORKQUEUE is defined, then a single - work queue is created by default. If CONFIG_SCHED_LPWORK is also defined - then an additional, lower-priority work queue will also be created. This - lower priority work queue is better suited for more extended processing - (such as file system clean-up operations) - CONFIG_SCHED_LPWORKPRIORITY - The execution priority of the lower priority - worker thread. Default: 50 - CONFIG_SCHED_LPWORKPERIOD - How often the lower priority worker thread - checks for work in units of microseconds. Default: 50*1000 (50 MS). - CONFIG_SCHED_LPWORKSTACKSIZE - The stack size allocated for the lower - priority worker thread. Default: CONFIG_IDLETHREAD_STACKSIZE. - CONFIG_SCHED_WAITPID - Enables the waitpid() interface in a default, - non-standard mode (non-standard in the sense that the waited for - PID need not be child of the caller). If SCHED_HAVE_PARENT is - also defined, then this setting will modify the behavior or - waitpid() (making more spec compliant) and will enable the - waitid() and wait() interfaces as well. - CONFIG_SCHED_ATEXIT - Enables the atexit() API - CONFIG_SCHED_ATEXIT_MAX - By default if CONFIG_SCHED_ATEXIT is - selected, only a single atexit() function is supported. That number - can be increased by defined this setting to the number that you require. - CONFIG_SCHED_ONEXIT - Enables the on_exit() API - CONFIG_SCHED_ONEXIT_MAX - By default if CONFIG_SCHED_ONEXIT is selected, - only a single on_exit() function is supported. That number can be - increased by defined this setting to the number that you require. - CONFIG_USER_ENTRYPOINT - The name of the entry point for user - applications. For the example applications this is of the form 'app_main' - where 'app' is the application name. If not defined, CONFIG_USER_ENTRYPOINT - defaults to user_start. - - Signal Numbers: - - CONFIG_SIG_SIGUSR1 - Value of standard user signal 1 (SIGUSR1). - Default: 1 - CONFIG_SIG_SIGUSR2 - Value of standard user signal 2 (SIGUSR2). - Default: 2 - CONFIG_SIG_SIGALARM - Default the standard signal used with POSIX - timers (SIGALRM). Default: 3 - CONFIG_SIG_SIGCHLD - The SIGCHLD signal is sent to the parent of a child - process when it exits, is interrupted (stopped), or resumes after being - interrupted. Default: 4 - - CONFIG_SIG_SIGCONDTIMEDOUT - This non-standard signal number is used in - the implementation of pthread_cond_timedwait(). Default 16. - CONFIG_SIG_SIGWORK - SIGWORK is a non-standard signal used to wake up - the internal NuttX worker thread. Default: 17. - - Binary Loaders: - CONFIG_BINFMT_DISABLE - By default, support for loadable binary formats - is built. - This logic may be suppressed be defining this setting. - CONFIG_BINFMT_CONSTRUCTORS - Build in support for C++ constructors in - loaded modules. - CONFIG_SYMTAB_ORDEREDBYNAME - Symbol tables are order by name (rather - than value). - CONFIG_NXFLAT. Enable support for the NXFLAT binary format. This format - will support execution of NuttX binaries located in a ROMFS filesystem - (see apps/examples/nxflat). - CONFIG_ELF - Enable support for the ELF binary format. This format will - support execution of ELF binaries copied from a file system and - relocated into RAM (see apps/examples/elf). - - If CONFIG_ELF is selected, then these additional options are available: - - CONFIG_ELF_ALIGN_LOG2 - Align all sections to this Log2 value: 0->1, - 1->2, 2->4, etc. - CONFIG_ELF_STACKSIZE - This is the default stack size that will will - be used when starting ELF binaries. - CONFIG_ELF_BUFFERSIZE - This is an I/O buffer that is used to access - the ELF file. Variable length items will need to be read (such as - symbol names). This is really just this initial size of the buffer; - it will be reallocated as necessary to hold large symbol names). - Default: 128 - CONFIG_ELF_BUFFERINCR - This is an I/O buffer that is used to access - the ELF file. Variable length items will need to be read (such as - symbol names). This value specifies the size increment to use each - time the buffer is reallocated. Default: 32 - CONFIG_ELF_DUMPBUFFER - Dump various ELF buffers for debug purposes. - This option requires CONFIG_DEBUG and CONFIG_DEBUG_VERBOSE. - - System Logging: - CONFIG_SYSLOG enables general system logging support. - CONFIG_SYSLOG_DEVPATH - The full path to the system logging device. Default - "/dev/ramlog" (RAMLOG) or "dev/ttyS1" (character device) - - At present, there are two system loggins devices available. If CONFIG_SYSLOG - is selected, then these options are also available. - - CONFIG_SYSLOG_CHAR - Enable the generic character device for the SYSLOG. - A disadvantage of using the generic character device for the SYSLOG is that - it cannot handle debug output generated from interrupt level handlers. - NOTE: No more than one SYSLOG device should be configured. - - CONFIG_RAMLOG - Enables the RAM logging feature. The RAM log is a circular - buffer in RAM. NOTE: No more than one SYSLOG device should be configured. - CONFIG_RAMLOG_CONSOLE - Use the RAM logging device as a system console. - If this feature is enabled (along with CONFIG_DEV_CONSOLE), then all - console output will be re-directed to a circular buffer in RAM. This - is useful, for example, if the only console is a Telnet console. Then - in that case, console output from non-Telnet threads will go to the - circular buffer and can be viewed using the NSH 'dmesg' command. - CONFIG_RAMLOG_SYSLOG - Use the RAM logging device for the syslogging - interface. If this feature is enabled (along with CONFIG_SYSLOG), - then all debug output (only) will be re-directed to the circular - buffer in RAM. This RAM log can be view from NSH using the 'dmesg' - command. NOTE: Unlike the limited, generic character driver SYSLOG - device, the RAMLOG *can* be used to generate debug output from interrupt - level handlers. - CONFIG_RAMLOG_NPOLLWAITERS - The number of threads than can be waiting - for this driver on poll(). Default: 4 - - If CONFIG_RAMLOG_CONSOLE or CONFIG_RAMLOG_SYSLOG is selected, then the - following may also be provided: - - CONFIG_RAMLOG_CONSOLE_BUFSIZE - Size of the console RAM log. Default: 1024 - - Kernel build options: - CONFIG_NUTTX_KERNEL - Builds NuttX as a separately compiled kernel. - CONFIG_SYS_RESERVED - Reserved system call values for use - by architecture-specific logic. - - OS setup related to on-demand paging: - - CONFIG_PAGING - If set =y in your configation file, this setting will - enable the on-demand paging feature as described in - http://www.nuttx.org/NuttXDemandPaging.html. - - If CONFIG_PAGING is selected, then you will probabaly need CONFIG_BUILD_2PASS to - correctly position the code and the following configuration options also apply: - - CONFIG_PAGING_PAGESIZE - The size of one managed page. This must - be a value supported by the processor's memory management unit. - CONFIG_PAGING_NLOCKED - This is the number of locked pages in the - memory map. The locked address region will then be from - CONFIG_DRAM_VSTART through (CONFIG_DRAM_VSTART + - CONFIG_PAGING_PAGESIZE*CONFIG_PAGING_NLOCKED) - CONFIG_PAGING_LOCKED_PBASE and CONFIG_PAGING_LOCKED_VBASE - These - may be defined to determine the base address of the locked page - regions. If neither are defined, the logic will be set the bases - to CONFIG_DRAM_START and CONFIG_DRAM_VSTART (i.e., it assumes - that the base address of the locked region is at the beginning - of RAM). - NOTE: In some architectures, it may be necessary to take some - memory from the beginning of this region for vectors or for a - page table. In such cases, CONFIG_PAGING_LOCKED_P/VBASE should - take that into consideration to prevent overlapping the locked - memory region and the system data at the beginning of SRAM. - CONFIG_PAGING_NPPAGED - This is the number of physical pages - available to support the paged text region. This paged region - begins at (CONFIG_PAGING_LOCKED_PBASE + CONFIG_PAGING_PAGESIZE*CONFIG_PAGING_NPPAGED) - and continues until (CONFIG_PAGING_LOCKED_PBASE + CONFIG_PAGING_PAGESIZE*(CONFIG_PAGING_NLOCKED + - CONFIG_PAGING_NPPAGED) - CONFIG_PAGING_NVPAGED - This actual size of the paged text region - (in pages). This is also the number of virtual pages required to - support the entire paged region. The on-demand paging feature is - intended to support only the case where the virtual paged text - area is much larger the available physical pages. Otherwise, why - would you enable on-demand paging? - CONFIG_PAGING_NDATA - This is the number of data pages in the memory - map. The data region will extend to the end of RAM unless overridden - by a setting in the configuration file. - NOTE: In some architectures, it may be necessary to take some memory - from the end of RAM for page tables or other system usage. The - configuration settings and linker directives must be cognizant of that: - CONFIG_PAGING_NDATA should be defined to prevent the data region from - extending all the way to the end of memory. - CONFIG_PAGING_DEFPRIO - The default, minimum priority of the page fill - worker thread. The priority of the page fill work thread will be boosted - boosted dynmically so that it matches the priority of the task on behalf - of which it peforms the fill. This defines the minimum priority that - will be used. Default: 50. - CONFIG_PAGING_STACKSIZE - Defines the size of the allocated stack - for the page fill worker thread. Default: 1024. - CONFIG_PAGING_BLOCKINGFILL - The architecture specific up_fillpage() - function may be blocking or non-blocking. If defined, this setting - indicates that the up_fillpage() implementation will block until the - transfer is completed. Default: Undefined (non-blocking). - CONFIG_PAGING_WORKPERIOD - The page fill worker thread will wake periodically - even if there is no mapping to do. This selection controls that wake-up - period (in microseconds). This wake-up a failsafe that will handle any - cases where a single is lost (that would really be a bug and shouldn't - happen!) and also supports timeouts for case of non-blocking, asynchronous - fills (see CONFIG_PAGING_TIMEOUT_TICKS). - CONFIG_PAGING_TIMEOUT_TICKS - If defined, the implementation will monitor - the (asynchronous) page fill logic. If the fill takes longer than this - number if microseconds, then a fatal error will be declared. - Default: No timeouts monitored. - - Some architecture-specific settings. Defaults are architecture specific. - If you don't know what you are doing, it is best to leave these undefined - and try the system defaults: - - CONFIG_PAGING_VECPPAGE - This the physical address of the page in - memory to be mapped to the vector address. - CONFIG_PAGING_VECL2PADDR - This is the physical address of the L2 - page table entry to use for the vector mapping. - CONFIG_PAGING_VECL2VADDR - This is the virtual address of the L2 - page table entry to use for the vector mapping. - CONFIG_PAGING_BINPATH - If CONFIG_PAGING_BINPATH is defined, then it - is the full path to a file on a mounted file system that contains - a binary image of the NuttX executable. Pages will be filled by - reading from offsets into this file that correspond to virtual - fault addresses. - CONFIG_PAGING_MOUNTPT - If CONFIG_PAGING_BINPATH is defined, additional - options may be provided to control the initialization of underlying - devices. CONFIG_PAGING_MOUNTPT identifies the mountpoint to be used - if a device is mounted. - CONFIG_PAGING_MINOR - Some mount operations require a "minor" number - to identify the specific device instance. Default: 0 - CONFIG_PAGING_SDSLOT - If CONFIG_PAGING_BINPATH is defined, additional - options may be provided to control the initialization of underlying - devices. CONFIG_PAGING_SDSLOT identifies the slot number of the SD - device to initialize. This must be undefined if SD is not being used. - This should be defined to be zero for the typical device that has - only a single slot (See CONFIG_MMCSD_NSLOTS). If defined, - CONFIG_PAGING_SDSLOT will instruct certain board-specific logic to - initialize the media in this SD slot. - CONFIG_PAGING_M25PX - Use the m25px.c FLASH driver. If this is selected, - then the MTD interface to the M25Px device will be used to support - paging. - CONFIG_PAGING_AT45DB - Use the at45db.c FLASH driver. If this is selected, - then the MTD interface to the Atmel AT45DB device will be used to support - paging. - CONFIG_PAGING_BINOFFSET - If CONFIG_PAGING_M25PX or is CONFIG_PAGING_AT45DB - defined then CONFIG_PAGING_BINOFFSET will be used to specify the offset - in bytes into the FLASH device where the NuttX binary image is located. - Default: 0 - CONFIG_PAGING_SPIPORT - If CONFIG_PAGING_M25PX CONFIG_PAGING_AT45DB is - defined and the device has multiple SPI busses (ports), then this - configuration should be set to indicate which SPI port the device is - connected. Default: 0 - - The following can be used to disable categories of APIs supported - by the OS. If the compiler supports weak functions, then it - should not be necessary to disable functions unless you want to - restrict usage of those APIs. - - There are certain dependency relationships in these features. - - o mq_notify logic depends on signals to awaken tasks - waiting for queues to become full or empty. - o pthread_condtimedwait() depends on signals to wake - up waiting tasks. - - CONFIG_DISABLE_CLOCK, CONFIG_DISABLE_POSIX_TIMERS, CONFIG_DISABLE_PTHREAD. - CONFIG_DISABLE_SIGNALS, CONFIG_DISABLE_MQUEUE, CONFIG_DISABLE_MOUNTPOUNT, - CONFIG_DISABLE_ENVIRON, CONFIG_DISABLE_POLL - - Misc libc settings - - CONFIG_NOPRINTF_FIELDWIDTH - sprintf-related logic is a little smaller - if we do not support fieldwidthes - CONFIG_LIBC_FLOATINGPOINT - By default, floating point support in printf, - sscanf, etc. is disabled. - CONFIG_LIBC_STRERROR - strerror() is useful because it decodes 'errno' - values into a human readable strings. But it can also require - a lot of memory. If this option is selected, strerror() will still - exist in the build but it will not decode error values. This option - should be used by other logic to decide if it should use strerror() or - not. For example, the NSH application will not use strerror() if this - option is not selected; perror() will not use strerror() is this option - is not selected (see also CONFIG_NSH_STRERROR). - CONFIG_LIBC_STRERROR_SHORT - If this option is selected, then strerror() - will use a shortened string when it decodes the error. Specifically, - strerror() is simply use the string that is the common name for the - error. For example, the 'errno' value of 2 will produce the string - "No such file or directory" if CONFIG_LIBC_STRERROR_SHORT is not - defined but the string "ENOENT" if CONFIG_LIBC_STRERROR_SHORT is - defined. - CONFIG_LIBC_PERROR_STDOUT - POSIX requires that perror() provide its output - on stderr. This option may be defined, however, to provide perror() output - that is serialized with other stdout messages. - - Allow for architecture optimized implementations - - The architecture can provide optimized versions of the - following to improve system performance - - CONFIG_ARCH_MEMCPY, CONFIG_ARCH_MEMCMP, CONFIG_ARCH_MEMMOVE - CONFIG_ARCH_MEMSET, CONFIG_ARCH_STRCMP, CONFIG_ARCH_STRCPY - CONFIG_ARCH_STRNCPY, CONFIG_ARCH_STRLEN, CONFIG_ARCH_STRNLEN - CONFIG_ARCH_BZERO - - If CONFIG_ARCH_MEMCPY is not selected, then you make also select Daniel - Vik's optimized implementation of memcpy(): - - CONFIG_MEMCPY_VIK - Select this option to use the optimized memcpy() - function by Daniel Vik. Select this option for improved performance - at the expense of increased size. See licensing information in the - top-level COPYING file. Default: n - - And if CONFIG_MEMCPY_VIK is selected, the following tuning options are available: - - CONFIG_MEMCPY_PRE_INC_PTRS - Use pre-increment of pointers. Default is - post increment of pointers. - - CONFIG_MEMCPY_INDEXED_COPY - Copying data using array indexing. Using - this option, disables the CONFIG_MEMCPY_PRE_INC_PTRS option. - - CONFIG_MEMCPY_64BIT - Compiles memcpy for architectures that suppport - 64-bit operations efficiently. - - If CONFIG_ARCH_MEMSET is not selected, then the following option is - also available: - - CONFIG_MEMSET_OPTSPEED - Select this option to use a version of memcpy() - optimized for speed. Default: memcpy() is optimized for size. - - And if CONFIG_MEMSET_OPTSPEED is selected, the following tuning option is - available: - - CONFIG_MEMSET_64BIT - Compiles memset() for architectures that suppport - 64-bit operations efficiently. - - The architecture may provide custom versions of certain standard header - files: - - CONFIG_ARCH_STDBOOL_H - 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_STDINT_H - Similar logic exists for the stdint.h header - file can also be found at nuttx/include/stdint.h. - - #ifdef CONFIG_ARCH_STDBOOL_H - # include - #else - ... - #endif - - CONFIG_ARCH_MATH_H - 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 CONFIG_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 CONFIG_ARCH_MATH_H=y, include/math.h - will be the redirecting math.h header file; for the architectures that - don't select CONFIG_ARCH_MATH_H, the redirecting math.h header file will - stay out-of-the-way in include/nuttx/. - - CONFIG_ARCH_FLOAT_H - If you enable the generic, built-in math library, then that math library - will expect your toolchain to provide the standard float.h header file. - 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 avaiable, 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 - 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/>architecture 0) - CONFIG_STDIO_LINEBUFFER - If standard C buffered I/O is enabled - (CONFIG_STDIO_BUFFER_SIZE > 0), then this option may be added - to force automatic, line-oriented flushing the output buffer - for putc(), fputc(), putchar(), puts(), fputs(), printf(), - fprintf(), and vfprintf(). When a newline is encountered in - the output string, the output buffer will be flushed. This - (slightly) increases the NuttX footprint but supports the kind - of behavior that people expect for printf(). - CONFIG_NUNGET_CHARS - Number of characters that can be - buffered by ungetc() (Only if CONFIG_NFILE_STREAMS > 0) - CONFIG_PREALLOC_MQ_MSGS - The number of pre-allocated message - structures. The system manages a pool of preallocated - message structures to minimize dynamic allocations - CONFIG_PREALLOC_IGMPGROUPS - Pre-allocated IGMP groups are used - only if needed from interrupt level group created (by the IGMP server). - Default: 4. - CONFIG_MQ_MAXMSGSIZE - Message structures are allocated with - a fixed payload size given by this settin (does not include - other message structure overhead. - CONFIG_PREALLOC_WDOGS - The number of pre-allocated watchdog - structures. The system manages a pool of preallocated - watchdog structures to minimize dynamic allocations - CONFIG_DEV_PIPE_SIZE - Size, in bytes, of the buffer to allocated - for pipe and FIFO support - - Filesystem configuration - - CONFIG_FS_FAT - Enable FAT filesystem support - CONFIG_FAT_LCNAMES - Enable use of the NT-style upper/lower case 8.3 - file name support. - CONFIG_FAT_LFN - Enable FAT long file names. NOTE: Microsoft claims - patents on FAT long file name technology. Please read the - disclaimer in the top-level COPYING file and only enable this - feature if you understand these issues. - CONFIG_FAT_MAXFNAME - If CONFIG_FAT_LFN is defined, then the - default, maximum long file name is 255 bytes. This can eat up - a lot of memory (especially stack space). If you are willing - to live with some non-standard, short long file names, then - define this value. A good choice would be the same value as - selected for CONFIG_NAME_MAX which will limit the visibility - of longer file names anyway. - CONFIG_FS_FATTIME: Support FAT date and time. NOTE: There is not - much sense in supporting FAT date and time unless you have a - hardware RTC or other way to get the time and date. - CONFIG_FS_NXFFS: Enable NuttX FLASH file system (NXFF) support. - CONFIG_NXFFS_ERASEDSTATE: The erased state of FLASH. - This must have one of the values of 0xff or 0x00. - Default: 0xff. - CONFIG_NXFFS_PACKTHRESHOLD: When packing flash file data, - don't both with file chunks smaller than this number of data bytes. - Default: 32. - CONFIG_NXFFS_MAXNAMLEN: The maximum size of an NXFFS file name. - Default: 255. - CONFIG_NXFFS_PACKTHRESHOLD: When packing flash file data, - don't both with file chunks smaller than this number of data bytes. - Default: 32. - CONFIG_NXFFS_TAILTHRESHOLD: clean-up can either mean - packing files together toward the end of the file or, if file are - deleted at the end of the file, clean up can simply mean erasing - the end of FLASH memory so that it can be re-used again. However, - doing this can also harm the life of the FLASH part because it can - mean that the tail end of the FLASH is re-used too often. This - threshold determines if/when it is worth erased the tail end of FLASH - and making it available for re-use (and possible over-wear). - Default: 8192. - CONFIG_FS_ROMFS - Enable ROMFS filesystem support - CONFIG_NFS - Enable Network File System (NFS) client file system support. - Provided support is version 3 using UDP. In addition to common - prerequisites for mount-able file systems in general, this option - requires UDP networking support; this would include CONFIG_NETand - CONFIG_NET_UDP at a minimum. - CONFIG_FS_RAMMAP - For file systems that do not support XIP, this - option will enable a limited form of memory mapping that is - implemented by copying whole files into memory. - - RTC - - CONFIG_RTC - Enables general support for a hardware RTC. Specific - architectures may require other specific settings. - CONFIG_RTC_DATETIME - There are two general types of RTC: (1) A simple - battery backed counter that keeps the time when power is down, and (2) - A full date / time RTC the provides the date and time information, often - in BCD format. If CONFIG_RTC_DATETIME is selected, it specifies this - second kind of RTC. In this case, the RTC is used to "seed" the normal - NuttX timer and the NuttX system timer provides for higher resoution - time. - CONFIG_RTC_HIRES - If CONFIG_RTC_DATETIME not selected, then the simple, - battery backed counter is used. There are two different implementations - of such simple counters based on the time resolution of the counter: - The typical RTC keeps time to resolution of 1 second, usually - supporting a 32-bit time_t value. In this case, the RTC is used to - "seed" the normal NuttX timer and the NuttX timer provides for higher - resoution time. If CONFIG_RTC_HIRES is enabled in the NuttX configuration, - then the RTC provides higher resolution time and completely replaces the - system timer for purpose of date and time. - CONFIG_RTC_FREQUENCY - If CONFIG_RTC_HIRES is defined, then the frequency - of the high resolution RTC must be provided. If CONFIG_RTC_HIRES is - not defined, CONFIG_RTC_FREQUENCY is assumed to be one. - CONFIG_RTC_ALARM - Enable if the RTC hardware supports setting of an - alarm. A callback function will be executed when the alarm goes off - - CAN driver - - CONFIG_CAN - Enables CAN support (one or both of CONFIG_STM32_CAN1 or - CONFIG_STM32_CAN2 must also be defined) - CONFIG_CAN_EXTID - Enables support for the 29-bit extended ID. Default - Standard 11-bit IDs. - CONFIG_CAN_FIFOSIZE - The size of the circular buffer of CAN messages. - Default: 8 - CONFIG_CAN_NPENDINGRTR - The size of the list of pending RTR requests. - Default: 4 - CONFIG_CAN_LOOPBACK - A CAN driver may or may not support a loopback - mode for testing. If the driver does support loopback mode, the setting - will enable it. (If the driver does not, this setting will have no effect). - - SPI driver - - CONFIG_SPI_OWNBUS - Set if there is only one active device - on the SPI bus. No locking or SPI configuration will be performed. - It is not necessary for clients to lock, re-configure, etc.. - CONFIG_SPI_EXCHANGE - Driver supports a single exchange method - (vs a recvblock() and sndblock ()methods) - - SPI-based MMC/SD driver - - CONFIG_MMCSD_NSLOTS - Number of MMC/SD slots supported by the - driver. Default is one. - CONFIG_MMCSD_READONLY - Provide read-only access. Default is - Read/Write - CONFIG_MMCSD_SPICLOCK - Maximum SPI clock to drive MMC/SD card. - Default is 20MHz. - - SDIO/SDHC driver: - - CONFIG_SDIO_DMA - SDIO driver supports DMA - CONFIG_SDIO_MUXBUS - Set this SDIO interface if the SDIO interface - or hardware resources are shared with other drivers. - CONFIG_SDIO_WIDTH_D1_ONLY - Select 1-bit transfer mode. Default: - 4-bit transfer mode. - CONFIG_MMCSD_MULTIBLOCK_DISABLE - Use only the single block transfer method. - This setting is used to work around buggy SDIO drivers that cannot handle - multiple block transfers. - - SDIO-based MMC/SD driver - - CONFIG_FS_READAHEAD - Enable read-ahead buffering - CONFIG_FS_WRITEBUFFER - Enable write buffering - CONFIG_MMCSD_MMCSUPPORT - Enable support for MMC cards - CONFIG_MMCSD_HAVECARDDETECT - SDIO driver card detection is - 100% accurate - - RiT P14201 OLED driver - - CONFIG_LCD_P14201 - Enable P14201 support - CONFIG_P14201_SPIMODE - Controls the SPI mode - CONFIG_P14201_FREQUENCY - Define to use a different bus frequency - CONFIG_P14201_NINTERFACES - Specifies the number of physical P14201 - devices that will be supported. - CONFIG_P14201_FRAMEBUFFER - If defined, accesses will be performed - using an in-memory copy of the OLEDs GDDRAM. This cost of this - buffer is 128 * 96 / 2 = 6Kb. If this is defined, then the driver - will be fully functional. If not, then it will have the following - limitations: - - Reading graphics memory cannot be supported, and - - All pixel writes must be aligned to byte boundaries. - The latter limitation effectively reduces the 128x96 disply to 64x96. - - Nokia 6100 Configuration Settings: - - CONFIG_NOKIA6100_SPIMODE - Controls the SPI mode - CONFIG_NOKIA6100_FREQUENCY - Define to use a different bus frequency - CONFIG_NOKIA6100_NINTERFACES - Specifies the number of physical Nokia - 6100 devices that will be supported. - CONFIG_NOKIA6100_BPP - Device supports 8, 12, and 16 bits per pixel. - CONFIG_NOKIA6100_S1D15G10 - Selects the Epson S1D15G10 display controller - CONFIG_NOKIA6100_PCF8833 - Selects the Phillips PCF8833 display controller - CONFIG_NOKIA6100_BLINIT - Initial backlight setting - - The following may need to be tuned for your hardware: - CONFIG_NOKIA6100_INVERT - Display inversion, 0 or 1, Default: 1 - CONFIG_NOKIA6100_MY - Display row direction, 0 or 1, Default: 0 - CONFIG_NOKIA6100_MX - Display column direction, 0 or 1, Default: 1 - CONFIG_NOKIA6100_V - Display address direction, 0 or 1, Default: 0 - CONFIG_NOKIA6100_ML - Display scan direction, 0 or 1, Default: 0 - CONFIG_NOKIA6100_RGBORD - Display RGB order, 0 or 1, Default: 0 - - Required LCD driver settings: - CONFIG_LCD_NOKIA6100 - Enable Nokia 6100 support - CONFIG_LCD_MAXCONTRAST - must be 63 with the Epson controller and 127 with - the Phillips controller. - CONFIG_LCD_MAXPOWER - Maximum value of backlight setting. The backlight - control is managed outside of the 6100 driver so this value has no - meaning to the driver. Board-specific logic may place restrictions on - this value. - - Input Devices - - CONFIG_INPUT - Enables general support for input devices - - CONFIG_INPUT_TSC2007 - If CONFIG_INPUT is selected, then this setting will enable building - of the TI TSC2007 touchscreen driver. - CONFIG_TSC2007_MULTIPLE - Normally only a single TI TSC2007 touchscreen is used. But if - there are multiple TSC2007 touchscreens, this setting will enable - multiple touchscreens with the same driver. - - CONFIG_INPUT_STMPE811 - Enables support for the STMPE811 driver (Needs CONFIG_INPUT) - CONFIG_STMPE811_SPI - Enables support for the SPI interface (not currenly supported) - CONFIG_STMPE811_I2C - Enables support for the I2C interface - CONFIG_STMPE811_MULTIPLE - Can be defined to support multiple STMPE811 devices on board. - CONFIG_STMPE811_ACTIVELOW - Interrupt is generated by an active low signal (or falling edge). - CONFIG_STMPE811_EDGE - Interrupt is generated on an edge (vs. on the active level) - CONFIG_STMPE811_NPOLLWAITERS - Maximum number of threads that can be waiting on poll() (ignored if - CONFIG_DISABLE_POLL is set). - CONFIG_STMPE811_TSC_DISABLE - Disable driver touchscreen functionality. - CONFIG_STMPE811_ADC_DISABLE - Disable driver ADC functionality. - CONFIG_STMPE811_GPIO_DISABLE - Disable driver GPIO functionlaity. - CONFIG_STMPE811_GPIOINT_DISABLE - Disable driver GPIO interrupt functionality (ignored if GPIO - functionality is disabled). - CONFIG_STMPE811_SWAPXY - Reverse the meaning of X and Y to handle different LCD orientations. - CONFIG_STMPE811_TEMP_DISABLE - Disable driver temperature sensor functionality. - CONFIG_STMPE811_REGDEBUG - Enabled very low register-level debug output. Requires CONFIG_DEBUG. - CONFIG_STMPE811_THRESHX and CONFIG_STMPE811_THRESHY - STMPE811 touchscreen data comes in a a very high rate. New touch positions - will only be reported when the X or Y data changes by these thresholds. - This trades reduces data rate for some loss in dragging accuracy. The - STMPE811 is configure for 12-bit values so the raw ranges are 0-4095. So - for example, if your display is 320x240, then THRESHX=13 and THRESHY=17 - would correspond to one pixel. Default: 12 - - Analog Devices - - CONFIG_DAC - Enables general support for Digital-to-Analog conversion devices. - CONFIG_ADC - Enables general support for Analog-to-Digital conversion devices. - CONFIG_ADC_ADS125X - Adds support for the TI ADS 125x ADC. - - ENC28J60 Ethernet Driver Configuration Settings: - - CONFIG_ENC28J60 - Enabled ENC28J60 support - CONFIG_ENC28J60_SPIMODE - Controls the SPI mode - CONFIG_ENC28J60_FREQUENCY - Define to use a different bus frequency - CONFIG_ENC28J60_NINTERFACES - Specifies the number of physical ENC28J60 - devices that will be supported. - CONFIG_ENC28J60_STATS - Collect network statistics - CONFIG_ENC28J60_HALFDUPPLEX - Default is full duplex - - Networking support via uIP - - CONFIG_NET - Enable or disable all network features - CONFIG_NET_NOINTS -- CONFIG_NET_NOINT indicates that uIP not called from - the interrupt level. If CONFIG_NET_NOINTS is defined, critical sections - will be managed with semaphores; Otherwise, it assumed that uIP will be - called from interrupt level handling and critical sections will be - managed by enabling and disabling interrupts. - CONFIG_NET_MULTIBUFFER - Traditionally, uIP has used a single buffer - for all incoming and outgoing traffic. If this configuration is - selected, then the driver can manage multiple I/O buffers and can, - for example, be filling one input buffer while sending another - output buffer. Or, as another example, the driver may support - queuing of concurrent input/ouput and output transfers for better - performance. - CONFIG_NET_IPv6 - Build in support for IPv6 - CONFIG_NSOCKET_DESCRIPTORS - Maximum number of socket descriptors - per task/thread. - CONFIG_NET_NACTIVESOCKETS - Maximum number of concurrent socket - operations (recv, send, etc.). Default: CONFIG_NET_TCP_CONNS+CONFIG_NET_UDP_CONNS - CONFIG_NET_SOCKOPTS - Enable or disable support for socket options - - CONFIG_NET_BUFSIZE - uIP buffer size - CONFIG_NET_TCPURGDATA - Determines if support for TCP urgent data - notification should be compiled in. Urgent data (out-of-band data) - is a rarely used TCP feature that is very seldom would be required. - CONFIG_NET_TCP - TCP support on or off - CONFIG_NET_TCP_CONNS - Maximum number of TCP connections (all tasks) - CONFIG_NET_MAX_LISTENPORTS - Maximum number of listening TCP ports (all tasks) - CONFIG_NET_TCP_READAHEAD_BUFSIZE - Size of TCP read-ahead buffers - CONFIG_NET_NTCP_READAHEAD_BUFFERS - Number of TCP read-ahead buffers - (may be zero to disable TCP/IP read-ahead buffering) - CONFIG_NET_TCP_RECVDELAY - Delay (in deciseconds) after a TCP/IP packet - is received. This delay may allow catching of additional packets - when TCP/IP read-ahead is disabled. Default: 0 - CONFIG_NET_TCPBACKLOG - Incoming connections pend in a backlog until - accept() is called. The size of the backlog is selected when listen() - is called. - CONFIG_NET_UDP - UDP support on or off - CONFIG_NET_UDP_CHECKSUMS - UDP checksums on or off - CONFIG_NET_UDP_CONNS - The maximum amount of concurrent UDP - connections - CONFIG_NET_ICMP - Enable minimal ICMP support. Includes built-in support - for sending replies to received ECHO (ping) requests. - CONFIG_NET_ICMP_PING - Provide interfaces to support application level - support for sending ECHO (ping) requests and associating ECHO - replies. - CONFIG_NET_IGMP - Enable IGMPv2 client support. - CONFIG_PREALLOC_IGMPGROUPS - Pre-allocated IGMP groups are used - only if needed from interrupt level group created (by the IGMP server). - Default: 4. - CONFIG_NET_PINGADDRCONF - Use "ping" packet for setting IP address - CONFIG_NET_STATISTICS - uIP statistics on or off - CONFIG_NET_RECEIVE_WINDOW - The size of the advertised receiver's - window - CONFIG_NET_ARPTAB_SIZE - The size of the ARP table - CONFIG_NET_ARP_IPIN - Harvest IP/MAC address mappings from the ARP table - from incoming IP packets. - CONFIG_NET_BROADCAST - Incoming UDP broadcast support - CONFIG_NET_MULTICAST - Outgoing multi-cast address support - - SLIP Driver. SLIP supports point-to-point IP communications over a serial - port. The default data link layer for uIP is Ethernet. If CONFIG_NET_SLIP - is defined in the NuttX configuration file, then SLIP will be supported. - The basic differences between the SLIP and Ethernet configurations is that - when SLIP is selected: - - * The link level header (that comes before the IP header) is omitted. - * All MAC address processing is suppressed. - * ARP is disabled. - - If CONFIG_NET_SLIP is not selected, then Ethernet will be used (there is - no need to define anything special in the configuration file to use - Ethernet -- it is the default). - - CONFIG_NET_SLIP -- Enables building of the SLIP driver. SLIP requires - at least one IP protocols selected and the following additional - network settings: CONFIG_NET_NOINTS and CONFIG_NET_MULTIBUFFER. - CONFIG_NET_BUFSIZE *must* be set to 296. Other optional configuration - settings that affect the SLIP driver: CONFIG_NET_STATISTICS. - Default: Ethernet - - If SLIP is selected, then the following SLIP options are available: - - CONFIG_CLIP_NINTERFACES -- Selects the number of physical SLIP - interfaces to support. Default: 1 - CONFIG_SLIP_STACKSIZE -- Select the stack size of the SLIP RX and - TX tasks. Default: 2048 - CONFIG_SLIP_DEFPRIO - The priority of the SLIP RX and TX tasks. - Default: 128 - - UIP Network Utilities - - CONFIG_NET_DHCP_LIGHT - Reduces size of DHCP - CONFIG_NET_RESOLV_ENTRIES - Number of resolver entries - CONFIG_NET_RESOLV_MAXRESPONSE - This setting determines the maximum - size of response message that can be received by the DNS resolver. - The default is 96 but may need to be larger on enterprise networks - (perhaps 176). - - THTTPD - - CONFIG_THTTPD_PORT - THTTPD Server port number - CONFIG_THTTPD_IPADDR - Server IP address (no host name) - CONFIG_THTTPD_SERVER_ADDRESS - SERVER_ADDRESS: response - CONFIG_THTTPD_SERVER_SOFTWARE - SERVER_SOFTWARE: response - CONFIG_THTTPD_PATH - Server working directory - CONFIG_THTTPD_CGI_PATH - Path to CGI executables - CONFIG_THTTPD_CGI_PATTERN - Only CGI programs matching this - pattern will be executed. In fact, if this value is not defined - then no CGI logic will be built. - CONFIG_THTTPD_CGI_PRIORITY - Provides the priority of CGI child tasks - CONFIG_THTTPD_CGI_STACKSIZE - Provides the initial stack size of - CGI child task (will be overridden by the stack size in the NXFLAT - header) - CONFIG_THTTPD_CGI_BYTECOUNT - Byte output limit for CGI tasks. - CONFIG_THTTPD_CGI_TIMELIMIT - How many seconds to allow CGI programs - to run before killing them. - CONFIG_THTTPD_CHARSET- The default character set name to use with - text MIME types. - CONFIG_THTTPD_IOBUFFERSIZE - - CONFIG_THTTPD_INDEX_NAMES - A list of index filenames to check. The - files are searched for in this order. - CONFIG_AUTH_FILE - The file to use for authentication. If this is - defined then thttpd checks for this file in the local directory - before every fetch. If the file exists then authentication is done, - otherwise the fetch proceeds as usual. If you leave this undefined - then thttpd will not implement authentication at all and will not - check for auth files, which saves a bit of CPU time. A typical - value is ".htpasswd" - CONFIG_THTTPD_LISTEN_BACKLOG - The listen() backlog queue length. - CONFIG_THTTPD_LINGER_MSEC - How many milliseconds to leave a connection - open while doing a lingering close. - CONFIG_THTTPD_OCCASIONAL_MSEC - How often to run the occasional - cleanup job. - CONFIG_THTTPD_IDLE_READ_LIMIT_SEC - How many seconds to allow for - reading the initial request on a new connection. - CONFIG_THTTPD_IDLE_SEND_LIMIT_SEC - How many seconds before an - idle connection gets closed. - CONFIG_THTTPD_TILDE_MAP1 and CONFIG_THTTPD_TILDE_MAP2 - Tilde mapping. - Many URLs use ~username to indicate a user's home directory. thttpd - provides two options for mapping this construct to an actual filename. - 1) Map ~username to /username. This is the recommended choice. - Each user gets a subdirectory in the main web tree, and the tilde - construct points there. The prefix could be something like "users", - or it could be empty. - 2) Map ~username to /. The postfix would be - the name of a subdirectory off of the user's actual home dir, - something like "public_html". - You can also leave both options undefined, and thttpd will not do - anything special about tildes. Enabling both options is an error. - Typical values, if they're defined, are "users" for - CONFIG_THTTPD_TILDE_MAP1 and "public_html"forCONFIG_THTTPD_TILDE_MAP2. - CONFIG_THTTPD_GENERATE_INDICES - CONFIG_THTTPD_URLPATTERN - If defined, then it will be used to match - and verify referrers. - - FTP Server - - CONFIG_FTPD_VENDORID - The vendor name to use in FTP communications. - Default: "NuttX" - CONFIG_FTPD_SERVERID - The server name to use in FTP communications. - Default: "NuttX FTP Server" - CONFIG_FTPD_CMDBUFFERSIZE - The maximum size of one command. Default: - 128 bytes. - CONFIG_FTPD_DATABUFFERSIZE - The size of the I/O buffer for data - transfers. Default: 512 bytes. - CONFIG_FTPD_WORKERSTACKSIZE - The stacksize to allocate for each - FTP daemon worker thread. Default: 2048 bytes. - - Other required configuration settings: Of course TCP networking support - is required. But here are a couple that are less obvious: - - CONFIG_DISABLE_PTHREAD - pthread support is required - CONFIG_DISABLE_POLL - poll() support is required - - USB device controller driver - - CONFIG_USBDEV - Enables USB device support - CONFIG_USBDEV_COMPOSITE - Enables USB composite device support - CONFIG_USBDEV_ISOCHRONOUS - Build in extra support for isochronous - endpoints - CONFIG_USBDEV_DUALSPEED -Hardware handles high and full speed - operation (USB 2.0) - CONFIG_USBDEV_SELFPOWERED - Will cause USB features to indicate - that the device is self-powered - CONFIG_USBDEV_MAXPOWER - Maximum power consumption in mA - CONFIG_USBDEV_TRACE - Enables USB tracing for debug - CONFIG_USBDEV_TRACE_NRECORDS - Number of trace entries to remember - - USB host controller driver - - CONFIG_USBHOST - Enables USB host support - CONFIG_USBHOST_NPREALLOC - Number of pre-allocated class instances - CONFIG_USBHOST_BULK_DISABLE - On some architectures, selecting this setting will reduce driver size - by disabling bulk endpoint support - CONFIG_USBHOST_INT_DISABLE - On some architectures, selecting this setting will reduce driver size - by disabling interrupt endpoint support - CONFIG_USBHOST_ISOC_DISABLE - On some architectures, selecting this setting will reduce driver size - by disabling isochronous endpoint support - - USB host HID class driver. Requires CONFIG_USBHOST=y, - CONFIG_USBHOST_INT_DISABLE=n, CONFIG_NFILE_DESCRIPTORS > 0, - CONFIG_SCHED_WORKQUEUE=y, and CONFIG_DISABLE_SIGNALS=n. - - CONFIG_HIDKBD_POLLUSEC - Device poll rate in microseconds. Default: 100 milliseconds. - CONFIG_HIDKBD_DEFPRIO - Priority of the polling thread. Default: 50. - CONFIG_HIDKBD_STACKSIZE - Stack size for polling thread. Default: 1024 - CONFIG_HIDKBD_BUFSIZE - Scancode buffer size. Default: 64. - CONFIG_HIDKBD_NPOLLWAITERS - If the poll() method is enabled, this defines the maximum number - of threads that can be waiting for keyboard events. Default: 2. - CONFIG_HIDKBD_RAWSCANCODES - If set to y no conversion will be made on the raw keyboard scan - codes. Default: ASCII conversion. - CONFIG_HIDKBD_ALLSCANCODES' - If set to y all 231 possible scancodes will be converted to - something. Default: 104 key US keyboard. - CONFIG_HIDKBD_NODEBOUNCE - If set to y normal debouncing is disabled. Default: - Debounce enabled (No repeat keys). - - USB host mass storage class driver. Requires CONFIG_USBHOST=y, - CONFIG_USBHOST_BULK_DISABLE=n, CONFIG_NFILE_DESCRIPTORS > 0, - and CONFIG_SCHED_WORKQUEUE=y - - USB serial device class driver (Prolific PL2303 Emulation) - - CONFIG_PL2303 - Enable compilation of the USB serial driver - CONFIG_PL2303_EPINTIN - The logical 7-bit address of a hardware endpoint that supports - interrupt IN operation - CONFIG_PL2303_EPBULKOUT - The logical 7-bit address of a hardware endpoint that supports - bulk OUT operation - CONFIG_PL2303_EPBULKIN - The logical 7-bit address of a hardware endpoint that supports - bulk IN operation - CONFIG_PL2303_NWRREQS and CONFIG_PL2303_NRDREQS - The number of write/read requests that can be in flight - CONFIG_PL2303_VENDORID and CONFIG_PL2303_VENDORSTR - The vendor ID code/string - CONFIG_PL2303_PRODUCTID and CONFIG_PL2303_PRODUCTSTR - The product ID code/string - CONFIG_PL2303_RXBUFSIZE and CONFIG_PL2303_TXBUFSIZE - Size of the serial receive/transmit buffers - - USB serial device class driver (Standard CDC ACM class) - - CONFIG_CDCACM - Enable compilation of the USB serial driver - CONFIG_CDCACM_COMPOSITE - Configure the CDC serial driver as part of a composite driver - (only if CONFIG_USBDEV_COMPOSITE is also defined) - CONFIG_CDCACM_IFNOBASE - If the CDC driver is part of a composite device, then this may need to - be defined to offset the CDC/ACM interface numbers so that they are - unique and contiguous. When used with the Mass Storage driver, the - correct value for this offset is zero. - CONFIG_CDCACM_STRBASE - If the CDC driver is part of a composite device, then this may need to - be defined to offset the CDC/ACM string numbers so that they are - unique and contiguous. When used with the Mass Storage driver, the - correct value for this offset is four (this value actuallly only needs - to be defined if names are provided for the Notification interface, - CONFIG_CDCACM_NOTIFSTR, or the data interface, CONFIG_CDCACM_DATAIFSTR). - CONFIG_CDCACM_EP0MAXPACKET - Endpoint 0 max packet size. Default 64. - CONFIG_CDCACM_EPINTIN - The logical 7-bit address of a hardware endpoint that supports - interrupt IN operation. Default 2. - CONFIG_CDCACM_EPINTIN_FSSIZE - Max package size for the interrupt IN endpoint if full speed mode. - Default 64. - CONFIG_CDCACM_EPINTIN_HSSIZE - Max package size for the interrupt IN endpoint if high speed mode. - Default 64. - CONFIG_CDCACM_EPBULKOUT - The logical 7-bit address of a hardware endpoint that supports - bulk OUT operation - CONFIG_CDCACM_EPBULKOUT_FSSIZE - Max package size for the bulk OUT endpoint if full speed mode. - Default 64. - CONFIG_CDCACM_EPBULKOUT_HSSIZE - Max package size for the bulk OUT endpoint if high speed mode. - Default 512. - CONFIG_CDCACM_EPBULKIN - The logical 7-bit address of a hardware endpoint that supports - bulk IN operation - CONFIG_CDCACM_EPBULKIN_FSSIZE - Max package size for the bulk IN endpoint if full speed mode. - Default 64. - CONFIG_CDCACM_EPBULKIN_HSSIZE - Max package size for the bulk IN endpoint if high speed mode. - Default 512. - CONFIG_CDCACM_NWRREQS and CONFIG_CDCACM_NRDREQS - The number of write/read requests that can be in flight. - CONFIG_CDCACM_NWRREQS includes write requests used for both the - interrupt and bulk IN endpoints. Default 4. - CONFIG_CDCACM_VENDORID and CONFIG_CDCACM_VENDORSTR - The vendor ID code/string. Default 0x0525 and "NuttX" - 0x0525 is the Netchip vendor and should not be used in any - products. This default VID was selected for compatibility with - the Linux CDC ACM default VID. - CONFIG_CDCACM_PRODUCTID and CONFIG_CDCACM_PRODUCTSTR - The product ID code/string. Default 0xa4a7 and "CDC/ACM Serial" - 0xa4a7 was selected for compatibility with the Linux CDC ACM - default PID. - CONFIG_CDCACM_RXBUFSIZE and CONFIG_CDCACM_TXBUFSIZE - Size of the serial receive/transmit buffers. Default 256. - - USB Storage Device Configuration - - CONFIG_USBMSC - Enable compilation of the USB storage driver - CONFIG_USBMSC_COMPOSITE - Configure the mass storage driver as part of a composite driver - (only if CONFIG_USBDEV_COMPOSITE is also defined) - CONFIG_USBMSC_IFNOBASE - If the CDC driver is part of a composite device, then this may need to - be defined to offset the mass storage interface number so that it is - unique and contiguous. When used with the CDC/ACM driver, the - correct value for this offset is two (because of the two CDC/ACM - interfaces that will precede it). - CONFIG_USBMSC_STRBASE - If the CDC driver is part of a composite device, then this may need to - be defined to offset the mass storage string numbers so that they are - unique and contiguous. When used with the CDC/ACM driver, the - correct value for this offset is four (or perhaps 5 or 6, depending - on if CONFIG_CDCACM_NOTIFSTR or CONFIG_CDCACM_DATAIFSTR are defined). - CONFIG_USBMSC_EP0MAXPACKET - Max packet size for endpoint 0 - CONFIG_USBMSCEPBULKOUT and CONFIG_USBMSC_EPBULKIN - The logical 7-bit address of a hardware endpoints that support - bulk OUT and IN operations - CONFIG_USBMSC_NWRREQS and CONFIG_USBMSC_NRDREQS - The number of write/read requests that can be in flight - CONFIG_USBMSC_BULKINREQLEN and CONFIG_USBMSC_BULKOUTREQLEN - The size of the buffer in each write/read request. This - value needs to be at least as large as the endpoint - maxpacket and ideally as large as a block device sector. - CONFIG_USBMSC_VENDORID and CONFIG_USBMSC_VENDORSTR - The vendor ID code/string - CONFIG_USBMSC_PRODUCTID and CONFIG_USBMSC_PRODUCTSTR - The product ID code/string - CONFIG_USBMSC_REMOVABLE - Select if the media is removable - - USB Composite Device Configuration - - CONFIG_USBDEV_COMPOSITE - Enables USB composite device support - CONFIG_CDCACM_COMPOSITE - Configure the CDC serial driver as part of a composite driver - (only if CONFIG_USBDEV_COMPOSITE is also defined) - CONFIG_USBMSC_COMPOSITE - Configure the mass storage driver as part of a composite driver - (only if CONFIG_USBDEV_COMPOSITE is also defined) - CONFIG_COMPOSITE_IAD - If one of the members of the composite has multiple interfaces - (such as CDC/ACM), then an Interface Association Descriptor (IAD) - will be necessary. Default: IAD will be used automatically if - needed. It should not be necessary to set this. - CONFIG_COMPOSITE_EP0MAXPACKET - Max packet size for endpoint 0 - CONFIG_COMPOSITE_VENDORID and CONFIG_COMPOSITE_VENDORSTR - The vendor ID code/string - CONFIG_COMPOSITE_PRODUCTID and CONFIG_COMPOSITE_PRODUCTSTR - The product ID code/string - CONFIG_COMPOSITE_SERIALSTR - Device serial number string - CONFIG_COMPOSITE_CONFIGSTR - Configuration string - CONFIG_COMPOSITE_VERSIONNO - Interface version number. - - Graphics related configuration settings - - CONFIG_NX - Enables overall support for graphics library and NX - CONFIG_NX_MULTIUSER - Configures NX in multi-user mode - CONFIG_NX_NPLANES - Some YUV color formats requires support for multiple planes, - one for each color component. Unless you have such special - hardware, this value should be undefined or set to 1. - CONFIG_NX_DISABLE_1BPP, CONFIG_NX_DISABLE_2BPP, - CONFIG_NX_DISABLE_4BPP, CONFIG_NX_DISABLE_8BPP, - CONFIG_NX_DISABLE_16BPP, CONFIG_NX_DISABLE_24BPP, and - CONFIG_NX_DISABLE_32BPP - NX supports a variety of pixel depths. You can save some - memory by disabling support for unused color depths. - CONFIG_NX_PACKEDMSFIRST - If a pixel depth of less than 8-bits is used, then NX needs - to know if the pixels pack from the MS to LS or from LS to MS - CONFIG_NX_LCDDRIVER - By default, NX builds to use a framebuffer driver (see - include/nuttx/fb.h). If this option is defined, NX will - build to use an LCD driver (see include/nuttx/lcd/lcd.h). - CONFIG_LCD_MAXPOWER - The full-on power setting for an LCD - device. - CONFIG_LCD_MAXCONTRAST - The maximum contrast value for an - LCD device. - CONFIG_LCD_LANDSCAPE, CONFIG_LCD_PORTRAIT, CONFIG_LCD_RLANDSCAPE, - and CONFIG_LCD_RPORTRAIT - Some LCD drivers may support - these options to present the display in landscape, portrait, - reverse landscape, or reverse portrait orientations. Check - the README.txt file in each board configuration directory to - see if any of these are supported by the board LCD logic. - CONFIG_NX_MOUSE - Build in support for mouse input. - CONFIG_NX_KBD - Build in support of keypad/keyboard input. - CONFIG_NXTK_BORDERWIDTH - Specifies with with of the border (in pixels) used with - framed windows. The default is 4. - CONFIG_NXTK_BORDERCOLOR1 and CONFIG_NXTK_BORDERCOLOR2 - Specify the colors of the border used with framed windows. - CONFIG_NXTK_BORDERCOLOR2 is the shadow side color and so - is normally darker. The default is medium and dark grey, - respectively - CONFIG_NXTK_AUTORAISE - If set, a window will be raised to the top if the mouse position - is over a visible portion of the window. Default: A mouse - button must be clicked over a visible portion of the window. - CONFIG_NXFONTS_CHARBITS - The number of bits in the character set. Current options are - only 7 and 8. The default is 7. - - CONFIG_NXFONT_SANS23X27 - This option enables support for a tiny, 23x27 san serif font - (font ID FONTID_SANS23X27 == 1). - CONFIG_NXFONT_SANS22X29 - This option enables support for a small, 22x29 san serif font - (font ID FONTID_SANS22X29 == 2). - CONFIG_NXFONT_SANS28X37 - This option enables support for a medium, 28x37 san serif font - (font ID FONTID_SANS28X37 == 3). - CONFIG_NXFONT_SANS39X48 - This option enables support for a large, 39x48 san serif font - (font ID FONTID_SANS39X48 == 4). - CONFIG_NXFONT_SANS22X29B - This option enables support for a small, 22x29 san serif bold font - (font ID FONTID_SANS22X29B == 5). - CONFIG_NXFONT_SANS28X37B - This option enables support for a medium, 28x37 san serif bold font - (font ID FONTID_SANS28X37B == 6). - CONFIG_NXFONT_SANS40X49B - This option enables support for a large, 40x49 san serif bold font - (font ID FONTID_SANS40X49B == 7). - CONFIG_NXFONT_SERIF22X29 - This option enables support for a small, 22x29 font (with serifs) - (font ID FONTID_SERIF22X29 == 8). - CONFIG_NXFONT_SERIF29X37 - This option enables support for a medium, 29x37 font (with serifs) - (font ID FONTID_SERIF29X37 == 9). - CONFIG_NXFONT_SERIF38X48 - This option enables support for a large, 38x48 font (with serifs) - (font ID FONTID_SERIF38X48 == 10). - CONFIG_NXFONT_SERIF22X28B - This option enables support for a small, 27x38 bold font (with serifs) - (font ID FONTID_SERIF22X28B == 11). - CONFIG_NXFONT_SERIF27X38B - This option enables support for a medium, 27x38 bold font (with serifs) - (font ID FONTID_SERIF27X38B == 12). - CONFIG_NXFONT_SERIF38X49B - This option enables support for a large, 38x49 bold font (with serifs) - (font ID FONTID_SERIF38X49B == 13). - - NX Multi-user only options: - - CONFIG_NX_BLOCKING - Open the client message queues in blocking mode. In this case, - nx_eventhandler() will never return. - CONFIG_NX_MXSERVERMSGS and CONFIG_NX_MXCLIENTMSGS - Specifies the maximum number of messages that can fit in - the message queues. No additional resources are allocated, but - this can be set to prevent flooding of the client or server with - too many messages (CONFIG_PREALLOC_MQ_MSGS controls how many - messages are pre-allocated). - - Stack and heap information - - CONFIG_BOOT_RUNFROMFLASH - Some configurations support XIP - operation from FLASH but must copy initialized .data sections to RAM. - CONFIG_BOOT_COPYTORAM - Some configurations boot in FLASH - but copy themselves entirely into RAM for better performance. - CONFIG_ARCH_RAMFUNCS - Other configurations may copy just some functions - into RAM, either for better performance or for errata workarounds. - CONFIG_STACK_ALIGNMENT - Set if the your application has specific - stack alignment requirements (may not be supported - in all architectures). - CONFIG_IDLETHREAD_STACKSIZE - The size of the initial stack. - This is the thread that (1) performs the inital boot of the system up - to the point where user_start() is spawned, and (2) there after is the - IDLE thread that executes only when there is no other thread ready to - run. - CONFIG_USERMAIN_STACKSIZE - The size of the stack to allocate - for the main user thread that begins at the user_start() entry point. - CONFIG_PTHREAD_STACK_MIN - Minimum pthread stack size - CONFIG_PTHREAD_STACK_DEFAULT - Default pthread stack size - CONFIG_HEAP_BASE - The beginning of the heap - CONFIG_HEAP_SIZE - The size of the heap - -appconfig -- This is another configuration file that is specific to the - application. This file is copied into the application build directory - when NuttX is configured. See ../apps/README.txt for further details. - -setenv.sh -- This is a script that you can include that will be installed at - the toplevel of the directory structure and can be sourced to set any - necessary environment variables. You will most likely have to customize the - default setenv.sh script in order for it to work correctly in your - environment. - -Supported Boards -^^^^^^^^^^^^^^^^ - -configs/amber - This is placeholder for the SoC Robotics Amber Web Server that is based - on the Atmel AVR ATMega128 MCU. There is not much there yet and what is - there is untested due to tool-related issues. - -configs/avr32dev1 - This is a port of NuttX to the Atmel AVR32DEV1 board. That board is - based on the Atmel AT32UC3B0256 MCU and uses a specially patched - version of the GNU toolchain: The patches provide support for the - AVR32 family. That patched GNU toolchain is available only from the - Atmel website. STATUS: This port is functional but very basic. There - are configurations for NSH and the OS test. - -configs/c5471evm - This is a port to the Spectrum Digital C5471 evaluation board. The - TMS320C5471 is a dual core processor from TI with an ARM7TDMI general - purpose processor and a c54 DSP. It is also known as TMS320DA180 or just DA180. - NuttX runs on the ARM core and is built with a GNU arm-nuttx-elf toolchain*. - This port is complete and verified. - -configs/cloudctrl - Darcy's CloudController board. This is a small network relay development - board. Based on the Shenzhou IV development board design. It is based on - the STM32F107VC MCU. - -configs/compal_e88 and compal_e99 - These directories contain the board support for compal e88 and e99 phones. - These ports are based on patches contributed by Denis Carikli for both the - compal e99 and e88. The patches were made by Alan Carvalho de Assis and - Denis Carikli using the Stefan Richter's Osmocom-bb patches. - -configs/demo9s12ne64 - Freescale DMO9S12NE64 board based on the MC9S12NE64 hcs12 cpu. This - port uses the m9s12x GCC toolchain. STATUS: (Still) under development; it - is code complete but has not yet been verified. - -configs/ea3131 - Embedded Artists EA3131 Development board. This board is based on the - an NXP LPC3131 MCU. This OS is built with the arm-nuttx-elf toolchain*. - STATUS: This port is complete and mature. - -configs/ea3152 - Embedded Artists EA3152 Development board. This board is based on the - an NXP LPC3152 MCU. This OS is built with the arm-nuttx-elf toolchain*. - STATUS: This port is has not be exercised well, but since it is - a simple derivative of the ea3131, it should be fully functional. - -configs/eagle100 - Micromint Eagle-100 Development board. This board is based on the - an ARM Cortex-M3 MCU, the Luminary LM3S6918. This OS is built with the - arm-nuttx-elf toolchain*. STATUS: This port is complete and mature. - -configs/ekk-lm3s9b96 - TI/Stellaris EKK-LM3S9B96 board. This board is based on the - an EKK-LM3S9B96 which is a Cortex-M3. - -configs/ez80f0910200kitg - ez80Acclaim! Microcontroller. This port use the Zilog ez80f0910200kitg - development kit, eZ80F091 part, and the Zilog ZDS-II Windows command line - tools. The development environment is Cygwin under WinXP. - -configs/ez80f0910200zco - ez80Acclaim! Microcontroller. This port use the Zilog ez80f0910200zco - development kit, eZ80F091 part, and the Zilog ZDS-II Windows command line - tools. The development environment is Cygwin under WinXP. - -configs/fire-stm32v2 - A configuration for the M3 Wildfire STM32 board. This board is based on the - STM32F103VET6 chip. See http://firestm32.taobao.com . Version 2 and 3 of - the boards are supported but only version 2 has been tested. - -configs/hymini-stm32v - A configuration for the HY-Mini STM32v board. This board is based on the - STM32F103VCT chip. - -configs/kwikstik-k40. - Kinetis K40 Cortex-M4 MCU. This port uses the FreeScale KwikStik-K40 - development board. - -configs/lincoln60 - NuttX port to the Micromint Lincoln 60 board. - -configs/lm3s6432-s2e - Stellaris RDK-S2E Reference Design Kit and the MDL-S2E Ethernet to - Serial module. - -configs/lm3s6965-ek - Stellaris LM3S6965 Evaluation Kit. This board is based on the - an ARM Cortex-M3 MCU, the Luminary/TI LM3S6965. This OS is built with the - arm-nuttx-elf toolchain*. STATUS: This port is complete and mature. - -configs/lm3s8962-ek - Stellaris LMS38962 Evaluation Kit. - -configs/lpcxpresso-lpc1768 - Embedded Artists base board with NXP LPCExpresso LPC1768. This board - is based on the NXP LPC1768. The Code Red toolchain is used by default. - STATUS: Under development. - -configs/lpc4330-xplorer - NuttX port to the LPC4330-Xplorer board from NGX Technologies featuring - the NXP LPC4330FET100 MCU - -configs/m68322evb - This is a work in progress for the venerable m68322evb board from - Motorola. This OS is also built with the arm-nuttx-elf toolchain*. STATUS: - This port was never completed. - -configs/mbed - The configurations in this directory support the mbed board (http://mbed.org) - that features the NXP LPC1768 microcontroller. This OS is also built - with the arm-nuttx-elf toolchain*. STATUS: Contributed. - -configs/mcu123-lpc214x - This port is for the NXP LPC2148 as provided on the mcu123.com - lpc214x development board. This OS is also built with the arm-nuttx-elf - toolchain*. The port supports serial, timer0, spi, and usb. - -configs/micropendous3 - This is a port to the Opendous Micropendous 3 board. This board may - be populated with either an AVR AT90USB646, 647, 1286, or 1287 MCU. - Support is configured for the AT90USB647. - -configs/mirtoo - This is the port to the DTX1-4000L "Mirtoo" module. This module uses MicroChip - PIC32MX250F128D. See http://www.dimitech.com/ for further information. - -configs/mx1ads - This is a port to the Motorola MX1ADS development board. That board - is based on the Freescale i.MX1 processor. The i.MX1 is an ARM920T. - STATUS: This port is nearly code complete but was never fully - integrated due to tool-related issues. - -configs/ne64badge - Future Electronics Group NE64 /PoE Badge board based on the - MC9S12NE64 hcs12 cpu. This port uses the m9s12x GCC toolchain. - STATUS: Under development. The port is code-complete but has - not yet been fully tested. - -configs/ntosd-dm320 - This port uses the Neuros OSD v1.0 Dev Board with a GNU arm-nuttx-elf - toolchain*: see - - http://wiki.neurostechnology.com/index.php/OSD_1.0_Developer_Home - - There are some differences between the Dev Board and the currently - available commercial v1.0 Boards. See - - http://wiki.neurostechnology.com/index.php/OSD_Developer_Board_v1 - - NuttX operates on the ARM9EJS of this dual core processor. - STATUS: This port is code complete, verified, and included in the - NuttX 0.2.1 release. - -configs/nucleus2g - This port uses the Nucleus 2G board (with Babel CAN board). This board - features an NXP LPC1768 processor. See the 2G website (http://www.2g-eng.com/) - for more information about the Nucleus 2G. - -configs/olimex-lpc1766stk - This port uses the Olimex LPC1766-STK board and a GNU GCC toolchain* under - Linux or Cygwin. STATUS: Complete and mature. - -configs/olimex-lpc2378 - This port uses the Olimex-lpc2378 board and a GNU arm-nuttx-elf toolchain* under - Linux or Cygwin. STATUS: ostest and NSH configurations available. - This port for the NXP LPC2378 was contributed by Rommel Marcelo. - -configs/olimex-stm32-p107 - This port uses the Olimex STM32-P107 board (STM32F107VC) and a GNU arm-nuttx-elf - toolchain* under Linux or Cygwin. See the https://www.olimex.com/dev/stm32-p107.html - for further information. Contributed by Max Holtzberg. STATUS: Configurations - for the basic OS test and NSH are available and verified. - -configs/olimex-strp711 - This port uses the Olimex STR-P711 board and a GNU arm-nuttx-elf toolchain* under - Linux or Cygwin. See the http://www.olimex.com/dev/str-p711.html" for - further information. STATUS: Configurations for the basic OS test and NSH - are complete and verified. - -configs/pcblogic-pic32mx - This is the port of NuttX to the PIC32MX board from PCB Logic Design Co. - This board features the MicroChip PIC32MX460F512L. - The board is a very simple -- little more than a carrier for the PIC32 - MCU plus voltage regulation, debug interface, and an OTG connector. - STATUS: Code complete but testing has been stalled due to tool related problems - (PICkit 2 does not work with the PIC32). - -configs/p112 - The P112 is notable because it was the first of the hobbyist single board - computers to reach the production stage. The P112 hobbyist computers - were relatively widespread and inspired other hobbyist centered home brew - computing projects such as N8VEM home brew computing project. The P112 - project still maintains many devoted enthusiasts and has an online - repository of software and other information. - - The P112 computer originated as a commercial product of "D-X Designs Pty - Ltd" of Australia. They describe the computer as "The P112 is a stand-alone - 8-bit CPU board. Typically running CP/M (tm) or a similar operating system, - it provides a Z80182 (Z-80 upgrade) CPU with up to 1MB of memory, serial, - parallel and diskette IO, and realtime clock, in a 3.5-inch drive form factor. - Powered solely from 5V, it draws 150mA (nominal: not including disk drives) - with a 16MHz CPU clock. Clock speeds up to 24.576MHz are possible." - - The P112 board was last available new in 1996 by Dave Brooks. In late 2004 - on the Usenet Newsgroup comp.os.cpm, talk about making another run of P112 - boards was discussed. David Griffith decided to produce additional P112 kits - with Dave Brooks blessing and the assistance of others. In addition Terry - Gulczynski makes additional P112 derivative hobbyist home brew computers. - Hal Bower was very active in the mid 1990's on the P112 project and ported - the "Banked/Portable BIOS". - - Dave Brooks was successfully funded through Kickstarter for and another - run of P112 boards in November of 2012. - -configs/pic32-starterkit - This directory contains the port of NuttX to the Microchip PIC32 Ethernet - Starter Kit (DM320004) with the Multimedia Expansion Board (MEB, DM320005). - See www.microchip.com for further information. - -configs/pic32mx7mmb - This directory will (eventually) contain the port of NuttX to the - Mikroelektronika PIC32MX7 Multimedia Board (MMB). See - http://www.mikroe.com/ for further information. - -configs/pjrc-8051 - 8051 Microcontroller. This port uses the PJRC 87C52 development system - and the SDCC toolchain. This port is not quite ready for prime time. - -configs/qemu-i486 - Port of NuttX to QEMU in i486 mode. This port will also run on real i486 - hardwared (Google the Bifferboard). - -configs/rgmp - RGMP stands for RTOS and GPOS on Multi-Processor. RGMP is a project for - running GPOS and RTOS simultaneously on multi-processor platforms. You can - port your favorite RTOS to RGMP together with an unmodified Linux to form a - hybrid operating system. This makes your application able to use both RTOS - and GPOS features. - - See http://rgmp.sourceforge.net/wiki/index.php/Main_Page for further information - about RGMP. - -configs/sam3u-ek - The port of NuttX to the Atmel SAM3U-EK development board. - -configs/sim - A user-mode port of NuttX to the x86 Linux platform is available. - The purpose of this port is primarily to support OS feature development. - This port does not support interrupts or a real timer (and hence no - round robin scheduler) Otherwise, it is complete. - -configs/shenzhou - This is the port of NuttX to the Shenzhou development board from - www.armjishu.com. This board features the STMicro STM32F107VCT MCU. - -configs/skp16c26 - Renesas M16C processor on the Renesas SKP16C26 StarterKit. This port - uses the GNU m32c toolchain. STATUS: The port is complete but untested - due to issues with compiler internal errors. - -configs/stm3210e-eval - STMicro STM3210E-EVAL development board based on the STMicro STM32F103ZET6 - microcontroller (ARM Cortex-M3). This port uses the GNU Cortex-M3 - toolchain. - -configs/stm3220g-eval - STMicro STM3220G-EVAL development board based on the STMicro STM32F407IG - microcontroller (ARM Cortex-M3). - -configs/stm3240g-eval - STMicro STM3240G-EVAL development board based on the STMicro STM32F103ZET6 - microcontroller (ARM Cortex-M4 with FPU). This port uses a GNU Cortex-M4 - toolchain (such as CodeSourcery). - -configs/stm32f100rc_generic - STMicro STM32F100RC generic board based on STM32F100RC high-density value line - chip. This "generic" configuration is not very usable out-of-box, but can be - used as a starting point to creating new configs with similar STM32 - high-density value line chips. - -configs/stm32f4discovery - STMicro STM32F4-Discovery board based on the STMIcro STM32F407VGT6 MCU. - -configs/sure-pic32mx - The "Advanced USB Storage Demo Board," Model DB-DP11215, from Sure - Electronics (http://www.sureelectronics.net/). This board features - the MicroChip PIC32MX440F512H. See also - http://www.sureelectronics.net/goods.php?id=1168 for further - information about the Sure DB-DP11215 board. - -configs/teensy - This is the port of NuttX to the PJRC Teensy++ 2.0 board. This board is - developed by http://pjrc.com/teensy/. The Teensy++ 2.0 is based - on an Atmel AT90USB1286 MCU. - -configs/twr-k60n512 - Kinetis K60 Cortex-M4 MCU. This port uses the FreeScale TWR-K60N512 - development board. - -configs/ubw32 - - This is the port to the Sparkfun UBW32 board. This port uses the original v2.4 - board which is based on the MicroChip PIC32MX460F512L. See - http://www.sparkfun.com/products/8971. This older version has been replaced - with this board http://www.sparkfun.com/products/9713. See also - http://www.schmalzhaus.com/UBW32/. - -configs/us7032evb1 - This is a port of the Hitachi SH-1 on the Hitachi SH-1/US7032EVB1 board. - STATUS: Work has just began on this port. - -configs/vsn - ISOTEL NetClamps VSN V1.2 ready2go sensor network platform based on the - STMicro STM32F103RET6. Contributed by Uros Platise. See - http://isotel.eu/NetClamps/ - -configs/xtrs - TRS80 Model 3. This port uses a vintage computer based on the Z80. - An emulator for this computer is available to run TRS80 programs on a - linux platform (http://www.tim-mann.org/xtrs.html). - -configs/z16f2800100zcog - z16f Microcontroller. This port use the Zilog z16f2800100zcog - development kit and the Zilog ZDS-II Windows command line tools. The - development environment is Cygwin under WinXP. - -configs/z80sim - z80 Microcontroller. This port uses a Z80 instruction set simulator. - That simulator can be found in the NuttX SVN at - http://svn.code.sf.net/p/nuttx/code/trunk/misc/sims/z80sim. - This port also uses the SDCC toolchain (http://sdcc.sourceforge.net/") - (verified with version 2.6.0). - -configs/z8encore000zco - z8Encore! Microcontroller. This port use the Zilog z8encore000zco - development kit, Z8F6403 part, and the Zilog ZDS-II Windows command line - tools. The development environment is Cygwin under WinXP. - -configs/z8f64200100kit - z8Encore! Microcontroller. This port use the Zilog z8f64200100kit - development kit, Z8F6423 part, and the Zilog ZDS-II Windows command line - tools. The development environment is Cygwin under WinXP. - -configs/zp214xpa - This port is for the NXP LPC2148 as provided on the The0.net - ZPA213X/4XPA development board. Includes support for the - UG-2864AMBAG01 OLED also from The0.net - -Configuring NuttX -^^^^^^^^^^^^^^^^^ - -Configuring NuttX requires only copying - - configs///Make.def to ${TOPDIR}/Make.defs - configs///setenv.sh to ${TOPDIR}/setenv.sh - configs///defconfig to ${TOPDIR}/.config - -And if configs///appconfig exists in the board -configuration directory: - - Copy configs///appconfig to /.config - echo "APPS_LOC=\"\"" >> "${TOPDIR}/.config" - -tools/configure.sh - There is a script that automates these steps. The following steps will - accomplish the same configuration: - - cd tools - ./configure.sh / - - There is an alternative Windows batch file that can be used in the - windows native enironment like: - - cd ${TOPDIR}\tools - configure.bat \ - - See tools/README.txt for more information about these scripts. - - And if configs///appconfig exists and your - application directory is not in the standard loction (../apps), then - you should also specify the location of the application directory on the - command line like: - - cd tools - ./configure.sh -a / - -Building Symbol Tables -^^^^^^^^^^^^^^^^^^^^^^ - -Symbol tables are needed at several of the binfmt interfaces in order to bind -a module to the base code. These symbol tables can be tricky to create and -will probably have to be tailored for any specific application, balancing -the number of symbols and the size of the symbol table against the symbols -required by the applications. - -The top-level System.map file is one good source of symbol information -(which, or course, was just generated from the top-level nuttx file -using the GNU 'nm' tool). - -There are also common-separated value (CSV) values in the source try that -provide information about symbols. In particular: - - nuttx/syscall/syscall.csv - Describes the NuttX RTOS interface, and - nuttx/lib/lib.csv - Describes the NuttX C library interface. - -There is a tool at nuttx/tools/mksymtab that will use these CSV files as -input to generate a generic symbol table. See nuttx/tools/README.txt for -more information about using the mksymtab tool. -- cgit v1.2.3