NuttX RTOSLast Updated: January 4, 2013 |
Table of Contents |
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Overview |
Goals. NuttX is a real timed embedded operating system (RTOS). Its goals are:
Small Footprint | |
Usable in all but the tightest micro-controller environments, The focus is on the tiny-to-small, deeply embedded environment. | |
Rich Feature OS Set | |
The goal is to provide implementations of most standard POSIX OS interfaces to support a rich, multi-threaded development environment for deeply embedded processors. NON-GOALS: (1) It is not a goal to provide the level of OS features like those provided by Linux. In order to work with smaller MCUs, small footprint must be more important than an extensive feature set. But standard compliance is more important than small footprint. Surely a smaller RTOS could be produced by ignoring standards. Think of NuttX is a tiny Linux work-alike with a much reduced feature set. (2) There is no MMU-based support for processes. At present, NuttX assumes a flat address space. | |
Highly Scalable | |
Fully scalable from tiny (8-bit) to moderate embedded (32-bit). Scalability with rich feature set is accomplished with: Many tiny source files, link from static libraries, highly configurable, use of weak symbols when available. | |
Standards Compliance | |
NuttX strives to achieve a high degree of standards compliance.
The primary governing standards are POSIX and ANSI standards.
Additional standard APIs from Unix and other common RTOS's are
adopted for functionality not available under these standards
or for functionality that is not appropriate for the deeply-embedded
RTOS (such as Because of this standards conformance, software developed under other standard OSs (such as Linux) should port easily to NuttX. | |
Real-Time | |
Fully pre-emptible, fixed priority and round-robin scheduling. | |
Totally Open | |
Non-restrictive BSD license. | |
GNU Toolchains | |
Compatible GNU toolchains based on buildroot available for download to provide a complete development environment for many architectures. |
Feature Set. Key features of NuttX include:
Standards Compliant Core Task Management | |
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File system | |
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FAT long file name support may be subject to certain Microsoft patent restrictions if enabled.
See the top-level | |
Device Drivers | |
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/dev/null , /dev/zero , /dev/random , and loop drivers.
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C/C++ Libraries | |
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Networking | |
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FLASH Support | |
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USB Host Support | |
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USB Device Support | |
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Graphics Support | |
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Input Devices | |
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Analog Devices | |
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Motor Control | |
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NuttX Add-Ons. The following packages are available to extend the basic NuttX feature set:
NuttShell (NSH) | |
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Pascal Compiler with NuttX runtime P-Code interpreter add-on | |
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Look at all those files and features... How can it be a tiny OS?. The NuttX feature list (above) is fairly long and if you look at the NuttX source tree, you will see that there are hundreds of source files comprising NuttX. How can NuttX be a tiny OS with all of that?
Lots of Features -- More can be smaller! | |
The philosophy behind that NuttX is that lots of features are great... BUT also that if you don't use those features, then you should not have to pay a penalty for the unused features. And, with NuttX, you don't! If you don't use a feature, it will not be included in the final executable binary. You only have to pay the penalty of increased footprint for the features that you actually use. Using a variety of technologies, NuttX can scale from the very tiny to the moderate-size system. I have executed NuttX with some simple applications in as little as 32K total memory (code and data). On the other hand, typical, richly featured NuttX builds require more like 64K (and if all of the features are used, this can push 100K). |
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Many, many files -- More really is smaller! | |
One may be intimidated by the size NuttX source tree. There are hundreds of source files! How can that be a tiny OS? Actually, the large number of files is one of the tricks to keep NuttX small and as scalable as possible. Most files contain only a single function. Sometimes just one tiny function with only a few lines of code. Why?
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Other Tricks | |
As mentioned above, the use of many, tiny source files and linking from static libraries keeps the size of NuttX down. Other tricks used in NuttX include:
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NuttX Discussion Group |
Most NuttX-related discussion occurs on the Yahoo! NuttX group. You are cordially invited to join. I make a special effort to answer any questions and provide any help that I can.
Downloads |
The 91st release of NuttX, Version 6.24, was made on December 20, 2012, and is available for download from the
SourceForge website.
Note that the release consists of two tarballs: nuttx-6.24.tar.gz
and apps-6.24.tar.gz
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Both may be needed (see the top-level nuttx/README.txt
file for build information)
The change log associated with the release is available here.
Unreleased changes after this release are available in SVN.
These unreleased changes are also listed here.
This release corresponds with SVN release number: r5447, Note that all SVN information has been stripped from the tarballs. If you need the SVN configuration, you should check out directly from SVN. Revision r5447 should equivalent to release 6.24 of NuttX:
svn checkout -r5447 svn://svn.code.sf.net/p/nuttx/code/trunk nuttx-code
Or (HTTP):
svn checkout -r5447 http://svn.code.sf.net/p/nuttx/code/trunk nuttx-code
Additional new features and extended functionality
RTOS:
pause()
function (still has some compiance issues).
binfmt
), the OS will propogate that environment to child threads and will destroy the address environment when all threads in the "process" exists.
PATH
variable is enabled, the OS start up logic will create an initial environment containing the default PATH
setting (CONFIG_PATH_INITIAL
).
This initial PATH
will then be inherited by all tasks.
Binfmt
:
PATH
environment variable.
Now, if the PATH
is properly defined, programs can be executed from mass storage using only the file name.
This feature is added to support more standard behavior (eventually, NSH will support execution of programs in file systems by just entering the file name, perhaps in 6.25?).
include/nuttx/arch.h
(currently, this is only supported by the z180).
Drivers: LCD driver for the Univision UG-2864AMBAG01 OLED
STM32: Support for STM32F100 high density chips contributed by Freddie Chopin.
STM32 Drivers: Added optional RS-485 direction bit control (from Freddie Chopin).
STM32 Boards:
stm32f4discovery/nxlines
: STM32F4Discovery support for the UG-2864AMBAG01 OLED.
stm32f4discovery/winbuild
: A version of the NuttX OS test configured to build natively on Windows.
stm32f4discovery/elf
: Now uses the PATH
variable to find ELF executables.
configs/cloudctrl
: Added for Darcy Gong's CloudController board
PIC32 Boards: Update the Mirtoo configuration for Release 2 of the Mirtoo module.
Calypso: Add Calypso keypad driver (from Denis Carilki).
ZiLOG:
Graphics:
nxtk_subwindowmove()
and nxtk_getwindow()
: Improvements to clipping logic from Petteri Aimonen.
C Library:
lib/
sub-directory renamed libc/
(there is a new lib/
sub-directory that is used to hold all archives).
C++: Exception stubs from Petteri Aimonen.
Applications:
ifconfig
command plus various DHCPC improvements (from Darcy Gong).
apps/examples:
ostest
: Replace large tables with algorithmic prime number generation.
This allows the roundrobin test to run on platforms with minimal SRAM (Freddie Chopin).
keypadtest
: A new keypad test example contributed by Denis Carikli.
elf
and nxflat
: If CONFIG_BINFMT_EXEPATH
is defined, these examples will now use a relative path to the program and expect the binfmt/
logic to find the absolute path to the program using the PATH
variable.
Build system:
New top-level Makefiles: Makefile.unix
and Makefile.win
(along with numerous changes to other make-related files).
This adds basic support for building NuttX natively under from Windows console (rather than in a POSIX-like environment).
This build: (1) Uses all Windows style paths, (2) Uses primarily standard Windows batch commands with (3) a few additional commands from GNUWin32 (such as GNU make).
This capability should still be considered a work in progress because: (1) It has not been verfied on all targets and tools, and (2) it still lacks some of the creature-comforts of the more mature environments (like a functional configure.sh
script and make menuconfig
support).
kconfig-frontends
mconf
configuration tool: stm32f4discovery/nxlines
, and all eZ80, z16f, z8, Z80, and Z180 configurations.
Toolchain.defs
file that can be used to manage toolchains in a more configurable way (most of this contributed by Mike Smith).
Build tools:
tools/winlink.sh
to tools/copydir.sh
.
tools/mkdeps.bat
, tools/mkdeps.c
, tools/link.bat
, tools/unlink.bat
, and tools/ copydir.bat
.
tools/incdir.sh
and tools/incdir.bat
now support an -s
option to generate system header file paths.
tools/b16.c
: Fixed precision math conversion utility.
Bugfixes (see the change log for details). Some of these are very important (marked critical):
RTOS: Fix some backward conditional compilation in the work queue logic (Freddie Chopin).
File System: Uninitialized variable caused assertions (from Lorenz Meier).
Drivers:
Partial fix for STM32 OTG FS device drivers and fix for short, unaligned writes in the flash translation layer (drivers/mtd/ftl.c
), both from Petteri Aimonen.
STM32 Drivers:
LPC17xx Drivers: Resources not being properly released when I2C driver is un-initialized.
Graphics:
nxtk_filltrapwindow()
: Correct an offset problem (also from Peterri Aimonen).
nxglib_splitline()
: Correct the "fat flat line" bug.
C Library:
nrand()
changes to prevent coefficients from becoming zero which would "lock up" the random number generate.
Build system:
Changes to MIN definitions in all limit.h
header files to avoid integer overflows.
For example from (-128) to (-127 - 1) (from Petteri Aimonen).
Applications: Modbus fixes from Freddie Chopin.
As well as other, less critical bugs. See the ChangeLog for additional, detailed changes.
Supported Platforms |
The short story (Number of ports follow in parentheses). The state of the various ports vary from board-to-board. Follow the links for the details:
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The details, caveats and fine print follow:
Linux User Mode. | |
A user-mode port of NuttX to the x86 Linux/Cygwin platform is available. The purpose of this port is primarily to support OS feature development. STATUS: Does not support interrupts but is otherwise fully functional. |
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ARM7TDMI. | |
TI TMS320C5471 (also called C5471 or TMS320DA180 or DA180). NuttX operates on the ARM7 of this dual core processor. This port uses the Spectrum Digital evaluation board with a GNU arm-nuttx-elf toolchain* under Linux or Cygwin. STATUS: This port is complete, verified, and included in the initial NuttX release. |
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TI Calypso. This port supports the TI "Calypso" MCU used in various cell phones (and, in particular, by the Osmocom-bb project). Like the c5471, NuttX operates on the ARM7 of this dual core processor. STATUS: This port was contributed by Denis Carilki and includes the work of Denis Carikli, Alan Carvalho de Assis, and Stefan Richter. Calypso support first appeared in NuttX-6.17 with LCD drivers. Support for the Calypso keyboard was added in NuttX-6.24 by Denis Carilki. |
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NXP LPC214x. Support is provided for the NXP LPC214x family of processors. In particular, support is provided for (1) the mcu123.com lpc214x evaluation board (LPC2148) and (1) the The0.net ZPA213X/4XPA development board (with the The0.net UG-2864AMBAG01 OLED) This port also used the GNU arm-nuttx-elf toolchain* under Linux or Cygwin. STATUS: This port boots and passes the OS test (apps/examples/ostest). The port is complete and verified. As of NuttX 0.3.17, the port includes: timer interrupts, serial console, USB driver, and SPI-based MMC/SD card support. A verified NuttShell (NSH) configuration is also available. Development Environments: 1) Linux with native Linux GNU toolchain, 2) Cygwin/MSYS with Cygwin GNU toolchain, 3) Cygwin/MSYS with Windows native toolchain (CodeSourcery or devkitARM), or 4) Native Windows. A DIY toolchain for Linux or Cygwin is provided by the NuttX buildroot package. |
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NXP LPC2378. Support is provided for the NXP LPC2378 MCU. In particular, support is provided for the Olimex-LPC2378 development board. This port was contributed by Rommel Marcelo is was first released in NuttX-5.3. This port also used the GNU arm-nuttx-elf toolchain* under Linux or Cygwin. STATUS: This port boots and passes the OS test (apps/examples/ostest) and includes a working implementation of the NuttShell (NSH). The port is complete and verified. As of NuttX 5.3, the port includes only basic timer interrupts and serial console support. Development Environments: (Same as for the NXP LPC214x). |
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STMicro STR71x. Support is provided for the STMicro STR71x family of processors. In particular, support is provided for the Olimex STR-P711 evaluation board. This port also used the GNU arm-nuttx-elf toolchain* under Linux or Cygwin. STATUS: Integration is complete on the basic port (boot logic, system time, serial console). Two configurations have been verified: (1) The board boots and passes the OS test with console output visible on UART0, and the NuttShell (NSH) is fully functional with interrupt driven serial console. An SPI driver is available but only partially tested. Additional features are needed: USB driver, MMC integration, to name two (the slot on the board appears to accept on MMC card dimensions; I have only SD cards). An SPI-based ENC28J60 Ethernet driver for add-on hardware is available and but has not been fully verified on the Olimex board (due to issues powering the ENC28J60 add-on board). Development Environments: 1) Linux with native Linux GNU toolchain, 2) Cygwin/MSYS with Cygwin GNU toolchain, 3) Cygwin/MSYS with Windows native toolchain (CodeSourcery or devkitARM), or 4) Native Windows. A DIY toolchain for Linux or Cygwin is provided by the NuttX buildroot package. |
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ARM920T. | |
Freescale MC9328MX1 or i.MX1. This port uses the Freescale MX1ADS development board with a GNU arm-nuttx-elf toolchain* under either Linux or Cygwin. STATUS: This port has stalled due to development tool issues. Coding is complete on the basic port (timer, serial console, SPI). |
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ARM926EJS. | |
TI TMS320DM320 (also called DM320). NuttX operates on the ARM9 of this dual core processor. This port uses the Neuros OSD with a GNU arm-nuttx-elf toolchain* under Linux or Cygwin. The port was performed using the OSD v1.0, development board. STATUS: The basic port (timer interrupts, serial ports, network, framebuffer, etc.) is complete. All implemented features have been verified with the exception of the USB device-side driver; that implementation is complete but untested. |
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NXP LPC3131.
The port for the NXP LPC3131 on the Embedded Artists EA3131
development board was first released in NuttX-5.1 with a GNU arm-nuttx-elf or arm-eabi toolchain* under Linux or Cygwin
(but was not functional until NuttX-5.2).
STATUS: The basic EA3131 port is complete and verified in NuttX-5.2 This basic port includes basic boot-up, serial console, and timer interrupts. This port was extended in NuttX 5.3 with a USB high speed driver contributed by David Hewson. David also contributed I2C and SPI drivers plus several important LPC313x USB bug fixes that appear in the NuttX 5.6 release. This port has been verified using the NuttX OS test, USB serial and mass storage tests and includes a working implementation of the NuttShell (NSH). Support for on-demand paging has been developed for the EA3131. That support would all execute of a program in SPI FLASH by paging code sections out of SPI flash as needed. However, as of this writing, I have not had the opportunity to verify this new feature. |
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NXP LPC315x.
Support for the NXP LPC315x family has been incorporated into the code base as of NuttX-6.4.
Support has added for the Embedded Artists EA3152 board in NuttX-6.11.
STATUS: Basic support is in place for both the LPC3152 MCU and the EA3152 board. Verification of the port was deferred due to tool issues However, because of the high degree of compatibility between the LPC313x and LPC315x family, it is very likely that the support is in place (or at least very close). At this point, verification of the EA3152 port has been overcome by events and may never happen. However, the port is available for anyone who may want to use it. |
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ARM Cortex-M3. | |
TI Stellaris LM3S6432. This is a port of NuttX to the Stellaris RDK-S2E Reference Design Kit and the MDL-S2E Ethernet to Serial module (contributed by Mike Smith). |
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Luminary/TI Stellaris LM3S6918. This port uses the Micromint Eagle-100 development board with a GNU arm-nuttx-elf toolchain* under either Linux or Cygwin. STATUS: The initial, release of this port was included in NuttX version 0.4.6. The current port includes timer, serial console, Ethernet, SSI, and microSD support. There are working configurations the NuttX OS test, to run the NuttShell (NSH), the NuttX networking test, and the uIP web server. Development Environments: 1) Linux with native Linux GNU toolchain, 2) Cygwin/MSYS with Cygwin GNU toolchain, 3) Cygwin/MSYS with Windows native toolchain (CodeSourcery or devkitARM), or 4) Native Windows. A DIY toolchain for Linux or Cygwin is provided by the NuttX buildroot package. |
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Luminary/TI Stellaris LM3S6965. This port uses the Stellaris LM3S6965 Ethernet Evalution Kit with a GNU arm-nuttx-elf toolchain* under either Linux or Cygwin. STATUS: This port was released in NuttX 5.5. Features are the same as with the Eagle-100 LM3S6918 described above. The apps/examples/ostest configuration has been successfully verified and an NSH configuration with Telnet support is available. MMC/SD and Networking support was not been thoroughly verified: Current development efforts are focused on porting the NuttX window system (NX) to work with the Evaluation Kits OLED display. NOTE: As it is configured now, you MUST have a network connected. Otherwise, the NSH prompt will not come up because the Ethernet driver is waiting for the network to come up. Development Environments: See the Eagle-100 LM3S6918 above. |
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Luminary/TI Stellaris LM3S8962. This port uses the Stellaris EKC-LM3S8962 Ethernet+CAN Evalution Kit with a GNU arm-nuttx-elf toolchain* under either Linux or Cygwin. Contributed by Larry Arnold. STATUS: This port was released in NuttX 5.10. Features are the same as with the Eagle-100 LM3S6918 described above. |
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Luminary/TI Stellaris LM3S9B96. Header file support was contributed by Tiago Maluta for this part. Jose Pablo Rojas V. is currently using those header file changes to port NuttX to the TI/Stellaris EKK-LM3S9B96. With any luck, that port should be working and available in the NuttX-6.20 release. |
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TI Stellaris LM3S6432S2E. This port uses Serial-to-Ethernet Reference Design Kit (RDK-S2E) and has similar support as for the other Stellaris family members. Configurations are available for the OS test and for the NuttShell (NSH) (see the NSH User Guide). The NSH configuration including networking support with a Telnet NSH console. This port was contributed by Mike Smith. STATUS: This port was will be released in NuttX 6.14. |
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STMicro STM32F100x. Chip support for these STM32 "Value Line" family was contributed by Mike Smith and users have reported that they have successful brought up NuttX on there proprietary boards using this logic. This logic was extended to support the high density STM32F100RC chips by Freddie Chopin However, there is no specific board support for this chip families in the NuttX source tree. There is, however, generic support for STM32F100RC boards. | |
STMicro STM32F103x. Support for four MCUs and four board configurations are available. MCU support includes all of the high density and connectivity line families. Board supported is available specifically for: STM32F103ZET6, STM32F103RET6, STM32F103VCT, and STM32F103VET6. Boards supported include:
These ports uses a GNU arm-nuttx-elf toolchain* under either Linux or Cygwin (with native Windows GNU tools or Cygwin-based GNU tools).
STATUS: Development Environments: 1) Linux with native Linux GNU toolchain, 2) Cygwin/MSYS with Cygwin GNU toolchain, 3) Cygwin/MSYS with Windows native toolchain (RIDE7, CodeSourcery or devkitARM), or 4) Native Windows. A DIY toolchain for Linux or Cygwin is provided by the NuttX buildroot package. |
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STMicro STM32F107x. Chip support for the STM32 F1 "Connectivity Line" family has been present in NuttX for some time and users have reported that they have successful brought up NuttX on there proprietary boards using this logic. Olimex STM32-P107 Support for the Olimex STM32-P107 was contributed by Max Holtzberg and first appeared in NuttX-6.21. That port features the STMicro STM32F107VC MCU.
Shenzhou IV Work is underway as of this writing to port NuttX to the Shenzhou IV development board (See www.armjishu.com) featuring the STMicro STM32F107VCT MCU. If all goes according to plan, this port should be verified and available in NuttX-6.22.
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STMicro STM32F207IG. Support for the STMicro STM3220G-EVAL development board was contributed by Gary Teravskis and first released in NuttX-6.16.
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Atmel AT91SAM3U. This port uses the Atmel SAM3U-EK development board that features the AT91SAM3U4E MCU. This port uses a GNU arm-nuttx-elf or arm-eabi toolchain* under either Linux or Cygwin (with native Windows GNU tools or Cygwin-based GNU tools). STATUS: The basic SAM3U-EK port was released in NuttX version 5.1. The basic port includes boot-up logic, interrupt driven serial console, and system timer interrupts. That release passes the NuttX OS test and is proven to have a valid OS implementation. A configuration to support the NuttShell is also included. NuttX version 5.4 adds support for the HX8347 LCD on the SAM3U-EK board. This LCD support includes an example using the NX graphics system. NuttX version 6.10 adds SPI support. Subsequent NuttX releases will extend this port and add support for SDIO-based SD cards and USB device (and possible LCD support). These extensions may or may not happen soon as my plate is kind of full now. Development Environments: 1) Linux with native Linux GNU toolchain, 2) Cygwin/MSYS with Cygwin GNU toolchain, 3) Cygwin/MSYS with Windows native toolchain (CodeSourcery or devkitARM), or 4) Native Windows. A DIY toolchain for Linux or Cygwin is provided by the NuttX buildroot package. |
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NXP LPC1766, LPC1768, and LPC1769. Drivers are available for CAN, DAC, Ethernet, GPIO, GPIO interrupts, I2C, UARTs, SPI, SSP, USB host, and USB device. Verified LPC17xx onfigurations are available for three boards.
The Nucleus 2G board, the mbed board, and the LPCXpresso all feature the NXP LPC1768 MCU; the Olimex LPC1766-STK board features an LPC1766. All use a GNU arm-nuttx-elf or arm-eabi toolchain* under either Linux or Cygwin (with native Windows GNU tools or Cygwin-based GNU tools).
STATUS: The following summarizes the features that has been developed and verified on individual LPC17xx-based boards. These features should, however, be common and available for all LPC17xx-based boards. Development Environments: 1) Linux with native Linux GNU toolchain, 2) Cygwin/MSYS with Cygwin GNU toolchain, 3) Cygwin/MSYS with Windows native toolchain (CodeSourcery devkitARM or Code Red), or 4) Native Windows. A DIY toolchain for Linux or Cygwin is provided by the NuttX buildroot package. |
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ARM Cortex-M4. | |
FreeScale Kinetis K40. This port uses the Freescale Kinetis KwikStik K40. Refer to the Freescale web site for further information about this board. The Kwikstik is used with the FreeScale Tower System (mostly just to provide a simple UART connection) STATUS: The unverified KwikStik K40 first appeared in NuttX-6.8 As of this writing, the basic port is complete but I accidentally locked my board during the initial bringup. Further development is stalled unless I learn how to unlock the device (or until I get another K40). Additional work remaining includes, among other things: (1) complete the basic bring-up, (2) bring up the NuttShell NSH, (3) develop support for the SDHC-based SD card, (4) develop support for USB host and device, and (2) develop an LCD driver. NOTE: Some of these remaining tasks are shared with the K60 work described below. |
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FreeScale Kinetis K60. This port uses the Freescale Kinetis TWR-K60N512 tower system. Refer to the Freescale web site for further information about this board. The TWR-K60N51 includes with the FreeScale Tower System which provides (among other things) a DBP UART connection. STATUS: As of this writing, the basic port is complete and passes the NuttX OS test. An additional, validated configuration exists for the NuttShell (NSH, see the NSH User Guide). This basic TWR-K60N512 first appeared in NuttX-6.8. Ethernet and SD card (SDHC) drivers also exist: The SDHC driver is partially integrated in to the NSH configuration but has some outstanding issues; the Ethernet driver is completely untested. Additional work remaining includes: (1) integrate the Ethernet and SDHC drivers, and (2) develop support for USB host and device. NOTE: Most of these remaining tasks (excluding the Ethernet driver) are the same as the pending K40 tasks described above. |
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STMicro STM3240G-EVAL. This port uses the STMicro STM3240G-EVAL board featuring the STM32F407IGH6 MCU. Refer to the STMicro web site for further information about this board. STATUS:
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STMicro STM32F4-Discovery. This port uses the STMicro STM32F4-Discovery board featuring the STM32F407VGT6 MCU. Refer to the STMicro web site for further information about this board. STATUS: The basic port for the STM32F4-Discovery was contributed by Mike Smith and was first released in NuttX-6.14. Drivers listed for the STM3240G-EVAL may be usable on this plaform as well. |
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NXG Technologies LPC4330-Xplorer. This NuttX port is for the LPC4330-Xplorer board from NGX Technologies featuring the NXP LPC4330FET100 MCU. See the NXG website for further information about this board. STATUS:
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Development Environments: 1) Linux with native Linux GNU toolchain, 2) Cygwin/MSYS with Cygwin GNU Cortex-M3 or 4 toolchain, 3) Cygwin/MSYS with Windows native GNU Cortex-M3 or M4 toolchain (CodeSourcery or devkitARM), or 4) Native Windows. A DIY toolchain for Linux or Cygwin is provided by the NuttX buildroot package. I use FreeScale's CodeWarrior IDE only to work with the JTAG debugger built into the Kinetis boards. I use the Code Red IDE with the some of the NXP parts and the Atollic toolchain with some of the STMicroelectronics parts. |
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Atmel AVR. | |
SoC Robotics ATMega128. This port of NuttX to the Amber Web Server from SoC Robotics is partially completed. The Amber Web Server is based on an Atmel ATMega128. STATUS: Work on this port has stalled due to toolchain issues. Complete, but untested code for this port appears in the NuttX 6.5 release. |
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Micropendous 3 AT90USB64x and AT90USB6128x. This port of NuttX to the Opendous Micropendous 3 board. The Micropendous3 is may be populated with an AT90USB646, 647, 1286, or 1287. I have only the AT90USB647 version for testing. This version have very limited memory resources: 64K of FLASH and 4K of SRAM. STATUS: The basic port was released in NuttX-6.5. This basic port consists only of a "Hello, World!!" example that demonstrates initialization of the OS, creation of a simple task, and serial console output. |
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PJRC Teensy++ 2.0 AT90USB1286. This is a port of NuttX to the PJRC Teensy++ 2.0 board. This board was developed by PJRC. The Teensy++ 2.0 is based on an Atmel AT90USB1286 MCU. STATUS: The basic port was released in NuttX-6.5. This basic port consists of a "Hello, World!!" example that demonstrates initialization of the OS, creation of a simple task, and serial console output as well as a somewhat simplified NuttShell (NSH) configuration (see the NSH User Guide). An SPI driver and a USB device driver exist for the AT90USB as well as a USB mass storage configureation. However, this configuration is not fully debugged as of the NuttX-6.5 release. |
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AVR-Specific Issues. The basic AVR port is solid and biggest issue for using AVR is its tiny SRAM memory and its Harvard architecture. Because of the Harvard architecture, constant data that resides to flash is inaccessible using "normal" memory reads and writes (only SRAM data can be accessed "normally"). Special AVR instructions are available for accessing data in FLASH, but these have not been integrated into the normal, general purpose OS. Most NuttX test applications are console-oriented with lots of strings used for printf and debug output. These strings are all stored in SRAM now due to these data accessing issues and even the smallest console-oriented applications can quickly fill a 4-8K memory. So, in order for the AVR port to be useful, one of two things would need to be done:
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Development Environments: 1) Linux with native Linux GNU toolchain, 2) Cygwin/MSYS with Cygwin GNU toolchain, 3) Cygwin/MSYS with Windows native toolchain, or 4) Native Windows. All testing, however, has been performed using the NuttX DIY toolchain for Linux or Cygwin is provided by the NuttX buildroot package. As a result, that toolchain is recommended. |
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Atmel AVR32. | |
AV32DEV1. This port uses the www.mcuzone.com AVRDEV1 board based on the Atmel AT32UC3B0256 MCU. This port requires a special GNU avr32 toolchain available from atmel.com website. This is a windows native toolchain and so can be used only under Cygwin on Windows.
STATUS: This port is has completed all basic development, but there is more that needs to be done. All code is complete for the basic NuttX port including header files for all AT32UC3* peripherals. The untested AVR32 code was present in the 5.12 release of NuttX. Since then, the basic RTOS port has solidified: The basic, port (including the verified apps/examples/ostest configuration) was be released in NuttX-5.13. A complete port will include drivers for additional AVR32 UC3 devices -- like SPI and USB --- and will be available in a later release, time permitting. |
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Freescale M68HCS12. | |
MC9S12NE64. Support for the MC9S12NE64 MCU and two boards are included:
Both use a GNU arm-nuttx-elf toolchain* under Linux or Cygwin. The NuttX buildroot provides a properly patched GCC 3.4.4 toolchain that is highly optimized for the m9s12x family. STATUS: Coding is complete for the MC9S12NE64 and for the NE64 Badge board. However, testing has not yet begun due to issues with BDMs, Code Warrior, and the paging in the build process. Progress is slow, but I hope to see a fully verified MC9S12NE64 port in the near future. |
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Intel 8052 Microcontroller. | |
PJRC 87C52 Development Board. This port uses the PJRC 87C52 development system and the SDCC toolchain under Linux or Cygwin. STATUS: This port is complete but not stable with timer interrupts enabled. There seems to be some issue when the stack pointer enters into the indirect IRAM address space during interrupt handling. This architecture has not been built in some time will likely have some compilation problems because of SDCC compiler differences. |
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Intel 80x86. | |
QEMU/Bifferboard i486. This port uses the QEMU i486 and the native Linux, Cywgin, MinGW the GCC toolchain under Linux or Cygwin. STATUS: The basic port was code-complete in NuttX-5.19 and verifed in NuttX-6.0. The port was verified using the OS and NuttShell (NSH) examples under QEMU. The port is reported to be functional on the Bifferboard as well. This is a great, stable starting point for anyone interest in fleshing out the x86 port! |
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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 the RGMP Wiki for further information about RGMP. STATUS: This initial port of NuttX to RGMP was provided in NuttX-6.3. This initial RGP port provides only minimal driver support and does not use the native NuttX interrupt system. This is a great, stable starting point for anyone interest in working with NuttX under RGMP! |
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MicroChip PIC32 (MIPS). | |
PIC32MX250F128D. A port is in progress from the DTX1-4000L "Mirtoo" module from Dimitech. This module uses MicroChip PIC32MX250F128D and the Dimitech DTX1-4000L EV-kit1 V2. See the Dimitech website for further information. STATUS: The basic port is code complete. Two configurations are available: (1) An OS test configuration and a (2) configuration that support the NuttShell (NSH). The OS test configuration is fully functional and proves that we have a basically healthy NuttX port to the Mirtoo. The NSH configuration includes support for a serial console and for the SST25 serial FLASH and the PGA117 amplifier/multiplexer on board the module. The NSH configuration is set up to use the NuttX wear-leveling FLASH file system (NXFFS). The PGA117, however, is not yet fully integrated to support ADC sampling. See the NSH User Guide for further information about NSH. The first verified port to the Mirtoo module was available with the NuttX 6.20 release. |
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PIC32MX460F512L. There one two board ports using this chip:
STATUS: The basic port is code complete and fully verified in NuttX 6.13. Available configurations include the OS test and the NuttShell (NSH - see the NSH User Guide). STATUS: The basic port is code complete and fully verified in NuttX 6.18. Available configurations include the OS test and the NuttShell (NSH - see the NSH User Guide). USB has not yet been fully tested but on first pass appears to be functional. |
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PIC32MX440F512H. This port uses the "Advanced USB Storage Demo Board," Model DB-DP11215, from Sure Electronics. This board features the MicroChip PIC32MX440F512H. See the Sure website for further information about the DB-DP11215 board. (I believe that that the DB-DP11215 may be obsoleted now but replaced with the very similar, DB-DP11212. The DB-DP11212 board differs, I believe, only in its serial port configuration.) STATUS: This NuttX port is code complete and has considerable test testing. The port for this board was completed in NuttX 6.11, but still required a few bug fixes before it will be ready for prime time. The fully verified port first appeared in NuttX 6.13. Available configurations include the OS test and the NuttShell (NSH - see the NSH User Guide). An untested USB device-side driver is available in the source tree. A more complete port would include support of the USB OTG port and of the LCD display on this board. Those drivers are not yet available as of this writing. |
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PIC32MX795F512L. There one two board ports using this chip:
STATUS: This port was started and then shelved for some time until I received the Expansion I/O board. The basic Starter Kit (even with the Multimedia Expansion Board, MEB, DM320005)) has no serial port and most NuttX test configurations depend heavily on console output. Verified configurations for the OS test and the NuttShel (NSH) appeared in NuttX-6.16. Board support includes a verified USB (device-side) driver. Also included are a a verified Ethernet driver, a partially verified USB device controller driver, and an unverifed SPI driver. Stay tuned for updates. STATUS: Two verified configurations are available: (1) The basic OS test configuration that verfies the correctness port of NuttX, and (2) an extensive NuttShell (NSH) configuration. The NSH configuration includes: (1) Full network support, (2) Verified SPI driver, (3) SPI-based SD Card support, (4) USB device support (including configuration options for the USB mass storage device and the CDC/ACM serial class), and (5) Support for the MIO873QT2 LCD on the PIC32MX7 MMB. The PIC32MX7 MMB's touchscreen is connected directly to the MCU via ADC pins. A touchscreen driver has been developed using the PIC32's ADC capabilities and can be enabled in the NSH configuration. However, additional verification and tuning of this driver is required. Further display/touchscreen verification would require C++ support (for NxWidgets and NxWM). Since I there is no PIC32 C++ is the free version of the MPLAB C32 toolchain, further graphics development is stalled. |
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Development Environment: These ports uses either: |
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Renesas/Hitachi SuperH. | |
SH-1 SH7032. This port uses the Hitachi SH-1 Low-Cost Evaluation Board (SH1_LCEVB1), US7032EVB, with a GNU ELF toolchain* under Linux or Cygwin. STATUS: This port is available as of release 0.3.18 of NuttX. The port is basically complete and many examples run correctly. However, there are remaining instabilities that make the port un-usable. The nature of these is not understood; the behavior is that certain SH-1 instructions stop working as advertised. This could be a silicon problem, some pipeline issue that is not handled properly by the gcc 3.4.5 toolchain (which has very limit SH-1 support to begin with), or perhaps with the CMON debugger. At any rate, I have exhausted all of the energy that I am willing to put into this cool old processor for the time being. |
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Renesas M16C/26. | |
Renesas M16C/26 Microncontroller. This port uses the Renesas SKP16C26 Starter kit and the GNU M32C toolchain. The development environment is either Linux or Cygwin under WinXP.
STATUS:
Initial source files released in nuttx-0.4.2.
At this point, the port has not been integrated; the target cannot be built
because the GNU m32c-nuttx-elf-ld: BFD (GNU Binutils) 2.19 assertion fail /home/Owner/projects/nuttx/buildroot/toolchain_build_m32c/binutils-2.19/bfd/elf32-m32c.c:482
Where the reference line is: /* If the symbol is out of range for a 16-bit address, we must have allocated a plt entry. */ BFD_ASSERT (*plt_offset != (bfd_vma) -1); No workaround is known at this time. This is a show stopper for M16C for the time being. |
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Zilog Z16F. | |
Zilog z16f Microncontroller. This port use the Zilog z16f2800100zcog development kit and the Zilog ZDS-II Windows command line tools. The development environment is either Windows native or Cygwin under Windows. STATUS: The initial release of support for the z16f was made available in NuttX version 0.3.7. |
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Zilog eZ80 Acclaim!. | |
Zilog eZ80Acclaim! Microncontroller. There are two eZ80Acclaim! ports:
Both boards are based on the eZ80F091 part and both use the Zilog ZDS-II Windows command line tools. The development environment is either Windows native or Cygwin under Windows. STATUS: Integration and testing of NuttX on the ZiLOG ez80f0910200zcog-d is complete. The first integrated version was released in NuttX version 0.4.2 (with important early bugfixes in 0.4.3 and 0.4.4). As of this writing, that port provides basic board support with a serial console, SPI, and eZ80F91 EMAC driver. |
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Zilog Z8Encore!. | |
Zilog Z8Encore! Microncontroller. This port uses the either:
and the Zilog ZDS-II Windows command line tools. The development environment is either Windows native or Cygwin under Windows. STATUS: This release has been verified only on the ZiLOG ZDS-II Z8Encore! chip simulation as of nuttx-0.3.9. |
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Zilog Z180. | |
P112. The P112 is a hobbyist single board computer based on a 16MHz Z80182 with up to 1MB of memory, serial, parallel and diskette IO, and realtime clock, in a 3.5-inch drive form factor.. The P112 computer originated as a commercial product of "D-X Designs Pty Ltd"[ of Australia. Dave Brooks was successfully funded through Kickstarter for and another run of P112 boards in November of 2012. In addition Terry Gulczynski makes additional P112 derivative hobbyist home brew computers.STATUS: Most of the NuttX is in port for both the Z80182 and for the P112 board. Boards from Kickstarter project will not be available, however, until the first quarter of 2013. So it will be some time before this port is verified on hardware. |
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Zilog Z80. | |
Z80 Instruction Set Simulator. This port uses the SDCC toolchain under Linux or Cygwin (verified using version 2.6.0). This port has been verified using only a Z80 instruction simulator. That simulator can be found in the NuttX SVN here. STATUS: This port is complete and stable to the extent that it can be tested using an instruction set simulator. |
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XTRS: TRS-80 Model I/III/4/4P Emulator for Unix. A very similar Z80 port is available for XTRS, the TRS-80 Model I/III/4/4P Emulator for Unix. That port also uses the SDCC toolchain under Linux or Cygwin (verified using version 2.6.0). STATUS: Basically the same as for the Z80 instruction set simulator. This port was contributed by Jacques Pelletier. |
* A highly modified buildroot is available that may be used to build a NuttX-compatible ELF toolchain under Linux or Cygwin. Configurations are available in that buildroot to support ARM, Cortex-M3, avr, m68k, m68hc11, m68hc12, m9s12, blackfin, m32c, h8, and SuperH ports.
Development Environments |
Linux + GNU make + GCC/binutils for Linux
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The is the most natural development environment for NuttX. Any version of the GCC/binutils toolchain may be used. There is a highly modified buildroot available for download from the NuttX SourceForge page. This download may be used to build a NuttX-compatible ELF toolchain under Linux or Cygwin. That toolchain will support ARM, m68k, m68hc11, m68hc12, and SuperH ports. The buildroot SVN may be accessed in the NuttX SVN. |
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Linux + GNU make + SDCC for Linux
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Also very usable is the Linux environment using the SDCC compiler. The SDCC compiler provides support for the 8051/2, z80, hc08, and other microcontrollers. The SDCC-based logic is less well exercised and you will likely find some compilation issues if you use parts of NuttX with SDCC that have not been well-tested. |
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Windows with Cygwin + GNU make + GCC/binutils (custom built under Cygwin)
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This combination works well too. It works just as well as the native Linux environment except that compilation and build times are a little longer. The custom NuttX buildroot referenced above may be build in the Cygwin environment as well. |
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Windows with Cygwin + GNU make + SDCC (custom built under Cygwin)
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I have never tried this combination, but it would probably work just fine. |
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Windows with Cygwin + GNU make + Windows Native Toolchain
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This is a tougher environment. In this case, the Windows native toolchain is unaware of the Cygwin sandbox and, instead, operates in the native Windows environment. The primary difficulties with this are:
Fortunately, this conversion is done simply using the The NuttX make system works around this limitation by copying the platform specific directories in place. These copied directories make work a little more complex, but otherwise work well.
NOTE: In this environment, it should be possible to use the NTFS
NOTE: dependencies are suppress by setting the make variable Supported Windows Native Toolchains. At present, the following Windows native toolchains are in use:
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Windows Native (CMD.exe ) + GNUWin32 (including GNU make ) + MinGW Host GCC compiler + Windows Native Toolchain
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Build support has been added to support building natively in a Windows console rather than in a POSIX-like environment. This build:
This capability first appeared in NuttX-6.24 and should still be considered a work in progress because: (1) it has not been verfied on all targets and tools, and (2) still lacks some of the creature-comforts of the more mature environments.
The windows native build logic initiatiated if At present, this build environment also requires:
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Wine + GNU make + Windows Native Toolchain
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I've never tried this one, but I off the following reported by an ez80 user using the ZiLOG ZDS-II Windows-native toolchain:
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Other Environments? | |
Environment Dependencies. The primary environmental dependency of NuttX are (1) GNU make, (2) bash scripting, and (3) Linux utilities (such as cat, sed, etc.). If you have other platforms that support GNU make or make utilities that are compatible with GNU make, then it is very likely that NuttX would work in that environment as well (with some porting effort). If GNU make is not supported, then some significant modification of the Make system would be required. MSYS. I have not used MSYS but what I gather from talking with NuttX users is that MSYS can be used as an alternative to Cygwin in any of the above Cygwin environments. This is not surprising since MSYS is based on an older version of Cygwin (cygwin-1.3). MSYS has been modified, however, to interoperate in the Windows environment better than Cygwin and that may be of value to some users.
MSYS, however, cannot be used with the native Windows NuttX build because it will invoke the MSYS bash shell instead of the |
Memory Footprint |
C5471 (ARM7) The build for this ARM7 target that includes most of the OS features and a broad range of OS tests. The size of this executable as given by the Linux size command is (3/9/07):
text data bss dec hex filename 53272 428 3568 57268 dfb4 nuttx
DM320 (ARM9) This build for the ARM9 target includes a significant subset of OS features, a filesystem, Ethernet driver, full TCP/IP, UDP and (minimal) ICMP stacks (via uIP) and a small network test application: (11/8/07, configuration netconfig, apps/examples/nettest)
text data bss dec hex filename 49472 296 3972 53740 d1ec nuttx
Another build for the ARM9 target includes a minimal OS feature set, Ethernet driver, full TCP/IP and (minimal) ICMP stacks, and a small webserver: (11/20/07, configuration uipconfig, apps/examples/uip)
text data bss dec hex filename 52040 72 4148 56260 dbc4 nuttx
87C52 A reduced functionality OS test for the 8052 target requires only about 18-19K:
Stack starts at: 0x21 (sp set to 0x20) with 223 bytes available. Other memory: Name Start End Size Max ---------------- -------- -------- -------- -------- PAGED EXT. RAM 0 256 EXTERNAL RAM 0x0100 0x02fd 510 7936 ROM/EPROM/FLASH 0x2100 0x6e55 19798 24384
Licensing |
NuttX is available under the highly permissive BSD license. Other than some fine print that you agree to respect the copyright you should feel absolutely free to use NuttX in any environment and without any concern for jeopardizing any proprietary software that you may link with it.
Release History |
ChangeLog snapshots associated with the previous, current, and future release are available below.
Change logs for previous NuttX releases |
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ChangeLog for the current NuttX releases |
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Unreleased changes |
ChangeLog for the Current Release |
nuttx-6.24 2012-12-20 Gregory Nutt <gnutt@nuttx.org> * arch/arm/src/stm32: Support for STM32F100 high density chips added by Freddie Chopin. * configs/stm32f100_generic: Support for generic STM32F100RC board contributed by Freddie Chopin. * arch/arm/src/stm32_otgfsdev.c: Partial fix from Petteri Aimonen. * drivers/lcd/ug-2864ambag01.c and include/nuttx/lcd/ug_2864ambag01.h: LCD driver for the Univision OLED of the same name (untested on initial check-in). * configs/stm32f4discovery/nxlines: Configure to use mconf/Kconfig tool. * configs/stm32f4discovery/src/up_ug2864ambag01.c: Board-specific initialization for UG-2864AMBAG01 OLED connecte to STM32F4Disovery. * libxx/libxx_stdthrow.cxx: Exception stubs from Petteri Aimonen. * configs/stm32f4discovery/src/up_ug2864ambag01.c: Driver has been verified on the STM32F4Discovery platform. Some tuning of the configuration could improve the presentation. Lower resolution displays are also more subject to the "fat, flat line bug" that I need to fix someday. See http://www.nuttx.org/doku.php?id=wiki:graphics:nxgraphics for a description of the fat, flat line bug. * libc: Renamed nuttx/lib to nuttx/libc to make space for a true lib/ directory that will be forthcoming. Also rename libraries: liblib.a -> libc.a, libulib.a -> libuc.a, libklib.a -> libkc.a, liblibxx.a ->libcxx.a. (I will probably, eventually rename libxx to libcxx for consistency) * Makefile, lib/: A new, empty directory that will hold generated libraries. This simplifies the library patch calculations and lets me get rid of some bash logic. The change is functional, but only partially complete; additional logic is needed in the arch/*/src/Makefile's as well. Right now that logic generate multiple library paths, all pointing to the lib/ directory. * arch/*/src/Makefile: Now uses only the libraries in lib/ Replace bash fragments that test for board/Makefile. * Makefile.win: The beginnings of a Windows-native build. This is just the beginning and not yet ready for prime time use. * configs/stm32f4discovery/winbuild: This is a version of the standard NuttX OS test, but configured to build natively on Windows. Its only real purpose is to very the native Windows build logic. * tools/mkdeps.bat and tools/mkdeps.c: mkdeps.bat is a failed attempt to leverage mkdeps.sh to CMD.exe. It fails because the are certain critical CFLAG values that cannot be passed on the CMD.exe command line (like '='). mkdeps.c is a work in progress that will, hopefully, replace both mkdeps.sh and mkdeps.bat. * tools/Config.mk: Centralize the definition of the script that will be used to generated header file include paths for the compiler. This needs to be centralized in order to support the Windows native build. * tools/incdir.bat: A replacement for tools/incdir.sh for use with the the Windows native build. * Makefile.unix: The existing top-level Makefile has been renamed Makefile.unix. * Makefile: This is a new top-level Makefile that just includes either Makefile.unix or Makefile.win * configs/stm3240g-eval/src: Qencoder fixes from Ryan Sundberg. * arch/arm/src/stm32/stm32_qencoder.c: TIM3 bug fix from Ryan Sundberg. * tools/mkromfsimg.sh: Correct typo in an error message (Ryan Sundberg) * arch/*/src/Makefile: Remove tftboot install and creation of System.map for Windows native build. The first is a necessary change, the second just needs re-implemented. * configs/mirtoo: Update Mirtoo pin definitions for Release 2. Provided by Konstantin Dimitrov. * Fixed an uninitialized variable in the file system that can cause assertions if DEBUG on (contributed by Lorenz Meier). * Config.mk: Defined DELIM to be either / or \, depending upon CONFIG_WINDOWS_NATIVE. This will allow me to eliminate a lot of conditional logic elsewhere. * nuttx/graphics: One a mouse button is pressed, continue to report all mouse button events to the first window that received the the initial button down event, even if the mouse attempts to drag outside the window. From Petteri Aimonen. * nuttx/graphics/nxmu/nx_block.c: One more fix to the NX block message logic from Petteri Aimonen. * include/nuttx/wqueue.h: Some basic definitions to support a user- space work queue (someday in the future). * graphics/nxmu: Add semaphores so buffers messages that send buffers will block until the buffer data has been acted upon. * graphics/nxmw: Extended the blocked messages to cover mouse movement and redraw events. These will also cause problems if sent to a window while it is closing. * arch/several: Change UARTs are enabled for i.MX, LM3S, ez80, and M16C to match how they are enabled for other architectures. * configs/ez80f910200kitg: Convert to use mconf configuration. * sched/pause.c: Implements the POSIX pause() function. * ez80: Lots of changes to ez80 configurations and build logic as I struggle to get a clean Windows build (still not working). * configs/cloudctrl: Darcy Gong'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. * arch/arm/src/stm32_serial.c and stm32_lowputc.c: Added optional RS-485 direction bit control. From Freddie Chopin. * Lots of build files: ARMv7-M and MIPS32 Make.defs now include a common Toolchain.defs file that can be used to manage toolchains in a more configurable way. Contributed by Mike Smith * configs/stm32f4discovery/winbuild and configs/cloudctrl: Adapted to use Mike's Toolchain.defs. * tools/configure.sh: Adapted to handle paths and setenv.bat files correctly for native Windows builds. * More of build files: AVR and AVR32 Make.defs now include a common Toolchain.defs file that can be used to manage toolchains in a more configurable way. Contributed by Mike Smith * tools/incdir.sh and incdir.bat: Add -s option to generate system header file paths. * nuttx/arch/arm/src/arm/Toolchain.defs: Add support for more ARM toolchains (from Mike Smith). * arch/arm/src/stm32/stm32f40xxx_rcc.c: Enabled FLASH prefetch (from Petteri Aimonen). * graphics/nxtk/nxtk_filltrapwindow.c: Correct an offset problem (from Peterri Aimonen). * graphics/nxglib/nxglib_splitline.c: Fix error in drawing of near horizontal lines (from Peterri Aimonen). * sched/task_exithook.c: Missing right bracket with certain conditional compilation (thanks James Goppert). * arch/arm/srch/stm32/stm32_otgfshost.c: Replace timeout handling; use system tick instead of frame counter. The frame counter gets reset to zero at 0x3fff making it error prone. * arch/arm/src/stm32/stm32f20xx_rcc.c and stm32f40xx_rcc.c: Added option CONFIG_STM32_FLASH_PREFETCH. FLASH prefetch will now only be enabled if this option is selected. * confgs/ez80f910200zco/ostest: Now uses Kconfig/mconf configuration tool. Updated to build in native Windows environment. Other ez80f910200zco build scripts also updated. * configs/z8f64200100kit/ostest: Update to same level as ez80 configurations. * nuttx/configs/z8f64200100kit/scripts/setenv.bat: Add support for native Windows build. * nuttx/arch/arm/src/lpc17xx/lpc17_i2c.c: Resources not being released when I2C is uninitialized. * cloudctrl/src/up_chipid.c and shenzhou/src/up_chipid.c: Add functions to get chip ID. Contributed by Darcy Gong. These should not be board-dependent, but should be in arch/arm/src/stm32 where they can be used from any board. * sched/work_thread.c: Fix backward conditional compilation. This might has caused a memory leak. From Freddie Chopin. * configs/<many>/Make.defs: Fix typo -wstrict-prototypes should be -Wstrict-prototypes (From Denis Carilki). * arch/arm/src/calapyso/calypso_keypad.c: Add Calypso keypad driver. From Denis Carilki. * z8encore000zco/ostest and z8f64200100kit/ostest: Converted to use Kconfig/ mconf configuration tool. * arch/arm/src/armv7-m/up_exception.S: missing curly braces for push/pop From Freddie Chopin. * z8encore000zco/ostest and z8f64200100kit/ostest: Can now be modified to support the Windows native builds (see corresponding README.txt files). * configs/z16f2800100zcog - All configurations updated to use the ZDS-II 5.0.1 toolchain. * configs/z16f2800100zcog - All configurations updated to use Kconfig/mconf configuration tools. * configs/z16f2800100zcog/ostest - Now supports a native Windows build (other ZNEO configs may also support the native build, but this has not been verfiied). * include/nuttx/input/keypad.h, arch/arm/src/calypso/calypso_keypad.c, and configs/compal_e99/nsh_highram: First cut at a standard keypad interface definition. Contributed by Denis Carikli. * libc/stdlib/lib_rand.c: Always add one to result congruential generators to avoid the value zero. Suggested by Freddie Chopin. * tools/b16.c: Fixed precision math conversion utility. * graphics/nxglib/nxglib_splitline.c: Fix the "fat, flat line bug" * arch/z80/src/*/Toolchain.defs: Add dummy Toolchain.defs files for the z80 family. * configs/z80sim/ostest: Converted to build with the Kconfig/mconf tool. Current configuration failed to build for me (Ubuntu 12.10, SDCC 3.2.0 pre-built for Linux) due to a glibc memory corruptionerror in SDCC. * configs/z80sim/ostest: Default is now the Windows native build. See configs/z80sim/README.txt for instructions to convert back to a Linux or or Cygwin build. * arch/z80/src/Makefile.sdccw: Renamed makefiles with extensions zdiil, zdiiw, sdccl, and sdccw for the ZDS-II vs SDCC compilers and for the POSIX vs Windows native builds. * nuttx/drivers/mtd/ftl.c: Fix for the flash translation layer. Short unaligned writes were buggy. From Petteri Aimonen. * nuttx/libc/math/lib_round*.c: Add rounding functions to the math library. Contributed by Petteri Aimonen. * include/cxx/cstdlib: Add stroul(). From Petteri Aimonen. * arch/*/include/limits.h: Change signed minimum values from, for example, (-128) to (-127 - 1) to avoid overflows under certain conditions. From Peterri Aimonen. * graphics/nxtk/nxtk_subwindowmove.c: Previously it was very difficult to do e.g. "scroll by dx, dy". When given the full window area, nxtk_subwindowmove would clip the offset always to 0,0. It makes more sense for it to clip the source area and not modify the offset. From Petteri Aimonen. * graphics/nxtk/nxtk_getwindow.c: Clipping would change the offset of returned data, and caller has no way to know what the new offset would be. This messes up font drawing when the text is partially out of window, e.g. when scrolling. Also from Petteri Aimonen. * include/stdbool.h: Can now be disabled for C++ files if CONFIG_C99_BOOL8 is defined. CONFIG_C99_BOOL8 indicates (1) that the sizeof(_Bool) is one in both C and C++, and (2) the the C compiler is C99 and supports the _Bool intrinsic type. Requested by Freddie Chopin. * include/stdlib/lib_rand.c: Various additional changes so that the integer value zero can be returned. Requested by Freddie Chopin. * arch/z80/src/Makefile.sdcc*, z80/up_mem.h: Redesign Z80 build so that it no longer depends on Bash scripts. * configs/z80sim/nsh and pashello: Converted to (1) use the kconfig-frontends configuration tool, and (2) to build natively under Windows. The NSH configuration is verified; the pashello configuration needs a more TLC. * tools/copydir.sh: Rename tools/winlink.sh to tools/copydir.sh * tools/link.bat, unlink.bat, and copydir.bat: Add Windows counterparts to the link.sh, unlink.sh, and copydir.sh Bash scripts. * configs/z80sim/pashello: Now builds correctly. * configs/xtrs/ostest, nsh, and pashello: Converted to (1) use the kconfig- frontends configuration tool, and (2) to build natively under Windows. * drivers/serial/Kconfig and sched/Kconfig: Two names for same configuration: CONFIG_LOWLEVEL_CONSOLE is bogus and CONFIG_DEV_LOWCONSOLE is in the wrong Kconfig file. Moved to drivers/serial/Kconfig replacing CONFIG_LOWLEVEL_CONSOLE. * arch/z80/include/z180: Add header files for z180 chips. Initial versions are just clones of z80 header files. * arch/z80/src/z180: Add source files for z180 chips. Initial versions are just clones of z80 source files. * include/nuttx/arch.h: Add address environment control interfaces (for use with CPUs the provide MCUs and support process-like address environments). * arch/z80/src/z180/z180_mmu.*: Add MMU support for z180 tasks. * configs/p112: Add very basic board support and an examples/ostest configuration for the venerable P112 board. * sched/os_bringup.c: If CONFIG_PATH_INITIAL is defined, then the initial environment of the task started by os_bringup() will have the PATH environment variable defined to be that string. * binfmt/binfmt_exepath.c: If CONFIG_BINFMT_EXEPATH is defined, then this file will be built. It contains logic to search for regular files at the absolutes paths found in the current PATH environment variable setting. This is untested and not yet hooked into the binfmt exec() logic on initial check-in * binfmt/binfmt_loadmodule.c: load_module() will now traverse the PATH variable to locate files from their relative path. * include/nuttx/arch.h and arch/z80/src/z180/z180_mmu.c: Restructure the address environment interfaces so that they will better integrate with binfmt/. * binfmt/libelf/*, binfmt/libnxflat/* and other files: Integrate the address environment interfaces. If CONFIG_ADDRENV=y, then binfmt/ will now create an address environment for new tasks (instead of just malloc'ing the task memory). * configs/stm32f4discovery/elf: Enable support/test of the PATH to find executables using a relative path. apps-6.24 2012-12-20 Gregory Nutt <gnutt@nuttx.org> * apps/examples/ostest/roundrobin.c: Replace large tables with algorithmic prime number generation. This allows the roundrobin test to run on platforms with minimal SRAM (Freddie Chopin). * apps/nshlib/nsh_dbgcmds.c: Add hexdump command to dump the contents of a file (or character device) to the console Contributed by Petteri Aimonen. * apps/examples/modbus: Fixes from Freddie Chopin * apps/examples/modbus/Kconfig: Kconfig logic for FreeModBus contributed by Freddie Chopin. * Makefile, */Makefile: Various fixes for Windows native build. Now uses make foreach loops instead of shell loops. * apps/examples/elf/test/*/Makefile: OSX doesn't support install -D, use mkdir -p then install without the -D. From Mike Smith. * apps/examples/relays/Makefile: Reduced stack requirement (Darcy Gong). * apps/nshlib and apps/netutils/dhcpc: Extend the NSH ifconfig command plus various DHCPC improvements(Darcy Gong). * apps/nshlib/nsh_apps.c: Fix compilation errors when CONFIG_NSH_DISABLEBG=y. From Freddie Chopin. * Rename CONFIG_PCODE and CONFIG_FICL as CONFIG_INTERPRETERS_PCODE and CONFIG_INTERPRETERS_FICL for consistency with other configuration naming. * apps/examples/keypadtest: A keypad test example contributed by Denis Carikli. * apps/examples/elf and nxflat: If CONFIG_BINFMT_EXEPATH is defined, these tests will now use a relative path to the program and expect the binfmt/ logic to find the absolute path to the program using the PATH variable. NxWidgets-1.4 2012-12-20 Gregory Nutt <gnutt@nuttx.org> * libnxwidgets/Makefile, NxWidgets/nxwm/Makefile, and NxWidgets/UnitTests/nxwm/Makefile: Makefile improvements from submitted by Petteri Aimonen. Other Makefiles in the UnitTests directory probably also need these changes. * libnxwidgets/src/ccallback.cxx: Fix misplaced #endif. Provided by Petteri Aimonen. * libnxwidgets/src/cnxserver.cxx: Reduce delay to allow NX server to start. One second was un-necessarily long. Reduced to 50 MS. Reduction suggested by Petteri Aimonen. * tools/bitmap_converter.py: This script converts from any image type supported by Python imaging library to the RLE-encoded format used by NxWidgets. * NxWidgets/nxwm/src/capplicationwindow.cxx: If the "desktop" is empty, users have no need to minimize any windows. If the buttons are small, it's easy to hit minimize button accidentally when trying to close an application. Contributed by Petteri Aimonen. * NxWidgets/nxwm/src/ctaskbar.cxx: Add an option to eliminate the background image. Contributed by Petteri Aimonen. * NxWidgets/nxwm/src/chexcalculator.cxx and NxWidgets/nxwm/src/cstartwindow.cxx: The config settings CONFIG_NXWM_STARTWINDOW_ICON and CONFIG_NXWM_HEXCALCULATOR_ICON allow changing the icons used for these applications. However, to declare symbols for these icons user would need to modify NxWidgets header files. This commit adds a simple forward declaration to the relevant files, based on the configured icon. If the icon does not exist, linker will give an error about it. Contributed by Petteri Aimonen. * NxWidgets::CTaskBar: Highlight the current window in the task bar. Contributed by Petteri Aimonen. * NxWidgets/libnxwidgets/src/glyph_cycle.cxx: Width of glyph_cycle was wrong; Destructor needs to by public. From Petteri Aimonen. * NxWidgets::CNumericEdit. This is basically a label with plus and minus buttons. Contributed by Petteri, Aimonen. * NxWM::CStartWindow: Fix mq_receive error handling with signal is recieved. From Petteri Aimonen. * NxWidgets::CNxTimer: Replace the original (apparently non-functional) signal- based solution with a work queue-based solution. This raises some isses about using the internal work queues from user space. I have decided to implemented user-space work queues (someday) in order to accomplish that functionaliy. Submitted by Petteri Aimonen. * NxWidgets:CText and NxWidgets:CNumericEdite: Fix some memory freeing bugs (from Petteri Aimonen). * NxWidgets::CScrollingPanel: Usability improvements. It is borderless for now, because there was no easy way to redraw only the required part of the border. Contributed by Petteri Aimonen. * NxWidgets::CNxWidgets and NxWM::CStartWindow: Small changes to make sub- classing easier (from Petteri Aimonen). uClibc++-1.0 2011-11-05 <gnutt@nuttx.org> * The initial release of the uClibc++ implementation of the standard C++ library for NuttX. This package was contributed ay Qiang Yu and David for the RGMP team. buildroot-1.11 2011-11-05 <gnutt@nuttx.org> * configs/avr-defconfig-4.3.3 - Added --enable-long-long as a GCC option. * configs/avr-defconfig-4.5.2 - New configuration. * Config.in and almost all configurations in configs/ - Changed the default nuttx path to $(TOPDIR)/../../nuttx * Misc files. Patch provided by Gerd v. Egidy that solves the following problems - binutils 2.21 is not available on the gnu servers anymore, they replaced it with 2.21.1 - there is some assembler error when compiling gcc for arm, gcc bugzilla 43999 - you can't build nuttx for cortex m3/m4 because of a missing instruction in the assembler, binutils bugzilla 12296 * Add support for binutils 2.22 and GCC 4.6.3. * Change name of all tools from xxx-elf to xxx-nuttx-elf * Added an ARM EABI GCC 4.6.3 configuration (tool name is arm-nuttx-eabi-). * ldnxflat: Add support for the R_ARM_REL32 relocation. This relocation type was not generated by GCC/LD prior to gcc-4.6.3 * R_ARM_REL32 logic is conditionally disabled because it has not been tested. * ldnxflat: Correct a memory allocation error that could cause written past the end of allocated memory. Partial restoration of R_ARM_REL32 logic. There are lots of issues that I still do not understand here. pascal-3.0 2011-05-15 Gregory Nutt <gnutt@nuttx.org> * nuttx/: The Pascal add-on module now installs and builds under the apps/interpreters directory. This means that the pascal-2.1 module is incompatible with will all releases of NuttX prior to nuttx-6.0 where the apps/ module was introduced.
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