834af0f5fb
git-svn-id: svn://svn.code.sf.net/p/nuttx/code/trunk@4721 42af7a65-404d-4744-a932-0658087f49c3
502 lines
16 KiB
Plaintext
502 lines
16 KiB
Plaintext
README
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^^^^^^
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Contents
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^^^^^^^^
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o Overview
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- Description
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- Fake Interrupts
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- Timing Fidelity
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o Debugging
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o Issues
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- 64-bit Issues
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- Compiler differences
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- Stack Size Issues
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- Buffered I/O Issues
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- Networking Issues
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- X11 Issues
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o Configurations
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Overview
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^^^^^^^^
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Description
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-----------
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This README file describes the contents of the build configurations available
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for the NuttX "sim" target. The sim target is a NuttX port that runs as a
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user-space program under Linux or Cygwin. It is a very "low fidelity" embedded
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system simulation: This environment does not support any kind of asynchonous
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events -- there are nothing like interrupts in this context. Therefore, there
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can be no pre-empting events.
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Fake Interrupts
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---------------
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In order to get timed behavior, the system timer "interrupt handler" is called
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from the sim target's IDLE loop. The IDLE runs whenever there is no other task
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running. So, for example, if a task calls sleep(), then that task will suspend
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wanting for the time to elapse. If nothing else is available to run, then the
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IDLE loop runs and the timer increments, eventually re-awakening the sleeping task.
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Context switching is based on logic similar to setjmp() and longjmp().
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The sim target is used primarily as a development and test platform for new
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RTOS features. It is also of academic interest. But it has no real-world
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application that I know of.
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Timing Fidelity
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---------------
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NOTE: In order to facility fast testing, the sim target's IDLE loop, by default,
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calls the system "interrupt handler" as fast as possible. As a result, there
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really are no noticeable delays when a task sleeps. However, the task really does
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sleep -- but the time scale is wrong. If you want behavior that is closer to
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normal timing, then you can define CONFIG_SIM_WALLTIME=y in your configuration
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file. This configuration setting will cause the sim target's IDLE loop to delay
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on each call so that the system "timer interrupt" is called at a rate approximately
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correct for the system timer tick rate. With this definition in the configuration,
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sleep() behavior is more or less normal.
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Debugging
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^^^^^^^^^
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One of the best reasons to use the simulation is that is supports great, Linux-
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based debugging. Here are the steps that I following to use the Linux ddd
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graphical front-end to GDB:
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1. Modify the top-level configuration file. Enable debug symbols by defining
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the following.
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cd <NuttX-Directory>
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CONFIG_DEBUG_SYMBOLS=y
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2. Re-build:
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cd <NuttX-Directory>
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make clean
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make
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3. Then start the debugging:
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ddd nuttx &
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gdb> b user_start
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gdb> r
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NOTE: This above steps work fine on both Linux and Cygwin. On Cygwin, you
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will need to start the Cywin-X server before running ddd.
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Issues
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^^^^^^
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64-Bit Issues
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-------------
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As mentioned above, context switching is based on logic like setjmp and longjmp.
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This context switching is only available for 32-bit targets. On 64-bit machines,
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this context switching will fail.
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There are other 64-bit issues as well. For example, addresses are retained in
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32-bit unsigned integer types in a few places. On a 64-bit machine, the 32-bit
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address storage may correcupt 64-bit addressing. NOTE: This is really a bug --
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addresses should not be retained in uint32_t types but rather in uintptr_t types
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to avoid issues just like this.
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The workaround on 64-bit machines for now is to build for a 32-bit target on the
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64-bit machine. The workaround for this issue has been included in NuttX 6.15 and
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beyond. For thoses versions, you must add CONFIG_SIM_M32=y to the .config file in
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order to enable building a 32-bit image on a 64-bit platform.
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For older versions of NuttX, a patch also exists. The patch the Make.defs file in the
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appropriate places so that -m32 is included in the CFLAGS and -m32 and -melf_386
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are included in the LDFLAGS. See the patch
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0001-Quick-hacks-to-build-sim-nsh-ostest-on-x86_64-as-32-.patch that can be found at
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http://tech.groups.yahoo.com/group/nuttx/files.
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Compiler differences
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--------------------
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operator new:
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Problem: "'operator new' takes size_t ('...') as first parameter"
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Workaround: Add -fpermissive to the compilation flags
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Continue up_setjmp() issues:
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With some newer compilers, I am now getting segmentation faults in
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up_setjmp.S (even when built with the -m32 option). I have not looked into
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this yet.
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Stack Size Issues
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-----------------
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When you run the NuttX simulation, it uses stacks allocated by NuttX from the
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NuttX heap. The memory management model is exactly the same in the simulation
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as it is real, target system. This is good because this produces a higher
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fidelity simulation.
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However, when the simulation calls into Linux/Cygwin libraries, it will still
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use these small simulation stacks. This happens, for example, when you call
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into the system to get and put characters to the console window or when you
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make x11 calls into the system. The programming model within those libraries
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will assume a Linux/Cygwin environment where the stack size grows dynamically
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and not the small, limited stacks of a deeply embedded system.
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As a consequence, those system libraries may allocate large data structures
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on the stack and overflow the small NuttX stacks. X11, in particular,
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requires large stacks. If you are using X11 in the simulation, make sure
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that you set aside a "lot" of stack for the X11 system calls (maybe 8 or 16Kb).
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The stack size for the thread that begins with user start is controlled
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by the configuration setting CONFIG_USERMAIN_STACKSIZE; you may need to
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increase this value to larger number to survive the X11 system calls.
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If you are running X11 applications as NSH add-on programs, then the stack
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size of the add-on program is controlled in another way. Here are the
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steps for increasing the stack size in that case:
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cd ../apps/namedapps # Go to the namedapps directory
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vi namedapps_list.h # Edit this file and increase the stack size of the add-on
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rm .built *.o # This will force the namedapps logic to rebuild
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Buffered I/O Issues
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-------------------
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The simulated serial driver has some odd behavior. It will stall for a long time
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on reads when the C stdio buffers are being refilled. This only effects the behavior
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of things like fgetc(). Workaround: Set CONFIG_STDIO_BUFFER_SIZE=0, suppressing
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all C buffered I/O.
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Networking Issues
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-----------------
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I never did get networking to work on the sim target. It tries to use the tap device
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(/dev/net/tun) to emulate an Ethernet NIC, but I never got it correctly integrated
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with the NuttX networking (I probably should try using raw sockets instead).
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X11 Issues
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----------
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There is an X11-based framebuffer driver that you can use exercise the NuttX graphics
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subsystem on the simulator (see the sim/nx11 configuration below). This may require a
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lot of tinkering to get working, depending upon where your X11 installation stores
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libraries and header files and how it names libraries.
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For example, on UBuntu 9.09, I had to do the following to get a clean build:
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cd /usr/lib/
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sudo ln -s libXext.so.6.4.0 libXext.so
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(I also get a segmentation fault at the conclusion of the NX test -- that will need
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to get looked into as well).
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The X11 examples builds on Cygwin, but does not run. The last time I tried it,
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XOpenDisplay() aborted the program. UPDATE: This was caused by the small stack
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size and can be fixed by increasing the size of the NuttX stack that calls into
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X11. See the discussion "Stack Size Issues" above.
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Configurations
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^^^^^^^^^^^^^^
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mount
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Description
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-----------
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Configures to use examples/mount. This configuration may be
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selected as follows:
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cd <nuttx-directory>/tools
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./configure.sh sim/mount
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nettest
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Description
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-----------
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Configures to use examples/nettest. This configuration
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enables networking using the network TAP device. It may
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be selected via:
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cd <nuttx-directory>/tools
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./configure.sh sim/nettest
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NOTES:
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- The NuttX network is not, however, functional on the Linux TAP
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device yet.
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- As of NuttX-5.18, when built on Windows, this test does not try
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to use the TAP device (which is not available on Cygwin anyway),
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but inside will try to use the Cygwin WPCAP library. Only the
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most preliminary testing has been performed with the Cygwin WPCAP
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library, however.
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NOTE that the IP address is hard-coded in arch/sim/src/up_wpcap.c.
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You will either need to edit your configuration files to use 10.0.0.1
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on the "target" (CONFIG_EXAMPLE_NETTEST_*) or edit up_wpcap.c to
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select the IP address that you want to use.
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nsh
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Description
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-----------
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Configures to use the NuttShell at examples/nsh. This configuration
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may be selected as follows:
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cd <nuttx-directory>/tools
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./configure.sh sim/nsh
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nsh2
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Description
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-----------
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This is another example that configures to use the NuttShell at examples/nsh.
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Unlike nsh, this version uses NSH built-in functions. The nx, nxhello, and
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nxlines examples are included as built-in functions.
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X11 Configuration
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-----------------
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This configuration uses an X11-based framebuffer driver. Of course, this
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configuration can only be used in environments that support X11! (And it
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may not even be usable in all of those environments without some "tweaking"
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See discussion below under the nx11 configuration).
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Configuring
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-----------
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This configuration may be selected as follows:
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cd <nuttx-directory>/tools
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./configure.sh sim/nsh2
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nx
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Description
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-----------
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Configures to use examples/nx. This configuration may be
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selected as follows:
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cd <nuttx-directory>/tools
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./configure.sh sim/nx
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Special Framebuffer Configuration
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---------------------------------
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Special simulated framebuffer configuration options:
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CONFIG_SIM_FBHEIGHT - Height of the framebuffer in pixels
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CONFIG_SIM_FBWIDTH - Width of the framebuffer in pixels.
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CONFIG_SIM_FBBPP - Pixel depth in bits
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No Display!
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-----------
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This version has NO DISPLAY and is only useful for debugging NX
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internals in environments where X11 is not supported. There is
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and additonal configuration that may be added to include an X11-
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based simulated framebuffer driver:
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CONFIG_SIM_X11FB - Use X11 window for framebuffer
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See the "nx11" configuration below for more information.
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Multi- and Single-User Modes
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----------------------------
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The default is the single-user NX implementation. To select
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the multi-user NX implementation:
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CONFG_NX_MULTIUSER=y
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CONFIG_DISABLE_MQUEUE=n
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nx11
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Description
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-----------
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Configures to use examples/nx. This configuration is similar
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to the nx configuration except that it adds support for an X11-
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based framebuffer driver. Of course, this configuration can only
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be used in environments that support X11! (And it may not even
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be usable in all of those environments without some "tweaking").
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This configuration may be selected as follows:
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cd <nuttx-directory>/tools
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./configure.sh sim/nx11
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Special Framebuffer Configuration
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---------------------------------
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This configuration uses the same special simulated framebuffer
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configuration options as the nx configuration:
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CONFIG_SIM_X11FB - Use X11 window for framebuffer
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CONFIG_SIM_FBHEIGHT - Height of the framebuffer in pixels
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CONFIG_SIM_FBWIDTH - Width of the framebuffer in pixels.
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CONFIG_SIM_FBBPP - Pixel depth in bits
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X11 Configuration
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-----------------
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But now, since CONFIG_SIM_X11FB is also selected the following
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definitions are needed
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CONFIG_SIM_FBBPP (must match the resolution of the display).
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CONFIG_FB_CMAP=y
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My system has 24-bit color, but packed into 32-bit words so
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the correct seeting of CONFIG_SIM_FBBPP is 32.
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For whatever value of CONFIG_SIM_FBBPP is selected, the
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corresponidng CONFIG_NX_DISABLE_*BPP setting must not be
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disabled.
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Touchscreen Support
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-------------------
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A X11 mouse-based touchscreen simulation can also be enabled
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by setting:
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CONFIG_INPUT=y
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CONFIG_SIM_TOUCHSCREEN=y
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Then you must also have some application logic that will call
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arch_tcinitialize(0) to register the touchscreen driver. See
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also configuration "touchscreen"
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NOTES:
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1. If you do not have the call to sim_tcinitializE(0), the build
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will mysteriously fail claiming that is can't find up_tcenter()
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and up_tcleave(). That is a consequence of the crazy way that
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the simulation is built and can only be eliminated by calling
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up_simtouchscreen(0) from your application.
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2. You must first up_fbinitialize() before calling up_simtouchscreen()
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or you will get a crash.
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3. Call sim_tcuninintialize() when you are finished with the
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simulated touchscreen.
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4. Enable CONFIG_DEBUG_INPUT=y for touchscreen debug output.
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X11 Build Issues
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----------------
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To get the system to compile under various X11 installations
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you may have to modify a few things. For example, in order
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to find libXext, I had to make the following change under
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Ubuntu 9.09:
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cd /usr/lib/
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sudo ln -s libXext.so.6.4.0 libXext.so
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Multi- and Single-User Modes
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----------------------------
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The default is the single-user NX implementation. To select
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the multi-user NX implementation:
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CONFG_NX_MULTIUSER=y
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CONFIG_DISABLE_MQUEUE=n
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examples/nxconsole
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------------------
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This configuration is also set up to use the examples/nxconsole
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test instead of examples/nx. To enable this configuration,
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First, select Multi-User mode as described above. Then add the
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following definitions to the defconfig file:
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-CONFIG_NXCONSOLE=n
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+CONFIG_NXCONSOLE=y
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-CONFIG_NX_MULTIUSER=n
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+CONFIG_NX_MULTIUSER=y
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Comment out the following in the appconfig file:
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-CONFIGURED_APPS += examples/nx
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+#CONFIGURED_APPS += examples/nx
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And uncomment the following:
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-#CONFIGURED_APPS += examples/nxconsole
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+CONFIGURED_APPS += examples/nxconsole
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See apps/examples/README.txt for further details.
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nxwm
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This is a special configuration setup for the NxWM window manager
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UnitTest. The NxWM window manager can be found here:
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trunk/NxWidgets/nxwm
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The NxWM unit test can be found at:
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trunk/NxWidgets/UnitTests/nxwm
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Documentation for installing the NxWM unit test can be found here:
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trunk/NxWidgets/UnitTests/READEM.txt
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NOTE: There is an issue with running this example under the
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simulation. In the default configuration, this example will
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run the NxConsole example which waits on readline() for console
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intput. When it calls readline(), the whole system blocks
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waiting from input from the host OS. So, in order to get
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this example to run, you must comment out the readline call in
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apps/nshlib/nsh_consolemain.c like:
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Index: nsh_consolemain.c
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===================================================================
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--- nsh_consolemain.c (revision 4681)
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+++ nsh_consolemain.c (working copy)
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@@ -117,7 +117,8 @@
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/* Execute the startup script */
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#ifdef CONFIG_NSH_ROMFSETC
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- (void)nsh_script(&pstate->cn_vtbl, "init", NSH_INITPATH);
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+// REMOVE ME
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+// (void)nsh_script(&pstate->cn_vtbl, "init", NSH_INITPATH);
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#endif
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/* Then enter the command line parsing loop */
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@@ -130,7 +131,8 @@
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fflush(pstate->cn_outstream);
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/* Get the next line of input */
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-
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+sleep(2); // REMOVE ME
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+#if 0 // REMOVE ME
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ret = readline(pstate->cn_line, CONFIG_NSH_LINELEN,
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INSTREAM(pstate), OUTSTREAM(pstate));
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if (ret > 0)
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@@ -153,6 +155,7 @@
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"readline", NSH_ERRNO_OF(-ret));
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nsh_exit(&pstate->cn_vtbl, 1);
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}
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+#endif // REMOVE ME
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}
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/* Clean up */
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ostest
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Description
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-----------
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The "standard" NuttX examples/ostest configuration. This
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configuration may be selected as follows:
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cd <nuttx-directory>/tools
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./configure.sh sim/ostest
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pashello
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Description
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-----------
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Configures to use examples/pashello. This configuration may
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by selected as follows:
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cd <nuttx-directory>/tools
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./configure.sh sim/pashello
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touchscreen
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Description
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-----------
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This configuration uses the simple touchscreen test at
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apps/examples/touchscreen. This test will create an empty X11 window
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and will print the touchscreen output as it is received from the
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simulated touchscreen driver. This configuration may
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by selected as follows:
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cd <nuttx-directory>/tools
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./configure.sh sim/touchscreen
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Since this example uses the simulated frame buffer driver, the
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most of the configuration settings discussed for the "nx11"
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configuration also apply here. See that discussion above.
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See apps/examples/README.txt for further information about build
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requirements and configuration settings.
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