Difference between revisions of "Xenomai"
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==What is Xenomai ?== | ==What is Xenomai ?== | ||
− | Xenomai is a real time co-kernel which | + | Xenomai is a real time co-kernel which cooperates with Linux via Adeos. With its help hard real time applications can be developed and run on the Armadeus boards.<br> |
− | Thanks to Adeos, Xenomai will receive the interrupts first and decide | + | Thanks to Adeos, Xenomai will receive the interrupts first and decide to handle them or not. If not, they will then be transfered to the regular Linux kernel. Also, Xenomai provides a framework to develop applications which can be easily moved between the Real Time Xenomai environment and the regular Linux system.<br> |
− | to handle them or not. If not, they will then be transfered to the regular | + | |
− | Linux kernel. Also, Xenomai provides a framework to develop applications which | + | Moreover, Xenomai provides a set of APIs (called "skins") that emulate traditional RTOSes such as VxWorks and pSOS and implement other APIs such as POSIX. Thus, porting third party real time applications to Xenomai is a fairly simple process. |
− | can be easily moved between the Real Time Xenomai environment and the regular | + | |
− | Linux system. Moreover, | + | |
− | emulate traditional RTOSes such as VxWorks and pSOS and implement other APIs | + | |
− | such as POSIX. Thus, porting third party real time applications to Xenomai is | + | |
− | a fairly simple process. | + | |
==Explanation of the process used to install Xenomai== | ==Explanation of the process used to install Xenomai== |
Revision as of 13:30, 24 June 2011
Contents
What is Xenomai ?
Xenomai is a real time co-kernel which cooperates with Linux via Adeos. With its help hard real time applications can be developed and run on the Armadeus boards.
Thanks to Adeos, Xenomai will receive the interrupts first and decide to handle them or not. If not, they will then be transfered to the regular Linux kernel. Also, Xenomai provides a framework to develop applications which can be easily moved between the Real Time Xenomai environment and the regular Linux system.
Moreover, Xenomai provides a set of APIs (called "skins") that emulate traditional RTOSes such as VxWorks and pSOS and implement other APIs such as POSIX. Thus, porting third party real time applications to Xenomai is a fairly simple process.
Explanation of the process used to install Xenomai
The main steps are:
- selection of Xenomai package on the Buildroot menuconfig,
- selection of Xenomai features in Kernel menuconfig,
- compilation of the new version,
- validation of the Xenomai behaviour.
Selecting Xenomai package
- First of all, you need to select Xenomai package in Buildroot menuconfig:
$ make menuconfig
Package Selection for the target ---> Hardware handling / blockdevices and filesystem maintenance ---> .... [*] Xenomai ....
- Exit and save your configuration
- If you plan to use xeno-test (Xenomai performance tool) then CONFIG_ASH_GETOPTS should be activated in Busybox:
$ make busybox-menuconfig
Shells ---> Choose your default shell (ash) ---> --- ash --- Ash Shell Options ... [*] Builtin getopt to parse positional parameters
- Exit and save your configuration
- rebuild Busybox:
$ make busybox-clean && make
Xenomai kernel space support
- At first time, to have Linux kernel patched with Xenomai and Adeos patches, you must type:
$ make
- Then you can configure the Xenomai kernel options from Linux menuconfig:
$ make linux26-menuconfig
You should see the new entry :
Real-time sub-system --->
Enter in it and check the following to compile Xenomai as a part of the Linux kernel :
[*] Xenomai <*> Nucleus [*] Pervasive real-time support in user-space [ ] Interrupt shield support [*] Priority coupling support [*] Optimize as pipeline head (32) Number of pipe devices (512) Number of registry slots (128) Size of the system heap (Kb) (32) Size of the private stack pool (Kb) [*] Statistics collection [ ] Debug support [ ] Shared interrupts Timing ---> Scalability ---> Machine ---> Interfaces ---> Drivers --->
Additionaly, to enable / disable the different available skins, go into Interfaces ---> :
<*> Native API ---> <*> POSIX API ---> < > pSOS+ emulator ---> < > uITRON API ---> < > VRTX emulator ---> < > VxWorks emulator ---> < > RTAI emulator ---> <*> Real-Time Driver Model --->
Finally, compile everything:
$ make linux26 && make
Deploy
You can now transfer the rootfs and the kernel on the APF.
Validate the installation
- Boot the APF and logon as root.
- You can double check Xenomai is installed correctly:
$ dmesg | grep Xenomai I-pipe: Domain Xenomai registered. Xenomai: hal/arm started. Xenomai: real-time nucleus v2.4.3 (Back to Shalla-Bal) loaded. Xenomai: starting native API services. Xenomai: starting POSIX services. Xenomai: starting RTDM services.
- Now we can run the performance test provided by Xenomai:
$ xeno-test
Deinstalling or disabling Xenomai
There are two parts needed for disabling Xenomai features
Kernel
For disabling kernel part, two solutions are available
- The first solution is to unselect kernel's features :
$ make linux26-menuconfig
And disable following options:
Real-time sub-system ---> [ ] Xenomai and Kernel Features ---> [ ] Interrupt pipeline
- The second solution is to destroy the kernel tree :
$ make linux26-dirclean
Userspace / package
For disabling userspace/package part :
$ make menuconfig
and disable Xenomai
Package Selection for the target ---> [ ] Xenomai
then use the dirclean command:
$ make xenomai-dirclean
Going further
Links
- Adeos website
- Xenomai website
- Adeos installation
- Xenomai manual installation (for reference)