Difference between revisions of "High Resolution Timers"

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* [http://sourceforge.net/projects/high-res-timers/ high-res-timers]
 
* [http://sourceforge.net/projects/high-res-timers/ high-res-timers]
  
== Specifications ==
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*[http://tree.celinuxforum.org/pubwiki/moin.cgi/RtwgPTSpec_5fR2 Rtwg PT Spec_R2] - CELF 1.0 Specification, Section on Posix Timers
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* [http://www.uccs.edu/~compsvcs/doc-cdrom/DOCS/HTML/APS33DTE/DOCU_007.HTM POSIX 1003.1b Section 14 (Clocks and Timers) API] - this link is obsolete, but I couldn't fid a replacement source
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== Downloads ==
 
== Downloads ==
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Patches for high-res timers were first presented at the time of kernel version 2.5.47,
 
Patches for high-res timers were first presented at the time of kernel version 2.5.47,
 
in November, 2002.  See [http://lwn.net/Articles/14538/ early patches]
 
in November, 2002.  See [http://lwn.net/Articles/14538/ early patches]
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[[Category:Kernel]]

Revision as of 10:35, 28 October 2011

Description

The objective of the high resolution timers project is to implement the POSIX 1003.1b Section 14 (Clocks and Timers) API in Linux. This includes support for high resolution timers - that is, timers with accuracy better than 1 jiffy.

When the project started, the POSIX clocks and timers APIs were not supported by Linux. Over time, the clocks and timers APIs have been adopted, and core infrastructure support for high resolution timers has been accepted into the mainline kernel (in 2.6.21). However, as of this writing, not all embedded platforms has support for high resolution timers, and even when support is present in the kernel code, it can be tricky to configure it for the kernel.

Rationale

Currently, timers in Linux are only supported at a resolution of 1 jiffy. The length of a jiffy is dependent on the value of HZ in the Linux kernel, and is 1 millisecond on i386 and some other platforms, and 10 milliseconds on most embedded platforms.

Higher resolution timers are needed to allow the system to wake up and process data at more accurate intervals.

Resources

Projects

hrtimers - Thomas Gleixner's patch

One project to support high resolution timers is Thomas Gleixner's hrtimers.

Thomas gave a presentation at the Ottawa Linux Symposium, July 2006, presenting the current status of hrtimers. The presentation is here: OLS hrtimers

As of July 2006, "generic clock sources" was accepted into Linus' mainline kernel tree (2.6.18-rc??). This means it should be appear in the mainline 2.6.18 kernel version, when that is available. hrtimers should soon follow, likely appearing in 2.6.19.

In February of 2006, James Perkins of WindRiver wrote:


ktimers has been obsoleted by hrtimers, and the core of hrtimers was merged and is present in Linus' 2.6.16-rc2. hrtimers is used as the base for itimers, nanosleep, and posix-timers. hrtimers are well-described by Jonathan Corbet at http://lwn.net/Articles/167897/

Since only the core of hrtimers is in 2.6.16-rc2, the hrtimers generally use the system timer as their tick source and run at HZ. John Stultz' generalized time source code has not yet been merged. Thomas Gleixner is maintaining his git tree and has graciously published patches at http://www.tglx.de/projects/hrtimers/ that include generalized clocksource, new timeofday patches, and get you the real "high resolution" timers for a subset of architectures.

High-res timers work is experimental and shifting and has been focusing on getting x86 working first, if this is adequate for you and you can use 2.6.16 kernels it's recommended, and let us all know of any problems or improvements. In contrast, the previous implementation that George Anzinger lead provides a fairly comprehensive set of functionality, back in the 2.6.8-2.6.10 era, but it isn't an active project at this time.


Note that the current HRT maintainers objected to this characterization.

HRT - Geoge Anzinger's patch

Prior to hrtimers, the main patch which provided high resolution timers was George Anzinger's patch.The official HRT site for this patch is at:


Downloads

Patch

Utility programs

How To Use

In order to use high resolution timers, you need to verify that the kernel has support for this feature for your target processor (and board). Also, you need to configure support for it in the Linux kernel.

Set CONFIG_HIGH_RES_TIMERS=y in your kernel config.

Compile your kernel and install it on your target board.

To use the Posix Timers API, see this online resource [1]

How to detect if your timer system supports high resolution

Here are several ways you can identify if your system supports high resolution timers.

  • Examine kernel startup messages

Watch the kernel boot messages, or use dmesg. If the kernel successfully turns on the high resolution timer feature, it will print the message "Switched to high resolution mode on CPU0" (or something similar) during startup.

  • Examine /proc/timer_list

You can also examine the timer_list, and see whether specific clocks are listed as supporting high resolution. Here is a dump of /proc/timer_list on an OSK (ARM-based) development board, showing the clocks configured for high resolution.

    • cat /proc/timer_list
Timer List Version: v0.3
HRTIMER_MAX_CLOCK_BASES: 2
now at 294115539550 nsecs

cpu: 0
 clock 0:
  .index:      0
  .resolution: 1 nsecs
  .get_time:   ktime_get_real
  .offset:     0 nsecs
active timers:
 clock 1:
  .index:      1
  .resolution: 1 nsecs
  .get_time:   ktime_get
  .offset:     0 nsecs
active timers:
 #0: <c1e39e38>, tick_sched_timer, S:01, tick_nohz_restart_sched_tick, swapper/0
 # expires at 294117187500 nsecs [in 1647950 nsecs]
 #1: <c1e39e38>, it_real_fn, S:01, do_setitimer, syslogd/796
 # expires at 1207087219238 nsecs [in 912971679688 nsecs]
  .expires_next   : 294117187500 nsecs
  .hres_active    : 1
  .nr_events      : 1635
  .nohz_mode      : 2
  .idle_tick      : 294078125000 nsecs
  .tick_stopped   : 0
  .idle_jiffies   : 4294966537
  .idle_calls     : 2798
  .idle_sleeps    : 1031
  .idle_entrytime : 294105407714 nsecs
  .idle_sleeptime : 286135498094 nsecs
  .last_jiffies   : 4294966541
  .next_jiffies   : 4294966555
  .idle_expires   : 294179687500 nsecs
jiffies: 4294966542


Tick Device: mode:     1
Clock Event Device: 32k-timer
 max_delta_ns:   2147483647
 min_delta_ns:   30517
 mult:           140737
 shift:          32
 mode:           3
 next_event:     294117187500 nsecs
 set_next_event: omap_32k_timer_set_next_event
 set_mode:       omap_32k_timer_set_mode
 event_handler:  hrtimer_interrupt

Here are some things to check:

1. Check the resolution reported for your clocks. If your clock supports high resolution, it will have a .resolution value of 1 nsecs. If it does not, then it will have a .resolution value that equals the number of nanoseconds in a jiffy (usually 10000 nsecs, on embedded platforms).

2. Check the event_handler for the Tick Device. If the event handlers is 'hrtimer_interrupt' then the clock is set up for high resolution handling. If the event handler is 'tick_handle_periodic', then the device is set up for regular tick-based handling.

3. Check the list of timers, and see if the attribute .hres_active has a value of 1. If so, then the high resolution timer feature is active.

  • Run a test program

You can run a small test program, and actually measure that the timers are returning in less than the period of a jiffy. If they are, this is the most definitive proof that your kernel supports high resolution timers. One example program you can try is cyclictest. Here is a sample command line which will test timers using nanosleep:

    • cyclictest -n -p 80 -i 500 -l 5000

This does a test of clock_nanosleep, with priority 80, at 500 microsecond intervals, running the 5000 iterations of the test.

How to validate

See above with regard to cyclictest

Sample Results

[Examples of use with measurement of the effects.]

Case Study 1

Case Study 2

Status

  • Status: implemented
  • Architecture Support:
(for each arch, one of: unknown, patches apply, compiles, runs, works, accepted)
    • i386: works
    • ARM: unknown
    • PPC: works
    • MIPS: unknown
    • SH: unknown

Future Work/Action Items

Here is a list of things that could be worked on for this feature:

  • Documentation
  • Testing

Old information (for 2.4 kernel)

The High Resolution Timers system allows a user space program to be wake up from a timer event with better accuracy, when using the POSIX timer APIs. Without this system, the best accuracy that can be obtained for timer events is 1 jiffy. This depends on the setting of HZ in the kernel. In the 2.4 kernel, HZ was set to 100, which means that the best accuracy you could get on a timer wakeup in user space was 10 milliseconds.

Put differently, if you asked for a timer event in 500 microseconds, you would wake up in 10 milliseconds (at least).

To support this feature on a particular board, you have to add a kernel driver that uses a timer on the system and supports the interface documented in: include/linux/hrtime.h (in the CELF tree) Additional documentation about this feature is available in Documentation/high-res-timers/

Patches for high-res timers were first presented at the time of kernel version 2.5.47, in November, 2002. See early patches