System Tap

This page has information about System Tap, which is of interest to embedded developers, because tracers are a useful tool for diagnosing problems during product development.

Introduction
SystemTap is a flexible and extensible system for adding trace collection and analysis to a running Linux kernel.

SystemTap is designed to be very flexible (allowing for the insertion of arbitrary C code), yet also easy-to-use (most trace statements are written in a simple scripting language, with useful data collection and aggregation routines available in (essentially) library form).

A key aspect of SystemTap is that it is intended to allow you to create a trace set (a "tapset"), and run it on a running Linux system, with no modification or re-compilation of the system required. To do this, it uses the kernel KProbes interface and loadable kernel modules to dynamically add probe points and newly generated code to the running kernel.

Open Source Projects/Mailing Lists
The main SystemTap site is at: http://sourceware.org/systemtap/

The SystemTap mail list archives are at: http://sourceware.org/ml/systemtap/

The tutorial, which gives a good overview of the system, is at: http://sourceware.org/systemtap/tutorial/

Probe types
There are several types of probes:
 * kprobe & kretprobe, for dynamically insterted probes
 * timers
 * static instrumentation markers
 * performance counter events

In the future, there may be:
 * user-space probes,
 * user-space return probes, and
 * watchpoint probes (kernel & user)
 * and more

ARM Support
System Tap works on ARM & OMAP platforms instructions are available here

Some Performance measurements
Jian Gui writes (in July 2006 on the System Tap mailing list):

Hi, we've tested the overhead of systemtap/LKET with some benchmarks on a ppc64 machine.

It shows the overhead of systemtap/LKET is acceptable generally. But it will also cause significant overhead for some benchmark of special behavior, e.g. dbench. Dbench calls kill in a very high frequency to check whether a task is complete, thus leads to a high overhead.

We categorized the event hooks into five groups in the testing: grp1 - syscall.entry, process grp2 - syscall.return, process grp3 - iosyscall, ioscheduler, scsi, aio, process grp4 - tskdispatch, pagefault, netdev, process grp5 - syscall.entry, syscall.return, process

All the results are (score1 - score2)/score2 * 100%, where: score1: the benchmark score when probed by systemtap score2: the benchmark score without probing

dbench (<3% is noise)

grp1           -14.4% grp2           -33.1% grp3           -7.92% grp4           -13.6% grp5           -43.3%

specjbb (<3% is noise) - grp 1          -0.87% grp 2          -0.67% grp 4          +0.47% grp 5          +0.05%

tiobench (<3% is noise) -- grp1      sequential reads      +1.45% sequential writes    -6.98% random reads         +0.57% random writes        -2.11% grp2      sequential reads      +0.11% sequential writes    -5.81% random reads         +0.03% random writes        -2.11% grp3      sequential reads      +1.42% sequential writes    -6.98% random reads         +0.51% random writes        -2.11% grp4      sequential reads      +1.38% sequential writes    -5.81% random reads         +0.60% random writes        -2.11% grp5      sequential reads      +0.22% sequential writes    -8.14% random reads         -0.10% random writes        -1.05%

Rawiobench (<3% is noise)

grp1      sequential aioread     0% sequential aiowrite   0% random aioread        0% random aiowrite       0% grp2      sequential aioread     0% sequential aiowrite   0% random aioread        0% random aiowrite       -0.82% grp3      sequential aioread     0% sequential aiowrite   0% random aioread        0% random aiowrite       0% grp4      sequential aioread     0% sequential aiowrite   0% random aioread        +0.79% random aiowrite       -0.82% grp5      sequential aioread     0% sequential aiowrite   -6.41% random aioread        +0.79% random aiowrite       0%

Test environment: Machine: Open Power 720/ 8 cpus/ 2 cores/ 6GB RAM (tiobench use 1G) Software: RHEL4-U3GA/ 2.6.17.2/ systemtap-20060718/ elfutils-0.122-0.4

Links

 * SystemTap Sans Kernel: A Pure Userspace Backend   Slides Video