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** Test with and without probes, on both architectures, with both python 2 and python 3, and with multilib installs on 64-bit
** Test with and without probes, on both architectures, with both python 2 and python 3, and with multilib installs on 64-bit
** Test "pyfuntop.stp"
** Test "pyfuntop.stp"
** Document "pyfuntop.stp"
** More documentation
** More documentation
** Send this work upstream (we have taken an out-of-tree patch to the core adding DTrace static markers ([http://bugs.python.org/issue4111 upstream RFE 4111]), reworked the patch to enable it to work with SystemTap, fixed a performance issue, added a tapset to make the markers easy to use, and written an example script that uses the resulting probe points, and ported the patch to python 3).
** Send this work upstream (we have taken an out-of-tree patch to the core adding DTrace static markers ([http://bugs.python.org/issue4111 upstream RFE 4111]), reworked the patch to enable it to work with SystemTap, fixed a performance issue, added a tapset to make the markers easy to use, and written an example script that uses the resulting probe points, and ported the patch to python 3).
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'''Question''': Is there a convention/template for adding such test pages for test days?
'''Question''': Is there a convention/template for adding such test pages for test days?
<br>'''Answer''': https://fedoraproject.org/wiki/QA/Test_Days/Create
<br>'''Answer''': [[QA/Test_Days/Create]]


== User Experience ==
== User Experience ==
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}}
}}


==== Tracing the number of Python function ====
==== "top" for Python function calls ====
<code>pyfuntop.stp</code> gives a "top"-like view of Python function calls per second, either across the whole system, or for a given python process.
<code>pyfuntop.stp</code> gives a "top"-like view of Python function calls per second, either across the whole system, or for a given python process.


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[[Category:Python]]

Latest revision as of 08:09, 18 September 2016

Systemtap Static Probes

Summary

Systemtap allows event tracing of programs when they have static probes inserted. This allows for tracing specifics of an application on a higher level that is meaningful to the application user so they don't have to know the exact source code details for tracing what is happening. Language runtimes can benefit from this by exposing events that make sense to users of those languages/runtimes.

Owner

  • email: mjw@redhat.com

Current status

  • Targeted release: Fedora 13
  • Last updated: 24 Mar 2009
  • Percentage of completion: 100%.
  • systemtap 1.2-1 is now available.
  • java (since 1:1.6.0-21.b16 and since 34.b17 also jni and jstack support), postgresql (since 8.3.6-4) and python (2.6.4-19) have had static probes enabled.
  • Tracking bug: https://bugzilla.redhat.com/show_bug.cgi?id=546295
  • See under scope for individual package status.

TODO

  • Add examples for java, postgresql and tcl below, like done for python.

DONE

  • Identified deficiencies upstream:
 * [PR10013] support ENABLED sdt probe macro - Fixed in 1.1
 * [PR10601] user-space deref/registers in loc2c (i386 mainly, but could affect x86_64 and other arches also) - Fixed in 1.1

Detailed Description

By packaging a new version of systemtap, that enables programs that already have static dtrace probe markers in their sources and by making those packages build depend on the new systemtap-sdt-devel package and recompiling them with probe points enabled, users of those packages will be able to trace any high level events that these packages provide.

Benefit to Fedora

It will be easier for developers and users to observe what is really happening on their system on a higher (application or language) level.

Scope

  • Work with upstream to identify any issues with the new capabilities while we activate probes in packages.
  • Package new version of Systemtap (including new subpackage systemtap-sdt-devel).
  • Identify packages that already include static user probes (see below)
  • Work with package maintainer to enable them in the Fedora build spec file.
  • Add documentation on enabled probes and how to use them with a systemtap tapset.

Currently identified packages:

postgresql

Tracking bug: https://bugzilla.redhat.com/show_bug.cgi?id=488941 Already able to build something that works with current rpm. Documentation: upstream docs Example: example trace Screencast: video presentation

java-1.6.0-openjdk

Tracking bug: https://bugzilla.redhat.com/show_bug.cgi?id=498109

  • upstream docs
  • Static probes ready, plus hotspot tapset, jni tapset and java backtraces all done..

tcl

Tracking bug: https://bugzilla.redhat.com/show_bug.cgi?id=489017

Python

We're tracking our Python work in our downstream bugzilla as bug 545179.

  • DONE: Our Python 2 and Python 3 builds contain: (from python-2.6.4-19.fc13 and python3-3.1.1-25.fc13 onwards)
    • a tapset providing these probepoints:
      • python.function.entry
      • python.function.return
    • built with systemtap patches that add the static markers that implement the above to the libpython2.6 and libpython3.1 shared libraries
    • contains an example of usage added to docs in the python-libs and python3-libs subpackages, logging all Python function calls/return hierarchically across the whole system or for one process
    • dmalcolm has tested the example script on a rawhide box and verified that it works on i686 for both Python runtimes.
    • dmalcolm has done initial testing of the performance of the python 2 patch using the Unladen Swallow benchmark suite, initial indications suggest the patch we're using imposes negligible performance cost for the case when the probe points are compiled in but aren't in active use
    • dmalcolm has added another example script "pyfuntop.stp" which is a top-like view of python function calls (not yet tested in rpm context)
  • TODO:
    • Double-check generated machine code
    • Test with and without probes, on both architectures, with both python 2 and python 3, and with multilib installs on 64-bit
    • Test "pyfuntop.stp"
    • More documentation
    • Send this work upstream (we have taken an out-of-tree patch to the core adding DTrace static markers (upstream RFE 4111), reworked the patch to enable it to work with SystemTap, fixed a performance issue, added a tapset to make the markers easy to use, and written an example script that uses the resulting probe points, and ported the patch to python 3).
    • Address error handling within the Python 3 probe.
    • Ideas for additional probe points:
      • function calls/returns (this is what the dtrace probe has)
      • GIL events: instrument the raw function to claim/release of the lock, then capture the times at which it happens, then render stats
      • threads starting/stopping
      • bytecode execution metrics: e.g. trace individual bytecodes; how often does LOAD_GLOBAL get invoked
      • exceptions being thrown
      • exceptions being handled (e.g. for tracking down exactly where code is "swallowing" an error)
      • unhandled exceptions
      • arenas being claimed/freed
      • dictionaries switching to inefficient form: http://lewk.org/blog/python-dictionary-optimizations
      • _warnings.c: do_warn() (e.g. whole-system python3 warnings for all python 2 running on your system)
      • py-level backtraces


See also Mark's blog post about our initial work on Python/SystemTap at FUDCon Toronto

Notes

It seems as if several of the above were dtrace-instrumented in code that was never merged into the upstream versions of the package, but instead represented as run-time add-ons or private patches for Solaris distributions. Disappointing, but perhaps we can do better and engage the respective upstream teams. This will of course take time and panache.

At least the patches tend to be very small so we have some freedom to choose between approaches (adding STAP_PROBE/whatever hooks directly to the core upstream code; or fedora local patches; or add-on shared libraries like for php/httpd).

Another approach worth considering is adding tapsets that map process.mark() events to process.function/statement() to approximate the dtrace out-of-tree patches.

How To Test

Whether systemtap and static markers are working in general can be tested by installing systemtap, kernel-debuginfo and the systemtap-testsuite. Running sudo make installcheck in /usr/share/systemtap/testsuite

When applications get static markers enabled we should add them to a testing page listing:

  • Package install instructions.
  • Setup and sample run of the application
  • A reference to the probe names.
  • And an simple example stap invocation listing markers that can be enabled.

Question: Is there a convention/template for adding such test pages for test days?
Answer: QA/Test_Days/Create

User Experience

For packages that have static probes enabled users will be able to trace high-level events, like for example database transactions, or method tracing in virtual machines through stap.

Dependencies

  • A new version of systemtap with the systemtap-sdt-devel subpackage.
  • A new version of elfutils that provides access to the new gcc debuginfo, in particular the new cfi encodings.
  • Any package wishing to expose existing probes in its (upstream) sources depending on systemtap-sdt-devel and adding an --enable-dtrace or equivalent to its spec file.

Contingency Plan

Even if all the tracing will not work, packages that are converted to provide static probes will not be impacted since the probe points have (near) zero overhead, so in the worse case some packages were recompiled to enable the feature, but users will still not be able to use it.

Documentation

The upstream wiki is the best description for now http://sourceware.org/systemtap/wiki/UsingStaticUserMarkers the systemtap list has an example on converting a package http://sourceware.org/ml/systemtap/2009-q1/msg00140.html

While working on this feature this section will be expanded to list packages that have probe points enabled and pointers to (upstream) package documentation on the probe names and semantics like for postgresql http://www.postgresql.org/docs/8.2/static/dynamic-trace.html

Python

The following Systemtap probe points have been added to Fedora 13's Python 2 and Python 3 packages:

Probe point Parameters Overview Example of usage
python.function.entry
  • str filename
  • str funcname
  • int lineno
Indicates that execution of a Python function has begun
stap \
  -e'probe python.function.entry {log(filename);}' \
  -c yum help
python.function.return
  • str filename
  • str funcname
  • int lineno
Indicates that the Python runtime has returned from a function Probing modules visited as the python runtime starts up:
stap \
-e'probe python.function.return {log(filename);}' \
-c "python -c 'pass'"

Sample scripts that use these probe points have been added to the python-libs and python3-libs subpackages.

Tracing the hierarchy of Python function calls

systemtap-example.stp shows the hierarchy of function calls and returns within a python process (or across the whole system)

Here's an example of running it (in verbose mode) to trace what happens during the invocation of a python script (the yum tool, as it happens).

# stap -v /usr/share/doc/python-libs-2.6.4/systemtap-example.stp -c yum help
Pass 1: parsed user script and 66 library script(s) using
20224virt/12248res/2040shr kb, in 150usr/10sys/160real ms.
Pass 2: analyzed script: 2 probe(s), 14 function(s), 2 embed(s), 2 global(s)
using 25184virt/14572res/3380shr kb, in 20usr/0sys/14real ms.
Pass 3: using cached
/root/.systemtap/cache/5a/stap_5a80297603ac4434b77b22e6f4127f00_5903.c
Pass 4: using cached
/root/.systemtap/cache/5a/stap_5a80297603ac4434b77b22e6f4127f00_5903.ko
Pass 5: starting run.
     0 yum(23287): => <module> in /usr/lib/python2.6/site.py:59
   439 yum(23287):  => <module> in /usr/lib/python2.6/os.py:22
  1021 yum(23287):   => <module> in /usr/lib/python2.6/posixpath.py:11
  1146 yum(23287):    => <module> in /usr/lib/python2.6/stat.py:4
  1163 yum(23287):    <= <module> in /usr/lib/python2.6/stat.py:94
  1272 yum(23287):    => <module> in /usr/lib/python2.6/genericpath.py:5
  1292 yum(23287):    <= <module> in /usr/lib/python2.6/genericpath.py:85
  1483 yum(23287):    => <module> in /usr/lib/python2.6/warnings.py:1
  1677 yum(23287):     => <module> in /usr/lib/python2.6/linecache.py:6
  1698 yum(23287):     <= <module> in /usr/lib/python2.6/linecache.py:68
(etc)

The Python 3 version of the probe point sends the strings back to SystemTap in UTF-8 encoding. For example, if you create a python script with an "interesting" name:

# echo 'print("Yaarrr!")' > ☠.py
# cat ☠.py
print("Yarrrrr!")
# stap -v /usr/share/doc/python3-libs-3.1.1/systemtap-example.stp -c "python3 ☠.py"
(copious output snipped)
     0 python3(28262): => <module> in ☠.py:1
    22 python3(28262): <= <module> in ☠.py:1
Unicode filenames
For the curious, the filename of that python script in Unicode is:
U+2620 SKULL AND CROSSBONES
U+002E FULL STOP
U+0070 LATIN SMALL LETTER P
U+0079 LATIN SMALL LETTER Y

"top" for Python function calls

pyfuntop.stp gives a "top"-like view of Python function calls per second, either across the whole system, or for a given python process.

Here's an example of running it:

[david@fedora13 ~]$ stap /usr/share/doc/python3-libs-3.1.2/pyfuntop.stp

and the output at one instant (as it happens, showing PackageKit reading update information from a yum .xml file, I believe):

   PID                                                                         FILENAME   LINE                       FUNCTION  CALLS
 10802                                    /usr/lib64/python2.6/xml/etree/ElementTree.py   1156                       _fixname   5831
 10802                                    /usr/lib64/python2.6/xml/etree/ElementTree.py   1149                       _fixtext   5468
 10802                                    /usr/lib64/python2.6/xml/etree/ElementTree.py    749                        _encode   5468
 10802                                    /usr/lib64/python2.6/xml/etree/ElementTree.py   1046                         _flush   4050
 10802                                                   /usr/lib64/python2.6/string.py    308                           join   3687
 10802                                    /usr/lib64/python2.6/xml/etree/ElementTree.py   1184                          _data   3686
 10802                                    /usr/lib64/python2.6/xml/etree/ElementTree.py   1064                           data   3686
 10802                                    /usr/lib64/python2.6/xml/etree/ElementTree.py   1075                          start   2025
 10802                                    /usr/lib64/python2.6/xml/etree/ElementTree.py    190                       __init__   2025
 10802                                    /usr/lib64/python2.6/xml/etree/ElementTree.py    285                         append   2025
 10802                                    /usr/lib64/python2.6/xml/etree/ElementTree.py    726                      iselement   2025
 10802                                    /usr/lib64/python2.6/xml/etree/ElementTree.py   1187                           _end   2025
 10802                                    /usr/lib64/python2.6/xml/etree/ElementTree.py   1091                            end   2025
 10802                                    /usr/lib64/python2.6/xml/etree/ElementTree.py   1175                    _start_list   2024
 10802                                    /usr/lib64/python2.6/xml/etree/ElementTree.py   1244                           feed      4

Release Notes

Systemtap has been extended to support user space tracing, and in particular to support static (dtrace compatible) markers enabled in various programs in Fedora 12. This enables users, developers and administrators a high level overview of what is going on with their system or deep down in a specific program or subsystem.

Systemtap comes with a tutorial, a language reference manual, a tapsets reference and an examples directory under /usr/share/doc/systemtap-?.?/

  • TODO: Should have a list of which packages were enabled with markers when finished.

Comments and Discussion