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Add a general profiling how-to, not really finished yet.

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1Profiling
2*********
3
4*or: What Did My Application Do in the Afternoon?*
5
6This how-to explains how you can profile your Grok application or
7Grok/Zope itself. This way you get an idea of the bottlenecks of your
8application or in other words: where it spends its time.
9
10.. note:: This text is an updated version of my how-to as it can seen
11          on the old Grok site (no, I won't give a link to that
12          slightly outdated stuff).
13
14Profiling with Grok
15===================
16
17When it comes to a web framework like Grok, profiling is not as easy
18as with commandline or desktop applications. You normally want to
19trigger certain requests and see, in which parts of your code how much
20time or memory was spent.
21
22Here is how you can do this.
23
24Prerequisites
25=============
26
27We assume you know how to create a Grok project (your application) and
28have one already at hand.
29
30Installing a profiler
31=====================
32
33There are some profiling tools available with every Python
34installation. Usually, they are started together with some desktop- or
35commandline application, wrapping it in a way to measure internal calls
36and other things interesting for developers.
37
38With web-frameworks, however, we often only want to check certain
39requests. Luckily, with `Paste`_ and `WSGI`_ we have a mechanism, that
40can serve in a similar way: we can define a (WSGI_) pipeline of apps
41and filters that wrap each other, similar to the approach of regular
42non-web applications. We also have a profiler already available, that
43*is* some WSGI_ application itself and can profile things when some
44HTTP request comes in: `repoze.profile`_ is even configurable over a
45web frontend.
46
47Install repoze.profile_
48=======================
49
50In the ``buildout.cfg`` of your project add the repoze.profile_ egg to list
51of eggs of your application. Look out for a section named ``[app]``, which
52could read like this or similar::
53
54
55  ...
56  [app]
57  recipe = zc.recipe.egg
58  eggs = cptapp
59         z3c.evalexception>=2.0
60         Paste
61         PasteScript
62         PasteDeploy
63         repoze.profile
64  interpreter = python-console
65  ...
66
67Here the added ``repoze.profile`` stanza is important.
68
69Now run::
70
71  $ bin/buildout
72
73to fetch the egg from the net if it is not already available and to
74make it known to the generated scripts.
75
76Create a ``profiler.ini``
77=========================
78
79To make use of the new egg we must tell paster about it. This is done
80by an appropriate initialization file we create now::
81
82  # file: profiler.ini
83  [app:myapp]
84  use = egg:sample
85
86  [filter:myprofiler]
87  use = egg:repoze.profile#profile
88
89  [pipeline:main]
90  pipeline = myprofiler myapp
91
92  [server:main]
93  use = egg:Paste#http
94  host = 127.0.0.1
95  port = 8080
96
97  [DEFAULT]
98  # set the name of the zope.conf file
99  zope_conf = %(here)s/zope.conf
100
101Here we tell paster (the HTTP server) in the ``pipeline`` to filter
102each web request passing it first to repoze.profile_ which then calls
103our own ``sample`` application. This way the profiler can start its
104job and measure all calls done by the following application call.
105
106It is crucial, that you use the name of *your* project egg here in the
107``[app:myapp]`` section. In the sample config above we assume that the
108project (application) is called ``sample``, so that the egg with our
109application is called the same.
110
111.. note:: modern Grok projects put their paster configuration files as
112          *templates* into the local ``etc/`` directory and do not
113          call them ``debug.ini``, ``profile.ini``, etc. but
114          ``debug.ini.in``, ``profile.ini.in``, etc (note the trailing
115          ``.in``). This is not covered here.
116
117Put this new file in the same directory as where your ``zope.conf``
118lives (*not* ``zope.conf.in``). For newer projects this is
119``parts/etc/``.
120
121Start Profiling
122===============
123
124With the given setup we can start profiling by::
125
126  $ bin/paster serve parts/etc/profiler.ini
127
128If your ``profiler.ini`` file resides elsewhere, you must use a
129different location, of course.
130
131.. note:: you dont't *have* to create a separate profiler config. You
132          can, of course, update an existing ``deploy.ini`` or
133          ``debug.ini``. But as profiling takes more time than calls
134          without profiling, it is a good idea to enable profiling
135          only on request, i.e. when starting paster with a
136          respective configuration.
137
138The server will start as usual and you can do everything you like with
139it.
140
141Browsing the Profiler
142=====================
143
144To get to the profiler, enter the following URL:
145
146    http://localhost:8080/__profile__
147
148This brings us to the profiler web frontend. If you have browsed your
149instance before, you will get some values about the timings of last
150requests. If not, then browse a bit over your application to collect
151some data. The data is collected 'in background' during each request
152and added to the values already collected.
153
154The result might look like this:
155
156.. image:: screenshot01.png
157
158As you can see, there are a few options you can play with. You can
159filter the results by name, sort it by time or other stats, enable
160display of full paths, etc.
161
162When you stop paster, all collected data is removed. On the next start
163you can generate new one.
164
165Profiling a certain view
166========================
167
168Say we want to profile the performance of the ``index`` view created
169by the our application. To do this, we first have to install an
170instance of our application. Let's call it simply ``app``.
171
172So, create an instance of your application under the name ``app`` in
173the grok UI admin interface.
174
175Now we can access
176
177    http://localhost:8080/app
178
179and the usual index page will (hopefully) appear.
180
181If we go back to the profiler, however, we will see the summed up
182values of *all* requests we did up to now - including all the actions
183in the admin interface etc. we are not interested in.
184
185We therefore clear the current data by clicking on ``clear`` on the
186profiler page.
187
188Now we access the page we want to examine directly and go to the above
189URL directly.
190
191When we now go back to the profiler, we only see the values of the
192last request. That's the data we are interested in.
193
194Profiling mass requests
195=======================
196
197Very often a single request to a view does not give us reliable data:
198too many factors can influence the request to make its values not very
199representative. What we often want are *many* requests and the average
200values appearing here.
201
202This means for our view: we want to do several hundreds requests to
203the same view. But as we are lazy, we don't want to press the reload
204button several hundred or even thousand times. Luckily there are tools
205available, which can do that for us.
206
207One of this tools is the apache benchmarking tool ``ab`` from the
208Apache project. On Ubuntu systems it is automatically installed, if
209you have the apache webserver installed.
210
211With ``ab`` (apache benchmarking) we can trigger 1,000 requests to our
212index page with one command::
213
214  $ ab -n1000 -c4 http://127.0.0.1/app/@@index
215
216This will give us 1,000 requests, of which at most four are triggered
217concurrently, to the URL http://127.0.0.1/app/@@index. Please don't do
218this on foreign machines!
219
220The result might look like this::
221
222  Benchmarking 127.0.0.1 (be patient)
223  Completed 100 requests
224  Completed 200 requests
225  Completed 300 requests
226  Completed 400 requests
227  Completed 500 requests
228  Completed 600 requests
229  Completed 700 requests
230  Completed 800 requests
231  Completed 900 requests
232  Finished 1000 requests
233 
234 
235  Server Software:        PasteWSGIServer/0.5
236  Server Hostname:        127.0.0.1
237  Server Port:            8080
238 
239  Document Path:          /app/@@index
240  Document Length:        198 bytes
241 
242  Concurrency Level:      4
243  Time taken for tests:   38.297797 seconds
244  Complete requests:      1000
245  Failed requests:        0
246  Write errors:           0
247  Total transferred:      448000 bytes
248  HTML transferred:       198000 bytes
249  Requests per second:    26.11 [#/sec] (mean)
250  Time per request:       153.191 [ms] (mean)
251  Time per request:       38.298 [ms] (mean, across all concurrent requests)
252  Transfer rate:          11.41 [Kbytes/sec] received
253
254  Connection Times (ms)
255                min  mean[+/-sd] median   max
256  Connect:        0    0   0.0      0       0
257  Processing:    94  152  17.3    151     232
258  Waiting:       86  151  17.3    150     231
259  Total:         94  152  17.3    151     232
260
261  Percentage of the requests served within a certain time (ms)
262    50%    151
263    66%    153
264    75%    156
265    80%    158
266    90%    176
267    95%    189
268    98%    203
269    99%    215
270   100%    232 (longest request)
271
272Also this benchmarking results can be interesting. But we want to know
273more about the functions called during this mass request and how much
274time they spent each. This can be seen, if we now go back to the
275browser and open
276
277    http://localhost:8080/__profile__
278
279again.
280
281.. note:: ``ab``, of course, is a simple, rude method for stress
282          testing. Although it provides many options, you might want
283          to look for more sophisticated methods to generate tons of
284          requests. ``multi-mechanize`` is such a tool that can kill
285          your server with the same power as ``ab`` but does it
286          smarter.
287
288Turning the Data into a Graph
289=============================
290
291All this is very nice, but sometimes a picture tells more than
292thousand words. So let's turn all this data into some graph.
293
294As repoze.profile_ cannot do this for us, we have to 'export' the
295collected data first.
296
297Exporting Profiling Data
298========================
299
300The web frontend provided by repoze.profile_ is very nice for
301analyzing ad-hoc. But sometimes we want to have the data 'exported' to
302process it further with other tools or simply archiving the results.
303
304Luckily we can do so by grabbing the file ``wsgi.prof`` which contains
305all the data presented in the web interface. This file is created by
306repoze.profile_ while working and in the top of the project
307directory. In fact the profiler stores all collected data in that
308``wsgi.prof`` file also for own usage.
309
310Be careful: when you click ``clear`` in the webinterface, then the
311file will vanish. Also stopping ``paster`` will make it disappear. So
312copy it to some secure location where we can process the data further
313while the web server is still running (and after you did all requests
314you want to analyze).
315
316Because repoze.profile_ makes use of the standard Python profiler in
317the :mod:`profile` or :mod:`cProfile` module, the data in the
318``wsgi.prof`` file conforms to output generated by these profilers.
319
320Converting the Data into dot-format
321===================================
322
323One of the more advanced tools to create graphs from profiling
324information is ``dot`` from graphviz_. To make use of it, we first
325have to convert the data in ``wsgi.prof`` file into something
326``dot``-compatible.
327
328There is a tool available, which can do the job for us, a Python
329script named ``GProf2Dot`` which is available at:
330
331    http://code.google.com/p/jrfonseca/wiki/Gprof2Dot
332
333Download the script from:
334
335    http://jrfonseca.googlecode.com/svn/trunk/gprof2dot/gprof2dot.py
336
337We can now turn our profiling data into a ``dot`` graph by doing::
338
339  $ python grprof2dot.py -f pstats -o wsgi.prof.dot wsgi.prof
340
341This will turn our input file ``wsgi.prof`` of format `pstats`
342(=Python stats) into a ``dot``-file named ``wsgi.prof.dot``.
343
344Converting the dot file into Graphics
345=====================================
346
347Now we can do the last step and turn our dot file into a nice graphics
348file. For this we need of course the dot programme, which on Ubuntu
349systems can be easily installed doing::
350
351  $ sudo apt-get install dot
352
353Afterwards we do the final transformation by::
354
355  $ dot -Tpng -omygraph.png wsgi.prof.dot
356
357This will generate a PNG file where we can see in terms of graphs
358where a request (or thousands thereof) spends most of the
359time. ``dot`` can generate **huge** graphs. A tiny snippet of a sample
360is shown below.
361
362.. image:: screenshot02.png
363
364All the used tools (``ab``, ``dot``, ``gprof2dot``) provide a huge
365bunch of options you might want to explore further. This way we can
366generate more or less complete graphs (leaving out functions of little
367impact), coulours etc.
368
369In the end you hopefully know more about your application and where it
370spent its time.
371
372.. _`repoze.profile`: http://pypi.python.org/pypi/repoze.profile
373.. _`Paste`: http://pythonpaste.org/
374.. _`WSGI`: http://www.python.org/peps/pep-0333.html
375.. _`graphviz`: http://www.graphviz.org/
376.. _`GProf2Dot`: http://code.google.com/p/jrfonseca/wiki/Gprof2Dot
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