The latest instance of this is at www.pypi.info, and it isn't the first time I have seen this person making incorrect statements about mod_python and how it works.
So, let me set the record straight on one such myth about mod_python. That myth is that mod_python creates a separate Python interpreter instance for each request. This is just not the case.
What actually happens is that the first time a request arrives for an application which hasn't yet been loaded, and which hasn't been marked to run in the main Python interpreter, is that a new sub interpreter is created. That sub interpreter is then persistent within that process though, not being destroyed until the process itself is destroyed. Any subsequent requests for that application are then handled within the context of that same sub interpreter which has already been created, so no new sub interpreter is created. Even when multithreading is used, all the request handler threads execute within the context of that one sub interpreter. So, neither is a separate sub interpreter created for each distinct request handler thread in the Apache thread pool, as is also sometimes claimed.
As to why that poster had the problems he had with mod_python, they are more likely because of which Apache MPM was selected when Apache was compiled, as well as not changing the default MPM settings used. Especially with prefork MPM, the default settings are more appropriate for static file serving and PHP. If you do not change the default MPM settings as well as tweak HTTP keep alive settings to make them more appropriate for a large persistent Python web application, you will see load spikes and memory issues, especially when a system is put under load.
From what I have seen, the majority of people setting up mod_python don't understand the need to change the default Apache configuration. It may well have been the case that back in time when mod_python was somewhat newer that you didn't have to, but this is because back then Python web applications were typically much smaller and so didn't have significant start up times or use large amounts of memory. These days though they do, so you need to change how Apache is configured to have it perform adequately.
Now, can we please stop trying to do performance and memory usage comparisons if you don't know how to setup the systems being compared properly. :-(
BTW, everything above also applies to mod_wsgi when using embedded mode, as it is implemented in a similar manner to mod_python. Because I'd rather not see these misconceptions about mod_python transfers onto mod_wsgi, I will blog later more about the real source of these load spikes and memory issues. In the mean time, if using mod_wsgi use daemon mode and you will not have to think about it, as these issues in the main only relate to embedded mode.
17 comments:
That site is the same turkey who is selling "Django 2.0". His attempts at sowing name-brand confusion (pypi.info?!) are legendary, too, unfortunately.
Good to have this information laid out clearly, but there might be an argument for not feeding the trolls in the future for that particular site.
Oh, one of those sort of people. Always gets my goat up when people try and trade off of someone else's name and good work. I did notice the 'pypi' site name and thought they were going a bit far in thinking they could hijack it. Didn't know about them also using 'Django 2.0'.
Yes that website really is a horrible hoax trying to exploit money out of naive people, I wish there was some way someone could shut them down.
and SalesForceAlchemy ! sites like these are for dummies, and you can't do much about them.
mod_python still sucks because
- the build in module/function dispatch algorithm
- weird configuration
- need to re-configure from apache default
- fails to reload properly when configured thus (which wouldn't matter if...)
- poor hosting choices, apache only (as opposed to wsgi which you run on apache and nginx as mod_wsgi, on flup as fscgi, scgi or ajp, with wsgiref etc.)
- random crashes
- inability to configure it to daemon mode (as opposed to apache mod_wsgi) which prevents any sane shared hoster from offering it
@florian
the build in module/function dispatch algorithm
Not sure exactly what you mean here. If you mean how it supplies both a low level handler mechanism and the high level publisher dispatch mechanism then would in part agree.
I believe that mod_python should have stopped at the low level handler mechanism and made it as simple as possible. All the other high level handlers such as publisher should have been done as a separate package with its own release schedule.
Part of the problem with mod_python is those high level handlers have added to mod_python overall code size, plus some of the machinery to support them has been pushed down into the lower level handler causing a bit more in memory bloat, even though not used, that really should not exist, for those people who are only using the low level handler.
weird configuration
For the content handler phase, I believe the mistake in mod_python was moving away from the more conventional CGI approach of using proper URL matching rules to match to a file based resource. Instead you give the name of a Python module as an entry point. This is bad in my mind as you have side stepped all the security mechanisms in Apache as far as controlling what file based resources can be served up by Apache. Also, by doing what it did and not using proper URL to resource based matching, there is no reliable way of determining what SCRIPT_NAME should be for a WSGI application.
That said, some of the Trac folks think how mod_wsgi works, which is the CGI approach is a PITA as they can't just do everything in the Apache configuration file and instead must create a WSGI script file as the entry point and set up permissions properly on the directory such that it can be used.
need to re-configure from apache default
If you mean the need to change the default MPM settings then that isn't strictly mod_python's fault, but the fault of the specific heavy weight Python applications that people try and run on top of it. In short, mod_python came about when Python web applications were small, but now that they are much much bigger and have greater memory requirements. Thus, it isn't really possible any more to mix Python web applications and static file serving and PHP all on the one Apache server. I am writing a separate blog about that.
fails to reload properly
The module importer in mod_python is not meant to provide automatic reload ability for all Python code. It is a misconception I have seen many people have. When you are using a high level framework or Python application such as Django or Trac, you may as well turn off mod_python autoreload as it doesn't do anything for that case where entry point is a Python module on standard sys.path. The situation is not much different for mod_wsgi embedded mode, although recently showed how on Windows at least one could implement automatic restarts for any code change.
poor hosting choices, apache only
If you bind code to the mod_python specific API then yes, but no reason why you can't use a mod_python/WSGI bridge and so it just becomes another WSGI hosting mechanism. Well, accept for the fact that SCRIPT_NAME isn't correct and you have to manually set it.
random crashes
The reason for which most are understood and logged as issues, but because mod_python has stagnated, the fixes haven't been implemented. At least learnt from the mistakes in mod_python and didn't do the same thing in mod_wsgi. Actually, most of the problems with mod_python were worked out when implementing mod_wsgi and seeing how the code in mod_python was just broken.
inability to configure it to daemon mode (as opposed to apache mod_wsgi) which prevents any sane shared hoster from offering it
My personal opinion is that any sane shared hoster shouldn't necessarily be offering shared hosting with mod_wsgi just yet, well commodity shared hosting at least. At least, I wouldn't trust them to set it up as securely as possible, especially since how to do so isn't properly documented yet. Also, mod_wsgi 2.X isn't as secure as it could be and mod_wsgi 3.0 improves things in that area. Even so, for maximum security a certain architecture should be used which would involve not only Apache but a separate front end proxy and static file server such as nginx.
At the moment, only web hosting company I would trust fully is WebFaction, as they give each user their own Apache for running the dynamic web applications. Any others I would be suspicious of for commodity web hosting. Managed application web hosting is a different matter.
BTW, I have never once been approached by any web hosting company, at least not one that has been open about it, as to how to properly configure mod_wsgi for any level of shared hosting. This in part shows how conservative they are in taking up new technology, but perhaps also shows a mistaken belief that they think they know what they are doing. Certainly I have heard some feedback from people who have talked to companies about using mod_wsgi, and some of what the companies was saying was just utter nonsense and only showed they had no idea how mod_wsgi or even mod_python worked and how to use it properly.
@Graham
so since you basically agree with the raised points, and add a few of your own like that mod_python is kinda bloated and that its development is stagnant, why does it matter who spreads what kind of missinformation about it?
The bottom line is nobody should use it.
@florian
It matters because in some ways mod_wsgi works very similar to mod_python.
If people think that mod_python works in a certain way, when it doesn't, or that mod_python has certain problems, which may not actually be its fault directly, then they will assume that the same applies to mod_wsgi.
This isn't fiction. I have already come across people doing exactly this, most out of ignorance, but a few who seemed to knowingly do it with the intention to cast mod_wsgi as a broken solution as well because it competed with their own favoured solution.
So, would rather like to just try and set the record straight a bit. Explaining how mod_python works also helps people to understand mod_wsgi at the same time.
@florian
One final thing about what is getting labelled here as bloat in mod_python. The extra stuff I am talking about represents at most 1MB of memory and it stays constant and doesn't increase over time. This amount isn't that much when Python web applications quite often are 30MB+ in size in their own right. In some cases the Python web applications would actually drag in the same code that mod_python had already imported but which wasn't strictly needed for basic mod_python use case.
@graham
by bloat I'm largely refering to features nobody wants, but needs to configure and put up and that keep development of mod_python up.
@florian
I much prefer mod_wsgi in general, but mod_python still has one feature that mod_wsgi lacks: the ability to write apache filters in python.
And as for the general statements on bloat... surely you have nginx and varnish in front of anything that serves a serious amount of traffic.
@laurence
Python isn't particularly the best language for writing Apache input/output filters as the performance hit is quite significant. So, although it wouldn't be that hard to add support for writing input/output filters in Python, I am dubious about whether it is something that should be encouraged.
If you haven't already had a discussion on mod_wsgi list about what you are doing with input/output filters suggest you come other and we talk about it some more, especially with respect to what you are doing. This would be a really good time to revisit this issue as last opportunity to get something into mod_wsgi 3.0.
@laurence
Ahhh, but then I remembered all the other reasons why implementing Apache input/output filters in Python is bad. I'll try and blog about why mod_wsgi is unlikely to support them and why in general Python is bad for implementing them. Even so, do still come over to the mod_wsgi list if want to discuss it.
Even though writing filters in python might not be optimal, they are hugely easier to do than implementing in C. The relevant Apache APIs are poorly documented, and there do not appear to be any useful examples you ca start from.
After trying the C implementation for a while I switched to python and had an output filter up and running quickly.
That writing input/output filters in Python using mod_python is easy I will accept. Part of my concerns though are that in making it so simple it has abstracted away too much and you have lost the ability to properly deal with the buckets in the underlying bucket brigade. The result is that although it may work in most cases, there seems to be a small subset where mod_python may not be dealing with what comes down the bucket brigade properly and it fails in strange ways. In other words, it may not be a properly behaved filter implementation. Yes I realise this is an implementation detail and might be able to be solved, but it is just one of a number of issues I have with the existing mod_python code.
Anyway, as I said to previous poster, please come over to the mod_wsgi list so we can have a proper discussion about it. I'll still entertain the idea of filters if I believe there is a reasonable set of use cases for it to make it worthwhile and that such use cases can actually work with mod_wsgi and WSGI applications. Problem is that the way the WSGI interface works is that some input filters wouldn't be able to work with them. Specifically input filters that modify/add setenv variables or request headers upon first read are lost to WSGI because it takes a snapshot when application first entered. This is in contrast to mod_python which allows access to original data all the time so if modified it can see it.
So, at the moment I have people say that they want filter support, but no idea how you are using it and whether the use case is specific to an associated Python web application or being used in conjunction with non Python applications. Where associated with a specific Python web application, it is likely that it can just be done at the level of the WSGI application.
Hello,
Thanks for the article.
I have the following question : my django app uses a python module I wrote. This module makes calls to a postgres DB (which is not the DB used by the app for the model, it's an other DB). Every time django receives a request, a new DB connection is created by this module, which is very time consuming. So I was wondering, if I run Apache in daemon mode and that all my python application stays loaded in memory, does it mean I can open a DB connection at the first call and then let it open ?
something like (pseudo code):
#MyModule.py
con = psycopg2.connect()
def foo(query):
cur = con.cursor()
cur.execute(query)
...
return results
#views.py (django app)
from MyModule import foo
def bar(request):
...
res = foo(someQuery)
...
The only other solution I could think about was to have an external process running in the background with a pool of open connections, and making requests to this external process.
Any advice will be much appreciated !
@Francis You should ask your question on the mod_wsgi mailing list, not here in a very old blog post. Also why aren't you using Django's builtin database support? It manages cursors for you and newer versions of Django support database connection pooling across requests. Followups to the mod_wsgi mailing list, not here.
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