A slick ORM cache with automatic granular event-driven invalidation for Django.
Project description
A slick app that supports automatic or manual queryset caching and automatic granular event-driven invalidation.
It uses redis as backend for ORM cache and redis or filesystem for simple time-invalidated one.
And there is more to it:
decorators to cache any user function or view as a queryset or by time
extensions for django and jinja2 templates to cache template fragments as querysets or by time
concurrent file cache with a decorator
a couple of hacks to make django faster
Requirements
Python 2.6+ or 3.3+, Django 1.3+ and Redis 2.6+.
Installation
Using pip:
$ pip install django-cacheops
Or you can get latest one from github:
$ git clone git://github.com/Suor/django-cacheops.git $ ln -s `pwd`/django-cacheops/cacheops/ /somewhere/on/python/path/
Setup
Add cacheops to your INSTALLED_APPS before any apps that use it.
Setup redis connection and enable caching for desired models:
CACHEOPS_REDIS = {
'host': 'localhost', # redis-server is on same machine
'port': 6379, # default redis port
'db': 1, # SELECT non-default redis database
# using separate redis db or redis instance
# is highly recommended
'socket_timeout': 3,
}
CACHEOPS = {
# Automatically cache any User.objects.get() calls for 15 minutes
# This includes request.user or post.author access,
# where Post.author is a foreign key to auth.User
'auth.user': ('get', 60*15),
# Automatically cache all gets, queryset fetches and counts
# to other django.contrib.auth models for an hour
'auth.*': ('all', 60*60),
# Enable manual caching on all news models with default timeout of an hour
# Use News.objects.cache().get(...)
# or Tags.objects.filter(...).order_by(...).cache()
# to cache particular ORM request.
# Invalidation is still automatic
'news.*': ('just_enable', 60*60),
# Automatically cache count requests for all other models for 15 min
'*.*': ('count', 60*15),
}
Additionally, you can tell cacheops to degrade gracefully on redis fail with:
CACHEOPS_DEGRADE_ON_FAILURE = True
There is also a possibility to make all cacheops methods and decorators no-op, e.g. for testing:
CACHEOPS_FAKE = True
Usage
It’s automatic you just need to set it up.
You can force any queryset to use cache by calling it’s .cache() method:
Article.objects.filter(tag=2).cache()
Here you can specify which ops should be cached for queryset, for example, this code:
qs = Article.objects.filter(tag=2).cache(ops=['count'])
paginator = Paginator(objects, ipp)
articles = list(pager.page(page_num)) # hits database
will cache count call in Paginator but not later articles fetch. There are three possible actions - get, fetch and count. You can pass any subset of this ops to .cache() method even empty - to turn off caching. There is, however, a shortcut for it:
qs = Article.objects.filter(visible=True).nocache()
qs1 = qs.filter(tag=2) # hits database
qs2 = qs.filter(category=3) # hits it once more
It is useful when you want to disable automatic caching on particular queryset.
You can also override default timeout for particular queryset with .cache(timeout=...) or make queryset only write cache, but don’t try to fetch it with .cache(write_only=True).
You can cache and invalidate result of a function the same way as a queryset. Cache of the next function will be invalidated on any Article change, addition or deletion:
from cacheops import cached_as
@cached_as(Article, timeout=120)
def article_stats():
return {
'tags': list( Article.objects.values('tag').annotate(count=Count('id')) )
'categories': list( Article.objects.values('category').annotate(count=Count('id')) )
}
Note that we are using list on both querysets here, it’s because we don’t want to cache queryset objects but their results.
Also note that if you want to filter queryset based on arguments, e.g. to make invalidation more granular, you can use a local function:
def articles_block(category, count=5):
@cached_as(Article.objects.filter(category=category), extra=count)
def _articles_block():
qs = Article.objects.filter(category=category)
articles = list(qs.filter(photo=True)[:count])
if len(articles) < count:
articles += list(qs[:count-len(articles)])
return articles
return _articles_block()
We added extra here to make different keys for calls with same category but different count. Cache key will also depend on function arguments, so we could just pass count as an argument to inner function. We also omitted timeout here, so a default for the model will be used.
Another possibility is to make function cache invalidate on changes to any one of several models:
@cached_as(Article.objects.filter(public=True), Tag)
def article_stats():
return {...}
As you can see, we can mix querysets and models here.
You can also cache and invalidate a view as a queryset. This works mostly the same way as function caching, but only path of the request parameter is used to construct cache key:
from cacheops import cached_view_as
@cached_view_as(News)
def news_index(request):
# ...
return HttpResponse(...)
You can pass timeout, extra and several samples the same way as to @cached_as().
Invalidation
Cacheops uses both time and event-driven invalidation. The event-driven one listens on model signals and invalidates appropriate caches on Model.save(), .delete() and m2m changes.
Invalidation tries to be granular which means it won’t invalidate a queryset that cannot be influenced by added/updated/deleted object judging by query conditions. Most of the time this will do what you want, if it won’t you can use one of the following:
from cacheops import invalidate_obj, invalidate_model, invalidate_all
invalidate_obj(some_article) # invalidates queries affected by some_article
invalidate_model(Article) # invalidates all queries for model
invalidate_all() # flush redis cache database
And last there is invalidate command:
./manage.py invalidate articles.Article.34 # same as invalidate_obj ./manage.py invalidate articles.Article # same as invalidate_model ./manage.py invalidate articles # invalidate all models in articles
And the one that FLUSHES cacheops redis database:
./manage.py invalidate all
Don’t use that if you share redis database for both cache and something else.
Multiple database support
By default cacheops considers query result is same for same query, not depending on database queried. That could be changed with db_agnostic cache profile option:
CACHEOPS = {
'some.model': ('get', TIMEOUT, {'db_agnostic': False}),
# ...
}
Simple time-invalidated cache
To cache result of a function call or a view for some time use:
from cacheops import cached, cached_view
@cached(timeout=number_of_seconds)
def top_articles(category):
return ... # Some costly queries
@cached_view(timeout=number_of_seconds)
def top_articles(request, category=None):
# Some costly queries
return HttpResponse(...)
@cached() will generate separate entry for each combination of decorated function and its arguments. Also you can use extra same way as in @cached_as(), most useful for nested functions:
@property
def articles_json(self):
@cached(timeout=10*60, extra=self.category)
def _articles_json():
...
return json.dumps(...)
return _articles_json()
You can manually invalidate cached function result this way:
top_articles.invalidate(some_category)
Cacheops also provides get/set primitives for simple cache:
from cacheops import cache
cache.set(cache_key, data, timeout=None)
cache.get(cache_key)
cache.delete(cache_key)
cache.get will raise CacheMiss if nothing is stored for given key:
from cacheops import cache, CacheMiss
try:
result = cache.get(key)
except CacheMiss:
... # deal with it
File Cache
File based cache can be used the same way as simple time-invalidated one:
from cacheops import file_cache
@file_cache.cached(timeout=number_of_seconds)
def top_articles(category):
return ... # Some costly queries
@file_cache.cached_view(timeout=number_of_seconds)
def top_articles(request, category):
# Some costly queries
return HttpResponse(...)
# later, on appropriate event
top_articles.invalidate(some_category)
# primitives
file_cache.set(cache_key, data, timeout=None)
file_cache.get(cache_key)
file_cache.delete(cache_key)
It have several improvements upon django built-in file cache, both about high load. First, it is safe against concurrent writes. Second, it’s invalidation is done as separate task, you’ll need to call this from crontab for that to work:
/path/manage.py cleanfilecache
Django templates integration
Cacheops provides tags to cache template fragments for Django 1.4+. They mimic @cached_as and @cached decorators, however, they require explicit naming of each fragment:
{% load cacheops %}
{% cached_as <queryset> <timeout> <fragment_name> [<extra1> <extra2> ...] %}
... some template code ...
{% endcached_as %}
{% cached <timeout> <fragment_name> [<extra1> <extra2> ...] %}
... some template code ...
{% endcached %}
You can use 0 for timeout in @cached_as to use it’s default value for model.
Jinja2 extension
Add cacheops.jinja2.cache to your extensions and use:
{% cached_as <queryset> [, timeout=<timeout>] [, extra=<key addition>] %}
... some template code ...
{% endcached_as %}
or
{% cached [timeout=<timeout>] [, extra=<key addition>] %}
...
{% endcached %}
Tags work the same way as corresponding decorators.
CAVEATS
Conditions other than __exact, __in and __isnull=True don’t make invalidation more granular.
Conditions on TextFields, FileFields and BinaryFields don’t make it either. One should not test on their equality anyway.
Update of “selected_related” object does not invalidate cache for queryset.
Mass updates don’t trigger invalidation.
ORDER BY and LIMIT/OFFSET don’t affect invalidation.
Doesn’t work with RawQuerySet.
Conditions on subqueries don’t affect invalidation.
Doesn’t work right with multi-table inheritance.
Aggregates are not implemented yet.
Here 1, 2, 3, 5 are part of design compromise, trying to solve them will make things complicated and slow. 7 can be implemented if needed, but it’s probably counter-productive since one can just break queries into simpler ones, which cache better. 4 is a deliberate choice, making it “right” will flush cache too much when update conditions are orthogonal to most queries conditions. 6 can be cached as SomeModel.objects.all() but @cached_as() someway covers that and is more flexible. 8 is postponed until it will gain more interest or a champion willing to implement it emerge.
Performance tips
Here come some performance tips to make cacheops and Django ORM faster.
When you use cache you pickle and unpickle lots of django model instances, which could be slow. You can optimize django models serialization with django-pickling.
Constructing querysets is rather slow in django, mainly because most of QuerySet methods clone self, then change it and return a clone. Original queryset is usually thrown away. Cacheops adds .inplace() method, which makes queryset mutating, preventing useless cloning:
items = Item.objects.inplace().filter(category=12).order_by('-date')[:20]
You can revert queryset to cloning state using .cloning() call.
Note that this is a micro-optimization technique. Using it is desirable in most hot places, but not everywhere.
More to 2, there is a bug in django 1.4-, which sometimes makes queryset cloning very slow. You can use any patch from this ticket to fix it.
Use template fragment caching when possible, it’s way more fast because you don’t need to generate anything. Also pickling/unpickling a string is much faster than list of model instances.
Run separate redis instance for cache with disabled persistence. You can manually call SAVE or BGSAVE to stay hot upon server restart.
If you filter queryset on many different or complex conditions cache could degrade performance (comparing to uncached db calls) in consequence of frequent cache misses. Disable cache in such cases entirely or on some heuristics which detect if this request would be probably hit. E.g. enable cache if only some primary fields are used in filter.
Caching querysets with large amount of filters also slows down all subsequent invalidation on that model. You can disable caching if more than some amount of fields is used in filter simultaneously.
Writing a test
Writing a test for an issue you are having can speed up its resolution a lot. Here is how you do that. I am supposing you have some application code causing it.
Make a fork.
Install all from test_requirements.txt.
Ensure you can run tests with ./run_tests.py.
Copy relevant models code to https://github.com/Suor/django-cacheops/blob/master/tests/models.py
Go to https://github.com/Suor/django-cacheops/blob/master/tests/tests.py and paste code causing exception to IssueTests.test_{issue_number}.
Execute ./run_tests.py IssueTests.test_{issue_number} and see it failing.
Cut down model and test code until error disappears and make a step back.
Commit changes and make a pull request.
TODO
add local cache (cleared at the and of request?)
better support transactions
a way to turn off or postpone invalidation
faster .get() handling for simple cases such as get by pk/id, with simple key calculation
integrate with prefetch_related()
fast mode: store cache in local memory, but check in with redis if it’s valid
shard cache between multiple redises
lazy methods on querysets (calculate cache key from methods called)
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