cache tools with async power
Project description
CASHEWS 🥔
Async cache utils with simple api to build fast and reliable applications
pip install cashews
Why
Cache plays significant role in modern applications and everybody wanna use all power of async programming and cache.. There are a few advance techniques with cache and async programming that can help you to build simple, fast, scalable and reliable applications. Caches
Features
- Decorator base api, just decorate and play
- Cache invalidation by time, 'ttl' is a required parameter to avoid storage overflow and endless cache
- Support Multi backend (Memory, Redis)
- Can cache any objects securely with pickle (use hash key).
- Simple configuring and API
- cache invalidation avtosystem and API
- Cache usage detection API
- Client Side cache
- Stats for usage
API
- simple cache
- fail cache
- hit-rate cache
- perf-rate cache
- rate-limit
- cache with early expiration/rebuilding
- lock
- circuit
- api for key storage/backend
- auto invalidation
- detect cache usage
Usage
Configure
Cache object is a single object that can be configured in one place by url::
from cashews import cache
cache.setup("redis://0.0.0.0/?db=1&create_connection_timeout=0.5&safe=0&hash_key=my_sicret&enable=1")
# or
cache.setup("mem://", prefix="fail:user") # for inmemory cache
cache.setup("redis://0.0.0.0/", db=1, create_connection_timeout=0.5, safe=False, hash_key=b"my_key", enable=True)
if you dont like global objects or prefer more manageable way you can work with cache class
from cashews import Cache
cache = Cache()
cache.setup("mem://?size=500")
You can disable cache by 'enable' parameter:
cache.setup("redis://redis/0?enable=1")
cache.setup("mem://?size=500", enable=False)
cache.setup("://", prefix="early")
cache.setup("redis://redis?enable=True")
Also read about dynamic disabling at simple cache section
Backends
Memory
Store values in a LRU dict with given size (default 1000). Check expiration on 'get' and periodically purge expired keys
cache.setup("mem://")
cache.setup("mem://?check_interval=10&size=10000")
Redis
Required aioredis package
Store values in a redis key-value storage. Use 'safe' parameter to avoid raising any connection errors, command will return None in this case.
This backend use pickle to store values, but the cashes can store values with sha1 keyed hash.
So you should set 'hash_key' parameter to protect your application from security vulnerabilities.
You can set parameters for redis pool by backend setup
Also if you would like to use client side cache set client_side=True
cache.setup("redis://0.0.0.0/?db=1&minsize=10&safe=0&hash_key=my_secret", prefix="func")
cache.setup("redis://0.0.0.0/?db=2", hash_key=None, prefix="super", index_name="user", index_field="user_uid")
cache.setup("redis://0.0.0.0/", db=1, password="my_pass", create_connection_timeout=0.1, safe=1, hash_key="my_secret", client_side=True)
Simple cache
Typical cache strategy: execute, store and return cached value till expiration::
from cashews import cache
from datetime import timedelta
@cache(ttl=timedelta(hours=3), key="user:{request.user.uid}")
async def long_running_function(request):
...
Fail cache (Failover cache)
Return cache result (at list 1 call of function call should be succeed) if call raised one of the given exceptions,
from cashews import cache # or from cashews import fail
@cache.fail(ttl=timedelta(hours=2), exceptions=(ValueError, MyException)) # the key will be "__module__.get_status:name:{name}"
async def get_status(name):
value = await api_call()
return {"status": value}
Hit cache
Cache call results and drop cache after given numbers of call 'cache_hits'
from cashews import cache # or from cashews import hit
@cache.hit(ttl=timedelta(hours=2), cache_hits=100, update_before=2)
async def get(name):
...
Performance downgrade detection
Trace time execution of target and throw exception if it downgrade to given condition
from cashews import cache # or from cashews import perf
@cache.perf(ttl=timedelta(hours=2))
async def get(name):
value = await api_call()
return {"status": value}
Locked
Decorator that can help you to solve Cache stampede problem (https://en.wikipedia.org/wiki/Cache_stampede), Lock following function calls till first one will be finished Can guarantee that one function call for given ttl
from cashews import cache # or from cashews import locked
@cache.locked(ttl=timedelta(minutes=10))
async def get(name):
value = await api_call()
return {"status": value}
Early
Cache strategy that try to solve Cache stampede problem (https://en.wikipedia.org/wiki/Cache_stampede), With a hot cache recalculate a result in a background
from cashews import cache # or from cashews import early
@cache.early(ttl=timedelta(minutes=10), early_ttl=timedelta(minutes=7)) # if you call this function after 7 min, cache will be updated in a background
async def get(name):
value = await api_call()
return {"status": value}
Rate limit
Rate limit for function call. Do not call function if rate limit is reached, and call given action
from cashews import cache # or from cashews import rate_limit
# no more then 10 calls per minute or ban for 10 minutes
@cache.rate_limit(limit=10, period=timedelta(minutes=1), ttl=timedelta(minutes=10))
async def get(name):
return {"status": value}
Circuit breaker
Circuit breaker
from cashews import cache # or from cashews import rate_limit
@cache.circuit_breaker(errors_rate=10, period=timedelta(minutes=1), ttl=timedelta(minutes=5))
async def get(name):
...
Basic api
There are 13 basic methods to work with key-storage:
from cashews import cache
cache.setup("mem://")
await cache.set(key="key", value={"any": True}, expire=60, exist=None) # -> bool
await cache.get("key") # -> Any
await cache.get_many("key1", "key2")
await cache.incr("key") # -> int
await cache.delete("key")
await cache.expire("key", timeout=10)
await cache.get_expire("key") # -> int seconds to expire
await cache.ping(message=None) # -> bytes
await cache.clear()
await cache.is_locked("key", wait=60) # -> bool
async with cache.lock("key", expire=10):
...
await cache.set_lock("key", value="value", expire=60) # -> bool
await cache.unlock("key", "value") # -> bool
Invalidation
Cache invalidation - on of the main Computer Science well known problem. That's why ttl
is a required parameter for all cache decorators
Another strategy to cache invalidation implement in next api:
from cashews import cache
from datetime import timedelta
@cache(ttl=timedelta(days=1))
async def user_items(user_id, fresh=False):
...
@cache(ttl=timedelta(hours=3))
async def items(page=1):
...
@cache.invalidate("module:items:page:*") # the same as @cache.invalidate(items)
@cache.invalidate(user_items, {"user_id": lambda user: user.id}, defaults={"fresh": True})
async def create_item(user):
...
Also you may face problem with invalid cache arising on code changing. For example we have:
@cache(ttl=timedelta(days=1), key="user:{user_id}")
async def get_user(user_id):
return {"name": "Dmitry", "surname": "Krykov"}
Than we did changes
- return {"name": "Dmitry", "surname": "Krykov"}
+ return {"full_name": "Dmitry Krykov"}
There is no way simple way to automatically detect that kind of cache invalidity, because it is a dict. Certainly we can add prefix for this cache:
@cache(ttl=timedelta(days=1), prefix="v2")
async def get_user(user_id):
return {"full_name": "Dmitry Krykov"}
but usually we forget to do it...
The best defense against such errors is to use objects like dataclasses
for operating with structures,
it adds distinctness and cashews
can detect changes in this structure automatically by checking representation (repr) of object.
So you can you use your own datacontainer with defined __repr__
method that rise AttributeError
:
from dataclasses import dataclass
@dataclass()
class User:
name: str
surname: str
# OR
class User:
def __init__(self, name, surname):
self.name, self.surname = name, surname
def __repr__(self):
return f"{self.name} {self.surname}"
# Will detect changes of structure
@cache(ttl=timedelta(days=1), prefix="v2")
async def get_user(user_id):
return User("Dima", "Krykov")
Detect source of a result
Decorators give to us very simple api but it makes difficult to understand what led to this result - cache or direct call To solve this problem cashews have a next API:
from cashews import context_cache_detect
with context_cache_detect as detector:
response = await decorated_function()
keys = detector.get()
print(keys)
# >>> {"my:key": [{"ttl": 10, "name": "simple", "backend": "redis"}, ], "fail:key": [{"ttl": timedelta(hours=10), "exc": RateLimit}, "name": "fail", "backend": "mem"],}
# OR
from cashews import CacheDetect
cache_detect = CacheDetect()
await func(_from_cache=cache_detect)
assert cache_detect.keys == {}
await func(_from_cache=cache_detect)
assert len(cache_detect.keys) == 1
You can use it in your web app:
@app.middleware("http")
async def add_from_cache_headers(request: Request, call_next):
with context_cache_detect as detector:
response = await call_next(request)
if detector.keys:
key = list(detector.keys.keys())[0]
response.headers["X-From-Cache"] = key
expire = await mem.get_expire(key)
if expire == -1:
expire = await cache.get_expire(key)
response.headers["X-From-Cache-Expire-In-Seconds"] = str(expire)
if "exc" in detector.keys[key]:
response.headers["X-From-Cache-Exc"] = str(detector.keys[key]["exc"])
return response
https://www.datadoghq.com/blog/how-to-monitor-redis-performance-metrics/
- Redis with https://github.com/NoneGG/aredis
Project details
Release history Release notifications | RSS feed
Download files
Download the file for your platform. If you're not sure which to choose, learn more about installing packages.
Source Distribution
Built Distribution
File details
Details for the file cashews-2.9.1.tar.gz
.
File metadata
- Download URL: cashews-2.9.1.tar.gz
- Upload date:
- Size: 35.8 kB
- Tags: Source
- Uploaded using Trusted Publishing? No
- Uploaded via: twine/3.2.0 pkginfo/1.5.0.1 requests/2.24.0 setuptools/47.3.1 requests-toolbelt/0.9.1 tqdm/4.47.0 CPython/3.8.3
File hashes
Algorithm | Hash digest | |
---|---|---|
SHA256 | ec6a33a5cd15fb20203b4191b7ffb64fa1e8d18a7aaf1c14bb8e4c2781e1099d |
|
MD5 | 346c7547c270d80d360d63b3097b410f |
|
BLAKE2b-256 | 08cf6b4e5ffa7fe54b17190645a4e9f6138395339797864f3a3ffe727cb3f477 |
File details
Details for the file cashews-2.9.1-py3-none-any.whl
.
File metadata
- Download URL: cashews-2.9.1-py3-none-any.whl
- Upload date:
- Size: 45.8 kB
- Tags: Python 3
- Uploaded using Trusted Publishing? No
- Uploaded via: twine/3.2.0 pkginfo/1.5.0.1 requests/2.24.0 setuptools/47.3.1 requests-toolbelt/0.9.1 tqdm/4.47.0 CPython/3.8.3
File hashes
Algorithm | Hash digest | |
---|---|---|
SHA256 | 75817ce2f085b59c5feff9ae03e18483432a4cf11875e8f9e46216287850d382 |
|
MD5 | d9e3bd705fb74668419101025cc152fd |
|
BLAKE2b-256 | 405f6d1c2215f7eb4d947a8c8f4340d86ce0ee4ff2c7f485ee862f0740463d78 |