In-memory and distributed caching toolkit for Elixir.
Nebulex provides support for transparently adding caching into an existing Elixir application. Similar to Ecto, the caching abstraction allows consistent use of various caching solutions with minimal impact on the code.
Nebulex cache abstraction shields developers from directly dealing with the underlying caching implementations, such as Redis, Memcached, or even other Elixir cache implementations like Cachex. Additionally, it provides totally out-of-box features such as cache usage patterns, declarative annotation-based caching, and distributed cache topologies, among others.
See the getting started guide and the online documentation for more information.
You need to add nebulex
as a dependency to your mix.exs
file. However, in
the case you want to use an external (a non built-in adapter) cache adapter,
you also have to add the proper dependency to your mix.exs
file.
The supported caches and their adapters are:
Cache | Nebulex Adapter | Dependency |
---|---|---|
Generational Local Cache | Nebulex.Adapters.Local | Built-In |
Partitioned | Nebulex.Adapters.Partitioned | Built-In |
Replicated | Nebulex.Adapters.Replicated | Built-In |
Multilevel | Nebulex.Adapters.Multilevel | Built-In |
Nil (special adapter that disables the cache) | Nebulex.Adapters.Nil | Built-In |
Cachex | Nebulex.Adapters.Cachex | nebulex_adapters_cachex |
Redis | NebulexRedisAdapter | nebulex_redis_adapter |
Distributed with Horde | Nebulex.Adapters.Horde | nebulex_adapters_horde |
Multilevel with cluster broadcasting | NebulexLocalMultilevelAdapter | nebulex_local_multilevel_adapter |
Ecto Postgres table | Nebulex.Adapters.Ecto | nebulex_adapters_ecto |
For example, if you want to use a built-in cache, add to your mix.exs
file:
def deps do
[
{:nebulex, "~> 2.5"},
{:shards, "~> 1.1"}, #=> When using :shards as backend
{:decorator, "~> 1.4"}, #=> When using Caching Annotations
{:telemetry, "~> 1.0"} #=> When using the Telemetry events (Nebulex stats)
]
end
In order to give more flexibility and fetch only needed dependencies, Nebulex makes all dependencies optional. For example:
-
For intensive workloads, you may want to use
:shards
as the backend for the local adapter and having partitioned tables. In such a case, you have to add:shards
to the dependency list. -
For enabling the usage of declarative annotation-based caching via decorators, you have to add
:decorator
to the dependency list. -
For enabling Telemetry events to be dispatched when using Nebulex, you have to add
:telemetry
to the dependency list. See telemetry guide. -
If you want to use an external adapter (e.g: Cachex or Redis adapter), you have to add the adapter dependency too.
Then run mix deps.get
in your shell to fetch the dependencies. If you want to
use another cache adapter, just choose the proper dependency from the table
above.
Finally, in the cache definition, you will need to specify the adapter:
respective to the chosen dependency. For the local built-in cache it is:
defmodule MyApp.Cache do
use Nebulex.Cache,
otp_app: :my_app,
adapter: Nebulex.Adapters.Local
end
Assuming you are using Ecto
and you want to use declarative caching:
# In the config/config.exs file
config :my_app, MyApp.PartitionedCache,
primary: [
gc_interval: :timer.hours(12),
backend: :shards,
partitions: 2
]
# Defining a Cache with a partitioned topology
defmodule MyApp.PartitionedCache do
use Nebulex.Cache,
otp_app: :my_app,
adapter: Nebulex.Adapters.Partitioned,
primary_storage_adapter: Nebulex.Adapters.Local
end
# Some Ecto schema
defmodule MyApp.Accounts.User do
use Ecto.Schema
schema "users" do
field(:username, :string)
field(:password, :string)
field(:role, :string)
end
def changeset(user, attrs) do
user
|> cast(attrs, [:username, :password, :role])
|> validate_required([:username, :password, :role])
end
end
# The Accounts context
defmodule MyApp.Accounts do
use Nebulex.Caching
alias MyApp.Accounts.User
alias MyApp.PartitionedCache, as: Cache
alias MyApp.Repo
@ttl :timer.hours(1)
@decorate cacheable(cache: Cache, key: {User, id}, opts: [ttl: @ttl])
def get_user!(id) do
Repo.get!(User, id)
end
@decorate cacheable(cache: Cache, key: {User, username}, opts: [ttl: @ttl])
def get_user_by_username(username) do
Repo.get_by(User, [username: username])
end
@decorate cache_put(
cache: Cache,
keys: [{User, user.id}, {User, user.username}],
match: &match_update/1,
opts: [ttl: @ttl]
)
def update_user(%User{} = user, attrs) do
user
|> User.changeset(attrs)
|> Repo.update()
end
@decorate cache_evict(
cache: Cache,
keys: [{User, user.id}, {User, user.username}]
)
def delete_user(%User{} = user) do
Repo.delete(user)
end
def create_user(attrs \\ %{}) do
%User{}
|> User.changeset(attrs)
|> Repo.insert()
end
defp match_update({:ok, value}), do: {true, value}
defp match_update({:error, _}), do: false
end
See more Nebulex examples.
- Getting Started
- Documentation
- Cache Usage Patterns
- Instrumenting the Cache with Telemetry
- Migrating to v2.x
- Examples
Testing by default spawns nodes internally for distributed tests. To run tests
that do not require clustering, exclude the clustered
tag:
$ mix test --exclude clustered
If you have issues running the clustered tests try running:
$ epmd -daemon
before running the tests.
Nebulex provides a set of basic benchmark tests using the library benchee, and they are located within the directory benchmarks.
To run a benchmark test you have to run:
$ MIX_ENV=test mix run benchmarks/{BENCH_TEST_FILE}
Where BENCH_TEST_FILE
can be any of:
local_with_ets_bench.exs
: benchmark for the local adapter using:ets
backend.local_with_shards_bench.exs
: benchmark for the local adapter using:shards
backend.partitioned_bench.exs
: benchmark for the partitioned adapter.
For example, for running the benchmark for the local adapter using :shards
backend:
$ MIX_ENV=test mix run benchmarks/local_with_shards_bench.exs
Additionally, you can also run performance tests using :basho_bench
.
See nebulex_bench example
for more information.
Contributions to Nebulex are very welcome and appreciated!
Use the issue tracker for bug reports or feature requests. Open a pull request when you are ready to contribute.
When submitting a pull request you should not update the CHANGELOG.md, and also make sure you test your changes thoroughly, include unit tests alongside new or changed code.
Before to submit a PR it is highly recommended to run mix check
and ensure
all checks run successfully.
Copyright (c) 2017, Carlos Bolaños.
Nebulex source code is licensed under the MIT License.