Nebulex adapter for Redis (including Redis Cluster support).
This adapter uses Redix; a Redis driver for Elixir.
The adapter supports different configurations modes which are explained in the next sections.
See also online documentation and Redis cache example.
Add :nebulex_redis_adapter
to your list of dependencies in mix.exs
:
defp deps do
[
{:nebulex_redis_adapter, "~> 2.3"},
{:crc, "~> 0.10"}, #=> Needed when using Redis Cluster
{:jchash, "~> 0.1.4"} #=> Needed when using consistent-hashing
]
end
The adapter dependencies are optional to give more flexibility and loading only needed ones. For example:
:crc
- Required when using the adapter in mode:redis_cluster
. See Redis Cluster.:jchash
- Required if you want to use consistent-hashing when using the adapter in mode:client_side_cluster
.
Then run mix deps.get
to fetch the dependencies.
After installing, we can define our cache to use Redis adapter as follows:
defmodule MyApp.RedisCache do
use Nebulex.Cache,
otp_app: :my_app,
adapter: NebulexRedisAdapter
end
The rest of Redis configuration is set in our application environment, usually
defined in your config/config.exs
:
config :my_app, MyApp.RedisCache,
conn_opts: [
# Redix options
host: "127.0.0.1",
port: 6379
]
Since this adapter is implemented by means of Redix
, it inherits the same
options, including regular Redis options and connection options as well. For
more information about the options, please check out NebulexRedisAdapter
module and also Redix.
See also Redis cache example.
There are different ways to support distributed caching when using NebulexRedisAdapter.
Redis Cluster is a built-in feature in Redis since version 3,
and it may be the most convenient and recommendable way to set up Redis in a
cluster and have a distributed cache storage out-of-box. This adapter provides
the :redis_cluster
mode to set up Redis Cluster from the client-side
automatically and be able to use it transparently.
First of all, ensure you have Redis Cluster configured and running.
Then we can define our cache which will use Redis Cluster:
defmodule MyApp.RedisClusterCache do
use Nebulex.Cache,
otp_app: :my_app,
adapter: NebulexRedisAdapter
end
The config:
config :my_app, MyApp.RedisClusterCache,
# Enable redis_cluster mode
mode: :redis_cluster,
# For :redis_cluster mode this option must be provided
redis_cluster: [
# Configuration endpoints
# This is where the client will connect and send the "CLUSTER SHARDS"
# (Redis >= 7) or "CLUSTER SLOTS" (Redis < 7) command to get the cluster
# information and set it up on the client side.
configuration_endpoints: [
endpoint1_conn_opts: [
host: "127.0.0.1",
port: 6379,
# Add the password if 'requirepass' is on
password: "password"
]
]
]
The pool of connections to the different master nodes is automatically configured by the adapter once it gets the cluster slots info.
This one could be the easiest and recommended way for distributed caching using Redis and NebulexRedisAdapter.
NebulexRedisAdapter also brings with a simple client-side cluster implementation based on Sharding distribution model.
We define our cache normally:
defmodule MyApp.ClusteredCache do
use Nebulex.Cache,
otp_app: :my_app,
adapter: NebulexRedisAdapter
end
The config:
config :my_app, MyApp.ClusteredCache,
# Enable client-side cluster mode
mode: :client_side_cluster,
# For :client_side_cluster mode this option must be provided
client_side_cluster: [
# Nodes config (each node has its own options)
nodes: [
node1: [
# Node pool size
pool_size: 10,
# Redix options to establish the pool of connections against this node
conn_opts: [
host: "127.0.0.1",
port: 9001
]
],
node2: [
pool_size: 4,
conn_opts: [
url: "redis://127.0.0.1:9002"
]
],
node3: [
conn_opts: [
host: "127.0.0.1",
port: 9003
]
]
# Maybe more ...
]
]
By default, the adapter uses NebulexRedisAdapter.ClientCluster.Keyslot
for the
keyslot. Besides, if :jchash
is defined as dependency, the adapter will use
consistent-hashing automatically.
NOTE: It is highly recommended to define the
:jchash
dependency when using the adapter in:client_side_cluster
mode.
However, you can also provide your own implementation by implementing the
Nebulex.Adapter.Keyslot
and set it into the :keyslot
option. For example:
defmodule MyApp.ClusteredCache.Keyslot do
use Nebulex.Adapter.Keyslot
@impl true
def hash_slot(key, range) do
# your implementation goes here
end
end
And the config:
config :my_app, MyApp.ClusteredCache,
# Enable client-side cluster mode
mode: :client_side_cluster,
client_side_cluster: [
# Provided Keyslot implementation
keyslot: MyApp.ClusteredCache.Keyslot,
# Nodes config (each node has its own options)
nodes: [
...
]
]
Another simple option is to use the Nebulex.Adapters.Partitioned
and set as
local cache the NebulexRedisAdapter
. The idea here is each Elixir node running
the distributed cache (Nebulex.Adapters.Partitioned
) will have as local
backend or cache a Redis instance (handled by NebulexRedisAdapter
).
This example shows how the setup a distributed cache using
Nebulex.Adapters.Partitioned
and NebulexRedisAdapter
:
defmodule MyApp.DistributedCache do
use Nebulex.Cache,
otp_app: :my_app,
adapter: Nebulex.Adapters.Partitioned,
primary_storage_adapter: NebulexRedisAdapter
end
The other option is to use a proxy, like Envoy proxy or Twemproxy on top of Redis. In this case, the proxy does the distribution work, and from the adparter's side (NebulexRedisAdapter), it would be only configuration. Instead of connect the adapter against the Redis nodes, we connect it against the proxy nodes, this means, in the config, we setup the pool with the host and port pointing to the proxy.
Since NebulexRedisAdapter
works on top of Redix
and provides features like
connection pools and "Redis Cluster" support, it may be seen also as a sort of
Redis client, but it is meant to be used mainly with the Nebulex cache API.
However, Redis API is quite extensive and there are a lot of useful commands
we may want to run taking advantage of the NebulexRedisAdapter
features.
Therefore, the adapter injects two additional/extended functions to the
defined cache: command!/2
and pipeline!/2
.
iex> MyCache.command!(["LPUSH", "mylist", "world"], key: "mylist")
1
iex> MyCache.command!(["LPUSH", "mylist", "hello"], key: "mylist")
2
iex> MyCache.command!(["LRANGE", "mylist", "0", "-1"], key: "mylist")
["hello", "world"]
iex> [
...> ["LPUSH", "mylist", "world"],
...> ["LPUSH", "mylist", "hello"],
...> ["LRANGE", "mylist", "0", "-1"]
...> ]
...> |> cache.pipeline!(key: "mylist")
[1, 2, ["hello", "world"]]
NOTE: The key
is required when used the adapter in mode
:client_side_cluster
or :redis_cluster
. For :standalone
is not required
(optional). And the name
is in case you are using a dynamic cache and
you have to pass the cache name explicitly.
To run the NebulexRedisAdapter tests you will have to have Redis running locally. NebulexRedisAdapter requires a complex setup for running tests (since it needs a few instances running, for standalone, cluster and Redis Cluster). For this reason, there is a docker-compose.yml file in the repo so that you can use Docker and docker-compose to spin up all the necessary Redis instances with just one command. Make sure you have Docker installed and then just run:
$ docker-compose up
Since NebulexRedisAdapter
uses the support modules and shared tests
from Nebulex
and by default its test folder is not included in the Hex
dependency, the following steps are required for running the tests.
First of all, make sure you set the environment variable NEBULEX_PATH
to nebulex
:
export NEBULEX_PATH=nebulex
Second, make sure you fetch :nebulex
dependency directly from GtiHub
by running:
mix nbx.setup
Third, fetch deps:
mix deps.get
Finally, you can run the tests:
mix test
Running tests with coverage:
mix coveralls.html
You will find the coverage report within cover/excoveralls.html
.
Benchmarks were added using benchee; to learn more, see the benchmarks directory.
To run the benchmarks:
$ MIX_ENV=test mix run benchmarks/benchmark.exs
Benchmarks use default Redis options (
host: "127.0.0.1", port: 6379
).
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) 2018, Carlos Bolaños.
NebulexRedisAdapter source code is licensed under the MIT License.