Kredis (Keyed Redis) encapsulates higher-level types and data structures around a single key, so you can interact with them as coherent objects rather than isolated procedural commands. These higher-level structures can be configured as attributes within Active Models and Active Records using a declarative DSL.
Kredis is configured using env-aware YAML files, using Rails.application.config_for
, so you can locate the data structures on separate Redis instances, if you've reached a scale where a single shared instance is no longer sufficient.
Kredis provides namespacing support for keys such that you can safely run parallel testing against the data structures without different tests trampling each others data.
Kredis provides typed scalars for strings, integers, decimals, floats, booleans, datetimes, and JSON hashes:
string = Kredis.string "mystring"
string.value = "hello world!" # => SET mystring "hello world"
"hello world!" == string.value # => GET mystring
integer = Kredis.integer "myinteger"
integer.value = 5 # => SET myinteger "5"
5 == integer.value # => GET myinteger
decimal = Kredis.decimal "mydecimal" # accuracy!
decimal.value = "%.47f" % (1.0 / 10) # => SET mydecimal "0.10000000000000000555111512312578270211815834045"
BigDecimal("0.10000000000000000555111512312578270211815834045e0") == decimal.value # => GET mydecimal
float = Kredis.float "myfloat" # speed!
float.value = 1.0 / 10 # => SET myfloat "0.1"
0.1 == float.value # => GET myfloat
boolean = Kredis.boolean "myboolean"
boolean.value = true # => SET myboolean "t"
true == boolean.value # => GET myboolean
datetime = Kredis.datetime "mydatetime"
memoized_midnight = Time.zone.now.midnight
datetime.value = memoized_midnight # SET mydatetime "2021-07-27T00:00:00.000000000Z"
memoized_midnight == datetime.value # => GET mydatetime
json = Kredis.json "myjson"
json.value = { "one" => 1, "two" => "2" } # => SET myjson "{\"one\":1,\"two\":\"2\"}"
{ "one" => 1, "two" => "2" } == json.value # => GET myjson
There are data structures for counters, enums, flags, lists, unique lists, sets, and slots:
list = Kredis.list "mylist"
list << "hello world!" # => RPUSH mylist "hello world!"
[ "hello world!" ] == list.elements # => LRANGE mylist 0, -1
integer_list = Kredis.list "myintegerlist", typed: :integer, default: [ 1, 2, 3 ] # => EXISTS? myintegerlist, RPUSH myintegerlist "1" "2" "3"
integer_list.append([ 4, 5, 6 ]) # => RPUSH myintegerlist "4" "5" "6"
integer_list << 7 # => RPUSH myintegerlist "7"
[ 1, 2, 3, 4, 5, 6, 7 ] == integer_list.elements # => LRANGE myintegerlist 0 -1
unique_list = Kredis.unique_list "myuniquelist"
unique_list.append(%w[ 2 3 4 ]) # => LREM myuniquelist 0, "2" + LREM myuniquelist 0, "3" + LREM myuniquelist 0, "4" + RPUSH myuniquelist "2", "3", "4"
unique_list.prepend(%w[ 1 2 3 4 ]) # => LREM myuniquelist 0, "1" + LREM myuniquelist 0, "2" + LREM myuniquelist 0, "3" + LREM myuniquelist 0, "4" + LPUSH myuniquelist "1", "2", "3", "4"
unique_list.append([])
unique_list << "5" # => LREM myuniquelist 0, "5" + RPUSH myuniquelist "5"
unique_list.remove(3) # => LREM myuniquelist 0, "3"
[ "4", "2", "1", "5" ] == unique_list.elements # => LRANGE myuniquelist 0, -1
ordered_set = Kredis.ordered_set "myorderedset"
ordered_set.append(%w[ 2 3 4 ]) # => ZADD myorderedset 1646131025.4953232 2 1646131025.495326 3 1646131025.4953272 4
ordered_set.prepend(%w[ 1 2 3 4 ]) # => ZADD myorderedset -1646131025.4957051 1 -1646131025.495707 2 -1646131025.4957082 3 -1646131025.4957092 4
ordered_set.append([])
ordered_set << "5" # => ZADD myorderedset 1646131025.4960442 5
ordered_set.remove(3) # => ZREM myorderedset 3
[ "4", "2", "1", "5" ] == ordered_set.elements # => ZRANGE myorderedset 0 -1
set = Kredis.set "myset", typed: :datetime
set.add(DateTime.tomorrow, DateTime.yesterday) # => SADD myset "2021-02-03 00:00:00 +0100" "2021-02-01 00:00:00 +0100"
set << DateTime.tomorrow # => SADD myset "2021-02-03 00:00:00 +0100"
2 == set.size # => SCARD myset
[ DateTime.tomorrow, DateTime.yesterday ] == set.members # => SMEMBERS myset
hash = Kredis.hash "myhash"
hash.update("key" => "value", "key2" => "value2") # => HSET myhash "key", "value", "key2", "value2"
{ "key" => "value", "key2" => "value2" } == hash.to_h # => HGETALL myhash
"value2" == hash["key2"] # => HMGET myhash "key2"
%w[ key key2 ] == hash.keys # => HKEYS myhash
%w[ value value2 ] == hash.values # => HVALS myhash
hash.remove # => DEL myhash
high_scores = Kredis.hash "high_scores", typed: :integer
high_scores.update(space_invaders: 100, pong: 42) # HSET high_scores "space_invaders", "100", "pong", "42"
%w[ space_invaders pong ] == high_scores.keys # HKEYS high_scores
[ 100, 42 ] == high_scores.values # HVALS high_scores
{ "space_invaders" => 100, "pong" => 42 } == high_scores.to_h # HGETALL high_scores
head_count = Kredis.counter "headcount"
0 == head_count.value # => GET "headcount"
head_count.increment # => SET headcount 0 NX + INCRBY headcount 1
head_count.increment # => SET headcount 0 NX + INCRBY headcount 1
head_count.decrement # => SET headcount 0 NX + DECRBY headcount 1
1 == head_count.value # => GET "headcount"
counter = Kredis.counter "mycounter", expires_in: 5.seconds
counter.increment by: 2 # => SET mycounter 0 EX 5 NX + INCRBY "mycounter" 2
2 == counter.value # => GET "mycounter"
sleep 6.seconds
0 == counter.value # => GET "mycounter"
cycle = Kredis.cycle "mycycle", values: %i[ one two three ]
:one == cycle.value # => GET mycycle
cycle.next # => GET mycycle + SET mycycle 1
:two == cycle.value # => GET mycycle
cycle.next # => GET mycycle + SET mycycle 2
:three == cycle.value # => GET mycycle
cycle.next # => GET mycycle + SET mycycle 0
:one == cycle.value # => GET mycycle
enum = Kredis.enum "myenum", values: %w[ one two three ], default: "one"
"one" == enum.value # => GET myenum
true == enum.one? # => GET myenum
enum.value = "two" # => SET myenum "two"
"two" == enum.value # => GET myenum
enum.three! # => SET myenum "three"
"three" == enum.value # => GET myenum
enum.value = "four"
"three" == enum.value # => GET myenum
enum.reset # => DEL myenum
"one" == enum.value # => GET myenum
slots = Kredis.slots "myslots", available: 3
true == slots.available? # => GET myslots
slots.reserve # => INCR myslots
true == slots.available? # => GET myslots
slots.reserve # => INCR myslots
true == slots.available? # => GET myslots
slots.reserve # => INCR myslots
false == slots.available? # => GET myslots
slots.reserve # => INCR myslots + DECR myslots
false == slots.available? # => GET myslots
slots.release # => DECR myslots
true == slots.available? # => GET myslots
slots.reset # => DEL myslots
slot = Kredis.slot "myslot"
true == slot.available? # => GET myslot
slot.reserve # => INCR myslot
false == slot.available? # => GET myslot
slot.release # => DECR myslot
true == slot.available? # => GET myslot
slot.reset # => DEL myslot
flag = Kredis.flag "myflag"
false == flag.marked? # => EXISTS myflag
flag.mark # => SET myflag 1
true == flag.marked? # => EXISTS myflag
flag.remove # => DEL myflag
false == flag.marked? # => EXISTS myflag
true == flag.mark(expires_in: 1.second, force: false) #=> SET myflag 1 EX 1 NX
false == flag.mark(expires_in: 10.seconds, force: false) #=> SET myflag 10 EX 1 NX
true == flag.marked? #=> EXISTS myflag
sleep 0.5.seconds
true == flag.marked? #=> EXISTS myflag
sleep 0.6.seconds
false == flag.marked? #=> EXISTS myflag
You can use all these structures in models:
class Person < ApplicationRecord
kredis_list :names
kredis_list :names_with_custom_key_via_lambda, key: ->(p) { "person:#{p.id}:names_customized" }
kredis_list :names_with_custom_key_via_method, key: :generate_names_key
kredis_unique_list :skills, limit: 2
kredis_enum :morning, values: %w[ bright blue black ], default: "bright"
kredis_counter :steps, expires_in: 1.hour
private
def generate_names_key
"key-generated-from-private-method"
end
end
person = Person.find(5)
person.names.append "David", "Heinemeier", "Hansson" # => RPUSH people:5:names "David" "Heinemeier" "Hansson"
true == person.morning.bright? # => GET people:5:morning
person.morning.value = "blue" # => SET people:5:morning
true == person.morning.blue? # => GET people:5:morning
You can set a default value for all types. For example:
list = Kredis.list "favorite_colors", default: [ "red", "green", "blue" ]
# or, in a model
class Person < ApplicationRecord
kredis_string :name, default: "Unknown"
kredis_list :favorite_colors, default: [ "red", "green", "blue" ]
end
There's a performance overhead to consider though. When you first read or write an attribute in a model, Kredis will check if the underlying Redis key exists, while watching for concurrent changes, and if it does not, write the specified default value.
This means that using default values in a typical Rails app additional Redis calls (WATCH, EXISTS, UNWATCH) will be executed for each Kredis attribute with a default value read or written during a request.
You can also define after_change
callbacks that trigger on mutations:
class Person < ApplicationRecord
kredis_list :names, after_change: ->(p) { }
kredis_unique_list :skills, limit: 2, after_change: :skillset_changed
def skillset_changed
end
end
And using structures on a different than the default shared
redis instance, relying on config/redis/secondary.yml
:
one_string = Kredis.string "mystring"
two_string = Kredis.string "mystring", config: :secondary
one_string.value = "just on shared"
two_string.value != one_string.value
- Run
./bin/bundle add kredis
- Run
./bin/rails kredis:install
to add a default configuration atconfig/redis/shared.yml
Additional configurations can be added under config/redis/*.yml
and referenced when a type is created. For example, Kredis.string("mystring", config: :strings)
would lookup config/redis/strings.yml
.
Kredis passes the configuration to Redis.new
to establish the connection. See the Redis documentation for other configuration options.
Kredis works with Redis server 4.0+, with the Redis Ruby client version 4.2+.
If you need to connect to Redis with SSL, the recommended approach is to set your Redis instance manually by adding an entry to the Kredis::Connections.connections
hash. Below an example showing how to connect to Redis using Client Authentication:
Kredis::Connections.connections[:shared] = Redis.new(
url: ENV["REDIS_URL"],
ssl_params: {
cert_store: OpenSSL::X509::Store.new.tap { |store|
store.add_file(Rails.root.join("config", "ca_cert.pem").to_s)
},
cert: OpenSSL::X509::Certificate.new(File.read(
Rails.root.join("config", "client.crt")
)),
key: OpenSSL::PKey::RSA.new(
Rails.application.credentials.redis[:client_key]
),
verify_mode: OpenSSL::SSL::VERIFY_PEER
}
)
The above code could be added to either config/environments/production.rb
or an initializer. Please ensure that your client private key, if used, is stored your credentials file or another secure location.
You can configure how the redis client is created by setting config.kredis.connector
in your application.rb
:
config.kredis.connector = ->(config) { SomeRedisProxy.new(config) }
By default Kredis will use Redis.new(config)
.
A development console is available by running bin/console
.
From there, you can experiment with Kredis. e.g.
>> str = Kredis.string "mystring"
Kredis (0.1ms) Connected to shared
=>
#<Kredis::Types::Scalar:0x0000000134c7d938
...
>> str.value = "hello, world"
Kredis Proxy (2.4ms) SET mystring ["hello, world"]
=> "hello, world"
>> str.value
Run tests with bin/test
.
debug
can be used in the development console and in the test suite by inserting a
breakpoint, e.g. debugger
.
Kredis is released under the MIT License.