Awesome
clusteredBigCache
This is a library based on bigcache with some modifications to support
- clustering and
- individual item expiration
Bigcache is an excellent piece of software but the fact that items could only expire based on a predefined value was not just too appealing. Bigcache had to be modified to support individual expiration of items using a single timer. This happens by you specifying a time value as you add items to the cache. Running two or more instances of an application that would require some level of caching would normally default to memcache or redis which are external applications adding to the mix of services required for your application to run.
With clusteredBigCache there is no requirement to run an external application to provide caching for multiple instances of your application. The library handles caching as well as clustering the caches between multiple instances of your application providing you with simple library APIs (by just calling functions) to store and get your values.
With clusteredBigCache, when you store a value in one instance of your application and every other instance or any other application for that matter that you configure to form/join your "cluster" will see that exact same value.
Installing
Using go get
$ go get github.com/oaStuff/clusteredBigCache
Samples 1
This is the application responsible for storing data into the cache
package main
import (
"fmt"
"bufio"
"os"
"github.com/oaStuff/clusteredBigCache/Cluster"
"strings"
"time"
)
//
//main function
//
func main() {
fmt.Println("starting...")
cache := clusteredBigCache.New(clusteredBigCache.DefaultClusterConfig(), nil)
count := 1
cache.Start()
reader := bufio.NewReader(os.Stdin)
var data string
for strings.ToLower(data) != "exit" {
fmt.Print("enter data : ")
data, _ = reader.ReadString('\n')
data = strings.TrimSpace(data)
err := cache.Put(fmt.Sprintf("key_%d", count), []byte(data), time.Minute * 60)
if err != nil {
panic(err)
}
fmt.Printf("'%s' stored under key 'key_%d'\n", data, count)
count++
}
}
Explanation:
The above application captures data from the keyboard and stores them inside clusteredBigCache starting with keys 'key_1', 'key_2'...'key_n'. As the user types and presses the enter key the data is stored in the cache.
cache := clusteredBigCache.New(clusteredBigCache.DefaultClusterConfig(), nil)
This statement will create the cache using the default configuration. This configuration has default
values for LocalPort = 9911, Join = false amongst others. If you intend to use this library for applications
that will run on the same machine, you will have to give unique values for LocalPort
cache.Start()
This must be called before using any other method on this cache.
err := cache.Put(fmt.Sprintf("key_%d", count), []byte(data), time.Minute * 60)
. You set values in the cache
giving it a key, the data as a []byte
slice and the expiration or time to live (ttl) for that key/value within the cache.
When the key/value pair reaches its expiration time, they are removed automatically.
Samples 2
This is the application responsible for reading data of the cache. This can be run on the same or different machine on the network.
package main
import (
"github.com/oaStuff/clusteredBigCache/Cluster"
"bufio"
"os"
"strings"
"fmt"
"time"
)
//
//
func main() {
config := clusteredBigCache.DefaultClusterConfig()
config.LocalPort = 8888
config.Join = true
config.JoinIp = "127.0.0.1:9911"
cache := clusteredBigCache.New(config, nil)
err := cache.Start()
if err != nil {
panic(err)
}
reader := bufio.NewReader(os.Stdin)
var data string
for strings.ToLower(data) != "exit" {
fmt.Print("enter key : ")
data, _ = reader.ReadString('\n')
data = strings.TrimSpace(data)
value, err := cache.Get(data, time.Millisecond * 160)
if err != nil {
fmt.Println(err)
continue
}
fmt.Printf("you got '%s' from the cache\n", value)
}
}
Explanation:
The above application reads a string from the keyboard which should represent a key for a value in clusteredBigCache. If a user enters the corresponding keys shown in sample1 above ('key_1', 'key_2'...'key_n'), the corresponding values will be returned.
config := clusteredBigCache.DefaultClusterConfig()
config.LocalPort = 8888
config.Join = true
config.JoinIp = "127.0.0.1:9911"
cache := clusteredBigCache.New(config, nil)
err := cache.Start()
The above uses the default configuration to create a config and modifies what it actually needs.
config.LocalPort = 8888
has to be changed since this application will run on the same machine with the sample1
application. This is to avoid 'port already in use' errors.
config.Join = true
. For an application to join another
application or applications using clusteredBigCache, it must set config.Join value to true and set config.JoinIP
to
the IP address of one of the systems using clusteredBigCache eg config.Join = "127.0.0.1:9911
. This example says that this application
wants to join another application using clusteredBigCache at IP address 127.0.0.1 and port number 9911.
cache := clusteredBigCache.New(config, nil)
creates the cache and cache.Start()
must be called to start everything running.
NB
After cache.Start()
is called the library tries to connect to the specified IP address using the specified port.
When successfully connected, it create a cluster of applications using clusteredBigCache as a single cache. ie all applications connected will see every value
every application sets in the cache.
Sample way to parse config in an app
join := flag.String("join", "", "ipAddr:port number of remote server")
localPort := flag.Int("port", 6060, "local server port to bind to")
flag.Parse()
config := clusteredBigCache.DefaultClusterConfig()
if *join != "" {
config.JoinIp = *join
config.Join = true
}
config.LocalPort = *localPort
Your application could pass parameters to it in any form and make use of them in configuring clusteredBigCache. The
above sample just only catered for join
and localport
. If you want network connections between machine to be reconnected
in the event of a disconnection, you will have to set config.ReconnectOnDisconnect = true
.
Logging within the library
clusteredBigCache takes a second parameter is its New() function for logging. This function expects an interface of
type AppLogger interface {
Info(msg string)
Warn(msg string)
Critical(msg string)
Error(msg string)
}
You could easily just wrap any logger within a struct
and provide this interface method for that struct and simple
delegate calls to the underlining logger or better still just wrap a logger function to provide the interface like example bellow
type myLogger func(...interface{})
func (log myLogger) Info(msg string) {
log(msg)
}
func (log myLogger) Warn(msg string) {
log(msg)
}
func (log myLogger) Error(msg string) {
log(msg)
}
func (log myLogger) Critical(msg string) {
log(msg)
}
cache := clusteredBigCache.New(config, myLogger(log.Println))
Using Passive client
Passive client are nodes in the clusteredBigCache network that do not store any data locally but functions all the same
like every other node. To create a passive client you simply call clusteredBigCache.NewPassiveClient("linux_box_100","localhost:9090", 8885, 0, 0, 0, nil)
This will connect to an existing cluster at address localhost:9090 and join the cluster. the linux_box_100 is the node's id.
This can be an empty string if you want an auto generated id. Every other function can be performed
on the returned object.
credits
Core cache system from bigcache
Data structures from emirpasic
LICENSE
MIT.