A place to holster mailgun's golang libraries and tools
To use, run the following command:
go get github.com/mailgun/holster/v4
A drop in (almost) replacement for the system time
package to make scheduled
events deterministic in tests. See the clock readme for details
HttpSign is a library for signing and authenticating HTTP requests between web services. See the httpsign readme for details
A distributed election implementation using etcd to coordinate elections See the etcd v3 readme for details
Errors is a fork of https://github.com/pkg/errors with additional functions for improving the relationship between structured logging and error handling in go See the errors readme for details
Waitgroup is a simplification of sync.Waitgroup
with item and error collection included.
Running many short term routines over a collection with .Run()
import "github.com/mailgun/holster/v4/syncutils"
var wg syncutils.WaitGroup
for _, item := range items {
wg.Run(func(item interface{}) error {
// Do some long running thing with the item
fmt.Printf("Item: %+v\n", item.(MyItem))
return nil
}, item)
}
errs := wg.Wait()
if errs != nil {
fmt.Printf("Errs: %+v\n", errs)
}
Clean up long running routines easily with .Loop()
import "github.com/mailgun/holster/v4/syncutils"
pipe := make(chan int32, 0)
var wg syncutils.WaitGroup
var count int32
wg.Loop(func() bool {
select {
case inc, ok := <-pipe:
// If the pipe was closed, return false
if !ok {
return false
}
atomic.AddInt32(&count, inc)
}
return true
})
// Feed the loop some numbers and close the pipe
pipe <- 1
pipe <- 5
pipe <- 10
close(pipe)
// Wait for the loop to exit
wg.Wait()
Loop .Until()
.Stop()
is called
import "github.com/mailgun/holster/v4/syncutils"
var wg syncutils.WaitGroup
wg.Until(func(done chan struct{}) bool {
select {
case <- time.Tick(time.Second):
// Do some periodic thing
case <- done:
return false
}
return true
})
// Close the done channel and wait for the routine to exit
wg.Stop()
FanOut spawns a new go-routine each time .Run()
is called until size
is reached,
subsequent calls to .Run()
will block until previously .Run()
routines have completed.
Allowing the user to control how many routines will run simultaneously. .Wait()
then
collects any errors from the routines once they have all completed. FanOut allows you
to control how many goroutines spawn at a time while WaitGroup will not.
import "github.com/mailgun/holster/v4/syncutils"
// Insert records into the database 10 at a time
fanOut := syncutils.NewFanOut(10)
for _, item := range items {
fanOut.Run(func(cast interface{}) error {
item := cast.(Item)
return db.ExecuteQuery("insert into tbl (id, field) values (?, ?)",
item.Id, item.Field)
}, item)
}
// Collect errors
errs := fanOut.Wait()
if errs != nil {
// do something with errs
}
Implements a Least Recently Used Cache with optional TTL and stats collection
This is a LRU cache based off github.com/golang/groupcache/lru expanded with the following
Peek()
- Get the value without updating the expiration or last used or statsKeys()
- Get a list of keys at this point in timeStats()
- Returns stats about the current state of the cacheAddWithTTL()
- Adds a value to the cache with a expiration timeEach()
- Concurrent non blocking access to each item in the cacheMap()
- Efficient blocking modification to each item in the cache
TTL is evaluated during calls to .Get()
if the entry is past the requested TTL .Get()
removes the entry from the cache counts a miss and returns not ok
import "github.com/mailgun/holster/v4/collections"
cache := collections.NewLRUCache(5000)
go func() {
for {
select {
// Send cache stats every 5 seconds
case <-time.Tick(time.Second * 5):
stats := cache.GetStats()
metrics.Gauge(metrics.Metric("demo", "cache", "size"), int64(stats.Size), 1)
metrics.Gauge(metrics.Metric("demo", "cache", "hit"), stats.Hit, 1)
metrics.Gauge(metrics.Metric("demo", "cache", "miss"), stats.Miss, 1)
}
}
}()
cache.Add("key", "value")
value, ok := cache.Get("key")
for _, key := range cache.Keys() {
value, ok := cache.Get(key)
if ok {
fmt.Printf("Key: %+v Value %+v\n", key, value)
}
}
ExpireCache is a cache which expires entries only after 2 conditions are met
- The Specified TTL has expired
- The item has been processed with ExpireCache.Each()
This is an unbounded cache which guaranties each item in the cache has been processed before removal. This cache is useful if you need an unbounded queue, that can also act like an LRU cache.
Every time an item is touched by .Get()
or .Set()
the duration is
updated which ensures items in frequent use stay in the cache. Processing
the cache with .Each()
can modify the item in the cache without
updating the expiration time by using the .Update()
method.
The cache can also return statistics which can be used to graph cache usage and size.
NOTE: Because this is an unbounded cache, the user MUST process the cache
with .Each()
regularly! Else the cache items will never expire and the cache
will eventually eat all the memory on the system
import "github.com/mailgun/holster/v4/collections"
// How often the cache is processed
syncInterval := time.Second * 10
// In this example the cache TTL is slightly less than the sync interval
// such that before the first sync; items that where only accessed once
// between sync intervals should expire. This technique is useful if you
// have a long syncInterval and are only interested in keeping items
// that where accessed during the sync cycle
cache := collections.NewExpireCache((syncInterval / 5) * 4)
go func() {
for {
select {
// Sync the cache with the database every 10 seconds
// Items in the cache will not be expired until this completes without error
case <-time.Tick(syncInterval):
// Each() uses FanOut() to run several of these concurrently, in this
// example we are capped at running 10 concurrently, Use 0 or 1 if you
// don't need concurrent FanOut
cache.Each(10, func(key interface{}, value interface{}) error {
item := value.(Item)
return db.ExecuteQuery("insert into tbl (id, field) values (?, ?)",
item.Id, item.Field)
})
// Periodically send stats about the cache
case <-time.Tick(time.Second * 5):
stats := cache.GetStats()
metrics.Gauge(metrics.Metric("demo", "cache", "size"), int64(stats.Size), 1)
metrics.Gauge(metrics.Metric("demo", "cache", "hit"), stats.Hit, 1)
metrics.Gauge(metrics.Metric("demo", "cache", "miss"), stats.Miss, 1)
}
}
}()
cache.Add("domain-id", Item{Id: 1, Field: "value"},
item, ok := cache.Get("domain-id")
if ok {
fmt.Printf("%+v\n", item.(Item))
}
Provides a threadsafe time to live map useful for holding a bounded set of key'd values that can expire before being accessed. The expiration of values is calculated when the value is accessed or the map capacity has been reached.
import "github.com/mailgun/holster/v4/collections"
ttlMap := collections.NewTTLMap(10)
clock.Freeze(time.Now())
// Set a value that expires in 5 seconds
ttlMap.Set("one", "one", 5)
// Set a value that expires in 10 seconds
ttlMap.Set("two", "twp", 10)
// Simulate sleeping for 6 seconds
clock.Sleep(time.Second * 6)
// Retrieve the expired value and un-expired value
_, ok1 := ttlMap.Get("one")
_, ok2 := ttlMap.Get("two")
fmt.Printf("value one exists: %t\n", ok1)
fmt.Printf("value two exists: %t\n", ok2)
// Output: value one exists: false
// value two exists: true
These functions assist in determining if values are the golang default and if so, set a value
import "github.com/mailgun/holster/v4/setter"
var value string
// Returns true if 'value' is zero (the default golang value)
setter.IsZero(value)
// Returns true if 'value' is zero (the default golang value)
setter.IsZeroValue(reflect.ValueOf(value))
// If 'dest' is empty or of zero value, assign the default value.
// This panics if the value is not a pointer or if value and
// default value are not of the same type.
var config struct {
Foo string
Bar int
}
setter.SetDefault(&config.Foo, "default")
setter.SetDefault(&config.Bar, 200)
// Supply additional default values and SetDefault will
// choose the first default that is not of zero value
setter.SetDefault(&config.Foo, os.Getenv("FOO"), "default")
// Use 'SetOverride() to assign the first value that is not empty or of zero
// value. The following will override the config file if 'foo' is provided via
// the cli or defined in the environment.
loadFromFile(&config)
argFoo = flag.String("foo", "", "foo via cli arg")
setter.SetOverride(&config.Foo, *argFoo, os.Env("FOO"))
func NewImplementation() MyInterface {
// Type and Value are not nil
var p *MyImplementation = nil
return p
}
thing := NewImplementation()
assert.False(t, thing == nil)
assert.True(t, setter.IsNil(thing))
assert.False(t, setter.IsNil(&MyImplementation{}))
Get a value from an environment variable or return the provided default
import "github.com/mailgun/holster/v4/config"
var conf = sandra.CassandraConfig{
Nodes: []string{config.GetEnv("CASSANDRA_ENDPOINT", "127.0.0.1:9042")},
Keyspace: "test",
}
A set of functions to generate random domain names and strings useful for testing
// Return a random string 10 characters long made up of runes passed
util.RandomRunes("prefix-", 10, util.AlphaRunes, holster.NumericRunes)
// Return a random string 10 characters long made up of Alpha Characters A-Z, a-z
util.RandomAlpha("prefix-", 10)
// Return a random string 10 characters long made up of Alpha and Numeric Characters A-Z, a-z, 0-9
util.RandomString("prefix-", 10)
// Return a random item from the list given
util.RandomItem("foo", "bar", "fee", "bee")
// Return a random domain name in the form "random-numbers.[gov, net, com, ..]"
util.RandomDomainName()
Get the go routine id (useful for logging)
import "github.com/mailgun/holster/v4/callstack"
logrus.Infof("[%d] Info about this go routine", stack.GoRoutineID())
Checks if a given slice of strings contains the provided string. If a modifier func is provided, it is called with the slice item before the comparation.
import "github.com/mailgun/holster/v4/slice"
haystack := []string{"one", "Two", "Three"}
slice.ContainsString("two", haystack, strings.ToLower) // true
slice.ContainsString("two", haystack, nil) // false
Provides a Priority Queue implementation as described here
import "github.com/mailgun/holster/v4/collections"
queue := collections.NewPriorityQueue()
queue.Push(&collections.PQItem{
Value: "thing3",
Priority: 3,
})
queue.Push(&collections.PQItem{
Value: "thing1",
Priority: 1,
})
queue.Push(&collections.PQItem{
Value: "thing2",
Priority: 2,
})
// Pops item off the queue according to the priority instead of the Push() order
item := queue.Pop()
fmt.Printf("Item: %s", item.Value.(string))
// Output: Item: thing1
Allow the user to notify multiple goroutines of an event. This implementation guarantees every goroutine will wake for every broadcast sent. In the event the goroutine falls behind and more broadcasts() are sent than the goroutine has handled the broadcasts are buffered up to 10,000 broadcasts. Once the broadcast buffer limit is reached calls to broadcast() will block until goroutines consuming the broadcasts can catch up.
import "github.com/mailgun/holster/v4/syncutil"
broadcaster := syncutil.NewBroadcaster()
done := make(chan struct{})
var mutex sync.Mutex
var chat []string
// Start some simple chat clients that are responsible for
// sending the contents of the []chat slice to their clients
for i := 0; i < 2; i++ {
go func(idx int) {
var clientIndex int
for {
mutex.Lock()
if clientIndex != len(chat) {
// Pretend we are sending a message to our client via a socket
fmt.Printf("Client [%d] Chat: %s\n", idx, chat[clientIndex])
clientIndex++
mutex.Unlock()
continue
}
mutex.Unlock()
// Wait for more chats to be added to chat[]
select {
case <-broadcaster.WaitChan(string(idx)):
case <-done:
return
}
}
}(i)
}
// Add some chat lines to the []chat slice
for i := 0; i < 5; i++ {
mutex.Lock()
chat = append(chat, fmt.Sprintf("Message '%d'", i))
mutex.Unlock()
// Notify any clients there are new chats to read
broadcaster.Broadcast()
}
// Tell the clients to quit
close(done)
Functional test helper which will run a suite of tests until the entire suite passes, or all attempts have been exhausted.
import (
"github.com/mailgun/holster/v4/testutil"
"github.com/stretchr/testify/require"
"github.com/stretchr/testify/assert"
)
func TestUntilPass(t *testing.T) {
rand.Seed(time.Now().UnixNano())
var value string
ts := httptest.NewServer(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
if r.Method == http.MethodPost {
// Sleep some rand amount to time to simulate some
// async process happening on the server
time.Sleep(time.Duration(rand.Intn(10))*time.Millisecond)
// Set the value
value = r.FormValue("value")
} else {
fmt.Fprintln(w, value)
}
}))
defer ts.Close()
// Start the async process that produces a value on the server
http.PostForm(ts.URL, url.Values{"value": []string{"batch job completed"}})
// Keep running this until the batch job completes or attempts are exhausted
testutil.UntilPass(t, 10, time.Millisecond*100, func(t testutil.TestingT) {
r, err := http.Get(ts.URL)
// use of `require` will abort the current test here and tell UntilPass() to
// run again after 100 milliseconds
require.NoError(t, err)
// Or you can check if the assert returned true or not
if !assert.Equal(t, 200, r.StatusCode) {
return
}
b, err := ioutil.ReadAll(r.Body)
require.NoError(t, err)
assert.Equal(t, "batch job completed\n", string(b))
})
}
Waits until the test can connect to the TCP/HTTP server before continuing the test
import (
"github.com/mailgun/holster/v4/testutil"
"golang.org/x/net/nettest"
"github.com/stretchr/testify/require"
)
func TestUntilConnect(t *testing.T) {
ln, err := nettest.NewLocalListener("tcp")
require.NoError(t, err)
go func() {
cn, err := ln.Accept()
require.NoError(t, err)
cn.Close()
}()
// Wait until we can connect, then continue with the test
testutil.UntilConnect(t, 10, time.Millisecond*100, ln.Addr().String())
}
Retries a function until the function returns error = nil or until the context is deadline is exceeded
ctx, cancel := context.WithTimeout(context.Background(), time.Second*20)
defer cancel()
err := retry.Until(ctx, retry.Interval(time.Millisecond*10), func(ctx context.Context, att int) error {
res, err := http.Get("http://example.com/get")
if err != nil {
return err
}
if res.StatusCode != http.StatusOK {
return errors.New("expected status 200")
}
// Do something with the body
return nil
})
if err != nil {
panic(err)
}
Backoff functions provided
retry.Attempts(10, time.Millisecond*10)
retries up to10
attemptsretry.Interval(time.Millisecond*10)
retries at an interval indefinitely or until context is cancelledretry.ExponentialBackoff{ Min: time.Millisecond, Max: time.Millisecond * 100, Factor: 2}
retries at an exponential backoff interval. Can accept an optionalAttempts
which will limit the number of attempts
Runs a function asynchronously and retries it until it succeeds, or the context is
cancelled or Stop()
is called. This is useful in distributed programming where
you know a remote thing will eventually succeed, but you need to keep trying until
the remote thing succeeds, or we are told to shutdown.
ctx := context.Background()
async := retry.NewRetryAsync()
backOff := &retry.ExponentialBackoff{
Min: time.Millisecond,
Max: time.Millisecond * 100,
Factor: 2,
Attempts: 10,
}
id := createNewEC2("my-new-server")
async.Async(id, ctx, backOff, func(ctx context.Context, i int) error {
// Waits for a new EC2 instance to be created then updates the config and exits
if err := updateInstance(id, mySettings); err != nil {
return err
}
return nil
})
// Wait for all the asyncs to complete
async.Wait()
Tracing tools using OpenTelemetry client SDK and Jaeger Tracing server.
See tracing readme for details.
See package directory ctxutil
.
Use functions ctxutil.WithDeadline()
/WithTimeout()
instead of the context
equivalents to log details of the deadline and source file:line where it was
set. Must enable debug logging.
Please read the Contribution Guidelines before sending patches.