// Copyright (c) HashiCorp, Inc.
// SPDX-License-Identifier: MPL-2.0
package routine
import (
"context"
"sync/atomic"
"testing"
"github.com/hashicorp/consul/sdk/testutil"
"github.com/hashicorp/consul/sdk/testutil/retry"
"github.com/stretchr/testify/require"
)
func TestManager ( t * testing . T ) {
t . Parallel ( )
var runs uint32
var running uint32
mgr := NewManager ( testutil . Logger ( t ) )
run := func ( ctx context . Context ) error {
atomic . StoreUint32 ( & running , 1 )
defer atomic . StoreUint32 ( & running , 0 )
atomic . AddUint32 ( & runs , 1 )
<- ctx . Done ( )
return nil
}
// IsRunning on unregistered service should be false
require . False ( t , mgr . IsRunning ( "not-found" ) )
// start
require . NoError ( t , mgr . Start ( context . Background ( ) , "run" , run ) )
require . True ( t , mgr . IsRunning ( "run" ) )
retry . Run ( t , func ( r * retry . R ) {
require . Equal ( r , uint32 ( 1 ) , atomic . LoadUint32 ( & runs ) )
require . Equal ( r , uint32 ( 1 ) , atomic . LoadUint32 ( & running ) )
} )
doneCh := mgr . Stop ( "run" )
require . NotNil ( t , doneCh )
<- doneCh
// ensure the background go routine was actually cancelled
retry . Run ( t , func ( r * retry . R ) {
require . Equal ( r , uint32 ( 1 ) , atomic . LoadUint32 ( & runs ) )
require . Equal ( r , uint32 ( 0 ) , atomic . LoadUint32 ( & running ) )
} )
// restart and stop
require . NoError ( t , mgr . Start ( context . Background ( ) , "run" , run ) )
retry . Run ( t , func ( r * retry . R ) {
require . Equal ( r , uint32 ( 2 ) , atomic . LoadUint32 ( & runs ) )
require . Equal ( r , uint32 ( 1 ) , atomic . LoadUint32 ( & running ) )
} )
doneCh = mgr . Stop ( "run" )
require . NotNil ( t , doneCh )
<- doneCh
retry . Run ( t , func ( r * retry . R ) {
require . Equal ( r , uint32 ( 0 ) , atomic . LoadUint32 ( & running ) )
} )
// start with a context
ctx , cancel := context . WithCancel ( context . Background ( ) )
require . NoError ( t , mgr . Start ( ctx , "run" , run ) )
cancel ( )
// The function should exit of its own accord due to the parent
// context being canceled
retry . Run ( t , func ( r * retry . R ) {
require . Equal ( r , uint32 ( 3 ) , atomic . LoadUint32 ( & runs ) )
require . Equal ( r , uint32 ( 0 ) , atomic . LoadUint32 ( & running ) )
// the task should automatically set itself to not running if
// it exits early
require . False ( r , mgr . IsRunning ( "run" ) )
} )
}
func TestManager_StopAll ( t * testing . T ) {
t . Parallel ( )
var runs uint32
var running uint32
mgr := NewManager ( testutil . Logger ( t ) )
run := func ( ctx context . Context ) error {
atomic . StoreUint32 ( & running , 1 )
defer atomic . StoreUint32 ( & running , 0 )
atomic . AddUint32 ( & runs , 1 )
<- ctx . Done ( )
return nil
}
require . NoError ( t , mgr . Start ( context . Background ( ) , "run1" , run ) )
require . NoError ( t , mgr . Start ( context . Background ( ) , "run2" , run ) )
mgr . StopAll ( )
retry . Run ( t , func ( r * retry . R ) {
require . False ( r , mgr . IsRunning ( "run1" ) )
require . False ( r , mgr . IsRunning ( "run2" ) )
} )
}
// Test IsRunning when routine is a blocking call that does not
// immediately return when cancelled
func TestManager_StopBlocking ( t * testing . T ) {
t . Parallel ( )
var runs uint32
var running uint32
unblock := make ( chan struct { } ) // To simulate a blocking call
mgr := NewManager ( testutil . Logger ( t ) )
// A routine that will be still running for a while after cancelled
run := func ( ctx context . Context ) error {
atomic . StoreUint32 ( & running , 1 )
defer atomic . StoreUint32 ( & running , 0 )
atomic . AddUint32 ( & runs , 1 )
<- ctx . Done ( )
<- unblock
return nil
}
require . NoError ( t , mgr . Start ( context . Background ( ) , "blocking" , run ) )
retry . Run ( t , func ( r * retry . R ) {
require . True ( r , mgr . IsRunning ( "blocking" ) )
require . Equal ( r , uint32 ( 1 ) , atomic . LoadUint32 ( & runs ) )
require . Equal ( r , uint32 ( 1 ) , atomic . LoadUint32 ( & running ) )
} )
doneCh := mgr . Stop ( "blocking" )
// IsRunning should return false, however &running is still 1
retry . Run ( t , func ( r * retry . R ) {
require . False ( r , mgr . IsRunning ( "blocking" ) )
require . Equal ( r , uint32 ( 1 ) , atomic . LoadUint32 ( & running ) )
} )
// New routine should be able to replace old "cancelled but running" routine.
require . NoError ( t , mgr . Start ( context . Background ( ) , "blocking" , func ( ctx context . Context ) error {
<- ctx . Done ( )
return nil
} ) )
defer mgr . Stop ( "blocking" )
retry . Run ( t , func ( r * retry . R ) {
require . True ( r , mgr . IsRunning ( "blocking" ) ) // New routine
require . Equal ( r , uint32 ( 1 ) , atomic . LoadUint32 ( & running ) ) // Old routine
} )
// Complete the blocking routine
close ( unblock )
<- doneCh
retry . Run ( t , func ( r * retry . R ) {
require . Equal ( r , uint32 ( 0 ) , atomic . LoadUint32 ( & running ) )
} )
}