* routine: fix that acl stops replicating after regaining leadership (#12295) * routine: add TestManager_StopBlocking (#12295) * routine: update TestManager_StopBlocking (#12295)
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@ -10,8 +10,13 @@ import (
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type Routine func(ctx context.Context) error
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// cancelCh is the ctx.Done()
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// When cancel() is called, if the routine is running a blocking call (e.g. some ACL replication RPCs),
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// stoppedCh won't be closed till the blocking call returns, while cancelCh will be closed immediately.
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// cancelCh is used to properly detect routine running status between cancel() and close(stoppedCh)
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type routineTracker struct {
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cancel context.CancelFunc
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cancelCh <-chan struct{} // closed when ctx is done
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stoppedCh chan struct{} // closed when no longer running
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}
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@ -19,6 +24,8 @@ func (r *routineTracker) running() bool {
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select {
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case <-r.stoppedCh:
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return false
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case <-r.cancelCh:
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return false
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default:
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return true
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}
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@ -74,6 +81,7 @@ func (m *Manager) Start(ctx context.Context, name string, routine Routine) error
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rtCtx, cancel := context.WithCancel(ctx)
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instance := &routineTracker{
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cancel: cancel,
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cancelCh: ctx.Done(),
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stoppedCh: make(chan struct{}),
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}
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@ -97,10 +105,14 @@ func (m *Manager) execute(ctx context.Context, name string, routine Routine, don
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"error", err,
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)
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} else {
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m.logger.Debug("stopped routine", "routine", name)
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m.logger.Info("stopped routine", "routine", name)
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}
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}
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// Caveat: The returned stoppedCh indicates that the routine is completed
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// It's possible that ctx is canceled, but stoppedCh not yet closed
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// Use mgr.IsRunning(name) than this stoppedCh to tell whether the
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// instance is still running (not cancelled or completed).
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func (m *Manager) Stop(name string) <-chan struct{} {
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instance := m.stopInstance(name)
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if instance == nil {
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@ -127,7 +139,7 @@ func (m *Manager) stopInstance(name string) *routineTracker {
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return instance
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}
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m.logger.Debug("stopping routine", "routine", name)
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m.logger.Info("stopping routine", "routine", name)
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instance.cancel()
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delete(m.routines, name)
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@ -145,7 +157,7 @@ func (m *Manager) StopAll() {
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if !routine.running() {
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continue
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}
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m.logger.Debug("stopping routine", "routine", name)
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m.logger.Info("stopping routine", "routine", name)
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routine.cancel()
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}
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}
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@ -99,3 +99,58 @@ func TestManager_StopAll(t *testing.T) {
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require.False(r, mgr.IsRunning("run2"))
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})
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}
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// Test IsRunning when routine is a blocking call that does not
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// immediately return when cancelled
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func TestManager_StopBlocking(t *testing.T) {
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t.Parallel()
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var runs uint32
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var running uint32
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unblock := make(chan struct{}) // To simulate a blocking call
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mgr := NewManager(testutil.Logger(t))
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// A routine that will be still running for a while after cancelled
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run := func(ctx context.Context) error {
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atomic.StoreUint32(&running, 1)
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defer atomic.StoreUint32(&running, 0)
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atomic.AddUint32(&runs, 1)
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<-ctx.Done()
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<-unblock
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return nil
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}
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require.NoError(t, mgr.Start(context.Background(), "blocking", run))
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retry.Run(t, func(r *retry.R) {
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require.True(r, mgr.IsRunning("blocking"))
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require.Equal(r, uint32(1), atomic.LoadUint32(&runs))
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require.Equal(r, uint32(1), atomic.LoadUint32(&running))
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})
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doneCh := mgr.Stop("blocking")
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// IsRunning should return false, however &running is still 1
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retry.Run(t, func(r *retry.R) {
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require.False(r, mgr.IsRunning("blocking"))
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require.Equal(r, uint32(1), atomic.LoadUint32(&running))
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})
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// New routine should be able to replace old "cancelled but running" routine.
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require.NoError(t, mgr.Start(context.Background(), "blocking", func(ctx context.Context) error {
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<-ctx.Done()
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return nil
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}))
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defer mgr.Stop("blocking")
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retry.Run(t, func(r *retry.R) {
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require.True(r, mgr.IsRunning("blocking")) // New routine
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require.Equal(r, uint32(1), atomic.LoadUint32(&running)) // Old routine
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})
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// Complete the blocking routine
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close(unblock)
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<-doneCh
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retry.Run(t, func(r *retry.R) {
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require.Equal(r, uint32(0), atomic.LoadUint32(&running))
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})
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}
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