package deploymentwatcher import ( "fmt" "testing" "time" memdb "github.com/hashicorp/go-memdb" "github.com/hashicorp/nomad/helper" "github.com/hashicorp/nomad/helper/uuid" "github.com/hashicorp/nomad/nomad/mock" "github.com/hashicorp/nomad/nomad/structs" "github.com/hashicorp/nomad/testutil" "github.com/stretchr/testify/assert" mocker "github.com/stretchr/testify/mock" "github.com/stretchr/testify/require" ) func testDeploymentWatcher(t *testing.T, qps float64, batchDur time.Duration) (*Watcher, *mockBackend) { m := newMockBackend(t) w := NewDeploymentsWatcher(testLogger(), m, qps, batchDur) return w, m } func defaultTestDeploymentWatcher(t *testing.T) (*Watcher, *mockBackend) { return testDeploymentWatcher(t, LimitStateQueriesPerSecond, CrossDeploymentUpdateBatchDuration) } // Tests that the watcher properly watches for deployments and reconciles them func TestWatcher_WatchDeployments(t *testing.T) { t.Parallel() assert := assert.New(t) w, m := defaultTestDeploymentWatcher(t) // Create three jobs j1, j2, j3 := mock.Job(), mock.Job(), mock.Job() assert.Nil(m.state.UpsertJob(100, j1)) assert.Nil(m.state.UpsertJob(101, j2)) assert.Nil(m.state.UpsertJob(102, j3)) // Create three deployments all running d1, d2, d3 := mock.Deployment(), mock.Deployment(), mock.Deployment() d1.JobID = j1.ID d2.JobID = j2.ID d3.JobID = j3.ID // Upsert the first deployment assert.Nil(m.state.UpsertDeployment(103, d1)) // Next list 3 block1 := make(chan time.Time) go func() { <-block1 assert.Nil(m.state.UpsertDeployment(104, d2)) assert.Nil(m.state.UpsertDeployment(105, d3)) }() //// Next list 3 but have one be terminal block2 := make(chan time.Time) d3terminal := d3.Copy() d3terminal.Status = structs.DeploymentStatusFailed go func() { <-block2 assert.Nil(m.state.UpsertDeployment(106, d3terminal)) }() w.SetEnabled(true, m.state) testutil.WaitForResult(func() (bool, error) { return 1 == len(w.watchers), nil }, func(err error) { assert.Equal(1, len(w.watchers), "1 deployment returned") }) close(block1) testutil.WaitForResult(func() (bool, error) { return 3 == len(w.watchers), nil }, func(err error) { assert.Equal(3, len(w.watchers), "3 deployment returned") }) close(block2) testutil.WaitForResult(func() (bool, error) { return 2 == len(w.watchers), nil }, func(err error) { assert.Equal(3, len(w.watchers), "3 deployment returned - 1 terminal") }) } // Tests that calls against an unknown deployment fail func TestWatcher_UnknownDeployment(t *testing.T) { t.Parallel() assert := assert.New(t) w, m := defaultTestDeploymentWatcher(t) w.SetEnabled(true, m.state) // The expected error is that it should be an unknown deployment dID := uuid.Generate() expected := fmt.Sprintf("unknown deployment %q", dID) // Request setting the health against an unknown deployment req := &structs.DeploymentAllocHealthRequest{ DeploymentID: dID, HealthyAllocationIDs: []string{uuid.Generate()}, } var resp structs.DeploymentUpdateResponse err := w.SetAllocHealth(req, &resp) if assert.NotNil(err, "should have error for unknown deployment") { assert.Contains(err.Error(), expected) } // Request promoting against an unknown deployment req2 := &structs.DeploymentPromoteRequest{ DeploymentID: dID, All: true, } err = w.PromoteDeployment(req2, &resp) if assert.NotNil(err, "should have error for unknown deployment") { assert.Contains(err.Error(), expected) } // Request pausing against an unknown deployment req3 := &structs.DeploymentPauseRequest{ DeploymentID: dID, Pause: true, } err = w.PauseDeployment(req3, &resp) if assert.NotNil(err, "should have error for unknown deployment") { assert.Contains(err.Error(), expected) } // Request failing against an unknown deployment req4 := &structs.DeploymentFailRequest{ DeploymentID: dID, } err = w.FailDeployment(req4, &resp) if assert.NotNil(err, "should have error for unknown deployment") { assert.Contains(err.Error(), expected) } } // Test setting an unknown allocation's health func TestWatcher_SetAllocHealth_Unknown(t *testing.T) { t.Parallel() assert := assert.New(t) w, m := defaultTestDeploymentWatcher(t) // Create a job, and a deployment j := mock.Job() d := mock.Deployment() d.JobID = j.ID assert.Nil(m.state.UpsertJob(m.nextIndex(), j), "UpsertJob") assert.Nil(m.state.UpsertDeployment(m.nextIndex(), d), "UpsertDeployment") // Assert that we get a call to UpsertDeploymentAllocHealth a := mock.Alloc() matchConfig := &matchDeploymentAllocHealthRequestConfig{ DeploymentID: d.ID, Healthy: []string{a.ID}, Eval: true, } matcher := matchDeploymentAllocHealthRequest(matchConfig) m.On("UpdateDeploymentAllocHealth", mocker.MatchedBy(matcher)).Return(nil) w.SetEnabled(true, m.state) testutil.WaitForResult(func() (bool, error) { return 1 == len(w.watchers), nil }, func(err error) { assert.Equal(1, len(w.watchers), "Should have 1 deployment") }) // Call SetAllocHealth req := &structs.DeploymentAllocHealthRequest{ DeploymentID: d.ID, HealthyAllocationIDs: []string{a.ID}, } var resp structs.DeploymentUpdateResponse err := w.SetAllocHealth(req, &resp) if assert.NotNil(err, "Set health of unknown allocation") { assert.Contains(err.Error(), "unknown") } assert.Equal(1, len(w.watchers), "Deployment should still be active") } // Test setting allocation health func TestWatcher_SetAllocHealth_Healthy(t *testing.T) { t.Parallel() assert := assert.New(t) w, m := defaultTestDeploymentWatcher(t) // Create a job, alloc, and a deployment j := mock.Job() d := mock.Deployment() d.JobID = j.ID a := mock.Alloc() a.DeploymentID = d.ID assert.Nil(m.state.UpsertJob(m.nextIndex(), j), "UpsertJob") assert.Nil(m.state.UpsertDeployment(m.nextIndex(), d), "UpsertDeployment") assert.Nil(m.state.UpsertAllocs(m.nextIndex(), []*structs.Allocation{a}), "UpsertAllocs") // Assert that we get a call to UpsertDeploymentAllocHealth matchConfig := &matchDeploymentAllocHealthRequestConfig{ DeploymentID: d.ID, Healthy: []string{a.ID}, Eval: true, } matcher := matchDeploymentAllocHealthRequest(matchConfig) m.On("UpdateDeploymentAllocHealth", mocker.MatchedBy(matcher)).Return(nil) w.SetEnabled(true, m.state) testutil.WaitForResult(func() (bool, error) { return 1 == len(w.watchers), nil }, func(err error) { assert.Equal(1, len(w.watchers), "Should have 1 deployment") }) // Call SetAllocHealth req := &structs.DeploymentAllocHealthRequest{ DeploymentID: d.ID, HealthyAllocationIDs: []string{a.ID}, } var resp structs.DeploymentUpdateResponse err := w.SetAllocHealth(req, &resp) assert.Nil(err, "SetAllocHealth") assert.Equal(1, len(w.watchers), "Deployment should still be active") m.AssertCalled(t, "UpdateDeploymentAllocHealth", mocker.MatchedBy(matcher)) } // Test setting allocation unhealthy func TestWatcher_SetAllocHealth_Unhealthy(t *testing.T) { t.Parallel() assert := assert.New(t) w, m := defaultTestDeploymentWatcher(t) // Create a job, alloc, and a deployment j := mock.Job() d := mock.Deployment() d.JobID = j.ID a := mock.Alloc() a.DeploymentID = d.ID assert.Nil(m.state.UpsertJob(m.nextIndex(), j), "UpsertJob") assert.Nil(m.state.UpsertDeployment(m.nextIndex(), d), "UpsertDeployment") assert.Nil(m.state.UpsertAllocs(m.nextIndex(), []*structs.Allocation{a}), "UpsertAllocs") // Assert that we get a call to UpsertDeploymentAllocHealth matchConfig := &matchDeploymentAllocHealthRequestConfig{ DeploymentID: d.ID, Unhealthy: []string{a.ID}, Eval: true, DeploymentUpdate: &structs.DeploymentStatusUpdate{ DeploymentID: d.ID, Status: structs.DeploymentStatusFailed, StatusDescription: structs.DeploymentStatusDescriptionFailedAllocations, }, } matcher := matchDeploymentAllocHealthRequest(matchConfig) m.On("UpdateDeploymentAllocHealth", mocker.MatchedBy(matcher)).Return(nil) w.SetEnabled(true, m.state) testutil.WaitForResult(func() (bool, error) { return 1 == len(w.watchers), nil }, func(err error) { assert.Equal(1, len(w.watchers), "Should have 1 deployment") }) // Call SetAllocHealth req := &structs.DeploymentAllocHealthRequest{ DeploymentID: d.ID, UnhealthyAllocationIDs: []string{a.ID}, } var resp structs.DeploymentUpdateResponse err := w.SetAllocHealth(req, &resp) assert.Nil(err, "SetAllocHealth") testutil.WaitForResult(func() (bool, error) { return 0 == len(w.watchers), nil }, func(err error) { assert.Equal(0, len(w.watchers), "Should have no deployment") }) m.AssertNumberOfCalls(t, "UpdateDeploymentAllocHealth", 1) } // Test setting allocation unhealthy and that there should be a rollback func TestWatcher_SetAllocHealth_Unhealthy_Rollback(t *testing.T) { t.Parallel() assert := assert.New(t) w, m := defaultTestDeploymentWatcher(t) // Create a job, alloc, and a deployment j := mock.Job() j.TaskGroups[0].Update = structs.DefaultUpdateStrategy.Copy() j.TaskGroups[0].Update.MaxParallel = 2 j.TaskGroups[0].Update.AutoRevert = true j.TaskGroups[0].Update.ProgressDeadline = 0 j.Stable = true d := mock.Deployment() d.JobID = j.ID d.TaskGroups["web"].AutoRevert = true a := mock.Alloc() a.DeploymentID = d.ID assert.Nil(m.state.UpsertJob(m.nextIndex(), j), "UpsertJob") assert.Nil(m.state.UpsertDeployment(m.nextIndex(), d), "UpsertDeployment") assert.Nil(m.state.UpsertAllocs(m.nextIndex(), []*structs.Allocation{a}), "UpsertAllocs") // Upsert the job again to get a new version j2 := j.Copy() j2.Stable = false // Modify the job to make its specification different j2.Meta["foo"] = "bar" assert.Nil(m.state.UpsertJob(m.nextIndex(), j2), "UpsertJob2") // Assert that we get a call to UpsertDeploymentAllocHealth matchConfig := &matchDeploymentAllocHealthRequestConfig{ DeploymentID: d.ID, Unhealthy: []string{a.ID}, Eval: true, DeploymentUpdate: &structs.DeploymentStatusUpdate{ DeploymentID: d.ID, Status: structs.DeploymentStatusFailed, StatusDescription: structs.DeploymentStatusDescriptionFailedAllocations, }, JobVersion: helper.Uint64ToPtr(0), } matcher := matchDeploymentAllocHealthRequest(matchConfig) m.On("UpdateDeploymentAllocHealth", mocker.MatchedBy(matcher)).Return(nil) w.SetEnabled(true, m.state) testutil.WaitForResult(func() (bool, error) { return 1 == len(w.watchers), nil }, func(err error) { assert.Equal(1, len(w.watchers), "Should have 1 deployment") }) // Call SetAllocHealth req := &structs.DeploymentAllocHealthRequest{ DeploymentID: d.ID, UnhealthyAllocationIDs: []string{a.ID}, } var resp structs.DeploymentUpdateResponse err := w.SetAllocHealth(req, &resp) assert.Nil(err, "SetAllocHealth") testutil.WaitForResult(func() (bool, error) { return 0 == len(w.watchers), nil }, func(err error) { assert.Equal(0, len(w.watchers), "Should have no deployment") }) m.AssertNumberOfCalls(t, "UpdateDeploymentAllocHealth", 1) } // Test setting allocation unhealthy on job with identical spec and there should be no rollback func TestWatcher_SetAllocHealth_Unhealthy_NoRollback(t *testing.T) { t.Parallel() assert := assert.New(t) w, m := defaultTestDeploymentWatcher(t) // Create a job, alloc, and a deployment j := mock.Job() j.TaskGroups[0].Update = structs.DefaultUpdateStrategy.Copy() j.TaskGroups[0].Update.MaxParallel = 2 j.TaskGroups[0].Update.AutoRevert = true j.TaskGroups[0].Update.ProgressDeadline = 0 j.Stable = true d := mock.Deployment() d.JobID = j.ID d.TaskGroups["web"].AutoRevert = true a := mock.Alloc() a.DeploymentID = d.ID assert.Nil(m.state.UpsertJob(m.nextIndex(), j), "UpsertJob") assert.Nil(m.state.UpsertDeployment(m.nextIndex(), d), "UpsertDeployment") assert.Nil(m.state.UpsertAllocs(m.nextIndex(), []*structs.Allocation{a}), "UpsertAllocs") // Upsert the job again to get a new version j2 := j.Copy() j2.Stable = false assert.Nil(m.state.UpsertJob(m.nextIndex(), j2), "UpsertJob2") // Assert that we get a call to UpsertDeploymentAllocHealth matchConfig := &matchDeploymentAllocHealthRequestConfig{ DeploymentID: d.ID, Unhealthy: []string{a.ID}, Eval: true, DeploymentUpdate: &structs.DeploymentStatusUpdate{ DeploymentID: d.ID, Status: structs.DeploymentStatusFailed, StatusDescription: structs.DeploymentStatusDescriptionFailedAllocations, }, JobVersion: nil, } matcher := matchDeploymentAllocHealthRequest(matchConfig) m.On("UpdateDeploymentAllocHealth", mocker.MatchedBy(matcher)).Return(nil) w.SetEnabled(true, m.state) testutil.WaitForResult(func() (bool, error) { return 1 == len(w.watchers), nil }, func(err error) { assert.Equal(1, len(w.watchers), "Should have 1 deployment") }) // Call SetAllocHealth req := &structs.DeploymentAllocHealthRequest{ DeploymentID: d.ID, UnhealthyAllocationIDs: []string{a.ID}, } var resp structs.DeploymentUpdateResponse err := w.SetAllocHealth(req, &resp) assert.Nil(err, "SetAllocHealth") testutil.WaitForResult(func() (bool, error) { return 0 == len(w.watchers), nil }, func(err error) { assert.Equal(0, len(w.watchers), "Should have no deployment") }) m.AssertNumberOfCalls(t, "UpdateDeploymentAllocHealth", 1) } // Test promoting a deployment func TestWatcher_PromoteDeployment_HealthyCanaries(t *testing.T) { t.Parallel() assert := assert.New(t) w, m := defaultTestDeploymentWatcher(t) // Create a job, canary alloc, and a deployment j := mock.Job() j.TaskGroups[0].Update = structs.DefaultUpdateStrategy.Copy() j.TaskGroups[0].Update.MaxParallel = 2 j.TaskGroups[0].Update.Canary = 1 j.TaskGroups[0].Update.ProgressDeadline = 0 d := mock.Deployment() d.JobID = j.ID a := mock.Alloc() d.TaskGroups[a.TaskGroup].DesiredCanaries = 1 d.TaskGroups[a.TaskGroup].PlacedCanaries = []string{a.ID} a.DeploymentStatus = &structs.AllocDeploymentStatus{ Healthy: helper.BoolToPtr(true), } a.DeploymentID = d.ID assert.Nil(m.state.UpsertJob(m.nextIndex(), j), "UpsertJob") assert.Nil(m.state.UpsertDeployment(m.nextIndex(), d), "UpsertDeployment") assert.Nil(m.state.UpsertAllocs(m.nextIndex(), []*structs.Allocation{a}), "UpsertAllocs") // Assert that we get a call to UpsertDeploymentPromotion matchConfig := &matchDeploymentPromoteRequestConfig{ Promotion: &structs.DeploymentPromoteRequest{ DeploymentID: d.ID, All: true, }, Eval: true, } matcher := matchDeploymentPromoteRequest(matchConfig) m.On("UpdateDeploymentPromotion", mocker.MatchedBy(matcher)).Return(nil) // We may get an update for the desired transition. m1 := matchUpdateAllocDesiredTransitions([]string{d.ID}) m.On("UpdateAllocDesiredTransition", mocker.MatchedBy(m1)).Return(nil).Once() w.SetEnabled(true, m.state) testutil.WaitForResult(func() (bool, error) { return 1 == len(w.watchers), nil }, func(err error) { assert.Equal(1, len(w.watchers), "Should have 1 deployment") }) // Call PromoteDeployment req := &structs.DeploymentPromoteRequest{ DeploymentID: d.ID, All: true, } var resp structs.DeploymentUpdateResponse err := w.PromoteDeployment(req, &resp) assert.Nil(err, "PromoteDeployment") assert.Equal(1, len(w.watchers), "Deployment should still be active") m.AssertCalled(t, "UpdateDeploymentPromotion", mocker.MatchedBy(matcher)) } // Test promoting a deployment with unhealthy canaries func TestWatcher_PromoteDeployment_UnhealthyCanaries(t *testing.T) { t.Parallel() assert := assert.New(t) w, m := defaultTestDeploymentWatcher(t) // Create a job, canary alloc, and a deployment j := mock.Job() j.TaskGroups[0].Update = structs.DefaultUpdateStrategy.Copy() j.TaskGroups[0].Update.MaxParallel = 2 j.TaskGroups[0].Update.Canary = 2 j.TaskGroups[0].Update.ProgressDeadline = 0 d := mock.Deployment() d.JobID = j.ID a := mock.Alloc() d.TaskGroups[a.TaskGroup].PlacedCanaries = []string{a.ID} d.TaskGroups[a.TaskGroup].DesiredCanaries = 2 a.DeploymentID = d.ID assert.Nil(m.state.UpsertJob(m.nextIndex(), j), "UpsertJob") assert.Nil(m.state.UpsertDeployment(m.nextIndex(), d), "UpsertDeployment") assert.Nil(m.state.UpsertAllocs(m.nextIndex(), []*structs.Allocation{a}), "UpsertAllocs") // Assert that we get a call to UpsertDeploymentPromotion matchConfig := &matchDeploymentPromoteRequestConfig{ Promotion: &structs.DeploymentPromoteRequest{ DeploymentID: d.ID, All: true, }, Eval: true, } matcher := matchDeploymentPromoteRequest(matchConfig) m.On("UpdateDeploymentPromotion", mocker.MatchedBy(matcher)).Return(nil) w.SetEnabled(true, m.state) testutil.WaitForResult(func() (bool, error) { return 1 == len(w.watchers), nil }, func(err error) { assert.Equal(1, len(w.watchers), "Should have 1 deployment") }) // Call SetAllocHealth req := &structs.DeploymentPromoteRequest{ DeploymentID: d.ID, All: true, } var resp structs.DeploymentUpdateResponse err := w.PromoteDeployment(req, &resp) if assert.NotNil(err, "PromoteDeployment") { assert.Contains(err.Error(), `Task group "web" has 0/2 healthy allocations`, "Should error because canary isn't marked healthy") } assert.Equal(1, len(w.watchers), "Deployment should still be active") m.AssertCalled(t, "UpdateDeploymentPromotion", mocker.MatchedBy(matcher)) } // Test pausing a deployment that is running func TestWatcher_PauseDeployment_Pause_Running(t *testing.T) { t.Parallel() assert := assert.New(t) w, m := defaultTestDeploymentWatcher(t) // Create a job and a deployment j := mock.Job() d := mock.Deployment() d.JobID = j.ID assert.Nil(m.state.UpsertJob(m.nextIndex(), j), "UpsertJob") assert.Nil(m.state.UpsertDeployment(m.nextIndex(), d), "UpsertDeployment") // Assert that we get a call to UpsertDeploymentStatusUpdate matchConfig := &matchDeploymentStatusUpdateConfig{ DeploymentID: d.ID, Status: structs.DeploymentStatusPaused, StatusDescription: structs.DeploymentStatusDescriptionPaused, } matcher := matchDeploymentStatusUpdateRequest(matchConfig) m.On("UpdateDeploymentStatus", mocker.MatchedBy(matcher)).Return(nil) w.SetEnabled(true, m.state) testutil.WaitForResult(func() (bool, error) { return 1 == len(w.watchers), nil }, func(err error) { assert.Equal(1, len(w.watchers), "Should have 1 deployment") }) // Call PauseDeployment req := &structs.DeploymentPauseRequest{ DeploymentID: d.ID, Pause: true, } var resp structs.DeploymentUpdateResponse err := w.PauseDeployment(req, &resp) assert.Nil(err, "PauseDeployment") assert.Equal(1, len(w.watchers), "Deployment should still be active") m.AssertCalled(t, "UpdateDeploymentStatus", mocker.MatchedBy(matcher)) } // Test pausing a deployment that is paused func TestWatcher_PauseDeployment_Pause_Paused(t *testing.T) { t.Parallel() assert := assert.New(t) w, m := defaultTestDeploymentWatcher(t) // Create a job and a deployment j := mock.Job() d := mock.Deployment() d.JobID = j.ID d.Status = structs.DeploymentStatusPaused assert.Nil(m.state.UpsertJob(m.nextIndex(), j), "UpsertJob") assert.Nil(m.state.UpsertDeployment(m.nextIndex(), d), "UpsertDeployment") // Assert that we get a call to UpsertDeploymentStatusUpdate matchConfig := &matchDeploymentStatusUpdateConfig{ DeploymentID: d.ID, Status: structs.DeploymentStatusPaused, StatusDescription: structs.DeploymentStatusDescriptionPaused, } matcher := matchDeploymentStatusUpdateRequest(matchConfig) m.On("UpdateDeploymentStatus", mocker.MatchedBy(matcher)).Return(nil) w.SetEnabled(true, m.state) testutil.WaitForResult(func() (bool, error) { return 1 == len(w.watchers), nil }, func(err error) { assert.Equal(1, len(w.watchers), "Should have 1 deployment") }) // Call PauseDeployment req := &structs.DeploymentPauseRequest{ DeploymentID: d.ID, Pause: true, } var resp structs.DeploymentUpdateResponse err := w.PauseDeployment(req, &resp) assert.Nil(err, "PauseDeployment") assert.Equal(1, len(w.watchers), "Deployment should still be active") m.AssertCalled(t, "UpdateDeploymentStatus", mocker.MatchedBy(matcher)) } // Test unpausing a deployment that is paused func TestWatcher_PauseDeployment_Unpause_Paused(t *testing.T) { t.Parallel() assert := assert.New(t) w, m := defaultTestDeploymentWatcher(t) // Create a job and a deployment j := mock.Job() d := mock.Deployment() d.JobID = j.ID d.Status = structs.DeploymentStatusPaused assert.Nil(m.state.UpsertJob(m.nextIndex(), j), "UpsertJob") assert.Nil(m.state.UpsertDeployment(m.nextIndex(), d), "UpsertDeployment") // Assert that we get a call to UpsertDeploymentStatusUpdate matchConfig := &matchDeploymentStatusUpdateConfig{ DeploymentID: d.ID, Status: structs.DeploymentStatusRunning, StatusDescription: structs.DeploymentStatusDescriptionRunning, Eval: true, } matcher := matchDeploymentStatusUpdateRequest(matchConfig) m.On("UpdateDeploymentStatus", mocker.MatchedBy(matcher)).Return(nil) w.SetEnabled(true, m.state) testutil.WaitForResult(func() (bool, error) { return 1 == len(w.watchers), nil }, func(err error) { assert.Equal(1, len(w.watchers), "Should have 1 deployment") }) // Call PauseDeployment req := &structs.DeploymentPauseRequest{ DeploymentID: d.ID, Pause: false, } var resp structs.DeploymentUpdateResponse err := w.PauseDeployment(req, &resp) assert.Nil(err, "PauseDeployment") assert.Equal(1, len(w.watchers), "Deployment should still be active") m.AssertCalled(t, "UpdateDeploymentStatus", mocker.MatchedBy(matcher)) } // Test unpausing a deployment that is running func TestWatcher_PauseDeployment_Unpause_Running(t *testing.T) { t.Parallel() assert := assert.New(t) w, m := defaultTestDeploymentWatcher(t) // Create a job and a deployment j := mock.Job() d := mock.Deployment() d.JobID = j.ID assert.Nil(m.state.UpsertJob(m.nextIndex(), j), "UpsertJob") assert.Nil(m.state.UpsertDeployment(m.nextIndex(), d), "UpsertDeployment") // Assert that we get a call to UpsertDeploymentStatusUpdate matchConfig := &matchDeploymentStatusUpdateConfig{ DeploymentID: d.ID, Status: structs.DeploymentStatusRunning, StatusDescription: structs.DeploymentStatusDescriptionRunning, Eval: true, } matcher := matchDeploymentStatusUpdateRequest(matchConfig) m.On("UpdateDeploymentStatus", mocker.MatchedBy(matcher)).Return(nil) w.SetEnabled(true, m.state) testutil.WaitForResult(func() (bool, error) { return 1 == len(w.watchers), nil }, func(err error) { assert.Equal(1, len(w.watchers), "Should have 1 deployment") }) // Call PauseDeployment req := &structs.DeploymentPauseRequest{ DeploymentID: d.ID, Pause: false, } var resp structs.DeploymentUpdateResponse err := w.PauseDeployment(req, &resp) assert.Nil(err, "PauseDeployment") assert.Equal(1, len(w.watchers), "Deployment should still be active") m.AssertCalled(t, "UpdateDeploymentStatus", mocker.MatchedBy(matcher)) } // Test failing a deployment that is running func TestWatcher_FailDeployment_Running(t *testing.T) { t.Parallel() assert := assert.New(t) w, m := defaultTestDeploymentWatcher(t) // Create a job and a deployment j := mock.Job() d := mock.Deployment() d.JobID = j.ID assert.Nil(m.state.UpsertJob(m.nextIndex(), j), "UpsertJob") assert.Nil(m.state.UpsertDeployment(m.nextIndex(), d), "UpsertDeployment") // Assert that we get a call to UpsertDeploymentStatusUpdate matchConfig := &matchDeploymentStatusUpdateConfig{ DeploymentID: d.ID, Status: structs.DeploymentStatusFailed, StatusDescription: structs.DeploymentStatusDescriptionFailedByUser, Eval: true, } matcher := matchDeploymentStatusUpdateRequest(matchConfig) m.On("UpdateDeploymentStatus", mocker.MatchedBy(matcher)).Return(nil) w.SetEnabled(true, m.state) testutil.WaitForResult(func() (bool, error) { return 1 == len(w.watchers), nil }, func(err error) { assert.Equal(1, len(w.watchers), "Should have 1 deployment") }) // Call PauseDeployment req := &structs.DeploymentFailRequest{ DeploymentID: d.ID, } var resp structs.DeploymentUpdateResponse err := w.FailDeployment(req, &resp) assert.Nil(err, "FailDeployment") assert.Equal(1, len(w.watchers), "Deployment should still be active") m.AssertCalled(t, "UpdateDeploymentStatus", mocker.MatchedBy(matcher)) } // Tests that the watcher properly watches for allocation changes and takes the // proper actions func TestDeploymentWatcher_Watch_NoProgressDeadline(t *testing.T) { t.Parallel() assert := assert.New(t) w, m := testDeploymentWatcher(t, 1000.0, 1*time.Millisecond) // Create a job, alloc, and a deployment j := mock.Job() j.TaskGroups[0].Update = structs.DefaultUpdateStrategy.Copy() j.TaskGroups[0].Update.MaxParallel = 2 j.TaskGroups[0].Update.AutoRevert = true j.TaskGroups[0].Update.ProgressDeadline = 0 j.Stable = true d := mock.Deployment() d.JobID = j.ID d.TaskGroups["web"].AutoRevert = true a := mock.Alloc() a.DeploymentID = d.ID assert.Nil(m.state.UpsertJob(m.nextIndex(), j), "UpsertJob") assert.Nil(m.state.UpsertDeployment(m.nextIndex(), d), "UpsertDeployment") assert.Nil(m.state.UpsertAllocs(m.nextIndex(), []*structs.Allocation{a}), "UpsertAllocs") // Upsert the job again to get a new version j2 := j.Copy() // Modify the job to make its specification different j2.Meta["foo"] = "bar" j2.Stable = false assert.Nil(m.state.UpsertJob(m.nextIndex(), j2), "UpsertJob2") // Assert that we will get a update allocation call only once. This will // verify that the watcher is batching allocation changes m1 := matchUpdateAllocDesiredTransitions([]string{d.ID}) m.On("UpdateAllocDesiredTransition", mocker.MatchedBy(m1)).Return(nil).Once() // Assert that we get a call to UpsertDeploymentStatusUpdate c := &matchDeploymentStatusUpdateConfig{ DeploymentID: d.ID, Status: structs.DeploymentStatusFailed, StatusDescription: structs.DeploymentStatusDescriptionRollback(structs.DeploymentStatusDescriptionFailedAllocations, 0), JobVersion: helper.Uint64ToPtr(0), Eval: true, } m2 := matchDeploymentStatusUpdateRequest(c) m.On("UpdateDeploymentStatus", mocker.MatchedBy(m2)).Return(nil) w.SetEnabled(true, m.state) testutil.WaitForResult(func() (bool, error) { return 1 == len(w.watchers), nil }, func(err error) { assert.Equal(1, len(w.watchers), "Should have 1 deployment") }) // Update the allocs health to healthy which should create an evaluation for i := 0; i < 5; i++ { req := &structs.ApplyDeploymentAllocHealthRequest{ DeploymentAllocHealthRequest: structs.DeploymentAllocHealthRequest{ DeploymentID: d.ID, HealthyAllocationIDs: []string{a.ID}, }, } assert.Nil(m.state.UpdateDeploymentAllocHealth(m.nextIndex(), req), "UpsertDeploymentAllocHealth") } // Wait for there to be one eval testutil.WaitForResult(func() (bool, error) { ws := memdb.NewWatchSet() evals, err := m.state.EvalsByJob(ws, j.Namespace, j.ID) if err != nil { return false, err } if l := len(evals); l != 1 { return false, fmt.Errorf("Got %d evals; want 1", l) } return true, nil }, func(err error) { t.Fatal(err) }) // Update the allocs health to unhealthy which should create a job rollback, // status update and eval req2 := &structs.ApplyDeploymentAllocHealthRequest{ DeploymentAllocHealthRequest: structs.DeploymentAllocHealthRequest{ DeploymentID: d.ID, UnhealthyAllocationIDs: []string{a.ID}, }, } assert.Nil(m.state.UpdateDeploymentAllocHealth(m.nextIndex(), req2), "UpsertDeploymentAllocHealth") // Wait for there to be one eval testutil.WaitForResult(func() (bool, error) { ws := memdb.NewWatchSet() evals, err := m.state.EvalsByJob(ws, j.Namespace, j.ID) if err != nil { return false, err } if l := len(evals); l != 2 { return false, fmt.Errorf("Got %d evals; want 1", l) } return true, nil }, func(err error) { t.Fatal(err) }) m.AssertCalled(t, "UpdateAllocDesiredTransition", mocker.MatchedBy(m1)) // After we upsert the job version will go to 2. So use this to assert the // original call happened. c2 := &matchDeploymentStatusUpdateConfig{ DeploymentID: d.ID, Status: structs.DeploymentStatusFailed, StatusDescription: structs.DeploymentStatusDescriptionRollback(structs.DeploymentStatusDescriptionFailedAllocations, 0), JobVersion: helper.Uint64ToPtr(2), Eval: true, } m3 := matchDeploymentStatusUpdateRequest(c2) m.AssertCalled(t, "UpdateDeploymentStatus", mocker.MatchedBy(m3)) testutil.WaitForResult(func() (bool, error) { return 0 == len(w.watchers), nil }, func(err error) { assert.Equal(0, len(w.watchers), "Should have no deployment") }) } func TestDeploymentWatcher_Watch_ProgressDeadline(t *testing.T) { t.Parallel() assert := assert.New(t) w, m := testDeploymentWatcher(t, 1000.0, 1*time.Millisecond) // Create a job, alloc, and a deployment j := mock.Job() j.TaskGroups[0].Update = structs.DefaultUpdateStrategy.Copy() j.TaskGroups[0].Update.MaxParallel = 2 j.TaskGroups[0].Update.ProgressDeadline = 500 * time.Millisecond j.Stable = true d := mock.Deployment() d.JobID = j.ID d.TaskGroups["web"].ProgressDeadline = 500 * time.Millisecond a := mock.Alloc() now := time.Now() a.CreateTime = now.UnixNano() a.ModifyTime = now.UnixNano() a.DeploymentID = d.ID assert.Nil(m.state.UpsertJob(m.nextIndex(), j), "UpsertJob") assert.Nil(m.state.UpsertDeployment(m.nextIndex(), d), "UpsertDeployment") assert.Nil(m.state.UpsertAllocs(m.nextIndex(), []*structs.Allocation{a}), "UpsertAllocs") // Assert that we get a call to UpsertDeploymentStatusUpdate c := &matchDeploymentStatusUpdateConfig{ DeploymentID: d.ID, Status: structs.DeploymentStatusFailed, StatusDescription: structs.DeploymentStatusDescriptionProgressDeadline, Eval: true, } m2 := matchDeploymentStatusUpdateRequest(c) m.On("UpdateDeploymentStatus", mocker.MatchedBy(m2)).Return(nil) w.SetEnabled(true, m.state) testutil.WaitForResult(func() (bool, error) { return 1 == len(w.watchers), nil }, func(err error) { assert.Equal(1, len(w.watchers), "Should have 1 deployment") }) // Update the alloc to be unhealthy and assert that nothing happens. a2 := a.Copy() a2.DeploymentStatus = &structs.AllocDeploymentStatus{ Healthy: helper.BoolToPtr(false), Timestamp: now, } assert.Nil(m.state.UpdateAllocsFromClient(100, []*structs.Allocation{a2})) // Wait for the deployment to be failed testutil.WaitForResult(func() (bool, error) { d, err := m.state.DeploymentByID(nil, d.ID) if err != nil { return false, err } return d.Status == structs.DeploymentStatusFailed, fmt.Errorf("bad status %q", d.Status) }, func(err error) { t.Fatal(err) }) // Assert there are is only one evaluation testutil.WaitForResult(func() (bool, error) { ws := memdb.NewWatchSet() evals, err := m.state.EvalsByJob(ws, j.Namespace, j.ID) if err != nil { return false, err } if l := len(evals); l != 1 { return false, fmt.Errorf("Got %d evals; want 1", l) } return true, nil }, func(err error) { t.Fatal(err) }) } // Test that we will allow the progress deadline to be reached when the canaries // are healthy but we haven't promoted func TestDeploymentWatcher_Watch_ProgressDeadline_Canaries(t *testing.T) { t.Parallel() require := require.New(t) w, m := testDeploymentWatcher(t, 1000.0, 1*time.Millisecond) // Create a job, alloc, and a deployment j := mock.Job() j.TaskGroups[0].Update = structs.DefaultUpdateStrategy.Copy() j.TaskGroups[0].Update.Canary = 1 j.TaskGroups[0].Update.MaxParallel = 1 j.TaskGroups[0].Update.ProgressDeadline = 500 * time.Millisecond j.Stable = true d := mock.Deployment() d.StatusDescription = structs.DeploymentStatusDescriptionRunningNeedsPromotion d.JobID = j.ID d.TaskGroups["web"].ProgressDeadline = 500 * time.Millisecond d.TaskGroups["web"].DesiredCanaries = 1 a := mock.Alloc() now := time.Now() a.CreateTime = now.UnixNano() a.ModifyTime = now.UnixNano() a.DeploymentID = d.ID require.Nil(m.state.UpsertJob(m.nextIndex(), j), "UpsertJob") require.Nil(m.state.UpsertDeployment(m.nextIndex(), d), "UpsertDeployment") require.Nil(m.state.UpsertAllocs(m.nextIndex(), []*structs.Allocation{a}), "UpsertAllocs") // Assert that we will get a createEvaluation call only once. This will // verify that the watcher is batching allocation changes m1 := matchUpdateAllocDesiredTransitions([]string{d.ID}) m.On("UpdateAllocDesiredTransition", mocker.MatchedBy(m1)).Return(nil).Once() w.SetEnabled(true, m.state) testutil.WaitForResult(func() (bool, error) { return 1 == len(w.watchers), nil }, func(err error) { require.Equal(1, len(w.watchers), "Should have 1 deployment") }) // Update the alloc to be unhealthy and require that nothing happens. a2 := a.Copy() a2.DeploymentStatus = &structs.AllocDeploymentStatus{ Healthy: helper.BoolToPtr(true), Timestamp: now, } require.Nil(m.state.UpdateAllocsFromClient(m.nextIndex(), []*structs.Allocation{a2})) // Wait for the deployment to cross the deadline dout, err := m.state.DeploymentByID(nil, d.ID) require.NoError(err) require.NotNil(dout) state := dout.TaskGroups["web"] require.NotNil(state) time.Sleep(state.RequireProgressBy.Add(time.Second).Sub(now)) // Require the deployment is still running dout, err = m.state.DeploymentByID(nil, d.ID) require.NoError(err) require.NotNil(dout) require.Equal(structs.DeploymentStatusRunning, dout.Status) require.Equal(structs.DeploymentStatusDescriptionRunningNeedsPromotion, dout.StatusDescription) // require there are is only one evaluation testutil.WaitForResult(func() (bool, error) { ws := memdb.NewWatchSet() evals, err := m.state.EvalsByJob(ws, j.Namespace, j.ID) if err != nil { return false, err } if l := len(evals); l != 1 { return false, fmt.Errorf("Got %d evals; want 1", l) } return true, nil }, func(err error) { t.Fatal(err) }) } // Test that a promoted deployment with alloc healthy updates create // evals to move the deployment forward func TestDeploymentWatcher_PromotedCanary_UpdatedAllocs(t *testing.T) { t.Parallel() require := require.New(t) w, m := testDeploymentWatcher(t, 1000.0, 1*time.Millisecond) // Create a job, alloc, and a deployment j := mock.Job() j.TaskGroups[0].Count = 2 j.TaskGroups[0].Update = structs.DefaultUpdateStrategy.Copy() j.TaskGroups[0].Update.Canary = 1 j.TaskGroups[0].Update.MaxParallel = 1 j.TaskGroups[0].Update.ProgressDeadline = 50 * time.Millisecond j.Stable = true d := mock.Deployment() d.TaskGroups["web"].DesiredTotal = 2 d.TaskGroups["web"].DesiredCanaries = 1 d.TaskGroups["web"].HealthyAllocs = 1 d.StatusDescription = structs.DeploymentStatusDescriptionRunning d.JobID = j.ID d.TaskGroups["web"].ProgressDeadline = 50 * time.Millisecond d.TaskGroups["web"].RequireProgressBy = time.Now().Add(50 * time.Millisecond) a := mock.Alloc() now := time.Now() a.CreateTime = now.UnixNano() a.ModifyTime = now.UnixNano() a.DeploymentID = d.ID a.DeploymentStatus = &structs.AllocDeploymentStatus{ Healthy: helper.BoolToPtr(true), Timestamp: now, } require.Nil(m.state.UpsertJob(m.nextIndex(), j), "UpsertJob") require.Nil(m.state.UpsertDeployment(m.nextIndex(), d), "UpsertDeployment") require.Nil(m.state.UpsertAllocs(m.nextIndex(), []*structs.Allocation{a}), "UpsertAllocs") w.SetEnabled(true, m.state) testutil.WaitForResult(func() (bool, error) { return 1 == len(w.watchers), nil }, func(err error) { require.Equal(1, len(w.watchers), "Should have 1 deployment") }) m1 := matchUpdateAllocDesiredTransitions([]string{d.ID}) m.On("UpdateAllocDesiredTransition", mocker.MatchedBy(m1)).Return(nil).Twice() // Create another alloc a2 := a.Copy() a2.ID = uuid.Generate() now = time.Now() a2.CreateTime = now.UnixNano() a2.ModifyTime = now.UnixNano() a2.DeploymentStatus = &structs.AllocDeploymentStatus{ Healthy: helper.BoolToPtr(true), Timestamp: now, } d.TaskGroups["web"].RequireProgressBy = time.Now().Add(2 * time.Second) require.Nil(m.state.UpsertDeployment(m.nextIndex(), d), "UpsertDeployment") // Wait until batch eval period passes before updating another alloc time.Sleep(1 * time.Second) require.Nil(m.state.UpsertAllocs(m.nextIndex(), []*structs.Allocation{a2}), "UpsertAllocs") // Wait for the deployment to cross the deadline dout, err := m.state.DeploymentByID(nil, d.ID) require.NoError(err) require.NotNil(dout) state := dout.TaskGroups["web"] require.NotNil(state) time.Sleep(state.RequireProgressBy.Add(time.Second).Sub(now)) // There should be two evals testutil.WaitForResult(func() (bool, error) { ws := memdb.NewWatchSet() evals, err := m.state.EvalsByJob(ws, j.Namespace, j.ID) if err != nil { return false, err } if l := len(evals); l != 2 { return false, fmt.Errorf("Got %d evals; want 2", l) } return true, nil }, func(err error) { t.Fatal(err) }) } // Test scenario where deployment initially has no progress deadline // After the deployment is updated, a failed alloc's DesiredTransition should be set func TestDeploymentWatcher_Watch_StartWithoutProgressDeadline(t *testing.T) { t.Parallel() assert := assert.New(t) w, m := testDeploymentWatcher(t, 1000.0, 1*time.Millisecond) // Create a job, and a deployment j := mock.Job() j.TaskGroups[0].Update = structs.DefaultUpdateStrategy.Copy() j.TaskGroups[0].Update.MaxParallel = 2 j.TaskGroups[0].Update.ProgressDeadline = 500 * time.Millisecond j.Stable = true d := mock.Deployment() d.JobID = j.ID assert.Nil(m.state.UpsertJob(m.nextIndex(), j), "UpsertJob") assert.Nil(m.state.UpsertDeployment(m.nextIndex(), d), "UpsertDeployment") a := mock.Alloc() a.CreateTime = time.Now().UnixNano() a.DeploymentID = d.ID assert.Nil(m.state.UpsertAllocs(m.nextIndex(), []*structs.Allocation{a}), "UpsertAllocs") d.TaskGroups["web"].ProgressDeadline = 500 * time.Millisecond // Update the deployment with a progress deadline assert.Nil(m.state.UpsertDeployment(m.nextIndex(), d), "UpsertDeployment") // Match on DesiredTransition set to Reschedule for the failed alloc m1 := matchUpdateAllocDesiredTransitionReschedule([]string{a.ID}) m.On("UpdateAllocDesiredTransition", mocker.MatchedBy(m1)).Return(nil).Once() w.SetEnabled(true, m.state) testutil.WaitForResult(func() (bool, error) { return 1 == len(w.watchers), nil }, func(err error) { assert.Equal(1, len(w.watchers), "Should have 1 deployment") }) // Update the alloc to be unhealthy a2 := a.Copy() a2.DeploymentStatus = &structs.AllocDeploymentStatus{ Healthy: helper.BoolToPtr(false), Timestamp: time.Now(), } assert.Nil(m.state.UpdateAllocsFromClient(m.nextIndex(), []*structs.Allocation{a2})) // Wait for the alloc's DesiredState to set reschedule testutil.WaitForResult(func() (bool, error) { a, err := m.state.AllocByID(nil, a.ID) if err != nil { return false, err } dt := a.DesiredTransition shouldReschedule := dt.Reschedule != nil && *dt.Reschedule return shouldReschedule, fmt.Errorf("Desired Transition Reschedule should be set but got %v", shouldReschedule) }, func(err error) { t.Fatal(err) }) } // Tests that the watcher fails rollback when the spec hasn't changed func TestDeploymentWatcher_RollbackFailed(t *testing.T) { t.Parallel() assert := assert.New(t) w, m := testDeploymentWatcher(t, 1000.0, 1*time.Millisecond) // Create a job, alloc, and a deployment j := mock.Job() j.TaskGroups[0].Update = structs.DefaultUpdateStrategy.Copy() j.TaskGroups[0].Update.MaxParallel = 2 j.TaskGroups[0].Update.AutoRevert = true j.TaskGroups[0].Update.ProgressDeadline = 0 j.Stable = true d := mock.Deployment() d.JobID = j.ID d.TaskGroups["web"].AutoRevert = true a := mock.Alloc() a.DeploymentID = d.ID assert.Nil(m.state.UpsertJob(m.nextIndex(), j), "UpsertJob") assert.Nil(m.state.UpsertDeployment(m.nextIndex(), d), "UpsertDeployment") assert.Nil(m.state.UpsertAllocs(m.nextIndex(), []*structs.Allocation{a}), "UpsertAllocs") // Upsert the job again to get a new version j2 := j.Copy() // Modify the job to make its specification different j2.Stable = false assert.Nil(m.state.UpsertJob(m.nextIndex(), j2), "UpsertJob2") // Assert that we will get a createEvaluation call only once. This will // verify that the watcher is batching allocation changes m1 := matchUpdateAllocDesiredTransitions([]string{d.ID}) m.On("UpdateAllocDesiredTransition", mocker.MatchedBy(m1)).Return(nil).Once() // Assert that we get a call to UpsertDeploymentStatusUpdate with roll back failed as the status c := &matchDeploymentStatusUpdateConfig{ DeploymentID: d.ID, Status: structs.DeploymentStatusFailed, StatusDescription: structs.DeploymentStatusDescriptionRollbackNoop(structs.DeploymentStatusDescriptionFailedAllocations, 0), JobVersion: nil, Eval: true, } m2 := matchDeploymentStatusUpdateRequest(c) m.On("UpdateDeploymentStatus", mocker.MatchedBy(m2)).Return(nil) w.SetEnabled(true, m.state) testutil.WaitForResult(func() (bool, error) { return 1 == len(w.watchers), nil }, func(err error) { assert.Equal(1, len(w.watchers), "Should have 1 deployment") }) // Update the allocs health to healthy which should create an evaluation for i := 0; i < 5; i++ { req := &structs.ApplyDeploymentAllocHealthRequest{ DeploymentAllocHealthRequest: structs.DeploymentAllocHealthRequest{ DeploymentID: d.ID, HealthyAllocationIDs: []string{a.ID}, }, } assert.Nil(m.state.UpdateDeploymentAllocHealth(m.nextIndex(), req), "UpsertDeploymentAllocHealth") } // Wait for there to be one eval testutil.WaitForResult(func() (bool, error) { ws := memdb.NewWatchSet() evals, err := m.state.EvalsByJob(ws, j.Namespace, j.ID) if err != nil { return false, err } if l := len(evals); l != 1 { return false, fmt.Errorf("Got %d evals; want 1", l) } return true, nil }, func(err error) { t.Fatal(err) }) // Update the allocs health to unhealthy which will cause attempting a rollback, // fail in that step, do status update and eval req2 := &structs.ApplyDeploymentAllocHealthRequest{ DeploymentAllocHealthRequest: structs.DeploymentAllocHealthRequest{ DeploymentID: d.ID, UnhealthyAllocationIDs: []string{a.ID}, }, } assert.Nil(m.state.UpdateDeploymentAllocHealth(m.nextIndex(), req2), "UpsertDeploymentAllocHealth") // Wait for there to be one eval testutil.WaitForResult(func() (bool, error) { ws := memdb.NewWatchSet() evals, err := m.state.EvalsByJob(ws, j.Namespace, j.ID) if err != nil { return false, err } if l := len(evals); l != 2 { return false, fmt.Errorf("Got %d evals; want 1", l) } return true, nil }, func(err error) { t.Fatal(err) }) m.AssertCalled(t, "UpdateAllocDesiredTransition", mocker.MatchedBy(m1)) // verify that the job version hasn't changed after upsert m.state.JobByID(nil, structs.DefaultNamespace, j.ID) assert.Equal(uint64(0), j.Version, "Expected job version 0 but got ", j.Version) } // Test allocation updates and evaluation creation is batched between watchers func TestWatcher_BatchAllocUpdates(t *testing.T) { t.Parallel() assert := assert.New(t) w, m := testDeploymentWatcher(t, 1000.0, 1*time.Second) // Create a job, alloc, for two deployments j1 := mock.Job() j1.TaskGroups[0].Update = structs.DefaultUpdateStrategy.Copy() j1.TaskGroups[0].Update.ProgressDeadline = 0 d1 := mock.Deployment() d1.JobID = j1.ID a1 := mock.Alloc() a1.Job = j1 a1.JobID = j1.ID a1.DeploymentID = d1.ID j2 := mock.Job() j2.TaskGroups[0].Update = structs.DefaultUpdateStrategy.Copy() j2.TaskGroups[0].Update.ProgressDeadline = 0 d2 := mock.Deployment() d2.JobID = j2.ID a2 := mock.Alloc() a2.Job = j2 a2.JobID = j2.ID a2.DeploymentID = d2.ID assert.Nil(m.state.UpsertJob(m.nextIndex(), j1), "UpsertJob") assert.Nil(m.state.UpsertJob(m.nextIndex(), j2), "UpsertJob") assert.Nil(m.state.UpsertDeployment(m.nextIndex(), d1), "UpsertDeployment") assert.Nil(m.state.UpsertDeployment(m.nextIndex(), d2), "UpsertDeployment") assert.Nil(m.state.UpsertAllocs(m.nextIndex(), []*structs.Allocation{a1}), "UpsertAllocs") assert.Nil(m.state.UpsertAllocs(m.nextIndex(), []*structs.Allocation{a2}), "UpsertAllocs") // Assert that we will get a createEvaluation call only once and it contains // both deployments. This will verify that the watcher is batching // allocation changes m1 := matchUpdateAllocDesiredTransitions([]string{d1.ID, d2.ID}) m.On("UpdateAllocDesiredTransition", mocker.MatchedBy(m1)).Return(nil).Once() w.SetEnabled(true, m.state) testutil.WaitForResult(func() (bool, error) { return 2 == len(w.watchers), nil }, func(err error) { assert.Equal(2, len(w.watchers), "Should have 2 deployment") }) // Update the allocs health to healthy which should create an evaluation req := &structs.ApplyDeploymentAllocHealthRequest{ DeploymentAllocHealthRequest: structs.DeploymentAllocHealthRequest{ DeploymentID: d1.ID, HealthyAllocationIDs: []string{a1.ID}, }, } assert.Nil(m.state.UpdateDeploymentAllocHealth(m.nextIndex(), req), "UpsertDeploymentAllocHealth") req2 := &structs.ApplyDeploymentAllocHealthRequest{ DeploymentAllocHealthRequest: structs.DeploymentAllocHealthRequest{ DeploymentID: d2.ID, HealthyAllocationIDs: []string{a2.ID}, }, } assert.Nil(m.state.UpdateDeploymentAllocHealth(m.nextIndex(), req2), "UpsertDeploymentAllocHealth") // Wait for there to be one eval for each job testutil.WaitForResult(func() (bool, error) { ws := memdb.NewWatchSet() evals1, err := m.state.EvalsByJob(ws, j1.Namespace, j1.ID) if err != nil { return false, err } evals2, err := m.state.EvalsByJob(ws, j2.Namespace, j2.ID) if err != nil { return false, err } if l := len(evals1); l != 1 { return false, fmt.Errorf("Got %d evals for job %v; want 1", l, j1.ID) } if l := len(evals2); l != 1 { return false, fmt.Errorf("Got %d evals for job 2; want 1", l) } return true, nil }, func(err error) { t.Fatal(err) }) m.AssertCalled(t, "UpdateAllocDesiredTransition", mocker.MatchedBy(m1)) testutil.WaitForResult(func() (bool, error) { return 2 == len(w.watchers), nil }, func(err error) { assert.Equal(2, len(w.watchers), "Should have 2 deployment") }) }