package state import ( "context" "fmt" "reflect" "sort" "strings" "testing" "time" "github.com/hashicorp/go-memdb" "github.com/hashicorp/nomad/ci" "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/kr/pretty" "github.com/stretchr/testify/assert" "github.com/stretchr/testify/require" ) func testStateStore(t *testing.T) *StateStore { return TestStateStore(t) } func TestStateStore_Blocking_Error(t *testing.T) { ci.Parallel(t) expected := fmt.Errorf("test error") errFn := func(memdb.WatchSet, *StateStore) (interface{}, uint64, error) { return nil, 0, expected } state := testStateStore(t) _, idx, err := state.BlockingQuery(errFn, 10, context.Background()) assert.EqualError(t, err, expected.Error()) assert.Zero(t, idx) } func TestStateStore_Blocking_Timeout(t *testing.T) { ci.Parallel(t) noopFn := func(memdb.WatchSet, *StateStore) (interface{}, uint64, error) { return nil, 5, nil } state := testStateStore(t) timeout := time.Now().Add(250 * time.Millisecond) deadlineCtx, cancel := context.WithDeadline(context.Background(), timeout) defer cancel() _, idx, err := state.BlockingQuery(noopFn, 10, deadlineCtx) assert.EqualError(t, err, context.DeadlineExceeded.Error()) assert.EqualValues(t, 5, idx) assert.WithinDuration(t, timeout, time.Now(), 100*time.Millisecond) } func TestStateStore_Blocking_MinQuery(t *testing.T) { ci.Parallel(t) node := mock.Node() count := 0 queryFn := func(ws memdb.WatchSet, s *StateStore) (interface{}, uint64, error) { _, err := s.NodeByID(ws, node.ID) if err != nil { return nil, 0, err } count++ if count == 1 { return false, 5, nil } else if count > 2 { return false, 20, fmt.Errorf("called too many times") } return true, 11, nil } state := testStateStore(t) timeout := time.Now().Add(100 * time.Millisecond) deadlineCtx, cancel := context.WithDeadline(context.Background(), timeout) defer cancel() time.AfterFunc(5*time.Millisecond, func() { state.UpsertNode(structs.MsgTypeTestSetup, 11, node) }) resp, idx, err := state.BlockingQuery(queryFn, 10, deadlineCtx) if assert.Nil(t, err) { assert.Equal(t, 2, count) assert.EqualValues(t, 11, idx) assert.True(t, resp.(bool)) } } // COMPAT 0.11: Uses AllocUpdateRequest.Alloc // This test checks that: // 1) The job is denormalized // 2) Allocations are created func TestStateStore_UpsertPlanResults_AllocationsCreated_Denormalized(t *testing.T) { ci.Parallel(t) state := testStateStore(t) alloc := mock.Alloc() job := alloc.Job alloc.Job = nil if err := state.UpsertJob(structs.MsgTypeTestSetup, 999, job); err != nil { t.Fatalf("err: %v", err) } eval := mock.Eval() eval.JobID = job.ID // Create an eval if err := state.UpsertEvals(structs.MsgTypeTestSetup, 1, []*structs.Evaluation{eval}); err != nil { t.Fatalf("err: %v", err) } // Create a plan result res := structs.ApplyPlanResultsRequest{ AllocUpdateRequest: structs.AllocUpdateRequest{ Alloc: []*structs.Allocation{alloc}, Job: job, }, EvalID: eval.ID, } assert := assert.New(t) err := state.UpsertPlanResults(structs.MsgTypeTestSetup, 1000, &res) assert.Nil(err) ws := memdb.NewWatchSet() out, err := state.AllocByID(ws, alloc.ID) assert.Nil(err) assert.Equal(alloc, out) index, err := state.Index("allocs") assert.Nil(err) assert.EqualValues(1000, index) if watchFired(ws) { t.Fatalf("bad") } evalOut, err := state.EvalByID(ws, eval.ID) assert.Nil(err) assert.NotNil(evalOut) assert.EqualValues(1000, evalOut.ModifyIndex) } // This test checks that: // 1) The job is denormalized // 2) Allocations are denormalized and updated with the diff // That stopped allocs Job is unmodified func TestStateStore_UpsertPlanResults_AllocationsDenormalized(t *testing.T) { ci.Parallel(t) state := testStateStore(t) alloc := mock.Alloc() job := alloc.Job alloc.Job = nil stoppedAlloc := mock.Alloc() stoppedAlloc.Job = job stoppedAllocDiff := &structs.AllocationDiff{ ID: stoppedAlloc.ID, DesiredDescription: "desired desc", ClientStatus: structs.AllocClientStatusLost, } preemptedAlloc := mock.Alloc() preemptedAlloc.Job = job preemptedAllocDiff := &structs.AllocationDiff{ ID: preemptedAlloc.ID, PreemptedByAllocation: alloc.ID, } require := require.New(t) require.NoError(state.UpsertAllocs(structs.MsgTypeTestSetup, 900, []*structs.Allocation{stoppedAlloc, preemptedAlloc})) require.NoError(state.UpsertJob(structs.MsgTypeTestSetup, 999, job)) // modify job and ensure that stopped and preempted alloc point to original Job mJob := job.Copy() mJob.TaskGroups[0].Name = "other" require.NoError(state.UpsertJob(structs.MsgTypeTestSetup, 1001, mJob)) eval := mock.Eval() eval.JobID = job.ID // Create an eval require.NoError(state.UpsertEvals(structs.MsgTypeTestSetup, 1, []*structs.Evaluation{eval})) // Create a plan result res := structs.ApplyPlanResultsRequest{ AllocUpdateRequest: structs.AllocUpdateRequest{ AllocsUpdated: []*structs.Allocation{alloc}, AllocsStopped: []*structs.AllocationDiff{stoppedAllocDiff}, Job: mJob, }, EvalID: eval.ID, AllocsPreempted: []*structs.AllocationDiff{preemptedAllocDiff}, } assert := assert.New(t) planModifyIndex := uint64(1000) err := state.UpsertPlanResults(structs.MsgTypeTestSetup, planModifyIndex, &res) require.NoError(err) ws := memdb.NewWatchSet() out, err := state.AllocByID(ws, alloc.ID) require.NoError(err) assert.Equal(alloc, out) outJob, err := state.JobByID(ws, job.Namespace, job.ID) require.NoError(err) require.Equal(mJob.TaskGroups, outJob.TaskGroups) require.NotEmpty(job.TaskGroups, outJob.TaskGroups) updatedStoppedAlloc, err := state.AllocByID(ws, stoppedAlloc.ID) require.NoError(err) assert.Equal(stoppedAllocDiff.DesiredDescription, updatedStoppedAlloc.DesiredDescription) assert.Equal(structs.AllocDesiredStatusStop, updatedStoppedAlloc.DesiredStatus) assert.Equal(stoppedAllocDiff.ClientStatus, updatedStoppedAlloc.ClientStatus) assert.Equal(planModifyIndex, updatedStoppedAlloc.AllocModifyIndex) assert.Equal(planModifyIndex, updatedStoppedAlloc.AllocModifyIndex) assert.Equal(job.TaskGroups, updatedStoppedAlloc.Job.TaskGroups) updatedPreemptedAlloc, err := state.AllocByID(ws, preemptedAlloc.ID) require.NoError(err) assert.Equal(structs.AllocDesiredStatusEvict, updatedPreemptedAlloc.DesiredStatus) assert.Equal(preemptedAllocDiff.PreemptedByAllocation, updatedPreemptedAlloc.PreemptedByAllocation) assert.Equal(planModifyIndex, updatedPreemptedAlloc.AllocModifyIndex) assert.Equal(planModifyIndex, updatedPreemptedAlloc.AllocModifyIndex) assert.Equal(job.TaskGroups, updatedPreemptedAlloc.Job.TaskGroups) index, err := state.Index("allocs") require.NoError(err) assert.EqualValues(planModifyIndex, index) require.False(watchFired(ws)) evalOut, err := state.EvalByID(ws, eval.ID) require.NoError(err) require.NotNil(evalOut) assert.EqualValues(planModifyIndex, evalOut.ModifyIndex) } // This test checks that the deployment is created and allocations count towards // the deployment func TestStateStore_UpsertPlanResults_Deployment(t *testing.T) { ci.Parallel(t) state := testStateStore(t) alloc := mock.Alloc() alloc2 := mock.Alloc() job := alloc.Job alloc.Job = nil alloc2.Job = nil d := mock.Deployment() alloc.DeploymentID = d.ID alloc2.DeploymentID = d.ID if err := state.UpsertJob(structs.MsgTypeTestSetup, 999, job); err != nil { t.Fatalf("err: %v", err) } eval := mock.Eval() eval.JobID = job.ID // Create an eval if err := state.UpsertEvals(structs.MsgTypeTestSetup, 1, []*structs.Evaluation{eval}); err != nil { t.Fatalf("err: %v", err) } // Create a plan result res := structs.ApplyPlanResultsRequest{ AllocUpdateRequest: structs.AllocUpdateRequest{ Alloc: []*structs.Allocation{alloc, alloc2}, Job: job, }, Deployment: d, EvalID: eval.ID, } err := state.UpsertPlanResults(structs.MsgTypeTestSetup, 1000, &res) if err != nil { t.Fatalf("err: %v", err) } ws := memdb.NewWatchSet() assert := assert.New(t) out, err := state.AllocByID(ws, alloc.ID) assert.Nil(err) assert.Equal(alloc, out) dout, err := state.DeploymentByID(ws, d.ID) assert.Nil(err) assert.NotNil(dout) tg, ok := dout.TaskGroups[alloc.TaskGroup] assert.True(ok) assert.NotNil(tg) assert.Equal(2, tg.PlacedAllocs) evalOut, err := state.EvalByID(ws, eval.ID) assert.Nil(err) assert.NotNil(evalOut) assert.EqualValues(1000, evalOut.ModifyIndex) if watchFired(ws) { t.Fatalf("bad") } // Update the allocs to be part of a new deployment d2 := d.Copy() d2.ID = uuid.Generate() allocNew := alloc.Copy() allocNew.DeploymentID = d2.ID allocNew2 := alloc2.Copy() allocNew2.DeploymentID = d2.ID // Create another plan res = structs.ApplyPlanResultsRequest{ AllocUpdateRequest: structs.AllocUpdateRequest{ Alloc: []*structs.Allocation{allocNew, allocNew2}, Job: job, }, Deployment: d2, EvalID: eval.ID, } err = state.UpsertPlanResults(structs.MsgTypeTestSetup, 1001, &res) if err != nil { t.Fatalf("err: %v", err) } dout, err = state.DeploymentByID(ws, d2.ID) assert.Nil(err) assert.NotNil(dout) tg, ok = dout.TaskGroups[alloc.TaskGroup] assert.True(ok) assert.NotNil(tg) assert.Equal(2, tg.PlacedAllocs) evalOut, err = state.EvalByID(ws, eval.ID) assert.Nil(err) assert.NotNil(evalOut) assert.EqualValues(1001, evalOut.ModifyIndex) } // This test checks that: // 1) Preempted allocations in plan results are updated // 2) Evals are inserted for preempted jobs func TestStateStore_UpsertPlanResults_PreemptedAllocs(t *testing.T) { ci.Parallel(t) require := require.New(t) state := testStateStore(t) alloc := mock.Alloc() job := alloc.Job alloc.Job = nil // Insert job err := state.UpsertJob(structs.MsgTypeTestSetup, 999, job) require.NoError(err) // Create an eval eval := mock.Eval() eval.JobID = job.ID err = state.UpsertEvals(structs.MsgTypeTestSetup, 1, []*structs.Evaluation{eval}) require.NoError(err) // Insert alloc that will be preempted in the plan preemptedAlloc := mock.Alloc() err = state.UpsertAllocs(structs.MsgTypeTestSetup, 2, []*structs.Allocation{preemptedAlloc}) require.NoError(err) minimalPreemptedAlloc := &structs.Allocation{ ID: preemptedAlloc.ID, PreemptedByAllocation: alloc.ID, ModifyTime: time.Now().Unix(), } // Create eval for preempted job eval2 := mock.Eval() eval2.JobID = preemptedAlloc.JobID // Create a plan result res := structs.ApplyPlanResultsRequest{ AllocUpdateRequest: structs.AllocUpdateRequest{ Alloc: []*structs.Allocation{alloc}, Job: job, }, EvalID: eval.ID, NodePreemptions: []*structs.Allocation{minimalPreemptedAlloc}, PreemptionEvals: []*structs.Evaluation{eval2}, } err = state.UpsertPlanResults(structs.MsgTypeTestSetup, 1000, &res) require.NoError(err) ws := memdb.NewWatchSet() // Verify alloc and eval created by plan out, err := state.AllocByID(ws, alloc.ID) require.NoError(err) require.Equal(alloc, out) index, err := state.Index("allocs") require.NoError(err) require.EqualValues(1000, index) evalOut, err := state.EvalByID(ws, eval.ID) require.NoError(err) require.NotNil(evalOut) require.EqualValues(1000, evalOut.ModifyIndex) // Verify preempted alloc preempted, err := state.AllocByID(ws, preemptedAlloc.ID) require.NoError(err) require.Equal(preempted.DesiredStatus, structs.AllocDesiredStatusEvict) require.Equal(preempted.DesiredDescription, fmt.Sprintf("Preempted by alloc ID %v", alloc.ID)) require.Equal(preempted.Job.ID, preemptedAlloc.Job.ID) require.Equal(preempted.Job, preemptedAlloc.Job) // Verify eval for preempted job preemptedJobEval, err := state.EvalByID(ws, eval2.ID) require.NoError(err) require.NotNil(preemptedJobEval) require.EqualValues(1000, preemptedJobEval.ModifyIndex) } // This test checks that deployment updates are applied correctly func TestStateStore_UpsertPlanResults_DeploymentUpdates(t *testing.T) { ci.Parallel(t) state := testStateStore(t) // Create a job that applies to all job := mock.Job() if err := state.UpsertJob(structs.MsgTypeTestSetup, 998, job); err != nil { t.Fatalf("err: %v", err) } // Create a deployment that we will update its status doutstanding := mock.Deployment() doutstanding.JobID = job.ID if err := state.UpsertDeployment(1000, doutstanding); err != nil { t.Fatalf("err: %v", err) } eval := mock.Eval() eval.JobID = job.ID // Create an eval if err := state.UpsertEvals(structs.MsgTypeTestSetup, 1, []*structs.Evaluation{eval}); err != nil { t.Fatalf("err: %v", err) } alloc := mock.Alloc() alloc.Job = nil dnew := mock.Deployment() dnew.JobID = job.ID alloc.DeploymentID = dnew.ID // Update the old deployment update := &structs.DeploymentStatusUpdate{ DeploymentID: doutstanding.ID, Status: "foo", StatusDescription: "bar", } // Create a plan result res := structs.ApplyPlanResultsRequest{ AllocUpdateRequest: structs.AllocUpdateRequest{ Alloc: []*structs.Allocation{alloc}, Job: job, }, Deployment: dnew, DeploymentUpdates: []*structs.DeploymentStatusUpdate{update}, EvalID: eval.ID, } err := state.UpsertPlanResults(structs.MsgTypeTestSetup, 1000, &res) if err != nil { t.Fatalf("err: %v", err) } assert := assert.New(t) ws := memdb.NewWatchSet() // Check the deployments are correctly updated. dout, err := state.DeploymentByID(ws, dnew.ID) assert.Nil(err) assert.NotNil(dout) tg, ok := dout.TaskGroups[alloc.TaskGroup] assert.True(ok) assert.NotNil(tg) assert.Equal(1, tg.PlacedAllocs) doutstandingout, err := state.DeploymentByID(ws, doutstanding.ID) assert.Nil(err) assert.NotNil(doutstandingout) assert.Equal(update.Status, doutstandingout.Status) assert.Equal(update.StatusDescription, doutstandingout.StatusDescription) assert.EqualValues(1000, doutstandingout.ModifyIndex) evalOut, err := state.EvalByID(ws, eval.ID) assert.Nil(err) assert.NotNil(evalOut) assert.EqualValues(1000, evalOut.ModifyIndex) if watchFired(ws) { t.Fatalf("bad") } } func TestStateStore_UpsertDeployment(t *testing.T) { ci.Parallel(t) state := testStateStore(t) deployment := mock.Deployment() // Create a watchset so we can test that upsert fires the watch ws := memdb.NewWatchSet() _, err := state.DeploymentsByJobID(ws, deployment.Namespace, deployment.ID, true) if err != nil { t.Fatalf("bad: %v", err) } err = state.UpsertDeployment(1000, deployment) if err != nil { t.Fatalf("err: %v", err) } if !watchFired(ws) { t.Fatalf("bad") } ws = memdb.NewWatchSet() out, err := state.DeploymentByID(ws, deployment.ID) if err != nil { t.Fatalf("err: %v", err) } if !reflect.DeepEqual(deployment, out) { t.Fatalf("bad: %#v %#v", deployment, out) } index, err := state.Index("deployment") if err != nil { t.Fatalf("err: %v", err) } if index != 1000 { t.Fatalf("bad: %d", index) } if watchFired(ws) { t.Fatalf("bad") } } // Tests that deployments of older create index and same job id are not returned func TestStateStore_OldDeployment(t *testing.T) { ci.Parallel(t) state := testStateStore(t) job := mock.Job() job.ID = "job1" state.UpsertJob(structs.MsgTypeTestSetup, 1000, job) deploy1 := mock.Deployment() deploy1.JobID = job.ID deploy1.JobCreateIndex = job.CreateIndex deploy2 := mock.Deployment() deploy2.JobID = job.ID deploy2.JobCreateIndex = 11 require := require.New(t) // Insert both deployments err := state.UpsertDeployment(1001, deploy1) require.Nil(err) err = state.UpsertDeployment(1002, deploy2) require.Nil(err) ws := memdb.NewWatchSet() // Should return both deployments deploys, err := state.DeploymentsByJobID(ws, deploy1.Namespace, job.ID, true) require.Nil(err) require.Len(deploys, 2) // Should only return deploy1 deploys, err = state.DeploymentsByJobID(ws, deploy1.Namespace, job.ID, false) require.Nil(err) require.Len(deploys, 1) require.Equal(deploy1.ID, deploys[0].ID) } func TestStateStore_DeleteDeployment(t *testing.T) { ci.Parallel(t) state := testStateStore(t) d1 := mock.Deployment() d2 := mock.Deployment() err := state.UpsertDeployment(1000, d1) if err != nil { t.Fatalf("err: %v", err) } if err := state.UpsertDeployment(1001, d2); err != nil { t.Fatalf("err: %v", err) } // Create a watchset so we can test that delete fires the watch ws := memdb.NewWatchSet() if _, err := state.DeploymentByID(ws, d1.ID); err != nil { t.Fatalf("bad: %v", err) } err = state.DeleteDeployment(1002, []string{d1.ID, d2.ID}) if err != nil { t.Fatalf("err: %v", err) } if !watchFired(ws) { t.Fatalf("bad") } ws = memdb.NewWatchSet() out, err := state.DeploymentByID(ws, d1.ID) if err != nil { t.Fatalf("err: %v", err) } if out != nil { t.Fatalf("bad: %#v %#v", d1, out) } index, err := state.Index("deployment") if err != nil { t.Fatalf("err: %v", err) } if index != 1002 { t.Fatalf("bad: %d", index) } if watchFired(ws) { t.Fatalf("bad") } } func TestStateStore_Deployments(t *testing.T) { ci.Parallel(t) state := testStateStore(t) var deployments []*structs.Deployment for i := 0; i < 10; i++ { deployment := mock.Deployment() deployments = append(deployments, deployment) err := state.UpsertDeployment(1000+uint64(i), deployment) require.NoError(t, err) } ws := memdb.NewWatchSet() it, err := state.Deployments(ws, SortDefault) require.NoError(t, err) var out []*structs.Deployment for { raw := it.Next() if raw == nil { break } out = append(out, raw.(*structs.Deployment)) } require.Equal(t, deployments, out) require.False(t, watchFired(ws)) } func TestStateStore_Deployments_Namespace(t *testing.T) { ci.Parallel(t) state := testStateStore(t) ns1 := mock.Namespace() ns1.Name = "namespaced" deploy1 := mock.Deployment() deploy2 := mock.Deployment() deploy1.Namespace = ns1.Name deploy2.Namespace = ns1.Name ns2 := mock.Namespace() ns2.Name = "new-namespace" deploy3 := mock.Deployment() deploy4 := mock.Deployment() deploy3.Namespace = ns2.Name deploy4.Namespace = ns2.Name require.NoError(t, state.UpsertNamespaces(998, []*structs.Namespace{ns1, ns2})) // Create watchsets so we can test that update fires the watch watches := []memdb.WatchSet{memdb.NewWatchSet(), memdb.NewWatchSet()} _, err := state.DeploymentsByNamespace(watches[0], ns1.Name) require.NoError(t, err) _, err = state.DeploymentsByNamespace(watches[1], ns2.Name) require.NoError(t, err) require.NoError(t, state.UpsertDeployment(1001, deploy1)) require.NoError(t, state.UpsertDeployment(1002, deploy2)) require.NoError(t, state.UpsertDeployment(1003, deploy3)) require.NoError(t, state.UpsertDeployment(1004, deploy4)) require.True(t, watchFired(watches[0])) require.True(t, watchFired(watches[1])) ws := memdb.NewWatchSet() iter1, err := state.DeploymentsByNamespace(ws, ns1.Name) require.NoError(t, err) iter2, err := state.DeploymentsByNamespace(ws, ns2.Name) require.NoError(t, err) var out1 []*structs.Deployment for { raw := iter1.Next() if raw == nil { break } out1 = append(out1, raw.(*structs.Deployment)) } var out2 []*structs.Deployment for { raw := iter2.Next() if raw == nil { break } out2 = append(out2, raw.(*structs.Deployment)) } require.Len(t, out1, 2) require.Len(t, out2, 2) for _, deploy := range out1 { require.Equal(t, ns1.Name, deploy.Namespace) } for _, deploy := range out2 { require.Equal(t, ns2.Name, deploy.Namespace) } index, err := state.Index("deployment") require.NoError(t, err) require.EqualValues(t, 1004, index) require.False(t, watchFired(ws)) } func TestStateStore_DeploymentsByIDPrefix(t *testing.T) { ci.Parallel(t) state := testStateStore(t) deploy := mock.Deployment() deploy.ID = "11111111-662e-d0ab-d1c9-3e434af7bdb4" err := state.UpsertDeployment(1000, deploy) require.NoError(t, err) gatherDeploys := func(iter memdb.ResultIterator) []*structs.Deployment { var deploys []*structs.Deployment for { raw := iter.Next() if raw == nil { break } deploy := raw.(*structs.Deployment) deploys = append(deploys, deploy) } return deploys } t.Run("first deployment", func(t *testing.T) { // Create a watchset so we can test that getters don't cause it to fire ws := memdb.NewWatchSet() iter, err := state.DeploymentsByIDPrefix(ws, deploy.Namespace, deploy.ID, SortDefault) require.NoError(t, err) deploys := gatherDeploys(iter) require.Len(t, deploys, 1) require.False(t, watchFired(ws)) }) t.Run("using prefix", func(t *testing.T) { ws := memdb.NewWatchSet() iter, err := state.DeploymentsByIDPrefix(ws, deploy.Namespace, "11", SortDefault) require.NoError(t, err) deploys := gatherDeploys(iter) require.Len(t, deploys, 1) require.False(t, watchFired(ws)) }) deploy = mock.Deployment() deploy.ID = "11222222-662e-d0ab-d1c9-3e434af7bdb4" err = state.UpsertDeployment(1001, deploy) require.NoError(t, err) t.Run("more than one", func(t *testing.T) { ws := memdb.NewWatchSet() iter, err := state.DeploymentsByIDPrefix(ws, deploy.Namespace, "11", SortDefault) require.NoError(t, err) deploys := gatherDeploys(iter) require.Len(t, deploys, 2) }) t.Run("filter to one", func(t *testing.T) { ws := memdb.NewWatchSet() iter, err := state.DeploymentsByIDPrefix(ws, deploy.Namespace, "1111", SortDefault) require.NoError(t, err) deploys := gatherDeploys(iter) require.Len(t, deploys, 1) require.False(t, watchFired(ws)) }) t.Run("reverse order", func(t *testing.T) { ws := memdb.NewWatchSet() iter, err := state.DeploymentsByIDPrefix(ws, deploy.Namespace, "11", SortReverse) require.NoError(t, err) got := []string{} for _, d := range gatherDeploys(iter) { got = append(got, d.ID) } expected := []string{ "11222222-662e-d0ab-d1c9-3e434af7bdb4", "11111111-662e-d0ab-d1c9-3e434af7bdb4", } require.Equal(t, expected, got) require.False(t, watchFired(ws)) }) } func TestStateStore_DeploymentsByIDPrefix_Namespaces(t *testing.T) { ci.Parallel(t) state := testStateStore(t) deploy1 := mock.Deployment() deploy1.ID = "aabbbbbb-7bfb-395d-eb95-0685af2176b2" deploy2 := mock.Deployment() deploy2.ID = "aabbcbbb-7bfb-395d-eb95-0685af2176b2" sharedPrefix := "aabb" ns1 := mock.Namespace() ns1.Name = "namespace1" ns2 := mock.Namespace() ns2.Name = "namespace2" deploy1.Namespace = ns1.Name deploy2.Namespace = ns2.Name require.NoError(t, state.UpsertNamespaces(998, []*structs.Namespace{ns1, ns2})) require.NoError(t, state.UpsertDeployment(1000, deploy1)) require.NoError(t, state.UpsertDeployment(1001, deploy2)) gatherDeploys := func(iter memdb.ResultIterator) []*structs.Deployment { var deploys []*structs.Deployment for { raw := iter.Next() if raw == nil { break } deploy := raw.(*structs.Deployment) deploys = append(deploys, deploy) } return deploys } ws := memdb.NewWatchSet() iter1, err := state.DeploymentsByIDPrefix(ws, ns1.Name, sharedPrefix, SortDefault) require.NoError(t, err) iter2, err := state.DeploymentsByIDPrefix(ws, ns2.Name, sharedPrefix, SortDefault) require.NoError(t, err) deploysNs1 := gatherDeploys(iter1) deploysNs2 := gatherDeploys(iter2) require.Len(t, deploysNs1, 1) require.Len(t, deploysNs2, 1) iter1, err = state.DeploymentsByIDPrefix(ws, ns1.Name, deploy1.ID[:8], SortDefault) require.NoError(t, err) deploysNs1 = gatherDeploys(iter1) require.Len(t, deploysNs1, 1) require.False(t, watchFired(ws)) } func TestStateStore_UpsertNamespaces(t *testing.T) { ci.Parallel(t) state := testStateStore(t) ns1 := mock.Namespace() ns2 := mock.Namespace() // Create a watchset so we can test that upsert fires the watch ws := memdb.NewWatchSet() _, err := state.NamespaceByName(ws, ns1.Name) require.NoError(t, err) require.NoError(t, state.UpsertNamespaces(1000, []*structs.Namespace{ns1, ns2})) require.True(t, watchFired(ws)) ws = memdb.NewWatchSet() out, err := state.NamespaceByName(ws, ns1.Name) require.NoError(t, err) require.Equal(t, ns1, out) out, err = state.NamespaceByName(ws, ns2.Name) require.NoError(t, err) require.Equal(t, ns2, out) index, err := state.Index(TableNamespaces) require.NoError(t, err) require.EqualValues(t, 1000, index) require.False(t, watchFired(ws)) } func TestStateStore_DeleteNamespaces(t *testing.T) { ci.Parallel(t) state := testStateStore(t) ns1 := mock.Namespace() ns2 := mock.Namespace() require.NoError(t, state.UpsertNamespaces(1000, []*structs.Namespace{ns1, ns2})) // Create a watchset so we can test that delete fires the watch ws := memdb.NewWatchSet() _, err := state.NamespaceByName(ws, ns1.Name) require.NoError(t, err) require.NoError(t, state.DeleteNamespaces(1001, []string{ns1.Name, ns2.Name})) require.True(t, watchFired(ws)) ws = memdb.NewWatchSet() out, err := state.NamespaceByName(ws, ns1.Name) require.NoError(t, err) require.Nil(t, out) out, err = state.NamespaceByName(ws, ns2.Name) require.NoError(t, err) require.Nil(t, out) index, err := state.Index(TableNamespaces) require.NoError(t, err) require.EqualValues(t, 1001, index) require.False(t, watchFired(ws)) } func TestStateStore_DeleteNamespaces_Default(t *testing.T) { ci.Parallel(t) state := testStateStore(t) ns := mock.Namespace() ns.Name = structs.DefaultNamespace require.NoError(t, state.UpsertNamespaces(1000, []*structs.Namespace{ns})) err := state.DeleteNamespaces(1002, []string{ns.Name}) require.Error(t, err) require.Contains(t, err.Error(), "can not be deleted") } func TestStateStore_DeleteNamespaces_NonTerminalJobs(t *testing.T) { ci.Parallel(t) state := testStateStore(t) ns := mock.Namespace() require.NoError(t, state.UpsertNamespaces(1000, []*structs.Namespace{ns})) job := mock.Job() job.Namespace = ns.Name require.NoError(t, state.UpsertJob(structs.MsgTypeTestSetup, 1001, job)) // Create a watchset so we can test that delete fires the watch ws := memdb.NewWatchSet() _, err := state.NamespaceByName(ws, ns.Name) require.NoError(t, err) err = state.DeleteNamespaces(1002, []string{ns.Name}) require.Error(t, err) require.Contains(t, err.Error(), "one non-terminal") require.False(t, watchFired(ws)) ws = memdb.NewWatchSet() out, err := state.NamespaceByName(ws, ns.Name) require.NoError(t, err) require.NotNil(t, out) index, err := state.Index(TableNamespaces) require.NoError(t, err) require.EqualValues(t, 1000, index) require.False(t, watchFired(ws)) } func TestStateStore_Namespaces(t *testing.T) { ci.Parallel(t) state := testStateStore(t) var namespaces []*structs.Namespace for i := 0; i < 10; i++ { ns := mock.Namespace() namespaces = append(namespaces, ns) } require.NoError(t, state.UpsertNamespaces(1000, namespaces)) // Create a watchset so we can test that getters don't cause it to fire ws := memdb.NewWatchSet() iter, err := state.Namespaces(ws) require.NoError(t, err) var out []*structs.Namespace for { raw := iter.Next() if raw == nil { break } ns := raw.(*structs.Namespace) if ns.Name == structs.DefaultNamespace { continue } out = append(out, ns) } namespaceSort(namespaces) namespaceSort(out) require.Equal(t, namespaces, out) require.False(t, watchFired(ws)) } func TestStateStore_NamespaceNames(t *testing.T) { ci.Parallel(t) state := testStateStore(t) var namespaces []*structs.Namespace expectedNames := []string{structs.DefaultNamespace} for i := 0; i < 10; i++ { ns := mock.Namespace() namespaces = append(namespaces, ns) expectedNames = append(expectedNames, ns.Name) } err := state.UpsertNamespaces(1000, namespaces) require.NoError(t, err) found, err := state.NamespaceNames() require.NoError(t, err) sort.Strings(expectedNames) sort.Strings(found) require.Equal(t, expectedNames, found) } func TestStateStore_NamespaceByNamePrefix(t *testing.T) { ci.Parallel(t) state := testStateStore(t) ns := mock.Namespace() ns.Name = "foobar" require.NoError(t, state.UpsertNamespaces(1000, []*structs.Namespace{ns})) // Create a watchset so we can test that getters don't cause it to fire ws := memdb.NewWatchSet() iter, err := state.NamespacesByNamePrefix(ws, ns.Name) require.NoError(t, err) gatherNamespaces := func(iter memdb.ResultIterator) []*structs.Namespace { var namespaces []*structs.Namespace for { raw := iter.Next() if raw == nil { break } ns := raw.(*structs.Namespace) namespaces = append(namespaces, ns) } return namespaces } namespaces := gatherNamespaces(iter) require.Len(t, namespaces, 1) require.False(t, watchFired(ws)) iter, err = state.NamespacesByNamePrefix(ws, "foo") require.NoError(t, err) namespaces = gatherNamespaces(iter) require.Len(t, namespaces, 1) ns = mock.Namespace() ns.Name = "foozip" err = state.UpsertNamespaces(1001, []*structs.Namespace{ns}) require.NoError(t, err) require.True(t, watchFired(ws)) ws = memdb.NewWatchSet() iter, err = state.NamespacesByNamePrefix(ws, "foo") require.NoError(t, err) namespaces = gatherNamespaces(iter) require.Len(t, namespaces, 2) iter, err = state.NamespacesByNamePrefix(ws, "foob") require.NoError(t, err) namespaces = gatherNamespaces(iter) require.Len(t, namespaces, 1) require.False(t, watchFired(ws)) } func TestStateStore_RestoreNamespace(t *testing.T) { ci.Parallel(t) state := testStateStore(t) ns := mock.Namespace() restore, err := state.Restore() require.NoError(t, err) require.NoError(t, restore.NamespaceRestore(ns)) restore.Commit() ws := memdb.NewWatchSet() out, err := state.NamespaceByName(ws, ns.Name) require.NoError(t, err) require.Equal(t, out, ns) } // namespaceSort is used to sort namespaces by name func namespaceSort(namespaces []*structs.Namespace) { sort.Slice(namespaces, func(i, j int) bool { return namespaces[i].Name < namespaces[j].Name }) } func TestStateStore_UpsertNode_Node(t *testing.T) { ci.Parallel(t) require := require.New(t) state := testStateStore(t) node := mock.Node() // Create a watchset so we can test that upsert fires the watch ws := memdb.NewWatchSet() _, err := state.NodeByID(ws, node.ID) require.NoError(err) require.NoError(state.UpsertNode(structs.MsgTypeTestSetup, 1000, node)) require.True(watchFired(ws)) ws = memdb.NewWatchSet() out, err := state.NodeByID(ws, node.ID) require.NoError(err) out2, err := state.NodeBySecretID(ws, node.SecretID) require.NoError(err) require.EqualValues(node, out) require.EqualValues(node, out2) require.Len(out.Events, 1) require.Equal(NodeRegisterEventRegistered, out.Events[0].Message) index, err := state.Index("nodes") require.NoError(err) require.EqualValues(1000, index) require.False(watchFired(ws)) // Transition the node to down and then up and ensure we get a re-register // event down := out.Copy() down.Status = structs.NodeStatusDown require.NoError(state.UpsertNode(structs.MsgTypeTestSetup, 1001, down)) require.NoError(state.UpsertNode(structs.MsgTypeTestSetup, 1002, out)) out, err = state.NodeByID(ws, node.ID) require.NoError(err) require.Len(out.Events, 2) require.Equal(NodeRegisterEventReregistered, out.Events[1].Message) } func TestStateStore_DeleteNode_Node(t *testing.T) { ci.Parallel(t) state := testStateStore(t) // Create and insert two nodes, which we'll delete node0 := mock.Node() node1 := mock.Node() err := state.UpsertNode(structs.MsgTypeTestSetup, 1000, node0) require.NoError(t, err) err = state.UpsertNode(structs.MsgTypeTestSetup, 1001, node1) require.NoError(t, err) // Create a watchset so we can test that delete fires the watch ws := memdb.NewWatchSet() // Check that both nodes are not nil out, err := state.NodeByID(ws, node0.ID) require.NoError(t, err) require.NotNil(t, out) out, err = state.NodeByID(ws, node1.ID) require.NoError(t, err) require.NotNil(t, out) // Delete both nodes in a batch, fires the watch err = state.DeleteNode(structs.MsgTypeTestSetup, 1002, []string{node0.ID, node1.ID}) require.NoError(t, err) require.True(t, watchFired(ws)) // Check that both nodes are nil ws = memdb.NewWatchSet() out, err = state.NodeByID(ws, node0.ID) require.NoError(t, err) require.Nil(t, out) out, err = state.NodeByID(ws, node1.ID) require.NoError(t, err) require.Nil(t, out) // Ensure that the index is still at 1002, from DeleteNode index, err := state.Index("nodes") require.NoError(t, err) require.Equal(t, uint64(1002), index) require.False(t, watchFired(ws)) } func TestStateStore_UpdateNodeStatus_Node(t *testing.T) { ci.Parallel(t) require := require.New(t) state := testStateStore(t) node := mock.Node() require.NoError(state.UpsertNode(structs.MsgTypeTestSetup, 800, node)) // Create a watchset so we can test that update node status fires the watch ws := memdb.NewWatchSet() _, err := state.NodeByID(ws, node.ID) require.NoError(err) event := &structs.NodeEvent{ Message: "Node ready foo", Subsystem: structs.NodeEventSubsystemCluster, Timestamp: time.Now(), } require.NoError(state.UpdateNodeStatus(structs.MsgTypeTestSetup, 801, node.ID, structs.NodeStatusReady, 70, event)) require.True(watchFired(ws)) ws = memdb.NewWatchSet() out, err := state.NodeByID(ws, node.ID) require.NoError(err) require.Equal(structs.NodeStatusReady, out.Status) require.EqualValues(801, out.ModifyIndex) require.EqualValues(70, out.StatusUpdatedAt) require.Len(out.Events, 2) require.Equal(event.Message, out.Events[1].Message) index, err := state.Index("nodes") require.NoError(err) require.EqualValues(801, index) require.False(watchFired(ws)) } func TestStateStore_BatchUpdateNodeDrain(t *testing.T) { ci.Parallel(t) require := require.New(t) state := testStateStore(t) n1, n2 := mock.Node(), mock.Node() require.Nil(state.UpsertNode(structs.MsgTypeTestSetup, 1000, n1)) require.Nil(state.UpsertNode(structs.MsgTypeTestSetup, 1001, n2)) // Create a watchset so we can test that update node drain fires the watch ws := memdb.NewWatchSet() _, err := state.NodeByID(ws, n1.ID) require.Nil(err) expectedDrain := &structs.DrainStrategy{ DrainSpec: structs.DrainSpec{ Deadline: -1 * time.Second, }, } update := map[string]*structs.DrainUpdate{ n1.ID: { DrainStrategy: expectedDrain, }, n2.ID: { DrainStrategy: expectedDrain, }, } event := &structs.NodeEvent{ Message: "Drain strategy enabled", Subsystem: structs.NodeEventSubsystemDrain, Timestamp: time.Now(), } events := map[string]*structs.NodeEvent{ n1.ID: event, n2.ID: event, } require.Nil(state.BatchUpdateNodeDrain(structs.MsgTypeTestSetup, 1002, 7, update, events)) require.True(watchFired(ws)) ws = memdb.NewWatchSet() for _, id := range []string{n1.ID, n2.ID} { out, err := state.NodeByID(ws, id) require.Nil(err) require.NotNil(out.DrainStrategy) require.Equal(out.DrainStrategy, expectedDrain) require.NotNil(out.LastDrain) require.Equal(structs.DrainStatusDraining, out.LastDrain.Status) require.Len(out.Events, 2) require.EqualValues(1002, out.ModifyIndex) require.EqualValues(7, out.StatusUpdatedAt) } index, err := state.Index("nodes") require.Nil(err) require.EqualValues(1002, index) require.False(watchFired(ws)) } func TestStateStore_UpdateNodeDrain_Node(t *testing.T) { ci.Parallel(t) require := require.New(t) state := testStateStore(t) node := mock.Node() require.Nil(state.UpsertNode(structs.MsgTypeTestSetup, 1000, node)) // Create a watchset so we can test that update node drain fires the watch ws := memdb.NewWatchSet() _, err := state.NodeByID(ws, node.ID) require.Nil(err) expectedDrain := &structs.DrainStrategy{ DrainSpec: structs.DrainSpec{ Deadline: -1 * time.Second, }, } event := &structs.NodeEvent{ Message: "Drain strategy enabled", Subsystem: structs.NodeEventSubsystemDrain, Timestamp: time.Now(), } require.Nil(state.UpdateNodeDrain(structs.MsgTypeTestSetup, 1001, node.ID, expectedDrain, false, 7, event, nil, "")) require.True(watchFired(ws)) ws = memdb.NewWatchSet() out, err := state.NodeByID(ws, node.ID) require.Nil(err) require.NotNil(out.DrainStrategy) require.NotNil(out.LastDrain) require.Equal(structs.DrainStatusDraining, out.LastDrain.Status) require.Equal(out.DrainStrategy, expectedDrain) require.Len(out.Events, 2) require.EqualValues(1001, out.ModifyIndex) require.EqualValues(7, out.StatusUpdatedAt) index, err := state.Index("nodes") require.Nil(err) require.EqualValues(1001, index) require.False(watchFired(ws)) } func TestStateStore_AddSingleNodeEvent(t *testing.T) { ci.Parallel(t) require := require.New(t) state := testStateStore(t) node := mock.Node() // We create a new node event every time we register a node err := state.UpsertNode(structs.MsgTypeTestSetup, 1000, node) require.Nil(err) require.Equal(1, len(node.Events)) require.Equal(structs.NodeEventSubsystemCluster, node.Events[0].Subsystem) require.Equal(NodeRegisterEventRegistered, node.Events[0].Message) // Create a watchset so we can test that AddNodeEvent fires the watch ws := memdb.NewWatchSet() _, err = state.NodeByID(ws, node.ID) require.Nil(err) nodeEvent := &structs.NodeEvent{ Message: "failed", Subsystem: "Driver", Timestamp: time.Now(), } nodeEvents := map[string][]*structs.NodeEvent{ node.ID: {nodeEvent}, } err = state.UpsertNodeEvents(structs.MsgTypeTestSetup, uint64(1001), nodeEvents) require.Nil(err) require.True(watchFired(ws)) ws = memdb.NewWatchSet() out, err := state.NodeByID(ws, node.ID) require.Nil(err) require.Equal(2, len(out.Events)) require.Equal(nodeEvent, out.Events[1]) } // To prevent stale node events from accumulating, we limit the number of // stored node events to 10. func TestStateStore_NodeEvents_RetentionWindow(t *testing.T) { ci.Parallel(t) require := require.New(t) state := testStateStore(t) node := mock.Node() err := state.UpsertNode(structs.MsgTypeTestSetup, 1000, node) if err != nil { t.Fatalf("err: %v", err) } require.Equal(1, len(node.Events)) require.Equal(structs.NodeEventSubsystemCluster, node.Events[0].Subsystem) require.Equal(NodeRegisterEventRegistered, node.Events[0].Message) var out *structs.Node for i := 1; i <= 20; i++ { ws := memdb.NewWatchSet() out, err = state.NodeByID(ws, node.ID) require.Nil(err) nodeEvent := &structs.NodeEvent{ Message: fmt.Sprintf("%dith failed", i), Subsystem: "Driver", Timestamp: time.Now(), } nodeEvents := map[string][]*structs.NodeEvent{ out.ID: {nodeEvent}, } err := state.UpsertNodeEvents(structs.MsgTypeTestSetup, uint64(i), nodeEvents) require.Nil(err) require.True(watchFired(ws)) ws = memdb.NewWatchSet() out, err = state.NodeByID(ws, node.ID) require.Nil(err) } ws := memdb.NewWatchSet() out, err = state.NodeByID(ws, node.ID) require.Nil(err) require.Equal(10, len(out.Events)) require.Equal(uint64(11), out.Events[0].CreateIndex) require.Equal(uint64(20), out.Events[len(out.Events)-1].CreateIndex) } func TestStateStore_UpdateNodeDrain_ResetEligiblity(t *testing.T) { ci.Parallel(t) require := require.New(t) state := testStateStore(t) node := mock.Node() require.Nil(state.UpsertNode(structs.MsgTypeTestSetup, 1000, node)) // Create a watchset so we can test that update node drain fires the watch ws := memdb.NewWatchSet() _, err := state.NodeByID(ws, node.ID) require.Nil(err) drain := &structs.DrainStrategy{ DrainSpec: structs.DrainSpec{ Deadline: -1 * time.Second, }, } event1 := &structs.NodeEvent{ Message: "Drain strategy enabled", Subsystem: structs.NodeEventSubsystemDrain, Timestamp: time.Now(), } require.Nil(state.UpdateNodeDrain(structs.MsgTypeTestSetup, 1001, node.ID, drain, false, 7, event1, nil, "")) require.True(watchFired(ws)) // Remove the drain event2 := &structs.NodeEvent{ Message: "Drain strategy disabled", Subsystem: structs.NodeEventSubsystemDrain, Timestamp: time.Now(), } require.Nil(state.UpdateNodeDrain(structs.MsgTypeTestSetup, 1002, node.ID, nil, true, 9, event2, nil, "")) ws = memdb.NewWatchSet() out, err := state.NodeByID(ws, node.ID) require.Nil(err) require.Nil(out.DrainStrategy) require.Equal(out.SchedulingEligibility, structs.NodeSchedulingEligible) require.NotNil(out.LastDrain) require.Equal(structs.DrainStatusCanceled, out.LastDrain.Status) require.Equal(time.Unix(7, 0), out.LastDrain.StartedAt) require.Equal(time.Unix(9, 0), out.LastDrain.UpdatedAt) require.Len(out.Events, 3) require.EqualValues(1002, out.ModifyIndex) require.EqualValues(9, out.StatusUpdatedAt) index, err := state.Index("nodes") require.Nil(err) require.EqualValues(1002, index) require.False(watchFired(ws)) } func TestStateStore_UpdateNodeEligibility(t *testing.T) { ci.Parallel(t) require := require.New(t) state := testStateStore(t) node := mock.Node() err := state.UpsertNode(structs.MsgTypeTestSetup, 1000, node) if err != nil { t.Fatalf("err: %v", err) } expectedEligibility := structs.NodeSchedulingIneligible // Create a watchset so we can test that update node drain fires the watch ws := memdb.NewWatchSet() if _, err := state.NodeByID(ws, node.ID); err != nil { t.Fatalf("bad: %v", err) } event := &structs.NodeEvent{ Message: "Node marked as ineligible", Subsystem: structs.NodeEventSubsystemCluster, Timestamp: time.Now(), } require.Nil(state.UpdateNodeEligibility(structs.MsgTypeTestSetup, 1001, node.ID, expectedEligibility, 7, event)) require.True(watchFired(ws)) ws = memdb.NewWatchSet() out, err := state.NodeByID(ws, node.ID) require.Nil(err) require.Equal(out.SchedulingEligibility, expectedEligibility) require.Len(out.Events, 2) require.Equal(out.Events[1], event) require.EqualValues(1001, out.ModifyIndex) require.EqualValues(7, out.StatusUpdatedAt) index, err := state.Index("nodes") require.Nil(err) require.EqualValues(1001, index) require.False(watchFired(ws)) // Set a drain strategy expectedDrain := &structs.DrainStrategy{ DrainSpec: structs.DrainSpec{ Deadline: -1 * time.Second, }, } require.Nil(state.UpdateNodeDrain(structs.MsgTypeTestSetup, 1002, node.ID, expectedDrain, false, 7, nil, nil, "")) // Try to set the node to eligible err = state.UpdateNodeEligibility(structs.MsgTypeTestSetup, 1003, node.ID, structs.NodeSchedulingEligible, 9, nil) require.NotNil(err) require.Contains(err.Error(), "while it is draining") } func TestStateStore_Nodes(t *testing.T) { ci.Parallel(t) state := testStateStore(t) var nodes []*structs.Node for i := 0; i < 10; i++ { node := mock.Node() nodes = append(nodes, node) err := state.UpsertNode(structs.MsgTypeTestSetup, 1000+uint64(i), node) if err != nil { t.Fatalf("err: %v", err) } } // Create a watchset so we can test that getters don't cause it to fire ws := memdb.NewWatchSet() iter, err := state.Nodes(ws) if err != nil { t.Fatalf("bad: %v", err) } var out []*structs.Node for { raw := iter.Next() if raw == nil { break } out = append(out, raw.(*structs.Node)) } sort.Sort(NodeIDSort(nodes)) sort.Sort(NodeIDSort(out)) if !reflect.DeepEqual(nodes, out) { t.Fatalf("bad: %#v %#v", nodes, out) } if watchFired(ws) { t.Fatalf("bad") } } func TestStateStore_NodesByIDPrefix(t *testing.T) { ci.Parallel(t) state := testStateStore(t) node := mock.Node() node.ID = "11111111-662e-d0ab-d1c9-3e434af7bdb4" err := state.UpsertNode(structs.MsgTypeTestSetup, 1000, node) if err != nil { t.Fatalf("err: %v", err) } // Create a watchset so we can test that getters don't cause it to fire ws := memdb.NewWatchSet() iter, err := state.NodesByIDPrefix(ws, node.ID) if err != nil { t.Fatalf("err: %v", err) } gatherNodes := func(iter memdb.ResultIterator) []*structs.Node { var nodes []*structs.Node for { raw := iter.Next() if raw == nil { break } node := raw.(*structs.Node) nodes = append(nodes, node) } return nodes } nodes := gatherNodes(iter) if len(nodes) != 1 { t.Fatalf("err: %v", err) } if watchFired(ws) { t.Fatalf("bad") } iter, err = state.NodesByIDPrefix(ws, "11") if err != nil { t.Fatalf("err: %v", err) } nodes = gatherNodes(iter) if len(nodes) != 1 { t.Fatalf("err: %v", err) } node = mock.Node() node.ID = "11222222-662e-d0ab-d1c9-3e434af7bdb4" err = state.UpsertNode(structs.MsgTypeTestSetup, 1001, node) if err != nil { t.Fatalf("err: %v", err) } if !watchFired(ws) { t.Fatalf("bad") } ws = memdb.NewWatchSet() iter, err = state.NodesByIDPrefix(ws, "11") if err != nil { t.Fatalf("err: %v", err) } nodes = gatherNodes(iter) if len(nodes) != 2 { t.Fatalf("err: %v", err) } iter, err = state.NodesByIDPrefix(ws, "1111") if err != nil { t.Fatalf("err: %v", err) } nodes = gatherNodes(iter) if len(nodes) != 1 { t.Fatalf("err: %v", err) } if watchFired(ws) { t.Fatalf("bad") } } func TestStateStore_UpsertJob_Job(t *testing.T) { ci.Parallel(t) state := testStateStore(t) job := mock.Job() // Create a watchset so we can test that upsert fires the watch ws := memdb.NewWatchSet() _, err := state.JobByID(ws, job.Namespace, job.ID) if err != nil { t.Fatalf("bad: %v", err) } if err := state.UpsertJob(structs.MsgTypeTestSetup, 1000, job); err != nil { t.Fatalf("err: %v", err) } if !watchFired(ws) { t.Fatalf("bad") } ws = memdb.NewWatchSet() out, err := state.JobByID(ws, job.Namespace, job.ID) if err != nil { t.Fatalf("err: %v", err) } if !reflect.DeepEqual(job, out) { t.Fatalf("bad: %#v %#v", job, out) } index, err := state.Index("jobs") if err != nil { t.Fatalf("err: %v", err) } if index != 1000 { t.Fatalf("bad: %d", index) } summary, err := state.JobSummaryByID(ws, job.Namespace, job.ID) if err != nil { t.Fatalf("err: %v", err) } if summary == nil { t.Fatalf("nil summary") } if summary.JobID != job.ID { t.Fatalf("bad summary id: %v", summary.JobID) } _, ok := summary.Summary["web"] if !ok { t.Fatalf("nil summary for task group") } if watchFired(ws) { t.Fatalf("bad") } // Check the job versions allVersions, err := state.JobVersionsByID(ws, job.Namespace, job.ID) if err != nil { t.Fatalf("err: %v", err) } if len(allVersions) != 1 { t.Fatalf("got %d; want 1", len(allVersions)) } if a := allVersions[0]; a.ID != job.ID || a.Version != 0 { t.Fatalf("bad: %v", a) } // Test the looking up the job by version returns the same results vout, err := state.JobByIDAndVersion(ws, job.Namespace, job.ID, 0) if err != nil { t.Fatalf("err: %v", err) } if !reflect.DeepEqual(out, vout) { t.Fatalf("bad: %#v %#v", out, vout) } } func TestStateStore_UpdateUpsertJob_Job(t *testing.T) { ci.Parallel(t) state := testStateStore(t) job := mock.Job() // Create a watchset so we can test that upsert fires the watch ws := memdb.NewWatchSet() _, err := state.JobByID(ws, job.Namespace, job.ID) if err != nil { t.Fatalf("bad: %v", err) } if err := state.UpsertJob(structs.MsgTypeTestSetup, 1000, job); err != nil { t.Fatalf("err: %v", err) } job2 := mock.Job() job2.ID = job.ID job2.AllAtOnce = true err = state.UpsertJob(structs.MsgTypeTestSetup, 1001, job2) if err != nil { t.Fatalf("err: %v", err) } if !watchFired(ws) { t.Fatalf("bad") } ws = memdb.NewWatchSet() out, err := state.JobByID(ws, job.Namespace, job.ID) if err != nil { t.Fatalf("err: %v", err) } if !reflect.DeepEqual(job2, out) { t.Fatalf("bad: %#v %#v", job2, out) } if out.CreateIndex != 1000 { t.Fatalf("bad: %#v", out) } if out.ModifyIndex != 1001 { t.Fatalf("bad: %#v", out) } if out.Version != 1 { t.Fatalf("bad: %#v", out) } index, err := state.Index("jobs") if err != nil { t.Fatalf("err: %v", err) } if index != 1001 { t.Fatalf("bad: %d", index) } // Test the looking up the job by version returns the same results vout, err := state.JobByIDAndVersion(ws, job.Namespace, job.ID, 1) if err != nil { t.Fatalf("err: %v", err) } if !reflect.DeepEqual(out, vout) { t.Fatalf("bad: %#v %#v", out, vout) } // Test that the job summary remains the same if the job is updated but // count remains same summary, err := state.JobSummaryByID(ws, job.Namespace, job.ID) if err != nil { t.Fatalf("err: %v", err) } if summary == nil { t.Fatalf("nil summary") } if summary.JobID != job.ID { t.Fatalf("bad summary id: %v", summary.JobID) } _, ok := summary.Summary["web"] if !ok { t.Fatalf("nil summary for task group") } // Check the job versions allVersions, err := state.JobVersionsByID(ws, job.Namespace, job.ID) if err != nil { t.Fatalf("err: %v", err) } if len(allVersions) != 2 { t.Fatalf("got %d; want 1", len(allVersions)) } if a := allVersions[0]; a.ID != job.ID || a.Version != 1 || !a.AllAtOnce { t.Fatalf("bad: %+v", a) } if a := allVersions[1]; a.ID != job.ID || a.Version != 0 || a.AllAtOnce { t.Fatalf("bad: %+v", a) } if watchFired(ws) { t.Fatalf("bad") } } func TestStateStore_UpdateUpsertJob_PeriodicJob(t *testing.T) { ci.Parallel(t) state := testStateStore(t) job := mock.PeriodicJob() // Create a watchset so we can test that upsert fires the watch ws := memdb.NewWatchSet() _, err := state.JobByID(ws, job.Namespace, job.ID) if err != nil { t.Fatalf("bad: %v", err) } if err := state.UpsertJob(structs.MsgTypeTestSetup, 1000, job); err != nil { t.Fatalf("err: %v", err) } // Create a child and an evaluation job2 := job.Copy() job2.Periodic = nil job2.ID = fmt.Sprintf("%v/%s-1490635020", job.ID, structs.PeriodicLaunchSuffix) err = state.UpsertJob(structs.MsgTypeTestSetup, 1001, job2) if err != nil { t.Fatalf("err: %v", err) } eval := mock.Eval() eval.JobID = job2.ID err = state.UpsertEvals(structs.MsgTypeTestSetup, 1002, []*structs.Evaluation{eval}) if err != nil { t.Fatalf("err: %v", err) } job3 := job.Copy() job3.TaskGroups[0].Tasks[0].Name = "new name" err = state.UpsertJob(structs.MsgTypeTestSetup, 1003, job3) if err != nil { t.Fatalf("err: %v", err) } if !watchFired(ws) { t.Fatalf("bad") } ws = memdb.NewWatchSet() out, err := state.JobByID(ws, job.Namespace, job.ID) if err != nil { t.Fatalf("err: %v", err) } if s, e := out.Status, structs.JobStatusRunning; s != e { t.Fatalf("got status %v; want %v", s, e) } } func TestStateStore_UpsertJob_BadNamespace(t *testing.T) { ci.Parallel(t) assert := assert.New(t) state := testStateStore(t) job := mock.Job() job.Namespace = "foo" err := state.UpsertJob(structs.MsgTypeTestSetup, 1000, job) assert.Contains(err.Error(), "nonexistent namespace") ws := memdb.NewWatchSet() out, err := state.JobByID(ws, job.Namespace, job.ID) assert.Nil(err) assert.Nil(out) } // Upsert a job that is the child of a parent job and ensures its summary gets // updated. func TestStateStore_UpsertJob_ChildJob(t *testing.T) { ci.Parallel(t) state := testStateStore(t) // Create a watchset so we can test that upsert fires the watch parent := mock.Job() ws := memdb.NewWatchSet() _, err := state.JobByID(ws, parent.Namespace, parent.ID) if err != nil { t.Fatalf("bad: %v", err) } if err := state.UpsertJob(structs.MsgTypeTestSetup, 1000, parent); err != nil { t.Fatalf("err: %v", err) } child := mock.Job() child.Status = "" child.ParentID = parent.ID if err := state.UpsertJob(structs.MsgTypeTestSetup, 1001, child); err != nil { t.Fatalf("err: %v", err) } summary, err := state.JobSummaryByID(ws, parent.Namespace, parent.ID) if err != nil { t.Fatalf("err: %v", err) } if summary == nil { t.Fatalf("nil summary") } if summary.JobID != parent.ID { t.Fatalf("bad summary id: %v", parent.ID) } if summary.Children == nil { t.Fatalf("nil children summary") } if summary.Children.Pending != 1 || summary.Children.Running != 0 || summary.Children.Dead != 0 { t.Fatalf("bad children summary: %v", summary.Children) } if !watchFired(ws) { t.Fatalf("bad") } } func TestStateStore_UpdateUpsertJob_JobVersion(t *testing.T) { ci.Parallel(t) state := testStateStore(t) // Create a job and mark it as stable job := mock.Job() job.Stable = true job.Name = "0" // Create a watchset so we can test that upsert fires the watch ws := memdb.NewWatchSet() _, err := state.JobVersionsByID(ws, job.Namespace, job.ID) if err != nil { t.Fatalf("bad: %v", err) } if err := state.UpsertJob(structs.MsgTypeTestSetup, 1000, job); err != nil { t.Fatalf("err: %v", err) } if !watchFired(ws) { t.Fatalf("bad") } var finalJob *structs.Job for i := 1; i < 300; i++ { finalJob = mock.Job() finalJob.ID = job.ID finalJob.Name = fmt.Sprintf("%d", i) err = state.UpsertJob(structs.MsgTypeTestSetup, uint64(1000+i), finalJob) if err != nil { t.Fatalf("err: %v", err) } } ws = memdb.NewWatchSet() out, err := state.JobByID(ws, job.Namespace, job.ID) if err != nil { t.Fatalf("err: %v", err) } if !reflect.DeepEqual(finalJob, out) { t.Fatalf("bad: %#v %#v", finalJob, out) } if out.CreateIndex != 1000 { t.Fatalf("bad: %#v", out) } if out.ModifyIndex != 1299 { t.Fatalf("bad: %#v", out) } if out.Version != 299 { t.Fatalf("bad: %#v", out) } index, err := state.Index("job_version") if err != nil { t.Fatalf("err: %v", err) } if index != 1299 { t.Fatalf("bad: %d", index) } // Check the job versions allVersions, err := state.JobVersionsByID(ws, job.Namespace, job.ID) if err != nil { t.Fatalf("err: %v", err) } if len(allVersions) != structs.JobTrackedVersions { t.Fatalf("got %d; want %d", len(allVersions), structs.JobTrackedVersions) } if a := allVersions[0]; a.ID != job.ID || a.Version != 299 || a.Name != "299" { t.Fatalf("bad: %+v", a) } if a := allVersions[1]; a.ID != job.ID || a.Version != 298 || a.Name != "298" { t.Fatalf("bad: %+v", a) } // Ensure we didn't delete the stable job if a := allVersions[structs.JobTrackedVersions-1]; a.ID != job.ID || a.Version != 0 || a.Name != "0" || !a.Stable { t.Fatalf("bad: %+v", a) } if watchFired(ws) { t.Fatalf("bad") } } func TestStateStore_DeleteJob_Job(t *testing.T) { ci.Parallel(t) state := testStateStore(t) job := mock.Job() err := state.UpsertJob(structs.MsgTypeTestSetup, 1000, job) if err != nil { t.Fatalf("err: %v", err) } // Create a watchset so we can test that delete fires the watch ws := memdb.NewWatchSet() if _, err := state.JobByID(ws, job.Namespace, job.ID); err != nil { t.Fatalf("bad: %v", err) } err = state.DeleteJob(1001, job.Namespace, job.ID) if err != nil { t.Fatalf("err: %v", err) } if !watchFired(ws) { t.Fatalf("bad") } ws = memdb.NewWatchSet() out, err := state.JobByID(ws, job.Namespace, job.ID) if err != nil { t.Fatalf("err: %v", err) } if out != nil { t.Fatalf("bad: %#v %#v", job, out) } index, err := state.Index("jobs") if err != nil { t.Fatalf("err: %v", err) } if index != 1001 { t.Fatalf("bad: %d", index) } summary, err := state.JobSummaryByID(ws, job.Namespace, job.ID) if err != nil { t.Fatalf("err: %v", err) } if summary != nil { t.Fatalf("expected summary to be nil, but got: %v", summary) } index, err = state.Index("job_summary") if err != nil { t.Fatalf("err: %v", err) } if index != 1001 { t.Fatalf("bad: %d", index) } versions, err := state.JobVersionsByID(ws, job.Namespace, job.ID) if err != nil { t.Fatalf("err: %v", err) } if len(versions) != 0 { t.Fatalf("expected no job versions") } index, err = state.Index("job_summary") if err != nil { t.Fatalf("err: %v", err) } if index != 1001 { t.Fatalf("bad: %d", index) } if watchFired(ws) { t.Fatalf("bad") } } func TestStateStore_DeleteJobTxn_BatchDeletes(t *testing.T) { ci.Parallel(t) state := testStateStore(t) const testJobCount = 10 const jobVersionCount = 4 stateIndex := uint64(1000) jobs := make([]*structs.Job, testJobCount) for i := 0; i < testJobCount; i++ { stateIndex++ job := mock.BatchJob() err := state.UpsertJob(structs.MsgTypeTestSetup, stateIndex, job) require.NoError(t, err) jobs[i] = job // Create some versions for vi := 1; vi < jobVersionCount; vi++ { stateIndex++ job := job.Copy() job.TaskGroups[0].Tasks[0].Env = map[string]string{ "Version": fmt.Sprintf("%d", vi), } require.NoError(t, state.UpsertJob(structs.MsgTypeTestSetup, stateIndex, job)) } } ws := memdb.NewWatchSet() // Check that jobs are present in DB job, err := state.JobByID(ws, jobs[0].Namespace, jobs[0].ID) require.NoError(t, err) require.Equal(t, jobs[0].ID, job.ID) jobVersions, err := state.JobVersionsByID(ws, jobs[0].Namespace, jobs[0].ID) require.NoError(t, err) require.Equal(t, jobVersionCount, len(jobVersions)) // Actually delete const deletionIndex = uint64(10001) err = state.WithWriteTransaction(structs.MsgTypeTestSetup, deletionIndex, func(txn Txn) error { for i, job := range jobs { err := state.DeleteJobTxn(deletionIndex, job.Namespace, job.ID, txn) require.NoError(t, err, "failed at %d %e", i, err) } return nil }) assert.NoError(t, err) assert.True(t, watchFired(ws)) ws = memdb.NewWatchSet() out, err := state.JobByID(ws, jobs[0].Namespace, jobs[0].ID) require.NoError(t, err) require.Nil(t, out) jobVersions, err = state.JobVersionsByID(ws, jobs[0].Namespace, jobs[0].ID) require.NoError(t, err) require.Empty(t, jobVersions) index, err := state.Index("jobs") require.NoError(t, err) require.Equal(t, deletionIndex, index) } func TestStateStore_DeleteJob_MultipleVersions(t *testing.T) { ci.Parallel(t) state := testStateStore(t) assert := assert.New(t) // Create a job and mark it as stable job := mock.Job() job.Stable = true job.Priority = 0 // Create a watchset so we can test that upsert fires the watch ws := memdb.NewWatchSet() _, err := state.JobVersionsByID(ws, job.Namespace, job.ID) assert.Nil(err) assert.Nil(state.UpsertJob(structs.MsgTypeTestSetup, 1000, job)) assert.True(watchFired(ws)) var finalJob *structs.Job for i := 1; i < 20; i++ { finalJob = mock.Job() finalJob.ID = job.ID finalJob.Priority = i assert.Nil(state.UpsertJob(structs.MsgTypeTestSetup, uint64(1000+i), finalJob)) } assert.Nil(state.DeleteJob(1020, job.Namespace, job.ID)) assert.True(watchFired(ws)) ws = memdb.NewWatchSet() out, err := state.JobByID(ws, job.Namespace, job.ID) assert.Nil(err) assert.Nil(out) index, err := state.Index("jobs") assert.Nil(err) assert.EqualValues(1020, index) summary, err := state.JobSummaryByID(ws, job.Namespace, job.ID) assert.Nil(err) assert.Nil(summary) index, err = state.Index("job_version") assert.Nil(err) assert.EqualValues(1020, index) versions, err := state.JobVersionsByID(ws, job.Namespace, job.ID) assert.Nil(err) assert.Len(versions, 0) index, err = state.Index("job_summary") assert.Nil(err) assert.EqualValues(1020, index) assert.False(watchFired(ws)) } func TestStateStore_DeleteJob_ChildJob(t *testing.T) { ci.Parallel(t) state := testStateStore(t) parent := mock.Job() if err := state.UpsertJob(structs.MsgTypeTestSetup, 998, parent); err != nil { t.Fatalf("err: %v", err) } child := mock.Job() child.Status = "" child.ParentID = parent.ID if err := state.UpsertJob(structs.MsgTypeTestSetup, 999, child); err != nil { t.Fatalf("err: %v", err) } // Create a watchset so we can test that delete fires the watch ws := memdb.NewWatchSet() if _, err := state.JobSummaryByID(ws, parent.Namespace, parent.ID); err != nil { t.Fatalf("bad: %v", err) } err := state.DeleteJob(1001, child.Namespace, child.ID) if err != nil { t.Fatalf("err: %v", err) } if !watchFired(ws) { t.Fatalf("bad") } ws = memdb.NewWatchSet() summary, err := state.JobSummaryByID(ws, parent.Namespace, parent.ID) if err != nil { t.Fatalf("err: %v", err) } if summary == nil { t.Fatalf("nil summary") } if summary.JobID != parent.ID { t.Fatalf("bad summary id: %v", parent.ID) } if summary.Children == nil { t.Fatalf("nil children summary") } if summary.Children.Pending != 0 || summary.Children.Running != 0 || summary.Children.Dead != 1 { t.Fatalf("bad children summary: %v", summary.Children) } if watchFired(ws) { t.Fatalf("bad") } } func TestStateStore_Jobs(t *testing.T) { ci.Parallel(t) state := testStateStore(t) var jobs []*structs.Job for i := 0; i < 10; i++ { job := mock.Job() jobs = append(jobs, job) err := state.UpsertJob(structs.MsgTypeTestSetup, 1000+uint64(i), job) if err != nil { t.Fatalf("err: %v", err) } } ws := memdb.NewWatchSet() iter, err := state.Jobs(ws) if err != nil { t.Fatalf("err: %v", err) } var out []*structs.Job for { raw := iter.Next() if raw == nil { break } out = append(out, raw.(*structs.Job)) } sort.Sort(JobIDSort(jobs)) sort.Sort(JobIDSort(out)) if !reflect.DeepEqual(jobs, out) { t.Fatalf("bad: %#v %#v", jobs, out) } if watchFired(ws) { t.Fatalf("bad") } } func TestStateStore_JobVersions(t *testing.T) { ci.Parallel(t) state := testStateStore(t) var jobs []*structs.Job for i := 0; i < 10; i++ { job := mock.Job() jobs = append(jobs, job) err := state.UpsertJob(structs.MsgTypeTestSetup, 1000+uint64(i), job) if err != nil { t.Fatalf("err: %v", err) } } ws := memdb.NewWatchSet() iter, err := state.JobVersions(ws) if err != nil { t.Fatalf("err: %v", err) } var out []*structs.Job for { raw := iter.Next() if raw == nil { break } out = append(out, raw.(*structs.Job)) } sort.Sort(JobIDSort(jobs)) sort.Sort(JobIDSort(out)) if !reflect.DeepEqual(jobs, out) { t.Fatalf("bad: %#v %#v", jobs, out) } if watchFired(ws) { t.Fatalf("bad") } } func TestStateStore_JobsByIDPrefix(t *testing.T) { ci.Parallel(t) state := testStateStore(t) job := mock.Job() job.ID = "redis" err := state.UpsertJob(structs.MsgTypeTestSetup, 1000, job) if err != nil { t.Fatalf("err: %v", err) } ws := memdb.NewWatchSet() iter, err := state.JobsByIDPrefix(ws, job.Namespace, job.ID) if err != nil { t.Fatalf("err: %v", err) } gatherJobs := func(iter memdb.ResultIterator) []*structs.Job { var jobs []*structs.Job for { raw := iter.Next() if raw == nil { break } jobs = append(jobs, raw.(*structs.Job)) } return jobs } jobs := gatherJobs(iter) if len(jobs) != 1 { t.Fatalf("err: %v", err) } iter, err = state.JobsByIDPrefix(ws, job.Namespace, "re") if err != nil { t.Fatalf("err: %v", err) } jobs = gatherJobs(iter) if len(jobs) != 1 { t.Fatalf("err: %v", err) } if watchFired(ws) { t.Fatalf("bad") } job = mock.Job() job.ID = "riak" err = state.UpsertJob(structs.MsgTypeTestSetup, 1001, job) if err != nil { t.Fatalf("err: %v", err) } if !watchFired(ws) { t.Fatalf("bad") } ws = memdb.NewWatchSet() iter, err = state.JobsByIDPrefix(ws, job.Namespace, "r") if err != nil { t.Fatalf("err: %v", err) } jobs = gatherJobs(iter) if len(jobs) != 2 { t.Fatalf("err: %v", err) } iter, err = state.JobsByIDPrefix(ws, job.Namespace, "ri") if err != nil { t.Fatalf("err: %v", err) } jobs = gatherJobs(iter) if len(jobs) != 1 { t.Fatalf("err: %v", err) } if watchFired(ws) { t.Fatalf("bad") } } func TestStateStore_JobsByIDPrefix_Namespaces(t *testing.T) { ci.Parallel(t) state := testStateStore(t) job1 := mock.Job() job2 := mock.Job() ns1 := mock.Namespace() ns1.Name = "namespace1" ns2 := mock.Namespace() ns2.Name = "namespace2" jobID := "redis" job1.ID = jobID job2.ID = jobID job1.Namespace = ns1.Name job2.Namespace = ns2.Name require.NoError(t, state.UpsertNamespaces(998, []*structs.Namespace{ns1, ns2})) require.NoError(t, state.UpsertJob(structs.MsgTypeTestSetup, 1000, job1)) require.NoError(t, state.UpsertJob(structs.MsgTypeTestSetup, 1001, job2)) gatherJobs := func(iter memdb.ResultIterator) []*structs.Job { var jobs []*structs.Job for { raw := iter.Next() if raw == nil { break } jobs = append(jobs, raw.(*structs.Job)) } return jobs } // Try full match ws := memdb.NewWatchSet() iter1, err := state.JobsByIDPrefix(ws, ns1.Name, jobID) require.NoError(t, err) iter2, err := state.JobsByIDPrefix(ws, ns2.Name, jobID) require.NoError(t, err) jobsNs1 := gatherJobs(iter1) require.Len(t, jobsNs1, 1) jobsNs2 := gatherJobs(iter2) require.Len(t, jobsNs2, 1) // Try prefix iter1, err = state.JobsByIDPrefix(ws, ns1.Name, "re") require.NoError(t, err) iter2, err = state.JobsByIDPrefix(ws, ns2.Name, "re") require.NoError(t, err) jobsNs1 = gatherJobs(iter1) jobsNs2 = gatherJobs(iter2) require.Len(t, jobsNs1, 1) require.Len(t, jobsNs2, 1) job3 := mock.Job() job3.ID = "riak" job3.Namespace = ns1.Name require.NoError(t, state.UpsertJob(structs.MsgTypeTestSetup, 1003, job3)) require.True(t, watchFired(ws)) ws = memdb.NewWatchSet() iter1, err = state.JobsByIDPrefix(ws, ns1.Name, "r") require.NoError(t, err) iter2, err = state.JobsByIDPrefix(ws, ns2.Name, "r") require.NoError(t, err) jobsNs1 = gatherJobs(iter1) jobsNs2 = gatherJobs(iter2) require.Len(t, jobsNs1, 2) require.Len(t, jobsNs2, 1) iter1, err = state.JobsByIDPrefix(ws, ns1.Name, "ri") require.NoError(t, err) jobsNs1 = gatherJobs(iter1) require.Len(t, jobsNs1, 1) require.False(t, watchFired(ws)) } func TestStateStore_JobsByNamespace(t *testing.T) { ci.Parallel(t) state := testStateStore(t) ns1 := mock.Namespace() ns1.Name = "new" job1 := mock.Job() job2 := mock.Job() job1.Namespace = ns1.Name job2.Namespace = ns1.Name ns2 := mock.Namespace() ns2.Name = "new-namespace" job3 := mock.Job() job4 := mock.Job() job3.Namespace = ns2.Name job4.Namespace = ns2.Name require.NoError(t, state.UpsertNamespaces(998, []*structs.Namespace{ns1, ns2})) // Create watchsets so we can test that update fires the watch watches := []memdb.WatchSet{memdb.NewWatchSet(), memdb.NewWatchSet()} _, err := state.JobsByNamespace(watches[0], ns1.Name) require.NoError(t, err) _, err = state.JobsByNamespace(watches[1], ns2.Name) require.NoError(t, err) require.NoError(t, state.UpsertJob(structs.MsgTypeTestSetup, 1001, job1)) require.NoError(t, state.UpsertJob(structs.MsgTypeTestSetup, 1002, job2)) require.NoError(t, state.UpsertJob(structs.MsgTypeTestSetup, 1003, job3)) require.NoError(t, state.UpsertJob(structs.MsgTypeTestSetup, 1004, job4)) require.True(t, watchFired(watches[0])) require.True(t, watchFired(watches[1])) ws := memdb.NewWatchSet() iter1, err := state.JobsByNamespace(ws, ns1.Name) require.NoError(t, err) iter2, err := state.JobsByNamespace(ws, ns2.Name) require.NoError(t, err) var out1 []*structs.Job for { raw := iter1.Next() if raw == nil { break } out1 = append(out1, raw.(*structs.Job)) } var out2 []*structs.Job for { raw := iter2.Next() if raw == nil { break } out2 = append(out2, raw.(*structs.Job)) } require.Len(t, out1, 2) require.Len(t, out2, 2) for _, job := range out1 { require.Equal(t, ns1.Name, job.Namespace) } for _, job := range out2 { require.Equal(t, ns2.Name, job.Namespace) } index, err := state.Index("jobs") require.NoError(t, err) require.EqualValues(t, 1004, index) require.False(t, watchFired(ws)) } func TestStateStore_JobsByPeriodic(t *testing.T) { ci.Parallel(t) state := testStateStore(t) var periodic, nonPeriodic []*structs.Job for i := 0; i < 10; i++ { job := mock.Job() nonPeriodic = append(nonPeriodic, job) err := state.UpsertJob(structs.MsgTypeTestSetup, 1000+uint64(i), job) if err != nil { t.Fatalf("err: %v", err) } } for i := 0; i < 10; i++ { job := mock.PeriodicJob() periodic = append(periodic, job) err := state.UpsertJob(structs.MsgTypeTestSetup, 2000+uint64(i), job) if err != nil { t.Fatalf("err: %v", err) } } ws := memdb.NewWatchSet() iter, err := state.JobsByPeriodic(ws, true) if err != nil { t.Fatalf("err: %v", err) } var outPeriodic []*structs.Job for { raw := iter.Next() if raw == nil { break } outPeriodic = append(outPeriodic, raw.(*structs.Job)) } iter, err = state.JobsByPeriodic(ws, false) if err != nil { t.Fatalf("err: %v", err) } var outNonPeriodic []*structs.Job for { raw := iter.Next() if raw == nil { break } outNonPeriodic = append(outNonPeriodic, raw.(*structs.Job)) } sort.Sort(JobIDSort(periodic)) sort.Sort(JobIDSort(nonPeriodic)) sort.Sort(JobIDSort(outPeriodic)) sort.Sort(JobIDSort(outNonPeriodic)) if !reflect.DeepEqual(periodic, outPeriodic) { t.Fatalf("bad: %#v %#v", periodic, outPeriodic) } if !reflect.DeepEqual(nonPeriodic, outNonPeriodic) { t.Fatalf("bad: %#v %#v", nonPeriodic, outNonPeriodic) } if watchFired(ws) { t.Fatalf("bad") } } func TestStateStore_JobsByScheduler(t *testing.T) { ci.Parallel(t) state := testStateStore(t) var serviceJobs []*structs.Job var sysJobs []*structs.Job for i := 0; i < 10; i++ { job := mock.Job() serviceJobs = append(serviceJobs, job) err := state.UpsertJob(structs.MsgTypeTestSetup, 1000+uint64(i), job) if err != nil { t.Fatalf("err: %v", err) } } for i := 0; i < 10; i++ { job := mock.SystemJob() job.Status = structs.JobStatusRunning sysJobs = append(sysJobs, job) err := state.UpsertJob(structs.MsgTypeTestSetup, 2000+uint64(i), job) if err != nil { t.Fatalf("err: %v", err) } } ws := memdb.NewWatchSet() iter, err := state.JobsByScheduler(ws, "service") if err != nil { t.Fatalf("err: %v", err) } var outService []*structs.Job for { raw := iter.Next() if raw == nil { break } outService = append(outService, raw.(*structs.Job)) } iter, err = state.JobsByScheduler(ws, "system") if err != nil { t.Fatalf("err: %v", err) } var outSystem []*structs.Job for { raw := iter.Next() if raw == nil { break } outSystem = append(outSystem, raw.(*structs.Job)) } sort.Sort(JobIDSort(serviceJobs)) sort.Sort(JobIDSort(sysJobs)) sort.Sort(JobIDSort(outService)) sort.Sort(JobIDSort(outSystem)) if !reflect.DeepEqual(serviceJobs, outService) { t.Fatalf("bad: %#v %#v", serviceJobs, outService) } if !reflect.DeepEqual(sysJobs, outSystem) { t.Fatalf("bad: %#v %#v", sysJobs, outSystem) } if watchFired(ws) { t.Fatalf("bad") } } func TestStateStore_JobsByGC(t *testing.T) { ci.Parallel(t) state := testStateStore(t) gc, nonGc := make(map[string]struct{}), make(map[string]struct{}) for i := 0; i < 20; i++ { var job *structs.Job if i%2 == 0 { job = mock.Job() } else { job = mock.PeriodicJob() } nonGc[job.ID] = struct{}{} if err := state.UpsertJob(structs.MsgTypeTestSetup, 1000+uint64(i), job); err != nil { t.Fatalf("err: %v", err) } } for i := 0; i < 20; i += 2 { job := mock.Job() job.Type = structs.JobTypeBatch gc[job.ID] = struct{}{} if err := state.UpsertJob(structs.MsgTypeTestSetup, 2000+uint64(i), job); err != nil { t.Fatalf("err: %v", err) } // Create an eval for it eval := mock.Eval() eval.JobID = job.ID eval.Status = structs.EvalStatusComplete if err := state.UpsertEvals(structs.MsgTypeTestSetup, 2000+uint64(i+1), []*structs.Evaluation{eval}); err != nil { t.Fatalf("err: %v", err) } } ws := memdb.NewWatchSet() iter, err := state.JobsByGC(ws, true) if err != nil { t.Fatalf("err: %v", err) } outGc := make(map[string]struct{}) for i := iter.Next(); i != nil; i = iter.Next() { j := i.(*structs.Job) outGc[j.ID] = struct{}{} } iter, err = state.JobsByGC(ws, false) if err != nil { t.Fatalf("err: %v", err) } outNonGc := make(map[string]struct{}) for i := iter.Next(); i != nil; i = iter.Next() { j := i.(*structs.Job) outNonGc[j.ID] = struct{}{} } if !reflect.DeepEqual(gc, outGc) { t.Fatalf("bad: %#v %#v", gc, outGc) } if !reflect.DeepEqual(nonGc, outNonGc) { t.Fatalf("bad: %#v %#v", nonGc, outNonGc) } if watchFired(ws) { t.Fatalf("bad") } } func TestStateStore_UpsertPeriodicLaunch(t *testing.T) { ci.Parallel(t) state := testStateStore(t) job := mock.Job() launch := &structs.PeriodicLaunch{ ID: job.ID, Namespace: job.Namespace, Launch: time.Now(), } // Create a watchset so we can test that upsert fires the watch ws := memdb.NewWatchSet() if _, err := state.PeriodicLaunchByID(ws, job.Namespace, launch.ID); err != nil { t.Fatalf("bad: %v", err) } err := state.UpsertPeriodicLaunch(1000, launch) if err != nil { t.Fatalf("err: %v", err) } if !watchFired(ws) { t.Fatalf("bad") } ws = memdb.NewWatchSet() out, err := state.PeriodicLaunchByID(ws, job.Namespace, job.ID) if err != nil { t.Fatalf("err: %v", err) } if out.CreateIndex != 1000 { t.Fatalf("bad: %#v", out) } if out.ModifyIndex != 1000 { t.Fatalf("bad: %#v", out) } if !reflect.DeepEqual(launch, out) { t.Fatalf("bad: %#v %#v", job, out) } index, err := state.Index("periodic_launch") if err != nil { t.Fatalf("err: %v", err) } if index != 1000 { t.Fatalf("bad: %d", index) } if watchFired(ws) { t.Fatalf("bad") } } func TestStateStore_UpdateUpsertPeriodicLaunch(t *testing.T) { ci.Parallel(t) state := testStateStore(t) job := mock.Job() launch := &structs.PeriodicLaunch{ ID: job.ID, Namespace: job.Namespace, Launch: time.Now(), } err := state.UpsertPeriodicLaunch(1000, launch) if err != nil { t.Fatalf("err: %v", err) } // Create a watchset so we can test that upsert fires the watch ws := memdb.NewWatchSet() if _, err := state.PeriodicLaunchByID(ws, job.Namespace, launch.ID); err != nil { t.Fatalf("bad: %v", err) } launch2 := &structs.PeriodicLaunch{ ID: job.ID, Namespace: job.Namespace, Launch: launch.Launch.Add(1 * time.Second), } err = state.UpsertPeriodicLaunch(1001, launch2) if err != nil { t.Fatalf("err: %v", err) } if !watchFired(ws) { t.Fatalf("bad") } ws = memdb.NewWatchSet() out, err := state.PeriodicLaunchByID(ws, job.Namespace, job.ID) if err != nil { t.Fatalf("err: %v", err) } if out.CreateIndex != 1000 { t.Fatalf("bad: %#v", out) } if out.ModifyIndex != 1001 { t.Fatalf("bad: %#v", out) } if !reflect.DeepEqual(launch2, out) { t.Fatalf("bad: %#v %#v", launch2, out) } index, err := state.Index("periodic_launch") if err != nil { t.Fatalf("err: %v", err) } if index != 1001 { t.Fatalf("bad: %d", index) } if watchFired(ws) { t.Fatalf("bad") } } func TestStateStore_DeletePeriodicLaunch(t *testing.T) { ci.Parallel(t) state := testStateStore(t) job := mock.Job() launch := &structs.PeriodicLaunch{ ID: job.ID, Namespace: job.Namespace, Launch: time.Now(), } err := state.UpsertPeriodicLaunch(1000, launch) if err != nil { t.Fatalf("err: %v", err) } // Create a watchset so we can test that delete fires the watch ws := memdb.NewWatchSet() if _, err := state.PeriodicLaunchByID(ws, job.Namespace, launch.ID); err != nil { t.Fatalf("bad: %v", err) } err = state.DeletePeriodicLaunch(1001, launch.Namespace, launch.ID) if err != nil { t.Fatalf("err: %v", err) } if !watchFired(ws) { t.Fatalf("bad") } ws = memdb.NewWatchSet() out, err := state.PeriodicLaunchByID(ws, job.Namespace, job.ID) if err != nil { t.Fatalf("err: %v", err) } if out != nil { t.Fatalf("bad: %#v %#v", job, out) } index, err := state.Index("periodic_launch") if err != nil { t.Fatalf("err: %v", err) } if index != 1001 { t.Fatalf("bad: %d", index) } if watchFired(ws) { t.Fatalf("bad") } } func TestStateStore_PeriodicLaunches(t *testing.T) { ci.Parallel(t) state := testStateStore(t) var launches []*structs.PeriodicLaunch for i := 0; i < 10; i++ { job := mock.Job() launch := &structs.PeriodicLaunch{ ID: job.ID, Namespace: job.Namespace, Launch: time.Now(), } launches = append(launches, launch) err := state.UpsertPeriodicLaunch(1000+uint64(i), launch) if err != nil { t.Fatalf("err: %v", err) } } ws := memdb.NewWatchSet() iter, err := state.PeriodicLaunches(ws) if err != nil { t.Fatalf("err: %v", err) } out := make(map[string]*structs.PeriodicLaunch, 10) for { raw := iter.Next() if raw == nil { break } launch := raw.(*structs.PeriodicLaunch) if _, ok := out[launch.ID]; ok { t.Fatalf("duplicate: %v", launch.ID) } out[launch.ID] = launch } for _, launch := range launches { l, ok := out[launch.ID] if !ok { t.Fatalf("bad %v", launch.ID) } if !reflect.DeepEqual(launch, l) { t.Fatalf("bad: %#v %#v", launch, l) } delete(out, launch.ID) } if len(out) != 0 { t.Fatalf("leftover: %#v", out) } if watchFired(ws) { t.Fatalf("bad") } } // TestStateStore_CSIVolume checks register, list and deregister for csi_volumes func TestStateStore_CSIVolume(t *testing.T) { state := testStateStore(t) index := uint64(1000) // Volume IDs vol0, vol1 := uuid.Generate(), uuid.Generate() // Create a node running a healthy instance of the plugin node := mock.Node() pluginID := "minnie" alloc := mock.Alloc() alloc.DesiredStatus = "run" alloc.ClientStatus = "running" alloc.NodeID = node.ID alloc.Job.TaskGroups[0].Volumes = map[string]*structs.VolumeRequest{ "foo": { Name: "foo", Source: vol0, Type: "csi", }, } node.CSINodePlugins = map[string]*structs.CSIInfo{ pluginID: { PluginID: pluginID, AllocID: alloc.ID, Healthy: true, HealthDescription: "healthy", RequiresControllerPlugin: false, RequiresTopologies: false, NodeInfo: &structs.CSINodeInfo{ ID: node.ID, MaxVolumes: 64, RequiresNodeStageVolume: true, }, }, } index++ err := state.UpsertNode(structs.MsgTypeTestSetup, index, node) require.NoError(t, err) defer state.DeleteNode(structs.MsgTypeTestSetup, 9999, []string{pluginID}) index++ err = state.UpsertAllocs(structs.MsgTypeTestSetup, index, []*structs.Allocation{alloc}) require.NoError(t, err) ns := structs.DefaultNamespace v0 := structs.NewCSIVolume("foo", index) v0.ID = vol0 v0.Namespace = ns v0.PluginID = "minnie" v0.Schedulable = true v0.AccessMode = structs.CSIVolumeAccessModeMultiNodeSingleWriter v0.AttachmentMode = structs.CSIVolumeAttachmentModeFilesystem v0.RequestedCapabilities = []*structs.CSIVolumeCapability{{ AccessMode: structs.CSIVolumeAccessModeMultiNodeSingleWriter, AttachmentMode: structs.CSIVolumeAttachmentModeFilesystem, }} index++ v1 := structs.NewCSIVolume("foo", index) v1.ID = vol1 v1.Namespace = ns v1.PluginID = "adam" v1.Schedulable = true v1.AccessMode = structs.CSIVolumeAccessModeMultiNodeSingleWriter v1.AttachmentMode = structs.CSIVolumeAttachmentModeFilesystem v1.RequestedCapabilities = []*structs.CSIVolumeCapability{{ AccessMode: structs.CSIVolumeAccessModeMultiNodeSingleWriter, AttachmentMode: structs.CSIVolumeAttachmentModeFilesystem, }} index++ err = state.UpsertCSIVolume(index, []*structs.CSIVolume{v0, v1}) require.NoError(t, err) // volume registration is idempotent, unless identies are changed index++ err = state.UpsertCSIVolume(index, []*structs.CSIVolume{v0, v1}) require.NoError(t, err) index++ v2 := v0.Copy() v2.PluginID = "new-id" err = state.UpsertCSIVolume(index, []*structs.CSIVolume{v2}) require.Error(t, err, fmt.Sprintf("volume exists: %s", v0.ID)) ws := memdb.NewWatchSet() iter, err := state.CSIVolumesByNamespace(ws, ns, "") require.NoError(t, err) slurp := func(iter memdb.ResultIterator) (vs []*structs.CSIVolume) { for { raw := iter.Next() if raw == nil { break } vol := raw.(*structs.CSIVolume) vs = append(vs, vol) } return vs } vs := slurp(iter) require.Equal(t, 2, len(vs)) ws = memdb.NewWatchSet() iter, err = state.CSIVolumesByPluginID(ws, ns, "", "minnie") require.NoError(t, err) vs = slurp(iter) require.Equal(t, 1, len(vs)) ws = memdb.NewWatchSet() iter, err = state.CSIVolumesByNodeID(ws, "", node.ID) require.NoError(t, err) vs = slurp(iter) require.Equal(t, 1, len(vs)) // Allocs a0 := mock.Alloc() a1 := mock.Alloc() index++ err = state.UpsertAllocs(structs.MsgTypeTestSetup, index, []*structs.Allocation{a0, a1}) require.NoError(t, err) // Claims r := structs.CSIVolumeClaimRead w := structs.CSIVolumeClaimWrite u := structs.CSIVolumeClaimGC claim0 := &structs.CSIVolumeClaim{ AllocationID: a0.ID, NodeID: node.ID, Mode: r, } claim1 := &structs.CSIVolumeClaim{ AllocationID: a1.ID, NodeID: node.ID, Mode: w, } index++ err = state.CSIVolumeClaim(index, ns, vol0, claim0) require.NoError(t, err) index++ err = state.CSIVolumeClaim(index, ns, vol0, claim1) require.NoError(t, err) ws = memdb.NewWatchSet() iter, err = state.CSIVolumesByPluginID(ws, ns, "", "minnie") require.NoError(t, err) vs = slurp(iter) require.False(t, vs[0].HasFreeWriteClaims()) claim0.Mode = u err = state.CSIVolumeClaim(2, ns, vol0, claim0) require.NoError(t, err) ws = memdb.NewWatchSet() iter, err = state.CSIVolumesByPluginID(ws, ns, "", "minnie") require.NoError(t, err) vs = slurp(iter) require.True(t, vs[0].ReadSchedulable()) // registration is an error when the volume is in use index++ err = state.UpsertCSIVolume(index, []*structs.CSIVolume{v0}) require.Error(t, err, "volume re-registered while in use") // as is deregistration index++ err = state.CSIVolumeDeregister(index, ns, []string{vol0}, false) require.Error(t, err, "volume deregistered while in use") // even if forced, because we have a non-terminal claim index++ err = state.CSIVolumeDeregister(index, ns, []string{vol0}, true) require.Error(t, err, "volume force deregistered while in use") // we use the ID, not a prefix index++ err = state.CSIVolumeDeregister(index, ns, []string{"fo"}, true) require.Error(t, err, "volume deregistered by prefix") // release claims to unblock deregister index++ claim0.State = structs.CSIVolumeClaimStateReadyToFree err = state.CSIVolumeClaim(index, ns, vol0, claim0) require.NoError(t, err) index++ claim1.Mode = u claim1.State = structs.CSIVolumeClaimStateReadyToFree err = state.CSIVolumeClaim(index, ns, vol0, claim1) require.NoError(t, err) index++ err = state.CSIVolumeDeregister(index, ns, []string{vol0}, false) require.NoError(t, err) // List, now omitting the deregistered volume ws = memdb.NewWatchSet() iter, err = state.CSIVolumesByPluginID(ws, ns, "", "minnie") require.NoError(t, err) vs = slurp(iter) require.Equal(t, 0, len(vs)) ws = memdb.NewWatchSet() iter, err = state.CSIVolumesByNamespace(ws, ns, "") require.NoError(t, err) vs = slurp(iter) require.Equal(t, 1, len(vs)) } func TestStateStore_CSIPlugin_Lifecycle(t *testing.T) { ci.Parallel(t) store := testStateStore(t) plugID := "foo" var err error var controllerJobID string var nodeJobID string allocIDs := []string{} type pluginCounts struct { controllerFingerprints int nodeFingerprints int controllersHealthy int nodesHealthy int controllersExpected int nodesExpected int } // helper function for test assertions checkPlugin := func(counts pluginCounts) *structs.CSIPlugin { plug, err := store.CSIPluginByID(memdb.NewWatchSet(), plugID) require.NotNil(t, plug, "plugin was nil") require.NoError(t, err) require.Equal(t, counts.controllerFingerprints, len(plug.Controllers), "controllers fingerprinted") require.Equal(t, counts.nodeFingerprints, len(plug.Nodes), "nodes fingerprinted") require.Equal(t, counts.controllersHealthy, plug.ControllersHealthy, "controllers healthy") require.Equal(t, counts.nodesHealthy, plug.NodesHealthy, "nodes healthy") require.Equal(t, counts.controllersExpected, plug.ControllersExpected, "controllers expected") require.Equal(t, counts.nodesExpected, plug.NodesExpected, "nodes expected") return plug } type allocUpdateKind int const ( SERVER allocUpdateKind = iota CLIENT ) // helper function calling client-side update with with // UpsertAllocs and/or UpdateAllocsFromClient, depending on which // status(es) are set updateAllocsFn := func(allocIDs []string, kind allocUpdateKind, transform func(alloc *structs.Allocation)) []*structs.Allocation { allocs := []*structs.Allocation{} ws := memdb.NewWatchSet() for _, id := range allocIDs { alloc, err := store.AllocByID(ws, id) require.NoError(t, err) alloc = alloc.Copy() transform(alloc) allocs = append(allocs, alloc) } switch kind { case SERVER: err = store.UpsertAllocs(structs.MsgTypeTestSetup, nextIndex(store), allocs) case CLIENT: // this is somewhat artificial b/c we get alloc updates // from multiple nodes concurrently but not in a single // RPC call. But this guarantees we'll trigger any nested // transaction setup bugs err = store.UpdateAllocsFromClient(structs.MsgTypeTestSetup, nextIndex(store), allocs) } require.NoError(t, err) return allocs } // helper function calling UpsertNode for fingerprinting updateNodeFn := func(nodeID string, transform func(node *structs.Node)) { ws := memdb.NewWatchSet() node, _ := store.NodeByID(ws, nodeID) node = node.Copy() transform(node) err = store.UpsertNode(structs.MsgTypeTestSetup, nextIndex(store), node) require.NoError(t, err) } nodes := []*structs.Node{mock.Node(), mock.Node(), mock.Node()} for _, node := range nodes { err = store.UpsertNode(structs.MsgTypeTestSetup, nextIndex(store), node) require.NoError(t, err) } // Note: these are all subtests for clarity but are expected to be // ordered, because they walk through all the phases of plugin // instance registration and deregistration t.Run("register plugin jobs", func(t *testing.T) { controllerJob := mock.CSIPluginJob(structs.CSIPluginTypeController, plugID) controllerJobID = controllerJob.ID err = store.UpsertJob(structs.MsgTypeTestSetup, nextIndex(store), controllerJob) nodeJob := mock.CSIPluginJob(structs.CSIPluginTypeNode, plugID) nodeJobID = nodeJob.ID err = store.UpsertJob(structs.MsgTypeTestSetup, nextIndex(store), nodeJob) // plugins created, but no fingerprints or allocs yet // note: there's no job summary yet, but we know the task // group count for the non-system job // // TODO: that's the current code but we really should be able // to figure out the system jobs too plug := checkPlugin(pluginCounts{ controllerFingerprints: 0, nodeFingerprints: 0, controllersHealthy: 0, nodesHealthy: 0, controllersExpected: 2, nodesExpected: 0, }) require.False(t, plug.ControllerRequired) }) t.Run("plan apply upserts allocations", func(t *testing.T) { allocForJob := func(job *structs.Job) *structs.Allocation { alloc := mock.Alloc() alloc.Job = job.Copy() alloc.JobID = job.ID alloc.TaskGroup = job.TaskGroups[0].Name alloc.DesiredStatus = structs.AllocDesiredStatusRun alloc.ClientStatus = structs.AllocClientStatusPending return alloc } ws := memdb.NewWatchSet() controllerJob, _ := store.JobByID(ws, structs.DefaultNamespace, controllerJobID) controllerAlloc0 := allocForJob(controllerJob) controllerAlloc0.NodeID = nodes[0].ID allocIDs = append(allocIDs, controllerAlloc0.ID) controllerAlloc1 := allocForJob(controllerJob) controllerAlloc1.NodeID = nodes[1].ID allocIDs = append(allocIDs, controllerAlloc1.ID) allocs := []*structs.Allocation{controllerAlloc0, controllerAlloc1} nodeJob, _ := store.JobByID(ws, structs.DefaultNamespace, nodeJobID) for _, node := range nodes { nodeAlloc := allocForJob(nodeJob) nodeAlloc.NodeID = node.ID allocIDs = append(allocIDs, nodeAlloc.ID) allocs = append(allocs, nodeAlloc) } err = store.UpsertAllocs(structs.MsgTypeTestSetup, nextIndex(store), allocs) require.NoError(t, err) // node plugin now has expected counts too plug := checkPlugin(pluginCounts{ controllerFingerprints: 0, nodeFingerprints: 0, controllersHealthy: 0, nodesHealthy: 0, controllersExpected: 2, nodesExpected: 3, }) require.False(t, plug.ControllerRequired) }) t.Run("client upserts alloc status", func(t *testing.T) { updateAllocsFn(allocIDs, CLIENT, func(alloc *structs.Allocation) { alloc.ClientStatus = structs.AllocClientStatusRunning }) // plugin still has allocs but no fingerprints plug := checkPlugin(pluginCounts{ controllerFingerprints: 0, nodeFingerprints: 0, controllersHealthy: 0, nodesHealthy: 0, controllersExpected: 2, nodesExpected: 3, }) require.False(t, plug.ControllerRequired) }) t.Run("client upserts node fingerprints", func(t *testing.T) { nodeFingerprint := map[string]*structs.CSIInfo{ plugID: { PluginID: plugID, Healthy: true, UpdateTime: time.Now(), RequiresControllerPlugin: true, RequiresTopologies: false, NodeInfo: &structs.CSINodeInfo{}, }, } for _, node := range nodes { updateNodeFn(node.ID, func(node *structs.Node) { node.CSINodePlugins = nodeFingerprint }) } controllerFingerprint := map[string]*structs.CSIInfo{ plugID: { PluginID: plugID, Healthy: true, UpdateTime: time.Now(), RequiresControllerPlugin: true, RequiresTopologies: false, ControllerInfo: &structs.CSIControllerInfo{ SupportsReadOnlyAttach: true, SupportsListVolumes: true, }, }, } for n := 0; n < 2; n++ { updateNodeFn(nodes[n].ID, func(node *structs.Node) { node.CSIControllerPlugins = controllerFingerprint }) } // plugins have been fingerprinted so we have healthy counts plug := checkPlugin(pluginCounts{ controllerFingerprints: 2, nodeFingerprints: 3, controllersHealthy: 2, nodesHealthy: 3, controllersExpected: 2, nodesExpected: 3, }) require.True(t, plug.ControllerRequired) }) t.Run("node marked for drain", func(t *testing.T) { ws := memdb.NewWatchSet() nodeAllocs, err := store.AllocsByNode(ws, nodes[0].ID) require.NoError(t, err) require.Len(t, nodeAllocs, 2) updateAllocsFn([]string{nodeAllocs[0].ID, nodeAllocs[1].ID}, SERVER, func(alloc *structs.Allocation) { alloc.DesiredStatus = structs.AllocDesiredStatusStop }) plug := checkPlugin(pluginCounts{ controllerFingerprints: 2, nodeFingerprints: 3, controllersHealthy: 2, nodesHealthy: 3, controllersExpected: 2, // job summary hasn't changed nodesExpected: 3, // job summary hasn't changed }) require.True(t, plug.ControllerRequired) }) t.Run("client removes fingerprints after node drain", func(t *testing.T) { updateNodeFn(nodes[0].ID, func(node *structs.Node) { node.CSIControllerPlugins = nil node.CSINodePlugins = nil }) plug := checkPlugin(pluginCounts{ controllerFingerprints: 1, nodeFingerprints: 2, controllersHealthy: 1, nodesHealthy: 2, controllersExpected: 2, nodesExpected: 3, }) require.True(t, plug.ControllerRequired) }) t.Run("client updates alloc status to stopped after node drain", func(t *testing.T) { nodeAllocs, err := store.AllocsByNode(memdb.NewWatchSet(), nodes[0].ID) require.NoError(t, err) require.Len(t, nodeAllocs, 2) updateAllocsFn([]string{nodeAllocs[0].ID, nodeAllocs[1].ID}, CLIENT, func(alloc *structs.Allocation) { alloc.ClientStatus = structs.AllocClientStatusComplete }) plug := checkPlugin(pluginCounts{ controllerFingerprints: 1, nodeFingerprints: 2, controllersHealthy: 1, nodesHealthy: 2, controllersExpected: 2, // still 2 because count=2 nodesExpected: 2, // has to use nodes we're actually placed on }) require.True(t, plug.ControllerRequired) }) t.Run("job stop with purge", func(t *testing.T) { vol := &structs.CSIVolume{ ID: uuid.Generate(), Namespace: structs.DefaultNamespace, PluginID: plugID, } err = store.UpsertCSIVolume(nextIndex(store), []*structs.CSIVolume{vol}) require.NoError(t, err) err = store.DeleteJob(nextIndex(store), structs.DefaultNamespace, controllerJobID) require.NoError(t, err) err = store.DeleteJob(nextIndex(store), structs.DefaultNamespace, nodeJobID) require.NoError(t, err) plug := checkPlugin(pluginCounts{ controllerFingerprints: 1, // no changes till we get fingerprint nodeFingerprints: 2, controllersHealthy: 1, nodesHealthy: 2, controllersExpected: 0, nodesExpected: 0, }) require.True(t, plug.ControllerRequired) require.False(t, plug.IsEmpty()) updateAllocsFn(allocIDs, SERVER, func(alloc *structs.Allocation) { alloc.DesiredStatus = structs.AllocDesiredStatusStop }) updateAllocsFn(allocIDs, CLIENT, func(alloc *structs.Allocation) { alloc.ClientStatus = structs.AllocClientStatusComplete }) plug = checkPlugin(pluginCounts{ controllerFingerprints: 1, nodeFingerprints: 2, controllersHealthy: 1, nodesHealthy: 2, controllersExpected: 0, nodesExpected: 0, }) require.True(t, plug.ControllerRequired) require.False(t, plug.IsEmpty()) for _, node := range nodes { updateNodeFn(node.ID, func(node *structs.Node) { node.CSIControllerPlugins = nil }) } plug = checkPlugin(pluginCounts{ controllerFingerprints: 0, nodeFingerprints: 2, // haven't removed fingerprints yet controllersHealthy: 0, nodesHealthy: 2, controllersExpected: 0, nodesExpected: 0, }) require.True(t, plug.ControllerRequired) require.False(t, plug.IsEmpty()) for _, node := range nodes { updateNodeFn(node.ID, func(node *structs.Node) { node.CSINodePlugins = nil }) } ws := memdb.NewWatchSet() plug, err := store.CSIPluginByID(ws, plugID) require.NoError(t, err) require.Nil(t, plug, "plugin was not deleted") vol, err = store.CSIVolumeByID(ws, vol.Namespace, vol.ID) require.NoError(t, err) require.NotNil(t, vol, "volume should be queryable even if plugin is deleted") require.False(t, vol.Schedulable) }) } func TestStateStore_Indexes(t *testing.T) { ci.Parallel(t) state := testStateStore(t) node := mock.Node() err := state.UpsertNode(structs.MsgTypeTestSetup, 1000, node) if err != nil { t.Fatalf("err: %v", err) } iter, err := state.Indexes() if err != nil { t.Fatalf("err: %v", err) } var out []*IndexEntry for { raw := iter.Next() if raw == nil { break } out = append(out, raw.(*IndexEntry)) } expect := &IndexEntry{"nodes", 1000} if l := len(out); l < 1 { t.Fatalf("unexpected number of index entries: %v", pretty.Sprint(out)) } for _, index := range out { if index.Key != expect.Key { continue } if index.Value != expect.Value { t.Fatalf("bad index; got %d; want %d", index.Value, expect.Value) } // We matched return } t.Fatal("did not find expected index entry") } func TestStateStore_LatestIndex(t *testing.T) { ci.Parallel(t) state := testStateStore(t) if err := state.UpsertNode(structs.MsgTypeTestSetup, 1000, mock.Node()); err != nil { t.Fatalf("err: %v", err) } exp := uint64(2000) if err := state.UpsertJob(structs.MsgTypeTestSetup, exp, mock.Job()); err != nil { t.Fatalf("err: %v", err) } latest, err := state.LatestIndex() if err != nil { t.Fatalf("err: %v", err) } if latest != exp { t.Fatalf("LatestIndex() returned %d; want %d", latest, exp) } } func TestStateStore_UpsertEvals_Eval(t *testing.T) { ci.Parallel(t) state := testStateStore(t) eval := mock.Eval() // Create a watchset so we can test that upsert fires the watch ws := memdb.NewWatchSet() if _, err := state.EvalByID(ws, eval.ID); err != nil { t.Fatalf("bad: %v", err) } err := state.UpsertEvals(structs.MsgTypeTestSetup, 1000, []*structs.Evaluation{eval}) if err != nil { t.Fatalf("err: %v", err) } if !watchFired(ws) { t.Fatalf("bad") } ws = memdb.NewWatchSet() out, err := state.EvalByID(ws, eval.ID) if err != nil { t.Fatalf("err: %v", err) } if !reflect.DeepEqual(eval, out) { t.Fatalf("bad: %#v %#v", eval, out) } index, err := state.Index("evals") if err != nil { t.Fatalf("err: %v", err) } if index != 1000 { t.Fatalf("bad: %d", index) } if watchFired(ws) { t.Fatalf("bad") } } func TestStateStore_UpsertEvals_CancelBlocked(t *testing.T) { ci.Parallel(t) state := testStateStore(t) // Create two blocked evals for the same job j := "test-job" b1, b2 := mock.Eval(), mock.Eval() b1.JobID = j b1.Status = structs.EvalStatusBlocked b2.JobID = j b2.Status = structs.EvalStatusBlocked err := state.UpsertEvals(structs.MsgTypeTestSetup, 999, []*structs.Evaluation{b1, b2}) if err != nil { t.Fatalf("err: %v", err) } // Create one complete and successful eval for the job eval := mock.Eval() eval.JobID = j eval.Status = structs.EvalStatusComplete // Create a watchset so we can test that the upsert of the complete eval // fires the watch ws := memdb.NewWatchSet() if _, err := state.EvalByID(ws, b1.ID); err != nil { t.Fatalf("bad: %v", err) } if _, err := state.EvalByID(ws, b2.ID); err != nil { t.Fatalf("bad: %v", err) } if err := state.UpsertEvals(structs.MsgTypeTestSetup, 1000, []*structs.Evaluation{eval}); err != nil { t.Fatalf("err: %v", err) } if !watchFired(ws) { t.Fatalf("bad") } ws = memdb.NewWatchSet() out, err := state.EvalByID(ws, eval.ID) if err != nil { t.Fatalf("err: %v", err) } if !reflect.DeepEqual(eval, out) { t.Fatalf("bad: %#v %#v", eval, out) } index, err := state.Index("evals") if err != nil { t.Fatalf("err: %v", err) } if index != 1000 { t.Fatalf("bad: %d", index) } // Get b1/b2 and check they are cancelled out1, err := state.EvalByID(ws, b1.ID) if err != nil { t.Fatalf("err: %v", err) } out2, err := state.EvalByID(ws, b2.ID) if err != nil { t.Fatalf("err: %v", err) } if out1.Status != structs.EvalStatusCancelled || out2.Status != structs.EvalStatusCancelled { t.Fatalf("bad: %#v %#v", out1, out2) } if watchFired(ws) { t.Fatalf("bad") } } func TestStateStore_UpsertEvals_Namespace(t *testing.T) { ci.Parallel(t) state := testStateStore(t) ns1 := mock.Namespace() ns1.Name = "new" eval1 := mock.Eval() eval2 := mock.Eval() eval1.Namespace = ns1.Name eval2.Namespace = ns1.Name ns2 := mock.Namespace() ns2.Name = "new-namespace" eval3 := mock.Eval() eval4 := mock.Eval() eval3.Namespace = ns2.Name eval4.Namespace = ns2.Name require.NoError(t, state.UpsertNamespaces(998, []*structs.Namespace{ns1, ns2})) // Create watchsets so we can test that update fires the watch watches := []memdb.WatchSet{memdb.NewWatchSet(), memdb.NewWatchSet()} _, err := state.EvalsByNamespace(watches[0], ns1.Name) require.NoError(t, err) _, err = state.EvalsByNamespace(watches[1], ns2.Name) require.NoError(t, err) require.NoError(t, state.UpsertEvals(structs.MsgTypeTestSetup, 1001, []*structs.Evaluation{eval1, eval2, eval3, eval4})) require.True(t, watchFired(watches[0])) require.True(t, watchFired(watches[1])) ws := memdb.NewWatchSet() iter1, err := state.EvalsByNamespace(ws, ns1.Name) require.NoError(t, err) iter2, err := state.EvalsByNamespace(ws, ns2.Name) require.NoError(t, err) var out1 []*structs.Evaluation for { raw := iter1.Next() if raw == nil { break } out1 = append(out1, raw.(*structs.Evaluation)) } var out2 []*structs.Evaluation for { raw := iter2.Next() if raw == nil { break } out2 = append(out2, raw.(*structs.Evaluation)) } require.Len(t, out1, 2) require.Len(t, out2, 2) for _, eval := range out1 { require.Equal(t, ns1.Name, eval.Namespace) } for _, eval := range out2 { require.Equal(t, ns2.Name, eval.Namespace) } index, err := state.Index("evals") require.NoError(t, err) require.EqualValues(t, 1001, index) require.False(t, watchFired(ws)) } func TestStateStore_Update_UpsertEvals_Eval(t *testing.T) { ci.Parallel(t) state := testStateStore(t) eval := mock.Eval() err := state.UpsertEvals(structs.MsgTypeTestSetup, 1000, []*structs.Evaluation{eval}) if err != nil { t.Fatalf("err: %v", err) } // Create a watchset so we can test that delete fires the watch ws := memdb.NewWatchSet() ws2 := memdb.NewWatchSet() if _, err := state.EvalByID(ws, eval.ID); err != nil { t.Fatalf("bad: %v", err) } if _, err := state.EvalsByJob(ws2, eval.Namespace, eval.JobID); err != nil { t.Fatalf("bad: %v", err) } eval2 := mock.Eval() eval2.ID = eval.ID eval2.JobID = eval.JobID err = state.UpsertEvals(structs.MsgTypeTestSetup, 1001, []*structs.Evaluation{eval2}) if err != nil { t.Fatalf("err: %v", err) } if !watchFired(ws) { t.Fatalf("bad") } if !watchFired(ws2) { t.Fatalf("bad") } ws = memdb.NewWatchSet() out, err := state.EvalByID(ws, eval.ID) if err != nil { t.Fatalf("err: %v", err) } if !reflect.DeepEqual(eval2, out) { t.Fatalf("bad: %#v %#v", eval2, out) } if out.CreateIndex != 1000 { t.Fatalf("bad: %#v", out) } if out.ModifyIndex != 1001 { t.Fatalf("bad: %#v", out) } index, err := state.Index("evals") if err != nil { t.Fatalf("err: %v", err) } if index != 1001 { t.Fatalf("bad: %d", index) } if watchFired(ws) { t.Fatalf("bad") } } func TestStateStore_UpsertEvals_Eval_ChildJob(t *testing.T) { ci.Parallel(t) state := testStateStore(t) parent := mock.Job() if err := state.UpsertJob(structs.MsgTypeTestSetup, 998, parent); err != nil { t.Fatalf("err: %v", err) } child := mock.Job() child.Status = "" child.ParentID = parent.ID if err := state.UpsertJob(structs.MsgTypeTestSetup, 999, child); err != nil { t.Fatalf("err: %v", err) } eval := mock.Eval() eval.Status = structs.EvalStatusComplete eval.JobID = child.ID // Create watchsets so we can test that upsert fires the watch ws := memdb.NewWatchSet() ws2 := memdb.NewWatchSet() ws3 := memdb.NewWatchSet() if _, err := state.JobSummaryByID(ws, parent.Namespace, parent.ID); err != nil { t.Fatalf("bad: %v", err) } if _, err := state.EvalByID(ws2, eval.ID); err != nil { t.Fatalf("bad: %v", err) } if _, err := state.EvalsByJob(ws3, eval.Namespace, eval.JobID); err != nil { t.Fatalf("bad: %v", err) } err := state.UpsertEvals(structs.MsgTypeTestSetup, 1000, []*structs.Evaluation{eval}) if err != nil { t.Fatalf("err: %v", err) } if !watchFired(ws) { t.Fatalf("bad") } if !watchFired(ws2) { t.Fatalf("bad") } if !watchFired(ws3) { t.Fatalf("bad") } ws = memdb.NewWatchSet() out, err := state.EvalByID(ws, eval.ID) if err != nil { t.Fatalf("err: %v", err) } if !reflect.DeepEqual(eval, out) { t.Fatalf("bad: %#v %#v", eval, out) } index, err := state.Index("evals") if err != nil { t.Fatalf("err: %v", err) } if index != 1000 { t.Fatalf("bad: %d", index) } summary, err := state.JobSummaryByID(ws, parent.Namespace, parent.ID) if err != nil { t.Fatalf("err: %v", err) } if summary == nil { t.Fatalf("nil summary") } if summary.JobID != parent.ID { t.Fatalf("bad summary id: %v", parent.ID) } if summary.Children == nil { t.Fatalf("nil children summary") } if summary.Children.Pending != 0 || summary.Children.Running != 0 || summary.Children.Dead != 1 { t.Fatalf("bad children summary: %v", summary.Children) } if watchFired(ws) { t.Fatalf("bad") } } func TestStateStore_DeleteEval_Eval(t *testing.T) { ci.Parallel(t) state := testStateStore(t) eval1 := mock.Eval() eval2 := mock.Eval() alloc1 := mock.Alloc() alloc2 := mock.Alloc() // Create watchsets so we can test that upsert fires the watch watches := make([]memdb.WatchSet, 12) for i := 0; i < 12; i++ { watches[i] = memdb.NewWatchSet() } if _, err := state.EvalByID(watches[0], eval1.ID); err != nil { t.Fatalf("bad: %v", err) } if _, err := state.EvalByID(watches[1], eval2.ID); err != nil { t.Fatalf("bad: %v", err) } if _, err := state.EvalsByJob(watches[2], eval1.Namespace, eval1.JobID); err != nil { t.Fatalf("bad: %v", err) } if _, err := state.EvalsByJob(watches[3], eval2.Namespace, eval2.JobID); err != nil { t.Fatalf("bad: %v", err) } if _, err := state.AllocByID(watches[4], alloc1.ID); err != nil { t.Fatalf("bad: %v", err) } if _, err := state.AllocByID(watches[5], alloc2.ID); err != nil { t.Fatalf("bad: %v", err) } if _, err := state.AllocsByEval(watches[6], alloc1.EvalID); err != nil { t.Fatalf("bad: %v", err) } if _, err := state.AllocsByEval(watches[7], alloc2.EvalID); err != nil { t.Fatalf("bad: %v", err) } if _, err := state.AllocsByJob(watches[8], alloc1.Namespace, alloc1.JobID, false); err != nil { t.Fatalf("bad: %v", err) } if _, err := state.AllocsByJob(watches[9], alloc2.Namespace, alloc2.JobID, false); err != nil { t.Fatalf("bad: %v", err) } if _, err := state.AllocsByNode(watches[10], alloc1.NodeID); err != nil { t.Fatalf("bad: %v", err) } if _, err := state.AllocsByNode(watches[11], alloc2.NodeID); err != nil { t.Fatalf("bad: %v", err) } state.UpsertJobSummary(900, mock.JobSummary(eval1.JobID)) state.UpsertJobSummary(901, mock.JobSummary(eval2.JobID)) state.UpsertJobSummary(902, mock.JobSummary(alloc1.JobID)) state.UpsertJobSummary(903, mock.JobSummary(alloc2.JobID)) err := state.UpsertEvals(structs.MsgTypeTestSetup, 1000, []*structs.Evaluation{eval1, eval2}) if err != nil { t.Fatalf("err: %v", err) } err = state.UpsertAllocs(structs.MsgTypeTestSetup, 1001, []*structs.Allocation{alloc1, alloc2}) if err != nil { t.Fatalf("err: %v", err) } err = state.DeleteEval(1002, []string{eval1.ID, eval2.ID}, []string{alloc1.ID, alloc2.ID}, false) if err != nil { t.Fatalf("err: %v", err) } for i, ws := range watches { if !watchFired(ws) { t.Fatalf("bad %d", i) } } ws := memdb.NewWatchSet() out, err := state.EvalByID(ws, eval1.ID) if err != nil { t.Fatalf("err: %v", err) } if out != nil { t.Fatalf("bad: %#v %#v", eval1, out) } out, err = state.EvalByID(ws, eval2.ID) if err != nil { t.Fatalf("err: %v", err) } if out != nil { t.Fatalf("bad: %#v %#v", eval1, out) } outA, err := state.AllocByID(ws, alloc1.ID) if err != nil { t.Fatalf("err: %v", err) } if out != nil { t.Fatalf("bad: %#v %#v", alloc1, outA) } outA, err = state.AllocByID(ws, alloc2.ID) if err != nil { t.Fatalf("err: %v", err) } if out != nil { t.Fatalf("bad: %#v %#v", alloc1, outA) } index, err := state.Index("evals") if err != nil { t.Fatalf("err: %v", err) } if index != 1002 { t.Fatalf("bad: %d", index) } index, err = state.Index("allocs") if err != nil { t.Fatalf("err: %v", err) } if index != 1002 { t.Fatalf("bad: %d", index) } if watchFired(ws) { t.Fatalf("bad") } // Call the eval delete function with zero length eval and alloc ID arrays. // This should result in the table indexes both staying the same, rather // than updating without cause. require.NoError(t, state.DeleteEval(1010, []string{}, []string{}, false)) allocsIndex, err := state.Index("allocs") require.NoError(t, err) require.Equal(t, uint64(1002), allocsIndex) evalsIndex, err := state.Index("evals") require.NoError(t, err) require.Equal(t, uint64(1002), evalsIndex) } func TestStateStore_DeleteEval_ChildJob(t *testing.T) { ci.Parallel(t) state := testStateStore(t) parent := mock.Job() if err := state.UpsertJob(structs.MsgTypeTestSetup, 998, parent); err != nil { t.Fatalf("err: %v", err) } child := mock.Job() child.Status = "" child.ParentID = parent.ID if err := state.UpsertJob(structs.MsgTypeTestSetup, 999, child); err != nil { t.Fatalf("err: %v", err) } eval1 := mock.Eval() eval1.JobID = child.ID alloc1 := mock.Alloc() alloc1.JobID = child.ID err := state.UpsertEvals(structs.MsgTypeTestSetup, 1000, []*structs.Evaluation{eval1}) if err != nil { t.Fatalf("err: %v", err) } err = state.UpsertAllocs(structs.MsgTypeTestSetup, 1001, []*structs.Allocation{alloc1}) if err != nil { t.Fatalf("err: %v", err) } // Create watchsets so we can test that delete fires the watch ws := memdb.NewWatchSet() if _, err := state.JobSummaryByID(ws, parent.Namespace, parent.ID); err != nil { t.Fatalf("bad: %v", err) } err = state.DeleteEval(1002, []string{eval1.ID}, []string{alloc1.ID}, false) if err != nil { t.Fatalf("err: %v", err) } if !watchFired(ws) { t.Fatalf("bad") } ws = memdb.NewWatchSet() summary, err := state.JobSummaryByID(ws, parent.Namespace, parent.ID) if err != nil { t.Fatalf("err: %v", err) } if summary == nil { t.Fatalf("nil summary") } if summary.JobID != parent.ID { t.Fatalf("bad summary id: %v", parent.ID) } if summary.Children == nil { t.Fatalf("nil children summary") } if summary.Children.Pending != 0 || summary.Children.Running != 0 || summary.Children.Dead != 1 { t.Fatalf("bad children summary: %v", summary.Children) } if watchFired(ws) { t.Fatalf("bad") } } func TestStateStore_DeleteEval_UserInitiated(t *testing.T) { ci.Parallel(t) testState := testStateStore(t) // Upsert a scheduler config object, so we have something to check and // modify. schedulerConfig := structs.SchedulerConfiguration{PauseEvalBroker: false} require.NoError(t, testState.SchedulerSetConfig(10, &schedulerConfig)) // Generate some mock evals and upsert these into state. mockEval1 := mock.Eval() mockEval2 := mock.Eval() require.NoError(t, testState.UpsertEvals( structs.MsgTypeTestSetup, 20, []*structs.Evaluation{mockEval1, mockEval2})) mockEvalIDs := []string{mockEval1.ID, mockEval2.ID} // Try and delete the evals without pausing the eval broker. err := testState.DeleteEval(30, mockEvalIDs, []string{}, true) require.ErrorContains(t, err, "eval broker is enabled") // Pause the eval broker on the scheduler config, and try deleting the // evals again. schedulerConfig.PauseEvalBroker = true require.NoError(t, testState.SchedulerSetConfig(30, &schedulerConfig)) require.NoError(t, testState.DeleteEval(40, mockEvalIDs, []string{}, true)) ws := memdb.NewWatchSet() mockEval1Lookup, err := testState.EvalByID(ws, mockEval1.ID) require.NoError(t, err) require.Nil(t, mockEval1Lookup) mockEval2Lookup, err := testState.EvalByID(ws, mockEval1.ID) require.NoError(t, err) require.Nil(t, mockEval2Lookup) } func TestStateStore_EvalsByJob(t *testing.T) { ci.Parallel(t) state := testStateStore(t) eval1 := mock.Eval() eval2 := mock.Eval() eval2.JobID = eval1.JobID eval3 := mock.Eval() evals := []*structs.Evaluation{eval1, eval2} err := state.UpsertEvals(structs.MsgTypeTestSetup, 1000, evals) if err != nil { t.Fatalf("err: %v", err) } err = state.UpsertEvals(structs.MsgTypeTestSetup, 1001, []*structs.Evaluation{eval3}) if err != nil { t.Fatalf("err: %v", err) } ws := memdb.NewWatchSet() out, err := state.EvalsByJob(ws, eval1.Namespace, eval1.JobID) if err != nil { t.Fatalf("err: %v", err) } sort.Sort(EvalIDSort(evals)) sort.Sort(EvalIDSort(out)) if !reflect.DeepEqual(evals, out) { t.Fatalf("bad: %#v %#v", evals, out) } if watchFired(ws) { t.Fatalf("bad") } } func TestStateStore_Evals(t *testing.T) { ci.Parallel(t) state := testStateStore(t) var evals []*structs.Evaluation for i := 0; i < 10; i++ { eval := mock.Eval() evals = append(evals, eval) err := state.UpsertEvals(structs.MsgTypeTestSetup, 1000+uint64(i), []*structs.Evaluation{eval}) if err != nil { t.Fatalf("err: %v", err) } } ws := memdb.NewWatchSet() iter, err := state.Evals(ws, false) if err != nil { t.Fatalf("err: %v", err) } var out []*structs.Evaluation for { raw := iter.Next() if raw == nil { break } out = append(out, raw.(*structs.Evaluation)) } sort.Sort(EvalIDSort(evals)) sort.Sort(EvalIDSort(out)) if !reflect.DeepEqual(evals, out) { t.Fatalf("bad: %#v %#v", evals, out) } if watchFired(ws) { t.Fatalf("bad") } } func TestStateStore_EvalsByIDPrefix(t *testing.T) { ci.Parallel(t) state := testStateStore(t) var evals []*structs.Evaluation ids := []string{ "aaaaaaaa-7bfb-395d-eb95-0685af2176b2", "aaaaaaab-7bfb-395d-eb95-0685af2176b2", "aaaaaabb-7bfb-395d-eb95-0685af2176b2", "aaaaabbb-7bfb-395d-eb95-0685af2176b2", "aaaabbbb-7bfb-395d-eb95-0685af2176b2", "aaabbbbb-7bfb-395d-eb95-0685af2176b2", "aabbbbbb-7bfb-395d-eb95-0685af2176b2", "abbbbbbb-7bfb-395d-eb95-0685af2176b2", "bbbbbbbb-7bfb-395d-eb95-0685af2176b2", } for i := 0; i < 9; i++ { eval := mock.Eval() eval.ID = ids[i] evals = append(evals, eval) } err := state.UpsertEvals(structs.MsgTypeTestSetup, 1000, evals) if err != nil { t.Fatalf("err: %v", err) } gatherEvals := func(iter memdb.ResultIterator) []*structs.Evaluation { var evals []*structs.Evaluation for { raw := iter.Next() if raw == nil { break } evals = append(evals, raw.(*structs.Evaluation)) } return evals } t.Run("list by prefix", func(t *testing.T) { ws := memdb.NewWatchSet() iter, err := state.EvalsByIDPrefix(ws, structs.DefaultNamespace, "aaaa", SortDefault) require.NoError(t, err) got := []string{} for _, e := range gatherEvals(iter) { got = append(got, e.ID) } expected := []string{ "aaaaaaaa-7bfb-395d-eb95-0685af2176b2", "aaaaaaab-7bfb-395d-eb95-0685af2176b2", "aaaaaabb-7bfb-395d-eb95-0685af2176b2", "aaaaabbb-7bfb-395d-eb95-0685af2176b2", "aaaabbbb-7bfb-395d-eb95-0685af2176b2", } require.Len(t, got, 5, "expected five evaluations") require.Equal(t, expected, got) // Must be in this order. }) t.Run("invalid prefix", func(t *testing.T) { ws := memdb.NewWatchSet() iter, err := state.EvalsByIDPrefix(ws, structs.DefaultNamespace, "b-a7bfb", SortDefault) require.NoError(t, err) out := gatherEvals(iter) require.Len(t, out, 0, "expected zero evaluations") require.False(t, watchFired(ws)) }) t.Run("reverse order", func(t *testing.T) { ws := memdb.NewWatchSet() iter, err := state.EvalsByIDPrefix(ws, structs.DefaultNamespace, "aaaa", SortReverse) require.NoError(t, err) got := []string{} for _, e := range gatherEvals(iter) { got = append(got, e.ID) } expected := []string{ "aaaabbbb-7bfb-395d-eb95-0685af2176b2", "aaaaabbb-7bfb-395d-eb95-0685af2176b2", "aaaaaabb-7bfb-395d-eb95-0685af2176b2", "aaaaaaab-7bfb-395d-eb95-0685af2176b2", "aaaaaaaa-7bfb-395d-eb95-0685af2176b2", } require.Len(t, got, 5, "expected five evaluations") require.Equal(t, expected, got) // Must be in this order. }) } func TestStateStore_EvalsByIDPrefix_Namespaces(t *testing.T) { ci.Parallel(t) state := testStateStore(t) eval1 := mock.Eval() eval1.ID = "aabbbbbb-7bfb-395d-eb95-0685af2176b2" eval2 := mock.Eval() eval2.ID = "aabbcbbb-7bfb-395d-eb95-0685af2176b2" sharedPrefix := "aabb" ns1 := mock.Namespace() ns1.Name = "namespace1" ns2 := mock.Namespace() ns2.Name = "namespace2" eval1.Namespace = ns1.Name eval2.Namespace = ns2.Name require.NoError(t, state.UpsertNamespaces(998, []*structs.Namespace{ns1, ns2})) require.NoError(t, state.UpsertEvals(structs.MsgTypeTestSetup, 1000, []*structs.Evaluation{eval1, eval2})) gatherEvals := func(iter memdb.ResultIterator) []*structs.Evaluation { var evals []*structs.Evaluation for { raw := iter.Next() if raw == nil { break } evals = append(evals, raw.(*structs.Evaluation)) } return evals } ws := memdb.NewWatchSet() iter1, err := state.EvalsByIDPrefix(ws, ns1.Name, sharedPrefix, SortDefault) require.NoError(t, err) iter2, err := state.EvalsByIDPrefix(ws, ns2.Name, sharedPrefix, SortDefault) require.NoError(t, err) evalsNs1 := gatherEvals(iter1) evalsNs2 := gatherEvals(iter2) require.Len(t, evalsNs1, 1) require.Len(t, evalsNs2, 1) iter1, err = state.EvalsByIDPrefix(ws, ns1.Name, eval1.ID[:8], SortDefault) require.NoError(t, err) evalsNs1 = gatherEvals(iter1) require.Len(t, evalsNs1, 1) require.False(t, watchFired(ws)) } func TestStateStore_EvalsRelatedToID(t *testing.T) { ci.Parallel(t) state := testStateStore(t) // Create sample evals. e1 := mock.Eval() e2 := mock.Eval() e3 := mock.Eval() e4 := mock.Eval() e5 := mock.Eval() e6 := mock.Eval() // Link evals. // This is not accurate for a real scenario, but it's helpful for testing // the general approach. // // e1 -> e2 -> e3 -> e5 // └─-> e4 (blocked) -> e6 e1.NextEval = e2.ID e2.PreviousEval = e1.ID e2.NextEval = e3.ID e3.PreviousEval = e2.ID e3.BlockedEval = e4.ID e4.PreviousEval = e3.ID e3.NextEval = e5.ID e5.PreviousEval = e3.ID e4.NextEval = e6.ID e6.PreviousEval = e4.ID // Create eval not in chain. e7 := mock.Eval() // Create eval with GC'ed related eval. e8 := mock.Eval() e8.NextEval = uuid.Generate() err := state.UpsertEvals(structs.MsgTypeTestSetup, 1000, []*structs.Evaluation{e1, e2, e3, e4, e5, e6, e7, e8}) require.NoError(t, err) testCases := []struct { name string id string expected []string }{ { name: "linear history", id: e1.ID, expected: []string{ e2.ID, e3.ID, e4.ID, e5.ID, e6.ID, }, }, { name: "linear history from middle", id: e4.ID, expected: []string{ e1.ID, e2.ID, e3.ID, e5.ID, e6.ID, }, }, { name: "eval not in chain", id: e7.ID, expected: []string{}, }, { name: "eval with gc", id: e8.ID, expected: []string{}, }, { name: "non-existing eval", id: uuid.Generate(), expected: []string{}, }, } for _, tc := range testCases { t.Run(tc.name, func(t *testing.T) { ws := memdb.NewWatchSet() related, err := state.EvalsRelatedToID(ws, tc.id) require.NoError(t, err) got := []string{} for _, e := range related { got = append(got, e.ID) } require.ElementsMatch(t, tc.expected, got) }) } t.Run("blocking query", func(t *testing.T) { ws := memdb.NewWatchSet() _, err := state.EvalsRelatedToID(ws, e2.ID) require.NoError(t, err) // Update an eval off the chain and make sure watchset doesn't fire. e7.Status = structs.EvalStatusComplete state.UpsertEvals(structs.MsgTypeTestSetup, 1001, []*structs.Evaluation{e7}) require.False(t, watchFired(ws)) // Update an eval in the chain and make sure watchset does fire. e3.Status = structs.EvalStatusComplete state.UpsertEvals(structs.MsgTypeTestSetup, 1001, []*structs.Evaluation{e3}) require.True(t, watchFired(ws)) }) } func TestStateStore_UpdateAllocsFromClient(t *testing.T) { ci.Parallel(t) state := testStateStore(t) parent := mock.Job() if err := state.UpsertJob(structs.MsgTypeTestSetup, 998, parent); err != nil { t.Fatalf("err: %v", err) } child := mock.Job() child.Status = "" child.ParentID = parent.ID if err := state.UpsertJob(structs.MsgTypeTestSetup, 999, child); err != nil { t.Fatalf("err: %v", err) } alloc := mock.Alloc() alloc.JobID = child.ID alloc.Job = child err := state.UpsertAllocs(structs.MsgTypeTestSetup, 1000, []*structs.Allocation{alloc}) if err != nil { t.Fatalf("err: %v", err) } ws := memdb.NewWatchSet() summary, err := state.JobSummaryByID(ws, parent.Namespace, parent.ID) if err != nil { t.Fatalf("err: %v", err) } if summary == nil { t.Fatalf("nil summary") } if summary.JobID != parent.ID { t.Fatalf("bad summary id: %v", parent.ID) } if summary.Children == nil { t.Fatalf("nil children summary") } if summary.Children.Pending != 0 || summary.Children.Running != 1 || summary.Children.Dead != 0 { t.Fatalf("bad children summary: %v", summary.Children) } // Create watchsets so we can test that update fires the watch ws = memdb.NewWatchSet() if _, err := state.JobSummaryByID(ws, parent.Namespace, parent.ID); err != nil { t.Fatalf("bad: %v", err) } // Create the delta updates ts := map[string]*structs.TaskState{"web": {State: structs.TaskStateRunning}} update := &structs.Allocation{ ID: alloc.ID, ClientStatus: structs.AllocClientStatusComplete, TaskStates: ts, JobID: alloc.JobID, TaskGroup: alloc.TaskGroup, } err = state.UpdateAllocsFromClient(structs.MsgTypeTestSetup, 1001, []*structs.Allocation{update}) if err != nil { t.Fatalf("err: %v", err) } if !watchFired(ws) { t.Fatalf("bad") } ws = memdb.NewWatchSet() summary, err = state.JobSummaryByID(ws, parent.Namespace, parent.ID) if err != nil { t.Fatalf("err: %v", err) } if summary == nil { t.Fatalf("nil summary") } if summary.JobID != parent.ID { t.Fatalf("bad summary id: %v", parent.ID) } if summary.Children == nil { t.Fatalf("nil children summary") } if summary.Children.Pending != 0 || summary.Children.Running != 0 || summary.Children.Dead != 1 { t.Fatalf("bad children summary: %v", summary.Children) } if watchFired(ws) { t.Fatalf("bad") } } func TestStateStore_UpdateAllocsFromClient_ChildJob(t *testing.T) { ci.Parallel(t) state := testStateStore(t) alloc1 := mock.Alloc() alloc2 := mock.Alloc() if err := state.UpsertJob(structs.MsgTypeTestSetup, 999, alloc1.Job); err != nil { t.Fatalf("err: %v", err) } if err := state.UpsertJob(structs.MsgTypeTestSetup, 999, alloc2.Job); err != nil { t.Fatalf("err: %v", err) } err := state.UpsertAllocs(structs.MsgTypeTestSetup, 1000, []*structs.Allocation{alloc1, alloc2}) if err != nil { t.Fatalf("err: %v", err) } // Create watchsets so we can test that update fires the watch watches := make([]memdb.WatchSet, 8) for i := 0; i < 8; i++ { watches[i] = memdb.NewWatchSet() } if _, err := state.AllocByID(watches[0], alloc1.ID); err != nil { t.Fatalf("bad: %v", err) } if _, err := state.AllocByID(watches[1], alloc2.ID); err != nil { t.Fatalf("bad: %v", err) } if _, err := state.AllocsByEval(watches[2], alloc1.EvalID); err != nil { t.Fatalf("bad: %v", err) } if _, err := state.AllocsByEval(watches[3], alloc2.EvalID); err != nil { t.Fatalf("bad: %v", err) } if _, err := state.AllocsByJob(watches[4], alloc1.Namespace, alloc1.JobID, false); err != nil { t.Fatalf("bad: %v", err) } if _, err := state.AllocsByJob(watches[5], alloc2.Namespace, alloc2.JobID, false); err != nil { t.Fatalf("bad: %v", err) } if _, err := state.AllocsByNode(watches[6], alloc1.NodeID); err != nil { t.Fatalf("bad: %v", err) } if _, err := state.AllocsByNode(watches[7], alloc2.NodeID); err != nil { t.Fatalf("bad: %v", err) } // Create the delta updates ts := map[string]*structs.TaskState{"web": {State: structs.TaskStatePending}} update := &structs.Allocation{ ID: alloc1.ID, ClientStatus: structs.AllocClientStatusFailed, TaskStates: ts, JobID: alloc1.JobID, TaskGroup: alloc1.TaskGroup, } update2 := &structs.Allocation{ ID: alloc2.ID, ClientStatus: structs.AllocClientStatusRunning, TaskStates: ts, JobID: alloc2.JobID, TaskGroup: alloc2.TaskGroup, } err = state.UpdateAllocsFromClient(structs.MsgTypeTestSetup, 1001, []*structs.Allocation{update, update2}) if err != nil { t.Fatalf("err: %v", err) } for i, ws := range watches { if !watchFired(ws) { t.Fatalf("bad %d", i) } } ws := memdb.NewWatchSet() out, err := state.AllocByID(ws, alloc1.ID) if err != nil { t.Fatalf("err: %v", err) } alloc1.CreateIndex = 1000 alloc1.ModifyIndex = 1001 alloc1.TaskStates = ts alloc1.ClientStatus = structs.AllocClientStatusFailed if !reflect.DeepEqual(alloc1, out) { t.Fatalf("bad: %#v %#v", alloc1, out) } out, err = state.AllocByID(ws, alloc2.ID) if err != nil { t.Fatalf("err: %v", err) } alloc2.ModifyIndex = 1000 alloc2.ModifyIndex = 1001 alloc2.ClientStatus = structs.AllocClientStatusRunning alloc2.TaskStates = ts if !reflect.DeepEqual(alloc2, out) { t.Fatalf("bad: %#v %#v", alloc2, out) } index, err := state.Index("allocs") if err != nil { t.Fatalf("err: %v", err) } if index != 1001 { t.Fatalf("bad: %d", index) } // Ensure summaries have been updated summary, err := state.JobSummaryByID(ws, alloc1.Namespace, alloc1.JobID) if err != nil { t.Fatalf("err: %v", err) } tgSummary := summary.Summary["web"] if tgSummary.Failed != 1 { t.Fatalf("expected failed: %v, actual: %v, summary: %#v", 1, tgSummary.Failed, tgSummary) } summary2, err := state.JobSummaryByID(ws, alloc2.Namespace, alloc2.JobID) if err != nil { t.Fatalf("err: %v", err) } tgSummary2 := summary2.Summary["web"] if tgSummary2.Running != 1 { t.Fatalf("expected running: %v, actual: %v", 1, tgSummary2.Running) } if watchFired(ws) { t.Fatalf("bad") } } func TestStateStore_UpdateMultipleAllocsFromClient(t *testing.T) { ci.Parallel(t) state := testStateStore(t) alloc := mock.Alloc() if err := state.UpsertJob(structs.MsgTypeTestSetup, 999, alloc.Job); err != nil { t.Fatalf("err: %v", err) } err := state.UpsertAllocs(structs.MsgTypeTestSetup, 1000, []*structs.Allocation{alloc}) if err != nil { t.Fatalf("err: %v", err) } // Create the delta updates ts := map[string]*structs.TaskState{"web": {State: structs.TaskStatePending}} update := &structs.Allocation{ ID: alloc.ID, ClientStatus: structs.AllocClientStatusRunning, TaskStates: ts, JobID: alloc.JobID, TaskGroup: alloc.TaskGroup, } update2 := &structs.Allocation{ ID: alloc.ID, ClientStatus: structs.AllocClientStatusPending, TaskStates: ts, JobID: alloc.JobID, TaskGroup: alloc.TaskGroup, } err = state.UpdateAllocsFromClient(structs.MsgTypeTestSetup, 1001, []*structs.Allocation{update, update2}) if err != nil { t.Fatalf("err: %v", err) } ws := memdb.NewWatchSet() out, err := state.AllocByID(ws, alloc.ID) if err != nil { t.Fatalf("err: %v", err) } alloc.CreateIndex = 1000 alloc.ModifyIndex = 1001 alloc.TaskStates = ts alloc.ClientStatus = structs.AllocClientStatusPending if !reflect.DeepEqual(alloc, out) { t.Fatalf("bad: %#v , actual:%#v", alloc, out) } summary, err := state.JobSummaryByID(ws, alloc.Namespace, alloc.JobID) expectedSummary := &structs.JobSummary{ JobID: alloc.JobID, Namespace: alloc.Namespace, Summary: map[string]structs.TaskGroupSummary{ "web": { Starting: 1, }, }, Children: new(structs.JobChildrenSummary), CreateIndex: 999, ModifyIndex: 1001, } if err != nil { t.Fatalf("err: %v", err) } if !reflect.DeepEqual(summary, expectedSummary) { t.Fatalf("expected: %#v, actual: %#v", expectedSummary, summary) } } func TestStateStore_UpdateAllocsFromClient_Deployment(t *testing.T) { ci.Parallel(t) require := require.New(t) state := testStateStore(t) alloc := mock.Alloc() now := time.Now() alloc.CreateTime = now.UnixNano() pdeadline := 5 * time.Minute deployment := mock.Deployment() deployment.TaskGroups[alloc.TaskGroup].ProgressDeadline = pdeadline alloc.DeploymentID = deployment.ID require.Nil(state.UpsertJob(structs.MsgTypeTestSetup, 999, alloc.Job)) require.Nil(state.UpsertDeployment(1000, deployment)) require.Nil(state.UpsertAllocs(structs.MsgTypeTestSetup, 1001, []*structs.Allocation{alloc})) healthy := now.Add(time.Second) update := &structs.Allocation{ ID: alloc.ID, ClientStatus: structs.AllocClientStatusRunning, JobID: alloc.JobID, TaskGroup: alloc.TaskGroup, DeploymentStatus: &structs.AllocDeploymentStatus{ Healthy: helper.BoolToPtr(true), Timestamp: healthy, }, } require.Nil(state.UpdateAllocsFromClient(structs.MsgTypeTestSetup, 1001, []*structs.Allocation{update})) // Check that the deployment state was updated because the healthy // deployment dout, err := state.DeploymentByID(nil, deployment.ID) require.Nil(err) require.NotNil(dout) require.Len(dout.TaskGroups, 1) dstate := dout.TaskGroups[alloc.TaskGroup] require.NotNil(dstate) require.Equal(1, dstate.PlacedAllocs) require.True(healthy.Add(pdeadline).Equal(dstate.RequireProgressBy)) } // This tests that the deployment state is merged correctly func TestStateStore_UpdateAllocsFromClient_DeploymentStateMerges(t *testing.T) { ci.Parallel(t) require := require.New(t) state := testStateStore(t) alloc := mock.Alloc() now := time.Now() alloc.CreateTime = now.UnixNano() pdeadline := 5 * time.Minute deployment := mock.Deployment() deployment.TaskGroups[alloc.TaskGroup].ProgressDeadline = pdeadline alloc.DeploymentID = deployment.ID alloc.DeploymentStatus = &structs.AllocDeploymentStatus{ Canary: true, } require.Nil(state.UpsertJob(structs.MsgTypeTestSetup, 999, alloc.Job)) require.Nil(state.UpsertDeployment(1000, deployment)) require.Nil(state.UpsertAllocs(structs.MsgTypeTestSetup, 1001, []*structs.Allocation{alloc})) update := &structs.Allocation{ ID: alloc.ID, ClientStatus: structs.AllocClientStatusRunning, JobID: alloc.JobID, TaskGroup: alloc.TaskGroup, DeploymentStatus: &structs.AllocDeploymentStatus{ Healthy: helper.BoolToPtr(true), Canary: false, }, } require.Nil(state.UpdateAllocsFromClient(structs.MsgTypeTestSetup, 1001, []*structs.Allocation{update})) // Check that the merging of the deployment status was correct out, err := state.AllocByID(nil, alloc.ID) require.Nil(err) require.NotNil(out) require.True(out.DeploymentStatus.Canary) require.NotNil(out.DeploymentStatus.Healthy) require.True(*out.DeploymentStatus.Healthy) } func TestStateStore_UpsertAlloc_Alloc(t *testing.T) { ci.Parallel(t) state := testStateStore(t) alloc := mock.Alloc() if err := state.UpsertJob(structs.MsgTypeTestSetup, 999, alloc.Job); err != nil { t.Fatalf("err: %v", err) } // Create watchsets so we can test that update fires the watch watches := make([]memdb.WatchSet, 4) for i := 0; i < 4; i++ { watches[i] = memdb.NewWatchSet() } if _, err := state.AllocByID(watches[0], alloc.ID); err != nil { t.Fatalf("bad: %v", err) } if _, err := state.AllocsByEval(watches[1], alloc.EvalID); err != nil { t.Fatalf("bad: %v", err) } if _, err := state.AllocsByJob(watches[2], alloc.Namespace, alloc.JobID, false); err != nil { t.Fatalf("bad: %v", err) } if _, err := state.AllocsByNode(watches[3], alloc.NodeID); err != nil { t.Fatalf("bad: %v", err) } err := state.UpsertAllocs(structs.MsgTypeTestSetup, 1000, []*structs.Allocation{alloc}) if err != nil { t.Fatalf("err: %v", err) } for i, ws := range watches { if !watchFired(ws) { t.Fatalf("bad %d", i) } } ws := memdb.NewWatchSet() out, err := state.AllocByID(ws, alloc.ID) if err != nil { t.Fatalf("err: %v", err) } if !reflect.DeepEqual(alloc, out) { t.Fatalf("bad: %#v %#v", alloc, out) } index, err := state.Index("allocs") if err != nil { t.Fatalf("err: %v", err) } if index != 1000 { t.Fatalf("bad: %d", index) } summary, err := state.JobSummaryByID(ws, alloc.Namespace, alloc.JobID) if err != nil { t.Fatalf("err: %v", err) } tgSummary, ok := summary.Summary["web"] if !ok { t.Fatalf("no summary for task group web") } if tgSummary.Starting != 1 { t.Fatalf("expected queued: %v, actual: %v", 1, tgSummary.Starting) } if watchFired(ws) { t.Fatalf("bad") } } func TestStateStore_UpsertAlloc_Deployment(t *testing.T) { ci.Parallel(t) require := require.New(t) state := testStateStore(t) alloc := mock.Alloc() now := time.Now() alloc.CreateTime = now.UnixNano() alloc.ModifyTime = now.UnixNano() pdeadline := 5 * time.Minute deployment := mock.Deployment() deployment.TaskGroups[alloc.TaskGroup].ProgressDeadline = pdeadline alloc.DeploymentID = deployment.ID require.Nil(state.UpsertJob(structs.MsgTypeTestSetup, 999, alloc.Job)) require.Nil(state.UpsertDeployment(1000, deployment)) // Create a watch set so we can test that update fires the watch ws := memdb.NewWatchSet() require.Nil(state.AllocsByDeployment(ws, alloc.DeploymentID)) err := state.UpsertAllocs(structs.MsgTypeTestSetup, 1001, []*structs.Allocation{alloc}) require.Nil(err) if !watchFired(ws) { t.Fatalf("watch not fired") } ws = memdb.NewWatchSet() allocs, err := state.AllocsByDeployment(ws, alloc.DeploymentID) require.Nil(err) require.Len(allocs, 1) require.EqualValues(alloc, allocs[0]) index, err := state.Index("allocs") require.Nil(err) require.EqualValues(1001, index) if watchFired(ws) { t.Fatalf("bad") } // Check that the deployment state was updated dout, err := state.DeploymentByID(nil, deployment.ID) require.Nil(err) require.NotNil(dout) require.Len(dout.TaskGroups, 1) dstate := dout.TaskGroups[alloc.TaskGroup] require.NotNil(dstate) require.Equal(1, dstate.PlacedAllocs) require.True(now.Add(pdeadline).Equal(dstate.RequireProgressBy)) } func TestStateStore_UpsertAlloc_AllocsByNamespace(t *testing.T) { ci.Parallel(t) state := testStateStore(t) ns1 := mock.Namespace() ns1.Name = "namespaced" alloc1 := mock.Alloc() alloc2 := mock.Alloc() alloc1.Namespace = ns1.Name alloc1.Job.Namespace = ns1.Name alloc2.Namespace = ns1.Name alloc2.Job.Namespace = ns1.Name ns2 := mock.Namespace() ns2.Name = "new-namespace" alloc3 := mock.Alloc() alloc4 := mock.Alloc() alloc3.Namespace = ns2.Name alloc3.Job.Namespace = ns2.Name alloc4.Namespace = ns2.Name alloc4.Job.Namespace = ns2.Name require.NoError(t, state.UpsertNamespaces(998, []*structs.Namespace{ns1, ns2})) require.NoError(t, state.UpsertJob(structs.MsgTypeTestSetup, 999, alloc1.Job)) require.NoError(t, state.UpsertJob(structs.MsgTypeTestSetup, 1000, alloc3.Job)) // Create watchsets so we can test that update fires the watch watches := []memdb.WatchSet{memdb.NewWatchSet(), memdb.NewWatchSet()} _, err := state.AllocsByNamespace(watches[0], ns1.Name) require.NoError(t, err) _, err = state.AllocsByNamespace(watches[1], ns2.Name) require.NoError(t, err) require.NoError(t, state.UpsertAllocs(structs.MsgTypeTestSetup, 1001, []*structs.Allocation{alloc1, alloc2, alloc3, alloc4})) require.True(t, watchFired(watches[0])) require.True(t, watchFired(watches[1])) ws := memdb.NewWatchSet() iter1, err := state.AllocsByNamespace(ws, ns1.Name) require.NoError(t, err) iter2, err := state.AllocsByNamespace(ws, ns2.Name) require.NoError(t, err) var out1 []*structs.Allocation for { raw := iter1.Next() if raw == nil { break } out1 = append(out1, raw.(*structs.Allocation)) } var out2 []*structs.Allocation for { raw := iter2.Next() if raw == nil { break } out2 = append(out2, raw.(*structs.Allocation)) } require.Len(t, out1, 2) require.Len(t, out2, 2) for _, alloc := range out1 { require.Equal(t, ns1.Name, alloc.Namespace) } for _, alloc := range out2 { require.Equal(t, ns2.Name, alloc.Namespace) } index, err := state.Index("allocs") require.NoError(t, err) require.EqualValues(t, 1001, index) require.False(t, watchFired(ws)) } // Testing to ensure we keep issue // https://github.com/hashicorp/nomad/issues/2583 fixed func TestStateStore_UpsertAlloc_No_Job(t *testing.T) { ci.Parallel(t) state := testStateStore(t) alloc := mock.Alloc() alloc.Job = nil err := state.UpsertAllocs(structs.MsgTypeTestSetup, 999, []*structs.Allocation{alloc}) if err == nil || !strings.Contains(err.Error(), "without a job") { t.Fatalf("expect err: %v", err) } } func TestStateStore_UpsertAlloc_ChildJob(t *testing.T) { ci.Parallel(t) state := testStateStore(t) parent := mock.Job() require.NoError(t, state.UpsertJob(structs.MsgTypeTestSetup, 998, parent)) child := mock.Job() child.Status = "" child.ParentID = parent.ID require.NoError(t, state.UpsertJob(structs.MsgTypeTestSetup, 999, child)) alloc := mock.Alloc() alloc.JobID = child.ID alloc.Job = child // Create watchsets so we can test that delete fires the watch ws := memdb.NewWatchSet() _, err := state.JobSummaryByID(ws, parent.Namespace, parent.ID) require.NoError(t, err) err = state.UpsertAllocs(structs.MsgTypeTestSetup, 1000, []*structs.Allocation{alloc}) require.NoError(t, err) require.True(t, watchFired(ws)) ws = memdb.NewWatchSet() summary, err := state.JobSummaryByID(ws, parent.Namespace, parent.ID) require.NoError(t, err) require.NotNil(t, summary) require.Equal(t, parent.ID, summary.JobID) require.NotNil(t, summary.Children) require.Equal(t, int64(0), summary.Children.Pending) require.Equal(t, int64(1), summary.Children.Running) require.Equal(t, int64(0), summary.Children.Dead) require.False(t, watchFired(ws)) } func TestStateStore_UpdateAlloc_Alloc(t *testing.T) { ci.Parallel(t) state := testStateStore(t) alloc := mock.Alloc() if err := state.UpsertJob(structs.MsgTypeTestSetup, 999, alloc.Job); err != nil { t.Fatalf("err: %v", err) } err := state.UpsertAllocs(structs.MsgTypeTestSetup, 1000, []*structs.Allocation{alloc}) if err != nil { t.Fatalf("err: %v", err) } ws := memdb.NewWatchSet() summary, err := state.JobSummaryByID(ws, alloc.Namespace, alloc.JobID) if err != nil { t.Fatalf("err: %v", err) } tgSummary := summary.Summary["web"] if tgSummary.Starting != 1 { t.Fatalf("expected starting: %v, actual: %v", 1, tgSummary.Starting) } alloc2 := mock.Alloc() alloc2.ID = alloc.ID alloc2.NodeID = alloc.NodeID + ".new" state.UpsertJobSummary(1001, mock.JobSummary(alloc2.JobID)) // Create watchsets so we can test that update fires the watch watches := make([]memdb.WatchSet, 4) for i := 0; i < 4; i++ { watches[i] = memdb.NewWatchSet() } if _, err := state.AllocByID(watches[0], alloc2.ID); err != nil { t.Fatalf("bad: %v", err) } if _, err := state.AllocsByEval(watches[1], alloc2.EvalID); err != nil { t.Fatalf("bad: %v", err) } if _, err := state.AllocsByJob(watches[2], alloc2.Namespace, alloc2.JobID, false); err != nil { t.Fatalf("bad: %v", err) } if _, err := state.AllocsByNode(watches[3], alloc2.NodeID); err != nil { t.Fatalf("bad: %v", err) } err = state.UpsertAllocs(structs.MsgTypeTestSetup, 1002, []*structs.Allocation{alloc2}) if err != nil { t.Fatalf("err: %v", err) } for i, ws := range watches { if !watchFired(ws) { t.Fatalf("bad %d", i) } } ws = memdb.NewWatchSet() out, err := state.AllocByID(ws, alloc.ID) if err != nil { t.Fatalf("err: %v", err) } if !reflect.DeepEqual(alloc2, out) { t.Fatalf("bad: %#v %#v", alloc2, out) } if out.CreateIndex != 1000 { t.Fatalf("bad: %#v", out) } if out.ModifyIndex != 1002 { t.Fatalf("bad: %#v", out) } index, err := state.Index("allocs") if err != nil { t.Fatalf("err: %v", err) } if index != 1002 { t.Fatalf("bad: %d", index) } // Ensure that summary hasb't changed summary, err = state.JobSummaryByID(ws, alloc.Namespace, alloc.JobID) if err != nil { t.Fatalf("err: %v", err) } tgSummary = summary.Summary["web"] if tgSummary.Starting != 1 { t.Fatalf("expected starting: %v, actual: %v", 1, tgSummary.Starting) } if watchFired(ws) { t.Fatalf("bad") } } // This test ensures that the state store will mark the clients status as lost // when set rather than preferring the existing status. func TestStateStore_UpdateAlloc_Lost(t *testing.T) { ci.Parallel(t) state := testStateStore(t) alloc := mock.Alloc() alloc.ClientStatus = "foo" if err := state.UpsertJob(structs.MsgTypeTestSetup, 999, alloc.Job); err != nil { t.Fatalf("err: %v", err) } err := state.UpsertAllocs(structs.MsgTypeTestSetup, 1000, []*structs.Allocation{alloc}) if err != nil { t.Fatalf("err: %v", err) } alloc2 := new(structs.Allocation) *alloc2 = *alloc alloc2.ClientStatus = structs.AllocClientStatusLost if err := state.UpsertAllocs(structs.MsgTypeTestSetup, 1001, []*structs.Allocation{alloc2}); err != nil { t.Fatalf("err: %v", err) } ws := memdb.NewWatchSet() out, err := state.AllocByID(ws, alloc2.ID) if err != nil { t.Fatalf("err: %v", err) } if out.ClientStatus != structs.AllocClientStatusLost { t.Fatalf("bad: %#v", out) } } // This test ensures an allocation can be updated when there is no job // associated with it. This will happen when a job is stopped by an user which // has non-terminal allocations on clients func TestStateStore_UpdateAlloc_NoJob(t *testing.T) { ci.Parallel(t) state := testStateStore(t) alloc := mock.Alloc() // Upsert a job state.UpsertJobSummary(998, mock.JobSummary(alloc.JobID)) if err := state.UpsertJob(structs.MsgTypeTestSetup, 999, alloc.Job); err != nil { t.Fatalf("err: %v", err) } err := state.UpsertAllocs(structs.MsgTypeTestSetup, 1000, []*structs.Allocation{alloc}) if err != nil { t.Fatalf("err: %v", err) } if err := state.DeleteJob(1001, alloc.Namespace, alloc.JobID); err != nil { t.Fatalf("err: %v", err) } // Update the desired state of the allocation to stop allocCopy := alloc.Copy() allocCopy.DesiredStatus = structs.AllocDesiredStatusStop if err := state.UpsertAllocs(structs.MsgTypeTestSetup, 1002, []*structs.Allocation{allocCopy}); err != nil { t.Fatalf("err: %v", err) } // Update the client state of the allocation to complete allocCopy1 := allocCopy.Copy() allocCopy1.ClientStatus = structs.AllocClientStatusComplete if err := state.UpdateAllocsFromClient(structs.MsgTypeTestSetup, 1003, []*structs.Allocation{allocCopy1}); err != nil { t.Fatalf("err: %v", err) } ws := memdb.NewWatchSet() out, _ := state.AllocByID(ws, alloc.ID) // Update the modify index of the alloc before comparing allocCopy1.ModifyIndex = 1003 if !reflect.DeepEqual(out, allocCopy1) { t.Fatalf("expected: %#v \n actual: %#v", allocCopy1, out) } } func TestStateStore_UpdateAllocDesiredTransition(t *testing.T) { ci.Parallel(t) require := require.New(t) state := testStateStore(t) alloc := mock.Alloc() require.Nil(state.UpsertJob(structs.MsgTypeTestSetup, 999, alloc.Job)) require.Nil(state.UpsertAllocs(structs.MsgTypeTestSetup, 1000, []*structs.Allocation{alloc})) t1 := &structs.DesiredTransition{ Migrate: helper.BoolToPtr(true), } t2 := &structs.DesiredTransition{ Migrate: helper.BoolToPtr(false), } eval := &structs.Evaluation{ ID: uuid.Generate(), Namespace: alloc.Namespace, Priority: alloc.Job.Priority, Type: alloc.Job.Type, TriggeredBy: structs.EvalTriggerNodeDrain, JobID: alloc.Job.ID, JobModifyIndex: alloc.Job.ModifyIndex, Status: structs.EvalStatusPending, } evals := []*structs.Evaluation{eval} m := map[string]*structs.DesiredTransition{alloc.ID: t1} require.Nil(state.UpdateAllocsDesiredTransitions(structs.MsgTypeTestSetup, 1001, m, evals)) ws := memdb.NewWatchSet() out, err := state.AllocByID(ws, alloc.ID) require.Nil(err) require.NotNil(out.DesiredTransition.Migrate) require.True(*out.DesiredTransition.Migrate) require.EqualValues(1000, out.CreateIndex) require.EqualValues(1001, out.ModifyIndex) index, err := state.Index("allocs") require.Nil(err) require.EqualValues(1001, index) // Check the eval is created eout, err := state.EvalByID(nil, eval.ID) require.Nil(err) require.NotNil(eout) m = map[string]*structs.DesiredTransition{alloc.ID: t2} require.Nil(state.UpdateAllocsDesiredTransitions(structs.MsgTypeTestSetup, 1002, m, evals)) ws = memdb.NewWatchSet() out, err = state.AllocByID(ws, alloc.ID) require.Nil(err) require.NotNil(out.DesiredTransition.Migrate) require.False(*out.DesiredTransition.Migrate) require.EqualValues(1000, out.CreateIndex) require.EqualValues(1002, out.ModifyIndex) index, err = state.Index("allocs") require.Nil(err) require.EqualValues(1002, index) // Try with a bogus alloc id m = map[string]*structs.DesiredTransition{uuid.Generate(): t2} require.Nil(state.UpdateAllocsDesiredTransitions(structs.MsgTypeTestSetup, 1003, m, evals)) } func TestStateStore_JobSummary(t *testing.T) { ci.Parallel(t) state := testStateStore(t) // Add a job job := mock.Job() state.UpsertJob(structs.MsgTypeTestSetup, 900, job) // Get the job back ws := memdb.NewWatchSet() outJob, _ := state.JobByID(ws, job.Namespace, job.ID) if outJob.CreateIndex != 900 { t.Fatalf("bad create index: %v", outJob.CreateIndex) } summary, _ := state.JobSummaryByID(ws, job.Namespace, job.ID) if summary.CreateIndex != 900 { t.Fatalf("bad create index: %v", summary.CreateIndex) } // Upsert an allocation alloc := mock.Alloc() alloc.JobID = job.ID alloc.Job = job state.UpsertAllocs(structs.MsgTypeTestSetup, 910, []*structs.Allocation{alloc}) // Update the alloc from client alloc1 := alloc.Copy() alloc1.ClientStatus = structs.AllocClientStatusPending alloc1.DesiredStatus = "" state.UpdateAllocsFromClient(structs.MsgTypeTestSetup, 920, []*structs.Allocation{alloc}) alloc3 := alloc.Copy() alloc3.ClientStatus = structs.AllocClientStatusRunning alloc3.DesiredStatus = "" state.UpdateAllocsFromClient(structs.MsgTypeTestSetup, 930, []*structs.Allocation{alloc3}) // Upsert the alloc alloc4 := alloc.Copy() alloc4.ClientStatus = structs.AllocClientStatusPending alloc4.DesiredStatus = structs.AllocDesiredStatusRun state.UpsertAllocs(structs.MsgTypeTestSetup, 950, []*structs.Allocation{alloc4}) // Again upsert the alloc alloc5 := alloc.Copy() alloc5.ClientStatus = structs.AllocClientStatusPending alloc5.DesiredStatus = structs.AllocDesiredStatusRun state.UpsertAllocs(structs.MsgTypeTestSetup, 970, []*structs.Allocation{alloc5}) if !watchFired(ws) { t.Fatalf("bad") } expectedSummary := structs.JobSummary{ JobID: job.ID, Namespace: job.Namespace, Summary: map[string]structs.TaskGroupSummary{ "web": { Running: 1, }, }, Children: new(structs.JobChildrenSummary), CreateIndex: 900, ModifyIndex: 930, } summary, _ = state.JobSummaryByID(ws, job.Namespace, job.ID) if !reflect.DeepEqual(&expectedSummary, summary) { t.Fatalf("expected: %#v, actual: %v", expectedSummary, summary) } // De-register the job. state.DeleteJob(980, job.Namespace, job.ID) // Shouldn't have any effect on the summary alloc6 := alloc.Copy() alloc6.ClientStatus = structs.AllocClientStatusRunning alloc6.DesiredStatus = "" state.UpdateAllocsFromClient(structs.MsgTypeTestSetup, 990, []*structs.Allocation{alloc6}) // We shouldn't have any summary at this point summary, _ = state.JobSummaryByID(ws, job.Namespace, job.ID) if summary != nil { t.Fatalf("expected nil, actual: %#v", summary) } // Re-register the same job job1 := mock.Job() job1.ID = job.ID state.UpsertJob(structs.MsgTypeTestSetup, 1000, job1) outJob2, _ := state.JobByID(ws, job1.Namespace, job1.ID) if outJob2.CreateIndex != 1000 { t.Fatalf("bad create index: %v", outJob2.CreateIndex) } summary, _ = state.JobSummaryByID(ws, job1.Namespace, job1.ID) if summary.CreateIndex != 1000 { t.Fatalf("bad create index: %v", summary.CreateIndex) } // Upsert an allocation alloc7 := alloc.Copy() alloc7.JobID = outJob.ID alloc7.Job = outJob alloc7.ClientStatus = structs.AllocClientStatusComplete alloc7.DesiredStatus = structs.AllocDesiredStatusRun state.UpdateAllocsFromClient(structs.MsgTypeTestSetup, 1020, []*structs.Allocation{alloc7}) expectedSummary = structs.JobSummary{ JobID: job.ID, Namespace: job.Namespace, Summary: map[string]structs.TaskGroupSummary{ "web": {}, }, Children: new(structs.JobChildrenSummary), CreateIndex: 1000, ModifyIndex: 1000, } summary, _ = state.JobSummaryByID(ws, job1.Namespace, job1.ID) if !reflect.DeepEqual(&expectedSummary, summary) { t.Fatalf("expected: %#v, actual: %#v", expectedSummary, summary) } } func TestStateStore_ReconcileJobSummary(t *testing.T) { ci.Parallel(t) state := testStateStore(t) // Create an alloc alloc := mock.Alloc() // Add another task group to the job tg2 := alloc.Job.TaskGroups[0].Copy() tg2.Name = "db" alloc.Job.TaskGroups = append(alloc.Job.TaskGroups, tg2) state.UpsertJob(structs.MsgTypeTestSetup, 100, alloc.Job) // Create one more alloc for the db task group alloc2 := mock.Alloc() alloc2.TaskGroup = "db" alloc2.JobID = alloc.JobID alloc2.Job = alloc.Job // Upserts the alloc state.UpsertAllocs(structs.MsgTypeTestSetup, 110, []*structs.Allocation{alloc, alloc2}) // Change the state of the first alloc to running alloc3 := alloc.Copy() alloc3.ClientStatus = structs.AllocClientStatusRunning state.UpdateAllocsFromClient(structs.MsgTypeTestSetup, 120, []*structs.Allocation{alloc3}) //Add some more allocs to the second tg alloc4 := mock.Alloc() alloc4.JobID = alloc.JobID alloc4.Job = alloc.Job alloc4.TaskGroup = "db" alloc5 := alloc4.Copy() alloc5.ClientStatus = structs.AllocClientStatusRunning alloc6 := mock.Alloc() alloc6.JobID = alloc.JobID alloc6.Job = alloc.Job alloc6.TaskGroup = "db" alloc7 := alloc6.Copy() alloc7.ClientStatus = structs.AllocClientStatusComplete alloc8 := mock.Alloc() alloc8.JobID = alloc.JobID alloc8.Job = alloc.Job alloc8.TaskGroup = "db" alloc9 := alloc8.Copy() alloc9.ClientStatus = structs.AllocClientStatusFailed alloc10 := mock.Alloc() alloc10.JobID = alloc.JobID alloc10.Job = alloc.Job alloc10.TaskGroup = "db" alloc11 := alloc10.Copy() alloc11.ClientStatus = structs.AllocClientStatusLost alloc12 := mock.Alloc() alloc12.JobID = alloc.JobID alloc12.Job = alloc.Job alloc12.TaskGroup = "db" alloc12.ClientStatus = structs.AllocClientStatusUnknown state.UpsertAllocs(structs.MsgTypeTestSetup, 130, []*structs.Allocation{alloc4, alloc6, alloc8, alloc10, alloc12}) state.UpdateAllocsFromClient(structs.MsgTypeTestSetup, 150, []*structs.Allocation{alloc5, alloc7, alloc9, alloc11}) // DeleteJobSummary is a helper method and doesn't modify the indexes table state.DeleteJobSummary(130, alloc.Namespace, alloc.Job.ID) state.ReconcileJobSummaries(120) ws := memdb.NewWatchSet() summary, _ := state.JobSummaryByID(ws, alloc.Namespace, alloc.Job.ID) expectedSummary := structs.JobSummary{ JobID: alloc.Job.ID, Namespace: alloc.Namespace, Summary: map[string]structs.TaskGroupSummary{ "web": { Running: 1, }, "db": { Starting: 1, Running: 1, Failed: 1, Complete: 1, Lost: 1, Unknown: 1, }, }, CreateIndex: 100, ModifyIndex: 120, } if !reflect.DeepEqual(&expectedSummary, summary) { t.Fatalf("expected: %v, actual: %v", expectedSummary, summary) } } func TestStateStore_ReconcileParentJobSummary(t *testing.T) { ci.Parallel(t) require := require.New(t) state := testStateStore(t) // Add a node node := mock.Node() state.UpsertNode(structs.MsgTypeTestSetup, 80, node) // Make a parameterized job job1 := mock.BatchJob() job1.ID = "test" job1.ParameterizedJob = &structs.ParameterizedJobConfig{ Payload: "random", } job1.TaskGroups[0].Count = 1 state.UpsertJob(structs.MsgTypeTestSetup, 100, job1) // Make a child job childJob := job1.Copy() childJob.ID = job1.ID + "dispatch-23423423" childJob.ParentID = job1.ID childJob.Dispatched = true childJob.Status = structs.JobStatusRunning // Make some allocs for child job alloc := mock.Alloc() alloc.NodeID = node.ID alloc.Job = childJob alloc.JobID = childJob.ID alloc.ClientStatus = structs.AllocClientStatusRunning alloc2 := mock.Alloc() alloc2.NodeID = node.ID alloc2.Job = childJob alloc2.JobID = childJob.ID alloc2.ClientStatus = structs.AllocClientStatusFailed require.Nil(state.UpsertJob(structs.MsgTypeTestSetup, 110, childJob)) require.Nil(state.UpsertAllocs(structs.MsgTypeTestSetup, 111, []*structs.Allocation{alloc, alloc2})) // Make the summary incorrect in the state store summary, err := state.JobSummaryByID(nil, job1.Namespace, job1.ID) require.Nil(err) summary.Children = nil summary.Summary = make(map[string]structs.TaskGroupSummary) summary.Summary["web"] = structs.TaskGroupSummary{ Queued: 1, } // Delete the child job summary state.DeleteJobSummary(125, childJob.Namespace, childJob.ID) state.ReconcileJobSummaries(120) ws := memdb.NewWatchSet() // Verify parent summary is corrected summary, _ = state.JobSummaryByID(ws, alloc.Namespace, job1.ID) expectedSummary := structs.JobSummary{ JobID: job1.ID, Namespace: job1.Namespace, Summary: make(map[string]structs.TaskGroupSummary), Children: &structs.JobChildrenSummary{ Running: 1, }, CreateIndex: 100, ModifyIndex: 120, } require.Equal(&expectedSummary, summary) // Verify child job summary is also correct childSummary, _ := state.JobSummaryByID(ws, childJob.Namespace, childJob.ID) expectedChildSummary := structs.JobSummary{ JobID: childJob.ID, Namespace: childJob.Namespace, Summary: map[string]structs.TaskGroupSummary{ "web": { Running: 1, Failed: 1, }, }, CreateIndex: 110, ModifyIndex: 120, } require.Equal(&expectedChildSummary, childSummary) } func TestStateStore_UpdateAlloc_JobNotPresent(t *testing.T) { ci.Parallel(t) state := testStateStore(t) alloc := mock.Alloc() state.UpsertJob(structs.MsgTypeTestSetup, 100, alloc.Job) state.UpsertAllocs(structs.MsgTypeTestSetup, 200, []*structs.Allocation{alloc}) // Delete the job state.DeleteJob(300, alloc.Namespace, alloc.Job.ID) // Update the alloc alloc1 := alloc.Copy() alloc1.ClientStatus = structs.AllocClientStatusRunning // Updating allocation should not throw any error if err := state.UpdateAllocsFromClient(structs.MsgTypeTestSetup, 400, []*structs.Allocation{alloc1}); err != nil { t.Fatalf("expect err: %v", err) } // Re-Register the job state.UpsertJob(structs.MsgTypeTestSetup, 500, alloc.Job) // Update the alloc again alloc2 := alloc.Copy() alloc2.ClientStatus = structs.AllocClientStatusComplete if err := state.UpdateAllocsFromClient(structs.MsgTypeTestSetup, 400, []*structs.Allocation{alloc1}); err != nil { t.Fatalf("expect err: %v", err) } // Job Summary of the newly registered job shouldn't account for the // allocation update for the older job expectedSummary := structs.JobSummary{ JobID: alloc1.JobID, Namespace: alloc1.Namespace, Summary: map[string]structs.TaskGroupSummary{ "web": {}, }, Children: new(structs.JobChildrenSummary), CreateIndex: 500, ModifyIndex: 500, } ws := memdb.NewWatchSet() summary, _ := state.JobSummaryByID(ws, alloc.Namespace, alloc.Job.ID) if !reflect.DeepEqual(&expectedSummary, summary) { t.Fatalf("expected: %v, actual: %v", expectedSummary, summary) } } func TestStateStore_EvictAlloc_Alloc(t *testing.T) { ci.Parallel(t) state := testStateStore(t) alloc := mock.Alloc() state.UpsertJobSummary(999, mock.JobSummary(alloc.JobID)) err := state.UpsertAllocs(structs.MsgTypeTestSetup, 1000, []*structs.Allocation{alloc}) if err != nil { t.Fatalf("err: %v", err) } alloc2 := new(structs.Allocation) *alloc2 = *alloc alloc2.DesiredStatus = structs.AllocDesiredStatusEvict err = state.UpsertAllocs(structs.MsgTypeTestSetup, 1001, []*structs.Allocation{alloc2}) if err != nil { t.Fatalf("err: %v", err) } ws := memdb.NewWatchSet() out, err := state.AllocByID(ws, alloc.ID) if err != nil { t.Fatalf("err: %v", err) } if out.DesiredStatus != structs.AllocDesiredStatusEvict { t.Fatalf("bad: %#v %#v", alloc, out) } index, err := state.Index("allocs") if err != nil { t.Fatalf("err: %v", err) } if index != 1001 { t.Fatalf("bad: %d", index) } } func TestStateStore_AllocsByNode(t *testing.T) { ci.Parallel(t) state := testStateStore(t) var allocs []*structs.Allocation for i := 0; i < 10; i++ { alloc := mock.Alloc() alloc.NodeID = "foo" allocs = append(allocs, alloc) } for idx, alloc := range allocs { state.UpsertJobSummary(uint64(900+idx), mock.JobSummary(alloc.JobID)) } err := state.UpsertAllocs(structs.MsgTypeTestSetup, 1000, allocs) if err != nil { t.Fatalf("err: %v", err) } ws := memdb.NewWatchSet() out, err := state.AllocsByNode(ws, "foo") if err != nil { t.Fatalf("err: %v", err) } sort.Sort(AllocIDSort(allocs)) sort.Sort(AllocIDSort(out)) if !reflect.DeepEqual(allocs, out) { t.Fatalf("bad: %#v %#v", allocs, out) } if watchFired(ws) { t.Fatalf("bad") } } func TestStateStore_AllocsByNodeTerminal(t *testing.T) { ci.Parallel(t) state := testStateStore(t) var allocs, term, nonterm []*structs.Allocation for i := 0; i < 10; i++ { alloc := mock.Alloc() alloc.NodeID = "foo" if i%2 == 0 { alloc.DesiredStatus = structs.AllocDesiredStatusStop term = append(term, alloc) } else { nonterm = append(nonterm, alloc) } allocs = append(allocs, alloc) } for idx, alloc := range allocs { state.UpsertJobSummary(uint64(900+idx), mock.JobSummary(alloc.JobID)) } err := state.UpsertAllocs(structs.MsgTypeTestSetup, 1000, allocs) if err != nil { t.Fatalf("err: %v", err) } // Verify the terminal allocs ws := memdb.NewWatchSet() out, err := state.AllocsByNodeTerminal(ws, "foo", true) if err != nil { t.Fatalf("err: %v", err) } sort.Sort(AllocIDSort(term)) sort.Sort(AllocIDSort(out)) if !reflect.DeepEqual(term, out) { t.Fatalf("bad: %#v %#v", term, out) } // Verify the non-terminal allocs out, err = state.AllocsByNodeTerminal(ws, "foo", false) if err != nil { t.Fatalf("err: %v", err) } sort.Sort(AllocIDSort(nonterm)) sort.Sort(AllocIDSort(out)) if !reflect.DeepEqual(nonterm, out) { t.Fatalf("bad: %#v %#v", nonterm, out) } if watchFired(ws) { t.Fatalf("bad") } } func TestStateStore_AllocsByJob(t *testing.T) { ci.Parallel(t) state := testStateStore(t) var allocs []*structs.Allocation for i := 0; i < 10; i++ { alloc := mock.Alloc() alloc.JobID = "foo" allocs = append(allocs, alloc) } for i, alloc := range allocs { state.UpsertJobSummary(uint64(900+i), mock.JobSummary(alloc.JobID)) } err := state.UpsertAllocs(structs.MsgTypeTestSetup, 1000, allocs) if err != nil { t.Fatalf("err: %v", err) } ws := memdb.NewWatchSet() out, err := state.AllocsByJob(ws, mock.Alloc().Namespace, "foo", false) if err != nil { t.Fatalf("err: %v", err) } sort.Sort(AllocIDSort(allocs)) sort.Sort(AllocIDSort(out)) if !reflect.DeepEqual(allocs, out) { t.Fatalf("bad: %#v %#v", allocs, out) } if watchFired(ws) { t.Fatalf("bad") } } func TestStateStore_AllocsForRegisteredJob(t *testing.T) { ci.Parallel(t) state := testStateStore(t) var allocs []*structs.Allocation var allocs1 []*structs.Allocation job := mock.Job() job.ID = "foo" state.UpsertJob(structs.MsgTypeTestSetup, 100, job) for i := 0; i < 3; i++ { alloc := mock.Alloc() alloc.Job = job alloc.JobID = job.ID allocs = append(allocs, alloc) } if err := state.UpsertAllocs(structs.MsgTypeTestSetup, 200, allocs); err != nil { t.Fatalf("err: %v", err) } if err := state.DeleteJob(250, job.Namespace, job.ID); err != nil { t.Fatalf("err: %v", err) } job1 := mock.Job() job1.ID = "foo" job1.CreateIndex = 50 state.UpsertJob(structs.MsgTypeTestSetup, 300, job1) for i := 0; i < 4; i++ { alloc := mock.Alloc() alloc.Job = job1 alloc.JobID = job1.ID allocs1 = append(allocs1, alloc) } if err := state.UpsertAllocs(structs.MsgTypeTestSetup, 1000, allocs1); err != nil { t.Fatalf("err: %v", err) } ws := memdb.NewWatchSet() out, err := state.AllocsByJob(ws, job1.Namespace, job1.ID, true) if err != nil { t.Fatalf("err: %v", err) } expected := len(allocs) + len(allocs1) if len(out) != expected { t.Fatalf("expected: %v, actual: %v", expected, len(out)) } out1, err := state.AllocsByJob(ws, job1.Namespace, job1.ID, false) if err != nil { t.Fatalf("bad: %v", err) } expected = len(allocs1) if len(out1) != expected { t.Fatalf("expected: %v, actual: %v", expected, len(out1)) } if watchFired(ws) { t.Fatalf("bad") } } func TestStateStore_AllocsByIDPrefix(t *testing.T) { ci.Parallel(t) state := testStateStore(t) var allocs []*structs.Allocation ids := []string{ "aaaaaaaa-7bfb-395d-eb95-0685af2176b2", "aaaaaaab-7bfb-395d-eb95-0685af2176b2", "aaaaaabb-7bfb-395d-eb95-0685af2176b2", "aaaaabbb-7bfb-395d-eb95-0685af2176b2", "aaaabbbb-7bfb-395d-eb95-0685af2176b2", "aaabbbbb-7bfb-395d-eb95-0685af2176b2", "aabbbbbb-7bfb-395d-eb95-0685af2176b2", "abbbbbbb-7bfb-395d-eb95-0685af2176b2", "bbbbbbbb-7bfb-395d-eb95-0685af2176b2", } for i := 0; i < 9; i++ { alloc := mock.Alloc() alloc.ID = ids[i] allocs = append(allocs, alloc) } for i, alloc := range allocs { state.UpsertJobSummary(uint64(900+i), mock.JobSummary(alloc.JobID)) } err := state.UpsertAllocs(structs.MsgTypeTestSetup, 1000, allocs) require.NoError(t, err) gatherAllocs := func(iter memdb.ResultIterator) []*structs.Allocation { var allocs []*structs.Allocation for { raw := iter.Next() if raw == nil { break } allocs = append(allocs, raw.(*structs.Allocation)) } return allocs } t.Run("allocs by prefix", func(t *testing.T) { ws := memdb.NewWatchSet() iter, err := state.AllocsByIDPrefix(ws, structs.DefaultNamespace, "aaaa", SortDefault) require.NoError(t, err) out := gatherAllocs(iter) require.Len(t, out, 5, "expected five allocations") got := []string{} for _, a := range out { got = append(got, a.ID) } expected := []string{ "aaaaaaaa-7bfb-395d-eb95-0685af2176b2", "aaaaaaab-7bfb-395d-eb95-0685af2176b2", "aaaaaabb-7bfb-395d-eb95-0685af2176b2", "aaaaabbb-7bfb-395d-eb95-0685af2176b2", "aaaabbbb-7bfb-395d-eb95-0685af2176b2", } require.Equal(t, expected, got) require.False(t, watchFired(ws)) }) t.Run("invalid prefix", func(t *testing.T) { ws := memdb.NewWatchSet() iter, err := state.AllocsByIDPrefix(ws, structs.DefaultNamespace, "b-a7bfb", SortDefault) require.NoError(t, err) out := gatherAllocs(iter) require.Len(t, out, 0) require.False(t, watchFired(ws)) }) t.Run("reverse", func(t *testing.T) { ws := memdb.NewWatchSet() iter, err := state.AllocsByIDPrefix(ws, structs.DefaultNamespace, "aaaa", SortReverse) require.NoError(t, err) out := gatherAllocs(iter) require.Len(t, out, 5, "expected five allocations") got := []string{} for _, a := range out { got = append(got, a.ID) } expected := []string{ "aaaabbbb-7bfb-395d-eb95-0685af2176b2", "aaaaabbb-7bfb-395d-eb95-0685af2176b2", "aaaaaabb-7bfb-395d-eb95-0685af2176b2", "aaaaaaab-7bfb-395d-eb95-0685af2176b2", "aaaaaaaa-7bfb-395d-eb95-0685af2176b2", } require.Equal(t, expected, got) require.False(t, watchFired(ws)) }) } func TestStateStore_AllocsByIDPrefix_Namespaces(t *testing.T) { ci.Parallel(t) state := testStateStore(t) alloc1 := mock.Alloc() alloc1.ID = "aabbbbbb-7bfb-395d-eb95-0685af2176b2" alloc2 := mock.Alloc() alloc2.ID = "aabbcbbb-7bfb-395d-eb95-0685af2176b2" sharedPrefix := "aabb" ns1 := mock.Namespace() ns1.Name = "namespace1" ns2 := mock.Namespace() ns2.Name = "namespace2" alloc1.Namespace = ns1.Name alloc2.Namespace = ns2.Name require.NoError(t, state.UpsertNamespaces(998, []*structs.Namespace{ns1, ns2})) require.NoError(t, state.UpsertAllocs(structs.MsgTypeTestSetup, 1000, []*structs.Allocation{alloc1, alloc2})) gatherAllocs := func(iter memdb.ResultIterator) []*structs.Allocation { var allocs []*structs.Allocation for { raw := iter.Next() if raw == nil { break } alloc := raw.(*structs.Allocation) allocs = append(allocs, alloc) } return allocs } ws := memdb.NewWatchSet() iter1, err := state.AllocsByIDPrefix(ws, ns1.Name, sharedPrefix, SortDefault) require.NoError(t, err) iter2, err := state.AllocsByIDPrefix(ws, ns2.Name, sharedPrefix, SortDefault) require.NoError(t, err) allocsNs1 := gatherAllocs(iter1) allocsNs2 := gatherAllocs(iter2) require.Len(t, allocsNs1, 1) require.Len(t, allocsNs2, 1) iter1, err = state.AllocsByIDPrefix(ws, ns1.Name, alloc1.ID[:8], SortDefault) require.NoError(t, err) allocsNs1 = gatherAllocs(iter1) require.Len(t, allocsNs1, 1) require.False(t, watchFired(ws)) } func TestStateStore_Allocs(t *testing.T) { ci.Parallel(t) state := testStateStore(t) var allocs []*structs.Allocation for i := 0; i < 10; i++ { alloc := mock.Alloc() allocs = append(allocs, alloc) } for i, alloc := range allocs { state.UpsertJobSummary(uint64(900+i), mock.JobSummary(alloc.JobID)) } err := state.UpsertAllocs(structs.MsgTypeTestSetup, 1000, allocs) if err != nil { t.Fatalf("err: %v", err) } ws := memdb.NewWatchSet() iter, err := state.Allocs(ws, SortDefault) if err != nil { t.Fatalf("err: %v", err) } var out []*structs.Allocation for { raw := iter.Next() if raw == nil { break } out = append(out, raw.(*structs.Allocation)) } sort.Sort(AllocIDSort(allocs)) sort.Sort(AllocIDSort(out)) if !reflect.DeepEqual(allocs, out) { t.Fatalf("bad: %#v %#v", allocs, out) } if watchFired(ws) { t.Fatalf("bad") } } func TestStateStore_Allocs_PrevAlloc(t *testing.T) { ci.Parallel(t) state := testStateStore(t) var allocs []*structs.Allocation require := require.New(t) for i := 0; i < 5; i++ { alloc := mock.Alloc() allocs = append(allocs, alloc) } for i, alloc := range allocs { state.UpsertJobSummary(uint64(900+i), mock.JobSummary(alloc.JobID)) } // Set some previous alloc ids allocs[1].PreviousAllocation = allocs[0].ID allocs[2].PreviousAllocation = allocs[1].ID err := state.UpsertAllocs(structs.MsgTypeTestSetup, 1000, allocs) require.Nil(err) ws := memdb.NewWatchSet() iter, err := state.Allocs(ws, SortDefault) require.Nil(err) var out []*structs.Allocation for { raw := iter.Next() if raw == nil { break } out = append(out, raw.(*structs.Allocation)) } // Set expected NextAllocation fields allocs[0].NextAllocation = allocs[1].ID allocs[1].NextAllocation = allocs[2].ID sort.Sort(AllocIDSort(allocs)) sort.Sort(AllocIDSort(out)) require.Equal(allocs, out) require.False(watchFired(ws)) // Insert another alloc, verify index of previous alloc also got updated alloc := mock.Alloc() alloc.PreviousAllocation = allocs[0].ID err = state.UpsertAllocs(structs.MsgTypeTestSetup, 1001, []*structs.Allocation{alloc}) require.Nil(err) alloc0, err := state.AllocByID(nil, allocs[0].ID) require.Nil(err) require.Equal(alloc0.ModifyIndex, uint64(1001)) } func TestStateStore_SetJobStatus_ForceStatus(t *testing.T) { ci.Parallel(t) index := uint64(0) state := testStateStore(t) txn := state.db.WriteTxn(index) // Create and insert a mock job. job := mock.Job() job.Status = "" job.ModifyIndex = index if err := txn.Insert("jobs", job); err != nil { t.Fatalf("job insert failed: %v", err) } exp := "foobar" index = uint64(1000) if err := state.setJobStatus(index, txn, job, false, exp); err != nil { t.Fatalf("setJobStatus() failed: %v", err) } i, err := txn.First("jobs", "id", job.Namespace, job.ID) if err != nil { t.Fatalf("job lookup failed: %v", err) } updated := i.(*structs.Job) if updated.Status != exp { t.Fatalf("setJobStatus() set %v; expected %v", updated.Status, exp) } if updated.ModifyIndex != index { t.Fatalf("setJobStatus() set %d; expected %d", updated.ModifyIndex, index) } } func TestStateStore_SetJobStatus_NoOp(t *testing.T) { ci.Parallel(t) index := uint64(0) state := testStateStore(t) txn := state.db.WriteTxn(index) // Create and insert a mock job that should be pending. job := mock.Job() job.Status = structs.JobStatusPending job.ModifyIndex = 10 if err := txn.Insert("jobs", job); err != nil { t.Fatalf("job insert failed: %v", err) } index = uint64(1000) if err := state.setJobStatus(index, txn, job, false, ""); err != nil { t.Fatalf("setJobStatus() failed: %v", err) } i, err := txn.First("jobs", "id", job.Namespace, job.ID) if err != nil { t.Fatalf("job lookup failed: %v", err) } updated := i.(*structs.Job) if updated.ModifyIndex == index { t.Fatalf("setJobStatus() should have been a no-op") } } func TestStateStore_SetJobStatus(t *testing.T) { ci.Parallel(t) state := testStateStore(t) txn := state.db.WriteTxn(uint64(0)) // Create and insert a mock job that should be pending but has an incorrect // status. job := mock.Job() job.Status = "foobar" job.ModifyIndex = 10 if err := txn.Insert("jobs", job); err != nil { t.Fatalf("job insert failed: %v", err) } index := uint64(1000) if err := state.setJobStatus(index, txn, job, false, ""); err != nil { t.Fatalf("setJobStatus() failed: %v", err) } i, err := txn.First("jobs", "id", job.Namespace, job.ID) if err != nil { t.Fatalf("job lookup failed: %v", err) } updated := i.(*structs.Job) if updated.Status != structs.JobStatusPending { t.Fatalf("setJobStatus() set %v; expected %v", updated.Status, structs.JobStatusPending) } if updated.ModifyIndex != index { t.Fatalf("setJobStatus() set %d; expected %d", updated.ModifyIndex, index) } } func TestStateStore_GetJobStatus_NoEvalsOrAllocs(t *testing.T) { ci.Parallel(t) job := mock.Job() state := testStateStore(t) txn := state.db.ReadTxn() status, err := state.getJobStatus(txn, job, false) if err != nil { t.Fatalf("getJobStatus() failed: %v", err) } if status != structs.JobStatusPending { t.Fatalf("getJobStatus() returned %v; expected %v", status, structs.JobStatusPending) } } func TestStateStore_GetJobStatus_NoEvalsOrAllocs_Periodic(t *testing.T) { ci.Parallel(t) job := mock.PeriodicJob() state := testStateStore(t) txn := state.db.ReadTxn() status, err := state.getJobStatus(txn, job, false) if err != nil { t.Fatalf("getJobStatus() failed: %v", err) } if status != structs.JobStatusRunning { t.Fatalf("getJobStatus() returned %v; expected %v", status, structs.JobStatusRunning) } } func TestStateStore_GetJobStatus_NoEvalsOrAllocs_EvalDelete(t *testing.T) { ci.Parallel(t) job := mock.Job() state := testStateStore(t) txn := state.db.ReadTxn() status, err := state.getJobStatus(txn, job, true) if err != nil { t.Fatalf("getJobStatus() failed: %v", err) } if status != structs.JobStatusDead { t.Fatalf("getJobStatus() returned %v; expected %v", status, structs.JobStatusDead) } } func TestStateStore_GetJobStatus_DeadEvalsAndAllocs(t *testing.T) { ci.Parallel(t) state := testStateStore(t) job := mock.Job() // Create a mock alloc that is dead. alloc := mock.Alloc() alloc.JobID = job.ID alloc.DesiredStatus = structs.AllocDesiredStatusStop state.UpsertJobSummary(999, mock.JobSummary(alloc.JobID)) if err := state.UpsertAllocs(structs.MsgTypeTestSetup, 1000, []*structs.Allocation{alloc}); err != nil { t.Fatalf("err: %v", err) } // Create a mock eval that is complete eval := mock.Eval() eval.JobID = job.ID eval.Status = structs.EvalStatusComplete if err := state.UpsertEvals(structs.MsgTypeTestSetup, 1001, []*structs.Evaluation{eval}); err != nil { t.Fatalf("err: %v", err) } txn := state.db.ReadTxn() status, err := state.getJobStatus(txn, job, false) if err != nil { t.Fatalf("getJobStatus() failed: %v", err) } if status != structs.JobStatusDead { t.Fatalf("getJobStatus() returned %v; expected %v", status, structs.JobStatusDead) } } func TestStateStore_GetJobStatus_RunningAlloc(t *testing.T) { ci.Parallel(t) state := testStateStore(t) job := mock.Job() // Create a mock alloc that is running. alloc := mock.Alloc() alloc.JobID = job.ID alloc.DesiredStatus = structs.AllocDesiredStatusRun state.UpsertJobSummary(999, mock.JobSummary(alloc.JobID)) if err := state.UpsertAllocs(structs.MsgTypeTestSetup, 1000, []*structs.Allocation{alloc}); err != nil { t.Fatalf("err: %v", err) } txn := state.db.ReadTxn() status, err := state.getJobStatus(txn, job, true) if err != nil { t.Fatalf("getJobStatus() failed: %v", err) } if status != structs.JobStatusRunning { t.Fatalf("getJobStatus() returned %v; expected %v", status, structs.JobStatusRunning) } } func TestStateStore_GetJobStatus_PeriodicJob(t *testing.T) { ci.Parallel(t) state := testStateStore(t) job := mock.PeriodicJob() txn := state.db.ReadTxn() status, err := state.getJobStatus(txn, job, false) if err != nil { t.Fatalf("getJobStatus() failed: %v", err) } if status != structs.JobStatusRunning { t.Fatalf("getJobStatus() returned %v; expected %v", status, structs.JobStatusRunning) } // Mark it as stopped job.Stop = true status, err = state.getJobStatus(txn, job, false) if err != nil { t.Fatalf("getJobStatus() failed: %v", err) } if status != structs.JobStatusDead { t.Fatalf("getJobStatus() returned %v; expected %v", status, structs.JobStatusDead) } } func TestStateStore_GetJobStatus_ParameterizedJob(t *testing.T) { ci.Parallel(t) state := testStateStore(t) job := mock.Job() job.ParameterizedJob = &structs.ParameterizedJobConfig{} txn := state.db.ReadTxn() status, err := state.getJobStatus(txn, job, false) if err != nil { t.Fatalf("getJobStatus() failed: %v", err) } if status != structs.JobStatusRunning { t.Fatalf("getJobStatus() returned %v; expected %v", status, structs.JobStatusRunning) } // Mark it as stopped job.Stop = true status, err = state.getJobStatus(txn, job, false) if err != nil { t.Fatalf("getJobStatus() failed: %v", err) } if status != structs.JobStatusDead { t.Fatalf("getJobStatus() returned %v; expected %v", status, structs.JobStatusDead) } } func TestStateStore_SetJobStatus_PendingEval(t *testing.T) { ci.Parallel(t) state := testStateStore(t) job := mock.Job() // Create a mock eval that is pending. eval := mock.Eval() eval.JobID = job.ID eval.Status = structs.EvalStatusPending if err := state.UpsertEvals(structs.MsgTypeTestSetup, 1000, []*structs.Evaluation{eval}); err != nil { t.Fatalf("err: %v", err) } txn := state.db.ReadTxn() status, err := state.getJobStatus(txn, job, true) if err != nil { t.Fatalf("getJobStatus() failed: %v", err) } if status != structs.JobStatusPending { t.Fatalf("getJobStatus() returned %v; expected %v", status, structs.JobStatusPending) } } // TestStateStore_SetJobStatus_SystemJob asserts that system jobs are still // considered running until explicitly stopped. func TestStateStore_SetJobStatus_SystemJob(t *testing.T) { ci.Parallel(t) state := testStateStore(t) job := mock.SystemJob() // Create a mock eval that is pending. eval := mock.Eval() eval.JobID = job.ID eval.Type = job.Type eval.Status = structs.EvalStatusComplete if err := state.UpsertEvals(structs.MsgTypeTestSetup, 1000, []*structs.Evaluation{eval}); err != nil { t.Fatalf("err: %v", err) } txn := state.db.ReadTxn() status, err := state.getJobStatus(txn, job, true) if err != nil { t.Fatalf("getJobStatus() failed: %v", err) } if expected := structs.JobStatusRunning; status != expected { t.Fatalf("getJobStatus() returned %v; expected %v", status, expected) } // Stop the job job.Stop = true status, err = state.getJobStatus(txn, job, true) if err != nil { t.Fatalf("getJobStatus() failed: %v", err) } if expected := structs.JobStatusDead; status != expected { t.Fatalf("getJobStatus() returned %v; expected %v", status, expected) } } func TestStateJobSummary_UpdateJobCount(t *testing.T) { ci.Parallel(t) state := testStateStore(t) alloc := mock.Alloc() job := alloc.Job job.TaskGroups[0].Count = 3 // Create watchsets so we can test that upsert fires the watch ws := memdb.NewWatchSet() if _, err := state.JobSummaryByID(ws, job.Namespace, job.ID); err != nil { t.Fatalf("bad: %v", err) } if err := state.UpsertJob(structs.MsgTypeTestSetup, 1000, job); err != nil { t.Fatalf("err: %v", err) } if err := state.UpsertAllocs(structs.MsgTypeTestSetup, 1001, []*structs.Allocation{alloc}); err != nil { t.Fatalf("err: %v", err) } if !watchFired(ws) { t.Fatalf("bad") } ws = memdb.NewWatchSet() summary, _ := state.JobSummaryByID(ws, job.Namespace, job.ID) expectedSummary := structs.JobSummary{ JobID: job.ID, Namespace: job.Namespace, Summary: map[string]structs.TaskGroupSummary{ "web": { Starting: 1, }, }, Children: new(structs.JobChildrenSummary), CreateIndex: 1000, ModifyIndex: 1001, } if !reflect.DeepEqual(summary, &expectedSummary) { t.Fatalf("expected: %v, actual: %v", expectedSummary, summary) } // Create watchsets so we can test that upsert fires the watch ws2 := memdb.NewWatchSet() if _, err := state.JobSummaryByID(ws2, job.Namespace, job.ID); err != nil { t.Fatalf("bad: %v", err) } alloc2 := mock.Alloc() alloc2.Job = job alloc2.JobID = job.ID alloc3 := mock.Alloc() alloc3.Job = job alloc3.JobID = job.ID if err := state.UpsertAllocs(structs.MsgTypeTestSetup, 1002, []*structs.Allocation{alloc2, alloc3}); err != nil { t.Fatalf("err: %v", err) } if !watchFired(ws2) { t.Fatalf("bad") } outA, _ := state.AllocByID(ws, alloc3.ID) summary, _ = state.JobSummaryByID(ws, job.Namespace, job.ID) expectedSummary = structs.JobSummary{ JobID: job.ID, Namespace: job.Namespace, Summary: map[string]structs.TaskGroupSummary{ "web": { Starting: 3, }, }, Children: new(structs.JobChildrenSummary), CreateIndex: job.CreateIndex, ModifyIndex: outA.ModifyIndex, } if !reflect.DeepEqual(summary, &expectedSummary) { t.Fatalf("expected summary: %v, actual: %v", expectedSummary, summary) } // Create watchsets so we can test that upsert fires the watch ws3 := memdb.NewWatchSet() if _, err := state.JobSummaryByID(ws3, job.Namespace, job.ID); err != nil { t.Fatalf("bad: %v", err) } alloc4 := mock.Alloc() alloc4.ID = alloc2.ID alloc4.Job = alloc2.Job alloc4.JobID = alloc2.JobID alloc4.ClientStatus = structs.AllocClientStatusComplete alloc5 := mock.Alloc() alloc5.ID = alloc3.ID alloc5.Job = alloc3.Job alloc5.JobID = alloc3.JobID alloc5.ClientStatus = structs.AllocClientStatusComplete if err := state.UpdateAllocsFromClient(structs.MsgTypeTestSetup, 1004, []*structs.Allocation{alloc4, alloc5}); err != nil { t.Fatalf("err: %v", err) } if !watchFired(ws2) { t.Fatalf("bad") } outA, _ = state.AllocByID(ws, alloc5.ID) summary, _ = state.JobSummaryByID(ws, job.Namespace, job.ID) expectedSummary = structs.JobSummary{ JobID: job.ID, Namespace: job.Namespace, Summary: map[string]structs.TaskGroupSummary{ "web": { Complete: 2, Starting: 1, }, }, Children: new(structs.JobChildrenSummary), CreateIndex: job.CreateIndex, ModifyIndex: outA.ModifyIndex, } if !reflect.DeepEqual(summary, &expectedSummary) { t.Fatalf("expected: %v, actual: %v", expectedSummary, summary) } } func TestJobSummary_UpdateClientStatus(t *testing.T) { ci.Parallel(t) state := testStateStore(t) alloc := mock.Alloc() job := alloc.Job job.TaskGroups[0].Count = 3 alloc2 := mock.Alloc() alloc2.Job = job alloc2.JobID = job.ID alloc3 := mock.Alloc() alloc3.Job = job alloc3.JobID = job.ID err := state.UpsertJob(structs.MsgTypeTestSetup, 1000, job) if err != nil { t.Fatalf("err: %v", err) } if err := state.UpsertAllocs(structs.MsgTypeTestSetup, 1001, []*structs.Allocation{alloc, alloc2, alloc3}); err != nil { t.Fatalf("err: %v", err) } ws := memdb.NewWatchSet() summary, _ := state.JobSummaryByID(ws, job.Namespace, job.ID) if summary.Summary["web"].Starting != 3 { t.Fatalf("bad job summary: %v", summary) } alloc4 := mock.Alloc() alloc4.ID = alloc2.ID alloc4.Job = alloc2.Job alloc4.JobID = alloc2.JobID alloc4.ClientStatus = structs.AllocClientStatusComplete alloc5 := mock.Alloc() alloc5.ID = alloc3.ID alloc5.Job = alloc3.Job alloc5.JobID = alloc3.JobID alloc5.ClientStatus = structs.AllocClientStatusFailed alloc6 := mock.Alloc() alloc6.ID = alloc.ID alloc6.Job = alloc.Job alloc6.JobID = alloc.JobID alloc6.ClientStatus = structs.AllocClientStatusRunning if err := state.UpdateAllocsFromClient(structs.MsgTypeTestSetup, 1002, []*structs.Allocation{alloc4, alloc5, alloc6}); err != nil { t.Fatalf("err: %v", err) } if !watchFired(ws) { t.Fatalf("bad") } summary, _ = state.JobSummaryByID(ws, job.Namespace, job.ID) if summary.Summary["web"].Running != 1 || summary.Summary["web"].Failed != 1 || summary.Summary["web"].Complete != 1 { t.Fatalf("bad job summary: %v", summary) } alloc7 := mock.Alloc() alloc7.Job = alloc.Job alloc7.JobID = alloc.JobID if err := state.UpsertAllocs(structs.MsgTypeTestSetup, 1003, []*structs.Allocation{alloc7}); err != nil { t.Fatalf("err: %v", err) } summary, _ = state.JobSummaryByID(ws, job.Namespace, job.ID) if summary.Summary["web"].Starting != 1 || summary.Summary["web"].Running != 1 || summary.Summary["web"].Failed != 1 || summary.Summary["web"].Complete != 1 { t.Fatalf("bad job summary: %v", summary) } } // Test that nonexistent deployment can't be updated func TestStateStore_UpsertDeploymentStatusUpdate_Nonexistent(t *testing.T) { ci.Parallel(t) state := testStateStore(t) // Update the nonexistent deployment req := &structs.DeploymentStatusUpdateRequest{ DeploymentUpdate: &structs.DeploymentStatusUpdate{ DeploymentID: uuid.Generate(), Status: structs.DeploymentStatusRunning, }, } err := state.UpdateDeploymentStatus(structs.MsgTypeTestSetup, 2, req) if err == nil || !strings.Contains(err.Error(), "does not exist") { t.Fatalf("expected error updating the status because the deployment doesn't exist") } } // Test that terminal deployment can't be updated func TestStateStore_UpsertDeploymentStatusUpdate_Terminal(t *testing.T) { ci.Parallel(t) state := testStateStore(t) // Insert a terminal deployment d := mock.Deployment() d.Status = structs.DeploymentStatusFailed if err := state.UpsertDeployment(1, d); err != nil { t.Fatalf("bad: %v", err) } // Update the deployment req := &structs.DeploymentStatusUpdateRequest{ DeploymentUpdate: &structs.DeploymentStatusUpdate{ DeploymentID: d.ID, Status: structs.DeploymentStatusRunning, }, } err := state.UpdateDeploymentStatus(structs.MsgTypeTestSetup, 2, req) if err == nil || !strings.Contains(err.Error(), "has terminal status") { t.Fatalf("expected error updating the status because the deployment is terminal") } } // Test that a non terminal deployment is updated and that a job and eval are // created. func TestStateStore_UpsertDeploymentStatusUpdate_NonTerminal(t *testing.T) { ci.Parallel(t) state := testStateStore(t) // Insert a deployment d := mock.Deployment() if err := state.UpsertDeployment(1, d); err != nil { t.Fatalf("bad: %v", err) } // Create an eval and a job e := mock.Eval() j := mock.Job() // Update the deployment status, desc := structs.DeploymentStatusFailed, "foo" req := &structs.DeploymentStatusUpdateRequest{ DeploymentUpdate: &structs.DeploymentStatusUpdate{ DeploymentID: d.ID, Status: status, StatusDescription: desc, }, Job: j, Eval: e, } err := state.UpdateDeploymentStatus(structs.MsgTypeTestSetup, 2, req) if err != nil { t.Fatalf("bad: %v", err) } // Check that the status was updated properly ws := memdb.NewWatchSet() dout, err := state.DeploymentByID(ws, d.ID) if err != nil { t.Fatalf("bad: %v", err) } if dout.Status != status || dout.StatusDescription != desc { t.Fatalf("bad: %#v", dout) } // Check that the evaluation was created eout, _ := state.EvalByID(ws, e.ID) if err != nil { t.Fatalf("bad: %v", err) } if eout == nil { t.Fatalf("bad: %#v", eout) } // Check that the job was created jout, _ := state.JobByID(ws, j.Namespace, j.ID) if err != nil { t.Fatalf("bad: %v", err) } if jout == nil { t.Fatalf("bad: %#v", jout) } } // Test that when a deployment is updated to successful the job is updated to // stable func TestStateStore_UpsertDeploymentStatusUpdate_Successful(t *testing.T) { ci.Parallel(t) state := testStateStore(t) // Insert a job job := mock.Job() if err := state.UpsertJob(structs.MsgTypeTestSetup, 1, job); err != nil { t.Fatalf("bad: %v", err) } // Insert a deployment d := structs.NewDeployment(job, 50) if err := state.UpsertDeployment(2, d); err != nil { t.Fatalf("bad: %v", err) } // Update the deployment req := &structs.DeploymentStatusUpdateRequest{ DeploymentUpdate: &structs.DeploymentStatusUpdate{ DeploymentID: d.ID, Status: structs.DeploymentStatusSuccessful, StatusDescription: structs.DeploymentStatusDescriptionSuccessful, }, } err := state.UpdateDeploymentStatus(structs.MsgTypeTestSetup, 3, req) if err != nil { t.Fatalf("bad: %v", err) } // Check that the status was updated properly ws := memdb.NewWatchSet() dout, err := state.DeploymentByID(ws, d.ID) if err != nil { t.Fatalf("bad: %v", err) } if dout.Status != structs.DeploymentStatusSuccessful || dout.StatusDescription != structs.DeploymentStatusDescriptionSuccessful { t.Fatalf("bad: %#v", dout) } // Check that the job was created jout, _ := state.JobByID(ws, job.Namespace, job.ID) if err != nil { t.Fatalf("bad: %v", err) } if jout == nil { t.Fatalf("bad: %#v", jout) } if !jout.Stable { t.Fatalf("job not marked stable %#v", jout) } if jout.Version != d.JobVersion { t.Fatalf("job version changed; got %d; want %d", jout.Version, d.JobVersion) } } func TestStateStore_UpdateJobStability(t *testing.T) { ci.Parallel(t) state := testStateStore(t) // Insert a job twice to get two versions job := mock.Job() require.NoError(t, state.UpsertJob(structs.MsgTypeTestSetup, 1, job)) require.NoError(t, state.UpsertJob(structs.MsgTypeTestSetup, 2, job.Copy())) // Update the stability to true err := state.UpdateJobStability(3, job.Namespace, job.ID, 0, true) require.NoError(t, err) // Check that the job was updated properly ws := memdb.NewWatchSet() jout, err := state.JobByIDAndVersion(ws, job.Namespace, job.ID, 0) require.NoError(t, err) require.NotNil(t, jout) require.True(t, jout.Stable, "job not marked as stable") // Update the stability to false err = state.UpdateJobStability(3, job.Namespace, job.ID, 0, false) if err != nil { t.Fatalf("bad: %v", err) } // Check that the job was updated properly jout, err = state.JobByIDAndVersion(ws, job.Namespace, job.ID, 0) require.NoError(t, err) require.NotNil(t, jout) require.False(t, jout.Stable) } // Test that nonexistent deployment can't be promoted func TestStateStore_UpsertDeploymentPromotion_Nonexistent(t *testing.T) { ci.Parallel(t) state := testStateStore(t) // Promote the nonexistent deployment req := &structs.ApplyDeploymentPromoteRequest{ DeploymentPromoteRequest: structs.DeploymentPromoteRequest{ DeploymentID: uuid.Generate(), All: true, }, } err := state.UpdateDeploymentPromotion(structs.MsgTypeTestSetup, 2, req) if err == nil || !strings.Contains(err.Error(), "does not exist") { t.Fatalf("expected error promoting because the deployment doesn't exist") } } // Test that terminal deployment can't be updated func TestStateStore_UpsertDeploymentPromotion_Terminal(t *testing.T) { ci.Parallel(t) state := testStateStore(t) // Insert a terminal deployment d := mock.Deployment() d.Status = structs.DeploymentStatusFailed if err := state.UpsertDeployment(1, d); err != nil { t.Fatalf("bad: %v", err) } // Promote the deployment req := &structs.ApplyDeploymentPromoteRequest{ DeploymentPromoteRequest: structs.DeploymentPromoteRequest{ DeploymentID: d.ID, All: true, }, } err := state.UpdateDeploymentPromotion(structs.MsgTypeTestSetup, 2, req) if err == nil || !strings.Contains(err.Error(), "has terminal status") { t.Fatalf("expected error updating the status because the deployment is terminal: %v", err) } } // Test promoting unhealthy canaries in a deployment. func TestStateStore_UpsertDeploymentPromotion_Unhealthy(t *testing.T) { ci.Parallel(t) state := testStateStore(t) require := require.New(t) // Create a job j := mock.Job() require.Nil(state.UpsertJob(structs.MsgTypeTestSetup, 1, j)) // Create a deployment d := mock.Deployment() d.JobID = j.ID d.TaskGroups["web"].DesiredCanaries = 2 require.Nil(state.UpsertDeployment(2, d)) // Create a set of allocations c1 := mock.Alloc() c1.JobID = j.ID c1.DeploymentID = d.ID d.TaskGroups[c1.TaskGroup].PlacedCanaries = append(d.TaskGroups[c1.TaskGroup].PlacedCanaries, c1.ID) c2 := mock.Alloc() c2.JobID = j.ID c2.DeploymentID = d.ID d.TaskGroups[c2.TaskGroup].PlacedCanaries = append(d.TaskGroups[c2.TaskGroup].PlacedCanaries, c2.ID) // Create a healthy but terminal alloc c3 := mock.Alloc() c3.JobID = j.ID c3.DeploymentID = d.ID c3.DesiredStatus = structs.AllocDesiredStatusStop c3.DeploymentStatus = &structs.AllocDeploymentStatus{Healthy: helper.BoolToPtr(true)} d.TaskGroups[c3.TaskGroup].PlacedCanaries = append(d.TaskGroups[c3.TaskGroup].PlacedCanaries, c3.ID) require.Nil(state.UpsertAllocs(structs.MsgTypeTestSetup, 3, []*structs.Allocation{c1, c2, c3})) // Promote the canaries req := &structs.ApplyDeploymentPromoteRequest{ DeploymentPromoteRequest: structs.DeploymentPromoteRequest{ DeploymentID: d.ID, All: true, }, } err := state.UpdateDeploymentPromotion(structs.MsgTypeTestSetup, 4, req) require.NotNil(err) require.Contains(err.Error(), `Task group "web" has 0/2 healthy allocations`) } // Test promoting a deployment with no canaries func TestStateStore_UpsertDeploymentPromotion_NoCanaries(t *testing.T) { ci.Parallel(t) state := testStateStore(t) require := require.New(t) // Create a job j := mock.Job() require.Nil(state.UpsertJob(structs.MsgTypeTestSetup, 1, j)) // Create a deployment d := mock.Deployment() d.TaskGroups["web"].DesiredCanaries = 2 d.JobID = j.ID require.Nil(state.UpsertDeployment(2, d)) // Promote the canaries req := &structs.ApplyDeploymentPromoteRequest{ DeploymentPromoteRequest: structs.DeploymentPromoteRequest{ DeploymentID: d.ID, All: true, }, } err := state.UpdateDeploymentPromotion(structs.MsgTypeTestSetup, 4, req) require.NotNil(err) require.Contains(err.Error(), `Task group "web" has 0/2 healthy allocations`) } // Test promoting all canaries in a deployment. func TestStateStore_UpsertDeploymentPromotion_All(t *testing.T) { ci.Parallel(t) state := testStateStore(t) // Create a job with two task groups j := mock.Job() tg1 := j.TaskGroups[0] tg2 := tg1.Copy() tg2.Name = "foo" j.TaskGroups = append(j.TaskGroups, tg2) if err := state.UpsertJob(structs.MsgTypeTestSetup, 1, j); err != nil { t.Fatalf("bad: %v", err) } // Create a deployment d := mock.Deployment() d.StatusDescription = structs.DeploymentStatusDescriptionRunningNeedsPromotion d.JobID = j.ID d.TaskGroups = map[string]*structs.DeploymentState{ "web": { DesiredTotal: 10, DesiredCanaries: 1, }, "foo": { DesiredTotal: 10, DesiredCanaries: 1, }, } if err := state.UpsertDeployment(2, d); err != nil { t.Fatalf("bad: %v", err) } // Create a set of allocations c1 := mock.Alloc() c1.JobID = j.ID c1.DeploymentID = d.ID d.TaskGroups[c1.TaskGroup].PlacedCanaries = append(d.TaskGroups[c1.TaskGroup].PlacedCanaries, c1.ID) c1.DeploymentStatus = &structs.AllocDeploymentStatus{ Healthy: helper.BoolToPtr(true), } c2 := mock.Alloc() c2.JobID = j.ID c2.DeploymentID = d.ID d.TaskGroups[c2.TaskGroup].PlacedCanaries = append(d.TaskGroups[c2.TaskGroup].PlacedCanaries, c2.ID) c2.TaskGroup = tg2.Name c2.DeploymentStatus = &structs.AllocDeploymentStatus{ Healthy: helper.BoolToPtr(true), } if err := state.UpsertAllocs(structs.MsgTypeTestSetup, 3, []*structs.Allocation{c1, c2}); err != nil { t.Fatalf("err: %v", err) } // Create an eval e := mock.Eval() // Promote the canaries req := &structs.ApplyDeploymentPromoteRequest{ DeploymentPromoteRequest: structs.DeploymentPromoteRequest{ DeploymentID: d.ID, All: true, }, Eval: e, } err := state.UpdateDeploymentPromotion(structs.MsgTypeTestSetup, 4, req) if err != nil { t.Fatalf("bad: %v", err) } // Check that the status per task group was updated properly ws := memdb.NewWatchSet() dout, err := state.DeploymentByID(ws, d.ID) if err != nil { t.Fatalf("bad: %v", err) } if dout.StatusDescription != structs.DeploymentStatusDescriptionRunning { t.Fatalf("status description not updated: got %v; want %v", dout.StatusDescription, structs.DeploymentStatusDescriptionRunning) } if len(dout.TaskGroups) != 2 { t.Fatalf("bad: %#v", dout.TaskGroups) } for tg, state := range dout.TaskGroups { if !state.Promoted { t.Fatalf("bad: group %q not promoted %#v", tg, state) } } // Check that the evaluation was created eout, _ := state.EvalByID(ws, e.ID) if err != nil { t.Fatalf("bad: %v", err) } if eout == nil { t.Fatalf("bad: %#v", eout) } } // Test promoting a subset of canaries in a deployment. func TestStateStore_UpsertDeploymentPromotion_Subset(t *testing.T) { ci.Parallel(t) require := require.New(t) state := testStateStore(t) // Create a job with two task groups j := mock.Job() tg1 := j.TaskGroups[0] tg2 := tg1.Copy() tg2.Name = "foo" j.TaskGroups = append(j.TaskGroups, tg2) require.Nil(state.UpsertJob(structs.MsgTypeTestSetup, 1, j)) // Create a deployment d := mock.Deployment() d.JobID = j.ID d.TaskGroups = map[string]*structs.DeploymentState{ "web": { DesiredTotal: 10, DesiredCanaries: 1, }, "foo": { DesiredTotal: 10, DesiredCanaries: 1, }, } require.Nil(state.UpsertDeployment(2, d)) // Create a set of allocations for both groups, including an unhealthy one c1 := mock.Alloc() c1.JobID = j.ID c1.DeploymentID = d.ID d.TaskGroups[c1.TaskGroup].PlacedCanaries = append(d.TaskGroups[c1.TaskGroup].PlacedCanaries, c1.ID) c1.DeploymentStatus = &structs.AllocDeploymentStatus{ Healthy: helper.BoolToPtr(true), Canary: true, } // Should still be a canary c2 := mock.Alloc() c2.JobID = j.ID c2.DeploymentID = d.ID d.TaskGroups[c2.TaskGroup].PlacedCanaries = append(d.TaskGroups[c2.TaskGroup].PlacedCanaries, c2.ID) c2.TaskGroup = tg2.Name c2.DeploymentStatus = &structs.AllocDeploymentStatus{ Healthy: helper.BoolToPtr(true), Canary: true, } c3 := mock.Alloc() c3.JobID = j.ID c3.DeploymentID = d.ID d.TaskGroups[c3.TaskGroup].PlacedCanaries = append(d.TaskGroups[c3.TaskGroup].PlacedCanaries, c3.ID) c3.DeploymentStatus = &structs.AllocDeploymentStatus{ Healthy: helper.BoolToPtr(false), Canary: true, } require.Nil(state.UpsertAllocs(structs.MsgTypeTestSetup, 3, []*structs.Allocation{c1, c2, c3})) // Create an eval e := mock.Eval() // Promote the canaries req := &structs.ApplyDeploymentPromoteRequest{ DeploymentPromoteRequest: structs.DeploymentPromoteRequest{ DeploymentID: d.ID, Groups: []string{"web"}, }, Eval: e, } require.Nil(state.UpdateDeploymentPromotion(structs.MsgTypeTestSetup, 4, req)) // Check that the status per task group was updated properly ws := memdb.NewWatchSet() dout, err := state.DeploymentByID(ws, d.ID) require.Nil(err) require.Len(dout.TaskGroups, 2) require.Contains(dout.TaskGroups, "web") require.True(dout.TaskGroups["web"].Promoted) // Check that the evaluation was created eout, err := state.EvalByID(ws, e.ID) require.Nil(err) require.NotNil(eout) // Check the canary field was set properly aout1, err1 := state.AllocByID(ws, c1.ID) aout2, err2 := state.AllocByID(ws, c2.ID) aout3, err3 := state.AllocByID(ws, c3.ID) require.Nil(err1) require.Nil(err2) require.Nil(err3) require.NotNil(aout1) require.NotNil(aout2) require.NotNil(aout3) require.False(aout1.DeploymentStatus.Canary) require.True(aout2.DeploymentStatus.Canary) require.True(aout3.DeploymentStatus.Canary) } // Test that allocation health can't be set against a nonexistent deployment func TestStateStore_UpsertDeploymentAllocHealth_Nonexistent(t *testing.T) { ci.Parallel(t) state := testStateStore(t) // Set health against the nonexistent deployment req := &structs.ApplyDeploymentAllocHealthRequest{ DeploymentAllocHealthRequest: structs.DeploymentAllocHealthRequest{ DeploymentID: uuid.Generate(), HealthyAllocationIDs: []string{uuid.Generate()}, }, } err := state.UpdateDeploymentAllocHealth(structs.MsgTypeTestSetup, 2, req) if err == nil || !strings.Contains(err.Error(), "does not exist") { t.Fatalf("expected error because the deployment doesn't exist: %v", err) } } // Test that allocation health can't be set against a terminal deployment func TestStateStore_UpsertDeploymentAllocHealth_Terminal(t *testing.T) { ci.Parallel(t) state := testStateStore(t) // Insert a terminal deployment d := mock.Deployment() d.Status = structs.DeploymentStatusFailed if err := state.UpsertDeployment(1, d); err != nil { t.Fatalf("bad: %v", err) } // Set health against the terminal deployment req := &structs.ApplyDeploymentAllocHealthRequest{ DeploymentAllocHealthRequest: structs.DeploymentAllocHealthRequest{ DeploymentID: d.ID, HealthyAllocationIDs: []string{uuid.Generate()}, }, } err := state.UpdateDeploymentAllocHealth(structs.MsgTypeTestSetup, 2, req) if err == nil || !strings.Contains(err.Error(), "has terminal status") { t.Fatalf("expected error because the deployment is terminal: %v", err) } } // Test that allocation health can't be set against a nonexistent alloc func TestStateStore_UpsertDeploymentAllocHealth_BadAlloc_Nonexistent(t *testing.T) { ci.Parallel(t) state := testStateStore(t) // Insert a deployment d := mock.Deployment() if err := state.UpsertDeployment(1, d); err != nil { t.Fatalf("bad: %v", err) } // Set health against the terminal deployment req := &structs.ApplyDeploymentAllocHealthRequest{ DeploymentAllocHealthRequest: structs.DeploymentAllocHealthRequest{ DeploymentID: d.ID, HealthyAllocationIDs: []string{uuid.Generate()}, }, } err := state.UpdateDeploymentAllocHealth(structs.MsgTypeTestSetup, 2, req) if err == nil || !strings.Contains(err.Error(), "unknown alloc") { t.Fatalf("expected error because the alloc doesn't exist: %v", err) } } // Test that a deployments PlacedCanaries is properly updated func TestStateStore_UpsertDeploymentAlloc_Canaries(t *testing.T) { ci.Parallel(t) state := testStateStore(t) // Create a deployment d1 := mock.Deployment() require.NoError(t, state.UpsertDeployment(2, d1)) // Create a Job job := mock.Job() require.NoError(t, state.UpsertJob(structs.MsgTypeTestSetup, 3, job)) // Create alloc with canary status a := mock.Alloc() a.JobID = job.ID a.DeploymentID = d1.ID a.DeploymentStatus = &structs.AllocDeploymentStatus{ Healthy: helper.BoolToPtr(false), Canary: true, } require.NoError(t, state.UpsertAllocs(structs.MsgTypeTestSetup, 4, []*structs.Allocation{a})) // Pull the deployment from state ws := memdb.NewWatchSet() deploy, err := state.DeploymentByID(ws, d1.ID) require.NoError(t, err) // Ensure that PlacedCanaries is accurate require.Equal(t, 1, len(deploy.TaskGroups[job.TaskGroups[0].Name].PlacedCanaries)) // Create alloc without canary status b := mock.Alloc() b.JobID = job.ID b.DeploymentID = d1.ID b.DeploymentStatus = &structs.AllocDeploymentStatus{ Healthy: helper.BoolToPtr(false), Canary: false, } require.NoError(t, state.UpsertAllocs(structs.MsgTypeTestSetup, 4, []*structs.Allocation{b})) // Pull the deployment from state ws = memdb.NewWatchSet() deploy, err = state.DeploymentByID(ws, d1.ID) require.NoError(t, err) // Ensure that PlacedCanaries is accurate require.Equal(t, 1, len(deploy.TaskGroups[job.TaskGroups[0].Name].PlacedCanaries)) // Create a second deployment d2 := mock.Deployment() require.NoError(t, state.UpsertDeployment(5, d2)) c := mock.Alloc() c.JobID = job.ID c.DeploymentID = d2.ID c.DeploymentStatus = &structs.AllocDeploymentStatus{ Healthy: helper.BoolToPtr(false), Canary: true, } require.NoError(t, state.UpsertAllocs(structs.MsgTypeTestSetup, 6, []*structs.Allocation{c})) ws = memdb.NewWatchSet() deploy2, err := state.DeploymentByID(ws, d2.ID) require.NoError(t, err) // Ensure that PlacedCanaries is accurate require.Equal(t, 1, len(deploy2.TaskGroups[job.TaskGroups[0].Name].PlacedCanaries)) } func TestStateStore_UpsertDeploymentAlloc_NoCanaries(t *testing.T) { ci.Parallel(t) state := testStateStore(t) // Create a deployment d1 := mock.Deployment() require.NoError(t, state.UpsertDeployment(2, d1)) // Create a Job job := mock.Job() require.NoError(t, state.UpsertJob(structs.MsgTypeTestSetup, 3, job)) // Create alloc with canary status a := mock.Alloc() a.JobID = job.ID a.DeploymentID = d1.ID a.DeploymentStatus = &structs.AllocDeploymentStatus{ Healthy: helper.BoolToPtr(true), Canary: false, } require.NoError(t, state.UpsertAllocs(structs.MsgTypeTestSetup, 4, []*structs.Allocation{a})) // Pull the deployment from state ws := memdb.NewWatchSet() deploy, err := state.DeploymentByID(ws, d1.ID) require.NoError(t, err) // Ensure that PlacedCanaries is accurate require.Equal(t, 0, len(deploy.TaskGroups[job.TaskGroups[0].Name].PlacedCanaries)) } // Test that allocation health can't be set for an alloc with mismatched // deployment ids func TestStateStore_UpsertDeploymentAllocHealth_BadAlloc_MismatchDeployment(t *testing.T) { ci.Parallel(t) state := testStateStore(t) // Insert two deployment d1 := mock.Deployment() d2 := mock.Deployment() if err := state.UpsertDeployment(1, d1); err != nil { t.Fatalf("bad: %v", err) } if err := state.UpsertDeployment(2, d2); err != nil { t.Fatalf("bad: %v", err) } // Insert an alloc for a random deployment a := mock.Alloc() a.DeploymentID = d1.ID if err := state.UpsertAllocs(structs.MsgTypeTestSetup, 3, []*structs.Allocation{a}); err != nil { t.Fatalf("bad: %v", err) } // Set health against the terminal deployment req := &structs.ApplyDeploymentAllocHealthRequest{ DeploymentAllocHealthRequest: structs.DeploymentAllocHealthRequest{ DeploymentID: d2.ID, HealthyAllocationIDs: []string{a.ID}, }, } err := state.UpdateDeploymentAllocHealth(structs.MsgTypeTestSetup, 4, req) if err == nil || !strings.Contains(err.Error(), "not part of deployment") { t.Fatalf("expected error because the alloc isn't part of the deployment: %v", err) } } // Test that allocation health is properly set func TestStateStore_UpsertDeploymentAllocHealth(t *testing.T) { ci.Parallel(t) state := testStateStore(t) // Insert a deployment d := mock.Deployment() d.TaskGroups["web"].ProgressDeadline = 5 * time.Minute if err := state.UpsertDeployment(1, d); err != nil { t.Fatalf("bad: %v", err) } // Insert two allocations a1 := mock.Alloc() a1.DeploymentID = d.ID a2 := mock.Alloc() a2.DeploymentID = d.ID if err := state.UpsertAllocs(structs.MsgTypeTestSetup, 2, []*structs.Allocation{a1, a2}); err != nil { t.Fatalf("bad: %v", err) } // Create a job to roll back to j := mock.Job() // Create an eval that should be upserted e := mock.Eval() // Create a status update for the deployment status, desc := structs.DeploymentStatusFailed, "foo" u := &structs.DeploymentStatusUpdate{ DeploymentID: d.ID, Status: status, StatusDescription: desc, } // Capture the time for the update ts := time.Now() // Set health against the deployment req := &structs.ApplyDeploymentAllocHealthRequest{ DeploymentAllocHealthRequest: structs.DeploymentAllocHealthRequest{ DeploymentID: d.ID, HealthyAllocationIDs: []string{a1.ID}, UnhealthyAllocationIDs: []string{a2.ID}, }, Job: j, Eval: e, DeploymentUpdate: u, Timestamp: ts, } err := state.UpdateDeploymentAllocHealth(structs.MsgTypeTestSetup, 3, req) if err != nil { t.Fatalf("bad: %v", err) } // Check that the status was updated properly ws := memdb.NewWatchSet() dout, err := state.DeploymentByID(ws, d.ID) if err != nil { t.Fatalf("bad: %v", err) } if dout.Status != status || dout.StatusDescription != desc { t.Fatalf("bad: %#v", dout) } // Check that the evaluation was created eout, _ := state.EvalByID(ws, e.ID) if err != nil { t.Fatalf("bad: %v", err) } if eout == nil { t.Fatalf("bad: %#v", eout) } // Check that the job was created jout, _ := state.JobByID(ws, j.Namespace, j.ID) if err != nil { t.Fatalf("bad: %v", err) } if jout == nil { t.Fatalf("bad: %#v", jout) } // Check the status of the allocs out1, err := state.AllocByID(ws, a1.ID) if err != nil { t.Fatalf("err: %v", err) } out2, err := state.AllocByID(ws, a2.ID) if err != nil { t.Fatalf("err: %v", err) } if !out1.DeploymentStatus.IsHealthy() { t.Fatalf("bad: alloc %q not healthy", out1.ID) } if !out2.DeploymentStatus.IsUnhealthy() { t.Fatalf("bad: alloc %q not unhealthy", out2.ID) } if !out1.DeploymentStatus.Timestamp.Equal(ts) { t.Fatalf("bad: alloc %q had timestamp %v; want %v", out1.ID, out1.DeploymentStatus.Timestamp, ts) } if !out2.DeploymentStatus.Timestamp.Equal(ts) { t.Fatalf("bad: alloc %q had timestamp %v; want %v", out2.ID, out2.DeploymentStatus.Timestamp, ts) } } func TestStateStore_UpsertVaultAccessors(t *testing.T) { ci.Parallel(t) state := testStateStore(t) a := mock.VaultAccessor() a2 := mock.VaultAccessor() ws := memdb.NewWatchSet() if _, err := state.VaultAccessor(ws, a.Accessor); err != nil { t.Fatalf("err: %v", err) } if _, err := state.VaultAccessor(ws, a2.Accessor); err != nil { t.Fatalf("err: %v", err) } err := state.UpsertVaultAccessor(1000, []*structs.VaultAccessor{a, a2}) if err != nil { t.Fatalf("err: %v", err) } if !watchFired(ws) { t.Fatalf("bad") } ws = memdb.NewWatchSet() out, err := state.VaultAccessor(ws, a.Accessor) if err != nil { t.Fatalf("err: %v", err) } if !reflect.DeepEqual(a, out) { t.Fatalf("bad: %#v %#v", a, out) } out, err = state.VaultAccessor(ws, a2.Accessor) if err != nil { t.Fatalf("err: %v", err) } if !reflect.DeepEqual(a2, out) { t.Fatalf("bad: %#v %#v", a2, out) } iter, err := state.VaultAccessors(ws) if err != nil { t.Fatalf("err: %v", err) } count := 0 for { raw := iter.Next() if raw == nil { break } count++ accessor := raw.(*structs.VaultAccessor) if !reflect.DeepEqual(accessor, a) && !reflect.DeepEqual(accessor, a2) { t.Fatalf("bad: %#v", accessor) } } if count != 2 { t.Fatalf("bad: %d", count) } index, err := state.Index("vault_accessors") if err != nil { t.Fatalf("err: %v", err) } if index != 1000 { t.Fatalf("bad: %d", index) } if watchFired(ws) { t.Fatalf("bad") } } func TestStateStore_DeleteVaultAccessors(t *testing.T) { ci.Parallel(t) state := testStateStore(t) a1 := mock.VaultAccessor() a2 := mock.VaultAccessor() accessors := []*structs.VaultAccessor{a1, a2} err := state.UpsertVaultAccessor(1000, accessors) if err != nil { t.Fatalf("err: %v", err) } ws := memdb.NewWatchSet() if _, err := state.VaultAccessor(ws, a1.Accessor); err != nil { t.Fatalf("err: %v", err) } err = state.DeleteVaultAccessors(1001, accessors) if err != nil { t.Fatalf("err: %v", err) } if !watchFired(ws) { t.Fatalf("bad") } ws = memdb.NewWatchSet() out, err := state.VaultAccessor(ws, a1.Accessor) if err != nil { t.Fatalf("err: %v", err) } if out != nil { t.Fatalf("bad: %#v %#v", a1, out) } out, err = state.VaultAccessor(ws, a2.Accessor) if err != nil { t.Fatalf("err: %v", err) } if out != nil { t.Fatalf("bad: %#v %#v", a2, out) } index, err := state.Index("vault_accessors") if err != nil { t.Fatalf("err: %v", err) } if index != 1001 { t.Fatalf("bad: %d", index) } if watchFired(ws) { t.Fatalf("bad") } } func TestStateStore_VaultAccessorsByAlloc(t *testing.T) { ci.Parallel(t) state := testStateStore(t) alloc := mock.Alloc() var accessors []*structs.VaultAccessor var expected []*structs.VaultAccessor for i := 0; i < 5; i++ { accessor := mock.VaultAccessor() accessor.AllocID = alloc.ID expected = append(expected, accessor) accessors = append(accessors, accessor) } for i := 0; i < 10; i++ { accessor := mock.VaultAccessor() accessors = append(accessors, accessor) } err := state.UpsertVaultAccessor(1000, accessors) if err != nil { t.Fatalf("err: %v", err) } ws := memdb.NewWatchSet() out, err := state.VaultAccessorsByAlloc(ws, alloc.ID) if err != nil { t.Fatalf("err: %v", err) } if len(expected) != len(out) { t.Fatalf("bad: %#v %#v", len(expected), len(out)) } index, err := state.Index("vault_accessors") if err != nil { t.Fatalf("err: %v", err) } if index != 1000 { t.Fatalf("bad: %d", index) } if watchFired(ws) { t.Fatalf("bad") } } func TestStateStore_VaultAccessorsByNode(t *testing.T) { ci.Parallel(t) state := testStateStore(t) node := mock.Node() var accessors []*structs.VaultAccessor var expected []*structs.VaultAccessor for i := 0; i < 5; i++ { accessor := mock.VaultAccessor() accessor.NodeID = node.ID expected = append(expected, accessor) accessors = append(accessors, accessor) } for i := 0; i < 10; i++ { accessor := mock.VaultAccessor() accessors = append(accessors, accessor) } err := state.UpsertVaultAccessor(1000, accessors) if err != nil { t.Fatalf("err: %v", err) } ws := memdb.NewWatchSet() out, err := state.VaultAccessorsByNode(ws, node.ID) if err != nil { t.Fatalf("err: %v", err) } if len(expected) != len(out) { t.Fatalf("bad: %#v %#v", len(expected), len(out)) } index, err := state.Index("vault_accessors") if err != nil { t.Fatalf("err: %v", err) } if index != 1000 { t.Fatalf("bad: %d", index) } if watchFired(ws) { t.Fatalf("bad") } } func TestStateStore_UpsertSITokenAccessors(t *testing.T) { ci.Parallel(t) r := require.New(t) state := testStateStore(t) a1 := mock.SITokenAccessor() a2 := mock.SITokenAccessor() ws := memdb.NewWatchSet() var err error _, err = state.SITokenAccessor(ws, a1.AccessorID) r.NoError(err) _, err = state.SITokenAccessor(ws, a2.AccessorID) r.NoError(err) err = state.UpsertSITokenAccessors(1000, []*structs.SITokenAccessor{a1, a2}) r.NoError(err) wsFired := watchFired(ws) r.True(wsFired) noInsertWS := memdb.NewWatchSet() result1, err := state.SITokenAccessor(noInsertWS, a1.AccessorID) r.NoError(err) r.Equal(a1, result1) result2, err := state.SITokenAccessor(noInsertWS, a2.AccessorID) r.NoError(err) r.Equal(a2, result2) iter, err := state.SITokenAccessors(noInsertWS) r.NoError(err) count := 0 for raw := iter.Next(); raw != nil; raw = iter.Next() { count++ accessor := raw.(*structs.SITokenAccessor) // iterator is sorted by dynamic UUID matches := reflect.DeepEqual(a1, accessor) || reflect.DeepEqual(a2, accessor) r.True(matches) } r.Equal(2, count) index, err := state.Index(siTokenAccessorTable) r.NoError(err) r.Equal(uint64(1000), index) noInsertWSFired := watchFired(noInsertWS) r.False(noInsertWSFired) } func TestStateStore_DeleteSITokenAccessors(t *testing.T) { ci.Parallel(t) r := require.New(t) state := testStateStore(t) a1 := mock.SITokenAccessor() a2 := mock.SITokenAccessor() accessors := []*structs.SITokenAccessor{a1, a2} var err error err = state.UpsertSITokenAccessors(1000, accessors) r.NoError(err) ws := memdb.NewWatchSet() _, err = state.SITokenAccessor(ws, a1.AccessorID) r.NoError(err) err = state.DeleteSITokenAccessors(1001, accessors) r.NoError(err) wsFired := watchFired(ws) r.True(wsFired) wsPostDelete := memdb.NewWatchSet() result1, err := state.SITokenAccessor(wsPostDelete, a1.AccessorID) r.NoError(err) r.Nil(result1) // was deleted result2, err := state.SITokenAccessor(wsPostDelete, a2.AccessorID) r.NoError(err) r.Nil(result2) // was deleted index, err := state.Index(siTokenAccessorTable) r.NoError(err) r.Equal(uint64(1001), index) wsPostDeleteFired := watchFired(wsPostDelete) r.False(wsPostDeleteFired) } func TestStateStore_SITokenAccessorsByAlloc(t *testing.T) { ci.Parallel(t) r := require.New(t) state := testStateStore(t) alloc := mock.Alloc() var accessors []*structs.SITokenAccessor var expected []*structs.SITokenAccessor for i := 0; i < 5; i++ { accessor := mock.SITokenAccessor() accessor.AllocID = alloc.ID expected = append(expected, accessor) accessors = append(accessors, accessor) } for i := 0; i < 10; i++ { accessor := mock.SITokenAccessor() accessor.AllocID = uuid.Generate() // does not belong to alloc accessors = append(accessors, accessor) } err := state.UpsertSITokenAccessors(1000, accessors) r.NoError(err) ws := memdb.NewWatchSet() result, err := state.SITokenAccessorsByAlloc(ws, alloc.ID) r.NoError(err) r.ElementsMatch(expected, result) index, err := state.Index(siTokenAccessorTable) r.NoError(err) r.Equal(uint64(1000), index) wsFired := watchFired(ws) r.False(wsFired) } func TestStateStore_SITokenAccessorsByNode(t *testing.T) { ci.Parallel(t) r := require.New(t) state := testStateStore(t) node := mock.Node() var accessors []*structs.SITokenAccessor var expected []*structs.SITokenAccessor var err error for i := 0; i < 5; i++ { accessor := mock.SITokenAccessor() accessor.NodeID = node.ID expected = append(expected, accessor) accessors = append(accessors, accessor) } for i := 0; i < 10; i++ { accessor := mock.SITokenAccessor() accessor.NodeID = uuid.Generate() // does not belong to node accessors = append(accessors, accessor) } err = state.UpsertSITokenAccessors(1000, accessors) r.NoError(err) ws := memdb.NewWatchSet() result, err := state.SITokenAccessorsByNode(ws, node.ID) r.NoError(err) r.ElementsMatch(expected, result) index, err := state.Index(siTokenAccessorTable) r.NoError(err) r.Equal(uint64(1000), index) wsFired := watchFired(ws) r.False(wsFired) } func TestStateStore_UpsertACLPolicy(t *testing.T) { ci.Parallel(t) state := testStateStore(t) policy := mock.ACLPolicy() policy2 := mock.ACLPolicy() ws := memdb.NewWatchSet() if _, err := state.ACLPolicyByName(ws, policy.Name); err != nil { t.Fatalf("err: %v", err) } if _, err := state.ACLPolicyByName(ws, policy2.Name); err != nil { t.Fatalf("err: %v", err) } if err := state.UpsertACLPolicies(structs.MsgTypeTestSetup, 1000, []*structs.ACLPolicy{policy, policy2}); err != nil { t.Fatalf("err: %v", err) } if !watchFired(ws) { t.Fatalf("bad") } ws = memdb.NewWatchSet() out, err := state.ACLPolicyByName(ws, policy.Name) assert.Equal(t, nil, err) assert.Equal(t, policy, out) out, err = state.ACLPolicyByName(ws, policy2.Name) assert.Equal(t, nil, err) assert.Equal(t, policy2, out) iter, err := state.ACLPolicies(ws) if err != nil { t.Fatalf("err: %v", err) } // Ensure we see both policies count := 0 for { raw := iter.Next() if raw == nil { break } count++ } if count != 2 { t.Fatalf("bad: %d", count) } index, err := state.Index("acl_policy") if err != nil { t.Fatalf("err: %v", err) } if index != 1000 { t.Fatalf("bad: %d", index) } if watchFired(ws) { t.Fatalf("bad") } } func TestStateStore_DeleteACLPolicy(t *testing.T) { ci.Parallel(t) state := testStateStore(t) policy := mock.ACLPolicy() policy2 := mock.ACLPolicy() // Create the policy if err := state.UpsertACLPolicies(structs.MsgTypeTestSetup, 1000, []*structs.ACLPolicy{policy, policy2}); err != nil { t.Fatalf("err: %v", err) } // Create a watcher ws := memdb.NewWatchSet() if _, err := state.ACLPolicyByName(ws, policy.Name); err != nil { t.Fatalf("err: %v", err) } // Delete the policy if err := state.DeleteACLPolicies(structs.MsgTypeTestSetup, 1001, []string{policy.Name, policy2.Name}); err != nil { t.Fatalf("err: %v", err) } // Ensure watching triggered if !watchFired(ws) { t.Fatalf("bad") } // Ensure we don't get the object back ws = memdb.NewWatchSet() out, err := state.ACLPolicyByName(ws, policy.Name) assert.Equal(t, nil, err) if out != nil { t.Fatalf("bad: %#v", out) } iter, err := state.ACLPolicies(ws) if err != nil { t.Fatalf("err: %v", err) } // Ensure we see neither policy count := 0 for { raw := iter.Next() if raw == nil { break } count++ } if count != 0 { t.Fatalf("bad: %d", count) } index, err := state.Index("acl_policy") if err != nil { t.Fatalf("err: %v", err) } if index != 1001 { t.Fatalf("bad: %d", index) } if watchFired(ws) { t.Fatalf("bad") } } func TestStateStore_ACLPolicyByNamePrefix(t *testing.T) { ci.Parallel(t) state := testStateStore(t) names := []string{ "foo", "bar", "foobar", "foozip", "zip", } // Create the policies var baseIndex uint64 = 1000 for _, name := range names { p := mock.ACLPolicy() p.Name = name if err := state.UpsertACLPolicies(structs.MsgTypeTestSetup, baseIndex, []*structs.ACLPolicy{p}); err != nil { t.Fatalf("err: %v", err) } baseIndex++ } // Scan by prefix iter, err := state.ACLPolicyByNamePrefix(nil, "foo") if err != nil { t.Fatalf("err: %v", err) } // Ensure we see both policies count := 0 out := []string{} for { raw := iter.Next() if raw == nil { break } count++ out = append(out, raw.(*structs.ACLPolicy).Name) } if count != 3 { t.Fatalf("bad: %d %v", count, out) } sort.Strings(out) expect := []string{"foo", "foobar", "foozip"} assert.Equal(t, expect, out) } func TestStateStore_BootstrapACLTokens(t *testing.T) { ci.Parallel(t) state := testStateStore(t) tk1 := mock.ACLToken() tk2 := mock.ACLToken() ok, resetIdx, err := state.CanBootstrapACLToken() assert.Nil(t, err) assert.Equal(t, true, ok) assert.EqualValues(t, 0, resetIdx) if err := state.BootstrapACLTokens(structs.MsgTypeTestSetup, 1000, 0, tk1); err != nil { t.Fatalf("err: %v", err) } out, err := state.ACLTokenByAccessorID(nil, tk1.AccessorID) assert.Equal(t, nil, err) assert.Equal(t, tk1, out) ok, resetIdx, err = state.CanBootstrapACLToken() assert.Nil(t, err) assert.Equal(t, false, ok) assert.EqualValues(t, 1000, resetIdx) if err := state.BootstrapACLTokens(structs.MsgTypeTestSetup, 1001, 0, tk2); err == nil { t.Fatalf("expected error") } iter, err := state.ACLTokens(nil, SortDefault) if err != nil { t.Fatalf("err: %v", err) } // Ensure we see both policies count := 0 for { raw := iter.Next() if raw == nil { break } count++ } if count != 1 { t.Fatalf("bad: %d", count) } index, err := state.Index("acl_token") if err != nil { t.Fatalf("err: %v", err) } if index != 1000 { t.Fatalf("bad: %d", index) } index, err = state.Index("acl_token_bootstrap") if err != nil { t.Fatalf("err: %v", err) } if index != 1000 { t.Fatalf("bad: %d", index) } // Should allow bootstrap with reset index if err := state.BootstrapACLTokens(structs.MsgTypeTestSetup, 1001, 1000, tk2); err != nil { t.Fatalf("err %v", err) } // Check we've modified the index index, err = state.Index("acl_token") if err != nil { t.Fatalf("err: %v", err) } if index != 1001 { t.Fatalf("bad: %d", index) } index, err = state.Index("acl_token_bootstrap") if err != nil { t.Fatalf("err: %v", err) } if index != 1001 { t.Fatalf("bad: %d", index) } } func TestStateStore_UpsertACLTokens(t *testing.T) { ci.Parallel(t) state := testStateStore(t) tk1 := mock.ACLToken() tk2 := mock.ACLToken() ws := memdb.NewWatchSet() if _, err := state.ACLTokenByAccessorID(ws, tk1.AccessorID); err != nil { t.Fatalf("err: %v", err) } if _, err := state.ACLTokenByAccessorID(ws, tk2.AccessorID); err != nil { t.Fatalf("err: %v", err) } if err := state.UpsertACLTokens(structs.MsgTypeTestSetup, 1000, []*structs.ACLToken{tk1, tk2}); err != nil { t.Fatalf("err: %v", err) } if !watchFired(ws) { t.Fatalf("bad") } ws = memdb.NewWatchSet() out, err := state.ACLTokenByAccessorID(ws, tk1.AccessorID) assert.Equal(t, nil, err) assert.Equal(t, tk1, out) out, err = state.ACLTokenByAccessorID(ws, tk2.AccessorID) assert.Equal(t, nil, err) assert.Equal(t, tk2, out) out, err = state.ACLTokenBySecretID(ws, tk1.SecretID) assert.Equal(t, nil, err) assert.Equal(t, tk1, out) out, err = state.ACLTokenBySecretID(ws, tk2.SecretID) assert.Equal(t, nil, err) assert.Equal(t, tk2, out) iter, err := state.ACLTokens(ws, SortDefault) if err != nil { t.Fatalf("err: %v", err) } // Ensure we see both policies count := 0 for { raw := iter.Next() if raw == nil { break } count++ } if count != 2 { t.Fatalf("bad: %d", count) } index, err := state.Index("acl_token") if err != nil { t.Fatalf("err: %v", err) } if index != 1000 { t.Fatalf("bad: %d", index) } if watchFired(ws) { t.Fatalf("bad") } } func TestStateStore_DeleteACLTokens(t *testing.T) { ci.Parallel(t) state := testStateStore(t) tk1 := mock.ACLToken() tk2 := mock.ACLToken() // Create the tokens if err := state.UpsertACLTokens(structs.MsgTypeTestSetup, 1000, []*structs.ACLToken{tk1, tk2}); err != nil { t.Fatalf("err: %v", err) } // Create a watcher ws := memdb.NewWatchSet() if _, err := state.ACLTokenByAccessorID(ws, tk1.AccessorID); err != nil { t.Fatalf("err: %v", err) } // Delete the token if err := state.DeleteACLTokens(structs.MsgTypeTestSetup, 1001, []string{tk1.AccessorID, tk2.AccessorID}); err != nil { t.Fatalf("err: %v", err) } // Ensure watching triggered if !watchFired(ws) { t.Fatalf("bad") } // Ensure we don't get the object back ws = memdb.NewWatchSet() out, err := state.ACLTokenByAccessorID(ws, tk1.AccessorID) assert.Equal(t, nil, err) if out != nil { t.Fatalf("bad: %#v", out) } iter, err := state.ACLTokens(ws, SortDefault) if err != nil { t.Fatalf("err: %v", err) } // Ensure we see both policies count := 0 for { raw := iter.Next() if raw == nil { break } count++ } if count != 0 { t.Fatalf("bad: %d", count) } index, err := state.Index("acl_token") if err != nil { t.Fatalf("err: %v", err) } if index != 1001 { t.Fatalf("bad: %d", index) } if watchFired(ws) { t.Fatalf("bad") } } func TestStateStore_ACLTokenByAccessorIDPrefix(t *testing.T) { ci.Parallel(t) state := testStateStore(t) prefixes := []string{ "aaaa", "aabb", "bbbb", "bbcc", "ffff", } // Create the tokens var baseIndex uint64 = 1000 for _, prefix := range prefixes { tk := mock.ACLToken() tk.AccessorID = prefix + tk.AccessorID[4:] err := state.UpsertACLTokens(structs.MsgTypeTestSetup, baseIndex, []*structs.ACLToken{tk}) require.NoError(t, err) baseIndex++ } gatherTokens := func(iter memdb.ResultIterator) []*structs.ACLToken { var tokens []*structs.ACLToken for { raw := iter.Next() if raw == nil { break } tokens = append(tokens, raw.(*structs.ACLToken)) } return tokens } t.Run("scan by prefix", func(t *testing.T) { iter, err := state.ACLTokenByAccessorIDPrefix(nil, "aa", SortDefault) require.NoError(t, err) // Ensure we see both tokens out := gatherTokens(iter) require.Len(t, out, 2) got := []string{} for _, t := range out { got = append(got, t.AccessorID[:4]) } expect := []string{"aaaa", "aabb"} require.Equal(t, expect, got) }) t.Run("reverse order", func(t *testing.T) { iter, err := state.ACLTokenByAccessorIDPrefix(nil, "aa", SortReverse) require.NoError(t, err) // Ensure we see both tokens out := gatherTokens(iter) require.Len(t, out, 2) got := []string{} for _, t := range out { got = append(got, t.AccessorID[:4]) } expect := []string{"aabb", "aaaa"} require.Equal(t, expect, got) }) } func TestStateStore_ACLTokensByGlobal(t *testing.T) { ci.Parallel(t) state := testStateStore(t) tk1 := mock.ACLToken() tk1.AccessorID = "aaaa" + tk1.AccessorID[4:] tk2 := mock.ACLToken() tk2.AccessorID = "aabb" + tk2.AccessorID[4:] tk3 := mock.ACLToken() tk3.AccessorID = "bbbb" + tk3.AccessorID[4:] tk3.Global = true tk4 := mock.ACLToken() tk4.AccessorID = "ffff" + tk4.AccessorID[4:] err := state.UpsertACLTokens(structs.MsgTypeTestSetup, 1000, []*structs.ACLToken{tk1, tk2, tk3, tk4}) require.NoError(t, err) gatherTokens := func(iter memdb.ResultIterator) []*structs.ACLToken { var tokens []*structs.ACLToken for { raw := iter.Next() if raw == nil { break } tokens = append(tokens, raw.(*structs.ACLToken)) } return tokens } t.Run("only global tokens", func(t *testing.T) { iter, err := state.ACLTokensByGlobal(nil, true, SortDefault) require.NoError(t, err) got := gatherTokens(iter) require.Len(t, got, 1) require.Equal(t, tk3.AccessorID, got[0].AccessorID) }) t.Run("reverse order", func(t *testing.T) { iter, err := state.ACLTokensByGlobal(nil, false, SortReverse) require.NoError(t, err) expected := []*structs.ACLToken{tk4, tk2, tk1} got := gatherTokens(iter) require.Len(t, got, 3) require.Equal(t, expected, got) }) } func TestStateStore_OneTimeTokens(t *testing.T) { ci.Parallel(t) index := uint64(100) state := testStateStore(t) // create some ACL tokens token1 := mock.ACLToken() token2 := mock.ACLToken() token3 := mock.ACLToken() index++ require.Nil(t, state.UpsertACLTokens( structs.MsgTypeTestSetup, index, []*structs.ACLToken{token1, token2, token3})) otts := []*structs.OneTimeToken{ { // expired OTT for token1 OneTimeSecretID: uuid.Generate(), AccessorID: token1.AccessorID, ExpiresAt: time.Now().Add(-1 * time.Minute), }, { // valid OTT for token2 OneTimeSecretID: uuid.Generate(), AccessorID: token2.AccessorID, ExpiresAt: time.Now().Add(10 * time.Minute), }, { // new but expired OTT for token2; this will be accepted even // though it's expired and overwrite the other one OneTimeSecretID: uuid.Generate(), AccessorID: token2.AccessorID, ExpiresAt: time.Now().Add(-10 * time.Minute), }, { // valid OTT for token3 AccessorID: token3.AccessorID, OneTimeSecretID: uuid.Generate(), ExpiresAt: time.Now().Add(10 * time.Minute), }, { // new valid OTT for token3 OneTimeSecretID: uuid.Generate(), AccessorID: token3.AccessorID, ExpiresAt: time.Now().Add(5 * time.Minute), }, } for _, ott := range otts { index++ require.NoError(t, state.UpsertOneTimeToken(structs.MsgTypeTestSetup, index, ott)) } // verify that we have exactly one OTT for each AccessorID txn := state.db.ReadTxn() iter, err := txn.Get("one_time_token", "id") require.NoError(t, err) results := []*structs.OneTimeToken{} for { raw := iter.Next() if raw == nil { break } ott, ok := raw.(*structs.OneTimeToken) require.True(t, ok) results = append(results, ott) } // results aren't ordered but if we have 3 OTT and all 3 tokens, we know // we have no duplicate accessors require.Len(t, results, 3) accessors := []string{ results[0].AccessorID, results[1].AccessorID, results[2].AccessorID} require.Contains(t, accessors, token1.AccessorID) require.Contains(t, accessors, token2.AccessorID) require.Contains(t, accessors, token3.AccessorID) // now verify expiration getExpiredTokens := func() []*structs.OneTimeToken { txn := state.db.ReadTxn() iter, err := state.oneTimeTokensExpiredTxn(txn, nil) require.NoError(t, err) results := []*structs.OneTimeToken{} for { raw := iter.Next() if raw == nil { break } ott, ok := raw.(*structs.OneTimeToken) require.True(t, ok) results = append(results, ott) } return results } results = getExpiredTokens() require.Len(t, results, 2) // results aren't ordered expiredAccessors := []string{results[0].AccessorID, results[1].AccessorID} require.Contains(t, expiredAccessors, token1.AccessorID) require.Contains(t, expiredAccessors, token2.AccessorID) require.True(t, time.Now().After(results[0].ExpiresAt)) require.True(t, time.Now().After(results[1].ExpiresAt)) // clear the expired tokens and verify they're gone index++ require.NoError(t, state.ExpireOneTimeTokens(structs.MsgTypeTestSetup, index)) results = getExpiredTokens() require.Len(t, results, 0) // query the unexpired token ott, err := state.OneTimeTokenBySecret(nil, otts[len(otts)-1].OneTimeSecretID) require.NoError(t, err) require.Equal(t, token3.AccessorID, ott.AccessorID) require.True(t, time.Now().Before(ott.ExpiresAt)) restore, err := state.Restore() require.NoError(t, err) err = restore.OneTimeTokenRestore(ott) require.NoError(t, err) require.NoError(t, restore.Commit()) ott, err = state.OneTimeTokenBySecret(nil, otts[len(otts)-1].OneTimeSecretID) require.NoError(t, err) require.Equal(t, token3.AccessorID, ott.AccessorID) } func TestStateStore_ClusterMetadata(t *testing.T) { require := require.New(t) state := testStateStore(t) clusterID := "12345678-1234-1234-1234-1234567890" now := time.Now().UnixNano() meta := &structs.ClusterMetadata{ClusterID: clusterID, CreateTime: now} err := state.ClusterSetMetadata(100, meta) require.NoError(err) result, err := state.ClusterMetadata(nil) require.NoError(err) require.Equal(clusterID, result.ClusterID) require.Equal(now, result.CreateTime) } func TestStateStore_UpsertScalingPolicy(t *testing.T) { ci.Parallel(t) require := require.New(t) state := testStateStore(t) policy := mock.ScalingPolicy() policy2 := mock.ScalingPolicy() wsAll := memdb.NewWatchSet() all, err := state.ScalingPolicies(wsAll) require.NoError(err) require.Nil(all.Next()) ws := memdb.NewWatchSet() out, err := state.ScalingPolicyByTargetAndType(ws, policy.Target, policy.Type) require.NoError(err) require.Nil(out) out, err = state.ScalingPolicyByTargetAndType(ws, policy2.Target, policy2.Type) require.NoError(err) require.Nil(out) err = state.UpsertScalingPolicies(1000, []*structs.ScalingPolicy{policy, policy2}) require.NoError(err) require.True(watchFired(ws)) require.True(watchFired(wsAll)) ws = memdb.NewWatchSet() out, err = state.ScalingPolicyByTargetAndType(ws, policy.Target, policy.Type) require.NoError(err) require.Equal(policy, out) out, err = state.ScalingPolicyByTargetAndType(ws, policy2.Target, policy2.Type) require.NoError(err) require.Equal(policy2, out) // Ensure we see both policies countPolicies := func() (n int, err error) { iter, err := state.ScalingPolicies(ws) if err != nil { return } for raw := iter.Next(); raw != nil; raw = iter.Next() { n++ } return } count, err := countPolicies() require.NoError(err) require.Equal(2, count) index, err := state.Index("scaling_policy") require.NoError(err) require.True(1000 == index) require.False(watchFired(ws)) // Check that we can add policy with same target but different type policy3 := mock.ScalingPolicy() for k, v := range policy2.Target { policy3.Target[k] = v } err = state.UpsertScalingPolicies(1000, []*structs.ScalingPolicy{policy3}) require.NoError(err) // Ensure we see both policies, since target didn't change count, err = countPolicies() require.NoError(err) require.Equal(2, count) // Change type and check if we see 3 policy3.Type = "other-type" err = state.UpsertScalingPolicies(1000, []*structs.ScalingPolicy{policy3}) require.NoError(err) count, err = countPolicies() require.NoError(err) require.Equal(3, count) } func TestStateStore_UpsertScalingPolicy_Namespace(t *testing.T) { ci.Parallel(t) require := require.New(t) otherNamespace := "not-default-namespace" state := testStateStore(t) policy := mock.ScalingPolicy() policy2 := mock.ScalingPolicy() policy2.Target[structs.ScalingTargetNamespace] = otherNamespace ws1 := memdb.NewWatchSet() iter, err := state.ScalingPoliciesByNamespace(ws1, structs.DefaultNamespace, "") require.NoError(err) require.Nil(iter.Next()) ws2 := memdb.NewWatchSet() iter, err = state.ScalingPoliciesByNamespace(ws2, otherNamespace, "") require.NoError(err) require.Nil(iter.Next()) err = state.UpsertScalingPolicies(1000, []*structs.ScalingPolicy{policy, policy2}) require.NoError(err) require.True(watchFired(ws1)) require.True(watchFired(ws2)) iter, err = state.ScalingPoliciesByNamespace(nil, structs.DefaultNamespace, "") require.NoError(err) policiesInDefaultNamespace := []string{} for { raw := iter.Next() if raw == nil { break } policiesInDefaultNamespace = append(policiesInDefaultNamespace, raw.(*structs.ScalingPolicy).ID) } require.ElementsMatch([]string{policy.ID}, policiesInDefaultNamespace) iter, err = state.ScalingPoliciesByNamespace(nil, otherNamespace, "") require.NoError(err) policiesInOtherNamespace := []string{} for { raw := iter.Next() if raw == nil { break } policiesInOtherNamespace = append(policiesInOtherNamespace, raw.(*structs.ScalingPolicy).ID) } require.ElementsMatch([]string{policy2.ID}, policiesInOtherNamespace) } func TestStateStore_UpsertScalingPolicy_Namespace_PrefixBug(t *testing.T) { ci.Parallel(t) require := require.New(t) ns1 := "name" ns2 := "name2" // matches prefix "name" state := testStateStore(t) policy1 := mock.ScalingPolicy() policy1.Target[structs.ScalingTargetNamespace] = ns1 policy2 := mock.ScalingPolicy() policy2.Target[structs.ScalingTargetNamespace] = ns2 ws1 := memdb.NewWatchSet() iter, err := state.ScalingPoliciesByNamespace(ws1, ns1, "") require.NoError(err) require.Nil(iter.Next()) ws2 := memdb.NewWatchSet() iter, err = state.ScalingPoliciesByNamespace(ws2, ns2, "") require.NoError(err) require.Nil(iter.Next()) err = state.UpsertScalingPolicies(1000, []*structs.ScalingPolicy{policy1, policy2}) require.NoError(err) require.True(watchFired(ws1)) require.True(watchFired(ws2)) iter, err = state.ScalingPoliciesByNamespace(nil, ns1, "") require.NoError(err) policiesInNS1 := []string{} for { raw := iter.Next() if raw == nil { break } policiesInNS1 = append(policiesInNS1, raw.(*structs.ScalingPolicy).ID) } require.ElementsMatch([]string{policy1.ID}, policiesInNS1) iter, err = state.ScalingPoliciesByNamespace(nil, ns2, "") require.NoError(err) policiesInNS2 := []string{} for { raw := iter.Next() if raw == nil { break } policiesInNS2 = append(policiesInNS2, raw.(*structs.ScalingPolicy).ID) } require.ElementsMatch([]string{policy2.ID}, policiesInNS2) } // Scaling Policy IDs are generated randomly during Job.Register // Subsequent updates of the job should preserve the ID for the scaling policy // associated with a given target. func TestStateStore_UpsertJob_PreserveScalingPolicyIDsAndIndex(t *testing.T) { ci.Parallel(t) require := require.New(t) state := testStateStore(t) job, policy := mock.JobWithScalingPolicy() var newIndex uint64 = 1000 err := state.UpsertJob(structs.MsgTypeTestSetup, newIndex, job) require.NoError(err) ws := memdb.NewWatchSet() p1, err := state.ScalingPolicyByTargetAndType(ws, policy.Target, policy.Type) require.NoError(err) require.NotNil(p1) require.Equal(newIndex, p1.CreateIndex) require.Equal(newIndex, p1.ModifyIndex) index, err := state.Index("scaling_policy") require.NoError(err) require.Equal(newIndex, index) require.NotEmpty(p1.ID) // update the job job.Meta["new-meta"] = "new-value" newIndex += 100 err = state.UpsertJob(structs.MsgTypeTestSetup, newIndex, job) require.NoError(err) require.False(watchFired(ws), "watch should not have fired") p2, err := state.ScalingPolicyByTargetAndType(nil, policy.Target, policy.Type) require.NoError(err) require.NotNil(p2) require.Equal(p1.ID, p2.ID, "ID should not have changed") require.Equal(p1.CreateIndex, p2.CreateIndex) require.Equal(p1.ModifyIndex, p2.ModifyIndex) index, err = state.Index("scaling_policy") require.NoError(err) require.Equal(index, p1.CreateIndex, "table index should not have changed") } // Updating the scaling policy for a job should update the index table and fire the watch. // This test is the converse of TestStateStore_UpsertJob_PreserveScalingPolicyIDsAndIndex func TestStateStore_UpsertJob_UpdateScalingPolicy(t *testing.T) { ci.Parallel(t) require := require.New(t) state := testStateStore(t) job, policy := mock.JobWithScalingPolicy() var oldIndex uint64 = 1000 require.NoError(state.UpsertJob(structs.MsgTypeTestSetup, oldIndex, job)) ws := memdb.NewWatchSet() p1, err := state.ScalingPolicyByTargetAndType(ws, policy.Target, policy.Type) require.NoError(err) require.NotNil(p1) require.Equal(oldIndex, p1.CreateIndex) require.Equal(oldIndex, p1.ModifyIndex) prevId := p1.ID index, err := state.Index("scaling_policy") require.NoError(err) require.Equal(oldIndex, index) require.NotEmpty(p1.ID) // update the job with the updated scaling policy; make sure to use a different object newPolicy := p1.Copy() newPolicy.Policy["new-field"] = "new-value" job.TaskGroups[0].Scaling = newPolicy require.NoError(state.UpsertJob(structs.MsgTypeTestSetup, oldIndex+100, job)) require.True(watchFired(ws), "watch should have fired") p2, err := state.ScalingPolicyByTargetAndType(nil, policy.Target, policy.Type) require.NoError(err) require.NotNil(p2) require.Equal(p2.Policy["new-field"], "new-value") require.Equal(prevId, p2.ID, "ID should not have changed") require.Equal(oldIndex, p2.CreateIndex) require.Greater(p2.ModifyIndex, oldIndex, "ModifyIndex should have advanced") index, err = state.Index("scaling_policy") require.NoError(err) require.Greater(index, oldIndex, "table index should have advanced") } func TestStateStore_DeleteScalingPolicies(t *testing.T) { ci.Parallel(t) require := require.New(t) state := testStateStore(t) policy := mock.ScalingPolicy() policy2 := mock.ScalingPolicy() // Create the policy err := state.UpsertScalingPolicies(1000, []*structs.ScalingPolicy{policy, policy2}) require.NoError(err) // Create a watcher ws := memdb.NewWatchSet() _, err = state.ScalingPolicyByTargetAndType(ws, policy.Target, policy.Type) require.NoError(err) // Delete the policy err = state.DeleteScalingPolicies(1001, []string{policy.ID, policy2.ID}) require.NoError(err) // Ensure watching triggered require.True(watchFired(ws)) // Ensure we don't get the objects back ws = memdb.NewWatchSet() out, err := state.ScalingPolicyByTargetAndType(ws, policy.Target, policy.Type) require.NoError(err) require.Nil(out) ws = memdb.NewWatchSet() out, err = state.ScalingPolicyByTargetAndType(ws, policy2.Target, policy2.Type) require.NoError(err) require.Nil(out) // Ensure we see both policies iter, err := state.ScalingPoliciesByNamespace(ws, policy.Target[structs.ScalingTargetNamespace], "") require.NoError(err) count := 0 for { raw := iter.Next() if raw == nil { break } count++ } require.Equal(0, count) index, err := state.Index("scaling_policy") require.NoError(err) require.True(1001 == index) require.False(watchFired(ws)) } func TestStateStore_StopJob_DeleteScalingPolicies(t *testing.T) { ci.Parallel(t) require := require.New(t) state := testStateStore(t) job := mock.Job() err := state.UpsertJob(structs.MsgTypeTestSetup, 1000, job) require.NoError(err) policy := mock.ScalingPolicy() policy.Target[structs.ScalingTargetJob] = job.ID err = state.UpsertScalingPolicies(1100, []*structs.ScalingPolicy{policy}) require.NoError(err) // Ensure the scaling policy is present and start some watches wsGet := memdb.NewWatchSet() out, err := state.ScalingPolicyByTargetAndType(wsGet, policy.Target, policy.Type) require.NoError(err) require.NotNil(out) wsList := memdb.NewWatchSet() _, err = state.ScalingPolicies(wsList) require.NoError(err) // Stop the job job, err = state.JobByID(nil, job.Namespace, job.ID) require.NoError(err) job.Stop = true err = state.UpsertJob(structs.MsgTypeTestSetup, 1200, job) require.NoError(err) // Ensure: // * the scaling policy was deleted // * the watches were fired // * the table index was advanced require.True(watchFired(wsGet)) require.True(watchFired(wsList)) out, err = state.ScalingPolicyByTargetAndType(nil, policy.Target, policy.Type) require.NoError(err) require.Nil(out) index, err := state.Index("scaling_policy") require.NoError(err) require.GreaterOrEqual(index, uint64(1200)) } func TestStateStore_UnstopJob_UpsertScalingPolicies(t *testing.T) { ci.Parallel(t) require := require.New(t) state := testStateStore(t) job, policy := mock.JobWithScalingPolicy() job.Stop = true // establish watcher, verify there are no scaling policies yet ws := memdb.NewWatchSet() list, err := state.ScalingPolicies(ws) require.NoError(err) require.Nil(list.Next()) // upsert a stopped job, verify that we don't fire the watcher or add any scaling policies err = state.UpsertJob(structs.MsgTypeTestSetup, 1000, job) require.NoError(err) require.True(watchFired(ws)) list, err = state.ScalingPolicies(ws) require.NoError(err) require.NotNil(list.Next()) // Establish a new watchset ws = memdb.NewWatchSet() _, err = state.ScalingPolicies(ws) require.NoError(err) // Unstop this job, say you'll run it again... job.Stop = false err = state.UpsertJob(structs.MsgTypeTestSetup, 1100, job) require.NoError(err) // Ensure the scaling policy still exists, watch was not fired, index was not advanced out, err := state.ScalingPolicyByTargetAndType(nil, policy.Target, policy.Type) require.NoError(err) require.NotNil(out) index, err := state.Index("scaling_policy") require.NoError(err) require.EqualValues(index, 1000) require.False(watchFired(ws)) } func TestStateStore_DeleteJob_DeleteScalingPolicies(t *testing.T) { ci.Parallel(t) require := require.New(t) state := testStateStore(t) job := mock.Job() err := state.UpsertJob(structs.MsgTypeTestSetup, 1000, job) require.NoError(err) policy := mock.ScalingPolicy() policy.Target[structs.ScalingTargetJob] = job.ID err = state.UpsertScalingPolicies(1001, []*structs.ScalingPolicy{policy}) require.NoError(err) // Delete the job err = state.DeleteJob(1002, job.Namespace, job.ID) require.NoError(err) // Ensure the scaling policy was deleted ws := memdb.NewWatchSet() out, err := state.ScalingPolicyByTargetAndType(ws, policy.Target, policy.Type) require.NoError(err) require.Nil(out) index, err := state.Index("scaling_policy") require.NoError(err) require.True(index > 1001) } func TestStateStore_DeleteJob_DeleteScalingPoliciesPrefixBug(t *testing.T) { ci.Parallel(t) require := require.New(t) state := testStateStore(t) job := mock.Job() require.NoError(state.UpsertJob(structs.MsgTypeTestSetup, 1000, job)) job2 := job.Copy() job2.ID = job.ID + "-but-longer" require.NoError(state.UpsertJob(structs.MsgTypeTestSetup, 1001, job2)) policy := mock.ScalingPolicy() policy.Target[structs.ScalingTargetJob] = job.ID policy2 := mock.ScalingPolicy() policy2.Target[structs.ScalingTargetJob] = job2.ID require.NoError(state.UpsertScalingPolicies(1002, []*structs.ScalingPolicy{policy, policy2})) // Delete job with the shorter prefix-ID require.NoError(state.DeleteJob(1003, job.Namespace, job.ID)) // Ensure only the associated scaling policy was deleted, not the one matching the job with the longer ID out, err := state.ScalingPolicyByID(nil, policy.ID) require.NoError(err) require.Nil(out) out, err = state.ScalingPolicyByID(nil, policy2.ID) require.NoError(err) require.NotNil(out) } // This test ensures that deleting a job that doesn't have any scaling policies // will not cause the scaling_policy table index to increase, on either job // registration or deletion. func TestStateStore_DeleteJob_ScalingPolicyIndexNoop(t *testing.T) { ci.Parallel(t) require := require.New(t) state := testStateStore(t) job := mock.Job() prevIndex, err := state.Index("scaling_policy") require.NoError(err) err = state.UpsertJob(structs.MsgTypeTestSetup, 1000, job) require.NoError(err) newIndex, err := state.Index("scaling_policy") require.NoError(err) require.Equal(prevIndex, newIndex) // Delete the job err = state.DeleteJob(1002, job.Namespace, job.ID) require.NoError(err) newIndex, err = state.Index("scaling_policy") require.NoError(err) require.Equal(prevIndex, newIndex) } func TestStateStore_ScalingPoliciesByType(t *testing.T) { ci.Parallel(t) require := require.New(t) state := testStateStore(t) // Create scaling policies of different types pHorzA := mock.ScalingPolicy() pHorzA.Type = structs.ScalingPolicyTypeHorizontal pHorzB := mock.ScalingPolicy() pHorzB.Type = structs.ScalingPolicyTypeHorizontal pOther1 := mock.ScalingPolicy() pOther1.Type = "other-type-1" pOther2 := mock.ScalingPolicy() pOther2.Type = "other-type-2" // Create search routine search := func(t string) (found []string) { found = []string{} iter, err := state.ScalingPoliciesByTypePrefix(nil, t) require.NoError(err) for raw := iter.Next(); raw != nil; raw = iter.Next() { found = append(found, raw.(*structs.ScalingPolicy).Type) } return } // Create the policies var baseIndex uint64 = 1000 err := state.UpsertScalingPolicies(baseIndex, []*structs.ScalingPolicy{pHorzA, pHorzB, pOther1, pOther2}) require.NoError(err) // Check if we can read horizontal policies expect := []string{pHorzA.Type, pHorzB.Type} actual := search(structs.ScalingPolicyTypeHorizontal) require.ElementsMatch(expect, actual) // Check if we can read policies of other types expect = []string{pOther1.Type} actual = search("other-type-1") require.ElementsMatch(expect, actual) // Check that we can read policies by prefix expect = []string{"other-type-1", "other-type-2"} actual = search("other-type") require.Equal(expect, actual) // Check for empty result expect = []string{} actual = search("non-existing") require.ElementsMatch(expect, actual) } func TestStateStore_ScalingPoliciesByTypePrefix(t *testing.T) { ci.Parallel(t) require := require.New(t) state := testStateStore(t) // Create scaling policies of different types pHorzA := mock.ScalingPolicy() pHorzA.Type = structs.ScalingPolicyTypeHorizontal pHorzB := mock.ScalingPolicy() pHorzB.Type = structs.ScalingPolicyTypeHorizontal pOther1 := mock.ScalingPolicy() pOther1.Type = "other-type-1" pOther2 := mock.ScalingPolicy() pOther2.Type = "other-type-2" // Create search routine search := func(t string) (count int, found []string, err error) { found = []string{} iter, err := state.ScalingPoliciesByTypePrefix(nil, t) if err != nil { return } for raw := iter.Next(); raw != nil; raw = iter.Next() { count++ found = append(found, raw.(*structs.ScalingPolicy).Type) } return } // Create the policies var baseIndex uint64 = 1000 err := state.UpsertScalingPolicies(baseIndex, []*structs.ScalingPolicy{pHorzA, pHorzB, pOther1, pOther2}) require.NoError(err) // Check if we can read horizontal policies expect := []string{pHorzA.Type, pHorzB.Type} count, found, err := search("h") sort.Strings(found) sort.Strings(expect) require.NoError(err) require.Equal(expect, found) require.Equal(2, count) // Check if we can read other prefix policies expect = []string{pOther1.Type, pOther2.Type} count, found, err = search("other") sort.Strings(found) sort.Strings(expect) require.NoError(err) require.Equal(expect, found) require.Equal(2, count) // Check for empty result expect = []string{} count, found, err = search("non-existing") sort.Strings(found) sort.Strings(expect) require.NoError(err) require.Equal(expect, found) require.Equal(0, count) } func TestStateStore_ScalingPoliciesByJob(t *testing.T) { ci.Parallel(t) require := require.New(t) state := testStateStore(t) policyA := mock.ScalingPolicy() policyB1 := mock.ScalingPolicy() policyB2 := mock.ScalingPolicy() policyB1.Target[structs.ScalingTargetJob] = policyB2.Target[structs.ScalingTargetJob] // Create the policies var baseIndex uint64 = 1000 err := state.UpsertScalingPolicies(baseIndex, []*structs.ScalingPolicy{policyA, policyB1, policyB2}) require.NoError(err) iter, err := state.ScalingPoliciesByJob(nil, policyA.Target[structs.ScalingTargetNamespace], policyA.Target[structs.ScalingTargetJob], "") require.NoError(err) // Ensure we see expected policies count := 0 found := []string{} for { raw := iter.Next() if raw == nil { break } count++ found = append(found, raw.(*structs.ScalingPolicy).Target[structs.ScalingTargetGroup]) } require.Equal(1, count) sort.Strings(found) expect := []string{policyA.Target[structs.ScalingTargetGroup]} sort.Strings(expect) require.Equal(expect, found) iter, err = state.ScalingPoliciesByJob(nil, policyB1.Target[structs.ScalingTargetNamespace], policyB1.Target[structs.ScalingTargetJob], "") require.NoError(err) // Ensure we see expected policies count = 0 found = []string{} for { raw := iter.Next() if raw == nil { break } count++ found = append(found, raw.(*structs.ScalingPolicy).Target[structs.ScalingTargetGroup]) } require.Equal(2, count) sort.Strings(found) expect = []string{ policyB1.Target[structs.ScalingTargetGroup], policyB2.Target[structs.ScalingTargetGroup], } sort.Strings(expect) require.Equal(expect, found) } func TestStateStore_ScalingPoliciesByJob_PrefixBug(t *testing.T) { ci.Parallel(t) require := require.New(t) jobPrefix := "job-name-" + uuid.Generate() state := testStateStore(t) policy1 := mock.ScalingPolicy() policy1.Target[structs.ScalingTargetJob] = jobPrefix policy2 := mock.ScalingPolicy() policy2.Target[structs.ScalingTargetJob] = jobPrefix + "-more" // Create the policies var baseIndex uint64 = 1000 err := state.UpsertScalingPolicies(baseIndex, []*structs.ScalingPolicy{policy1, policy2}) require.NoError(err) iter, err := state.ScalingPoliciesByJob(nil, policy1.Target[structs.ScalingTargetNamespace], jobPrefix, "") require.NoError(err) // Ensure we see expected policies count := 0 found := []string{} for { raw := iter.Next() if raw == nil { break } count++ found = append(found, raw.(*structs.ScalingPolicy).ID) } require.Equal(1, count) expect := []string{policy1.ID} require.Equal(expect, found) } func TestStateStore_ScalingPolicyByTargetAndType(t *testing.T) { ci.Parallel(t) require := require.New(t) state := testStateStore(t) // Create scaling policies policyA := mock.ScalingPolicy() // Same target, different type policyB := mock.ScalingPolicy() policyC := mock.ScalingPolicy() for k, v := range policyB.Target { policyC.Target[k] = v } policyC.Type = "other-type" // Create the policies var baseIndex uint64 = 1000 err := state.UpsertScalingPolicies(baseIndex, []*structs.ScalingPolicy{policyA, policyB, policyC}) require.NoError(err) // Check if we can retrieve the right policies found, err := state.ScalingPolicyByTargetAndType(nil, policyA.Target, policyA.Type) require.NoError(err) require.Equal(policyA, found) // Check for wrong type found, err = state.ScalingPolicyByTargetAndType(nil, policyA.Target, "wrong_type") require.NoError(err) require.Nil(found) // Check for same target but different type found, err = state.ScalingPolicyByTargetAndType(nil, policyB.Target, policyB.Type) require.NoError(err) require.Equal(policyB, found) found, err = state.ScalingPolicyByTargetAndType(nil, policyB.Target, policyC.Type) require.NoError(err) require.Equal(policyC, found) } func TestStateStore_UpsertScalingEvent(t *testing.T) { ci.Parallel(t) require := require.New(t) state := testStateStore(t) job := mock.Job() groupName := job.TaskGroups[0].Name newEvent := structs.NewScalingEvent("message 1").SetMeta(map[string]interface{}{ "a": 1, }) wsAll := memdb.NewWatchSet() all, err := state.ScalingEvents(wsAll) require.NoError(err) require.Nil(all.Next()) ws := memdb.NewWatchSet() out, _, err := state.ScalingEventsByJob(ws, job.Namespace, job.ID) require.NoError(err) require.Nil(out) err = state.UpsertScalingEvent(1000, &structs.ScalingEventRequest{ Namespace: job.Namespace, JobID: job.ID, TaskGroup: groupName, ScalingEvent: newEvent, }) require.NoError(err) require.True(watchFired(ws)) require.True(watchFired(wsAll)) ws = memdb.NewWatchSet() out, eventsIndex, err := state.ScalingEventsByJob(ws, job.Namespace, job.ID) require.NoError(err) require.Equal(map[string][]*structs.ScalingEvent{ groupName: {newEvent}, }, out) require.EqualValues(eventsIndex, 1000) iter, err := state.ScalingEvents(ws) require.NoError(err) count := 0 jobsReturned := []string{} var jobEvents *structs.JobScalingEvents for { raw := iter.Next() if raw == nil { break } jobEvents = raw.(*structs.JobScalingEvents) jobsReturned = append(jobsReturned, jobEvents.JobID) count++ } require.Equal(1, count) require.EqualValues(jobEvents.ModifyIndex, 1000) require.EqualValues(jobEvents.ScalingEvents[groupName][0].CreateIndex, 1000) index, err := state.Index("scaling_event") require.NoError(err) require.ElementsMatch([]string{job.ID}, jobsReturned) require.Equal(map[string][]*structs.ScalingEvent{ groupName: {newEvent}, }, jobEvents.ScalingEvents) require.EqualValues(1000, index) require.False(watchFired(ws)) } func TestStateStore_UpsertScalingEvent_LimitAndOrder(t *testing.T) { ci.Parallel(t) require := require.New(t) state := testStateStore(t) namespace := uuid.Generate() jobID := uuid.Generate() group1 := uuid.Generate() group2 := uuid.Generate() index := uint64(1000) for i := 1; i <= structs.JobTrackedScalingEvents+10; i++ { newEvent := structs.NewScalingEvent("").SetMeta(map[string]interface{}{ "i": i, "group": group1, }) err := state.UpsertScalingEvent(index, &structs.ScalingEventRequest{ Namespace: namespace, JobID: jobID, TaskGroup: group1, ScalingEvent: newEvent, }) index++ require.NoError(err) newEvent = structs.NewScalingEvent("").SetMeta(map[string]interface{}{ "i": i, "group": group2, }) err = state.UpsertScalingEvent(index, &structs.ScalingEventRequest{ Namespace: namespace, JobID: jobID, TaskGroup: group2, ScalingEvent: newEvent, }) index++ require.NoError(err) } out, _, err := state.ScalingEventsByJob(nil, namespace, jobID) require.NoError(err) require.Len(out, 2) expectedEvents := []int{} for i := structs.JobTrackedScalingEvents; i > 0; i-- { expectedEvents = append(expectedEvents, i+10) } // checking order and content require.Len(out[group1], structs.JobTrackedScalingEvents) actualEvents := []int{} for _, event := range out[group1] { require.Equal(group1, event.Meta["group"]) actualEvents = append(actualEvents, event.Meta["i"].(int)) } require.Equal(expectedEvents, actualEvents) // checking order and content require.Len(out[group2], structs.JobTrackedScalingEvents) actualEvents = []int{} for _, event := range out[group2] { require.Equal(group2, event.Meta["group"]) actualEvents = append(actualEvents, event.Meta["i"].(int)) } require.Equal(expectedEvents, actualEvents) } func TestStateStore_Abandon(t *testing.T) { ci.Parallel(t) s := testStateStore(t) abandonCh := s.AbandonCh() s.Abandon() select { case <-abandonCh: default: t.Fatalf("bad") } } // Verifies that an error is returned when an allocation doesn't exist in the state store. func TestStateSnapshot_DenormalizeAllocationDiffSlice_AllocDoesNotExist(t *testing.T) { ci.Parallel(t) state := testStateStore(t) alloc := mock.Alloc() require := require.New(t) // Insert job err := state.UpsertJob(structs.MsgTypeTestSetup, 999, alloc.Job) require.NoError(err) allocDiffs := []*structs.AllocationDiff{ { ID: alloc.ID, }, } snap, err := state.Snapshot() require.NoError(err) denormalizedAllocs, err := snap.DenormalizeAllocationDiffSlice(allocDiffs) require.EqualError(err, fmt.Sprintf("alloc %v doesn't exist", alloc.ID)) require.Nil(denormalizedAllocs) } // TestStateStore_SnapshotMinIndex_OK asserts StateStore.SnapshotMinIndex blocks // until the StateStore's latest index is >= the requested index. func TestStateStore_SnapshotMinIndex_OK(t *testing.T) { ci.Parallel(t) s := testStateStore(t) index, err := s.LatestIndex() require.NoError(t, err) node := mock.Node() require.NoError(t, s.UpsertNode(structs.MsgTypeTestSetup, index+1, node)) // Assert SnapshotMinIndex returns immediately if index < latest index ctx, cancel := context.WithTimeout(context.Background(), 0) snap, err := s.SnapshotMinIndex(ctx, index) cancel() require.NoError(t, err) snapIndex, err := snap.LatestIndex() require.NoError(t, err) if snapIndex <= index { require.Fail(t, "snapshot index should be greater than index") } // Assert SnapshotMinIndex returns immediately if index == latest index ctx, cancel = context.WithTimeout(context.Background(), 0) snap, err = s.SnapshotMinIndex(ctx, index+1) cancel() require.NoError(t, err) snapIndex, err = snap.LatestIndex() require.NoError(t, err) require.Equal(t, snapIndex, index+1) // Assert SnapshotMinIndex blocks if index > latest index errCh := make(chan error, 1) ctx, cancel = context.WithTimeout(context.Background(), 10*time.Second) defer cancel() go func() { defer close(errCh) waitIndex := index + 2 snap, err := s.SnapshotMinIndex(ctx, waitIndex) if err != nil { errCh <- err return } snapIndex, err := snap.LatestIndex() if err != nil { errCh <- err return } if snapIndex < waitIndex { errCh <- fmt.Errorf("snapshot index < wait index: %d < %d", snapIndex, waitIndex) return } }() select { case err := <-errCh: require.NoError(t, err) case <-time.After(500 * time.Millisecond): // Let it block for a bit before unblocking by upserting } node.Name = "hal" require.NoError(t, s.UpsertNode(structs.MsgTypeTestSetup, index+2, node)) select { case err := <-errCh: require.NoError(t, err) case <-time.After(5 * time.Second): require.Fail(t, "timed out waiting for SnapshotMinIndex to unblock") } } // TestStateStore_SnapshotMinIndex_Timeout asserts StateStore.SnapshotMinIndex // returns an error if the desired index is not reached within the deadline. func TestStateStore_SnapshotMinIndex_Timeout(t *testing.T) { ci.Parallel(t) s := testStateStore(t) index, err := s.LatestIndex() require.NoError(t, err) // Assert SnapshotMinIndex blocks if index > latest index ctx, cancel := context.WithTimeout(context.Background(), 100*time.Millisecond) defer cancel() snap, err := s.SnapshotMinIndex(ctx, index+1) require.EqualError(t, err, context.DeadlineExceeded.Error()) require.Nil(t, snap) } // watchFired is a helper for unit tests that returns if the given watch set // fired (it doesn't care which watch actually fired). This uses a fixed // timeout since we already expect the event happened before calling this and // just need to distinguish a fire from a timeout. We do need a little time to // allow the watch to set up any goroutines, though. func watchFired(ws memdb.WatchSet) bool { timedOut := ws.Watch(time.After(50 * time.Millisecond)) return !timedOut } // NodeIDSort is used to sort nodes by ID type NodeIDSort []*structs.Node func (n NodeIDSort) Len() int { return len(n) } func (n NodeIDSort) Less(i, j int) bool { return n[i].ID < n[j].ID } func (n NodeIDSort) Swap(i, j int) { n[i], n[j] = n[j], n[i] } // JobIDis used to sort jobs by id type JobIDSort []*structs.Job func (n JobIDSort) Len() int { return len(n) } func (n JobIDSort) Less(i, j int) bool { return n[i].ID < n[j].ID } func (n JobIDSort) Swap(i, j int) { n[i], n[j] = n[j], n[i] } // EvalIDis used to sort evals by id type EvalIDSort []*structs.Evaluation func (n EvalIDSort) Len() int { return len(n) } func (n EvalIDSort) Less(i, j int) bool { return n[i].ID < n[j].ID } func (n EvalIDSort) Swap(i, j int) { n[i], n[j] = n[j], n[i] } // AllocIDsort used to sort allocations by id type AllocIDSort []*structs.Allocation func (n AllocIDSort) Len() int { return len(n) } func (n AllocIDSort) Less(i, j int) bool { return n[i].ID < n[j].ID } func (n AllocIDSort) Swap(i, j int) { n[i], n[j] = n[j], n[i] } // nextIndex gets the LatestIndex for this store and assumes no error // note: this helper is not safe for concurrent use func nextIndex(s *StateStore) uint64 { index, _ := s.LatestIndex() index++ return index }