open-nomad/scheduler/system_sched_test.go

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package scheduler
import (
"testing"
"time"
"github.com/hashicorp/nomad/nomad/mock"
"github.com/hashicorp/nomad/nomad/structs"
)
func TestSystemSched_JobRegister(t *testing.T) {
h := NewHarness(t)
// Create some nodes
for i := 0; i < 10; i++ {
node := mock.Node()
noErr(t, h.State.UpsertNode(h.NextIndex(), node))
}
// Create a job
job := mock.SystemJob()
noErr(t, h.State.UpsertJob(h.NextIndex(), job))
// Create a mock evaluation to deregister the job
eval := &structs.Evaluation{
ID: structs.GenerateUUID(),
Priority: job.Priority,
TriggeredBy: structs.EvalTriggerJobRegister,
JobID: job.ID,
}
// Process the evaluation
err := h.Process(NewSystemScheduler, eval)
if err != nil {
t.Fatalf("err: %v", err)
}
// Ensure a single plan
if len(h.Plans) != 1 {
t.Fatalf("bad: %#v", h.Plans)
}
plan := h.Plans[0]
// Ensure the plan allocated
var planned []*structs.Allocation
for _, allocList := range plan.NodeAllocation {
planned = append(planned, allocList...)
}
if len(planned) != 10 {
t.Fatalf("bad: %#v", plan)
}
// Lookup the allocations by JobID
out, err := h.State.AllocsByJob(job.ID)
noErr(t, err)
// Ensure all allocations placed
if len(out) != 10 {
t.Fatalf("bad: %#v", out)
}
h.AssertEvalStatus(t, structs.EvalStatusComplete)
}
func TestSystemSched_JobRegister_AddNode(t *testing.T) {
h := NewHarness(t)
// Create some nodes
var nodes []*structs.Node
for i := 0; i < 10; i++ {
node := mock.Node()
nodes = append(nodes, node)
noErr(t, h.State.UpsertNode(h.NextIndex(), node))
}
// Generate a fake job with allocations
job := mock.SystemJob()
noErr(t, h.State.UpsertJob(h.NextIndex(), job))
var allocs []*structs.Allocation
for _, node := range nodes {
alloc := mock.Alloc()
alloc.Job = job
alloc.JobID = job.ID
alloc.NodeID = node.ID
alloc.Name = "my-job.web[0]"
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allocs = append(allocs, alloc)
}
noErr(t, h.State.UpsertAllocs(h.NextIndex(), allocs))
// Add a new node.
node := mock.Node()
noErr(t, h.State.UpsertNode(h.NextIndex(), node))
// Create a mock evaluation to deal with the node update
eval := &structs.Evaluation{
ID: structs.GenerateUUID(),
Priority: 50,
TriggeredBy: structs.EvalTriggerNodeUpdate,
JobID: job.ID,
}
// Process the evaluation
err := h.Process(NewSystemScheduler, eval)
if err != nil {
t.Fatalf("err: %v", err)
}
// Ensure a single plan
if len(h.Plans) != 1 {
t.Fatalf("bad: %#v", h.Plans)
}
plan := h.Plans[0]
// Ensure the plan had no node updates
var update []*structs.Allocation
for _, updateList := range plan.NodeUpdate {
update = append(update, updateList...)
}
if len(update) != 0 {
t.Log(len(update))
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t.Fatalf("bad: %#v", plan)
}
// Ensure the plan allocated on the new node
var planned []*structs.Allocation
for _, allocList := range plan.NodeAllocation {
planned = append(planned, allocList...)
}
if len(planned) != 1 {
t.Fatalf("bad: %#v", plan)
}
// Ensure it allocated on the right node
if _, ok := plan.NodeAllocation[node.ID]; !ok {
t.Fatalf("allocated on wrong node: %#v", plan)
}
// Lookup the allocations by JobID
out, err := h.State.AllocsByJob(job.ID)
noErr(t, err)
// Ensure all allocations placed
out = structs.FilterTerminalAllocs(out)
if len(out) != 11 {
t.Fatalf("bad: %#v", out)
}
h.AssertEvalStatus(t, structs.EvalStatusComplete)
}
func TestSystemSched_JobRegister_AllocFail(t *testing.T) {
h := NewHarness(t)
// Create NO nodes
// Create a job
job := mock.SystemJob()
noErr(t, h.State.UpsertJob(h.NextIndex(), job))
// Create a mock evaluation to register the job
eval := &structs.Evaluation{
ID: structs.GenerateUUID(),
Priority: job.Priority,
TriggeredBy: structs.EvalTriggerJobRegister,
JobID: job.ID,
}
// Process the evaluation
err := h.Process(NewSystemScheduler, eval)
if err != nil {
t.Fatalf("err: %v", err)
}
// Ensure no plan as this should be a no-op.
if len(h.Plans) != 0 {
t.Fatalf("bad: %#v", h.Plans)
}
h.AssertEvalStatus(t, structs.EvalStatusComplete)
}
func TestSystemSched_JobModify(t *testing.T) {
h := NewHarness(t)
// Create some nodes
var nodes []*structs.Node
for i := 0; i < 10; i++ {
node := mock.Node()
nodes = append(nodes, node)
noErr(t, h.State.UpsertNode(h.NextIndex(), node))
}
// Generate a fake job with allocations
job := mock.SystemJob()
noErr(t, h.State.UpsertJob(h.NextIndex(), job))
var allocs []*structs.Allocation
for _, node := range nodes {
alloc := mock.Alloc()
alloc.Job = job
alloc.JobID = job.ID
alloc.NodeID = node.ID
alloc.Name = "my-job.web[0]"
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allocs = append(allocs, alloc)
}
noErr(t, h.State.UpsertAllocs(h.NextIndex(), allocs))
// Add a few terminal status allocations, these should be ignored
var terminal []*structs.Allocation
for i := 0; i < 5; i++ {
alloc := mock.Alloc()
alloc.Job = job
alloc.JobID = job.ID
alloc.NodeID = nodes[i].ID
alloc.Name = "my-job.web[0]"
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alloc.DesiredStatus = structs.AllocDesiredStatusFailed
terminal = append(terminal, alloc)
}
noErr(t, h.State.UpsertAllocs(h.NextIndex(), terminal))
// Update the job
job2 := mock.SystemJob()
job2.ID = job.ID
// Update the task, such that it cannot be done in-place
job2.TaskGroups[0].Tasks[0].Config["command"] = "/bin/other"
noErr(t, h.State.UpsertJob(h.NextIndex(), job2))
// Create a mock evaluation to deal with drain
eval := &structs.Evaluation{
ID: structs.GenerateUUID(),
Priority: 50,
TriggeredBy: structs.EvalTriggerJobRegister,
JobID: job.ID,
}
// Process the evaluation
err := h.Process(NewSystemScheduler, eval)
if err != nil {
t.Fatalf("err: %v", err)
}
// Ensure a single plan
if len(h.Plans) != 1 {
t.Fatalf("bad: %#v", h.Plans)
}
plan := h.Plans[0]
// Ensure the plan evicted all allocs
var update []*structs.Allocation
for _, updateList := range plan.NodeUpdate {
update = append(update, updateList...)
}
if len(update) != len(allocs) {
t.Fatalf("bad: %#v", plan)
}
// Ensure the plan allocated
var planned []*structs.Allocation
for _, allocList := range plan.NodeAllocation {
planned = append(planned, allocList...)
}
if len(planned) != 10 {
t.Fatalf("bad: %#v", plan)
}
// Lookup the allocations by JobID
out, err := h.State.AllocsByJob(job.ID)
noErr(t, err)
// Ensure all allocations placed
out = structs.FilterTerminalAllocs(out)
if len(out) != 10 {
t.Fatalf("bad: %#v", out)
}
h.AssertEvalStatus(t, structs.EvalStatusComplete)
}
func TestSystemSched_JobModify_Rolling(t *testing.T) {
h := NewHarness(t)
// Create some nodes
var nodes []*structs.Node
for i := 0; i < 10; i++ {
node := mock.Node()
nodes = append(nodes, node)
noErr(t, h.State.UpsertNode(h.NextIndex(), node))
}
// Generate a fake job with allocations
job := mock.SystemJob()
noErr(t, h.State.UpsertJob(h.NextIndex(), job))
var allocs []*structs.Allocation
for _, node := range nodes {
alloc := mock.Alloc()
alloc.Job = job
alloc.JobID = job.ID
alloc.NodeID = node.ID
alloc.Name = "my-job.web[0]"
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allocs = append(allocs, alloc)
}
noErr(t, h.State.UpsertAllocs(h.NextIndex(), allocs))
// Update the job
job2 := mock.SystemJob()
job2.ID = job.ID
job2.Update = structs.UpdateStrategy{
Stagger: 30 * time.Second,
MaxParallel: 5,
}
// Update the task, such that it cannot be done in-place
job2.TaskGroups[0].Tasks[0].Config["command"] = "/bin/other"
noErr(t, h.State.UpsertJob(h.NextIndex(), job2))
// Create a mock evaluation to deal with drain
eval := &structs.Evaluation{
ID: structs.GenerateUUID(),
Priority: 50,
TriggeredBy: structs.EvalTriggerJobRegister,
JobID: job.ID,
}
// Process the evaluation
err := h.Process(NewSystemScheduler, eval)
if err != nil {
t.Fatalf("err: %v", err)
}
// Ensure a single plan
if len(h.Plans) != 1 {
t.Fatalf("bad: %#v", h.Plans)
}
plan := h.Plans[0]
// Ensure the plan evicted only MaxParallel
var update []*structs.Allocation
for _, updateList := range plan.NodeUpdate {
update = append(update, updateList...)
}
if len(update) != job2.Update.MaxParallel {
t.Fatalf("bad: %#v", plan)
}
// Ensure the plan allocated
var planned []*structs.Allocation
for _, allocList := range plan.NodeAllocation {
planned = append(planned, allocList...)
}
if len(planned) != job2.Update.MaxParallel {
t.Fatalf("bad: %#v", plan)
}
h.AssertEvalStatus(t, structs.EvalStatusComplete)
// Ensure a follow up eval was created
eval = h.Evals[0]
if eval.NextEval == "" {
t.Fatalf("missing next eval")
}
// Check for create
if len(h.CreateEvals) == 0 {
t.Fatalf("missing created eval")
}
create := h.CreateEvals[0]
if eval.NextEval != create.ID {
t.Fatalf("ID mismatch")
}
if create.PreviousEval != eval.ID {
t.Fatalf("missing previous eval")
}
if create.TriggeredBy != structs.EvalTriggerRollingUpdate {
t.Fatalf("bad: %#v", create)
}
}
func TestSystemSched_JobModify_InPlace(t *testing.T) {
h := NewHarness(t)
// Create some nodes
var nodes []*structs.Node
for i := 0; i < 10; i++ {
node := mock.Node()
nodes = append(nodes, node)
noErr(t, h.State.UpsertNode(h.NextIndex(), node))
}
// Generate a fake job with allocations
job := mock.SystemJob()
noErr(t, h.State.UpsertJob(h.NextIndex(), job))
var allocs []*structs.Allocation
for _, node := range nodes {
alloc := mock.Alloc()
alloc.Job = job
alloc.JobID = job.ID
alloc.NodeID = node.ID
alloc.Name = "my-job.web[0]"
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allocs = append(allocs, alloc)
}
noErr(t, h.State.UpsertAllocs(h.NextIndex(), allocs))
// Update the job
job2 := mock.SystemJob()
job2.ID = job.ID
noErr(t, h.State.UpsertJob(h.NextIndex(), job2))
// Create a mock evaluation to deal with drain
eval := &structs.Evaluation{
ID: structs.GenerateUUID(),
Priority: 50,
TriggeredBy: structs.EvalTriggerJobRegister,
JobID: job.ID,
}
// Process the evaluation
err := h.Process(NewSystemScheduler, eval)
if err != nil {
t.Fatalf("err: %v", err)
}
// Ensure a single plan
if len(h.Plans) != 1 {
t.Fatalf("bad: %#v", h.Plans)
}
plan := h.Plans[0]
// Ensure the plan did not evict any allocs
var update []*structs.Allocation
for _, updateList := range plan.NodeUpdate {
update = append(update, updateList...)
}
if len(update) != 0 {
t.Fatalf("bad: %#v", plan)
}
// Ensure the plan updated the existing allocs
var planned []*structs.Allocation
for _, allocList := range plan.NodeAllocation {
planned = append(planned, allocList...)
}
if len(planned) != 10 {
t.Fatalf("bad: %#v", plan)
}
for _, p := range planned {
if p.Job != job2 {
t.Fatalf("should update job")
}
}
// Lookup the allocations by JobID
out, err := h.State.AllocsByJob(job.ID)
noErr(t, err)
// Ensure all allocations placed
if len(out) != 10 {
t.Fatalf("bad: %#v", out)
}
h.AssertEvalStatus(t, structs.EvalStatusComplete)
// Verify the network did not change
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rp := structs.Port{"main", 5000}
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for _, alloc := range out {
for _, resources := range alloc.TaskResources {
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if resources.Networks[0].ReservedPorts[0] != rp {
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t.Fatalf("bad: %#v", alloc)
}
}
}
}
func TestSystemSched_JobDeregister(t *testing.T) {
h := NewHarness(t)
// Create some nodes
var nodes []*structs.Node
for i := 0; i < 10; i++ {
node := mock.Node()
nodes = append(nodes, node)
noErr(t, h.State.UpsertNode(h.NextIndex(), node))
}
// Generate a fake job with allocations
job := mock.SystemJob()
var allocs []*structs.Allocation
for _, node := range nodes {
alloc := mock.Alloc()
alloc.Job = job
alloc.JobID = job.ID
alloc.NodeID = node.ID
alloc.Name = "my-job.web[0]"
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allocs = append(allocs, alloc)
}
noErr(t, h.State.UpsertAllocs(h.NextIndex(), allocs))
// Create a mock evaluation to deregister the job
eval := &structs.Evaluation{
ID: structs.GenerateUUID(),
Priority: 50,
TriggeredBy: structs.EvalTriggerJobDeregister,
JobID: job.ID,
}
// Process the evaluation
err := h.Process(NewSystemScheduler, eval)
if err != nil {
t.Fatalf("err: %v", err)
}
// Ensure a single plan
if len(h.Plans) != 1 {
t.Fatalf("bad: %#v", h.Plans)
}
plan := h.Plans[0]
// Ensure the plan evicted the job from all nodes.
for _, node := range nodes {
if len(plan.NodeUpdate[node.ID]) != 1 {
t.Fatalf("bad: %#v", plan)
}
}
// Lookup the allocations by JobID
out, err := h.State.AllocsByJob(job.ID)
noErr(t, err)
// Ensure no remaining allocations
out = structs.FilterTerminalAllocs(out)
if len(out) != 0 {
t.Fatalf("bad: %#v", out)
}
h.AssertEvalStatus(t, structs.EvalStatusComplete)
}
func TestSystemSched_NodeDrain(t *testing.T) {
h := NewHarness(t)
// Register a draining node
node := mock.Node()
node.Drain = true
noErr(t, h.State.UpsertNode(h.NextIndex(), node))
// Generate a fake job allocated on that node.
job := mock.SystemJob()
noErr(t, h.State.UpsertJob(h.NextIndex(), job))
alloc := mock.Alloc()
alloc.Job = job
alloc.JobID = job.ID
alloc.NodeID = node.ID
alloc.Name = "my-job.web[0]"
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noErr(t, h.State.UpsertAllocs(h.NextIndex(), []*structs.Allocation{alloc}))
// Create a mock evaluation to deal with drain
eval := &structs.Evaluation{
ID: structs.GenerateUUID(),
Priority: 50,
TriggeredBy: structs.EvalTriggerNodeUpdate,
JobID: job.ID,
NodeID: node.ID,
}
// Process the evaluation
err := h.Process(NewSystemScheduler, eval)
if err != nil {
t.Fatalf("err: %v", err)
}
// Ensure a single plan
if len(h.Plans) != 1 {
t.Fatalf("bad: %#v", h.Plans)
}
plan := h.Plans[0]
// Ensure the plan evicted all allocs
if len(plan.NodeUpdate[node.ID]) != 1 {
t.Fatalf("bad: %#v", plan)
}
// Ensure the plan updated the allocation.
var planned []*structs.Allocation
for _, allocList := range plan.NodeUpdate {
planned = append(planned, allocList...)
}
if len(planned) != 1 {
t.Log(len(planned))
t.Fatalf("bad: %#v", plan)
}
// Lookup the allocations by JobID
out, err := h.State.AllocsByJob(job.ID)
noErr(t, err)
// Ensure the allocations is stopped
if planned[0].DesiredStatus != structs.AllocDesiredStatusStop {
t.Fatalf("bad: %#v", out)
}
h.AssertEvalStatus(t, structs.EvalStatusComplete)
}
func TestSystemSched_RetryLimit(t *testing.T) {
h := NewHarness(t)
h.Planner = &RejectPlan{h}
// Create some nodes
for i := 0; i < 10; i++ {
node := mock.Node()
noErr(t, h.State.UpsertNode(h.NextIndex(), node))
}
// Create a job
job := mock.SystemJob()
noErr(t, h.State.UpsertJob(h.NextIndex(), job))
// Create a mock evaluation to deregister the job
eval := &structs.Evaluation{
ID: structs.GenerateUUID(),
Priority: job.Priority,
TriggeredBy: structs.EvalTriggerJobRegister,
JobID: job.ID,
}
// Process the evaluation
err := h.Process(NewSystemScheduler, eval)
if err != nil {
t.Fatalf("err: %v", err)
}
// Ensure multiple plans
if len(h.Plans) == 0 {
t.Fatalf("bad: %#v", h.Plans)
}
// Lookup the allocations by JobID
out, err := h.State.AllocsByJob(job.ID)
noErr(t, err)
// Ensure no allocations placed
if len(out) != 0 {
t.Fatalf("bad: %#v", out)
}
// Should hit the retry limit
h.AssertEvalStatus(t, structs.EvalStatusFailed)
}