open-nomad/api/tasks_test.go

924 lines
20 KiB
Go

// Copyright (c) HashiCorp, Inc.
// SPDX-License-Identifier: MPL-2.0
package api
import (
"path/filepath"
"testing"
"time"
"github.com/hashicorp/nomad/api/internal/testutil"
"github.com/shoenig/test/must"
)
func TestTaskGroup_NewTaskGroup(t *testing.T) {
testutil.Parallel(t)
grp := NewTaskGroup("grp1", 2)
expect := &TaskGroup{
Name: pointerOf("grp1"),
Count: pointerOf(2),
}
must.Eq(t, expect, grp)
}
func TestTaskGroup_Constrain(t *testing.T) {
testutil.Parallel(t)
grp := NewTaskGroup("grp1", 1)
// Add a constraint to the group
out := grp.Constrain(NewConstraint("kernel.name", "=", "darwin"))
must.Len(t, 1, grp.Constraints)
// Check that the group was returned
must.Eq(t, grp, out)
// Add a second constraint
grp.Constrain(NewConstraint("memory.totalbytes", ">=", "128000000"))
expect := []*Constraint{
{
LTarget: "kernel.name",
RTarget: "darwin",
Operand: "=",
},
{
LTarget: "memory.totalbytes",
RTarget: "128000000",
Operand: ">=",
},
}
must.Eq(t, expect, grp.Constraints)
}
func TestTaskGroup_AddAffinity(t *testing.T) {
testutil.Parallel(t)
grp := NewTaskGroup("grp1", 1)
// Add an affinity to the group
out := grp.AddAffinity(NewAffinity("kernel.version", "=", "4.6", 100))
must.Len(t, 1, grp.Affinities)
// Check that the group was returned
must.Eq(t, grp, out)
// Add a second affinity
grp.AddAffinity(NewAffinity("${node.affinity}", "=", "dc2", 50))
expect := []*Affinity{
{
LTarget: "kernel.version",
RTarget: "4.6",
Operand: "=",
Weight: pointerOf(int8(100)),
},
{
LTarget: "${node.affinity}",
RTarget: "dc2",
Operand: "=",
Weight: pointerOf(int8(50)),
},
}
must.Eq(t, expect, grp.Affinities)
}
func TestTaskGroup_SetMeta(t *testing.T) {
testutil.Parallel(t)
grp := NewTaskGroup("grp1", 1)
// Initializes an empty map
out := grp.SetMeta("foo", "bar")
must.NotNil(t, grp.Meta)
// Check that we returned the group
must.Eq(t, grp, out)
// Add a second meta k/v
grp.SetMeta("baz", "zip")
expect := map[string]string{"foo": "bar", "baz": "zip"}
must.Eq(t, expect, grp.Meta)
}
func TestTaskGroup_AddSpread(t *testing.T) {
testutil.Parallel(t)
grp := NewTaskGroup("grp1", 1)
// Create and add spread
spreadTarget := NewSpreadTarget("r1", 50)
spread := NewSpread("${meta.rack}", 100, []*SpreadTarget{spreadTarget})
out := grp.AddSpread(spread)
must.Len(t, 1, grp.Spreads)
// Check that the group was returned
must.Eq(t, grp, out)
// Add a second spread
spreadTarget2 := NewSpreadTarget("dc1", 100)
spread2 := NewSpread("${node.datacenter}", 100, []*SpreadTarget{spreadTarget2})
grp.AddSpread(spread2)
expect := []*Spread{
{
Attribute: "${meta.rack}",
Weight: pointerOf(int8(100)),
SpreadTarget: []*SpreadTarget{
{
Value: "r1",
Percent: 50,
},
},
},
{
Attribute: "${node.datacenter}",
Weight: pointerOf(int8(100)),
SpreadTarget: []*SpreadTarget{
{
Value: "dc1",
Percent: 100,
},
},
},
}
must.Eq(t, expect, grp.Spreads)
}
func TestTaskGroup_AddTask(t *testing.T) {
testutil.Parallel(t)
grp := NewTaskGroup("grp1", 1)
// Add the task to the task group
out := grp.AddTask(NewTask("task1", "java"))
must.Len(t, 1, out.Tasks)
// Check that we returned the group
must.Eq(t, grp, out)
// Add a second task
grp.AddTask(NewTask("task2", "exec"))
expect := []*Task{
{
Name: "task1",
Driver: "java",
},
{
Name: "task2",
Driver: "exec",
},
}
must.Eq(t, expect, grp.Tasks)
}
func TestTask_NewTask(t *testing.T) {
testutil.Parallel(t)
task := NewTask("task1", "exec")
expect := &Task{
Name: "task1",
Driver: "exec",
}
must.Eq(t, expect, task)
}
func TestTask_SetConfig(t *testing.T) {
testutil.Parallel(t)
task := NewTask("task1", "exec")
// Initializes an empty map
out := task.SetConfig("foo", "bar")
must.NotNil(t, task.Config)
// Check that we returned the task
must.Eq(t, task, out)
// Set another config value
task.SetConfig("baz", "zip")
expect := map[string]interface{}{"foo": "bar", "baz": "zip"}
must.Eq(t, expect, task.Config)
}
func TestTask_SetMeta(t *testing.T) {
testutil.Parallel(t)
task := NewTask("task1", "exec")
// Initializes an empty map
out := task.SetMeta("foo", "bar")
must.NotNil(t, out)
// Check that we returned the task
must.Eq(t, task, out)
// Set another meta k/v
task.SetMeta("baz", "zip")
expect := map[string]string{"foo": "bar", "baz": "zip"}
must.Eq(t, expect, task.Meta)
}
func TestTask_Require(t *testing.T) {
testutil.Parallel(t)
task := NewTask("task1", "exec")
// Create some require resources
resources := &Resources{
CPU: pointerOf(1250),
MemoryMB: pointerOf(128),
DiskMB: pointerOf(2048),
Networks: []*NetworkResource{
{
CIDR: "0.0.0.0/0",
MBits: pointerOf(100),
ReservedPorts: []Port{{"", 80, 0, ""}, {"", 443, 0, ""}},
},
},
}
out := task.Require(resources)
must.Eq(t, resources, task.Resources)
// Check that we returned the task
must.Eq(t, task, out)
}
func TestTask_Constrain(t *testing.T) {
testutil.Parallel(t)
task := NewTask("task1", "exec")
// Add a constraint to the task
out := task.Constrain(NewConstraint("kernel.name", "=", "darwin"))
must.Len(t, 1, task.Constraints)
// Check that the task was returned
must.Eq(t, task, out)
// Add a second constraint
task.Constrain(NewConstraint("memory.totalbytes", ">=", "128000000"))
expect := []*Constraint{
{
LTarget: "kernel.name",
RTarget: "darwin",
Operand: "=",
},
{
LTarget: "memory.totalbytes",
RTarget: "128000000",
Operand: ">=",
},
}
must.Eq(t, expect, task.Constraints)
}
func TestTask_AddAffinity(t *testing.T) {
testutil.Parallel(t)
task := NewTask("task1", "exec")
// Add an affinity to the task
out := task.AddAffinity(NewAffinity("kernel.version", "=", "4.6", 100))
must.Len(t, 1, out.Affinities)
// Check that the task was returned
must.Eq(t, task, out)
// Add a second affinity
task.AddAffinity(NewAffinity("${node.datacenter}", "=", "dc2", 50))
expect := []*Affinity{
{
LTarget: "kernel.version",
RTarget: "4.6",
Operand: "=",
Weight: pointerOf(int8(100)),
},
{
LTarget: "${node.datacenter}",
RTarget: "dc2",
Operand: "=",
Weight: pointerOf(int8(50)),
},
}
must.Eq(t, expect, task.Affinities)
}
func TestTask_Artifact(t *testing.T) {
testutil.Parallel(t)
a := TaskArtifact{
GetterSource: pointerOf("http://localhost/foo.txt"),
GetterMode: pointerOf("file"),
GetterHeaders: make(map[string]string),
GetterOptions: make(map[string]string),
}
a.Canonicalize()
must.Eq(t, "file", *a.GetterMode)
must.Eq(t, "local/foo.txt", filepath.ToSlash(*a.RelativeDest))
must.Nil(t, a.GetterOptions)
must.Nil(t, a.GetterHeaders)
}
func TestTask_VolumeMount(t *testing.T) {
testutil.Parallel(t)
vm := new(VolumeMount)
vm.Canonicalize()
must.NotNil(t, vm.PropagationMode)
must.Eq(t, "private", *vm.PropagationMode)
}
func TestTask_Canonicalize_TaskLifecycle(t *testing.T) {
testutil.Parallel(t)
testCases := []struct {
name string
expected *TaskLifecycle
task *Task
}{
{
name: "empty",
task: &Task{
Lifecycle: &TaskLifecycle{},
},
expected: nil,
},
}
for _, tc := range testCases {
t.Run(tc.name, func(t *testing.T) {
tg := &TaskGroup{
Name: pointerOf("foo"),
}
j := &Job{
ID: pointerOf("test"),
}
tc.task.Canonicalize(tg, j)
must.Eq(t, tc.expected, tc.task.Lifecycle)
})
}
}
func TestTask_Template_WaitConfig_Canonicalize_and_Copy(t *testing.T) {
testutil.Parallel(t)
taskWithWait := func(wc *WaitConfig) *Task {
return &Task{
Templates: []*Template{
{
Wait: wc,
},
},
}
}
testCases := []struct {
name string
canonicalized *WaitConfig
copied *WaitConfig
task *Task
}{
{
name: "all-fields",
task: taskWithWait(&WaitConfig{
Min: pointerOf(time.Duration(5)),
Max: pointerOf(time.Duration(10)),
}),
canonicalized: &WaitConfig{
Min: pointerOf(time.Duration(5)),
Max: pointerOf(time.Duration(10)),
},
copied: &WaitConfig{
Min: pointerOf(time.Duration(5)),
Max: pointerOf(time.Duration(10)),
},
},
{
name: "no-fields",
task: taskWithWait(&WaitConfig{}),
canonicalized: &WaitConfig{
Min: nil,
Max: nil,
},
copied: &WaitConfig{
Min: nil,
Max: nil,
},
},
{
name: "min-only",
task: taskWithWait(&WaitConfig{
Min: pointerOf(time.Duration(5)),
}),
canonicalized: &WaitConfig{
Min: pointerOf(time.Duration(5)),
},
copied: &WaitConfig{
Min: pointerOf(time.Duration(5)),
},
},
{
name: "max-only",
task: taskWithWait(&WaitConfig{
Max: pointerOf(time.Duration(10)),
}),
canonicalized: &WaitConfig{
Max: pointerOf(time.Duration(10)),
},
copied: &WaitConfig{
Max: pointerOf(time.Duration(10)),
},
},
}
for _, tc := range testCases {
t.Run(tc.name, func(t *testing.T) {
tg := &TaskGroup{
Name: pointerOf("foo"),
}
j := &Job{
ID: pointerOf("test"),
}
must.Eq(t, tc.copied, tc.task.Templates[0].Wait.Copy())
tc.task.Canonicalize(tg, j)
must.Eq(t, tc.canonicalized, tc.task.Templates[0].Wait)
})
}
}
func TestTask_Canonicalize_Vault(t *testing.T) {
testCases := []struct {
name string
input *Vault
expected *Vault
}{
{
name: "empty",
input: &Vault{},
expected: &Vault{
Env: pointerOf(true),
Namespace: pointerOf(""),
ChangeMode: pointerOf("restart"),
ChangeSignal: pointerOf("SIGHUP"),
},
},
}
for _, tc := range testCases {
t.Run(tc.name, func(t *testing.T) {
tc.input.Canonicalize()
must.Eq(t, tc.expected, tc.input)
})
}
}
// Ensures no regression on https://github.com/hashicorp/nomad/issues/3132
func TestTaskGroup_Canonicalize_Update(t *testing.T) {
testutil.Parallel(t)
// Job with an Empty() Update
job := &Job{
ID: pointerOf("test"),
Update: &UpdateStrategy{
AutoRevert: pointerOf(false),
AutoPromote: pointerOf(false),
Canary: pointerOf(0),
HealthCheck: pointerOf(""),
HealthyDeadline: pointerOf(time.Duration(0)),
ProgressDeadline: pointerOf(time.Duration(0)),
MaxParallel: pointerOf(0),
MinHealthyTime: pointerOf(time.Duration(0)),
Stagger: pointerOf(time.Duration(0)),
},
}
job.Canonicalize()
tg := &TaskGroup{
Name: pointerOf("foo"),
}
tg.Canonicalize(job)
must.NotNil(t, job.Update)
must.Nil(t, tg.Update)
}
func TestTaskGroup_Canonicalize_Scaling(t *testing.T) {
testutil.Parallel(t)
job := &Job{
ID: pointerOf("test"),
}
job.Canonicalize()
tg := &TaskGroup{
Name: pointerOf("foo"),
Count: nil,
Scaling: &ScalingPolicy{
Min: nil,
Max: pointerOf(int64(10)),
Policy: nil,
Enabled: nil,
CreateIndex: 0,
ModifyIndex: 0,
},
}
job.TaskGroups = []*TaskGroup{tg}
// both nil => both == 1
tg.Canonicalize(job)
must.Positive(t, *tg.Count)
must.NotNil(t, tg.Scaling.Min)
must.Eq(t, 1, *tg.Count)
must.Eq(t, int64(*tg.Count), *tg.Scaling.Min)
// count == nil => count = Scaling.Min
tg.Count = nil
tg.Scaling.Min = pointerOf(int64(5))
tg.Canonicalize(job)
must.Positive(t, *tg.Count)
must.NotNil(t, tg.Scaling.Min)
must.Eq(t, 5, *tg.Count)
must.Eq(t, int64(*tg.Count), *tg.Scaling.Min)
// Scaling.Min == nil => Scaling.Min == count
tg.Count = pointerOf(5)
tg.Scaling.Min = nil
tg.Canonicalize(job)
must.Positive(t, *tg.Count)
must.NotNil(t, tg.Scaling.Min)
must.Eq(t, 5, *tg.Scaling.Min)
must.Eq(t, int64(*tg.Count), *tg.Scaling.Min)
// both present, both persisted
tg.Count = pointerOf(5)
tg.Scaling.Min = pointerOf(int64(1))
tg.Canonicalize(job)
must.Positive(t, *tg.Count)
must.NotNil(t, tg.Scaling.Min)
must.Eq(t, 1, *tg.Scaling.Min)
must.Eq(t, 5, *tg.Count)
}
func TestTaskGroup_Merge_Update(t *testing.T) {
testutil.Parallel(t)
job := &Job{
ID: pointerOf("test"),
Update: &UpdateStrategy{},
}
job.Canonicalize()
// Merge and canonicalize part of an update block
tg := &TaskGroup{
Name: pointerOf("foo"),
Update: &UpdateStrategy{
AutoRevert: pointerOf(true),
Canary: pointerOf(5),
HealthCheck: pointerOf("foo"),
},
}
tg.Canonicalize(job)
must.Eq(t, &UpdateStrategy{
AutoRevert: pointerOf(true),
AutoPromote: pointerOf(false),
Canary: pointerOf(5),
HealthCheck: pointerOf("foo"),
HealthyDeadline: pointerOf(5 * time.Minute),
ProgressDeadline: pointerOf(10 * time.Minute),
MaxParallel: pointerOf(1),
MinHealthyTime: pointerOf(10 * time.Second),
Stagger: pointerOf(30 * time.Second),
}, tg.Update)
}
// Verifies that migrate strategy is merged correctly
func TestTaskGroup_Canonicalize_MigrateStrategy(t *testing.T) {
testutil.Parallel(t)
type testCase struct {
desc string
jobType string
jobMigrate *MigrateStrategy
taskMigrate *MigrateStrategy
expected *MigrateStrategy
}
testCases := []testCase{
{
desc: "Default batch",
jobType: "batch",
jobMigrate: nil,
taskMigrate: nil,
expected: nil,
},
{
desc: "Default service",
jobType: "service",
jobMigrate: nil,
taskMigrate: nil,
expected: &MigrateStrategy{
MaxParallel: pointerOf(1),
HealthCheck: pointerOf("checks"),
MinHealthyTime: pointerOf(10 * time.Second),
HealthyDeadline: pointerOf(5 * time.Minute),
},
},
{
desc: "Empty job migrate strategy",
jobType: "service",
jobMigrate: &MigrateStrategy{
MaxParallel: pointerOf(0),
HealthCheck: pointerOf(""),
MinHealthyTime: pointerOf(time.Duration(0)),
HealthyDeadline: pointerOf(time.Duration(0)),
},
taskMigrate: nil,
expected: &MigrateStrategy{
MaxParallel: pointerOf(0),
HealthCheck: pointerOf(""),
MinHealthyTime: pointerOf(time.Duration(0)),
HealthyDeadline: pointerOf(time.Duration(0)),
},
},
{
desc: "Inherit from job",
jobType: "service",
jobMigrate: &MigrateStrategy{
MaxParallel: pointerOf(3),
HealthCheck: pointerOf("checks"),
MinHealthyTime: pointerOf(time.Duration(2)),
HealthyDeadline: pointerOf(time.Duration(2)),
},
taskMigrate: nil,
expected: &MigrateStrategy{
MaxParallel: pointerOf(3),
HealthCheck: pointerOf("checks"),
MinHealthyTime: pointerOf(time.Duration(2)),
HealthyDeadline: pointerOf(time.Duration(2)),
},
},
{
desc: "Set in task",
jobType: "service",
jobMigrate: nil,
taskMigrate: &MigrateStrategy{
MaxParallel: pointerOf(3),
HealthCheck: pointerOf("checks"),
MinHealthyTime: pointerOf(time.Duration(2)),
HealthyDeadline: pointerOf(time.Duration(2)),
},
expected: &MigrateStrategy{
MaxParallel: pointerOf(3),
HealthCheck: pointerOf("checks"),
MinHealthyTime: pointerOf(time.Duration(2)),
HealthyDeadline: pointerOf(time.Duration(2)),
},
},
{
desc: "Merge from job",
jobType: "service",
jobMigrate: &MigrateStrategy{
MaxParallel: pointerOf(11),
},
taskMigrate: &MigrateStrategy{
HealthCheck: pointerOf("checks"),
MinHealthyTime: pointerOf(time.Duration(2)),
HealthyDeadline: pointerOf(time.Duration(2)),
},
expected: &MigrateStrategy{
MaxParallel: pointerOf(11),
HealthCheck: pointerOf("checks"),
MinHealthyTime: pointerOf(time.Duration(2)),
HealthyDeadline: pointerOf(time.Duration(2)),
},
},
{
desc: "Override from group",
jobType: "service",
jobMigrate: &MigrateStrategy{
MaxParallel: pointerOf(11),
},
taskMigrate: &MigrateStrategy{
MaxParallel: pointerOf(5),
HealthCheck: pointerOf("checks"),
MinHealthyTime: pointerOf(time.Duration(2)),
HealthyDeadline: pointerOf(time.Duration(2)),
},
expected: &MigrateStrategy{
MaxParallel: pointerOf(5),
HealthCheck: pointerOf("checks"),
MinHealthyTime: pointerOf(time.Duration(2)),
HealthyDeadline: pointerOf(time.Duration(2)),
},
},
{
desc: "Parallel from job, defaulting",
jobType: "service",
jobMigrate: &MigrateStrategy{
MaxParallel: pointerOf(5),
},
taskMigrate: nil,
expected: &MigrateStrategy{
MaxParallel: pointerOf(5),
HealthCheck: pointerOf("checks"),
MinHealthyTime: pointerOf(10 * time.Second),
HealthyDeadline: pointerOf(5 * time.Minute),
},
},
}
for _, tc := range testCases {
t.Run(tc.desc, func(t *testing.T) {
job := &Job{
ID: pointerOf("test"),
Migrate: tc.jobMigrate,
Type: pointerOf(tc.jobType),
}
job.Canonicalize()
tg := &TaskGroup{
Name: pointerOf("foo"),
Migrate: tc.taskMigrate,
}
tg.Canonicalize(job)
must.Eq(t, tc.expected, tg.Migrate)
})
}
}
// TestSpread_Canonicalize asserts that the spread block is canonicalized correctly
func TestSpread_Canonicalize(t *testing.T) {
testutil.Parallel(t)
job := &Job{
ID: pointerOf("test"),
Type: pointerOf("batch"),
}
job.Canonicalize()
tg := &TaskGroup{
Name: pointerOf("foo"),
}
type testCase struct {
desc string
spread *Spread
expectedWeight int8
}
cases := []testCase{
{
"Nil spread",
&Spread{
Attribute: "test",
Weight: nil,
},
50,
},
{
"Zero spread",
&Spread{
Attribute: "test",
Weight: pointerOf(int8(0)),
},
0,
},
{
"Non Zero spread",
&Spread{
Attribute: "test",
Weight: pointerOf(int8(100)),
},
100,
},
}
for _, tc := range cases {
t.Run(tc.desc, func(t *testing.T) {
tg.Spreads = []*Spread{tc.spread}
tg.Canonicalize(job)
for _, spr := range tg.Spreads {
must.Eq(t, tc.expectedWeight, *spr.Weight)
}
})
}
}
func Test_NewDefaultReschedulePolicy(t *testing.T) {
testutil.Parallel(t)
testCases := []struct {
desc string
inputJobType string
expected *ReschedulePolicy
}{
{
desc: "service job type",
inputJobType: "service",
expected: &ReschedulePolicy{
Attempts: pointerOf(0),
Interval: pointerOf(time.Duration(0)),
Delay: pointerOf(30 * time.Second),
DelayFunction: pointerOf("exponential"),
MaxDelay: pointerOf(1 * time.Hour),
Unlimited: pointerOf(true),
},
},
{
desc: "batch job type",
inputJobType: "batch",
expected: &ReschedulePolicy{
Attempts: pointerOf(1),
Interval: pointerOf(24 * time.Hour),
Delay: pointerOf(5 * time.Second),
DelayFunction: pointerOf("constant"),
MaxDelay: pointerOf(time.Duration(0)),
Unlimited: pointerOf(false),
},
},
{
desc: "system job type",
inputJobType: "system",
expected: &ReschedulePolicy{
Attempts: pointerOf(0),
Interval: pointerOf(time.Duration(0)),
Delay: pointerOf(time.Duration(0)),
DelayFunction: pointerOf(""),
MaxDelay: pointerOf(time.Duration(0)),
Unlimited: pointerOf(false),
},
},
{
desc: "unrecognised job type",
inputJobType: "unrecognised",
expected: &ReschedulePolicy{
Attempts: pointerOf(0),
Interval: pointerOf(time.Duration(0)),
Delay: pointerOf(time.Duration(0)),
DelayFunction: pointerOf(""),
MaxDelay: pointerOf(time.Duration(0)),
Unlimited: pointerOf(false),
},
},
}
for _, tc := range testCases {
t.Run(tc.desc, func(t *testing.T) {
actual := NewDefaultReschedulePolicy(tc.inputJobType)
must.Eq(t, tc.expected, actual)
})
}
}
func TestTaskGroup_Canonicalize_Consul(t *testing.T) {
testutil.Parallel(t)
t.Run("override job consul in group", func(t *testing.T) {
job := &Job{
ID: pointerOf("job"),
ConsulNamespace: pointerOf("ns1"),
}
job.Canonicalize()
tg := &TaskGroup{
Name: pointerOf("group"),
Consul: &Consul{Namespace: "ns2"},
}
tg.Canonicalize(job)
must.Eq(t, "ns1", *job.ConsulNamespace)
must.Eq(t, "ns2", tg.Consul.Namespace)
})
t.Run("inherit job consul in group", func(t *testing.T) {
job := &Job{
ID: pointerOf("job"),
ConsulNamespace: pointerOf("ns1"),
}
job.Canonicalize()
tg := &TaskGroup{
Name: pointerOf("group"),
Consul: nil, // not set, inherit from job
}
tg.Canonicalize(job)
must.Eq(t, "ns1", *job.ConsulNamespace)
must.Eq(t, "ns1", tg.Consul.Namespace)
})
t.Run("set in group only", func(t *testing.T) {
job := &Job{
ID: pointerOf("job"),
ConsulNamespace: nil,
}
job.Canonicalize()
tg := &TaskGroup{
Name: pointerOf("group"),
Consul: &Consul{Namespace: "ns2"},
}
tg.Canonicalize(job)
must.Eq(t, "", *job.ConsulNamespace)
must.Eq(t, "ns2", tg.Consul.Namespace)
})
}