open-nomad/command/agent/consul/unit_test.go

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package consul
import (
"context"
"fmt"
"reflect"
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"strings"
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"sync/atomic"
"testing"
"time"
"github.com/hashicorp/consul/api"
"github.com/hashicorp/nomad/helper/testlog"
"github.com/hashicorp/nomad/helper/uuid"
"github.com/hashicorp/nomad/nomad/structs"
"github.com/hashicorp/nomad/plugins/drivers"
"github.com/hashicorp/nomad/testutil"
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"github.com/kr/pretty"
"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/require"
)
const (
// Ports used in testTask
xPort = 1234
yPort = 1235
)
func testTask() *TaskServices {
return &TaskServices{
AllocID: uuid.Generate(),
Name: "taskname",
Restarter: &restartRecorder{},
Services: []*structs.Service{
{
Name: "taskname-service",
PortLabel: "x",
Tags: []string{"tag1", "tag2"},
},
},
Networks: []*structs.NetworkResource{
{
DynamicPorts: []structs.Port{
{Label: "x", Value: xPort},
{Label: "y", Value: yPort},
},
},
},
DriverExec: newMockExec(),
}
}
// mockExec implements the ScriptExecutor interface and will use an alternate
// implementation t.ExecFunc if non-nil.
type mockExec struct {
// Ticked whenever a script is called
execs chan int
// If non-nil will be called by script checks
ExecFunc func(ctx context.Context, cmd string, args []string) ([]byte, int, error)
}
func newMockExec() *mockExec {
return &mockExec{
execs: make(chan int, 100),
}
}
func (m *mockExec) Exec(dur time.Duration, cmd string, args []string) ([]byte, int, error) {
select {
case m.execs <- 1:
default:
}
if m.ExecFunc == nil {
// Default impl is just "ok"
return []byte("ok"), 0, nil
}
ctx, cancel := context.WithTimeout(context.Background(), dur)
defer cancel()
return m.ExecFunc(ctx, cmd, args)
}
// restartRecorder is a minimal TaskRestarter implementation that simply
// counts how many restarts were triggered.
type restartRecorder struct {
restarts int64
}
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func (r *restartRecorder) Restart(ctx context.Context, event *structs.TaskEvent, failure bool) error {
atomic.AddInt64(&r.restarts, 1)
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return nil
}
// testFakeCtx contains a fake Consul AgentAPI
type testFakeCtx struct {
ServiceClient *ServiceClient
FakeConsul *MockAgent
Task *TaskServices
MockExec *mockExec
}
var errNoOps = fmt.Errorf("testing error: no pending operations")
// syncOps simulates one iteration of the ServiceClient.Run loop and returns
// any errors returned by sync() or errNoOps if no pending operations.
func (t *testFakeCtx) syncOnce() error {
select {
case ops := <-t.ServiceClient.opCh:
t.ServiceClient.merge(ops)
err := t.ServiceClient.sync()
if err == nil {
t.ServiceClient.clearExplicitlyDeregistered()
}
return err
default:
return errNoOps
}
}
// setupFake creates a testFakeCtx with a ServiceClient backed by a fakeConsul.
// A test Task is also provided.
func setupFake(t *testing.T) *testFakeCtx {
fc := NewMockAgent()
tt := testTask()
// by default start fake client being out of probation
sc := NewServiceClient(fc, testlog.HCLogger(t), true)
sc.deregisterProbationExpiry = time.Now().Add(-1 * time.Minute)
return &testFakeCtx{
ServiceClient: sc,
FakeConsul: fc,
Task: tt,
MockExec: tt.DriverExec.(*mockExec),
}
}
func TestConsul_ChangeTags(t *testing.T) {
ctx := setupFake(t)
require := require.New(t)
require.NoError(ctx.ServiceClient.RegisterTask(ctx.Task))
require.NoError(ctx.syncOnce())
require.Equal(1, len(ctx.FakeConsul.services), "Expected 1 service to be registered with Consul")
// Validate the alloc registration
reg1, err := ctx.ServiceClient.AllocRegistrations(ctx.Task.AllocID)
require.NoError(err)
require.NotNil(reg1, "Unexpected nil alloc registration")
require.Equal(1, reg1.NumServices())
require.Equal(0, reg1.NumChecks())
for _, v := range ctx.FakeConsul.services {
require.Equal(v.Name, ctx.Task.Services[0].Name)
require.Equal(v.Tags, ctx.Task.Services[0].Tags)
}
// Update the task definition
origTask := ctx.Task.Copy()
ctx.Task.Services[0].Tags[0] = "newtag"
// Register and sync the update
require.NoError(ctx.ServiceClient.UpdateTask(origTask, ctx.Task))
require.NoError(ctx.syncOnce())
require.Equal(1, len(ctx.FakeConsul.services), "Expected 1 service to be registered with Consul")
// Validate the metadata changed
for _, v := range ctx.FakeConsul.services {
require.Equal(v.Name, ctx.Task.Services[0].Name)
require.Equal(v.Tags, ctx.Task.Services[0].Tags)
require.Equal("newtag", v.Tags[0])
}
}
// TestConsul_ChangePorts asserts that changing the ports on a service updates
// it in Consul. Pre-0.7.1 ports were not part of the service ID and this was a
// slightly different code path than changing tags.
func TestConsul_ChangePorts(t *testing.T) {
ctx := setupFake(t)
require := require.New(t)
ctx.Task.Services[0].Checks = []*structs.ServiceCheck{
{
Name: "c1",
Type: "tcp",
Interval: time.Second,
Timeout: time.Second,
PortLabel: "x",
},
{
Name: "c2",
Type: "script",
Interval: 9000 * time.Hour,
Timeout: time.Second,
},
{
Name: "c3",
Type: "http",
Protocol: "http",
Path: "/",
Interval: time.Second,
Timeout: time.Second,
PortLabel: "y",
},
}
require.NoError(ctx.ServiceClient.RegisterTask(ctx.Task))
require.NoError(ctx.syncOnce())
require.Equal(1, len(ctx.FakeConsul.services), "Expected 1 service to be registered with Consul")
for _, v := range ctx.FakeConsul.services {
require.Equal(ctx.Task.Services[0].Name, v.Name)
require.Equal(ctx.Task.Services[0].Tags, v.Tags)
require.Equal(xPort, v.Port)
}
require.Len(ctx.FakeConsul.checks, 3)
origTCPKey := ""
origScriptKey := ""
origHTTPKey := ""
for k, v := range ctx.FakeConsul.checks {
switch v.Name {
case "c1":
origTCPKey = k
require.Equal(fmt.Sprintf(":%d", xPort), v.TCP)
case "c2":
origScriptKey = k
select {
case <-ctx.MockExec.execs:
// Here we validate there is nothing left on the channel
require.Equal(0, len(ctx.MockExec.execs))
case <-time.After(3 * time.Second):
t.Fatalf("script not called in time")
}
case "c3":
origHTTPKey = k
require.Equal(fmt.Sprintf("http://:%d/", yPort), v.HTTP)
default:
t.Fatalf("unexpected check: %q", v.Name)
}
}
require.NotEmpty(origTCPKey)
require.NotEmpty(origScriptKey)
require.NotEmpty(origHTTPKey)
// Now update the PortLabel on the Service and Check c3
origTask := ctx.Task.Copy()
ctx.Task.Services[0].PortLabel = "y"
ctx.Task.Services[0].Checks = []*structs.ServiceCheck{
{
Name: "c1",
Type: "tcp",
Interval: time.Second,
Timeout: time.Second,
PortLabel: "x",
},
{
Name: "c2",
Type: "script",
Interval: 9000 * time.Hour,
Timeout: time.Second,
},
{
Name: "c3",
Type: "http",
Protocol: "http",
Path: "/",
Interval: time.Second,
Timeout: time.Second,
// Removed PortLabel; should default to service's (y)
},
}
require.NoError(ctx.ServiceClient.UpdateTask(origTask, ctx.Task))
require.NoError(ctx.syncOnce())
require.Equal(1, len(ctx.FakeConsul.services), "Expected 1 service to be registered with Consul")
for _, v := range ctx.FakeConsul.services {
require.Equal(ctx.Task.Services[0].Name, v.Name)
require.Equal(ctx.Task.Services[0].Tags, v.Tags)
require.Equal(yPort, v.Port)
}
require.Equal(3, len(ctx.FakeConsul.checks))
for k, v := range ctx.FakeConsul.checks {
switch v.Name {
case "c1":
// C1 is changed because the service was re-registered
require.NotEqual(origTCPKey, k)
require.Equal(fmt.Sprintf(":%d", xPort), v.TCP)
case "c2":
// C2 is changed because the service was re-registered
require.NotEqual(origScriptKey, k)
case "c3":
require.NotEqual(origHTTPKey, k)
require.Equal(fmt.Sprintf("http://:%d/", yPort), v.HTTP)
default:
t.Errorf("Unknown check: %q", k)
}
}
}
// TestConsul_ChangeChecks asserts that updating only the checks on a service
// properly syncs with Consul.
func TestConsul_ChangeChecks(t *testing.T) {
ctx := setupFake(t)
ctx.Task.Services[0].Checks = []*structs.ServiceCheck{
{
Name: "c1",
Type: "tcp",
Interval: time.Second,
Timeout: time.Second,
PortLabel: "x",
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CheckRestart: &structs.CheckRestart{
Limit: 3,
},
},
}
if err := ctx.ServiceClient.RegisterTask(ctx.Task); err != nil {
t.Fatalf("unexpected error registering task: %v", err)
}
if err := ctx.syncOnce(); err != nil {
t.Fatalf("unexpected error syncing task: %v", err)
}
if n := len(ctx.FakeConsul.services); n != 1 {
t.Fatalf("expected 1 service but found %d:\n%#v", n, ctx.FakeConsul.services)
}
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// Assert a check restart watch update was enqueued and clear it
if n := len(ctx.ServiceClient.checkWatcher.checkUpdateCh); n != 1 {
t.Fatalf("expected 1 check restart update but found %d", n)
}
upd := <-ctx.ServiceClient.checkWatcher.checkUpdateCh
c1ID := upd.checkID
// Query the allocs registrations and then again when we update. The IDs
// should change
reg1, err := ctx.ServiceClient.AllocRegistrations(ctx.Task.AllocID)
if err != nil {
t.Fatalf("Looking up alloc registration failed: %v", err)
}
if reg1 == nil {
t.Fatalf("Nil alloc registrations: %v", err)
}
if num := reg1.NumServices(); num != 1 {
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t.Fatalf("Wrong number of services: got %d; want 1", num)
}
if num := reg1.NumChecks(); num != 1 {
t.Fatalf("Wrong number of checks: got %d; want 1", num)
}
origServiceKey := ""
for k, v := range ctx.FakeConsul.services {
origServiceKey = k
if v.Name != ctx.Task.Services[0].Name {
t.Errorf("expected Name=%q != %q", ctx.Task.Services[0].Name, v.Name)
}
if v.Port != xPort {
t.Errorf("expected Port x=%v but found: %v", xPort, v.Port)
}
}
if n := len(ctx.FakeConsul.checks); n != 1 {
t.Fatalf("expected 1 check but found %d:\n%#v", n, ctx.FakeConsul.checks)
}
for _, v := range ctx.FakeConsul.checks {
if v.Name != "c1" {
t.Fatalf("expected check c1 but found %q", v.Name)
}
}
// Now add a check and modify the original
origTask := ctx.Task.Copy()
ctx.Task.Services[0].Checks = []*structs.ServiceCheck{
{
Name: "c1",
Type: "tcp",
Interval: 2 * time.Second,
Timeout: time.Second,
PortLabel: "x",
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CheckRestart: &structs.CheckRestart{
Limit: 3,
},
},
{
Name: "c2",
Type: "http",
Path: "/",
Interval: time.Second,
Timeout: time.Second,
PortLabel: "x",
},
}
if err := ctx.ServiceClient.UpdateTask(origTask, ctx.Task); err != nil {
t.Fatalf("unexpected error registering task: %v", err)
}
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// Assert 2 check restart watch updates was enqueued
if n := len(ctx.ServiceClient.checkWatcher.checkUpdateCh); n != 2 {
t.Fatalf("expected 2 check restart updates but found %d", n)
}
// First the new watch
upd = <-ctx.ServiceClient.checkWatcher.checkUpdateCh
if upd.checkID == c1ID || upd.remove {
t.Fatalf("expected check watch update to be an add of checkID=%q but found remove=%t checkID=%q",
c1ID, upd.remove, upd.checkID)
}
// Then remove the old watch
upd = <-ctx.ServiceClient.checkWatcher.checkUpdateCh
if upd.checkID != c1ID || !upd.remove {
t.Fatalf("expected check watch update to be a removal of checkID=%q but found remove=%t checkID=%q",
c1ID, upd.remove, upd.checkID)
}
if err := ctx.syncOnce(); err != nil {
t.Fatalf("unexpected error syncing task: %v", err)
}
if n := len(ctx.FakeConsul.services); n != 1 {
t.Fatalf("expected 1 service but found %d:\n%#v", n, ctx.FakeConsul.services)
}
if _, ok := ctx.FakeConsul.services[origServiceKey]; !ok {
t.Errorf("unexpected key change; was: %q -- but found %#v", origServiceKey, ctx.FakeConsul.services)
}
if n := len(ctx.FakeConsul.checks); n != 2 {
t.Fatalf("expected 2 check but found %d:\n%#v", n, ctx.FakeConsul.checks)
}
for k, v := range ctx.FakeConsul.checks {
switch v.Name {
case "c1":
if expected := fmt.Sprintf(":%d", xPort); v.TCP != expected {
t.Errorf("expected Port x=%v but found: %v", expected, v.TCP)
}
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// update id
c1ID = k
case "c2":
if expected := fmt.Sprintf("http://:%d/", xPort); v.HTTP != expected {
t.Errorf("expected Port x=%v but found: %v", expected, v.HTTP)
}
default:
t.Errorf("Unknown check: %q", k)
}
}
// Check again and ensure the IDs changed
reg2, err := ctx.ServiceClient.AllocRegistrations(ctx.Task.AllocID)
if err != nil {
t.Fatalf("Looking up alloc registration failed: %v", err)
}
if reg2 == nil {
t.Fatalf("Nil alloc registrations: %v", err)
}
if num := reg2.NumServices(); num != 1 {
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t.Fatalf("Wrong number of services: got %d; want 1", num)
}
if num := reg2.NumChecks(); num != 2 {
t.Fatalf("Wrong number of checks: got %d; want 2", num)
}
for task, treg := range reg1.Tasks {
otherTaskReg, ok := reg2.Tasks[task]
if !ok {
t.Fatalf("Task %q not in second reg", task)
}
for sID, sreg := range treg.Services {
otherServiceReg, ok := otherTaskReg.Services[sID]
if !ok {
t.Fatalf("service ID changed")
}
for newID := range sreg.checkIDs {
if _, ok := otherServiceReg.checkIDs[newID]; ok {
t.Fatalf("check IDs should change")
}
}
}
}
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// Alter a CheckRestart and make sure the watcher is updated but nothing else
origTask = ctx.Task.Copy()
ctx.Task.Services[0].Checks = []*structs.ServiceCheck{
{
Name: "c1",
Type: "tcp",
Interval: 2 * time.Second,
Timeout: time.Second,
PortLabel: "x",
CheckRestart: &structs.CheckRestart{
Limit: 11,
},
},
{
Name: "c2",
Type: "http",
Path: "/",
Interval: time.Second,
Timeout: time.Second,
PortLabel: "x",
},
}
if err := ctx.ServiceClient.UpdateTask(origTask, ctx.Task); err != nil {
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t.Fatalf("unexpected error registering task: %v", err)
}
if err := ctx.syncOnce(); err != nil {
t.Fatalf("unexpected error syncing task: %v", err)
}
if n := len(ctx.FakeConsul.checks); n != 2 {
t.Fatalf("expected 2 check but found %d:\n%#v", n, ctx.FakeConsul.checks)
}
for k, v := range ctx.FakeConsul.checks {
if v.Name == "c1" {
if k != c1ID {
t.Errorf("expected c1 to still have id %q but found %q", c1ID, k)
}
break
}
}
// Assert a check restart watch update was enqueued for a removal and an add
if n := len(ctx.ServiceClient.checkWatcher.checkUpdateCh); n != 1 {
t.Fatalf("expected 1 check restart update but found %d", n)
}
<-ctx.ServiceClient.checkWatcher.checkUpdateCh
}
// TestConsul_RegServices tests basic service registration.
func TestConsul_RegServices(t *testing.T) {
ctx := setupFake(t)
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// Add a check w/restarting
ctx.Task.Services[0].Checks = []*structs.ServiceCheck{
{
Name: "testcheck",
Type: "tcp",
Interval: 100 * time.Millisecond,
CheckRestart: &structs.CheckRestart{
Limit: 3,
},
},
}
if err := ctx.ServiceClient.RegisterTask(ctx.Task); err != nil {
t.Fatalf("unexpected error registering task: %v", err)
}
if err := ctx.syncOnce(); err != nil {
t.Fatalf("unexpected error syncing task: %v", err)
}
if n := len(ctx.FakeConsul.services); n != 1 {
t.Fatalf("expected 1 service but found %d:\n%#v", n, ctx.FakeConsul.services)
}
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for _, v := range ctx.FakeConsul.services {
if v.Name != ctx.Task.Services[0].Name {
t.Errorf("expected Name=%q != %q", ctx.Task.Services[0].Name, v.Name)
}
if !reflect.DeepEqual(v.Tags, ctx.Task.Services[0].Tags) {
t.Errorf("expected Tags=%v != %v", ctx.Task.Services[0].Tags, v.Tags)
}
if v.Port != xPort {
t.Errorf("expected Port=%d != %d", xPort, v.Port)
}
}
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// Assert the check update is pending
if n := len(ctx.ServiceClient.checkWatcher.checkUpdateCh); n != 1 {
t.Fatalf("expected 1 check restart update but found %d", n)
}
// Assert the check update is properly formed
checkUpd := <-ctx.ServiceClient.checkWatcher.checkUpdateCh
if checkUpd.checkRestart.allocID != ctx.Task.AllocID {
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t.Fatalf("expected check's allocid to be %q but found %q", "allocid", checkUpd.checkRestart.allocID)
}
if expected := 200 * time.Millisecond; checkUpd.checkRestart.timeLimit != expected {
t.Fatalf("expected check's time limit to be %v but found %v", expected, checkUpd.checkRestart.timeLimit)
}
// Make a change which will register a new service
ctx.Task.Services[0].Name = "taskname-service2"
ctx.Task.Services[0].Tags[0] = "tag3"
if err := ctx.ServiceClient.RegisterTask(ctx.Task); err != nil {
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t.Fatalf("unexpected error registering task: %v", err)
}
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// Assert check update is pending
if n := len(ctx.ServiceClient.checkWatcher.checkUpdateCh); n != 1 {
t.Fatalf("expected 1 check restart update but found %d", n)
}
// Assert the check update's id has changed
checkUpd2 := <-ctx.ServiceClient.checkWatcher.checkUpdateCh
if checkUpd.checkID == checkUpd2.checkID {
t.Fatalf("expected new check update to have a new ID both both have: %q", checkUpd.checkID)
}
// Make sure changes don't take affect until sync() is called (since
// Run() isn't running)
if n := len(ctx.FakeConsul.services); n != 1 {
t.Fatalf("expected 1 service but found %d:\n%#v", n, ctx.FakeConsul.services)
}
for _, v := range ctx.FakeConsul.services {
if reflect.DeepEqual(v.Tags, ctx.Task.Services[0].Tags) {
t.Errorf("expected Tags to differ, changes applied before sync()")
}
}
// Now sync() and re-check for the applied updates
if err := ctx.syncOnce(); err != nil {
t.Fatalf("unexpected error syncing task: %v", err)
}
if n := len(ctx.FakeConsul.services); n != 2 {
t.Fatalf("expected 2 services but found %d:\n%#v", n, ctx.FakeConsul.services)
}
found := false
for _, v := range ctx.FakeConsul.services {
if v.Name == ctx.Task.Services[0].Name {
if found {
t.Fatalf("found new service name %q twice", v.Name)
}
found = true
if !reflect.DeepEqual(v.Tags, ctx.Task.Services[0].Tags) {
t.Errorf("expected Tags=%v != %v", ctx.Task.Services[0].Tags, v.Tags)
}
}
}
if !found {
t.Fatalf("did not find new service %q", ctx.Task.Services[0].Name)
}
// Remove the new task
ctx.ServiceClient.RemoveTask(ctx.Task)
if err := ctx.syncOnce(); err != nil {
t.Fatalf("unexpected error syncing task: %v", err)
}
if n := len(ctx.FakeConsul.services); n != 1 {
t.Fatalf("expected 1 service but found %d:\n%#v", n, ctx.FakeConsul.services)
}
for _, v := range ctx.FakeConsul.services {
if v.Name != "taskname-service" {
t.Errorf("expected original task to survive not %q", v.Name)
}
}
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// Assert check update is pending
if n := len(ctx.ServiceClient.checkWatcher.checkUpdateCh); n != 1 {
t.Fatalf("expected 1 check restart update but found %d", n)
}
// Assert the check update's id is correct and that it's a removal
checkUpd3 := <-ctx.ServiceClient.checkWatcher.checkUpdateCh
if checkUpd2.checkID != checkUpd3.checkID {
t.Fatalf("expected checkid %q but found %q", checkUpd2.checkID, checkUpd3.checkID)
}
if !checkUpd3.remove {
t.Fatalf("expected check watch removal update but found: %#v", checkUpd3)
}
}
// TestConsul_ShutdownOK tests the ok path for the shutdown logic in
// ServiceClient.
func TestConsul_ShutdownOK(t *testing.T) {
require := require.New(t)
ctx := setupFake(t)
// Add a script check to make sure its TTL gets updated
ctx.Task.Services[0].Checks = []*structs.ServiceCheck{
{
Name: "scriptcheck",
Type: "script",
Command: "true",
// Make check block until shutdown
Interval: 9000 * time.Hour,
Timeout: 10 * time.Second,
InitialStatus: "warning",
},
}
go ctx.ServiceClient.Run()
// Register a task and agent
if err := ctx.ServiceClient.RegisterTask(ctx.Task); err != nil {
t.Fatalf("unexpected error registering task: %v", err)
}
agentServices := []*structs.Service{
{
Name: "http",
Tags: []string{"nomad"},
PortLabel: "localhost:2345",
},
}
if err := ctx.ServiceClient.RegisterAgent("client", agentServices); err != nil {
t.Fatalf("unexpected error registering agent: %v", err)
}
testutil.WaitForResult(func() (bool, error) {
return ctx.ServiceClient.hasSeen(), fmt.Errorf("error contacting Consul")
}, func(err error) {
t.Fatalf("err: %v", err)
})
// Shutdown should block until scripts finish
if err := ctx.ServiceClient.Shutdown(); err != nil {
t.Errorf("unexpected error shutting down client: %v", err)
}
// UpdateTTL should have been called once for the script check and once
// for shutdown
if n := len(ctx.FakeConsul.checkTTLs); n != 1 {
t.Fatalf("expected 1 checkTTL entry but found: %d", n)
}
for _, v := range ctx.FakeConsul.checkTTLs {
require.Equalf(2, v, "expected 2 updates but found %d", v)
}
for _, v := range ctx.FakeConsul.checks {
if v.Status != "passing" {
t.Fatalf("expected check to be passing but found %q", v.Status)
}
}
}
// TestConsul_ShutdownSlow tests the slow but ok path for the shutdown logic in
// ServiceClient.
func TestConsul_ShutdownSlow(t *testing.T) {
t.Parallel()
ctx := setupFake(t)
// Add a script check to make sure its TTL gets updated
ctx.Task.Services[0].Checks = []*structs.ServiceCheck{
{
Name: "scriptcheck",
Type: "script",
Command: "true",
// Make check block until shutdown
Interval: 9000 * time.Hour,
Timeout: 5 * time.Second,
InitialStatus: "warning",
},
}
// Make Exec slow, but not too slow
waiter := make(chan struct{})
ctx.MockExec.ExecFunc = func(ctx context.Context, cmd string, args []string) ([]byte, int, error) {
select {
case <-waiter:
default:
close(waiter)
}
time.Sleep(time.Second)
return []byte{}, 0, nil
}
// Make shutdown wait time just a bit longer than ctx.Exec takes
ctx.ServiceClient.shutdownWait = 3 * time.Second
go ctx.ServiceClient.Run()
// Register a task and agent
if err := ctx.ServiceClient.RegisterTask(ctx.Task); err != nil {
t.Fatalf("unexpected error registering task: %v", err)
}
// wait for Exec to get called before shutting down
<-waiter
// Shutdown should block until all enqueued operations finish.
preShutdown := time.Now()
if err := ctx.ServiceClient.Shutdown(); err != nil {
t.Errorf("unexpected error shutting down client: %v", err)
}
// Shutdown time should have taken: ~1s <= shutdown <= 3s
// actual timing might be less than 1s, to account for shutdown invocation overhead
shutdownTime := time.Now().Sub(preShutdown)
if shutdownTime < 900*time.Millisecond || shutdownTime > ctx.ServiceClient.shutdownWait {
t.Errorf("expected shutdown to take >1s and <%s but took: %s", ctx.ServiceClient.shutdownWait, shutdownTime)
}
// UpdateTTL should have been called once for the script check
if n := len(ctx.FakeConsul.checkTTLs); n != 1 {
t.Fatalf("expected 1 checkTTL entry but found: %d", n)
}
for _, v := range ctx.FakeConsul.checkTTLs {
if v != 1 {
t.Fatalf("expected script check to be updated once but found %d", v)
}
}
for _, v := range ctx.FakeConsul.checks {
if v.Status != "passing" {
t.Fatalf("expected check to be passing but found %q", v.Status)
}
}
}
// TestConsul_ShutdownBlocked tests the blocked past deadline path for the
// shutdown logic in ServiceClient.
func TestConsul_ShutdownBlocked(t *testing.T) {
t.Parallel()
ctx := setupFake(t)
// Add a script check to make sure its TTL gets updated
ctx.Task.Services[0].Checks = []*structs.ServiceCheck{
{
Name: "scriptcheck",
Type: "script",
Command: "true",
// Make check block until shutdown
Interval: 9000 * time.Hour,
Timeout: 9000 * time.Hour,
InitialStatus: "warning",
},
}
block := make(chan struct{})
defer close(block) // cleanup after test
// Make Exec block forever
waiter := make(chan struct{})
ctx.MockExec.ExecFunc = func(ctx context.Context, cmd string, args []string) ([]byte, int, error) {
close(waiter)
<-block
return []byte{}, 0, nil
}
// Use a short shutdown deadline since we're intentionally blocking forever
ctx.ServiceClient.shutdownWait = time.Second
go ctx.ServiceClient.Run()
// Register a task and agent
if err := ctx.ServiceClient.RegisterTask(ctx.Task); err != nil {
t.Fatalf("unexpected error registering task: %v", err)
}
// Wait for exec to be called
<-waiter
// Shutdown should block until all enqueued operations finish.
preShutdown := time.Now()
err := ctx.ServiceClient.Shutdown()
if err == nil {
t.Errorf("expected a timed out error from shutdown")
}
// Shutdown time should have taken shutdownWait; to avoid timing
// related errors simply test for wait <= shutdown <= wait+3s
shutdownTime := time.Now().Sub(preShutdown)
maxWait := ctx.ServiceClient.shutdownWait + (3 * time.Second)
if shutdownTime < ctx.ServiceClient.shutdownWait || shutdownTime > maxWait {
t.Errorf("expected shutdown to take >%s and <%s but took: %s", ctx.ServiceClient.shutdownWait, maxWait, shutdownTime)
}
// UpdateTTL should not have been called for the script check
if n := len(ctx.FakeConsul.checkTTLs); n != 0 {
t.Fatalf("expected 0 checkTTL entry but found: %d", n)
}
for _, v := range ctx.FakeConsul.checks {
if expected := "warning"; v.Status != expected {
t.Fatalf("expected check to be %q but found %q", expected, v.Status)
}
}
}
// TestConsul_RemoveScript assert removing a script check removes all objects
// related to that check.
func TestConsul_CancelScript(t *testing.T) {
ctx := setupFake(t)
ctx.Task.Services[0].Checks = []*structs.ServiceCheck{
{
Name: "scriptcheckDel",
Type: "script",
Interval: 9000 * time.Hour,
Timeout: 9000 * time.Hour,
},
{
Name: "scriptcheckKeep",
Type: "script",
Interval: 9000 * time.Hour,
Timeout: 9000 * time.Hour,
},
}
if err := ctx.ServiceClient.RegisterTask(ctx.Task); err != nil {
t.Fatalf("unexpected error registering task: %v", err)
}
if err := ctx.syncOnce(); err != nil {
t.Fatalf("unexpected error syncing task: %v", err)
}
if len(ctx.FakeConsul.checks) != 2 {
t.Errorf("expected 2 checks but found %d", len(ctx.FakeConsul.checks))
}
if len(ctx.ServiceClient.scripts) != 2 && len(ctx.ServiceClient.runningScripts) != 2 {
t.Errorf("expected 2 running script but found scripts=%d runningScripts=%d",
len(ctx.ServiceClient.scripts), len(ctx.ServiceClient.runningScripts))
}
for i := 0; i < 2; i++ {
select {
case <-ctx.MockExec.execs:
// Script ran as expected!
case <-time.After(3 * time.Second):
t.Fatalf("timed out waiting for script check to run")
}
}
// Remove a check and update the task
origTask := ctx.Task.Copy()
ctx.Task.Services[0].Checks = []*structs.ServiceCheck{
{
Name: "scriptcheckKeep",
Type: "script",
Interval: 9000 * time.Hour,
Timeout: 9000 * time.Hour,
},
}
if err := ctx.ServiceClient.UpdateTask(origTask, ctx.Task); err != nil {
t.Fatalf("unexpected error registering task: %v", err)
}
if err := ctx.syncOnce(); err != nil {
t.Fatalf("unexpected error syncing task: %v", err)
}
if len(ctx.FakeConsul.checks) != 1 {
t.Errorf("expected 1 check but found %d", len(ctx.FakeConsul.checks))
}
if len(ctx.ServiceClient.scripts) != 1 && len(ctx.ServiceClient.runningScripts) != 1 {
t.Errorf("expected 1 running script but found scripts=%d runningScripts=%d",
len(ctx.ServiceClient.scripts), len(ctx.ServiceClient.runningScripts))
}
// Make sure exec wasn't called again
select {
case <-ctx.MockExec.execs:
t.Errorf("unexpected execution of script; was goroutine not cancelled?")
case <-time.After(100 * time.Millisecond):
// No unexpected script execs
}
// Don't leak goroutines
for _, scriptHandle := range ctx.ServiceClient.runningScripts {
scriptHandle.cancel()
}
}
// TestConsul_DriverNetwork_AutoUse asserts that if a driver network has
// auto-use set then services should advertise it unless explicitly set to
// host. Checks should always use host.
func TestConsul_DriverNetwork_AutoUse(t *testing.T) {
t.Parallel()
ctx := setupFake(t)
ctx.Task.Services = []*structs.Service{
{
Name: "auto-advertise-x",
PortLabel: "x",
AddressMode: structs.AddressModeAuto,
Checks: []*structs.ServiceCheck{
{
Name: "default-check-x",
Type: "tcp",
Interval: time.Second,
Timeout: time.Second,
},
{
Name: "weird-y-check",
Type: "http",
Interval: time.Second,
Timeout: time.Second,
PortLabel: "y",
},
},
},
{
Name: "driver-advertise-y",
PortLabel: "y",
AddressMode: structs.AddressModeDriver,
Checks: []*structs.ServiceCheck{
{
Name: "default-check-y",
Type: "tcp",
Interval: time.Second,
Timeout: time.Second,
},
},
},
{
Name: "host-advertise-y",
PortLabel: "y",
AddressMode: structs.AddressModeHost,
},
}
ctx.Task.DriverNetwork = &drivers.DriverNetwork{
PortMap: map[string]int{
"x": 8888,
"y": 9999,
},
IP: "172.18.0.2",
AutoAdvertise: true,
}
if err := ctx.ServiceClient.RegisterTask(ctx.Task); err != nil {
t.Fatalf("unexpected error registering task: %v", err)
}
if err := ctx.syncOnce(); err != nil {
t.Fatalf("unexpected error syncing task: %v", err)
}
if n := len(ctx.FakeConsul.services); n != 3 {
t.Fatalf("expected 2 services but found: %d", n)
}
for _, v := range ctx.FakeConsul.services {
switch v.Name {
case ctx.Task.Services[0].Name: // x
// Since DriverNetwork.AutoAdvertise=true, driver ports should be used
if v.Port != ctx.Task.DriverNetwork.PortMap["x"] {
t.Errorf("expected service %s's port to be %d but found %d",
v.Name, ctx.Task.DriverNetwork.PortMap["x"], v.Port)
}
// The order of checks in Consul is not guaranteed to
// be the same as their order in the Task definition,
// so check in a loop
if expected := 2; len(v.Checks) != expected {
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t.Errorf("expected %d checks but found %d", expected, len(v.Checks))
}
for _, c := range v.Checks {
// No name on AgentServiceChecks, use type
switch {
case c.TCP != "":
// Checks should always use host port though
if c.TCP != ":1234" { // xPort
2018-03-11 17:57:01 +00:00
t.Errorf("expected service %s check 1's port to be %d but found %q",
v.Name, xPort, c.TCP)
}
case c.HTTP != "":
if c.HTTP != "http://:1235" { // yPort
2018-03-11 17:57:01 +00:00
t.Errorf("expected service %s check 2's port to be %d but found %q",
v.Name, yPort, c.HTTP)
}
default:
t.Errorf("unexpected check %#v on service %q", c, v.Name)
}
}
case ctx.Task.Services[1].Name: // y
// Service should be container ip:port
if v.Address != ctx.Task.DriverNetwork.IP {
t.Errorf("expected service %s's address to be %s but found %s",
v.Name, ctx.Task.DriverNetwork.IP, v.Address)
}
if v.Port != ctx.Task.DriverNetwork.PortMap["y"] {
t.Errorf("expected service %s's port to be %d but found %d",
v.Name, ctx.Task.DriverNetwork.PortMap["x"], v.Port)
}
// Check should be host ip:port
if v.Checks[0].TCP != ":1235" { // yPort
t.Errorf("expected service %s check's port to be %d but found %s",
v.Name, yPort, v.Checks[0].TCP)
}
case ctx.Task.Services[2].Name: // y + host mode
if v.Port != yPort {
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t.Errorf("expected service %s's port to be %d but found %d",
v.Name, yPort, v.Port)
}
default:
t.Errorf("unexpected service name: %q", v.Name)
}
}
}
// TestConsul_DriverNetwork_NoAutoUse asserts that if a driver network doesn't
// set auto-use only services which request the driver's network should
// advertise it.
func TestConsul_DriverNetwork_NoAutoUse(t *testing.T) {
t.Parallel()
ctx := setupFake(t)
ctx.Task.Services = []*structs.Service{
{
Name: "auto-advertise-x",
PortLabel: "x",
AddressMode: structs.AddressModeAuto,
},
{
Name: "driver-advertise-y",
PortLabel: "y",
AddressMode: structs.AddressModeDriver,
},
{
Name: "host-advertise-y",
PortLabel: "y",
AddressMode: structs.AddressModeHost,
},
}
ctx.Task.DriverNetwork = &drivers.DriverNetwork{
PortMap: map[string]int{
"x": 8888,
"y": 9999,
},
IP: "172.18.0.2",
AutoAdvertise: false,
}
if err := ctx.ServiceClient.RegisterTask(ctx.Task); err != nil {
t.Fatalf("unexpected error registering task: %v", err)
}
if err := ctx.syncOnce(); err != nil {
t.Fatalf("unexpected error syncing task: %v", err)
}
if n := len(ctx.FakeConsul.services); n != 3 {
t.Fatalf("expected 3 services but found: %d", n)
}
for _, v := range ctx.FakeConsul.services {
switch v.Name {
case ctx.Task.Services[0].Name: // x + auto
// Since DriverNetwork.AutoAdvertise=false, host ports should be used
if v.Port != xPort {
t.Errorf("expected service %s's port to be %d but found %d",
v.Name, xPort, v.Port)
}
case ctx.Task.Services[1].Name: // y + driver mode
// Service should be container ip:port
if v.Address != ctx.Task.DriverNetwork.IP {
t.Errorf("expected service %s's address to be %s but found %s",
v.Name, ctx.Task.DriverNetwork.IP, v.Address)
}
if v.Port != ctx.Task.DriverNetwork.PortMap["y"] {
t.Errorf("expected service %s's port to be %d but found %d",
v.Name, ctx.Task.DriverNetwork.PortMap["x"], v.Port)
}
case ctx.Task.Services[2].Name: // y + host mode
if v.Port != yPort {
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t.Errorf("expected service %s's port to be %d but found %d",
v.Name, yPort, v.Port)
}
default:
t.Errorf("unexpected service name: %q", v.Name)
}
}
}
// TestConsul_DriverNetwork_Change asserts that if a driver network is
// specified and a service updates its use its properly updated in Consul.
func TestConsul_DriverNetwork_Change(t *testing.T) {
t.Parallel()
ctx := setupFake(t)
ctx.Task.Services = []*structs.Service{
{
Name: "service-foo",
PortLabel: "x",
AddressMode: structs.AddressModeAuto,
},
}
ctx.Task.DriverNetwork = &drivers.DriverNetwork{
PortMap: map[string]int{
"x": 8888,
"y": 9999,
},
IP: "172.18.0.2",
AutoAdvertise: false,
}
syncAndAssertPort := func(port int) {
if err := ctx.syncOnce(); err != nil {
t.Fatalf("unexpected error syncing task: %v", err)
}
if n := len(ctx.FakeConsul.services); n != 1 {
t.Fatalf("expected 1 service but found: %d", n)
}
for _, v := range ctx.FakeConsul.services {
switch v.Name {
case ctx.Task.Services[0].Name:
if v.Port != port {
t.Errorf("expected service %s's port to be %d but found %d",
v.Name, port, v.Port)
}
default:
t.Errorf("unexpected service name: %q", v.Name)
}
}
}
// Initial service should advertise host port x
if err := ctx.ServiceClient.RegisterTask(ctx.Task); err != nil {
t.Fatalf("unexpected error registering task: %v", err)
}
syncAndAssertPort(xPort)
// UpdateTask to use Host (shouldn't change anything)
origTask := ctx.Task.Copy()
ctx.Task.Services[0].AddressMode = structs.AddressModeHost
if err := ctx.ServiceClient.UpdateTask(origTask, ctx.Task); err != nil {
t.Fatalf("unexpected error updating task: %v", err)
}
syncAndAssertPort(xPort)
// UpdateTask to use Driver (*should* change IP and port)
origTask = ctx.Task.Copy()
ctx.Task.Services[0].AddressMode = structs.AddressModeDriver
if err := ctx.ServiceClient.UpdateTask(origTask, ctx.Task); err != nil {
t.Fatalf("unexpected error updating task: %v", err)
}
syncAndAssertPort(ctx.Task.DriverNetwork.PortMap["x"])
}
// TestConsul_CanaryTags asserts CanaryTags are used when Canary=true
func TestConsul_CanaryTags(t *testing.T) {
t.Parallel()
require := require.New(t)
ctx := setupFake(t)
canaryTags := []string{"tag1", "canary"}
ctx.Task.Canary = true
ctx.Task.Services[0].CanaryTags = canaryTags
require.NoError(ctx.ServiceClient.RegisterTask(ctx.Task))
require.NoError(ctx.syncOnce())
require.Len(ctx.FakeConsul.services, 1)
for _, service := range ctx.FakeConsul.services {
require.Equal(canaryTags, service.Tags)
}
// Disable canary and assert tags are not the canary tags
origTask := ctx.Task.Copy()
ctx.Task.Canary = false
require.NoError(ctx.ServiceClient.UpdateTask(origTask, ctx.Task))
require.NoError(ctx.syncOnce())
require.Len(ctx.FakeConsul.services, 1)
for _, service := range ctx.FakeConsul.services {
require.NotEqual(canaryTags, service.Tags)
}
ctx.ServiceClient.RemoveTask(ctx.Task)
require.NoError(ctx.syncOnce())
require.Len(ctx.FakeConsul.services, 0)
}
// TestConsul_CanaryTags_NoTags asserts Tags are used when Canary=true and there
// are no specified canary tags
func TestConsul_CanaryTags_NoTags(t *testing.T) {
t.Parallel()
require := require.New(t)
ctx := setupFake(t)
tags := []string{"tag1", "foo"}
ctx.Task.Canary = true
ctx.Task.Services[0].Tags = tags
require.NoError(ctx.ServiceClient.RegisterTask(ctx.Task))
require.NoError(ctx.syncOnce())
require.Len(ctx.FakeConsul.services, 1)
for _, service := range ctx.FakeConsul.services {
require.Equal(tags, service.Tags)
}
// Disable canary and assert tags dont change
origTask := ctx.Task.Copy()
ctx.Task.Canary = false
require.NoError(ctx.ServiceClient.UpdateTask(origTask, ctx.Task))
require.NoError(ctx.syncOnce())
require.Len(ctx.FakeConsul.services, 1)
for _, service := range ctx.FakeConsul.services {
require.Equal(tags, service.Tags)
}
ctx.ServiceClient.RemoveTask(ctx.Task)
require.NoError(ctx.syncOnce())
require.Len(ctx.FakeConsul.services, 0)
}
// TestConsul_PeriodicSync asserts that Nomad periodically reconciles with
// Consul.
func TestConsul_PeriodicSync(t *testing.T) {
t.Parallel()
ctx := setupFake(t)
defer ctx.ServiceClient.Shutdown()
// Lower periodic sync interval to speed up test
ctx.ServiceClient.periodicInterval = 2 * time.Millisecond
// Run for 10ms and assert hits >= 5 because each sync() calls multiple
// Consul APIs
go ctx.ServiceClient.Run()
select {
case <-ctx.ServiceClient.exitCh:
t.Fatalf("exited unexpectedly")
case <-time.After(10 * time.Millisecond):
}
minHits := 5
if hits := ctx.FakeConsul.getHits(); hits < minHits {
t.Fatalf("expected at least %d hits but found %d", minHits, hits)
}
}
// TestIsNomadService asserts the isNomadService helper returns true for Nomad
// task IDs and false for unknown IDs and Nomad agent IDs (see #2827).
func TestIsNomadService(t *testing.T) {
t.Parallel()
tests := []struct {
id string
result bool
}{
{"_nomad-client-nomad-client-http", false},
{"_nomad-server-nomad-serf", false},
// Pre-0.7.1 style IDs still match
{"_nomad-executor-abc", true},
{"_nomad-executor", true},
// Post-0.7.1 style IDs match
{"_nomad-task-FBBK265QN4TMT25ND4EP42TJVMYJ3HR4", true},
{"not-nomad", false},
{"_nomad", false},
}
for _, test := range tests {
t.Run(test.id, func(t *testing.T) {
actual := isNomadService(test.id)
if actual != test.result {
2017-07-19 17:00:57 +00:00
t.Errorf("%q should be %t but found %t", test.id, test.result, actual)
}
})
}
}
2017-08-16 18:27:30 +00:00
// TestCreateCheckReg_HTTP asserts Nomad ServiceCheck structs are properly
// converted to Consul API AgentCheckRegistrations for HTTP checks.
func TestCreateCheckReg_HTTP(t *testing.T) {
t.Parallel()
2017-08-16 18:27:30 +00:00
check := &structs.ServiceCheck{
Name: "name",
Type: "http",
Path: "/path",
PortLabel: "label",
Method: "POST",
Header: map[string][]string{
"Foo": {"bar"},
},
}
serviceID := "testService"
checkID := check.Hash(serviceID)
host := "localhost"
port := 41111
expected := &api.AgentCheckRegistration{
ID: checkID,
Name: "name",
ServiceID: serviceID,
2017-08-17 22:18:55 +00:00
AgentServiceCheck: api.AgentServiceCheck{
Timeout: "0s",
Interval: "0s",
HTTP: fmt.Sprintf("http://%s:%d/path", host, port),
Method: "POST",
Header: map[string][]string{
"Foo": {"bar"},
},
},
2017-08-16 18:27:30 +00:00
}
actual, err := createCheckReg(serviceID, checkID, check, host, port)
if err != nil {
t.Fatalf("err: %v", err)
}
if diff := pretty.Diff(actual, expected); len(diff) > 0 {
t.Fatalf("diff:\n%s\n", strings.Join(diff, "\n"))
}
}
// TestCreateCheckReg_GRPC asserts Nomad ServiceCheck structs are properly
// converted to Consul API AgentCheckRegistrations for GRPC checks.
func TestCreateCheckReg_GRPC(t *testing.T) {
t.Parallel()
check := &structs.ServiceCheck{
Name: "name",
Type: "grpc",
PortLabel: "label",
GRPCService: "foo.Bar",
GRPCUseTLS: true,
TLSSkipVerify: true,
Timeout: time.Second,
Interval: time.Minute,
}
serviceID := "testService"
checkID := check.Hash(serviceID)
expected := &api.AgentCheckRegistration{
ID: checkID,
Name: "name",
ServiceID: serviceID,
AgentServiceCheck: api.AgentServiceCheck{
Timeout: "1s",
Interval: "1m0s",
GRPC: "localhost:8080/foo.Bar",
GRPCUseTLS: true,
TLSSkipVerify: true,
},
}
actual, err := createCheckReg(serviceID, checkID, check, "localhost", 8080)
require.NoError(t, err)
require.Equal(t, expected, actual)
}
// TestGetAddress asserts Nomad uses the correct ip and port for services and
// checks depending on port labels, driver networks, and address mode.
func TestGetAddress(t *testing.T) {
const HostIP = "127.0.0.1"
cases := []struct {
Name string
// Parameters
Mode string
PortLabel string
Host map[string]int // will be converted to structs.Networks
Driver *drivers.DriverNetwork
// Results
ExpectedIP string
ExpectedPort int
ExpectedErr string
}{
// Valid Configurations
{
Name: "ExampleService",
Mode: structs.AddressModeAuto,
PortLabel: "db",
Host: map[string]int{"db": 12435},
Driver: &drivers.DriverNetwork{
PortMap: map[string]int{"db": 6379},
IP: "10.1.2.3",
},
ExpectedIP: HostIP,
ExpectedPort: 12435,
},
{
Name: "Host",
Mode: structs.AddressModeHost,
PortLabel: "db",
Host: map[string]int{"db": 12345},
Driver: &drivers.DriverNetwork{
PortMap: map[string]int{"db": 6379},
IP: "10.1.2.3",
},
ExpectedIP: HostIP,
ExpectedPort: 12345,
},
{
Name: "Driver",
Mode: structs.AddressModeDriver,
PortLabel: "db",
Host: map[string]int{"db": 12345},
Driver: &drivers.DriverNetwork{
PortMap: map[string]int{"db": 6379},
IP: "10.1.2.3",
},
ExpectedIP: "10.1.2.3",
ExpectedPort: 6379,
},
{
Name: "AutoDriver",
Mode: structs.AddressModeAuto,
PortLabel: "db",
Host: map[string]int{"db": 12345},
Driver: &drivers.DriverNetwork{
PortMap: map[string]int{"db": 6379},
IP: "10.1.2.3",
AutoAdvertise: true,
},
ExpectedIP: "10.1.2.3",
ExpectedPort: 6379,
},
{
Name: "DriverCustomPort",
Mode: structs.AddressModeDriver,
PortLabel: "7890",
Host: map[string]int{"db": 12345},
Driver: &drivers.DriverNetwork{
PortMap: map[string]int{"db": 6379},
IP: "10.1.2.3",
},
ExpectedIP: "10.1.2.3",
ExpectedPort: 7890,
},
// Invalid Configurations
{
Name: "DriverWithoutNetwork",
Mode: structs.AddressModeDriver,
PortLabel: "db",
Host: map[string]int{"db": 12345},
Driver: nil,
ExpectedErr: "no driver network exists",
},
{
Name: "DriverBadPort",
Mode: structs.AddressModeDriver,
PortLabel: "bad-port-label",
Host: map[string]int{"db": 12345},
Driver: &drivers.DriverNetwork{
PortMap: map[string]int{"db": 6379},
IP: "10.1.2.3",
},
ExpectedErr: "invalid port",
},
{
Name: "DriverZeroPort",
Mode: structs.AddressModeDriver,
PortLabel: "0",
Driver: &drivers.DriverNetwork{
IP: "10.1.2.3",
},
ExpectedErr: "invalid port",
},
{
Name: "HostBadPort",
Mode: structs.AddressModeHost,
PortLabel: "bad-port-label",
ExpectedErr: "invalid port",
},
{
Name: "InvalidMode",
Mode: "invalid-mode",
PortLabel: "80",
ExpectedErr: "invalid address mode",
},
{
Name: "NoPort_AutoMode",
2017-12-20 23:59:47 +00:00
Mode: structs.AddressModeAuto,
ExpectedIP: HostIP,
},
{
Name: "NoPort_HostMode",
Mode: structs.AddressModeHost,
ExpectedIP: HostIP,
},
{
Name: "NoPort_DriverMode",
Mode: structs.AddressModeDriver,
Driver: &drivers.DriverNetwork{
IP: "10.1.2.3",
},
ExpectedIP: "10.1.2.3",
},
}
for _, tc := range cases {
t.Run(tc.Name, func(t *testing.T) {
// convert host port map into a structs.Networks
networks := []*structs.NetworkResource{
{
IP: HostIP,
ReservedPorts: make([]structs.Port, len(tc.Host)),
},
}
i := 0
for label, port := range tc.Host {
networks[0].ReservedPorts[i].Label = label
networks[0].ReservedPorts[i].Value = port
i++
}
// Run getAddress
ip, port, err := getAddress(tc.Mode, tc.PortLabel, networks, tc.Driver)
// Assert the results
assert.Equal(t, tc.ExpectedIP, ip, "IP mismatch")
assert.Equal(t, tc.ExpectedPort, port, "Port mismatch")
if tc.ExpectedErr == "" {
assert.Nil(t, err)
} else {
if err == nil {
t.Fatalf("expected error containing %q but err=nil", tc.ExpectedErr)
} else {
assert.Contains(t, err.Error(), tc.ExpectedErr)
}
}
})
}
}
func TestConsul_ServiceName_Duplicates(t *testing.T) {
t.Parallel()
ctx := setupFake(t)
require := require.New(t)
ctx.Task.Services = []*structs.Service{
{
Name: "best-service",
PortLabel: "x",
Tags: []string{
"foo",
},
Checks: []*structs.ServiceCheck{
{
Name: "check-a",
Type: "tcp",
Interval: time.Second,
Timeout: time.Second,
},
},
},
{
Name: "best-service",
PortLabel: "y",
Tags: []string{
"bar",
},
Checks: []*structs.ServiceCheck{
{
Name: "checky-mccheckface",
Type: "tcp",
Interval: time.Second,
Timeout: time.Second,
},
},
},
{
Name: "worst-service",
PortLabel: "y",
},
}
require.NoError(ctx.ServiceClient.RegisterTask(ctx.Task))
require.NoError(ctx.syncOnce())
require.Len(ctx.FakeConsul.services, 3)
for _, v := range ctx.FakeConsul.services {
if v.Name == ctx.Task.Services[0].Name && v.Port == xPort {
require.ElementsMatch(v.Tags, ctx.Task.Services[0].Tags)
require.Len(v.Checks, 1)
} else if v.Name == ctx.Task.Services[1].Name && v.Port == yPort {
require.ElementsMatch(v.Tags, ctx.Task.Services[1].Tags)
require.Len(v.Checks, 1)
} else if v.Name == ctx.Task.Services[2].Name {
require.Len(v.Checks, 0)
}
}
}
// TestConsul_ServiceDeregistration_OutOfProbation asserts that during in steady
// state we remove any services we don't reconize locally
func TestConsul_ServiceDeregistration_OutProbation(t *testing.T) {
t.Parallel()
ctx := setupFake(t)
require := require.New(t)
ctx.ServiceClient.deregisterProbationExpiry = time.Now().Add(-1 * time.Hour)
remainingTask := testTask()
remainingTask.Services = []*structs.Service{
{
Name: "remaining-service",
PortLabel: "x",
Checks: []*structs.ServiceCheck{
{
Name: "check",
Type: "tcp",
Interval: time.Second,
Timeout: time.Second,
},
},
},
}
remainingTaskServiceID := makeTaskServiceID(remainingTask.AllocID,
remainingTask.Name, remainingTask.Services[0], false)
require.NoError(ctx.ServiceClient.RegisterTask(remainingTask))
require.NoError(ctx.syncOnce())
require.Len(ctx.FakeConsul.services, 1)
require.Len(ctx.FakeConsul.checks, 1)
explicitlyRemovedTask := testTask()
explicitlyRemovedTask.Services = []*structs.Service{
{
Name: "explicitly-removed-service",
PortLabel: "y",
Checks: []*structs.ServiceCheck{
{
Name: "check",
Type: "tcp",
Interval: time.Second,
Timeout: time.Second,
},
},
},
}
explicitlyRemovedTaskServiceID := makeTaskServiceID(explicitlyRemovedTask.AllocID,
explicitlyRemovedTask.Name, explicitlyRemovedTask.Services[0], false)
require.NoError(ctx.ServiceClient.RegisterTask(explicitlyRemovedTask))
require.NoError(ctx.syncOnce())
require.Len(ctx.FakeConsul.services, 2)
require.Len(ctx.FakeConsul.checks, 2)
// we register a task through nomad API then remove it out of band
outofbandTask := testTask()
outofbandTask.Services = []*structs.Service{
{
Name: "unknown-service",
PortLabel: "x",
Checks: []*structs.ServiceCheck{
{
Name: "check",
Type: "tcp",
Interval: time.Second,
Timeout: time.Second,
},
},
},
}
outofbandTaskServiceID := makeTaskServiceID(outofbandTask.AllocID,
outofbandTask.Name, outofbandTask.Services[0], false)
require.NoError(ctx.ServiceClient.RegisterTask(outofbandTask))
require.NoError(ctx.syncOnce())
require.Len(ctx.FakeConsul.services, 3)
// remove outofbandTask from local services so it appears unknown to client
require.Len(ctx.ServiceClient.services, 3)
require.Len(ctx.ServiceClient.checks, 3)
delete(ctx.ServiceClient.services, outofbandTaskServiceID)
delete(ctx.ServiceClient.checks, makeCheckID(outofbandTaskServiceID, outofbandTask.Services[0].Checks[0]))
require.Len(ctx.ServiceClient.services, 2)
require.Len(ctx.ServiceClient.checks, 2)
// Sync and ensure that explicitly removed service as well as outofbandTask were removed
ctx.ServiceClient.RemoveTask(explicitlyRemovedTask)
require.NoError(ctx.syncOnce())
require.NoError(ctx.ServiceClient.sync())
require.Len(ctx.FakeConsul.services, 1)
require.Len(ctx.FakeConsul.checks, 1)
require.Contains(ctx.FakeConsul.services, remainingTaskServiceID)
require.NotContains(ctx.FakeConsul.services, outofbandTaskServiceID)
require.NotContains(ctx.FakeConsul.services, explicitlyRemovedTaskServiceID)
require.Contains(ctx.FakeConsul.checks, makeCheckID(remainingTaskServiceID, remainingTask.Services[0].Checks[0]))
require.NotContains(ctx.FakeConsul.checks, makeCheckID(outofbandTaskServiceID, outofbandTask.Services[0].Checks[0]))
require.NotContains(ctx.FakeConsul.checks, makeCheckID(explicitlyRemovedTaskServiceID, explicitlyRemovedTask.Services[0].Checks[0]))
}
// TestConsul_ServiceDeregistration_InProbation asserts that during initialization
// we only deregister services that were explicitly removed and leave unknown
// services untouched. This adds a grace period for restoring recovered tasks
// before deregistering them
func TestConsul_ServiceDeregistration_InProbation(t *testing.T) {
t.Parallel()
ctx := setupFake(t)
require := require.New(t)
ctx.ServiceClient.deregisterProbationExpiry = time.Now().Add(1 * time.Hour)
remainingTask := testTask()
remainingTask.Services = []*structs.Service{
{
Name: "remaining-service",
PortLabel: "x",
Checks: []*structs.ServiceCheck{
{
Name: "check",
Type: "tcp",
Interval: time.Second,
Timeout: time.Second,
},
},
},
}
remainingTaskServiceID := makeTaskServiceID(remainingTask.AllocID,
remainingTask.Name, remainingTask.Services[0], false)
require.NoError(ctx.ServiceClient.RegisterTask(remainingTask))
require.NoError(ctx.syncOnce())
require.Len(ctx.FakeConsul.services, 1)
require.Len(ctx.FakeConsul.checks, 1)
explicitlyRemovedTask := testTask()
explicitlyRemovedTask.Services = []*structs.Service{
{
Name: "explicitly-removed-service",
PortLabel: "y",
Checks: []*structs.ServiceCheck{
{
Name: "check",
Type: "tcp",
Interval: time.Second,
Timeout: time.Second,
},
},
},
}
explicitlyRemovedTaskServiceID := makeTaskServiceID(explicitlyRemovedTask.AllocID,
explicitlyRemovedTask.Name, explicitlyRemovedTask.Services[0], false)
require.NoError(ctx.ServiceClient.RegisterTask(explicitlyRemovedTask))
require.NoError(ctx.syncOnce())
require.Len(ctx.FakeConsul.services, 2)
require.Len(ctx.FakeConsul.checks, 2)
// we register a task through nomad API then remove it out of band
outofbandTask := testTask()
outofbandTask.Services = []*structs.Service{
{
Name: "unknown-service",
PortLabel: "x",
Checks: []*structs.ServiceCheck{
{
Name: "check",
Type: "tcp",
Interval: time.Second,
Timeout: time.Second,
},
},
},
}
outofbandTaskServiceID := makeTaskServiceID(outofbandTask.AllocID,
outofbandTask.Name, outofbandTask.Services[0], false)
require.NoError(ctx.ServiceClient.RegisterTask(outofbandTask))
require.NoError(ctx.syncOnce())
require.Len(ctx.FakeConsul.services, 3)
// remove outofbandTask from local services so it appears unknown to client
require.Len(ctx.ServiceClient.services, 3)
require.Len(ctx.ServiceClient.checks, 3)
delete(ctx.ServiceClient.services, outofbandTaskServiceID)
delete(ctx.ServiceClient.checks, makeCheckID(outofbandTaskServiceID, outofbandTask.Services[0].Checks[0]))
require.Len(ctx.ServiceClient.services, 2)
require.Len(ctx.ServiceClient.checks, 2)
// Sync and ensure that explicitly removed service was removed, but outofbandTask remains
ctx.ServiceClient.RemoveTask(explicitlyRemovedTask)
require.NoError(ctx.syncOnce())
require.NoError(ctx.ServiceClient.sync())
require.Len(ctx.FakeConsul.services, 2)
require.Len(ctx.FakeConsul.checks, 2)
require.Contains(ctx.FakeConsul.services, remainingTaskServiceID)
require.Contains(ctx.FakeConsul.services, outofbandTaskServiceID)
require.NotContains(ctx.FakeConsul.services, explicitlyRemovedTaskServiceID)
require.Contains(ctx.FakeConsul.checks, makeCheckID(remainingTaskServiceID, remainingTask.Services[0].Checks[0]))
require.Contains(ctx.FakeConsul.checks, makeCheckID(outofbandTaskServiceID, outofbandTask.Services[0].Checks[0]))
require.NotContains(ctx.FakeConsul.checks, makeCheckID(explicitlyRemovedTaskServiceID, explicitlyRemovedTask.Services[0].Checks[0]))
// after probation, outofband services and checks are removed
ctx.ServiceClient.deregisterProbationExpiry = time.Now().Add(-1 * time.Hour)
require.NoError(ctx.ServiceClient.sync())
require.Len(ctx.FakeConsul.services, 1)
require.Len(ctx.FakeConsul.checks, 1)
require.Contains(ctx.FakeConsul.services, remainingTaskServiceID)
require.NotContains(ctx.FakeConsul.services, outofbandTaskServiceID)
require.NotContains(ctx.FakeConsul.services, explicitlyRemovedTaskServiceID)
require.Contains(ctx.FakeConsul.checks, makeCheckID(remainingTaskServiceID, remainingTask.Services[0].Checks[0]))
require.NotContains(ctx.FakeConsul.checks, makeCheckID(outofbandTaskServiceID, outofbandTask.Services[0].Checks[0]))
require.NotContains(ctx.FakeConsul.checks, makeCheckID(explicitlyRemovedTaskServiceID, explicitlyRemovedTask.Services[0].Checks[0]))
}