package ecs import ( "context" "fmt" "strconv" "strings" "text/template" "time" "github.com/BurntSushi/ty/fun" "github.com/aws/aws-sdk-go/aws" "github.com/aws/aws-sdk-go/aws/credentials" "github.com/aws/aws-sdk-go/aws/defaults" "github.com/aws/aws-sdk-go/aws/ec2metadata" "github.com/aws/aws-sdk-go/aws/request" "github.com/aws/aws-sdk-go/aws/session" "github.com/aws/aws-sdk-go/service/ec2" "github.com/aws/aws-sdk-go/service/ecs" "github.com/cenk/backoff" "github.com/containous/traefik/job" "github.com/containous/traefik/log" "github.com/containous/traefik/provider" "github.com/containous/traefik/safe" "github.com/containous/traefik/types" ) var _ provider.Provider = (*Provider)(nil) // Provider holds configurations of the provider. type Provider struct { provider.BaseProvider `mapstructure:",squash"` Domain string `description:"Default domain used"` ExposedByDefault bool `description:"Expose containers by default"` RefreshSeconds int `description:"Polling interval (in seconds)"` // Provider lookup parameters Cluster string `description:"ECS Cluster Name"` Region string `description:"The AWS region to use for requests"` AccessKeyID string `description:"The AWS credentials access key to use for making requests"` SecretAccessKey string `description:"The AWS credentials access key to use for making requests"` } type ecsInstance struct { Name string ID string task *ecs.Task taskDefinition *ecs.TaskDefinition container *ecs.Container containerDefinition *ecs.ContainerDefinition machine *ec2.Instance } type awsClient struct { ecs *ecs.ECS ec2 *ec2.EC2 } func (p *Provider) createClient() (*awsClient, error) { sess := session.New() ec2meta := ec2metadata.New(sess) if p.Region == "" { log.Infoln("No EC2 region provided, querying instance metadata endpoint...") identity, err := ec2meta.GetInstanceIdentityDocument() if err != nil { return nil, err } p.Region = identity.Region } cfg := &aws.Config{ Region: &p.Region, Credentials: credentials.NewChainCredentials( []credentials.Provider{ &credentials.StaticProvider{ Value: credentials.Value{ AccessKeyID: p.AccessKeyID, SecretAccessKey: p.SecretAccessKey, }, }, &credentials.EnvProvider{}, &credentials.SharedCredentialsProvider{}, defaults.RemoteCredProvider(*(defaults.Config()), defaults.Handlers()), }), } if p.Trace { cfg.WithLogger(aws.LoggerFunc(func(args ...interface{}) { log.Debug(args...) })) } return &awsClient{ ecs.New(sess, cfg), ec2.New(sess, cfg), }, nil } // Provide allows the ecs provider to provide configurations to traefik // using the given configuration channel. func (p *Provider) Provide(configurationChan chan<- types.ConfigMessage, pool *safe.Pool, constraints types.Constraints) error { p.Constraints = append(p.Constraints, constraints...) handleCanceled := func(ctx context.Context, err error) error { if ctx.Err() == context.Canceled || err == context.Canceled { return nil } return err } pool.Go(func(stop chan bool) { ctx, cancel := context.WithCancel(context.Background()) safe.Go(func() { select { case <-stop: cancel() } }) operation := func() error { aws, err := p.createClient() if err != nil { return err } configuration, err := p.loadECSConfig(ctx, aws) if err != nil { return handleCanceled(ctx, err) } configurationChan <- types.ConfigMessage{ ProviderName: "ecs", Configuration: configuration, } if p.Watch { reload := time.NewTicker(time.Second * time.Duration(p.RefreshSeconds)) defer reload.Stop() for { select { case <-reload.C: configuration, err := p.loadECSConfig(ctx, aws) if err != nil { return handleCanceled(ctx, err) } configurationChan <- types.ConfigMessage{ ProviderName: "ecs", Configuration: configuration, } case <-ctx.Done(): return handleCanceled(ctx, ctx.Err()) } } } return nil } notify := func(err error, time time.Duration) { log.Errorf("Provider connection error %+v, retrying in %s", err, time) } err := backoff.RetryNotify(safe.OperationWithRecover(operation), job.NewBackOff(backoff.NewExponentialBackOff()), notify) if err != nil { log.Errorf("Cannot connect to Provider api %+v", err) } }) return nil } func wrapAws(ctx context.Context, req *request.Request) error { req.HTTPRequest = req.HTTPRequest.WithContext(ctx) return req.Send() } func (p *Provider) loadECSConfig(ctx context.Context, client *awsClient) (*types.Configuration, error) { var ecsFuncMap = template.FuncMap{ "filterFrontends": p.filterFrontends, "getFrontendRule": p.getFrontendRule, } instances, err := p.listInstances(ctx, client) if err != nil { return nil, err } instances = fun.Filter(p.filterInstance, instances).([]ecsInstance) return p.GetConfiguration("templates/ecs.tmpl", ecsFuncMap, struct { Instances []ecsInstance }{ instances, }) } // Find all running Provider tasks in a cluster, also collect the task definitions (for docker labels) // and the EC2 instance data func (p *Provider) listInstances(ctx context.Context, client *awsClient) ([]ecsInstance, error) { var taskArns []*string req, _ := client.ecs.ListTasksRequest(&ecs.ListTasksInput{ Cluster: &p.Cluster, DesiredStatus: aws.String(ecs.DesiredStatusRunning), }) for ; req != nil; req = req.NextPage() { if err := wrapAws(ctx, req); err != nil { return nil, err } taskArns = append(taskArns, req.Data.(*ecs.ListTasksOutput).TaskArns...) } // Early return: if we can't list tasks we have nothing to // describe below - likely empty cluster/permissions are bad. This // stops the AWS API from returning a 401 when you DescribeTasks // with no input. if len(taskArns) == 0 { return []ecsInstance{}, nil } chunkedTaskArns := p.chunkedTaskArns(taskArns) var tasks []*ecs.Task for _, arns := range chunkedTaskArns { req, taskResp := client.ecs.DescribeTasksRequest(&ecs.DescribeTasksInput{ Tasks: arns, Cluster: &p.Cluster, }) if err := wrapAws(ctx, req); err != nil { return nil, err } tasks = append(tasks, taskResp.Tasks...) } containerInstanceArns := make([]*string, 0) byContainerInstance := make(map[string]int) taskDefinitionArns := make([]*string, 0) byTaskDefinition := make(map[string]int) for _, task := range tasks { if _, found := byContainerInstance[*task.ContainerInstanceArn]; !found { byContainerInstance[*task.ContainerInstanceArn] = len(containerInstanceArns) containerInstanceArns = append(containerInstanceArns, task.ContainerInstanceArn) } if _, found := byTaskDefinition[*task.TaskDefinitionArn]; !found { byTaskDefinition[*task.TaskDefinitionArn] = len(taskDefinitionArns) taskDefinitionArns = append(taskDefinitionArns, task.TaskDefinitionArn) } } machines, err := p.lookupEc2Instances(ctx, client, containerInstanceArns) if err != nil { return nil, err } taskDefinitions, err := p.lookupTaskDefinitions(ctx, client, taskDefinitionArns) if err != nil { return nil, err } var instances []ecsInstance for _, task := range tasks { machineIdx := byContainerInstance[*task.ContainerInstanceArn] taskDefIdx := byTaskDefinition[*task.TaskDefinitionArn] for _, container := range task.Containers { taskDefinition := taskDefinitions[taskDefIdx] var containerDefinition *ecs.ContainerDefinition for _, def := range taskDefinition.ContainerDefinitions { if *container.Name == *def.Name { containerDefinition = def break } } instances = append(instances, ecsInstance{ fmt.Sprintf("%s-%s", strings.Replace(*task.Group, ":", "-", 1), *container.Name), (*task.TaskArn)[len(*task.TaskArn)-12:], task, taskDefinition, container, containerDefinition, machines[machineIdx], }) } } return instances, nil } func (p *Provider) lookupEc2Instances(ctx context.Context, client *awsClient, containerArns []*string) ([]*ec2.Instance, error) { order := make(map[string]int) instanceIds := make([]*string, len(containerArns)) instances := make([]*ec2.Instance, len(containerArns)) for i, arn := range containerArns { order[*arn] = i } req, _ := client.ecs.DescribeContainerInstancesRequest(&ecs.DescribeContainerInstancesInput{ ContainerInstances: containerArns, Cluster: &p.Cluster, }) for ; req != nil; req = req.NextPage() { if err := wrapAws(ctx, req); err != nil { return nil, err } containerResp := req.Data.(*ecs.DescribeContainerInstancesOutput) for i, container := range containerResp.ContainerInstances { order[*container.Ec2InstanceId] = order[*container.ContainerInstanceArn] instanceIds[i] = container.Ec2InstanceId } } req, _ = client.ec2.DescribeInstancesRequest(&ec2.DescribeInstancesInput{ InstanceIds: instanceIds, }) for ; req != nil; req = req.NextPage() { if err := wrapAws(ctx, req); err != nil { return nil, err } instancesResp := req.Data.(*ec2.DescribeInstancesOutput) for _, r := range instancesResp.Reservations { for _, i := range r.Instances { if i.InstanceId != nil { instances[order[*i.InstanceId]] = i } } } } return instances, nil } func (p *Provider) lookupTaskDefinitions(ctx context.Context, client *awsClient, taskDefArns []*string) ([]*ecs.TaskDefinition, error) { taskDefinitions := make([]*ecs.TaskDefinition, len(taskDefArns)) for i, arn := range taskDefArns { req, resp := client.ecs.DescribeTaskDefinitionRequest(&ecs.DescribeTaskDefinitionInput{ TaskDefinition: arn, }) if err := wrapAws(ctx, req); err != nil { return nil, err } taskDefinitions[i] = resp.TaskDefinition } return taskDefinitions, nil } func (i ecsInstance) label(k string) string { if v, found := i.containerDefinition.DockerLabels[k]; found { return *v } return "" } func (p *Provider) filterInstance(i ecsInstance) bool { if len(i.container.NetworkBindings) == 0 { log.Debugf("Filtering ecs instance without port %s (%s)", i.Name, i.ID) return false } if i.machine == nil || i.machine.State == nil || i.machine.State.Name == nil { log.Debugf("Filtering ecs instance in an missing ec2 information %s (%s)", i.Name, i.ID) return false } if *i.machine.State.Name != ec2.InstanceStateNameRunning { log.Debugf("Filtering ecs instance in an incorrect state %s (%s) (state = %s)", i.Name, i.ID, *i.machine.State.Name) return false } if i.machine.PrivateIpAddress == nil { log.Debugf("Filtering ecs instance without an ip address %s (%s)", i.Name, i.ID) return false } label := i.label(types.LabelEnable) enabled := p.ExposedByDefault && label != "false" || label == "true" if !enabled { log.Debugf("Filtering disabled ecs instance %s (%s) (traefik.enabled = '%s')", i.Name, i.ID, label) return false } return true } func (p *Provider) filterFrontends(instances []ecsInstance) []ecsInstance { byName := make(map[string]bool) return fun.Filter(func(i ecsInstance) bool { if _, found := byName[i.Name]; !found { byName[i.Name] = true return true } return false }, instances).([]ecsInstance) } func (p *Provider) getFrontendRule(i ecsInstance) string { if label := i.label(types.LabelFrontendRule); label != "" { return label } return "Host:" + strings.ToLower(strings.Replace(i.Name, "_", "-", -1)) + "." + p.Domain } // Provider expects no more than 100 parameters be passed to a DescribeTask call; thus, pack // each string into an array capped at 100 elements func (p *Provider) chunkedTaskArns(tasks []*string) [][]*string { var chunkedTasks [][]*string for i := 0; i < len(tasks); i += 100 { sliceEnd := -1 if i+100 < len(tasks) { sliceEnd = i + 100 } else { sliceEnd = len(tasks) } chunkedTasks = append(chunkedTasks, tasks[i:sliceEnd]) } return chunkedTasks } func (i ecsInstance) Protocol() string { if label := i.label(types.LabelProtocol); label != "" { return label } return "http" } func (i ecsInstance) Host() string { return *i.machine.PrivateIpAddress } func (i ecsInstance) Port() string { return strconv.FormatInt(*i.container.NetworkBindings[0].HostPort, 10) } func (i ecsInstance) Weight() string { if label := i.label(types.LabelWeight); label != "" { return label } return "0" } func (i ecsInstance) PassHostHeader() string { if label := i.label(types.LabelFrontendPassHostHeader); label != "" { return label } return "true" } func (i ecsInstance) Priority() string { if label := i.label(types.LabelFrontendPriority); label != "" { return label } return "0" } func (i ecsInstance) EntryPoints() []string { if label := i.label(types.LabelFrontendEntryPoints); label != "" { return strings.Split(label, ",") } return []string{} }