package aws import ( "errors" "fmt" "log" "time" "github.com/aws/aws-sdk-go/aws" "github.com/aws/aws-sdk-go/aws/awserr" "github.com/aws/aws-sdk-go/service/ec2" "github.com/hashicorp/errwrap" "github.com/hashicorp/terraform/helper/resource" "github.com/hashicorp/terraform/helper/schema" ) func resourceAwsVpcPeeringConnection() *schema.Resource { return &schema.Resource{ Create: resourceAwsVPCPeeringCreate, Read: resourceAwsVPCPeeringRead, Update: resourceAwsVPCPeeringUpdate, Delete: resourceAwsVPCPeeringDelete, Importer: &schema.ResourceImporter{ State: schema.ImportStatePassthrough, }, Schema: map[string]*schema.Schema{ "peer_owner_id": { Type: schema.TypeString, Optional: true, ForceNew: true, Computed: true, }, "peer_vpc_id": { Type: schema.TypeString, Required: true, ForceNew: true, }, "vpc_id": { Type: schema.TypeString, Required: true, ForceNew: true, }, "auto_accept": { Type: schema.TypeBool, Optional: true, }, "accept_status": { Type: schema.TypeString, Computed: true, }, "accepter": vpcPeeringConnectionOptionsSchema(), "requester": vpcPeeringConnectionOptionsSchema(), "tags": tagsSchema(), }, } } func resourceAwsVPCPeeringCreate(d *schema.ResourceData, meta interface{}) error { conn := meta.(*AWSClient).ec2conn // Create the vpc peering connection createOpts := &ec2.CreateVpcPeeringConnectionInput{ PeerVpcId: aws.String(d.Get("peer_vpc_id").(string)), VpcId: aws.String(d.Get("vpc_id").(string)), } if v, ok := d.GetOk("peer_owner_id"); ok { createOpts.PeerOwnerId = aws.String(v.(string)) } log.Printf("[DEBUG] VPC Peering Create options: %#v", createOpts) resp, err := conn.CreateVpcPeeringConnection(createOpts) if err != nil { return errwrap.Wrapf("Error creating VPC Peering Connection: {{err}}", err) } // Get the ID and store it rt := resp.VpcPeeringConnection d.SetId(*rt.VpcPeeringConnectionId) log.Printf("[INFO] VPC Peering Connection ID: %s", d.Id()) // Wait for the vpc peering connection to become available log.Printf("[DEBUG] Waiting for VPC Peering Connection (%s) to become available.", d.Id()) stateConf := &resource.StateChangeConf{ Pending: []string{"pending"}, Target: []string{"pending-acceptance"}, Refresh: resourceAwsVPCPeeringConnectionStateRefreshFunc(conn, d.Id()), Timeout: 1 * time.Minute, } if _, err := stateConf.WaitForState(); err != nil { return errwrap.Wrapf(fmt.Sprintf( "Error waiting for VPC Peering Connection (%s) to become available: {{err}}", d.Id()), err) } return resourceAwsVPCPeeringUpdate(d, meta) } func resourceAwsVPCPeeringRead(d *schema.ResourceData, meta interface{}) error { conn := meta.(*AWSClient).ec2conn pcRaw, status, err := resourceAwsVPCPeeringConnectionStateRefreshFunc(conn, d.Id())() // Allow a failed VPC Peering Connection to fallthrough, // to allow rest of the logic below to do its work. if err != nil && status != "failed" { return err } if pcRaw == nil { d.SetId("") return nil } pc := pcRaw.(*ec2.VpcPeeringConnection) // The failed status is a status that we can assume just means the // connection is gone. Destruction isn't allowed, and it eventually // just "falls off" the console. See GH-2322 if pc.Status != nil { status := map[string]bool{ "deleted": true, "deleting": true, "expired": true, "failed": true, "rejected": true, } if _, ok := status[*pc.Status.Code]; ok { log.Printf("[DEBUG] VPC Peering Connection (%s) in state (%s), removing.", d.Id(), *pc.Status.Code) d.SetId("") return nil } } log.Printf("[DEBUG] VPC Peering Connection response: %#v", pc) d.Set("accept_status", pc.Status.Code) d.Set("peer_owner_id", pc.AccepterVpcInfo.OwnerId) d.Set("peer_vpc_id", pc.AccepterVpcInfo.VpcId) d.Set("vpc_id", pc.RequesterVpcInfo.VpcId) // When the VPC Peering Connection is pending acceptance, // the details about accepter and/or requester peering // options would not be included in the response. if pc.AccepterVpcInfo.PeeringOptions != nil { err := d.Set("accepter", flattenPeeringOptions(pc.AccepterVpcInfo.PeeringOptions)) if err != nil { return errwrap.Wrapf("Error setting VPC Peering Connection accepter information: {{err}}", err) } } if pc.RequesterVpcInfo.PeeringOptions != nil { err := d.Set("requester", flattenPeeringOptions(pc.RequesterVpcInfo.PeeringOptions)) if err != nil { return errwrap.Wrapf("Error setting VPC Peering Connection requester information: {{err}}", err) } } err = d.Set("tags", tagsToMap(pc.Tags)) if err != nil { return errwrap.Wrapf("Error setting VPC Peering Connection tags: {{err}}", err) } return nil } func resourceVPCPeeringConnectionAccept(conn *ec2.EC2, id string) (string, error) { log.Printf("[INFO] Accept VPC Peering Connection with ID: %s", id) req := &ec2.AcceptVpcPeeringConnectionInput{ VpcPeeringConnectionId: aws.String(id), } resp, err := conn.AcceptVpcPeeringConnection(req) if err != nil { return "", err } pc := resp.VpcPeeringConnection return *pc.Status.Code, nil } func resourceVPCPeeringConnectionOptionsModify(d *schema.ResourceData, meta interface{}) error { conn := meta.(*AWSClient).ec2conn modifyOpts := &ec2.ModifyVpcPeeringConnectionOptionsInput{ VpcPeeringConnectionId: aws.String(d.Id()), } if v, ok := d.GetOk("accepter"); ok { if s := v.(*schema.Set); len(s.List()) > 0 { co := s.List()[0].(map[string]interface{}) modifyOpts.AccepterPeeringConnectionOptions = expandPeeringOptions(co) } } if v, ok := d.GetOk("requester"); ok { if s := v.(*schema.Set); len(s.List()) > 0 { co := s.List()[0].(map[string]interface{}) modifyOpts.RequesterPeeringConnectionOptions = expandPeeringOptions(co) } } log.Printf("[DEBUG] VPC Peering Connection modify options: %#v", modifyOpts) if _, err := conn.ModifyVpcPeeringConnectionOptions(modifyOpts); err != nil { return err } return nil } func resourceAwsVPCPeeringUpdate(d *schema.ResourceData, meta interface{}) error { conn := meta.(*AWSClient).ec2conn if err := setTags(conn, d); err != nil { return err } else { d.SetPartial("tags") } pcRaw, _, err := resourceAwsVPCPeeringConnectionStateRefreshFunc(conn, d.Id())() if err != nil { return err } if pcRaw == nil { d.SetId("") return nil } pc := pcRaw.(*ec2.VpcPeeringConnection) if _, ok := d.GetOk("auto_accept"); ok { if pc.Status != nil && *pc.Status.Code == "pending-acceptance" { status, err := resourceVPCPeeringConnectionAccept(conn, d.Id()) if err != nil { return errwrap.Wrapf("Unable to accept VPC Peering Connection: {{err}}", err) } log.Printf("[DEBUG] VPC Peering Connection accept status: %s", status) } } if d.HasChange("accepter") || d.HasChange("requester") { _, ok := d.GetOk("auto_accept") if !ok && pc.Status != nil && *pc.Status.Code != "active" { return fmt.Errorf("Unable to modify peering options. The VPC Peering Connection "+ "%q is not active. Please set `auto_accept` attribute to `true`, "+ "or activate VPC Peering Connection manually.", d.Id()) } if err := resourceVPCPeeringConnectionOptionsModify(d, meta); err != nil { return errwrap.Wrapf("Error modifying VPC Peering Connection options: {{err}}", err) } } return resourceAwsVPCPeeringRead(d, meta) } func resourceAwsVPCPeeringDelete(d *schema.ResourceData, meta interface{}) error { conn := meta.(*AWSClient).ec2conn _, err := conn.DeleteVpcPeeringConnection( &ec2.DeleteVpcPeeringConnectionInput{ VpcPeeringConnectionId: aws.String(d.Id()), }) return err } // resourceAwsVPCPeeringConnectionStateRefreshFunc returns a resource.StateRefreshFunc that is used to watch // a VPCPeeringConnection. func resourceAwsVPCPeeringConnectionStateRefreshFunc(conn *ec2.EC2, id string) resource.StateRefreshFunc { return func() (interface{}, string, error) { resp, err := conn.DescribeVpcPeeringConnections(&ec2.DescribeVpcPeeringConnectionsInput{ VpcPeeringConnectionIds: []*string{aws.String(id)}, }) if err != nil { if ec2err, ok := err.(awserr.Error); ok && ec2err.Code() == "InvalidVpcPeeringConnectionID.NotFound" { resp = nil } else { log.Printf("Error reading VPC Peering Connection details: %s", err) return nil, "error", err } } if resp == nil { // Sometimes AWS just has consistency issues and doesn't see // our instance yet. Return an empty state. return nil, "", nil } pc := resp.VpcPeeringConnections[0] // A VPC Peering Connection can exist in a failed state due to // incorrect VPC ID, account ID, or overlapping IP address range, // thus we short circuit before the time out would occur. if pc != nil && *pc.Status.Code == "failed" { return nil, "failed", errors.New(*pc.Status.Message) } return pc, *pc.Status.Code, nil } } func vpcPeeringConnectionOptionsSchema() *schema.Schema { return &schema.Schema{ Type: schema.TypeSet, Optional: true, Computed: true, MaxItems: 1, Elem: &schema.Resource{ Schema: map[string]*schema.Schema{ "allow_remote_vpc_dns_resolution": { Type: schema.TypeBool, Optional: true, Default: false, }, "allow_classic_link_to_remote_vpc": { Type: schema.TypeBool, Optional: true, Default: false, }, "allow_vpc_to_remote_classic_link": { Type: schema.TypeBool, Optional: true, Default: false, }, }, }, } } func flattenPeeringOptions(options *ec2.VpcPeeringConnectionOptionsDescription) (results []map[string]interface{}) { m := make(map[string]interface{}) if options.AllowDnsResolutionFromRemoteVpc != nil { m["allow_remote_vpc_dns_resolution"] = *options.AllowDnsResolutionFromRemoteVpc } if options.AllowEgressFromLocalClassicLinkToRemoteVpc != nil { m["allow_classic_link_to_remote_vpc"] = *options.AllowEgressFromLocalClassicLinkToRemoteVpc } if options.AllowEgressFromLocalVpcToRemoteClassicLink != nil { m["allow_vpc_to_remote_classic_link"] = *options.AllowEgressFromLocalVpcToRemoteClassicLink } results = append(results, m) return } func expandPeeringOptions(m map[string]interface{}) *ec2.PeeringConnectionOptionsRequest { r := &ec2.PeeringConnectionOptionsRequest{} if v, ok := m["allow_remote_vpc_dns_resolution"]; ok { r.AllowDnsResolutionFromRemoteVpc = aws.Bool(v.(bool)) } if v, ok := m["allow_classic_link_to_remote_vpc"]; ok { r.AllowEgressFromLocalClassicLinkToRemoteVpc = aws.Bool(v.(bool)) } if v, ok := m["allow_vpc_to_remote_classic_link"]; ok { r.AllowEgressFromLocalVpcToRemoteClassicLink = aws.Bool(v.(bool)) } return r }