package google import ( "fmt" "log" "time" "github.com/hashicorp/terraform/helper/hashcode" "github.com/hashicorp/terraform/helper/schema" "google.golang.org/api/compute/v1" "google.golang.org/api/googleapi" ) func stringHashcode(v interface{}) int { return hashcode.String(v.(string)) } func stringScopeHashcode(v interface{}) int { v = canonicalizeServiceScope(v.(string)) return hashcode.String(v.(string)) } func resourceComputeInstance() *schema.Resource { return &schema.Resource{ Create: resourceComputeInstanceCreate, Read: resourceComputeInstanceRead, Update: resourceComputeInstanceUpdate, Delete: resourceComputeInstanceDelete, SchemaVersion: 2, MigrateState: resourceComputeInstanceMigrateState, Schema: map[string]*schema.Schema{ "name": &schema.Schema{ Type: schema.TypeString, Required: true, ForceNew: true, }, "description": &schema.Schema{ Type: schema.TypeString, Optional: true, ForceNew: true, }, "machine_type": &schema.Schema{ Type: schema.TypeString, Required: true, ForceNew: true, }, "zone": &schema.Schema{ Type: schema.TypeString, Required: true, ForceNew: true, }, "disk": &schema.Schema{ Type: schema.TypeList, Required: true, ForceNew: true, Elem: &schema.Resource{ Schema: map[string]*schema.Schema{ // TODO(mitchellh): one of image or disk is required "disk": &schema.Schema{ Type: schema.TypeString, Optional: true, ForceNew: true, }, "image": &schema.Schema{ Type: schema.TypeString, Optional: true, ForceNew: true, }, "type": &schema.Schema{ Type: schema.TypeString, Optional: true, ForceNew: true, }, "auto_delete": &schema.Schema{ Type: schema.TypeBool, Optional: true, Default: true, ForceNew: true, }, "size": &schema.Schema{ Type: schema.TypeInt, Optional: true, ForceNew: true, }, "device_name": &schema.Schema{ Type: schema.TypeString, Optional: true, }, }, }, }, "network_interface": &schema.Schema{ Type: schema.TypeList, Optional: true, ForceNew: true, Elem: &schema.Resource{ Schema: map[string]*schema.Schema{ "network": &schema.Schema{ Type: schema.TypeString, Required: true, ForceNew: true, }, "name": &schema.Schema{ Type: schema.TypeString, Computed: true, }, "address": &schema.Schema{ Type: schema.TypeString, Computed: true, }, "access_config": &schema.Schema{ Type: schema.TypeList, Optional: true, Elem: &schema.Resource{ Schema: map[string]*schema.Schema{ "nat_ip": &schema.Schema{ Type: schema.TypeString, Computed: true, Optional: true, }, }, }, }, }, }, }, "network": &schema.Schema{ Type: schema.TypeList, Optional: true, ForceNew: true, Deprecated: "Please use network_interface", Elem: &schema.Resource{ Schema: map[string]*schema.Schema{ "source": &schema.Schema{ Type: schema.TypeString, Required: true, ForceNew: true, }, "address": &schema.Schema{ Type: schema.TypeString, Optional: true, ForceNew: true, }, "name": &schema.Schema{ Type: schema.TypeString, Computed: true, }, "internal_address": &schema.Schema{ Type: schema.TypeString, Computed: true, }, "external_address": &schema.Schema{ Type: schema.TypeString, Computed: true, }, }, }, }, "can_ip_forward": &schema.Schema{ Type: schema.TypeBool, Optional: true, Default: false, ForceNew: true, }, "metadata": &schema.Schema{ Type: schema.TypeMap, Optional: true, Elem: schema.TypeString, }, "service_account": &schema.Schema{ Type: schema.TypeList, Optional: true, ForceNew: true, Elem: &schema.Resource{ Schema: map[string]*schema.Schema{ "email": &schema.Schema{ Type: schema.TypeString, Computed: true, ForceNew: true, }, "scopes": &schema.Schema{ Type: schema.TypeSet, Required: true, ForceNew: true, Elem: &schema.Schema{ Type: schema.TypeString, StateFunc: func(v interface{}) string { return canonicalizeServiceScope(v.(string)) }, }, Set: stringScopeHashcode, }, }, }, }, "tags": &schema.Schema{ Type: schema.TypeSet, Optional: true, Elem: &schema.Schema{Type: schema.TypeString}, Set: stringHashcode, }, "metadata_fingerprint": &schema.Schema{ Type: schema.TypeString, Computed: true, }, "tags_fingerprint": &schema.Schema{ Type: schema.TypeString, Computed: true, }, "self_link": &schema.Schema{ Type: schema.TypeString, Computed: true, }, }, } } func resourceOperationWaitZone( config *Config, op *compute.Operation, zone string, activity string) error { w := &OperationWaiter{ Service: config.clientCompute, Op: op, Project: config.Project, Zone: zone, Type: OperationWaitZone, } state := w.Conf() state.Delay = 10 * time.Second state.Timeout = 10 * time.Minute state.MinTimeout = 2 * time.Second opRaw, err := state.WaitForState() if err != nil { return fmt.Errorf("Error waiting for %s: %s", activity, err) } op = opRaw.(*compute.Operation) if op.Error != nil { // Return the error return OperationError(*op.Error) } return nil } func resourceComputeInstanceCreate(d *schema.ResourceData, meta interface{}) error { config := meta.(*Config) // Get the zone log.Printf("[DEBUG] Loading zone: %s", d.Get("zone").(string)) zone, err := config.clientCompute.Zones.Get( config.Project, d.Get("zone").(string)).Do() if err != nil { return fmt.Errorf( "Error loading zone '%s': %s", d.Get("zone").(string), err) } // Get the machine type log.Printf("[DEBUG] Loading machine type: %s", d.Get("machine_type").(string)) machineType, err := config.clientCompute.MachineTypes.Get( config.Project, zone.Name, d.Get("machine_type").(string)).Do() if err != nil { return fmt.Errorf( "Error loading machine type: %s", err) } // Build up the list of disks disksCount := d.Get("disk.#").(int) disks := make([]*compute.AttachedDisk, 0, disksCount) for i := 0; i < disksCount; i++ { prefix := fmt.Sprintf("disk.%d", i) // var sourceLink string // Build the disk var disk compute.AttachedDisk disk.Type = "PERSISTENT" disk.Mode = "READ_WRITE" disk.Boot = i == 0 disk.AutoDelete = d.Get(prefix + ".auto_delete").(bool) // Load up the disk for this disk if specified if v, ok := d.GetOk(prefix + ".disk"); ok { diskName := v.(string) diskData, err := config.clientCompute.Disks.Get( config.Project, zone.Name, diskName).Do() if err != nil { return fmt.Errorf( "Error loading disk '%s': %s", diskName, err) } disk.Source = diskData.SelfLink } // Load up the image for this disk if specified if v, ok := d.GetOk(prefix + ".image"); ok { imageName := v.(string) imageUrl, err := resolveImage(config, imageName) if err != nil { return fmt.Errorf( "Error resolving image name '%s': %s", imageName, err) } disk.InitializeParams = &compute.AttachedDiskInitializeParams{ SourceImage: imageUrl, } } if v, ok := d.GetOk(prefix + ".type"); ok { diskTypeName := v.(string) diskType, err := readDiskType(config, zone, diskTypeName) if err != nil { return fmt.Errorf( "Error loading disk type '%s': %s", diskTypeName, err) } disk.InitializeParams.DiskType = diskType.SelfLink } if v, ok := d.GetOk(prefix + ".size"); ok { diskSizeGb := v.(int) disk.InitializeParams.DiskSizeGb = int64(diskSizeGb) } if v, ok := d.GetOk(prefix + ".device_name"); ok { disk.DeviceName = v.(string) } disks = append(disks, &disk) } networksCount := d.Get("network.#").(int) networkInterfacesCount := d.Get("network_interface.#").(int) if networksCount > 0 && networkInterfacesCount > 0 { return fmt.Errorf("Error: cannot define both networks and network_interfaces.") } if networksCount == 0 && networkInterfacesCount == 0 { return fmt.Errorf("Error: Must define at least one network_interface.") } var networkInterfaces []*compute.NetworkInterface if networksCount > 0 { // TODO: Delete this block when removing network { } // Build up the list of networkInterfaces networkInterfaces = make([]*compute.NetworkInterface, 0, networksCount) for i := 0; i < networksCount; i++ { prefix := fmt.Sprintf("network.%d", i) // Load up the name of this network networkName := d.Get(prefix + ".source").(string) network, err := config.clientCompute.Networks.Get( config.Project, networkName).Do() if err != nil { return fmt.Errorf( "Error loading network '%s': %s", networkName, err) } // Build the networkInterface var iface compute.NetworkInterface iface.AccessConfigs = []*compute.AccessConfig{ &compute.AccessConfig{ Type: "ONE_TO_ONE_NAT", NatIP: d.Get(prefix + ".address").(string), }, } iface.Network = network.SelfLink networkInterfaces = append(networkInterfaces, &iface) } } if networkInterfacesCount > 0 { // Build up the list of networkInterfaces networkInterfaces = make([]*compute.NetworkInterface, 0, networkInterfacesCount) for i := 0; i < networkInterfacesCount; i++ { prefix := fmt.Sprintf("network_interface.%d", i) // Load up the name of this network_interfac networkName := d.Get(prefix + ".network").(string) network, err := config.clientCompute.Networks.Get( config.Project, networkName).Do() if err != nil { return fmt.Errorf( "Error referencing network '%s': %s", networkName, err) } // Build the networkInterface var iface compute.NetworkInterface iface.Network = network.SelfLink // Handle access_config structs accessConfigsCount := d.Get(prefix + ".access_config.#").(int) iface.AccessConfigs = make([]*compute.AccessConfig, accessConfigsCount) for j := 0; j < accessConfigsCount; j++ { acPrefix := fmt.Sprintf("%s.access_config.%d", prefix, j) iface.AccessConfigs[j] = &compute.AccessConfig{ Type: "ONE_TO_ONE_NAT", NatIP: d.Get(acPrefix + ".nat_ip").(string), } } networkInterfaces = append(networkInterfaces, &iface) } } serviceAccountsCount := d.Get("service_account.#").(int) serviceAccounts := make([]*compute.ServiceAccount, 0, serviceAccountsCount) for i := 0; i < serviceAccountsCount; i++ { prefix := fmt.Sprintf("service_account.%d", i) scopesSet := d.Get(prefix + ".scopes").(*schema.Set) scopes := make([]string, scopesSet.Len()) for i, v := range scopesSet.List() { scopes[i] = canonicalizeServiceScope(v.(string)) } serviceAccount := &compute.ServiceAccount{ Email: "default", Scopes: scopes, } serviceAccounts = append(serviceAccounts, serviceAccount) } // Create the instance information instance := compute.Instance{ CanIpForward: d.Get("can_ip_forward").(bool), Description: d.Get("description").(string), Disks: disks, MachineType: machineType.SelfLink, Metadata: resourceInstanceMetadata(d), Name: d.Get("name").(string), NetworkInterfaces: networkInterfaces, Tags: resourceInstanceTags(d), ServiceAccounts: serviceAccounts, } log.Printf("[INFO] Requesting instance creation") op, err := config.clientCompute.Instances.Insert( config.Project, zone.Name, &instance).Do() if err != nil { return fmt.Errorf("Error creating instance: %s", err) } // Store the ID now d.SetId(instance.Name) // Wait for the operation to complete waitErr := resourceOperationWaitZone(config, op, zone.Name, "instance to create") if waitErr != nil { // The resource didn't actually create d.SetId("") return waitErr } return resourceComputeInstanceRead(d, meta) } func resourceComputeInstanceRead(d *schema.ResourceData, meta interface{}) error { config := meta.(*Config) instance, err := config.clientCompute.Instances.Get( config.Project, d.Get("zone").(string), d.Id()).Do() if err != nil { if gerr, ok := err.(*googleapi.Error); ok && gerr.Code == 404 { // The resource doesn't exist anymore d.SetId("") return nil } return fmt.Errorf("Error reading instance: %s", err) } d.Set("can_ip_forward", instance.CanIpForward) // Set the service accounts serviceAccounts := make([]map[string]interface{}, 0, 1) for _, serviceAccount := range instance.ServiceAccounts { scopes := make([]interface{}, len(serviceAccount.Scopes)) for i, scope := range serviceAccount.Scopes { scopes[i] = scope } serviceAccounts = append(serviceAccounts, map[string]interface{}{ "email": serviceAccount.Email, "scopes": schema.NewSet(stringScopeHashcode, scopes), }) } d.Set("service_account", serviceAccounts) networksCount := d.Get("network.#").(int) networkInterfacesCount := d.Get("network_interface.#").(int) if networksCount > 0 && networkInterfacesCount > 0 { return fmt.Errorf("Error: cannot define both networks and network_interfaces.") } if networksCount == 0 && networkInterfacesCount == 0 { return fmt.Errorf("Error: Must define at least one network_interface.") } // Set the networks // Use the first external IP found for the default connection info. externalIP := "" internalIP := "" networks := make([]map[string]interface{}, 0, 1) if networksCount > 0 { // TODO: Remove this when realizing deprecation of .network for i, iface := range instance.NetworkInterfaces { var natIP string for _, config := range iface.AccessConfigs { if config.Type == "ONE_TO_ONE_NAT" { natIP = config.NatIP break } } if externalIP == "" && natIP != "" { externalIP = natIP } network := make(map[string]interface{}) network["name"] = iface.Name network["external_address"] = natIP network["internal_address"] = iface.NetworkIP network["source"] = d.Get(fmt.Sprintf("network.%d.source", i)) networks = append(networks, network) } } d.Set("network", networks) networkInterfaces := make([]map[string]interface{}, 0, 1) if networkInterfacesCount > 0 { for i, iface := range instance.NetworkInterfaces { // The first non-empty ip is left in natIP var natIP string accessConfigs := make( []map[string]interface{}, 0, len(iface.AccessConfigs)) for _, config := range iface.AccessConfigs { accessConfigs = append(accessConfigs, map[string]interface{}{ "nat_ip": config.NatIP, }) if natIP == "" { natIP = config.NatIP } } if externalIP == "" { externalIP = natIP } if internalIP == "" { internalIP = iface.NetworkIP } networkInterfaces = append(networkInterfaces, map[string]interface{}{ "name": iface.Name, "address": iface.NetworkIP, "network": d.Get(fmt.Sprintf("network_interface.%d.network", i)), "access_config": accessConfigs, }) } } d.Set("network_interface", networkInterfaces) // Fall back on internal ip if there is no external ip. This makes sense in the situation where // terraform is being used on a cloud instance and can therefore access the instances it creates // via their internal ips. sshIP := externalIP if sshIP == "" { sshIP = internalIP } // Initialize the connection info d.SetConnInfo(map[string]string{ "type": "ssh", "host": sshIP, }) // Set the metadata fingerprint if there is one. if instance.Metadata != nil { d.Set("metadata_fingerprint", instance.Metadata.Fingerprint) } // Set the tags fingerprint if there is one. if instance.Tags != nil { d.Set("tags_fingerprint", instance.Tags.Fingerprint) } d.Set("self_link", instance.SelfLink) return nil } func resourceComputeInstanceUpdate(d *schema.ResourceData, meta interface{}) error { config := meta.(*Config) zone := d.Get("zone").(string) instance, err := config.clientCompute.Instances.Get( config.Project, zone, d.Id()).Do() if err != nil { if gerr, ok := err.(*googleapi.Error); ok && gerr.Code == 404 { // The resource doesn't exist anymore d.SetId("") return nil } return fmt.Errorf("Error reading instance: %s", err) } // Enable partial mode for the resource since it is possible d.Partial(true) // If the Metadata has changed, then update that. if d.HasChange("metadata") { metadata := resourceInstanceMetadata(d) op, err := config.clientCompute.Instances.SetMetadata( config.Project, zone, d.Id(), metadata).Do() if err != nil { return fmt.Errorf("Error updating metadata: %s", err) } // 1 5 2 opErr := resourceOperationWaitZone(config, op, zone, "metadata to update") if opErr != nil { return opErr } d.SetPartial("metadata") } if d.HasChange("tags") { tags := resourceInstanceTags(d) op, err := config.clientCompute.Instances.SetTags( config.Project, zone, d.Id(), tags).Do() if err != nil { return fmt.Errorf("Error updating tags: %s", err) } opErr := resourceOperationWaitZone(config, op, zone, "tags to update") if opErr != nil { return opErr } d.SetPartial("tags") } networkInterfacesCount := d.Get("network_interface.#").(int) if networkInterfacesCount > 0 { // Sanity check if networkInterfacesCount != len(instance.NetworkInterfaces) { return fmt.Errorf("Instance had unexpected number of network interfaces: %d", len(instance.NetworkInterfaces)) } for i := 0; i < networkInterfacesCount; i++ { prefix := fmt.Sprintf("network_interface.%d", i) instNetworkInterface := instance.NetworkInterfaces[i] networkName := d.Get(prefix + ".name").(string) // TODO: This sanity check is broken by #929, disabled for now (by forcing the equality) networkName = instNetworkInterface.Name // Sanity check if networkName != instNetworkInterface.Name { return fmt.Errorf("Instance networkInterface had unexpected name: %s", instNetworkInterface.Name) } if d.HasChange(prefix + ".access_config") { // TODO: This code deletes then recreates accessConfigs. This is bad because it may // leave the machine inaccessible from either ip if the creation part fails (network // timeout etc). However right now there is a GCE limit of 1 accessConfig so it is // the only way to do it. In future this should be revised to only change what is // necessary, and also add before removing. // Delete any accessConfig that currently exists in instNetworkInterface for _, ac := range instNetworkInterface.AccessConfigs { op, err := config.clientCompute.Instances.DeleteAccessConfig( config.Project, zone, d.Id(), ac.Name, networkName).Do() if err != nil { return fmt.Errorf("Error deleting old access_config: %s", err) } opErr := resourceOperationWaitZone(config, op, zone, "old access_config to delete") if opErr != nil { return opErr } } // Create new ones accessConfigsCount := d.Get(prefix + ".access_config.#").(int) for j := 0; j < accessConfigsCount; j++ { acPrefix := fmt.Sprintf("%s.access_config.%d", prefix, j) ac := &compute.AccessConfig{ Type: "ONE_TO_ONE_NAT", NatIP: d.Get(acPrefix + ".nat_ip").(string), } op, err := config.clientCompute.Instances.AddAccessConfig( config.Project, zone, d.Id(), networkName, ac).Do() if err != nil { return fmt.Errorf("Error adding new access_config: %s", err) } opErr := resourceOperationWaitZone(config, op, zone, "new access_config to add") if opErr != nil { return opErr } } } } } // We made it, disable partial mode d.Partial(false) return resourceComputeInstanceRead(d, meta) } func resourceComputeInstanceDelete(d *schema.ResourceData, meta interface{}) error { config := meta.(*Config) zone := d.Get("zone").(string) log.Printf("[INFO] Requesting instance deletion: %s", d.Id()) op, err := config.clientCompute.Instances.Delete(config.Project, zone, d.Id()).Do() if err != nil { return fmt.Errorf("Error deleting instance: %s", err) } // Wait for the operation to complete opErr := resourceOperationWaitZone(config, op, zone, "instance to delete") if opErr != nil { return opErr } d.SetId("") return nil } func resourceInstanceMetadata(d *schema.ResourceData) *compute.Metadata { m := &compute.Metadata{} if mdMap := d.Get("metadata").(map[string]interface{}); len(mdMap) > 0 { m.Items = make([]*compute.MetadataItems, 0, len(mdMap)) for key, val := range mdMap { m.Items = append(m.Items, &compute.MetadataItems{ Key: key, Value: val.(string), }) } // Set the fingerprint. If the metadata has never been set before // then this will just be blank. m.Fingerprint = d.Get("metadata_fingerprint").(string) } return m } func resourceInstanceTags(d *schema.ResourceData) *compute.Tags { // Calculate the tags var tags *compute.Tags if v := d.Get("tags"); v != nil { vs := v.(*schema.Set) tags = new(compute.Tags) tags.Items = make([]string, vs.Len()) for i, v := range vs.List() { tags.Items[i] = v.(string) } tags.Fingerprint = d.Get("tags_fingerprint").(string) } return tags }