terraform/builtin/providers/google/resource_compute_instance.go

1022 lines
27 KiB
Go

package google
import (
"fmt"
"log"
"strings"
"github.com/hashicorp/terraform/helper/schema"
"google.golang.org/api/compute/v1"
"google.golang.org/api/googleapi"
)
func stringScopeHashcode(v interface{}) int {
v = canonicalizeServiceScope(v.(string))
return schema.HashString(v)
}
func resourceComputeInstance() *schema.Resource {
return &schema.Resource{
Create: resourceComputeInstanceCreate,
Read: resourceComputeInstanceRead,
Update: resourceComputeInstanceUpdate,
Delete: resourceComputeInstanceDelete,
SchemaVersion: 2,
MigrateState: resourceComputeInstanceMigrateState,
Schema: map[string]*schema.Schema{
"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,
},
"scratch": &schema.Schema{
Type: schema.TypeBool,
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,
},
},
},
},
"machine_type": &schema.Schema{
Type: schema.TypeString,
Required: true,
ForceNew: true,
},
"name": &schema.Schema{
Type: schema.TypeString,
Required: true,
ForceNew: true,
},
"zone": &schema.Schema{
Type: schema.TypeString,
Required: true,
ForceNew: true,
},
"can_ip_forward": &schema.Schema{
Type: schema.TypeBool,
Optional: true,
Default: false,
ForceNew: true,
},
"description": &schema.Schema{
Type: schema.TypeString,
Optional: true,
ForceNew: true,
},
"metadata": &schema.Schema{
Type: schema.TypeMap,
Optional: true,
Elem: schema.TypeString,
ValidateFunc: validateInstanceMetadata,
},
"metadata_startup_script": &schema.Schema{
Type: schema.TypeString,
Optional: true,
ForceNew: true,
},
"metadata_fingerprint": &schema.Schema{
Type: schema.TypeString,
Computed: 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,
Optional: true,
ForceNew: true,
},
"subnetwork": &schema.Schema{
Type: schema.TypeString,
Optional: true,
ForceNew: true,
},
"name": &schema.Schema{
Type: schema.TypeString,
Computed: true,
},
"address": &schema.Schema{
Type: schema.TypeString,
Optional: true,
ForceNew: true,
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,
Optional: true,
},
"assigned_nat_ip": &schema.Schema{
Type: schema.TypeString,
Computed: 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,
},
},
},
},
"project": &schema.Schema{
Type: schema.TypeString,
Optional: true,
ForceNew: true,
},
"self_link": &schema.Schema{
Type: schema.TypeString,
Computed: true,
},
"scheduling": &schema.Schema{
Type: schema.TypeList,
Optional: true,
Elem: &schema.Resource{
Schema: map[string]*schema.Schema{
"on_host_maintenance": &schema.Schema{
Type: schema.TypeString,
Optional: true,
},
"automatic_restart": &schema.Schema{
Type: schema.TypeBool,
Optional: true,
},
"preemptible": &schema.Schema{
Type: schema.TypeBool,
Optional: true,
},
},
},
},
"service_account": &schema.Schema{
Type: schema.TypeList,
MaxItems: 1,
Optional: true,
ForceNew: true,
Elem: &schema.Resource{
Schema: map[string]*schema.Schema{
"email": &schema.Schema{
Type: schema.TypeString,
ForceNew: true,
Optional: true,
Computed: 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: schema.HashString,
},
"tags_fingerprint": &schema.Schema{
Type: schema.TypeString,
Computed: true,
},
"create_timeout": &schema.Schema{
Type: schema.TypeInt,
Optional: true,
Default: 4,
ForceNew: true,
},
},
}
}
func getInstance(config *Config, d *schema.ResourceData) (*compute.Instance, error) {
project, err := getProject(d, config)
if err != nil {
return nil, err
}
instance, err := config.clientCompute.Instances.Get(
project, d.Get("zone").(string), d.Id()).Do()
if err != nil {
if gerr, ok := err.(*googleapi.Error); ok && gerr.Code == 404 {
log.Printf("[WARN] Removing Instance %q because it's gone", d.Get("name").(string))
// The resource doesn't exist anymore
id := d.Id()
d.SetId("")
return nil, fmt.Errorf("Resource %s no longer exists", id)
}
return nil, fmt.Errorf("Error reading instance: %s", err)
}
return instance, nil
}
func resourceComputeInstanceCreate(d *schema.ResourceData, meta interface{}) error {
config := meta.(*Config)
project, err := getProject(d, config)
if err != nil {
return err
}
// Get the zone
log.Printf("[DEBUG] Loading zone: %s", d.Get("zone").(string))
zone, err := config.clientCompute.Zones.Get(
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(
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)
if _, ok := d.GetOk(prefix + ".disk"); ok {
if _, ok := d.GetOk(prefix + ".type"); ok {
return fmt.Errorf(
"Error: cannot define both disk and type.")
}
}
// 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(
project, zone.Name, diskName).Do()
if err != nil {
return fmt.Errorf(
"Error loading disk '%s': %s",
diskName, err)
}
disk.Source = diskData.SelfLink
} else {
// Create a new disk
disk.InitializeParams = &compute.AttachedDiskInitializeParams{}
}
if v, ok := d.GetOk(prefix + ".scratch"); ok {
if v.(bool) {
disk.Type = "SCRATCH"
}
}
// 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.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(
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_interface
networkName := d.Get(prefix + ".network").(string)
subnetworkName := d.Get(prefix + ".subnetwork").(string)
address := d.Get(prefix + ".address").(string)
var networkLink, subnetworkLink string
if networkName != "" && subnetworkName != "" {
return fmt.Errorf("Cannot specify both network and subnetwork values.")
} else if networkName != "" {
networkLink, err = getNetworkLink(d, config, prefix+".network")
if err != nil {
return fmt.Errorf(
"Error referencing network '%s': %s",
networkName, err)
}
} else {
region := getRegionFromZone(d.Get("zone").(string))
subnetwork, err := config.clientCompute.Subnetworks.Get(
project, region, subnetworkName).Do()
if err != nil {
return fmt.Errorf(
"Error referencing subnetwork '%s' in region '%s': %s",
subnetworkName, region, err)
}
subnetworkLink = subnetwork.SelfLink
}
// Build the networkInterface
var iface compute.NetworkInterface
iface.Network = networkLink
iface.Subnetwork = subnetworkLink
iface.NetworkIP = address
// 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))
}
email := "default"
if v := d.Get(prefix + ".email"); v != nil {
email = v.(string)
}
serviceAccount := &compute.ServiceAccount{
Email: email,
Scopes: scopes,
}
serviceAccounts = append(serviceAccounts, serviceAccount)
}
prefix := "scheduling.0"
scheduling := &compute.Scheduling{}
if val, ok := d.GetOk(prefix + ".automatic_restart"); ok {
scheduling.AutomaticRestart = val.(bool)
}
if val, ok := d.GetOk(prefix + ".preemptible"); ok {
scheduling.Preemptible = val.(bool)
}
if val, ok := d.GetOk(prefix + ".on_host_maintenance"); ok {
scheduling.OnHostMaintenance = val.(string)
}
// Read create timeout
var createTimeout int
if v, ok := d.GetOk("create_timeout"); ok {
createTimeout = v.(int)
}
metadata, err := resourceInstanceMetadata(d)
if err != nil {
return fmt.Errorf("Error creating metadata: %s", err)
}
// 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: metadata,
Name: d.Get("name").(string),
NetworkInterfaces: networkInterfaces,
Tags: resourceInstanceTags(d),
ServiceAccounts: serviceAccounts,
Scheduling: scheduling,
}
log.Printf("[INFO] Requesting instance creation")
op, err := config.clientCompute.Instances.Insert(
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 := computeOperationWaitZoneTime(config, op, project, zone.Name, createTimeout, "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)
id := d.Id()
instance, err := getInstance(config, d)
if err != nil {
if strings.Contains(err.Error(), "no longer exists") {
log.Printf("[WARN] Google Compute Instance (%s) not found", id)
return nil
}
return err
}
// Synch metadata
md := instance.Metadata
_md := MetadataFormatSchema(d.Get("metadata").(map[string]interface{}), md)
delete(_md, "startup-script")
if script, scriptExists := d.GetOk("metadata_startup_script"); scriptExists {
d.Set("metadata_startup_script", script)
}
if err = d.Set("metadata", _md); err != nil {
return fmt.Errorf("Error setting metadata: %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 j, config := range iface.AccessConfigs {
accessConfigs = append(accessConfigs, map[string]interface{}{
"nat_ip": d.Get(fmt.Sprintf("network_interface.%d.access_config.%d.nat_ip", i, j)),
"assigned_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)),
"subnetwork": d.Get(fmt.Sprintf("network_interface.%d.subnetwork", 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)
d.SetId(instance.Name)
return nil
}
func resourceComputeInstanceUpdate(d *schema.ResourceData, meta interface{}) error {
config := meta.(*Config)
project, err := getProject(d, config)
if err != nil {
return err
}
zone := d.Get("zone").(string)
instance, err := getInstance(config, d)
if err != nil {
return 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") {
o, n := d.GetChange("metadata")
if script, scriptExists := d.GetOk("metadata_startup_script"); scriptExists {
if _, ok := n.(map[string]interface{})["startup-script"]; ok {
return fmt.Errorf("Only one of metadata.startup-script and metadata_startup_script may be defined")
}
n.(map[string]interface{})["startup-script"] = script
}
updateMD := func() error {
// Reload the instance in the case of a fingerprint mismatch
instance, err = getInstance(config, d)
if err != nil {
return err
}
md := instance.Metadata
MetadataUpdate(o.(map[string]interface{}), n.(map[string]interface{}), md)
if err != nil {
return fmt.Errorf("Error updating metadata: %s", err)
}
op, err := config.clientCompute.Instances.SetMetadata(
project, zone, d.Id(), md).Do()
if err != nil {
return fmt.Errorf("Error updating metadata: %s", err)
}
opErr := computeOperationWaitZone(config, op, project, zone, "metadata to update")
if opErr != nil {
return opErr
}
d.SetPartial("metadata")
return nil
}
MetadataRetryWrapper(updateMD)
}
if d.HasChange("tags") {
tags := resourceInstanceTags(d)
op, err := config.clientCompute.Instances.SetTags(
project, zone, d.Id(), tags).Do()
if err != nil {
return fmt.Errorf("Error updating tags: %s", err)
}
opErr := computeOperationWaitZone(config, op, project, zone, "tags to update")
if opErr != nil {
return opErr
}
d.SetPartial("tags")
}
if d.HasChange("scheduling") {
prefix := "scheduling.0"
scheduling := &compute.Scheduling{}
if val, ok := d.GetOk(prefix + ".automatic_restart"); ok {
scheduling.AutomaticRestart = val.(bool)
}
if val, ok := d.GetOk(prefix + ".preemptible"); ok {
scheduling.Preemptible = val.(bool)
}
if val, ok := d.GetOk(prefix + ".on_host_maintenance"); ok {
scheduling.OnHostMaintenance = val.(string)
}
op, err := config.clientCompute.Instances.SetScheduling(project,
zone, d.Id(), scheduling).Do()
if err != nil {
return fmt.Errorf("Error updating scheduling policy: %s", err)
}
opErr := computeOperationWaitZone(config, op, project, zone,
"scheduling policy update")
if opErr != nil {
return opErr
}
d.SetPartial("scheduling")
}
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(
project, zone, d.Id(), ac.Name, networkName).Do()
if err != nil {
return fmt.Errorf("Error deleting old access_config: %s", err)
}
opErr := computeOperationWaitZone(config, op, project, 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(
project, zone, d.Id(), networkName, ac).Do()
if err != nil {
return fmt.Errorf("Error adding new access_config: %s", err)
}
opErr := computeOperationWaitZone(config, op, project, 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)
project, err := getProject(d, config)
if err != nil {
return err
}
zone := d.Get("zone").(string)
log.Printf("[INFO] Requesting instance deletion: %s", d.Id())
op, err := config.clientCompute.Instances.Delete(project, zone, d.Id()).Do()
if err != nil {
return fmt.Errorf("Error deleting instance: %s", err)
}
// Wait for the operation to complete
opErr := computeOperationWaitZone(config, op, project, zone, "instance to delete")
if opErr != nil {
return opErr
}
d.SetId("")
return nil
}
func resourceInstanceMetadata(d *schema.ResourceData) (*compute.Metadata, error) {
m := &compute.Metadata{}
mdMap := d.Get("metadata").(map[string]interface{})
if v, ok := d.GetOk("metadata_startup_script"); ok && v.(string) != "" {
mdMap["startup-script"] = v
}
if len(mdMap) > 0 {
m.Items = make([]*compute.MetadataItems, 0, len(mdMap))
for key, val := range mdMap {
v := val.(string)
m.Items = append(m.Items, &compute.MetadataItems{
Key: key,
Value: &v,
})
}
// 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, nil
}
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
}
func validateInstanceMetadata(v interface{}, k string) (ws []string, es []error) {
mdMap := v.(map[string]interface{})
if _, ok := mdMap["startup-script"]; ok {
es = append(es, fmt.Errorf(
"Use metadata_startup_script instead of a startup-script key in %q.", k))
}
return
}