package cloudstack import ( "fmt" "strings" "github.com/hashicorp/terraform/helper/schema" "github.com/xanzy/go-cloudstack/cloudstack" ) func resourceCloudStackDisk() *schema.Resource { return &schema.Resource{ Create: resourceCloudStackDiskCreate, Read: resourceCloudStackDiskRead, Update: resourceCloudStackDiskUpdate, Delete: resourceCloudStackDiskDelete, Schema: map[string]*schema.Schema{ "name": &schema.Schema{ Type: schema.TypeString, Required: true, ForceNew: true, }, "attach": &schema.Schema{ Type: schema.TypeBool, Optional: true, Default: false, }, "device": &schema.Schema{ Type: schema.TypeString, Optional: true, Computed: true, }, "disk_offering": &schema.Schema{ Type: schema.TypeString, Optional: true, }, "size": &schema.Schema{ Type: schema.TypeInt, Optional: true, Computed: true, }, "shrink_ok": &schema.Schema{ Type: schema.TypeBool, Optional: true, Default: false, }, "virtual_machine_id": &schema.Schema{ Type: schema.TypeString, Optional: true, }, "project": &schema.Schema{ Type: schema.TypeString, Optional: true, ForceNew: true, }, "zone": &schema.Schema{ Type: schema.TypeString, Required: true, ForceNew: true, }, }, } } func resourceCloudStackDiskCreate(d *schema.ResourceData, meta interface{}) error { cs := meta.(*cloudstack.CloudStackClient) d.Partial(true) name := d.Get("name").(string) // Create a new parameter struct p := cs.Volume.NewCreateVolumeParams() p.SetName(name) // Retrieve the disk_offering ID diskofferingid, e := retrieveID(cs, "disk_offering", d.Get("disk_offering").(string)) if e != nil { return e.Error() } // Set the disk_offering ID p.SetDiskofferingid(diskofferingid) if d.Get("size").(int) != 0 { // Set the volume size p.SetSize(int64(d.Get("size").(int))) } // If there is a project supplied, we retrieve and set the project id if err := setProjectid(p, cs, d); err != nil { return err } // Retrieve the zone ID zoneid, e := retrieveID(cs, "zone", d.Get("zone").(string)) if e != nil { return e.Error() } // Set the zone ID p.SetZoneid(zoneid) // Create the new volume r, err := cs.Volume.CreateVolume(p) if err != nil { return fmt.Errorf("Error creating the new disk %s: %s", name, err) } // Set the volume ID and partials d.SetId(r.Id) d.SetPartial("name") d.SetPartial("device") d.SetPartial("disk_offering") d.SetPartial("size") d.SetPartial("virtual_machine_id") d.SetPartial("project") d.SetPartial("zone") if d.Get("attach").(bool) { err := resourceCloudStackDiskAttach(d, meta) if err != nil { return fmt.Errorf("Error attaching the new disk %s to virtual machine: %s", name, err) } // Set the additional partial d.SetPartial("attach") } d.Partial(false) return resourceCloudStackDiskRead(d, meta) } func resourceCloudStackDiskRead(d *schema.ResourceData, meta interface{}) error { cs := meta.(*cloudstack.CloudStackClient) // Get the volume details v, count, err := cs.Volume.GetVolumeByID( d.Id(), cloudstack.WithProject(d.Get("project").(string)), ) if err != nil { if count == 0 { d.SetId("") return nil } return err } d.Set("name", v.Name) d.Set("attach", v.Attached != "") // If attached this contains a timestamp when attached d.Set("size", int(v.Size/(1024*1024*1024))) // Needed to get GB's again setValueOrID(d, "disk_offering", v.Diskofferingname, v.Diskofferingid) setValueOrID(d, "project", v.Project, v.Projectid) setValueOrID(d, "zone", v.Zonename, v.Zoneid) if v.Attached != "" { // Get the virtual machine details vm, _, err := cs.VirtualMachine.GetVirtualMachineByID( v.Virtualmachineid, cloudstack.WithProject(d.Get("project").(string)), ) if err != nil { return err } // Get the guest OS type details os, _, err := cs.GuestOS.GetOsTypeByID(vm.Guestosid) if err != nil { return err } // Get the guest OS category details c, _, err := cs.GuestOS.GetOsCategoryByID(os.Oscategoryid) if err != nil { return err } d.Set("device", retrieveDeviceName(v.Deviceid, c.Name)) d.Set("virtual_machine_id", v.Virtualmachineid) } return nil } func resourceCloudStackDiskUpdate(d *schema.ResourceData, meta interface{}) error { cs := meta.(*cloudstack.CloudStackClient) d.Partial(true) name := d.Get("name").(string) if d.HasChange("disk_offering") || d.HasChange("size") { // Detach the volume (re-attach is done at the end of this function) if err := resourceCloudStackDiskDetach(d, meta); err != nil { return fmt.Errorf("Error detaching disk %s from virtual machine: %s", name, err) } // Create a new parameter struct p := cs.Volume.NewResizeVolumeParams(d.Id()) // Retrieve the disk_offering ID diskofferingid, e := retrieveID(cs, "disk_offering", d.Get("disk_offering").(string)) if e != nil { return e.Error() } // Set the disk_offering ID p.SetDiskofferingid(diskofferingid) if d.Get("size").(int) != 0 { // Set the size p.SetSize(int64(d.Get("size").(int))) } // Set the shrink bit p.SetShrinkok(d.Get("shrink_ok").(bool)) // Change the disk_offering r, err := cs.Volume.ResizeVolume(p) if err != nil { return fmt.Errorf("Error changing disk offering/size for disk %s: %s", name, err) } // Update the volume ID and set partials d.SetId(r.Id) d.SetPartial("disk_offering") d.SetPartial("size") } // If the device changed, just detach here so we can re-attach the // volume at the end of this function if d.HasChange("device") || d.HasChange("virtual_machine") { // Detach the volume if err := resourceCloudStackDiskDetach(d, meta); err != nil { return fmt.Errorf("Error detaching disk %s from virtual machine: %s", name, err) } } if d.Get("attach").(bool) { // Attach the volume err := resourceCloudStackDiskAttach(d, meta) if err != nil { return fmt.Errorf("Error attaching disk %s to virtual machine: %s", name, err) } // Set the additional partials d.SetPartial("attach") d.SetPartial("device") d.SetPartial("virtual_machine_id") } else { // Detach the volume if err := resourceCloudStackDiskDetach(d, meta); err != nil { return fmt.Errorf("Error detaching disk %s from virtual machine: %s", name, err) } } d.Partial(false) return resourceCloudStackDiskRead(d, meta) } func resourceCloudStackDiskDelete(d *schema.ResourceData, meta interface{}) error { cs := meta.(*cloudstack.CloudStackClient) // Detach the volume if err := resourceCloudStackDiskDetach(d, meta); err != nil { return err } // Create a new parameter struct p := cs.Volume.NewDeleteVolumeParams(d.Id()) // Delete the voluem if _, err := cs.Volume.DeleteVolume(p); err != nil { // This is a very poor way to be told the ID does no longer exist :( if strings.Contains(err.Error(), fmt.Sprintf( "Invalid parameter id value=%s due to incorrect long value format, "+ "or entity does not exist", d.Id())) { return nil } return err } return nil } func resourceCloudStackDiskAttach(d *schema.ResourceData, meta interface{}) error { cs := meta.(*cloudstack.CloudStackClient) if virtualmachineid, ok := d.GetOk("virtual_machine_id"); ok { // First check if the disk isn't already attached if attached, err := isAttached(d, meta); err != nil || attached { return err } // Create a new parameter struct p := cs.Volume.NewAttachVolumeParams(d.Id(), virtualmachineid.(string)) if device, ok := d.GetOk("device"); ok { // Retrieve the device ID deviceid := retrieveDeviceID(device.(string)) if deviceid == -1 { return fmt.Errorf("Device %s is not a valid device", device.(string)) } // Set the device ID p.SetDeviceid(deviceid) } // Attach the new volume r, err := Retry(4, retryableAttachVolumeFunc(cs, p)) if err != nil { return err } d.SetId(r.(*cloudstack.AttachVolumeResponse).Id) } return nil } func resourceCloudStackDiskDetach(d *schema.ResourceData, meta interface{}) error { cs := meta.(*cloudstack.CloudStackClient) // Check if the volume is actually attached, before detaching if attached, err := isAttached(d, meta); err != nil || !attached { return err } // Create a new parameter struct p := cs.Volume.NewDetachVolumeParams() // Set the volume ID p.SetId(d.Id()) // Detach the currently attached volume _, err := cs.Volume.DetachVolume(p) if err != nil { if virtualmachineid, ok := d.GetOk("virtual_machine_id"); ok { // Create a new parameter struct pd := cs.VirtualMachine.NewStopVirtualMachineParams(virtualmachineid.(string)) // Stop the virtual machine in order to be able to detach the disk if _, err := cs.VirtualMachine.StopVirtualMachine(pd); err != nil { return err } // Try again to detach the currently attached volume if _, err := cs.Volume.DetachVolume(p); err != nil { return err } // Create a new parameter struct pu := cs.VirtualMachine.NewStartVirtualMachineParams(virtualmachineid.(string)) // Start the virtual machine again if _, err := cs.VirtualMachine.StartVirtualMachine(pu); err != nil { return err } } } return err } func isAttached(d *schema.ResourceData, meta interface{}) (bool, error) { cs := meta.(*cloudstack.CloudStackClient) // Get the volume details v, _, err := cs.Volume.GetVolumeByID( d.Id(), cloudstack.WithProject(d.Get("project").(string)), ) if err != nil { return false, err } return v.Attached != "", nil } func retryableAttachVolumeFunc( cs *cloudstack.CloudStackClient, p *cloudstack.AttachVolumeParams) func() (interface{}, error) { return func() (interface{}, error) { r, err := cs.Volume.AttachVolume(p) if err != nil { return nil, err } return r, nil } } func retrieveDeviceID(device string) int64 { switch device { case "/dev/xvdb", "D:": return 1 case "/dev/xvdc", "E:": return 2 case "/dev/xvde", "F:": return 4 case "/dev/xvdf", "G:": return 5 case "/dev/xvdg", "H:": return 6 case "/dev/xvdh", "I:": return 7 case "/dev/xvdi", "J:": return 8 case "/dev/xvdj", "K:": return 9 case "/dev/xvdk", "L:": return 10 case "/dev/xvdl", "M:": return 11 case "/dev/xvdm", "N:": return 12 case "/dev/xvdn", "O:": return 13 case "/dev/xvdo", "P:": return 14 case "/dev/xvdp", "Q:": return 15 default: return -1 } } func retrieveDeviceName(device int64, os string) string { switch device { case 1: if os == "Windows" { return "D:" } return "/dev/xvdb" case 2: if os == "Windows" { return "E:" } return "/dev/xvdc" case 4: if os == "Windows" { return "F:" } return "/dev/xvde" case 5: if os == "Windows" { return "G:" } return "/dev/xvdf" case 6: if os == "Windows" { return "H:" } return "/dev/xvdg" case 7: if os == "Windows" { return "I:" } return "/dev/xvdh" case 8: if os == "Windows" { return "J:" } return "/dev/xvdi" case 9: if os == "Windows" { return "K:" } return "/dev/xvdj" case 10: if os == "Windows" { return "L:" } return "/dev/xvdk" case 11: if os == "Windows" { return "M:" } return "/dev/xvdl" case 12: if os == "Windows" { return "N:" } return "/dev/xvdm" case 13: if os == "Windows" { return "O:" } return "/dev/xvdn" case 14: if os == "Windows" { return "P:" } return "/dev/xvdo" case 15: if os == "Windows" { return "Q:" } return "/dev/xvdp" default: return "unknown" } }