package vmx import ( "context" "fmt" "log" "os" "path/filepath" "regexp" vmwcommon "github.com/hashicorp/packer/builder/vmware/common" "github.com/hashicorp/packer/helper/multistep" "github.com/hashicorp/packer/packer" "github.com/hashicorp/packer/packer/tmp" ) // StepCloneVMX takes a VMX file and clones the VM into the output directory. type StepCloneVMX struct { OutputDir string Path string VMName string Linked bool tempDir string } func (s *StepCloneVMX) Run(ctx context.Context, state multistep.StateBag) multistep.StepAction { halt := func(err error) multistep.StepAction { state.Put("error", err) return multistep.ActionHalt } driver := state.Get("driver").(vmwcommon.Driver) ui := state.Get("ui").(packer.Ui) // Set the path we want for the new .vmx file and clone vmxPath := filepath.Join(s.OutputDir, s.VMName+".vmx") ui.Say("Cloning source VM...") log.Printf("Cloning from: %s", s.Path) log.Printf("Cloning to: %s", vmxPath) if err := driver.Clone(vmxPath, s.Path, s.Linked); err != nil { return halt(err) } // Read in the machine configuration from the cloned VMX file // // * The main driver needs the path to the vmx (set above) and the // network type so that it can work out things like IP's and MAC // addresses // * The disk compaction step needs the paths to all attached disks if remoteDriver, ok := driver.(vmwcommon.RemoteDriver); ok { remoteVmxPath := vmxPath tempDir, err := tmp.Dir("packer-vmx") if err != nil { return halt(err) } s.tempDir = tempDir vmxPath = filepath.Join(tempDir, s.VMName+".vmx") if err = remoteDriver.Download(remoteVmxPath, vmxPath); err != nil { return halt(err) } } vmxData, err := vmwcommon.ReadVMX(vmxPath) if err != nil { return halt(err) } var diskFilenames []string // The VMX file stores the path to a configured disk, and information // about that disks attachment to a virtual adapter/controller, as a // key/value pair. // For a virtual disk attached to bus ID 3 of the virtual machines // first SCSI adapter the key/value pair would look something like: // scsi0:3.fileName = "relative/path/to/scsiDisk.vmdk" // The supported adapter types and configuration maximums for each type // vary according to the VMware platform type and version, and the // Virtual Machine Hardware version used. See the 'Virtual Machine // Maximums' section within VMware's 'Configuration Maximums' // documentation for each platform: // https://kb.vmware.com/s/article/1003497 // Information about the supported Virtual Machine Hardware versions: // https://kb.vmware.com/s/article/1003746 // The following regexp is used to match all possible disk attachment // points that may be found in the VMX file across all VMware // platforms/versions and Virtual Machine Hardware versions diskPathKeyRe := regexp.MustCompile(`(?i)^(scsi|sata|ide|nvme)[[:digit:]]:[[:digit:]]{1,2}\.fileName`) for k, v := range vmxData { match := diskPathKeyRe.FindString(k) if match != "" && filepath.Ext(v) == ".vmdk" { diskFilenames = append(diskFilenames, v) } } // Write out the relative, host filesystem paths to the disks var diskFullPaths []string for _, diskFilename := range diskFilenames { log.Printf("Found attached disk with filename: %s", diskFilename) diskFullPaths = append(diskFullPaths, filepath.Join(s.OutputDir, diskFilename)) } if len(diskFullPaths) == 0 { return halt(fmt.Errorf("Could not enumerate disk info from the vmx file")) } // Determine the network type by reading out of the .vmx var networkType string if _, ok := vmxData["ethernet0.connectiontype"]; ok { networkType = vmxData["ethernet0.connectiontype"] log.Printf("Discovered the network type: %s", networkType) } if networkType == "" { networkType = "nat" log.Printf("Defaulting to network type: %s", networkType) } // Stash all required information in our state bag state.Put("vmx_path", vmxPath) state.Put("disk_full_paths", diskFullPaths) state.Put("vmnetwork", networkType) return multistep.ActionContinue } func (s *StepCloneVMX) Cleanup(state multistep.StateBag) { if s.tempDir != "" { os.RemoveAll(s.tempDir) } }