//go:generate struct-markdown package common import ( "fmt" "log" "os" "strings" "github.com/hashicorp/packer/common" powershell "github.com/hashicorp/packer/common/powershell" "github.com/hashicorp/packer/common/powershell/hyperv" "github.com/hashicorp/packer/template/interpolate" ) const ( DefaultDiskSize = 40 * 1024 // ~40GB MinDiskSize = 256 // 256MB MaxDiskSize = 64 * 1024 * 1024 // 64TB MaxVHDSize = 2040 * 1024 // 2040GB DefaultDiskBlockSize = 32 // 32MB MinDiskBlockSize = 1 // 1MB MaxDiskBlockSize = 256 // 256MB DefaultRamSize = 1 * 1024 // 1GB MinRamSize = 32 // 32MB MaxRamSize = 32 * 1024 // 32GB MinNestedVirtualizationRamSize = 4 * 1024 // 4GB LowRam = 256 // 256MB DefaultUsername = "" DefaultPassword = "" ) type CommonConfig struct { common.FloppyConfig `mapstructure:",squash"` // The block size of the VHD to be created. // Recommended disk block size for Linux hyper-v guests is 1 MiB. This // defaults to "32" MiB. DiskBlockSize uint `mapstructure:"disk_block_size" required:"false"` // The amount, in megabytes, of RAM to assign to the // VM. By default, this is 1 GB. RamSize uint `mapstructure:"memory" required:"false"` // A list of ISO paths to // attach to a VM when it is booted. This is most useful for unattended // Windows installs, which look for an Autounattend.xml file on removable // media. By default, no secondary ISO will be attached. SecondaryDvdImages []string `mapstructure:"secondary_iso_images" required:"false"` // The size or sizes of any // additional hard disks for the VM in megabytes. If this is not specified // then the VM will only contain a primary hard disk. Additional drives // will be attached to the SCSI interface only. The builder uses // expandable rather than fixed-size virtual hard disks, so the actual // file representing the disk will not use the full size unless it is // full. AdditionalDiskSize []uint `mapstructure:"disk_additional_size" required:"false"` // If set to attach then attach and // mount the ISO image specified in guest_additions_path. If set to // none then guest additions are not attached and mounted; This is the // default. GuestAdditionsMode string `mapstructure:"guest_additions_mode" required:"false"` // The path to the ISO image for guest // additions. GuestAdditionsPath string `mapstructure:"guest_additions_path" required:"false"` // This is the name of the new virtual machine, // without the file extension. By default this is "packer-BUILDNAME", // where "BUILDNAME" is the name of the build. VMName string `mapstructure:"vm_name" required:"false"` // The name of the switch to connect the virtual // machine to. By default, leaving this value unset will cause Packer to // try and determine the switch to use by looking for an external switch // that is up and running. SwitchName string `mapstructure:"switch_name" required:"false"` // This is the VLAN of the virtual switch's // network card. By default none is set. If none is set then a VLAN is not // set on the switch's network card. If this value is set it should match // the VLAN specified in by vlan_id. SwitchVlanId string `mapstructure:"switch_vlan_id" required:"false"` // This allows a specific MAC address to be used on // the default virtual network card. The MAC address must be a string with // no delimiters, for example "0000deadbeef". MacAddress string `mapstructure:"mac_address" required:"false"` // This is the VLAN of the virtual machine's network // card for the new virtual machine. By default none is set. If none is set // then VLANs are not set on the virtual machine's network card. VlanId string `mapstructure:"vlan_id" required:"false"` // The number of CPUs the virtual machine should use. If // this isn't specified, the default is 1 CPU. Cpu uint `mapstructure:"cpus" required:"false"` // The Hyper-V generation for the virtual machine. By // default, this is 1. Generation 2 Hyper-V virtual machines do not support // floppy drives. In this scenario use secondary_iso_images instead. Hard // drives and DVD drives will also be SCSI and not IDE. Generation uint `mapstructure:"generation" required:"false"` // If true enable MAC address spoofing // for the virtual machine. This defaults to false. EnableMacSpoofing bool `mapstructure:"enable_mac_spoofing" required:"false"` // If true enable dynamic memory for // the virtual machine. This defaults to false. EnableDynamicMemory bool `mapstructure:"enable_dynamic_memory" required:"false"` // If true enable secure boot for the // virtual machine. This defaults to false. See secure_boot_template // below for additional settings. EnableSecureBoot bool `mapstructure:"enable_secure_boot" required:"false"` // The secure boot template to be // configured. Valid values are "MicrosoftWindows" (Windows) or // "MicrosoftUEFICertificateAuthority" (Linux). This only takes effect if // enable_secure_boot is set to "true". This defaults to "MicrosoftWindows". SecureBootTemplate string `mapstructure:"secure_boot_template" required:"false"` // If true enable // virtualization extensions for the virtual machine. This defaults to // false. For nested virtualization you need to enable MAC spoofing, // disable dynamic memory and have at least 4GB of RAM assigned to the // virtual machine. EnableVirtualizationExtensions bool `mapstructure:"enable_virtualization_extensions" required:"false"` // The location under which Packer will create a directory to house all the // VM files and folders during the build. By default `%TEMP%` is used // which, for most systems, will evaluate to // `%USERPROFILE%/AppData/Local/Temp`. // // The build directory housed under `temp_path` will have a name similar to // `packerhv1234567`. The seven digit number at the end of the name is // automatically generated by Packer to ensure the directory name is // unique. TempPath string `mapstructure:"temp_path" required:"false"` // This allows you to set the vm version when calling New-VM to generate // the vm. Version string `mapstructure:"configuration_version" required:"false"` // If "true", Packer will not delete the VM from // The Hyper-V manager. KeepRegistered bool `mapstructure:"keep_registered" required:"false"` Communicator string `mapstructure:"communicator"` // If true skip compacting the hard disk for // the virtual machine when exporting. This defaults to false. SkipCompaction bool `mapstructure:"skip_compaction" required:"false"` // If true Packer will skip the export of the VM. // If you are interested only in the VHD/VHDX files, you can enable this // option. The resulting VHD/VHDX file will be output to // /Virtual Hard Disks. By default this option is false // and Packer will export the VM to output_directory. SkipExport bool `mapstructure:"skip_export" required:"false"` // Packer defaults to building Hyper-V virtual // machines by launching a GUI that shows the console of the machine being // built. When this value is set to true, the machine will start without a // console. Headless bool `mapstructure:"headless" required:"false"` // Over time the Hyper-V builder has been modified to change the original // boot order that is used when an ISO is mounted. Hyper-V's default is to // boot from the CD first, the original Hyper-V builder included code to // codify this setting when the primary ISO is mounted, that code was eventually // modified to place the IDE adapter before the the CD (only in generation 1). // Setting this value to true, forces the original method of operation. LegacyGen1BootOrder bool `mapstructure:"legacy_gen1_boot_order" required:"false"` } func (c *CommonConfig) Prepare(ctx *interpolate.Context, pc *common.PackerConfig) ([]error, []string) { // Accumulate any errors and warns var errs []error var warns []string if c.VMName == "" { c.VMName = fmt.Sprintf("packer-%s", pc.PackerBuildName) log.Println(fmt.Sprintf("%s: %v", "VMName", c.VMName)) } if c.SwitchName == "" { c.SwitchName = c.detectSwitchName(pc.PackerBuildName) log.Println(fmt.Sprintf("Using switch %s", c.SwitchName)) } if c.Generation < 1 || c.Generation > 2 { c.Generation = 1 } if c.Generation == 2 { if len(c.FloppyFiles) > 0 || len(c.FloppyDirectories) > 0 { err := fmt.Errorf("Generation 2 vms don't support floppy drives. Use ISO image instead.") errs = append(errs, err) } } if len(c.AdditionalDiskSize) > 64 { errs = append(errs, fmt.Errorf("VM's currently support a maximum of 64 additional SCSI attached disks.")) } // Errors floppyerrs := c.FloppyConfig.Prepare(ctx) errs = append(errs, floppyerrs...) if c.GuestAdditionsMode == "" { if c.GuestAdditionsPath != "" { c.GuestAdditionsMode = "attach" } else { c.GuestAdditionsPath = os.Getenv("WINDIR") + "\\system32\\vmguest.iso" if _, err := os.Stat(c.GuestAdditionsPath); os.IsNotExist(err) { if err != nil { c.GuestAdditionsPath = "" c.GuestAdditionsMode = "none" } else { c.GuestAdditionsMode = "attach" } } } } if c.GuestAdditionsPath == "" && c.GuestAdditionsMode == "attach" { c.GuestAdditionsPath = os.Getenv("WINDIR") + "\\system32\\vmguest.iso" if _, err := os.Stat(c.GuestAdditionsPath); os.IsNotExist(err) { if err != nil { c.GuestAdditionsPath = "" } } } for _, isoPath := range c.SecondaryDvdImages { if _, err := os.Stat(isoPath); os.IsNotExist(err) { if err != nil { errs = append( errs, fmt.Errorf("Secondary Dvd image does not exist: %s", err)) } } } numberOfIsos := len(c.SecondaryDvdImages) if c.GuestAdditionsMode == "attach" { if _, err := os.Stat(c.GuestAdditionsPath); os.IsNotExist(err) { if err != nil { errs = append( errs, fmt.Errorf("Guest additions iso does not exist: %s", err)) } } numberOfIsos = numberOfIsos + 1 } if c.Generation < 2 && numberOfIsos > 2 { if c.GuestAdditionsMode == "attach" { errs = append(errs, fmt.Errorf("There are only 2 ide controllers available, so "+ "we can't support guest additions and these secondary dvds: %s", strings.Join(c.SecondaryDvdImages, ", "))) } else { errs = append(errs, fmt.Errorf("There are only 2 ide controllers available, so "+ "we can't support these secondary dvds: %s", strings.Join(c.SecondaryDvdImages, ", "))) } } else if c.Generation > 1 && len(c.SecondaryDvdImages) > 16 { if c.GuestAdditionsMode == "attach" { errs = append(errs, fmt.Errorf("There are not enough drive letters available for "+ "scsi (limited to 16), so we can't support guest additions and these secondary dvds: %s", strings.Join(c.SecondaryDvdImages, ", "))) } else { errs = append(errs, fmt.Errorf("There are not enough drive letters available for "+ "scsi (limited to 16), so we can't support these secondary dvds: %s", strings.Join(c.SecondaryDvdImages, ", "))) } } if c.EnableVirtualizationExtensions { hasVirtualMachineVirtualizationExtensions, err := powershell.HasVirtualMachineVirtualizationExtensions() if err != nil { errs = append(errs, fmt.Errorf("Failed detecting virtual machine virtualization "+ "extensions support: %s", err)) } else { if !hasVirtualMachineVirtualizationExtensions { errs = append(errs, fmt.Errorf("This version of Hyper-V does not support "+ "virtual machine virtualization extension. Please use Windows 10 or Windows Server 2016 "+ "or newer.")) } } } if c.EnableVirtualizationExtensions { if c.EnableDynamicMemory { warning := fmt.Sprintf("For nested virtualization, when virtualization extension is enabled, " + "dynamic memory should not be allowed.") warns = Appendwarns(warns, warning) } if !c.EnableMacSpoofing { warning := fmt.Sprintf("For nested virtualization, when virtualization extension is enabled, " + "mac spoofing should be allowed.") warns = Appendwarns(warns, warning) } if c.RamSize < MinNestedVirtualizationRamSize { warning := fmt.Sprintf("For nested virtualization, when virtualization extension is enabled, " + "there should be 4GB or more memory set for the vm, otherwise Hyper-V may fail to start " + "any nested VMs.") warns = Appendwarns(warns, warning) } } if c.SwitchVlanId != "" { if c.SwitchVlanId != c.VlanId { warning := fmt.Sprintf("Switch network adaptor vlan should match virtual machine network adaptor " + "vlan. The switch will not be able to see traffic from the VM.") warns = Appendwarns(warns, warning) } } err := c.checkDiskBlockSize() if err != nil { errs = append(errs, err) } err = c.checkRamSize() if err != nil { errs = append(errs, err) } // warns warning := c.checkHostAvailableMemory() if warning != "" { warns = Appendwarns(warns, warning) } if errs != nil && len(errs) > 0 { return errs, warns } return nil, warns } func (c *CommonConfig) checkDiskBlockSize() error { if c.DiskBlockSize == 0 { c.DiskBlockSize = DefaultDiskBlockSize } log.Println(fmt.Sprintf("%s: %v", "DiskBlockSize", c.DiskBlockSize)) if c.DiskBlockSize < MinDiskBlockSize { return fmt.Errorf("disk_block_size: Virtual machine requires disk block size >= %v MB, but defined: %v", MinDiskBlockSize, c.DiskBlockSize) } else if c.DiskBlockSize > MaxDiskBlockSize { return fmt.Errorf("disk_block_size: Virtual machine requires disk block size <= %v MB, but defined: %v", MaxDiskBlockSize, c.DiskBlockSize) } return nil } func (c *CommonConfig) checkHostAvailableMemory() string { powershellAvailable, _, _ := powershell.IsPowershellAvailable() if powershellAvailable { freeMB := powershell.GetHostAvailableMemory() if (freeMB - float64(c.RamSize)) < LowRam { return fmt.Sprintf("Hyper-V might fail to create a VM if there is not enough free memory in the system.") } } return "" } func (c *CommonConfig) checkRamSize() error { if c.RamSize == 0 { c.RamSize = DefaultRamSize } log.Println(fmt.Sprintf("%s: %v", "RamSize", c.RamSize)) if c.RamSize < MinRamSize { return fmt.Errorf("memory: Virtual machine requires memory size >= %v MB, but defined: %v", MinRamSize, c.RamSize) } else if c.RamSize > MaxRamSize { return fmt.Errorf("memory: Virtual machine requires memory size <= %v MB, but defined: %v", MaxRamSize, c.RamSize) } return nil } func (c *CommonConfig) detectSwitchName(buildName string) string { powershellAvailable, _, _ := powershell.IsPowershellAvailable() if powershellAvailable { // no switch name, try to get one attached to a online network adapter onlineSwitchName, err := hyperv.GetExternalOnlineVirtualSwitch() if onlineSwitchName != "" && err == nil { return onlineSwitchName } } return fmt.Sprintf("packer-%s", buildName) } func Appendwarns(slice []string, data ...string) []string { m := len(slice) n := m + len(data) if n > cap(slice) { // if necessary, reallocate // allocate double what's needed, for future growth. newSlice := make([]string, (n+1)*2) copy(newSlice, slice) slice = newSlice } slice = slice[0:n] copy(slice[m:n], data) return slice }