glance/doc/source/admin/useful-image-properties.rst

Useful image properties

You can set image properties that can be consumed by other services to affect the behavior of those other services. For example:

• Image properties can be used to override specific behaviors defined for Nova flavors
• Image properties can be used to affect the behavior of the Nova scheduler
• Image properties can be used to affect the behavior of particular Nova hypervisors

Using image properties

Some important points to keep in mind:

• In order to allow custom image properties, Glance must be configured with the glance-api.conf setting allow_additional_image_properties set to True. (This is the default setting.)

• The glance-api.conf setting image_property_quota should be sufficiently high to allow any additional desired properties. (The default is 128.)

• You can use Glance property protections to control access to specific image properties, should that be desirable. See the property-protections section of this Guide for more information.

• You can use a plugin to the interoperable image import process to set specific properties on non-admin images imported into Glance. See iir_plugins for more information. See the original spec, Inject metadata properties automatically to non-admin images for a discussion of the use case addressed by this plugin.

• The Nova ImagePropertiesFilter, enabled by default in the Compute Service, consumes image properties to determine proper scheduling of builds to compute hosts. See the Compute schedulers section of the Nova Configuration Guide for more information.

• Nova has a setting, non_inheritable_image_properties, that allows you to specify which image properties from the image a virtual machine was booted from will not be propagated to a snapshot image of that virtual machine. See the Configuration Options section of the Nova Configuration Guide for more information.

• In a mixed hypervisor environment, the Compute Service uses the hypervisor_type image property to match images to the correct hypervisor type.

  Depending upon what hypervisors are in use in your Nova installation, there may be other image properties that these hypervisors can consume to affect their behavior. Read through the configuration information for your hypervisors in the Hypervisors section of the Nova Configuration Guide for more information.

  In particular, the VMware hypervisor driver requires that particular image properties be set for optimal functioning. See the VMware vSphere section of the Nova Configuration Guide for more information.

Image property keys and values

Here is a list of useful image properties and the values they expect.

Specific to	Key	Description	Supported values
All	architecture	The CPU architecture that must be supported by the hypervisor. For example, x86_64, arm, or ppc64. Run uname -m to get the architecture of a machine. We strongly recommend using the architecture data vocabulary defined by the libosinfo project for this purpose.	alpha - DEC 64-bit RISC armv7l - ARM Cortex-A7 MPCore cris - Ethernet, Token Ring, AXis—Code Reduced Instruction Set i686 - Intel sixth-generation x86 (P6 micro architecture) ia64 - Itanium lm32 - Lattice Micro32 m68k - Motorola 68000 microblaze - Xilinx 32-bit FPGA (Big Endian) microblazeel - Xilinx 32-bit FPGA (Little Endian) mips - MIPS 32-bit RISC (Big Endian) mipsel - MIPS 32-bit RISC (Little Endian) mips64 - MIPS 64-bit RISC (Big Endian) mips64el - MIPS 64-bit RISC (Little Endian) openrisc - OpenCores RISC parisc - HP Precision Architecture RISC parisc64 - HP Precision Architecture 64-bit RISC ppc - PowerPC 32-bit ppc64 - PowerPC 64-bit ppcemb - PowerPC (Embedded 32-bit) s390 - IBM Enterprise Systems Architecture/390 s390x - S/390 64-bit sh4 - SuperH SH-4 (Little Endian) sh4eb - SuperH SH-4 (Big Endian) sparc - Scalable Processor Architecture, 32-bit sparc64 - Scalable Processor Architecture, 64-bit unicore32 - Microprocessor Research and Development Center RISC Unicore32 x86_64 - 64-bit extension of IA-32 xtensa - Tensilica Xtensa configurable microprocessor core xtensaeb - Tensilica Xtensa configurable microprocessor core (Big Endian)
All	hypervisor_type	The hypervisor type. Note that qemu is used for both QEMU and KVM hypervisor types.	hyperv, ironic, lxc, qemu, uml, vmware, or xen.
All	instance_type_rxtx_factor	Optional property allows created servers to have a different bandwidth cap than that defined in the network they are attached to. This factor is multiplied by the rxtx_base property of the network. The rxtx_base property defaults to 1.0, which is the same as the attached network. This parameter is only available for Xen or NSX based systems.	Float (default value is 1.0)
All	instance_uuid	For snapshot images, this is the UUID of the server used to create this image.	Valid server UUID
All	img_config_drive	Specifies whether the image needs a config drive.	mandatory or optional (default if property is not used).
All	kernel_id	The ID of an image stored in the Image service that should be used as the kernel when booting an AMI-style image.	Valid image ID
All	os_distro	The common name of the operating system distribution in lowercase (uses the same data vocabulary as the libosinfo project). Specify only a recognized value for this field. Deprecated values are listed to assist you in searching for the recognized value.	arch - Arch Linux. Do not use archlinux or org.archlinux. centos - Community Enterprise Operating System. Do not use org.centos or CentOS. debian - Debian. Do not use Debian` ororg.debian``. fedora - Fedora. Do not use Fedora, org.fedora, or org.fedoraproject. freebsd - FreeBSD. Do not use org.freebsd, freeBSD, or FreeBSD. gentoo - Gentoo Linux. Do not use Gentoo or org.gentoo. mandrake - Mandrakelinux (MandrakeSoft) distribution. Do not use mandrakelinux or MandrakeLinux. mandriva - Mandriva Linux. Do not use mandrivalinux. mes - Mandriva Enterprise Server. Do not use mandrivaent or mandrivaES. msdos - Microsoft Disc Operating System. Do not use ms-dos. netbsd - NetBSD. Do not use NetBSD or org.netbsd. netware - Novell NetWare. Do not use novell or NetWare. openbsd - OpenBSD. Do not use OpenBSD or org.openbsd. opensolaris - OpenSolaris. Do not use OpenSolaris or org.opensolaris. opensuse - openSUSE. Do not use suse, SuSE, or org.opensuse. rhel - Red Hat Enterprise Linux. Do not use redhat, RedHat, or com.redhat. sled - SUSE Linux Enterprise Desktop. Do not use com.suse. ubuntu - Ubuntu. Do not use Ubuntu, com.ubuntu, org.ubuntu, or canonical. windows - Microsoft Windows. Do not use com.microsoft.server or windoze.
All	os_version	The operating system version as specified by the distributor.	Valid version number (for example, 11.10).
All	os_secure_boot	Secure Boot is a security standard. When the instance starts, Secure Boot first examines software such as firmware and OS by their signature and only allows them to run if the signatures are valid. For Hyper-V: Images must be prepared as Generation 2 VMs. Instance must also contain hw_machine_type=hyperv-gen2 image property. Linux guests will also require bootloader's digital signature provided as os_secure_boot_signature and hypervisor_version_requires'>=10.0' image properties.	required - Enable the Secure Boot feature. disabled or optional - (default) Disable the Secure Boot feature.
All	ramdisk_id	The ID of image stored in the Image service that should be used as the ramdisk when booting an AMI-style image.	Valid image ID.
All	trait:<trait_name>	Added in the Rocky release. Functionality is similar to traits specified in flavor extra specs. Traits allow specifying a server to build on a compute node with the set of traits specified in the image. The traits are associated with the resource provider that represents the compute node in the Placement API. The syntax of specifying traits is trait:<trait_name>=value, for example: trait:HW_CPU_X86_AVX2=required trait:STORAGE_DISK_SSD=required The nova scheduler will pass required traits specified on the image to the Placement API to include only resource providers that can satisfy the required traits. Traits for the resource providers can be managed using the osc-placement plugin. Image traits are used by the nova scheduler even in cases of volume backed instances, if the volume source is an image with traits.	Only valid value is required, any other value is invalid. required - <trait_name> is required on the resource provider that represents the compute node on which the image is launched.
All	vm_mode	The virtual machine mode. This represents the host/guest ABI (application binary interface) used for the virtual machine.	hvm - Fully virtualized. This is the mode used by QEMU and KVM. xen - Xen 3.0 paravirtualized. uml - User Mode Linux paravirtualized. exe - Executables in containers. This is the mode used by LXC.
libvirt API driver	hw_cpu_sockets	The preferred number of sockets to expose to the guest.	Integer.
libvirt API driver	hw_cpu_cores	The preferred number of cores to expose to the guest.	Integer.
libvirt API driver	hw_cpu_threads	The preferred number of threads to expose to the guest.	Integer.
libvirt API driver	hw_cpu_policy	Used to pin the virtual CPUs (vCPUs) of instances to the host’s physical CPU cores (pCPUs). Host aggregates should be used to separate these pinned instances from unpinned instances as the latter will not respect the resourcing requirements of the former.	shared - (default) The guest vCPUs will be allowed to freely float across host pCPUs, albeit potentially constrained by NUMA policy. dedicated - The guest vCPUs will be strictly pinned to a set of host pCPUs. In the absence of an explicit vCPU topology request, the drivers typically expose all vCPUs as sockets with one core and one thread. When strict CPU pinning is in effect the guest CPU topology will be setup to match the topology of the CPUs to which it is pinned. This option implies an overcommit ratio of 1.0. For example, if a two vCPU guest is pinned to a single host core with two threads, then the guest will get a topology of one socket, one core, two threads.
libvirt API driver	hw_cpu_thread_policy	Further refine hw_cpu_policy=dedicated by stating how hardware CPU threads in a simultaneous multithreading-based (SMT) architecture be used. SMT-based architectures include Intel processors with Hyper-Threading technology. In these architectures, processor cores share a number of components with one or more other cores. Cores in such architectures are commonly referred to as hardware threads, while the cores that a given core share components with are known as thread siblings.	prefer - (default) The host may or may not have an SMT architecture. Where an SMT architecture is present, thread siblings are preferred. isolate - The host must not have an SMT architecture or must emulate a non-SMT architecture. If the host does not have an SMT architecture, each vCPU is placed on a different core as expected. If the host does have an SMT architecture - that is, one or more cores have thread siblings - then each vCPU is placed on a different physical core. No vCPUs from other guests are placed on the same core. All but one thread sibling on each utilized core is therefore guaranteed to be unusable. require - The host must have an SMT architecture. Each vCPU is allocated on thread siblings. If the host does not have an SMT architecture, then it is not used. If the host has an SMT architecture, but not enough cores with free thread siblings are available, then scheduling fails.
libvirt API driver	hw_disk_bus	Specifies the type of disk controller to attach disk devices to.	One of scsi, virtio, uml, xen, ide, or usb.
libvirt API driver	hw_pointer_model	Input devices that allow interaction with a graphical framebuffer, for example to provide a graphic tablet for absolute cursor movement. Currently only supported by the KVM/QEMU hypervisor configuration and VNC or SPICE consoles must be enabled.	usbtablet
libvirt API driver	hw_rng_model	Adds a random-number generator device to the image's instances. The cloud administrator can enable and control device behavior by configuring the instance's flavor. By default: The generator device is disabled. /dev/urandom is used as the default entropy source. To specify a physical HW RNG device, use the following option in the nova.conf file: rng_dev_path=/dev/hwrng	virtio, or other supported device.
libvirt API driver	hw_time_hpet	Adds support for the High Precision Event Timer (HPET) for x86 guests in the libvirt driver when hypervisor_type=qemu and architecture=i686 or architecture=x86_64. The timer can be enabled by setting hw_time_hpet=true. By default HPET remains disabled.	true or false (default)
libvirt API driver, Hyper-V driver	hw_machine_type	For libvirt: Enables booting an ARM system using the specified machine type. By default, if an ARM image is used and its type is not specified, Compute uses vexpress-a15 (for ARMv7) or virt (for AArch64) machine types. For Hyper-V: Specifies whether the Hyper-V instance will be a generation 1 or generation 2 VM. By default, if the property is not provided, the instances will be generation 1 VMs. If the image is specific for generation 2 VMs but the property is not provided accordingly, the instance will fail to boot.	For libvirt: Valid types can be viewed by using the virsh capabilities command (machine types are displayed in the machine tag). For hyper-V: Acceptable values are either hyperv-gen1 or hyperv-gen2.
libvirt API driver, XenAPI driver	os_type	The operating system installed on the image. The libvirt API driver and XenAPI driver contains logic that takes different actions depending on the value of the os_type parameter of the image. For example, for os_type=windows images, it creates a FAT32-based swap partition instead of a Linux swap partition, and it limits the injected host name to less than 16 characters.	linux or windows.
libvirt API driver	hw_scsi_model	Enables the use of VirtIO SCSI (virtio-scsi) to provide block device access for compute instances; by default, instances use VirtIO Block (virtio-blk). VirtIO SCSI is a para-virtualized SCSI controller device that provides improved scalability and performance, and supports advanced SCSI hardware.	virtio-scsi
libvirt API driver	hw_serial_port_count	Specifies the count of serial ports that should be provided. If hw:serial_port_count is not set in the flavor's extra_specs, then any count is permitted. If hw:serial_port_count is set, then this provides the default serial port count. It is permitted to override the default serial port count, but only with a lower value.	Integer
libvirt API driver	hw_video_model	The video image driver used.	vga, cirrus, vmvga, xen, or qxl.
libvirt API driver	hw_video_ram	Maximum RAM for the video image. Used only if a hw_video:ram_max_mb value has been set in the flavor's extra_specs and that value is higher than the value set in hw_video_ram.	Integer in MB (for example, 64).
libvirt API driver	hw_watchdog_action	Enables a virtual hardware watchdog device that carries out the specified action if the server hangs. The watchdog uses the i6300esb device (emulating a PCI Intel 6300ESB). If hw_watchdog_action is not specified, the watchdog is disabled.	disabled - (default) The device is not attached. Allows the user to disable the watchdog for the image, even if it has been enabled using the image's flavor. reset - Forcefully reset the guest. poweroff - Forcefully power off the guest. pause - Pause the guest. none - Only enable the watchdog; do nothing if the server hangs.
libvirt API driver	os_command_line	The kernel command line to be used by the libvirt driver, instead of the default. For Linux Containers (LXC), the value is used as arguments for initialization. This key is valid only for Amazon kernel, ramdisk, or machine images (aki, ari, or ami).
libvirt API driver and VMware API driver	hw_vif_model	Specifies the model of virtual network interface device to use.	The valid options depend on the configured hypervisor. KVM and QEMU: e1000, ne2k_pci, pcnet, rtl8139, and virtio. VMware: e1000, e1000e, VirtualE1000, VirtualE1000e, VirtualPCNet32, VirtualSriovEthernetCard, and VirtualVmxnet. Xen: e1000, netfront, ne2k_pci, pcnet, and rtl8139.
libvirt API driver	hw_vif_multiqueue_enabled	If true, this enables the virtio-net multiqueue feature. In this case, the driver sets the number of queues equal to the number of guest vCPUs. This makes the network performance scale across a number of vCPUs.	true | false
libvirt API driver	hw_boot_menu	If true, enables the BIOS bootmenu. In cases where both the image metadata and Extra Spec are set, the Extra Spec setting is used. This allows for flexibility in setting/overriding the default behavior as needed.	true or false
libvirt API driver	img_hide_hypervisor_id	Some hypervisors add a signature to their guests. While the presence of the signature can enable some paravirtualization features on the guest, it can also have the effect of preventing some drivers from loading. Hiding the signature by setting this property to true may allow such drivers to load and work.	true or false
VMware API driver	vmware_adaptertype	The virtual SCSI or IDE controller used by the hypervisor.	lsiLogic, lsiLogicsas, busLogic, ide, or paraVirtual.
VMware API driver	vmware_ostype	A VMware GuestID which describes the operating system installed in the image. This value is passed to the hypervisor when creating a virtual machine. If not specified, the key defaults to otherGuest.	See thinkvirt.com.
VMware API driver	vmware_image_version	Currently unused.	1
XenAPI driver	auto_disk_config	If true, the root partition on the disk is automatically resized before the instance boots. This value is only taken into account by the Compute service when using a Xen-based hypervisor with the XenAPI driver. The Compute service will only attempt to resize if there is a single partition on the image, and only if the partition is in ext3 or ext4 format.	true or false