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Internet Engineering Task Force (IETF) H. Asai Request for Comments: 7666 Univ. of Tokyo Category: Standards Track M. MacFaden ISSN: 2070-1721 VMware Inc. J. Schoenwaelder Jacobs University K. Shima IIJ Innovation Institute Inc. T. Tsou Huawei Technologies (USA) October 2015 Management Information Base for Virtual Machines Controlled by a Hypervisor Abstract This document defines a portion of the Management Information Base (MIB) for use with network management protocols in the Internet community. In particular, this specifies objects for managing virtual machines controlled by a hypervisor (a.k.a. virtual machine monitor). Status of This Memo This is an Internet Standards Track document. This document is a product of the Internet Engineering Task Force (IETF). It represents the consensus of the IETF community. It has received public review and has been approved for publication by the Internet Engineering Steering Group (IESG). Further information on Internet Standards is available in Section 2 of RFC 5741. Information about the current status of this document, any errata, and how to provide feedback on it may be obtained at http://www.rfc-editor.org/info/rfc7666. Asai, et al. Standards Track [Page 1] RFC 7666 Virtual Machine Monitoring MIB October 2015 Copyright Notice Copyright (c) 2015 IETF Trust and the persons identified as the document authors. All rights reserved. This document is subject to BCP 78 and the IETF Trust's Legal Provisions Relating to IETF Documents (http://trustee.ietf.org/license-info) in effect on the date of publication of this document. Please review these documents carefully, as they describe your rights and restrictions with respect to this document. Code Components extracted from this document must include Simplified BSD License text as described in Section 4.e of the Trust Legal Provisions and are provided without warranty as described in the Simplified BSD License. Table of Contents 1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . 2 2. The Internet-Standard Management Framework . . . . . . . . . 3 3. Overview and Objectives . . . . . . . . . . . . . . . . . . . 3 4. Structure of the VM-MIB Module . . . . . . . . . . . . . . . 5 5. Relationship to Other MIB Modules . . . . . . . . . . . . . . 7 6. Definitions . . . . . . . . . . . . . . . . . . . . . . . . . 8 6.1. VM-MIB . . . . . . . . . . . . . . . . . . . . . . . . . 8 6.2. IANA-STORAGE-MEDIA-TYPE-MIB . . . . . . . . . . . . . . . 43 7. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 45 8. Security Considerations . . . . . . . . . . . . . . . . . . . 45 9. References . . . . . . . . . . . . . . . . . . . . . . . . . 46 9.1. Normative References . . . . . . . . . . . . . . . . . . 46 9.2. Informative References . . . . . . . . . . . . . . . . . 47 Appendix A. State Transition Table . . . . . . . . . . . . . . . 49 Acknowledgements . . . . . . . . . . . . . . . . . . . . . . . . 51 Contributors . . . . . . . . . . . . . . . . . . . . . . . . . . 51 Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . 52 1. Introduction This document defines a portion of the Management Information Base (MIB) for use with network management protocols in the Internet community. In particular, this specifies objects for managing virtual machines controlled by a hypervisor (a.k.a. virtual machine monitor). A hypervisor controls multiple virtual machines on a single physical machine by allocating resources to each virtual machine using virtualization technologies. Therefore, this MIB module contains information on virtual machines and their resources controlled by a hypervisor as well as information about a hypervisor's hardware and software. Asai, et al. Standards Track [Page 2] RFC 7666 Virtual Machine Monitoring MIB October 2015 The design of this MIB module has been derived from product-specific MIB modules -- namely, a MIB module for managing guests of the Xen hypervisor [Xen], a MIB module for managing virtual machines controlled by the VMware hypervisor [VMware], and a MIB module using the libvirt programming interface [libvirt] to access different hypervisors. However, this MIB module attempts to generalize the managed objects to support other implementations of hypervisors. The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this document are to be interpreted as described in RFC 2119 [RFC2119]. 2. The Internet-Standard Management Framework For a detailed overview of the documents that describe the current Internet-Standard Management Framework, please refer to section 7 of RFC 3410 [RFC3410]. Managed objects are accessed via a virtual information store, termed the Management Information Base or MIB. MIB objects are generally accessed through the Simple Network Management Protocol (SNMP). Objects in the MIB are defined using the mechanisms defined in the Structure of Management Information (SMI). This memo specifies a MIB module that is compliant to the SMIv2, which is described in STD 58, RFC 2578 [RFC2578], STD 58, RFC 2579 [RFC2579] and STD 58, RFC 2580 [RFC2580]. 3. Overview and Objectives This document defines a portion of MIB for the management of virtual machines controlled by a hypervisor. This MIB module consists of the managed objects related to system and software information of a hypervisor, the list of virtual machines controlled by the hypervisor, and information of virtual resources allocated to virtual machines by the hypervisor. This document specifies four specific types of virtual resources that are common to many hypervisor implementations: processors (CPUs), memory, network interfaces (NICs), and storage devices. These managed objects are independent of the families of hypervisors or operating systems running on virtual machines. Asai, et al. Standards Track [Page 3] RFC 7666 Virtual Machine Monitoring MIB October 2015 +------------------------------------------------------------------+ | +-------------------------------------------------+ | | | Virtual machine | | | | | | | | +---------+ +---------+ +---------+ +---------+ | ....... | | | | Virtual | | Virtual | | Virtual | | Virtual | | | | +-| CPU |-| memory |-| storage |-| NIC |-+ | | +---------+ +---------+ +---------+ +---------+ | | Virtual resources | | ^ | | | Allocation using virtualization technologies | | | | | +-- Physical resources ._____. | | +--------+ .--------. / \ +--^--+ | +- - - - - - - | | - /________/| - *\_______/* - | | - -+ | Hypervisor | CPU | | Memory |/ | Storage | | NIC | | | +--------+ +--------+ \_______/ +-----+ | | +-----------------------+ | | || MIB objects || | | +-----------------------+ | +------------------------------------------------------------------+ Figure 1: An Example of a Virtualization Environment On the common implementations of hypervisors, a hypervisor allocates virtual resources from physical resources: virtual CPUs, virtual memory, virtual storage devices, and virtual network interfaces to virtual machines as shown in Figure 1. Since the virtual resources allocated to virtual machines are managed by the hypervisor, the MIB objects are managed at the hypervisor. In case that the objects are accessed through the SNMP, an SNMP agent is launched at the hypervisor to provide access to the objects. The objects are managed from the viewpoint of the operators of hypervisors, but not the operators of virtual machines; that is, the objects do not take into account the actual resource utilization on each virtual machine but rather the resource allocation from the physical resources. For example, vmNetworkIfIndex indicates the virtual interface associated with an interface of a virtual machine at the hypervisor, and consequently, the 'in' and 'out' directions denote 'from a virtual machine to the hypervisor' and 'from the hypervisor to a virtual machine', respectively. Moreover, vmStorageAllocatedSize denotes the size allocated by the hypervisor, but not the size actually used by the operating system on the virtual machine. This means that vmStorageDefinedSize and vmStorageAllocatedSize do not take different values when the vmStorageSourceType is 'block' or 'raw'. Asai, et al. Standards Track [Page 4] RFC 7666 Virtual Machine Monitoring MIB October 2015 The objectives of this document are the following: 1) this document defines the MIB objects common to many hypervisors for the management of virtual machines controlled by a hypervisor, and 2) this document clarifies the relationship with other MIB modules for managing host computers and network devices. 4. Structure of the VM-MIB Module The MIB module is organized into a group of scalars and tables. The scalars below 'vmHypervisor' provide basic information about the hypervisor. The 'vmTable' lists the virtual machines (guests) that are known to the hypervisor. The 'vmCpuTable' provides the mapping table of virtual CPUs to virtual machines, including CPU time used by each virtual CPU. The 'vmCpuAffinityTable' provides the affinity of each virtual CPU to a physical CPU. The 'vmStorageTable' provides the list of virtual storage devices and their mapping to virtual machines. In case that an entry in the 'vmStorageTable' has a corresponding parent physical storage device managed in 'vmStorageTable' of HOST-RESOURCES-MIB [RFC2790], the entry contains a pointer 'vmStorageParent' to the physical storage device. The 'vmNetworkTable' provides the list of virtual network interfaces and their mapping to virtual machines. Each entry in the 'vmNetworkTable' also provides a pointer 'vmNetworkIfIndex' to the corresponding entry in the 'ifTable' of IF-MIB [RFC2863]. In case that an entry in the 'vmNetworkTable' has a corresponding parent physical network interface managed in the 'ifTable' of IF-MIB, the entry contains a pointer 'vmNetworkParent' to the physical network interface. Asai, et al. Standards Track [Page 5] RFC 7666 Virtual Machine Monitoring MIB October 2015 Notation: +-------------+ | vmOperState | : Finite state; the first line presents the | | 'vmOperState', and the second line presents a +-------------+ notification generated if applicable. + - - - - - - + | vmOperState | : Transient state; first line presents the | | 'vmOperState', and the second line presents a + - - - - - - + notification generated if applicable. ! : Notification; a text followed by the symbol "!" denotes a notification generated. ===================================================================== +---------------+ + - - - - - - - -+ +------------+ | suspended(6) |<--| suspending(5) | | paused(8) | | !vmSuspended | | !vmSuspending | | !vmPaused | +---------------+ + - - - - - - - -+ +------------+ | ^ ^ | | | v | | + - - - - - - -+ +-------------+<----------+ + - - - - - - - + | resuming(7) |-->| running(4) |<-------------->| migrating(9) | | !vmResuming | | !vmRunning | | !vmMigrating | + - - - - - - -+ +-------------+ + - - - - - - - + | ^ ^ | | | | +-------------------+ | | | | v v v + - - - - - - - - - + +---------------+ | shuttingdown(10) |--------->| shutdown(11) | | !vmShuttingdown | | !vmShutdown | + - - - - - - - - - + +---------------+ ^ | | v !vmDeleted +--------------+ + - - - - - - - -+ (Deleted from | crashed(12) | | preparing(3) | vmTable) | !vmCrashed | | | +--------------+ + - - - - - - - -+ Figure 2: State Transition of a Virtual Machine Asai, et al. Standards Track [Page 6] RFC 7666 Virtual Machine Monitoring MIB October 2015 The 'vmAdminState' and 'vmOperState' textual conventions define an administrative state and an operational state model for virtual machines. Events causing transitions between major operational states will cause the generation of notifications. Per virtual machine (per-VM) notifications (vmRunning, vmShutdown, vmPaused, vmSuspended, vmCrashed, vmDeleted) are generated if vmPerVMNotificationsEnabled is true(1). Bulk notifications (vmBulkRunning, vmBulkShutdown, vmBulkPaused, vmBulkSuspended, vmBulkCrashed, vmBulkDeleted) are generated if vmBulkNotificationsEnabled is true(1). The overview of the transition of 'vmOperState' by the write access to 'vmAdminState' and the notifications generated by the operational state changes are illustrated in Figure 2. The detailed state transition is summarized in Appendix A. Note that the notifications shown in this figure are per-VM notifications. In the case of Bulk notifications, the prefix 'vm' is replaced with 'vmBulk'. The bulk notification mechanism is designed to reduce the number of notifications that are trapped by an SNMP manager. This is because the number of virtual machines managed by a bunch of hypervisors in a data center possibly becomes several thousands or more, and consequently, many notifications could be trapped if these virtual machines frequently change their administrative state. The per-VM notifications carry more detailed information, but the scalability is a problem. The notification filtering mechanism described in Section 6 of RFC 3413 [RFC3413] is used by the management applications to control the notifications. 5. Relationship to Other MIB Modules The HOST-RESOURCES-MIB [RFC2790] defines the MIB objects for managing host systems. On systems implementing the HOST-RESOURCES-MIB, the objects of HOST-RESOURCES-MIB indicate resources of a hypervisor. Some objects of HOST-RESOURCES-MIB are used to indicate physical resources through indexes. On systems implementing HOST-RESOURCES-MIB, the 'vmCpuPhysIndex' points to the processor's 'hrDeviceIndex' in the 'hrProcessorTable'. The 'vmStorageParent' also points to the storage device's 'hrStorageIndex' in the 'hrStorageTable'. The IF-MIB [RFC2863] defines the MIB objects for managing network interfaces. Both physical and virtual network interfaces are required to be contained in the 'ifTable' of IF-MIB. The virtual network interfaces in the 'ifTable' of IF-MIB are pointed from the 'vmNetworkTable' defined in this document through a pointer 'vmNetworkIfIndex'. In case that an entry in the 'vmNetworkTable' Asai, et al. Standards Track [Page 7] RFC 7666 Virtual Machine Monitoring MIB October 2015 has a corresponding parent physical network interface managed in the 'ifTable' of IF-MIB, the entry contains a pointer 'vmNetworkParent' to the physical network interface. The objects related to virtual switches are not included in the MIB module defined in this document though virtual switches MAY be placed on a hypervisor. This is because the virtual network interfaces are the lowest abstraction of network resources allocated to a virtual machine. Instead of including the objects related to virtual switches, for example, IEEE8021-BRIDGE-MIB [IEEE8021-BRIDGE-MIB] and IEEE8021-Q-BRIDGE-MIB [IEEE8021-Q-BRIDGE-MIB] could be used. The other objects related to virtual machines such as management IP addresses of a virtual machine are not included in this MIB module because this MIB module defines the objects common to general hypervisors, but they are specific to some hypervisors. They may be included in the entLogicalTable of ENTITY-MIB [RFC6933]. The SNMPv2-MIB [RFC3418] provides an object 'sysObjectID' that identifies the network management subsytem and an object 'sysUpTime' that reports the uptime of the network management portion of the system. The HOST-RESOURCES-MIB [RFC2790] provides an object 'hrSystemUptime' that reports the uptime of the host's operating system. To complement these objects, the new 'vmHvUpTime' object reports the time since the hypervisor was last re-initialized, and the new 'vmHvObjectID' provides an identification of the hypervisor software. 6. Definitions 6.1. VM-MIB VM-MIB DEFINITIONS ::= BEGIN IMPORTS MODULE-IDENTITY, OBJECT-TYPE, NOTIFICATION-TYPE, TimeTicks, Counter64, Integer32, mib-2 FROM SNMPv2-SMI OBJECT-GROUP, MODULE-COMPLIANCE, NOTIFICATION-GROUP FROM SNMPv2-CONF TEXTUAL-CONVENTION, PhysAddress, TruthValue FROM SNMPv2-TC SnmpAdminString FROM SNMP-FRAMEWORK-MIB UUIDorZero FROM UUID-TC-MIB InterfaceIndexOrZero FROM IF-MIB Asai, et al. Standards Track [Page 8] RFC 7666 Virtual Machine Monitoring MIB October 2015 IANAStorageMediaType FROM IANA-STORAGE-MEDIA-TYPE-MIB; vmMIB MODULE-IDENTITY LAST-UPDATED "201510120000Z" -- 12 October 2015 ORGANIZATION "IETF Operations and Management Area Working Group" CONTACT-INFO "WG Email: opsawg@ietf.org Mailing list subscription info: https://www.ietf.org/mailman/listinfo/opsawg Hirochika Asai The University of Tokyo 7-3-1 Hongo Bunkyo-ku, Tokyo 113-8656 Japan Phone: +81 3 5841 6748 Email: panda@hongo.wide.ad.jp Michael MacFaden VMware Inc. Email: mrm@vmware.com Juergen Schoenwaelder Jacobs University Campus Ring 1 Bremen 28759 Germany Email: j.schoenwaelder@jacobs-university.de Keiichi Shima IIJ Innovation Institute Inc. 3-13 Kanda-Nishikicho Chiyoda-ku, Tokyo 101-0054 Japan Email: keiichi@iijlab.net Tina Tsou Huawei Technologies (USA) 2330 Central Expressway Santa Clara, CA 95050 United States Email: tina.tsou.zouting@huawei.com" DESCRIPTION "This MIB module is for use in managing a hypervisor and virtual machines controlled by the hypervisor. Asai, et al. Standards Track [Page 9] RFC 7666 Virtual Machine Monitoring MIB October 2015 Copyright (c) 2015 IETF Trust and the persons identified as authors of the code. All rights reserved. Redistribution and use in source and binary forms, with or without modification, is permitted pursuant to, and subject to the license terms contained in, the Simplified BSD License set forth in Section 4.c of the IETF Trust's Legal Provisions Relating to IETF Documents (http://trustee.ietf.org/license-info)." REVISION "201510120000Z" -- 12 October 2015 DESCRIPTION "The initial version of this MIB, published as RFC 7666." ::= { mib-2 236 } vmNotifications OBJECT IDENTIFIER ::= { vmMIB 0 } vmObjects OBJECT IDENTIFIER ::= { vmMIB 1 } vmConformance OBJECT IDENTIFIER ::= { vmMIB 2 } -- Textual conversion definitions -- VirtualMachineIndex ::= TEXTUAL-CONVENTION DISPLAY-HINT "d" STATUS current DESCRIPTION "A unique value, greater than zero, identifying a virtual machine. The value for each virtual machine MUST remain constant at least from one re-initialization of the hypervisor to the next re-initialization." SYNTAX Integer32 (1..2147483647) VirtualMachineIndexOrZero ::= TEXTUAL-CONVENTION DISPLAY-HINT "d" STATUS current DESCRIPTION "This textual convention is an extension of the VirtualMachineIndex convention. This extension permits the additional value of zero. The meaning of the value zero is object-specific and MUST therefore be defined as part of the description of any object that uses this syntax. Examples of the usage of zero might include situations where a virtual machine is unknown, or when none or all virtual machines need to be referenced." SYNTAX Integer32 (0..2147483647) VirtualMachineAdminState ::= TEXTUAL-CONVENTION Asai, et al. Standards Track [Page 10] RFC 7666 Virtual Machine Monitoring MIB October 2015 STATUS current DESCRIPTION "The administrative state of a virtual machine: running(1) The administrative state of the virtual machine indicating the virtual machine is currently online or should be brought online. suspended(2) The administrative state of the virtual machine where its memory and CPU execution state has been saved to persistent store and will be restored at next running(1). paused(3) The administrative state indicating the virtual machine is resident in memory but is no longer scheduled to execute by the hypervisor. shutdown(4) The administrative state of the virtual machine indicating the virtual machine is currently offline or should be shutting down." SYNTAX INTEGER { running(1), suspended(2), paused(3), shutdown(4) } VirtualMachineOperState ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "The operational state of a virtual machine: unknown(1) The operational state of the virtual machine is unknown, e.g., because the implementation failed to obtain the state from the hypervisor. other(2) The operational state of the virtual machine indicating that an operational state is obtained from the hypervisor, but it is not a state defined in this MIB module. preparing(3) The operational state of the virtual machine indicating the virtual machine is Asai, et al. Standards Track [Page 11] RFC 7666 Virtual Machine Monitoring MIB October 2015 currently in the process of preparation, e.g., allocating and initializing virtual storage after creating (defining) the virtual machine. running(4) The operational state of the virtual machine indicating the virtual machine is currently executed, but it is not in the process of preparing(3), suspending(5), resuming(7), migrating(9), and shuttingdown(10). suspending(5) The operational state of the virtual machine indicating the virtual machine is currently in the process of suspending to save its memory and CPU execution state to persistent store. This is a transient state from running(4) to suspended(6). suspended(6) The operational state of the virtual machine indicating the virtual machine is currently suspended, which means the memory and CPU execution state of the virtual machine are saved to persistent store. During this state, the virtual machine is not scheduled to execute by the hypervisor. resuming(7) The operational state of the virtual machine indicating the virtual machine is currently in the process of resuming to restore its memory and CPU execution state from persistent store. This is a transient state from suspended(6) to running(4). paused(8) The operational state of the virtual machine indicating the virtual machine is resident in memory but no longer scheduled to execute by the hypervisor. migrating(9) The operational state of the virtual machine indicating the virtual machine is currently in the process of migration from/to another hypervisor. shuttingdown(10) Asai, et al. Standards Track [Page 12] RFC 7666 Virtual Machine Monitoring MIB October 2015 The operational state of the virtual machine indicating the virtual machine is currently in the process of shutting down. This is a transient state from running(4) to shutdown(11). shutdown(11) The operational state of the virtual machine indicating the virtual machine is down, and CPU execution is no longer scheduled by the hypervisor and its memory is not resident in the hypervisor. crashed(12) The operational state of the virtual machine indicating the virtual machine has crashed." SYNTAX INTEGER { unknown(1), other(2), preparing(3), running(4), suspending(5), suspended(6), resuming(7), paused(8), migrating(9), shuttingdown(10), shutdown(11), crashed(12) } VirtualMachineAutoStart ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "The autostart configuration of a virtual machine: unknown(1) The autostart configuration is unknown, e.g., because the implementation failed to obtain the autostart configuration from the hypervisor. enabled(2) The autostart configuration of the virtual machine is enabled. The virtual machine should be automatically brought online at the next re-initialization of the hypervisor. disabled(3) The autostart configuration of the virtual machine is disabled. The virtual Asai, et al. Standards Track [Page 13] RFC 7666 Virtual Machine Monitoring MIB October 2015 machine should not be automatically brought online at the next re-initialization of the hypervisor." SYNTAX INTEGER { unknown(1), enabled(2), disabled(3) } VirtualMachinePersistent ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "This value indicates whether a virtual machine has a persistent configuration, which means the virtual machine will still exist after shutting down: unknown(1) The persistent configuration is unknown, e.g., because the implementation failed to obtain the persistent configuration from the hypervisor. (read-only) persistent(2) The virtual machine is persistent, i.e., the virtual machine will exist after it shuts down. transient(3) The virtual machine is transient, i.e., the virtual machine will not exist after it shuts down." SYNTAX INTEGER { unknown(1), persistent(2), transient(3) } VirtualMachineCpuIndex ::= TEXTUAL-CONVENTION DISPLAY-HINT "d" STATUS current DESCRIPTION "A unique value for each virtual machine, greater than zero, identifying a virtual CPU assigned to a virtual machine. The value for each virtual CPU MUST remain constant at least from one re-initialization of the hypervisor to the next re-initialization." SYNTAX Integer32 (1..2147483647) VirtualMachineStorageIndex ::= TEXTUAL-CONVENTION DISPLAY-HINT "d" STATUS current Asai, et al. Standards Track [Page 14] RFC 7666 Virtual Machine Monitoring MIB October 2015 DESCRIPTION "A unique value for each virtual machine, greater than zero, identifying a virtual storage device allocated to a virtual machine. The value for each virtual storage device MUST remain constant at least from one re-initialization of the hypervisor to the next re-initialization." SYNTAX Integer32 (1..2147483647) VirtualMachineStorageSourceType ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "The source type of a virtual storage device: unknown(1) The source type is unknown, e.g., because the implementation failed to obtain the media type from the hypervisor. other(2) The source type is other than those defined in this conversion. block(3) The source type is a block device. raw(4) The source type is a raw-formatted file. sparse(5) The source type is a sparse file. network(6) The source type is a network device." SYNTAX INTEGER { unknown(1), other(2), block(3), raw(4), sparse(5), network(6) } VirtualMachineStorageAccess ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "The access permission of a virtual storage: unknown(1) The access permission of the virtual storage is unknown. readwrite(2) The virtual storage is a read-write device. Asai, et al. Standards Track [Page 15] RFC 7666 Virtual Machine Monitoring MIB October 2015 readonly(3) The virtual storage is a read-only device." SYNTAX INTEGER { unknown(1), readwrite(2), readonly(3) } VirtualMachineNetworkIndex ::= TEXTUAL-CONVENTION DISPLAY-HINT "d" STATUS current DESCRIPTION "A unique value for each virtual machine, greater than zero, identifying a virtual network interface allocated to the virtual machine. The value for each virtual network interface MUST remain constant at least from one re-initialization of the hypervisor to the next re-initialization." SYNTAX Integer32 (1..2147483647) VirtualMachineList ::= TEXTUAL-CONVENTION DISPLAY-HINT "1x" STATUS current DESCRIPTION "Each octet within this value specifies a set of eight virtual machine vmIndex values, with the first octet specifying virtual machine 1 through 8, the second octet specifying virtual machine 9 through 16, etc. Within each octet, the most significant bit represents the lowest-numbered vmIndex, and the least significant bit represents the highest-numbered vmIndex. Thus, each virtual machine of the host is represented by a single bit within the value of this object. If that bit has a value of '1', then that virtual machine is included in the set of virtual machines; the virtual machine is not included if its bit has a value of '0'." SYNTAX OCTET STRING -- The hypervisor group -- -- A collection of objects common to all hypervisors. -- vmHypervisor OBJECT IDENTIFIER ::= { vmObjects 1 } vmHvSoftware OBJECT-TYPE SYNTAX SnmpAdminString (SIZE (0..255)) MAX-ACCESS read-only STATUS current Asai, et al. Standards Track [Page 16] RFC 7666 Virtual Machine Monitoring MIB October 2015 DESCRIPTION "A textual description of the hypervisor software. This value SHOULD NOT include its version as it SHOULD be included in 'vmHvVersion'." ::= { vmHypervisor 1 } vmHvVersion OBJECT-TYPE SYNTAX SnmpAdminString (SIZE (0..255)) MAX-ACCESS read-only STATUS current DESCRIPTION "A textual description of the version of the hypervisor software." ::= { vmHypervisor 2 } vmHvObjectID OBJECT-TYPE SYNTAX OBJECT IDENTIFIER MAX-ACCESS read-only STATUS current DESCRIPTION "The vendor's authoritative identification of the hypervisor software contained in the entity. This value is allocated within the SMI enterprises subtree (1.3.6.1.4.1). Note that this is different from sysObjectID in the SNMPv2-MIB (RFC 3418) because sysObjectID is not the identification of the hypervisor software but the device, firmware, or management operating system." ::= { vmHypervisor 3 } vmHvUpTime OBJECT-TYPE SYNTAX TimeTicks MAX-ACCESS read-only STATUS current DESCRIPTION "The time (in centiseconds) since the hypervisor was last re-initialized. Note that this is different from sysUpTime in the SNMPv2-MIB (RFC 3418) and hrSystemUptime in the HOST-RESOURCES-MIB (RFC 2790) because sysUpTime is the uptime of the network management portion of the system, and hrSystemUptime is the uptime of the management operating system but not the hypervisor software." ::= { vmHypervisor 4 } -- The virtual machine information -- Asai, et al. Standards Track [Page 17] RFC 7666 Virtual Machine Monitoring MIB October 2015 -- A collection of objects common to all virtual machines. -- vmNumber OBJECT-TYPE SYNTAX Integer32 (0..2147483647) MAX-ACCESS read-only STATUS current DESCRIPTION "The number of virtual machines (regardless of their current state) present on this hypervisor." ::= { vmObjects 2 } vmTableLastChange OBJECT-TYPE SYNTAX TimeTicks MAX-ACCESS read-only STATUS current DESCRIPTION "The value of vmHvUpTime at the time of the last creation or deletion of an entry in the vmTable." ::= { vmObjects 3 } vmTable OBJECT-TYPE SYNTAX SEQUENCE OF VmEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of virtual machine entries. The number of entries is given by the value of vmNumber." ::= { vmObjects 4 } vmEntry OBJECT-TYPE SYNTAX VmEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing management information applicable to a particular virtual machine." INDEX { vmIndex } ::= { vmTable 1 } VmEntry ::= SEQUENCE { vmIndex VirtualMachineIndex, vmName SnmpAdminString, vmUUID UUIDorZero, vmOSType SnmpAdminString, vmAdminState VirtualMachineAdminState, vmOperState VirtualMachineOperState, vmAutoStart VirtualMachineAutoStart, Asai, et al. Standards Track [Page 18] RFC 7666 Virtual Machine Monitoring MIB October 2015 vmPersistent VirtualMachinePersistent, vmCurCpuNumber Integer32, vmMinCpuNumber Integer32, vmMaxCpuNumber Integer32, vmMemUnit Integer32, vmCurMem Integer32, vmMinMem Integer32, vmMaxMem Integer32, vmUpTime TimeTicks, vmCpuTime Counter64 } vmIndex OBJECT-TYPE SYNTAX VirtualMachineIndex MAX-ACCESS not-accessible STATUS current DESCRIPTION "A unique value, greater than zero, identifying the virtual machine. The value assigned to a given virtual machine may not persist across re-initialization of the hypervisor. A command generator MUST use the vmUUID to identify a given virtual machine of interest." ::= { vmEntry 1 } vmName OBJECT-TYPE SYNTAX SnmpAdminString (SIZE (0..255)) MAX-ACCESS read-only STATUS current DESCRIPTION "A textual name of the virtual machine." ::= { vmEntry 2 } vmUUID OBJECT-TYPE SYNTAX UUIDorZero MAX-ACCESS read-only STATUS current DESCRIPTION "The virtual machine's 128-bit Universally Unique Identifier (UUID) or the zero-length string when a UUID is not available. If set, the UUID MUST uniquely identify a virtual machine from all other virtual machines in an administrative domain. A zero-length octet string is returned if no UUID information is known." ::= { vmEntry 3 } vmOSType OBJECT-TYPE SYNTAX SnmpAdminString (SIZE (0..255)) Asai, et al. Standards Track [Page 19] RFC 7666 Virtual Machine Monitoring MIB October 2015 MAX-ACCESS read-only STATUS current DESCRIPTION "A textual description containing operating system information installed on the virtual machine. This value corresponds to the operating system the hypervisor assumes to be running when the virtual machine is started. This may differ from the actual operating system in case the virtual machine boots into a different operating system." ::= { vmEntry 4 } vmAdminState OBJECT-TYPE SYNTAX VirtualMachineAdminState MAX-ACCESS read-only STATUS current DESCRIPTION "The administrative state of the virtual machine." ::= { vmEntry 5 } vmOperState OBJECT-TYPE SYNTAX VirtualMachineOperState MAX-ACCESS read-only STATUS current DESCRIPTION "The operational state of the virtual machine." ::= { vmEntry 6 } vmAutoStart OBJECT-TYPE SYNTAX VirtualMachineAutoStart MAX-ACCESS read-only STATUS current DESCRIPTION "The autostart configuration of the virtual machine. If this value is enable(2), the virtual machine automatically starts at the next initialization of the hypervisor." ::= { vmEntry 7 } vmPersistent OBJECT-TYPE SYNTAX VirtualMachinePersistent MAX-ACCESS read-only STATUS current DESCRIPTION "This value indicates whether the virtual machine has a persistent configuration, which means the virtual machine will still exist after its shutdown." ::= { vmEntry 8 } Asai, et al. Standards Track [Page 20] RFC 7666 Virtual Machine Monitoring MIB October 2015 vmCurCpuNumber OBJECT-TYPE SYNTAX Integer32 (0..2147483647) MAX-ACCESS read-only STATUS current DESCRIPTION "The number of virtual CPUs currently assigned to the virtual machine." ::= { vmEntry 9 } vmMinCpuNumber OBJECT-TYPE SYNTAX Integer32 (-1|0..2147483647) MAX-ACCESS read-only STATUS current DESCRIPTION "The minimum number of virtual CPUs that are assigned to the virtual machine when it is in a power-on state. The value -1 indicates that there is no hard boundary for the minimum number of virtual CPUs." ::= { vmEntry 10 } vmMaxCpuNumber OBJECT-TYPE SYNTAX Integer32 (-1|0..2147483647) MAX-ACCESS read-only STATUS current DESCRIPTION "The maximum number of virtual CPUs that are assigned to the virtual machine when it is in a power-on state. The value -1 indicates that there is no limit." ::= { vmEntry 11 } vmMemUnit OBJECT-TYPE SYNTAX Integer32 (1..2147483647) MAX-ACCESS read-only STATUS current DESCRIPTION "The multiplication unit in bytes for vmCurMem, vmMinMem, and vmMaxMem. For example, when this value is 1024, the memory size unit for vmCurMem, vmMinMem, and vmMaxMem is KiB." ::= { vmEntry 12 } vmCurMem OBJECT-TYPE SYNTAX Integer32 (0..2147483647) MAX-ACCESS read-only STATUS current DESCRIPTION "The current memory size currently allocated to the virtual memory module in the unit designated by Asai, et al. Standards Track [Page 21] RFC 7666 Virtual Machine Monitoring MIB October 2015 vmMemUnit." ::= { vmEntry 13 } vmMinMem OBJECT-TYPE SYNTAX Integer32 (-1|0..2147483647) MAX-ACCESS read-only STATUS current DESCRIPTION "The minimum memory size defined to the virtual machine in the unit designated by vmMemUnit. The value -1 indicates that there is no hard boundary for the minimum memory size." ::= { vmEntry 14 } vmMaxMem OBJECT-TYPE SYNTAX Integer32 (-1|0..2147483647) MAX-ACCESS read-only STATUS current DESCRIPTION "The maximum memory size defined to the virtual machine in the unit designated by vmMemUnit. The value -1 indicates that there is no limit." ::= { vmEntry 15 } vmUpTime OBJECT-TYPE SYNTAX TimeTicks MAX-ACCESS read-only STATUS current DESCRIPTION "The time (in centiseconds) since the administrative state of the virtual machine was last changed from shutdown(4) to running(1)." ::= { vmEntry 16 } vmCpuTime OBJECT-TYPE SYNTAX Counter64 UNITS "microsecond" MAX-ACCESS read-only STATUS current DESCRIPTION "The total CPU time used in microseconds. If the number of virtual CPUs is larger than 1, vmCpuTime may exceed real time. Discontinuities in the value of this counter can occur at re-initialization of the hypervisor and administrative state (vmAdminState) changes of the Asai, et al. Standards Track [Page 22] RFC 7666 Virtual Machine Monitoring MIB October 2015 virtual machine." ::= { vmEntry 17 } -- The virtual CPU on each virtual machines vmCpuTable OBJECT-TYPE SYNTAX SEQUENCE OF VmCpuEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The table of virtual CPUs provided by the hypervisor." ::= { vmObjects 5 } vmCpuEntry OBJECT-TYPE SYNTAX VmCpuEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry for one virtual processor assigned to a virtual machine." INDEX { vmIndex, vmCpuIndex } ::= { vmCpuTable 1 } VmCpuEntry ::= SEQUENCE { vmCpuIndex VirtualMachineCpuIndex, vmCpuCoreTime Counter64 } vmCpuIndex OBJECT-TYPE SYNTAX VirtualMachineCpuIndex MAX-ACCESS not-accessible STATUS current DESCRIPTION "A unique value identifying a virtual CPU assigned to the virtual machine." ::= { vmCpuEntry 1 } vmCpuCoreTime OBJECT-TYPE SYNTAX Counter64 UNITS "microsecond" MAX-ACCESS read-only STATUS current DESCRIPTION "The total CPU time used by this virtual CPU in microseconds. Discontinuities in the value of this counter can occur at re-initialization of the hypervisor and Asai, et al. Standards Track [Page 23] RFC 7666 Virtual Machine Monitoring MIB October 2015 administrative state (vmAdminState) changes of the virtual machine." ::= { vmCpuEntry 2 } -- The virtual CPU affinity on each virtual machines vmCpuAffinityTable OBJECT-TYPE SYNTAX SEQUENCE OF VmCpuAffinityEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of CPU affinity entries of a virtual CPU." ::= { vmObjects 6 } vmCpuAffinityEntry OBJECT-TYPE SYNTAX VmCpuAffinityEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing CPU affinity associated with a particular virtual machine." INDEX { vmIndex, vmCpuIndex, vmCpuPhysIndex } ::= { vmCpuAffinityTable 1 } VmCpuAffinityEntry ::= SEQUENCE { vmCpuPhysIndex Integer32, vmCpuAffinity INTEGER } vmCpuPhysIndex OBJECT-TYPE SYNTAX Integer32 (1..2147483647) MAX-ACCESS not-accessible STATUS current DESCRIPTION "A value identifying a physical CPU on the hypervisor. On systems implementing the HOST-RESOURCES-MIB, the value MUST be the same value that is used as the index in the hrProcessorTable (hrDeviceIndex)." ::= { vmCpuAffinityEntry 2 } vmCpuAffinity OBJECT-TYPE SYNTAX INTEGER { unknown(0), -- unknown enable(1), -- enabled disable(2) -- disabled } MAX-ACCESS read-only Asai, et al. Standards Track [Page 24] RFC 7666 Virtual Machine Monitoring MIB October 2015 STATUS current DESCRIPTION "The CPU affinity of this virtual CPU to the physical CPU represented by 'vmCpuPhysIndex'." ::= { vmCpuAffinityEntry 3 } -- The virtual storage devices on each virtual machine. This -- document defines some overlapped objects with hrStorage in -- HOST-RESOURCES-MIB (RFC 2790), because virtual resources are -- allocated from the hypervisor's resources, which is the 'host -- resources'. vmStorageTable OBJECT-TYPE SYNTAX SEQUENCE OF VmStorageEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The conceptual table of virtual storage devices attached to the virtual machine." ::= { vmObjects 7 } vmStorageEntry OBJECT-TYPE SYNTAX VmStorageEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry for one virtual storage device attached to the virtual machine." INDEX { vmStorageVmIndex, vmStorageIndex } ::= { vmStorageTable 1 } VmStorageEntry ::= SEQUENCE { vmStorageVmIndex VirtualMachineIndexOrZero, vmStorageIndex VirtualMachineStorageIndex, vmStorageParent Integer32, vmStorageSourceType VirtualMachineStorageSourceType, vmStorageSourceTypeString SnmpAdminString, vmStorageResourceID SnmpAdminString, vmStorageAccess VirtualMachineStorageAccess, vmStorageMediaType IANAStorageMediaType, vmStorageMediaTypeString SnmpAdminString, vmStorageSizeUnit Integer32, vmStorageDefinedSize Integer32, vmStorageAllocatedSize Integer32, vmStorageReadIOs Counter64, vmStorageWriteIOs Counter64, Asai, et al. Standards Track [Page 25] RFC 7666 Virtual Machine Monitoring MIB October 2015 vmStorageReadOctets Counter64, vmStorageWriteOctets Counter64, vmStorageReadLatency Counter64, vmStorageWriteLatency Counter64 } vmStorageVmIndex OBJECT-TYPE SYNTAX VirtualMachineIndexOrZero MAX-ACCESS not-accessible STATUS current DESCRIPTION "This value identifies the virtual machine (guest) this storage device has been allocated to. The value zero indicates that the storage device is currently not allocated to any virtual machines." ::= { vmStorageEntry 1 } vmStorageIndex OBJECT-TYPE SYNTAX VirtualMachineStorageIndex MAX-ACCESS not-accessible STATUS current DESCRIPTION "A unique value identifying a virtual storage device allocated to the virtual machine." ::= { vmStorageEntry 2 } vmStorageParent OBJECT-TYPE SYNTAX Integer32 (0..2147483647) MAX-ACCESS read-only STATUS current DESCRIPTION "The value of hrStorageIndex, which is the parent (i.e., physical) device of this virtual device on systems implementing the HOST-RESOURCES-MIB. The value zero denotes this virtual device is not any child represented in the hrStorageTable." ::= { vmStorageEntry 3 } vmStorageSourceType OBJECT-TYPE SYNTAX VirtualMachineStorageSourceType MAX-ACCESS read-only STATUS current DESCRIPTION "The source type of the virtual storage device." ::= { vmStorageEntry 4 } vmStorageSourceTypeString OBJECT-TYPE SYNTAX SnmpAdminString (SIZE (0..255)) Asai, et al. Standards Track [Page 26] RFC 7666 Virtual Machine Monitoring MIB October 2015 MAX-ACCESS read-only STATUS current DESCRIPTION "A (detailed) textual string of the source type of the virtual storage device. For example, this represents the specific format name of the sparse file." ::= { vmStorageEntry 5 } vmStorageResourceID OBJECT-TYPE SYNTAX SnmpAdminString (SIZE (0..255)) MAX-ACCESS read-only STATUS current DESCRIPTION "A textual string that represents the resource identifier of the virtual storage. For example, this contains the path to the disk image file that corresponds to the virtual storage." ::= { vmStorageEntry 6 } vmStorageAccess OBJECT-TYPE SYNTAX VirtualMachineStorageAccess MAX-ACCESS read-only STATUS current DESCRIPTION "The access permission of the virtual storage device." ::= { vmStorageEntry 7 } vmStorageMediaType OBJECT-TYPE SYNTAX IANAStorageMediaType MAX-ACCESS read-only STATUS current DESCRIPTION "The media type of the virtual storage device." ::= { vmStorageEntry 8 } vmStorageMediaTypeString OBJECT-TYPE SYNTAX SnmpAdminString (SIZE (0..255)) MAX-ACCESS read-only STATUS current DESCRIPTION "A (detailed) textual string of the virtual storage media. For example, this represents the specific driver name of the emulated media such as 'IDE' and 'SCSI'." ::= { vmStorageEntry 9 } vmStorageSizeUnit OBJECT-TYPE SYNTAX Integer32 (1..2147483647) MAX-ACCESS read-only Asai, et al. Standards Track [Page 27] RFC 7666 Virtual Machine Monitoring MIB October 2015 STATUS current DESCRIPTION "The multiplication unit in bytes for vmStorageDefinedSize and vmStorageAllocatedSize. For example, when this value is 1048576, the storage size unit for vmStorageDefinedSize and vmStorageAllocatedSize is MiB." ::= { vmStorageEntry 10 } vmStorageDefinedSize OBJECT-TYPE SYNTAX Integer32 (-1|0..2147483647) MAX-ACCESS read-only STATUS current DESCRIPTION "The defined virtual storage size defined in the unit designated by vmStorageSizeUnit. If this information is not available, this value MUST be -1." ::= { vmStorageEntry 11 } vmStorageAllocatedSize OBJECT-TYPE SYNTAX Integer32 (-1|0..2147483647) MAX-ACCESS read-only STATUS current DESCRIPTION "The storage size allocated to the virtual storage from a physical storage in the unit designated by vmStorageSizeUnit. When the virtual storage is block device or raw file, this value and vmStorageDefinedSize are supposed to equal. This value MUST NOT be different from vmStorageDefinedSize when vmStorageSourceType is 'block' or 'raw'. If this information is not available, this value MUST be -1." ::= { vmStorageEntry 12 } vmStorageReadIOs OBJECT-TYPE SYNTAX Counter64 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of read I/O requests. Discontinuities in the value of this counter can occur at re-initialization of the hypervisor and administrative state (vmAdminState) changes of the virtual machine." ::= { vmStorageEntry 13 } vmStorageWriteIOs OBJECT-TYPE Asai, et al. Standards Track [Page 28] RFC 7666 Virtual Machine Monitoring MIB October 2015 SYNTAX Counter64 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of write I/O requests. Discontinuities in the value of this counter can occur at re-initialization of the hypervisor and administrative state (vmAdminState) changes of the virtual machine." ::= { vmStorageEntry 14 } vmStorageReadOctets OBJECT-TYPE SYNTAX Counter64 MAX-ACCESS read-only STATUS current DESCRIPTION "The total number of bytes read from this device. Discontinuities in the value of this counter can occur at re-initialization of the hypervisor and administrative state (vmAdminState) changes of the virtual machine." ::= { vmStorageEntry 15 } vmStorageWriteOctets OBJECT-TYPE SYNTAX Counter64 MAX-ACCESS read-only STATUS current DESCRIPTION "The total number of bytes written to this device. Discontinuities in the value of this counter can occur at re-initialization of the hypervisor and administrative state (vmAdminState) changes of the virtual machine." ::= { vmStorageEntry 16 } vmStorageReadLatency OBJECT-TYPE SYNTAX Counter64 MAX-ACCESS read-only STATUS current DESCRIPTION "The total number of microseconds read requests have been queued for this device. This would typically be implemented by storing the high precision system timestamp of when the request is Asai, et al. Standards Track [Page 29] RFC 7666 Virtual Machine Monitoring MIB October 2015 received from the virtual machine with the request, the difference between this initial timestamp and the time at which the requested operation has completed SHOULD be converted to microseconds and accumulated. Discontinuities in the value of this counter can occur at re-initialization of the hypervisor and administrative state (vmAdminState) changes of the virtual machine." ::= { vmStorageEntry 17 } vmStorageWriteLatency OBJECT-TYPE SYNTAX Counter64 MAX-ACCESS read-only STATUS current DESCRIPTION "The total number of microseconds write requests have been queued for this device. This would typically be implemented by storing the high precision system timestamp of when the request is received from the virtual machine with the request; the difference between this initial timestamp and the time at which the requested operation has completed SHOULD be converted to microseconds and accumulated. Discontinuities in the value of this counter can occur at re-initialization of the hypervisor and administrative state (vmAdminState) changes of the virtual machine." ::= { vmStorageEntry 18 } -- The virtual network interfaces on each virtual machine. vmNetworkTable OBJECT-TYPE SYNTAX SEQUENCE OF VmNetworkEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The conceptual table of virtual network interfaces attached to the virtual machine." ::= { vmObjects 8 } vmNetworkEntry OBJECT-TYPE SYNTAX VmNetworkEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry for one virtual network interface attached to Asai, et al. Standards Track [Page 30] RFC 7666 Virtual Machine Monitoring MIB October 2015 the virtual machine." INDEX { vmIndex, vmNetworkIndex } ::= { vmNetworkTable 1 } VmNetworkEntry ::= SEQUENCE { vmNetworkIndex VirtualMachineNetworkIndex, vmNetworkIfIndex InterfaceIndexOrZero, vmNetworkParent InterfaceIndexOrZero, vmNetworkModel SnmpAdminString, vmNetworkPhysAddress PhysAddress } vmNetworkIndex OBJECT-TYPE SYNTAX VirtualMachineNetworkIndex MAX-ACCESS not-accessible STATUS current DESCRIPTION "A unique value identifying a virtual network interface allocated to the virtual machine." ::= { vmNetworkEntry 1 } vmNetworkIfIndex OBJECT-TYPE SYNTAX InterfaceIndexOrZero MAX-ACCESS read-only STATUS current DESCRIPTION "The value of ifIndex, which corresponds to this virtual network interface. If this device is not represented in the ifTable, then this value MUST be zero." ::= { vmNetworkEntry 2 } vmNetworkParent OBJECT-TYPE SYNTAX InterfaceIndexOrZero MAX-ACCESS read-only STATUS current DESCRIPTION "The value of ifIndex, which corresponds to the parent (i.e., physical) device of this virtual device. The value zero denotes this virtual device is not any child represented in the ifTable." ::= { vmNetworkEntry 3 } vmNetworkModel OBJECT-TYPE SYNTAX SnmpAdminString (SIZE (0..255)) MAX-ACCESS read-only STATUS current DESCRIPTION Asai, et al. Standards Track [Page 31] RFC 7666 Virtual Machine Monitoring MIB October 2015 "A textual string containing the (emulated) model of the virtual network interface. For example, this value is 'virtio' when the emulation driver model is virtio." ::= { vmNetworkEntry 4 } vmNetworkPhysAddress OBJECT-TYPE SYNTAX PhysAddress MAX-ACCESS read-only STATUS current DESCRIPTION "The Media Access Control (MAC) address of the virtual network interface." ::= { vmNetworkEntry 5 } -- Notification definitions: vmPerVMNotificationsEnabled OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "Indicates if the notification generator will send notifications per virtual machine. Changes to this object MUST NOT persist across re-initialization of the management system, e.g., SNMP agent." ::= { vmObjects 9 } vmBulkNotificationsEnabled OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "Indicates if the notification generator will send notifications per set of virtual machines. Changes to this object MUST NOT persist across re-initialization of the management system, e.g., SNMP agent." ::= { vmObjects 10 } vmAffectedVMs OBJECT-TYPE SYNTAX VirtualMachineList MAX-ACCESS accessible-for-notify STATUS current DESCRIPTION "A complete list of virtual machines whose state has changed. This object is the only object sent with bulk notifications." ::= { vmObjects 11 } Asai, et al. Standards Track [Page 32] RFC 7666 Virtual Machine Monitoring MIB October 2015 vmRunning NOTIFICATION-TYPE OBJECTS { vmName, vmUUID, vmOperState } STATUS current DESCRIPTION "This notification is generated when the operational state of a virtual machine has been changed to running(4) from some other state. The other state is indicated by the included value of vmOperState." ::= { vmNotifications 1 } vmShuttingdown NOTIFICATION-TYPE OBJECTS { vmName, vmUUID, vmOperState } STATUS current DESCRIPTION "This notification is generated when the operational state of a virtual machine has been changed to shuttingdown(10) from some other state. The other state is indicated by the included value of vmOperState." ::= { vmNotifications 2 } vmShutdown NOTIFICATION-TYPE OBJECTS { vmName, vmUUID, vmOperState } STATUS current DESCRIPTION "This notification is generated when the operational state of a virtual machine has been changed to shutdown(11) from some other state. The other state is indicated by the included value of vmOperState." ::= { vmNotifications 3 } vmPaused NOTIFICATION-TYPE OBJECTS { vmName, vmUUID, vmOperState } Asai, et al. Standards Track [Page 33] RFC 7666 Virtual Machine Monitoring MIB October 2015 STATUS current DESCRIPTION "This notification is generated when the operational state of a virtual machine has been changed to paused(8) from some other state. The other state is indicated by the included value of vmOperState." ::= { vmNotifications 4 } vmSuspending NOTIFICATION-TYPE OBJECTS { vmName, vmUUID, vmOperState } STATUS current DESCRIPTION "This notification is generated when the operational state of a virtual machine has been changed to suspending(5) from some other state. The other state is indicated by the included value of vmOperState." ::= { vmNotifications 5 } vmSuspended NOTIFICATION-TYPE OBJECTS { vmName, vmUUID, vmOperState } STATUS current DESCRIPTION "This notification is generated when the operational state of a virtual machine has been changed to suspended(6) from some other state. The other state is indicated by the included value of vmOperState." ::= { vmNotifications 6 } vmResuming NOTIFICATION-TYPE OBJECTS { vmName, vmUUID, vmOperState } STATUS current DESCRIPTION "This notification is generated when the operational state of a virtual machine has been changed to resuming(7) from some other state. The other state is indicated by the included value of vmOperState." Asai, et al. Standards Track [Page 34] RFC 7666 Virtual Machine Monitoring MIB October 2015 ::= { vmNotifications 7 } vmMigrating NOTIFICATION-TYPE OBJECTS { vmName, vmUUID, vmOperState } STATUS current DESCRIPTION "This notification is generated when the operational state of a virtual machine has been changed to migrating(9) from some other state. The other state is indicated by the included value of vmOperState." ::= { vmNotifications 8 } vmCrashed NOTIFICATION-TYPE OBJECTS { vmName, vmUUID, vmOperState } STATUS current DESCRIPTION "This notification is generated when a virtual machine has been crashed. The previous state of the virtual machine is indicated by the included value of vmOperState." ::= { vmNotifications 9 } vmDeleted NOTIFICATION-TYPE OBJECTS { vmName, vmUUID, vmOperState, vmPersistent } STATUS current DESCRIPTION "This notification is generated when a virtual machine has been deleted. The prior state of the virtual machine is indicated by the included value of vmOperState." ::= { vmNotifications 10 } vmBulkRunning NOTIFICATION-TYPE OBJECTS { vmAffectedVMs Asai, et al. Standards Track [Page 35] RFC 7666 Virtual Machine Monitoring MIB October 2015 } STATUS current DESCRIPTION "This notification is generated when the operational state of one or more virtual machines has been changed to running(4) from any prior state, except for running(4). Management stations are encouraged to subsequently poll the subset of virtual machines of interest for vmOperState." ::= { vmNotifications 11 } vmBulkShuttingdown NOTIFICATION-TYPE OBJECTS { vmAffectedVMs } STATUS current DESCRIPTION "This notification is generated when the operational state of one or more virtual machines has been changed to shuttingdown(10) from a state other than shuttingdown(10). Management stations are encouraged to subsequently poll the subset of virtual machines of interest for vmOperState." ::= { vmNotifications 12 } vmBulkShutdown NOTIFICATION-TYPE OBJECTS { vmAffectedVMs } STATUS current DESCRIPTION "This notification is generated when the operational state of one or more virtual machine has been changed to shutdown(11) from a state other than shutdown(11). Management stations are encouraged to subsequently poll the subset of virtual machines of interest for vmOperState." ::= { vmNotifications 13 } vmBulkPaused NOTIFICATION-TYPE OBJECTS { vmAffectedVMs } STATUS current DESCRIPTION "This notification is generated when the operational state of one or more virtual machines has been changed to paused(8) from a state other than paused(8). Asai, et al. Standards Track [Page 36] RFC 7666 Virtual Machine Monitoring MIB October 2015 Management stations are encouraged to subsequently poll the subset of virtual machines of interest for vmOperState." ::= { vmNotifications 14 } vmBulkSuspending NOTIFICATION-TYPE OBJECTS { vmAffectedVMs } STATUS current DESCRIPTION "This notification is generated when the operational state of one or more virtual machines has been changed to suspending(5) from a state other than suspending(5). Management stations are encouraged to subsequently poll the subset of virtual machines of interest for vmOperState." ::= { vmNotifications 15 } vmBulkSuspended NOTIFICATION-TYPE OBJECTS { vmAffectedVMs } STATUS current DESCRIPTION "This notification is generated when the operational state of one or more virtual machines has been changed to suspended(6) from a state other than suspended(6). Management stations are encouraged to subsequently poll the subset of virtual machines of interest for vmOperState." ::= { vmNotifications 16 } vmBulkResuming NOTIFICATION-TYPE OBJECTS { vmAffectedVMs } STATUS current DESCRIPTION "This notification is generated when the operational state of one or more virtual machines has been changed to resuming(7) from a state other than resuming(7). Management stations are encouraged to subsequently poll the subset of virtual machines of interest for vmOperState." ::= { vmNotifications 17 } vmBulkMigrating NOTIFICATION-TYPE Asai, et al. Standards Track [Page 37] RFC 7666 Virtual Machine Monitoring MIB October 2015 OBJECTS { vmAffectedVMs } STATUS current DESCRIPTION "This notification is generated when the operational state of one or more virtual machines has been changed to migrating(9) from a state other than migrating(9). Management stations are encouraged to subsequently poll the subset of virtual machines of interest for vmOperState." ::= { vmNotifications 18 } vmBulkCrashed NOTIFICATION-TYPE OBJECTS { vmAffectedVMs } STATUS current DESCRIPTION "This notification is generated when one or more virtual machines have been crashed. Management stations are encouraged to subsequently poll the subset of virtual machines of interest for vmOperState." ::= { vmNotifications 19 } vmBulkDeleted NOTIFICATION-TYPE OBJECTS { vmAffectedVMs } STATUS current DESCRIPTION "This notification is generated when one or more virtual machines have been deleted. Management stations are encouraged to subsequently poll the subset of virtual machines of interest for vmOperState." ::= { vmNotifications 20 } -- Compliance definitions: vmCompliances OBJECT IDENTIFIER ::= { vmConformance 1 } vmGroups OBJECT IDENTIFIER ::= { vmConformance 2 } vmFullCompliances MODULE-COMPLIANCE STATUS current DESCRIPTION "Compliance statement for implementations supporting read/write access, according to the object definitions." MODULE -- this module MANDATORY-GROUPS { Asai, et al. Standards Track [Page 38] RFC 7666 Virtual Machine Monitoring MIB October 2015 vmHypervisorGroup, vmVirtualMachineGroup, vmCpuGroup, vmCpuAffinityGroup, vmStorageGroup, vmNetworkGroup } GROUP vmPerVMNotificationOptionalGroup DESCRIPTION "Support for per-VM notifications is optional. If not implemented, then vmPerVMNotificationsEnabled MUST report false(2)." GROUP vmBulkNotificationsVariablesGroup DESCRIPTION "Necessary only if vmPerVMNotificationOptionalGroup is implemented." GROUP vmBulkNotificationOptionalGroup DESCRIPTION "Support for bulk notifications is optional. If not implemented, then vmBulkNotificationsEnabled MUST report false(2)." ::= { vmCompliances 1 } vmReadOnlyCompliances MODULE-COMPLIANCE STATUS current DESCRIPTION "Compliance statement for implementations supporting only read-only access." MODULE -- this module MANDATORY-GROUPS { vmHypervisorGroup, vmVirtualMachineGroup, vmCpuGroup, vmCpuAffinityGroup, vmStorageGroup, vmNetworkGroup } OBJECT vmPerVMNotificationsEnabled MIN-ACCESS read-only DESCRIPTION "Write access is not required." OBJECT vmBulkNotificationsEnabled MIN-ACCESS read-only DESCRIPTION "Write access is not required." Asai, et al. Standards Track [Page 39] RFC 7666 Virtual Machine Monitoring MIB October 2015 ::= { vmCompliances 2 } vmHypervisorGroup OBJECT-GROUP OBJECTS { vmHvSoftware, vmHvVersion, vmHvObjectID, vmHvUpTime, vmNumber, vmTableLastChange, vmPerVMNotificationsEnabled, vmBulkNotificationsEnabled } STATUS current DESCRIPTION "A collection of objects providing insight into the hypervisor itself." ::= { vmGroups 1 } vmVirtualMachineGroup OBJECT-GROUP OBJECTS { -- vmIndex vmName, vmUUID, vmOSType, vmAdminState, vmOperState, vmAutoStart, vmPersistent, vmCurCpuNumber, vmMinCpuNumber, vmMaxCpuNumber, vmMemUnit, vmCurMem, vmMinMem, vmMaxMem, vmUpTime, vmCpuTime } STATUS current DESCRIPTION "A collection of objects providing insight into the virtual machines controlled by a hypervisor." ::= { vmGroups 2 } vmCpuGroup OBJECT-GROUP OBJECTS { -- vmCpuIndex, Asai, et al. Standards Track [Page 40] RFC 7666 Virtual Machine Monitoring MIB October 2015 vmCpuCoreTime } STATUS current DESCRIPTION "A collection of objects providing insight into the virtual machines controlled by a hypervisor." ::= { vmGroups 3 } vmCpuAffinityGroup OBJECT-GROUP OBJECTS { -- vmCpuPhysIndex, vmCpuAffinity } STATUS current DESCRIPTION "A collection of objects providing insight into the virtual machines controlled by a hypervisor." ::= { vmGroups 4 } vmStorageGroup OBJECT-GROUP OBJECTS { -- vmStorageVmIndex, -- vmStorageIndex, vmStorageParent, vmStorageSourceType, vmStorageSourceTypeString, vmStorageResourceID, vmStorageAccess, vmStorageMediaType, vmStorageMediaTypeString, vmStorageSizeUnit, vmStorageDefinedSize, vmStorageAllocatedSize, vmStorageReadIOs, vmStorageWriteIOs, vmStorageReadOctets, vmStorageWriteOctets, vmStorageReadLatency, vmStorageWriteLatency } STATUS current DESCRIPTION "A collection of objects providing insight into the virtual storage devices controlled by a hypervisor." ::= { vmGroups 5 } vmNetworkGroup OBJECT-GROUP OBJECTS { Asai, et al. Standards Track [Page 41] RFC 7666 Virtual Machine Monitoring MIB October 2015 -- vmNetworkIndex, vmNetworkIfIndex, vmNetworkParent, vmNetworkModel, vmNetworkPhysAddress } STATUS current DESCRIPTION "A collection of objects providing insight into the virtual network interfaces controlled by a hypervisor." ::= { vmGroups 6 } vmPerVMNotificationOptionalGroup NOTIFICATION-GROUP NOTIFICATIONS { vmRunning, vmShuttingdown, vmShutdown, vmPaused, vmSuspending, vmSuspended, vmResuming, vmMigrating, vmCrashed, vmDeleted } STATUS current DESCRIPTION "A collection of notifications for per-VM notification of changes to virtual machine state (vmOperState) as reported by a hypervisor." ::= { vmGroups 7 } vmBulkNotificationsVariablesGroup OBJECT-GROUP OBJECTS { vmAffectedVMs } STATUS current DESCRIPTION "The variables used in vmBulkNotificationOptionalGroup virtual network interfaces controlled by a hypervisor." ::= { vmGroups 8 } vmBulkNotificationOptionalGroup NOTIFICATION-GROUP NOTIFICATIONS { vmBulkRunning, vmBulkShuttingdown, vmBulkShutdown, vmBulkPaused, Asai, et al. Standards Track [Page 42] RFC 7666 Virtual Machine Monitoring MIB October 2015 vmBulkSuspending, vmBulkSuspended, vmBulkResuming, vmBulkMigrating, vmBulkCrashed, vmBulkDeleted } STATUS current DESCRIPTION "A collection of notifications for bulk notification of changes to virtual machine state (vmOperState) as reported by a given hypervisor." ::= { vmGroups 9 } END 6.2. IANA-STORAGE-MEDIA-TYPE-MIB IANA-STORAGE-MEDIA-TYPE-MIB DEFINITIONS ::= BEGIN IMPORTS MODULE-IDENTITY, mib-2 FROM SNMPv2-SMI TEXTUAL-CONVENTION FROM SNMPv2-TC; ianaStorageMediaTypeMIB MODULE-IDENTITY LAST-UPDATED "201510120000Z" -- 12 October 2015 ORGANIZATION "IANA" CONTACT-INFO "Internet Assigned Numbers Authority Postal: ICANN 12025 Waterfront Drive, Suite 300 Los Angeles, CA 90094-2536 United States Tel: +1 310-301-5800 Email: iana@iana.org" DESCRIPTION "This MIB module defines Textual Conventions representing the media type of a storage device. Copyright (c) 2015 IETF Trust and the persons identified as authors of the code. All rights reserved. Redistribution and use in source and binary forms, with or without modification, is permitted pursuant to, and subject to the license terms contained in, the Asai, et al. Standards Track [Page 43] RFC 7666 Virtual Machine Monitoring MIB October 2015 Simplified BSD License set forth in Section 4.c of the IETF Trust's Legal Provisions Relating to IETF Documents (http://trustee.ietf.org/license-info)." REVISION "201510120000Z" -- 12 October 2015 DESCRIPTION "The initial version of this MIB, published as RFC 7666." ::= { mib-2 237 } IANAStorageMediaType ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "The media type of a storage device: unknown(1) The media type is unknown, e.g., because the implementation failed to obtain the media type from the hypervisor. other(2) The media type is other than those defined in this conversion. hardDisk(3) The media type is hard disk. opticalDisk(4) The media type is optical disk. floppyDisk(5) The media type is floppy disk." SYNTAX INTEGER { other(1), unknown(2), hardDisk(3), opticalDisk(4), floppyDisk(5) } END Asai, et al. Standards Track [Page 44] RFC 7666 Virtual Machine Monitoring MIB October 2015 7. IANA Considerations This document defines the first version of the IANA-maintained IANA-STORAGE-MEDIA-TYPE-MIB module, which allows new storage media types to be added to the enumeration in IANAStorageMediaType. An Expert Review, as defined in RFC 5226 [RFC5226], is REQUIRED for each modification. The MIB module in this document uses the following IANA-assigned OBJECT IDENTIFIER values recorded in the SMI Numbers registry: Descriptor OBJECT IDENTIFIER value ---------- ----------------------- vmMIB { mib-2 236 } ianaStorageMediaTypeMIB { mib-2 237 } 8. Security Considerations This MIB module is typically implemented on the hypervisor not inside a virtual machine. Virtual machines, possibly under other administrative domains, would not have access to this MIB as the SNMP service would typically operate in a separate management network. There are two objects defined in this MIB module, vmPerVMNotificationsEnabled and vmBulkNotificationsEnabled, that have a MAX-ACCESS clause of read-write. Enabling notifications can lead to a substantial number of notifications if many virtual machines change their state concurrently. Hence, such objects may be considered sensitive or vulnerable in some network environments. The support for SET operations in a non-secure environment without proper protection can have a negative effect on the management system. It is RECOMMENDED that these objects have access of read-only instead of read-write on deployments where SNMPv3 strong security (i.e., authentication and encryption) is not used. There are a number of managed objects in this MIB that may contain sensitive information. The objects in the vmHvSoftware and vmHvVersion list information about the hypervisor's software and version. Some may wish not to disclose to others which software they are running. Further, an inventory of the running software and versions may be helpful to an attacker who hopes to exploit software bugs in certain applications. Moreover, the objects in the vmTable, vmCpuTable, vmCpuAffinityTable, vmStorageTable, and vmNetworkTable list information about the virtual machines and their virtual resource allocation. Some may wish not to disclose to others how many and what virtual machines they are operating. Asai, et al. Standards Track [Page 45] RFC 7666 Virtual Machine Monitoring MIB October 2015 It is thus important to control even GET access to these objects and possibly to even encrypt the values of these objects when sending them over the network via SNMP. Not all versions of SNMP provide features for such a secure environment. SNMPv1 by itself is not a secure environment. Even if the network itself is secure (for example by using IPsec), there is no control as to who on the secure network is allowed to access and GET/SET (read/change/create/delete) the objects in this MIB module. It is recommended that the implementers consider using the security features as provided by the SNMPv3 framework. Specifically, the use of the User-based Security Model [RFC3414] and the View-based Access Control Model [RFC3415] is recommended. It is then a customer/user responsibility to ensure that the SNMP entity giving access to an instance of this MIB is properly configured to give access to the objects only to those principals (users) that have legitimate rights to indeed GET or SET (change/create/delete) them. 9. References 9.1. Normative References [RFC2119] Bradner, S., "Key words for use in RFCs to Indicate Requirement Levels", BCP 14, RFC 2119, DOI 10.17487/RFC2119, March 1997, <http://www.rfc-editor.org/info/rfc2119>. [RFC2578] McCloghrie, K., Ed., Perkins, D., Ed., and J. Schoenwaelder, Ed., "Structure of Management Information Version 2 (SMIv2)", STD 58, RFC 2578, DOI 10.17487/RFC2578, April 1999, <http://www.rfc-editor.org/info/rfc2578>. [RFC2579] McCloghrie, K., Ed., Perkins, D., Ed., and J. Schoenwaelder, Ed., "Textual Conventions for SMIv2", STD 58, RFC 2579, DOI 10.17487/RFC2579, April 1999, <http://www.rfc-editor.org/info/rfc2579>. [RFC2580] McCloghrie, K., Ed., Perkins, D., Ed., and J. Schoenwaelder, Ed., "Conformance Statements for SMIv2", STD 58, RFC 2580, DOI 10.17487/RFC2580, April 1999, <http://www.rfc-editor.org/info/rfc2580>. Asai, et al. Standards Track [Page 46] RFC 7666 Virtual Machine Monitoring MIB October 2015 [RFC2790] Waldbusser, S. and P. Grillo, "Host Resources MIB", RFC 2790, DOI 10.17487/RFC2790, March 2000, <http://www.rfc-editor.org/info/rfc2790>. [RFC2863] McCloghrie, K. and F. Kastenholz, "The Interfaces Group MIB", RFC 2863, DOI 10.17487/RFC2863, June 2000, <http://www.rfc-editor.org/info/rfc2863>. [RFC3413] Levi, D., Meyer, P., and B. Stewart, "Simple Network Management Protocol (SNMP) Applications", STD 62, RFC 3413, DOI 10.17487/RFC3413, December 2002, <http://www.rfc-editor.org/info/rfc3413>. [RFC3414] Blumenthal, U. and B. Wijnen, "User-based Security Model (USM) for version 3 of the Simple Network Management Protocol (SNMPv3)", STD 62, RFC 3414, DOI 10.17487/RFC3414, December 2002, <http://www.rfc-editor.org/info/rfc3414>. [RFC3415] Wijnen, B., Presuhn, R., and K. McCloghrie, "View-based Access Control Model (VACM) for the Simple Network Management Protocol (SNMP)", STD 62, RFC 3415, DOI 10.17487/RFC3415, December 2002, <http://www.rfc-editor.org/info/rfc3415>. [RFC3418] Presuhn, R., Ed., "Management Information Base (MIB) for the Simple Network Management Protocol (SNMP)", STD 62, RFC 3418, DOI 10.17487/RFC3418, December 2002, <http://www.rfc-editor.org/info/rfc3418>. [RFC5226] Narten, T. and H. Alvestrand, "Guidelines for Writing an IANA Considerations Section in RFCs", BCP 26, RFC 5226, DOI 10.17487/RFC5226, May 2008, <http://www.rfc-editor.org/info/rfc5226>. [RFC6933] Bierman, A., Romascanu, D., Quittek, J., and M. Chandramouli, "Entity MIB (Version 4)", RFC 6933, DOI 10.17487/RFC6933, May 2013, <http://www.rfc-editor.org/info/rfc6933>. 9.2. Informative References [IEEE8021-BRIDGE-MIB] IEEE, "IEEE8021-BRIDGE-MIB", October 2008, <http://www.ieee802.org/1/files/public/MIBs/ IEEE8021-BRIDGE-MIB-200810150000Z.txt>. Asai, et al. Standards Track [Page 47] RFC 7666 Virtual Machine Monitoring MIB October 2015 [IEEE8021-Q-BRIDGE-MIB] IEEE, "IEEE8021-Q-BRIDGE-MIB", October 2008, <http://www.ieee802.org/1/files/public/MIBs/ IEEE8021-Q-BRIDGE-MIB-200810150000Z.txt>. [libvirt] The libvirt developers, "The libvirt virtialization API", <http://www.libvirt.org/>. [RFC3410] Case, J., Mundy, R., Partain, D., and B. Stewart, "Introduction and Applicability Statements for Internet- Standard Management Framework", RFC 3410, DOI 10.17487/RFC3410, December 2002, <http://www.rfc-editor.org/info/rfc3410>. [VMware] VMware, Inc., "The VMware Hypervisor", <http://www.vmware.com/>. [Xen] The Xen Project, "The Xen Hypervisor", <http://www.xenproject.org/>. Asai, et al. Standards Track [Page 48] RFC 7666 Virtual Machine Monitoring MIB October 2015 Appendix A. State Transition Table +--------------+----------------+--------------+--------------------+ | State | Change to | Next State | Notification | | | vmAdminState | | | | | at the | | | | | hypervisor or | | | | | (Event) | | | +--------------+----------------+--------------+--------------------+ | suspended | running | resuming | vmResuming | | | | | | vmBulkResuming | | | | | | | suspending | (suspend | suspended | vmSuspended | | | | operation | | vmBulkSuspended | | | completed) | | | | | | | | | running | suspended | suspending | vmSuspending | | | | | | vmBulkSuspending | | | | | | | | shutdown | shuttingdown | vmShuttingdown | | | | | | vmBulkShuttingdown | | | | | | | | (migration to | migrating | vmMigrating | | | | other | | vmBulkMigrating | | | hypervisor | | | | | initiated) | | | | | | | | | resuming | (resume | running | vmRunning | | | | operation | | vmBulkRunning | | | completed) | | | | | | | | | paused | running | running | vmRunning | | | | | | vmBulkRunning | | | | | | | shuttingdown | (shutdown | shutdown | vmShutdown | | | | operation | | vmBulkShutdown | | | completed) | | | | | | | | | shutdown | running | running | vmRunning | | | | | | vmBulkRunning | | | | | | | | (if this state | migrating | vmMigrating | | | | entry is | | vmBulkMigrating | | | created by a | | | | | migration | | | | | operation (*) | | | | | | | | Asai, et al. Standards Track [Page 49] RFC 7666 Virtual Machine Monitoring MIB October 2015 | | (deletion | (no state) | vmDeleted | | | | operation | | vmBulkDeleted | | | completed) | | | | | | | | | migrating | (migration | running | vmRunning | | | | from other | | vmBulkRunning | | | hypervisor | | | | | completed) | | | | | | | | | | (migration to | shutdown | vmShutdown | | | | other | | vmBulkShutdown | | | hypervisor | | | | | completed) | | | | | | | | | preparing | (preparation | shutdown | vmShutdown | | | | completed) | | vmBulkShutdown | | | | | | | crashed | - | - | - | | | | | | | | (crashed) | crashed | vmCrashed | | | | | | vmBulkCrashed | | | | | | | (no state) | (preparation | preparing | - | | | initiated) | | | | | | | | | | (migrate from | shutdown (*) | vmShutdown | | | | other | | vmBulkShutdown | | | hypervisor | | | | | initiated) | | | +--------------+----------------+--------------+--------------------+ State Transition Table for vmOperState Asai, et al. Standards Track [Page 50] RFC 7666 Virtual Machine Monitoring MIB October 2015 Acknowledgements The authors would like to thank Andy Bierman, David Black, Joe Marcus Clarke, C.M. Heard, Joel Jaeggli, Tom Petch, Randy Presuhn, and Ian West for providing helpful comments during the development of this specification. Juergen Schoenwaelder was partly funded by Flamingo, a Network of Excellence project (ICT-318488) supported by the European Commission under its Seventh Framework Programme. Contributors Yuji Sekiya The University of Tokyo 2-11-16 Yayoi Bunkyo-ku, Tokyo 113-8658 Japan Email: sekiya@wide.ad.jp Cathy Zhou Huawei Technologies Bantian, Longgang District Shenzhen 518129 China Email: cathyzhou@huawei.com Hiroshi Esaki The University of Tokyo 7-3-1 Hongo Bunkyo-ku, Tokyo 113-8656 Japan Email: hiroshi@wide.ad.jp Asai, et al. Standards Track [Page 51] RFC 7666 Virtual Machine Monitoring MIB October 2015 Authors' Addresses Hirochika Asai The University of Tokyo 7-3-1 Hongo Bunkyo-ku, Tokyo 113-8656 Japan Phone: +81 3 5841 6748 Email: panda@hongo.wide.ad.jp Michael MacFaden VMware Inc. Email: mrm@vmware.com Juergen Schoenwaelder Jacobs University Campus Ring 1 Bremen 28759 Germany Email: j.schoenwaelder@jacobs-university.de Keiichi Shima IIJ Innovation Institute Inc. 2-10-2 Fujimi Chiyoda-ku, Tokyo 102-0071 Japan Email: keiichi@iijlab.net Tina Tsou Huawei Technologies (USA) 2330 Central Expressway Santa Clara, CA 95050 United States Email: tina.tsou.zouting@huawei.com Asai, et al. Standards Track [Page 52]