MEXT Working Group R. Wakikawa (Editor) Internet-Draft Toyota ITC Intended status: Standards Track July 12, 2010 Expires: January 13, 2011 Home Agent Reliability Protocol (HARP) draft-ietf-mip6-hareliability-06.txt Abstract The home agent can be a single point of failure when Mobile IPv6 and its compatible protocols are operated in a system. It is critical to provide home agent reliability in the event of a home agent crashing or becoming unavailable. This would allow another home agent to take over and continue providing service to the mobile nodes. This document describes the problem scope briefly and provides mechanisms of home agent failure detection, home agent state transfer, and home agent switching for home agent redundancy and reliability. Status of this Memo This Internet-Draft is submitted to IETF in full conformance with the provisions of BCP 78 and BCP 79. Internet-Drafts are working documents of the Internet Engineering Task Force (IETF), its areas, and its working groups. Note that other groups may also distribute working documents as Internet- Drafts. Internet-Drafts are draft documents valid for a maximum of six months and may be updated, replaced, or obsoleted by other documents at any time. It is inappropriate to use Internet-Drafts as reference material or to cite them other than as "work in progress." The list of current Internet-Drafts can be accessed at http://www.ietf.org/ietf/1id-abstracts.txt. The list of Internet-Draft Shadow Directories can be accessed at http://www.ietf.org/shadow.html. This Internet-Draft will expire on January 13, 2011. Copyright Notice Copyright (c) 2010 IETF Trust and the persons identified as the document authors. All rights reserved. Wakikawa (Editor) Expires January 13, 2011 [Page 1] Internet-Draft HA Reliability July 2010 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 BSD License. Table of Contents 1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . . 4 1.1. Terminology . . . . . . . . . . . . . . . . . . . . . . . 4 1.2. Problem Statement and Requirements . . . . . . . . . . . . 6 2. Protocol Overview . . . . . . . . . . . . . . . . . . . . . . 7 3. Home Agent Configuration . . . . . . . . . . . . . . . . . . . 11 3.1. Network Configuration . . . . . . . . . . . . . . . . . . 11 3.2. Home Agent Address Configuration . . . . . . . . . . . . . 12 4. Home Agent Operations . . . . . . . . . . . . . . . . . . . . 12 4.1. Home Agent List Management . . . . . . . . . . . . . . . . 12 4.2. Detecting Home Agent Failure . . . . . . . . . . . . . . . 14 4.3. Processing the HARP Messages . . . . . . . . . . . . . . . 14 4.3.1. IP field and Security Descriptions of HARP message . . 14 4.3.2. Processing Home Agent Hello (HA-HELLO) . . . . . . . . 16 4.3.3. Processing Home Agent Switch Over (SWO-REQ/REP) . . . 17 4.3.4. Processing Home Agent Switch Back (SWB-REQ/REP) . . . 18 4.4. State Synchronization . . . . . . . . . . . . . . . . . . 19 4.4.1. Binding Cache Information Management . . . . . . . . . 20 4.4.2. IP field and Security Descriptions of SS message . . . 20 4.4.3. Requesting State of Mobile Nodes (SS-REQ) . . . . . . 20 4.4.4. Sending State Information (SS-REP) . . . . . . . . . . 21 4.4.5. Synchronizing State (SS-REP and SS-ACK) . . . . . . . 22 4.5. Switching the Active Home Agent . . . . . . . . . . . . . 23 4.6. Consideration of Routing and Neighbor Discovery Protocol (VHARP) . . . . . . . . . . . . . . . . . . . . . 24 4.7. Interworking with VRRP . . . . . . . . . . . . . . . . . . 25 4.8. Retransmissions and Rate Limiting . . . . . . . . . . . . 26 5. Mobile Node Operation . . . . . . . . . . . . . . . . . . . . 26 5.1. Home Agent Addresses Discovery . . . . . . . . . . . . . . 26 5.2. IPsec/IKE Establishment to Home Agents . . . . . . . . . . 27 5.3. Synchronizing State: K-bit treatment . . . . . . . . . . . 28 5.4. Receiving Home Agent Switch message . . . . . . . . . . . 28 Wakikawa (Editor) Expires January 13, 2011 [Page 2] Internet-Draft HA Reliability July 2010 6. Messages Format . . . . . . . . . . . . . . . . . . . . . . . 29 6.1. New Mobility Header Messages . . . . . . . . . . . . . . . 29 6.1.1. HARP Message Format . . . . . . . . . . . . . . . . . 29 6.1.2. State Synchronization Message Format . . . . . . . . . 32 6.1.3. Home Agent Rekey Message . . . . . . . . . . . . . . . 34 6.2. New Mobility Options . . . . . . . . . . . . . . . . . . . 35 6.2.1. Binding Cache Information Option . . . . . . . . . . . 35 6.2.2. State Synchronization Status Option . . . . . . . . . 36 6.2.3. AAA Information Option . . . . . . . . . . . . . . . . 38 7. Security Considerations . . . . . . . . . . . . . . . . . . . 38 8. Protocol Constants . . . . . . . . . . . . . . . . . . . . . . 39 9. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 39 10. Additional Authors . . . . . . . . . . . . . . . . . . . . . . 39 11. Acknowledgements . . . . . . . . . . . . . . . . . . . . . . . 40 12. References . . . . . . . . . . . . . . . . . . . . . . . . . . 40 12.1. Normative References . . . . . . . . . . . . . . . . . . . 41 12.2. Informative References . . . . . . . . . . . . . . . . . . 41 Author's Address . . . . . . . . . . . . . . . . . . . . . . . . . 43 Wakikawa (Editor) Expires January 13, 2011 [Page 3] Internet-Draft HA Reliability July 2010 1. Introduction In Mobile IPv6 [RFC-3775] and its compatible protocols like NEMO Basic Support [RFC-3963] and Dual Stack Mobile IPv6 [RFC-5555], if a home agent loses the binding cache state, due to failure or some other reason, it results in a loss of service for the mobile nodes. It is beneficial to provide high availability and redundancy for a home agent so that mobile nodes can avail of uninterrupted service even when one home agent crashes or loses state. The Home Agent Reliability protocol (HARP) is designed to manage standby home agents and switch a home agent in case of the active home agent failure. 1.1. Terminology 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]. In this document, the term mobile node refers to both a mobile node [RFC-3775] and a mobile router [RFC-3963]. Mobility related terms used in this document are defined in [RFC- 3775] and [RFC-3753]. In addition or in replacement of these, the following terms are defined or redefined: Home Agent Reliability Protocol (HARP) Providing reliability by using multiple home agents with individual home agent addresses. It requires binding re- registration to the new home agent. Virtual Home Agent Reliability Protocol (VHARP) Providing reliability by using multiple home agents and single virtual home agent address. It can virtually switch to the new home agent without binding re-registration to the new home agent. Active Home Agent A home agent that is currently serving the mobile nodes. Standby Home Agent A home agent which will serve the mobile nodes when the active home agent fails. Wakikawa (Editor) Expires January 13, 2011 [Page 4] Internet-Draft HA Reliability July 2010 Failed Home Agent A home agent that is not available due to hardware or software failure, system maintenance, etc. Redundant Home Agent Set A group of an active and standby home agent(s). The Group Identifier is used to identify a redundant home agent set. Operators need to configure a value per redundant home agent set. Virtual Home Agent Address A home agent address shared among home agents in a redundant home agent set. It is similar to virtual router address specified in VRRP [RFC-3768] [RFC-5798]. The address is only activated on an active home agent. Home Agent Preference This preference value is originally defined for Dynamic Home Agent Address Discovery (DHAAD) in RFC3775. This protocol re-uses this preference value for home agent selection when an active home agent has failed. However, an operator can also define an independent value used only for the home agent reliability protocol if the operator wants to have different preference values for DHAAD and the home agent reliability protocol. A home agent SHOULD NOT use the same preference value of other home agents. New Messages Home Agent Reliability Protocol (HARP) message defined in Section 6.1.1: SwitchOver Request (SWO-REQ) SwitchOver Reply (SWO-REP) SwitchBack Request (SWB-REQ) SwitchBack Reply (SWB-REP) Switch Complete (SW-COMP) Home Agent HELLO (HA-HELLO) Wakikawa (Editor) Expires January 13, 2011 [Page 5] Internet-Draft HA Reliability July 2010 State Synchronization (SS) message defined in Section 6.1.2: State Synchronization Request (SS-REQ) State Synchronization Reply (SS-REP) State Synchronization Reply-Ack (SS-ACK) 1.2. Problem Statement and Requirements In Mobile IPv6 [RFC-3775, RFC-4877], a mobile node registers and establishes a binding with only one home agent. The home agent represents the possibility of a single point of failure for Mobile IPv6. A home agent is responsible for multiple mobile nodes on its home link. The failure of the home agent may then result in the loss of connectivity for numerous mobile nodes located throughout the Internet. To overcome this problem, Mobile IPv6 allows deployment of multiple home agents on the home link so that upon the failure of a home agent, a mobile node can re-establish its connection through a new home agent. However, the base Mobile IPv6 specification does not address home agent fail-over and dynamic transfer of service from one home agent to another. This transfer of service from the failed home agent to a new active home agent requires coordination or pre- configuration among the home agents regarding security associations, transfer of mobile node bindings, and other service information for reliable Mobile IPv6 service in a deployment scenario. For the home agent reliability solution, we define the following requirements: Reliable Home agent service Multiple home agents are available for a home prefix and one of them actively serves the mobile nodes. A standby home agent takes over when the active home agent becomes unavailable. The transfer of the MN-HA association should be transparent to applications and should not take longer than the care-of-addresses update procedure described in Mobile IPv6 [RFC-3775]. Availability of a redundant home agent set Availability of an active home agent address and a standby home agent address at the bootstrapping period for the mobile node is assumed. Wakikawa (Editor) Expires January 13, 2011 [Page 6] Internet-Draft HA Reliability July 2010 State Synchronization The information for mobile nodes must be able to be synchronized between an active home agent and standby home agents. This includes the Binding Cache, AAA information, other Mobile IPv6 and NEMO related information. Note that the Home Agent Reliability protocol exchanges only running states of mobile nodes. Therefore, we do not have any specific operation for synchronizing the configuration information. For instance, when Mobile IPv6 is operated with Authentication protocol, synchronizing the configurations of the Authentication protocol is out of scope in this document. Operators MAY correctly set the configuration information in multiple home agents. Consideration of IPsec/IKE transfer An active home agent maintains several IPsec and IKE states for mobile nodes. These states are synchronized within the redundant home agent set. The details are described in Section 7. Secured Message Exchanges The messages used between the home agents to transfer binding cache information MAY be authenticated and encrypted. Failure Detection Redundant home agents must actively check for possible failure of an active home agent. If a home agent supports an existing failure detection mechanism such as VRRP[RFC-3768] or HSRP [RFC- 2281], it can re-use that mechanism to detect the home agent failure. On the other hand, periodic Hello messages are introduced to detect active home agent's service availability in this document. Failure Notification If necessary, a mobile node is notified about the active home agent failure by the standby home agent. 2. Protocol Overview HARP assumes multiple home agents placement on a same home link or different links and groups them into a redundant home agent set. One of home agents is selected as an active home agent and receives a binding update from mobile nodes. According to [RFC-3775, RFC-4877], an active home agent maintains not only binding cache but also IPsec/ Wakikawa (Editor) Expires January 13, 2011 [Page 7] Internet-Draft HA Reliability July 2010 IKEv2 states per mobile node, because Mobile IP adapts IPsec as its security mechanism for signaling. If the active home agent fails, all these information per mobile node is vanished. As a result, all mobile nodes served by the failed home agent will be disconnected. In HARP, other home agents , named standby home agent, exchange the required information with the active home agent in case of failure of the active home agent. HARP can let standby home agent take over the failed home agent with such information of the serving mobile nodes. MN HA1 HA2 | |<-HA1-addr |<-HA2-addr | | | | (active) (standby) | | | | |<--------->| 1. Hello exchanges |<--------->| | 2. Binding Registration to HA1 | |<--------->| 3. State exchanges | | | | X | HA1 FAILURE | X | | X | 4. Failure Detection |<----------------------| 5. Sending Home Agent Switch message |<--------------------->| 6. Binding Registration to HA2 | X (active) RECOVERY COMPLETE | X | Figure 1: Overview of Home Agent Reliability Protocol (HARP) Figure 1 shows an example of the HARP operations. HA1 and HA2 belong to the same redundant home agent set and are assigned with an individual IP address (HA1 and HA2-addr) at the home link. Each home agent can be seen as an individual home agent by mobile nodes. All the home agents periodically send a hello message (named HA-HELLO) to exchange the home agent information and also monitor the active home agent's status (1). The mobile node registers its binding only with the active home agent (2). The active home agent synchronizes the serving mobile node information (i.e. home address) with the other standby home agents periodically (3). HARP introduces the new HA-HELLO message for failure detection, but it should use any types of information to detect that failure. After detecting failure of the active home agent (4), a standby home agent whose preference value is the highest takes over the failed home agent. For doing so, the standby home agent sends a Home Agent Wakikawa (Editor) Expires January 13, 2011 [Page 8] Internet-Draft HA Reliability July 2010 Switch message to all the mobile nodes that were registered at the failed home agent (5). The standby Home Agent set its own address in the Home Agent Address field in the Home Agent Switch message so that it will receive the binding update from the mobile node as an acknowledgment of the sent Home Agent Switch message. The home agent switch-over is complete when it receives binding updates from all the mobile nodes (6). For protecting the Home Agent Switch, the mobile node should have IPsec Security Associations (SA) with the standby home agent before any failover. The mobile node may pre-establish multiple IPsec SAs with all the home agents. Although the active home agent manages IPsec/IKEv2 states per mobile node, HARP does not offer any recovery mechanism of these states by itself. IPsec/IKE states synchronization is out of scope in this document. However, some Virtual Private Network (VPN) products have proprietary IPsec/IKEv2 state synchronization among multiple boxes. If IPsec/IKEv2 states can be recovered from the active home agent to standby one, HARP can be operated slightly in different manner named Virtual-HARP (VHARP). Unlike HARP, the standby home agents are an exact copy of the active home agent. It is similar to the virtual router concept of VRRP[RFC-3768, RFC-5798] and HSRP [RFC-2281]. Note that HARP is mandatory and VHARP is optional in this document. VHARP is shown in Figure 2. MN HA1 HA2 | |<-HA-addr :<-HA-addr' | | : | (active) (standby) |<--------->| : 1. Binding Registration to HA1 | |<--------->: 2. State exchanges | | : | X : HA1 FAILURE | X : | X : 3. Failure Detection | X | 4. HA2 takes over the HA1 | X (active) RECOVERY COMPLETE | X | Figure 2: Overview of Virtual Home Agent Reliability Protocol (VHARP) All the home agents (HA1 and HA2) in the redundant home agent set share a virtual home agent address (HA-addr) and the routing will ensure only the active home agent will be reachable using that virtual home agent address. After a mobile node's binding registration (1), the active home agent pushes all the states of its mobile nodes to the other standby home agents (2). In VHARP, all the Wakikawa (Editor) Expires January 13, 2011 [Page 9] Internet-Draft HA Reliability July 2010 states of a mobile node need to be synchronized. The example information such as Binding Cache and Authentication, Authorization, and Accounting (AAA) information, etc. After detecting the active home agent has failed (3), the standby home agent whose preference value is the highest takes over the failed home agent. The standby home agent activates the virtual home agent address on its interface attached to the home link. The virtual home agent address's activation can be operated by VRRP. Since all the necessary states of mobile nodes have already been transferred to this standby home agent, the standby home agent can immediately start acting as the active home agent (4). Unlike HARP, the mobile node is not required to re-register its binding to a new active home agent. The mobile node may use the IKEv2 resumption mechanism [RFC-5723] to resume IPsec SA with the new active home agent. This document offers a new management mechanism of an active and standby home agents by using a new Mobility Header (MH) message named a HARP message as shown in Figure 3. This mechanism can be used in both HARP and VHARP. Each home agent exchanges own home agent information with the other home agents in its redundancy home agent set by a Home Agent HELLO message (HA-HELLO) (1). The HA-HELLO message can also be used to monitor the availability of the active home agent. HA1(active) HA2 HA3 .. HAn | | | | |<------>|<---->|<---->| 1. HELLO exchange |------->| | | 2. HA1 sends SWB-REQ |<-------| | | 3. HA2 sends SWB-REP |------->| | | 4. HA2 sends SW-COMP (standby) (active) | | HA2 BECOMES ACTIVE HA | | | | SYSTEM MAINTENANCE, ETC. | | | | |------->| | | 5. HA1 sends SWO-REQ |<-------| | | 6. HA2 sends SWO-REP |------->| | | 7. HA1 sends SW-COMP (optional) (active) (standby) | | 8. HA1 returns to active HA | | | | HA1 BECOMES ACTIVE AGAIN Figure 3: Home Agent Management In some scenarios the active home agent may need to stop serving mobile nodes for system maintenance. This specification provides for Wakikawa (Editor) Expires January 13, 2011 [Page 10] Internet-Draft HA Reliability July 2010 a manual home agent management. As shown in Figure 3, the active home agent (HA1) sends a SwitchBack Request message (SWB-REQ) to a standby home agent (HA2) (2). HA2 will acknowledge the message by sending a SwitchBack Reply message (SWB-REP) to HA1 (3). In the HARP operation, it takes certain time to complete home agent fail-over by mobile nodes' re-registration to the new home agent. During this fail-over operations, HA1 may continue serving the mobile nodes until the switch over is completed. When HA2 completes the switch-over, it SHOULD send a SW-COMP to HA1 (4). As soon as HA2 sends the SW-COMP, it becomes the active home agent. HA1 becomes standby when it receives SW-COMP. After the down time, HA1 sends a SwitchOver Request (SWO-REQ) to HA2 in order to become the active home agent again (5). HA2 acknowledge it by sending a SwitchOver Reply (SWO-REP) to HA1 (6). HA1 now starts home agent fail-over operation. After the completion of fail- over, HA1 sends a SW-COMP to HA2 (7). Then, HA1 returns to the active home agent and HA2 fall back to a standby home agent (8). 3. Home Agent Configuration 3.1. Network Configuration HARP supports two different configurations for standby home agents. Standby home agents can be placed on the same home link or on a different link. Figure 4 depicts the configuration where home agents serving the same home network are located on the same link as defined in [RFC-3775]. HA1 HA2 HA3 HA4 .... HAn | | | | | --------+------+------+------+--------+--------- Home Link Figure 4: Local Recovery Configuration Figure 5 illustrates when standby home agents are located on a different link (illustrated as Recovery Link in Figure 5). Most large operators have a very stringent requirement on network availability even in the worst type of disaster or outage. This configuration can achieve home agent recovery even if the entire home link fails. This is called geographic redundancy and a well-known configuration for Telecommunications operators. In Figure 5, home agents (HA1-HA4) are placed in geographically separated regions (region-1 and -2). If region-1 suffers a down time due to any Wakikawa (Editor) Expires January 13, 2011 [Page 11] Internet-Draft HA Reliability July 2010 reason, all the sessions will be seamlessly taken over by the nodes in region-2. Note that HA3 and HA4 cannot receive packets meant for the home network until the route on the Routers is changed. The routing must be also updated to direct the packets meant for the home link to the recovery link. ---------IGP------>|<---BGP--->|<-----IGP--------- HA1 HA2 HA3 HA4 | | | | --------+------+-----+ R---R---R +-----+------+------- Home Link Routers Recovery Link (region-1) (region-2) Figure 5: Global Recovery Configuration 3.2. Home Agent Address Configuration In HARP, each home agent obtains its individual IPv6 address from its serving home prefix. In VHARP, all the home agents use a virtual home agent address generated from the home prefix. In addition, each home agent running VHARP need to obtain its individual IPv6 address from its attached link. This IPv6 address is used only for the VHARP operations between home agents and is not revealed to mobile nodes for binding registration. All the home agents MUST join the ALL_HA_MULTICAST_ADDR. In VHARP, each home agent join the multicast group with its individual IPv6 address, but not with virtual home agent address. This multicast address can be used to exchange the HA-HELLO message among the home agents. On the other hand, if a home recovery link is separately defined, each home agent always unicasts the HARP messages to home agents configured at a geographically separated link. 4. Home Agent Operations 4.1. Home Agent List Management In Mobile IPv6, each home agent periodically sends router advertisements with the Home Address Information option [RFC-3775]. HARP introduces a HARP HA-HELLO message to replace the router advertisement. There are several reasons to use HA-HELLO message instead of the Router Advertisement such as: Wakikawa (Editor) Expires January 13, 2011 [Page 12] Internet-Draft HA Reliability July 2010 o A HA-HELLO message can be sent beyond the link, while a router advertisement cannot be sent beyond the link. In case of geographic redundancy, router advertisements cannot be sent to the recovery link unless the home link and the recovery link are virtually connected by L2TP, etc. o A HA-HELLO message is defined to manage additional information such as Group ID and Active/Standby Status of the home agents in the home agent list. o A HA-HELLO message is exchange only between home agents, while a router advertisement is also processed by mobile nodes attached to a home link. A HA-HELLO does not introduce any burden to the mobile nodes even if it is frequently sent on the home link. When a HA-HELLO is used to exchange the home agent information, each home agent SHOULD NOT process the Home Agent Information option carried by a Router Advertisement. A router advertisement is only processed by mobile nodes. Operators may define different configuration values to the parameters of the home agent information for a HA-HELLO and a Router Advertisement. This document requires additional information to the home agent list defined in [RFC-3775]. The additional information is learned through HA-HELLO message exchange. o Group ID of a redundant home agent set. It is learned through the Group ID field of the HA-HELLO. o HA-HELLO Interval. This value is locally configured at every home agent by operators and is learned through the Hello Interval field of the HA-HELLO. o An individual home agent address used in the VHARP operation. This information is only required when VHARP is used in addition to the virtual home agent address. It is learned through the Source Address of the HA-HELLO message. o VHARP capability. This information is learned through the V flag of the HA-HELLO message. o Current mode (HARP or VHARP). This information is learned through the M flag of the HA-HELLO message. o Active status. This information is learned through the A flag of the HA-HELLO message. Wakikawa (Editor) Expires January 13, 2011 [Page 13] Internet-Draft HA Reliability July 2010 4.2. Detecting Home Agent Failure An active and standby home agents can monitor each other in several ways. One method is to reuse other failure detection mechanisms defined in VRRP[RFC-3768, RFC-5798] and HSRP [RFC-2281]. However, VRRP and HSRP are not sufficient since they cannot detect the case where the system is running but the Mobile IPv6 stack is not operational. Failure events used in HARP/VHARP are listed below. Loss of HA-HELLO HARP/VHARP is an extension to Mobile IPv6 and can monitor availability of Mobile IPv6 stack on each home agent by periodically sending a HA-HELLO as a heart-beat. This HA-HELLO can also be exchanged frequently enough to detect the failure promptly without any additional overhead to mobile nodes attached to the home link. In the event that a standby home agent does not receive any HA-HELLOs from its peer for a configurable duration, the standby home agent assumes that home agent's failure. The detail of the Hello message is described in Section 4.3.2. Monitored Server Failure by the Active Home Agent There may be number of critical servers such as an AAA server in the network that are essential for the ongoing Mobile IPv6 sessions at the home agent. Operators can have a policy in place that the active home agent is treated as a failed home agent upon detecting that the link to such servers has failed. Routing Peer/Link Failure Operators may require the home agent to detect its next-hop routing peer failure. If the next-hop routing failure is fatal in nature, or due to some other routing policies, the active home agent is treated as a failed home gent and the recovering operation should be started. 4.3. Processing the HARP Messages 4.3.1. IP field and Security Descriptions of HARP message The HARP message format is defined in Section 6.1.1. If a HARP message is unicasted, the destination address is one of Home Agent in the same Redundant Home Agent set. If it is HA-HELLO message (by setting the type field to 4), it can be multicasted. The destination address MUST be set to ALL_HA_MULTICAST_ADDR. The source address MUST be set to the sender's home agent address. Note that, in VHARP, the virtual home agent address SHOULD NOT be set to source and Wakikawa (Editor) Expires January 13, 2011 [Page 14] Internet-Draft HA Reliability July 2010 destination address. The IP address of the interface the packet is being sent from SHOULD be used. If a HARP message is unicasted, it SHOULD be authenticated by IPsec AH and MAY be encrypted by IPsec ESP. If a HA-HELLO message is multicasted, multicast extensions to IPsec [RFC-5374] SHOULD be applied. If all the home agents are placed in a secure transport network to exchange a HARP message, authentication and encryption MAY be omitted. Which security verification is used depends on operational policy. If security verification is failed for a receiving HA-HELLO, the HA-HELLO MUST be discarded. The following operations MUST be performed when transmitting a HARP message. o The incremented latest Sequence Number MUST be set to the Sequence Number field. The Sequence Number SHOULD be initialized to zero for the first Hello message. To accomplish sequence number rollover, if the sequence number has already been assigned to be the largest possible number representable as a 16-bit unsigned integer, then when it is incremented it will then have a value of zero (0). o The sender's Group ID MUST be set to the Group ID field. o The V-flag MUST be set if the sender is capable of VHARP. o The M-flag MUST be unset if the sender is operated with HARP. o The M-flag MUST be set if the sender is operated with VHARP. o The A-flag MUST be set if the sender is the active home agent. Performed the following functions when a HARP message is received. o MUST verify the Group ID of the HARP message is equal to the receiver's Group ID. o MUST verify the sender of the HARP message belongs to the receiver's same redundant home agent set o MUST verify that the M flag is equal to the receiver's operating mode. o MUST verify the Sequence Number value in the HARP is larger than the last received Sequence Number value. When the sequence number rollover is occurred, the sequence number value in the HA-HELLO is zero. Wakikawa (Editor) Expires January 13, 2011 [Page 15] Internet-Draft HA Reliability July 2010 If any one of the above checks fails, the receiver SHOULD discard the HARP message. 4.3.2. Processing Home Agent Hello (HA-HELLO) 4.3.2.1. Sending HA-Hello Message Each home agent MUST send a HA-HELLO in following case: o UNSOLICITED: Each home agent SHOULD periodically send a HA-HELLO. The interval time is configured locally at each home agent. o UNSOLICITED: When a home agent detects its local information change, it should immediately send a HA-HELLO. o SOLICITED: when a home agent receives a HA-HELLO with the R-flag set. When the R-flag is set, the HA-HELLO can be requested to the destination home agent. A home agent can solicit a HA-HELLO to a particular home agent(s) in the same redundant home agent set by unicasting or multicasting a HA- HELLO with the R-flag set. Soliciting HA-HELLO is operated when: o A new home agent boots up. The new home agent SHOULD solicit HA- Hello messages by multicasting a HA-Hello message with the R-flag set. o A HA-HELLO has not been received after the specified hello interval. The HA-HELLO MAY be solicited to the home agent. o A home agent entry in the redundant home agent set is about to be removed due to home agent lifetime expiration. The HA-HELLO SHOULD be solicited to the home agent whose lifetime is soon expired. In addition to Section 4.3.1, the following operations MUST be performed when transmitting a HA-HELLO. o The Type field MUST be set to 4. o The R-flag MUST be set if the sender solicits a HA-HELLO to the other home agent(s). o The appropriate home agent configuration values MUST be copied to the Home Agent Preference, the Home Agent Lifetime, and Hello Interval fields. Wakikawa (Editor) Expires January 13, 2011 [Page 16] Internet-Draft HA Reliability July 2010 4.3.2.2. Receiving Hello Message The receiver MUST perform the verification to the HA-HELLO described in Section 4.3.1. After the verification, the receiver copies the value stored in the HA-HELLO message to the corresponding home agent list entry according to Section 4.1. If the home agent lifetime field in the HA-HELLO is set to 0, the receiver MUST remove the sender home agent from the home agents list. If the R-flag is set in the received HA-HELLO, the receiver MUST send a new HA-HELLO to the originator as described in Section 4.3.2.1. 4.3.3. Processing Home Agent Switch Over (SWO-REQ/REP) When a standby home agent decides to become an active home agent, the standby home agent sends a SwitchOver Request (SWO-REQ) to the current active home agent with the following operations. o MUST be unicasted only to the current active home agent o MUST be sent from a standby home agent. The active home Agent MUST NOT generate this message. When an active home agent receives a SWO-REQ, it MUST operate the following verification and operations in addition to Section 4.3.1: o If the receiver of the SWO-REQ is not an active home agent, it MUST send a SWO-REP with the Status field set to 130 (Not active home agent). o If the sender home agent does not belong to the same redundant home agent set, a SWO-REP message MUST be sent to the sender with the Status field set to 132 (Not in same redundant home agent set). o There is a case where the active home agent cannot be standby home agent. The active home agent MUST reply a SWO-REP with the Status field set to 129 (Administratively prohibited). o Otherwise, the active home agent MUST become a standby home agent and reply with a SWO-REP message with the Status field set to 0 (Success). When a standby home agent receives a SWO-REP, it MUST operate the following verification and operations in addition to Section 4.3.1: Wakikawa (Editor) Expires January 13, 2011 [Page 17] Internet-Draft HA Reliability July 2010 o If the receiver is an active home agent, the SWO-REP MUST be discarded. o If the standby home agent receives an unexpected SWO-REP which is not in reply to its SWO-REQ, it MUST ignore the SWO-REP. o Otherwise, if the Status field of the SWO-REP is 0 (Success), the standby home agent (the receiver of SWO-REP) immediately becomes an active home agent. o If the value in the Status field is greater than 128 an error has occurred. In this case, the receiver MUST NOT attempt to be an active home agent. 4.3.4. Processing Home Agent Switch Back (SWB-REQ/REP) When an active home agent decides to become a standby home agent, it sends a SWB-REQ to one of standby home agents. The reason for the active home agent to send this message can be administrative intervention, and events like Monitored Server Failure by the active home agent or Routing Peer/Link Failure. The following operations MUST be performed when SWB-REQ is sent. o MUST be unicasted only to one of standby home agents in the same redundant home agent set o MUST be sent from an active home agent. The standby home Agent MUST NOT generate this message. When a home agent receives a SWB-REQ message, it verifies the message as follows. o If the sender home agent of the SWB-REQ is not an active home agent, the receiver MUST reply a SWB-REP with the Status field is set to 130 (Not active home agent). o If the sending home agent does not belong to the same redundant home agent set, a SWB-REP MUST be sent in which the Status field set to 132 (Not in same redundant home agent set). o Otherwise, the receiving home agent MUST send a SWB-REP with the Status field is set to 0 (Success). o After sending the SWB-REP, the standby home agent MUST NOT become an active home agent immediately. This is because the active home agent is still active until it receives the SWB-REP which is acknowledging the SWB-REQ. The standby home agent SHOULD change to active at least after LINK_TRAVERSAL_TIME. Wakikawa (Editor) Expires January 13, 2011 [Page 18] Internet-Draft HA Reliability July 2010 When a home agent receives a SWB-REP message, it verifies the message as follows. o If the standby home agent receives an unexpected SWB-REP which is not in reply to own SWB-REQ, it SHOULD ignore the SWO-REP. o If the Status field of the SWB-REP is 0 (Success), the active home agent immediately becomes a standby home agent. The sender home agent of SWB-REP becomes an active home agent after certain time, LINK_TRAVERSAL_TIME. o If the value in the Status field is greater than 128, the receiver of SWB-REP (active home agent) cannot become a standby home agent and MUST continue to be an active home agent. 4.4. State Synchronization A State Synchronization (SS) message format is defined in Section 6.1.2. It can carry several state information about a mobile node by setting mobility options in the Mobility Options field. The following list shows examples of the mobility options which can be specified in the state synchronization message. o IPv6 Home Address (Binding Cache Option) o Binding Cache Information (Binding Cache Option) o NEMO Mobile Network Prefix (Mobile Network Prefix Option [RFC- 3963]) o IPv4 Care-of Address (IPv4 Care-of Address Option [RFC-5555]) o IPv4 Home Address (IPv4 Home Address Option [RFC-5555]) o Binding Identifier (Binding Identifier Option [RFC-5648] o AAA states (AAA Information Option) o Miscellaneous states (Vendor Specific Mobility Option [RFC-5094]) When a home agent need to send the state of multiple mobile nodes in a single state synchronization message (SS-REQ or SS-REP), a Binding Cache Information option is used as a separator. For each mobile node, a Binding Cache Information option is placed first, followed by any other options related to the mobile node if necessary. In HARP, since a mobile node will re-register to the new active home agent after home agent fail-over, it is not necessary for the standby Wakikawa (Editor) Expires January 13, 2011 [Page 19] Internet-Draft HA Reliability July 2010 home agents to synchronize all the mobile nodes' state information. The standby home agent only need to collect the home address information of all the mobile nodes served by the active home agent. The information is used to send the Home Agent Switch messages to all the mobile node when the home agent failure is occurred. In VHARP, home agent fail-over is completed without mobile nodes' binding re-registration. Therefore, standby home agents need to copy the complete state information of each mobile node registered with the active home agent. 4.4.1. Binding Cache Information Management In HARP, each standby home agent learns the partial binding cache information such as a pair of a home address and a mobile node's registering home agent address. This information is stored somewhere in a standby home agent. In VHARP, a standby home agent ideally copies the received binding cache information and other mobile node's information into the appropriate database so that it can act as an active home agent as soon as it takes over the failed home agent. 4.4.2. IP field and Security Descriptions of SS message A state synchronization message is only unicasted. The destination address MUST be one of home agents in the same Redundant Home Agent set. The source address MUST be set to the sender's home agent address. Note that, in VHARP, the virtual home agent address MUST NOT be set to the source address. IP address of the interface the packet is being sent from SHOULD be used. If a state synchronization message is unicasted, it SHOULD be authenticated by IPsec AH and MAY be encrypted by IPsec ESP. If all the home agents are placed in a secure transport network to exchange the state synchronization message, authentication and encryption MAY be omitted. If security verification is failed for a receiving state synchronization message, the message MUST be discarded. Which security mechanism is used depend on the operational policy. 4.4.3. Requesting State of Mobile Nodes (SS-REQ) When a home agent needs the state information for a particular mobile node or a subset of mobile nodes, it sends a SS-REQ message constructed as follows: o MUST set the Type field to 0 (Request). Wakikawa (Editor) Expires January 13, 2011 [Page 20] Internet-Draft HA Reliability July 2010 o MUST set a random value in the Identifier field that does not coincide with any other currently pending Requests. o MUST include a Binding Cache Information option(s) which Home Address field is set to the target home address. Other fields of the Binding Cache Information option can be omitted. o MUST set the unspecified address (::) in the Home Address field of the Binding Cache Information option, if it solicits the state of all the mobile nodes registering at the destination home agent of the SS-REQ message. o MUST include multiple binding cache information options in a SS- REQ, if the sender requests multiple mobile nodes' information. The sender SHOULD NOT send multiple SS-REQs per mobile node. o MUST send a SS-REQ to the active home agent of the target mobile node(s). When a home agent receives a SS-REQ, it MUST perform the verification described in Section 4.4.2 and following: o If the receiver does not know the binding cache for the target mobile node(s) specified in the received Binding Cache Information option(s), it MUST ignore the SS-REQ and MUST NOT reply a SS-REQ. o Otherwise, the receiver MUST reply a SS-REP including all the state information of the target mobile node(s). 4.4.4. Sending State Information (SS-REP) A SS-REP message(s) SHOULD be sent when: 1. The active home agent receives a SS-REQ. 2. The active home agent creates or deletes a binding cache entry for a particular mobile node. The active home agent MAY additionally send a SS-REP message in following cases: 1. The active home agent updates the state information for all sessions that changed since the last update in a periodic interval 2. Often in VHARP, the active home agent MAY update a binding cache entry for a particular mobile node whenever the binding cache entry is updated. If an active home agent sends a SS-REP message Wakikawa (Editor) Expires January 13, 2011 [Page 21] Internet-Draft HA Reliability July 2010 whenever the local state information changes, such as a binding cache change, the number of the SS-REP messages can be quite large. Following rules must be applied when the active home agent constructs a SS-REP. o MUST copy the Identifier field of the SS-REQ to the same field of the SS-REP, if the SS-REP is sent in response to the SS-REQ. o MUST set zero to the Identifier field if the SS-REP is sent without solicitation (no SS-REQ). o MUST include required mobility options in the SS-REP. * In HARP, a partial Binding Cache Information Option (the Home Address Field only) MUST be included in the SS-REP. * In VHARP, a full Binding Cache Information Option and other required options shown in Section 6.1.2 MUST be included in the SS-REP. o MUST include the state of all the active mobile nodes registering in the active home agent by the SS-REP when the unspecified address is found in the Home Address mobility option carried with the SS-REQ. The message may be fragmented depending on the total size needed to carry all states. 4.4.5. Synchronizing State (SS-REP and SS-ACK) When a home agent receives a SS-REP, it MUST take the following operations. o If no options are carried in the SS-REP, the home agent MUST ignore the SS-REP and MUST send SS-ACK with the Status Synchronization Status option which status value is set to [131: No Mobility Option] o If the sender of SS-REP is not in the same global home agent set, the home agent MUST reject the SS-REP and MUST send SS-ACK with the Status Synchronization Status option which status value is set to [130: Not in same global home agent set] o The receiver home agent MUST record the IPv6 address of the sender as the active home agent of the mobile node in its local binding cache. Wakikawa (Editor) Expires January 13, 2011 [Page 22] Internet-Draft HA Reliability July 2010 o The receiver home agent MUST update its binding cache and all other necessary information in a particular database(s). o The receiver home agent MUST send a SS-ACK with state synchronization status mobility options if A flag is set. If an active home agent requires an acknowledgment of a SS-REP, it MUST set the Ack flag in the SS-REP. The receiver of such SS-REP will send back a SS-ACK. The receiver MUST copy the Identifier value received in the SS-REP into SS-ACK in order to match the SS-REP and SS-ACK. 4.5. Switching the Active Home Agent In HARP, the standby home agent which is going to be active MUST send a Home Agent Switch message [RFC-5142] to all the mobile nodes that were being served by the failed home agent. The following rules MUST be applied when transmitting a Home Agent Switch message. o MUST use IPsec ESP to the Home Agent Switch message. o MUST set only that standby home agent address in the Home Agent Switch message If there are a large number of mobile nodes served by the failed home agent, the overhead sending Home Agent Switch messages is high. This overhead cannot be avoided if the active home agent suddenly stop serving mobile node because of unexpected reasons (crash, network trouble, etc). However, if this switch over is operated under the administrative operation (maintenance, etc), the previous active home agent may continue serving the mobile nodes until the switch over is completed. Until the mobile node sends a binding update to the new active home agent, it still sends the packet to the previous home agent. Therefore, the new active home agent can notify the completion of switch-over to the previous active home agent by using a SW-COMP message. When the new active home agent completes the switch-over, it SHOULD send a SW-COMP to the previous active home agent. Until the previous home agent receives this message, it SHOULD continue serving any mobile nodes that are registered with it. Once the previous home agent receives the SW-COMP message, it can be shutdown or detached from the network safely. In VHARP, after detecting the active home agent has failed, the standby home agent whose preference value is the highest MUST take over the failed home agent. The standby home agent MUST activate the virtual home agent address. If a virtual MAC address as introduced Wakikawa (Editor) Expires January 13, 2011 [Page 23] Internet-Draft HA Reliability July 2010 in [RFC-3768, RFC-5798] is used, the standby home agent MUST start using that virtual MAC address as well. If VHARP run with VRRP and HSRP as described in Section 4.7, the virtual home agent address can be treated as a virtual router address in VRRP and HSRP. Therefore, VRRP and HSRP can automatically activate the virtual home agent address on the standby home agent after their election mechanism. Since all the necessary state has already been transferred to this standby home agent before the active home agent failed, it can immediately start acting as the active home agent. When the failed home agent recovers from failure and would return to the active home agent, it MUST re-establish IPsec SA with all the mobile nodes. All the mobile nodes lost IPsec SA with the home agent when the failure is occurred. Otherwise, it cannot be either a standby or active home agent for the mobile nodes. Therefore, as soon as the active home agent detects the recovery of the failed home agent, it sends a Home Agent Rekey message to all the mobile nodes served by other home agents in the same redundant home agent set, and includes the recovered home agent address in the Home Agent Addresses field. The detail of the Home Agent Rekey message is described in Section 6.1.3. The mobile node will re-key the SA by using The IKEv2 resumption mechanism [RFC-5723]. Alternatively, the mobile node MAY start a new IKE session with the recovered home agent. 4.6. Consideration of Routing and Neighbor Discovery Protocol (VHARP) This section gives a brief explanation of how a home agent interacts with routing and Neighbor Discovery Protocol (NDP) when is VHARP used. When a standby home agent becomes active in VHARP, it MUST start to advertise the home agent address and the home prefix of the home addresses serviced by the redundant home agent set into the routing infrastructure. This operation is normally done using a route selector such as BGP or an OSPF modifier. For example, we can use the AS_Path prepend operation for BGP, and the Metric field in OSPF for the route selection. When each home agent participates in OSPF routing, each home agent should be configured with the appropriate metric matched to the home agent preference value. When the active home agent fails, OSPF detects the failure and can dynamically switch the route to the standby home Agent based on the OSPF cost value. If this creates conflicts with the home agent preference value due to configuration errors, the routers on the home link may not route packets to the desired standby home agent. In order to change the OSPF cost correctly and dynamically, The operator takes other existing approaches. For example, most of router vendors have a private MIB to set the cost via SNMP, though this is a vendor- specific function. Wakikawa (Editor) Expires January 13, 2011 [Page 24] Internet-Draft HA Reliability July 2010 When an active home agent activates a home agent address, it SHOULD use a virtual MAC address as introduced in [RFC-3768, RFC-5798]. When the active home agent is changed, the neighbor cache of the active home agent is not necessarily updated on mobile nodes located on the home link. Otherwise, the new home agent MUST update the neighbor cache entry for the home agent address on all the mobile nodes located on the home link. In addition, Mobile IPv6 uses proxy NDP to intercept packets meant for mobile nodes which are away from the home link. However, it is unnecessary for the new active home agent to overwrite the existing proxy neighbor entries of the mobile nodes. 4.7. Interworking with VRRP VRRP and HSRP specify an election protocol that dynamically assigns responsibility for a virtual router to one of the VRRP routers on a LAN. This operation is similar to the VHARP. For example, the VRRP router controlling the IP address(es) associated with a virtual router is called the Master, and forwards packets sent to these IP addresses. The election process provides dynamic fail over in the forwarding responsibility should the Master become unavailable. Although VRRP is used to guarantee home agent address reachability, it cannot be used for state synchronization and explicit switching of Master and Backup. Thus, the Home Agent Reliability protocol cannot be replaced by VRRP. This section explains how VRRP can interwork with HARP/VHARP. When VRRP is available, VRRP can replace the Hello message described in Section 6.1.1. However, some of information is missed by using VRRP. After receiving a VRRP message, each home agent SHOULD process the message and store the information as if it receives Home Agent Hello messages Section 4.3.2.2. The message format of VRRP can be found in Section 5.1 of [RFC-5798]. Each field is mapped as follows: o Virtual Rtr ID: Group ID is stored in the Virtual Rtr ID field. o Priority: Home Agent Preference is stored in the Priority field. Note that VRRP only has 8 bits for the Priority field. Therefore, values larger than 255 MUST NOT be assigned to the preference value. o Count IPv6 IPv6 Addr: This field MUST be always be 1. o Max Advert Int: This field MUST be mapped to the Hello Interval field of the Home Agent Hello message, though it only has 12 bytes. Wakikawa (Editor) Expires January 13, 2011 [Page 25] Internet-Draft HA Reliability July 2010 o IPv6 address: A home agent address is stored in this field. Home Agent Lifetime, Sequence Number and Flags field are missed in the VRRP packet format. Therefore, operators SHOULD use the same statically configured value for Home Agent Lifetime. Each home agent does not check freshness of received VRRP message because of no sequence number. 4.8. Retransmissions and Rate Limiting Home agents are responsible for retransmissions and rate limiting of SS-REQ, SWO-REQ, SWB-REQ messages for which they expect a response. The home agent MUST determine a value for the initial transmission timer: o If the home agent sends a SS-REQ message, it SHOULD use an initial retransmission interval of INITIAL_STATE_SYNC_REQ_TIMER. o If a home agent sends a SWO-REQ or SWB-REQ message, it SHOULD use an initial retransmission interval of INITIAL_SWITCH_REQ_TIMER. If the sending home agent fails to receive a valid matching response within the selected initial retransmission interval, it SHOULD retransmit the message until a response is received. All of the above constants are specified in Section 8. The retransmission MUST use an exponential backoff process as described in [RFC-3775] until either the home agent receives a response, or the timeout period reaches the value MAC_HARELIABILITY_TIMEOUT. The home agent SHOULD use a separate back-off process for different message types and different destinations. The rate limiting of Mobility Header messages is the same as one in [RFC-3775]. A home agent MUST NOT send Mobility Header Messages to a particular home agent more than MAX_UPDATE_RATE (3) times a second, which is specified in [RFC-3775]. 5. Mobile Node Operation This section describes the operations of a mobile node only when HARP is used. Non of operations in this section is required in VHARP. 5.1. Home Agent Addresses Discovery A mobile node authenticates itself to two or more home agents and creates IPsec SAs with them during bootstrapping. When the active home agent fails, another home agent can use the pre-existing SA to notify the mobile node about the failure by sending a Home Agent Wakikawa (Editor) Expires January 13, 2011 [Page 26] Internet-Draft HA Reliability July 2010 Switch message. In order to discover multiple home agent addresses, two different mechanisms are defined in the bootstrapping solution in the split scenario [RFC-5026]. One is DNS lookup by home agent Name, the other is DNS lookup by Service Name. DHCPv6 can also be used in the integrated scenario [ID-BOOTINT] to provide home agent provisioning to mobile nodes. In the split scenario, a mobile node can use DNS lookup by Service Name to discover the home agents, as defined in [RFC-5026]. For example, if home agent reliability is required by a mobile node, DNS lookup by Service Name method is recommended for the mobile node to discover multiple home agents addresses. Therefore, mobile nodes will query the DNS SRV records with a service name of mip6 and protocol name of ipv6. The DNS SRV records includes multiple home agent addresses and different preference values and weights. The mobile node SHOULD choose two or more home agents from the home agents list according to their preference value. Then the mobile node should authenticate itself to these home agents via an IKEv2 exchange. In the integrated scenario, a mobile node can use DHCPv6 to get home agent provisioning from an MSP or ASP, as already defined in [ID- BOOTINT]. The only requirement is that the DHCPv6 response must include multiple home agents' information in order to support home agent reliability. 5.2. IPsec/IKE Establishment to Home Agents In this document, a mobile node need to manage an IPsec SA with a home agent(s). The following mechanism can be used to manage the IPsec SA(s) with a home agent(s). o IKEv1/v2 running per home agent (HARP) to establish multiple IPsec SAs for home agents. o The IKEv2 resumption mechanism [RFC-5723] to update an IPsec SA with the new home agent (VHARP) If IPsec/IKEv2 state synchronization mechanism is available in Virtual Private Network (VPN) products, none of above is required for the VHARP operation. The IPsec SAs per mobile node are seamlessly copied among multiple home agents. The mobile node MUST follow the standard IKEv2 exchange in the bootstrapping solution of the split scenario [RFC-5026]. If multiple IKEv2 are run per home agent, the mobile node MUST NOT attempt the Wakikawa (Editor) Expires January 13, 2011 [Page 27] Internet-Draft HA Reliability July 2010 home address assignment to standby home agents. 5.3. Synchronizing State: K-bit treatment When a mobile node moves and the care-of address changes, it can use the Key Management Mobility Capability (K) bit in the Binding Update in order to update the peer endpoint of the key management protocol (ex. IKE Security Association). If an active home agent receives a Binding Update which K-bit is set, it MUST proceed the Binding Update as [RFC-3775]. In addition, the active home agent MUST notify the care-of address change to the other standby home agents. For doing so, it MUST send State Synchronization Reply message including Binding Cache Information option to all the other standby home agents. The flags of the Binding Update (ex. K-bit) MUST be copied to the flags field of the Binding Cache Information option. After all, the standby home agents know the existence of K-bit set in the Flag field of the Binding Cache Information option and update the peer endpoint of the key management protocol. If the K-bit is not set in the Binding Update, an active home agent needs to rerun the key management protocol. The active home agent MUST send State Synchronization Reply message including Binding Cache Information option to all the other standby home agents. K-bit is unset in the flags field of the Binding Cache Information option. The receivers of the State Synchronization Reply message (i.e. standby home agents) detect the care-of address change and rerun the key management protocol. 5.4. Receiving Home Agent Switch message A mobile node must follow the verification and operations specified in [RFC-5142] when it receives a Home Agent Switch message. The Home Agent Switch message MUST be securely exchanged between a mobile node and a home agent by IPsec ESP. When the mobile node receives a Home Agent Switch message, and if the message contains the IPv6 address of a standby home agent, it MUST select the standby home agent as its active home agent and MUST send a new Binding Update message to it. The standby home agent address in the Home Agent Switch message MUST be equal to the sender of the Home Agent Switch message. If the IPv6 address stored in the Home agent address field is different from the sender's source IPv6 address, the mobile node MUST send a binding update to the sender and MUST NOT use the IPv6 address in the Home Wakikawa (Editor) Expires January 13, 2011 [Page 28] Internet-Draft HA Reliability July 2010 Agent Switch message. 6. Messages Format 6.1. New Mobility Header Messages 6.1.1. HARP Message Format The HARP message has the type field to identify different roles. The HARP message has the MH Type value TBD. 0 1 2 3 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | Type | Group ID | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | Sequence # |A|R|V|M|Rsvd | Status | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | Home Agent Preference | Home Agent Lifetime | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | Hello Interval | | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | | | . Mobility Options . . . +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ Figure 6: Home Agent Hello Message Type 8-bit unsigned integer. It can be assigned one of the following values: 0: SwitchOver Request (SWO-REQ) It is unicasted by a standby home agent that desires to become the active home agent. The receiver of the message MUST transition to standby state as soon as the message is received and validated successfully. 1: SwitchOver Reply (SWO-REP) Wakikawa (Editor) Expires January 13, 2011 [Page 29] Internet-Draft HA Reliability July 2010 It is used to acknowledge the receipt of the corresponding SWO- REQ. 2: SwitchBack Request (SWB-REQ) It is unicasted by an active home agent that desires to become a standby home agent. The receiver of this message SHOULD transition to active state as soon as the message is received and validated successfully. 3: SwitchBack Reply (SWB-REP) It is used to acknowledge the receipt of the corresponding SWB- REQ. 4: Switch Complete (SW-COMP) This message is used to indicate the completion of switch over, (i.e. sending home agent switch messages and receiving binding update messages from all the served mobile nodes). 4: Home Agent HELLO (HA-HELLO) It MUST be either unicasted or multicasted to carry home agent information among the redundant home agent set. The HA-Hello message is defined for two purpose: 1) an alive check and 2) home agent information exchange. Group Identifier 8-bit unsigned integer. This value is used to identify a particular redundant home agent set. Sequence # 16-bit unsigned integer. The Sequence number of the HA-Hello message can be used to verify whether this Hello message is the latest one or not. (A)ctive flag Active Home Agent flag. If this flag is set, the sender of this HA-Hello message is an active home agent. (R)equest flag Wakikawa (Editor) Expires January 13, 2011 [Page 30] Internet-Draft HA Reliability July 2010 HA-HELLO requesting flag. If this flag is set, the receiver of this HA-Hello message must send back a HA-Hello message to the sender. (V)HARP capability flag VHARP capability Flag. If a home agent is capable of IPsec/IKE state synchronization, it MUST set this flag. (M)ode flag A home agent MUST set this flag only when VHARP is used in the current operation. If the flag is unset, the home agent currently operates HARP. (HARP:0, VHARP:1) Reserved This field is unused. It MUST be initialized to zero by the sender and MUST be ignored by the receiver. Status 8-bit unsigned integer indicating the disposition of a SWO-REQ or SWB-REQ. This field is only valid in SWO-REP and SWB-REP. The following Status values are defined: 0: Success 128: Reason unspecified 129: Administratively prohibited 130: Not active home agent (The receiver of SWO-REQ is not the active home agent) 131: Not standby home agent (The receiver of SWB-REQ is already the active home agent) 132: Not in same redundant home agent set Home Agent Preference 16-bit unsigned integer. The preference for the home agent sending the HA-Hello message. This preference is the same as the Home Agent Preference value of the Home Agent Information option as defined in [RFC-3775]. However, operators MAY use a different preference value for this operation. Wakikawa (Editor) Expires January 13, 2011 [Page 31] Internet-Draft HA Reliability July 2010 Home Agent Lifetime 16-bit unsigned integer. The lifetime for the home agent sending the HA-Hello message. This lifetime is the same as the Home Agent Lifetime value of the Home Agent Information option as defined in [RFC-3775]. Hello Interval 16-bit unsigned integer. The interval for the home agent sending this Hello message. Mobility Options No valid options are defined in this specification. 6.1.2. State Synchronization Message Format This message is used to exchange state corresponding to a particular mobile node(s). It MUST be unicasted and MUST be authenticated by IPsec ESP. This message has the MH Type value TBD. 0 1 2 3 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | Type |A| Reserved | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | Identifier | | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ + . . . Mobility Options . . . . | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ Figure 7: State Synchronization Message Type 8-bit unsigned integer. It can be assigned one of the following values: 0: State Synchronization Request (SS-REQ) Wakikawa (Editor) Expires January 13, 2011 [Page 32] Internet-Draft HA Reliability July 2010 It is used to solicit the active state corresponding to a particular mobile node. 1: State Synchronization Reply (SS-REP) It is used between the home agents in the redundant home agent set to exchange binding cache information and any other information related to providing mobility service to the mobile nodes either periodically or in response to a SS-REQ. 2: State Synchronization Reply-Ack (SS-ACK) This message is optional and is specially used when the links between home agents are not reliable. (A)ck flag This flag is valid only for SS-REP. If the sender requires explicit acknowledgment by SS-ACK, it MUST set this flag. Reserved This field is unused. It MUST be initialized to zero by the sender and MUST be ignored by the receiver. Identifier A 16-bit identifier to aid in matching state synchronization message. The identifier should never be set to 0. It should always be more than 1. Mobility Options Variable-length field of such length that the complete Mobility Header is an integer multiple of 8 octets long. This field contains zero or more TLV-encoded mobility options. The encoding and format of defined options are described in [RFC-3775]. The receiver MUST ignore and skip any options which it does not understand. This message requires at least one mobility option, therefore, there is no default length for this message. Binding Cache Information Option is mandatory in SS-REQ message. Multiple options can be stored in the same SS-REQ message. A home agent includes the mobile node's home address in the Binding Cache Information Option. If a home agent wants to solicit all the active mobile nodes' states, it can include the unspecified address (::) in an IPv6 address option. Wakikawa (Editor) Expires January 13, 2011 [Page 33] Internet-Draft HA Reliability July 2010 Binding Cache Information Option is mandatory in SS-REP. SS-REP can carry any of mobility options. The following options are just examples. * AAA Information Option * Vendor Specific Mobility Option [RFC-5094] * Mobile Network Prefix Option [RFC-3963] * IPv4 Care-of Address Option [RFC-5555] * IPv4 Home Address Option [RFC-5555] * Binding Identifier Option [RFC-5648] 6.1.3. Home Agent Rekey Message This message is used to indicate that the mobile node SHOULD start an IPsec re-key with the home agent specified in the Home Agent Addresses field. This message is used when a failed home agent recovers and needs to re-establish IPsec SA/IKE state with a mobile node. This message MUST be unicasted to a mobile node by the active home agent and MUST be authenticated and encrypted by IPsec ESP. The Home Agent Rekey message has the MH Type value TBD. If no options are present in this message, no padding is necessary and the Header Len field will be set to 2. 0 1 2 3 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | Reserved | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | | + + . Home Agent Addresses . + + | | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ . Mobility options . +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ Figure 8: Home Agent Rekey Message Wakikawa (Editor) Expires January 13, 2011 [Page 34] Internet-Draft HA Reliability July 2010 Reserved The reserved field is 16 bits Home Agent Address The receiver of this message MUST rekey the security asscoation with the specified home agent. When a mobile node receives a Home Agent Rekey message, it MUST verify the message as following. o The message MUST be sent from the receiver's active home agent. Otherwise, the message MUST be discarded. o The message MUST be protected by IPsec. Otherwise, the message MUST be discarded. o The message SHOULD contain one of standby home agent's address. If the home agent address is not known from the bootstrapping described in Section 5.1, the mobile node MUST NOT start an IKE session with the unknown home agent. Instead, it SHOULD re-start home agent discovery again to update its home agent address information. If all the above verfications are satisified, the mobile node MUST re-key the SA with the home agent addresses stored in the Home Agent Addresses field. 6.2. New Mobility Options 6.2.1. Binding Cache Information Option The binding cache information option is used to carry binding cache information of each mobile node. It has two different lengths depending on the number of fields. Two lengths can be set, 16 and 40. The alignment requirement is either 8n+6 or 8n+2. The Binding Cache Information option is only valid in a State Synchronization message. Its format is as follows: Wakikawa (Editor) Expires January 13, 2011 [Page 35] Internet-Draft HA Reliability July 2010 0 1 2 3 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | Type = TBD | Length | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | | + + | Home Address | + + | | + + | | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ : : + + : : + Care-of Address + : : + + : : +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ : Flags : Sequence Number : +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ : Lifetime : Reserved : +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ Figure 9: Binding Cache Information Option The fields of Home Address is always mandated in a Binding Cache Information option. The Care-of Address, Flags, Sequence Number, and Lifetime fields are presented only if these values are necessary (ex. VHARP). The corresponding value in the binding cache database of the active home agent is copied to each field. Note that the 16-bit Reserved field MUST be set to zero. 6.2.2. State Synchronization Status Option Figure 10 is a new mobility option of State Synchronization message. In the global HAHA, SS-ACK is mandatory for receivers of SS-REP to notify the global binding registration status Wakikawa (Editor) Expires January 13, 2011 [Page 36] Internet-Draft HA Reliability July 2010 0 1 2 3 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | Type = TBD | Length | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | Status | Reserved | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | | + + | Home Address | + + | | + + | | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ Figure 10: State Synchronization Status Option Type 8-bit Type value. The value is TBD. Length 8-bit length value. Status 8 bit Status value of global binding registration. * 0: Success * 128: Reason unspecified * 129: Malformed SS-REP * 130: Not in same global home agent set * 131: No Mobility Option Reserved 24 bit Reserved fields Wakikawa (Editor) Expires January 13, 2011 [Page 37] Internet-Draft HA Reliability July 2010 Home Address Corresponding home address of the status code. 6.2.3. AAA Information Option This option is used to carry the AAA state of the mobile node's Mobile IPv6 sessions. The AAA state information can be carried in RADIUS or Diameter AVP formats including the user and session info. This information option is only valid in a State Synchronization message. 0 1 2 3 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | Type = TBD | Length | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ . . . AAA AVPs . . . +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ Figure 11: AAA Information Option Type 8-bit Type value. The value is TBD. Length 8-bit length value. AAA AVPs Series of TLV encoded AAA AVPs (including vendor specific AVPs) carrying AAA-related information for each Mobile IPv6 and IPsec/ IKE session. 7. Security Considerations All the messages newly defined in this document SHOULD be authenticated by IPsec AH and MAY be encrypted by IPsec ESP. When a HA-HELLO message is multicasted, the multicast extensions to IPsec [RFC-5374] is used. In some operational scenarios, home agents are located in deeply core network and securely managed. If there is a Wakikawa (Editor) Expires January 13, 2011 [Page 38] Internet-Draft HA Reliability July 2010 secure transport network between home agents, some of security mechanism can be turned off depending on administrative policy. A home agent switch message is reused for signaling between a home agent and a mobile node in HARP. It is protected by IPsec ESP as defined in [RFC-5142]. When an active home agent fails, mobile nodes using that home agent need to change its home agent to one of standby home agents. The mobile node need to update or establish the IPsec SA with the new home agent as described in Section 5.2. Existing mechanisms [RFC5723] are applied to this operation. 8. Protocol Constants INITIAL_STATE_SYNC_REQ_TIMER: 3sec INITIAL_SWICH_REQ_TIMER: 1sec LINK_TRAVERSAL_TIME 150msec MAC_HARELIABILITY_TIMEOUT 16sec ALL_HA_MULTICAST_ADDR: TBD 9. IANA Considerations The following Extension Types MUST be assigned by IANA: o Home Agent Reliability Protocol (HARP) Message o State Synchronization (SS) Message o Binding Cache Information Option o AAA Information Option o A new link-local multicast address (ALL_HA_MULTICAST_ADDR) for all home agents will be assigned by the IANA. 10. Additional Authors This document is a result of discussions in the Mobile IPv6 Home Agent Reliability Design Team. The members of the design team that are listed below are authors that have contributed to this document: Wakikawa (Editor) Expires January 13, 2011 [Page 39] Internet-Draft HA Reliability July 2010 Samita Chakrabarti samita.chakrabarti@azairenet.com Kuntal Chowdhury kchowdhury@starentnetworks.com Hui Deng denghui@chinamobile.com Vijay Devarapalli vijay.devarapalli@azairenet.com Sri Gundavelli sgundave@cisco.com Brian Haley brian.haley@hp.com Behcet Sarikaya bsarikaya@huawei.com Ryuji Wakikawa ryuji.wakikawa@gmail.com 11. Acknowledgements This document includes a lot of text from [ID-LOCALHAHA] and [ID- HAHA]. Therefore the authors of these two documents are acknowledged. We would also like to thank the authors of the home agent reliability problem statement [ID-PS-HARELIABILITY] for describing the problem succinctly and Alice Qin for her work on the hello protocol. 12. References Wakikawa (Editor) Expires January 13, 2011 [Page 40] Internet-Draft HA Reliability July 2010 12.1. Normative References [RFC-2119] Bradner, S., "Key words for use in RFCs to Indicate Requirement Levels", BCP 14, RFC 2119, March 1997. [RFC-3775] Johnson, D., Perkins, C., Arkko, J., "Mobility Support in IPv6", RFC 3775, June 2004. [RFC-3963] Devarapalli, V., Wakikawa, R., Petrescu, A., and P. Thubert, "Network Mobility (NEMO) Basic Support Protocol", RFC 3963, January 2005. [RFC-5026] Giaretta, G., "Mobile IPv6 bootstrapping in split scenario", RFC 5026, October 2007. [RFC-5094] Devarapalli, V., "Mobile IPv6 Vendor Specific Option", RFC 5094, October 2007. [RFC-5142] Haley, B., "Mobility Header Home Agent Switch Message", RFC-5142, November 2007. [RFC-5374] B. Weis, G. GrossD. Ignjatic, "Multicast Extensions to the Security Architecture for the Internet Protocol", RFC 5374, November 2008 [RFC-5555] Soliman, H. et al, "Mobile IPv6 support for dual stack Hosts and Routers (DSMIPv6)", RFC-5555, June 2009. [RFC-5648] Wakikawa, R., Devarapalli, V., Tsirtsis, G., Ernst, T., and K. Nagami, "Multiple Care-of Addresses Registration", RFC 5648, October 2009. [ID-BOOTINT] Chowdhury, K. and A. Yegin, "MIP6-bootstrapping via DHCPv6 for the Integrated Scenario", draft-ietf-mip6-bootstrapping-integrated-dhc-06 (work in progress), April 2008. 12.2. Informative References [RFC-2281] Li, T., Cole, B., Morton, P., and D. Li, "Cisco Hot Standby Router Protocol (HSRP)", RFC 2281, March 1998. [RFC-3753] Manner, J. and M. Kojo, "Mobility Related Terminology", RFC 3753, June 2004. [RFC-3768] Hinden, R., "Virtual Router Redundancy Protocol (VRRP)", RFC 3768, April 2004. Wakikawa (Editor) Expires January 13, 2011 [Page 41] Internet-Draft HA Reliability July 2010 [RFC-4877] V. Devarapalli, F. Dupont, "Mobile IPv6 Operation with IKEv2 and the Revised IPsec Architecture", RFC 4877, April 2007. [RFC-5723] Y. Sheffer, H. Tschofenig, "Internet Key Exchange Protocol Version 2 (IKEv2) Session Resumption", RFC 5273, January 2010. [RFC-5798] S. Nadas, "Virtual Router Redundancy Protocol Version 3 for IPv4 and IPv6", RFC 5798 (soon?), December 2009. [ID-HAHA] Wakikawa, R., "Inter Home Agents Protocol Specification", draft-wakikawa-mip6-nemo-haha-spec-01 (expired), March 2006. [ID-LOCALHAHA] Devarapalli, V., "Local HA to HA protocol", draft-devarapalli-mip6-nemo-local-haha-01 (expired), March 2006. [ID-PS-HARELIABILITY] Faizan, J., "Problem Statement: Home Agent Reliability", draft-jfaizan-mipv6-ha-reliability-01 (expired), February 2004. Wakikawa (Editor) Expires January 13, 2011 [Page 42] Internet-Draft HA Reliability July 2010 Author's Address Ryuji Wakikawa TOYOTA InfoTechnology Center, U.S.A., Inc. 465 Bernardo Avenue Mountain View, CA 94043 USA Email: ryuji@us.toyota-itc.com Wakikawa (Editor) Expires January 13, 2011 [Page 43]