MBONED Working Group H. Liu Internet-Draft W. Cao Intended status: Standards Track Huawei Technologies Expires: April 17, 2010 H. Asaeda Keio University October 14, 2009 Lightweight IGMPv3 and MLDv2 Protocols draft-ietf-mboned-lightweight-igmpv3-mldv2-06 Status of this Memo This Internet-Draft is submitted to IETF in full conformance with the provisions of BCP 78 and BCP 79. This document may contain material from IETF Documents or IETF Contributions published or made publicly available before November 10, 2008. The person(s) controlling the copyright in some of this material may not have granted the IETF Trust the right to allow modifications of such material outside the IETF Standards Process. 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The list of Internet-Draft Shadow Directories can be accessed at http://www.ietf.org/shadow.html. This Internet-Draft will expire on April 17, 2010. Copyright Notice Copyright (c) 2009 IETF Trust and the persons identified as the document authors. All rights reserved. Liu, et al. Expires April 17, 2010 [Page 1] Internet-Draft Lightweight IGMPv3 and MLDv2 October 2009 This document is subject to BCP 78 and the IETF Trust's Legal Provisions Relating to IETF Documents in effect on the date of publication of this document (http://trustee.ietf.org/license-info). Please review these documents carefully, as they describe your rights and restrictions with respect to this document. Liu, et al. Expires April 17, 2010 [Page 2] Internet-Draft Lightweight IGMPv3 and MLDv2 October 2009 Abstract This document describes lightweight IGMPv3 and MLDv2 protocols (LW- IGMPv3 and LW-MLDv2), which simplify the standard (full) versions of IGMPv3 and MLDv2. The interoperability with the full versions and the previous versions of IGMP and MLD is also taken into account. Table of Contents 1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . . 4 2. Terminology . . . . . . . . . . . . . . . . . . . . . . . . . 6 3. Simplification Method Overview . . . . . . . . . . . . . . . . 7 3.1. Behavior of Group Members . . . . . . . . . . . . . . . . 7 3.2. Behavior of Multicast Routers . . . . . . . . . . . . . . 7 4. LW-IGMPv3 Protocol for Group Members . . . . . . . . . . . . . 9 4.1. Query and Report Messages . . . . . . . . . . . . . . . . 9 4.2. Action on Change of Interface State . . . . . . . . . . . 9 4.3. Action on Reception of a Query . . . . . . . . . . . . . . 10 4.4. LW-IGMPv3 Group Record Types . . . . . . . . . . . . . . . 10 5. LW-IGMPv3 Protocol for Multicast Routers . . . . . . . . . . . 12 5.1. Group Timers and Source Timers in the Lightweight Version . . . . . . . . . . . . . . . . . . . . . . . . . 12 5.2. Source-Specific Forwarding Rules . . . . . . . . . . . . . 13 5.3. Reception of Current-State Records . . . . . . . . . . . . 13 5.4. Reception of Source-List-Change and Filter-Mode-Change Records . . . . . . . . . . . . . . . . . . . . . . . . . 14 6. Interoperability . . . . . . . . . . . . . . . . . . . . . . . 16 6.1. Interoperation with the Full Version of IGMPv3/MLDv2 . . . 16 6.1.1. Behavior of Group Members . . . . . . . . . . . . . . 16 6.1.2. Behavior of Multicast Routers . . . . . . . . . . . . 16 6.2. Interoperation with IGMPv1/IGMPv2 . . . . . . . . . . . . 16 6.2.1. Behavior of Group Members . . . . . . . . . . . . . . 16 6.2.2. Behavior of Multicast Routers . . . . . . . . . . . . 17 6.3. Interoperation with MLDv1 . . . . . . . . . . . . . . . . 17 7. Implementation Considerations . . . . . . . . . . . . . . . . 19 7.1. Implementation of Source-Specific Multicast . . . . . . . 19 7.2. Implementation of Multicast Source Filter (MSF) APIs . . . 19 8. Security Considerations . . . . . . . . . . . . . . . . . . . 20 9. Acknowledgements . . . . . . . . . . . . . . . . . . . . . . . 21 10. References . . . . . . . . . . . . . . . . . . . . . . . . . . 22 10.1. Normative References . . . . . . . . . . . . . . . . . . . 22 10.2. Informative References . . . . . . . . . . . . . . . . . . 22 Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . . 23 Liu, et al. Expires April 17, 2010 [Page 3] Internet-Draft Lightweight IGMPv3 and MLDv2 October 2009 1. Introduction IGMP version 3 [2] and MLD version 2 [3] implement source filtering capabilities that are not supported by their earlier versions, IGMPv1 [4], IGMPv2 [5] and MLDv1 [6]. An IGMPv3 or MLDv2 capable host can tell its upstream router which group it would like to join by specifying which sources it does or does not intend to receive multicast traffic from. IGMPv3 and MLDv2 add the capability for a multicast router to learn sources which are of interest or which are of not interested for a particular multicast address. This information is used during forwarding of multicast data packets. INCLUDE and EXCLUDE filter-modes are introduced to support the source filtering function. If a host wants to receive from specific sources, it sends an IGMPv3 or MLDv2 report with filter-mode set to INCLUDE. If the host does not want to receive from some sources, it sends a report with filter-mode set to EXCLUDE. A source list for the given sources shall be included in the report message. INCLUDE and EXCLUDE filter modes are also defined in a multicast router to process the IGMPv3 or MLDv2 reports. When a multicast router receives the report messages from its downstream hosts, it forwards the corresponding multicast traffic by managing requested group and source addresses. Group timers and source timers are used to maintain the forwarding state of desired groups and sources under certain filter modes. When a group report arrives or a certain timer expires, a multicast router may update the desired or undesired source lists, reset related timer values, change filter mode, or trigger group queries. With all of the above factors correlating with each other, the determination rules become relatively complex, as the interface states could be frequently changed. The multicast filter-mode improves the ability of the multicast receiver to express its desires. It is useful to support Source- Specific Multicast (SSM) [7] by specifying interesting source addresses with INCLUDE mode. However, practical applications do not use EXCLUDE mode to block sources very often, because a user or application usually wants to specify desired source addresses, not undesired source addresses. Even if a user wants to explicitly refuse traffic from some sources in a group, when other users in the same shared network have an interest in these sources, the corresponding multicast traffic is forwarded to the network. It is generally unnecessary to support the filtering function that blocks sources. This document proposes simplified versions of IGMPv3 and MLDv2, named Lightweight IGMPv3 and Lightweight MLDv2 (or LW-IGMPv3 and LW-MLDv2). LW-IGMPv3 and LW-MLDv2 are subsets of the standard IGMPv3 and MLDv2. Liu, et al. Expires April 17, 2010 [Page 4] Internet-Draft Lightweight IGMPv3 and MLDv2 October 2009 These protocols support both ASM and SSM communications without a filtering function that blocks sources. Not only are they compatible with the standard IGMPv3 and MLDv2, but also the protocol operations made by hosts and routers or switches (performing IGMPv3/MLDv2 snooping) are simplified to reduce the complicated operations. Since LW-IGMPv3 and LW-MLDv2 are fully compatible with IGMPv3 and MLDv2, hosts or routers that have implemented the full version do not need to implement or modify anything to cooperate with LW-IGMPv3/LW-MLDv2 hosts or routers. Liu, et al. Expires April 17, 2010 [Page 5] Internet-Draft Lightweight IGMPv3 and MLDv2 October 2009 2. 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 [1]. In addition, the following terms are used in this document. (*,G) join: An operation triggered by a host that wants to join the group G. In this case, the host receives from all sources sending to group G. This is typical in the ASM communication. (S,G) join: An operation triggered by a host that wants to join the group G, with specifying desired source S. In this case, the host receives only from source S sending to group G. INCLUDE (S,G) join: An operation triggered by a host that wants to join a group G under INCLUDE filter-mode, with specifying desired source S. The same meaning of (S,G) join. EXCLUDE (*,G) join: An operation triggered by a host that wants to join a group G under EXCLUDE filter-mode. The same meaning of (*,G) join. EXCLUDE (S,G) join: An operation triggered by a host that wants to join a group G under EXCLUDE filter-mode, with specifying undesired source S. This operation is not supported by LW-IGMPv3/LW-MLDv2. Liu, et al. Expires April 17, 2010 [Page 6] Internet-Draft Lightweight IGMPv3 and MLDv2 October 2009 3. Simplification Method Overview The principle is to simplify the host and router's behavior as much as possible to improve efficiency, while guaranteeing interoperability with the full versions, and introducing no side effects on applications. For convenience, this document mainly discusses IGMPv3, since MLDv2 inherits the same source filtering mechanism, but this document additionally shows MLDv2's unique specifications when needed. 3.1. Behavior of Group Members In LW-IGMPv3, the same service interface model as that of IGMPv3 is inherited: IPMulticastListen ( socket, interface, multicast-address, filter-mode, source-list ) In the lightweight protocol, INCLUDE mode on the host part has the same usage with the full version for INCLUDE (S,G) join, while EXCLUDE mode on the host part is preserved only for excluding null source-lists, which denotes a (*,G) join as used by IGMPv2/IGMPv1/ MLDv1. The detailed host operation of LW-IGMPv3/LW-MLDv2 is described in Section 4. 3.2. Behavior of Multicast Routers In IGMPv3, router filter-mode is defined to optimize the state description of a group membership [2][3]. As a rule, once a member report is in EXCLUDE mode, the router filter-mode for the group will be set to EXCLUDE. When all systems cease sending EXCLUDE mode reports, the filter-mode for that group may transit back to INCLUDE mode. Group timer is used to identify such transition. In LW-IGMPv3, hosts primarily send INCLUDE requests, and also can request an EXCLUDE (*,G) join, which can be interpreted by the router as a request to include all sources. Without the more general form of EXCLUDE requests, it is unnecessary for the router to maintain the EXCLUDE filter-mode, and the state model for multicast router can be simplified as: (multicast address, group timer, (source records)) Here a group timer is kept to represent a (*,G) join. Its basic behavior is: when a router receives a (*,G) join, it will set its group timer and keep the source list for sources specified in the previously received source records. When the group timer expires, Liu, et al. Expires April 17, 2010 [Page 7] Internet-Draft Lightweight IGMPv3 and MLDv2 October 2009 the router may change to the reception for the listed sources. The definition of the source record is the same as that of full version. The elimination of the filter-mode will greatly simplify the router behavior. The detailed operation of router operation is described in Section 5. Liu, et al. Expires April 17, 2010 [Page 8] Internet-Draft Lightweight IGMPv3 and MLDv2 October 2009 4. LW-IGMPv3 Protocol for Group Members 4.1. Query and Report Messages LW-IGMPv3 uses two sets of messages, i.e., Query and Report messages, being the same as the full version protocols. There is no difference between the definition and usage of the Query message. But the report types in lightweight protocols are reduced because an operation that triggers EXCLUDE (S,G) join is omitted. There are three Group Record Types defined in the full IGMPv3: Current-State Record noted by MODE_IS_INCLUDE (referred to as IS_IN) or MODE_IS_EXCLUDE (IS_EX), Filter-Mode-Change Record noted by CHANGE_TO_INCLUDE_MODE (TO_IN) or CHANGE_TO_EXCLUDE_MODE (TO_EX), and Source-List-Change Record noted by ALLOW_NEW_SOURCES (ALLOW) or BLOCK_OLD_SOURCES (BLOCK). LW-IGMPv3 inherits the action on change of interface state and reception of a Query, but IS_IN and IS_EX record types are eliminated and Current-State Records are noted by other records. The following sections explain the details. 4.2. Action on Change of Interface State When the state of an interface of a group member host is changed, a State-Change Report for that interface is immediately transmitted from that interface. The type and contents of the Group Record(s) in that Report are determined by comparing the filter mode and source list for the affected multicast address before and after the change. While the requirements are the same as the full version for the computation, in the lightweight version host, the interface state change rules are simplified due to the reduction of message types. The contents of the new transmitted report are calculated as follows (Group Record Types are described in Section 4.4): Old State New State State-Change Record Sent ----------- ----------- ------------------------ INCLUDE (A) INCLUDE (B) ALLOW(B-A), BLOCK(A-B) INCLUDE (A) EXCLUDE ({}) TO_EX({}) INCLUDE ({}) EXCLUDE ({}) TO_EX({}) EXCLUDE ({}) INCLUDE (B) TO_IN(B) As in the full version, to cover the possibility of the State-Change Report being missed by one or more multicast routers, it is retransmitted [Robustness Variable]-1 more times, at intervals chosen at random from the range (0, [Unsolicited Report Interval]). (These Liu, et al. Expires April 17, 2010 [Page 9] Internet-Draft Lightweight IGMPv3 and MLDv2 October 2009 values are defined in [2][3].) 4.3. Action on Reception of a Query As in the full version, when a lightweight version host receives a Query, it does not respond immediately. Instead, it delays its response by a random amount of time, bounded by the Max Resp Time value derived from the Max Resp Code in the received Query message [2][3]. The system may receive a variety of Queries on different interfaces and of different kinds (e.g., General Queries, Group- Specific Queries, and Group-and-Source-Specific Queries), each of which may require its own delayed response. Before scheduling a response to a Query, the system must first consider previously scheduled pending responses and in many cases schedule a combined response. Therefore, the lightweight version host must be able to maintain the following state: o A timer per interface for scheduling responses to General Queries. o A per-group and interface timer for scheduling responses to Group- Specific and Group-and-Source-Specific Queries. o A per-group and interface list of sources to be reported in the response to a Group-and-Source-Specific Query. LW-IGMPv3 inherits the full version's rules that are used to determine if a Report needs to be scheduled. The difference is regarding the simplification of EXCLUDE filter-mode and the type of Report as detailed in Section 4.4. 4.4. LW-IGMPv3 Group Record Types Among Group Record Types defined in the full IGMPv3, several record types are not used in LW-IGMPv3 as some of the processes related to the filter mode change to the EXCLUDE mode are eliminated and some of the report messages are converged with a record having null source address list. All of the record types of report messages used by the full and lightweight version protocols are shown as follows: Liu, et al. Expires April 17, 2010 [Page 10] Internet-Draft Lightweight IGMPv3 and MLDv2 October 2009 IGMPv3 LW-IGMPv3 Comments --------- --------- ------------------------------------- IS_EX({}) TO_EX({}) Query response for (*,G) join IS_EX(x) N/A Query response for EXCLUDE (x,G) join IS_IN(x) ALLOW(x) Query response for INCLUDE (x,G) join ALLOW(x) ALLOW(x) INCLUDE (x,G) join BLOCK(x) BLOCK(x) INCLUDE (x,G) leave TO_IN(x) TO_IN(x) Change to INCLUDE (x,G) join TO_IN({}) TO_IN({}) (*,G) leave TO_EX(x) N/A Change to EXCLUDE (x,G) join TO_EX({}) TO_EX({}) (*,G) join where "x" represents a non-null source address list and "({})" represents null source address list. For instance, IS_EX({}) means a report whose record type is IS_EX with null source address list. "N/A" represents not applicable (or no use) because the corresponding operation should not occur in the lightweight version protocols. LW-IGMPv3 does not use EXCLUDE filter-mode with a non-null source address list. A multicast router creates the same state when it receives a report message containing either IS_EX({}) or TO_EX({}) record types. Therefore, LW-IGMPv3 integrates the IS_EX({}) operation with the TO_EX({}) operation. When a LW-IGMPv3 host needs to make a query response for the state of INCLUDE (x,G) join, it makes a response whose message type is expressed with ALLOW(x), instead of using the IS_IN record type. Because the router's processing of the two messages is completely same, the IS_IN(x) type is eliminated for simplification. A LW-IGMPv3 host does not use EXCLUDE mode, while TO_IN record is used the following situation: the host first launches an application (AP1) that requests INCLUDE (x,G) join, and sends ALLOW(x). Then the host launches another application (AP2) that joins (*,G), and it sends TO_EX({}). In this condition, when AP2 terminates but AP1 keeps working on the lightweight version host, the host sends a report with TO_IN(x) record type for [Robustness Variable] times. Liu, et al. Expires April 17, 2010 [Page 11] Internet-Draft Lightweight IGMPv3 and MLDv2 October 2009 5. LW-IGMPv3 Protocol for Multicast Routers The major difference between the full and lightweight version protocols on the router part is that for the lightweight version filter-mode is discarded and the function of the group timer is redefined. The states maintained by the lightweight router are reduced and the protocol operation is greatly simplified. 5.1. Group Timers and Source Timers in the Lightweight Version In lightweight and full IGMPv3 routers, a source timer is kept for each source record and it is updated when the source is present in a received report. It indicates the validity of the sources and needs to be referred when the router takes its forwarding decision. The group timer being used in the full version of IGMPv3 for transitioning the router's filter-mode from EXCLUDE to INCLUDE, is redefined in the lightweight protocols to identify the non-source- specific receiving states maintaining for (*,G) join. Once a group record of TO_EX({}) is received, the group timer is set to represent this (*,G) group join. The expiration of the group timer indicates that there are no more listeners on the attached network for this (*,G) group. Then if at this moment there are unexpired sources (whose source timers are greater than zero), the router will change to receiving traffic for those sources. The role of the group timer can be summarized as follows: Group Timer Value Actions/Comments ------------------ -------------------------------------- G_Timer > 0 All members in this group. G_Timer == 0 No more listeners to this (*,G) group. If all source timers have expired then delete group record. If there are still source record timers running, use those source records with running timers as the source record state. The operation related to the group and source timers has some difference compared with the full IGMPv3. In the full version, if a source timer expires under the EXCLUDE router filter-mode, its corresponding source record is not deleted until the group timer expires for indicating undesired sources. In the lightweight version, since there is no need to keep such records for blocking specific sources, if a source timer expires, its source record should be deleted immediately, not waiting for the time-out of the group timer. Liu, et al. Expires April 17, 2010 [Page 12] Internet-Draft Lightweight IGMPv3 and MLDv2 October 2009 5.2. Source-Specific Forwarding Rules A full version multicast router needs to consult IGMPv3 state information when it makes decisions on forwarding a datagram from a source or its upstream router to its attached network, based on the router filter-mode and source timer. In LW-IGMPv3, because of the absence of the router filter-mode, the group timer and source timer could be used for such decisions. The forwarding suggestion made by LW-IGMPv3 to the routing protocols is summarized as follows: Group Timer Source Timer Action ------------ ------------------ ----------------------- G_Timer == 0 S_TIMER > 0 Suggest forwarding traffic from source G_Timer == 0 S_TIMER == 0 Suggest stopping forwarding traffic from source and remove source record. If there are no more source records for the group, delete group record G_Timer == 0 No Source Elements Suggest not to forward traffic from the source G_Timer > 0 S_TIMER >= 0 Suggest forwarding traffic from source G_Timer > 0 No Source Elements Suggest forwarding traffic from source 5.3. Reception of Current-State Records When receiving Current-State Records, the LW-IGMPv3 router resets its group or source timers and updates its source list within the group. For source-specific group reception state (when G_Timer==0 and S_Timer > 0), the source list contains sources whose traffic will be forwarded by the router, while in non-source-specific group reception (when G_Timer>0), the source list remembers the valid sources to receive traffic from after toggling to source-specific reception state. Although the LW-IGMPv3 host only sends a subset of the message of that of the full version, the LW-IGMPv3 router should be able to process as much messages as possible to be compatible with the full version host. Note that if the report type is IS_EX(x) with non- Liu, et al. Expires April 17, 2010 [Page 13] Internet-Draft Lightweight IGMPv3 and MLDv2 October 2009 empty source-list, the router will treat it as the same type of report with empty source list. The following table describes the action taken by a multicast router after receiving Current-State Records. The notations have the same meaning as that in the full IGMPv3 protocol. Old New Source Source Group Timer List Report Rec'd List Actions ------------ ------ ------------ ------ ----------- G_Timer == 0 A IS_IN(B) A+B (B)=GMI G_Timer == 0 A IS_EX({}) A G_Timer=GMI G_Timer > 0 A IS_IN(B) A+B (B)=GMI G_Timer > 0 A IS_EX({}) A G_Timer=GMI The above table could be further simplified for the processes that are completely same for the two values of the G_Timer: Old New Source Source List Report Rec'd List Actions ------ ------------ ------ ----------- A IS_IN(B) A+B (B)=GMI A IS_EX({}) A G_Timer=GMI Without EXCLUDE filter-mode, a router's process on receiving Current- State Record is simple: when a router receives an IS_IN report, it appends the reported source addresses to the previous source list with their source timers set to GMI. Upon receiving an IS_EX({}) report, the router sets the non-source-specific receiving states by resetting the group timer value and keeps the previous source list without modification. 5.4. Reception of Source-List-Change and Filter-Mode-Change Records On receiving Source-List-Change and Filter-Mode-Change Records, the LW-IGMPv3 router needs to reset its group and source timers, update its source list within the group, or trigger group queries. The queries are sent by the router for the sources that are requested to be no longer forwarded to a group. Note that if the report type is TO_EX(x) with non-empty source-list, the router will treat it as the same type of report with empty source list. The table below Liu, et al. Expires April 17, 2010 [Page 14] Internet-Draft Lightweight IGMPv3 and MLDv2 October 2009 describes the state change and the actions that should be taken. Old New Source Source Group Timer List Report Rec'd List Actions ------------ ------ ------------ ------ ------------- G_Timer == 0 A ALLOW(B) A+B (B)=GMI G_Timer == 0 A BLOCK(B) A Send Q(G,A*B) G_Timer == 0 A TO_IN(B) A+B (B)=GMI Send Q(G,A-B) G_Timer == 0 A TO_EX({}) A G_Timer=GMI G_Timer > 0 A ALLOW(B) A+B (B)=GMI G_Timer > 0 A BLOCK(B) A Send Q(G,A*B) G_Timer > 0 A TO_IN(B) A+B (B)=GMI SendQ(G,A-B) Send Q(G) G_Timer > 0 A TO_EX({}) A G_Timer=GMI The table could be further simplified by merging duplicate lines: Old New Source Source List Report Rec'd List Actions ------ ------------ ------ ---------------------- A ALLOW(B) A+B (B)=GMI A BLOCK(B) A Send Q(G,A*B) A TO_IN(B) A+B (B)=GMI Send Q(G,A-B) If G_Timer>0 Send Q(G) A TO_EX({}) A G_Timer=GMI Liu, et al. Expires April 17, 2010 [Page 15] Internet-Draft Lightweight IGMPv3 and MLDv2 October 2009 6. Interoperability LW-IGMPv3/LW-MLDv2 hosts and routers must interoperate with hosts and routers of the full version [2][3]. Also, LW-IGMPv3/LW-MLDv2 hosts and routers must interoperate gracefully with hosts and routers running IGMPv1/v2 or MLDv1. 6.1. Interoperation with the Full Version of IGMPv3/MLDv2 LW-IGMPv3/LW-MLDv2 do not introduce any change on the message format of the group query and report messages the full version protocols use. 6.1.1. Behavior of Group Members A LW-IGMPv3 host's compatibility mode is determined from the Host Compatibility Mode variable which can be in one of three states: IGMPv1, IGMPv2, or IGMPv3. When a lightweight host behaves on its interface as LW-IGMPv3, its Host Compatibility Mode of that interface is set to IGMPv3, and the host sends a subset of IGMPv3 report messages, which can be recognized by a multicast router running the full or the lightweight IGMPv3 protocol on the same LAN. 6.1.2. Behavior of Multicast Routers A LW-IGMPv3 or LW-MLDv2 router does not process directly IS_EX(x) and TO_EX(x) records that are used by the full version. When a LW- IGMPv3/LW-MLDv2 router receives these report messages from the full version host, it MUST translate them internally to IS_EX({}) and TO_EX({}) respectively and behaves accordingly. 6.2. Interoperation with IGMPv1/IGMPv2 Since the lightweight protocols can be treated as the parallel version of full version of IGMPv3/MLDv2, its compatibility principle and method with the older version are generally the same as that of full IGMPv3/MLDv2. 6.2.1. Behavior of Group Members The Host Compatibility Mode of an interface is set to IGMPv2 and its IGMPv2 Querier Present timer is set to Older Version Querier Present Timeout seconds (defined in [2]) whenever an IGMPv2 General Query is received on that interface. The Host Compatibility Mode of an interface is set to IGMPv1 and its IGMPv1 Querier Present timer is set to Older Version Querier Present Timeout seconds whenever an IGMPv1 Membership Query is received on that interface. Liu, et al. Expires April 17, 2010 [Page 16] Internet-Draft Lightweight IGMPv3 and MLDv2 October 2009 In the presence of older version group members, LW-IGMPv3 hosts may allow its report message to be suppressed by either an IGMPv1 or IGMPv2 membership report. However, because the transmission of IGMPv1 or v2 packets reduces the capability of the LW-IGMPv3 system, as a potential protection mechanism, the choice to enable or disable the use of backward compatibility may be configurable. 6.2.2. Behavior of Multicast Routers The behavior of a LW-IGMPv3 router when placed on a network where there are routers that have not been upgraded to IGMPv3, is completely the same with a full IGMPv3 router in this situation [2]. A full IGMPv3 router uses Group Compatibility Mode (whose value is either of IGMPv1, IGMPv2, or IGMPv3) per group record to indicate which version of IGMP protocol it behaves for the group. This value is set according to the version of the received IGMP report. When Group Compatibility Mode is IGMPv3, the lightweight router acts with LW-IGMPv3 protocol for that group. When Group Compatibility mode is IGMPv2, a LW-IGMPv3 router inherits this compatibility mechanism with the following rules: IGMP Message LW-IGMPv3 Equivalent -------------- -------------------- v2 Report TO_EX({}) v2 Leave TO_IN({}) When Group Compatibility mode is IGMPv1, a LW-IGMPv3 router internally translates the following IGMPv1 and IGMPv2 messages for that group to their LW-IGMPv3 equivalents: IGMP Message LW-IGMPv3 Equivalent -------------- -------------------- v1 Report TO_EX({}) v2 Report TO_EX({}) 6.3. Interoperation with MLDv1 LW-MLDv2 hosts and routers MUST interoperate with the hosts and routers running MLDv1. The method is the same as described in Section 6.2. The difference is that when a LW-MLDv2 router has a MLDv1 listener on its network, it translates the following MLDv1 messages to their LW-MLDv2 equivalents: Liu, et al. Expires April 17, 2010 [Page 17] Internet-Draft Lightweight IGMPv3 and MLDv2 October 2009 MLDv1 Message LW-MLDv2 Equivalent ------------- ------------------- Report TO_EX({}) Done TO_IN({}) Liu, et al. Expires April 17, 2010 [Page 18] Internet-Draft Lightweight IGMPv3 and MLDv2 October 2009 7. Implementation Considerations The lightweight protocols require no additional procedure on the implementation of the related protocols or systems, e.g. IGMP/MLD snooping, multicast routing protocol, and operation of application sockets, while the processing loads on the switches and routers that running IGMPv3/MLDv2 (snooping) and multicast routing protocols may be greatly decreased. In the following sections, the implementation related aspects are described for the lightweight version protocols. 7.1. Implementation of Source-Specific Multicast [8] illustrates the requirements of implementation of Source-Specific Multicast (SSM) on IGMPv3/MLDv2 hosts and routers. The lightweight protocol follows the same rule given in [8] except the changing of the message types due to the simplification. A LW-IGMPv3/LW-MLDv2 host should not invoke (*,G) join (i.e., TO_EX({})) and (*,G) leave (i.e., TO_IN({})) for the application whose multicast address is in the SSM address range. The upstream LW-IGMPv3/LW-MLDv2 router will ignore the these messages and may log an error on reception of them. Other types of messages should be processed as [8] describes. 7.2. Implementation of Multicast Source Filter (MSF) APIs Multicast Source Filter (MSF) APIs [9] defines (1) IPv4 Basic MSF API, (2) IPv4 Advanced MSF API, (3) Protocol-Independent Basic MSF API, and (4) Protocol-Independent Advanced MSF API. According to the MSF APIs definition, a LW-IGMPv3 host should implement either IPv4 Basic MSF API or Protocol-Independent Basic MSF API, and a LW-MLDv2 host should implement Protocol-Independent Basic MSF API. Other APIs, IPv4 Advanced MSF API and Protocol-Independent Advanced MSF API, are optional to implement in a LW-IGMPv3/LW-MLDv2 host. Liu, et al. Expires April 17, 2010 [Page 19] Internet-Draft Lightweight IGMPv3 and MLDv2 October 2009 8. Security Considerations The security considerations are the same as that of the full version of IGMPv3/MLDv2. Liu, et al. Expires April 17, 2010 [Page 20] Internet-Draft Lightweight IGMPv3 and MLDv2 October 2009 9. Acknowledgements The authors would like to appreciate MBONED and MAGMA working group members. Special thanks is given to Marshall Eubanks, Guo Feng, Mark Fine, Prashant Jhingran, Bharat Joshi, Guo Tao, Wang Wendong, and Gong Xiangyang for their valuable comments and suggestions on this document. Liu, et al. Expires April 17, 2010 [Page 21] Internet-Draft Lightweight IGMPv3 and MLDv2 October 2009 10. References 10.1. Normative References [1] Bradner, S., "Key words for use in RFCs to indicate requirement levels", RFC 2119, March 1997. [2] Cain, B., Deering, S., Kouvelas, I., Fenner, B., and A. Thyagarajan, "Internet Group Management Protocol, Version 3", RFC 3376, October 2002. [3] Vida, R. and L. Costa, "Multicast Listener Discovery Version 2 (MLDv2) for IPv6", RFC 3810, June 2004. [4] Deering, S., "Host Extensions for IP Multicasting", RFC 1112, August 1989. [5] Fenner, W., "Internet Group Management Protocol, Version 2", RFC 2236, November 1997. [6] Deering, S., Fenner, W., and B. Haberman, "Multicast Listener Discovery (MLD) for IPv6", RFC 2710, October 1999. [7] Holbrook, H. and B. Cain, "Source-Specific Multicast for IP", RFC 4607, August 2006. [8] Holbrook, H., Cain, B., and B. Haberman, "Using Internet Group Management Protocol Version 3 (IGMPv3) and Multicast Listener Discovery Protocol Version 2 (MLDv2) for Source-Specific Multicast", RFC 4604, August 2006. 10.2. Informative References [9] Thaler, D., Fenner, B., and B. Quinn, "Socket Interface Extensions for Multicast Source Filters", RFC 3678, January 2004. Liu, et al. Expires April 17, 2010 [Page 22] Internet-Draft Lightweight IGMPv3 and MLDv2 October 2009 Authors' Addresses Hui Liu Huawei Technologies Co., Ltd. Huawei Bld., No.3 Xinxi Rd. Shang-Di Information Industry Base Hai-Dian Distinct, Beijing 100085 China Email: Liuhui47967@huawei.com Wei Cao Huawei Technologies Co., Ltd. Huawei Bld., No.3 Xinxi Rd. Shang-Di Information Industry Base Hai-Dian Distinct, Beijing 100085 China Email: caowayne@huawei.com Hitoshi Asaeda Keio University Graduate School of Media and Governance 5322 Endo Fujisawa, Kanagawa 252-8520 Japan Email: asaeda@wide.ad.jp Liu, et al. Expires April 17, 2010 [Page 23]