Short description: Logical identifier addressing a specific group of devices on a network

A multicast address is a logical identifier for a group of hosts in a computer network that are available to process datagrams or frames intended to be multicast for a designated network service. Multicast addressing can be used in the link layer (layer 2 in the OSI model), such as Ethernet multicast, and at the internet layer (layer 3 for OSI) for Internet Protocol Version 4 (IPv4) or Version 6 (IPv6) multicast.

## Contents

* 1 IPv4
* 1.1 Notable IPv4 multicast addresses
* 2 IPv6
* 2.1 Notable IPv6 multicast addresses
* 3 Ethernet
* 4 802.11
* 5 See also
* 6 Notes
* 7 References

## IPv4

IPv4 multicast addresses are defined by the most-significant bit pattern of 1110. This originates from the classful network design of the early Internet when this group of addresses was designated as Class D. The CIDR notation for this group is 224.0.0.0/4.[1] The group includes the addresses from 224.0.0.0 to 239.255.255.255. Address assignments from within this range are specified in RFC 5771, an Internet Engineering Task Force (IETF) Best Current Practice document (BCP 51).

The address range is divided into blocks each assigned a specific purpose or behavior.

IP multicast address range  | Description  | Routable

|
|

224.0.0.0 to 224.0.0.255  | Local subnetwork[2] | No
224.0.1.0 to 224.0.1.255  | Internetwork control  | Yes
224.0.2.0 to 224.0.255.255  | AD-HOC block 1[3] | Yes
224.1.0.0 to 224.1.255.255  | Reserved[4][5] |
224.3.0.0 to 224.4.255.255  | AD-HOC block 2[6] | Yes
225.0.0.0 to 231.255.255.255  | Reserved[4][5] |
232.0.0.0 to 232.255.255.255  | Source-specific multicast[2] | Yes
233.0.0.0 to 233.251.255.255  | GLOP addressing[7] | Yes
233.252.0.0 to 233.255.255.255  | AD-HOC block 3[8] | Yes
234.0.0.0 to 234.255.255.255  | Unicast-prefix-based  | Yes
235.0.0.0 to 238.255.255.255  | Reserved[4][5] |
239.0.0.0 to 239.255.255.255  | Administratively scoped[2] | Yes

Local subnetwork
Addresses in the range of 224.0.0.0 to 224.0.0.255 are individually assigned by IANA and designated for multicasting on the local subnetwork only. For example, the Routing Information Protocol (RIPv2) uses 224.0.0.9, Open Shortest Path First (OSPF) uses 224.0.0.5 and 224.0.0.6, and Multicast DNS uses 224.0.0.251. Routers must not forward these messages outside the subnet from which they originate.

Internetwork control block
Addresses in the range 224.0.1.0 to 224.0.1.255 are individually assigned by IANA and designated as the internetwork control block. This block of addresses is used for traffic that must be routed through the public Internet, such as for applications of the Network Time Protocol using 224.0.1.1.

AD-HOC block
Addresses in three separate blocks are not individually assigned by IANA. These addresses are globally routed and are used for applications that don't fit either of the previously described purposes.[9]

Source-specific multicast
The 232.0.0.0/8 (IPv4) and ff3x::/32 (IPv6) blocks are reserved for use by source-specific multicast.

GLOP[10]

Unicast-prefix-based
The 234.0.0.0/8 range is assigned by RFC 6034 as a range of global IPv4 multicast address space provided to each organization that has /24 or larger globally routed unicast address space allocated; one multicast address is reserved per /24 of unicast space. A resulting advantage over GLOP is that the unicast-prefix mechanism resembles the unicast-prefix capabilities of IPv6 as defined in RFC 3306.

Administratively scoped
The 239.0.0.0/8 range is assigned by RFC 2365 for private use within an organization. Per the RFC, packets destined to administratively scoped IPv4 multicast addresses do not cross administratively defined organizational boundaries, and administratively scoped IPv4 multicast addresses are locally assigned and do not have to be globally unique. The RFC also discusses structuring the 239.0.0.0/8 range to be loosely similar to the scoped IPv6 multicast address range described in RFC 1884.

### Notable IPv4 multicast addresses

The following table is a list of notable well-known IPv4 addresses that are reserved for IP multicasting and that are registered with the Internet Assigned Numbers Authority (IANA).[5]

IP multicast address  | Description  | Routable

|
|

224.0.0.0  | Base address (reserved)  | No
224.0.0.1  | The All Hosts multicast group addresses all hosts on the same network segment.  | No
224.0.0.2  | The All Routers multicast group addresses all routers on the same network segment.  | No
224.0.0.4  | This address is used in the Distance Vector Multicast Routing Protocol (DVMRP) to address multicast routers.  | No
224.0.0.5  | The Open Shortest Path First (OSPF) All OSPF Routers address is used to send Hello packets to all OSPF routers on a network segment.  | No
224.0.0.6  | The OSPF All Designated Routers (DR) address is used to send OSPF routing information to designated routers on a network segment.  | No
224.0.0.9  | The Routing Information Protocol (RIP) version 2 group address is used to send routing information to all RIP2-aware routers on a network segment.  | No
224.0.0.10  | The Enhanced Interior Gateway Routing Protocol (EIGRP) group address is used to send routing information to all EIGRP routers on a network segment.  | No
224.0.0.13  | Protocol Independent Multicast (PIM) Version 2  | No
224.0.0.18  | Virtual Router Redundancy Protocol (VRRP)  | No
224.0.0.19–21  | IS-IS over IP  | No
224.0.0.22  | Internet Group Management Protocol (IGMP) version 3[11] | No
224.0.0.102  | Hot Standby Router Protocol version 2 (HSRPv2) / Gateway Load Balancing Protocol (GLBP)  | No
224.0.0.107  | Precision Time Protocol (PTP) version 2 peer delay measurement messaging  | No
224.0.0.251  | Multicast DNS (mDNS) address  | No
224.0.0.252  | Link-local Multicast Name Resolution (LLMNR) address  | No
224.0.0.253  | Teredo tunneling client discovery address[12] | No
224.0.1.1  | Network Time Protocol clients listen on this address for protocol messages when operating in multicast mode.  | Yes
224.0.1.22  | Service Location Protocol version 1 general  | Yes
224.0.1.35  | Service Location Protocol version 1 directory agent  | Yes
224.0.1.39  | The Cisco multicast router AUTO-RP-ANNOUNCE address is used by RP mapping agents to listen for candidate announcements.  | Yes
224.0.1.40  | The Cisco multicast router AUTO-RP-DISCOVERY address is the destination address for messages from the RP mapping agent to discover candidates.  | Yes
224.0.1.41  | H.323 Gatekeeper discovery address  | Yes
224.0.1.129–132  | Precision Time Protocol (PTP) version 1 messages (Sync, Announce, etc.) except peer delay measurement  | Yes
224.0.1.129  | Precision Time Protocol (PTP) version 2 messages (Sync, Announce, etc.) except peer delay measurement  | Yes
239.255.255.250  | Simple Service Discovery Protocol address  | Yes
239.255.255.253  | Service Location Protocol version 2 address  | Yes

## IPv6

Multicast addresses in IPv6 use the prefix ff00::/8. IPv6 multicast addresses can be structured using the old format (RFC 2373) or the new format (RFC 3306, updated by RFC 7371).

General multicast address format (old)  Bits  | 8  | 4  | 4  | 112

|
|
|
|

Field  | prefix | flags | scope | group ID
General multicast address format (new)  Bits  | 8  | 4  | 4  | 4  | 4  | 8  | 64  | 32

|
|
|
|
|
|
|
|

Field  | prefix | ff1 | scope | ff2 | reserved | plen | network prefix | group ID

The prefix holds the value ff for all multicast addresses.

Currently, 3 of the 4 flag bits in the flags field (ff1) are defined;REFERENCE FOR RFC4291 IS NOT DEFINED YET. You are invited to add it here. the most-significant flag bit is reserved for future use. The other three flags are known as R, P and T. All 4 bits in the additional flags field (ff2) are reserved for future use and must hold the value 0.[13]

Multicast address flags[14] Bit[note 1] | Flag  | 0  | 1

|
|
|

0 (MSB)  | Reserved  | (Reserved)  | (Reserved)
1  | R (Rendezvous)[15] | Rendezvous point not embedded  | Rendezvous point embedded
2  | P (Prefix)[16] | Without prefix information  | Address based on network prefix
3 (LSB)  | T (Transient)REFERENCE FOR RFC4291 IS NOT DEFINED YET. You are invited to add it here. | Well-known multicast address  | Dynamically assigned multicast address

Similar to a unicast address, the prefix of an IPv6 multicast address specifies its scope, however, the set of possible scopes for a multicast address is different. The 4-bit sc (or scope) field (bits 12 to 15) is used to indicate where the address is valid and unique.

Multicast address scope  IPv6 address[note 2] | IPv4 equivalent[17] | ScopeREFERENCE FOR RFC7346 IS NOT DEFINED YET. You are invited to add it here. | Purpose

|
|
|

ffx0::/16, ffxf::/16 |  | Reserved
ffx1::/16 |  | Interface-local  | Packets with this destination address may not be sent over any network link, but must remain within the current node; this is the multicast equivalent of the unicast loopback address.
ffx2::/16 | 224.0.0.0/24 | Link-local  | Packets with this destination address may not be routed anywhere.
ffx3::/16 | 239.255.0.0/16 | Realm-Local scopeREFERENCE FOR RFC7346 IS NOT DEFINED YET. You are invited to add it here. | Local multicast particular to a network technology
ffx4::/16 |  | Admin-local  | The smallest scope that must be administratively configured.
ffx5::/16 |  | Site-local  | Restricted to the local physical network.
ffx8::/16 | 239.192.0.0/14 | Organization-local  | Restricted to networks used by the organization administering the local network. (For example, these addresses might be used over VPNs; when packets for this group are routed over the public internet (where these addresses are not valid), they would have to be encapsulated in some other protocol.)
ffxe::/16 | 224.0.1.0-238.255.255.255 | Global scope  | Eligible to be routed over the public internet.

The service is identified in the group ID field. For example, if ff02::101 refers to all Network Time Protocol (NTP) servers on the local network segment, then ff08::101 refers to all NTP servers in an organization's networks. The group ID field may be further divided for special multicast address types.

### Notable IPv6 multicast addresses

The following table is a list notable IPv6 multicast addresses that are registered with IANA.[18]

Address  | Description

|

ff02::1 | All nodes on the local network segment
ff02::2 | All routers on the local network segment
ff02::5 | OSPFv3 All SPF routers
ff02::6 | OSPFv3 All DR routers
ff02::8 | IS-IS for IPv6 routers
ff02::9 | RIP routers
ff02::a | EIGRP routers
ff02::d | PIM routers
ff02::12 | Virtual Router Redundancy Protocol (VRRP) version 3
ff02::16 | MLDv2 reportsREFERENCE FOR RFC3810 IS NOT DEFINED YET. You are invited to add it here.
ff02::1:2 | All DHCPv6 servers and relay agents on the local network segmentREFERENCE FOR RFC8415 IS NOT DEFINED YET. You are invited to add it here.
ff02::1:3 | All LLMNR hosts on the local network segmentREFERENCE FOR RFC4795 IS NOT DEFINED YET. You are invited to add it here.
ff05::1:3 | All DHCPv6 servers on the local network siteREFERENCE FOR RFC8415 IS NOT DEFINED YET. You are invited to add it here.
ff0x::c | Simple Service Discovery Protocol
ff0x::fb | Multicast DNS
ff0x::101 | Network Time Protocol
ff0x::108 | Network Information Service
ff0x::181 | Precision Time Protocol (PTP) version 2 messages (Sync, Announce, etc.) except peer delay measurement
ff02::6b | Precision Time Protocol (PTP) version 2 peer delay measurement messages
ff0x::114 | Used for experiments

## Ethernet

Ethernet frames with a value of 1 in the least-significant bit of the first octet[note 3] of the destination MAC address are treated as multicast frames and are flooded to all points on the network. While frames with ones in all bits of the destination address (Template:Macaddr) are sometimes referred to as broadcasts, Ethernet generally does not distinguish between multicast and broadcast frames. Modern Ethernet controllers filter received packets to reduce CPU load, by looking up the hash of a multicast destination address in a table, initialized by software, which controls whether a multicast packet is dropped or fully received.

The IEEE has allocated the address block Template:Macaddr to Template:Macaddr for group addresses for use by standard protocols. Of these, the MAC group addresses in the range of Template:Macaddr to Template:Macaddr are not forwarded by 802.1D-conformant MAC bridges.[19]

Some well known Ethernet multicast addresses[20] Block  | Ethernet multicast address  | Ethertype  | Usage

|
|
|

01-80-C2[21]
IEEE (802 group)

Template:Macaddr

| Local LAN Segment, stopping at STP-capable switches
SNAP (length)  | Spanning Tree Protocol (for bridges) IEEE 802.1D
0x88CC  | Link Layer Discovery Protocol (additional)
Template:Macaddr | 0x8808  | Ethernet flow control (pause frame) IEEE 802.3x
Template:Macaddr | 0x8809  | "Slow protocols" including Ethernet OAM Protocol (IEEE 802.3ah) and Link Aggregation Control Protocol (LACP)

Template:Macaddr

| Local LAN Segment until next multi-port ("non-TPMR") switch
0x888E  | Port authentication (IEEE 802.1X EAPOL)
0x88CC  | Link Layer Discovery Protocol (additional)
Template:Macaddr | SNAP (length)  | Spanning Tree Protocol (for provider bridges) IEEE 802.1ad
Template:Macaddr | 0x88F5  | Multiple VLAN Registration Protocol (for provider bridges) IEEE 802.1ad
Template:Macaddr | Local LAN Link, never crosses another device
0x88CC  | Link Layer Discovery Protocol (primary)
0x88F7  | Precision Time Protocol (PTP) version 2 over Ethernet (802.1AS)
Template:Macaddr | 0x88F5  | GARP VLAN Registration Protocol (also known as IEEE 802.1Q GVRP)

Multiple VLAN Registration Protocol (MVRP)

Template:Macaddr through
Template:Macaddr | 0x8902  | Ethernet CFM Protocol IEEE 802.1ag

01-1B-19
IEEE (TC9)

| Template:Macaddr | 0x88F7  | Precision Time Protocol (PTP) version 2 over Ethernet (native layer-2)
for electing the Grandmaster clock and advanced applications, otherwise Template:Macaddr

01-00-5E[22]
ICANN/IANA

| Template:Macaddr through
Template:Macaddr | 0x0800  | IPv4 Multicast (RFC 1112), insert the low 23 bits of the multicast IPv4 address into the Ethernet address[23]

33-33-xx
locally administered

| Template:Macaddr through
Template:Macaddr | 0x86DD  | IPv6 multicast (RFC 2464): The low 32 bits an Ethernet address for IPv6 multicast traffic are the low 32 bits of the multicast IPv6 address used.[24] For example, IPv6 multicast traffic using the address ff02::d uses the MAC address Template:Macaddr, and traffic to ff05::1:3 goes to the MAC address Template:Macaddr.

01-0C-CD
IEC

| Template:Macaddr through
Template:Macaddr | 0x88B8  | IEC 61850-8-1 GOOSE Type 1/1A
Template:Macaddr through
Template:Macaddr | 0x88B9  | GSSE (IEC 61850 8-1)
Template:Macaddr through
Template:Macaddr | 0x88BA  | Multicast sampled values (IEC 61850 8-1)

01-00-0C
Cisco Systems

| Template:Macaddr | SNAP (length)  | Cisco Discovery Protocol (CDP), VLAN Trunking Protocol (VTP), Unidirectional Link Detection (UDLD)
Template:Macaddr | SNAP (length)  | Cisco Shared Spanning Tree Protocol Address

## 802.11

802.11 wireless networks use the same MAC addresses for multicast as Ethernet.

## See also

* Broadcast address
* Reserved IP addresses

## Notes

1. ↑ The recommended style for Request for Comments (RFC) documents is "MSB 0" bit numbering.
2. ↑ x is a place holder indicating that the value of the flags field is unimportant in the current discussion.
3. ↑ On Ethernet, the least-significant bit of an octet is the first to be transmitted. A multicast is indicated by the first transmitted bit of the destination address being 1.

## References

1. ↑ MULTICAST_IP_ADDR. General Electric Digital Solutions. CIMPLICITY 10.0. "In network prefix or Classless Inter-Domain Routing ( CIDR) notation, IP multicast addresses are summarized as 224.0.0.0/4."
2. ↑ 2.0 2.1 2.2 IP Multicast Routing Configuration Guide, Cisco, https://www.cisco.com/c/en/us/td/docs/switches/lan/catalyst3750x_3560x/software/release/15-2_2_e/multicast/configuration_guide/b_mc_1522e_3750x_3560x_cg/b_mc_3750x_3560x_chapter_01.html, retrieved 2021-01-13
3. ↑ AD-HOC Block 1
4. ↑ 4.0 4.1 4.2 IANA Guidelines for IPv4 Multicast Address Assignments, sec. 3, doi:10.17487/RFC5771, RFC 5771, https://tools.ietf.org/html/rfc5771#section-3
5. ↑ 5.0 5.1 5.2 5.3 "IANA IP multicast addresses assignments". Internet Assigned Numbers Authority. https://www.iana.org/assignments/multicast-addresses/multicast-addresses.xhtml.
6. ↑ AD-HOC Block 2
7. ↑ Fall, K.R. and Stevens, W.R. (2011). TCP/IP Illustrated. 1. Addison-Wesley. p. 55. ISBN 9780321336316. https://books.google.com/books?id=X-l9NX3iemAC.
8. ↑ AD-HOC Block 3
9. ↑ RFC 5771 Section 6.
10. ↑ Deploying Next Generation Multicast-Enabled Applications - Label Switched Multicast for MPLS, VPN, VPLS, and Wholesale Ethernet. Morgan Kaufmann/Elsevier. 2011. p. 7. ISBN 978-0-12-384923-6. ""Lacking anything better to call it, one of the authors [of RFC2770], David Meyer, simply began refer to this as "GLOP" addressing and the name stuck.""
11. ↑ RFC 3376 Section 4.2.14
12. ↑ RFC 4380 item 2.17
13. ↑ "RFC 7371 - Updates to the IPv6 Multicast Addressing Architecture". https://datatracker.ietf.org/doc/html/rfc7371.
14. ↑ Silvia Hagen (May 2006). IPv6 Essentials (Second ed.). O'Reilly. ISBN 978-0-596-10058-2. https://archive.org/details/ipv6essentials00hage.
15. ↑ RFC 3956
16. ↑ RFC 3306
17. ↑ RFC 2365 section 8.
18. ↑ "IPv6 Multicast Address Space Registry". Internet Assigned Numbers Authority. https://www.iana.org/assignments/ipv6-multicast-addresses/ipv6-multicast-addresses.xhtml.
19. ↑ IEEE. "Standard Group MAC Address: A Tutorial Guide". IEEE Standards Association. pp. 2–3. http://standards.ieee.org/develop/regauth/tut/macgrp.pdf.
20. ↑ Patton, Michael A. et. al.. "Multicast (including Broadcast) Addresses". cavebear.com. Karl Auerbach. http://www.cavebear.com/archive/cavebear/Ethernet/multicast.html.
21. ↑ "Standard Group MAC Address - Public Listing". IEEE-SA. https://standards.ieee.org/products-services/regauth/grpmac/public.html.
22. ↑ "IANA Multicast 48-bit MAC Addresses". IANA. https://www.iana.org/assignments/ethernet-numbers/ethernet-numbers.xhtml#ethernet-numbers-3.
23. ↑ RFC 7042 2.1.1
24. ↑ RFC 7042 2.3.1

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