Descripción general de la multidifusión de cualquier origen (ASM) en el entorno de estructura de campus SDA

Opciones de descarga

  • PDF     (553.9 KB)
    Visualice con Adobe Reader en una variedad de dispositivos
  • ePub     (326.0 KB)
    Visualice en diferentes aplicaciones en iPhone, iPad, Android, Sony Reader o Windows Phone
  • Mobi (Kindle)     (226.1 KB)
    Visualice en dispositivo Kindle o aplicación Kindle en múltiples dispositivos
Actualizado:5 de septiembre de 2018
ID del documento:213666

Lenguaje no discriminatorio

El conjunto de documentos para este producto aspira al uso de un lenguaje no discriminatorio. A los fines de esta documentación, "no discriminatorio" se refiere al lenguaje que no implica discriminación por motivos de edad, discapacidad, género, identidad de raza, identidad étnica, orientación sexual, nivel socioeconómico e interseccionalidad. Puede haber excepciones en la documentación debido al lenguaje que se encuentra ya en las interfaces de usuario del software del producto, el lenguaje utilizado en función de la documentación de la RFP o el lenguaje utilizado por un producto de terceros al que se hace referencia. Obtenga más información sobre cómo Cisco utiliza el lenguaje inclusivo.

Acerca de esta traducción

Cisco ha traducido este documento combinando la traducción automática y los recursos humanos a fin de ofrecer a nuestros usuarios en todo el mundo contenido en su propio idioma. Tenga en cuenta que incluso la mejor traducción automática podría no ser tan precisa como la proporcionada por un traductor profesional. Cisco Systems, Inc. no asume ninguna responsabilidad por la precisión de estas traducciones y recomienda remitirse siempre al documento original escrito en inglés (insertar vínculo URL).

    Introducción

    Este documento describe la descripción general de la multidifusión de cualquier origen (ASM) con un punto de encuentro único (RP) en el entorno de acceso definido por software (SD-Access). 

    Prerequisites

    Requirements

    Se recomienda que tenga conocimiento del protocolo de separación de ID de localizador (LISP) y multidifusión.

    Componentes Utilizados

    Este documento no tiene restricciones específicas en cuanto a versiones de software y de hardware.

    La información de este documento se originó a partir de dispositivos dentro de un ambiente de laboratorio específico. Si su red está activa, asegúrese de comprender el impacto potencial de cualquier comando.GUI

    Dispositivos utilizados para este artículo 

              Controlador de arquitectura de red digital (DNAC) - Versión 1.2.1

              Borde y borde: switch de Cisco Cat3k 

              Fusión - Router de Cisco con soporte para filtraciones entre VRF(Virtual Route Forwarding)

    Configurar

    Diagrama de la red

    La topología utilizada para este artículo consta de dos Routers de Borde ambos configurados como Fronteras Externas y dos Routers de Fusión con una conexión a cada Router de Borde respectivo. El borde 1 se configura como RP, el origen de multidifusión se conecta a Fusion-2 y el receptor de multidifusión se conecta al extremo 1.

    Configuraciones

    Este artículo no trata los pasos para configurar el fabric en el entorno de acceso definido por software (SDA) y comienza con una explicación de los pasos para configurar la multidifusión en el dominio de fabric para un VN específico.

    Paso 1: Configuración de multidifusión en dispositivos de fabric desde DNAC

    En DNAC Graphical User Interface (GUI), En Provisioning -> Fabric Workflow (Suministro -> Flujo de trabajo de fabric). La multidifusión se configura mediante la opción "Habilitar punto de encuentro" en el dispositivo SDA-BORDER-1.

    A continuación, elija un grupo de protocolos de Internet (IP) que se utilizará para la configuración de multidifusión en un VN específico. "Campus" en este ejemplo.

    Paso 2: Verificación de la configuración enviada en los dispositivos 

    Esta sección trata sobre la verificación de la configuración de multidifusión en los dispositivos de fabric.

    SDA-BORDER-1


    interface Loopback4099                            <<<<<<<<<<<< Loopback Interface is created and assigned an IP from Pool selected
     vrf forwarding Campus
     ip address 192.168.50.1 255.255.255.255
     ip pim sparse-mode                               <<<<<<<<<<< PIM is enabled on Interface
    end


    interface LISP0.4099                              <<<<<<<<<<< PIM is enabled on LISP interface
     ip pim sparse-mode
    end

    SDA-Border1#sh run | in pim|multicast

ip multicast-routing                             <<<<<<<<<<< Multicast Routing is enabled for Global
ip multicast-routing vrf Campus                  <<<<<<<<<<< Multicast Routing is enabled for Campus VN

ip pim ssm default                               <<<<<<<<<< PIM SSM mode is enabled for Global for default address range
ip pim vrf Campus rp-address 192.168.50.1        <<<<<<<<<< BORDER-1 Loopback4099 is configued as RP
    ip pim vrf Campus register-source Loopback4099
    ip pim vrf Campus ssm default                    <<<<<<<<<< PIM SSM mode is enabled for vrf Campus for default address range

    SDA-Border1#sh run | s address-family ipv4 vrf Campus
     address-family ipv4 vrf Campus
    ..... 
     network 192.168.50.1 mask 255.255.255.255       <<<<<<<<<<< RP Address is injected into BGP Table 
     aggregate-address 192.168.50.0 255.255.255.0 summary-only <<<<<<<<<<< Aggregate for Multicast Pool is advertised
    .....

    SDA-BORDER-2

    interface Loopback4099
 vrf forwarding Campus
 ip address 192.168.50.3 255.255.255.255
 ip pim sparse-mode
end

interface LISP0.4099
 ip pim sparse-mode
end


SDA-Border2#sh run | in pim|multicast

ip multicast-routing
ip multicast-routing vrf Campus

ip pim ssm default
ip pim vrf Campus rp-address 192.168.50.1       <<<<<<<<<< BORDER-1 Loopback4099 is configued as RP
ip pim vrf Campus register-source Loopback4099
ip pim vrf Campus ssm default


    SDA-Border2#sh run | s address-family ipv4 vrf Campus
     address-family ipv4 vrf Campus
    .....
     network 192.168.50.1 mask 255.255.255.255
     aggregate-address 192.168.50.0 255.255.255.0 summary-only
    .....

    SDA-EDGE-1


    interface Vlan1021
     description Configured from apic-em
     mac-address 0000.0c9f.f45c
     vrf forwarding Campus
     ip address 172.16.10.1 255.255.255.0
     ip helper-address 10.10.10.100
     no ip redirects
     ip local-proxy-arp
     ip pim sparse-mode                            <<<<<<<<<<< PIM is enabled on all SVI-s under Campus VN
     ip route-cache same-interface
     ip igmp version 3
     no lisp mobility liveness test
     lisp mobility 172_16_10_0-Campus
    end


    interface Loopback4099
 vrf forwarding Campus
 ip address 192.168.50.2 255.255.255.255
 ip pim sparse-mode
end


interface LISP0.4099
 ip pim sparse-mode
end


SDA-Edge1#sh run | in pim|multicast

ip multicast-routing
ip multicast-routing vrf Campus

ip pim ssm default
ip pim vrf Campus rp-address 192.168.50.1       <<<<<<<<<< BORDER-1 Loopback4099 is configued as RP
ip pim vrf Campus register-source Loopback4099
ip pim vrf Campus ssm default

    Paso 3: Configuración manual de PIM a través del enlace de transferencia

     El origen de multidifusión se conecta fuera del fabric a Fusion-2 en este ejemplo.  Para que el Flujo Multicast fluya, asegúrese de que haya una trayectoria PIM de RP a Origen y Receptor a Origen (las trayectorias pueden ser diferentes).

    PIM Peering entre SDA-BORDER-1 y SDA-FUSION-1

    SDA-BORDER-1
------------------------------------------------
interface Vlan3002                             <<<<<<<< Enable PIM on Handover link in Campus VN
 description vrf interface to External router
 vrf forwarding Campus
 ip address 10.50.50.5 255.255.255.252
 no ip redirects
 ip pim sparse-mode
 ip route-cache same-interface
end


SDA-FUSION-1
------------------------------------------------
ip multicast-routing                          
ip multicast-routing vrf Campus               <<<<<<<<< Enable Multicast Routing in vrf Campus
    
ip pim vrf Campus rp-address 192.168.50.1     <<<<<<<<< Configure BORDER-1 Loopback4099 as RP 
    
interface Vlan3002                            <<<<<<<<< Enable PIM on Fusion Interface towards Border 
vrf forwarding Campus 
ip address 10.50.50.6 255.255.255.252  
ip pim sparse-mode 
end

    PIM Peering entre SDA-BORDER-2 y SDA-FUSION-2

    SDA-BORDER-2
------------------------------------------------
interface Vlan3007
 description vrf interface to External router
 vrf forwarding Campus
 ip address 10.50.50.25 255.255.255.252
 no ip redirects
 ip pim sparse-mode
 ip route-cache same-interface
end



SDA-FUSION-2
------------------------------------------------
ip multicast-routing distributed
ip multicast-routing vrf Campus distributed

ip pim vrf Campus rp-address 192.168.50.1     

interface GigabitEthernet0/0/0.3007
 encapsulation dot1Q 3007
 vrf forwarding Campus
 ip address 10.50.50.26 255.255.255.252
 ip pim sparse-mode
 no cdp enable
end

    PIM Peering entre SDA-FUSION-1 y SDA-FUSION-2

    SDA-FUSION-1
------------------------------------------------
interface Vlan100
 description Muticast_Campus
 vrf forwarding Campus
 ip address 10.40.40.5 255.255.255.252
 ip pim sparse-mode
end


SDA-FUSION-2
------------------------------------------------
interface GigabitEthernet0/0/2.100
 encapsulation dot1Q 100
 vrf forwarding Campus
 ip address 10.40.40.6 255.255.255.252
 ip pim sparse-mode
end

    Habilitar PIM en la interfaz que se conecta al origen

    SDA-FUSION-2
-------------------------------------------------

interface GigabitEthernet1/0/2
 vrf forwarding Campus
 ip address 10.40.40.2 255.255.255.252
 ip pim sparse-mode
 load-interval 30
 negotiation auto
end

    Proceso del plano de control

    En algún momento, el receptor de multidifusión envía un protocolo de administración de grupos de Internet (IGMP) a un router de último salto (LHR) para recibir el flujo para un grupo específico, y el origen de multidifusión (servidor) comienza a enviar el flujo de multidifusión al router de primer salto (FHR).  En nuestro caso, FHR es SDA-FUSION-2 y LHR es SDA-EDGE-1 y el Proceso del Plano de Control se explica en el escenario donde el Receptor solicita primero una secuencia y el Origen comienza a transmitirse para ese grupo después.

    Unión IGMP en LHR

    Multicast Receiver envía un informe IGMP (Join) a LHR para el Grupo 239.1.1.1. El receptor está conectado a Gi1/0/1 (SVI 1021) en SDA-EDGE-1.

    SDA-Edge1#debug ip igmp vrf Campus 239.1.1.1
IGMP debugging is on

*Aug 14 23:53:06.445: IGMP(4): Received v2 Report on Vlan1021 from 172.16.10.10 for 239.1.1.1
*Aug 14 23:53:06.445: IGMP(4): Received Group record for group 239.1.1.1, mode 2 from 172.16.10.10 for 0 sources
*Aug 14 23:53:06.445: IGMP(4): MRT Add/Update Vlan1021 for (*,239.1.1.1) by 0

*Aug 14 23:54:07.445: IGMP(4): Received v2 Report on Vlan1021 from 172.16.10.10 for 239.1.1.1   <<<<<<< one minute apart

    SDA-Edge1#show ip igmp vrf Campus group
    IGMP Connected Group Membership
    Group Address    Interface                Uptime    Expires   Last Reporter
    239.1.1.1        Vlan1021                 00:49:10  00:02:45  172.16.10.10    <<<<<<< Receiver is present
    SDA-Edge1#

    El nuevo servicio de monitoreo de ruta multidifusión determina la información de reenvío de ruta inversa (RPF) hacia el RP (para el árbol compartido) y hacia el origen (para el árbol de ruta más corto (SPT)). Para las direcciones LISP accesibles, el vecino del siguiente salto se representa mediante la dirección RLOC (localizador de routing remoto) del sitio ascendente.

    SDA-Edge1#show ip pim vrf Campus rp mapping 239.1.1.1
PIM Group-to-RP Mappings

Group(s): 224.0.0.0/4, Static
    RP: 192.168.50.1 (?)                          <<<<<<<<<<< RP is 192.168.50.1
SDA-Edge1#
SDA-Edge1#



SDA-Edge1#show lisp eid-table vrf Campus ipv4 map 192.168.50.1/32       <<<<<<<<< check Reachability towards the RP address
LISP IPv4 Mapping Cache for EID-table vrf Campus (IID 4099), 4 entries

192.168.50.1/32, uptime: 2w5d, expires: 23:10:58, via map-reply, complete
  Sources: map-reply
  State: complete, last modified: 2w5d, map-source: 192.168.10.1
  Active, Packets out: 171704(3435172 bytes) (~ 00:00:43 ago)
  Locator       Uptime    State      Pri/Wgt     Encap-IID
  192.168.10.1  2w5d      up          10/10        -                 <<<<<<<<<<< RLOC is 192.168.10.1
    Last up-down state change:         2w5d, state change count: 1
    Last route reachability change:    2w5d, state change count: 1
    Last priority / weight change:     never/never
    RLOC-probing loc-status algorithm:
      Last RLOC-probe sent:            00:49:02 (rtt 3ms)




SDA-Edge1#show ip cef vrf Campus 192.168.50.1/32
192.168.50.1/32
  nexthop 192.168.10.1 LISP0.4099                                   <<<<<<<<<<< RP is reachable via LISP interface


SDA-Edge1#show ip mroute vrf Campus 239.1.1.1
IP Multicast Routing Table

(*, 239.1.1.1), 00:50:06/00:02:57, RP 192.168.50.1, flags: SJC     <<<<<<<<<<< (*,G) entry is created 
  Incoming interface: LISP0.4099, RPF nbr 192.168.10.1             <<<<<<<<<<< Incoming interface is set as LISP interface
  Outgoing interface list:
    Vlan1021, Forward/Sparse, 00:50:06/00:02:57                    <<<<<<<<<<< Outgoing Interface is set towards Receiver


 

    Luego, el LHR envía un PIM (*,G) Join Towards the RP (a intervalos de un minuto) - si el LHR es DR para ese segmento.

    SDA-Edge1#debug ip pim vrf Campus 239.1.1.1 
PIM debugging is on

*Aug 15 00:03:44.592: PIM(4): Building Periodic (*,G) Join / (S,G,RP-bit) Prune message for 239.1.1.1             
*Aug 15 00:03:44.593: PIM(4): Insert (*,239.1.1.1) join in nbr 192.168.10.1's queue                                
*Aug 15 00:03:44.593: PIM(4): Building Join/Prune packet for nbr 192.168.10.1
*Aug 15 00:03:44.594: PIM(4):  Adding v2 (192.168.50.1/32, 239.1.1.1), WC-bit, RPT-bit, S-bit Join
*Aug 15 00:03:44.594: PIM(4): Adding LISP Unicast transport attribute in join/prune to 192.168.10.1 (LISP0.4099)   
*Aug 15 00:03:44.594: PIM(4): Send v2 join/prune to 192.168.10.1 (LISP0.4099)         <<<<<<< PIM (*,G) Join is sent towards the RP

    *Aug 15 00:04:42.892: PIM(4): Building Periodic (*,G) Join / (S,G,RP-bit) Prune message for 239.1.1.1
*Aug 15 00:04:42.892: PIM(4): Insert (*,239.1.1.1) join in nbr 192.168.10.1's queue
*Aug 15 00:04:42.892: PIM(4): Building Join/Prune packet for nbr 192.168.10.1
*Aug 15 00:04:42.892: PIM(4):  Adding v2 (192.168.50.1/32, 239.1.1.1), WC-bit, RPT-bit, S-bit Join
*Aug 15 00:04:42.892: PIM(4): Adding LISP Unicast transport attribute in join/prune to 192.168.10.1 (LISP0.4099)
*Aug 15 00:04:42.892: PIM(4): Send v2 join/prune to 192.168.10.1 (LISP0.4099)
SDA-Edge1#

    Creación de vecino

    Una vez obtenida la información de RPF que apunta a la interfaz LISP, PIM debe crear explícitamente una estructura de vecino para el RLOC correspondiente. Esto es necesario porque el router de túnel ascendente (xTR) no envía mensajes de saludo. El nuevo bloque vecino vence cuando no se han enviado mensajes de unión/recorte al vecino después de 2 veces el tiempo de intervalo estándar entre ambos.

    En nuestro caso, SDA-EDGE-1 crea un vecino PIM usando la dirección RLOC ascendente/RPF.

    SDA-Edge1#show ip pim vrf Campus neighbor
PIM Neighbor Table

Neighbor          Interface                Uptime/Expires    Ver   DR
Address                                                            Prio/Mode
192.168.10.1      LISP0.4099               1w5d/00:01:27     v2    0 /             <<<<<<< RLOC address used for the neighbor


SDA-Edge1#debug ip pim vrf Campus timers    <— chatty! 
PIM-TIMERS debugging is on

    *Aug 15 00:08:37.992: PIM(4): Building Periodic (*,G) Join / (S,G,RP-bit) Prune message for 239.1.1.1
*Aug 15 00:08:37.993: PIM(4) Twheel Start: Neighbor Timer for Nbr: 192.168.10.1. idb LISP0.4099. delay: 120000 ms. jitter 0.

...

    Conexión PIM Recibida en RP

    La incorporación de PIM se recibe en el RP(SDA-BORDER-1) de LHR(SDA-EDGE-1) a través de la interfaz LISP

    SDA-Border1#debug ip pim vrf Campus 239.1.1.1
PIM debugging is on

*Aug 18 01:47:14.812: PIM(4): J/P Transport Attribute, Transport Type: Unicast
*Aug 18 01:47:14.813: PIM(4): Join-list: (*, 239.1.1.1), RPT-bit set, WC-bit set, S-bit set
*Aug 18 01:47:14.813: PIM(4): Check RP 192.168.50.1 into the (*, 239.1.1.1) entry
*Aug 18 01:47:14.813: PIM(4): Adding register decap tunnel (Tunnel1) as accepting interface of (*, 239.1.1.1).    
*Aug 18 01:47:14.813: PIM(4): Add LISP0.4099/192.168.10.3 to (*, 239.1.1.1), Forward state, by PIM *G Join        <<<<<< (*,G) join received from RLOC of LHR over LISP Interface

*Aug 18 01:48:14.267: PIM(4): J/P Transport Attribute, Transport Type: Unicast
*Aug 18 01:48:14.267: PIM(4): Join-list: (*, 239.1.1.1), RPT-bit set, WC-bit set, S-bit set
*Aug 18 01:48:14.267: PIM(4): Update LISP0.4099/192.168.10.3 to (*, 239.1.1.1), Forward state, by PIM *G Join     


    
SDA-Border1#show ip mroute vrf Campus 239.1.1.1
IP Multicast Routing Table

(*, 239.1.1.1), 00:01:38/00:02:51, RP 192.168.50.1, flags: S
  Incoming interface: Null, RPF nbr 0.0.0.0                               <<<<<<<<<<<< RP is myself hence RPF Neighbor is Null
  Outgoing interface list:
    LISP0.4099, 192.168.10.3, Forward/Sparse, 00:01:38/00:02:51           <<<<<<<<<<<< Outgoing Interface is set towards LHR RLOC

    El RP(Border1) no envía ninguna unión a través de la interfaz LISP, por lo tanto no se crea ningún Vecino PIM en el RP a través de la interfaz LISP.

    En nuestro caso, el único vecino PIM es hacia Fusion-1 sobre una interfaz que no es LISP, y se forma como resultado de los paquetes PIM Hello periódicos recibidos.

    SDA-Border1#debug ip pim vrf Campus hello
    PIM-HELLO debugging is on
    SDA-Border1#
    *Aug 24 00:02:19.944: PIM(4): Received v2 hello on Vlan3002 from 10.50.50.6
    *Aug 24 00:02:19.944: PIM(4): Neighbor (10.50.50.6) Hello GENID = 1315387214
    SDA-Border1#
    *Aug 24 00:02:49.396: PIM(4): Received v2 hello on Vlan3002 from 10.50.50.6
    *Aug 24 00:02:49.397: PIM(4): Neighbor (10.50.50.6) Hello GENID = 1315387214

    SDA-Border1#show ip pim vrf Campus neigh
PIM Neighbor Table

Neighbor          Interface                Uptime/Expires    Ver   DR
Address                                                            Prio/Mode
10.50.50.6        Vlan3002                 2w0d/00:01:31     v2    1 / DR S P G

    Vecino PIM en Routers de Fusión

    Los Vecinos PIM en los Routers de Fusión se encuentran sobre interfaces que no son LISP y, por lo tanto, también se crean en función de los saludo PIM periódicos recibidos.

    SDA-FUSION-1

SDA-Fusion1#show ip pim vrf Campus neighbor
PIM Neighbor Table

Neighbor          Interface                Uptime/Expires    Ver   DR
Address                                                            Prio/Mode
10.40.40.6        Vlan100                  5d00h/00:01:41    v2    1 / S P G
10.50.50.5        Vlan3002                 2w4d/00:01:44     v2    1 / S P G


SDA-FUSION-2

SDA-Fusion2#show ip pim vrf Campus neighbor
PIM Neighbor Table

Neighbor          Interface                Uptime/Expires    Ver   DR
Address                                                            Prio/Mode
10.50.50.25       Gi0/0/0.3007             2w5d/00:01:36     v2    1 / S P G
10.40.40.5        GigabitEthernet0/0/2.100 5d00h/00:01:23    v2    100/ DR S P G

    Registro de PIM en RP desde FHR

    Cuando el Origen comienza a enviar tráfico para el grupo, el FHR (SDA-FUSION-2) registra el (S,G) con el RP una vez que recibe el primer paquete multicast del Origen y si FHR es el DR en ese segmento.

    SDA-Fusion2#show ip pim vrf Campus rp mapping 239.1.1.1
PIM Group-to-RP Mappings

Group(s): 224.0.0.0/4, Static
    RP: 192.168.50.1 (?)                              <<<<<<<< RP for the Group

SDA-Fusion2#show ip cef vrf Campus 192.168.50.1
192.168.50.1/32
  nexthop 10.40.40.5 GigabitEthernet0/0/2.100         <<<<<<<< Next-hop Interface towards RP


SDA-Fusion2#debug ip mrouting vrf Campus
IP multicast routing debugging is on
SDA-Fusion2#debug ip pim vrf Campus
PIM debugging is on

*Aug 22 21:59:42.601: PIM(2): Check RP 192.168.50.1 into the (*, 239.1.1.1) entry
*Aug 22 21:59:42.601: MRT(2): (*,239.1.1.1), RPF change from  /0.0.0.0 to GigabitEthernet0/0/2.100/10.40.40.5         <<<<<<<< RPF Interface is determined
*Aug 22 21:59:42.601: PIM(2): Building Triggered (*,G) Join / (S,G,RP-bit) Prune message for 239.1.1.1
*Aug 22 21:59:42.601: MRT(2): Create (*,239.1.1.1), RPF (GigabitEthernet0/0/2.100, 10.40.40.5, 1/0)
*Aug 22 21:59:42.602: MRT(2): (10.40.40.1,239.1.1.1), RPF install from  /0.0.0.0 to GigabitEthernet1/0/2/0.0.0.0      
*Aug 22 21:59:42.602: PIM(2): Adding register encap tunnel (Tunnel0) as forwarding interface of (10.40.40.1, 239.1.1.1). <<<<< Register Tunnel is created
*Aug 22 21:59:42.602: MRT(2): Set the F-flag for (*, 239.1.1.1)
*Aug 22 21:59:42.602: MRT(2): Set the F-flag for (10.40.40.1, 239.1.1.1)                                              <<<<<<< Register(F) flag is set
*Aug 22 21:59:42.602: MRT(2): Create (10.40.40.1,239.1.1.1), RPF (GigabitEthernet1/0/2, 0.0.0.0, 0/0)                 <<<<<<< (S,G) is created
*Aug 22 21:59:42.602: MRT(2): Set the T-flag for (10.40.40.1, 239.1.1.1)                                              <<<<<<< SPT (T) flag is set
*Aug 22 21:59:42.629: PIM(2): Received v2 Join/Prune on GigabitEthernet0/0/2.100 from 10.40.40.5, to us
*Aug 22 21:59:42.629: PIM(2): Join-list: (10.40.40.1/32, 239.1.1.1), S-bit set                                        <<<<<<< (S,G) join is received
*Aug 22 21:59:42.629: MRT(2): WAVL Insert interface: GigabitEthernet0/0/2.100 in (10.40.40.1,239.1.1.1) Successful

*Aug 22 21:59:42.630: MRT(2): set min mtu for (10.40.40.1, 239.1.1.1) 18010->1500
*Aug 22 21:59:42.630: MRT(2): Add GigabitEthernet0/0/2.100/239.1.1.1 to the olist of (10.40.40.1, 239.1.1.1), Forward state - MAC built
*Aug 22 21:59:42.630: PIM(2): Add GigabitEthernet0/0/2.100/10.40.40.5 to (10.40.40.1, 239.1.1.1), Forward state, by PIM SG Join
*Aug 22 21:59:42.630: MRT(2): Add GigabitEthernet0/0/2.100/239.1.1.1 to the olist of (10.40.40.1, 239.1.1.1), Forward state - MAC built
*Aug 22 21:59:42.630: MRT(2): Set the PIM interest flag for (10.40.40.1, 239.1.1.1)

    SDA-Fusion2#show ip mroute vrf Campus 239.1.1.1
    IP Multicast Routing Table

    (*, 239.1.1.1), 00:01:17/stopped, RP 192.168.50.1, flags: SPF
      Incoming interface: GigabitEthernet0/0/2.100, RPF nbr 10.40.40.5
      Outgoing interface list: Null

    (10.40.40.1, 239.1.1.1), 00:01:17/00:02:14, flags: FT
      Incoming interface: GigabitEthernet1/0/2, RPF nbr 0.0.0.0       <<<<<<<< RPF neighbor is 0.0.0.0 as the Source is directly connected
      Outgoing interface list:
        Gi0/0/0.3007, Forward/Sparse, 00:01:17/00:03:10

    SDA-Fusion2#

SDA-Fusion2#show interface tunnel 0         <<<<<<<< Register Tunnel is created between FHR and RP 
Tunnel0 is up, line protocol is up
 Hardware is Tunnel
 Description: Pim Register Tunnel (Encap) for RP 192.168.50.1 on VRF Campus
 Interface is unnumbered. Using address of GigabitEthernet0/0/2.100 (10.40.40.6)
 MTU 9972 bytes, BW 100 Kbit/sec, DLY 50000 usec,
 reliability 255/255, txload 1/255, rxload 1/255
 Encapsulation TUNNEL, loopback not set
 Keepalive not set
 Tunnel linestate evaluation up
 Tunnel source 10.40.40.6 (GigabitEthernet0/0/2.100), destination 192.168.50.1

     RP (BORDER-1) recibe el Registro del FHR, que activa una Unión (S,G) para enviarse hacia el FHR, y también una Detención de Registro hacia el FHR, una vez que se recibe el flujo nativamente en el RP.

    SDA-Border1#debug ip mrouting vrf Campus 239.1.1.1
IP multicast routing debugging is on

*Aug 18 02:29:05.186: PIM(4): Received v2 Register on Vlan3002 from 10.40.40.6                                           <<<<<<< PIM Register is received from FHR
*Aug 18 02:29:05.186:      for 10.40.40.1, group 239.1.1.1
*Aug 18 02:29:05.187: PIM(4): Adding register decap tunnel (Tunnel1) as accepting interface of (10.40.40.1, 239.1.1.1).  <<<<<<< Register tunnel is created
*Aug 18 02:29:05.187: MRT(4): (10.40.40.1,239.1.1.1), RPF install from  /0.0.0.0 to Vlan3002/10.50.50.6
*Aug 18 02:29:05.188: MRT(4): Create (10.40.40.1,239.1.1.1), RPF (Vlan3002, 10.50.50.6, 20/0)                            <<<<<<< (S,G) is created and RPF is resolved
*Aug 18 02:29:05.188: MRT(4): WAVL Insert LISP interface: LISP0.4099 in (10.40.40.1,239.1.1.1) Next-hop: 192.168.10.3 Outer-source: 0.0.0.0 Successful   
*Aug 18 02:29:05.188: MRT(4): set min mtu for (10.40.40.1, 239.1.1.1) 18010->17892
*Aug 18 02:29:05.189: MRT(4): Add LISP0.4099/192.168.10.3 to the olist of (10.40.40.1, 239.1.1.1), Forward state - MAC not built   <<<<<< LISP OIF is inherited from (*,G)
*Aug 18 02:29:05.189: PIM(4): Insert (10.40.40.1,239.1.1.1) join in nbr 10.50.50.6's queue
*Aug 18 02:29:05.189: PIM(4): Building Join/Prune packet for nbr 10.50.50.6                                              
*Aug 18 02:29:05.189: PIM(4):  Adding v2 (10.40.40.1/32, 239.1.1.1), S-bit Join
*Aug 18 02:29:05.189: PIM(4): Send v2 join/prune to 10.50.50.6 (Vlan3002)                                                <<<<<<< (S,G) join is sent towards the Source
*Aug 18 02:29:05.272: PIM(4): J/P Transport Attribute, Transport Type: Unicast
*Aug 18 02:29:05.272: PIM(4): Join-list: (*, 239.1.1.1), RPT-bit set, WC-bit set, S-bit set
*Aug 18 02:29:05.272: PIM(4): Update LISP0.4099/192.168.10.3 to (*, 239.1.1.1), Forward state, by PIM *G Join
*Aug 18 02:29:05.272: MRT(4): Update LISP0.4099/192.168.10.3 in the olist of (*, 239.1.1.1), Forward state - MAC not built
*Aug 18 02:29:05.272: PIM(4): Prune-list: (10.40.40.1/32, 239.1.1.1) RPT-bit set
*Aug 18 02:29:05.273: PIM(4): Prune LISP0.4099/192.168.10.3 from (10.40.40.1/32, 239.1.1.1)                              <<<<<<< (S,G) Prune is received from Edge1 
*Aug 18 02:29:05.273: MRT(4): Delete LISP0.4099/192.168.10.3 from the olist of (10.40.40.1, 239.1.1.1)
*Aug 18 02:29:05.273: PIM(4): Insert (10.40.40.1,239.1.1.1) prune in nbr 10.50.50.6's queue - deleted

*Aug 18 02:29:05.273: PIM(4): Building Join/Prune packet for nbr 10.50.50.6
*Aug 18 02:29:05.273: PIM(4):  Adding v2 (10.40.40.1/32, 239.1.1.1), S-bit Prune
*Aug 18 02:29:05.273: PIM(4): Send v2 join/prune to 10.50.50.6 (Vlan3002)                                               
*Aug 18 02:29:05.439: PIM(4): J/P Transport Attribute, Transport Type: Unicast

*Aug 18 02:29:07.193: PIM(4): Received v2 Register on Vlan3002 from 10.40.40.6
*Aug 18 02:29:07.193:      for 10.40.40.1, group 239.1.1.1
*Aug 18 02:29:07.194: PIM(4): Send v2 Register-Stop to 10.40.40.6 for 10.40.40.1, group 239.1.1.1                        <<<<<<< Register-Stop is sent towards FHR


SDA-Border1#show ip mroute vrf Campus 239.1.1.1
IP Multicast Routing Table

(*, 239.1.1.1), 00:51:28/00:02:44, RP 192.168.50.1, flags: S
  Incoming interface: Null, RPF nbr 0.0.0.0
  Outgoing interface list:
    LISP0.4099, 192.168.10.3, Forward/Sparse, 00:51:28/00:02:44

(10.40.40.1, 239.1.1.1), 00:09:37/00:01:24, flags: P                     <<<<<<<<<<<< (S,G) is created but Pruned flag is set
  Incoming interface: Vlan3002, RPF nbr 10.50.50.6                       <<<<<<<<<<<< Incoming interface and RPF neighbor
  Outgoing interface list: Null


    SDA-Border1#show ip rpf vrf Campus 10.40.40.1
    RPF information for ? (10.40.40.1)
      RPF interface: Vlan3002                                                <<<<<<<<<< RPF interface towards the Source
      RPF neighbor: ? (10.50.50.6)                                           <<<<<<<<<< RPF neighbor - must be a PIM neighbor
      RPF route/mask: 10.40.40.0/30
     RPF type: unicast (bgp 65005)                                          <<<<<<<<<< RPF information coming from unicast RIB/BGP
      Doing distance-preferred lookups across tables
      RPF topology: ipv4 multicast base, originated from ipv4 unicast base
    SDA-Border1#
    SDA-Border1#show ip route vrf Campus 10.40.40.1

    Routing Table: Campus
    Routing entry for 10.40.40.0/30
      Known via "bgp 65005", distance 20, metric 0
      Tag 65004, type external
      Last update from 10.50.50.6 2w6d ago
      Routing Descriptor Blocks:
      * 10.50.50.6, from 10.50.50.6, 2w6d ago
          Route metric is 0, traffic share count is 1
          AS Hops 1
          Route tag 65004
          MPLS label: none
          MPLS Flags: NSF
    SDA-Border1#

    SPT está siendo recortado por el Edge-1 - vayamos al LHR para ver por qué.

    (S,G) Creación en LHR

    Después de recibir los datos de multidifusión reenviados por el RP, se crea la entrada (S,G) en el LHR.

    A continuación, el LHR cambiará al árbol de trayecto más corto (SPT) enviando una (S,G) Unirse hacia la fuente. Esto se envía en la interfaz RPF hacia el origen.

    SDA-Edge1#
*Aug 18 02:19:53.759: MRT(4): Create (10.40.40.1,239.1.1.1), RPF (unknown, 0.0.0.0, 0/0)                    <<<<<<<<< (S,G) is created on LHR
*Aug 18 02:19:53.759: MRT(4): WAVL Insert interface: Vlan1021 in (10.40.40.1,239.1.1.1) Successful
*Aug 18 02:19:53.759: MRT(4): set min mtu for (10.40.40.1, 239.1.1.1) 18010->1500
*Aug 18 02:19:53.759: MRT(4): Add Vlan1021/239.1.1.1 to the olist of (10.40.40.1, 239.1.1.1), Forward state - MAC not built    <<<<<<< OIL is inherited from (*,G)
*Aug 18 02:19:53.759: MRT(4): Set the J-flag for (10.40.40.1, 239.1.1.1)                                    <<<<<<<< SPT Join Flag is set
*Aug 18 02:19:53.762: MRT(4): (10.40.40.1,239.1.1.1), RPF change from  /0.0.0.0 to LISP0.4099/192.168.10.2  <<<<<<<< RPF interface is resolved
*Aug 18 02:19:53.762: MRT(4): Set the T-flag for (10.40.40.1, 239.1.1.1)
*Aug 18 02:19:53.763: PIM(4): Insert (10.40.40.1,239.1.1.1) join in nbr 192.168.10.2's queue 
*Aug 18 02:19:53.763: PIM(4): Building Join/Prune packet for nbr 192.168.10.2                               
*Aug 18 02:19:53.763: PIM(4):  Adding v2 (10.40.40.1/32, 239.1.1.1), S-bit Join
*Aug 18 02:19:53.763: PIM(4): Adding LISP Unicast transport attribute in join/prune to 192.168.10.2 (LISP0.4099)
*Aug 18 02:19:53.763: PIM(4): Send v2 join/prune to 192.168.10.2 (LISP0.4099)                               <<<<<<<< (S,G) Join towards the Source is sent
*Aug 18 02:19:53.826: PIM(4): Building Periodic (*,G) Join / (S,G,RP-bit) Prune message for 239.1.1.1
*Aug 18 02:19:53.826: PIM(4): Insert (*,239.1.1.1) join in nbr 192.168.10.1's queue
*Aug 18 02:19:53.826: PIM(4): Insert (10.40.40.1,239.1.1.1) sgr prune in nbr 192.168.10.1's queue           
*Aug 18 02:19:53.826: PIM(4): Building Join/Prune packet for nbr 192.168.10.1
*Aug 18 02:19:53.826: PIM(4):  Adding v2 (192.168.50.1/32, 239.1.1.1), WC-bit, RPT-bit, S-bit Join
*Aug 18 02:19:53.827: PIM(4):  Adding v2 (10.40.40.1/32, 239.1.1.1), RPT-bit, S-bit Prune
*Aug 18 02:19:53.827: PIM(4): Adding LISP Unicast transport attribute in join/prune to 192.168.10.1 (LISP0.4099)
*Aug 18 02:19:53.827: PIM(4): Send v2 join/prune to 192.168.10.1 (LISP0.4099)                               <<<<<<<<< (S,G) Prune towards the RP is sent
*Aug 18 02:20:08.323: MRT(4): Update (*,239.1.1.1), RPF (LISP0.4099, 192.168.10.1, 1/1)
*Aug 18 02:20:08.323: MRT(4): Update Vlan1021/239.1.1.1 in the olist of (*, 239.1.1.1), Forward state - MAC not built
*Aug 18 02:20:08.323: MRT(4): Update Vlan1021/239.1.1.1 in the olist of (10.40.40.1, 239.1.1.1), Forward state - MAC not built



SDA-Edge1#show ip mroute vrf Campus 239.1.1.1
IP Multicast Routing Table

(*, 239.1.1.1), 00:43:35/stopped, RP 192.168.50.1, flags: SJC
  Incoming interface: LISP0.4099, RPF nbr 192.168.10.1
  Outgoing interface list:
    Vlan1021, Forward/Sparse, 00:43:35/00:02:29

(10.40.40.1, 239.1.1.1), 00:01:45/00:01:14, flags: JT                       <<<<<<<<<<<< (S,G) is created 
  Incoming interface: LISP0.4099, RPF nbr 192.168.10.2                      <<<<<<<<<<<< Border-2 is the RPF neighbor towards the Source
  Outgoing interface list:
    Vlan1021, Forward/Sparse, 00:01:47/00:02:27
 
 
SDA-Edge1#show lisp eid-table vrf Campus ipv4 map 10.40.40.1                  <<<<<<<< LISP lookup for the Source
LISP IPv4 Mapping Cache for EID-table vrf Campus (IID 4099), 5 entries

0.0.0.0/1, uptime: 2w1d, expires: 18:05:53, via map-reply, forward-native
  Sources: map-reply
  State: forward-native, last modified: 2w1d, map-source: 192.168.10.1
  Active, Packets out: 106458(41136237 bytes) (~ 00:00:38 ago)
  Encapsulating to proxy ETR                                                <<<<<<<<< No specific entry is known, forwarding to Proxy ETR



SDA-Edge1#show ip cef vrf Campus 10.40.40.1 detail
0.0.0.0/1, epoch 0, flags [subtree context, check lisp eligibility], per-destination sharing
  SC owned,sourced: LISP remote EID - locator status bits 0x00000000
  LISP remote EID: 106468 packets 41140303 bytes fwd action encap
  LISP source path list
    nexthop 192.168.10.1 LISP0.4099                                         <<<<<<<<<< Load balancing towards 2 Proxy ETR-s
    nexthop 192.168.10.2 LISP0.4099
  2 IPL sources [no flags]
  nexthop 192.168.10.1 LISP0.4099
  nexthop 192.168.10.2 LISP0.4099


SDA-Edge1#show ip cef vrf Campus exact-route 192.168.50.2 10.40.40.1          <<<<<<<<< CEF hashing points towards Border-2
192.168.50.2 -> 10.40.40.1 =>IP adj out of GigabitEthernet1/0/11, addr 192.168.23.2  

SDA-Edge1#show ip rpf vrf Campus 10.40.40.1
    RPF information for ? (10.40.40.1)
      RPF interface: LISP0.4099
      RPF neighbor: ? (192.168.10.2)                                              <<<<<<<<<< Hence SPT Join is sent towards Border-2
      RPF route/mask: 0.0.0.0/1
      RPF type: unicast ()
      Doing distance-preferred lookups across tables
      RPF topology: ipv4 multicast base
    SDA-Edge1#

     Dado que la Unión (S,G) se envía hacia el borde 2 a través de la interfaz LISP, se crea un nuevo vecino PIM en el extremo 1

    SDA-Edge1#show ip pim vrf Campus neighbor
PIM Neighbor Table

Neighbor          Interface                Uptime/Expires    Ver   DR
Address                                                            Prio/Mode
192.168.10.2      LISP0.4099               00:07:32/00:01:22 v2    0 /         <<<<<<<< Neighbor towards Border-2 is created
192.168.10.1      LISP0.4099               2w1d/00:01:58     v2    0 /

     Como el Borde 2 está en la Trayectoria de Datos para el flujo multicast, debe realizar un RLOC Tracking explícito para realizar el seguimiento de RLOC de XTRs de Flujo Descendente para la Replicación Unicast de los paquetes. 

    SDA-Border2#show ip mroute vrf Campus 239.1.1.1
IP Multicast Routing Table

(*, 239.1.1.1), 00:23:00/stopped, RP 192.168.50.1, flags: SP
  Incoming interface: LISP0.4099, RPF nbr 192.168.10.1
  Outgoing interface list: Null

(10.40.40.1, 239.1.1.1), 00:12:35/00:02:52, flags: T                 <<<<<<< SPT flag is set
  Incoming interface: Vlan3007, RPF nbr 10.50.50.26                  <<<<<<< RPF neighbor is based on RPF towards the Source - must be a PIM neighbor
  Outgoing interface list:
    LISP0.4099, 192.168.10.3, Forward/Sparse, 00:12:35/00:02:45      <<<<<<< OIL created from (S,G) join received from LHR and containing LHR's RLOC info which has to be tracked
     
    SDA-Border2#show ip mfib vrf Campus 239.1.1.1 10.40.40.1
    Entry Flags:    C - Directly Connected, S - Signal, IA - Inherit A flag,
                    ET - Data Rate Exceeds Threshold, K - Keepalive
                    DDE - Data Driven Event, HW - Hardware Installed
                    ME - MoFRR ECMP entry, MNE - MoFRR Non-ECMP entry, MP - MFIB 
                    MoFRR Primary, RP - MRIB MoFRR Primary, P - MoFRR Primary
                    MS  - MoFRR  Entry in Sync, MC - MoFRR entry in MoFRR Client.
    I/O Item Flags: IC - Internal Copy, NP - Not platform switched,
                    NS - Negate Signalling, SP - Signal Present,
                    A - Accept, F - Forward, RA - MRIB Accept, RF - MRIB Forward,
                    MA - MFIB Accept, A2 - Accept backup,
                    RA2 - MRIB Accept backup, MA2 - MFIB Accept backup

    Forwarding Counts: Pkt Count/Pkts per second/Avg Pkt Size/Kbits per second
    Other counts:      Total/RPF failed/Other drops
    I/O Item Counts:   FS Pkt Count/PS Pkt Count
    VRF Campus
     (10.40.40.1,239.1.1.1) Flags: HW
       SW Forwarding: 0/0/0/0, Other: 0/0/0
       HW Forwarding:   176/0/122/0, Other: 0/0/0                       <<<<<<< Multicast stream is forwarded in h/w
       Vlan3007 Flags: A
       LISP0.4099, 192.168.10.3 Flags: F NS
         Pkts: 0/0

    SDA-Border2#sh ip mfib vrf Campus 239.1.1.1 10.40.40.1 count
    Forwarding Counts: Pkt Count/Pkts per second/Avg Pkt Size/Kilobits per second
    Other counts:      Total/RPF failed/Other drops(OIF-null, rate-limit etc)
    VRF Campus
     6 routes, 2 (*,G)s, 3 (*,G/m)s
    Group: 239.1.1.1
      Source: 10.40.40.1,
       SW Forwarding: 0/0/0/0, Other: 0/0/0
       HW Forwarding:   182/0/122/0, Other: 0/0/0                      <<<<<<<< Counter is incrementing
      Totals - Source count: 1, Packet count: 182

    Groups: 1, 1.00 average sources per group
    SDA-Border2#

    TAC Authored

    Con la colaboración de ingenieros de Cisco

    • Rahul Gupta
      TAC Engineer
    • Adriana Vascan
      TAC Engineer

    ¿Resultó útil este documento?

    FeedbackComentarios

    Contacte a Cisco

    Este documento se aplica a estos productos