Verifica della replica headend in SD-Access Fabric
Sommario
Introduzione
In questo documento viene descritto come risolvere i problemi relativi alla replica headend nella struttura SD-Access (SDA).
Prerequisiti
Requisiti
Cisco raccomanda la conoscenza dei seguenti argomenti:
- Inoltro IP (Internet Protocol)
- Locator/ID Separation Protocol (LISP)
- PIM (Protocol Independent Multicast) in modalità sparse
Componenti usati
- C9000v su Cisco IOS® XE 17.10.1
- Cisco Catalyst Center versione 2.3.5.3
Le informazioni discusse in questo documento fanno riferimento a dispositivi usati in uno specifico ambiente di emulazione. Su tutti i dispositivi menzionati nel documento la configurazione è stata ripristinata ai valori predefiniti. Se la rete è operativa, valutare attentamente eventuali conseguenze derivanti dall'uso dei comandi.
Il presente documento può essere utilizzato anche per le seguenti versioni hardware e software:
- C9200
- C9300
- C9400
- C9500
- C9600
- Cisco IOS® XE 16.12 e versioni successive
Premesse
La replica headend SDA è una forma di multicast di overlay, utilizzata per trasportare il traffico multicast tra i dispositivi fabric, incapsulando il traffico multicast in un'intestazione IP unicast. La replica headend può indirizzare il traffico multicast tra le origini e i ricevitori nella stessa VLAN o in una VLAN diversa (è possibile indirizzare il multicast della stessa VLAN).
Il traffico multicast tra le origini e i ricevitori sullo stesso perimetro del fabric non viene inoltrato utilizzando l'overlay multicast (incapsulamento VXLAN), ma viene instradato localmente dal perimetro del fabric.
Qualsiasi forma di multicast di overlay (headend o nativo) non può instradare il traffico multicast per gruppi nell'intervallo 224.0.0.0/24 o, con TTL=1, viene gestita tramite Flooding di layer 2.
Nota: i comandi della piattaforma (feed) possono variare. Il comando può essere "show platform fed <active|standby>" oppure "show platform fed switch <active|standby>". Se la sintassi indicata negli esempi non viene analizzata, provare a utilizzare la variante.
Topologia
Topologia della rete
In questa topologia:
- Le versioni 10.47.10 e 10.47.1.11 sono bordi ripartiti che fungono anche da punto di ripristino (RP) di Anycast con protocollo MSDP (Multicast Source Discovery Protocol) tra i due sulla rete virtuale (VN)/VRF.
- 10.47.1.12 e 10.47.1.13 sono nodi Fabric Edge
- 10.47.7.2 è la fonte multicast
- 10.47.7.3 è il ricevitore multicast
- 239.1.1.1 è l'indirizzo di destinazione del gruppo multicast (GDA)
Configurazione
Si presume che Cisco Catalyst Center venga utilizzato per effettuare il provisioning del fabric SDA con le impostazioni predefinite:
- L'implementazione della replica è la replica headend
- Anycast RP con MSDP per un multicast Any Source Multicast (ASM) sui bordi riposizionati
Dopo aver completato la configurazione dal Catalyst Center, la configurazione pertinente per ciascun dispositivo contiene diverse sezioni:
Configurazione di Fabric Edge (10.47.1.12)
ip multicast-routing vrf blue_vn
ip multicast vrf blue_vn multipath
!
interface LISP0.4100
vrf forwarding blue_vn
ip pim sparse-mode
end
!
interface Loopback4100
vrf forwarding blue_vn
ip address 10.47.6.4 255.255.255.255
ip pim sparse-mode
end
!
ip pim vrf blue_vn register-source Loopback4100
ip pim vrf blue_vn rp-address 10.47.6.1 ASM_ACL_IPV4_blue_vn_10.47.6.1
!
interface Vlan1025
description Configured from Cisco DNA-Center
mac-address 0000.0c9f.fb87
vrf forwarding blue_vn
ip address 10.47.7.1 255.255.255.0
ip helper-address 10.47.9.9
no ip redirects
ip pim passive
ip route-cache same-interface
ip igmp version 3
ip igmp explicit-tracking
no lisp mobility liveness test
lisp mobility blue-IPV4
end
!
ip access-list standard ASM_ACL_IPV4_blue_vn_10.47.6.1
10 permit 239.0.0.0 0.255.255.255
Configurazione di Fabric Edge (10.47.1.13)
ip multicast-routing vrf blue_vn
ip multicast vrf blue_vn multipath
!
interface LISP0.4100
vrf forwarding blue_vn
ip pim sparse-mode
end
!
interface Loopback4100
vrf forwarding blue_vn
ip address 10.47.6.4 255.255.255.255
ip pim sparse-mode
end
!
ip pim vrf blue_vn register-source Loopback4100
ip pim vrf blue_vn rp-address 10.47.6.1 ASM_ACL_IPV4_blue_vn_10.47.6.1
!
interface Vlan1025
description Configured from Cisco DNA-Center
mac-address 0000.0c9f.fb87
vrf forwarding blue_vn
ip address 10.47.7.1 255.255.255.0
ip helper-address 10.47.9.9
no ip redirects
ip pim passive
ip route-cache same-interface
ip igmp version 3
ip igmp explicit-tracking
no lisp mobility liveness test
lisp mobility blue-IPV4
end
!
ip access-list standard ASM_ACL_IPV4_blue_vn_10.47.6.1
10 permit 239.0.0.0 0.255.255.255
Configurazione Border/Anycast RP (10.47.1.10) collocata
router bgp 69420
address-family ipv4 vrf blue_vn
aggregate-address 10.47.6.0 255.255.255.0 summary-only
!
router lisp
site site_uci
eid-record instance-id 4100 10.47.6.0/24 accept-more-specifics
!
ip multicast-routing vrf blue_vn
ip multicast vrf blue_vn multipath
!
interface LISP0.4100
vrf forwarding blue_vn
ip pim sparse-mode
end
!
interface Loopback4100
vrf forwarding blue_vn
ip address 10.47.6.1 255.255.255.255
ip pim sparse-mode
end
!
interface Loopback4600
vrf forwarding blue_vn
ip address 10.47.6.6 255.255.255.255
ip pim sparse-mode
end
!
ip pim vrf blue_vn rp-address 10.47.6.1 ASM_ACL_IPV4_blue_vn_10.47.6.1
ip pim vrf blue_vn register-source Loopback4100
!
ip access-list standard ASM_ACL_IPV4_blue_vn_10.47.6.1
10 permit 239.0.0.0 0.255.255.255
!
ip msdp vrf blue_vn peer 10.47.6.7 connect-source Loopback4600
ip msdp vrf blue_vn cache-sa-state
ip msdp vrf blue_vn originator-id Loopback4600
Configurazione Border/Anycast RP (10.47.1.11) collocata
router bgp 69420
address-family ipv4 vrf blue_vn
aggregate-address 10.47.6.0 255.255.255.0 summary-only
!
router lisp
site site_uci
eid-record instance-id 4100 10.47.6.0/24 accept-more-specifics
!
ip multicast-routing vrf blue_vn
ip multicast vrf blue_vn multipath
!
interface LISP0.4100
vrf forwarding blue_vn
ip pim sparse-mode
end
!
interface Loopback4100
vrf forwarding blue_vn
ip address 10.47.6.1 255.255.255.255
ip pim sparse-mode
end
!
interface Loopback4600
vrf forwarding blue_vn
ip address 10.47.6.7 255.255.255.255
ip pim sparse-mode
end
!
ip pim vrf blue_vn rp-address 10.47.6.1 ASM_ACL_IPV4__blue_vn_10.47.6.1
ip pim vrf blue_vn register-source Loopback4100
!
ip access-list standard ASM_ACL_IPV4_blue_vn_10.47.6.1
10 permit 239.0.0.0 0.255.255.255
!
ip msdp vrf blue_vn peer 10.47.6.6 connect-source Loopback4600
ip msdp vrf blue_vn cache-sa-state
ip msdp vrf blue_vn originator-id Loopback4600
Verifica del Control Plane
Verificare quindi che i protocolli IGMP (Internet Group Membership Protocol) e PIM siano corretti.
Il ricevitore multicast invia il rapporto di appartenenza IGMP
Il ricevitore multicast (10.47.7.3) invia un rapporto di appartenenza IGMP (MR) o un join IGMP per indicare l'interesse a ricevere il traffico multicast. È possibile configurare un'acquisizione pacchetto incorporata (EPC) per confermare che è stato ricevuto un MR IGMP:
Edge-2#monitor capture 1 interface GigabitEthernet1/0/5 IN
Edge-2#monitor capture 1 match any
Edge-2#monitor capture 1 buffer size 10
Edge-2#monitor capture 1 start
Edge-2#monitor capture 1 stop
Edge-1#show monitor capture 1 buff display-filter igmp brief
Starting the packet display ........ Press Ctrl + Shift + 6 to exi
145 63.730527 10.47.7.4 -> 239.1.1.1 IGMPv2 60 Membership Report group 239.1.1.1
Quindi, verificare che Fabric Edge sia il PIM Designated Router (DR) per la VLAN su cui si trova il ricevitore multicast. Questo router è anche noto come LHR (Last Hop Router). È possibile usare il comando "show ip pim vrf <nome VN> interface vlan <vlan> detail" | includere PIM DR"
Edge-2#show ip pim vrf blue_vn interface vlan 1025 detail | i PIM DR
PIM DR: 10.47.7.1 (this system)
Verificare che lo snooping IGMP abbia selezionato IGMP MR con il comando "show ip igmp vrf <VN Name> snooping group"
Edge-1#show ip igmp vrf blue_vn snooping groups
Vlan Group Type Version Port List
-----------------------------------------------------------------------
1025 239.255.255.254 igmp v2 Gi1/0/5
Creazione di strutture condivise in modalità sparsa PIM
Edge-2, che è il DR su quel segmento, invia un (*,G) PIM Join all'Anycast RP. Se l'indirizzo RP dell'Anycast non viene risolto nella cache delle mappe LISP, il processo LISP EID Watch è responsabile dell'attivazione delle richieste delle mappe LISP. È possibile utilizzare il comando "show lisp instance-id <LISP L3 ID> ipv4/ipv6 eid-watch | begin RLOC"
Edge-2#show lisp instance-id 4100 ipv4 eid-watch | begin RLOC
LISP IPv4 EID Watches for Table (RLOC mapping in vrf blue_vn IPv4) IID (4100), 1 watch entries
Watch entries for prefix 10.47.6.1/32
10.47.6.1, multicast
Edge-2#show lisp instance-id 4100 ipv4 map-cache 10.47.6.1
LISP IPv4 Mapping Cache for LISP 0 EID-table vrf blue_vn (IID 4100), 1 entries
10.47.6.1/32, uptime: 9w1d, expires: 20:19:57, via map-reply, complete
Sources: map-reply
State: complete, last modified: 9w1d, map-source: 10.47.1.10
Active, Packets out: 577721(21849998 bytes), counters are not accurate (~ 00:00:12 ago)
Locator Uptime State Pri/Wgt Encap-IID
10.47.1.10 9w1d up 10/10 -
Last up-down state change: 1w1d, state change count: 3
Last route reachability change: 9w1d, state change count: 1
Last priority / weight change: never/never
RLOC-probing loc-status algorithm:
Last RLOC-probe sent: 1w1d (rtt 272ms)
10.47.1.11 9w1d up 10/10 -
Last up-down state change: 9w1d, state change count: 1
Last route reachability change: 9w1d, state change count: 1
Last priority / weight change: never/never
RLOC-probing loc-status algorithm:
Last RLOC-probe sent: 1w1d (rtt 602ms)
Edge-2#show ip rpf vrf blue_vn 10.47.6.1
RPF information for (10.47.6.1)
RPF interface: LISP0.4100
RPF neighbor: ? (10.47.1.10)
RPF route/mask: 10.47.6.1/32
RPF type: unicast ()
Doing distance-preferred lookups across tables
Multicast Multipath enabled.
RPF topology: ipv4 multicast base
Convalidare la voce (*,G) su Edge-2 con il comando "show ip mroute vrf <nome VN> <gruppo multicast>"
Edge-2#show ip mroute vrf blue_vn 239.1.1.1
IP Multicast Routing Table
Flags: D - Dense, S - Sparse, B - Bidir Group, s - SSM Group, C - Connected,
L - Local, P - Pruned, R - RP-bit set, F - Register flag,
T - SPT-bit set, J - Join SPT, M - MSDP created entry, E - Extranet,
X - Proxy Join Timer Running, A - Candidate for MSDP Advertisement,
U - URD, I - Received Source Specific Host Report,
Z - Multicast Tunnel, z - MDT-data group sender,
Y - Joined MDT-data group, y - Sending to MDT-data group,
G - Received BGP C-Mroute, g - Sent BGP C-Mroute,
N - Received BGP Shared-Tree Prune, n - BGP C-Mroute suppressed,
Q - Received BGP S-A Route, q - Sent BGP S-A Route,
V - RD & Vector, v - Vector, p - PIM Joins on route,
x - VxLAN group, c - PFP-SA cache created entry,
* - determined by Assert, # - iif-starg configured on rpf intf,
e - encap-helper tunnel flag, l - LISP decap ref count contributor
Outgoing interface flags: H - Hardware switched, A - Assert winner, p - PIM Join
t - LISP transit group
Timers: Uptime/Expires
Interface state: Interface, Next-Hop or VCD, State/Mode
(*, 239.1.1.1), 4d05h/00:02:12, RP 10.47.6.1, flags: SC <-- Anycast RP IP address 10.47.6.1
Incoming interface: LISP0.4100, RPF nbr 10.47.1.10 <-- Reverse Path Forwarding (RPF) neighbor to get to the Anycast RP IP
Outgoing interface list:
Vlan1025, Forward/Sparse-Dense, 4d05h/00:02:12, flags: <-- Outgoing interface list (OIL) is populated via PIM Join or IGMP Membership Report
Vicini PIM nella sovrapposizione
Una volta che il router adiacente RPF è rappresentato dal relativo RLOC (Routing Locator) ed è raggiungibile tramite l'interfaccia LISP, viene aggiunto come router adiacente PIM nel VRF/VN.
Di seguito sono riportate alcune delle cose di cui tenere conto:
- Controllo RPF, utilizzato per inviare il PIM (*,G) Join attiva la creazione di router adiacenti PIM con un timer di scadenza di due minuti. Se non vengono inviati messaggi di aggiunta PIM per 2 minuti, si verifica il timeout del router adiacente.
- PIM deve creare in modo esplicito una struttura adiacente per la RLOC corrispondente in quanto i messaggi PIM Hello non vengono inviati nella sovrapposizione SDA
Edge-2#show ip pim vrf blue_vn neighbor
PIM Neighbor Table
Mode: B - Bidir Capable, DR - Designated Router, N - Default DR Priority,
P - Proxy Capable, S - State Refresh Capable, G - GenID Capable,
L - DR Load-balancing Capable
Neighbor Interface Uptime/Expires Ver DR
Address Prio/Mode
10.47.1.10 LISP0.4100 4d23h/00:01:37 v2 0 /
Anycast RP crea (*,G)
In base all'unione PIM (*,G) ricevuta da Edge-2, Border-1 crea (*,G) con l'olio verso l'RLOC di Edge-2
Border-1#show ip mroute vrf blue_vn 239.1.1.1
IP Multicast Routing Table
Flags: D - Dense, S - Sparse, B - Bidir Group, s - SSM Group, C - Connected,
L - Local, P - Pruned, R - RP-bit set, F - Register flag,
T - SPT-bit set, J - Join SPT, M - MSDP created entry, E - Extranet,
X - Proxy Join Timer Running, A - Candidate for MSDP Advertisement,
U - URD, I - Received Source Specific Host Report,
Z - Multicast Tunnel, z - MDT-data group sender,
Y - Joined MDT-data group, y - Sending to MDT-data group,
G - Received BGP C-Mroute, g - Sent BGP C-Mroute,
N - Received BGP Shared-Tree Prune, n - BGP C-Mroute suppressed,
Q - Received BGP S-A Route, q - Sent BGP S-A Route,
V - RD & Vector, v - Vector, p - PIM Joins on route,
x - VxLAN group, c - PFP-SA cache created entry,
* - determined by Assert, # - iif-starg configured on rpf intf,
e - encap-helper tunnel flag, l - LISP decap ref count contributor
Outgoing interface flags: H - Hardware switched, A - Assert winner, p - PIM Join
t - LISP transit group
Timers: Uptime/Expires
Interface state: Interface, Next-Hop or VCD, State/Mode
(*, 239.1.1.1), 4d23h/00:02:48, RP 10.47.6.1, flags: S
Incoming interface: Null, RPF nbr 0.0.0.0
Outgoing interface list:
LISP0.4100, 10.47.1.13, Forward/Sparse, 4d23h/00:02:33, flags: <-- RLOC of Edge-2
Registrazione origine multicast
La sorgente multicast 10.47.7.2 invia il traffico multicast, che entra in Edge-1. Edge-1 porta il pacchetto allo stato S,G (CPU to create) e Edge-1 registra l'origine sull'Anycast RP.
Edge-1#monitor capture 1 interface GigabitEthernet1/0/4 IN
Edge-1#monitor capture 1 match any
Edge-1#monitor capture 1 buffer size 10
Edge-1#monitor capture 1 start
Edge-1#monitor capture 1 stop
Edge-1#show monitor capture 1 buffer brief
Starting the packet display ........ Press Ctrl + Shift + 6 to exit
1 0.000000 10.47.7.2 -> 239.1.1.1 ICMP 98 Echo (ping) request id=0x0007, seq=107/27392, ttl=5
2 0.355071 10.47.7.3 -> 239.1.1.1 ICMP 98 Echo (ping) request id=0x0007, seq=107/27392, ttl=5
3 1.096757 10.47.7.3 -> 239.1.1.1 ICMP 98 Echo (ping) request id=0x0007, seq=108/27648, ttl=5
4 1.102425 10.47.7.3 -> 239.1.1.1 ICMP 98 Echo (ping) request id=0x0007, seq=108/27648, ttl=5
Quando Border-1 riceve il pacchetto multicast tramite la registrazione PIM, Border-1 lo ha (S,G) e lo annuncia a Border-2 tramite MSDP
Border-1#show ip mroute vrf blue_vn 239.1.1.1 10.47.7.2
IP Multicast Routing Table
Flags: D - Dense, S - Sparse, B - Bidir Group, s - SSM Group, C - Connected,
L - Local, P - Pruned, R - RP-bit set, F - Register flag,
T - SPT-bit set, J - Join SPT, M - MSDP created entry, E - Extranet,
X - Proxy Join Timer Running, A - Candidate for MSDP Advertisement,
U - URD, I - Received Source Specific Host Report,
Z - Multicast Tunnel, z - MDT-data group sender,
Y - Joined MDT-data group, y - Sending to MDT-data group,
G - Received BGP C-Mroute, g - Sent BGP C-Mroute,
N - Received BGP Shared-Tree Prune, n - BGP C-Mroute suppressed,
Q - Received BGP S-A Route, q - Sent BGP S-A Route,
V - RD & Vector, v - Vector, p - PIM Joins on route,
x - VxLAN group, c - PFP-SA cache created entry,
* - determined by Assert, # - iif-starg configured on rpf intf,
e - encap-helper tunnel flag, l - LISP decap ref count contributor
Outgoing interface flags: H - Hardware switched, A - Assert winner, p - PIM Join
t - LISP transit group
Timers: Uptime/Expires
Interface state: Interface, Next-Hop or VCD, State/Mode
(10.47.7.2, 239.1.1.1), 00:02:26/00:00:34, flags: TA <-- A flag indicates that this is a candidate for MSDP advertisement
Incoming interface: LISP0.4100, RPF nbr 10.47.1.12
Outgoing interface list:
LISP0.4100, 10.47.1.13, Forward/Sparse, 00:02:26/00:02:36, flags:
Annuncio origine MSDP
Utilizzare il comando "show ip msdp vrf <nome VN> sa-cache" per visualizzare la cache attiva di origine. È possibile utilizzare il comando "show ip msdp vrf <nome VN> summary" per visualizzare il peer MSDP
Border-1#show ip msdp vrf blue_vn sa-cache
MSDP Source-Active Cache - 1 entries
(10.47.7.2, 239.1.1.1), RP 10.47.6.7, BGP/AS 23456, 00:00:34/00:05:25, Peer 10.47.6.7
Border-1#show ip msdp vrf blue_vn summary
MSDP Peer Status Summary
Peer Address AS State Uptime/ Reset SA Peer Name
Downtime Count Count
10.47.6.7 23456 Up 1w1d 0 1
Border-2 riceve (S,G) informazioni dal Border-1 tramite annuncio MSDP. Se Border-2 ha ricevuto un'unione PIM (*,G) da Edge-2, Border-2 crea una voce (S,G) ed eredita LISP OIL da (*,G) che punta alla RLOC di Edge-2. La regola pratica è che le voci SA di MSDP vengono installate nel database MRIB (Multicast Routing Information Base) solo se è presente un asterisco (*,G).
Border-2#show ip msdp vrf blue_vn sa-cache
MSDP Source-Active Cache - 1 entries
(10.47.7.2, 239.1.1.1), RP 10.47.6.6, BGP/AS 23456, 00:13:59/00:03:28, Peer 10.47.6.6
Border-2#show ip mroute vrf blue_vn 239.1.1.1
IP Multicast Routing Table
Flags: D - Dense, S - Sparse, B - Bidir Group, s - SSM Group, C - Connected,
L - Local, P - Pruned, R - RP-bit set, F - Register flag,
T - SPT-bit set, J - Join SPT, M - MSDP created entry, E - Extranet,
X - Proxy Join Timer Running, A - Candidate for MSDP Advertisement,
U - URD, I - Received Source Specific Host Report,
Z - Multicast Tunnel, z - MDT-data group sender,
Y - Joined MDT-data group, y - Sending to MDT-data group,
G - Received BGP C-Mroute, g - Sent BGP C-Mroute,
N - Received BGP Shared-Tree Prune, n - BGP C-Mroute suppressed,
Q - Received BGP S-A Route, q - Sent BGP S-A Route,
V - RD & Vector, v - Vector, p - PIM Joins on route,
x - VxLAN group, c - PFP-SA cache created entry,
* - determined by Assert, # - iif-starg configured on rpf intf,
e - encap-helper tunnel flag, l - LISP decap ref count contributor
Outgoing interface flags: H - Hardware switched, A - Assert winner, p - PIM Join
t - LISP transit group
Timers: Uptime/Expires
Interface state: Interface, Next-Hop or VCD, State/Mode
(*, 239.1.1.1), 00:21:04/00:00:06, RP 10.47.6.1, flags: SP
Incoming interface: Null, RPF nbr 0.0.0.0
Outgoing interface list: Null <-- Indicates no PIM (*,G) Join received, if there was an OIL, there would be (S,G)
Border-1 invia un PIM (S,G) Join verso la sorgente 10.47.7.2 per attirare il traffico multicast nativo, che consente a Edge-1 di aggiornare l'OLIO (S,G)
Edge-1#show ip mroute vrf blue_vn 239.1.1.1 10.47.7.3
IP Multicast Routing Table
Flags: D - Dense, S - Sparse, B - Bidir Group, s - SSM Group, C - Connected,
L - Local, P - Pruned, R - RP-bit set, F - Register flag,
T - SPT-bit set, J - Join SPT, M - MSDP created entry, E - Extranet,
X - Proxy Join Timer Running, A - Candidate for MSDP Advertisement,
U - URD, I - Received Source Specific Host Report,
Z - Multicast Tunnel, z - MDT-data group sender,
Y - Joined MDT-data group, y - Sending to MDT-data group,
G - Received BGP C-Mroute, g - Sent BGP C-Mroute,
N - Received BGP Shared-Tree Prune, n - BGP C-Mroute suppressed,
Q - Received BGP S-A Route, q - Sent BGP S-A Route,
V - RD & Vector, v - Vector, p - PIM Joins on route,
x - VxLAN group, c - PFP-SA cache created entry,
* - determined by Assert, # - iif-starg configured on rpf intf,
e - encap-helper tunnel flag, l - LISP decap ref count contributor
Outgoing interface flags: H - Hardware switched, A - Assert winner, p - PIM Join
t - LISP transit group
Timers: Uptime/Expires
Interface state: Interface, Next-Hop or VCD, State/Mode
(10.47.7.2, 239.1.1.1), 01:19:57/00:02:29, flags: FT
Incoming interface: Vlan1025, RPF nbr 0.0.0.0 <-- Multicast source 10.47.7.2 is in VLAN 1025
Outgoing interface list:
LISP0.4100, 10.47.1.10, Forward/Sparse, 01:19:55/00:02:30, flags: <-- RLOC of Border-1
Il traffico multicast da 10.47.7.2 a 239.1.1.1 viene inoltrato alla versione 10.47.6.6 (Bordo-1) tramite incapsulamento VXLAN unicast. Il bordo 1 decapsula il traffico VXLAN e lo incapsula nuovamente sul bordo 2 (10.47.1.13)
Border-1#show ip mroute vrf blue_vn 239.1.1.1
IP Multicast Routing Table
Flags: D - Dense, S - Sparse, B - Bidir Group, s - SSM Group, C - Connected,
L - Local, P - Pruned, R - RP-bit set, F - Register flag,
T - SPT-bit set, J - Join SPT, M - MSDP created entry, E - Extranet,
X - Proxy Join Timer Running, A - Candidate for MSDP Advertisement,
U - URD, I - Received Source Specific Host Report,
Z - Multicast Tunnel, z - MDT-data group sender,
Y - Joined MDT-data group, y - Sending to MDT-data group,
G - Received BGP C-Mroute, g - Sent BGP C-Mroute,
N - Received BGP Shared-Tree Prune, n - BGP C-Mroute suppressed,
Q - Received BGP S-A Route, q - Sent BGP S-A Route,
V - RD & Vector, v - Vector, p - PIM Joins on route,
x - VxLAN group, c - PFP-SA cache created entry,
* - determined by Assert, # - iif-starg configured on rpf intf,
e - encap-helper tunnel flag, l - LISP decap ref count contributor
Outgoing interface flags: H - Hardware switched, A - Assert winner, p - PIM Join
t - LISP transit group
Timers: Uptime/Expires
Interface state: Interface, Next-Hop or VCD, State/Mode
(*, 239.1.1.1), 5d01h/00:03:14, RP 10.47.6.1, flags: S
Incoming interface: Null, RPF nbr 0.0.0.0
Outgoing interface list:
LISP0.4100, 10.47.1.13, Forward/Sparse, 5d01h/00:02:54, flags:
(10.47.7.2, 239.1.1.1), 00:02:28/00:00:30, flags: MT <-- Unicast Source
Incoming interface: LISP0.4100, RPF nbr 10.47.1.12 <-- RPF neighbor to get to the source (Edge-1)
Outgoing interface list:
LISP0.4100, 10.47.1.13, Forward/Sparse, 00:02:28/00:03:14, flags: <-- RLOC of Edge-2
Copertina dell'albero del percorso più breve
Una volta che l'ultimo router hop (LHR) Edge-2 riceve il pacchetto multicast lungo l'albero (*,G), tenta di eseguire il cutover SPT e invia un join PIM (S,G) a Edge-1.
Edge-2#show ip mroute vrf blue_vn 239.1.1.1
IP Multicast Routing Table
Flags: D - Dense, S - Sparse, B - Bidir Group, s - SSM Group, C - Connected,
L - Local, P - Pruned, R - RP-bit set, F - Register flag,
T - SPT-bit set, J - Join SPT, M - MSDP created entry, E - Extranet,
X - Proxy Join Timer Running, A - Candidate for MSDP Advertisement,
U - URD, I - Received Source Specific Host Report,
Z - Multicast Tunnel, z - MDT-data group sender,
Y - Joined MDT-data group, y - Sending to MDT-data group,
G - Received BGP C-Mroute, g - Sent BGP C-Mroute,
N - Received BGP Shared-Tree Prune, n - BGP C-Mroute suppressed,
Q - Received BGP S-A Route, q - Sent BGP S-A Route,
V - RD & Vector, v - Vector, p - PIM Joins on route,
x - VxLAN group, c - PFP-SA cache created entry,
* - determined by Assert, # - iif-starg configured on rpf intf,
e - encap-helper tunnel flag, l - LISP decap ref count contributor
Outgoing interface flags: H - Hardware switched, A - Assert winner, p - PIM Join
t - LISP transit group
Timers: Uptime/Expires
Interface state: Interface, Next-Hop or VCD, State/Mode
(*, 239.1.1.1), 4d23h/stopped, RP 10.47.6.1, flags: SJC
Incoming interface: LISP0.4100, RPF nbr 10.47.1.10
Outgoing interface list:
Vlan1025, Forward/Sparse-Dense, 4d23h/00:02:40, flags: <-- LHR creates the OIL because of receipt of an IGMP MR
(10.47.7.2, 239.1.1.1), 00:00:02/00:02:57, flags: JT <-- Unicast Source
Incoming interface: LISP0.4100, RPF nbr 10.47.1.12 <-- RPF neighbor to get to 10.47.7.2, which is Edge-1 RLOC
Outgoing interface list:
Vlan1025, Forward/Sparse-Dense, 00:00:02/00:02:57, flags: <-- Multicast traffic is forwarded into VLAN 1025, where 10.47.7.3 is
L'FHR (Edge-1) ha (S,G) che punta direttamente verso l'RLOC di Edge-2
Edge-1#show ip mroute vrf blue_vn 239.1.1.1
IP Multicast Routing Table
Flags: D - Dense, S - Sparse, B - Bidir Group, s - SSM Group, C - Connected,
L - Local, P - Pruned, R - RP-bit set, F - Register flag,
T - SPT-bit set, J - Join SPT, M - MSDP created entry, E - Extranet,
X - Proxy Join Timer Running, A - Candidate for MSDP Advertisement,
U - URD, I - Received Source Specific Host Report,
Z - Multicast Tunnel, z - MDT-data group sender,
Y - Joined MDT-data group, y - Sending to MDT-data group,
G - Received BGP C-Mroute, g - Sent BGP C-Mroute,
N - Received BGP Shared-Tree Prune, n - BGP C-Mroute suppressed,
Q - Received BGP S-A Route, q - Sent BGP S-A Route,
V - RD & Vector, v - Vector, p - PIM Joins on route,
x - VxLAN group, c - PFP-SA cache created entry,
* - determined by Assert, # - iif-starg configured on rpf intf,
e - encap-helper tunnel flag, l - LISP decap ref count contributor
Outgoing interface flags: H - Hardware switched, A - Assert winner, p - PIM Join
t - LISP transit group
Timers: Uptime/Expires
Interface state: Interface, Next-Hop or VCD, State/Mode
(*, 239.1.1.1), 5d01h/stopped, RP 10.47.6.1, flags: SCF
Incoming interface: LISP0.4100, RPF nbr 10.47.1.10
Outgoing interface list:
Vlan1025, Forward/Sparse-Dense, 5d01h/00:01:40, flags:
(10.47.7.2, 239.1.1.1), 01:53:06/00:02:42, flags: FT <-- Unicast Source
Incoming interface: Vlan1025, RPF nbr 0.0.0.0
Outgoing interface list:
LISP0.4100, 10.47.1.13, Forward/Sparse, 00:14:22/00:03:07, flags: <-- Edge-2's RLOC
Verifica del piano dati (indipendente dalla piattaforma)
È possibile che si verifichino diversi problemi che impediscono alla sorgente multicast o al ricevitore multicast di inviare/ricevere il traffico. In questa sezione vengono illustrati i problemi di convalida che possono influire sia sull'origine multicast che sul ricevitore multicast, con particolare attenzione ai problemi non correlati alla programmazione hardware.
Verifica lato origine
Per convalidare l'origine multicast e la capacità FHR di creare (S,G), convalidare Switch Integrated Security Feature (SISF), LISP, Cisco Express Forwarding (CEF) e quindi RPF.
L'origine multicast deve trovarsi in SISF/IP Device-Tracking (IPDT) che gestisce il resto di LISP, CEF e, in ultima analisi, RPF.
È possibile utilizzare il comando "show device-tracking database address <indirizzo IP>" per assicurarsi che l'origine multicast abbia una voce IPDT valida.
Edge-1#show device-tracking database address 10.47.7.2
Codes: L - Local, S - Static, ND - Neighbor Discovery, ARP - Address Resolution Protocol, DH4 - IPv4 DHCP, DH6 - IPv6 DHCP, PKT - Other Packet, API - API created
Preflevel flags (prlvl):
0001:MAC and LLA match 0002:Orig trunk 0004:Orig access
0008:Orig trusted trunk 0010:Orig trusted access 0020:DHCP assigned
0040:Cga authenticated 0080:Cert authenticated 0100:Statically assigned
Network Layer Address Link Layer Address Interface vlan prlvl age state Time left
DH4 10.47.7.2 5254.0012.521d Gi1/0/4 1025 0024 163s REACHABLE 81 s try 0(84284 s)
Verificare quindi che il database LISP sull'FHR disponga di una voce per l'origine multicast. Utilizzare il comando "show lisp instance-id <LISP L3 ID> ipv4 database ip address/32"
Edge-1#show lisp instance-id 4100 ipv4 database 10.47.7.2/32
LISP ETR IPv4 Mapping Database for LISP 0 EID-table vrf blue_vn (IID 4100), LSBs: 0x1
Entries total 1, no-route 0, inactive 0, do-not-register 1
10.47.7.3/32, dynamic-eid blue-IPV4, inherited from default locator-set rloc_691b1fe4-5264-44c2-bb1b-0903b3eb2c51
Uptime: 1w2d, Last-change: 1w2d
Domain-ID: local
Service-Insertion: N/A
Locator Pri/Wgt Source State
10.47.1.13 10/10 cfg-intf site-self, reachable
Map-server Uptime ACK Domain-ID
10.47.1.10 1w2d Yes 0
10.47.1.11 1w2d Yes 0
Edge-1#show ip lisp instance-id 4100 forwarding eid local 10.47.7.2
Prefix
10.47.7.2/32
CEF crea una voce basata su LISP, CEF punta a una voce host /32, non su LISP.
Edge-1#show ip cef vrf blue_vn 10.47.7.2
10.47.7.2/32
nexthop 10.47.7.2 Vlan1025
Successivamente, RPF deriva da CEF
Edge-1#show ip rpf vrf blue_vn 10.47.7.2
RPF information for (10.47.7.2)
RPF interface: Vlan1025
RPF neighbor: ? (10.47.7.2) - directly connected
RPF route/mask: 10.47.7.2/32
RPF type: unicast (lisp)
Doing distance-preferred lookups across tables
Multicast Multipath enabled.
RPF topology: ipv4 multicast base, originated from ipv4 unicast base
Se non esiste una voce valida in SISF/IPDT, non viene eseguito alcun mapping del database LISP sull'FHR, con il risultato che l'ECF e l'RPF puntano ai confini. Se la sorgente multicast invia traffico, i punti RPF all'interfaccia errata provocando un errore RPF, (S,G) non viene formato.
Edge-1#show device-tracking database address 10.47.7.2
Codes: L - Local, S - Static, ND - Neighbor Discovery, ARP - Address Resolution Protocol, DH4 - IPv4 DHCP, DH6 - IPv6 DHCP, PKT - Other Packet, API - API created
Preflevel flags (prlvl):
0001:MAC and LLA match 0002:Orig trunk 0004:Orig access
0008:Orig trusted trunk 0010:Orig trusted access 0020:DHCP assigned
0040:Cga authenticated 0080:Cert authenticated 0100:Statically assigned
Network Layer Address Link Layer Address Interface vlan prlvl age state Time left
Edge-1#show lisp instance-id 4100 ipv4 database 10.47.7.2/32
% No database-mapping entry for 10.47.7.2/32.
Edge-1#show ip cef vrf blue_vn 10.47.7.2
10.47.7.0/24
nexthop 10.47.1.10 LISP0.4100 <-- Result of a LISP Negative Map-Reply, so the LISP interface is now the RPF interface
nexthop 10.47.1.11 LISP0.4100 <-- Result of a LISP Negative Map-Reply, so the LISP interface is now the RPF interface
Edge-1#show ip rpf vrf blue_vn 10.47.7.2
RPF information for (10.47.7.2)
RPF interface: LISP0.4100
RPF neighbor: ? (10.47.1.11)
RPF route/mask: 10.47.7.2/32
RPF type: unicast ()
Doing distance-preferred lookups across tables
Multicast Multipath enabled.
RPF topology: ipv4 multicast base
Per evitare questo problema, trattare la sorgente multicast come un host silenzioso, dove i binding IP Directed Broadcast, Flooding, Static SISF/IPDT possono risolvere il problema.
Registrazione origine
La registrazione PIM è un flusso di pacchetto unicast, che utilizza LISP/VXLAN come qualsiasi altro pacchetto unicast. Sono necessari diversi controlli per verificare che l'FHR possa registrare correttamente la sorgente multicast nell'RP di Anycast.
Innanzitutto, verificare che l'Anycast RP sia configurato correttamente per GDA.
Edge-1#show ip pim vrf blue_vn rp 239.1.1.1
Group: 239.1.1.1, RP: 10.47.6.1, uptime 5d22h, expires never
Verificare che il tunnel del registro PIM sia formato.
Edge-1#show ip pim vrf blue_vn tunnel
Tunnel1
Type : PIM Encap
RP : 10.47.6.1 <-- This is from "ip pim vrf blue_vn rp-address 10.47.6.1 ASM_ACL_IPV4_blue_vn_10.47.6.1"
Source : 10.47.6.4 <-- This is from "ip pim vrf blue_vn register-source Loopback4100"
State : UP
Last event : Created (1w2d)
Garantire la raggiungibilità IP dell'Anycast RTP
Edge-1#show ip cef vrf blue_vn 10.47.6.1
10.47.6.1/32
nexthop 10.47.1.10 LISP0.4100 <-- RLOC of Border-1
nexthop 10.47.1.11 LISP0.4100 <-- RLOC of Border-2
Edge-1#ping vrf blue_vn 10.47.6.1 source lo4100
Type escape sequence to abort.
Sending 5, 100-byte ICMP Echos to 10.47.6.1, timeout is 2 seconds:
Packet sent with a source address of 10.47.6.4
!!!!!
Success rate is 100 percent (5/5), round-trip min/avg/max = 257/275/294 ms
Verifica lato ricevitore
- Verificare che il ricevitore multicast stia inviando un messaggio IGMP MR.
- Verificare che lo snooping IGMP sia abilitato. Solo le VN L2 sono l'unico tipo di VN per cui non è abilitato lo snooping IGMP
- Accertarsi che non vi siano ACL della porta, ACL della VLAN e ACL della porta di routing configurati in grado di eliminare il file MR IGMP.
- Convalidare la versione di IGMP MR; per impostazione predefinita, IGMPv2, se il ricevitore multicast è IGMPv3, richiede "ip igmp versione 3"
- Verificare che "ip option drop" non sia configurato
Verifica LHR PIM (*,G)
- Assicurarsi che LHR sia il DR PIM per la subnet/segmento del ricevitore
- verificare che non sia configurato ip multicast group-range
- Accertarsi che non vi siano ACL della porta, ACL della VLAN e ACL della porta di routing configurati in grado di eliminare il file MR IGMP.
- Accertarsi che non vi sia un CPU elevato o che il Control-Plane Policing (CoPP) non scarti il MR IGMP.
Verifica albero condiviso PIM LHR
Verificare che RP sia configurato per il gruppo multicast
Edge-2#show ip mroute vrf blue_vn 239.1.1.1
IP Multicast Routing Table
Flags: D - Dense, S - Sparse, B - Bidir Group, s - SSM Group, C - Connected,
L - Local, P - Pruned, R - RP-bit set, F - Register flag,
T - SPT-bit set, J - Join SPT, M - MSDP created entry, E - Extranet,
X - Proxy Join Timer Running, A - Candidate for MSDP Advertisement,
U - URD, I - Received Source Specific Host Report,
Z - Multicast Tunnel, z - MDT-data group sender,
Y - Joined MDT-data group, y - Sending to MDT-data group,
G - Received BGP C-Mroute, g - Sent BGP C-Mroute,
N - Received BGP Shared-Tree Prune, n - BGP C-Mroute suppressed,
Q - Received BGP S-A Route, q - Sent BGP S-A Route,
V - RD & Vector, v - Vector, p - PIM Joins on route,
x - VxLAN group, c - PFP-SA cache created entry,
* - determined by Assert, # - iif-starg configured on rpf intf,
e - encap-helper tunnel flag, l - LISP decap ref count contributor
Outgoing interface flags: H - Hardware switched, A - Assert winner, p - PIM Join
t - LISP transit group
Timers: Uptime/Expires
Interface state: Interface, Next-Hop or VCD, State/Mode
(*, 239.1.1.1), 6d01h/stopped, RP 10.47.6.1, flags: SCF
Incoming interface: LISP0.4100, RPF nbr 10.47.1.10
Outgoing interface list:
Vlan1025, Forward/Sparse-Dense, 6d01h/00:01:34, flags:
Accertarsi che la RPF all'Anycast RP sia corretta
Edge-2#show ip cef vrf blue_vn 10.47.6.1
10.47.6.1/32
nexthop 10.47.1.10 LISP0.4100
nexthop 10.47.1.11 LISP0.4100
Edge-2#show ip rpf vrf blue_vn 10.47.6.1
RPF information for (10.47.6.1)
RPF interface: LISP0.4100
RPF neighbor: ? (10.47.1.10)
RPF route/mask: 10.47.6.1/32
RPF type: unicast ()
Doing distance-preferred lookups across tables
Multicast Multipath enabled.
RPF topology: ipv4 multicast base
Inoltro MFIB - Verifica lato origine
Per ulteriori informazioni sull'inoltro dei pacchetti, usare il comando "show ip mfib vrf <nome VN> <gruppo multicast> <origine unicast> verbose"
Edge-1#show ip mfib vrf blue_vn 239.1.1.1 10.47.7.2 verbose
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,
e - Encap helper tunnel flag.
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: HW Pkt Count/FS Pkt Count/PS Pkt Count Egress Rate in pps
VRF blue_vn
(10.47.7.2,239.1.1.1) Flags: K HW DDE
0x42 OIF-IC count: 0, OIF-A count: 1
SW Forwarding: 0/0/0/0, Other: 272/272/0
HW Forwarding: 7431223059161284608/0/0/0, Other: 0/0/0
Vlan1025 Flags: RA A MA NS
LISP0.4100, 10.47.1.13 Flags: RF F NS <-- RLOC of Edge-2
CEF: Adjacency with MAC: 4500000000004000001164770A2F010D0A2F010C000012B5000000000840000000100400BA25CDF4AD3852540017FE730000
Pkts: 0/0/0 Rate: 0 pps
Edge-1#show adjacency lisp0.4100
Protocol Interface Address
IP LISP0.4100 10.47.1.10(23)
IP LISP0.4100 10.47.1.11(27)
IP LISP0.4100 10.47.1.13(8)
Edge-2#show adjacency lisp0.4100 10.47.1.13 detail
Protocol Interface Address
IP LISP0.4100 10.47.1.13(8)
0 packets, 0 bytes
epoch 0
sourced in sev-epoch 14
Encap length 50
4500000000004000001164770A2F010D
0A2F010C000012B50000000008400000
00100400BA25CDF4AD3852540017FE73
0000
L2 destination address byte offset 0
L2 destination address byte length 0
Link-type after encap: ip
LISP
Next chain element:
IP adj out of GigabitEthernet1/0/1, addr 10.47.1.6
Un EPC può essere usato per convalidare l'incapsulamento VXLAN del pacchetto multicast
Edge-1#monitor capture 1 interface GigabitEthernet1/0/4 IN
Edge-1#monitor capture 1 interface GigabitEthernet1/0/1 OUT
Edge-1#monitor capture 1 match any
Edge-1#monitor capture 1 buffer size 10
Edge-1#monitor capture 1 limit pps 1000
Edge-1#monitor capture 1 start
Edge-1#monitor capture 1 stop
Edge-1#show monitor capture 1 buffer brief
Starting the packet display ........ Press Ctrl + Shift + 6 to exit
1 0.000000 10.47.7.2 -> 239.1.1.1 ICMP 98 Echo (ping) request id=0x0008, seq=28213/13678, ttl=5 <-- Packet as it ingresses the FHR, TTL is 5
2 0.014254 10.47.7.2 -> 239.1.1.1 ICMP 148 Echo (ping) request id=0x0008, seq=28213/13678, ttl=4 <-- Packet as it leaves the FHR, TTL is 4 as is it decremented
Inoltro MFIB - Verifica lato ricevitore
La rete sottostante instrada questo pacchetto da Edge-1 a Edge-2 utilizzando il routing unicast.
Edge-2#show ip mroute vrf blue_vn 239.1.1.1 10.47.7.2
IP Multicast Routing Table
Flags: D - Dense, S - Sparse, B - Bidir Group, s - SSM Group, C - Connected,
L - Local, P - Pruned, R - RP-bit set, F - Register flag,
T - SPT-bit set, J - Join SPT, M - MSDP created entry, E - Extranet,
X - Proxy Join Timer Running, A - Candidate for MSDP Advertisement,
U - URD, I - Received Source Specific Host Report,
Z - Multicast Tunnel, z - MDT-data group sender,
Y - Joined MDT-data group, y - Sending to MDT-data group,
G - Received BGP C-Mroute, g - Sent BGP C-Mroute,
N - Received BGP Shared-Tree Prune, n - BGP C-Mroute suppressed,
Q - Received BGP S-A Route, q - Sent BGP S-A Route,
V - RD & Vector, v - Vector, p - PIM Joins on route,
x - VxLAN group, c - PFP-SA cache created entry,
* - determined by Assert, # - iif-starg configured on rpf intf,
e - encap-helper tunnel flag, l - LISP decap ref count contributor
Outgoing interface flags: H - Hardware switched, A - Assert winner, p - PIM Join
t - LISP transit group
Timers: Uptime/Expires
Interface state: Interface, Next-Hop or VCD, State/Mode
(10.47.7.2, 239.1.1.1), 00:01:39/00:01:20, flags: JT
Incoming interface: LISP0.4100, RPF nbr 10.47.1.12
Outgoing interface list:
Vlan1025, Forward/Sparse-Dense, 00:01:39/00:02:45, flags:
Con il comando "show ip mfib vrf <nome VN> <indirizzo gruppo> <origine unicast>" potete aumentare i contatori di inoltro hardware
Edge-2#show ip mfib vrf blue_vn 239.1.1.1 counters
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 blue_vn
12 routes, 7 (*,G)s, 4 (*,G/m)s
Group: 239.1.1.1
RP-tree,
SW Forwarding: 0/0/0/0, Other: 0/0/0
HW Forwarding: 0/0/2/0, Other: 0/0/0
Source: 10.47.7.2,
SW Forwarding: 0/0/0/0, Other: 2/1/1
HW Forwarding: 6118996613340856320/0/0/0, Other: 0/0/0
Totals - Source count: 1, Packet count: 6118996613340856320
Edge-2#show ip igmp snooping groups vlan 1025 239.1.1.1
Vlan Group Type Version Port List
-----------------------------------------------------------------------
1025 239.1.1.1 igmp v2 Gi1/0/4
È possibile utilizzare i contatori multicast di uscita per verificare se il traffico multicast ha lasciato o meno il LHR verso il ricevitore multicast. Usare il comando "show controller ethernet-controller <interface> | include Multicast|Transmit"
Edge-2#show controllers ethernet-controller g1/0/4 | include Multicast|Transmit
Transmit GigabitEthernet1/0/5 Receive
426729240 Total bytes 100803109 Total bytes
5732 Unicast frames 949355 Unicast frames
5732 Unicast bytes 93563018 Unicast bytes
4388433 Multicast frames 32346 Multicast frames
4388433 Multicast bytes 7236178 Multicast bytes
<snip>
Edge-2#show controllers ethernet-controller g1/0/5 | include |Multicast|Transmit
Transmit GigabitEthernet1/0/5 Receive
426742895 Total bytes 100813570 Total bytes
5733 Unicast frames 949456 Unicast frames
5733 Unicast bytes 93573016 Unicast bytes
4388569 Multicast frames 32348 Multicast frames
4388569 Multicast bytes 7236641 Multicast bytes
Un altro modo per convalidare il traffico multicast in uscita da LHR è quello di eseguire un EPC verso il ricevitore multicast.
Edge-2#show monitor capture 1 buffer brief
Starting the packet display ........ Press Ctrl + Shift + 6 to exit
1 0.168401 10.47.7.2 -> 239.1.1.1 ICMP 106 Echo (ping) request id=0x0008, seq=35903/16268, ttl=3
2 0.969138 10.47.7.2 -> 239.1.1.1 ICMP 106 Echo (ping) request id=0x0008, seq=35904/16524, ttl=3
Verifica del piano dati (dipendente dalla piattaforma)
(S,G) Creazione - Percorso punt CPU
Per consentire alla FHR di creare lo stato (S,G), una coppia di pacchetti multicast inviati dall'origine multicast vengono trasmessi alla CPU per essere elaborati dal MFIB. I pacchetti multicast vengono inviati alla coda FED "CPU_Q_MCAST_DATA"
Edge-1#show platform software fed switch active punt cpuq 30
Punt CPU Q Statistics
===========================================
CPU Q Id : 30
CPU Q Name : CPU_Q_MCAST_DATA
Packets received from ASIC : 27124
Send to IOSd total attempts : 27124
Send to IOSd failed count : 0
RX suspend count : 0
RX unsuspend count : 0
RX unsuspend send count : 0
RX unsuspend send failed count : 0
RX consumed count : 0
RX dropped count : 0
RX non-active dropped count : 0
RX conversion failure dropped : 0
RX INTACK count : 0
RX packets dq'd after intack : 0
Active RxQ event : 0
RX spurious interrupt : 0
RX phy_idb fetch failed: 0
RX table_id fetch failed: 0
RX invalid punt cause: 0
Replenish Stats for all rxq:
-------------------------------------------
Number of replenish : 0
Number of replenish suspend : 0
Number of replenish un-suspend : 0
-------------------------------------------
Inoltre, la coda CoPP per i dati MCAST non deve presentare alcuna perdita. Usare il comando "show platform hardware fed active qos queue stats internal cpu policer" | include MCAST Data|QId"
Edge-1#show platform hardware fed active qos queue stats internal cpu policer | include MCAST Data|QId
QId PlcIdx Queue Name Enabled Rate Rate Drop(Bytes) Drop(Frames)
30 9 MCAST Data No 500 400 0 0
Se il traffico proviene da un'origine connessa direttamente, viene elaborato dalla coda LSMPI (Linux Shared Memory Punt Interface) per la "origine connessa direttamente" se proviene da un join (S,G), è "Mcast PIM Signaling"
Usare il comando "show platform software infrastructure lsmpi punt | include Cause|Mcast"
Edge-1#show platform software infrastructure lsmpi punt | include Cause|Mcast
Cause Total Total Length Dot1q encap Other SKB
Mcast Directly Connected Source 0 27038 0 0 0 0
Mcast IPv4 Options data packet 0 0 0 0 0 0
Mcast Internal Copy 0 0 0 0 0 0
Mcast IGMP Unroutable 0 0 0 0 0 0
Mcast PIM signaling 0 0 0 0 0 0
Mcast punt to RP 0 0 0 0 0 0
Mcast UDLR 0 0 0 0 0 0
Successivamente, è possibile eseguire un'acquisizione dei pacchetti FED Punject per visualizzare i pacchetti multicast provenienti dall'origine e dal gruppo e ionizzare la CPU, che conferma l'interfaccia in entrata e la coda della CPU.
Edge-1#debug platform software fed switch active punt packet-capture set-filter "ip.addr==239.1.1.1"
Edge-1#debug platform software fed switch active punt packet-capture start
Edge-1#debug platform software fed switch active punt packet-capture stop
Punt packet capturing stopped. Captured 2 packet(s)
Edge-1#show platform software fed switch active punt packet-capture brief
Punt packet capturing: disabled. Buffer wrapping: disabled
Total captured so far: 2 packets. Capture capacity : 4096 packets
Capture filter : "ip.addr==239.255.255.254"
------ Punt Packet Number: 1, Timestamp: 2024/08/26 15:38:27.341 ------
interface : physical: GigabitEthernet1/0/4[if-id: 0x0000000c], pal: Vlan1025 [if-id: 0x0000001d]
metadata : cause: 12 [Mcast Directly Connected Source], sub-cause: 0, q-no: 30, linktype: MCP_LINK_TYPE_IP [1]
ether hdr : dest mac: 0100.5e7f.fffe, src mac: 5254.0012.521d
ether hdr : ethertype: 0x0800 (IPv4)
ipv4 hdr : dest ip: 239.1.1.1, src ip: 10.47.7.2
ipv4 hdr : packet len: 84, ttl: 5, protocol: 1 (ICMP)
icmp hdr : icmp type: 8, code: 0
Programmazione hardware Mroute - IOS Mroute
La programmazione hardware di (S,G) utilizza la stessa struttura di qualsiasi altro percorso di programmazione: da IOS a FMAN RP a FMAN FP, a FED.
Edge-1#show ip mroute vrf blue_vn 239.1.1.1
IP Multicast Routing Table
Flags: D - Dense, S - Sparse, B - Bidir Group, s - SSM Group, C - Connected,
L - Local, P - Pruned, R - RP-bit set, F - Register flag,
T - SPT-bit set, J - Join SPT, M - MSDP created entry, E - Extranet,
X - Proxy Join Timer Running, A - Candidate for MSDP Advertisement,
U - URD, I - Received Source Specific Host Report,
Z - Multicast Tunnel, z - MDT-data group sender,
Y - Joined MDT-data group, y - Sending to MDT-data group,
G - Received BGP C-Mroute, g - Sent BGP C-Mroute,
N - Received BGP Shared-Tree Prune, n - BGP C-Mroute suppressed,
Q - Received BGP S-A Route, q - Sent BGP S-A Route,
V - RD & Vector, v - Vector, p - PIM Joins on route,
x - VxLAN group, c - PFP-SA cache created entry,
* - determined by Assert, # - iif-starg configured on rpf intf,
e - encap-helper tunnel flag, l - LISP decap ref count contributor
Outgoing interface flags: H - Hardware switched, A - Assert winner, p - PIM Join
t - LISP transit group
Timers: Uptime/Expires
Interface state: Interface, Next-Hop or VCD, State/Mode
(*, 239.255.255.254), 00:08:29/stopped, RP 10.47.6.1, flags: SCF <-- Anycast RP address
Incoming interface: LISP0.4100, RPF nbr 10.47.1.10 <-- RLOC of Border-1
Outgoing interface list:
Vlan1025, Forward/Sparse-Dense, 00:08:29/00:00:30, flags:
(10.47.7.2, 239.1.1.1), 00:08:28/00:02:54, flags: FT <-- Unicast source
Incoming interface: Vlan1025, RPF nbr 0.0.0.0 <-- Multicast source is in VLAN 1025
Outgoing interface list:
LISP0.4100, 10.47.1.13, Forward/Sparse, 00:08:23/00:03:07, flags: <-- Forwarding to Edge-2
Programmazione hardware Mroute - MFIB IOS
Le route multicast vengono quindi aggiunte al database MFIB (Multicast Forwarding Information Base), in modo simile all'aggiunta del database RIB (Routing Information Base) al file CEF (Cisco Express Forwarding), mentre l'equivalente multicast è il file MFIB.
Edge-1#show ip mfib vrf blue_vn 239.1.1.1 10.47.7.2 verbose
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,
e - Encap helper tunnel flag.
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: HW Pkt Count/FS Pkt Count/PS Pkt Count Egress Rate in pps
VRF blue_vn
(10.47.7.2,239.1.1.1) Flags: K HW DDE <-- Multicast source and GDA
0x21 OIF-IC count: 0, OIF-A count: 1
SW Forwarding: 0/0/0/0, Other: 2/2/0
HW Forwarding: 0/0/0/0, Other: 0/0/0
Vlan1025 Flags: RA A MA NS
LISP0.4100, 10.47.1.13 Flags: RF F NS <-- RLOC of Edge-2 and the RPF interface to reach 10.47.1.13
CEF: Adjacency with MAC: 4500000000004000001164770A2F010D0A2F010C000012B5000000000840000000100400BA25CDF4AD3852540017FE730000
Pkts: 0/0/0 Rate: 0 pps
Programmazione hardware Mroute - RP MFIB
Usare il comando "show platform software ip switch active r0 mfib vrf index <VRF index> group <GDA/32>"
Edge-1#show vrf detail blue_vn | inc Id
VRF blue_vn (VRF Id = 2); default RD <not set>; default VPNID <not set>
Edge-1#show platform software ip switch active r0 mfib vrf index 2 group 239.1.1.1/32
Route flags:
S - Signal; C - Directly connected;
IA - Inherit A Flag; L - Local;
BR - Bidir route
*, 239.1.1.1/32 --> OBJ_INTF_LIST (0x6b)
Obj id: 0x6b, Flags: C
OM handle: 0x34803c47f0
Edge-2#show platform software ip switch active r0 mfib vrf index 2 group address 239.1.1.1 10.47.7.2
Route flags:
S - Signal; C - Directly connected;
IA - Inherit A Flag; L - Local;
BR - Bidir route
239.1.1.1, 10.47.7.2/64 --> OBJ_INTF_LIST (0x21)
Obj id: 0x21, Flags: unknown
OM handle: 0x34803c4088
Programmazione hardware Mroute - FP MFIB
La voce RP FMAN per le stesse route include un ID AOM (Asynchronous Object Manager), che viene utilizzato per convalidare ulteriori programmazioni.
Usare il comando "show platform software ip switch active f0 mfib vrf index <VRF Index> group <GDA/32>"
Edge-1#show platform software ip switch active f0 mfib vrf index 2 group 239.1.1.1/32
Route flags:
S - Signal; C - Directly connected;
IA - Inherit A Flag; L - Local;
BR - Bidir route
*, 239.1.1.1/32 --> OBJ_INTF_LIST (0x6b)
Obj id: 0x6b, Flags: C
aom id: 29154, HW handle: (nil) (created)
Edge-1#show platform software ip switch active f0 mfib vrf index 2 group address 239.1.1.1 10.47.7.2
Route flags:
S - Signal; C - Directly connected;
IA - Inherit A Flag; L - Local;
BR - Bidir route
239.1.1.1., 10.47.7.2/64 --> OBJ_INTF_LIST (0x21)
Obj id: 0x21, Flags: unknown
aom id: 36933, HW handle: (nil) (created)
Programmazione hardware Mroute - Oggetti Mroute
Con gli ID AOM, controllate l'oggetto e gli oggetti padre sia per (*,G) che per (S,G) utilizzando i comandi di gestione degli oggetti. È possibile usare il comando "show platform software object-manager switch active f0 object <ID AOM>" o "show platform software object-manager switch active f0 object <ID AOM>"
Ogni route ha due oggetti padre. Uno degli oggetti fa riferimento alla tabella ipv4_mcast, l'altro è un mlist, che viene utilizzato nei comandi successivi.
Edge-1#show platform software object-manager switch active f0 object 29154
Object identifier: 29154
Description: PREFIX 0.0.0.0 , 239.1.1.1/32 (Table id 2)
Obj type id: 72
Obj type: mroute-pfx
Status: Done, Epoch: 0, Client data: 0xa3e23c48
Edge-1#show platform software object-manager switch active f0 object 29154 parents
Object identifier: 26509
Description: ipv4_mcast table 2 (blue_vn), vrf id 2
Status: Done
Object identifier: 29153
Description: mlist 107
Status: Done
Edge-1#show platform software object-manager switch active f0 object 36933
Object identifier: 36933
Description: PREFIX 10.47.7.2 , 239.1.1.164 (Table id 2)
Obj type id: 72
Obj type: mroute-pfx
Status: Done, Epoch: 0, Client data: 0xa413c928
Edge-1#show platform software object-manager switch active f0 object 36933 parents
Object identifier: 26509
Description: ipv4_mcast table 2 (blue_vn), vrf id 2
Status: Done
Object identifier: 47695
Description: mlist 33
Status: Done
Programmazione Mroute Hardware - Oggetti Mlist
Gli oggetti MLIST sono una combinazione di interfacce in ingresso ed elenchi di interfacce in uscita. È possibile usare il comando "show platform software mlist switch active f0 index <index>"
This is for (*,G)
Edge-1#show platform software mlist switch active f0 index 107
Multicast List entries
OCE Flags:
NS - Negate Signalling; IC - Internal copy;
A - Accept; F - Forward;
OCE Type OCE Flags Interface
--------------------------------------------------------------------------------------
0xf8000171 OBJ_ADJACENCY A LISP0.4100 <-- A Flag indicates an Incoming interface for (*,G)
0xf80001d1 OBJ_ADJACENCY NS, F Vlan1025 <-- F Flag indicates an Outgoing interface for (*,G)
This is for (S,G)
Edge-1#show platform software mlist switch active f0 index 33
Multicast List entries
OCE Flags:
NS - Negate Signalling; IC - Internal copy;
A - Accept; F - Forward;
OCE Type OCE Flags Interface
--------------------------------------------------------------------------------------
0x5c OBJ_ADJACENCY NS, F LISP0.4100 <-- F Flag indicates an Outgoing interface(s), for (S,G)
0xf80001d1 OBJ_ADJACENCY A Vlan1025 <-- A Flag indicates an Incoming interface, for (S,G)
Mroute Programmazione hardware - FED Mroute
Per convalidare la programmazione FED, usare il comando "show platform software fed switch active ip mfib vrf <VN Name> <GDA> <unicast source>"
Edge-1#show platform software fed switch active ip mfib vrf blue_vn 239.1.1.1 10.47.7.2
Multicast (S,G) Information
VRF : 2
Source Address : 10.47.7.2
HTM Handler : 0x7f45d98c7728
SI Handler : 0x7f45d9a44a28
DI Handler : 0x7f45d9bcb2d8
REP RI handler : 0x7f45d97e7188
Flags :
Packet count : 0
State : 4
RPF :
Vlan1025 A
OIF :
Vlan1025 A
LISP0.4100 F NS
(Adj: 0x5c )
L'indice di riscrittura fornisce informazioni sull'incapsulamento del traffico multicast, che è ciò che utilizza la replica headend. È possibile usare il comando "show platform hardware feed switch active fwd-asic abstraction print-resource-handle <REP RI Handle> 1"
Edge-1#show platform hardware fed switch active fwd-asic abstraction print-resource-handle 0x7f45d97e7188 1
Handle:0x7f45d97e7188 Res-Type:ASIC_RSC_RI_REP Res-Switch-Num:255 Asic-Num:255 Feature-ID:AL_FID_L3_MULTICAST_IPV4 Lkp-ftr-id:LKP_FEAT_INVALID ref_count:1
priv_ri/priv_si Handle: (nil)Hardware Indices/Handles: index0:0x19 mtu_index/l3u_ri_index0:0x0 index1:0x19 mtu_index/l3u_ri_index1:0x0
Cookie length: 56
00 00 00 00 00 00 00 00 02 00 00 00 03 07 2f 0a fe ff ff ef 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
Detailed Resource Information (ASIC_INSTANCE# 0)
----------------------------------------
Replication list RI handle = 7f45d97e7188
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
ASIC [0] Replication Expansion Handle [0x7f45d9b9c048]
Replication list :
Number of RIs = 6
Start RI = 25
Common rewrite = No
Replication REP_RI 0x19 [elements = 1]
[0] ri_list[0]=4 RI_MCAST_BRIDGE_V6 port=88 ri_ref_count:1 dirty=0
RIL first:4 last:4 start:4 ril_total:4 ref_count:0
RI list this:4 num_pairs:4 free:3 next:0 prev:0 ---->
uri1:50 ri_ref_count_1:1 uri0:26 ri_ref_count_0:1 ptr_type:0 last:1 dirty:1
uri1:49151 ri_ref_count_1:0 uri0:49151 ri_ref_count_0:1 ptr_type:1 last:1 dirty:1
uri1:49151 ri_ref_count_1:0 uri0:49151 ri_ref_count_0:0 ptr_type:1 last:1 dirty:0
uri1:49151 ri_ref_count_1:0 uri0:49151 ri_ref_count_0:0 ptr_type:1 last:1 dirty:0
<snip>
Quindi, accettare i valori URI per convalidare l'intervallo di riscrittura dell'indice. Utilizzare il comando "show platform hardware feed switch active fwd-asic resource asic all rewrite-index range <URI> <URI>"
Edge-1#show platform hardware fed switch active fwd-asic resource asic all rewrite-index range 50 50
ASIC#:0 RI:50 Rewrite_type:AL_RRM_REWRITE_IPV4_VXLAN_INNER_IPV4_ENCAP(110) Mapped_rii:LVX_L3_ENCAP_L2_PAYLOAD(123)
Dst Mac: MAC Addr: ba:25:cd:f4:ad:38,
Src IP: 10.47.1.12 <-- RLOC of Edge-1
Dst IP: 10.47.1.13 <-- RLOC of Edge-2
IPv4 TTL: 0
LISP INSTANCEID: 0
L3IF LE Index: 49
ASIC#:1 RI:50 Rewrite_type:AL_RRM_REWRITE_IPV4_VXLAN_INNER_IPV4_ENCAP(110) Mapped_rii:LVX_L3_ENCAP_L2_PAYLOAD(123)
Dst Mac: MAC Addr: ba:25:cd:f4:ad:38,
Src IP: 10.47.1.12 <-- RLOC of Edge-1
Dst IP: 10.47.1.13 <-- RLOC of Edge-2
IPv4 TTL: 0
LISP INSTANCEID: 0
L3IF LE Index: 49
Quindi, eseguire l'RI dal comando precedente per un'ulteriore verifica. Usare il comando "show platform software fed switch active ip mfib vrf <VN Name> <GDA> <source>"
Edge-1#show platform software fed switch active ip mfib vrf blue_vn 239.1.1.1 10.47.7.2
Multicast (S,G) Information
VRF : 2
Source Address : 10.47.7.2
HTM Handler : 0x7f45d98c7728
SI Handler : 0x7f45d9a44a28
DI Handler : 0x7f45d9bcb2d8
REP RI handler : 0x7f45d97e7188
Flags :
Packet count : 0
State : 4
RPF :
Vlan1025 A
OIF :
Vlan1025 A
LISP0.4100 F NS
(Adj: 0x5c )
Usare il comando "show platform software fed switch active ip adj | include <destination RLOC>"
Edge-1#show platform software fed switch active ip adj 10.47.1.12
IPV4 Adj entries
dest if_name dst_mac si_hdl ri_hdl pd_flags adj_id Last-modified
---- ------- ------- ------ ------ -------- ------ -------------
10.47.1.12 LISP0.4100 4500.0000.0000 0x7f45d9a4a5e8 0x7f45d9a4a798 0x60 0x5c 2024/08/21 16:18:58.948 <-- 0x5c matches the Adj in the previous command
Sull'LHR, è possibile convalidare l'indice di destinazione per vedere a dove viene inoltrato il pacchetto multicast, ossia i ricevitori multicast. È possibile usare il comando "show platform software fed switch active ip mfib vrf <VN Name> <GDA> <source>"
Edge-2#show platform software fed switch active ip mfib vrf blue_vn 239.1.1.1 10.47.7.2
Multicast (S,G) Information
VRF : 2
Source Address : 10.47.7.2
HTM Handler : 0x7f0efdad33a8
SI Handler : 0x7f0efdad2648
DI Handler : 0x7f0efdad7668
REP RI handler : 0x7f0efdad4858
Flags :
Packet count : 0
State : 4
RPF :
LISP0.4100 A
OIF :
Vlan1025 F NS
LISP0.4100 A
(Adj: 0xf8000171 )
Utilizzare il gestore DI nel comando "show platform hardware fed switch active fwd-asic abstraction print-resource-handle <ID handle> 1"
Edge-2#show platform hardware fed switch active fwd-asic abstraction print-resource-handle 0x7f0efdad7668 1
Handle:0x7f0efdad7668 Res-Type:ASIC_RSC_DI Res-Switch-Num:255 Asic-Num:255 Feature-ID:AL_FID_L3_MULTICAST_IPV4 Lkp-ftr-id:LKP_FEAT_INVALID ref_count:1
priv_ri/priv_si Handle: (nil)Hardware Indices/Handles: index0:0x527c mtu_index/l3u_ri_index0:0x0 index1:0x527c mtu_index/l3u_ri_index1:0x0
Cookie length: 56
00 00 00 00 00 00 00 00 02 00 00 00 03 07 2f 0a fe ff ff ef 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
Detailed Resource Information (ASIC_INSTANCE# 0)
----------------------------------------
Destination index = 0x527c
pmap = 0x00000000 0x00000010
pmap_intf : [GigabitEthernet1/0/4]
cmi = 0x0
rcp_pmap = 0x0
al_rsc_cmi
CPU Map Index (CMI) [0]
ctiLo0 = 0
ctiLo1 = 0
ctiLo2 = 0
cpuQNum0 = 0
cpuQNum1 = 0
cpuQNum2 = 0
npuIndex = 0
stripSeg = 0
copySeg = 0
Detailed Resource Information (ASIC_INSTANCE# 1)
----------------------------------------
Destination index = 0x527c
pmap = 0x00000000 0x00000000
cmi = 0x0
rcp_pmap = 0x0
al_rsc_cmi
CPU Map Index (CMI) [0]
ctiLo0 = 0
ctiLo1 = 0
ctiLo2 = 0
cpuQNum0 = 0
cpuQNum1 = 0
cpuQNum2 = 0
npuIndex = 0
stripSeg = 0
copySeg = 0
==============================================================
Cronologia delle revisioni
| Revisione | Data di pubblicazione | Commenti |
|---|---|---|
1.0 |
26-Aug-2024 |
Versione iniziale |
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