Réseaux de stockage : Fibre Channel

Configuration élémentaire MDS à MDS avec FCIP

18 octobre 2016 - Traduction automatique
Autres versions: PDFpdf | Anglais (25 avril 2016) | Commentaires


Contenu


Introduction

Ce document fournit une configuration d'échantillon pour la Manche de base de fibre au-dessus du commutateur multicouche de directeur TCP/IP (FCIP) (MDS) au MDS.

Cette configuration d'échantillon est appropriée pour 1.2 et 1.3 release de SAN-OS. Quelques paramètres changent dans la release 2.0 de SAN-OS. Mettez en référence le guide de configuration et les notes de mise à jour 2.0 SAN-OS.

FCIP décrit les mécanismes qui permettent à l'interconnexion des îles des réseaux de stockage de la Manche de fibre (FC) (sans) au-dessus des réseaux basés sur IP pour former un SAN unifié dans une matrice simple FC. FCIP se fonde sur des services réseau basés sur IP pour fournir la Connectivité entre les îles SAN au-dessus des réseaux locaux, les réseaux métropolitains, ou les réseaux d'étendu.

La Manche de fibre sans relié par FCIP

/image/gif/paws/47100/basic_fcip_mds-a.gif

FCIP utilise le Protocole TCP (Transmission Control Protocol) sur le port 3225 comme transport de couche réseau.

Conditions préalables

Conditions requises

Le circuit principal IP doit être opérationnel et fournissant la bande passante exigée pour prendre en charge les applications s'exécutant à travers le lien FCIP ceci pourrait être une couche 2 (L2) ou poser 3 la topologie (L3). Si L3, les routeurs intermédiaires ou des commutateurs multicouches doivent être installés et configurés pour expédier le trafic IP entre la source et les adresses IP de destination du FCIP perce un tunnel convenablement. Si le Qualité de service (QoS) ou la formation du trafic est imposé à n'importe quel périphérique de réseau dans le chemin entre les pairs FCIP, le gestionnaire de réseau administrant l'infrastructure IP devrait être consulté pour obtenir les détails nécessaires avant de configurer tous les paramètres et caractéristiques associés par TCP sur les profils MDS FCIP.

Composants utilisés

Les informations dans ce document sont basées sur le logiciel et les versions de matériel suivants :

  • MDS 9509 avec la version courante du module de service de la mémoire IP (IPS) (DS-X9308-SMIP) 1.2.(2a)

  • MDS 9216 avec la version courante du module de service IPS (DS-X9308-SMIP) 1.2.(2a)

  • Serveur Win2003 (HPQ Pro-Liant-P4) avec Emulex LP9K HBA

  • Baie de stockage IBM (ESS-2105-F20)

Les informations contenues dans ce document ont été créées à partir des périphériques d'un environnement de laboratoire spécifique. Tous les périphériques utilisés dans ce document ont démarré avec une configuration effacée (par défaut). Si votre réseau est opérationnel, assurez-vous que vous comprenez l'effet potentiel de toute commande.

Conventions

Pour plus d'informations sur les conventions de documents, reportez-vous à Conventions relatives aux conseils techniques Cisco.

Informations générales

FCIP comprend les caractéristiques suivantes :

ANSI T11

  1. FC-SW-2 décrit le fonctionnement et l'interaction des Commutateurs FC comprenant E_Port et exécution de matrice.

  2. FC-BB-2 est un mappage qui concerne l'extension des réseaux commutés FC à travers un circuit principal de réseau de TCP, et définit les modèles de référence qui prennent en charge E_Port et B_Port.

Groupe de travail IETF IPS

  1. FC au-dessus de TCP couvre les conditions requises TCP/IP pour transporter des trames FC au-dessus d'un réseau IP.

  2. L'encapsulation de trame FC définit le format d'encapsulation commun de fibre.

Une interconnexion entre deux Commutateurs SAN ou matrices à travers FCIP s'appelle un lien FCIP, et peut contenir un ou plusieurs connexions TCP. Chaque fin d'un lien FCIP est associée avec un port virtuel E (VE_port) ou un B_port, selon l'implémentation. FC-BB et FC-BB-2 décrivent les différences entre les deux approches. Le module de Services IP (DS-X9308-SMIP) prend en charge les deux modes, mais se transfère sur le VE_Port, qui est également le mode recommandé à s'exécuter si tous les pairs appropriés sont des modules DS-X9308-SMIP. La fonctionnalité de VE_Port sur des Plateformes MDS prend en charge également la fonctionnalité de port TE, qui le rend capable du trafic de jonction à partir de plusieurs VSANs à travers un exemple FCIP.

Configurez

Sur le MDS, vous devez se familiariser avec les guides de configuration IPS pour les deux Plateformes. La version la plus en cours du manuel configure la mémoire IP.

Diagramme du réseau

Ce document utilise la configuration réseau indiquée dans le diagramme suivant :

/image/gif/paws/47100/basic_fcip_mds-b.gif

Ce diagramme affiche à une laboratoire-installation typique où aucun équipement en réseau supplémentaire n'est connecté entre les deux interfaces de Gigabit Ethernet (GE) des deux Commutateurs MDS. C'est la forme la plus simple d'un MDS FCIP installent, et sont typiquement utilisées dans des laboratoires de client pour vérifier la fonctionnalité de base. Dans VSAN 600, l'Emulex LightPulse 9000 HBA connecte le serveur Windows 2003 à Bison appelé par MDS9509, et une baie de stockage IBM connectée à MDS9216 a appelé Cantorbéry, où des LUN pour le serveur Windows 2003 sont configurés.

Le périphérique de test d'Agilent SAN est utilisé comme émulateur pour remplir VSAN 601 avec deux périphériques, aussi bien que pour générer le trafic substantiel de fond de non-FCP de FC-2. Ce matériel périphérique est ajouté pour rendre la configuration plus réaliste et pour avoir les entrées substantielles dans le Serveur de noms distribué des deux Commutateurs participants. Le centre de ce document n'est pas Connectivité de bout en bout, et aucune copie d'écran du serveur ou de la baie de stockage n'est incluse. Le matériel périphérique n'est pas bien informé au sujet du FCIP, et il se comporte comme si le lien EISL entre les deux MDS s'exécutait à travers un lien normal FC.

Configurations

Ce document utilise les configurations présentées ci-dessous.

MDS 9509 (bison) avec le module IPS-8
bison# sh ver
 Cisco Storage Area Networking Operating System (SAN-OS) Software
 TAC support: http://www.cisco.com/tac
 Copyright (c) 2002-2003 by Cisco Systems, Inc. All rights reserved.
 The copyright for certain works contained herein are owned by
 Andiamo Systems, Inc. and/or other third parties and are used and
 distributed under license.


 Software
 BIOS: version 1.0.8
 loader: version 1.2(2)
 kickstart: version 1.2(2a)
 system: version 1.2(2a)

 BIOS compile time: 08/07/03
 kickstart image file is: bootflash:/k122a
 kickstart compile time: 9/23/2003 11:00:00
 system image file is: bootflash:/s122a
 system compile time: 10/8/2003 18:00:00


 Hardware
 RAM 1024584 kB

 bootflash: 500736 blocks (block size 512b)
 slot0: 0 blocks (block size 512b)

 bison uptime is 1 days 15 hours 45 minute(s) 44 second(s)

 Last reset 
 Reason: Unknown
 System version: 1.2(2a)
 Service: 

bison# sh run

 Building Configuration ...
 fcip profile 1
 ip address 100.100.100.1

!--- FCIP profile 1 is bound to the local relevant IPS interface. In this 
!--- example, it is the IP address of interface Gig4/1.

 vsan database
 vsan 600 
 vsan 601 

 fcdomain priority 1 vsan 1
 fcdomain domain 1 preferred vsan 1
 fcdomain domain 1 preferred vsan 600
 fcdomain domain 1 preferred vsan 601

 interface fcip1
 no shutdown
 switchport trunk allowed vsan 600-601
 use-profile 1
 peer-info ipaddr 100.100.100.2

!--- Interface FCIP 1 is configured to act as an EISL port carrying traffic 
!--- for both VSAN 600 and VSAN 601 across the tunnel. The FCIP interface,
!--- in most respects, is configured identical then any normal FC interface 
!--- acting as ISL or EISL. Bind this interface to FCIP profile 1, and define
!--- the peer-ip address 100.100.100.2, which is the address of the MDS9216's
!--- Gig 2/1 interface in the example.

vsan database
 vsan 600 interface fc3/1
 vsan 601 interface fc3/2
 vsan 601 interface fc3/8
 vsan 600 interface fc3/16

 zone name z-fcip2 vsan 600
 member pwwn 50:05:07:63:00:d0:94:4c
 member pwwn 10:00:00:00:c9:32:a6:e3

 zone name Zone_a1 vsan 601
 member pwwn 10:00:00:00:00:01:00:00
 member pwwn 10:00:00:00:00:05:00:00

 zoneset distribute full vsan 600

 zoneset name zs-fcip2 vsan 600
 member z-fcip2

 zoneset name Agilent_1 vsan 601
 member Zone_a1

 zoneset activate name zs-fcip2 vsan 600
 zoneset activate name Agilent_1 vsan 601

 interface GigabitEthernet4/1
 ip address 100.100.100.1 255.255.255.252
 no shutdown

!--- Note that Gig4/1 in the default state is configured with an MTU size of
!--- 1500 bytes, if the network topology allows for larger end-to-end frame
!--- sizes known as jumbo frames.
!--- The default value may be changed to a higher value. A good value is 
!--- 3000 bytes, because this would avoid the fragmentation of full 2048 FC
!--- frames into multiple TCP segments. Not all networking equipment can handle
!--- jumbo frames, so the default value of 1500 bytes is a conservative 
!--- approach to avoid connectivity issues while bringing up the FCIP tunnel.

MDS 9216 (Cantorbéry) avec le module IPS-8
canterbury# sh ver
 Cisco Storage Area Networking Operating System (SAN-OS) Software
 TAC support: http://www.cisco.com/tac
 Copyright (c) 2002-2003 by Cisco Systems, Inc. All rights reserved.
 The copyright for certain works contained herein are owned by
 Andiamo Systems, Inc. and/or other third parties and are used and
 distributed under license.


 Software
 BIOS: version 1.0.8
 loader: version 1.2(2)
 kickstart: version 1.2(2a)
 system: version 1.2(2a)

 BIOS compile time: 08/07/03
 kickstart image file is: bootflash:/k122a
 kickstart compile time: 9/23/2003 11:00:00
 system image file is: bootflash:/s122a
 system compile time: 10/8/2003 18:00:00


 Hardware
 RAM 960072 kB

 bootflash: 500736 blocks (block size 512b)
 slot0: 0 blocks (block size 512b)

 canterbury uptime is 6 days 22 hours 35 minute(s) 37 second(s)

Last reset at 995484 usecs after Wed Nov 5 15:05:04 2003
 Reason: Reset by installer
 System version: 1.2(1a)
 Service: 

canterbury# sh run

 Building Configuration ...
 fcip profile 1
 ip address 100.100.100.2

!--- At this side of the tunnel, choose the same profile number that you 
!--- used on the peer to make management easier. This is not mandatory, 
!--- and you can choose another value between 1 and 255.

 vsan database
 vsan 600 
 vsan 601 

 fcdomain domain 2 preferred vsan 600
 fcdomain domain 2 preferred vsan 601

 interface fcip1
 no shutdown
 switchport trunk allowed vsan 600-601
 use-profile 1
 peer-info ipaddr 100.100.100.1

!--- FCIP interface 1 is chosen for arbitrary reasons. You can choose another 
!--- FCIP number and still tunnel to the peer FCIP 1 instance.
!--- It is important that you bind the correct profile-id to your FCIP interface 
!--- of choice. Allow the same VSANs that you allowed on the peer FCIP interface,  
!--- which is good practice in general for normal EISL trunks. The peer ip-address 
!--- is the IP address of the MDS9505s interface Gig4/1
!--- in the Network Diagram above.

 vsan database
 vsan 600 interface fc1/1
 vsan 601 interface fc1/8
 vsan 600 interface fc1/16

 zone name z-fcip2 vsan 600
 member pwwn 50:05:07:63:00:d0:94:4c
 member pwwn 10:00:00:00:c9:32:a6:e3

 zone default-zone permit vsan 777
 zoneset distribute full vsan 600

 zoneset name zs-fcip2 vsan 600
 member z-fcip2

 zoneset activate name zs-fcip2 vsan 600
 zoneset activate name Agilent_1 vsan 601

 interface GigabitEthernet2/1
 ip address 100.100.100.2 255.255.255.252
 no shutdown

Vérifiez

Cette section présente des informations que vous pouvez utiliser pour vous assurer que votre configuration fonctionne correctement.

  • affichez la yole x/y d'interface — Affiche le statut de l'interface appropriée de gigabit attachée au profil FCIP.

  • affichez la yole x/y du TCP international de stats IPS — des statistiques et des connexions actives de TCP d'affichages pour l'interface appropriée de gigabit.

  • affichez la yole x/y de l'ARP international IPS — Affiche toutes les entrées de Protocole ARP (Address Resolution Protocol) pour l'interface appropriée de gigabit ; le prochain saut ou pair devrait être présent dans cette liste.

  • affichez la yole x/y de l'artère international d'IP IPS — affiche les artères spécifiques allant à travers l'interface appropriée de gigabit.

  • affichez le fcip X d'interface — Affiche l'état d'interface FCIP et tout détaille connexe à ce tunnel FCIP.

  • affichez le fcip X de profil — Affiche l'adresse IP à laquelle le profil est paramètres attachés et tous les configurés de TCP.

  • affichez les compteurs du fcip X international — Utilisé pour vérifier s'il y a des trames allant par le tunnel FCIP.

  • affichez à fcdomain x vsan — Répertorie tous les détails liés au domaine ; utilisé pour vérifier que la matrice est formée à travers les tunnels FCIP.

  • affichez aux fcns DA x vsan — Affiche tous les pwwn, FC4-Types, et FCIDs du VSAN approprié ; utilisé pour vérifier que toutes les entrées prévues sont distribuées à travers les tunnels FCIP.

Dépannez

Soyez sûr d'émettre les commandes show au-dessus des temps de multiple d'établir un contre- historique. Les compteurs qui ne sont pas liés à un moment et sont collectés seulement sont une fois en grande partie inutiles.

Utilisez les configurations affichées ci-dessous pour plus de dépannage.

MDS 9509 (bison)
GigabitEthernet4/1 is up
     Hardware is GigabitEthernet, address is 0005.3000.a85a
     Internet address is 100.100.100.1/30
     MTU 1500  bytes   !...default value
     Port mode is IPS
     Speed is 1 Gbps
     Beacon is turned off
     Auto-Negotiation is turned on
     5 minutes input rate 320 bits/sec, 40 bytes/sec, 0 frames/sec
     5 minutes output rate 312 bits/sec, 39 bytes/sec, 0 frames/sec
     933169199 packets input, 998306879592 bytes
       12 multicast frames, 0 compressed
       0 input errors, 0 frame, 0 overrun 0 fifo
     337209366 packets output, 214303313560 bytes, 0 underruns
       0 output errors, 0 collisions, 0 fifo
       0 carrier errors

 bison# sh ips stats tcp int gig 4/1
 TCP Statistics for port GigabitEthernet4/1
     Connection Stats
       272 active openings, 107 accepts
       206 failed attempts, 0 reset received, 163 established
     Segment stats
       932985717 received, 337201993 sent, 7 retransmitted
       0 bad segments received, 103 reset sent

 TCP Active Connections 
 Local Address Remote Address State Send-Q Recv-Q
 100.100.100.1:3225 100.100.100.2:65128 ESTABLISH 0 0
 100.100.100.1:3225 100.100.100.2:65130 ESTABLISH 0 0
 100.100.100.1:3225 0.0.0.0:0 LISTEN 0 0

!--- By default, MDS establishes two TCP connections per FCIP tunnel instance.


bison# sh ips stats tcp int gig 4/1 de
 TCP Statistics for port GigabitEthernet4/1
     TCP send stats
       337202017 segments, 222637392068 bytes
       130562402 data, 205533417 ack only packets
       503 control (SYN/FIN/RST), 0 probes, 1105737 window updates
       7 segments retransmitted, 2208 bytes
       4 retransmitted while on ethernet send queue, 40061909 packets split
       250922624 delayed acks sent
     TCP receive stats
       932985742 segments, 921498012 data packets in sequence,
                           936715052100 bytes in sequence
       770241 predicted ack, 856752348 predicted data
       0 bad checksum, 0 multi/broadcast, 0 bad offset
       0 no memory drops, 0 short segments
       0 duplicate bytes, 16 duplicate packets
       0 partial duplicate bytes, 0 partial duplicate packets
       53128 out-of-order bytes, 165 out-of-order packets
       0 packet after window, 0 bytes after window
       5 packets after close
       76225562 acks, 192030009160 ack bytes, 0 ack toomuch, 5851 duplicate acks
       0 ack packets left of snd_una, 0 non-4 byte aligned packets
       9124012 window updates, 0 window probe
       1381 pcb hash miss, 984 no port, 103 bad SYN, 0 paws drops
     TCP Connection Stats
       272 attempts, 107 accepts, 163 established
       511 closed, 3 drops, 206 conn drops
       3 drop in retransmit timeout, 20 drop in keepalive timeout
       0 drop in persist drops, 0 connections drained
     TCP Miscellaneous Stats
       61792500 segments timed, 76225541 rtt updated
       124 retransmit timeout, 0 persist timeout
       5760 keepalive timeout, 5740 keepalive probes
     TCP SACK Stats
       0 recovery episodes, 0 data packets, 0 data bytes
       0 data packets retransmitted, 0 data bytes retransmitted
       0 connections closed, 0 retransmit timeouts
     TCP SYN Cache Stats
       107 entries, 107 connections completed, 0 entries timed out
       0 dropped due to overflow, 0 dropped due to RST
       0 dropped due to ICMP unreach, 0 dropped due to bucket overflow
       0 abort due to no memory, 0 duplicate SYN, 0 no-route SYN drop
       0 hash collisions, 0 retransmitted

 TCP Active Connections 
 Local Address Remote Address State Send-Q Recv-Q
 100.100.100.1:3225 100.100.100.2:65128 ESTABLISH 0 0
 100.100.100.1:3225 100.100.100.2:65130 ESTABLISH 0 0
 100.100.100.1:3225 0.0.0.0:0 LISTEN 0 0
 bison# 

bison# sh ips stats tcp int gig 4/1 de
 TCP Statistics for port GigabitEthernet4/1
     TCP send stats
       337202017 segments, 222637392068 bytes
       130562402 data, 205533417 ack only packets
       503 control (SYN/FIN/RST), 0 probes, 1105737 window updates
       7 segments retransmitted, 2208 bytes
       4 retransmitted while on ethernet send queue, 40061909 packets split
       250922624 delayed acks sent
     TCP receive stats
       932985742 segments, 921498012 data packets in sequence,
                           936715052100 bytes in sequence
       770241 predicted ack, 856752348 predicted data
       0 bad checksum, 0 multi/broadcast, 0 bad offset
       0 no memory drops, 0 short segments
       0 duplicate bytes, 16 duplicate packets
       0 partial duplicate bytes, 0 partial duplicate packets
       53128 out-of-order bytes, 165 out-of-order packets
       0 packet after window, 0 bytes after window
       5 packets after close
       76225562 acks, 192030009160 ack bytes, 0 ack toomuch, 5851 duplicate acks
       0 ack packets left of snd_una, 0 non-4 byte aligned packets
       9124012 window updates, 0 window probe
       1381 pcb hash miss, 984 no port, 103 bad SYN, 0 paws drops
     TCP Connection Stats
       272 attempts, 107 accepts, 163 established
       511 closed, 3 drops, 206 conn drops
       3 drop in retransmit timeout, 20 drop in keepalive timeout
       0 drop in persist drops, 0 connections drained
     TCP Miscellaneous Stats
       61792500 segments timed, 76225541 rtt updated
       124 retransmit timeout, 0 persist timeout
       5760 keepalive timeout, 5740 keepalive probes
     TCP SACK Stats
       0 recovery episodes, 0 data packets, 0 data bytes
       0 data packets retransmitted, 0 data bytes retransmitted
       0 connections closed, 0 retransmit timeouts
     TCP SYN Cache Stats
       107 entries, 107 connections completed, 0 entries timed out
       0 dropped due to overflow, 0 dropped due to RST
       0 dropped due to ICMP unreach, 0 dropped due to bucket overflow
       0 abort due to no memory, 0 duplicate SYN, 0 no-route SYN drop
       0 hash collisions, 0 retransmitted

 TCP Active Connections 
 Local Address Remote Address State Send-Q Recv-Q
 100.100.100.1:3225 100.100.100.2:65128 ESTABLISH 0 0
 100.100.100.1:3225 100.100.100.2:65130 ESTABLISH 0 0
 100.100.100.1:3225 0.0.0.0:0 LISTEN 0 0
 bison# 

!--- Most of the TCP details displayed above can be used to determine the 
!--- health of your FCIP tunnel, provided that there is a one-to-one relationship 
!--- between the FCIP tunnel and the physical interface. Note that for this
!--- particular FCIP instance, both TCP connections were initiated from this peer,
!--- which you can derive from the local address x.x.x.x:3225 statement.


 bison# sh ips arp interface gig 4/1
 Protocol Address Age (min) Hardware Addr Type Interface
 Internet 100.100.100.2 9 0005.3000.ade6 ARPA GigabitEthernet4/1
 bison# 

 bison# sh ips ip route int gig 4/1
 Codes: C - connected, S - static

 No default gateway

 C 100.100.100.0/30 is directly connected, GigabitEthernet4/1
 bison#

!--- The FCIP tunnel is connected in a back-to-back fashion. Issue the
!--- sh ips ip route command to get the directly connected IP subnet.
!--- In a more realistic situation, where you would need to configure a
!--- next-hop to reach the FCIP peer ip-address, this command would show
!--- the configured routes through the relevant interfaces.


bison# sh fcip profile 1
 FCIP Profile 1
 Internet Address is 100.100.100.1 (interface GigabitEthernet4/1)
 Listen Port is 3225
 TCP parameters
 SACK is enabled
 PMTU discovery is enabled, reset timeout is 3600 sec
 Keep alive is 60 sec
 Minimum retransmission timeout is 200 ms
 Maximum number of re-transmissions is 4
 Send buffer size is 0 KB
 Maximum allowed bandwidth is 1000000 kbps
 Minimum available bandwidth is 15000 kbps
 Estimated round trip time is 1000 usec
 Congestion window monitoring is enabled, burst size is 10 KB

!--- The profile parameters are an easy way to directly verify your 
!--- configured TCP parameters per FCIP instance.


 bison# sh int fcip 1
 fcip1 is trunking
 Hardware is GigabitEthernet
 Port WWN is 20:c2:00:05:30:00:7a:de
 Peer port WWN is 20:42:00:0c:30:6c:24:40
 Admin port mode is auto, trunk mode is on
 Port mode is TE
 vsan is 1
 Trunk vsans (allowed active) (600-601)
 Trunk vsans (operational) (600-601)
 Trunk vsans (up) (600-601)
 Trunk vsans (isolated) ()
 Trunk vsans (initializing) ()
 Using Profile id 1 (interface GigabitEthernet4/1)
 Peer Information
 Peer Internet address is 100.100.100.2 and port is 3225
 Special Frame is disabled
 Maximum number of TCP connections is 2
 Time Stamp is disabled
 QOS control code point is 0
 QOS data code point is 0
 B-port mode disabled
 TCP Connection Information
 2 Active TCP connections
 Control connection: Local 100.100.100.1:3225, Remote 100.100.100.2:65128
 Data connection: Local 100.100.100.1:3225, Remote 100.100.100.2:65130
 272 Attempts for active connections, 58 close of connections
 TCP Parameters
 Path MTU 1500 bytes
 Current retransmission timeout is 200 ms
 Round trip time: Smoothed 2 ms, Variance: 1
 Advertised window: Current: 118 KB, Maximum: 118 KB, Scale: 1
 Peer receive window: Current: 118 KB, Maximum: 118 KB, Scale: 1
 Congestion window: Current: 10 KB, Slow start threshold: 112 KB
 5 minutes input rate 120 bits/sec, 15 bytes/sec, 0 frames/sec
 5 minutes output rate 120 bits/sec, 15 bytes/sec, 0 frames/sec
 72182460 frames input, 135382910244 bytes
 34626 Class F frames input, 3190588 bytes
 72147834 Class 2/3 frames input, 135379719656 bytes
 0 Error frames timestamp error 0
 47823751 frames output, 97610768920 bytes
 34632 Class F frames output, 3194464 bytes
 47789119 Class 2/3 frames output, 97607574456 bytes
 0 Error frames 373 reass frames


!--- You can see the specific details per FCIP interface, as they are taken 
!--- into account by a running FCIP instance. You can also derive the TCP
!--- parameters of the peer with this output.


 bison# sh fcdomain vsan 600
 The local switch is the Principal Switch.

 Local switch run time information:
 State: Stable
 Local switch WWN: 22:58:00:05:30:00:7a:df
 Running fabric name: 22:58:00:05:30:00:7a:df
 Running priority: 2
 Current domain ID: 0x01(1) 

 Local switch configuration information:
 State: Enabled
 FCID persistence: Disabled
 Auto-reconfiguration: Disabled
 Contiguous-allocation: Disabled
 Configured fabric name: 20:01:00:05:30:00:28:df
 Configured priority: 128
 Configured domain ID: 0x01(1) (preferred)

 Principal switch run time information:
 Running priority: 2

 Interface Role RCF-reject
---------------- ------------- ------------
 fcip1 Downstream Disabled
 ---------------- ------------- ------------

 bison# sh fcdomain vsan 601
 The local switch is the Principal Switch.

 Local switch run time information:
 State: Stable
 Local switch WWN: 22:59:00:05:30:00:7a:df
 Running fabric name: 22:59:00:05:30:00:7a:df
 Running priority: 2
 Current domain ID: 0x01(1) 

 Local switch configuration information:
 State: Enabled
 FCID persistence: Disabled
 Auto-reconfiguration: Disabled
 Contiguous-allocation: Disabled
 Configured fabric name: 20:01:00:05:30:00:28:df
 Configured priority: 128
 Configured domain ID: 0x01(1) (preferred)

 Principal switch run time information:
 ---------------- ------------- ------------
 fcip1 Downstream Disabled
 ---------------- ------------- ------------

 bison# sh fcdomain vsan 601
 The local switch is the Principal Switch.

 Local switch run time information:
 State: Stable
 Local switch WWN: 22:59:00:05:30:00:7a:df
 Running fabric name: 22:59:00:05:30:00:7a:df
 Running priority: 2
 Current domain ID: 0x01(1) 

 Local switch configuration information:
 State: Enabled
 FCID persistence: Disabled
 Auto-reconfiguration: Disabled
 Contiguous-allocation: Disabled
 Configured fabric name: 20:01:00:05:30:00:28:df
 Configured priority: 128
 Configured domain ID: 0x01(1) (preferred)

 Principal switch run time information:
 Running priority: 2

 Interface Role RCF-reject
 ---------------- ------------- ------------
 fcip1 Downstream Disabled
 ---------------- ------------- ------------
 bison# 
 
!--- Similar to normal (E)ISL troubleshooting, verify that 
!--- your fabric is formed as expected.


 bison# sh fcns da vsan 600-601

 VSAN 600:
 --------------------------------------------------------------------------
 FCID TYPE PWWN (VENDOR) FC4-TYPE:FEATURE
 --------------------------------------------------------------------------
 0x010001 N 10:00:00:00:c9:32:a6:e3 (Emulex) scsi-fcp:init 
 0x020001 N 50:05:07:63:00:d0:94:4c (IBM) scsi-fcp:target fc.. 

 Total number of entries = 2

 VSAN 601:
 --------------------------------------------------------------------------
 FCID TYPE PWWN (VENDOR) FC4-TYPE:FEATURE
 --------------------------------------------------------------------------
 0x010001 N 10:00:00:00:c9:32:a6:e2 (Emulex) scsi-fcp:init 
 0x010100 N 10:00:00:00:00:05:00:00 
 0x020100 N 10:00:00:00:00:01:00:00 

 Total number of entries = 3

MDS 9216 (Cantorbéry)
canterbury# sh int gig 2/1
 GigabitEthernet2/1 is up
     Hardware is GigabitEthernet, address is 0005.3000.ade6
     Internet address is 100.100.100.2/30
     MTU 1500  bytes
     Port mode is IPS
     Speed is 1 Gbps
     Beacon is turned off
     Auto-Negotiation is turned on
     5 minutes input rate 312 bits/sec, 39 bytes/sec, 0 frames/sec
     5 minutes output rate 312 bits/sec, 39 bytes/sec, 0 frames/sec
     337277325 packets input, 214308964948 bytes
       12 multicast frames, 0 compressed
       0 input errors, 0 frame, 0 overrun 0 fifo
     932989688 packets output, 998294817662 bytes, 0 underruns
       0 output errors, 0 collisions, 0 fifo
       0 carrier errors

 canterbury# sh ips arp int gig 2/1
 Protocol         Address   Age (min)   Hardware Addr  Type   Interface
 Internet   100.100.100.1        7     0005.3000.a85a  ARPA  GigabitEthernet2/1
 canterbury# 

 canterbury# sh ips ip route int gig 2/1
 Codes: C - connected, S - static

 No default gateway

 C 100.100.100.0/30 is directly connected, GigabitEthernet2/1
 canterbury# 

 canterbury# sh ips stats tcp int gig 2/1 de
 TCP Statistics for port GigabitEthernet2/1
 TCP send stats
 932982227 segments, 1022389174048 bytes
 921498559 data, 11061499 ack only packets
 401 control (SYN/FIN/RST), 0 probes, 421342 window updates
 454 segments retransmitted, 972180 bytes
 291 retransmitted while on ethernet send queue, 223642028 packets split
 76162595 delayed acks sent
 TCP receive stats
 337204879 segments, 130561386 data packets in sequence,
                     192030387428 bytes in sequence
 156457374 predicted ack, 65996627 predicted data
 0 bad checksum, 0 multi/broadcast, 0 bad offset
 0 no memory drops, 0 short segments
 48 duplicate bytes, 3542 duplicate packets
 48 partial duplicate bytes, 1 partial duplicate packets
 4336 out-of-order bytes, 131 out-of-order packets
 0 packet after window, 0 bytes after window
 0 packets after close
 268794983 acks, 936715866930 ack bytes, 0 ack toomuch, 4152 duplicate acks
 0 ack packets left of snd_una, 0 non-4 byte aligned packets
 50179371 window updates, 0 window probe
 1251 pcb hash miss, 1061 no port, 0 bad SYN, 0 paws drops
 TCP Connection Stats
 204 attempts, 73 accepts, 155 established
 357 closed, 64 drops, 70 conn drops
 4 drop in retransmit timeout, 10 drop in keepalive timeout
 0 drop in persist drops, 0 connections drained
 TCP Miscellaneous Stats
 233047332 segments timed, 268794618 rtt updated
105 retransmit timeout, 0 persist timeout
 105 keepalive timeout, 94 keepalive probes
 TCP SACK Stats
 3 recovery episodes, 25938540 data packets, 71110030772 data bytes
 180 data packets retransmitted, 272884 data bytes retransmitted
 1 connections closed, 388 retransmit timeouts
 TCP SYN Cache Stats
 93 entries, 73 connections completed, 0 entries timed out
 0 dropped due to overflow, 18 dropped due to RST
 0 dropped due to ICMP unreach, 0 dropped due to bucket overflow
 0 abort due to no memory, 6 duplicate SYN, 0 no-route SYN drop
 0 hash collisions, 8 retransmitted

 TCP Active Connections 
 Local Address Remote Address State Send-Q Recv-Q
 100.100.100.2:65128 100.100.100.1:3225 ESTABLISH 0 0
 100.100.100.2:65130 100.100.100.1:3225 ESTABLISH 0 0
 100.100.100.2:3225 0.0.0.0:0 LISTEN 0 0
 0.0.0.0:3260 0.0.0.0:0 LISTEN 0 0
 canterbury#

!--- This MDS initiated both TCP connections for FCIP 1. Although no passive
!--- statement was configured on the peer MDS, MDS9216 Canterbury has the
!--- highest IP address configured on the tunnel. This makes the other side
!--- disconnect its TCP connection.


 canterbury# sh fcip profile 1
 FCIP Profile 1
 Internet Address is 100.100.100.2 (interface GigabitEthernet2/1)
 Listen Port is 3225
 TCP parameters
 SACK is enabled
 PMTU discovery is enabled, reset timeout is 3600 sec
 Keep alive is 60 sec
 Minimum retransmission timeout is 200 ms
 Maximum number of re-transmissions is 4
 Send buffer size is 0 KB
 Maximum allowed bandwidth is 1000000 kbps
 Minimum available bandwidth is 15000 kbps
 Estimated round trip time is 1000 usec
 Congestion window monitoring is enabled, burst size is 10 KB

 canterbury# sh interface fcip 1
 fcip1 is trunking
 Hardware is GigabitEthernet
 Port WWN is 20:42:00:0c:30:6c:24:40
 Peer port WWN is 20:c2:00:05:30:00:7a:de
 Admin port mode is auto, trunk mode is auto
 Port mode is TE
 vsan is 1
 Trunk vsans (allowed active) (600-601)
 Trunk vsans (operational) (600-601)
 Trunk vsans (up) (600-601)
 Trunk vsans (isolated) ()
 Trunk vsans (initializing) ()
 Using Profile id 1 (interface GigabitEthernet2/1)
 Peer Information
 Peer Internet address is 100.100.100.1 and port is 3225
 Special Frame is disabled
 Maximum number of TCP connections is 2
 Time Stamp is disabled
 QOS control code point is 0
 QOS data code point is 0
 B-port mode disabled
 TCP Connection Information
 2 Active TCP connections
 Control connection: Local 100.100.100.2:65128, Remote 100.100.100.1:3225
 Data connection: Local 100.100.100.2:65130, Remote 100.100.100.1:3225
 204 Attempts for active connections, 72 close of connections
 TCP Parameters
 Path MTU 1500 bytes
 Current retransmission timeout is 200 ms
 Round trip time: Smoothed 2 ms, Variance: 1
 Advertized window: Current: 118 KB, Maximum: 118 KB, Scale: 1
 Peer receive window: Current: 118 KB, Maximum: 118 KB, Scale: 1
 Congestion window: Current: 10 KB, Slow start threshold: 112 KB
 5 minutes input rate 120 bits/sec, 15 bytes/sec, 0 frames/sec
 5 minutes output rate 120 bits/sec, 15 bytes/sec, 0 frames/sec
 91063905 frames input, 192030052404 bytes
 41991 Class F frames input, 3931568 bytes
 91021914 Class 2/3 frames input, 192026120836 bytes
 0 Error frames timestamp error 0
 753551524 frames output, 936716093696 bytes
 42028 Class F frames output, 3909128 bytes
 753509496 Class 2/3 frames output, 936712184568 bytes
 0 Error frames 40061908 reass frames

 canterbury#


Informations connexes


Document ID: 47100