Instruction/ maintenance manual of the product JUNOS OS 10.4 Juniper
Go to page of 200
Junos ® O S MX S eries 3D Univ er sal Edg e R out er s Sol utions Guide Rel ea se 12. 1 Published: 2012-03-08 Cop yright © 2012, Juniper Networks, Inc.
Juniper Netw orks, Inc. 1194 North Mathil da Av enue Sunnyv ale, Calif ornia 94089 US A 408-7 45-2000 www .juniper .net This pr oduct includes the Env oy SNMP Engine, dev eloped by Epil ogue T echnol ogy , an Integr ate d Syst ems Company . Copyright © 1986-1997 , Epilog ue T echnolog y Corpora tion.
Abbr e via t ed T abl e of C ont ents A b o u t T h i s G u i d e .................................................x i i i P art 1 Overvie w C h a p t e r 1 O v e r v i e w o f E t h e r n e t S o l u t i o n s .
Cop yright © 2012, Juniper Networks, Inc. iv Junos OS 12. 1 MX Series 3D Univer sal Edge R outers Sol utions Guide.
T abl e of C ont ents A b o u t T h i s G u i d e .................................................x i i i Junos Document ation and R ele ase Not es . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xiii O b j e c t i v e s ...............
C h a p t e r 3 V i r t u a l S w i t c h e s ..................................................3 9 Lay er 2 Featur es for a S witching Environment . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39 Config uring V irtual Swit ches a s S epara te Routing Instanc es .
P art 3 Ethernet Fil tering, Monit oring, and F ault Mana gement Sol utions for MX S eries R outer s C h a p t e r 9 L a y e r2F i r e w a l lF i l t e r s.............................................9 5 Fire wall Filt ers for Bridg e Domains and VPLS Instanc es .
P art 4 Index I n d e x .............................................................1 7 7 Cop yright © 2012, Juniper Networks, Inc. viii Junos OS 12.
List of Fig ur es P art 1 Overvie w C h a p t e r 1 O v e r v i e w o f E t h e r n e t S o l u t i o n s ......................................3 Figure 1: Nativ e (Normal) and VLAN-T agged Ethernet Frames . . . . . . . . . . . . . . . . 12 F i g u r e 2 : A M e t r o E t h e r n e t N e t w o r k .
Figure 22: Etherne t LFM with L oopback Support . . . . . . . . . . . . . . . . . . . . . . . . . 142 C h a p t e r 1 3 E t h e r n e t R i n g P r o t e c t i o n ..........................................1 4 5 Figure 23: Etherne t Ring Prot ection Exampl e Nodes .
List of T abl es A b o u t T h i s G u i d e .................................................x i i i T a b l e1 :N o t i c eI c o n s................................................x v i i T able 2: T ext and Synt ax Conv entions . . . . . . . . . . .
Cop yright © 2012, Juniper Networks, Inc. xii Junos OS 12. 1 MX Series 3D Univer sal Edge R outers Sol utions Guide.
About T his Guide This pr efac e pro vides the foll owing guidelines f or using the Junos ® OS MX Series 3D Univers al Edge Rout ers Sol utions Guide : • Junos Documenta tion and Rel ea se Notes on.
Objectiv es This g uide provides an o verview of the La yer 2 f eatur es of the Junos OS and describe s how t o configur e the fea tures t o provide sol utions to sev eral net work scenario s.
Support ed Routing P lat forms For the Lay er 2 fe atures de scribed in this manual, the Junos OS curr ently supports the foll owing r outing pla tforms: • Juniper Netw orks MX Serie s 3D Universal Edg e Rout ers Using the Index es This r efer ence cont ains a standard index with t opic entries.
} 2. Merg e the content s of the file int o your routing pl atf orm config uration b y issuing the loa d merge configur ation mode c ommand: [edit] user@host# l oad merge / var /tmp/ ex-script.conf loa d comple te Merging a S nippet T o merge a snippe t, foll ow these st eps: 1.
T able 1: Notic e Icons Description Meaning Icon Indica tes important f eatur es or instructions. Informa tional note Indica tes a situa tion that might resul t in loss of da ta or hardwar e damage. Caution Alert s you to the risk of pers onal injury or death.
T able 2: T ex t and Synta x Conv entions (c ontinued) Exampl es Description Conv ention broadca st | multica st ( string1 | string2 | string3 ) Indica tes a choice be tween the mutuall y ex clusive k eywor ds or variables on either side of the symbol.
or are c over ed under warr anty , and need postsal es t echnical support, you c an acc ess our tool s and resourc es online or open a ca se with JT A C. • JT A C policies—For a compl ete under standing of our JT A C proc edures and policies, re view the JT A C User Guide loca ted a t http:/ / www .
Cop yright © 2012, Juniper Networks, Inc. xx Junos OS 12. 1 MX Series 3D Univer sal Edge R outers Sol utions Guide.
P AR T 1 Ov ervie w • Overvie w of Ethernet Solutions on p age 3 1 Copyright © 2012, Juniper Netw orks, Inc..
Cop yright © 2012, Juniper Networks, Inc. 2 Junos OS 12. 1 MX Series 3D Univer sal Edge R outers Sol utions Guide.
CHAPTER 1 Ov ervie w of Ethernet S ol utions • Ethernet T erms and Acr onyms on pag e 3 • Netw orking and Internetw orking with Bridges and R outer s on page 6 • Netw ork Addr essing at La yer 2.
• bridge— A netw ork component defined b y the IEEE that f orwards fr ames from one LAN segment or VLAN t o another . The bridging function c an be contained in a r outer , LAN swit ch, or other specialized devic e. See al so switch . • bridge domain— A set of l ogical ports tha t share the same flooding or br oadca st chara cteristics.
• MS TP—Multipl e Spanning T r ee Prot ocol. A spanning-tr ee protoc ol used to pr event loop s in bridge configur ations. Unlik e other types of S TPs, MS TP can bl ock ports sel ectivel y by VLAN. Se e also RS TP . • O AM—Operation, A dministra tion, and Maintenanc e.
• Netw orking at La yer 2: Forwar ding Dual-T a gged Frame s on page 13 • Netw orking at La yer 2: L ogical Interf ace T ypes on pa ge 14 • A Metro E thernet Network with MX S eries R outers on .
coul d older bridg es that w ere l ess intelligent de vices. Bridg es learn much about the LAN segments the y connect t o from prot ocols lik e those in the Spanning T re e Prot ocol (S TP) famil y . The ne twork l ayer (La yer 3) is the highest l ay er used by netw ork nodes to f orward tr affic as part of the da ta pl ane.
NO TE: The opposit e of a “gl obally unique netw ork address” is the “l ocally significant c onnection identifier ” which connec ts two endpoints on a net work. For exampl e, MPLS l abels such as 1000001 c an repea t in a network, but a public IP address c an appear on the Internet in onl y one pla ce at a time (otherwise it is an err or).
R elat ed Documenta tion Ethernet Net working • • Ethernet T erms and Acr onyms on pag e 3 • Netw orking and Internetw orking with Bridges and R outer s on page 6 • Netw orking at La yer 2: Be.
NO TE: Netw orking at the frame l ev el says nothing about the pr esence or absence of IP a ddresses at the pa cket l evel. Almos t all ports, links, and devic es on a netw ork of LAN switches s till have IP addr esses, just as do all the sour ce and destina tion hosts.
• Netw orking at La yer 2: Benefits of Etherne t Frames on pag e 9 • Netw orking at La yer 2: Forwar ding VLAN T a gged Frame s on page 11 • Netw orking at La yer 2: Forwar ding Dual-T a gged Fr.
Figure 1: Na tive (Normal) and VLAN-T agg ed Ethernet Fr ames The VLAN t ag subtrac ts four b ytes from the t otal MTU l ength of the Ethernet frame, but this is sel dom a problem if k ept in mind. When this t ag is used in an Ethernet fr ame, the frame c omplies with the IEEE 802.
Netw orking at La yer 2: Forw arding Dual-T agg ed Frames The use of VLAN t agging to gr oup (or bundle) s ets of MAC a ddresses is a start t owar d a method of f orwarding LAN tr affic ba sed on informa tion found in the fr ame, not on IP addre ss in the packet.
• Netw orking and Internetw orking with Bridges and R outer s on page 6 • Netw ork Addr essing at La yer 2 and La yer 3 on pag e 7 • Netw orking at La yer 2: Benefits of Etherne t Frames on pag .
A Metr o Ethernet Netw ork with MX Series R outer s Wha t would a Me tro Ethernet net work with Juniper Netw orks MX Serie s 3D Universal Edge R outer l ook like ? It is very lik ely tha t the Metro Ethernet ne twork will pl ace MX Series rout ers at the e dge of a VPLS and MPL S core ne twork.
Figure 3: A Me tro Ethernet Ne twork with MX S eries Rout ers In Figure 3 on p age 16 , the circl ed numbers r eflec t the different f ormats tha t the Ethernet frame s can take a s the frames mak e their wa y from a host on one Ethernet s witching hub to a host on the other hub .
• Netw orking at La yer 2: Benefits of Etherne t Frames on pag e 9 • Netw orking at La yer 2: Chall enges of Ethernet MA C Addr esses on pag e 10 • Netw orking at La yer 2: Forwar ding VLAN T a .
• Netw orking at La yer 2: Forwar ding VLAN T a gged Frame s on page 11 • Netw orking at La yer 2: Forwar ding Dual-T a gged Frame s on page 13 • Netw orking at La yer 2: L ogical Interf ace T ypes on pa ge 14 • A Metro E thernet Network with MX S eries R outers on pag e 15 Cop yright © 2012, Juniper Networks, Inc.
P AR T 2 Ba sic S ol utions f or MX S eries R out ers • Basic L ayer 2 Fe atures on MX Serie s Rout ers on pag e 21 • Virtual S witches on pag e 39 • VLANs Within Bridg e Domain and VPLS Envir o.
Cop yright © 2012, Juniper Networks, Inc. 20 Junos OS 12. 1 MX Series 3D Univer sal Edge R outers Sol utions Guide.
CHAPTER 2 Ba sic L a y er 2 Fe a tur e s on MX S eries R out er s • Lay er 2 Fea tures for a Bridging En vironment on pag e 21 • Exampl e Roa dmap: Configuring a Ba sic Bridge Domain Envir onment .
• Spanning T r ee Prot ocols (xS TP , where the “x” r epresents the S TP type)—Bridg es function b y associating a MA C addr ess with an interf ace, simil ar to the wa y a rout er associa tes an IP ne twork addr ess with a next-hop int erfac e.
Figure 5: Bridging Netw ork with MX Series R outers The thr ee rout ers each ha ve a series of hosts on their Etherne t interf aces, a s well as aggr egat ed Ethernet link s between them.
• R outer 1 has an a ccess int erfa ce which pro vides bridging on VLAN 205 and is connect ed to a cus tomer devic e configure d on ge-2/2/2 . R outer 3 has an a ccess int erfa ce which pro vides bridging on VLAN 200 and is connect ed to a c ustomer devic e configure d on ge-2/2/ 6 .
T o configur e the Ethernet interf aces and VLAN t ags on all three r outers: 1. Config ure the Ethernet interf ac es and VLAN tags on R outer 1: [edit] chassis { aggre gat ed-devices { ethernet { devic e-count 2; # Number of AE interf aces on rout er } } } interf aces g e-2/ 1/ 0 { gigether-options { 802.
famil y bridge { interf ace-mode ac cess; vlan-id 205; } } } interf aces g e-2/2/ 4 { nativ e-vlan-id 200; # Untagg ed packe ts get vl an 200 tag unit 0 { famil y bridge { interf ace-mode trunk; vlan-.
encapsul ation vlan-bridg e; vlan-id 100; } } interf aces g e-3/3/3 { encapsul ation fle xible-etherne t-services; vlan-ta gging; # Customer int erfac e uses singly-ta gged fr ames unit 200 { encapsul ation vlan-bridg e; vlan-id 200; } } interf aces g e-5/ 1/ 0 { gigether-options { 802.
vlan-id 100; } unit 200 { vlan-id 200; } } 3. Config ure the Ethernet interf ac es and VLAN tags on R outer 3: [edit] chassis { aggre gat ed-devices { ethernet { devic e-count 2; # Number of AE interf.
802.3ad ae3; } } interf aces g e-11/ 1/2 { gigether-options { 802.3ad ae3; } } interf aces g e-11/ 1/3 { gigether-options { 802.3ad ae2; } } interf aces g e-11/ 1/ 4 { gigether-options { 802.3ad ae2; } } interf aces g e-11/ 1/5 { gigether-options { 802.
Exampl e St ep: Config uring Bridge Domains T o configur e the bridge domains on all three r outers: 1. Config ure a bridge domain on R outer 1: [edit] bridge-domains { vlan100 { domain-type bridge; vlan-id 100; interf ace g e-2/2/ 1. 100; interf ace ae1.
domain-type bridge; vlan-id 200; interf ace g e-3/3/3.200; interf ace ae1.200; interf ace ae3.200; } } 3. Config ure a bridge domain on R outer 3: [edit] bridge-domains { vlan100 { domain-type bridge; vlan-id 100; interf ace g e-2/2/2.100; interf ace ae3.
Exampl e St ep: Config uring Spanning T ree P rotoc ols Config ure the Spanning T r ee Prot ocol on all thre e routers. T his is necess ary to av oid the potential bridging l oop formed b y the triangular ar chitec ture of the rout ers. MSTP is config ured on the three r outers so the se t of VLANs has an independent, l oop-free topol ogy .
3. Config ure MS TP on Rout er 3: [edit] prot ocols { mstp { configur ation-name mstp-f or-R1-2-3; # The names must ma tch to be in the same region revision-l evel 3; # T he revision l evels mus t mat.
R elat ed Documenta tion Ethernet Net working • • Lay er 2 Fea tures for a Bridging En vironment on pag e 21 • Exampl e Roa dmap: Configuring a Ba sic Bridge Domain Envir onment on page 22 • E.
vrrp-group 1 { virtual-address 10 .0 .1.51; priority 254; } } } } unit 1 { famil y inet { address 10 .0.2.2/2 4 { vrrp-group 2 { virtual-address 10 .0 .2.51; priority 100; } } } } } } bridge-domains { vlan-100 { domain-type bridge; vlan-id 100; interf ace g e-2/2/2.
} } } } unit 1 { famil y inet { address 10 .0.2.3/2 4 { vrrp-group 2 { virtual-address 10 .0 .2.51; priority 254; } } } } unit 2 { famil y inet { address 10 .0.3.2/2 4 { } } unit 3 { famil y inet { address 10 .0.3.3/2 4 { } } unit 4 { famil y inet { address 10 .
interf ace ae2. 100; interf ace ae3. 100; routing-int erface irb .0; } vlan-200 { domain-type bridge; vlan-id 200; interf ace g e-3/3/3.200; interf ace ae2.200; interf ace ae3.200; routing-int erface irb .1; } vlan201 { vlan-id 201; routing-int erface irb .
Cop yright © 2012, Juniper Networks, Inc. 38 Junos OS 12. 1 MX Series 3D Univer sal Edge R outers Sol utions Guide.
CHAPTER 3 V irtual S wit ches • Lay er 2 Fea tures for a S witching Environment on pa ge 39 • Config uring Virtual S witches a s Separa te R outing Instanc es on page 40 Lay er 2 Fea tures f or a .
• Config uring Virtual S witches a s Separa te R outing Instanc es on page 40 Config uring Virtual S witche s as Separ at e R outing Instance s Y ou c an configure t wo virtual swit ches as separ at e routing instanc es on an MX Series rout er with bridge domains and VLANs.
R elat ed Documenta tion • Ethernet Net working • Lay er 2 Fea tures for a S witching Environment on pa ge 39 41 Copyright © 2012, Juniper Netw orks, Inc.
Cop yright © 2012, Juniper Networks, Inc. 42 Junos OS 12. 1 MX Series 3D Univer sal Edge R outers Sol utions Guide.
CHAPTER 4 VLANs W ithin Bridg e Domain and VPL S Envir onments • VLANs Within a Bridg e Domain or VPLS Instanc e on page 43 • P acket Fl ow T hrough a Bridg ed Network with Normaliz ed VLANs on pa.
• Exampl e: Configuring One VPL S Instance f or Sev eral VLANs on pag e 55 P acke t Flo w Throu gh a Bridged Ne twork with Normaliz ed VLANs P acket s receiv ed ov er a Layer 2 l ogical int erfac e for bridging ar e processe d in a strict sequenc e of steps.
Config uring a Normalized VLAN f or T ransla tion or T agging This t opic provide s configur ation and opera tional informa tion to help y ou manipula te virtual l ocal area ne twork s (VLANs) within a bridge domain or a virtual priva te LAN servic e (VPLS) inst ance.
Then, the sour ce MA C address of a r eceive d packet is l earned ba sed on the normalized VLAN config uration. For output pack ets, if the VLAN tag s associa ted with an egr ess logic al interfa ce d.
• vlan-ta gs outer outer-vl an-number inner inner-vlan-number • Use the vlan-id all sta tement to c onfigure bridging f or sever al VLANS with minimal amount of config uration and s witch res ources. For an e xample of this c onfigura tion, see “Exampl e: Config uring One VPLS Instanc e for Se veral VLANs” on pa ge 55 .
NO TE: This t opic does not present exha ustive config uration listing s for all rout ers in the figures. Ho wev er , you can us e it with a broader config uration stra teg y to compl ete the MX S eries router ne twork c onfigura tions. Consider the pr ovider bridge ne twork shown in F igure 7 on pag e 48 .
The VLANs’ bridging pa ths are sho wn with distinct dashed and dot ted lines. T he VLANs at e ach site ar e: • L2-PE1 at Sit e 1: VLAN 100 and VLAN 300 • L2-PE2 at Sit e 2: VLAN 100 • L2-PE3 a.
} } interf aces g e-5/0/ 0 { encapsul ation fle xible-etherne t-services; fle xible-vl an-tagging; unit 1 { encapsul ation vlan-bridg e; vlan-ta gs outer 500 inner 100; # T his places t wo VLAN tag s .
Bridge domain c1–vl an-100 for cus tomer-c1–virtual-swit ch has fiv e logical int erfac es: • Logic al interf ace g e-1/0/ 0.1 c onfigured on ph ysical port g e-1/0/ 0 . • Logic al interf ace g e-2/0/ 0.1 c onfigured on ph ysical port g e-2/0/ 0 .
For more inf ormation about c onfiguring Ethernet pseudowir es as part of VPL S, see the Junos OS Fea ture Guides . NO TE: This t opic does not present exha ustive config uration listing s for all rout ers in the figures.
and P3, and Site 4 is c onnecte d to P1 and P3. VPLS ps eudowires c onfigured on the PE and P rout ers carry tr affic betw een the site s. The pseudo wires f or the VPLS instanc es are sho wn with distinct dashed and dot ted lines.
vlan-id 302; } } routing-instanc es { cust omer-c1-vsi { instanc e-type vpls; vlan-id 100; interf ace g e-1/0/ 0.1; interf ace g e-2/0/ 0.1; interf ace g e-3/0/ 0.1; } # End of cust omer-c1-vsi cust omer-c2-vsi { instanc e-type vpls; vlan-id none; # T his will remov e the VLAN tags from pa ckets sent on VPL S for cust omer 2 interf ace g e-1/0/ 0.
• P acket s with a single VLAN tag v alue of 302 are a ccept ed on interf ace g e-6/0 /0. 11 . The VLAN t ag value 302 is then poppe d and remov ed from the fr ame of this packet. • All pack ets sent on pseudo wires will not hav e any VLAN tag s used to identify the incoming La yer 2 l ogical interf ace .
Figure 9: Man y VLANs on One VPLS Instanc e The La yer 2 PE r outers ar e MX Series rout ers. Each sit e is connect ed to tw o P rout ers for redundanc y , although both link s are onl y shown for L2-PE1 a t Site 1.
If VLANs 1 through 1000 f or cust omer C1 span the same sites, then the vl an-id all and vlan-r ange sta tements pr ovide a wa y to swit ch all of these VLANs with a minimum config uration e ffort and fe wer swit ch resour ces. NO TE: Y ou c annot use the vlan-id all stat ement if you config ure an IRB interf ace on one or mor e of the VLANs.
} # End of cust omer-c1-v1-to-v1000 cust omer-c1-v1500 { instanc e-type vpls; vlan-id 1500; interf ace g e-1/0/ 0.11; interf ace g e-6/0 /0. 11; } # End of cust omer-c1-v1500 } # End of routing-instanc es Note the use of the vl an-id all and vl an-id-rang e stat ements in the VPLS instanc e call ed cust omer-c1-v1-to-v1000 .
CHAPTER 5 Bulk A dministr a tion of L a y er 2 Fe a tur es on MX S eries R out ers • Bulk Config uration of VLANs and Bridg e Domains on page 59 • Exampl e: Configuring VLAN T ransla tion with a V.
The f ollo wing exampl e transl ate s incoming trunk pack ets from VLAN identifier 200 t o 500 and 201 to 501 ( other valid VLAN identifiers ar e not aff ected): [edit int erfac es ge-1/0 / 1] unit 0 { .
bridge-domains { bd-vlan–5 { vlan-id 5; } bd { vlan-id [ 1–4 6– 10 ]; } } If a VLAN identifier is alre ady part of a VLAN identifier list in a bridge domain under a routing inst ance, then you mus t delet e the VLAN identifier from the list bef ore you c an config ure an explicit or “re gular” bridge domain.
Cop yright © 2012, Juniper Networks, Inc. 62 Junos OS 12. 1 MX Series 3D Univer sal Edge R outers Sol utions Guide.
CHAPTER 6 Dynamic P r ofil es f or VLAN Int erf ac es and P r ot oc ols • Dynamic Pr ofiles f or VPLS Pseudo wires on pa ge 63 • Exampl e: Configuring VPL S Pseudowir es with Dynamic Pr ofiles—B.
(unit). When a client ac cesses the r outer , the dynamic profile c onfigura tion repl aces the prede fined variable with the a ctual interf ace name or unit v alue for the int erfa ce the client is acc essing. Dynamic profil es for VPL S are supporte d only on MX Serie s router s.
[edit int erfac es] ge-0 /0/1 { unit 0 { vlan-id 10; } } ge-0 /0/2 { unit 0 { vlan-id 20; } } ge-0 /0/3 { unit 0 { vlan-id 30; } } NO TE: This is not a c omplet e router c onfigura tion.
unit 0 { vlan-id 10; } } ge-0 /0/2 { unit 0 { vlan-id 20; } } ge-0 /0/3 { unit 0 { vlan-id 30; } } [edit dynamic-pr ofiles] green_vpls_p w_1 interf aces $junos-int erface-if d-name { unit $junos-underl ying-unit-number { vlan-ta gs outer 200 inner 100; } } NO TE: This is not a c omplet e router c onfigura tion.
ge-0 /0/1 { unit 0 { vlan-id 100; } } ge-0 /0/2 { unit 0 { vlan-id 100; } } ge-0 /0/3 { unit 0 { vlan-id 100; } } NO TE: This is not a c omplet e router c onfigura tion.
vlan-id 100; } } [edit dynamic-pr ofiles] green_vpls_p w_2 interf aces $junos-int erface-if d-name { unit $junos-underl ying-unit-number { vlan-ta gs outer 200 inner 100; } } NO TE: This is not a c omplet e router c onfigura tion.
instanc e-type virtual-switch; rout e-distinguisher 10. 1.1. 10:1; vrf-targ et targ et:1000:1; interf ace g e-3/0/ 0; # The trunk interf ace bridge-domains { sal es { vlan-id 10; interf ace g e-0/0 /0. 1; ... # Other interf aces and st atements f or Sales } engineering { vlan-id 20; interf ace g e-1/0/2.
First, c onsider the requirement t o push an outer VLAN ta g value of 200 ont o the VPLS pseudowir e frames on egr ess. Dynamic profil es ea sily sa tisfy this requir ement.
unit $junos-underl ying-unit-number { famil y bridge { interf ace-mode trunk; inner-vlan-id-list [ 10 20 40 50 ]; # R emov ed Ac counting VLAN 30 } } } NO TE: This is not a c omplet e router c onfigura tion.
swit ched within the interf aces list ed within bridge domain ac counting and any st aticall y config ured trunk interf ace s and are prev ented fr om crossing the VPLS ps eudowire due to the absenc e of VLAN 30 on the trunk.
CHAPTER 7 MX S eries R out er a s a DHCP R el a y A g ent • MX Series R outer a s a Lay er 2 DHCP Rel ay Ag ent on page 73 • Exampl e: Configuring DHCP R ela y in a Bridge Domain VLAN Envir onment.
R elat ed Documenta tion DHCP R elay A gent • • Exampl e: Configuring DHCP R ela y in a Bridge Domain VLAN Envir onment on page 74 • Exampl e: Configuring DHCP R ela y in a VPLS R outing Instanc.
Exampl e: Config uring DHCP Rel ay in a VPL S Routing Inst ance Envir onment The f ollo wing exampl e configur es DHCP rela y in a bridge domain (VLAN) envir onment. The MX S eries rout er will trust only the MA C addresses l earned on the list ed interf ace s.
interf ace g e-2/2/ 4.0; interf ace g e-2/2/6. 0; } } } } } } Y ou v erify your config uration b y using two r ela ted c ommands: • show dhcp r elay binding routing-ins tance vs1 bridg e-domains bd1.
CHAPTER 8 MX S eries R out er in an A TM Ethernet Int erw orking Function • MX Series R outer A TM Ethernet Interw orking Function on pag e 77 • Exampl e: Configuring MX S eries Rout er A TM Ether.
Becaus e of the transla tion, the flo w of packe ts and frames bet ween PE1 (the M Serie s rout er) and PE2 (the MX series rout er) router s is not symmetrical, a s is shown in Figur e 11 on pag e 78 .
Exampl e: Config uring MX Series R outer A TM Etherne t Interw orking Consider the r outer topol ogy sho wn in Figure 13 on pag e 79 . The MX Serie s router is config ured as the R outer PE2 (the pro vider edge 2 rout er) in the figure t o support the A TM Etherne t IWF .
Config uring Rout er PE2 with a Lay er 2 Circuit R outer CE1 Config uration The c onfigura tion of the Lay er 2 circuit is ba sed on LDP-signaled MPL S connec tions. Config ure Ethernet ov er A TM on the A TM interfa ce. [edit] interf aces { at-2/ 0/0 { encapsul ation ethernet-o ver-atm; atm-options { vpi 100; } unit 0 { vci 100 .
} } ldp { interf ace all; } l2circuit { neighbor 10.255. 171.1 4 { interf ace a t-2/0/1.0 { virtual-circuit-id 100; } } } } R outer PE2 Config uration Config ure the Lay er 2 circuit on the MX Serie s router .
} } R outer CE2 Config uration Config ure the dual- tagg ed Ethernet interf ac e. [edit] interf aces { ge-0 /0/ 0 { fle xible-vl an-tagging; encapsul ation fle xible-etherne t-services; unit 0 { vlan-ta gs outer 100 inner 34; famil y inet { address 30.
atm-options { vpi 100; } unit 0 { vci 100 .34; famil y inet { address 30 .1. 1.1/2 4; } } } } R outer PE1 Config uration Config ure the Lay er 2 circuit. [edit] interf aces { at-2/ 0/ 1 { atm-options { vpi 100; } unit 0 { encapsul ation vlan-v ci-ccc; vpi 100; vci-r ange 32 63; } } ge-5/ 0/0 { unit 0 { famil y inet { address 20 .
} } R outer PE2 Config uration Config ure the Lay er 2 circuit o ver aggre gat ed Ethernet on the MX S eries router . [edit] chassis { aggre gat ed-devices { ethernet { devic e-count 1; } } } interf aces { ge-0 /2/0 { gigether-options { 802.3ad ae0; } } ge-0 /2/8 { unit 0 { famil y inet { address 20 .
} } } R outer CE2 Config uration Config ure the dual-tagg ed Ethernet interf ac e. [edit] interf aces { ge-0 /0/ 0 { fle xible-vl an-tagging; encapsul ation fle xible-etherne t-services; unit 0 { vlan-ta gs outer 100 inner 34; famil y inet { address 30.
at-2/ 0/0 { encapsul ation ethernet-o ver-atm; atm-options { vpi 100; } unit 0 { vci 100 .34; famil y inet { address 30 .1. 1.1/2 4; } } } } R outer PE1 Config uration Config ure the remot e interfa ce swit ch.
connec tions { remot e-interfac e-switch rw s1 { interf ace a t-2/0/1.0; transmit-l sp lsp1-2; rec eive-lsp lsp2-1; } } } R outer PE2 Config uration Config ure the remot e interfa ce swit ch on the MX Series rout er .
} R outer CE2 Config uration Config ure the dual-tagg ed Ethernet interf ac e. [edit] interf aces { ge-0 /0/ 0 { fle xible-vl an-tagging; encapsul ation fle xible-etherne t-services; unit 0 { vlan-ta gs outer 100 inner 34; famil y inet { address 30. 1.
unit 0 { vci 100 .34; famil y inet { address 30 .1. 1.1/2 4; } } } } R outer PE1 Config uration Config ure the remot e interfa ce swit ch. [edit] interf aces { at-2/ 0/ 1 { atm-options { vpi 100; } unit 0 { encapsul ation vlan-v ci-ccc; vpi 100; vci-r ange 32 end 63; } } ge-5/ 0/0 { unit 0 { famil y inet { address 20 .
} } } R outer PE2 Config uration Config ure the remot e interfa ce swit ch over a ggrega ted E thernet on the MX Series rout er . [edit] chassis { aggre gat ed-devices { ethernet { devic e-count 1; } } } interf aces { ge-0 /2/0 { gigether-options { 802.
connec tions { remot e-interfac e-switch rw sl { interf ace ae0 .0 { transmit-l sp- lsp-1sp2-1; rec eive-lsp lsp1-2; } } } R outer CE2 Config uration Config ure the dual-tagg ed Ethernet Interf ac e.
Cop yright © 2012, Juniper Networks, Inc. 92 Junos OS 12. 1 MX Series 3D Univer sal Edge R outers Sol utions Guide.
P AR T 3 Etherne t Fil t ering, Monit oring, and F aul t Mana g ement S ol utions f or MX S eries R out er s • Lay er 2 Firew all Filt ers on pag e 95 • IEEE 802. 1ag OAM C onnectivity-F ault Mana gement on pag e 103 • ITU-T Y . 1731 Ethernet Fr ame Delay Me asurement s on page 119 • IEEE 802.
Cop yright © 2012, Juniper Networks, Inc. 94 Junos OS 12. 1 MX Series 3D Univer sal Edge R outers Sol utions Guide.
CHAPTER 9 L a y er 2 Fir e w all Fil t ers • Fire wall Filt ers for Bridg e Domains and VPLS Instanc es on pag e 95 • Exampl e: Configuring P olicing and Marking of T ra ffic Entering a VPL S Core on pa ge 96 • Exampl e: Configuring Fil tering of Fr ames by MA C Addr ess on page 98 • Exampl e: Configuring Fil tering of Fr ames by IEEE 802.
NO TE: If the chassis is running in Enhanc ed IP mode, a single shar ed filt er instanc e is creat ed for a fil ter applied acr oss bridge domains. How ever , if the chassis is not running in Enhanc ed IP mode, then separa te fil ter instanc es are cr eat ed for each bridg e domain that the fil ter is applied to .
NO TE: This e xample does not pr esent exhaustiv e configur ation listings f or all rout ers in the figures. Ho wev er , you can us e this exampl e with a broader config uration str at egy to c omplet e the MX Series rout er netw ork Ethernet Opera tions, Administr ation, and Maint enance (O AM) configur ations.
from { tra ffic-type [ broadc ast unknown-unic ast mul ticast ]; } then policer bc ast-unknown-unic ast-non-ip-mca st-policer; } } } 4. Appl y the firew all filt er as an input fil ter to the c ustome.
famil y bridge { filt er evil-mac-addre ss { term one { from { sourc e-mac-address 88:05:00:29:3c:de/ 48; } then { count e vil-mac-address; # Count s frame with the bad sourc e MAC addr ess discard; } term tw o { then acc ept; # Make sure t o acc ept other traffic } } } } 2.
For more det ailed inf ormation about c onfiguring firew all filt ers and configuring fil ter mat ch conditions f or Lay er 2 bridging traffic on the MX S eries rout ers, see the Junos OS Policy Fr amework C onfigura tion Guide . NO TE: Lay er 2 bridging is supported onl y on the MX Series rout ers.
• Exampl e: Configuring P olicing and Marking of T ra ffic Entering a VPL S Core on pa ge 96 • Exampl e: Configuring Fil tering of Fr ames by MA C Addr ess on page 98 • Exampl e: Configuring Fil.
bd { domain-type bridge { interf ace g e-0/0 /0; } } 3. Appl y the filter fil ter-plp-c onfigure-forw arding as an input fil ter t o the ge-0/ 0/0 interf ace: [edit int erfac es] ge-0 /0/ 0 { unit 0 {.
CHAPTER 10 IEEE 802. 1a g O AM Conne ctivit y-F aul t Mana g ement • Ethernet Oper ations, A dministra tion, and Maintenance on pa ge 103 • Ethernet O AM Connectivit y Faul t Management on pa ge 1.
• Fa ult isol ation, verific ation, and re cov ery (isola tion and verifica tion are pro vided by a combina tion of prot ocols, whil e reco very is the function of pr otocol s such as spanning tree) The l oopback prot ocol used in Etherne t OAM is model ed on the standard IP ping.
maintenanc e domain, each servic e instance is c alled a maint enance associa tion. A maintenanc e associa tion can be thought a s a full mesh of maintenanc e endpoints (MEPs) having simil ar charac teristics. MEPs ar e active CFM entitie s genera ting and responding to CFM pr otocol me ssages.
Figure 15: E thernet O AM with VPLS The f ollo wing are the config urations of the VPL S and CFM on the service pr ovider rout ers. Config uration of PE1 [ edit chassis] fpc 5 { pic 0 { tunnel-service.
instanc e-type vpls; vlan-id 2000; interf ace g e-1/0/7 . 1; rout e-distinguisher 10.255. 168.231:2000; vrf-targ et targ et:1000:1; prot ocols { vpls { site-r ange 10; site vl an2000-PE1 { site-identifier 2; } } } } [edit pr otocol s] rsvp { interf ace g e-0/0 /0.
} mep 100 { interf ace g e-1/0/7 . 1; direction up; auto-disc overy; } } } } } } Config uration of PE2 [ edit chassis] fpc 5 { pic 0 { tunnel-services { bandwidth 1g; } } } [edit int erfac es] ge-5/ 0.
vrf-targ et targ et:1000:1; prot ocols { vpls { site-r ange 10; site vl an2000-PE2 { site-identifier 1; } } } } [edit pr otocol s] rsvp { interf ace g e-5/2/7 .0; } mpls { label-s witched-path PE2-t o-PE1 { to 10 .200. 1.1; } interf ace g e-5/2/7 .0; } bgp { group PE2-t o-PE1 { type internal; loc al-address 10.
auto-disc overy; } } } } } } Config uration of P rout er MPLS onl y , no CFM needed: [edit] interf aces { ge-5/2/7 { # Connec ted to PE1 unit 0 { famil y inet { address 10 .200. 1.10 /24; } famil y mpls; } } ge-0 / 1/ 0 { # Connec ted to PE2 unit 0 { famil y inet { address 10 .
disabl e; } interf ace g e-0/ 1/0. 0; interf ace g e-5/2/7 .0; } } } CFM on L2-CE1 Here is the c onfigura tion of CFM on L2-E1: [edit int erfac es] ge-5/2/3 { vlan-ta gging; unit 0 { vlan-id 2000; } }.
} mep 700 { interf ace g e-0/2/9 .0; direction do wn; auto-disc overy; } } } } } R elat ed Documenta tion Ethernet O AM • • Ethernet Oper ations, A dministra tion, and Maintenance on pa ge 103 •.
CFM on L2-CE1 [edit int erfac es] ge-0 /2/9 { vlan-ta gging; unit 0 { vlan-id 2000; } } [edit pr otocol s oam ethernet] connec tivity-faul t-management { maintenanc e-domain customer { le vel 7; maintenanc e-association c ustomer-site1 { continuity-che ck { interv al 1s; } mep 700 { interf ace g e-0/2/9 .
encapsul ation fle xible-etherne t-services; unit 0 { encapsul ation vlan-bridg e; vlan-id 2000; } } ge-5/1/ 7 { vlan-ta gging; encapsul ation fle xible-etherne t-services; unit 0 { encapsul ation vlan-bridg e; vlan-id 2000; } } [edit bridg e-domains] bridge-vl an2000 { domain-type bridge; vlan-id 2000; interf ace g e-5/0/9 .
unit 0 { encapsul ation vlan-bridg e; vlan-id 2000; } } ge-5/2/3 { vlan-ta gging; encapsul ation fle xible-etherne t-services; unit 0 { encapsul ation vlan-bridg e; vlan-id 2000; } } [edit bridg e-domains] bridge-vl an2000 { domain-type bridge; interf ace g e-5/2/3.
• Exampl e: Configuring Etherne t CFM over VPL S on page 105 • Exampl e: Configuring Etherne t CFM on Physical Int erfac es on pag e 116 Exampl e: Config uring Ethernet CFM on Phy sical Int erfac es CFM can be used t o monitor the phy sical link betw een two r outers.
mep 100 { interf ace g e-1/0/ 1; direction do wn; auto-disc overy; } } } } } } } The c onfigura tion on Rout er 2 mirrors tha t on R outer 1, with the ex ception of the mep-id .
Cop yright © 2012, Juniper Networks, Inc. 118 Junos OS 12. 1 MX Series 3D Univer sal Edge R outers Sol utions Guide.
CHAPTER 11 ITU-T Y . 1 7 31 Etherne t Fr ame Del a y Me a sur ements • Ethernet Fr ame Delay Me asurement s on page 119 • Config uring MEP Interfa ces t o Support Ethernet Frame Del ay Mea suremen.
dela y measur ement provide s fine control t o opera tors f or triggering del ay mea surement on a given servic e and can be used t o monitor Servic e Le vel Agre ements (SLAs). Ethernet fr ame delay me asurement al so coll ects other useful inf ormation, such a s worst and best ca se dela ys, av erag e dela y , and av erag e delay v ariation.
MEP . The cl ocks do not need t o be synchroniz ed at the tr ansmitting and rec eiving MEPs. The Junos O S supports the optional timestamps in del ay mea surement repl y (DMR) frame s to incre ase the ac curacy of del ay cal cul ations.
Config uring MEP Interf aces t o Support Ethernet Fr ame Dela y Mea surements Ethernet fr ame delay me asurement is a us eful tool f or providing perf ormance sta tistics or supporting or challenging S ervice L evel Agr eements (SLAs). By def ault, E thernet frame dela y measur ement uses softw are for timest amping and delay c alcul ations.
T o perform Ethernet fr ame dela y measur ement, make sure tha t the foll owing config uration st at ement is NO T present: [edit r outing-options] ppm { no-dele gat e-processing; # T his turns distributed PPMD OFF .
T able 3: Monitor E thernet Dela y Command P aramet ers ( continued) Description P arameter R ange P arameter (Optional) Spe cifies the number of seconds t o wait betwe en frames.
NO TE: The onl y differenc e in the two c ommands is the use of the mep-sta tistics and delay-st atistics k eyword . The fiel ds for thes e commands are describe d in T abl e 4 on page 125 . T able 4: Sho w Ethernet Dela y Command P aramet ers Description P arameter R ange P arameter Specifies an e xisting maintenance domain (MD ) to use.
NO TE: These ar e not compl ete rout er configur ations. Config uration on R outer MX-1 : [edit] interf aces { ge-5/2/9 { vlan-ta gging; unit 0 { vlan-id 512; } } } prot ocols { oam { ethernet { connec tivity-faul t-management { trac eoptions { file e oam_cfm.
} prot ocols { oam { ethernet { connec tivity-faul t-management { trac eoptions { file e oam_cfm.log size 1g fil es 2 worl d-readabl e; fla g all; } linktr ace { path-da tabase-siz e 255; ag e 10s; } .
Statistics: CCMs sent : 1590 CCMs received out of sequence : 0 LBMs sent : 0 Valid in-order LBRs received : 0 Valid out-of-order LBRs received : 0 LBRs received with corrupted data : 0 LBRs sent : 0 L.
Identifier MAC address State Interface 101 00:90:69:0a:48:57 ok ge-5/2/9.0 The r emote R outer MX-1 shoul d also coll ect the del ay sta tistics (up to 100 per session) for displ ay with mep-sta tistics or dela y-statistics .
2 357 3 344 4 332 5 319 6 306 7 294 8 281 9 269 10 255 Average one-way delay : 312 usec Average one-way delay variation: 11 usec Best case one-way delay : 255 usec NO TE: When tw o syst ems are cl ose to each other , their one-way del ay val ues are v ery high compared t o their two-w ay dela y values.
} } } prot ocols { oam { ethernet { connec tivity-faul t-management { trac eoptions { file e oam_cfm.log size 1g fil es 2 worl d-readabl e; fla g all; } linktr ace { path-da tabase-siz e 255; ag e 10s.
} maintenanc e-domain md6 { le vel 6; maintenanc e-association ma6 { continuity-che ck { interv al 100ms; hold-int erval 1; } mep 101 { interf ace g e-0/2/5.0; direction do wn; auto-disc overy; } } } } } } } From R outer MX-1 , st art a two-wa y dela y measur ement to R outer MX-2 .
CCMs received out of sequence : 0 LBMs sent : 0 Valid in-order LBRs received : 0 Valid out-of-order LBRs received : 0 LBRs received with corrupted data : 0 LBRs sent : 0 LTMs sent : 0 LTMs received : .
8 92 9 92 10 108 Average two-way delay : 103 usec Average two-way delay variation: 8 usec Best case two-way delay : 92 usec Worst case two-way delay : 122 usec The c ollec ted del ay sta tistics are also sa ved (up t o 100 per session) and displa yed a s part of the MEP dela y sta tistics on Rout er MX-1 .
Untagg ed interf ace c onfigura tion for R outer MX-1 . [edit] interf aces { ge-5/ 0/0 { unit 0; } ge-5/2/9 { unit 0; } } prot ocols { oam { ethernet { connec tivity-faul t-management { trac eoptions { file e oam_cfm.
connec tivity-faul t-management { trac eoptions { file e oam_cfm.log size 1g fil es 2 worl d-readabl e; fla g all; } linktr ace { path-da tabase-siz e 255; ag e 10s; } maintenanc e-domain md6 { le vel.
CHAPTER 12 IEEE 802.3ah O AM Link-F aul t Mana g ement • Ethernet O AM Link Faul t Management on p age 137 • Exampl e: Configuring Etherne t LFM Between PE and CE on p age 138 • Exampl e: Config.
Exampl e: Config uring Ethernet LFM Bet ween PE and CE In this exampl e, LFM is enabl ed on an IP link betw een the provider e dge (PE) and cust omer edge ( CE) interf aces. If the link g oes down, the f ault will be de tect ed by LFM and the interf ace s on both sides will be marked Link-La yer-Down .
link-faul t-manag ement { interf ace g e-1/ 1/0 { pdu-interv al 1000; pdu-threshol d 5; } } } } } R elat ed Documenta tion Ethernet O AM • • Ethernet O AM Link Faul t Management on p age 137 • E.
pdu-threshol d 5; } } } } } 2. Config ure LFM on the PE2 rout er with CCC: [edit] interf aces g e-1/0/ 0 { encapsul ation ethernet-c cc; unit 0; } prot ocols { oam { ethernet { link-faul t-manag ement.
T o configur e LFM on an aggreg ate d Ethernet interf ace be tween tw o router s: 1. Config ure LFM on Rout er 1 for AE0: [edit] chassis { aggre gat ed-devices { ethernet { devic e-count 1; } } } interf aces g e-1/0/1 { gigether-options { 802.3ad ae0; } } interf aces g e-2/0/ 0 { gigether-options { 802.
802.3ad ae0; } } interf aces ae0 { unit 0 { famil y inet { address 11. 11.11. 1/24; } } } prot ocols { oam { ethernet { link-faul t-manag ement { interf ace ae0; } } } } R elat ed Documenta tion Ether.
} prot ocols { oam { ethernet { link-faul t-manag ement { interf ace g e-1/0/ 0 { pdu-interv al 1000; pdu-threshol d 5; remot e-loopback; } } } } } 2. Config ure LFM loopba ck on the CE router: [edit] interf aces g e-1/ 1/ 0 { unit 0 { famil y inet { address 11.
Cop yright © 2012, Juniper Networks, Inc. 144 Junos OS 12. 1 MX Series 3D Univer sal Edge R outers Sol utions Guide.
CHAPTER 13 Etherne t Ring P r ot ec tion • Ethernet Ring P rotec tion on page 145 • Ethernet Ring P rotec tion Using Ring Instances f or Load Bal ancing on pag e 147 • Exampl e: Configuring Ethe.
Ev ery node on the ring is one of two type s: • RPL owner node— This node o wns the RPL and block s or unblock s the RPL as conditions requir e. This node initia tes the R-AP S messag e.
• Exampl e: Configuring L oad Balancing W ithin Ethernet Ring Pr otection f or MX Series R outers on pa ge 154 Ethernet Ring P rote ction Using Ring Instanc es for L oad Balancing Juniper Netw ork MX Series 3D Univ ersal Edge R outer s support Ethernet ring prot ection (ERP) to help a chieve high reliabilit y and network st ability .
Exampl e: Config uring Ethernet Ring Pr otec tion for MX Series R outers This e xample c onfigures Etherne t ring protec tion for thre e MX Series rout er nodes: • Exampl e T opology on pa ge 148 .
• R outer 2’ s east c ontrol channel int erfac e is ge-1/0 /2.1 (the RPL) and the w est control channel interf ace is g e-1/2/ 1.1 . The pr otection gr oup is pg102 . • R outer 3’ s east c ontrol channel int erfac e is ge-1/0 /3.1 (the RPL) and the w est control channel interf ace is g e-1/0/ 4.
contr ol-channel ge-1/0 / 1. 1; ring-prot ection-link-end; } west-int erfac e { contr ol-channel ge-1/2/ 4. 1; } } } } 4. C onfigure Ethernet O AM: [edit] prot ocols { oam { ethernet { connec tivity-f.
interf aces { ge-1/ 0/2 { vlan-ta gging; encapsul ation fle xible-etherne t-services; unit 1 { encapsul ation vlan-bridg e; vlan-id 100; } } ge-1/2/1 { vlan-ta gging; encapsul ation fle xible-etherne t-services; unit 1 { encapsul ation vlan-bridg e; vlan-id 100; } } } 2.
maintenanc e-domain d1 { le vel 0; maintenanc e-association 100 { mep 2 { interf ace g e-1/2/ 1; remot e-mep 1 { action-pr ofile rmep-def aults; } } } } maintenanc e-domain d3 { le vel 0; maintenanc e.
bridge-domains { bd1 { domain-type bridge; interf ace g e-1/0/ 4.1; interf ace g e-1/0/3. 1; } } 3. Config ure the Ethernet prot ection group: [edit] prot ocols { prot ection-group { ethernet-ring pg103 { ea st-interfa ce { contr ol-channel ge-1/0 /3.
} } } } } R elat ed Documenta tion Ethernet O AM • • Ethernet Ring P rotec tion on page 145 • Exampl e: Viewing Etherne t Ring Prot ection St atus—Normal Ring Opera tion on pag e 171 • Examp.
the ring coor dinat e protec tion activities by e xchanging mess ages thr ough the Ethernet ring automa tic prot ection swit ching (R-APS) messa ging protoc ol. Each ring instanc e has an RPL owner . The ring-1 RPL o wner is CS1; the ring-2 RPL owner is C S2.
T able 5: C omponents of the Network T opol ogy Set tings Propert y • ring-1 —Dat a channel [200,300] • ring-2 —Dat a channel [500,600 ] Ring instanc es T wo cust omer sites are c onnected t o.
T able 5: C omponents of the Network T opol ogy ( continued) Set tings Propert y AS1 ha s the foll owing prot ection group propertie s: • Eas t interfac e— ge-2/0 /5.0 . • W est int erface— g e-2/ 1/ 1. 0 . • Dat a channel for ring-1 — VLAN 200 , VLAN 300 .
set routing-inst ances vs bridg e-domains bd200 vlan-id 200 set routing-inst ances vs bridg e-domains bd300 vlan-id 300 set routing-inst ances vs bridg e-domains bd500 vlan-id 500 set routing-inst anc.
user@cs1> show c onfigura tion interf aces { ge-3/2/ 4 { vlan-ta gging; unit 0 { famil y bridge { interf ace-mode trunk; vlan-id-list 100-1000; } } } ge-5/2/3 { vlan-ta gging; unit 0 { famil y brid.
vlan [ 500 600 ]; } } } } routing-instanc es { vs { instanc e-type virtual-switch; interf ace g e-3/2/ 4.0; interf ace g e-5/2/3.0; bridge-domains { bd100 { vlan-id 100; } bd101 { vlan-id 101; } bd200.
set bridge-domains bd101 vl an-id 101 set bridge-domains bd200 vl an-id 200 set bridge-domains bd300 vl an-id 300 set bridge-domains bd500 vl an-id 500 set bridge-domains bd6 00 vlan-id 600 St ep-by-S.
famil y bridge { interf ace-mode trunk; vlan-id-list 100-1000; } } } ge-2/ 0/8 { unit 0 { famil y bridge { interf ace-mode trunk; vlan-id-list 100-1000; } } } prot ocols { prot ection-group { ethernet-ring ring-1 { ea st-interfa ce { contr ol-channel { ge-2/ 0/ 4.
} bd101 { vlan-id 101; } bd200 { vlan-id 200; } bd300 { vlan-id 300; } bd500 { vlan-id 500; } bd600 { vlan-id 600; } } } Config uring ERP on AS1 CLI Quick Config uration T o quickly c onfigure A S1 fo.
2. Enable ERP , specifying the control channels and da ta channels f or ring-1 and ring-2 : NO TE: Al way s configure the e ast-interf ace sta tement firs t, before config uring the west-interf ace sta tement. [edit protection-group] user@as1# set ethernet-ring ring-1 e ast-interf ace c ontrol-channel ge-2/0 /5.
} } west-int erfac e { contr ol-channel { ge-2/1/ 1.0; vlan 100; } } data-channel { vlan [200 , 300]; } } } } prot ection-group { ethernet-ring ring-2 { ea st-interfa ce { contr ol-channel { ge-2/ 0/5.0; vlan 101; } } west-int erfac e { contr ol-channel { ge-2/1/ 1.
V erifica tion T o confirm tha t the ERP configur ation for mul tiple ring ins tances is oper ating, perf orm these ta sks: • V erifying the Ethernet Prot ection Ring on CS1 on p age 166 • V erify.
ge-3/2/4 122 forwarding ge-5/2/3 123 forwarding Ethernet ring data channel parameters for protection group ring-2 Interface STP index Forward State ge-3/2/4 124 discarding ge-5/2/3 125 forwarding Meaning T he output display ed show s the STP inde x number used by ea ch interfa ce in ring instanc es ring-1 and ring-2 .
Ethernet Ring Name Request/state No Flush Ring Protection Originator Remote Node ID Link Blocked Ring-1 NR No No No 00:21:59:03:ff:d0 Ring-2 NR No Yes Yes Meaning T he output display ed show s that prot ection groups ring-1 and ring-2 ha ve a R equest/ stat e of NR , meaning ther e is no request f or APS on the ring.
Interface Vlan STP Index Bridge Domain ge-2/0/4 200 44 default — switch/bd200 ge-2/0/8 200 45 default-switch/bd200 ge-2/0/4 300 44 default — switch/bd300 ge-2/0/8 300 45 default-switch/bd300 Ether.
Ethernet ring data channel parameters for protection group ring-1 Interface STP index Forward State ge-2/0/5 22 forwarding ge-2/1/1 23 forwarding Ethernet ring data channel parameters for protection g.
Exampl e: Vie wing Ethernet Ring Pr otec tion Sta tus—Normal Ring Opera tion Under normal opera ting conditions, when Ethernet ring pr otection is c onfigured c orrectl y , the ring prot ection link.
R outer 3 will see almost identic al informa tion. user@router2> show pr otection-group etherne t-ring interfac e Ethernet ring port parameters for protection group pg102 Interface Control Channel Forward State Ring Protection Link End ge-1/2/1 ge-1/2/1.
Originator Remote Node ID No 00:01:02:00:00:01 Note tha t the ring prot ection link is no long er block ed and the node is no long er marked as origina tor .
Signal Failure Admin State Clear IFF ready set IFF ready Note tha t the fail ed interf ace ( g e-1/0/2. 1 ) is not forw arding. R outer 3 will see almost identical inf ormation.
P AR T 4 Inde x • Index on pa ge 177 175 Copyright © 2012, Juniper Net works, Inc..
Cop yright © 2012, Juniper Networks, Inc. 17 6 Junos OS 12. 1 MX Series 3D Univer sal Edge R outers Sol utions Guide.
Inde x S ymbols #, comments in c onfigura tion sta tements................. xviii ( ), in synta x descriptions.................................................. xviii < >, in synta x descriptions..................................................
Ethernet ring normal oper ation................................ 171 Ethernet ring pr otection............................................ 148 single VPL S for se veral VLANs................................. 55 VLAN tag s with VPLS label s.............
T technic al support cont acting JT A C............................................................ xviii terminol ogy Ethernet ................................................................................ 3 U user priority (IEEE 802. 1p), fil tering on.
Cop yright © 2012, Juniper Networks, Inc. 180 Junos OS 12. 1 MX Series 3D Univer sal Edge R outers Sol utions Guide.
An important point after buying a device Juniper JUNOS OS 10.4 (or even before the purchase) is to read its user manual. We should do this for several simple reasons:
If you have not bought Juniper JUNOS OS 10.4 yet, this is a good time to familiarize yourself with the basic data on the product. First of all view first pages of the manual, you can find above. You should find there the most important technical data Juniper JUNOS OS 10.4 - thus you can check whether the hardware meets your expectations. When delving into next pages of the user manual, Juniper JUNOS OS 10.4 you will learn all the available features of the product, as well as information on its operation. The information that you get Juniper JUNOS OS 10.4 will certainly help you make a decision on the purchase.
If you already are a holder of Juniper JUNOS OS 10.4, but have not read the manual yet, you should do it for the reasons described above. You will learn then if you properly used the available features, and whether you have not made any mistakes, which can shorten the lifetime Juniper JUNOS OS 10.4.
However, one of the most important roles played by the user manual is to help in solving problems with Juniper JUNOS OS 10.4. Almost always you will find there Troubleshooting, which are the most frequently occurring failures and malfunctions of the device Juniper JUNOS OS 10.4 along with tips on how to solve them. Even if you fail to solve the problem, the manual will show you a further procedure – contact to the customer service center or the nearest service center