building data centre networks with vxlan bgp evpnmdcco.ir/images/masd1/3-building data centre...
TRANSCRIPT
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Building Data CentreNetworks with
VXLAN BGP EVPN
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Agenda
Introduction to Data Centre Fabrics
VXLAN with BGP EVPN
Overview
• Underlay
• Control & Data Plane
• Multi-Tenancy
•
•
•
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Introduction to DataCentre Fabrics
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Data Centre “Fabric” Journey (Standalone)STP
VPC
FabricPath
VXLAN
MAN/WA
N
VXLAN
/EVPN
FabricPath
/BGP
MAN/WAN
MAN/WAN
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Data Centre Fabric Properties
Extended Namespace
Scalable Layer 2 Domains
Integrated Route & Bridge
Multi-Tenancy
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Overlay Based Data Centre Fabrics
Desirable Attributes:
•
•
•
•
•
•
•
•
Mobility
Segmentation
Scale
Automated & Programmable
Abstracted consumption models
Full Cross Sectional Bandwidth
Layer-2 + Layer-3 Connectivity
Physical + Virtual
RR RR
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Overlay Based Data Centre: Edge Devices
Network Overlays Hybrid OverlaysHost Overlays
Physical and Virtualoverlays which are terminated on the network nodes
VV
V
VV
V
VXLAN encapsulation or overlay on the host
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Data Centre Fabric Properties
•
•
•
•
Any subnet, anywhere, rapidly
Reduced Failure Domains
Extensible Scale & Resiliency
Profile Controlled Configuration
RR RR
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Spine/Leaf Topologies
•
•
•
•
•
High Bi-Sectional Bandwidth
Wide ECMP: Unicast or Multicast
Uniform Reachability, DeterministicLatency
High Redundancy: Node/LinkFailure
Line rate, low latency, for all traffic
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Variety of Fabric SizesMore Spine, More Bandwidth, More Resiliency
• if we need more bandwidth or more
resiliency, we can add more spines on the
top.
• by adding more of the spine switches we
get more ports down to the leaf switches
and achieve resiliency
• when we get more leaf and do that
horizontal scale out, I get more ports and
I get more capacity, so I can add more
endpoints
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VXLAN with BGP EVPN
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Agenda
Introduction to Data Centre Fabrics
VXLAN with BGP EVPN
• Overview
• Underlay
• Control & Data Plane
• Multi-Tenancy
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Overview
Introducing VXLAN
• Traditionally VLAN is expressedover 12 bits (802.1Q tag)
• Limits the maximum number ofsegments in a Data Centre to 4096VLANs
• VXLAN leverages the VNI field witha total address space of 24 bits• Support of ~16M segments
• The VXLAN Network Identifier(VNI/VNID) is part of the VXLANHeader
CRC(new)
UDP(8)
DMAC SMAC 802.1Q Etype CRCPayload
DMAC SMAC Payload
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Data Centre Fabric Properties
Extended Namespace
Scalable Layer-2 Domains
Integrated Route and Bridge
Multi-Tenancy
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• Layer 2
• Layer 3
• Layer 2 and Layer 3
Tunnel EncapsulationUnderlay Transport
Network
Control Plane
• Peer Discovery mechanism
• Route Learning and Distribution
– Local Learning
– Remote Learning
Data Plane
• Overlay Layer 2/Layer 3 Unicast traffic
• Overlay Broadcast, Unknown Unicast,Multicast traffic (BUM traffic) forwarding
– Ingress Replication
– Multicast
Understanding Overlay Technologies
Overlay Services
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Why VXLAN?
• “Standards” based Overlay (RFC 7348) which
• flood and learn segments on top of an IP routed
segment
• gives me multiple different things:
1) Segmentation
2) IP mobility
3) Scale
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Getting the Puzzle Together!
DrivingStandards based
Overlay-Evolution with
VXLAN BGPEVPN
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What is VXLAN with BGP EVPN?
• multiprotocol BGP with the address family is define as “Ethernet VPN”
• allows me to now use a BGP based control plan
• allows me to have layer 2 and layer 3 information in the BGP
• Forwarding decision based on Control-Plane
• Integrated Routing/Bridging (IRB) for Optimized Forwarding in the Overlay
• Multi-Tenancy At Scale
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EVPN – Ethernet VPN
Control-
Plane
Data-
Plane
Multi-Protocol Label Switching(MPLS)
draft-ietf-l2vpn-evpn
EVPN MP-BGP - RFC 7432
Provider Backbone Bridges
(PBB)draft-ietf-l2vpn-pbb-evpn
Network Virtualisation Overlay(NVO)
draft-ietf-bess-evpn-overlay
EVPN over NVO Tunnels (ie VXLAN) for Data CentreFabric encapsulations
Provides Layer-2 and Layer-3 Overlays over simple IP
Networks
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Getting the Puzzle Together!
Now the Puzzle Is Really about:• Having an underlay Which Scales and Allows Me to Do Network Transport
between the VTEP edge Devices. • t's about the Overlay Which Get Facilitated by VXLAN Encapsulation • It's Also the Control Plane Which Is the BGP-EVPN Piece• Last but Not Least, Integrated route and Bridge Which Allows Me to Do
Bridging and routing at the Same Time from the Edge Devices
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Getting the Puzzle Together!Optimised Networks with VXLAN
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Agenda
Introduction to Data Centre Fabrics
VXLAN with BGP EVPN
• Overview
• Underlay
• Control & Data Plane
• Multi-Tenancy
•
•
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Deployment Considerations
•
•
•
MTU and Overlays
Unicast Routing Protocol and IPAddressing
Multicast for BUM* TrafficReplication
*BUM: Broadcast, Unknown Unicast & Multicast
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Un
der
lay
50
(54
)B
yte
so
fO
ver
hea
d
Over
lay
•
•
•
•
VXLAN adds 50 Bytes (or 54 Bytes)to the Original Ethernet Frame
Avoid Fragmentation by adjustingthe IP Networks MTU
Data Centres often require JumboMTU; most Server NIC do supportup to 9000 Bytes
Using a MTU of 9216* Bytesaccommodates VXLAN Overheadplus Server max. MTU
MTU and VXLAN
Outer MAC Header
Outer IP Header
UDP Header
VXLAN Header
Original Layer-2 Frame
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Building your IP Network – Routing Protocols; OSPF
• OSPF – watch your Network type!
• Network Type Point-2-Point (P2P)
•
•
•
Preferred (only LSA type-1)No DR/BDR election
Suits well for routed interfaces/ports
(optimal from a LSA Databaseperspective)
• Full SPF calculation on Link Change
• Network Type Broadcast• Suboptimal from a LSA Database
perspective (LSA type-1 & 2)
•
•
DR/BDR electionAdditional election and Database
Overhead
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Building your IP Network – Routing Protocols; IS-IS
• IS-IS – what was this CLNS?
•
•
•
Independent of IP (CLNS)
Well suited for routed interfaces/ports
No SPF calculation on Link change;only if Topology changes
•
•
Fast Re-convergence
Not everyone is familiar with it
*CLNS: Connection-Less Network Service
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Building your IP Network – Routing Protocols; eBGP
• eBGP – Service Provider style
•
•
Two Different Models• Two-AS• Multi-ASBGP is a Distance Vector• AS* are used to calculate the Path
•
(AS_Path)
If Underlay is eBGP, your Overlay
becomes eBGP
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Building your IP Network – Routing Protocols; eBGP
• eBGP – TWO-AS, yes it works!
• Total of 8 eBGP Peering (with 4Spine)• eBGP peering for Underlay-Routing based
on physical interface
• 4 Spines = 4 BGP Peering per Leaf
• Advertise all Infrastructure Loopbacks
• eBGP peering for Overlay-Routing(EVPN)
• Loopback to Loopback Peering
• 4 Spines = 4 BGP Peering
• Requires some BGP config knobs• Disable BGP AS-Path check• Next-Hop needs to be Unchanged• Retain all Routes on Spine (not a RR)
AS#65500
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Building your IP Network – Routing Protocols; eBGP
• eBGP – Multi-AS
• Total of 8 eBGP Peering (with 4Spine)• eBGP peering for Underlay-Routing based
on physical interface
• 4 Spines = 4 BGP Peering per Leaf
• Advertise all Infrastructure Loopbacks
• eBGP peering for Overlay-Routing(EVPN)
• Loopback to Loopback Peering
• 4 Spines = 4 BGP Peering
• Requires some BGP config knobs• Next-Hop needs to be Unchanged• Retain all Routes on Spine (not a RR)
AS#65500
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Multicast Enabled Underlay
May use PIM-ASM or PIM-BiDir (Different hardware has different capabilities)
• Spine and Aggregation Switches make good Rendezvous-Point (RP) Locations in
Topologies
• Reserve a range of Multicast Groups (Destination Groups/DGroups) to service the Overlay
and optimise for diverse VNIs
• In Spine/Leaf topologies with lean Spine
•
•
•
Use multiple Rendezvous-Point across the multiple Spines
Map different VNIs to different Rendezvous-Point for simple load balancing measure
Use Redundant Rendezvous-Pint
• Design a Multicast Underlay for a Network Overlay, Host VTEPs will leverage this Network
Multicast Mode
Nexus 1000v
IGMP v2/v3
Nexus 3000
PIM ASM
Nexus 5600
PIM BiDir
Nexus 7000/F3
PIM ASM / PIM BiDir
Nexus 9000
PIM ASM
ASR 1000CSR 1000
PIM BiDir
ASR 9000
PIM ASM / PIM BiDir
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• Multi-Destination Traffic (Broadcast, Unknown Unicast, etc.) needs to bereplicated to ALL VTEPs serving a given VNI• Each VTEP is Multicast Source & Receiver
•
•
•
For a given VNI, all VTEPs act as a Sender and a Receiver
Head-End Replication will depend on hardware scale/capability
Resilient, efficient, and scalable Multicast Forwarding is highly desirable
•
•
•
Choose the right Multicast Routing Protocol for your need (type/mode)Use redundant Multicast Rendezvous Points (Spine/Aggregation generally preferred)99% percent of Overlay problems are in the Underlay (OTV experience)
To Remember - Multicast Enabled Underlay
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Agenda
Introduction to Data Centre Fabrics
VXLAN with BGP EVPN
• Overview
• Underlay
• Control & Data Plane
• Multi-Tenancy
•
•
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Multiprotocol BGP (MP-BGP) Primer
RR RR
V2V1
V3
BGP Route-ReflectorRR
iBGP Peering*
*eBGP supported without BGP Route-Reflector
•
•
Multiprotocol BGP (MP-BGP)
Extension to Border GatewayProtocol (BGP) - RFC 4760
• VPN Address-Family:
• Allows different types of addressfamilies (e.g. VPNv4, VPNv6, L2VPNEVPN, MVPN)
• Information transported across singleBGP peering
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Imp Route-Target 65500:50000 (auto)Route-Target 65500:50000 (auto)
Multiprotocol BGP (MP-BGP) Primer
• VPN segmentation for tenant routing(Multi-Tenancy)
• Route Distinguisher (RD)
• 8-byte field of VRF parameters
• value to make VPN prefix unique:
• RD + VPN prefix
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Multiprotocol BGP (MP-BGP) Primer
• Cisco’s VXLAN/EVPN does provideautomated Route Distinguisher (RD) VRF Info
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Subnet Route Advertisement
• IP Prefix Redistribution
• From “Direct” (connected), “Static” ordynamically learned Routes
• VTEP V1 advertises local Subnetthrough redistribution of “Direct”(connected) routes
• IP Prefix, IP Prefix Length, and L3VNI
• Additional route attributesadvertised
• MPLS Label (L3VNI)
• Extended Communities
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Subnet Route Advertisement
• If multiple VTEP announce same IPPrefix, Equal Cost Multipath (ECMP)will apply
• VTEP V1 advertises local Subnetthrough redistribution of “Direct”(connected) routes
• IP Prefix, IP Prefix Length, and L3VNI
• Additional route attributesadvertised
• MPLS Label (L3VNI)
• Extended Communities
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Subnet Route Advertisement
• IP Prefix Learning
• via BGP with VRF-Lite (Inter-AS
•
Option A)
• via LISP on Nexus 7000/7700
• via other routing protocol (static ordynamic)
VTEP V1 participated in externalPeering (LISP, BGP, OSPF etc.)and advertises learned IP Prefixesinto the Fabric
• IP Prefix
• IP Prefix Length
• L3VNI
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ARP SuppressionVXLAN/EVPN
Host AMAC_A / IP_A
1
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ARP Handling on Lookup “Miss” (1)VXLAN/EVPN
1
2
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ARP Handling on Lookup “Miss” (2)VXLAN/EVPN
RR RR
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Packet Forwarding (Bridge)VXLAN/EVPN
RR
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Host AMAC_A / IP_A
Packet Forwarding (Route)VXLAN/EVPN
RR
1
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Packet Forwarding (Route) – Silent HostVXLAN/EVPN
Host AMAC_A / IP_A Host F
MAC_F, IP_F
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Data Centre Fabric Properties
Extended Namespace
Scalable Layer-2 Domains
Integrated Route and Bridge
Multi-Tenancy
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• a network addressing and
•
routing methodology
datagrams sent from a singlesender to the topologically
•
nearest node
group of potential receivers,all identified by the samedestination address
Anycast – One-to-Nearest Association
RR RR
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Distributed IP Anycast Gateway
• Distributed Inter-VXLAN Routing at
Access Layer (Leaf)• All Leafs share same gateway IP and
MAC Address for a given Subnet
• Gateway is always active
• no redundancy protocol, helloexchange etc.
• Distributed state - Smaller ARPtables• Only local attached End-Points
(Servers)
RR RR
SVI 100
SVI 200
SVI 100
SVI 200
SVI 100
SVI 200
SVI 100
SVI 200
SVI 100
SVI 200
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Distributed IP Anycast Gateway
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Integrated Routing and Bridging (IRB)
VXLAN/EVPN based overlays follow
two slightly different IntegratedRouting and Bridging (IRB) semantics
• AsymmetricUses an “asymmetric path” from the•Host towards the egressing port of theVTEP vs. the way back
• Symmetric*Uses an “symmetric path” from the•Host towards the egressing port of theVTEP vs. the way back
RR RR
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Consistent Configuration
• Logical Configuration (VLAN, VRF,VNI) consistently instantiated on ALLLeafs
• Optimal for Consistency
• Every VLAN/VNI Everywhere
• Sub-Optimal for Scale
• Instantiates Resources (VLAN/VNI)even if no End-Point uses it
RR RR
SVI 100
SVI 200
SVI 300
SVI 100
SVI 200
SVI 300
SVI 100
SVI 200
SVI 300
SVI 100
SVI 200
SVI 300
SVI 100
SVI 200
SVI 300
SVI 100
SVI 200
SVI 300
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Scoped Configuration
• Logical Configuration (VLAN, VRF,VNI) scoped to Leafs with respectiveconnected End-Points
• Optimal for Scale• Instantiates Resources (VLAN/VNI)
where End-Points are connected
• Consistency with End-Points• Configuration Consistency depends
on End-Points
RR RR
SVI 100
SVI 200
SVI 200
SVI 300
SVI 100
SVI 100
SVI 200
SVI 300
SVI 300
SVI 200
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SV
I3
00
SV
I2
00
SV
I2
00
SV
I3
00
Asymmetric IRB
•
•
•
Similar to todays Inter-VLAN routing
Requires to follow a consistentconfiguration of VLAN and L2VNIacross all Switches
Post routed traffic will leveragedestination Layer 2 Segment(L2VNI), same as for bridged traffic
RR RR
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SV
I2
00
SV
I3
00
Asymmetric IRB
RR
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Asymmetric IRB
L2VNI 30001
L2VNI 30002
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SV
I3
00
SV
I2
00
SV
I2
00
SV
I3
00
Symmetric IRB
•
•
•
•
Similar to Transit Routing Segments
Scoped Configuration ofVLAN/L2VNI; only required whereEnd-Points (Server) reside
New VNI (L3VNI) introduced pervirtual routing and forwarding (VRF)context
Routed traffic uses transit VNI(L3VNI), while bridged traffic usesL2VNI
RR RR
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SV
I3
00
SV
I2
00
SV
I2
00
SV
I3
00
Symmetric IRB
RR RR
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Symmetric IRB
L3VNI 50001 (VRF)
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Data Centre Fabric Properties
Extended Namespace
Scalable Layer-2 Domains
Integrated Route and Bridge
Multi-Tenancy
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Introduction to Data Centre Fabrics
VXLAN with BGP EVPN
• Overview
• Underlay
• Control & Data Plane
• Multi-Tenancy
•
•
Agenda
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•
•
A mode of operation, where multiple independent instances (tenant)operate in a shared environment.
Each instance (i.e. VRF/VLAN) is logically isolated, but physically
integrated.
What is Multi-Tenancy
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Where can we apply Multi-Tenancy
Multi-Tenancy at Layer-2
•
•
Per-Switch VLAN-to-VNI mapping
Per-Port VLAN Significance
Multi-Tenancy at Layer-3
•
•
VRF-to-VNI mapping
MP-BGP for scaling with VPNs
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Layer-2 Multi-Tenancy
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Host1MAC: AA:AA:AA:AA:AA:AA
IP: 192.168.1.11
VLAN 100
VXLAN VNI 30001
Host3MAC: CC:CC:CC:CC:CC:CC
IP: 192.168.1.33
VLAN 100
VXLAN VNI 30001
V
VLAN 100
V
VLAN 100
Layer-2 Multi-Tenancy – Bridge Domains
VXLAN Overlay
(VNI 30001)
Leaf
Bridge Domain
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Layer-2 Multi-Tenancy – Bridge Domains
VXL
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VLAN-to-VNI Mapping
Host1MAC: AA:AA:AA:AA:AA:AA
IP: 192.168.1.11
VLAN 100
VXLAN VNI 30001
Host3MAC: CC:CC:CC:CC:CC:CC
IP: 192.168.1.33
VLAN 100
VXLAN VNI 30001
Leaf
V
VLAN 100
V
VLAN 100
VXLAN Overlay(VNI 30001)
Host2MAC: BB:BB:BB:BB:BB:BB
IP: 192.168.1.22
VLAN 100
VXLAN VNI 30001
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Host1MAC: AA:AA:AA:AA:AA:AA
IP: 192.168.1.11
VLAN 100
VXLAN VNI 30001
Host3MAC: CC:CC:CC:CC:CC:CC
IP: 192.168.1.33
VLAN 200
VXLAN VNI 30001
V
VLAN 200
Per-Switch VLAN-to-VNI Mapping
VXLAN Overlay(VNI 30001)
Leaf
V
VLAN 100
Host2MAC: BB:BB:BB:BB:BB:BB
IP: 192.168.1.22
VLAN 100
VXLAN VNI 30001
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Host1MAC: AA:AA:AA:AA:AA:AA
IP: 192.168.1.11
VLAN 100
VXLAN VNI 30001
Host3MAC: CC:CC:CC:CC:CC:CC
IP: 192.168.1.33
VLAN 300
VXLAN VNI 30001
V
VLAN 100 VLAN 300
Per-Port VLAN-to-VNI Mapping
VXLAN Overlay(VNI 30001)
Leaf
V
Host2MAC: BB:BB:BB:BB:BB:BB
IP: 192.168.1.22
VLAN 200
VXLAN VNI 30001
VLAN 200
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Layer-3 Multi-Tenancy
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Layer-3 Multi-Tenancy – VRF-VNI or L3VNI
VRF-B(VNI 50002)
Routing
VRF-A(VNI 50001)
Routing
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Layer-3 Multi-Tenancy – VRF-VNI or L3VNI
VRF-A VRF-B
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Layer-3 Multi-Tenancy – VRF-Lite
VLAN 1001EthernetVLAN 1002
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Layer-3 Multi-Tenancy – MPLS L3VPN
VPN Label “Blue”
MPLSVPN Label “Red”
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V
SVI 300SVI 200SVI 100
Host1
MAC: AA:AA:AA:AA:AA:AA
IP: 192.168.1.11 (VRF-A)
VLAN 100
VXLAN VNI 30001
Host2
MAC: BB:BB:BB:BB:BB:BB
IP: 10.10.10.22 (VRF-B)
VLAN 200
VXLAN VNI 30002
Host3
MAC: CC:CC:CC:CC:CC:CC
IP: 172.16.1.33 (VRF-B)
VLAN 300
VXLAN VNI 30003
Host4
MAC: DD:DD:DD:DD:DD:DD
IP: 10.44.44.44 (VRF-A)
VLAN 400
VXLAN VNI 30004
SVI 400
Layer-3 Multi-Tenancy – VXLAN EVPN
L3VNI 50001
VXLANL3VNI 50002
Leaf
V
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Integrated Route & Bridge + Multi-Tenancy
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Integrated Route & Bridge + Multi-Tenancy