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  • +49 6151 277 6496
  • JL2V – Junos Layer 2 VPNs

    Duration
    3 Tage
    Delivery
    (Online Und Vor Ort)
    Price
    Preis auf Anfrage

    This three-day course is designed to provide students with the knowledge to configure and troubleshoot MPLS-based Layer 2 virtual private networks (VPN). The course includes an overview of MPLS Layer 2 VPN concepts, such as BGP Layer 2 VPNs, LDP Layer 2 circuits, forwarding equivalence class (FEC) 129, virtual private LAN service (VPLS), Ethernet VPN (EVPN), and Inter-AS MPLS VPNs.

     

    This course also covers Junos OSspecific implementations of Layer 2 VPN instances, VPLS, and EVPNs. This course is based on the Junos OS Release 21.4R1.12.

     

    Associated Certification:
    JNCIP-SP

    • Describe some of the different kinds of VPNs, their mechanics, and their use cases
    • Describe the types of MPLS VPN that operate at layer 2.
    • Describe the mechanics of BGP-signaled pseudowires, also known as L2VPNs.
    • Configure BGP-signaled L2VPNs with Ethernet and Ethernet-VLAN encapsulations.
    • Demonstrate how to troubleshoot some of the most common BGP-signaled L2VPN configuration problems.
    • Describe how BGP-signaled L2VPNs use a block of labels to bring efficiency tohuband-spoke advertisements.
    • Configure advanced BGP-signaled L2VPN features, such as multihoming, VLAN normalization, and route target constraint.
    • Describe the mechanics of LDP-signaled pseudowires, also known as Layer 2 Circuits.
    • Describe the causes and solutions of some of the most common L2Circuit configuration problems.
    • Configure advanced LDP-signaled L2Circuit features, such as multihoming and local switching.
    • Explain how the FEC 129 pseudowire method combines BGP for autodiscovery and LDP for signaling.
    • Describe the purpose and mechanics of a VPLS.
    • Create a VPLS instance that is signaled using BGP and demonstrate the commands that verify its status.
    • Create VPLS instances that are signaled using LDP and FEC 129 and demonstrate the commands available to verify their status.
    • Describe how mismatched VLAN tags are handled in a default VPLS configuration.
    • Configure a VPLS to swap mismatched VLAN tags automatically, and to create multiple bridge domains inside a single VPLS instance.
    • Configure the most important VPLS traffic management features, including flood protection, MAC limiting, IRB interfaces, and automated Site IDs.
    • Configure hub-and-spoke VPLS topologies.
    • Configure multihomed sites in a VPLS.
    • Describe the features of Ethernet VPN, and the enhancements that EVPN brings over VPLS.
    • Explain how EVPNs advertise MAC addresses, and how they request to receive flooded traffic within a bridge domain.
    • Configure and verify a single-homed VLAN-based EVPN instance.
    • Configure and verify a single-homed VLAN-aware bundle EVI.
    • Configure a multihomed EVPN and explain the purpose of the EVPN Type 4 route.
    • Describe the features provided by EVPN Type 1 routes.
    • Describe how to use MAC Mobility and IRB interfaces in an EVPN.
    • Explain how EVPNs can tightly integrate themselves into MPLS Layer 3 VPNs to provide highly efficient forwarding.
    • Describe and configure various solutions that create MPLS VPNs between service providers.
    • Describe the circuit-cross connect pseudowire method and explain how this old method can still have value in modern networks.
    • Describe how multisegment pseudowires can create layer 2 VPNs across autonomous system boundaries.

    DAY 1

    1. Course Introduction

     

    2. Refresher—VPNs and MPLS

    • Explain the basic function and purpose of a VPN
    • Describe how MPLS uses labels to forward traffic
    • Explain the differences between MPLS layer 3 VPNs and MPLS layer 2 VPNs

     

    3. The Different Flavors of Layer 2 VPN

    • Describe the purpose and creation of pseudowires
    • Define the different technical terms relating to pseudowires
    • Describe the purpose and creation of VPLS
    • Describe the purpose, creation, and advantages of EVPN

     

    4. L2VPN, aka BGP-Signaled Pseudowires

    • Define the concept of an attachment circuit, and of pseudowire encapsulation
    • Explain the importance of route targets, route distinguishers, and Site IDs
    • Explain the control plane and data plane of an L2VPN
    • Describe the contents of an L2VPN BGP packet capture

     

    5. L2VPN—Configuration

    • Configure an L2VPN that accepts all Ethernet traffic
    • Configure an L2VPN that accepts specific VLAN tags

     

    6. L2VPN—Troubleshooting

    • Diagnose and fix L2VPN problems caused by missing LSPs, mismatched site information, and incorrect configuration

     

    7. L2VPN—Site IDs, the Label Base, and Overprovisioning

    • Explain the purpose of the Site ID and the VPN label base
    • Configure an overprovisioned L2VPN with explicit remote Site IDs
    • Configure an overprovisioned L2VPN with implicit remote Site IDs

     

    Lab 1: BGP-Signaled Layer 2 VPNs

     

    8. L2VPN—Advanced Concepts

    • Configure and verify L2VPN multihoming
    • Explain the purpose of Martini encapsulation
    • Configure VLAN normalization in an L2VPN
    • Configure out-of-band route reflection and route target constraint

     

    Lab 2: L2VPNs—Advanced Concepts

     

    9. L2Circuit—LDP-Signaled Pseudowires

    • Explain the concept of targeted LDP sessions, and the elements that L2Circuits have in common with L2VPNs
    • Configure and verify an L2Circuit
    • Describe the contents of an LDP advertisement packet capture

     

    10. L2Circuit—Troubleshooting

    • Configure the Pseudowire Status TLV
    • Explain the meaning of the most frequent L2Circuit error codes

     

    DAY 2

    11. L2Circuit—Advanced Concepts

    • Describe the purpose and benefits of virtual circuit connectivity verification
    • Configure multihoming, local switching, and interworking

    Lab 3: LDP-Signaled L2Circuits

     

     

    12. FEC 129 Pseudowires

    • Explain the way that FEC 129 autodiscovers remote PEs and signals pseudowires
    • Configure and verify a FEC 129 pseudowire

     

    Lab 4: FEC 129 Pseudowires (Optional)

     

    13. Virtual Private LAN Service—Introduction

    • Describe how a VPLS is built, and how it compares to a regular pseudowire
    • Explain how VPLS forwards traffic between multiple sites
    • Describe the BGP and LDP methods of signaling a VPLS

     

    14. VPLS—BGP Configuration and Verification

    • Configure a BGP-signaled VPLS
    • Verify a BGP-signaled VPLS

     

    15. VPLS—LDP and FEC 129 Configuration and Verification

    • Configure and verify an LDP-signaled VPLS
    • Configure and verify a FEC 129 VPLS

     

    16. VPLS—The Default VLAN Mode

    • Define the four VLAN modes for VPLS
    • Define the concept of a bridge domain, and verify the default VPLS VLAN mode

     

    17. VPLS—VLAN Normalization, VLAN-Aware Instances, and Dual-Stacked VLANs

    • Configure and verify VLAN-Aware mode
    • Configure and verify VLAN-Normalizing mode and NoVLAN mode
    • Configure and verify dual-stacked VLAN tags in VPLS

     

    18. VPLS—Advanced Features and Troubleshooting

    • Deploy automated BGP VPLS Site IDs
    • Configure flood protection, MAC flap protection, and MAC limiting
    • Explain how to add IRB interfaces to a VPLS, and configure efficient traffic flooding using multicast LSPs
    • Describe the most important VPLS-specific troubleshooting techniques

     

    19. VPLS—Multihoming

    • Configure multihomed sites in a BGP-signaled VPLS
    • Configure multihomed sites and single sites on the same PE in a BGP-signaled VPLS
    • Configure best-site multihoming in a BGP-signaled VPLS
    • Configure multihomed sites in an LDP-signaled VPLS

     

    Lab 5: VPLs

     

    Days 3

    20. EVPN—Introduction

    • Explain the main disadvantages of a VPLS solution
    • Explain how EVPN overcomes these disadvantages, and enables extra features

     

    21. EVPN—Using BGP to Advertise MACs and to Flood Traffic

    • Explain the meaning of an EVPN Instance
    • Describe how EVPN Type 2 routes advertise MAC addresses and MAC/IP bindings
    • Describe how EVPN Type 3 routes request to receive flooded traffic within a bridge domain

     

    22. EVPN—Configuring a Single-Homed VLAN-Based EVI

    • Configure a service provider network to host EVPN services
    • Configure a single-homed VLAN-based EVI
    • Verify a VLAN-based EVI

     

    23. EVPN—Configuring a Single-Homed VLAN-Aware Bundle EVI

    • Configure a VLAN-aware bundle EVI
    • Verify a VLAN-aware bundle EVI

     

    24. EVPN—Multihoming Configuration and Type 4 Routes

    • Configure a CE and two PEs to take part in a multihomed EVPN
    • Describe the contents of the Type 4 Ethernet Segment route
    • Explain how the Type 4 route prevents layer 2 loops, using the designated forwarder election

     

    25. EVPN—Multihoming Features Using Type 1 Routes

    • Describe Type 1 Ethernet Auto-Discovery Per-Ethernet Segment routes
    • Explain how Type 1 Per-Ethernet Segment routes prevent layer 2 loops
    • Describe how Type 1 Per-EVI routes are different from Per-ES routes

     

    26 EVPN—MAC Mobility and IRB Interfaces

    • Configure and verify the EVPN MAC Mobility feature
    • Configure and verify Automatic Gateway MAC-IP Synchronization
    • Configure and verify Manual Gateway MAC-IP Synchronization
    • Configure and verify EVPN Virtual Gateway Addresses

     

    Lab 6: EVPN

     

    SELF-STUDY MATERIALS

    A EVPN—Integration with L3VPNs

    • Describe the basic functionality of an L3VPN
    • Explain how EVPNs and L3VPNs integrate for optimal routing
    • Describe how chained composite next hop brings efficiency to EVPN in the Packet Forwarding Engine B Inter-AS MPLS VPNs
    • Describe the functionality of Interprovider Options A, B, and C
    • Configure and verify the Interprovider Option C method
    • Describe and configure carrier-of-carriers VPNs C Circuit Cross-Connect
    • Use circuit cross-connect to stitch pseudowires together, and to signal pseudowires that have their own pair of dedicated RSVP LSPs D Multisegment Pseudowires
    • Explain how a multisegment pseudowire is signaled
    • Configure and verify a multisegment pseudowire

     

    Lab 7: Inter-AS L2VPNs

     

    E VPLS—Hub-and-Spoke Topologies

    • Configure a hub-and-spoke BGP VPLS using route targets
    • Configure a hub-and-spoke BGP VPLS using site ranges
    • Configure a hub-and-spoke LDP VPLS using hierarchical VPLs

    Benefits individuals responsible for configuring and monitoring devices running the Junos OS in a service provider environment, in MPLS-based data centers, and in larger enterprises

    • Intermediate-level networking knowledge;
    • An understanding of OSPF, IS-IS, BGP, and Junos routing policy;
    • Experience configuring MPLS label-switched paths using Junos;
    • Completion of the following courses, or equivalent knowledge
      • Introduction to the Junos Operating System
      • Junos Service Provider Switching
      • Junos Intermediate Routing
      • Junos MPLS Fundamentals

    This three-day course is designed to provide students with the knowledge to configure and troubleshoot MPLS-based Layer 2 virtual private networks (VPN). The course includes an overview of MPLS Layer 2 VPN concepts, such as BGP Layer 2 VPNs, LDP Layer 2 circuits, forwarding equivalence class (FEC) 129, virtual private LAN service (VPLS), Ethernet VPN (EVPN), and Inter-AS MPLS VPNs.

     

    This course also covers Junos OSspecific implementations of Layer 2 VPN instances, VPLS, and EVPNs. This course is based on the Junos OS Release 21.4R1.12.

     

    Associated Certification:
    JNCIP-SP

    • Describe some of the different kinds of VPNs, their mechanics, and their use cases
    • Describe the types of MPLS VPN that operate at layer 2.
    • Describe the mechanics of BGP-signaled pseudowires, also known as L2VPNs.
    • Configure BGP-signaled L2VPNs with Ethernet and Ethernet-VLAN encapsulations.
    • Demonstrate how to troubleshoot some of the most common BGP-signaled L2VPN configuration problems.
    • Describe how BGP-signaled L2VPNs use a block of labels to bring efficiency tohuband-spoke advertisements.
    • Configure advanced BGP-signaled L2VPN features, such as multihoming, VLAN normalization, and route target constraint.
    • Describe the mechanics of LDP-signaled pseudowires, also known as Layer 2 Circuits.
    • Describe the causes and solutions of some of the most common L2Circuit configuration problems.
    • Configure advanced LDP-signaled L2Circuit features, such as multihoming and local switching.
    • Explain how the FEC 129 pseudowire method combines BGP for autodiscovery and LDP for signaling.
    • Describe the purpose and mechanics of a VPLS.
    • Create a VPLS instance that is signaled using BGP and demonstrate the commands that verify its status.
    • Create VPLS instances that are signaled using LDP and FEC 129 and demonstrate the commands available to verify their status.
    • Describe how mismatched VLAN tags are handled in a default VPLS configuration.
    • Configure a VPLS to swap mismatched VLAN tags automatically, and to create multiple bridge domains inside a single VPLS instance.
    • Configure the most important VPLS traffic management features, including flood protection, MAC limiting, IRB interfaces, and automated Site IDs.
    • Configure hub-and-spoke VPLS topologies.
    • Configure multihomed sites in a VPLS.
    • Describe the features of Ethernet VPN, and the enhancements that EVPN brings over VPLS.
    • Explain how EVPNs advertise MAC addresses, and how they request to receive flooded traffic within a bridge domain.
    • Configure and verify a single-homed VLAN-based EVPN instance.
    • Configure and verify a single-homed VLAN-aware bundle EVI.
    • Configure a multihomed EVPN and explain the purpose of the EVPN Type 4 route.
    • Describe the features provided by EVPN Type 1 routes.
    • Describe how to use MAC Mobility and IRB interfaces in an EVPN.
    • Explain how EVPNs can tightly integrate themselves into MPLS Layer 3 VPNs to provide highly efficient forwarding.
    • Describe and configure various solutions that create MPLS VPNs between service providers.
    • Describe the circuit-cross connect pseudowire method and explain how this old method can still have value in modern networks.
    • Describe how multisegment pseudowires can create layer 2 VPNs across autonomous system boundaries.

    DAY 1

    1. Course Introduction

     

    2. Refresher—VPNs and MPLS

    • Explain the basic function and purpose of a VPN
    • Describe how MPLS uses labels to forward traffic
    • Explain the differences between MPLS layer 3 VPNs and MPLS layer 2 VPNs

     

    3. The Different Flavors of Layer 2 VPN

    • Describe the purpose and creation of pseudowires
    • Define the different technical terms relating to pseudowires
    • Describe the purpose and creation of VPLS
    • Describe the purpose, creation, and advantages of EVPN

     

    4. L2VPN, aka BGP-Signaled Pseudowires

    • Define the concept of an attachment circuit, and of pseudowire encapsulation
    • Explain the importance of route targets, route distinguishers, and Site IDs
    • Explain the control plane and data plane of an L2VPN
    • Describe the contents of an L2VPN BGP packet capture

     

    5. L2VPN—Configuration

    • Configure an L2VPN that accepts all Ethernet traffic
    • Configure an L2VPN that accepts specific VLAN tags

     

    6. L2VPN—Troubleshooting

    • Diagnose and fix L2VPN problems caused by missing LSPs, mismatched site information, and incorrect configuration

     

    7. L2VPN—Site IDs, the Label Base, and Overprovisioning

    • Explain the purpose of the Site ID and the VPN label base
    • Configure an overprovisioned L2VPN with explicit remote Site IDs
    • Configure an overprovisioned L2VPN with implicit remote Site IDs

     

    Lab 1: BGP-Signaled Layer 2 VPNs

     

    8. L2VPN—Advanced Concepts

    • Configure and verify L2VPN multihoming
    • Explain the purpose of Martini encapsulation
    • Configure VLAN normalization in an L2VPN
    • Configure out-of-band route reflection and route target constraint

     

    Lab 2: L2VPNs—Advanced Concepts

     

    9. L2Circuit—LDP-Signaled Pseudowires

    • Explain the concept of targeted LDP sessions, and the elements that L2Circuits have in common with L2VPNs
    • Configure and verify an L2Circuit
    • Describe the contents of an LDP advertisement packet capture

     

    10. L2Circuit—Troubleshooting

    • Configure the Pseudowire Status TLV
    • Explain the meaning of the most frequent L2Circuit error codes

     

    DAY 2

    11. L2Circuit—Advanced Concepts

    • Describe the purpose and benefits of virtual circuit connectivity verification
    • Configure multihoming, local switching, and interworking

    Lab 3: LDP-Signaled L2Circuits

     

     

    12. FEC 129 Pseudowires

    • Explain the way that FEC 129 autodiscovers remote PEs and signals pseudowires
    • Configure and verify a FEC 129 pseudowire

     

    Lab 4: FEC 129 Pseudowires (Optional)

     

    13. Virtual Private LAN Service—Introduction

    • Describe how a VPLS is built, and how it compares to a regular pseudowire
    • Explain how VPLS forwards traffic between multiple sites
    • Describe the BGP and LDP methods of signaling a VPLS

     

    14. VPLS—BGP Configuration and Verification

    • Configure a BGP-signaled VPLS
    • Verify a BGP-signaled VPLS

     

    15. VPLS—LDP and FEC 129 Configuration and Verification

    • Configure and verify an LDP-signaled VPLS
    • Configure and verify a FEC 129 VPLS

     

    16. VPLS—The Default VLAN Mode

    • Define the four VLAN modes for VPLS
    • Define the concept of a bridge domain, and verify the default VPLS VLAN mode

     

    17. VPLS—VLAN Normalization, VLAN-Aware Instances, and Dual-Stacked VLANs

    • Configure and verify VLAN-Aware mode
    • Configure and verify VLAN-Normalizing mode and NoVLAN mode
    • Configure and verify dual-stacked VLAN tags in VPLS

     

    18. VPLS—Advanced Features and Troubleshooting

    • Deploy automated BGP VPLS Site IDs
    • Configure flood protection, MAC flap protection, and MAC limiting
    • Explain how to add IRB interfaces to a VPLS, and configure efficient traffic flooding using multicast LSPs
    • Describe the most important VPLS-specific troubleshooting techniques

     

    19. VPLS—Multihoming

    • Configure multihomed sites in a BGP-signaled VPLS
    • Configure multihomed sites and single sites on the same PE in a BGP-signaled VPLS
    • Configure best-site multihoming in a BGP-signaled VPLS
    • Configure multihomed sites in an LDP-signaled VPLS

     

    Lab 5: VPLs

     

    Days 3

    20. EVPN—Introduction

    • Explain the main disadvantages of a VPLS solution
    • Explain how EVPN overcomes these disadvantages, and enables extra features

     

    21. EVPN—Using BGP to Advertise MACs and to Flood Traffic

    • Explain the meaning of an EVPN Instance
    • Describe how EVPN Type 2 routes advertise MAC addresses and MAC/IP bindings
    • Describe how EVPN Type 3 routes request to receive flooded traffic within a bridge domain

     

    22. EVPN—Configuring a Single-Homed VLAN-Based EVI

    • Configure a service provider network to host EVPN services
    • Configure a single-homed VLAN-based EVI
    • Verify a VLAN-based EVI

     

    23. EVPN—Configuring a Single-Homed VLAN-Aware Bundle EVI

    • Configure a VLAN-aware bundle EVI
    • Verify a VLAN-aware bundle EVI

     

    24. EVPN—Multihoming Configuration and Type 4 Routes

    • Configure a CE and two PEs to take part in a multihomed EVPN
    • Describe the contents of the Type 4 Ethernet Segment route
    • Explain how the Type 4 route prevents layer 2 loops, using the designated forwarder election

     

    25. EVPN—Multihoming Features Using Type 1 Routes

    • Describe Type 1 Ethernet Auto-Discovery Per-Ethernet Segment routes
    • Explain how Type 1 Per-Ethernet Segment routes prevent layer 2 loops
    • Describe how Type 1 Per-EVI routes are different from Per-ES routes

     

    26 EVPN—MAC Mobility and IRB Interfaces

    • Configure and verify the EVPN MAC Mobility feature
    • Configure and verify Automatic Gateway MAC-IP Synchronization
    • Configure and verify Manual Gateway MAC-IP Synchronization
    • Configure and verify EVPN Virtual Gateway Addresses

     

    Lab 6: EVPN

     

    SELF-STUDY MATERIALS

    A EVPN—Integration with L3VPNs

    • Describe the basic functionality of an L3VPN
    • Explain how EVPNs and L3VPNs integrate for optimal routing
    • Describe how chained composite next hop brings efficiency to EVPN in the Packet Forwarding Engine B Inter-AS MPLS VPNs
    • Describe the functionality of Interprovider Options A, B, and C
    • Configure and verify the Interprovider Option C method
    • Describe and configure carrier-of-carriers VPNs C Circuit Cross-Connect
    • Use circuit cross-connect to stitch pseudowires together, and to signal pseudowires that have their own pair of dedicated RSVP LSPs D Multisegment Pseudowires
    • Explain how a multisegment pseudowire is signaled
    • Configure and verify a multisegment pseudowire

     

    Lab 7: Inter-AS L2VPNs

     

    E VPLS—Hub-and-Spoke Topologies

    • Configure a hub-and-spoke BGP VPLS using route targets
    • Configure a hub-and-spoke BGP VPLS using site ranges
    • Configure a hub-and-spoke LDP VPLS using hierarchical VPLs

    Benefits individuals responsible for configuring and monitoring devices running the Junos OS in a service provider environment, in MPLS-based data centers, and in larger enterprises

    • Intermediate-level networking knowledge;
    • An understanding of OSPF, IS-IS, BGP, and Junos routing policy;
    • Experience configuring MPLS label-switched paths using Junos;
    • Completion of the following courses, or equivalent knowledge
      • Introduction to the Junos Operating System
      • Junos Service Provider Switching
      • Junos Intermediate Routing
      • Junos MPLS Fundamentals
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