1. Label Distribution Protocol (LDP) is a protocol in which routers capable of Multiprotocol Label
Switching (MPLS) exchange label mapping information. Two routers with an established session are
called LDP peers and the exchange of information is bi-directional. LDP is used to build and
maintain LSP databases that are used to forward traffic through MPLS networks.
LDP can be used to distribute the inner label (VC/VPN/service label) and outer label (path label) in
MPLS. For inner label distribution, targeted LDP (tLDP) is used. LDP and tLDP discovery runs on
UDP port 646 and the session is built on TCP port 646. During the discovery phase hello packets
are sent on UDP port 646 to the 'all routers on this subnet' group multicast address (224.0.0.2).
However, tLDP unicasts the hello packets to the targeted neighbor's address.
Contents
[hide]
1 LDP
2 T-LDP
3 RSVP-TE
4 See also
5 References
LDP[edit]
LDP session establishment
The Label Distribution Protocol (LDP) is a protocol defined by the IETF (RFC 5036) for the purpose
of distributing labels in an MPLS environment. LDP relies on the underlying routing information
provided by an IGP in order to forward label packets. The router forwarding information base, or FIB,
is responsible for determining the hop-by-hop path through the network. Unlike traffic engineered
paths, which use constraints and explicit routes to establish end-to-end Label Switched Paths
(LSPs), LDP is used only for signaling best-effort LSPs.
T-LDP[edit]
Targeted LDP sessions are different because during the discovery phase hellos are unicast to the
LDP peer rather than using multicast. A consequence of this is that tLDP can be set up between
non-directly connected peers whereas non-targeted LDP peers must be on the same subnet. tLDP
may still be used between connected peers if desired. On a router running TiMOS when an SDP
2. (Service Distribution Path) is configured, automatic ingress and egress labeling (targeted LDP) is
enabled by default and ingress and egress “service” labels are signaled over a TLDP connection. If
signaling is turned off on an SDP, ingress and egress “service” labels must be manually configured
when the SDP is bound to a service.
RSVP-TE[edit]
This method determines a path through the network based on the interior gateway protocol's view of
the network. If no constraints are applied to the LSP then the routers simply send the request for a
path to the active next hop for that destination, without explicit routing. The IGP at each router is free
to select active next hops based on the link state database.
![Label Distribution Protocol (LDP) is a protocol in which routers capable of Multiprotocol Label
Switching (MPLS) exchange label mapping information. Two routers with an established session are
called LDP peers and the exchange of information is bi-directional. LDP is used to build and
maintain LSP databases that are used to forward traffic through MPLS networks.
LDP can be used to distribute the inner label (VC/VPN/service label) and outer label (path label) in
MPLS. For inner label distribution, targeted LDP (tLDP) is used. LDP and tLDP discovery runs on
UDP port 646 and the session is built on TCP port 646. During the discovery phase hello packets
are sent on UDP port 646 to the 'all routers on this subnet' group multicast address (224.0.0.2).
However, tLDP unicasts the hello packets to the targeted neighbor's address.
Contents
[hide]
1 LDP
2 T-LDP
3 RSVP-TE
4 See also
5 References
LDP[edit]
LDP session establishment
The Label Distribution Protocol (LDP) is a protocol defined by the IETF (RFC 5036) for the purpose
of distributing labels in an MPLS environment. LDP relies on the underlying routing information
provided by an IGP in order to forward label packets. The router forwarding information base, or FIB,
is responsible for determining the hop-by-hop path through the network. Unlike traffic engineered
paths, which use constraints and explicit routes to establish end-to-end Label Switched Paths
(LSPs), LDP is used only for signaling best-effort LSPs.
T-LDP[edit]
Targeted LDP sessions are different because during the discovery phase hellos are unicast to the
LDP peer rather than using multicast. A consequence of this is that tLDP can be set up between
non-directly connected peers whereas non-targeted LDP peers must be on the same subnet. tLDP
may still be used between connected peers if desired. On a router running TiMOS when an SDP](https://image.slidesharecdn.com/labeldistributionprotocol-150322235414-conversion-gate01/85/Label-distribution-protocol-1-320.jpg?cb=1427086476)
![(Service Distribution Path) is configured, automatic ingress and egress labeling (targeted LDP) is
enabled by default and ingress and egress “service” labels are signaled over a TLDP connection. If
signaling is turned off on an SDP, ingress and egress “service” labels must be manually configured
when the SDP is bound to a service.
RSVP-TE[edit]
This method determines a path through the network based on the interior gateway protocol's view of
the network. If no constraints are applied to the LSP then the routers simply send the request for a
path to the active next hop for that destination, without explicit routing. The IGP at each router is free
to select active next hops based on the link state database.](data:image/gif;base64,R0lGODlhAQABAIAAAAAAAP///yH5BAEAAAAALAAAAAABAAEAAAIBRAA7)