Which port state is introduced by Rapid-PVST?
A.
learning
B.
listening
C.
discarding
D.
forwarding
Explanation:
Spanning Tree from PVST+ to Rapid-PVST Migration Configuration Example
Reference 1:
http://www.cisco.com/en/US/products/hw/switches/ps708/products_configuration_example09186
a 00807b0670.shtml
Reference2:
http://www.cisco.com/en/US/tech/tk389/tk621/technologies_white_paper09186a0080094cfa.shtm
l
PVST+ is based on IEEE802.1D Spanning Tree Protocol (STP). But PVST+ has only 3 port states
(discarding, learning and forwarding) while STP has 5 port states (blocking, listening, learning,
forwarding and disabled). So discarding is a new port state in PVST+.Background Information 802.1D Spanning Tree Protocol (STP) has a drawback of slow convergence.
Cisco Catalyst switches support three types of STPs, which are PVST+, rapid-PVST+ and MST. PVST+ is
based on IEEE802.1D standard and includes Cisco proprietary extensions such as BackboneFast,
UplinkFast, and PortFast. Rapid-PVST+ is based on IEEE 802.1w standard and has a faster
convergence than 802.1D. RSTP (IEEE 802.1w) natively includes most of the Cisco proprietary
enhancements to the 802.1D Spanning Tree, such as BackboneFast and UplinkFast. Rapid-PVST+ has
these unique features:
Uses Bridge Protocol Data Unit (BPDU) version 2 which is backward compatible with the 802.1D STP,
which uses BPDU version 0. All the switches generate BPDUs and send out on all the ports every 2
seconds, whereas in 802.1D STP only the root bridge sends the configuration BPDUs. Port Roles—
Root port, designated port, alternate port and backup port. Port States—Discarding, Learning, and
Forwarding. Port Types—Edge Port (PortFast), Point-to-Point and Shared port. Rapid-PVST uses RSTP
to provide faster convergence. When any RSTP port receives legacy 802.1D BPDU, it falls back to
legacy STP and the inherent fast convergence benefits of 802.1w are lost when it interacts with
legacy bridges.