End-to end lossless Ethernet in Ethernet fabric

What is claimed is: 1. A switch, comprising: one or more ports; a memory; packet processing circuitry configured to identify a priority value in a first inner layer-2 header of a packet encapsulated with a first outer encapsulation header, wherein the priority value indicates a class of service associated with priority-based flow control for the packet, and wherein the first outer encapsulation header comprises a first switch identifier identifying the switch and a second switch identifier identifying a second switch in a routed network; and flow control circuitry configured to, in response to detecting a potential buffer overflow for the class of service, generate a pause frame comprising a second inner layer-2 header for the class of service associated with the priority-based flow control, wherein the second inner layer-2 header is encapsulated with a second outer encapsulation header comprising the second switch identifier as a destination identifier, and wherein the first and second outer encapsulation headers are based on a same encapsulation protocol. 2. The switch of claim 1 , wherein the potential buffer overflow is for a buffer configured to store the packet in response to the packet processor identifying the priority value indicating the class of service in the first inner layer-2 header of the packet. 3. The switch of claim 1 , wherein the pause frame includes the priority value indicating the class of service. 4. The switch of claim 1 , wherein the first inner layer-2 header is an Ethernet header and the first outer encapsulation header is forwardable in the routed network. 5. The switch of claim 1 , wherein the first switch identifier is a virtual switch identifier associated with a virtual switch. 6. The switch of claim 1 , wherein the switch is in a plurality of switches participating in a link aggregation, wherein the link aggregation includes a plurality of physical links operating as a single aggregated link, and wherein the plurality of switches are associated with a same media access control (MAC) address. 7. A switch, comprising: identification circuitry configured to identify a class of service associated with priority-based flow control configured for the switch; packet processing circuitry configured to identify a priority value in a first inner layer-2 header of a packet encapsulated with a first outer encapsulation header, wherein the priority value indicates the class of service associated with the priority-based flow control for the packet, and wherein the first outer encapsulation header comprises a first switch identifier identifying the switch in a routed network; and notification circuitry configured to generate a notification message comprising a second inner layer-2 header in response to identifying the class of service, wherein the second inner layer-2 header is encapsulated with a second outer encapsulation header comprising a second switch identifier identifying a second switch in the routed network, and wherein the notification message specifies the class of service associated with the priority-based flow control configured for the switch. 8. The switch of claim 7 , wherein the first inner layer-2 header is an Ethernet header and the first outer encapsulation header is forwardable in the routed network. 9. The switch of claim 7 , wherein the switch is in a plurality of switches participating in a link aggregation, wherein the link aggregation includes a plurality of physical links operating as a single aggregated link, and wherein the plurality of switches are associated with a same media access control (MAC) address. 10. A method, comprising: identifying, by a switch, a priority value in a first inner layer-2 header of a packet encapsulated with a first outer encapsulation header, wherein the priority value indicates a class of service associated with priority-based flow control for the packet, and wherein the first outer encapsulation header comprises a first switch identifier identifying the switch and a second switch identifier identifying a second switch in a routed network; and in response to detecting a potential buffer overflow for the class of service, generating a pause frame comprising a second inner layer-2 header for the class of service associated with the priority-based flow control, wherein the second inner layer-2 header is encapsulated with a second outer encapsulation header comprising the second switch identifier as a destination identifier, and wherein the first and second outer encapsulation headers are based on a same encapsulation protocol. 11. The method of claim 10 , wherein the potential buffer overflow is for a buffer configured to store the packet in response to identifying the priority value indicating the class of service in the first inner layer-2 header of the packet. 12. The method of claim 10 , wherein the pause frame includes the priority value indicating the class of service. 13. The method of claim 10 , wherein the first inner layer-2 header is an Ethernet header and the first outer encapsulation header is forwardable in the routed network. 14. The method of claim 10 , wherein the first switch identifier is a virtual switch identifier associated with a virtual switch. 15. The method of claim 10 , wherein the switch is in a plurality of switches participating in a link aggregation, wherein the link aggregation includes a plurality of physical links operating as a single aggregated link, and wherein the plurality of switches are associated with a same media access control (MAC) address. 16. A method, comprising: identifying, by a switch, a class of service associated with priority-based flow control configured for the switch; identifying a priority value in a first inner layer-2 header of a packet encapsulated with a first outer encapsulation header, wherein the priority value indicates the class of service associated with the priority-based flow control for the packet, and wherein the first outer encapsulation header comprises a first switch identifier identifying the switch in a routed network; and generating a notification message comprising a second inner layer-2 header in response to identifying the class of service, wherein the second inner layer-2 header is encapsulated with a second outer encapsulation header comprising a second switch identifier identifying a second switch in the routed network, and wherein the notification message specifies the class of service associated with the priority-based flow control configured for the switch; wherein the switch and the remote switch are member switches of the network of interconnected switches. 17. The method of claim 16 , wherein the first inner layer-2 header is an Ethernet header and the first outer encapsulation header is forwardable in the routed network. 18. The method of claim 16 , wherein the switch is in a plurality of switches participating in a link aggregation, wherein the link aggregation includes a plurality of physical links operating as a single aggregated link, and wherein the plurality of switches are associated with a same media access control (MAC) address. 19. A computer system, comprising: processing circuitry; and a non-transitory computer-readable storage medium storing instructions which when executed by the processing circuitry cause the processing circuitry to perform a method, the method comprising: identifying a priority value in a first inner layer-2 header of a packet encapsulated with a first outer encapsulation header, wherein the priority value indicates a class of service as