Credit flow control for ethernet

What is claimed is: 1. A network controller to communicate with a link partner, the network controller comprising: data frame circuitry to generate a data frame, the data frame including a virtual channel (VC) field to represent at least one traffic class; media access control (MAC) circuitry to generate a MAC credit flow control frame to be exchanged with the link partner to monitor and track available credit, wherein the MAC credit flow control frame includes: a VC credit count field to indicate a credit count for the at least one traffic class; and a VC credit count mask field to indicate if the credit count is valid for a corresponding traffic class; transmit scheduler circuitry to send data packets to the link partner based on the credit, the data packets associated with the at least one traffic class; and credit management circuitry to: increment at least one counter corresponding to a traffic class for which a received credit was specified; and decrement the at least one counter when at least one data packet corresponding to the at least one traffic class is sent to the link partner. 2. The network controller of claim 1 , wherein the credit is based on available space in a receive buffer associated with the at least one traffic class. 3. The network controller of claim 2 , wherein the MAC credit flow control frame is received periodically based on, at least in part, the available space of the receive buffer associated with the at least one traffic class. 4. The network controller of claim 1 , further to generate a configuration frame that includes at least one field for defining at least one parameter related to credit flow control; wherein the configuration frame is exchanged between the network controller and the link partner when a link between the network controller and the link partner is initialized and/or when there is a configuration change at the network controller or the link partner. 5. The network controller of claim 1 , wherein the VC credit count mask field is a vector or a bit mask. 6. The network controller of claim 1 , wherein the VC field comprises 5 bits. 7. The network controller of claim 1 , wherein the network controller is incorporated in a network node element. 8. A method for enabling class-based credit flow control for a network controller in communication with a link partner, comprising: receiving a media access control (MAC) credit flow control frame, the MAC credit flow control frame including: a virtual channel (VC) credit count field to indicate a credit count for at least one traffic class; and a VC credit count mask field to indicate if the credit count is valid for a corresponding traffic class; incrementing, using credit management circuitry, at least one counter corresponding to the at least one traffic class for which the credit was indicated; generating, using data frame circuitry, at least one data frame including a VC field to represent the at least one traffic class; sending one or more data packets to the link partner based on the credit, the data packets comprised of one or more data frames associated with the at least one traffic class; and decrementing, using the credit management circuitry, the at least one counter when at least one data frame corresponding to the traffic class is sent to the link partner. 9. The method of claim 8 , further comprising generating, using MAC circuitry, a MAC credit flow control frame to be exchanged with the link partner. 10. The method of claim 9 , further comprising transmitting the generated MAC credit flow control frame to the link partner. 11. The method of claim 8 , wherein the credit is based on available space in a receive buffer associated with the at least one traffic class. 12. The method of claim 8 , wherein the MAC credit flow control frame is received periodically based on, at least in part, available space of a receive buffer associated with the at least one traffic class. 13. The method of claim 8 , further comprising generating a configuration frame that includes at least one field for defining at least one parameter related to credit flow control; wherein the configuration frame is exchanged between the network controller and the link partner when a link between the network controller and the link partner is initialized and/or when there is a configuration change at the network controller or the link partner. 14. The method of claim 8 , further comprising suspending sending data packets to the link partner if a frame size of the packet exceeds a threshold, the threshold based on the tracked credits, the suspended packets associated with the traffic class for which the threshold has been exceeded. 15. The method of claim 8 , wherein the VC field comprises 5 bits. 16. At least one non-transitory computer-readable storage medium having instructions stored thereon which when executed by a processor result in the following operations for enabling class-based credit flow control for a network controller in communication with a link partner, comprising: receive a media access control (MAC) credit flow control frame, the MAC credit flow control frame including: a virtual channel (VC) credit count field to indicate a credit count for at least one traffic class; and a VC credit count mask field to indicate if the credit count is valid for a corresponding traffic class; increment at least one counter corresponding to the at least one traffic class for which the credit was indicated; generate at least one data frame including a VC field to represent the at least one traffic class; send one or more data packets to the link partner based on the credit, the data packets comprised of one or more data frames associated with the at least one traffic class; and decrement, using the credit management circuitry, the at least one counter when at least one data frame corresponding to the traffic class is sent to the link partner. 17. The computer-readable storage medium of claim 16 , wherein the instructions, when executed by the processor, result in additional operations comprising: generate a MAC credit flow control frame to be exchanged with the link partner. 18. The computer-readable storage medium of claim 17 , wherein the instructions, when executed by the processor, result in additional operations comprising: transmit the generated MAC credit flow control frame to the link partner. 19. The computer-readable storage medium of claim 16 , wherein the credit is based on available space in a receive buffer associated with the at least one traffic class. 20. The computer-readable storage medium of claim 16 , wherein the MAC credit flow control frame is received periodically based on, at least in part, available space of a receive buffer associated with the at least one traffic class. 21. The computer-readable storage medium of claim 16 , wherein the instructions, when executed by the processor, result in additional operations comprising: generate a configuration frame that includes at least one field for defining at least one parameter related to credit flow control; wherein the configuration frame is exchanged between the network controller and the link partner when a link between the network controller and the link partner is initialized and/or when there is a configuration change at the network controller or the link partner. 22. The computer-readable storage medium of claim 16 , wherein the instructions, when executed by the processor, result in additi