Enhancing DOCSIS services through network functions virtualization

The invention claimed is: 1. A method comprising: intercepting, by a network device, a transmission of a cable modem boot file from a second network device to a cable modem by snooping on the transmission, wherein the cable modem boot file is for configuring a cable modem in a cable network; identifying, with the network device, based on the intercepted and snooped transmission of the cable modem boot file from the second network device to the cable modem, information in the cable modem boot file that specifies an association between a specific Data Over Cable System Interface Specification (DOCSIS) service flow for the particular cable modem and a specific Network Function Virtualization (NFV) service chain from among a plurality of NFV service chains, wherein the specific NFV service chain enables a path of the specific DOCSIS service flow through a series of NFV instances in the specific NFV service chain to be dynamically set up through software via a software defined network (SDN) controller; determining that network traffic received from the cable modem matches the DOCSIS service flow; and re-directing the network traffic onto one or more tunnels to the NFV service chain. 2. The method of claim 1 , wherein re-directing the network traffic comprises encapsulating the network traffic in a network tunnel and sending the encapsulated network traffic along the network tunnel to a first one of a plurality of service nodes locally positioned within the cable network, wherein the service nodes provide an execution environment for the specific NFV service chain. 3. The method of claim 1 , wherein re-directing the network traffic comprises encapsulating the network traffic in a network tunnel and sending the encapsulated network traffic along the network tunnel to a first one of a plurality of service nodes positioned at a data center external to the cable network, wherein the service nodes provide an execution environment for the specific NFV service chain. 4. The method of claim 1 , wherein identifying the information in the cable modem boot file comprises identifying a type-length-value embedded in the cable modem boot file for processing by the network device instead of the cable modem. 5. The method of claim 1 , wherein receiving the cable modem boot file by the network device comprises receiving the cable modem boot file by a Cable Modem Termination System (CMTS). 6. The method of claim 1 , wherein the network device comprises an edge router, and wherein receiving the cable modem boot file by the network device comprises the edge router intercepting the cable modem boot file as the cable modem boot file is communicated from the second network device to the cable modem. 7. The method of claim 1 , wherein the specific NFV service chain defines a plurality of network services provided by a plurality of service nodes, and comprises a first NFV service chain defining a first plurality of network services provided by a first plurality of service nodes, the method further comprising receiving, with the network device, configuration from the software defined network (SDN) controller, wherein the configuration specifies the plurality of NFV service chains and a unique identifier for each of the NFV service chains, wherein the plurality of NFV service chains comprises the first NFV service chain, wherein each of the NFV service chains defines a respective plurality of network services provided by a respective plurality of service nodes. 8. The method of claim 1 , wherein the specific NFV service chain is implemented with standard off-the-shelf computers. 9. The method of claim 1 , wherein re-directing the network traffic comprises encapsulating the network traffic in a network tunnel and sending the encapsulated network traffic along the network tunnel to a plurality of the service nodes that provide the execution environment for the specific NFV service chain, wherein a path of the network tunnel is dynamically set up through software to comprise at least a respective one of the service nodes locally positioned within the cable network and at least a respective one of the service nodes positioned at a data center external to the cable network. 10. The method of claim 1 , wherein the plurality of service chains are pre-defined for given service levels to subscribers. 11. A network device comprising: a control unit comprising a processor configured to process a cable modem boot file for configuring a cable modem in a cable network, wherein the processor intercepts and snoops on a transmission of the cable modem boot file from a second network device to the cable modem and processes the cable modem boot file to extract information to identify, based on the intercepted and snooped transmission of the cable modem boot file from the second network device to the cable modem, an association between a specific Data Over Cable System Interface Specification (DOCSIS) service flow for the cable modem and a specific Network Function Virtualization (NFV) service chain from among a plurality of NFV service chains; a management interface to receive configuration from a software defined network (SDN) controller, wherein the specific NFV service chain enables a path of the specific DOCSIS service flow through a series of NFV instances in the specific NFV service chain to be dynamically set up through software via the SDN controller; and a packet redirection module configured by the processor to detect that network traffic received from the cable modem matches the DOCSIS service flow and, in response to the detection, re-direct the network traffic onto one or more tunnels to the specific NFV service chain. 12. The network device of claim 11 , wherein the packet redirection module encapsulates the network traffic in a network tunnel and sends the encapsulated network traffic along the network tunnel to a first one of a plurality of service nodes locally positioned within the cable network, wherein the service nodes provide an execution environment for the specific NFV service chain. 13. The network device of claim 11 , wherein the packet redirection module encapsulates the network traffic in a network tunnel and sends the encapsulated network traffic along the network tunnel to a first one of a plurality of service nodes positioned at a data center external to the cable network, wherein the service nodes provide an execution environment for the specific NFV service chain. 14. The network device of claim 11 , wherein the processor identifies one or more type-length-value (TLVs) embedded in the cable modem boot file for processing by the network device instead of the cable modem, wherein the TLV specifies the association between DOCSIS service flow for the cable modem and the specific NFV service chain to be applied to the network traffic. 15. The network device of claim 11 , wherein the network device comprises a Cable Modem Termination System (CMTS). 16. The network device of claim 11 , wherein the network device comprises an edge router, and wherein the edge router intercepts the cable modem boot file as the cable modem boot file is communicated from the second network device to the cable modem. 17. The network device of claim 11 , wherein the specific NFV service chain defines a plurality of network services provided by the plurality of service nodes and comprises a first NFV service chain defining a first plurality of network services provided by a first plurality of service nodes, wherein the configuration specifies a unique identifier for each of a plurality of NFV service chains, wherein the plurality o