Virtual network function response to a service interruption

What is claimed is: 1. A non-transitory machine-readable storage medium comprising instructions that upon execution cause a system to: receive a policy at each virtual network function (VNF) of a collection of interconnected VNFs, wherein each policy is based on at least one of a respective network location associated with a respective service interruption, an amount of data packets transferred in a respective communication flow, a current loading of network entities along a path, and a current quality-of-service associated with the respective communication flow and wherein each policy is further used to determine a respective corrective action; detect, by a first VNF of the collection of interconnected VNFs, a service interruption in a network that includes the collection interconnected VNFs; and in response to detecting the service interruption: send, by the first VNF, control information to a target entity, the control information specifying a network location associated with the service interruption and an action to take to change a communication flow through the collection of interconnected VNFs, wherein the action specified by the control information comprises at least one of adjusting a size of a Transmission Control Protocol window, imposing data rate control of the communication flow, and changing a quality-of-service policy; and wherein when the target entity is a second VNF of the collection of interconnected VNFs, the instructions upon execution cause the system further to perform, by the second VNF, a corrective action based on the action specified in the control information and a respective policy received at the second VNF. 2. The non-transitory machine-readable storage medium of claim 1 , wherein the target entity to which the control information is sent comprises the second VNF. 3. The non-transitory machine-readable storage medium of claim 1 , wherein the target entity to which the control information is sent comprises a host entity that is an endpoint of the communication flow. 4. The non-transitory machine-readable storage medium of claim 1 , wherein the action specified by the control information further comprises at least one of tearing down the communication flow and selecting a different route through the network. 5. The non-transitory machine-readable storage medium of claim 1 , wherein the target entity is the second VNF of the collection of interconnected VNFs, and wherein the instructions upon execution cause the system to: perform the corrective action at the second VNF based on the control information to change the communication flow. 6. The non-transitory machine-readable storage medium of claim 1 , wherein the instructions upon execution cause the system to: perform a corrective action at the first VNF based on the policy to address the service interruption, wherein the corrective action at the first VNF is consistent with the corrective action at the second VNF. 7. The non-transitory machine-readable storage medium of claim 6 , wherein the instructions upon execution cause the system to determine that the corrective action at the first VNF is consistent with the corrective action at the second VNF based on at least one of: the corrective action at the first VNF being the same as the corrective action at the second VNF; and the corrective action at the first VNF addressing the service interruption in a manner that does not conflict with the corrective action at the second VNF. 8. The non-transitory machine-readable storage medium of claim 1 , wherein the corrective action at the second VNF is different from the action specified in the control information. 9. The non-transitory machine-readable storage medium of claim 1 , wherein the target entity is upstream of the first VNF. 10. A system comprising: a hardware processor; a collection of interconnected virtual network functions (VNFs), wherein each VNF is to receive a policy based on at least one of a respective network location associated with a respective service interruption, an amount of data packets transferred in a respective communication flow, a current loading of network entities along a path, and a current quality-of-service associated with the respective communication flow and wherein each policy is further used to determine a respective corrective action; a first VNF of the collection of interconnected VNFs executable on the hardware processor to: detect a service interruption in a network that includes the collection interconnected VNFs; and in response to detecting the service interruption: send, using a communication channel, control information to a target entity that is upstream of the first VNF, the control information specifying a network location associated with the service interruption and an action to take to change a communication flow established between host entities through the collection of interconnected VNFs, wherein the action specified by the control information comprises at least one of adjusting a size of a Transmission Control Protocol window, imposing data rate control of the communication flow, and changing a quality-of-service policy, which allows the target entity to perform a corrective action based on the action specified in the control information and a policy received at the target entity. 11. The system of claim 10 , wherein the communication channel comprises a specified port or a shared memory. 12. The system of claim 10 , wherein the target entity comprises a second VNF of the collection of interconnected VNFs, and wherein the second VNF is to perform a corrective action in response to the control information, the second VNF of a type different from the first VNF. 13. The system of claim 12 , wherein the second VNF is to perform the corrective action based on the policy in response to the control information, and wherein the first VNF is to perform a corrective action based on the policy to address the service interruption. 14. The system of claim 12 , wherein the corrective action performed by the second VNF is based on the network location and the policy. 15. The system of claim 10 , wherein the control information is to cause the target entity to perform a corrective action to address the service interruption without first waiting for expiration of a timeout duration of a communication protocol that governs the communication flow. 16. A method performed by a system comprising a hardware processor, comprising: receiving a policy at each virtual network function (VNF) of a collection of interconnected VNFs, wherein each policy is based on at least one of a respective network location associated with a respective service interruption, an amount of data packets transferred in a respective communication flow, a current loading of network entities along a path, and a current quality-of-service associated with the respective communication flow and wherein each policy is further used to determine a respective corrective action; detecting, by a first VNF of the collection of interconnected VNFs, a service interruption in a network that includes the collection interconnected VNFs; in response to detecting the service interruption, sending control information to a second VNF that is upstream of the first VNF, the control information indicating a network location associated with the service interruption and specifying an action to take to change a communication flow through the collection of interconnected VNFs, wherein the action specified by the control information comprises at least one of adjusting a size of a Transmission Control Protocol window, impo