System and method for seamless TCP connection handoff

What is claimed is: 1. A system comprising: a primary appliance having one or more processors and comprising a first handoff engine in an active state, wherein the primary appliance is configured to receive from a first switch one of first data or a copy of first data to be provided to a second switch; and a secondary appliance having one or more processors and comprising a second handoff engine in a passive state, wherein the secondary appliance is configured to receive from the first switch the other of the first data or the copy of the first data, wherein the second handoff engine is configured to: monitor state data provided by the first handoff engine, determine a condition of the first handoff engine using the state data and the other of the first data or the copy of first data based on the following: acquiring a first time of receipt of the one of the first data or the copy of the first data,  acquiring a second time of receipt of the state data, and  determining whether the second time of receipt exceeds a predetermined time period from the first time of receipt; and based on the determination, provide instructions for the secondary appliance to provide the other of the first data or the copy of the first data to the second switch. 2. The system of claim 1 , wherein the primary appliance is configured to provide the state data to the second handoff engine based on the one of first data or the copy of the first data. 3. The system of claim 1 , wherein the primary appliance is further configured to modify the one of first data or a copy of first data to include a new TCP state and provide the modified one of first data or the copy of first data to the second switch. 4. An appliance having one or more processors and comprising: a first interface configured to receive one of first data or a copy of first data from a first switch; a second interface configured to provide communications to a second switch; and a first handoff engine configured to: acquire information indicating that the first handoff engine is in a passive state, monitor state data provided by a second handoff engine that is in an active state, determine a condition of the second handoff engine using the state data to the first data or the copy of first data, based on the determination, provide instructions for the appliance to provide the one of the first data or the copy of the first data to the second switch, and determine a condition of a second appliance associated with the second handoff engine, wherein the determination involves the first handoff engine being further configured to: acquire a first time of receipt of the one of first data or the copy of first data, acquire a second time of receipt of the state data, and determine whether the second time of receipt exceeds a predetermined time period from the first time of receipt. 5. The appliance of claim 4 , wherein the one of the first data or the copy of the first data provided to the second switch has been processed by the appliance. 6. The appliance of claim 4 , wherein the first data or the copy of the first data is included in one or more data packets. 7. The appliance of claim 4 , wherein the instructions include: if the second handoff engine is determined to correspond to a nonfunctional appliance: instructions for changing the first handoff engine from a passive state to an active state, wherein the change to the active state corresponds to the appliance being configured to provide the one of first data or the copy of first data to the second switch. 8. The appliance of claim 7 , wherein the change to the active state corresponds to the appliance being further configured to transmit a switchover message to the second appliance corresponding to the second handoff engine, wherein the switchover message includes instructions to change a state of the second appliance to a passive state. 9. A method performed by an appliance having one or more processors and comprising: acquiring information indicating that a first handoff engine is in a passive state; receiving one of first data or a copy of first data from a first switch; monitoring state data provided by a second handoff engine that is in an active state; determining a condition of the second handoff engine using the state data and the one of the first data or the copy of the first data based on the following: acquiring a first time of receipt of the one of the first data or the copy of the first data, acquiring a second time of receipt of the state data, and determining whether the second time of receipt exceeds a predetermined time period from the first time of receipt; and providing the one of the first data or the copy of the first data to a second switch based on the determination. 10. The method of claim 9 , wherein the state data to the second handoff engine is based on the other of first data or the copy of the first data. 11. The method of claim 9 , wherein the first data is included in one or more data packets. 12. The method of claim 9 , wherein providing the one of the first data or the copy of the first data to the second switch based on the determination further comprises: if the second handoff engine is determined to correspond to a nonfunctional appliance, changing the first handoff engine from a passive state to an active state, and providing the one of first data or the copy of first data to the second switch. 13. The method of claim 12 , wherein providing the one of the first data or the copy of the first data to the second switch based on the determination further comprises: if the second handoff engine is determined to correspond to a nonfunctional appliance, transmitting a switchover message to a second appliance, wherein the switchover message includes instructions to change a state of the second appliance to a passive state. 14. A non-transitory computer readable storage medium that stores a set of instructions that are executable by at least one processor of an appliance to cause the appliance to perform a method for optimizing network traffic, the method comprising: acquiring information indicating that a first handoff engine is in a passive state; receiving one of first data or a copy of first data from a first switch; monitoring state data provided by a second handoff engine that is in an active state; determining a condition of the second handoff engine using the state data and the one of the first data or the copy of the first data based on the following: acquiring a first time of receipt of the one of the first data or the copy of the first data, acquiring a second time of receipt of the state data, and determining whether the second time of receipt exceeds a predetermined time period from the first time of receipt; and providing the one of the first data or the copy of the first data to a second switch based on the determination. 15. The non-transitory computer readable storage medium of claim 14 , wherein the state data to the second handoff engine is based on the other of first data or the copy of the first data. 16. The non-transitory computer readable storage medium of claim 14 , wherein providing the one of the first data or the copy of the first data to the second switch based on the determination further comprises: if the second handoff engine is determined to correspond to a nonfunctional appliance, changing the first handoff engine from a passive state to an active state, and providing the one of first data or the copy of first data to the second switch. 17. The non-transitory computer readable