ODUflex resizing systems and methods

What is claimed is: 1. An Optical channel Data Unit flex (ODUflex) resizing method, in a node in a network, comprising: determining, based on monitoring an egress cell rate or an ingress flow rate, that the ODUflex requires resizing to support the egress cell rate or the ingress flow rate, wherein the ODUflex is configured in the network on a current path between the node and a second node in the network; when the resizing is a decrease, reducing a size of the ODUflex by one of i) a resize decrease operation using a control plane and ii) a Link Aggregation Group (LAG) and Make-Before-Break (MBB) operation; and when the resizing is an increase, increasing a size of the ODUflex by one of i) a resize increase operation using a control plane and ii) a LAG and MBB operation, wherein the resizing is done in a hitless manner and without using state machines and rate ramping of ITU Recommendation G.7044/Y.1347 (10/11) via one of i) the control plane signaling to partially configure or reserve a resized path, suspending transfer of packets across the ODUflex just prior to physical resizing when buffering is available, and signaling to the partially configured or reserved resized path, and ii) in the LAG, creating a new member while maintaining an initial member, performing the MBB operation between the new member and the initial member, and deleting the initial member. 2. The ODUflex resizing method of claim 1 , wherein the increasing comprises: determining that one or more links in the current path are unable to support the increase, and performing the increase on a new path. 3. The ODUflex resizing method of claim 1 , wherein each of the resize increase operation using the control plane and the resize decrease operation using the control plane comprises: suspending transport of incoming packet flows, issuing a path resize trigger, initiating local node resizing operations, performing path resizing, and enabling the incoming packet flows. 4. The ODUflex resizing method of claim 3 , wherein the local node resizing operations are performed substantially in parallel with nodes in the network. 5. The ODUflex resizing method of claim 3 , further comprising suspending the transport of incoming packet flows using flow control mechanisms with Pause frames or switch flow control (Xon/Xoff) toward a packet client. 6. The ODUflex resizing method of claim 1 , wherein the ODUflex is an ODUflex (Generic Framing Procedure). 7. A node, in a network, comprising: a plurality of ports configured with switching between one another; and a controller configured to determine, based on monitoring egress idle cell rate or ingress flow rate, that an Optical channel Data Unit flex (ODUflex) requires resizing to support the egress cell rate or the ingress flow rate on a port of the plurality of ports, wherein the ODUflex is configured in the network on a current path between the node and a second node in the network, when the resizing is a decrease, cause a reduction in a size of the ODUflex by one of i) a resize decrease operation using a control plane and ii) a Link Aggregation Group and Make-Before-Break operation, and when the resizing is an increase, cause an increase in a size of the ODUflex by one of i) a resize increase operation using a control plane and ii) a Link Aggregation Group and Make-Before-Break operation, wherein the resizing is done in a hitless manner and without using state machines and rate ramping of ITU Recommendation G.7044/Y.1347 (10/11) via one of i) the control plane signaling to partially configure or reserve a resized path, suspension transfer of packets across the ODUflex just prior to physical resizing when buffering is available, and signaling to the partially configured or reserved resized path, and ii) in the LAG, creation of a new member while maintaining an initial member, performance of the MBB operation between the new member and the initial member, and deletion of the initial member. 8. The node of claim 7 , wherein the ODUflex is an ODUflex (Generic Framing Procedure). 9. The node of claim 7 , wherein the resize increase operation using the control plane or the resize decrease operation using the control plane includes the controller: suspending transport of incoming packet flows, issuing a path resize trigger, initiating local node resizing operations, performing path resizing, and enabling the incoming packet flows. 10. The node of claim 9 , wherein the controller is configured to cause suspension of incoming packet flows using flow control mechanisms with Pause frames or switch flow control (Xon/Xoff) toward a packet client. 11. A network, comprising: an originating node; a terminating node communicatively coupled to the originating node, wherein an Optical channel Data Unit flex (ODUflex) is configured between the originating node and the terminating node; and at least one intermediate node between the originating node and the terminating node; and wherein at least one of the originating node and the terminating node is configured to determine, based on monitoring egress idle cell rate or ingress flow rate, the ODUflex requires resizing on a port of the plurality of ports to support the egress cell rate or the ingress flow rate, when the resizing is a decrease, cause a reduction in a size of the ODUflex by one of i) a resize decrease operation using a control plane and ii) a Link Aggregation Group and Make-Before-Break operation, and when the resizing is an increase, cause an increase a size of the ODUflex by one of i) a resize increase operation using a control plane and ii) a Link Aggregation Group and Make-Before-Break operation, wherein the resizing is done in a hitless manner and without using state machines and rate ramping of ITU Recommendation G.7044/Y.1347 (10/11) via one of i) the control plane signaling to partially configure or reserve a resized path, suspension transfer of packets across the ODUflex just prior to physical resizing when buffering is available, and signaling to the partially configured or reserved resized path, and ii) in the LAG, creation of a new member while maintaining an initial member, performance of the MBB operation between the new member and the initial member, and deletion of the initial member.