Subnet stretching via layer three communications

I claim: 1. A method for enabling subnet stretching via Layer 3 (L3) communications, comprising: configuring a first machine in a first network assigned a first IP address as a first gateway to communicate with a second machine in a second network assigned a second IP address configured to act in the second network as a second gateway; configuring the first network as a part of a single subnet with the second network using a subnet mask shared by networks comprising the single subnet; associating IP addresses of machines from the second network with the first gateway within the first network; receiving, within the first network at the first gateway, an L3 packet from the second network, the L3 packet having a destination field designating at least one IP address associated with the first gateway; encapsulating, at the first gateway, the L3 packet as a payload of a tunneled L3 packet, wherein a destination field of the tunneled L3 packet designates the second IP address; and transmitting the tunneled L3 packet from the first gateway to the second gateway; decapsulating, at the second gateway, the tunneled L3 packet to restore the L3 packet; and forwarding, from the second gateway, the L3 packet to the at least one IP address in the second network environment designated in the destination field. 2. The method of claim 1 , wherein associating IP addresses of machines from the second network with the first gateway includes assigning an IP address assigned in the second network via IP configuration on the first gateway. 3. The method of claim 2 , wherein assigning an IP address assigned in the second network via IP configuration on the first gateway includes calling an IP address allocation and configuration Application Program Interface in the first network. 4. The method of claim 2 , wherein assigning an IP address assigned in the second network via IP configuration on the first gateway, comprises: calling, by the first gateway, an address assignment protocol mechanism in the first network requesting the IP address assigned in the second network; receiving, from the address assignment protocol mechanism in the first network, the IP address assigned in the second network; and associating the IP address assigned in the second network with the first gateway in the first network. 5. The method of claim 1 , further comprising: providing a virtual machine in the second network, the virtual machine having a third IP address; moving the virtual machine to the first network; associating the third IP address with the second gateway; unassociating the third IP address from the first gateway; and retaining the third IP address with the virtual machine. 6. The method of claim 1 , further comprising: enabling a third machine in a third network having a third IP address as a third gateway; configuring the third network with the first network and the second network as a third part of the single subnet with the shared subnet mask; discovering IP addresses of virtual machines provided by the third network as part of the subnet; associating the discovered IP addresses from the third network with the first gateway in the first network and the second gateway in the second network; and associating the IP addresses from the first network and the IP addresses from the second network with the third gateway in the third network. 7. The method of claim 1 , wherein the first network includes a secondary gateway, and further comprising: designating the first gateway as a primary gateway for the first network; configuring a third machine in the first network having a third IP address as the secondary gateway; unassociating a portion of the IP addresses from the second network that are associated with the primary gateway in the first network; and associating the portion of the IP addresses unassociated from the primary gateway with the secondary gateway. 8. The method of claim 1 , wherein at least one of the first network and the second network are a distributed computing environment that use L2-free communications. 9. The method of claim 1 , wherein at least one of the first network and the second network are a distributed computing environment that use L2 communications and L2 protocols. 10. The method of claim 1 , wherein the first gateway is directly addressable by Internet-based communications. 11. A system for enabling subnet stretching via Layer 3(L3) communications, comprising: a first machine in a first network assigned a first IP address as a first gateway to communicate with a second machine in a second network assigned a second IP address configured to act in the second network as a second gateway, wherein the first network is configured as a part of a single subnet with the second network using a subnet mask shared by networks comprising the single subnet, and IP addresses of machines from the second network are associated with the first gateway within the first network; wherein the system is configured to: receive, within the first network at the first gateway, an L3 packet from the second network, the L3 packet having a destination field designating at least one IP address associated with the first gateway; encapsulate, at the first gateway, the L3 packet as a payload of a tunneled L3 packet, wherein a destination field of the tunneled L3 packet designates the second IP address; and transmit the tunneled L3 packet from the first gateway to the second gateway; decapsulating, at the second gateway, the tunneled L3 packet to restore the L3 packet; and forwarding, from the second gateway, the L3 packet to the at least one IP address in the second network environment designated in the destination field. 12. The system of claim 11 , wherein IP addresses of machines from the second network associated with the first gateway includes assignment of an IP address in the second network via IP configuration on the first gateway. 13. The system of claim 12 , wherein assignment of the IP address in the second network via IP configuration on the first gateway includes calling an IP address allocation and configuration Application Program Interface in the first network. 14. The system of claim 12 , wherein assignment of the IP address in the second network via IP configuration on the first gateway, comprises: calling, by the first gateway, an address assignment protocol mechanism in the first network requesting the IP address assigned in the second network; receiving, from the address assignment protocol mechanism in the first network, the IP address assigned in the second network; and associating the IP address assigned in the second network with the first gateway in the first network. 15. The system of claim 11 , wherein the first network includes a secondary gateway, wherein the system is further configured to: designate the first gateway as a primary gateway for the first network; configure a third machine in the first network having a third IP address as the secondary gateway; unassociate a portion of the IP addresses from the second network that are associated with the primary gateway in the first network; and associate the portion of the IP addresses unassociated from the primary gateway with the secondary gateway. 16. The system of claim 11 , wherein at least one of the first network and the second network are a distributed computing environment that use L2-free communications. 17. The system of claim 11 , wherein at least one of the first network and the second network are a distributed computing environment that use L2 communications a