Gas-operated firearm with pressure compensating gas piston

What is claimed is: 1. A gas operating system for a firearm, comprising: a gas block including a piston bore and a series of gas ports in fluid communication with the piston bore and at least one barrel port of the firearm to enable passage of pressurized gases from firing into the piston bore; a compensating gas piston at least partially disposed in the piston bore, and comprising a piston body movable along the piston bore; a gas pressure relief valve disposed within the piston body, the relief valve configured to divert excess gases through the piston body to reduce a gas pressure acting on the piston and reduce velocity of a bolt of the firearm during cycling of the bolt; and a fluid path defined within the piston bore and configured to be in fluid communication with the series of gas ports of the gas block and the relief valve; wherein the pressurized gases are received along the fluid path so as to impinge upon and drive the piston, and wherein when a pressure of the pressurized gases is sufficiently in excess of a desired operating level, the gas pressure relief valve will be actuated to divert the excess gases through the piston body and to a vent. 2. The gas operating system of claim 1 , wherein the relief valve comprises a valve housing, a valve bore at least partially defined by the valve housing and extending along the piston body, and a valve member disposed in the valve bore, the valve member being movable within the valve bore. 3. The gas operating system of claim 2 , wherein the relief valve comprises a valve inlet in fluid communication with the valve bore and the piston bore via a forward end of the piston body, wherein the valve member is substantially biased against the valve inlet to at least partially close the valve inlet. 4. The gas operating system of claim 3 , wherein the gas piston further comprises a piston head in slidable engagement with the piston bore of the gas block, and wherein the valve inlet of the relief valve extends through the piston head. 5. The gas operating system of claim 4 , wherein the valve inlet and the valve bore are generally aligned along a longitudinal axis of the piston body. 6. A gas operating system for a firearm, comprising: a gas block including a piston bore and at least one gas port in fluid communication with the piston bore and at least one barrel port of the firearm to enable passage of pressurized gases from firing into the piston bore; a compensating gas piston at least partially disposed in the piston bore, and comprising a piston body movable along the piston bore; a gas pressure relief valve disposed in the piston body, the relief valve configured to divert excess gases through the piston body to reduce a gas pressure acting on the piston and reduce velocity of a bolt of the firearm during cycling of the bolt; a gas plug received in and at least partially sealing a forward end of the piston bore, wherein the fluid path is defined through the gas plug and enables fluid communication between the at least one gas block port and the relief valve when the gas piston is at a position seated adjacent the gas plug, and a fluid path defined within the piston bore in fluid communication with the at least one as block port and the relief valve. 7. The gas operating system of claim 6 , the fluid path further comprising an inlet formed in an outer circumferential surface of the gas plug and an outlet defined along a distal portion of the gas plug facing the piston, wherein the fluid path extends between the inlet and the outlet. 8. The gas operating system of claim 6 , further comprising a series of projections formed on a front surface of the gas plug opposing the gas piston, wherein at least a portion of the fluid path is defined between side surfaces of adjacent projections. 9. The gas operating system of claim 6 , wherein the piston bore comprises a first longitudinal piston bore, extending along the gas block, and the gas block further comprises a second piston bore laterally spaced from the first longitudinal piston bore, and a second compensating gas piston at least partially disposed in the second longitudinal piston bore and a second gas pressure relief valve disposed internally within the second compensating gas piston. 10. A gas operating system for a firearm, comprising: a gas block including a piston bore and at least one gas port in fluid communication with the piston bore and at least one barrel port of the firearm to enable passage of pressurized gases from firing into the piston bore; a compensating gas piston at least partially disposed in the piston bore, and comprising a piston body movable along the piston bore; a gas pressure relief valve disposed in the piston body, the relief valve configured to divert excess gases through the piston body to reduce a gas pressure acting on the piston and reduce velocity of a bolt of the firearm during cycling of the bolt; and a fluid path defined within the piston bore and configured to be in fluid communication with the at least one gas block port and the relief valve, wherein the relief valve comprises a valve housing, a gas relief piston moveable along a valve bore and the valve housing, a valve outlet, an outlet formed along the valve housing at a location spaced from the valve inlet, wherein the outlet is in fluid communication with the valve bore of the valve housing and the piston bore of the gas block, the gas block further comprising a relief vent in fluid communication with the outlet of the gas pressure relief valve. 11. The gas operating system of claim 10 , wherein the gas relief piston is biased against the valve inlet by a spring disposed in the valve bore of the valve housing. 12. The gas operating system of claim 10 , wherein the valve housing further comprises a plurality of outlet slots extending through the valve housing between the valve bore of the valve housing and the piston bore. 13. The gas operating system of claim 10 , wherein the gas piston comprises a piston head in slidable engagement with the piston bore of the gas block, the piston head comprises an axial bore in communication with the valve bore at the valve housing, the gas piston further comprises an orifice bushing removably secured in the axial bore of the piston head, and the relief valve comprises a valve inlet that extends through the orifice bushing. 14. A firearm, comprising: a receiver; a fire control; a barrel having a chamber and at least one barrel port; a bolt; and a gas operating system, comprising: a gas block comprising at least one piston bore and at least one gas block port in fluid communication with the at least one piston bore and the at least one barrel port to enable passage of pressurized gases from firing to pass into the at least one piston bore; a compensating gas piston disposed in the at least one piston bore and comprising a piston body movable within the at least one piston bore; a relief valve disposed internally within the piston body, the relief valve operable to enable excess gases impacting the piston to be diverted through the piston body to reduce pressure acting on the piston and reduce bolt velocity during cycling of the bolt; and a gas plug received within and at least partially sealing a forward end of the piston bore, the gas plug including at least one flow path defined therein, configured to enable fluid communication between the at least one gas block port and the relief valve. 15. The gas operating system of claim 14 , further comprising a series of projections extending from a front surface of the gas plug, wherein a series of flow paths are defined between