Firearm assemblies with multiple gas ports

I claim: 1. An assembly for directing gas to an action of a firearm, comprising: a barrel defining a bore configured to guide a projectile as the projectile is propelled through the bore by pressurized gas, the barrel having a plurality of barrel gas ports formed therein, each of the plurality of barrel gas ports being in fluid communication with the bore; and at least one gas block configured to align with an axial location of the plurality of barrel gas ports, the at least one gas block having a gas block gas port formed therein, wherein the at least one gas block defines a groove as part of a passage configured to direct the pressurized gas from the plurality of barrel gas ports to the gas block gas port, wherein the groove extends around an entire circumference of an inner surface of the at least one gas block wherein all of the plurality of barrel gas ports are in fluid communication with the groove, wherein the gas block gas port is in fluid communication with the groove, and the assembly is configured to conduct pressurized gas from the barrel through the plurality of barrel gas ports into the groove and from the groove into the gas block gas port, wherein the plurality of barrel gas ports are spaced apart radially about an axis of the barrel. 2. The assembly of claim 1 , wherein the groove covers the plurality of barrel gas ports. 3. The assembly of claim 1 , wherein the passage is defined by the groove and an adjacent portion of an outer surface of the barrel. 4. The assembly of claim 1 , wherein the passage and the plurality of barrel gas ports form a manifold operable to supply a stream of the pressurized gas to the gas block gas port from the plurality of barrel gas ports. 5. A firearm, comprising the assembly of claim 1 . 6. The assembly of claim 1 , wherein the plurality of barrel gas ports are angularly offset in relation to a radial direction from an axial centerline of the barrel. 7. A barrel for a firearm comprising: an inner surface defining a bore configured to guide a projectile as the projectile is propelled through the bore by pressurized gas, wherein the barrel has a plurality of barrel gas ports formed therein, wherein each of the plurality of barrel gas ports has an entrance defined by the inner surface of the barrel, wherein each of the plurality of barrel gas ports is configured to simultaneously fluidically connect to an action of the firearm, and wherein the plurality of barrel gas ports are spaced radially about an axis defined through the bore, wherein angular spacing of adjacent barrel gas ports is irregular. 8. The barrel of claim 7 , wherein the plurality of barrel gas ports are displaced relative to one another along an axis along which the barrel extends. 9. The barrel of claim 7 , wherein an outer surface of the barrel has a groove formed therein, wherein the groove is in fluid communication with the plurality of barrel gas ports, and wherein the groove at least partly defines a passage for directing the pressurized gas to the action of the firearm. 10. A firearm comprising the barrel of claim 7 . 11. An assembly for directing gas to an action of a firearm, comprising: a barrel defining a bore configured to guide a projectile as the projectile is propelled through the bore by pressurized gas, the barrel having a plurality of barrel gas ports formed therein, each of the plurality of barrel gas ports being in fluid communication with the bore; and at least one gas block configured to align with an axial location of the plurality of barrel gas ports, wherein: the at least one gas block has a gas block gas port formed therein; the at least one gas block comprises a conduit having an entrance and an exit, and the conduit is configured so that the entrance to the conduit aligns with, and is in fluid communication with one of the plurality of barrel gas ports, and the exit aligns with, and is in fluid communication with the gas block gas port, wherein at least one of the barrel and the at least one gas block define a groove as part of a passage configured to direct the pressurized gas from the plurality of barrel gas ports to the gas block gas port, wherein the groove does not encircle a circumference of the barrel, wherein all of the plurality of barrel gas ports are in direct fluid communication with the groove, and wherein the gas block gas port is in direct fluid communication with the groove, and wherein pressurized gas from the barrel is conducted through the plurality of barrel gas ports, through the groove, and into the gas block gas port, wherein the gas block gas port aligns with the plurality of barrel gas ports, and wherein the plurality of barrel gas ports are radially displaced relative to one another about an axis along which the bore extends. 12. The assembly of claim 11 , wherein the groove covers the plurality of barrel gas ports. 13. The assembly of claim 11 , wherein the groove is formed in an outer surface of the barrel, and the passage is defined by the groove and an adjacent portion of an inner surface of the at least one gas block. 14. The assembly of claim 11 , wherein the plurality of barrel gas ports are spaced apart longitudinally along an axis of the barrel. 15. The assembly of claim 11 , wherein the passage and the plurality of barrel gas ports form a manifold operable to supply a stream of the pressurized gas to the gas block gas port from the plurality of barrel gas ports. 16. A firearm, comprising the assembly of claim 11 . 17. The assembly of claim 11 , wherein the at least one gas block defines the groove, wherein the groove extends around only a portion of a circumference of the inner surface of the at least one gas block. 18. The assembly of claim 11 , wherein the plurality of barrel gas ports are angularly offset in relation to a radial direction from an axial centerline of the barrel.