Downhole steering system and methods

What is claimed is: 1. A downhole steering system, comprising: a housing comprising a longitudinal axis and an exterior, the housing comprising a pad side and an opposite side; a shaft coupled to a drill bit, extending through the housing, and rotatable relative to the housing; and a plurality of extendable pads, each extendable pad of the plurality of extendable pads is disposed on the pad side of the housing, the plurality of extendable pads comprising a first structure, a second structure, and a third structure, wherein the first structure, the second structure, and the third structure are extendable outward of the exterior of the housing, the first structure being circumferentially offset from the second structure a first distance and circumferentially offset from the third structure a second distance, wherein the first structure, and the third structure are positioned along an angular interval of less than about 120 degrees as proceeding around the housing. 2. The downhole steering system of claim 1 , wherein the housing defines at least one fluid channel running longitudinally along the exterior, wherein a total area of the at least one fluid channel is an angular range of over two-fifths of a full rotation about the axis. 3. The downhole steering system of claim 2 , wherein the first structure and the second structure each define a central axis, the central axes of first and second structures being disposed substantially in a single plane perpendicular to the axis of the housing. 4. The downhole steering system of claim 3 , wherein the axes of the first and second structures are within an angular range of one-fifth of a full rotation about the axis of the housing, wherein distal ends of the first and second structures are each asymmetric about the axis of their respective structure when viewed in a plane perpendicular to the axis of the housing, wherein the distal ends of the first and second structures extend farther from the axis of the housing on sides facing each other than on opposite sides. 5. The downhole steering system of claim 1 , wherein the exterior of the housing immediately adjacent the structures extends farther from the longitudinal axis than a point on the exterior opposite from the longitudinal axis. 6. The downhole steering system of claim 5 , wherein a difference in distances from the axis to the adjacent exterior compared to the opposite exterior is substantially equal to a length of extension of the structures from the exterior, wherein a sum of the distances from the axis to the adjacent exterior and to the opposite exterior is less than a diameter of a drill bit secured to a shaft passing through the housing. 7. The downhole steering system of claim 1 , wherein distal ends of the structures, within a plane perpendicular to the axis, comprise substantially circular-arc geometries all sharing the same radius and center, wherein the center is offset from the axis of the housing a length of extension of the structures from the exterior. 8. The downhole steering system of claim 1 , wherein at least one of the structures is positioned axially along the housing a distance, from a distal end of the drill bit secured to the shaft, equal to or less than two times a diameter of the drill bit. 9. The downhole steering system of claim 1 , wherein the first structure and the second structure are positioned along an angular interval of between 36 degrees and 108 degrees as proceeding around the housing. 10. A method for steering a drill bit, comprising: flowing a drilling fluid between a housing and a shaft, such that the shaft is caused to rotate relative to the housing, wherein rotating the shaft causes the drill bit to rotate; holding the housing rotationally stationary with respect to a rock formation; while holding the housing rotationally stationary, communicating drilling fluid pressure to at least one extendable structure coupled to the housing without a valve of the housing, wherein communicating drilling fluid pressure to the at least one extendable structure causes the at least one extendable structure to extend outwards and engage the rock formation, thereby altering a trajectory of the drill bit; rotating the housing and the shaft with respect to the rock formation; and while rotating the housing and the shaft, communicating drilling fluid pressure to the at least one extendable structure coupled to the housing to cause the at least one extendable structure to extend outwards and engage the rock formation, thereby straightening the trajectory of the drill bit. 11. The method for steering a drill bit of claim 10 , comprising continuously extending the at least one extendable structure while holding the tubular housing rotationally stationary and while rotating the tubular housing and the shaft. 12. The method for steering a drill bit of claim 10 , comprising controlling a rate of altering the trajectory of the drill bit based in part on adjusting the pressure of the drilling fluid at a wellbore inlet in fluid communication with the chamber. 13. A downhole steering system, comprising: a housing; a shaft positioned within the housing and rotatable with respect thereto, wherein the shaft and the housing at least partially define a chamber therebetween, wherein the chamber is configured to receive a drilling fluid along a drill string; at least one extendable structure in fluid communication with the chamber, wherein the at least one extendable structure is configured to extend from an exterior of the housing in response to pressure of the drilling fluid communicated to the chamber without a valve of the housing to control drilling fluid to the at least one extendable structure; a second bearing; and a flow restrictor, wherein the flow restrictor is positioned within the housing and uphole of the second bearing, wherein the flow restrictor is configured to impede drilling fluid flow between the shaft and the housing. 14. The downhole steering system of claim 13 , comprising a first bearing, the first and second bearings being configured to support rotation of the shaft relative to the housing, wherein the first bearing, the second bearing, the shaft, and the housing at least partially define the chamber therebetween. 15. The downhole steering system of claim 14 , wherein the drilling fluid pressure is communicated to the chamber via one or more flow passages defined in the first bearing. 16. The downhole steering system of claim 14 , wherein the at least one extendable structure is positioned axially between the first bearing and the second bearing. 17. The downhole steering system of claim 13 , comprising a drill bit coupled to the shaft. 18. The downhole steering system of claim 13 , wherein the at least one extendable structure comprises a first structure and a second structure, wherein the first structure and the second structure are extendable outward of the exterior of the housing, the first structure being circumferentially offset from the second structure, wherein the first structure and the second structure are positioned along an angular interval of less than about 120 degrees as proceeding around the housing. 19. The downhole steering system of claim 13 , wherein the at least one extendable structure comprises a resting position flush with the exterior of the housing or within the exterior of the housing, and the at least one extendable structure is configured to extend from the resting position in response to pressure of the drilling fluid communicated to the chamber.