Steering valve for deactivating a steering pad of a rotary steerable system

What is claimed is: 1. A method comprising: positioning a rotary steerable drilling system in a subterranean formation to steer a drill string to form a wellbore in the subterranean formation; adjusting an orientation of a steering valve, which is positioned in the rotary steerable drilling system, to cover each channel of a plurality of channels of a valve seat adjacent the steering valve to both prevent a flow of fluid through each channel of the plurality of channels of the valve seat and deactivate each steering pad of the plurality of steering pads of the rotary steerable drilling system; and adjusting the orientation of the steering valve to activate at least one steering pad of the plurality of steering pads of the rotary steerable drilling system. 2. The method of claim 1 , wherein: adjusting the orientation of the steering valve to deactivate each steering pad includes adjusting an orientation of a cut-off portion of the steering valve to cover at least one channel of the one or more channels of the valve seat to deactivate the at least one steering pad of the one or more steering pads of the rotary steerable drilling system; the cut-off portion is positioned within an open portion of the steering valve; and adjusting the orientation of the steering valve to activate the at least one steering pad includes adjusting the orientation of the cut-off portion to activate the at least one steering pad. 3. The method of claim 2 , wherein adjusting the orientation of the cut-off portion comprises adjusting an orientation of a closed portion of the steering valve such that the closed portion covers the remaining channels of the one or more channels of the valve seat, wherein a first radius of the closed portion and a second radius of the cutoff portion are substantially the same. 4. The method of claim 3 , wherein: the open portion further comprises a first radius range extending from a center of the steering valve to a first outer surface of the steering valve corresponding to the closed portion; the closed portion further comprises a second radius range extending from the center of the steering valve to a second outer surface of the steering valve corresponding to the open portion, wherein the second radius range is greater than the first radius range; and adjusting the orientation of the steering valve to cover each channel includes adjusting an orientation of the closed portion such that the second radius range covers each of the one or more channels of the valve seat. 5. The method of claim 2 , wherein: a first end of a closed portion of the steering valve abuts a second end of the open portion; a third end of the closed portion is positioned opposite the first end and abuts a fourth end of the open portion; and the cut-off portion is positioned between the second end and the fourth end. 6. The method of claim 1 , wherein adjusting the orientation of the steering valve to deactivate each steering pad comprises orienting a continuous open portion of the steering valve such that no channel of the one or more channels of the valve seat is exposed. 7. The method of claim 6 , wherein adjusting the orientation of the steering valve to deactivate each steering pad comprises orienting a continuous closed portion of the steering valve such that each channel of the one or more channels of the valve seat is covered by the continuous closed portion, wherein the continuous open portion and the continuous closed portion are adjacent one another in the steering valve. 8. A steering valve comprising: an open portion positionable in a rotary steerable system to allow fluid to flow to one or more steering pads of a plurality of steering pads of the rotary steerable system via at least a subset of a plurality of channels of a valve seat positionable adjacent the steering valve; and a continuous closed portion positioned adjacent the open portion in the rotary steerable system, an orientation of the continuous closed portion adjustable to cover each of the plurality of channels of the valve seat to both prevent a flow of fluid through each channel of the plurality of channels of the valve seat and deactivate each of the plurality of steering pads of the rotary steerable system. 9. The steering valve of claim 8 , wherein: the continuous closed portion comprises: a first end abutting a second end of the open portion; a third end positioned opposite the first end and abutting a fourth end of the open portion; and the open portion comprises: the second end abutting the first end of the continuous closed portion; the fourth end positioned opposite the third end and abutting the third end of the continuous closed portion; and a cut-off portion positioned between the second end and the fourth end, the cut-off portion positionable to cover at least one channel of the one or more channels of the valve seat to deactivate at least one steering pad of a rotary steerable drilling system. 10. The steering valve of claim 9 , wherein the orientation of the continuous closed portion is adjustable to cover a first subset of the one or more channels while an orientation of the cut-off portion is adjustable to cover a second subset of the one or more channels, and wherein a union of the first subset and the second subset is the one or more channels. 11. The steering valve of claim 9 , wherein the open portion further comprises: a first flow portion extending between the second end of the open portion and a fifth end of the cut-off portion; and a second flow portion extending between a sixth end of the cut-off portion and the fourth end of the open portion, wherein the sixth end is positioned opposite the fifth end with respect to the cut-off portion. 12. The steering valve of claim 11 , wherein the orientation of the cut-off portion is adjustable to cover a particular channel of the one or more channels of the valve seat to deactivate a particular steering pad of the one or more steering pads of the rotary steerable drilling system, wherein the orientation of the cut-off portion is positionable in a particular orientation that causes each steering pad of the rotary steerable drilling system to be deactivated. 13. The steering valve of claim 8 , wherein: the open portion further comprises a first radius range extending from a center of the steering valve to a first outer surface of the steering valve corresponding to the continuous closed portion; and the continuous closed portion further comprises a second radius range extending from the center of the steering valve to a second outer surface of the steering valve corresponding to the open portion, wherein the second radius range is greater than the first radius range, and wherein the second radius range is usable to cover the one or more channels of the valve seat. 14. The steering valve of claim 13 , wherein: a cut-off portion of the open portion of the steering valve comprises a third radius range that is substantially the same as the second radius range; and fluid flow through the one or more channels is preventable by positioning the continuous closed portion and the cut-off portion to cover the one or more channels such that the second radius range extends from at least a first side of the one or more channels to at least a second side of the one or more channels. 15. A system comprising: a valve seat positionable in a rotary steerable drilling system, the valve seat comprising a plurality of channels; and a steering valve positionable in the rotary steerable drilling system adjacent to the valve seat, the steering valve comprising: an open portion positionable i