Rotary steerable drilling assembly and method

What is claimed is: 1. A rotary steerable drilling assembly for directional drilling, comprising: a driveshaft rotatably disposed in a driveshaft housing; a bend adjustment assembly coupled to the driveshaft housing; a bearing mandrel coupled to the bend adjustment assembly; and a torque control assembly comprising: a rotor configured to couple with a drill string; a stator assembly coupled to a downhole motor; and a torque control actuator assembly configured to control the amount of torque transmitted between the rotor and the stator assembly, wherein the torque control actuator assembly comprises a spool valve comprising a cylinder including a port and a hydraulically actuatable piston slidably disposed in the cylinder; wherein the bend adjustment assembly includes a first position configured to provide a first deflection angle between a longitudinal axis of the driveshaft housing and a longitudinal axis of the bearing mandrel; and wherein the bend adjustment assembly includes a second position configured to provide a second deflection angle between the longitudinal axis of the driveshaft housing and the longitudinal axis of the bearing mandrel, the second deflection angle being different from the first deflection angle. 2. The drilling assembly of claim 1 , wherein the torque control actuator assembly is configured to selectably adjust a restriction to a fluid flow along a circulation flowpath extending between the rotor and the stator assembly. 3. The drilling assembly of claim 2 , wherein the circulation flowpath extends through the port of the cylinder. 4. The drilling assembly of claim 3 , wherein the torque control actuator assembly comprises: a rotary pilot valve rotatably disposed in a valve body; and an actuator coupled with the rotary pilot valve; wherein the actuator is configured to selectably rotate the rotary pilot valve relative to the valve body; and wherein the rotary pilot valve is configured to adjust an axial position of the piston of the spool valve in response to relative rotation between the rotary pilot valve and the valve body. 5. The drilling assembly of claim 2 , wherein the stator assembly comprises an outer housing and an inner stator, and wherein the circulation flowpath extends between the outer housing and the inner stator. 6. The drilling assembly of claim 1 , further comprising a bend adjustment actuator assembly configured to move the bend adjustment assembly between the first position and the second position in response to a change in flowrate of a drilling fluid received by the downhole motor. 7. The drilling assembly of claim 6 , wherein the bend adjustment actuator assembly comprises: a locker piston coupled to an actuator housing of the bend adjustment assembly, the locker piston comprising a first set of teeth; and a teeth ring coupled to the bearing mandrel, the teeth ring comprising a second set of teeth configured to matingly engage the first set of teeth and to transmit torque between the bearing mandrel and the actuator housing. 8. The drilling assembly of claim 7 , wherein the locker piston has a first end configured to receive fluid pressure equal to fluid pressure in the surrounding environment and a second end configured to receive fluid pressure equal to fluid pressure of the drilling fluid flowing through the bend adjustment assembly. 9. The drilling assembly of claim 1 , wherein the bend adjustment assembly further comprises a locking piston that includes a locked position preventing actuation of the bend adjustment assembly between the first and second positions, and an unlocked position permitting actuation of the bend adjustment assembly between the first and second positions. 10. The drilling assembly of claim 1 , wherein the bend adjustment assembly includes a third position that provides a third deflection angle between the longitudinal axis of the driveshaft housing and the longitudinal axis of the bearing mandrel, the third deflection angle being different from both the first deflection angle and the second deflection angle. 11. The drilling assembly of claim 1 , wherein the torque control assembly comprises: a first mode configured to adjust an angular orientation of the drilling assembly within a wellbore; and a second mode configured to hold the angular orientation of the drilling assembly within the wellbore; wherein the torque control assembly is actuated between the first mode and the second mode in response to altering a rotational rate of the drill string. 12. The drilling assembly of claim 11 , wherein the torque control assembly comprises a third mode configured to restrict relative rotation between the rotor and the stator assembly, and wherein the torque control assembly is actuated into the third mode in response to altering the rotational rate of the drill string. 13. The drilling assembly of claim 12 , wherein the torque control assembly is configured to: actuate from the first mode to the second mode in response to the rotational rate of the drill string being increased from a first rotational rate to a second rotational rate that is greater than the first rotational rate; and actuate into the third mode in response to the rotational rate of the drill string being increased from to a third rotational rate that is greater than both the first rotational rate and the second rotational rate. 14. The drilling assembly of claim 1 , wherein the torque control actuator assembly is radially offset from a central axis of the torque control assembly. 15. The drilling assembly of claim 1 , wherein: the torque control actuator assembly is configured to selectably adjust a restriction to a fluid flow along a circulation flowpath extending between the rotor and the stator assembly; and the rotor of the torque control assembly comprises a central passage and wherein the circulation flowpath the circulation flowpath extends through an annulus formed between the rotor and the stator of the torque control assembly that is radially offset from the central passage. 16. A drilling system for drilling a borehole that extends through a subterranean earthen formation, the system comprising: a drilling rig; a drill string extending from the drilling rig into the borehole; a drilling assembly coupled to an end of the drill string and comprising: a driveshaft rotatably disposed in a driveshaft housing; a bend adjustment assembly coupled to the driveshaft housing; a bearing mandrel coupled to the bend adjustment assembly; a torque control assembly comprising: a rotor configured to couple with the drill string; a stator assembly coupled to a downhole motor; and a torque control actuator assembly configured to control the amount of torque transmitted between rotor and the stator assembly, wherein the torque control actuator assembly comprises a spool valve comprising a cylinder including a port and a piston slidably disposed in the cylinder; wherein the bend adjustment assembly includes a first position configured to provide a first deflection angle between a longitudinal axis of the driveshaft housing and a longitudinal axis of the bearing mandrel; and wherein the bend adjustment assembly includes a second position configured to provide a second deflection angle between the longitudinal axis of the driveshaft housing and the longitudinal axis of the bearing mandrel, the second deflection angle being different from the first deflection angle. 17. The drilling system of claim 16 , wherein the torque control actuator assembly is configured to selectably adjust a restriction to a flui