Self-adjusting earth-boring tools and related systems

What is claimed is: 1. An earth-boring tool, comprising: a movable component; and an additive manufacturing formed flow control device in fluid communication with the movable component and configured to control a flowrate of the fluid through the additive manufacturing formed flow control device, wherein the additive manufacturing formed flow control device is configured to control a movement of the movable component via the flowrate of the fluid through the additive manufacturing formed flow control device, wherein the additive manufacturing formed flow control device comprises a body including at least one nonlinear fluid passage defined by at least partially superimposed gaps in adjacent layers of material of the body. 2. The earth-boring tool of claim 1 , wherein the movable component comprises a sensor. 3. The earth-boring tool of claim 1 , wherein the movable component comprises one of a cutting element, a pad element, and a reamer blade. 4. The earth-boring tool of claim 1 , wherein the movable component comprises a piston of a shock absorber. 5. An earth-boring tool, comprising an additive manufacturing formed flow control device in fluid communication with one or more components of the earth-boring tool and configured to provide a cooling fluid to the one or more components of the earth-boring tool, wherein the additive manufacturing formed flow control device comprises a body including at least one nonlinear fluid passage defined by at least partially superimposed gaps in adjacent layers of material of the body. 6. The earth-boring tool of claim 5 , wherein the one or more components of the earth-boring tool comprises one of a bearing of a roller cone, a bearing of a mud motor, a cutting element, and an electronic bay. 7. An earth-boring tool, comprising: a body; an actuation device disposed at least partially within the body, the actuation device comprising: a first fluid chamber; a second fluid chamber; at least one reciprocating member configured to reciprocate back and forth within the first fluid chamber and the second fluid chamber; a hydraulic fluid disposed within and at least substantially filling the first fluid chamber and the second fluid chamber; a first fluid flow path extending from the second fluid chamber to the first fluid chamber; and a first additive manufacturing formed flow control device disposed within the first fluid flow path and configured to control a flowrate of the hydraulic fluid through the first fluid flow path, wherein the first additive manufacturing formed flow control device comprises a body portion including at least one nonlinear fluid passage defined by at least partially superimposed gaps in adjacent layers of material of the body portion; and a drilling element removably coupled to the at least one reciprocating member of the actuation device. 8. The earth-boring tool of claim 7 , wherein the actuation device further comprises: a second fluid flow path extending from the first fluid chamber to the second fluid chamber; a second additive manufacturing formed flow control device disposed within the second fluid flow path and configured to control a flowrate of the hydraulic fluid through the second fluid flow path and the second additive manufacturing formed flow control device. 9. The earth-boring tool of claim 8 , wherein the second fluid flow path extends from the first fluid chamber to the second fluid chamber through the at least one reciprocating member. 10. The earth-boring tool of claim 7 , the first additive manufacturing formed flow control device being formed via a direct metal deposition process. 11. The earth-boring tool of claim 7 , the first additive manufacturing formed flow control device being formed via a laser sintering process. 12. The earth-boring tool of claim 7 , wherein the at least one nonlinear fluid passage extends through the body portion and defines at least one opening at one longitudinal end of the body portion and at least one another opening at an opposite longitudinal end of the body portion. 13. The earth-boring tool of claim 12 , wherein the at least one nonlinear fluid passage comprises a generally helical shape. 14. The earth-boring tool of claim 13 , wherein the at least one nonlinear fluid passage comprises: a first cross-section shape through a first length of the at least one flow passage; and a second cross-section shape through a second length of the at least one flow passage. 15. The earth-boring tool of claim 12 , wherein the at least one nonlinear fluid passage comprises a generally helical shape, wherein a diameter of the helical shape comprises a varying diameter along a longitudinal length of the body portion of the first additive manufacturing formed flow control device. 16. The earth-boring tool of claim 12 , wherein the at least one nonlinear fluid passage comprises a general lattice shape. 17. The earth-boring tool of claim 16 , wherein the at least one nonlinear fluid passage comprises a plurality of crossing linear voids defining a plurality of rods extending laterally across the first additive manufacturing formed flow control device. 18. The earth-boring tool of claim 12 , wherein the at least one nonlinear fluid passage comprises: a plurality of linear sections; and a plurality of bends connecting the plurality of linear sections. 19. The earth-boring tool of claim 12 , wherein the at least one nonlinear fluid passage comprises one or more of a plurality of connected helices, a plurality of concentric unconnected helices, and at least one converging helix. 20. The earth-boring tool of claim 19 , wherein each helical flow passage of the plurality of connected helices comprises a different cross-section shape. 21. An actuation device for a self-adjusting earth-boring tool, the actuation device comprising: a first fluid chamber; a second fluid chamber; an additive manufacturing formed reciprocating member configured to reciprocate back and forth within the first fluid chamber and the second fluid chamber and having a first additive manufacturing formed flow control device disposed therein, wherein the first additive manufacturing formed flow control device extends between the first fluid chamber and the second fluid chamber, the first additive manufacturing formed flow control device being configured to control a flowrate of a hydraulic fluid between the first fluid chamber and the second fluid chamber, wherein the additive manufacturing formed flow control device comprises a body including at least one nonlinear fluid passage defined by at least partially superimposed gaps in adjacent layers of material of the body; and a drilling element coupled to the additive manufacturing formed reciprocating member. 22. The actuation device of claim 21 , wherein the first additive manufacturing formed flow control device comprises a maraging steel. 23. The actuation device of claim 21 , wherein the first additive manufacturing formed flow control device comprises stainless steel.