Rotary valve with brake mode

What is claimed is: 1. A hydraulic circuit comprising: a supply line for containing pressurized fluid; a return line including fluid having pressure lower than that of the pressurized fluid; a hydraulic actuator including a first chamber and a second chamber; and a valve comprising: a sleeve having a plurality of openings configured along a length of the sleeve, wherein the plurality of openings includes at least: a first opening configured to receive the pressurized fluid from the supply line, a second opening configured to communicate fluid to the return line, a third opening configured to communicate fluid to and from the first chamber of the hydraulic actuator, and a fourth opening configured to communicate fluid to and from the second chamber of the hydraulic actuator; a spool rotatable within the sleeve, the spool including a respective plurality of openings along a length of the spool corresponding to the plurality of openings of the sleeve; and a rotary actuator coupled to the spool for rotating the spool within the sleeve to a given rotary position in a clockwise or a counter-clockwise direction to cause at least a partial alignment between a subset of the respective plurality of openings of the spool and a subset of the plurality of openings of the sleeve so as to: (i) connect one of the first chamber and the second chamber of the hydraulic actuator to the supply line, and connect the other chamber to the return line, or (ii) connect both the first chamber and the second chamber of the hydraulic actuator to the return line, wherein rotation of the spool to reach the given rotary position takes a first amount of time if the spool rotates in the clockwise direction and takes a second amount of time different from the first amount of time if the spool rotates in the counter-clockwise direction. 2. The hydraulic circuit of claim 1 , wherein the rotary actuator is configured to enable 360° rotation of the spool to any given position to (i) align the subset of the respective plurality of openings of the spool with the subset of the plurality of openings of the sleeve, and (ii) change a degree of alignment between the subset of the respective plurality of openings of the spool and the subset of the plurality of openings of the sleeve so as to meter fluid passing through aligned openings and power the hydraulic actuator for movement in a given direction. 3. The hydraulic circuit of claim 1 , wherein the rotary actuator coupled to the spool is configured to rotate the spool within the sleeve in the clockwise or the counter-clockwise direction to cause at least the partial alignment between the subset of the respective plurality of openings of the spool and the subset of the plurality of openings of the sleeve so as to connect both the first chamber and the second chamber of the hydraulic actuator to the supply line. 4. The hydraulic circuit of claim 1 , wherein the spool includes an internal chamber, and wherein fluid passes through a given opening of the respective plurality of openings of the spool through the internal chamber to the second opening of the plurality of openings of the sleeve to the return line. 5. The hydraulic circuit of claim 4 , wherein at least one of the respective plurality of openings of the spool is not a through-hole and does not reach the internal chamber of the spool. 6. The hydraulic circuit of claim 1 , wherein each of the respective openings of the spool has corresponding openings arranged in a circular array about a longitudinal axis of the spool. 7. A method comprising: receiving at a controller a command to move a hydraulic actuator in a given direction at a given speed, wherein the hydraulic actuator includes a first chamber and a second chamber; and in response to the command, the controller providing a signal to a valve to operate the valve, wherein the valve comprises: a sleeve having a plurality of openings configured along a length of the sleeve, wherein the plurality of openings includes at least: a first opening configured to receive pressurized fluid from a supply line, a second opening configured to communicate fluid to a return line including fluid having pressure lower than that of the pressurized fluid, a third opening configured to communicate fluid to and from the first chamber of the hydraulic actuator, and a fourth opening configured to communicate fluid to and from the second chamber of the hydraulic actuator; a spool rotatable within the sleeve, the spool including a respective plurality of openings along a length of the spool corresponding to the plurality of openings of the sleeve; and a rotary actuator coupled to the spool for rotating the spool within the sleeve, wherein the rotary actuator operates to rotate the spool, based on the signal, to a given rotary position in a clockwise or a counter-clockwise direction to cause at least a partial alignment between a subset of the respective plurality of openings of the spool and a subset of the plurality of openings of the sleeve so as to: (i) connect one of the first chamber and the second chamber of the hydraulic actuator to the supply line, and connect the other chamber to the return line, or (ii) connect both the first chamber and the second chamber of the hydraulic actuator to the return line, wherein rotation of the spool to reach the given rotary position takes a first amount of time if the spool rotates in the clockwise direction and takes a second amount of time different from the first amount of time if the spool rotates in the counter-clockwise direction. 8. The method of claim 7 , further comprising: determining a required degree of alignment between a subset of the respective plurality of openings of the spool and a subset of the plurality of openings of the sleeve so as to meter fluid passing through aligned openings and power the hydraulic actuator for movement in the given direction at the given speed, wherein providing the signal comprises: providing the signal to cause the rotary actuator to rotate the spool to the given rotary position that achieves the determined required degree of alignment. 9. The method of claim 7 , further comprising: determining one or more parameters including pressure of fluid in the supply line, pressure of fluid in the return line, position of the hydraulic actuator, force exerted by the hydraulic actuator, and speed of the hydraulic actuator; determining mode of operation, wherein determining the mode of operation comprises determining whether to (i) connect one of the first chamber and the second chamber of the hydraulic actuator to the supply line, and connect the other chamber to the return line, or (ii) connect both the first chamber and the second chamber of the hydraulic actuator to either the supply line or the return line; and determining a rotary position of the spool based on the determined mode of operation, the command, and the one or more parameters, wherein providing the signal to the valve is based on the determined rotary position of the spool. 10. The method of claim 7 , further comprising: obtaining response time information indicative of a threshold amount of time between receiving the command and the hydraulic actuator beginning to move; and the controller determining whether to cause the spool to rotate in the clockwise direction or the counter-clockwise direction based on the response time information. 11. The method of claim 10 , wherein the response time information is based on characteristics of the hydraulic actuator. 12. The method of claim 7 , wherein the spool includes an internal chamber, and wherein fluid passes through a given opening of the respective plurality of openings of the spo