Downhole apparatus and method

The invention claimed is: 1. A downhole actuator, comprising: a tubular housing which includes an indexing profile on an inner surface thereof; and an indexing sleeve mounted within the housing and comprising an engaging arrangement including first and second axially spaced engagement members which cooperate with the indexing profile of the housing to be sequentially engaged by an actuation object passing through a central bore of the indexing sleeve to drive the indexing sleeve one discrete step of movement through the housing towards an actuation site, wherein the indexing profile comprises a first disabled region which is remote from the actuation site, wherein the indexing sleeve is moved towards the first disabled region by use of a shifting tool such that alignment of the indexing sleeve with the first disabled region of the indexing profile permits the indexing sleeve to become disabled such that the indexing sleeve is not moved upon passage of an actuation object. 2. The downhole actuator according to claim 1 , wherein the indexing sleeve is arranged to progress within the housing towards the actuation site in a predetermined number of discrete steps of movement by passage of a corresponding number of actuation objects through the central bore of the indexing sleeve. 3. The downhole actuator according to claim 1 , wherein the indexing profile comprises a second disabled region which coincides with the actuation site of the actuator such that the indexing sleeve can be disabled at the actuation site. 4. The downhole actuator according to claim 3 , wherein the indexing sleeve is configured to function as a latch for a downhole tool when said indexing sleeve is disabled at the actuation site. 5. The downhole actuator according to claim 3 , wherein the first of the disabled region is located at one axial end of the indexing profile and the second disabled region is located at an opposite axial end of said indexing profile. 6. The downhole actuator according to claim 1 , wherein the indexing sleeve defines a shifting profile to facilitate engagement by a shifting tool. 7. The downhole actuator according to claim 1 , wherein the indexing profile of the housing comprises a plurality of annular recesses arranged longitudinally along the housing. 8. The downhole actuator according to claim 7 , wherein the indexing profile comprises at least one pair of annular recesses which are arranged at an axial spacing which is equivalent to the axial spacing of the first and second engagement members, wherein the indexing sleeve is configured to become disabled when the first and second engagement members are received within a pair of annular recesses which are arranged at the same axial spacing. 9. The downhole actuator according to claim 7 , wherein one axial end region of the indexing profile comprises a pair of annular recesses provided at an axial spacing which is equivalent to the axial spacing of the first and second engagement members. 10. The downhole actuator according to claim 7 , wherein opposing axial end regions of the indexing profile comprises a pair of annular recesses with an axial spacing which corresponds to the axial spacing of the first and second engagement members of the indexing sleeve. 11. The downhole actuator according to claim 1 , comprising a stand-off member radially positioned between the housing and the indexing sleeve to define a radial separation gap between the housing and the indexing sleeve. 12. The downhole actuator according to claim 1 , wherein the housing is modular and comprises multiple housing modules connected together to collectively define the housing. 13. The downhole actuator according to claim 12 , wherein individual housing modules define a portion of the indexing profile, such that when the individual modules are connected together the entire indexing profile is formed. 14. The downhole actuator according to claim 1 , wherein the first and second engagement members are arranged relative to each other to permit only a single actuation object to be positioned therebetween. 15. The downhole actuator according to claim 1 , wherein the first and second engagement members define a confinement region therebetween, for temporarily accommodating an actuation object during passage of said object through the indexing sleeve, wherein the confinement region is configured to permit only a single actuation object to be accommodated therein at any time. 16. The downhole actuator according to claim 1 , wherein the indexing sleeve cooperates with the indexing profile of the housing to be moved in a discrete step in any direction of travel of a passing actuation object. 17. The downhole actuator according to claim 1 , wherein the indexing sleeve is movable in reverse directions by discrete linear movement steps in accordance with the direction of travel of an actuation object. 18. The downhole actuator according to claim 1 , wherein the indexing sleeve is reconfigurable, in situ, to permit sequential engagement of the first and second engagement members in reverse directions of a passing actuation object. 19. The downhole actuator according to claim 18 , wherein said in situ reconfiguration is achieved by an initial passage of an actuation object in a reverse direction. 20. The downhole actuator according to claim 19 , wherein the first and second fingers extend in opposing directions. 21. The downhole actuator according to claim 1 , comprising first and second fingers which support a respective one of the first and second engagement members on distal ends of said fingers, wherein the fingers are deformable to permit the engagement members to move radially upon cooperation with the indexing profile. 22. The downhole actuator according to claim 1 , wherein the engaging arrangement comprises: an array of first engagement members arranged circumferentially around the indexing sleeve, wherein each first engagement member is mounted on a respective first finger and an array of second engagement members arranged circumferentially around the indexing sleeve, wherein each second engagement member is mounted on a respective second finger. 23. The downhole actuator according to claim 1 , comprising a monitoring arrangement for monitoring the passage of an actuation object through the indexing sleeve. 24. The downhole actuator according to claim 23 , wherein the monitoring arrangement comprises at least one of: an acoustic monitoring arrangement configured to identify an acoustic signal generated by impact of an actuation object against the first and second engagement members; and a pressure monitoring system configured to identify a pressure variation generated during engagement of an actuation object with the first and second engagement members. 25. The downhole actuator according to claim 1 , wherein the indexing sleeve is configured to be initially positioned at any desired location along the indexing profile to determine the required number of actuation objects, and thus required discrete steps of movement, to drive the indexing sleeve to the actuation site. 26. A method for downhole actuation, comprising: mounting an indexing sleeve within a tubular housing which includes an indexing profile on an inner surface thereof, wherein the indexing sleeve comprises an engaging arrangement including first and second axially spaced engagement members which cooperate with the indexing profile of t