Detecting and compensating for the effects of pump half-stroking

The invention claimed is: 1. A method comprising: operating a pump of a downhole tool to pump fluid from a formation through the downhole tool; determining pressure differentials between a formation pressure and pressure of the fluid within the downhole tool; summing pressure differentials between the formation pressure and the pressure of the fluid within the downhole tool for a forward stroke of the pump; summing pressure differentials between the formation pressure and the pressure of the fluid within the downhole tool for a reverse stroke of the pump; comparing the summed pressure differentials for the forward stroke to the summed pressure differentials for the reverse stroke to enable identification of onset of half-stroking by the pump; calculating mobility; and determining volume of the fluid pumped through the downhole tool during half-stroking by the pump based on calculated mobility and the compared pressure differentials. 2. The method of claim 1 , comprising identifying the onset of half-stroking by the pump through the comparison of the summed pressure differentials for the forward stroke to the summed pressure differentials for the reverse stroke. 3. The method of claim 2 , wherein identifying the onset of half-stroking includes: determining that a ratio of the summed pressure differentials for the later of the forward stroke or the reverse stroke to the summed pressure differentials for the earlier of the forward stroke or the reverse stroke is below one predetermined threshold; or determining that a ratio of the summed pressure differentials for the earlier of the forward stroke or the reverse stroke to the summed pressure differentials for the later of the forward stroke or the reverse stroke is above a different predetermined threshold. 4. The method of claim 1 , wherein calculating mobility includes computing estimates of real-time mobility for strokes of the pump. 5. The method of claim 1 , comprising using mobility computed for a time during operation of the pump before onset of half-stroking in determining the volume of the fluid pumped through the downhole tool during half-stroking. 6. The method of claim 5 , wherein the mobility computed during operation of the pump before onset of half-stroking is an average of mobility computed for multiple strokes of the pump preceding the onset of half-stroking. 7. The method of claim 6 , wherein the mobility computed during operation of the pump before onset of half-stroking is the average mobility computed for multiple consecutive strokes of the pump immediately preceding the onset of half-stroking. 8. The method of claim 1 , comprising using the determined volume to estimate a level of contamination in the fluid. 9. The method of claim 1 , comprising detecting the end of half-stroking by the pump through comparison of summed pressure differentials for an additional forward stroke of the pump and an additional reverse stroke of the pump. 10. The method of claim 1 , wherein summing pressure differentials between the formation pressure and the pressure of the fluid within the downhole tool for the forward stroke of the pump and for the reverse stroke of the pump includes integrating the pressure differentials between the formation pressure and the pressure of the fluid within the downhole tool over respective time periods of the forward and reverse strokes. 11. A method comprising: drawing fluid through a flowline from a pressurized source into a first chamber of a pump, and expelling fluid from a second chamber of the pump, by moving a piston of the pump in a first axial direction; changing the direction of movement of the piston from the first axial direction to a second axial direction opposite the first axial direction; drawing fluid through the flowline from the pressurized source into the second chamber of the pump, and expelling fluid from the first chamber of the pump, by moving the piston in the second axial direction; monitoring flowline pressure of the fluid drawn from the source; determining pressure differentials between the source and the flowline; calculating mobility; and computing volume of fluid pumped by the pump based on the determined pressure differentials and calculated mobility. 12. The method of claim 11 , wherein the pump is disposed in a downhole tool. 13. The method of claim 12 , wherein the source is a formation and the method comprises estimating real-time mobility for fluid of the formation during movement of the piston in the first and second axial directions. 14. The method of claim 11 , comprising: integrating a pressure differential that exists, during movement of the piston in the first axial direction, between the source pressure and the flowline pressure; integrating a pressure differential that exists, during movement of the piston in the second axial direction, between the source pressure and the flowline pressure; and comparing the results of the integration for the pressure differential existing during movement of the piston in the first axial direction and of the integration for the pressure differential existing during movement of the piston in the second axial direction to enable detection of half-stroking by the pump. 15. An apparatus comprising: a downhole tool including: an intake configured to receive formation fluid within a flowline of the downhole tool; a pump in fluid communication with the flowline so as to enable the pump to draw the formation fluid into the downhole tool via the flowline and to expel the formation fluid from the downhole tool; and a sensor configured to measure formation fluid pressure within the flowline; and a controller operable to determine pressure differentials between a formation pressure and measured formation fluid pressure within the flowline, to compare aggregates of the pressure differentials for consecutive strokes of the pump, to identify onset of half-stroking by the pump based on the comparison of the aggregates of the pressure differentials for the consecutive strokes, to calculate mobility, and to compute volume of the fluid pumped through the downhole tool during half-stroking by the pump based on the determined pressure differentials and calculated mobility. 16. The apparatus of claim 15 , wherein the controller is operable to account for effects of pump half-stroking in the computation of the volume of formation fluid pumped by the pump. 17. The apparatus of claim 15 , wherein the pump includes a bidirectional displacement pump having a reciprocating piston and the consecutive strokes include a forward stroke and a reverse stroke of the reciprocating piston. 18. The apparatus of claim 15 , wherein the downhole tool includes the controller.