Variable displacement axial piston pump with fluid controlled swash plate

What is claimed is: 1. A variable displacement axial piston pump comprising: a pump housing; a cylinder block defining a plurality of cylinder bores, the cylinder block defining a central axis about which the plurality of cylinder bores are arranged, wherein the cylinder block is supported for rotation relative to the pump housing about the central axis; a plurality of pistons, each of the plurality of pistons being received in a respective one of the plurality of cylinder bores; a swash plate pivotally supported relative to the cylinder block, the swash plate providing a piston-supporting surface along which the plurality of pistons slide during operation of the pump; and a port block defining first and second pumping ports arranged in fluid communication with the plurality of cylinder bores such that, during operation of the pump when the swash plate piston-supporting surface defines an angle other than 90 degrees with respect to the central axis, one of the first and second pumping ports is configured to supply fluid to the plurality of cylinder bores for pumping by the plurality of pistons as the cylinder block rotates, and the other of the first and second pumping ports is configured to receive fluid pumped from the plurality of cylinder bores by the plurality of pistons as the cylinder block rotates, wherein the swash plate partially defines at least one variable volume control chamber, and wherein the swash plate is operable to tilt with respect to the port block in response to a fluid pressure change in the at least one control chamber, and wherein the swash plate is arranged between the port block and the cylinder block and the at least one control chamber is defined jointly by the swash plate and the port block. 2. The variable displacement axial piston pump of claim 1 , wherein the at least one control chamber is at least partially defined by a back surface of the swash plate that is opposite the piston-supporting surface. 3. The variable displacement axial piston pump of claim 1 , wherein there is no control piston provided for physically manipulating the angle between swash plate piston-supporting surface and the central axis. 4. The variable displacement axial piston pump of claim 1 , further comprising a control valve operable to receive fluid from a pilot pressure port and to selectively control the passage of fluid from the pilot pressure port to the at least one control chamber for setting the angle between swash plate piston-supporting surface and the central axis. 5. The variable displacement axial piston pump of claim 4 , wherein the control valve is an electronically controllable solenoid valve defining a range of open positions. 6. The variable displacement axial piston pump of claim 1 , wherein the at least one control chamber includes a first control chamber and a second control chamber independent of the first control chamber, the first control chamber being positioned adjacent a first end of the swash plate and the second control chamber being positioned adjacent a second end of the swash plate opposite the first end. 7. The variable displacement axial piston pump of claim 6 , further comprising a first control valve and a second control valve, the first control valve being operable to control the admission of pressurized fluid to the first control chamber for tilting the swash plate in a first direction for pumping fluid from the first pumping port to the second pumping port with the plurality of pistons, and the second control valve being operable to control the admission of pressurized fluid to the second control chamber for tilting the swash plate in a second direction for pumping fluid from the second pumping port to the first pumping port with the plurality of pistons. 8. The variable displacement axial piston pump of claim 7 , wherein the pump housing defines an internal fluid reservoir in fluid communication with both the first and second control chambers. 9. The variable displacement axial piston pump of claim 1 , wherein the plurality of pistons, the swash plate, and the port block form a first pump unit, the axial piston pump further comprising a second independent pump unit including a second plurality of pistons received in a second plurality of cylinder bores of the cylinder block, a second swash plate, and a second port block. 10. The variable displacement axial piston pump of claim 9 , wherein the second swash plate partially defines at least one variable volume control chamber, and wherein the second swash plate is operable to tilt with respect to the pump housing in response to a fluid pressure change in the at least one control chamber, independent of the at least one control chamber of the first pump unit. 11. The variable displacement axial piston pump of claim 1 , wherein the swash plate includes a back surface opposite the piston-supporting surface, wherein the swash plate defines a first fluid passage extending through the swash plate from the piston-supporting surface to the back surface, the first fluid passage being fluidly coupled to the first pumping port, and wherein there are no fluid inlet ports on the cylinder block and there are no fluid outlet ports on the cylinder block. 12. A variable displacement axial piston pump comprising: a pump housing; a cylinder block defining a plurality of cylinder bores, the cylinder block defining a central axis about which the plurality of cylinder bores are arranged, wherein the cylinder block is supported for rotation relative to the pump housing about the central axis; a plurality of pistons, each of the plurality of pistons being received in a respective one of the plurality of cylinder bores; a swash plate pivotally supported relative to the cylinder block, the swash plate providing a piston-supporting surface along which the plurality of pistons slide during operation of the pump; and a port block defining first and second pumping ports arranged in fluid communication with the plurality of cylinder bores such that, during operation of the pump when the swash plate piston-supporting surface defines an angle other than 90 degrees with respect to the central axis, one of the first and second pumping ports is configured to supply fluid to the plurality of cylinder bores for pumping by the plurality of pistons as the cylinder block rotates, and the other of the first and second pumping ports is configured to receive fluid pumped from the plurality of cylinder bores by the plurality of pistons as the cylinder block rotates, wherein the swash plate partially defines at least one variable volume control chamber, and wherein the swash plate is operable to tilt with respect to the port block in response to a fluid pressure change in the at least one control chamber, and wherein the swash plate includes a back surface opposite the piston-supporting surface, and wherein the swash plate defines a first fluid passage extending through the swash plate from the piston-supporting surface to the back surface, the first fluid passage being fluidly coupled to the first pumping port. 13. The variable displacement axial piston pump of claim 12 , wherein the swash plate defines a second fluid passage extending through the swash plate from the piston-supporting surface to the back surface, the second fluid passage being fluidly coupled to the second pumping port. 14. The variable displacement axial piston pump of claim 13 , wherein each piston of the plurality of pistons is a hollow piston having an axial through bore. 15. The variable displacement axial piston pump of claim 14 , further comprising a plurality of piston shoes, each of the plur