Vehicle driveline servicing apparatus and method

What is claimed is: 1. An apparatus to service the driveline of a vehicle, the apparatus comprises: two members each having an elongated handle segment and a jaw segment; a pivot element configured to pivotally connect both members together; a bridge lock configured to movably position along the handle segments; the jaw segments combine to define a profile adapted to clamp around an entire circumference of a portion of a splined coupling interface of a vehicle propeller shaft so as to secure to the vehicle propeller shaft; the bridge lock is adapted to provide holding pressure to the handle segments so as to lock the jaw segments when secured to the propeller shaft; and wherein an inner circumferentially-shaped side of each jaw segment comprises a ridge that is thinner than the jaw segment and being adapted to interlock with a groove of the splined coupling interface when the jaw segments have clamped around the circumference of the portion of the splined coupling interface. 2. The apparatus of claim 1 , wherein the ridge corresponds with the width of the splined coupling interface groove and interlocks around the circumference of the splined coupling interface groove. 3. The apparatus of claim 1 , wherein the bridge lock is defined by two impact pegs inserted into two body segments. 4. The apparatus of claim 1 , wherein the pivot element comprises a pin and recess combination. 5. The apparatus of claim 1 , wherein the servicing apparatus is constructed from metallic material. 6. The apparatus of claim 1 , wherein the handle segments combine to define a taper geometry that enables the holding pressure between the handle segments and bridge lock. 7. The apparatus of claim 6 , wherein the taper geometry is six degrees. 8. A system to service the driveline of a vehicle, the system comprises: a vehicle propeller shaft, the propeller shaft comprises: a splined coupling interface with a groove; a servicing apparatus, the servicing apparatus comprises: two members each having an elongated handle segment and a jaw segment; a pivot element pivotally connecting both members together to define a plier; the jaw segments combine to define a profile adapted to clamp around an entire circumference of a portion of the splined coupling interface so as to secure to the vehicle propeller shaft, an inner circumferentially-shaped side of each jaw segment comprises a ridge that is thinner than the jaw segment and being adapted to interlock with the groove of the splined coupling interface when the jaw segments have clamped around the circumference of the portion of the splined coupling interface; a bridge lock movably positioned along the handle segments, the bridge lock adapted to provide holding pressure to the handle segments so as to lock the jaw segments when secured to the splined coupling interface; and the handle segments combine to define a taper geometry that enables the holding pressure between the handle segments and bridge lock. 9. The system of claim 8 , wherein the taper geometry is six degrees. 10. The system of claim 8 , wherein the ridge corresponds with the width of the splined coupling interface groove and interlocks around the circumference of the splined coupling interface groove. 11. The system of claim 8 , wherein the bridge lock is defined by two impact pegs inserted into two body segments. 12. The system of claim 8 , wherein the servicing apparatus is constructed from metallic material. 13. A method to service the driveline of a vehicle, the method comprises: providing a vehicle propeller shaft, wherein the propeller shaft comprises a splined coupling interface with a groove; providing a servicing apparatus, wherein the servicing apparatus comprises: two members each having an elongated handle segment and a jaw segment; a pivot element pivotally connecting both members together near the jaw segments; the jaw segments combine to define a profile adapted to clamp around an entire circumference of a portion of the splined coupling interface of the vehicle propeller shaft; wherein each jaw segment comprises a ridge that is thinner than the jaw segment and being adapted to interlock with the groove of the splined coupling interface; and a bridge lock movably positioned along the handle segments, the bridge lock adapted to provide holding pressure to the handle segments so as to lock the jaw segments when secured to the splined coupling interface; spreading the jaw segments via the handle segments and pivot element; securing the servicing apparatus to the splined coupling interface by clamping the jaw segments via the handle segments and pivot element; and moving the bridge lock along the handle segments so as to provide holding pressure to lock the jaw segments. 14. The method of claim 13 , further comprising disengaging the propeller shaft from the vehicle power takeoff unit (PTU)/rear drive module (RDM) through implementation of the servicing apparatus. 15. The method of claim 13 , further comprising installing the propeller shaft into the vehicle power takeoff unit (PTU)/rear drive module (RDM) through implementation of the servicing apparatus. 16. The method of claim 13 , wherein the handle segments combine to define a taper geometry that enables the holding pressure between the handle segments and bridge lock. 17. The method of claim 13 , wherein the ridge corresponds with the width and circumference of the splined coupling interface groove. 18. The method of claim 13 , wherein the bridge lock is defined by two impact pegs inserted into two body segments.