Duplex bearing lubrication

What is claimed is: 1. A bearing system comprising: a first bearing having an inner race; a second bearing having an inner race; and a shaft, received by the inner race of the first bearing and the inner race of the second bearing, wherein: the inner race of the first bearing includes a plurality of first ports; the inner race of the second bearing includes a plurality of second ports; the shaft is insertable into the inner race of the first bearing and the inner race of the second bearing in a plurality of installed orientations; the shaft has a plurality of outer diameter (OD) channels positioned to cooperate with at least the inner race of the first bearing to define passageways; the OD channels comprise: at least one first channel dimensioned to potentially feed one or more of the first ports; and at least one second channel dimensioned to potentially feed one or more of the second ports and one or more of the first ports; at least some of the passageways extend aft from an associated inlet port to communicate with at least one of the first ports and at least one of the second ports; and regardless of said installed orientation, at least one of the second ports are in communication with at least one said inlet port along a flowpath bypassing all the first ports. 2. The system of claim 1 wherein: the inner race of the first bearing and the inner race of the second bearing are portions of a single piece. 3. The system of claim 1 wherein: the first bearing includes an outer race and a plurality of bearing elements between the outer race of the first bearing and the inner race of the first bearing; and the second bearing includes an outer race and a plurality of bearing elements between the outer race of the second bearing and the inner race of the second bearing. 4. The system of claim 3 wherein: the first bearing outer race and the second bearing outer race are separate pieces. 5. The system of claim 4 wherein: the first bearing outer race and second bearing outer race are biased toward each other. 6. The system of claim 3 wherein: the first bearing bearing elements are balls; and the second bearing bearing elements are balls. 7. The system of claim 1 wherein: the first ports have outlets axially outboard of a transverse centerplane of the first bearing bearing elements; and the second ports have outlets axially outboard of a transverse centerplane of the second bearing bearing elements. 8. The system of claim 1 wherein: the passageways extend from an inlet plenum at a shoulder of the shaft. 9. The system of claim 1 wherein the OD channels comprise: a plurality of first bearing longitudinal legs; a plurality of first bearing circumferential legs intersecting respective associated first bearing longitudinal legs; a plurality of second bearing longitudinal legs; and at least one second bearing circumferential leg intersecting the second bearing longitudinal legs. 10. The system of claim 9 wherein: the plurality of first bearing circumferential legs are partial annuli; and the plurality of second bearing longitudinal legs pass between associated pairs of the first bearing circumferential legs. 11. The system of claim 10 wherein: the plurality of first bearing circumferential legs comprise at least two different angular spans. 12. The system of claim 9 wherein: the second bearing circumferential leg is a full annulus. 13. The system of claim 9 including six first ports evenly circumferentially spaced. 14. The system of claim 9 including four second bearing circumferential legs. 15. The system of claim 9 wherein: the first beating longitudinal legs are shorter than the second bearing longitudinal legs. 16. An engine comprising: an engine case; and the system of claim 1 wherein the shaft is an engine shaft and the first bearing and second bearing mount the shaft to the case for rotation about an engine axis. 17. The engine of claim 16 wherein: the bearing system is at a forward end of the engine and the engine further comprises one or more additional bearings aft thereof. 18. The engine of claim 16 wherein: the bearing system is at a forward end of the engine; and the passageways extend from a plenum proximate a connection to a coupling between the shaft and a load. 19. A method for using the system of claim 1 , the method comprising: delivering pressurized lubricant to a shoulder region of the shaft to pass into passageways formed by the OD channels and first bearing inner race and second bearing inner race to pass to the first ports and second ports. 20. The method of claim 19 wherein: the system is a duplex bearing system of a gas turbine engine, the method further comprising running the gas turbine engine to drive rotation of a rotor containing the shaft about an engine axis. 21. The system of claim 1 wherein: the at least one second channel comprises at least one circumferential leg and at least one longitudinal leg. 22. The system of claim 21 wherein: said at least one first channel is dimensioned to not be able to potentially feed any of the second ports. 23. A method for manufacturing a plurality of the systems of claim 1 , the method comprising: for a first said system, mounting the inner races of the first bearing and second bearing to the shaft in a first relative orientation wherein all of the second ports are in communication with the second channels and none of the first ports are and all of the first ports are in communication with the first channels and none of the second ports are; and for a second said system, mounting the inner races of the first bearing and second bearing to the shaft in a second relative orientation offset from the first relative orientation wherein: some of the second channel longitudinal legs are in communication with at least one said first port; and others of the second channel longitudinal legs are in communication with at least one said second port independently of the first ports. 24. The method of claim 23 wherein: for a third said system, mounting the inner races of the first bearing and second bearing to the shaft in a third relative orientation offset from the first relative orientation wherein: all of the second channel longitudinal legs are in communication with at least one said second port independently of the first ports; and some, but not all, of the first ports are blocked; and in the second relative orientation, none of the first ports are blocked. 25. A method for manufacturing a bearing system, the bearing system comprising: an inner race of a first bearing, including a plurality of first ports; an inner race of a second bearing, including a plurality of second ports; and a shaft, received by the inner race of the first bearing and the inner race of the second bearing, the shaft having a plurality of outer diameter (OD) channels positioned to cooperate with at least the inner race of the first bearing to define passageways, the method comprising: installing the shaft unkeyed into the inner race of the first bearing and inner race of the second bearing in an installed orientation wherein: at least one of the passageways extends from an associated inlet port to communicate with at least one of the first ports; at least one of the passageways extends from an associated inlet port to communicate with at least one of the seco