Polarity identification for polarity reversing duplex unibody connectors

What is claimed is: 1. A duplex connector, comprising: a first connector configured to plug into a first adapter; and a second connector configured to plug into a second adapter; wherein the first connector and the second connector comprise respective first sides and respective second sides that are opposite the first sides, while the first connector and the second connector are plugged into the first adapter and the second adapter according to a first polarity, the first sides are upward-facing, while the first connector and the second connector are plugged into the first adapter and the second adapter according to a second polarity, the second sides are upward-facing, the first side of the first connector is labeled with a first identifier, the first side of the second connector is labeled with a second identifier, the second side of the first connector is labeled with the first identifier, and the second side of the second connector is labeled with the first identifier. 2. The duplex connector of claim 1 , wherein the first identifier is an “A” and the second identifier is a “B”. 3. The duplex connector of claim 1 , wherein the first polarity is a straight-through polarity, and the second polarity is a crossed polarity. 4. The duplex connector of claim 1 , wherein the duplex connector is a fiber optic connector. 5. The duplex connector of claim 1 , wherein the first connector and the second connector comprise a first barrel projection and a second barrel projection, respectively, and wherein the first barrel projection and the second barrel projection are hollow and are configured to receive respective springs and ferrule assembles via front ends of the first barrel projection and the second barrel projection. 6. The duplex connector of claim 5 , wherein the first fiber connector and the second fiber connector further comprise a first front body and a second front body, respectively, that fit over the first barrel projection and the second barrel projection while the springs and the ferrule assemblies are in the first and second barrel projections, and wherein the first front body and the second front body comprise respective rear openings that receive the first barrel projection and the second barrel projection, respectively. 7. The duplex connector of claim 6 , wherein the first barrel projection and the second barrel projection comprise respective grooves at or near bases of the first barrel projection and the second barrel projection, and rims formed on the rear openings comprise ridges configured to be received by the grooves of the first barrel projection and the second barrel projection while the first front body and the second front body are attached to the first barrel projection and the second barrel projection. 8. The duplex connector of claim 5 , wherein inner surfaces of the first barrel projection and the second barrel projection comprise geometric profiles conforming to a shape of ferrule holders of the ferrule assemblies. 9. A cable assembly, comprising: a cable comprising at least two conductors; and a duplex connector attached to an end of the cable, wherein the duplex connector comprises: a transmit connector communicatively connected to a first conductor of the at least two conductors, and a receive connector communicatively connected to a second conductor of the at least two conductors, wherein while the duplex connector is plugged into an adapter according to a first polarity, first sides of the transmit connector and the receive connector are upward-facing, while the duplex connector is plugged into the adapter according to a second polarity, second sides of the connector housing are upward-facing, the first side of the transmit connector comprises a transmit identifier marking, the first side of the receive connector comprises a receive identifier marking, the second side of the transmit connector comprises the receive identifier marking, and the second side of the transmit connector comprises the receive identifier marking. 10. The cable assembly of claim 9 , wherein the transmit identifier marking comprises a letter “B” and the receive identifier marking comprises a letter “A”. 11. The cable assembly of claim 9 , wherein the transmit identifier marking and the receive identifier marking are at least one of printed, stamped, or embossed on the connector housing. 12. The cable assembly of claim 9 , wherein the first polarity is a straight-through polarity, and the second polarity is a crossed polarity. 13. The cable assembly of claim 9 , wherein the at least two conductors are optical fibers. 14. The cable assembly of claim 9 , wherein the at least two conductors are copper conductors. 15. The cable assembly of claim 9 , wherein the transmit connector and the receive connector comprise a first barrel projection and a second barrel projection, respectively, the first barrel projection and the second barrel projection are hollow and are configured to receive respective springs and ferrule assembles via front ends of the first barrel projection and the second barrel projection, and the first conductor and the second conductor are connected to the ferrule assemblies. 16. The cable assembly of claim 15 , wherein the transmit connector and the receive connector further comprise a first front body and a second front body, respectively, that fit over the first barrel projection and the second barrel projection while the springs and the ferrule assemblies are in the first and second barrel projections, and wherein the first front body and the second front body comprise respective rear openings that receive the first barrel projection and the second barrel projection, respectively. 17. The cable assembly of claim 16 , wherein the first barrel projection and the second barrel projection comprise respective grooves at or near bases of the first barrel projection and the second barrel projection, and rims formed on the rear openings comprise ridges configured to be received by the grooves of the first barrel projection and the second barrel projection while the first front body and the second front body are attached to the first barrel projection and the second barrel projection. 18. A method, comprising: rotating a first front body of a duplex connector about a first barrel projection on which the first front body is attached, wherein the first front body and the first barrel projection house a first ferrule assembly comprising a first ferrule that protrudes from a first front opening of the first front body, wherein a first side of the duplex connector contains a first identifying mark in association with the first front body, and wherein a second side of the duplex connector contains a second identifying mark in association with the first front body; rotating a second front body of the fiber optic connector about a second barrel projection on which the second front body is attached, wherein the second front body and the second barrel projection house a second ferrule assembly comprising a second ferrule that protrudes from a second front opening of the second front body, wherein the first side of the duplex connector contains a second identifying mark in association with the second front body, and wherein the second side of the duplex connector contains the first identifying mark in association with the second front body; removing a puller from a first side of the fiber optic connector; and attaching the puller to a second side of the fiber optic connector opposite the first side.