Cable routing for movable trays

What is claimed is: 1. A rack comprising: a power distribution unit located at a front of the rack; an appliance comprising at least one of a server or a network hardware component, the appliance having a power supply unit located at a front of the appliance, the front of the appliance and the front of the rack facing the same direction; a tray slidable into and out of the front of the rack between an extended position and a stowed position, the tray carrying or forming part of the appliance such that (a) the appliance is accessible from outside the front of the rack for servicing when the tray is in the extended position, and (b) the appliance is positioned at least partially within the rack in the stowed position; a cable connecting the power supply unit of the appliance with the power distribution unit, the cable having a length sufficient for reaching between the power supply unit of the appliance and the power distribution unit when the tray is in the extended position; an elongated cavity extending along a lateral side of the tray and having a front facing the same direction as the front of the appliance and the front of the rack; and a retractor configured to pull the cable in through the front of the cavity in response to the tray sliding towards the stowed position, wherein in each of the extended position and the stowed position, the retractor is located at least partially in the elongated cavity extending along the lateral side of the tray. 2. The rack of claim 1 , wherein the retractor comprises: a biasing mechanism positioned within the cavity; and a pivot positioned within the cavity, the pivot receiving a bend of the cable about the pivot, the pivot coupled with the biasing mechanism so that (a) movement of the tray toward the extended position pulls the cable at least partially out of the cavity against a biasing force of the biasing mechanism, and (b) the cable is biased into the cavity by the biasing force of the biasing mechanism when the tray is in or moved toward the stowed position. 3. The rack of claim 2 , further comprising a track positioned in the cavity and configured to guide movement of the pivot along the cavity. 4. The rack of claim 2 , wherein the pivot comprises a rolling element. 5. The rack of claim 4 , wherein the rolling element has a radius at least 5 times the size of the diameter of the cable. 6. The rack of claim 2 , wherein the pivot comprises a hook. 7. A rack for an appliance having a cable, the rack comprising: a frame configured to receive an assembly with a first connection port; a tray coupled with the frame for movement along a sliding direction between an extended position and a stowed position, the tray comprising a front and a rear separated from one another along the sliding direction, the tray further comprising lateral sides separated from one another along a lateral direction transverse to the sliding direction, the tray configured to receive or form part of the appliance so that the cable connects the first connection port with a second connection port of the appliance; and a retractor connectable with the cable and including a biasing mechanism configured to pull the cable taut while the cable retracts and extends in response to the tray moving between the stowed position and the extended position, wherein in each of the extended position and the stowed position, the retractor is located at least partially in a cavity extending along and positioned offset in the lateral direction from one of the lateral sides of the tray, and wherein the retractor contacts a different portion of the cable in the stowed position than in the extended position of the tray. 8. The rack of claim 7 , wherein the wherein the retractor comprises: the biasing mechanism; and a pivot configured to receive a bend of the cable about the pivot, the pivot coupled with the biasing mechanism so that, when the bend of the cable is received about the pivot, (a) movement of the tray toward the extended position pulls the cable at least partially away from a stored state against a biasing force of the biasing mechanism, and (b) the cable is biased toward the stored state by the biasing force of the biasing mechanism when the tray is in or moved toward the stowed position. 9. The rack of claim 8 , wherein the pivot comprises a rolling element with multiple channels for each receiving a different cable. 10. The rack of claim 8 , wherein the retractor comprises one or more springs. 11. The rack of claim 7 , wherein the cable for connecting the first connection port with the second connection port comprises at least one of a power cable or a data cable. 12. The rack of claim 7 , wherein the cable in a stored state is located at least partially in the cavity, wherein the cavity is located on the frame. 13. The rack of claim 7 , wherein the cable in a stored state is located at least partially in the cavity, wherein the cavity is located to the side of the tray. 14. A cable-routing system for a tray configured for movement along a sliding direction between an extended position and a stowed position, the tray comprising a front and a rear separated from one another along the sliding direction, the tray further comprising lateral sides separated from one another along a lateral direction transverse to the sliding direction, the cable-routing system comprising: a biasing mechanism; and a pivot configured to receive a bend of a cable about the pivot, the pivot coupled with the biasing mechanism so that, when the bend of the cable is received about the pivot, (a) movement of the tray toward the extended position pulls the cable toward an extended state against a biasing force of the biasing mechanism, and (b) the cable is biased toward a stored state by the biasing force of the biasing mechanism when the tray is in or moved toward the stowed position, wherein in each of the extended position and the stowed position, the pivot is located at least partially in a cavity extending along and positioned offset in the lateral direction from one of the lateral sides of the tray, and wherein the pivot contacts a different portion of the cable in the stowed state than in the extended state of the cable. 15. The cable-routing system of claim 14 , wherein the cable in the stored state is located at least partially in the cavity, wherein the cavity is located on the tray. 16. The cable-routing system of claim 14 , wherein the cable in the stored state is located at least partially in the cavity, wherein the cavity is located apart from the tray. 17. The cable-routing system of claim 14 , wherein the pivot comprises a vertically-oriented rolling element. 18. The cable-routing system of claim 14 , wherein the pivot comprises a horizontally-oriented rolling element. 19. The cable-routing system of claim 14 , further comprising: a first cavity comprising the cavity and configured to receive the cable in the stored state; a second cavity; a second biasing mechanism positioned within the second cavity; and a second pivot positioned within the second cavity and configured to receive a bend of a second cable about the second pivot, the second pivot coupled with the second biasing mechanism so that, when the bend of the second cable is received about the second pivot, (a) movement of the tray toward the extended position pulls the second cable at least partially out of the second cavity against a biasing force of the second biasing mechanism, and (b) the second cable is biased into the second cavity by the biasing force of the second bia