Adjustable fitting assembly

That which is claimed is: 1. A fitting assembly comprising: a socket fitting comprising an end wall and a substantially cylindrical sidewall extending from the end wall, the end wall and cylindrical sidewall defining a cylindrical interior recess, the cylindrical sidewall defining an open end opposite the end wall allowing access to the cylindrical interior recess, the cylindrical interior recess configured to receive a first end portion of a brace member, a bore formed through the end wall and a hole formed through the cylindrical sidewall; a first fastener engaged with the hole and extending into the cylindrical interior recess, the first fastener configured to couple the brace member to the socket fitting; and a second fastener defining a tail end engaged with the bore, the second fastener repositionable relative to the socket fitting to adjust a length of the fitting assembly, wherein the second fastener is oriented perpendicular to the first fastener. 2. The fitting assembly of claim 1 , wherein the second fastener is repositionable within the bore between a first orientation with respect to the socket fitting, wherein the fitting assembly is in a shortened configuration, and a second orientation with respect to the socket fitting, wherein the fitting assembly is in an extended configuration. 3. The fitting assembly of claim 2 , wherein the fitting assembly defines a first length in the shortened configuration and a second length in the extended configuration, wherein the first length is less than the second length. 4. The fitting assembly of claim 2 , wherein the second fastener extends into the cylindrical interior recess in the shortened configuration. 5. The fitting assembly of claim 2 , wherein the bore is a threaded bore, and wherein the tail end of the second fastener comprises a threaded portion rotatably engaged with the threaded bore. 6. The fitting assembly of claim 5 , wherein the threaded portion of the tail end of the second fastener is fully threaded with the threaded bore in the first orientation and partially threaded with the threaded bore in the second orientation. 7. The fitting assembly of claim 1 , wherein the second fastener is oriented concentric to the cylindrical interior recess. 8. The fitting assembly of claim 1 , wherein the hole is a threaded hole and the first fastener is a set screw, the set screw defining a threaded tail end configured to rotatably engage the threaded hole. 9. The fitting assembly of claim 1 , wherein the second fastener is an eyebolt comprising the tail end and a head end, the tail end defining threading, the head end being substantially O-shaped and defining an opening therethrough, the opening configured to receive a fastener therethrough. 10. The fitting assembly of claim 1 , wherein the end wall defines a substantially planar surface facing the cylindrical interior recess, the substantially planar surface configured to abut a tubular brace member. 11. The fitting assembly of claim 1 , further comprising a mounting bracket coupled to the second fastener, the mounting bracket defining a mounting plate configured to abut a mounting structure. 12. A method of assembling a fitting assembly comprising: providing a tubular brace member and a fitting, the fitting defining a substantially cylindrical sidewall, the substantially cylindrical sidewall defining a cylindrical interior recess, the substantially cylindrical sidewall further defining an open end allowing access to the cylindrical interior recess; inserting a first end portion of the tubular brace member through the open end into the cylindrical interior recess; and coupling the tubular brace member to the fitting; wherein: the tubular brace member defines a cylindrical hollow interior, the fitting further defines an end wall opposite the open end, a bore is formed through the end wall, a fastener extends through the bore and into the cylindrical hollow interior of the tubular brace member, the fastener is selectively repositionable relative to the fitting between a first orientation and a second orientation, in the first orientation, the fastener defines a first effective length, and in the second orientation, the fastener defines a second effective length that is less that the first effective length, and the method further comprises repositioning the fastener relative to the fitting to reposition the fastener between the first orientation and the second orientation. 13. The method of claim 12 , wherein the method further comprising abutting the first end portion of the tubular brace member against the end wall. 14. The method of claim 12 , wherein the substantially cylindrical sidewall defines a second bore therethrough, and wherein coupling the tubular brace member to the fitting comprises inserting a second fastener through the second bore and engaging an outer surface of the substantially cylindrical sidewall with the second fastener. 15. The method of claim 14 , wherein the second bore is a threaded bore, the second fastener is a set screw, and the set screw can be tightened and loosened by rotating the set screw within the second bore relative to the fitting. 16. The method of claim 14 , wherein the second fastener is oriented perpendicular to the tubular brace member. 17. The method of claim 12 , wherein the fastener is concentric to the tubular brace member. 18. The method of claim 12 , wherein: the bore is a threaded bore; the fastener defines a threaded tail end configured to rotatably engage the threaded bore; and repositioning the fastener relative to the fitting comprises rotating the threaded tail end within the bore relative to the fitting.