Detection apparatus and method

The invention claimed is: 1. A pipeline apparatus comprising: a flexible pipe body including a sensor member and a return member extending at least partially along the length of the flexible pipe body and electrically isolated from one another except for being electrically connected at a point remote from a first end of the flexible pipe body, wherein the sensor member is exposed along at least part of the length of the flexible pipe body and has a predetermined resistance per unit length and the return member is electrically insulated; a first constant current source having a first terminal arranged to supply a constant electrical current to the sensor member and a second terminal coupled to the return member at the first end of the flexible pipe body; and a first voltmeter arranged to measure the voltage across the first current source; wherein a change in the voltage across the first current source is indicative of the distance along the sensor member from the end coupled to the first terminal of the first current source to a pipe body defect causing the sensor member to be connected to Earth. 2. A pipeline apparatus according to claim 1 , wherein the sensor member and the return member are positioned within a pipe body annulus between an innermost barrier layer and an outermost barrier layer. 3. A pipeline apparatus according to claim 2 , wherein the sensor member and the other electrical member comprise wires; wherein the flexible pipe body further comprises at least one metallic structural element connected to Earth; and wherein the sensor member is arranged such that if a pipe body defect admits fluid into the pipe body annulus, fluid between the sensor member and a metallic structural element causes the sensor member to be connected to Earth. 4. A pipeline apparatus according to claim 1 , further comprising: a second constant current source having a first terminal arranged to supply a constant current to the return member and a second terminal coupled to the sensor member; and a second voltmeter arranged to measure the voltage across the second current source; wherein a change in the voltage across the second current source is indicative of the distance along the sensor member from the end coupled to the first terminal of the second current source to the pipe body defect causing the sensor member to be connected to Earth. 5. A pipeline apparatus according to claim 4 , wherein: the first and second current sources are arranged such that only one supplies current to the sensor members or the return member at a time; and wherein each current source is electrically isolated from the other. 6. A method of detecting defects within a flexible pipe body, the method comprising: supplying electrical current from a first constant current source to a sensor member and a return member extending at least partially along the length of a flexible pipe body and electrically isolated from one another except for being electrically connected at a point remote from the power supply, wherein the sensor member is exposed along at least part of the length of the flexible pipe body and has a predetermined resistance per unit length and the return member is electrically insulated, and wherein the first constant current source has a first terminal arranged to supply a constant electrical current to the sensor member and a second terminal coupled to the return member at the first end of the flexible pipe body; and measuring the voltage across the first current source; wherein a change in the voltage across the first current source is indicative of the distance along the sensor member from the end coupled to the first terminal of the first current source to a pipe body defect causing the sensor member to be connected to Earth. 7. A method of forming a pipeline apparatus, the method comprising: providing a flexible pipe body including a sensor member and a return member extending at least partially along the length of the flexible pipe body and electrically isolated from one another except for being electrically connected at a point remote from a first end of the flexible pipe body, wherein the sensor member is exposed along at least part of the length of the flexible pipe body and has a predetermined resistance per unit length and the return member is electrically insulated; coupling a first terminal of a first constant current source to the sensor member and a second terminal of the first constant current source to the return member at the first end of the flexible pipe body such that it can supply a constant electrical current to the sensor member; and coupling a first voltmeter to the first constant current source such that it can measure the voltage across the first current source; wherein a change in the voltage across the first current source is indicative of the distance along the sensor member from the end coupled to the first terminal of the first current source to a pipe body defect causing the sensor member to be connected to Earth.