Plugging pinhole leaks in flowlines

The invention claimed is: 1. An assembly to plug a leak in a flowline, the assembly comprising: a plug configured to plug the leak in the flowline comprising a circumferential surface and a longitudinal axis; a plug insertion subassembly supporting the plug, the plug insertion subassembly configured to move the plug between the circumferential surface and the longitudinal axis of the flowline; an axial positioning subassembly supporting the plug insertion subassembly, the axial positioning subassembly configured to move the plug insertion subassembly along the longitudinal axis of the flowline, wherein the axial positioning subassembly comprises: a first arm comprising a first end connected to the rotational positioning subassembly and a second end opposite the first end; a second arm comprising a third end connected to the rotational positioning subassembly and a fourth end opposite the third end; and a plate connected to the second end of the first arm and the fourth end of the second arm; and a chain-operated rotational positioning subassembly supporting the axial positioning subassembly, the rotational positioning subassembly configured to be attached to the flowline with the leak, the rotational positioning subassembly movable and configured to move the axial positioning subassembly on the circumferential surface of the flowline. 2. The assembly of claim 1 , wherein the chain-operated rotational positioning subassembly comprises: a body; a plurality of wheels supported by the body, the plurality of wheels contacting the circumferential surface of the flowline and configured to rotate to move the rotational positioning subassembly on the circumferential surface of the flowline; a chain supported by the body, the chain configured to be wrapped around the flowline, the chain retaining the chain-operated rotational positioning subassembly against the circumferential surface of the flowline; and a control wheel supported by the body, the control wheel connected to the chain and to the plurality of wheels, wherein a rotation of the control wheel causes a translation of the chain, which causes the plurality of wheels to rotate on the circumferential surface of the flowline. 3. The assembly of claim 2 , wherein the chain-operated rotational positioning subassembly further comprises a chain holder comprising a lock connected to the chain, wherein when the lock is in a locked position, the chain holder is configured to lock a rotation of the rotational positioning subassembly on the circumferential surface of the flowline, and when the lock is in an unlocked position, the chain holder is configured to permit free rotation of the rotational positioning subassembly on the circumferential surface of the flowline. 4. The assembly of claim 3 , wherein the chain holder comprises a spring configured to be compressed when the lock is in the locked position and to be decompressed when the lock is in the unlocked position. 5. The assembly of claim 2 , wherein the control wheel of the rotational positioning subassembly comprises a handle attached to a circumference of the control wheel. 6. The assembly of claim 1 , wherein the axial positioning subassembly comprises: a first attachment sleeve supported by the first arm; and a second attachment sleeve supported by the second arm, wherein the plug insertion subassembly is supported by and connected to the first attachment sleeve and the second attachment sleeve. 7. The assembly of claim 6 , wherein the first attachment sleeve defines a hollow portion through which the first arm passes, wherein the second attachment sleeve defines a hollow portion through which the second arm passes, wherein the axial positioning subassembly comprises a plate connecting the first attachment sleeve and the second attachment sleeve, wherein the plug insertion subassembly is carried by the plate connecting the first attachment sleeve and the second attachment sleeve. 8. The assembly of claim 6 , wherein the plug insertion subassembly comprises: a plugger body attached to and resting on the plate connecting the first attachment sleeve and the second attachment sleeve; a threaded shaft comprising an end attached to the plugger body and extending radially away from the flowline; and a control wheel attached to another end of the threaded shaft, the control wheel rotatable to move the plug between the circumferential surface and the longitudinal axis of the flowline. 9. The assembly of claim 8 , wherein the threaded shaft is attached to a first surface of the plugger body, wherein the plug is attached to the plugger body on a second surface opposite the first surface. 10. A method to plug a leak in a flowline, the method comprising: detecting a location of a leak on a circumferential surface of a flowline comprising a longitudinal axis; attaching a chain-operated rotational positioning subassembly to the circumferential surface of the flowline near the location of the leak, wherein the rotational positioning subassembly carries an axial positioning subassembly that can move along the longitudinal axis, wherein the axial positioning subassembly supports a plug insertion subassembly that supports a plug that is configured to plug the leak in the flowline; adjusting a circumferential position of the rotational positioning subassembly such that a location of the plug is axially in-line with the location of the leak on the circumferential surface of the flowline; adjusting an axial position of the axial positioning subassembly such that the location of the plug is radially in-line with the location of the leak on the circumferential surface of the flowline; and moving, using the plug insertion subassembly, the plug into the leak in the flowline. 11. The method of claim 10 , wherein the chain-operated rotational positioning subassembly comprises: a body, a plurality of wheels supported by the body, the plurality of wheels contacting the circumferential surface of the flowline and configured to rotate to move the rotational positioning subassembly on the circumferential surface of the flowline, a chain supported by the body and wrapped around the flowline, the chain retaining the chain-operated rotational positioning subassembly against the circumferential surface of the flowline, a control wheel supported by the body, the control wheel connected to the chain and to the plurality of wheels, wherein a rotation of the control wheel causes a translation of the chain, which causes the plurality of wheels to rotate on the circumferential surface of the flowline, a chain holder comprising a lock connected to the chain, wherein when the lock is in a locked position, the chain holder is configured to lock a rotation of the rotational positioning subassembly on the circumferential surface of the flowline, and when the lock is in an unlocked position, the chain holder is configured to permit free rotation of the rotational positioning subassembly on the circumferential surface of the flowline wherein attaching the rotational positioning subassembly to the circumferential surface of the flowline near the location of the leak comprises wrapping the chain around the flowline near the location of the leak. 12. The method of claim 11 , wherein adjusting the circumferential position of the rotational positioning subassembly such that the location of the plug is axially in-line with the location of the leak on the circumferential surface of the flowline comprises: placing the lock in the unlocked position; moving the rotational positioning subassembly on the circumferential surface of the flowline to position the plug to be axially in-line with the location of t