Methods and apparatus for fiber optic line fault determination

The invention claimed is: 1. An apparatus for fiber optic line fault determination comprising: an optical input connectable to a first optical fiber of a fiber optic line; an optical output connectable to a second optical fiber of the fiber optic line; an optical interface unit configured to transmit and receive optical signals; and an optical switch having a first configuration and a second configuration, wherein in the first configuration the optical switch is configured to pass optical signals received at the optical input to the optical interface unit and to pass optical signals received from the optical interface unit to the optical output, and in the second configuration the optical switch is configured to pass optical signals received at the optical input to the optical output; wherein the optical switch is arranged to transition from the first configuration to the second configuration in response to the optical interface unit being in a failure state, and wherein the failure state of the optical interface unit comprises a loss of power at the optical interface unit that indicates a break in a connection between a power source and the optical interface unit. 2. The apparatus of claim 1 , wherein the optical switch and the optical interface unit are arranged to use a common power source. 3. The apparatus of claim 1 , wherein the second configuration of the optical switch corresponds to the optical switch being powered down. 4. The apparatus of claim 1 , wherein the failure state of the optical interface unit comprises one of an optical diode failure or a laser failure. 5. The apparatus of claim 1 further comprising a fault detection unit configured to detect the failure state. 6. The apparatus of claim 5 , wherein the fault detection unit is configured to detect the failure state based on active probing of the optical interface unit. 7. The apparatus of claim 6 , wherein the active probing comprises polling the optical interface unit. 8. The apparatus of claim 7 , wherein the fault detection unit is configured to detect the failure state based on passive probing of the optical interface unit. 9. The apparatus of claim 1 , wherein the optical switch comprises a photonic microring resonator optical switch, wherein the photonic microring resonator optical switch is configured to transition between the first configuration and the second configuration using any one of: thermo-optic control; electro-optic control; or optical tuning. 10. The apparatus of claim 1 , wherein the optical switch comprises a microelectromechanical system, MEMS, optical switch. 11. A method of operating an optical node connected to a fiber optic line comprising a first optical fiber and a second optical fiber, the method comprising: detecting a failure state of the optical node, and in response to the optical node being in the failure state, transitioning an optical switch of the optical node to a configuration in which the optical switch is configured to pass optical signals, received at the optical node via the first optical fiber, along the second optical fiber, wherein the failure state of the optical node comprises a loss of power at an optical interface unit of the optical node that indicates a break in a connection between a power source and the optical interface unit. 12. A method of operating a fiber optic communication system comprising a local optical node connected to a remote optical node via a fiber optic line comprising a first optical fiber and a second optical fiber, the method comprising: at the remote optical node: in response to the remote optical node being in a failure state, transitioning an optical switch of the remote optical node to a configuration passing optical signals received at the remote optical node from the local optical node via the first optical fiber to the second optical fiber for transmission to the local optical node, wherein the failure state of the remote optical node comprises a loss of power at an optical interface unit of the remote optical node that indicates a break in a connection between a power source and the optical interface unit; and at the local optical node: transmitting a signal from the local optical node towards the remote optical node via the first optical fiber; and determining if the transmitted signal is received at the local optical node via the second optical fiber of the fiber optic line, and if so, determining that the fiber optic line has continuity. 13. The method of claim 12 , wherein the signal is a test signal, and the transmitting of the test signal is in response to detecting a loss of signal at the local optical node. 14. The method of claim 12 , wherein the optical switch and the optical interface unit are powered by a common power source. 15. The method of claim 12 , wherein the configuration of the optical switch corresponds to the optical switch being powered down. 16. The method of claim 12 , wherein failure state of the remote optical node comprises one of an optical diode failure or a laser failure in an optical interface unit of the remote optical node. 17. A system for fiber optic line fault determination, the system comprising: a local optical node connected to a remote optical node by a first optical fiber and a second optical fiber; the remote optical node comprising a remote optical interface unit connected to the first optical fiber and the second optical fiber via an optical switch; and the local optical node comprising a local optical interface unit connected to the first optical fiber and the second optical fiber; wherein the optical switch has a first configuration and a second configuration, wherein in the first configuration the optical switch is configured to optically connect the first optical fiber to the remote optical interface unit, and to optically connect the second optical fiber to the remote optical interface unit enabling the remote optical interface unit to transmit and receive optical signals via the first optical fiber and the second optical fiber to the local optical interface unit, wherein in the second configuration the optical switch is configured to optically connect the first optical fiber to the second optical fiber such that incoming optical signals from the local optical interface unit via the first optical fiber are redirected to the local optical interface unit via the second optical fiber; wherein the optical switch is arranged to transition from the first configuration to the second configuration in response to the remote optical interface unit being in a failure state, and wherein the failure state of the remote optical interface unit comprises a loss of power at the remote optical interface unit that indicates a break in a connection between a power source and the remote optical interface unit.