Method for auto-configuration of a wavelength selective switch in an optical network

We claim: 1. A method for configuring a wavelength selective switch (WSS) in a wavelength division multiplexed (WDM) optical network, the method comprising: detecting, by a controller in communication with at least one optical channel monitor (OCM), a presence or absence of supported wavelengths at each of a plurality of input ports of the WSS, the controller being located in a first location within the WDM optical network and the WSS being located in a second, different location within the WDM optical network; and configuring, by the controller, the WSS by selectively provisioning or blocking optical connections within the WSS between each of the plurality of input ports and an output port such that: optical connections between each of the plurality of input ports and the output port at any of the supported wavelengths that are not detected at any of the plurality of input ports are blocked by the WSS by ensuring that optical loss between each of the plurality of input ports and the output port exceeds a pre-determined value at the supported wavelengths; and any supported wavelength, of the supported wavelengths, whose presence is detected by the at least one OCM at a single one of the plurality of input ports is switched to the output port. 2. The method of claim 1 , further comprising: sending control signals to a control port of the WSS to block at least one of the supported wavelengths, whose presence is detected at more than one of the plurality of input ports, from reaching the output port. 3. The method of claim 1 , further comprising: sending control signals to a control port of the WSS to block at least one of the supported wavelengths, whose presence is detected at more than one of the plurality of input ports, from reaching the output port from all but one of the plurality of input ports, and to direct the at least one of the supported wavelengths to the output port from one of the plurality of input ports receiving the at least one of the supported wavelengths. 4. The method of claim 1 , further comprising: receiving information, from the at least one OCM, identifying which of the supported wavelengths is present at one or more of the plurality of input ports; determining, based on the information, which of the supported wavelengths is present at one of the plurality of input ports; and provisioning, at each of the determined wavelengths, an optical connection in the WSS between an input port, of that plurality of input ports, and the output port. 5. The method of claim 4 , further comprising: identifying, based on the information received from the at least one OCM, a wavelength conflict, wherein one of the supported wavelengths is detected at two or more of the plurality of input ports. 6. The method of claim 5 , further comprising: temporarily blocking optical connections between each of the plurality of input ports and the output port at the one of the supported wavelengths for which the wavelength conflict is identified. 7. The method of claim 6 , further comprising: generating a wavelength conflict alarm when a presence of the one of the supported wavelengths at the two or more of the plurality of input ports is detected by the at least one OCM; and provisioning, based on an input resolving the wavelength conflict, an optical connection, at the one of the supported wavelengths for which the wavelength conflict was identified, between the output port and one of the two or more of the plurality of input ports receiving said wavelength in accordance with the input. 8. The method of claim 5 wherein the two or more of the plurality of input ports are assigned different priorities, and the method further comprises: provisioning an optical connection in the WSS, at the one of the supported wavelengths, between the output port and a selected one of the two or more of the plurality of input ports. 9. The method of claim 1 , wherein a supported wavelength whose presence is detected by the at least one OCM at more than one input port, of the plurality of input ports, is switched to the output port from an input port, of the plurality of input ports, that has a particular priority value. 10. The method of claim 1 , wherein detecting the presence or absence of the supported wavelengths at each of the plurality of input ports of the WSS includes: detecting the presence or absence of the supported wavelengths at each of a plurality of input ports of more than one WSS. 11. A controller for configuring a wavelength selective switch (WSS) in a wavelength division multiplexed (WDM) optical network, the controller being to: detect, based on communication with at least one optical channel monitor (OCM), a presence or absence of supported wavelengths at each of a plurality of input ports of the WSS, the controller being located in a first location within the WDM optical network and the WSS being located in a second, different location within the WDM optical network; and configure the WSS by selectively provisioning or blocking optical connections within the WSS between each of the plurality of input ports and an output port such that: optical connections between each of the plurality of input ports and the output port at any of the supported wavelengths that are not detected at any of the plurality of input ports are blocked by the WSS by ensuring that optical loss between each of the plurality of input ports and the output port exceeds a pre-determined value at the supported wavelengths; and any supported wavelength, of the supported wavelengths, whose presence is detected by the at least one OCM at a single one of the plurality of input ports is switched to the output port. 12. The controller of claim 11 , where the controller is further to: send control signals to a control port of the WSS to block at least one of the supported wavelengths, whose presence is detected at more than one of the plurality of input ports, from reaching the output port. 13. The controller of claim 11 , where the controller is further to: send control signals to a control port of the WSS to block at least one of the supported wavelengths, whose presence is detected at more than one of the plurality of input ports, from reaching the output port from all but one of the plurality of input ports, and to direct the at least one of the supported wavelengths to the output port from one of the plurality of input ports receiving the at least one of the supported wavelengths. 14. The controller of claim 11 , where the controller is further to: receive information, from the at least one OCM, identifying which of the supported wavelengths is present at one or more of the plurality of input ports; determine, based on the information, which of the supported wavelengths is present at one of the plurality of input ports; and provision, at each of the determined wavelengths, an optical connection in the WSS between an input port, of that plurality of input ports, and the output port. 15. The controller of claim 14 , where the controller is further to: identify, based on the information received from the at least one OCM, a wavelength conflict, wherein one of the supported wavelengths is detected at two or more of the plurality of input ports. 16. The controller of claim 15 , where the controller is further to: temporarily block optical connections between each of the plurality of input ports and the output port at the one of the supported wavelengths for which the wavelength conflict is identified. 17. The controller of claim 16 , where the controller is further to: g