Interface and method for enabling interconnection of a host device and a small-formfactor pluggable module

The invention claimed is: 1. An interface for enabling interconnection of a host device and a small-formfactor pluggable module, said interface comprising: a host device connector operative to couple separately to at least two different types of small-formfactor pluggable (SFP) modules via respective SFP connectors that mate to the host device connector, wherein a first type of SFP module and a second type of SFP module of the at least two different types of SFP modules carry different signals at terminals of the respective SFP connectors that mate to a particular terminal of the host device connector; and a switching device connected to the host device connector and operative to selectively switch the different signals carried over the particular terminal of the host device connector between at least two separate signal paths of the host device depending on a selected switching mode of the switching device, wherein a first signal path of the at least two separate signal paths is selected when the first type of SFP module is physically mated to the host device connector and wherein a second signal path of the at least two separate signal paths is selected when the second type of SFP module is physically mated to the host device connector, in which an information signal provided by a particular SFP module mated to the host device connector determines switching modes oil the switching device in selecting between the at least two separate signal paths. 2. The interface of claim 1 , wherein: said switching device is operative to selectively switch a set of signals carried over a corresponding set of terminals of the host device connector to respective first signal paths in a first switching mode when the first type of SFP module is coupled to the host device connector and to respective second signal paths in a second switching mode when the second type of SFP module is coupled to the host device connector. 3. The interface of claim 2 , wherein: the switching device is operative to be set in the first switching mode when the set of signals carried over the host device connector comprises a TxFault, a TxDisable, a RateSelect and a loss of signal (LOS) signals; and the switching device is operative to be set in the second switching mode when the set of signals carried over the host device connector comprises at least a one pulse per second (1PPS) signal. 4. The interface of claim 3 , wherein a time-of-day (ToD) signal is further operative to be received over the host device connector via inter-integrated circuit (I 2 C) signals when said set of signals carried over the host device connector comprises the 1 PPS signal. 5. The interface of claim 3 , wherein said set of signals is further operative to comprise a time-of-day (ToD) signal when the switching device is set in the second switching mode. 6. The interface of claim 1 , wherein: the switching device is operative to determine switching modes based on inter-integrated circuit (I 2 C) signals carried over the host device connector. 7. The interface of claim 6 , wherein: the I 2 C signals carried over the host device connector are operative to identify a type of the particular SFP module with which the host device connector is coupled. 8. The interface of claim 6 , further comprising: I 2 C logic circuitry operative to receive the I 2 C signals carried over the host device connector and further being operative to determine from the I 2 C signals which switching mode should be selected and to cause the switching device to switch to the selected mode. 9. The interface of claim 6 , wherein a type of the SFP module with which the host device connector is coupled is defined by identification data stored in an erasable programmable read only memory (EPROM) of the coupled SFP module and submitted via the I 2 C signals. 10. The interface of claim 1 , wherein the type of SFP module is selected from a group comprising: Ethernet SFP, gigabit-capable passive optical network (GPON) optical network unit (ONU) SFP, Fiber Channel SFP, Optical Transport Network (OTN) SFP, Coarse/Dense Wave Division Multiplexing (C/DWDM) SFP and Wavelength Division Multiplexing passive optical network (WDM-PON) SFP. 11. The interface of claim 1 , wherein the switching device is operative to be powered by receiver power supply (VccR) and receiver ground (VeeR) carried over the host device connector. 12. The interface of claim 1 , wherein said switching device being a multiplexer having a selection input via which the multiplexer switching mode is controlled. 13. The interface of claim 1 , wherein the host device connector is operative to interconnect with a mating SFP connector selected from a group comprising: SFP, enhanced small form-factor pluggable (SFP+), C form-factor pluggable (CFP), Quad (4-channel) Small Form-factor Pluggable (QSFP) and 10 Gigabit Small Form Factor Pluggable (XFP). 14. A method of enabling interconnection of a host device and a small-formfactor pluggable module, the method comprising: receiving a small-formfactor pluggable (SFP) module via a SFP connector that couples to a host device connector, in which the host device connector couples separately to at least two different types of SFP modules via respective SFP connectors, wherein a first type of SFP module and a second type of SFP module of the at least two different types of SFP modules carry different signals at respective terminals of the SFP connectors that mate to a particular terminal of the host device connector; and selectively coupling the received SFP module to the host device by switching the signal carried over the particular terminal of the host device connector between at least two separate signal paths of the host device at which the host device connector is arranged, wherein a first signal path of the at least two separate signal paths is selected when the first type of SFP module is physically mated to the host device connector and wherein a second signal path of the at least two separate signal paths is selected when the second type of SFP module is physically mated to the host device connector, in which an information signal provided by a particular SFP module mated to the host device connector determines switching modes in selecting between the at least two separate signal paths. 15. The method of claim 14 , further comprising: switching a set of signals carried over a corresponding set of terminals of the host device connector to respective first signal paths in a first switching mode when the first type of SFP module is determined to be coupled to the host device connector, and to respective second signal paths in a second switching mode when the second type of SFP module is determined to be coupled to the host device connector. 16. The method of claim 15 , wherein: an occurrence of the first switching mode is determined when the set of signals carried over the host device connector comprises a TxFault, a TxDisable, a RateSelect and a loss of signal (LOS) signals; and an occurrence of the second switching mode is determined when the set of signals carried over the host device connector comprises at least a one pulse per second ( 1 PPS) signal. 17. The method of claim 16 , further comprising: receiving a time-of-day (ToD) signal over the host device connector via inter-integrated circuit (I 2 C) signals when said set of signals carried over the host device connector comprises the 1 PPS signal. 18. The method of claim 16 , wherein said set of signals further comprises a time-of-day (ToD) signal when occurrence of the second switching mode