Maintenance entity group end point of a subnetwork within a multi-domain network

The invention claimed is: 1. A multi-domain network comprising: a plurality of subnetworks including at least two operator networks; at least two External Network-to-Network Interfaces, ENNIs, one for each operator network, at an interface between the operator networks; and a Maintenance Entity Group, MEG, comprising MEG End Points, MEPs, of the MEG that span over the ENNIs; wherein the MEPs are configured to avoid MEG level overlap between the operator networks by tunneling Service Operation Administration Maintenance (SOAM) frames received on a passive Service Access Point (SAP) of the MEP to a peer MEP by encapsulating SOAM frames received by the MEP and forwarding the encapsulated SOAM frames to the peer MEP of the MEP over the interface between the operator networks; wherein the passive SAP of the MEP is adapted to receive the SOAM frames and an active SAP is adapted to forward after encapsulation by the MEP the encapsulated SOAM frames to the peer MEP of said MEP within the same MEG. 2. The multi-domain network according to claim 1 , wherein the peer MEP comprises an active SAP adapted to receive the encapsulated SOAM frames and a passive SAP adapted to forward the decapsulated SOAM frames after decapsulation by said peer MEP. 3. The multi-domain network according to claim 1 , wherein the Maintenance Entity group, MEG, comprises Maintenance Entities, MEs, associated with the same point-to-point or point-to-multipoint Ethernet connection. 4. The multi-domain network according to claim 1 , wherein each Maintenance Entity Group, MEG, has a MEG level associated with it. 5. The multi-domain network according to claim 1 , wherein the subnetworks of said multi-domain network are nested and/or chained with each other. 6. The multi-domain network according to claim 1 , wherein each MEP comprises: an encapsulation unit configured to encapsulate SOAM frames received at a passive SAP of the MEP and a decapsulation unit configured to decapsulate encapsulated SOAM frames received at an active SAP of the MEP. 7. A Maintenance Entity Group, MEG, End Point, MEP, of a Maintenance Entity Group, MEG, which spans over at least two External Network-to-Network Interfaces, ENNIs, including one ENNI for each subnetwork of at least two operator networks within a multi-domain network, each ENNI being at an interface between the operator networks, said MEP comprising: an encapsulation unit configured to avoid MEG level overlap between the operator networks by tunneling Service Operation Administration Maintenance (SOAM) frames received on a passive Service Access Point (SAP) of the MEP to a peer MEP by encapsulating SOAM frames received by the SAP of the MEP and forwarding the encapsulated SOAM frames to the peer MEP over the interface between the operator networks; and a decapsulation unit configured to decapsulate encapsulated SOAM frames received by an active SAP of the MEP; wherein the passive SAP of the MEP is adapted to receive the SOAM frames and an active SAP is adapted to forward after encapsulation by the MEP the encapsulated SOAM frames to the peer MEP of said MEP within the same MEG. 8. The Maintenance Entity Group End Point, MEP, according to claim 7 , wherein the encapsulation unit is configured to encapsulate the received SOAM frames at any or specific MEG levels. 9. The Maintenance Entity Group End Point, MEP, according to claim 7 , wherein the subnetwork comprises a network of a service provider, a network of a network operator or a network of an access provider. 10. The Maintenance Entity Group End Point, MEP, according to claim 7 , wherein the MEP comprises an UP MEP or a DOWN MEP. 11. The Maintenance Entity Group End Point, MEP, according to claim 7 , wherein the MEP comprises a configuration register storing the MEG level of said MEP. 12. An interface device of a multi-domain network comprising a Maintenance Entity Group End Point, MEP, of a Maintenance Entity Group, MEG, which spans over at least two External Network-to-Network Interfaces, ENNIs, including one ENNI for each subnetwork of at least two operator networks of the multi-domain network, each ENNI being at an interface between the operator networks, said MEP comprising: an encapsulation unit configured to avoid MEG level overlap between the operator networks by tunneling Service Operation Administration Maintenance (SOAM) frames received on a passive Service Access Point (SAP) of one MEP to a peer MEP by encapsulating SOAM frames received at the passive SAP of the MEP and forwarding the encapsulated SOAM frames to the peer MEP over the interface between the operator networks; and a decapsulation unit configured to decapsulate encapsulated SOAM frames received at an active SAP of the MEP; wherein the passive SAP of the MEP is adapted to receive the SOAM frames and an active SAP is adapted to forward after encapsulation by the MEP the encapsulated SOAM frames to the peer MEP of said MEP within the same MEG. 13. The interface device according to claim 12 , wherein the interface device comprises a user network interface, UNI, device or a network-network interface, NNI, device. 14. A method for transporting Service Operation Administration Maintenance (SOAM) frames through a multi-domain network comprising a plurality of subnetworks including at least two operator networks and at least two Maintenance Entity Group, MEG, End Points, MEPs, of a Maintenance Entity Group, MEG, which spans over at least two External Network-to-Network Interfaces, ENNIs, one for each operator network, at an interface between the operator networks, the method comprising: avoiding MEG level overlap between the operator networks by tunneling SOAM frames received on a passive Service Access Point (SAP) of the MEP to a peer MEP by encapsulating received SOAM frames by a MEP; and forwarding the encapsulated SOAM frames to the peer MEP of said MEP within the same Maintenance Entity Group, MEG over the interface between the operator networks, wherein the SOAM frames are received by the passive SAP of said MEP and forwarded after encapsulation via an active SAP of said MEP to the peer MEP of said MEP within the same MEG. 15. The method according to claim 14 , wherein the forwarded encapsulated SOAM frames are received by an active SAP of the peer MEP and decapsulated by the peer MEP to be forwarded. 16. The method according to claim 14 , wherein the MEP encapsulates the received SOAM frames by adding a header to said SOAM frames, said header comprising a MEL data field storing the MEG level value of the MEG level of said MEP. 17. The method according to claim 16 , wherein the added header further comprises a protocol version, an opcode, flags, a TLV offset and an organizational unique identifier, OUI, and/or a standardized opcode specific to encapsulation. 18. The method according to claim 16 , wherein the MEL data field of the header comprises at least 3 bits to distinguish at least 8 different MEG levels.