Method and apparatus for latency monitoring

The invention claimed is: 1. A method for use in a first node of a transport network for supporting latency monitoring in the transport network, the transport network transporting traffic to and from at least one wireless base station, the transport network comprising the first node and a second node, the method comprising: determining a first timestamp representing a time at which a data element is received at the first node; adding information representative of the first timestamp to a communication signal for sending to the second node, the communication signal comprising a payload carrying data for the at least one wireless base station, the payload having multiple parts and the data including the received data element; and sending an indication of an association between the information representative of the first timestamp and the data element that the information representative of the first timestamp relates to, wherein the indication of the association indicates a part of the payload where the data element to which the first timestamp relates is carried. 2. The method according to claim 1 , wherein the communication signal comprises a frame with an overhead and the payload, and wherein the method comprises adding the information representative of the first timestamp into the overhead of the frame. 3. The method according to claim 1 , wherein the indication of an association is a pointer, and the method comprises adding the pointer to an overhead part of the communication signal, the pointer pointing to a part of the payload of the communication signal where the data element is carried. 4. The method according to claim 1 , wherein the communication signal comprises a frame, and wherein the indication of an association comprises an identifier of a client link carried by the frame. 5. The method according to claim 1 , wherein the information representative of the first timestamp comprises said first timestamp or a result of modulo operation on said first timestamp. 6. The method according to claim 1 , wherein the communication signal is a signal for carrying fronthaul data and backhaul data. 7. The method according to claim 1 , wherein the communication signal comprises a frame with an overhead and a plurality of payload areas into which signals or data are mappable, the indication of the association indicating one of the payload areas, wherein the payload areas comprise one or more of a payload area for carrying Common Public Radio Interface (CPRI) signals or a payload area for carrying Ethernet signals. 8. A method for use in a second node of a transport network for supporting latency monitoring in the transport network, the transport network transporting traffic to and from at least one wireless base station, the transport network comprising a first node and the second node, the method comprising: receiving a communication signal which carries data for the at least one wireless base station, the communication signal comprising a payload having multiple parts and the data including a data element; extracting information representative of a first timestamp from the communication signal, the first timestamp representing a time at which the data element was received at the first node; receiving an indication of an association between the information representative of the first timestamp and a part of the payload that the information representative of the first timestamp relates to; and determining a second timestamp representing a time at which the data element is received at the second node. 9. The method according to claim 8 , wherein the indication of an association comprises a pointer in an overhead part of the communication signal, the pointer pointing to a part of a payload of the communication signal where the data element is carried. 10. The method according to claim 9 , wherein the indication of an association is received in advance of the information representative of the first timestamp. 11. The method according to claim 9 , wherein the information representative of the first timestamp comprises said first timestamp or a result of a modulo operation on said first timestamp, and wherein the information representative of the second timestamp comprises said second timestamp or a result of a modulo operation on said second timestamp. 12. An apparatus for supporting latency monitoring at a first node of a transport network, the transport network transporting traffic to and from at least one wireless base station, the transport network comprising the first node and a second node, the apparatus comprising a processing circuitry and a memory, the memory containing instructions executable by the processing circuitry such that the apparatus is operative to: determine a first timestamp representing a time at which a data element is received at the first node; add information representative of the first timestamp to a communication signal for sending to the second node, the communication signal comprising a payload carrying data for the at least one wireless base station, the payload having multiple parts and the data including the received data element; and send an indication of an association between the information representative of the first timestamp and the data element that the information representative of the first timestamp relates to, wherein the indication of the association indicates a part of the payload where the data element to which the first timestamp relates is carried. 13. The apparatus according to claim 12 , wherein the communication signal comprises a frame with an overhead and the payload, and wherein the apparatus is operative to add the information representative of the first timestamp into the overhead of the frame. 14. The apparatus according to claim 13 , operative to use an identifier of a client link carried by the frame as the indication of an association. 15. The apparatus according to claim 12 , wherein the indication of an association is a pointer, and the apparatus is operative to add the pointer to an overhead part of the communication signal, the pointer pointing to a part of the payload of the communication signal where the data element is carried. 16. An apparatus for supporting latency monitoring at a second node of a transport network, the transport network transporting traffic to and from at least one wireless base station, the transport network comprising a first node and the second node, the apparatus comprising a processing circuitry and a memory, the memory containing instructions executable by the processing circuitry such that the apparatus is operative to: receive a communication signal which carries data for the at least one wireless base station, the communication signal comprising a payload having multiple parts and the data including a data element; extract information representative of a first timestamp from the communication signal, the first timestamp representing a time at which the data element was received at the first node; receive an indication of an association between the information representative of the first timestamp and a part of the payload that the information representative of the first timestamp relates to; and determine a second timestamp representing a time at which the data element is received at the second node. 17. The apparatus according to claim 16 , operative to determine a difference between information representative of the second timestamp and the information representative of the first timestamp, the difference representing latency of the data element. 18. The apparatus a