Methods and radio network nodes for measuring interference

What is claimed is: 1. A method in a first radio network node for measuring interference between the first radio network node and a second radio network node, the method comprising: obtaining configuration information that indicates which subframe is a flexible subframe in which a reference signal for measurement of the interference is to be transmitted by the second radio network node; determining whether to configure the flexible subframe as an uplink subframe based on whether the measuring of interference between the first radio network node and the second radio network node is needed; configuring the flexible subframe as the uplink subframe when the measuring of interference is needed; and receiving the reference signal for measurement of the interference from the second radio network node in the uplink subframe. 2. The method according to claim 1 , wherein the obtaining of the configuration information comprises determining the configuration information based on an identifier for identifying the first radio network node, wherein the identifier for identifying the first radio network node comprises one or more of: a cell identity; Internet Protocol address; Public Land Mobile Network identity; measurement periodicity; geographical information of the first radio network node and the second radio network node; downlink/uplink Time Division Duplex configuration. 3. The method according to claim 1 , wherein: the configured uplink subframe from the flexible subframe is a partial uplink subframe; the configuring the flexible subframe as an uplink subframe comprises configuring a timeslot for reception mode of the first radio network node; and the receiving of reference signal in the uplink subframe comprises receiving the reference signal in the timeslot for reception mode. 4. The method according to claim 1 , wherein: the flexible subframe is a special subframe; the configuration information obtained by the first radio network node indicates a mode of subframe configuration for the special subframe of the second radio network node; and the configuring the flexible subframe as an uplink subframe comprises setting a mode of subframe configuration for the special subframe of the first radio network node. 5. The method according to claim 1 , wherein whether the measuring of interference between the first radio network node and the second radio network node is needed is based on whether the last measurement of the interference between the first radio network node and a second radio network node is outdated. 6. The method according to claim 1 , further comprising determining a value of the interference based on the received reference signal and adapting a transmit power of the first radio network node based on the value. 7. The method according to claim 1 , further comprising determining a value of the interference based on the received reference signal and sending the value of the interference to the second radio network node. 8. A first radio network node configured to measure interference between the first radio network node and a second radio network node, wherein the first radio network node comprises a processing circuit configured to: obtain configuration information that indicates which subframe is a flexible subframe in which a reference signal for measurement of the interference is to be transmitted by the second radio network node; determine whether to configure the flexible subframe as an uplink subframe based on whether the measuring of interference between the first radio network node and the second radio network node is needed; configure the flexible subframe as the uplink subframe when the measuring of interference is needed; and receive the reference signal for measurement of the interference from the second radio network node in the uplink subframe. 9. The first radio network node according to claim 8 , wherein the identifier for identifying the first radio network node comprises one or more of: a cell identity; Internet Protocol address; Public Land Mobile Network identity; measurement periodicity; geographical information of the first radio network node and the second radio network node; downlink/uplink Time Division Duplex configuration. 10. The first radio network node according to claim 8 , wherein: the configured uplink subframe from the flexible subframe is a partial uplink subframe; the processing circuit is further configured to configure a timeslot for reception mode of the first radio network node and receive the reference signal in the timeslot for reception mode. 11. The first radio network node according to claim 8 , wherein: the flexible subframe is a special subframe; the configuration information obtained by the first radio network node indicates a mode of subframe configuration for the special subframe of the second radio network node; and the processing circuit is further configured to set a mode of subframe configuration for the special subframe of the first radio network node. 12. The first radio network node according to claim 8 , wherein whether the measuring of interference between the first radio network node and the second radio network node is needed is based on whether the last measurement of the interference between the first radio network node and a second radio network node is outdated. 13. The first radio network node according to claim 8 , wherein the processing circuit is further configured to determine a value of the interference based on the received reference signal and adapt transmit power of the first radio network node based on the value. 14. The first radio network node according to claim 8 , wherein the processing circuit is further configured to determine a value of the interference based on the received reference signal and send the value of the interference to the second radio network node.