Method and devices for controlling usage of multi-path TCP

The invention claimed is: 1. A method performed by a network element in a communication network, the method comprising: inspecting traffic between a radio device and the communication network; wherein said inspecting traffic comprises inspecting headers of data packets of the traffic; wherein said inspecting headers comprises inspecting data sequence number (DSN) and Subflow Sequence Numbers (SSN) of the data packets; determining, based on said inspecting traffic, that the traffic is part of a Transmission Control Protocol (TCP) subflow of a multi-path TCP (MPTCP) connection; calculating, based on said inspecting traffic, a ratio of how much data is transmitted in the subflow in relation to the total amount of data transmitted in the MPTCP connection over a predetermined time period; observing that the calculated ratio is below a reference ratio, wherein the reference ratio is a corresponding calculated ratio of another radio access bearer (RAB), which is currently used with a Radio Access Network (RAN) to set a priority of the TOP subflow in comparison with said another RAB; and performing, based on said observing, an action for preventing congestion in the communication network; the performing an action comprises preempting a radio access bearer, (RAB) of the radio device, wherein said preempting is performed by releasing lower priority radio access bearers or radio devices when related resources are needed for higher priority radio access bearers or radio devices. 2. The method of claim 1 , wherein the performing an action comprises rejecting resources to realize a radio access bearer (RAB) of the radio device for setting up the RAB with the communication network. 3. The method of claim 1 , wherein the performing an action comprises assigning a priority level to a radio access bearer (RAB) of the radio device. 4. The method of claim 1 , wherein the inspecting traffic comprises detection of MPTCP signalling indicative of a backup TCP subflow. 5. The method of claim 1 , further comprising: based on said inspecting, determining that also an amount of non-MPTCP data traffic is comprised in the inspected traffic in the same RAB which comprises the MPTCP subflow, over the time period; wherein the observing comprises observing that the amount of non-MPTCP data traffic is below a non-MPTCP threshold. 6. The method of claim 1 , wherein the network element is located in a radio access network (RAN) in the communication network, such as in a base station controller (BSC) of a Global System for Mobile Communications (GSM) communication network, in a radio network controller (RNC) of a Wideband Code Division Multiple Access (WCDMA) communication network, or in an evolved Node B (eNB) of a Long Term Evolution (LTE) communication network. 7. A computer program product comprising computer-executable components for causing a network element in a communication network to perform the method of claim 1 when the computer-executable components are run on processor circuitry comprised in the network element. 8. A network element in a communication network, the network element comprising: processor circuitry; and a storage unit storing instructions executable by said processor circuitry whereby said network element is operative to: inspect traffic between a radio device and the communication network; determine, based on said inspecting traffic, that the traffic is part of a Transmission Control Protocol (TCP) subflow of an MPTCP connection; calculate, based on said inspecting traffic, a ratio of how much data is transmitted in the subflow in relation to the total amount of data transmitted in the MPTCP connection over a predetermined time period; observe that the calculated ratio is below a reference ratio, wherein the reference ratio is a corresponding calculated ratio of another radio access bearer (RAB), which is currently used with a Radio Access Network (RAN) to set a priority of the TCP subflow in comparison with said another RAB; and perform, based on said observing, an action for preventing congestion in the communication network; wherein said perform an action comprises preempting a radio access bearer of the radio device, and wherein said preempting is performed by releasing lower priority radio access bearers or radio devices when related resources are needed for higher priority radio access bearers or radio devices. 9. A radio access network (RAN) node for a communication network, comprising the network element of claim 8 . 10. A non-transitory computer-readable medium comprising computer program code which is able to, when run on processor circuitry of a network element, cause the network element to: inspect traffic between a radio device and the communication network; determine, based on said inspecting traffic, that the traffic is part of a Transmission Control Protocol (TCP) subflow of an MPTCP connection; calculate, based on said inspecting traffic, a ratio of how much data is transmitted in the subflow in relation to the total amount of data transmitted in the MPTCP connection over a predetermined time period; observe that the calculated ratio is below a reference ratio; wherein the reference ratio is a corresponding calculated ratio of another radio access bearer (RAB), which is currently used with a Radio Access Network (RAN) to set a priority of the TCP subflow in comparison with said another RAB; and perform, based on said observing, an action for preventing congestion in the communication network; wherein said perform an action comprises preempting a radio access bearer, (RAB) of the radio device, and wherein said preempting is performed by releasing lower priority radio access bearers or radio devices when related resources are needed for higher priority radio access bearers or radio devices.