Flow based packet manipulation congestion control

The invention claimed is: 1. A method in a first network node of a communication network, for marking of Protocol Data Units, PDUs on a first protocol layer, the method comprising: receiving PDUs of two or more flows on a second protocol layer; encapsulating the PDUs of the second protocol layer to form PDUs of the first protocol layer; extracting information about said two or more flows and storing said information being extracted; marking PDUs on the first protocol layer, where said first protocol layer PDUs being marked correspond to second protocol layer PDUs that are appropriate for manipulation and that are from at least one of said two or more flows of second protocol layer PDUs, based on said stored information; and sending PDUs on the first protocol layer that is a lower protocol layer than said second protocol layer. 2. The method in a first network node according to claim 1 , wherein the information about said flow, in the extracting information comprises at least one of: a protocol or application type of the flow, a source IP address, a destination IP address, a source port and a destination port, which all are at least associated with the flow. 3. The method in a first network node according to claim 1 , wherein the stored information on which the marking of the first protocol layer PDUs is based, comprises at least one of: timing information, packet size information and number of packets, of received second protocol layer PDUs of said flow. 4. The method in a first network node according to claim 1 , further comprising identifying second protocol layer PDUs that are appropriate for manipulation based on the stored information, and wherein the marking of PDUs on the first protocol layer comprises marking of first protocol layer PDUs that correspond to the identified second protocol layer PDUs. 5. The method in a first network node according to claim 1 , wherein the marking of first protocol layer PDUs comprises marking of first protocol layer PDUs, corresponding to second protocol layer PDUs that are appropriate for manipulation, based on a degree of priority of said second protocol layer PDUs, based on said stored information. 6. The method in a first network node according to claim 1 , wherein the second protocol layer comprises any of: Internet Protocol, IP, Transmission Control Protocol, TCP, User Datagram Protocol, UDP, Real-Time Control Protocol, RTCP, Datagram Congestion Control Protocol, DCCP, Stream Control Transmission Protocol, SCTP, Resource reservation Protocol, RSVP, and Explicit Congestion Notification, ECN. 7. The method in a first network node according to claim 1 , wherein the first protocol layer comprises Radio Link Control, RLC, layer or Medium Access Control-d, MAC-d, layer. 8. The method in a first network node according to claim 1 , where the first protocol layer PDUs being marked, corresponding to second protocol layer PDUs that are appropriate for manipulation, comprises the second protocol layer PDUs that are appropriate for manipulation, as a payload. 9. A first network node for marking of PDUs on a first protocol layer, the network node comprising: a first interface configured to receive PDUs of two or more flows on a second protocol layer; a processor configured to encapsulate the PDUs of the second protocol layer to form PDUs of the first protocol layer and to extract information about said two or more flows and to store information being extracted in a database; a marking unit configured to mark first protocol layer PDUs that correspond to second protocol layer PDUs that are appropriate for manipulation and that are from at least one of said two or more flows of second protocol layer PDUs, based on information stored in the database; and a second interface configured to send PDUs on the first protocol layer that is lower protocol layer than said second protocol layer. 10. The first network node according to claim 9 , wherein the processor further is configured to extract information comprising at least one of: a protocol or application type of the flow, a source IP address, a destination IP address, a source port and a destination port, which all are at least associated with the flow. 11. The first network node according to claim 9 , wherein the processor further is configured to identify second protocol layer PDUs that are appropriate for manipulation based on the information stored in the database, and where the marking unit is configured to mark first protocol layer PDUs that correspond to the identified second protocol layer PDUs. 12. A method for manipulating PDUs on a first protocol layer in a second network node of a communication network, the method comprising: receiving from a first network node PDUs on a first protocol layer that encapsulate PDUs on a second protocol layer, wherein said first protocol layer PDUs comprise marked first protocol layer PDUs that correspond to second protocol layer PDUs that are appropriate for manipulation and that are from at least one of two or more flows of second protocol layer PDUs; detecting a condition at least indicative of congestion in the communication network, selecting one or more marked PDUs on the first protocol layer, based on the detected condition; and manipulating said selected PDUs. 13. The method according to claim 12 , further comprising scheduling PDUs comprising manipulated PDUs, for sending said scheduled PDUs over a radio link. 14. The method according to claim 12 , wherein the selecting one or more marked first protocol layer PDUs comprises selecting one or more marked first protocol layer PDUs being marked according to a degree of priority of said second protocol layer PDUs, for prioritized manipulation. 15. The method according to claim 12 , wherein the manipulating said selected first protocol layer PDUs comprises corrupting payload of said selected first protocol layer PDUs or dropping said selected first protocol layer PDUs. 16. A second network node for manipulating PDUs, the second network node comprising: an interface configured to receive PDUs on a first protocol layer that encapsulate PDUs on a second protocol layer, wherein the first protocol layer PDUs comprise marked first protocol layer PDUs that correspond to second protocol layer PDUs that are appropriate for manipulation and that are from at least one of two or more flows of second protocol layer PDUs; a processor configured to detect a condition at least indicative of congestion, to select one or more marked first protocol layer PDUs in response to the detected condition at least indicative of congestion; and to manipulate said selected one or more marked first protocol layer PDUs. 17. The second network node according to claim 16 , further comprising a scheduler configured to schedule first protocol layer PDUs comprising manipulated first protocol layer PDUs, for sending said scheduled first protocol layer PDUs over a radio link.