CN1852241A - Flow classification device and base station adopting same - Google Patents
Flow classification device and base station adopting same Download PDFInfo
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- CN1852241A CN1852241A CNA2005101145155A CN200510114515A CN1852241A CN 1852241 A CN1852241 A CN 1852241A CN A2005101145155 A CNA2005101145155 A CN A2005101145155A CN 200510114515 A CN200510114515 A CN 200510114515A CN 1852241 A CN1852241 A CN 1852241A
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L47/00—Traffic control in data switching networks
- H04L47/10—Flow control; Congestion control
- H04L47/24—Traffic characterised by specific attributes, e.g. priority or QoS
- H04L47/2441—Traffic characterised by specific attributes, e.g. priority or QoS relying on flow classification, e.g. using integrated services [IntServ]
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- H—ELECTRICITY
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- H—ELECTRICITY
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- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W80/00—Wireless network protocols or protocol adaptations to wireless operation
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
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- H04W88/00—Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
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Abstract
The disclosed equipment for classifying streams includes module for looking up subscriber station ID (SSID), and more than one stream classifier corresponding to different SSID. Based on own stored SSID classifying rules, SSID looking up module looks up own received SSID of data stream in high-level protocol, and transmits the data stream in high-level protocol with SSID field being added to stream classifier corresponding to SSID looked up. Based on own stored rule for classifying connection ID (CID), stream classifier looks up received CID of data stream in high-level protocol with SSID field being added, and outputs data stream in high-level protocol with CID field being added. The invention also discloses a method for classifying streams, and base station BS of using the equipment for classifying streams. Advantages are: using small amount of memory resource, and lower cost.
Description
Technical field
The present invention relates to flow classification techniques, particularly be used for traffic classification apparatus and method that upper-layer protocol data flow such as Ethernet or IP bag (Packet) is classified and the base station of adopting this traffic classification device (Base Station, BS).
Background technology
Current, in the broadband wireless access standard 802.16 of world's inserting of microwave interoperability tissue (WiMAX), defined physics (PHY) layer and medium access control (MAC) layer, wherein the MAC layer comprises service identification Convergence Sublayer (CS), common part sublayer and Security Sublayer (CPS﹠amp again; SS).
Specifically, the PHY layer is mainly used in sets up physical connection, realizes functions such as channel baseband coding and decoding, middle rf modulations demodulation, Radio Frequency Subsystem control.
The MAC layer is mainly used in sets up the logic connection, realizes identification and classification, logic establishment of connection and management, allocated bandwidth and scheduling and the functions such as data encryption and deciphering of Business Stream.Wherein, CS is used to receive the data from MAC layer upper strata, and will be through conversion and the data after handling send to CPS, concrete processing operation can comprise that upper layer data classification, traffic stream identifier (SFID) and the related and packet header of connection identifier (CID) compresses (PHS) etc.; As the core sublayer of MAC layer, CPS is used for MAC layer data framing, upstream and downstream bandwidth distribution and scheduling, establishment of connection and maintenance and guarantees that service (QoS) is handled; As the encryption sublayer of MAC layer, SS is used for user data is encrypted.
For CS, defined CS in 802.16, and at the bag CS of Ethernet or IP bag, the present invention is main relevant with the realization of wrapping CS at ATM(Asynchronous Transfer Mode).802.16 defined bag CS, its major function is to pass through traffic classification, realization flows to the mapping of connection identifier (CID) from the upper-layer protocol data such as Ethernet or IP bag, that is search the corresponding CID of each packet and to each packet of adding, so that the upper layer data bag is distinguished in the different connections.For this reason, 802.16 defined comprehensive and complicated traffic classification related protocol territory, comprising: MAC destination address, mac source address, 802.1p, VLAN ID (VLAN ID), ethernet type, IP destination address, IP source address, IP protocol type, User Datagram Protoco (UDP)/transmission control protocol (UDP/TCP) destination interface, UDP/TCP source port, IP difference service encoded point (DSCP) territory, and requirement can by accurately, press mask, by the commensurate in scope flow classification rule, that is realization multi-area stream classifying function.
Current wireless network inserts, usually by base station that is positioned at network side and subscriber station (the Subscriber Station that is positioned at subscriber terminal side, SS) realize, common, a BS is connected with a plurality of SS, wherein, BS is used for a plurality of SS access networks, and SS is used to a plurality of user terminals that the function of access network is provided.At down direction from BS to subscriber station SS, finish traffic classification by the BS side, at the up direction from SS to BS, finish traffic classification by the SS side, common, they support 802.16.This paper relates generally to downstream sorter and the method from BS to a plurality of SS.
Fig. 1 is the structure chart of BS in the prior art, and the BS 100 of prior art comprises: PHY layer equipment 130, and include CS equipment 115 and CPS﹠amp; The MAC layer equipment 110 of SS equipment 114.Wherein, CS equipment 115 comprises the downstream grader (DLC) 156 as the traffic classification device, the flow classification rule of DLC 156 storage BS 100, common, it adopts the content addressed reference to storage of three values (TCAM), recursive-flow category algorithm (RFC) or searching algorithm (Tries) and improve algorithm accordingly packet is carried out traffic classification based on binary tree.
CPS﹠amp; SS equipment 114 is used for having received from the interpolation of CS equipment 115 packet of CID field by interface A1, dispatches, encrypts according to its CID, and the MAC layer data frame after the framing is sent to PHY equipment 130.
The MAC layer data frame that PHY layer equipment 130 receives from MAC layer equipment 110 carries out sending to corresponding SS after chnnel coding and decoding and the middle rf modulations demodulation to it.
With a certain BS that connects two SS is that BS0 is an example, supposes that these two SS are respectively: SS1, and it is connected with the user terminal of MAC for " 0x000011111111 "; SS2, it is connected with the user terminal of MAC for " 0x000011111112 ", realizes bridging functionality in BS0, wherein, is 2 Business Streams of user terminal configuration that connect under the SS1, is 3 Business Streams of user terminal configuration that connect under the SS2.That is to say that BS0 will be forwarded to SS1 to the MAC destination address for the packet of " 0x000011111111 ", the MAC destination address is forwarded to SS2 for the packet of " 0x000011111112 ".
Accordingly, the traffic classification device that is arranged in BS0 as shown in Figure 2, Fig. 2 is the structure chart that adopts the traffic classification device of prior art BS0, be used to search flow classification rule as DLC 156 storage of traffic classification device from the CID of the packet on MAC layer upper strata, definition according to the 802.16-2004 standard, a kind of possible flow classification rule is as shown in table 1, table 1 is the flow classification rule table of DLC 156, has listed the rule description of each bar flow classification rule, the CID of rule mapping and the SS that CID connects in the table 1.
Number of regulation | Rule description | The CID of mapping | The SS that this CID connects |
11 | {DMAC=0x000011111111,VLAN ID=0x1, 1p=7} | CID2 | SS1 |
21 | {DMAC=0x000011111111,VLAN ID=0x1, DIP=0x10.11.13.*,SIP=0x10.20.20.20, IP Protocol=6,TCP SPort=161} | CID4 | SS1 |
31 | {DMAC=0x000011111112,VLAN ID=0x2, 1p=6} | CID1 | SS2 |
41 | {DMAC=0x000011111112,VLAN ID=0x2, DIP=0x10.11.15.*,IP Protocol=6, TCP SPort=80} | CID3 | SS2 |
51 | {DMAC=0x000011111112,VLAN ID=0x2, DIP=0x10.11.15.*,SIP=0x10.20.20.21, IP Protocol=17,UDP SPort=67} | CID5 | SS2 |
Table 1
Suppose that DLC 156 receives 5 packets altogether, they are respectively: with the packet 1 of flow classification rule 11 couplings, packet 2 with flow classification rule 21 couplings, packet 3 with flow classification rule 31 couplings, with the packet 4 of flow classification rule 41 couplings, with the packet 5 of flow classification rule 51 couplings.
The traffic classification method of prior art is: after DLC 156 finds CID according to the flow classification rule in the table 1, add the corresponding C id field to these packets and the packet of CID field has been added in output, they are respectively: added the packet 1 of CID2, BS0 will transmit this packet to SS1; Added the packet 2 of CID4, BS0 will transmit this packet to SS1; Added the packet 3 of CID1, BS0 will transmit this packet to SS2; Added the packet 4 of CID3, BS0 will transmit this packet to SS2; Added the packet 5 of CID5, BS0 will transmit this packet to SS2.
In current wireless network, a BS manages a plurality of SS usually, this just makes the BS side must support a large amount of flow classification rules could satisfy the demand of a plurality of SS, common, if a BS has managed 512 SS, each SS supports 16 flow classification rules, the flow classification rule sum of BS side support will reach 512 * 16=8K bar so, in the prior art, the DLC 156 normal three value content addressed references to storage (TCAM) that adopt, recursive-flow category algorithm (RFC) or searching algorithm (Tries) and improve algorithm accordingly and carry out traffic classification based on binary tree, it is advantageous that and to realize at a high speed, big capacity multi-area stream classifying, but its unfavorable being, cost is higher when adopting TCAM, and is unfavorable for commensurate in scope, and when adopting RFC or Tries and improving algorithm accordingly, must between memory resource and seek rate, find balance point,, can adopt simple algorithm if flow amount is less, if flow amount is more, just must adopt than complicated algorithm.Generally speaking, the traffic classification device and method of prior art, though can realize at a high speed, big capacity multi-area stream classifying, to memory resource take greatly, cost is higher.
Summary of the invention
In view of this, the object of the present invention is to provide a kind of traffic classification device, its to memory resource take less, cost is lower.
The present invention also aims to provide a kind of traffic classification method, its to memory resource take less, cost is lower.
Purpose of the present invention further is to provide a kind of BS, the traffic classification device that it adopts to memory resource take less, cost is lower.
An aspect according to above-mentioned purpose the invention provides a kind of traffic classification device, and this device comprises that SSID searches module and flow classifier corresponding with different SSID respectively more than, and described SSID searches module and is connected with each flow classifier respectively,
Described SSID searches module, searches the SSID of the upper-layer protocol data flow of self receiving according to the SSID classifying rules of self storing, and the upper-layer protocol data after the transmission interpolation ssid field flow to the flow classifier corresponding with the SSID that finds;
Described each flow classifier corresponding with different SSID is searched the CID of the received upper-layer protocol data flow that is added with corresponding ssid field according to the CID classifying rules of self storing, and the upper-layer protocol data flow after the output interpolation CID field.
Wherein, described SSID searches module and comprises: the processor that is used to store the memory of SSID classifying rules and is used to carry out the SSID search operation.
Wherein, described each comprise with the corresponding flow classifier of different SSID: the processor that is used to store the memory of CID classifying rules and is used to carry out the CID search operation.
Wherein, described memory is static RAM SRAM or dynamic random memory DRAM.
Wherein, described processor is on-site programmable gate array FPGA, network processing unit NP or central processing unit CPU.
According to another aspect of above-mentioned purpose, the invention provides a kind of traffic classification method, be applicable to comprise SSID search module with more than one respectively with the traffic classification device of the corresponding flow classifier of different SSID, this method comprises:
A, SSID search module and receive the upper-layer protocol data flow, search the SSID of upper-layer protocol data flow and add corresponding ssid field to the upper-layer protocol data flow, and the upper-layer protocol data that transmission is added after the ssid field flow to the flow classifier corresponding with this SSID;
B, each flow classifier receive the upper-layer protocol data flow that is added with the ssid field corresponding with it respectively, search the CID of upper-layer protocol data flow and add corresponding CID field to the upper-layer protocol data flow, and the upper-layer protocol data flow after the CID field is added in output.
Wherein, described upper-layer protocol data flow is the Ethernet bag.Described upper-layer protocol data flow is the IP bag.
Another aspect again according to above-mentioned purpose the present invention further provides a kind of BS, comprises the physical layer equipment that is used to set up physical connection and is used to set up the MAC layer equipment that logic is connected, and described MAC layer equipment comprises CS equipment and CPS﹠amp; SS equipment,
Described MAC layer equipment further comprises the traffic classification device, and this device comprises that SSID searches module and flow classifier corresponding with different SSID respectively more than, and described SSID searches module and is connected with each flow classifier respectively,
Described SSID searches module, searches the SSID of the upper-layer protocol data flow of self receiving according to the SSID classifying rules of self storing, and the upper-layer protocol data after the transmission interpolation ssid field flow to the flow classifier corresponding with the SSID that finds;
Described each flow classifier corresponding with different SSID, search the CID of the received upper-layer protocol data flow that is added with corresponding ssid field according to the CID classifying rules of self storing, and the upper-layer protocol data after the output interpolation CID field flow to described CPS﹠amp; SS equipment.
Wherein, describedly be arranged in described CS equipment with the corresponding flow classifier of different SSID more than one.Described SSID searches module and is arranged in described CS equipment.
As seen, traffic classification device and method provided by the invention, be divided among a plurality of DLC according to subscriber station sign (SSID) by flow classification rule larger amt in the prior art, concerning a certain concrete packet, earlier search module it is carried out the subscriber station sign (SSID) that traffic classification first obtains this packet by SSID, and the packet that has added ssid field is sent among the DLC of this SSID correspondence, then the DLC by this SSID correspondence carries out the CID that the secondary traffic classification obtains this packet to the packet that has added ssid field, and the packet of CID field has been added in output.Because traffic classification only need be searched the SSID of packet first, the secondary traffic classification only needs to search corresponding C ID in the lesser amt flow classification rule of a SSID correspondence, so the rule space of this double sorting flow classification rule space compared to prior art is all much smaller, this just makes this double sorting can adopt the method for direct coupling, promptly the head from packet extracts some territories, each domain of dependence that compares each package space one by one, till finding the rule that is complementary, reached memory resource has been taken less, lower-cost purpose.
Description of drawings
Fig. 1 is the structure chart of BS in the prior art;
Fig. 2 is the structure chart that adopts the traffic classification device of prior art BS0;
Fig. 3 is the structure chart of BS among the present invention;
Fig. 4 is the structure chart that adopts the traffic classification device of BS0 of the present invention.
Embodiment
Core concept of the present invention is: the flow classification rule of larger amt in the prior art is divided among a plurality of DLC according to SSID, and wherein each DLC only stores and is used for the packet that has added a certain ssid field is carried out flow point sector of breakdown flow classification rule.
For making the purpose, technical solutions and advantages of the present invention clearer, by the following examples, and with reference to accompanying drawing, the present invention is described in more detail.
Fig. 3 is the structure chart of BS among the present invention, and BS 300 of the present invention comprises: PHY layer equipment 130, and include CS equipment 315 and CPS﹠amp; The MAC layer equipment 310 of SS equipment 114.Unlike the prior art be that traffic classification device of the present invention comprises: SSID searches module 370 and a plurality of DLC 356 that divides according to SSID, and wherein SSID searches module 370 and a plurality of DLC 356 interconnects.
Specifically, SSID searches the SSID classifying rules of module 370 storage BS 300, it is by the packet of interface A0 reception from MAC layer upper strata, find the SSID of this packet according to the SSID classifying rules of self storing, add corresponding ssid field to concrete packet, and the DLC 356 of the packet of SSID to this SSID correspondence added in transmission.
Each DLC 356 stores the CID classifying rules that BS 300 divides according to SSID respectively, each DLC356 receive respectively from SSID search module 370 interpolation the packet of ssid field, find the CID of this packet according to the CID classifying rules of self storing, and after adding corresponding CID field to concrete packet, the packet that has added CID is sent to CPS﹠amp by interface A1; SS equipment 114.
Wherein, SSID searches module 370 between MAC layer high-level interface A0 and a plurality of DLC 356 that divides according to SSID, described a plurality of DLC 356 that divides according to SSID often is arranged in CS equipment 315, can be arranged in CS equipment 315 as shown in Figure 3 and SSID searches module 370, also can be positioned at outside the CS equipment 315.Be positioned at outside the CS equipment if SSID searches module, then itself and CS equipment room can further comprise an interface A2, so that transmission has been added the packet of ssid field to corresponding D LC.
Common, SSID searches module 370 and a plurality of according to comprising memory that is used for the storage flow classifying rules and the processor that is used to carry out search operation among each DLC among the DLC 356 of SSID division.In specific implementation, memory can be static RAM (SRAM) or dynamic random access memory (DRAM), and processor can be field programmable gate array (FPGA), network processing unit (NP) or CPU (CPU).
Be example still with the BS0 that connects SS1 and SS2, the traffic classification device that is arranged in BS0 among the present invention as shown in Figure 4, Fig. 4 is the structure chart that adopts the traffic classification device of BS0 of the present invention, this traffic classification device comprises: SSID searches module 370, the DLC1 corresponding with SS1 and the DLC2 corresponding with SS2, and wherein SSID searches module 370 and is connected with DLC2 with DLC1 respectively.
Wherein, SSID searches module 370 storage and is used to search flow classification rule from the SSID of the packet on MAC layer upper strata, and its flow classification rule is as shown in table 2, and table 2 is searched the flow classification rule table of module 370 for SSID.
Number of regulation | Rule description | The SSID of mapping |
12 | {DMAC=0x000011111111,VLAN ID=0x1,} | SSID1 |
22 | {DMAC=0x000011111112,VLAN ID=0x2} | SSID2 |
Table 2
DLC1 storage is used to search the flow classification rule of the CID of the packet of waiting to be forwarded to SS1, and its flow classification rule is as shown in table 3, and table 3 is the flow classification rule table of DLC1.
Number of regulation | Rule description | The CID of mapping | The SS that this CID connects |
13 | {1p=7} | CID2 | SS1 |
23 | {DIP=0x10.11.13,SIP=0x10.20.20.20, IP Protoco=6,TCP SPort=161} | CID4 | SS1 |
Table 3
DLC2 storage is used to search the flow classification rule of the CID of the packet of waiting to be forwarded to SS2, and its flow classification rule is as shown in table 4, and table 4 is the flow classification rule table of DLC2.
Number of regulation | Rule description | The CID of mapping | The SS that this CID is connected |
14 | {1p=6} | CID1 | SS2 |
24 | {DIP=0x10.11.15.*,IP Protocol=6, TCP SPort=80} | CID3 | SS2 |
34 | {DIP=0x10.11.15.*,SIP=0x10.20.20.21, IP Protocol=17,UDP SPort=67} | CID5 | SS2 |
Table 4
Significantly, five of table 1 flow classification rules are divided according to SS in the prior art, wherein, be applicable to that the flow classification rule 11 and 21 of the packet of waiting to be forwarded to SS1 is divided among the DLC1, be applicable to that the flow classification rule 31,41 and 51 of the packet of waiting to be forwarded to SS2 is divided among the DLC2.
Suppose that still traffic classification device of the present invention receives five packets altogether, they are respectively: with the packet 1 of flow classification rule 11 couplings, significantly, packet 1 also further mates with flow classification rule 13 with flow classification rule 12; With the packet 2 of flow classification rule 21 couplings, significantly, packet 2 also further mates with flow classification rule 23 with flow classification rule 12; With the packet 3 of flow classification rule 31 couplings, significantly, packet 3 also further mates with flow classification rule 14 with flow classification rule 22; With the packet 4 of flow classification rule 41 couplings, significantly, packet 4 also further mates with flow classification rule 24 with flow classification rule 22; With the packet 5 of flow classification rule 51 couplings, significantly, packet 5 also further mates with flow classification rule 34 with flow classification rule 22.
Utilize traffic classification device of the present invention that the method that MAC layer upper layer data bag carries out traffic classification be may further comprise the steps:
A, SSID search after module receives MAC layer upper layer data bag, find the SSID of packet according to the flow classification rule that is used to search SSID of self storage, add corresponding ssid field to these packet, and output has been added the packet of ssid field to the DLC corresponding with this SSID
Traffic classification device specific to BS0, SSID searches DMAC and the VLAN field of module 370 according to table 2 matched data bag 1~5, because the DMAC of packet 1 and 2 and VLAN field and flow classification rule 12 couplings, on packet 1 and 2, add the SSID1 field respectively and transmit the packet 1 and 2 to DLC1 that has added the SSID1 field so SSID searches module 370, because the DMAC of packet 3~5 and VLAN field and flow classification rule 22 couplings are added the SSID2 field and are transmitted the packet 3~5 to DLC2 that has added the SSID2 field so SSID searches module 370 on packet 3~5.
B, a plurality of DLC receive respectively from SSID search module 370 interpolation behind the packet of ssid field, find the CID of packet according to flow classification rule separately, respectively corresponding CID field is added to these packets and the packet of CID field has been added in output.
Traffic classification device specific to BS0, DLC1 receive from SSID search module 370 interpolation behind the packet 1 and 2 of SSID1 field, respective field according to flow classification rule table 3 matched data bag 1 and 2, because packet 1 and 2 mates with flow classification rule 31 and 32 respectively,, DLC1 added the packet 1 and 2 of CID field so adding CID2 field and CID4 field and output respectively on packet 1 and 2.
DLC2 receive from SSID search module 370 interpolation behind the packet 3~5 of SSID2 field, respective field according to flow classification rule table 4 matched data bag 3~5, owing to mate with flow classification rule 14,23,34 respectively on the packet 3,4 and 5, DLC2 adds CID1 field, CID3 field and CID5 field respectively on packet 3,4 and 5 and the packet 3~5 of CID field has been added in output.
The above is preferred embodiment of the present invention only, is not to be used to limit protection scope of the present invention.
Claims (13)
1, a kind of traffic classification device is characterized in that, this device comprises that subscriber station sign SSID searches module and flow classifier corresponding with different SSID respectively more than, and described SSID searches module and is connected with each flow classifier respectively,
Described SSID searches module, searches the SSID of the upper-layer protocol data flow of self receiving according to the SSID classifying rules of self storing, and the upper-layer protocol data after the transmission interpolation ssid field flow to the flow classifier corresponding with the SSID that finds;
Described each flow classifier corresponding with different SSID is searched the CID of the received upper-layer protocol data flow that is added with corresponding ssid field according to the connection identifiers CID classifying rules of self storing, and the upper-layer protocol data flow after the output interpolation CID field.
2, traffic classification device as claimed in claim 1 is characterized in that, described SSID searches module and comprises: the processor that is used to store the memory of SSID classifying rules and is used to carry out the SSID search operation.
3, traffic classification device as claimed in claim 1 is characterized in that, described each comprise with the corresponding flow classifier of different SSID: the processor that is used to store the memory of CID classifying rules and is used to carry out the CID search operation.
As claim 2 or 3 described traffic classification devices, it is characterized in that 4, described memory is static RAM SRAM or dynamic random access memory DRAM.
As claim 2 or 3 described traffic classification devices, it is characterized in that 5, described processor is on-site programmable gate array FPGA, network processing unit NP or central processing unit CPU.
6, a kind of traffic classification method, be applicable to comprise SSID search module with more than one respectively with the traffic classification device of the corresponding flow classifier of different SSID, it is characterized in that this method comprises:
A, SSID search module and receive the upper-layer protocol data flow, search the SSID of upper-layer protocol data flow and add corresponding ssid field to the upper-layer protocol data flow, and the upper-layer protocol data that transmission is added after the ssid field flow to the flow classifier corresponding with this SSID;
B, each flow classifier receive the upper-layer protocol data flow that is added with the ssid field corresponding with it respectively, search the CID of upper-layer protocol data flow and add corresponding CID field to the upper-layer protocol data flow, and the upper-layer protocol data flow after the CID field is added in output.
7, traffic classification method as claimed in claim 6 is characterized in that, described upper-layer protocol data flow is the Ethernet bag.
8, traffic classification method as claimed in claim 6 is characterized in that, described upper-layer protocol data flow is the IP bag.
9, a kind of base station BS, comprise the physical layer equipment that is used to set up physical connection and be used to set up the media access control MAC layer equipment that logic is connected, described MAC layer equipment comprises service identification Convergence Sublayer CS equipment and common part sublayer and Security Sublayer CPS﹠amp; SS equipment is characterized in that:
Described MAC layer equipment further comprises the traffic classification device, and this device comprises that SSID searches module and flow classifier corresponding with different SSID respectively more than, and described SSID searches module and is connected with each flow classifier respectively,
Described SSID searches module, searches the SSID of the upper-layer protocol data flow of self receiving according to the SSID classifying rules of self storing, and the upper-layer protocol data after the transmission interpolation ssid field flow to the flow classifier corresponding with the SSID that finds;
Described each flow classifier corresponding with different SSID, search the CID of the received upper-layer protocol data flow that is added with corresponding ssid field according to the CID classifying rules of self storing, and the upper-layer protocol data after the output interpolation CID field flow to described CPS﹠amp; SS equipment.
10, BS as claimed in claim 9 is characterized in that, describedly is arranged in described CS equipment with the corresponding flow classifier of different SSID more than one.
11, BS as claimed in claim 10 is characterized in that, described SSID searches module and is arranged in described CS equipment.
12, BS as claimed in claim 9 is characterized in that, described SSID searches module and comprises: the processor that is used to store the memory of SSID classifying rules and is used to carry out the SSID search operation.
13, BS as claimed in claim 9 is characterized in that, described each comprise with the corresponding flow classifier of different SSID: the processor that is used to store the memory of CID classifying rules and is used to carry out the CID search operation.
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US6757284B1 (en) * | 2000-03-07 | 2004-06-29 | Cisco Technology, Inc. | Method and apparatus for pipeline sorting of ordered streams of data items |
US6741556B1 (en) * | 2000-09-29 | 2004-05-25 | Nortel Networks Limited | Method for classifying persistent TCP flows |
CN1172490C (en) * | 2001-06-01 | 2004-10-20 | 华为技术有限公司 | Fast double sorting and searching method |
JP3936883B2 (en) * | 2002-04-08 | 2007-06-27 | 株式会社日立製作所 | Flow detection apparatus and packet transfer apparatus having flow detection function |
CN100472427C (en) * | 2002-08-20 | 2009-03-25 | 中兴通讯股份有限公司 | Data packet recursive flow sorting method |
CN1494278A (en) * | 2002-11-02 | 2004-05-05 | 华为技术有限公司 | Data stream classifying method |
US7257131B2 (en) * | 2002-12-13 | 2007-08-14 | Cisco Technology, Inc. | System and method for communicating traffic between a cell site and a central office in a telecommunications network |
CN100377545C (en) * | 2004-03-13 | 2008-03-26 | 鸿富锦精密工业(深圳)有限公司 | Network quality service system and method |
CN1633111B (en) * | 2005-01-14 | 2010-04-28 | 中国科学院计算技术研究所 | High-speed network traffic flow classification method |
-
2005
- 2005-10-24 CN CNB2005101145155A patent/CN100417140C/en not_active Expired - Fee Related
-
2006
- 2006-10-16 WO PCT/CN2006/002712 patent/WO2007048318A1/en active Application Filing
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
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CN101848248A (en) * | 2010-06-04 | 2010-09-29 | 华为技术有限公司 | Rule searching method and device |
CN101848248B (en) * | 2010-06-04 | 2012-12-26 | 华为技术有限公司 | Rule searching method and device |
WO2012042376A1 (en) * | 2010-09-30 | 2012-04-05 | Alcatel Lucent | Method and relay node for executing multiple media access control protocol data unit deliveries in a backhaul link |
CN103561010A (en) * | 2013-10-28 | 2014-02-05 | 北京交通大学 | Integrated marked network data flow characteristic marking method |
CN114827030A (en) * | 2022-03-26 | 2022-07-29 | 西安电子科技大学 | Flow classification device based on folded SRAM and table entry compression method |
CN114745336A (en) * | 2022-05-05 | 2022-07-12 | 中国人民解放军国防科技大学 | Message classification method and device based on RFC, computer equipment and storage medium |
CN114745336B (en) * | 2022-05-05 | 2023-11-21 | 中国人民解放军国防科技大学 | Message classification method, device, computer equipment and storage medium based on RFC |
Also Published As
Publication number | Publication date |
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CN100417140C (en) | 2008-09-03 |
WO2007048318A1 (en) | 2007-05-03 |
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