WO2007082424A1 - Procédé d'identification de chemins a multiples flux de trafic a émulation - Google Patents
Procédé d'identification de chemins a multiples flux de trafic a émulation Download PDFInfo
- Publication number
- WO2007082424A1 WO2007082424A1 PCT/CN2006/002168 CN2006002168W WO2007082424A1 WO 2007082424 A1 WO2007082424 A1 WO 2007082424A1 CN 2006002168 W CN2006002168 W CN 2006002168W WO 2007082424 A1 WO2007082424 A1 WO 2007082424A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- state
- sub
- service
- pseudowire
- circuit
- Prior art date
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Classifications
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L45/00—Routing or path finding of packets in data switching networks
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L69/00—Network arrangements, protocols or services independent of the application payload and not provided for in the other groups of this subclass
- H04L69/14—Multichannel or multilink protocols
Definitions
- the present invention relates to the field of communications technologies, and in particular, to an end-to-end pseudowire simulation.
- operators when they provide multiple services, they basically adopt a parallel or "overlap" approach, that is, by setting up and maintaining multiple networks, and using different access devices for each different service at the presentation point. In this way, in addition to making network planning more complex, it also increases construction costs and operating costs.
- the IETF began the standardization of transmitting any service (X over PSN) on the packet switched network (PSN), and named the work as end-to-end pseudo-line emulation, ie PWE3, the service.
- An auxiliary circuit (AC, Attachment Circuit) is established between the customer edge device (CE) and the Provider Equipment (PE) through the pseudowire (PW) to connect the CE and the PE.
- CE customer edge device
- PE Provider Equipment
- PW pseudowire
- one AC monopolizes an internal label; the other is that one emulation service flow path carries multiple emulation service flows, that is, N T0 1 way, at this point all ACs share an internal tag.
- An emulated traffic flow path The benefit of carrying multiple emulated traffic flows is that PW headers can be used more efficiently.
- the establishment of the PW is the result of mutual negotiation between the two Provider Equipments (PEs). Therefore, the PEs at both ends must exchange the local PW forwarding status.
- the forwarding state of the local F depends on the state of the AC service that needs to be simulated, and the label distribution protocol session of the remote PE. The status of the (LDP session) and the state of the outer tunnel carrying the pseudowire service.
- the state of the AC service depends on the sum of the N sub-AC states corresponding to the PW.
- multiple permanent virtual connections (PVCs) of the same PW are simultaneously bound in the N TO 1 mode.
- Permanent Virtual Connect is collectively referred to as an AC.
- This document complies with the terminology in the existing protocol network model.
- a PVC in the AC in the N T0 1 mode is called a sub-AC of the AC.
- the status of the service is determined as follows: If the sub-AC corresponding to the normal state (UP) fails in the multiple sub-ACs corresponding to W, and changes to the abnormal working state (DOWN), it is generally said. If the DOWN is off, the status of the AC is DOWN. If the status of the first sub-AC in all sub-ACs corresponding to the PW is UP, the status of the AC is UP.
- FIG. 1 is a schematic diagram of the Martini advertisement.
- PE1 is the local PE and PE2 is the remote PE.
- the state of the AC1 between PE1 and CE1, the LDP session state of the remote PE, and the state of the tunnel provided by the outer tunnel, that is, the corresponding simulated service flow path are both UP, the forwarding state of the local PW is forwardable, and PE1 sends the status to PE2.
- the mapping of the mapping of the inner label to the label of the inner label. In this case, if one of the status of the AC1, the LDP session status of the remote PE, and the status of the outer tunnel is DOWN, the forwarding status of the local PW is unavailable.
- PE1 After forwarding, PE1 sends an Withdraw message to PE2 and reclaims the inner label. For example, if the status of the local PW is Up, as long as the AC DOWN is lost, the forwarding status of the local PW is not forwarded, the Withdraw packet is sent, and the protocol is removed. It should be noted that the device P shown in FIG. 1 does not process the PWE3 related messages that are exchanged between PE1 and PE2, but only transparently transmits, and PE1 and PE2 can also be directly connected.
- FIG. 2 is a schematic diagram of the Notification notification.
- PE1 is the local PE and PE2 is the remote PE.
- AC1 is established between PE1 and CE1.
- AC2 is established between PE2 and CE2.
- the local PW status of the two parties is exchanged by sending a Notification packet. For example, if the status of the local PW is Up, the forwarding state of the local PW is not forwardable as long as the AC1 DOWN is lost. However, PE1 does not send the Withdraw packet teardown protocol, but sends a Notification packet to notify PE2.
- the forwarding state of the PW is not forwardable.
- the local PW is saved by advertising the status code of the local PW.
- the notification packet contains the status code of the local PW.
- the device sends the Withdraw packet. The internal label is reclaimed.
- the notification mode if the status of the LDP session of the peer PE is Up, the mapping packet is sent regardless of whether the status of the AC or the outer tunnel is Up. After the state or the state of the outer tunnel is DOWN, the local PW status code is updated, and the local PW status code is notified to the peer PE through the Notification message.
- the difference between the notification mode and the Martini mode is as follows: As long as the configuration is not deleted, the protocol is not removed, the inner label is reclaimed, and only the notification is sent to notify the local PW status that the status is not forwardable. Thus, when the status or outer layer of the AC is When the status of the tunnel is re-up, you do not need to re-allocate the label. You only need to send a Notification packet to advertise the local PW forwarding status to forwardable. It can be seen that the prior art notification mode reduces the interaction of message messages between PEs compared with the Martini mode.
- FIG. 3 is a schematic diagram of a PW network in the prior art N TO 1 mode, as shown in FIG. 3, where sub-AC1-sub AC3 (subACl-subAC3) and The subAC2-subAC 4 is two service flows, which form two sub-AC service pairs, and multiplex the pseudo-line 1 by using N TO 1.
- SubACl and subAC2 are respectively connected to different ports of PE1, and the two states are combined to form an AC state at PE1; subAC3 and subAC4 are respectively connected to different ports of PE2, and the states of the two are combined to form an AC state at PE2.
- the AC status of the PE1 is Up and the local PW forwarding status is OK.
- the forwarding state is either the sending of the MAPP message or the notification of the local PW status.
- the LDP session status of the PE2 and the peer PE and the status of the outer tunnel are both UP
- the subAC4 status changes from DOWN to UP the AC status at PE2 is UP
- the forwarding status of PE2 is also It is a forwardable state.
- the local and remote PW forwarding states are both forwardable. Therefore, the PW is in the Up state and the forwarding entry is sent.
- subACl and subAC3 are a service pair. Therefore, after subACl service information reaches PE2 through PW1, if subAC3 status is DOWN, subACl service packets are discarded by PE2. Therefore, in this situation, neither the Martini nor the Notification can advertise the correct service pair information of the AC. As a result, the service information of the subACl cannot be finally forwarded to the destination after being sent to the PE2 through the PW1, but is discarded. It has increased the processing burden of nodes along the way, and more importantly, wasted network bandwidth resources.
- Table 1 is a schematic diagram of a format of a packet encapsulation of an NTO 1 ATM PW packet in the prior art.
- Table 2 is a schematic diagram of a specific encapsulation format of an ATM service Payload in an N TO 1 ATM PW packet frame in the prior art, such as
- the encapsulation format shown in Tables 1 and 2 distinguishes the specific AC by the virtual channel identifier/virtual path identifier (VPI/VCI) carried in the packet.
- VPI/VCI virtual channel identifier/virtual path identifier
- the VPI/Output VCI (outvpi/outvci) performs a conversion on the VPI/VCI value of the PVCs from each port, so that it is globally unique, so that when the N TO 1 ATM PW message frame is received, the outvpi/outvci is used to find the specific PVC, processed separately for different businesses.
- Table 1 and Table 2 For a detailed description of the fields in Table 1 and Table 2, refer to the related protocol, which is not described here.
- PSN Transport Header Packet switched transport header
- Flag Reserved (Res) Length (Length) Serial Number
- Control word (optional) ( Control Word )
- VPI Virtual Channel Identification
- VCI Virtual Path Identification
- PTI Payload Type Identifier
- C Asynchronous Transfer Mode Payload (ATM Payload) Virtual Channel Identifier (VPI) Virtual Path Identifier (VCI) Payload Type Identifier (PTI) Loss Priority (C) Asynchronous Transfer Mode Payload (ATM Payload)
- the PW state is determined by the PW state when the AC status of the non-service pair is Up, and the PW state is not forwarded. This is inconsistent with the actual forwarding state. In this case, even if the AC information of one end reaches the PE of the other end through the PW pseudowire, it cannot be forwarded, but is discarded by the PE, thus wasting the processing resources and network bandwidth of the nodes along the path. Defects in resources. Summary of the invention
- the main purpose of the present invention is to provide a method for identifying a plurality of simulated service flow paths, which can accurately learn the information of the simulated service, make the PW state and the actual forwarding state consistent, and reduce the processing load of the nodes along the path, saving Network bandwidth resources.
- a method for identifying a plurality of simulated service flow paths wherein an emulation service flow path carries a plurality of emulation service flows N TO 1 mode, and an auxiliary circuit identifier for identifying a sub-attachment circuit service pair is set; the method further includes:
- the first end of the pseudowire sends an advertisement message carrying the identifier of the auxiliary circuit identifying the service pair of the sub-attachment circuit to which the first sub-attachment circuit belongs, and the second end of the pseudo-line finds the same auxiliary circuit identifier according to the received accessory circuit identifier.
- the hardware sends a publication item and forwards the service packet.
- the advertisement message includes: a normal advertisement message that informs that the first sub-affiliated circuit is in a normal state, or informs that the first sub-affiliated circuit is an abnormal abnormal advertisement message.
- the advertisement message is a normal advertisement; the step ⁇ specifically includes:
- the state of the first terminal accessory circuit of the sub-auxiliary circuit service pair in the second service provider device at the second end of the pseudowire is set to a normal working state, and is sent
- the hardware forwards the entry and forwards the service packet.
- the state of the first terminal accessory circuit of the sub-auxiliary circuit service pair in the second service provider device at the second end of the pseudowire is set to a normal working state.
- the method further includes:
- the state of the second sub-auxiliary circuit is an abnormal working state
- the state of the first sub-auxiliary circuit in the second service-side device located at the second end of the pseudowire is set to a normal working state.
- the notification message is an abnormal advertisement message.
- the step ⁇ specifically includes: if the state of the second sub-auxiliary circuit is a normal working state, further determining whether the pseudowire state is normal,
- the pseudowire is in a normal working state, setting a state of the first terminal accessory circuit of the sub-auxiliary circuit service pair in the second service provider device at the second end of the pseudowire to an abnormal working state, and Delete the hardware forwarding entry.
- the accessory circuit identifier is carried in an attached circuit identifier forwarding index set in the advertisement message.
- the method for determining whether the pseudowire state is normal is: If the inner layer labels at both ends of the pseudowire are allocated, the pseudowire state is a normal working state; otherwise, the pseudowire state is an abnormal working state.
- the beneficial effects of the present invention are: by using the AC identifier (AC-id) that identifies the AC service pair, identifying different AC service pairs, accurately obtaining the simulated service pair information, and making the PW state and the actual forwarding.
- the state is strictly consistent, and the processing resources and the network bandwidth resources of the nodes along the path are avoided in the service transmission that cannot be finally intercommunicated; and in the N TO 1 mode, the present invention adopts a simple AC and PW binding service configuration command, and the configuration amount is only
- the AC-id forwarding index field is used instead of the VPI/VCI field to specifically identify a PVC for forwarding, and the hardware implementation is implemented.
- the information of the specific PVC is determined by looking up the forwarding index corresponding to the AC-id. Forwarding speed.
- Figure 1 is a schematic diagram of the network announced by the Martini mode
- FIG. 2 is a schematic diagram of a network notified by a notification method
- FIG. 3 is a schematic diagram of a PW network in the prior art N TO 1 mode
- FIG. 4 is a schematic diagram of a PW network in the N T0 1 mode of the present invention. Mode for carrying out the invention
- the core idea of the present invention is: In the N TO 1 mode, an auxiliary circuit identifier for identifying a sub-subsidiary circuit service pair is set; and a pseudowire end transmits an advertisement message carrying an auxiliary circuit identifier identifying the first sub-auxiliary circuit, and is pseudo- The other end of the line finds the second sub-attachment circuit having the same auxiliary circuit identifier according to the received accessory circuit identifier; if the second sub-affiliated circuit and the pseudowire are in a normal working state, the hardware forwarding entry and the forwarding service are delivered. Message.
- the method for identifying a plurality of simulated service flow paths based on the PWE3 includes the following process: When configuring the AC N TO 1 mode PW binding command, setting an AC-id forwarding index configuration item for identifying an AC service pair; The AC-id forwarding index field is added to the notification packet. When the peer receives the notification packet, it searches for the matching (corresponding) sub-AC according to the AC-id forwarding index. Only the status of the two ends of the AC pair in the simulated service flow path. When the status is UP and the status of the PW is also Up, the hardware forwarding entry is sent and the service packet is forwarded. Otherwise, the service is not forwarded.
- the specific method is as follows:
- FIG. 4 is a schematic diagram of a PW network in the N TO 1 mode of the present invention. As shown in FIG. 4, for example, the AC-id of the subACl-subAC3 service pair is set to 1 and the AC-id of the subAC2-subAC4 service pair is set to 2.
- the first sub-AC of all the sub-ACs of the PW such as PE1
- the PE1 sends a Notification packet to the peer, such as the PE2.
- the Notification packet carries the notification packet.
- the AC-id of the subACl advertises that the current status of subACl is UP;
- PE2 After receiving the Notification packet, PE2 searches for the sub-AC service that matches the AC-id carried in the Notification packet, which is assumed to be subAC3. If the subAC3 service status of PE2 is DOWN, PE2 will be the peer end of its own data structure. The status of the subACl of the PE1 is set to UP. If the subAC3 service status of the PE2 is also Up, and the status of the PW is Up, the PE2 sets the status of the subACl of the PE1 in the data structure to UP and sends the hardware forwarding entry. The service packet is forwarded. However, if the state of the PW is DOWN, PE2 only sets the state of subACl of PE1 in its own data structure to UP.
- PE1 sends a Notification packet to the peer, such as PE2.
- the Notification message carries the AC of subACl. -id, advertises the current status of subACl as DOWN;
- PE2 After receiving the Notification packet, PE2 searches for the sub-AC service that matches the AC-id carried in the Notification packet, which is assumed to be subAC3. If the subAC3 service status of PE2 is Up and the PW status is Up, PE2 will In the self-data structure, the peer, that is, the state of subACl of PE1 is set to DOWN, and the hardware forwarding entry is deleted. Otherwise, only the state of subACl of PE1 in its own data structure is set to DOWN. In this way, the PE can clearly know the PW status, the AC status of the terminal in a service flow path, and the AC status of the terminal.
- the present invention strictly distinguishes the state of the PW from the state of the sub-AC service, and stipulates that if the PW tags of both ends of the PE are already allocated, that is, both the tagging message is sent to the peer end, and the tagging message from the peer end is also received. Then, the state of receiving and transmitting the PW in both directions is UP, otherwise the state of the PW is DOWN.
- the state of the PW is independent of the AC state, the state is more clearly differentiated, the understanding of the protocol and the implementation are more clear, and it is more in line with the agreement "dmft-ietf-pwe3-control-protocol-14.txt"
- the PW is understood in the PWE3 Reference Model specified in the specification, that is, the state of the PW should be independent of the AC state.
- Table 3 is a schematic diagram of a specific encapsulation format of the asynchronous transport mode service payload in the N TO 1 ATM PW packet frame of the present invention. As shown in Table 3, the adjustment of the PW packet frame encapsulation format of the ATM N TO 1 mode is taken as an example. The method for adjusting the format of the NTO 1 PW encapsulation packet is described. The VPI and VCI fields in the existing N TO 1 ATM PW packet frame encapsulation format are replaced by the AC-id forwarding index field, and the index words are forwarded according to different AC-ids. Segments specifically index different PVCs.
- Control word (optional) ( Control Word )
- ATM Payload Asynchronous Transfer Mode Payload
- ATM Payload Asynchronous Transfer Mode Payload
- the AC-id forwarding index is also used to index a specific FR service flow.
- the present invention introduces a sub-service identification mechanism, so that the PE device can distinguish a specific AC service pair, and avoids the PW state UP caused by the AC UP of the non-service pair, but cannot be actually forwarded.
- the status of the text Moreover, through the mechanism of the present invention, it is also possible to avoid the problem that the corresponding PVC is inefficiently searched by the inputvpi/inputvci hardware.
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- Data Exchanges In Wide-Area Networks (AREA)
Abstract
Selon le procédé d'identification de chemins à multiples flux de trafic à émulation, lorsque de multiples flux de trafic à émulation s'effectuent sur un chemin de flux de trafic en mode N TO 1, l'identificateur de circuit annexe est conçu pour identifier le sous-circuit annexe. Une extrémité du pseudo-câble envoie le message contenant l'identificateur du circuit annexe identifiant le premier sous-circuit annexe, alors que l'autre extrémité du pseudo-câble recherche le second sous-circuit annexe contenant le même identificateur de circuit annexe que celui de l'identificateur de circuit annexe reçu. Si le second sous-circuit annexe et le pseudo-câble fonctionnent normalement, le tableau de transfert de matériel est envoyé vers le bas et le message de service est transféré. Selon l'invention, l'identificateur (AC-id) destiné à identifier le service AC identifie différents services AC. L'information du service d'émulation obtenue est précise et les conditions du pseudo-câble et de transfert actuel sont respectées à la lettre. Ainsi, on évite le gaspillage des ressources de procédure et de celles de largeur de bande réseau des noeuds lorsque la transmission de trafic a échoué. De plus, la vitesse de transfert augmente.
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CNB2006100333359A CN100433722C (zh) | 2006-01-23 | 2006-01-23 | 一种识别多条仿真业务流路径方法 |
CN200610033335.9 | 2006-01-23 |
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WO2007082424A1 true WO2007082424A1 (fr) | 2007-07-26 |
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CN101227337B (zh) * | 2008-02-05 | 2011-02-23 | 中兴通讯股份有限公司 | 电路仿真端到端业务的配置方法 |
CN101572651B (zh) * | 2008-04-30 | 2013-06-05 | 华为技术有限公司 | 报文传输的方法及装置 |
CN115065614B (zh) * | 2022-06-22 | 2023-10-13 | 杭州云合智网技术有限公司 | Vpws多活的业务连通性的识别方法 |
Citations (2)
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CN1625176A (zh) * | 2003-12-03 | 2005-06-08 | 华为技术有限公司 | 边缘到边缘伪线仿真协议的实现方法 |
US20050147104A1 (en) * | 2003-12-29 | 2005-07-07 | Hamid Ould-Brahim | Apparatus and method for multihop MPLS/IP/ATM/frame relay/ethernet pseudo-wire |
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KR100252509B1 (ko) * | 1997-12-29 | 2000-04-15 | 강병호 | 대용량 통신처리시스템의 스위치 모듈에서 m버스를 이용한 장애 관리방법 |
US7313605B2 (en) * | 2003-07-03 | 2007-12-25 | At&T Corp. | Externally controlled reachability in virtual private networks |
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Patent Citations (2)
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CN1625176A (zh) * | 2003-12-03 | 2005-06-08 | 华为技术有限公司 | 边缘到边缘伪线仿真协议的实现方法 |
US20050147104A1 (en) * | 2003-12-29 | 2005-07-07 | Hamid Ould-Brahim | Apparatus and method for multihop MPLS/IP/ATM/frame relay/ethernet pseudo-wire |
Non-Patent Citations (3)
Title |
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LI C.-J. ET AL.: "Pseudo Wire Emulation Edge-to-Edge (PWE3): 2. Emulation FR service", CHINA DATA COMMUNICATIONS, no. 6, June 2003 (2003-06-01), pages 77 - 81 * |
XI X.-D. ET AL.: "Review on PWE3 Technology and Its Reference Models", JOURNAL OF SPACECRAFT TT&C TECHNOLOGY (NATURAL SCIENCE), vol. 24, no. 3, June 2005 (2005-06-01) * |
ZHANG L.-P. ET AL.: "Emulation of Services over PSN", JOURNAL OF NANTONG INSTITUTE OF TECHNOLOGY (NATURAL SCIENCE), vol. 3, no. 4, December 2004 (2004-12-01) * |
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CN1878136A (zh) | 2006-12-13 |
CN100433722C (zh) | 2008-11-12 |
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