JPS63206048A - Control method for relay station trace in packet exchange network - Google Patents

Abstract

PURPOSE:To attain efficient routing control in response to a fault by locating a faulty location and recognizing the fault not only at a sender station of a trace packet but also at an incoming station of the trace packet. CONSTITUTION:A routing table 19 is placed in a station connected through transmission lines l1-l4 in exchange stations 11-14 in a packet exchange network and a routing table 20 is placed in the station 14. The recognition of a fault in the packet exchange network and the location of the fault are executed not only at the sender station of the trace packet but also at the incoming station of the trace packet and efficient routing control in response to the fault is attained.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a network maintenance control method in a packet switching network.

[Prior Art J] In a conventional packet switching network, packet switching is used as a means for equipment other than the switching equipment adjacent to the location of occurrence to recognize a fault that occurs in a packet switching device and a transmission line that connects the devices, and to isolate the location of the fault. There is a relay station trace control method using trace packets dedicated to recording switching station identification information.

FIG. 4 is a connection diagram showing a packet switching network in which the conventional relay station trace control method disclosed in, for example, Japanese Patent Laid-Open No. 6O-177535i is utilized.

AND are packet switching stations, and station A (41) connects with station B (42), station B (42) connects with station C (43) and station D (44), and station CC43) Fi station D (44). and,
They are connected by transmission lines 11 (45), 1 (46), 11 (47), and 14 (48), which can send and receive packets in both directions.

Figure 5 shows the stations where station A shown in Figure 4 is the originating station for sending trace packets, one station is the receiving station for this trace packet, and one station B and C are the relay stations for this trace packet. The contents of the trace packets that can be created at each of stations A to C, and the contents of the trace packets that are created at the station that is the destination station and the source station A.
FIG. 2 is an information configuration diagram showing the contents of a return trace packet sent to. In the figure, (51) is the called station identification area, (52) is the calling station identification area, (5
3) is the route (! rating) designated area, (54
) indicates the packet identification area, (55) indicates the dispatch time area, and (56) to (59) indicate the respective station identification areas of stations A to D.

Also, packets (5a), (5b), and (5c) are trace packets, and packet (5d) is a return trace packet.

Next, the operation in a situation where a line failure occurs in the transmission line 14 will be explained. In this case, when station A sends a dispatch trace packet for the routing used in the order of transmission lines: Ll and 14, station B can recognize the failure of transmission line 14, so In this case, the trace packet for sending is diverted via station C and lost. Therefore, the relay station history indicated by the contents of the return trace packet received by station A is station B, station C, and station A. As a result, station A
#i Compare the contents of the sent trace packet and the contents of the returned trace packet KJ: S, Transmission line 14
It is possible to recognize the occurrence of a failure.

[Problems to be solved by the invention] Since the conventional relay station trace control method is configured as described above, it is possible to recognize failures and isolate failure locations based on the operational status of the entire packet switching network. Since the trace packet is understood by the originating station that receives the return 1 notification, in order to change the routing table in the packet switching device according to this information, it is necessary to send a trace packet with the own station as the originating station. and only after it has been returned to your station. For this reason, in switching networks with complex and elaborate configurations or heavily loaded switching networks, changes to the routing table of each station in response to failures may be delayed, and the creation of trace packets for each layer may be delayed. This caused problems such as affecting the amount of traffic within the switching network.

This invention was made to solve the above-mentioned problems, and trace packets are sent and received via a switching network that can send and receive packets in both directions. By taking advantage of the fact that the same route information is stored in the table, the receiving station of the trace packet can also recognize the failure, isolate the failure, and change the routing table accordingly. The purpose of this invention is to obtain a relay station trace control method that enables routing control and grasping of the operation status of the mesh body.

[Precautions to Solve the Problem] The relay station trace control method according to the present invention provides route information in a routing table held by each switching center in a packet switching network, including route information containing the same connection route. The same identifier is assigned to both the sending and receiving stations of the packet, and the switching station records identification information including the sending station, route information, terminating station, and sending time, in addition to the normal information transmission packet. A means for transmitting a trace packet, a means for detecting the identification information, and when the own station is a relay station, adding own station information to the trace packet and relaying it, and when the own station is a destination station, The above trace
The device is equipped with means for transmitting a return trace packet to the transmitting station after detecting the identification information of the packet.

[Operation J] In the relay station trace control method according to the present invention, the originating station of the trace packet uses the history of the relay station (transfer station) included in the information of the return trace packet sent back from the destination station and While comparing the specified route information and determining the status within the switching network, the destination station (receiving station) of the trace packet also checks the route in its own routing table that corresponds to the route identifier of the trace packet. This information is compared with the relay station history of trace packets to understand the status of the switching network and enable routing control as needed.

[Embodiment J of the Invention An embodiment of the invention will be described below with reference to the drawings. 1st
In the figure, Qt) A , (12) B , (13
) C, (14) D indicate the switching center of this packet switching network, (15) it, (16) 12% (17) I
J, (18) 14 are respectively station A (11) and station B (12), station B (12) and station C (13), and station C (
13) and station D (14), station D (14) and station B (1
2) shows a transmission line that can send and receive packets in both directions. A routing table (19) is placed in station A (11), and in station D (14)! A rating table (20) is placed. The contents of the routing table are a route identifier (19a) and a four destination station identifier (19b).

and route information (L9c).

Figure 2 shows the case where station A shown in Figure l1%1 is the originating station of the transmitted trace packet, stations are the receiving stations of this trace packet, and stations B and C are the relay stations of this trace packet. FIG. 2 is an information configuration diagram showing the contents of trace packets created at each of exchanges A to C, and the contents of a return trace packet created at a destination station. (21a) to (24a) are called station (destination station) identification areas, (21b) to (24b) are calling station identification areas,
(21c) to (240) are route weaving brush storage areas, (2
1d) to (24d) are route information areas, (21s+
) to (24e) indicate the packet (trace packet) identification area, (21f) to (24f) indicate the (trace transmission) packet sending time area, and (21g) to (24j)
indicates a station identification area in which station identifiers of stations A to D are stored.

Next, the operation will be explained based on the flowchart of FIG. 3 in the case where there is a line failure in the transmission line 14.

In the above case, if station A tries to send the trace packet shown in Figure 2 (21) to station DK in the route diagram using transmission lines in the order of lx, l, and 4 in (31), (32)
First, station B receives this trace packet and inserts its own station identifier into the station identification area (22h).

At this point, station B can identify that there is a fault in the transmission line α, so it detours to (1z) and traces to station C.
Transfer packet (22). Station C, which has received the trace packet, enters its own station identifier into the station identification area (231) in (33) and transmits the trace packet (23) to station DK. At the station that is the destination station of the trace packet, the trace packet l−(2
3), the specified route contents of the dispatch trace packet written in the route information area (23d) “Transmission line 1
1 (between station B and station B), transmission line 14 (between station B and station B)
and the relay station history "Station A1 Station B, Station C" of the station identification area (23g)-ai) are compared.

In this case, they do not match, so in the process (35), the route identifier R3 is read from the route identifier storage area (23c) in the trace packet, and the router table at the station (
20) Record the route information busy-related failure of R3.

Furthermore, by comparing the contents of the designated route with the relay station history, the fault location (transmission line 14) is also identified at the same time. From now on, based on the principle of (36), the packet identification area (2
4e) After returning the M brush, return the route identifier to (24c) based on the internal routing table.
), route information to (24d), the called station identifier of (23a) to the calling station identification area of (24b), (
The transmitting station identifier of 23b) is rewritten to the transmitting station identification area of (24a) and sent back to station A.

In the case of a return trace packet, no station identifier is inserted by the relay station during the return. When (24) sends a # return trace/packet to station A, it sends the sending trace/packet forwarding station history (24g) to (24j) as before (37).
) and the sending trace packet sending time (24f) to determine the situation within the switching network.

Note that in the above embodiment, (
The verification of the packet delivery time based on the trace packet sending time in 21f) to (24f) was performed at the sending trace packet originating station, that is, the returning trace packet receiving station. The processing may be performed at the station (34).

The effect of this case is that both the sending and receiving stations of the trace packet can easily grasp the situation within the switching network, which is determined from the packet delivery time.

(11) to (14) are switching offices, (15) to (I8) are transmission lines, and (19) and (20) are routing tables.

〔Effect of the invention〕

As described above, according to the present invention, in the relay station trace control method, recognition of a failure in a packet switching network and isolation of the failure location can be performed not only at the source station of the trace packet but also at the destination station of the trace packet. This makes routing control more efficient in case of failures in complex, large-scale switching networks, or heavily loaded switching networks, and also allows for the creation of trace packets within the switching network. Since it is possible to limit the number of stations, it is possible to reduce the amount of traffic within the network.

[Brief explanation of the drawing]

'WIJ1 is a configuration diagram of a packet switching network according to an embodiment of the present invention, and FIG.
3 is a 7a-chart diagram of the operation of the present invention according to the embodiment of FIG. 1, and FIG. 4 is a packet switching network in which the conventional relay station trace control method is utilized. FIG. 5 is an information configuration diagram of the conventional dispatch trace packet and return trace packet in FIG. 4. In addition, in the figures, the same reference numerals indicate the same or equivalent parts. lt, tL-chishi 7';-7"le 20: for traffic station A"
AbsentD17L-TE>7fu';r) Figure 2 (,4) (B) (C)
(D) Figure 3

Claims (2)

[Claims] (1) In a packet switching network that includes a large number of packet switching stations and relay lines that connect these packet switching stations in a network, the packet switching stations communicate with each other on both the originating station side and the terminating station side. The same route information that connects includes a routing table with the same route identifier, the destination station, the originating station, the identifier and route contents of the specified route, and the originating time in addition to the normal information transmission packet. means for transmitting a trace packet recording information; means for receiving the trace packet transmitted by the transmitting means and detecting each piece of information; and detecting the information detected by the detecting means from the own station. is a relay station, means writes the station identifier of the own station in the trace packet, relays the trace packet according to the designated route, and determines that the own station is the destination station based on the information detected by the detection means. In some cases, means for detecting the identifier and route contents of the designated route and the relay station history of the trace packet from the detected information, and a means for the destination station to address the originating station of the trace packet and return it to the packet identification information. and means for transmitting a return trace packet recording that the trace packet is a relay station trace control method for a packet switching network. (2) In a packet switching network that includes a large number of packet switching stations and relay lines that connect these packet switching stations in a network, the packet switching stations each communicate with each other on both the originating station side and the terminating station side. The same route information that connects includes a routing table with the same route identifier, the destination station, the originating station, the identifier and route contents of the specified route, and the originating time in addition to the normal information transmission packet. means for transmitting a trace packet recording information; means for receiving the trace packet transmitted by the transmitting means and detecting each piece of information; and detecting the information detected by the detecting means. When the station is a relay station, means for writing the station identifier of the own station in the trace packet and relaying the trace packet according to a specified route, and determining that the own station is the destination station based on the information detected by the detecting means. In some cases, the destination station includes a means for detecting the identifier and route contents of the designated route and the relay station history of the trace packet from the detection information, and a means for the destination station to send a reply to the packet identification information to the originating station of the trace packet. When the specified route in the trace packet detected by the means for transmitting a return trace packet recording that it is a trace packet and the above detection means does not match the relay station history of this trace packet, the relay station history of this trace packet does not match. A relay station trace control method for a packet switching network, comprising means for recording the occurrence of a failure and the location of the failure for a corresponding route in a routing table.