JP4992573B2 - Layer 2 switch, communication device, data section error detection method used therefor, and program thereof - Google Patents

Description

  The present invention relates to a layer 2 switch, a communication device, a data section error detection method used for the layer 2 switch, and a program thereof, and more particularly to a layer 2 switch that transfers packets based on a MAC (Media Access Control) address of a LAN (Local Area Network).

  In a network in which the above-mentioned layer 2 switch is constructed in multiple stages, when an error is found in the data part on the packet, in order to identify a faulty layer 2 switch or a line between layer 2 switches, The normality of the packet transfer mechanism is determined by means such as incorporating a packet capture device between possible devices. In this process, the same work is performed many times depending on the scale of the network, so that work efficiency in maintenance is poor.

  As a method for confirming the normality of the packet transfer mechanism, there is a method for confirming normality by confirming a response to a packet transmitted in the direction of the confirmation section. As this method, a method related to a ring network is disclosed in Patent Document 1 below, and a method related to a looped LAN is disclosed in Patent Document 2 below.

  Further, as a method for confirming the normality of the packet transfer mechanism, there is a method in which test packets are transmitted to each other device and the received test packets are returned to the other device (see, for example, Patent Document 3). ). Further, the layer 2 switch is described in Patent Document 4 below.

Japanese Patent Laid-Open No. 01-162449 Japanese Patent Laid-Open No. 01-223854 JP 2000-315165 A JP 2004-364065 A

  In a network composed of the above-described layer 2 switches related to the present invention, it is necessary to confirm each route by means such as incorporating a packet capture device. Depending on the scale of the network, it is necessary to perform the confirmation work many times. There are many cases where maintenance work is difficult. Regarding this problem, even if the methods and techniques disclosed in Patent Documents 1 to 4 are mutually applied, it is difficult to solve the problem.

  Therefore, the object of the present invention is to solve the above-mentioned problems and to use special hardware such as a packet capture device when specifying a troubled part even if an error is found in the data part of the packet. It is another object of the present invention to provide a layer 2 switch, a communication device, a data section error detection method used for them, and a program thereof that can easily identify a problem location.

The layer 2 switch according to the present invention is a layer 2 switch that is connected to the same network as the management target layer 2 switch and manages the management target layer 2 switch,
A management table in which address information and data pattern information of the management target layer 2 switch are registered, a generating unit that generates a test packet based on the address information and data pattern information on the management table, and generated by the generating unit A transmission means for transmitting the test packet to the managed layer 2 switch, and a determination for determining the normality of the data portion of the test packet when receiving a response from the managed layer 2 switch to the test packet and means,
The transmission means automatically and periodically transmits a test packet in which a registered data pattern is set in the data part to all management target layer 2 switches registered on the management table .

  A communication device according to the present invention includes the layer 2 switch described above.

The data part error detection method according to the present invention is a data part error detection method used for a layer 2 switch connected to the same network as a management target layer 2 switch and managing the management target layer 2 switch,
A generation process in which the layer 2 switch generates a test packet based on address information and data pattern information on a management table in which address information and data pattern information of the management target layer 2 switch are registered; A transmission process for transmitting the generated test packet to the management target layer 2 switch, and a normality determination of the data part of the test packet when receiving a response from the management target layer 2 switch to the test packet Execute the judgment process ,
In the transmission process, the layer 2 switch automatically and periodically transmits a test packet in which a registered data pattern is set in the data part to all management target layer 2 switches registered on the management table. ing.

The program according to the present invention is a program that is connected to the same network as the management target layer 2 switch and that is executed by a computer that controls the layer 2 switch that manages the management target layer 2 switch.
Generation processing for generating a test packet based on address information and data pattern information on a management table in which address information and data pattern information of the management target layer 2 switch are registered, and the test packet generated by the generation processing a transmission process of transmitting to the management subject layer 2 switches, viewed including a determination process of performing normality determination of the data portion of the test packet upon receiving a response from the managed layer 2 switch for the test packet ,
For the layer 2 switch, in the transmission process, test packets in which data patterns registered in the data portion are registered in the data portion for all managed layer 2 switches registered on the management table are automatically and periodically transmitted. It is characterized by transmitting .

  In the present invention, special hardware such as a packet capture device is used to identify a troubled part even if an error is found in the data part of the packet by adopting the configuration and operation as described above. Therefore, the effect of easily identifying the problem location can be obtained.

  Next, embodiments of the present invention will be described with reference to the drawings.

  FIG. 1 is a block diagram showing a configuration of a communication device according to the first embodiment of the present invention. 1, the communication device according to the first embodiment of the present invention includes a management layer 2 switch 1, a management target layer 2 switch 2, and an NMS (Network Management System) 3. Has been. FIG. 1 shows only the main part of the communication device according to the first embodiment of the present invention.

  The management layer 2 switch 1 is connected to the management target layer 2 switch 2 and the NMS 3, and controls physical ports 11i (i = a, b,...) Serving as packet input / output interfaces and packet transmission / reception control. A transmission / reception control unit 12 to perform, an error packet detection control unit 13 to perform processing such as generation and determination of a test packet, a management table 14 to register the management target layer 2 switch 2 and test packet data, and command input and test The management port 15 is an interface for outputting the results.

  The error packet detection control unit 13 includes a transmission packet generation unit 131 that generates a transmission packet based on information in the management table 14, and a reception packet determination unit that determines the normality of a test packet response from the management target layer 2 switch 2. 132, and a timer control unit 133 that controls a test packet transmission interval and a test packet response timer.

  The management table 14 includes a layer 2 switch registration table 142 that holds the MAC (Media Access Control) address of the management target layer 2 switch 2 registered by the command, and a data part pattern registration table 141 that holds the data pattern of the test packet. Is included.

  The management target layer 2 switch 2 includes a physical port 21j (j = a, b,...) Serving as a packet input / output interface, a transmission / reception control unit 22 that performs packet transmission / reception control, and the management layer 2 switch 1. The error packet detection control unit 23 controls the determination of the received test packet and the generation of the test packet response.

  The error packet detection control unit 23 includes a reception packet determination unit 232 that determines whether or not a packet received from the management layer 2 switch 1 is a test packet, and a transmission packet that generates a test packet response to the management layer 2 switch 1 A generating unit 231.

  2 is a flowchart showing test packet transmission processing by the management layer 2 switch 1 of FIG. 1, FIG. 3 is a flowchart showing test packet response processing by the management target layer 2 switch 2 of FIG. 1, and FIG. 5 is a flowchart showing a test packet response reception process by one management layer 2 switch 1. The operation of the communication device according to the first embodiment of the present invention will be described with reference to FIGS.

  When the MAC address of the management target layer 2 switch 2 is input from the NMS 3 connected to the management layer 2 switch 1 by a command from the management port 15 or the physical port 11i via the network, the management layer 2 switch 1 The MAC address is registered on the layer 2 switch registration table 142 (steps S1 and S2 in FIG. 2).

  Similarly, when an arbitrary data pattern to be reflected in the data portion of the test packet is set by the command from the NMS 3, the management layer 2 switch 1 registers the data pattern on the data portion pattern registration table 141 (step in FIG. 2). S1, S2).

  When a test packet transmission start command specifying a test packet transmission interval is input from the NMS 3, the management layer 2 switch 1 starts automatic transmission of test packets. More specifically, the management layer 2 switch 1 sets the test packet transmission interval input by the test packet transmission start command as a periodic timer value in the timer control unit 133 of the error packet detection control unit 13 (FIG. 2). Steps S3 and S4).

  The management layer 2 switch 1 immediately notifies the transmission packet generator 131 after the expiration of the periodic timer (step S5 in FIG. 2). The transmission packet generator 131 reads the layer 2 switch registration table 142 and the data part pattern registration table 141 of the management table 14 (step S6 in FIG. 2). The transmission packet generation unit 131 sets a transmission destination MAC address and a data pattern from the read information (step S7 in FIG. 2), and after generating a packet with a type indicating a test packet (step S8 in FIG. 2). ) Notifying the transmission / reception control unit 12 of the generation of the test packet.

  The transmission / reception control unit 12 transmits a test packet to the management target layer 2 switch MAC address via the physical port 11a, and the timer control unit 133 starts a test packet response timer (step S9 in FIG. 2). The processing from generation of test packets to transmission and activation of the test packet response timer is performed for all MAC addresses registered in the layer 2 switch registration table 142.

  This series of operations is performed every time the periodic timer expires (steps S5 to S10 in FIG. 2). The above operation can be stopped by inputting a test packet transmission stop command from the NMS 3 and the timer control unit 13 stopping the periodic timer (steps S10 and S11 in FIG. 2).

  When a packet from the management layer 2 switch 1 is received via the physical port 21a (step S21 in FIG. 3), the management target layer 2 switch 2 determines whether or not the packet is addressed to itself by the transmission / reception control unit 22. (FIG. 3, step S22). If it is not determined that the received packet is addressed to the own device, the management target layer 2 switch 2 performs switching or flooding to another port (step S23 in FIG. 3).

  When determining that the received packet is a packet addressed to the own apparatus, the management target layer 2 switch 2 receives the packet at the error packet detection control unit 22. In the error packet detection control unit 22, the type is determined by the received packet determination unit 232, and when it is determined as a test packet (step S24 in FIG. 3), the transmission packet generation unit 231 generates a packet (step S25 in FIG. 3).

  At that time, the transmission packet generation unit 231 sets the MAC address of the management layer 2 switch 1 as the transmission destination MAC address, the type indicating that it is a test packet response, and the received data pattern in the pattern of the data part, and transmits and receives A test packet response is transmitted via the control unit 22 and the physical port 21a (step S26 in FIG. 3).

  In the management layer 2 switch 1, the error packet detection control unit 13 receives the test packet response via the physical port 11a and the transmission / reception control unit 12 (step S31 in FIG. 4). When the transmission destination MAC address is not its own device (step S32 in FIG. 4), the management layer 2 switch 1 performs switching or flooding to another port in the transmission / reception control unit 12 (step S33 in FIG. 4).

  When receiving the test packet response, if the received packet determining unit 132 determines that it is a test packet response depending on the type (step S34 in FIG. 4), it is input from the data part pattern registration table 141 on the management table 14 by the test packet transmission command. The data pattern is read (step S35 in FIG. 4), and it is determined whether or not the packet patterns are the same (step S36 in FIG. 4). As a result of the determination, if the pattern is different, the management layer 2 switch 1 notifies the NMS 3 via the management port 15 (step S37 in FIG. 4).

  If the test packet response is not received until the test packet response timer activated at the time of transmitting the test packet expires (step S38 in FIG. 4), the management layer 2 switch 1 notifies the management port as described above. 15 is notified to the NMS 3 (step S39 in FIG. 4). After receiving the notification from the management layer 2 switch 1, the NMS 3 displays the notification content (test packet transmission / reception mismatch or test packet response reception timeout) on a display unit (not shown).

  As described above, in the present embodiment, it is possible to generate and transmit a test packet in the management layer 2 switch 1, receive a test packet response from the management target layer 2 switch 2, and determine the contents thereof Therefore, even if an error occurs in the data portion of the test packet, it is not necessary to prepare special hardware such as a packet capture device when specifying the problem portion.

  Further, in this embodiment, the management layer 2 switch 1 starts automatic transmission of a test packet by the test packet transmission start command input from the NMS 3, and the response result is output by the NMS 3. Identification can be easily performed.

  FIG. 5 is a block diagram showing a configuration example of a communication device according to the second embodiment of the present invention. In FIG. 5, the second embodiment of the present invention has the same configuration and operation as those of the first embodiment of the present invention described above except that layer 2 switches are connected in multiple stages.

  The management layer 2 switch 1 sends a test packet in which arbitrary data is automatically and periodically set to the management target layer 2 switches 2-1 to 2-3 by the mechanism described above (the mechanism shown in FIG. 1). It is possible to send. It is assumed that the management target layer 2 switch 2-1, the management target layer 2 switch 2-2, and the management target layer 2 switch 2-3 are registered in the management table in the management layer 2 switch 1.

  The management layer 2 switch 1 transmits a test packet to the management target layer 2 switch 2-1. Next, the management layer 2 switch 1 transmits a test packet to the management target layer 2 switch 2-2.

  At this time, the test packet passes through the management target layer 2 switch 2-1, but since the transmission destination MAC address of the test packet is not the MAC address of the management target layer 2 switch 2-1, the management target layer 2 switch 2-1 Is immediately transferred to the physical port to which the management target layer 2 switch 2-2 is connected, and the error packet detection control unit of the management target layer 2 switch 2-1 does not perform the above control.

  When a test packet is transmitted from the management layer 2 switch 1 to the management target layer 2 switch 2-3, as in the case of the management target layer 2 switch 2-2, the other management target layer 2 switches 2-1 and 2-2 are also transmitted. The error packet detection controller does not perform the above control.

  Here, although the data pattern of the test packet response from the management target layer 2 switch 2-1 and the management target layer 2 switch 2-2 matches the data pattern on the management table 14 of the management layer 2 switch 1, If the data pattern of the test packet response from the layer 2 switch 2-3 does not match the data pattern on the management table 14 of the management layer 2 switch 1, that fact is output to the NMS 3.

  As a result, in this embodiment, in addition to the effects of the first embodiment of the present invention described above, the operator can cause a failure between the management target layer 2 switch 2-2 and the management target layer 2 switch 2-3. There is an effect that it is possible to easily find out that the occurrence of.

  FIG. 6 is a block diagram showing a configuration example of a communication device according to the third embodiment of the present invention. In FIG. 6, in the third embodiment of the present invention, the management layer 2 switch 1 and the management target layer 2 switch 2 include switch units 16 and 24 and control units 17 and 25 [CPU (central processing unit) or the like. ] And the memories 18 and 26 are the same as those in the first and second embodiments of the present invention, and the effects are also the same.

  Here, the switch units 16 and 24 include the physical ports 11i and 21j and the management port 15 in the first embodiment of the present invention, and the processing shown in FIGS. , 25 are executed by executing the programs in the memories 18, 26. In addition to the program, the management table 14 is also provided in the memory 18 of the management layer 2 switch 1.

  As described above, according to the present invention, a test packet is transmitted to and received from a layer 2 switch on the network by a simple command input. Alternatively, it is possible to provide a layer 2 switch that reduces the burden on the maintainer by specifying the line section more easily.

  More specifically, the present invention relates to a management table for writing the management target layer 2 switch address and data pattern information on the same network, and the packet of the packet based on the management target layer 2 switch address and data pattern on the management table. A transmission packet generation unit that performs generation, a reception packet determination unit that determines normality of the data portion of the packet when a response from the management target layer 2 switch is received, and packet switching to a physical port based on the management table A management layer 2 switch having a transmission / reception control unit to be connected is connected to an NMS for inputting a management table setting command, a test packet transmission command, and outputting a test result.

  In the present invention, a mechanism for immediately transmitting a response packet with the same data pattern to the received test packet is provided to the management target layer 2 switch.

  In the present invention, the MAC address of the management target layer 2 switch is held in the management table by inputting a management target layer 2 switch address registration command from the NMS connected to the management layer 2 switch to the management layer 2 switch. Similarly, in the present invention, a data pattern is held in the management table by inputting a data pattern registration command from the NMS to the management layer 2 switch.

  Thereafter, in the present invention, a test packet transmission start command is input from the NMS to the management layer 2 switch, and the data pattern registered for all the management target layer 2 switches on the management table is set in the data portion. Automatically send test packets periodically. The management target layer 2 switch that has received the test packet transmits a test packet response with the same data pattern to the management layer 2 switch.

  When the management layer 2 switch receives the test packet response from the management target layer 2 switch, the management layer 2 switch determines whether the data pattern transmitted in the test packet matches the data portion of the received test packet response. If the data does not match, a message to that effect is output, so that it is possible to easily identify a device or a line section in which an error has occurred in the data portion of the packet.

  In the present invention, for example, the management layer 2 switch is provided with a separately prepared scheduling management table and its registration command, and is operated in conjunction with the clock function in the management layer 2 switch, thereby determining a fixed date and time. It is possible to transmit a test packet.

  Further, in the present invention, if “immediate” can be designated instead of “test packet transmission interval” by a packet transmission start command, it is possible to perform test packet transmission / reception only once. When “immediate” is designated, the function can be realized by notifying the transmission packet generation unit directly without using the timer control unit.

  The present invention is applicable to a communication device having a layer 2 switching mechanism incorporated in a network.

It is a block diagram which shows the structure of the communication apparatus by the 1st Embodiment of this invention. 3 is a flowchart showing test packet transmission processing by the management layer 2 switch of FIG. 1. 3 is a flowchart showing test packet response processing by the management target layer 2 switch of FIG. 1. 6 is a flowchart showing a test packet response reception process by the management layer 2 switch of FIG. 1. It is a block diagram which shows the structural example of the communication apparatus by the 2nd Embodiment of this invention. It is a block diagram which shows the structural example of the communication apparatus by the 3rd Embodiment of this invention.

Explanation of symbols

1 Management layer 2 switch 2, 2-1 to 2-3 Managed layer 2 switch
3 NMS
11a, 11b,
21a, 21b Physical port
12, 22 Transmission / reception control unit
13, 23 Error packet detection controller
14 Management table
15 Management port
16, 24 Switch part
17, 25 Control unit
18,26 memory
131 Transmission packet generator
132 Received packet determination unit
133 Timer control unit
141 Data part pattern registration table
142 Layer 2 switch registration table
231 Transmission packet generator
232 Received packet judgment unit

Claims (10)

A layer 2 switch connected to the same network as the managed layer 2 switch and managing the managed layer 2 switch,
A management table in which address information and data pattern information of the management target layer 2 switch are registered, a generating unit that generates a test packet based on the address information and data pattern information on the management table, and generated by the generating unit A transmission means for transmitting the test packet to the managed layer 2 switch, and a determination for determining the normality of the data portion of the test packet when receiving a response from the managed layer 2 switch to the test packet It possesses the means,
The transmission unit automatically and periodically transmits a test packet in which a registered data pattern is set in a data part to all management target layer 2 switches registered on the management table. 2 switches. In response to a command from a network management system connected to the own device, the address information and the data pattern information are registered in the management table, and the test packet is transmitted to the management target layer 2 switch. The layer 2 switch according to claim 1. The layer 2 switch according to claim 2 , wherein the determination result of the determination means is output to the network management system and displayed . The determination means determines whether or not the data pattern transmitted to the management target layer 2 switch in the test packet matches the data part received from the management target layer 2 switch. The layer 2 switch according to claim 2 or 3 , wherein the fact is output to the network management system . A communication device comprising the layer 2 switch according to any one of claims 1 to 4. A data part error detection method used for a layer 2 switch connected to the same network as a managed layer 2 switch and managing the managed layer 2 switch,
A generation process in which the layer 2 switch generates a test packet based on address information and data pattern information on a management table in which address information and data pattern information of the management target layer 2 switch are registered; A transmission process for transmitting the generated test packet to the management target layer 2 switch, and a normality determination of the data part of the test packet when receiving a response from the management target layer 2 switch to the test packet Execute the judgment process,
In the transmission process, the layer 2 switch automatically and periodically transmits a test packet in which a registered data pattern is set in the data part to all management target layer 2 switches registered on the management table. A data part error detection method characterized by the above. The layer 2 switch responds to a command from a network management system connected to its own device, registers the address information and the data pattern information in the management table, and sends the test packet to the management target layer 2 switch. The data part error detection method according to claim 6, wherein transmission is performed. 8. The data part error detection method according to claim 7, wherein the layer 2 switch outputs and displays the determination result of the determination process to the network management system. In the determination process, the layer 2 switch determines whether a data pattern transmitted to the management target layer 2 switch in the test packet matches a data part received from the management target layer 2 switch. 9. The data part error detection method according to claim 7 or 8, wherein if it does not match, the fact is output to the network management system. A program that is connected to the same network as the management target layer 2 switch and that is executed by a computer that controls the layer 2 switch that manages the management target layer 2 switch,
Generation processing for generating a test packet based on address information and data pattern information on a management table in which address information and data pattern information of the management target layer 2 switch are registered, and the test packet generated by the generation processing Transmission processing to transmit to the management target layer 2 switch, and determination processing to determine the normality of the data portion of the test packet when a response from the management target layer 2 switch to the test packet is received,
For the layer 2 switch, in the transmission process, test packets in which data patterns registered in the data portion are registered in the data portion for all managed layer 2 switches registered on the management table are automatically and periodically transmitted. A program characterized by causing transmission.

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