JPH02190053A - Local area network - Google Patents

Abstract

PURPOSE:To attain a confirmation test for node interconnection simply and quickly by sending a connection confirming test frame from one node on a local area network to all other nodes integrally and confirming the interconnection with all the other nodes on the local area network once. CONSTITUTION:The processor of a node acquiring the transmission right of a frame uses a test frame transmission means 101 to send a test frame to other node, the frame is received by the data transmission equipment of an adjacent node and stored by a test frame reception storage and latch means 201 and transferred to the processor. The data transmission equipment receives a test reply frame and a test frame transmission means 212 with test result adds the result of test to the data part of the test frame and sends the resulting frame to the data transmission line again. A node sending the test frame receives the returned test frame by a test frame reception analysis means 102 to analyze the node address of each node and the result of test. Thus, the interconnection with all the nodes is confirmed simply and quickly.

Description

[Detailed description of the invention]

[Industrial Application Field] The present invention is composed of a ring-shaped data transmission path, and a plurality of nodes each consisting of a data transmission device placed on the transmission path and a processor connected to the data transmission path, and each of the nodes has a local It relates to a local area network that has a node address, which is information that can be uniquely identified from other nodes on the area network, and that communicates with other nodes by transmitting and receiving data in a frame-by-frame structure. [Prior Art] Conventionally, this type of local area network has a means for transmitting and receiving a connection confirmation test frame, and information indicating the source and destination of the frame included in the received connection confirmation test frame. a means of replacing and returning the
By equipping the processor of each node with a means for analyzing the returned connection confirmation test frame, arbitrarily selecting one node to be subjected to connection confirmation for the node executing the test, and using the above means. 1 between two nodes
An inter-node connectivity confirmation test was being conducted to confirm pair-to-one connectivity. [Problems to be Solved by the Invention] In the conventional inter-node connection confirmation test method described above, one node is arbitrarily selected for connection confirmation of each node during test execution, and one-to-one connection between two nodes is established. However, when it was necessary to check connectivity with multiple nodes, especially with all nodes on a local area network, it was necessary to perform the same test many times, and the connection This method requires the operator to know the address of the node to be checked, and there is a drawback that a mistake in inputting the node address may lead to the wrong party or a system failure as a result of this.

[Means to solve the problem]

The local area network of the present invention includes a test frame transmitting means in which each processor transmits a test frame for a connection confirmation test to all nodes on the local area network, and a test frame transmitting means for transmitting a test frame for a connection confirmation test to all nodes on the local area network, and a test frame transmitting means for transmitting a test frame for a connection confirmation test to all nodes on the local area network. test frame reception analysis means for receiving and analyzing the test frame; test frame reception means for receiving the test frame transmitted from another node on the local area network; and transmitting a frame in response to the reception of the test frame. and a test response frame transmitting means for transmitting a test response frame, wherein each data transmission device receives the test frame transmitted from another node on the local area network from a ring-shaped data transmission path, and then stores and stores the test frame. reception storage holding means; test frame transfer means for transferring the received test frame to a processor connected to the data transmission device; and a response frame to the test frame transmitted from the processor connected to the data transmission device. a test response frame receiving means for receiving a test response frame, and a test frame with test results that adds the test result obtained from the response frame and its own node address to the stored test frame, and then sends it to a ring-shaped data transmission path. and a sending means. [Operation] Captures fleet tokens patrolling the data transmission path,
The processor of the node that has obtained the right to transmit the frame transmits the test frame to other nodes on the local area network using the test frame transmitting means. This test frame is sent to the data transmission path by the data transmission device of the node. The test frame sent to the data transmission path is received by the data transmission device of the adjacent node, stored and held by the test frame reception storage and holding means, and then transferred to the processor of the note. After the processor receives the test frame by the test frame receiving means, the test response frame transmitting means transmits the test response frame to the data transmission device. The data transmission device receives the test response frame by the test response frame receiving means, and transmits the test result obtained from the response frame and the own node address by the test result-attached test frame sending means. It is added to the data section and sent out again to the data transmission path. After the same process is performed at all nodes, the test frame returns to the node that sent the test frame. At this time, the data portion of the returned test frame includes the node address of each node and the test result in addition to the test data. The node that sent the test frame receives the returned test frame using the test frame reception analysis means, and by analyzing the node address and test results of each node added to the test frame, connects with all nodes. You can check the status. [Example] Next, an example of the present invention will be described with reference to the drawings. FIG. 1 is a configuration diagram of the entire local area network showing one embodiment of the present invention, and FIG. 2 is a diagram of each processor 2 in FIG. 1.
-1 to 2-n, FIG. 3 is a block diagram showing the main parts of each data transmission device 4-1 to 4-n in FIG. FIG. 5 is a diagram showing a frame format used for data transmission in an area network, and is a diagram showing a connection confirmation test frame (hereinafter referred to as a test frame) used in this embodiment. As shown in FIG. 1, the local area network of this embodiment includes a ring-shaped data transmission path 5, data transmission devices 4-1 to 4-n arranged on the data transmission path 5, and each of them. A node 1 consisting of processors 2-1 to 2-n connected via data transmission lines 3-1 to 3-n.
-1 to 1-n, and a token passing ring method is adopted as the media access control method. The data transmitted via the data transmission paths 5 and 3-1 to 3-n takes the frame format shown in FIG. An address (hereinafter referred to as F) indicating the destination of the data to be transmitted is sandwiched between flags (hereinafter abbreviated as F).
DA), an address (hereinafter abbreviated as SA) indicating the transmission source of the data to be transmitted, a control code (hereinafter abbreviated as CTL) indicating the type of frame to be transmitted, and the length of the data to be transmitted. The data length (hereinafter abbreviated as DL) indicating the length of the transmission frame, the transmitted data of the length indicated by DL (hereinafter abbreviated as DATA), and the frame check sequence (hereinafter abbreviated as DATA) for detecting data errors in the entire transmission frame. (hereinafter abbreviated as Fe2), has a global address GA in DA and C as shown in FIG.
The TL has a code TFL indicating the test frame, and the DA
Fixed-length test data TESTDATA is added to TA and node addresses Al, A2 . ..., A
2..., An and test results R1, R2,..., R
A test frame with n is defined. As shown in FIG. 2, each processor 2-1 to 1-n of the nodes 1-1 to 1-n includes a test frame transmitting means 101 that globally transmits a test frame to all nodes on the local area network. , a test frame reception analysis means 102 that receives and analyzes test frames that return via all nodes on the local area network, and a test frame that receives test frames transmitted from other nodes on the local area network. It has a receiving means 111 and a test response frame transmitting means 112 that transmits a response frame to the received test frame. As shown in FIG. 3, each data transmission device 4-1 to 4-n of the nodes 1-1 to 1-n,
Test frame reception storage storage means 201 that receives test frames transmitted from other nodes on the local network from the ring-shaped data transmission path 5 and temporarily stores and stores them.
and connect the received test frame to the data transmission device.
a test frame transfer means 202 for transferring a test frame to a connected processor; a test response frame receiving means 211 for receiving a response frame to a test frame transmitted by a processor connected to the data transmission device; It has test result attached test frame sending means 212 which adds the result and own node address to the stored test frame and then sends the test frame to the ring-shaped data transmission path 5. As an example, the operation of confirming connections from node 1-1 to all nodes 1-2 to 1-n on the local area network will be described in detail. The processor 2-1 of the node 1-1 is a processor 2-1 of the fleet circulating on the data transmission path 5.
After obtaining the right to transmit the frame by catching the user, the test frame shown in FIG. 5 is sent to the test frame transmitting means 1.
01 all nodes on the local area network 1
-2 to ln globally. At this time,
Only test data exists in the DATA section of the transmitted test frame. The test frame transmitted from the processor 2-1 is sent to the data transmission line 5 by the data transmission device 4-1 via the data transmission line 3-1 in the same way as a normal frame. The test frame sent to the data transmission path 5 is first received by the data transmission device 4-2 of the node 1-2, and is stored and held by the test frame reception storage storage means 201. The test frame reception storage storage means 201 is a means that is executed only when a test frame transmitted from a node is received, and the stored test frame is sent to the data transmission path 5 by the test result attached test frame transmission means 212. Retained until sent. Further, a copy of the received test frame is transferred by the test frame transfer means 202 to the processor 2-2 via the data transmission path 3-2. The processor 2-2 includes a test frame receiving means 1
11 receives the transmitted test frame, and then the test response frame transmitting means 112 transmits the test response frame to the data transmission device 4-2 via the data transmission path 3-2. The data transmission device 4-2 receives the test response frame by the test response frame receiving means 211, and receives the test response frame by the test result attached test frame sending means 21.
2, the D of the test frame that stores the test result obtained from the response frame and the own node address
It is added to the ATA part in the format shown in Figure 5, and its data length D
After updating L, it is sent to the data transmission path 5 again. Here, in consideration of the case where the test response frame is not transmitted from the processor 2-2, the test response frame receiving means 211 detects that the test response frame is not transmitted even after a certain period of time has elapsed. If so, it is assumed that there is a connection failure and control is passed to the test frame with test result sending means 212.Hereafter, the test frame sent to the data transmission path 5 again will be sent to the node l-2 at nodes 1-3 to 1-n. Similar processing is performed and the node returns to node 1-1. At this time, the DATA portion of the returned test frame includes the node address of each node and the test result in addition to the test data. Processor 2-1 of node 1-1
The test frame reception analysis means 102 receives the transmitted test frame and analyzes the test results and the node address of each node added to the test frame, thereby determining the connection status with all nodes. You can easily check it. The above operations are performed in the same way no matter which one of the nodes 1-2 to 1-n is used. Therefore, a connection check test with all the nodes existing on the local area network can be easily performed from any node. Can be done quickly. Furthermore, even if the operator does not know all the nodes existing on the local area network, he or she can confirm connections with all the nodes without fail. [Effects of the Invention] As explained above, the present invention includes a test frame transmitting means, a test frame reception analyzing means, a test frame receiving means, and a test response frame transmitting means in each processor, and a test frame receiving means in each data transmission device. By providing a memory storage means, a test frame transfer means, a test response frame reception means, and a test result-attached test frame transmission means, a connection confirmation test frame can be transmitted from one node on a local area network to all other nodes. On the other hand, by sending it once globally, you can check the connections with all other nodes on the local area network at once, so you do not need to be aware of what kind of nodes exist on the local area network. This has the effect of making it possible to easily and quickly perform inter-node connection confirmation tests and making local area network maintenance work more efficient.

[Brief explanation of the drawing]

FIG. 1 is a configuration diagram of the entire local area network showing one embodiment of the present invention, and FIG. 2 is a diagram of each processor 2 in FIG. 1.
-1 to 2-n, FIG. 3 is a block diagram showing the main parts of each data transmission device 4-1 to 4-n in FIG. A diagram showing a frame format used for data transmission in an area network, and FIG. 5 is a diagram showing a connection confirmation test frame used in this embodiment. 1-1 to 1-n... Node, 2-
1-2-n... Processor, 3-
1 to 3-n, 5... data transmission path, 4-1 to 4
-n......Data transmission device, 101
...Test frame transmission means, 102...
...Test frame reception analysis means, 111...
Test frame receiving means, 112...Test response frame transmitting means, 201...Test frame reception storage storage means, 202...Test frame transfer means, 211... ...Test response frame receiving means, 212...Test frame sending means with test results F...Flag, DA...Node address (destination address), SA......node address (source address) CTL...control field, DL
......Data length, DATA...Data field, Fe2...Frame check sequence, GA
・・・・・・・・・Global address, TFL...
...Code indicating test frame, A1 to An...
···Test results.

Claims (1)

[Claims] 1. Consisting of a ring-shaped data transmission path, and a plurality of nodes each consisting of a data transmission device placed on the transmission path and a processor connected thereto, each node is connected to a local area network. In a local area network that has a node address, which is information that can be uniquely recognized from other nodes, and communicates with other nodes by transmitting and receiving data in a frame-by-frame configuration, each of the processors performs a test for connection confirmation test. test frame transmitting means for transmitting the frame to all nodes on the local area network; test frame reception analysis means for receiving and analyzing the test frame returning via all the nodes on the local area network; comprising a test frame receiving means for receiving the test frame transmitted from another node on the area network, and a test response frame transmitting means for transmitting a response frame in response to the reception of the test frame, and transmitting each of the data. The device includes a test frame reception storage storage means for receiving the test frame transmitted from another node on the local area network through a ring-shaped data transmission path and temporarily storing the test frame in memory, test frame transfer means for transferring a test frame to a processor connected to the data transmission apparatus; test response frame reception means for receiving a response frame to the test frame transmitted from the processor connected to the data transmission apparatus; 1. A local area network comprising: means for transmitting a test frame with test results, which appends a test result obtained and a self-node address to a stored test frame, and then transmits the test frame to a ring-shaped data transmission path.