KR0182707B1 - Method and apparatus for monitoring communication message between processors in switching system - Google Patents

Abstract

The present monitoring device and method are for tracking and monitoring interprocessor communication messages in an exchange having a communication unit between central processors, and the present device is configured to monitor the interprocessor communication messages between predetermined nodes provided in a communication unit between central processors. A data bus for transmission; Operator terminal; A frame data filter for filtering interprocessor communication messages transmitted through the data bus according to a predetermined filtering condition; A reception buffer for storing data output from the frame data filter; A buffer controller for controlling write and read (or read) processing of the reception buffer; A memory for storing interprocessor communication messages read from the receiving buffer; It is configured to include a CPU for overall control to monitor the desired interprocessor communication message.

Description

Monitoring device and method for interprocessor communication message in exchange

1 is a diagram illustrating a relationship between a central inter-processor communication unit (CIPCU) and a processor in an exchange.

2 is a general interprocessor communication message format.

3 is a block diagram of an interprocessor communication message monitoring apparatus according to the present invention.

4 is a flowchart of a method for monitoring an interprocessor communication message according to the present invention.

* Explanation of symbols for main parts of the drawings

301: data bus 302: frame data filter (FDF)

303: CPU (Central Processor 304: buffer control unit (BFC)

305: First In First Out (FIFO) for reception 306: Memory

307 operator terminal

The present invention relates to an apparatus and method for monitoring interprocessor communication (hereinafter referred to as IPC) messages in an exchange.

All processors in the exchange generally send and receive messages using the IPC network. The message transmission and reception through the IPC network is performed through the CIPCU (CIPCU) is provided in the exchange. FIG. 1 shows a relationship diagram for transmitting and receiving IPC messages between processors provided in the exchange via the CIPCU. As can be seen in FIG. 1, each processor transmits and receives each other's IPC messages through the CIPCU, and in order to enable such transmission and reception, the CIPCU 100 transmits and receives an IPC data transmission / reception channel for each processor 101 to 105. FIG. Node control to provide and performs arbitration processing for IPC data transmitted and received. At this time, the IPC message transmitted and received has a high-level data layer control (HDLC) format as shown in FIG. However, when transmitting and receiving such an IPC message, the CIPCU 100 does not have a monitoring function for transmitting and receiving IPC messages, and thus there is a problem in that a problem cannot be identified when a problem occurs in IPC transmission and reception in the exchange.

Accordingly, an object of the present invention is to provide a monitoring apparatus and method capable of tracking and monitoring an IPC message in an exchange having a CIPCU.

An apparatus according to the present invention is an apparatus for monitoring an interprocessor communication (IPC) message in an exchange that performs interprocessor communication provided through a central interprocessor communication unit (CIPCU), which is provided in the interprocessor communication unit. A data bus for transmitting the interprocessor communication message between predetermined nodes; An operator terminal for authorizing a command from an operator and outputting an interprocessor communication message that the operator wants to monitor; A frame data filter for filtering and outputting an interprocessor communication message transmitted in units of frames through a data bus according to a predetermined filtering condition; Receiving buffer for storing data output from the frame data filter; The inter-processor communication message output from the frame data filter is stored in the receiving buffer, and the inter-processor communication message can be read according to the storage state of the receiving buffer A buffer control unit for controlling the credit buffer; A memory for storing the inter-processor communication message read from the receiving buffer; The frame data filter is controlled according to the filtering condition applied through the operator terminal, the inter-processor communication message read by the buffer controller is stored in the memory, and stored in the memory upon output of the tracked inter-processor communication message. And a CPU for outputting an interprocessor communication message.

The method according to the present invention is a method for monitoring an interprocessor communication (IPC) message in an exchange for performing interprocessor communication provided via a central interprocessor communication unit (CIPCU), the processor for monitoring by an operator. Receiving only an interprocessor communication message suitable for the reception condition if a reception condition for the intercommunication message is input; A first storage step of sequentially storing the received inter-processor communication messages in a predetermined receiving storage area; Reading the inter-processor communication messages stored in the receiving storage area in the order of storage when the receiving storage area is full; A second storing step of storing the inter-processor communication message read in the reading step in a predetermined storage area; If the output request signal for the inter-processor communication message tracked from the operator is applied, it characterized in that is performed including the step of outputting the inter-processor communication message stored in the second storage step.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 is a block diagram of an IPC message monitoring apparatus according to the present invention, which is provided in a CIPCU in an exchange, and includes a data bus 301 for transmitting and receiving frame data between nodes in a CIPCU, and assigned to each node. Filtering the frame data transmitted from the data bus 301 by the CPU 303 and the filtering condition (hereinafter referred to as FC) provided by the CPU 303 for controlling the IPC message monitoring according to the present invention. Frame Data Filter (302) for filtering the frame data output from the node, First In First Out (FIFO) for storing the frame data transmitted from the Frame Data Filter (302), 305 ), And transmit the frame data output from the frame data filter 302 to the reception first-in, first-out buffer 305. The frame data output from the reception first-in, first-out buffer 305. A buffer control unit 304 for controlling the receiving FIFO 305 so as to transmit the data to the serial input / output (SIO) channel of the CPU 303, and is controlled by the CPU 303 to be controlled from the buffer control unit 304. Memory 306 for storing the transmitted frame data, and the operator terminal 307 for outputting the tracked IPC message for monitoring and input of the monitor request signal for the filtering conditions and IPC message.

4 is a flowchart of an IPC message monitoring method according to the present invention, which is processed by the CPU 303 shown in FIG.

Next, the operation of the present embodiment will be described with reference to FIGS. 3 and 4.

First, the operator inputs the filtering condition through the operator terminal 307 when monitoring the IPC message. Here, the filtering condition is a condition for extracting only the frame data of a desired type from the frame data received from the corresponding node, but at the time of transmission, it is data including an address of a node to be transmitted.

When the filtering condition is input through the operator terminal 307 as described above, it is transmitted to the CPU 303. When the filtering condition is input in step 401, the CPU 303 controls the filtering operation of the frame data filter 302 by providing the input filtering condition to the frame data filter 302.

When receiving the frame data applied through the data bus 301, the frame data filter 302 extracts and outputs only the corresponding IPC frame data by the filtering condition provided from the CPU 303, and outputs the data to the data bus 301. In the frame data transmission, the target address provided from the CPU 303 is inserted and transmitted. When the frame data is received, the IPC message output from the frame data filter 302 is transmitted to the buffer controller 304.

The buffer controller 304 controls the reception FIFO 305 to store the data transmitted from the frame data filter 302 in the reception FIFO 305. The process of storing the received IPC message in the receiving FIFO 305 is repeated until the receiving FIFO 305 is full. When the receiving controller FIFO 305 is full, the buffer controller 304 reads frame data in the stored order and transmits the frame data to the SIO channel of the CPU 303.

When the frame data (IPC message) is received from the buffer control unit 304 through the SIO channel, the CPU 303 proceeds to step 404 through step 403 and records the received frame data in a predetermined area of the note 306. Save it. As such, the IPC message stored in the memory 306 is a message tracked according to a condition that an operator wants to monitor. Tracking of these IPC messages is continued for all received frame data.

If output of IPC tracking data is requested through the operator terminal 307 in step 405, the CPU 303 proceeds to step 406 and the IPC message operator terminal 307 stored in a predetermined region of the memory 306. ) And finish monitoring. In this case, the output method may be performed by displaying through a monitor or printing through a printer.

As described above, the present invention, by adding a function to monitor the IPC message to the CIPCU in the switchboard having a CIPCU, it is possible to easily determine the cause of the abnormal condition in the field when an abnormal condition occurs on the IPC message In addition, since the operator can arbitrarily set a condition for the received frame data during monitoring, there is an advantage that an excessive load is not applied when the CPU tracks the received frame data.

Claims (4)

An apparatus for monitoring an interprocessor communication (IPC) message in an exchange that performs interprocessor communication provided through a central interprocessor communication unit (CIPCU), the interprocessor communication unit (100) is provided in the A data bus (301) for transmitting said interprocessor communication message between predetermined nodes; An operator terminal 307 for authorizing a command from an operator and outputting an interprocessor communication message that the operator wishes to monitor; A frame data filter 302 for filtering and outputting the inter-processor communication message transmitted in units of frames through the data bus 301 by a predetermined filtering condition; A receiving buffer 305 for storing data output from the frame data filter 302; The inter-processor communication message output from the frame data filter 302 is recorded in the receiving buffer 305, and the number of the inter-processor communication message is read out according to the storage state of the receiving buffer 305. A buffer controller 304 for controlling the credit buffer 305; A memory 306 for storing the interprocessor communication message read from the receiving buffer 305; The frame data filter 302 is controlled by the filtering condition applied through the operator terminal 307, and the inter-processor communication message read by the buffer controller 304 is stored in the memory 306. And a CPU 303 for controlling and outputting the interprocessor communication message stored in the memory 306 upon request for output of the tracked interprocessor communication message. For monitor devices. 2. The apparatus of claim 1, wherein said receiving buffer (305) comprises a first-in, first-out buffer. A method for monitoring an interprocessor communication (IPC) message in an exchange performing interprocessor communication provided through a central interprocessor communication unit (CIPCU) 100, the interprocessor communication message for monitoring by an operator If only a reception condition is input, receiving only an interprocessor communication message suitable for the reception condition; A first storing step of sequentially storing the inter-processor communication messages received in the receiving step in a predetermined receiving storage area; Reading the inter-processor communication messages stored in the reception storage area in the order of storage when the reception storage area is full; A second storing step of storing the inter-processor communication message read in the reading step in a predetermined storage area; And outputting the inter-processor communication message stored in the second storing step when the output request signal for the inter-processor communication message tracked from an operator is applied. About how to monitor. 4. The method as claimed in claim 3, wherein the reception of the interprocessor communication message in the receiving step is performed in units of frames.