KR100495511B1 - Data Backup Method between Dual Board - Google Patents

Abstract

The present invention relates to a method of transmitting and configuring backup data in packets during data backup between redundant boards, the method comprising: setting a backup mode by determining a packet configuration data unit for each backup data on an active side of the redundant board; And configuring the backup data in packets of a predetermined data unit according to the backup mode and transmitting the backup data to the standby side of the redundant board.

In addition, when the sleep mode is set in the backup mode, the method further comprises the step of transmitting the next packet after a predetermined time by operating the sleep mode at a predetermined cycle when transmitting the data packet of the predetermined unit.

According to the present invention, it is possible to reduce the time required for data backup by configuring the backup data in a packet of a predetermined data unit on the active side of the redundant board and transmitting the data to the standby side.

In addition, the sleep operation to stop the backup operation for a predetermined time during the backup of the data packet is added, thereby reducing the load of the transmission interval it is possible to operate the redundant board stably.

Description

Data Backup Method between Dual Boards

The present invention relates to a data backup method between redundancy boards in an exchange system. In particular, the backup data is configured as a packet on the active side of the redundancy board and transmitted to the standby side, thereby reducing the load of the corresponding data transmission interval and suitable for performing a normal redundancy operation. The redundant board-to-board data backup method.

In general, the inter-block procedure for accommodating V5.2 subscribers in the TDX100 exchange controls the upper main processor (MP) 11, the telephony processor 12, and the plurality of devices 15 shown in FIG. 1. It consists of an interface between the lowered dual DC (Device Controller) (13, 14).

The MP 11 performs a start-up related function, which is an initial procedure for enabling call processing between the exchange 10 and the access network 20, and the TP 12 performs the MP 11. Work in conjunction with startup.

In addition, the TP 12 transmits the signal of the MP 11 to the active side 13 of the DC, and performs a call processing related control function when the startup procedure is completed.

The DCs 13 and 14 are redundant to the active side 13 and the standby side 14 to communicate with each other via the X-bus. In addition, the active side 13 of the DC controls the plurality of devices 15 connected to the AN 20 by interworking with the TP 12 connected by the HIT-bus to control the call processing function of the V5.2 subscriber 30. In the initial operation, initial information is received from the TP 12 and backed up to the standby side 14 for redundancy.

When the exchanger 10 initially re-drives the DCs 13 and 14, such as performing MP 11 loading or TP 12 loading in relation to V5.2, the active side 13 of the DC is connected to the MP 11 And the initial information data through the TP 12 and backs up to the standby side (14).

The backup data is an alarm, a bearer, a data link connection, a bearer channel connection, a link, port data, and the like, which are connected between the active side 13 and the standby side 14 of the DC. It is transmitted via X-bus.

In addition, one backup data is transmitted in one signal. For example, in the case of port data having a number of 4096 ports per unit and a large number of backup data, the corresponding port data is transmitted through a total of 4096 signal transmissions, one in one transmission signal. send.

2, the active side 13 of the DP receiving initial information from the TP 12 is ready to transmit backup data to the standby side 14 after completion of the initial procedure. Notify (S21).

When there is a backup data transfer request from the standby side 14, the corresponding backup data are transmitted one by one (S22 and S23).

As described above, according to the conventional redundant board-to-board data backup method, since the active side of the DC transmits one data to one signal, the port data transmits a signal 4096 times corresponding to the number of corresponding ports.

This is because, despite the bandwidth of the X-bus, which can transmit 500 bytes of data at a time, even though multiple port data can be transmitted at once (e.g., if one valid port data is 20 bytes, 10 or more port data can be transmitted). By sending 4096 signals while transmitting one port of data at a time, not only does it take a long time to back up the data, but it also overloads the X-bus and eventually blocks the X-bus. As a result, there was a problem that the device controller cannot perform the duplication operation.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and an object thereof is to configure and transmit data backed up from the active side to the standby side of a redundant board in packets of a predetermined data unit according to the size of the corresponding data. .

The redundant board-to-board data backup method of the present invention for achieving the above object comprises the steps of setting the backup mode by determining the packet configuration data unit for each backup data on the active side of the redundant board; And configuring the backup data in packets of a predetermined data unit according to the backup mode and transmitting the backup data to the standby side of the redundant board.

Preferably, the step of transmitting the packet to the standby side of the redundant board includes: checking a backup mode of the packet to be transmitted; Constructing a packet in a predetermined data unit according to the backup mode and transmitting the packet to a standby side along with a transmission counter driving; Checking whether the transmission counter has expired, increasing the count value if it has not expired, transmitting the next packet, and if it has expired, checking whether data backup is completed; And if the data backup is not completed, checking the backup mode of the next backup data to be transmitted after initializing the transmission counter.

Furthermore, according to another embodiment of the present invention, in the redundant board-to-board data backup method, when the sleep mode is set in the backup mode, the sleep mode is operated at a predetermined cycle during the transmission of the data packet of the predetermined unit to wait for a predetermined time. Characterized in that it further comprises the step of transmitting.

Preferably, the operation of transmitting the packet by operating the sleep mode comprises: checking a backup mode of a packet to be transmitted; Constructing a packet in a predetermined data unit according to the backup mode, and then transmitting the packet to a standby side along with a transmission counter driving; Checking whether the transmission counter has expired and determining whether to set a sleep mode if it has not expired; Determining whether a sleep mode operation cycle occurs when the sleep mode is set; In the case of the sleep mode operation period, after the sleep time, the count value of the transmission counter is increased and the next packet is transmitted.

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

As an embodiment of the present invention, since the configuration of the switch to which the redundant board-to-board backup method is applied is the same as in the related art, the same reference numerals will be used, and a description thereof will be omitted.

However, the active side 13 of the DC which receives the initial information from the TP 12 and backs up to the standby side 14 at the time of initial driving sets the backup mode for each type of backup data according to the present invention, and according to the set mode. The backup data is configured into a packet and transmitted to the standby side 14.

The backup mode is a data unit constituting a packet for each type of backup data and a sleep mode operation cycle. For example, in the case of 4096 port data, the number of port data constituting one packet may be set to 16, and the sleep mode operation period may be set to 2 packet periods. Then, the port data consists of a total of 256 packets consisting of 16 packets of data, and after two packets have been transmitted, the sleep mode is activated to transmit the next packet after waiting a certain time (for example, 8 msec). do.

The sleep mode is a scheme for preventing overload of the X-bus and may be set when the number of corresponding data is large according to the type of backup data.

3 is a control flowchart for initial driving of the DCs 13 and 14.

Referring to FIG. 3, first, the MP 11 notifies the TP 12 that it is driving (S301). In response to this, the TP 12 performs initialization and notifies the MP 11 that it is driving (S302, S303).

Then, the MP 11 requests initialization to the active side 13 of the DC through the TP 12 (S304 and S305), and the active side 13 of the DC receiving the initialization request internally performs initialization. After that (S306), a DC initial drive notification is provided to inform the MP11 that the MP11 is being driven through the TP 12 (S307 and S308).

Upon receiving the DC initial drive notification, the MP 11 transmits initial information such as alarm information, variant information, link information, and port information necessary for V5.2 call processing through the TP 12 to the active side 13 of the DC. (S309, S310).

Accordingly, the active side 13 of the DC stores the received initial information in a local DB (DataBase) (S311), and when the initial information transmission completion notification is received from the TP 12, the standby side 14 of the DC for redundancy 14 The backup preparation completion notification is sent (S313), and the TP 12 is notified that the initial information reception is completed (S314).

After that, when the standby side 14 of the DC is ready to receive, the active side 13 transmits the backup data, which is the initial information received from the TP 12, to the standby side 14 to back it up (S315, S316). ).

On the other hand, the TP 12 that has received the initial information reception completion notification from the active side 13 of the DC notifies the MP 11 of the startup preparation completion (S317), and the startup execution command is sent from the MP 11. If received, it performs a startup function (S318, S319).

4 is a flowchart of a redundant board-to-board data backup control according to the present invention.

Referring to FIG. 4, the active side 13 of the redundant DC whose operation mode is determined at the OS level may consider the bandwidth of the X-bus for each type of data to be received from the TP 12 and backed up to the standby side 14. The backup mode is set (S401).

For example, in the case of port data, the packet configuration data number is set to 16 and the sleep mode operation period is set to 2 packet periods.

Then, the standby side 14 is notified that the backup data transfer preparation is completed (S402). When the backup data transfer request is received from the standby side 14 (S403), the backup mode of the data to be transmitted is checked and the corresponding backup mode is entered. Accordingly, a packet of a predetermined data unit is configured (S404 and S405). For example, in the case of 4096 port data, 256 packets are composed of 16 port data units.

Then, the packet transmission counter is driven and the configured packet is transmitted to the standby side 14 side (S406, S407).

During the packet transmission, the active side 13 of the DC checks whether the transmission counter has expired, that is, whether the corresponding backup data transmission is completed after one packet transmission (S408).

As a result of the check, if the corresponding backup data transfer is not completed, it is checked whether the sleep mode of the corresponding data is set (S409). When the sleep mode is not set, the next packet is transmitted after increasing the count value of the transmission counter by '1' (S410 and S407).

However, when the sleep mode is set, it is determined whether the sleep mode operation cycle is performed through the count value of the transmission counter (S411). For example, when the sleep mode operation period is set to two packet periods, the sleep mode operates when the count value of the transmission counter is a multiple of two.

As a result of the checking, if the sleep mode operation cycle is not performed, the next packet is transmitted after increasing the transmission count value by '1' (S410 and S407). However, in the sleep mode operation cycle, the processor sleeps for a predetermined time (for example, 8 msec) and waits for the sleep time (S412), increases the transmission count value by '1', and then transmits the next packet (S410, S407).

Thereafter, when the transfer counter expires, that is, when the corresponding backup data packet transmission is completed, it is checked whether all backups are completed (S413), and when the data backup is not completed, the transfer counter is initialized and the above-described process is repeated. (S414, S404).

In addition, the embodiment according to the present invention is not limited to the above description, and various alternatives, modifications, and changes can be made within the scope apparent to those skilled in the art.

As described above, the present invention has the effect of reducing the time required for the data backup by configuring the backup data in the active side of the duplex board in a packet of a predetermined data unit and transmitting it to the standby side.

In addition, the sleep operation to stop the backup operation for a predetermined time during the backup of the data packet is added, thereby reducing the load of the transmission interval it is possible to operate the redundant board stably.

1 is a configuration block diagram of an exchange system.

2 is a control flowchart for data backup between the conventional redundant board.

3 is a control flowchart for redundancy board re-drive according to the present invention.

4 is a control flowchart for data backup according to the present invention;

Explanation of symbols on main parts of the drawing

10: exchange 11: MP

12: TP 13,14: DC

15: device 20: AN

30: subscriber

Claims (4)

In the redundant board-to-board data backup method, Setting a backup mode by determining a packet configuration data unit for each backup data on an active side of the duplication board; And configuring the backup data in a packet of a predetermined data unit according to the backup mode, and transmitting the backup data to a standby side of the redundant board. The method of claim 1, The transmitting of the packet to the standby side of the duplex board may include: checking a backup mode of a packet to be transmitted; Constructing a packet in a predetermined data unit according to the backup mode and transmitting the packet to a standby side along with a transmission counter driving; Checking whether the transmission counter has expired, increasing the count value if it has not expired, transmitting the next packet, and if it has expired, checking whether data backup is completed; And if the data backup is not completed, initializing the transfer counter and checking a backup mode of the next backup data to be transmitted. The method of claim 1, When the sleep mode is set to the backup mode, the redundant board-to-board data further comprises the step of operating the sleep mode at a predetermined period during the transmission of the data packet of the predetermined unit to transmit the packet after waiting a predetermined time. Backup method. The method of claim 3, wherein The operation of transmitting the packet by operating the sleep mode may include: checking a backup mode of a packet to be transmitted; Constructing a packet in a predetermined data unit according to the backup mode, and then transmitting the packet to a standby side along with a transmission counter driving; Checking whether the transmission counter has expired and determining whether to set a sleep mode if it has not expired; Determining whether a sleep mode operation cycle occurs when the sleep mode is set; And in case of the sleep mode operation period, increasing the count value of the transmission counter after waiting for the sleep time and transmitting the next packet.