KR100463850B1 - Method for loading Using Distributed System Startup Loader in Private Branch Exchange - Google Patents

Abstract

The present invention relates to a loading processing method using a distributed system start loader in an exchange, comprising the steps of: (a) transmitting a load request message to a system start loader embedded in a system management processor by a booter of the equipment in the exchange; (B) determining, by the system start loader receiving the loading request message of step (a), whether the equipment that has sent the message is a device processor or a data control device; (C) determining whether the SSP to which the device processor or the data control device belongs is currently being operated or started up if the device which has sent the message in the step (b) is a device processor or a data control device; In step (c), if the SSP is in operation or starting up, it sends a loading request message to the distributed system start loader in the SSP, and the distributed system start loader receives the response message for the loading request of step (a) from Transmitting (d); (E) when the distributed system start loader receives a message requesting program block header information from the request, transmitting the requested program block header information from the request; And when the distributed system start loader receives a message requesting a program block from the request, transmitting the requested program block from the request and transmitting a loading end message for one block. It is characterized by.

According to the method according to the present invention, the distributed system start loader can handle the loading of the device processor and the data control unit, thereby preventing the overload of the system management processor and preventing the loss of the IPC, thereby improving the overall exchange loading speed and This has the advantage of ensuring stable execution of application blocks.

Description

Method for loading using Distributed System Startup Loader in Private Branch Exchange}

The present invention relates to a loading processing method using a distributed system start loader in an exchange. More particularly, the present invention relates to a system management processor for loading a distributed system start loader in a switching sub system (hereinafter referred to as an "SSP"). The present invention relates to a loading processing method which improves the loading of all equipment.

1 shows a system configuration for loading in a conventional exchange.

As shown in FIG. 1, a system configuration for loading in a conventional exchange includes one system management processor 11, a hard disk drive 17, a plurality of port management assemblies 12, and a plurality of main processors 13. ), A plurality of switching subsystem processors 14 (SSPs), a plurality of device processors 15, and a plurality of data control devices 16.

Only the system management processor 11 is connected to the hard disk drive 17 that stores blocks necessary for loading. Other devices may be connected to the hard disk drive 17 through Inter Processor Communication (“IPC”). In FIG. 1, the solid line represents a path requiring loading. As shown in FIG. 1, conventionally, all of the equipment for loading requires a block necessary for loading through a system management processor. In the system management processor, a system start loader, which is a loading server, is embedded to transmit necessary blocks to the requested equipment. Looking at the process of loading in detail as follows.

First, a booter of the SSP 14 or the main processors 13 requests a block for starting the processor to the system start loader of the system management processor. Receiving this, the system startup loader determines which device is the request and transmits the appropriate blocks. At this time, the main processor 13 or the SSP 14 receives a program loader, a program loading data, an operating system (OS), and a shell, which are blocks suitable for the processor. When the main processor and the SSP are started by the above method, the device processors 15, the port management assemblies 12, and the data control devices 16 make a request to the system start loader to load the required firmware and OS. Get the application block.

FIG. 3 is a flowchart illustrating a loading procedure of a conventional exchange system from a system start loader, and the loading process will be described in detail with reference to FIG. 3.

From within the equipment transmits a loading start notification message to the system start loader in the system management processor (S300). The system start loader receiving the loading start notification message (S301) transmits a response message for the loading start notification from the transmission of the message (S302). After receiving the response message for the loading start notification (S303), a message for requesting header information of the program block required for loading is transmitted to the system start loader (S304). Upon receiving this, the system start loader transmits header information of the program block from (S305). After receiving the header information, the program block corresponding to the actual program content is requested to the system start loader (S307), and the system start loader receives it (S308). The system start loader transmits a program block from (S309), and after the loading of one block is finished, transmits a loading end message from. If there are still more blocks to be received, the flow returns to step S304 of sending a message requesting header information of the program block, and if there are no more blocks to receive, the loading ends.

The above-described conventional exchange equipment loading method may pose the following problems. If the entire equipment of the exchange requests loading at the same time, the load on the system management processor is increased, which can result in loss of IPC and delay in instruction processing. As a result, there may be a delay in loading a specific device or a case in which the loading is interrupted at all, so that a block executed in the system management processor may not operate properly due to the load of the loading.

In the present invention, in order to solve the problems of the prior art as described above, there is provided a loading processing method using a distributed system start loader in the exchange that can reduce the load when loading in the system management processor by mounting a distributed system start loader in the SSP I would like to suggest.

1 shows a system configuration for loading in a conventional exchange,

Figure 2 shows the configuration of a loading system using a distributed system start loader according to a preferred embodiment of the present invention,

3 is a flowchart showing a loading procedure from a system start loader to a conventional exchange system.

Figure 4 shows a flow chart for the operation from the system start loader according to a preferred embodiment of the present invention,

5 is a flowchart illustrating the operation of a distributed system start loader and a system start loader according to a preferred embodiment of the present invention.

A feature of the present invention for achieving the object as described above, in the loading processing method using a distributed system start loader at the exchange, the boot request of the equipment in the exchange to the system start loader embedded in the system management processor Sending a message (a); (B) determining, by the system start loader receiving the loading request message of step (a), whether the equipment that has sent the message is a device processor or a data control device; (C) determining whether the SSP to which the device processor or the data control device belongs is currently being operated or started up if the device which has sent the message in the step (b) is a device processor or a data control device; In step (c), if the SSP is in operation or starting up, it sends a loading request message to the distributed system start loader in the SSP, and the distributed system start loader receives the response message for the loading request of step (a) from Transmitting (d); (E) when the distributed system start loader receives a message requesting program block header information from the request, transmitting the requested program block header information from the request; And (f) if the distributed system start loader receives a message requesting a program block from the request, transmitting the requested program block from the request and transmitting a loading end message for one block. have.

In another aspect, the present invention, after determining whether the SSP is operating or starting in step (c), the system start loader determines whether or not the block to be loaded into the device processor or data control device requesting the loading is updated; And setting the determined information as a reload field to include in the loading request message delivered to the distributed system start loader in step (d).

On the other hand, when the block to be loaded into the device processor or data control device is updated, the distributed system start loader transmits the updated block to the system start loader before transmitting the response message to the loading request of step (d). And the system start loader further comprises transmitting the requested updated block to the distributed system start loader.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the loading processing method using a distributed system start loader in the exchange according to the present invention.

2 illustrates a configuration of a loading system using a distributed system start loader according to a preferred embodiment of the present invention.

According to a preferred embodiment of the present invention, the distributed system start loader 24 is mounted in the SSP 23 so that FIG. 2 shows the device processor 25 and the data control device 26 dependent on the switching subsystem processor 23 (SSP). And a system management processor 21 coupled to the SSP 23, the rest of the equipment being loaded in the same manner as before.

The solid line in FIG. 2 shows the path through which the respective equipments in the exchange are loaded. As shown in FIG. 2, the SSP 23 is loaded through the system management processor 21 and the IPC as in the prior art, but the device processor 25 and the data controller 26 dependent on the SSP are initially loaded. The loading request is made to the system management processor, but subsequent loading procedures are made through the distributed system start loader in the SSP 23. However, the data control device may request loading even when the SSP is not started. Therefore, if the SSP is not started, the controller directly requests loading from the system management processor or waits for a while if the SSP is starting, and then loads the SSP. In FIG. 2, only one device processor and a data controller belonging to the SSP are shown, but when there are multiple pieces of equipment, all of the multiple device processors or data controllers perform loading through the distributed system start loader. A detailed loading procedure thereof will be described later.

In FIG. 2, the dotted lines are updated from the hard disk drive 27 to the memory 28 in the SSP for synchronization between the blocks present in the hard disk drive 27 and the blocks present in the memory 28 in the SSP 23. It shows a path for transmitting a block. A detailed method for the synchronization will be described later.

Figure 4 shows a flow chart of the operation from the system start loader according to a preferred embodiment of the present invention.

As in the prior art, the loading notification message is transmitted from the equipment to the system start loader (S400), and the system start loader in the system management processor receives it (S401). The system start loader sends a loading notification message to determine whether the loading should be performed by the distributed system starting loader or whether the loading should be performed by the distributed system starting loader. It is determined whether the equipment is a device processor or a data control device (S402).

If the device that sent the loading notification message is not a device processor or a data control device (for example, the main processor or the SSP), the system start loader transmits a response message to the loading notification from as in the prior art (S408). This is received (S409). From the request for the header information of the program block required for direct loading to the system start loader (S410), the system start loader transmits the header information of the block requested from the (S411). In operation S413, a program block request message for requesting a code of a text or data area, which is a substantial program block, is transmitted to the system start loader based on the header information of the received block. The system start loader receives a program block request message (S414), and transmits the requested program block from (S415). After the block transmission is completed, the system start loader transmits a loading end message indicating that loading of one block is terminated from (S416), and determines whether there are more blocks to be loaded from (S417), and then loads. If more blocks remain, the process returns to step S410 for requesting the header information of the program block, and if there are no more blocks to load, the loading ends.

If the device that sent the loading notification message is a device processor or a data control device, the loading operation is performed by the distributed system start loader mounted in the SSP. To this end, the system start loader checks whether the device processor or the data control device which transmitted the loading notification message belongs to any of the SSPs among the SSPs existing in the exchange (S403). If it is confirmed that the device belongs to which SSP, it is checked whether the SSP is currently operating or starting (S404).

If the SSP is not currently running or being started, it cannot be loaded by the distributed system start loader. Therefore, loading is performed by the system start loader, and the system start loader sends a response message to the loading notification from the system. S408), and then the loading operation is performed in the same steps as the conventional loading process described above.

When the SSP is in operation or starting up, loading is performed by the distributed system start loader mounted in the SSP. As shown in FIG. 2, the SSP equipped with the distributed system start loader is not connected to a hard disk drive as in a system management process, and there is a separate memory in the SSP. The blocks necessary for loading the device processor and the data control device belonging to the SSP are received from the system start loader when the SSP performs loading through the system start loader and are stored in the memory. As shown in FIG. 2, a block required for device processor loading will be referred to as "DP_Block", and a block required for data control device loading will be referred to as "DH_Block". In general, "DP_Block" and "DH_Block" stored in the hard disk drive are the same as the contents of "DP_Block" and "DH_Block" stored in the memory of the SSP. However, in some cases, updates can only be made to the "DP_Block" and "DH_Block" of the hard disk drive. In this case, when loading is done by the distributed system startup loader, the device processor will "DP_Block" the memory in the SSP that is not updated And "DH_Block" gets loaded. Therefore, it is necessary to synchronize the "DP_Block" and "DH_Block" stored in the hard disk drive with "DP_Block" and "DH_Block" stored in the memory.

This synchronization process must be done before the distributed system start loader transfers the necessary blocks to the device processor or data control device. Therefore, when it is confirmed that the SSP to which the device processor or the data control device belongs is being operated or started up, it is determined whether "DP_Block" and "DH_Block" stored in the hard disk drive are updated (S405). According to a preferred embodiment of the present invention, whether to update is determined by a method of confirming block size and checksum information. Each time the system startup loader starts up, it checks the size and checksum information of the blocks to be loaded into the device processor and the data control device from the hard disk drive and stores them in memory in the system management processor. Later, when the system start loader transmits a loading notification message from the device processor or the data control device, it is determined whether the block is updated by comparing the size and checksum information of the block stored in the memory with the block currently stored in the hard disk drive. . If the hard disk driver's information is later updated, the block size and checksum information will be different.

If the block of the hard disk driver is not updated, the system start loader transmits a loading notification message including information indicating that the block is not updated to the distributed system start loader in the SSP (S407). The loading notification message delivered from the system start loader to the distributed system start loader includes a reload field to indicate whether a corresponding block has been updated. If the block of the hard disk driver is updated, the reload field is set to "true" (S406), and a loading notification message including the same is transmitted to the distributed system start loader of the SSP (S407).

5 is a flowchart illustrating operations of a distributed system start loader and a system start loader according to a preferred embodiment of the present invention.

As described above, when the equipment requesting the loading is a device processor and a data control device, the distributed system start loader receives a loading notification message including reload information from the system start loader (S500). After receiving the loading notification message, the distributed system start loader checks whether the reload field is set to "True" (S501). If the reload field is set to "true", the distributed system startup loader is not synchronized because the contents of "DP_Block" and "DH_Block" stored in the SSP memory and the blocks of "DP_Block" and "DH_Block" stored in the hard disk drive are not synchronized. The transmission of the updated block is requested to the system start loader (S502). The system start loader receives this (S503), transmits the block requested by the distributed system start loader (S504), and the distributed system start loader receives it and stores it in memory (S505).

After the reload field is not set to "True" or after receiving the updated block from the system startup loader and storing it in memory, the distributed system startup loader sends a loading notification message to the device processor or data control device that sent the loading notification message. The response message is transmitted (S506). Thereafter, the same process as the conventional system start loader is performed. When a request for program header information is received from the device, the distributed system start loader transmits program block header information (S507). After the header information transmission, the program block request message requesting the actual program block data is received from the equipment (S508), and the requested program block is transmitted (S509). After the loading of one block is completed, a loading end message is transmitted (S510).

As described above, according to the loading processing method using the distributed system start loader in the exchange according to the present invention, the distributed system start loader allocates and handles the loading of the device processor and the data control device, thereby overloading the system management processor. This prevents the loss of IPC and prevents the loss of the IPC, thereby increasing the overall exchange load speed and ensuring stable execution of application blocks. In addition, the development speed can be improved when the developer develops the test system, and the maintenance and repair service can be improved due to the shortening of the time required to restart the system.

Claims (4)

In the loading processing method using a distributed system start loader in the exchanger, (A) sending, by a booter of the equipment in the exchange, a loading request message to the system start loader embedded in the system management processor; (B) determining, by the system start loader receiving the loading request message of step (a), whether the equipment that has sent the message is a device processor or a data control device; (C) determining whether the SSP to which the device processor or the data control device belongs is currently being operated or started up if the device which has sent the message in the step (b) is a device processor or a data control device; In step (c), if the SSP is in operation or starting up, it sends a loading request message to the distributed system start loader in the SSP, and the distributed system start loader receives the response message for the loading request of step (a) from Transmitting (d); (E) when the distributed system start loader receives a message requesting program block header information from the request, transmitting the requested program block header information from the request; And If the distributed system start loader receives a message requesting a program block from the request, transmitting the requested program block from the request and transmitting a loading end message for one block. A loading processing method using a distributed system start loader in an exchanger. The method of claim 1, After determining whether the SSP is operating or starting in step (c), Determining, by the system start loader, whether a block to be loaded to a device processor or a data controller that has requested loading has been updated; And And setting the determined information as a reload field and including it in a loading request message delivered to the distributed system start loader in step (d). How to handle loading. The method according to claim 1 or 2, If the block to be loaded into the device processor or data control device has been updated, the distributed system start loader requests the transmission of the updated block to the system start loader before sending the response message to the loading request of step (d). And the system start loader sending the requested updated block to the distributed system start loader. The method of claim 2, And determining whether or not the block to be loaded is updated by comparing the block size with checksum information.