KR100829289B1 - System and Method for Loading in the Switching System - Google Patents

Abstract

The present invention relates to a loading system and a method in an exchange system that distinguishes between restart of an exchange and restart of processes of a corresponding processor to perform loading and restore the loading state through previously stored data.

The present invention improves the conventional loading method by classifying the restart of the exchange and the restart of the processes of the processor to prevent the loading in the case of process restart, thereby improving the efficiency of loading and loading through previously stored data. Restoring the state can ensure the reliability of the exchange operation. In addition, the present invention is to determine whether to restart the exchange using a database that is maintained only during the operation of the exchange, thereby recovering the previous state and to perform the loading procedure according to the distinction between MP restart and process restart, the efficiency of the exchange loading performance Can improve the reliability of the exchange operation.

Description

System and Method for Loading in the Switching System             

1 is a block diagram showing a configuration for loading in a conventional exchange system.

2 is a flowchart illustrating a loading method in a conventional exchange system.

3 is a block diagram showing a configuration for loading in the exchange system according to an embodiment of the present invention.

4 is a flowchart illustrating a loading method in an exchange system according to an exemplary embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

40: Hard Disk Drive (HDD) 50: System Management Processor (SMP)

51: SLH (System Loading Handler)

52: PLD (Processor Loading Data)

53: Stateful Database                 

60-1 to 60-3: MP (Main Processor)

61: processor loading handler (PLH)

The present invention relates to a loading system and a method in an exchange system, and in particular, the loading is performed by distinguishing the restart of the main processor (MP) from the restart of the processes of the main processor (MP) and restoring the loading state through previously stored data. To a loading system and method in an exchange system.

In general, the configuration for loading in the exchange system is, as shown in Figure 1, the HDD 10 for storing the file loaded in the exchange, the SMP 20 in charge of the operation and management of the exchange, Comprising a plurality of MP (30-1 ~ 30-3) means a general processor.

Here, the HDD 10 and the SMP 20 are connected to each other by a small computer system interface (SCSI), and the SMP 20 and the plurality of MPs 30-1 to 30-3 are inter-processors. Communication).

The SMP 20 includes a SLH 21 which is a system loading program, and a PLD 22 which means data loaded into a processor. Each of the MPs 30-1 to 30-3 is a processor. PLH 31, which is a loading program, is included.

The loading method in the conventional exchanger system configured as described above will be described with reference to the flowchart of FIG. 2.

First, when initially started by the power (Power), each MP (30-1 ~ 30-3) is to drive the internal PLH (31), which is a processor loading program (step T1) to perform the loading, The PLD 22 in the SMP 20, which is data used by the processor, is loaded (step T2).

Then, it loads and executes SBEGM (Start Base Engine Manager) (not shown in the drawing for convenience of description), which is a program that performs the interface of the PLD 22 (step T3).

Therefore, the SBEGM generates a block list to be loaded in the started processor (step T4), and then provides an IPC channel to firmware for communication with other MPs 30-1 to 30-3. It is set (step T5), and the block existing in the generated loading block list is loaded from the HDD 10 and executed (step T6).

However, since the system is initially started when the IPC channel is set, the IPC channel does not exist, and therefore, the following operation should be set.

That is, even when only the process is restarted after the system is restarted, the PLH 31 cannot determine whether the corresponding Main Processor (MP) is restarted or only the process is restarted. After loading, you should perform loading that is equivalent to power on.

Therefore, as described above, the MP30-1 to 30-3 initially performs a loading procedure, and in this process, the PLH 31 is loaded because the PLH 31 is restarted. Both information and state data will be lost, as well as re-loading from the beginning to overwrite the existing block in memory, causing an error for the loading process. As a result, blocks already loaded into memory will transition to abnormal status. As a result, even when reloading, all existing data is lost, and only error information is recorded.

As such, in a conventional exchange system, the loading method does not distinguish between restarting the system and restarting only the processes, so that in all cases reloading is performed. Although the memory is in the memory, the loading process is performed again, thereby causing an inconsistency with the existing data or an error of the data.

In addition, in the conventional exchange system, the loading method performs a function of a processor only when the reloading operation is completed, thereby reducing the efficiency of the processor loading, and when restarting, all loading information of the processor is destroyed. There was a problem that inconsistency of operation information occurs.

In order to solve the above problems, the present invention distinguishes the restart of the main processor (MP) from the restart of the processes of the main processor (MP) to perform loading so that the loading is not performed in the case of process restart. The purpose of the present invention is to increase the efficiency of loading and to ensure the reliability of the exchange operation by restoring the loading state through previously stored data.

In addition, the present invention is to determine whether to restart the main processor (MP) using a database that is maintained only during the operation of the exchange to restore the previous state through this, and improve the efficiency of the exchange loading performance.

In addition, the present invention determines whether the MP restart or the process restart using the process characteristics of the exchange, and by performing the loading procedure according to each case by separating the MP restart and the process restart, thereby improving the efficiency of the exchange loading performance The purpose is to ensure the reliability of the exchange operation.

In the exchange system according to an embodiment of the present invention for achieving the above object, the loading system determines whether it is restart or process restart using the process characteristics of the exchange to perform different loading procedures according to the determination. A main processor (MP); At the discretion of the MP, a processor loading data (PLD) is read to reconstruct a block list to be loaded into the MP, a loading state previously stored is restored to restore a state of each loading block, and communication with another MP is performed. To this end, the firmware includes a system management processor (SMP) for reconfiguring the IPC (Inter-processor Communication) channel.

Preferably, the SMP is characterized in that it comprises a state storage database that is loaded only in the memory for storing the state information of each loading block. Here, the state storage database is characterized by storing the loading time, loading status and version information of each loading block.

On the other hand, in the exchange system according to an embodiment of the present invention for achieving the above object, the loading method is to drive the processor loading handler (PLH) in each MP (Main Processor) by the initial power-on interface with the PLD in the SMP A process of determining whether a restart of each MP or a process is restarted by checking a state of a SBEGM (Start Base Engine Manager), and when it is determined that there is an MP restarted only by the process, the process reads the PLD and restarts only the process. Reconstructing the list of blocks to be loaded in the loaded MP, reading the previously stored loading state, and restoring the state of each loading block; The process may include reloading the IPC channel into a change mode in the firmware to perform the loading for communication between the restarted MP and another MP.

Preferably, in the process of determining whether each MP restart or process restart, it is determined that the process is restarted for the interface with the PLD when the SBEGM is normally executed, the power when the SBEGM is stopped Characterized in that it is the case of restarting the MP by the on and off.

Alternatively, in the exchange system according to an embodiment of the present invention, if it is determined that there is a restarted MP in the process of determining whether a restart of each MP or a process restart, loading the PLD and loading the SBEGM Generating a block list to be loaded into the restarted MP; Performing loading by setting an IPC channel in firmware for communication between the restarted MP and another MP; And storing the state of the loaded blocks in a state storage database in the SMP. Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 3, the configuration for loading in the exchange system according to an embodiment of the present invention includes an HDD 40 storing a file loaded in the exchange, an SMP 50 in charge of operation and management of the exchange, It includes a plurality of MP (60-1 ~ 60-3), which means the general processors of the exchange.

Here, the HDD 40 and the SMP 50 are connected to each other by SCSI, and the SMP 50 and the plurality of MPs 60-1 to 60-3 are connected by IPC.

The SMP 50 includes a SLH 51 which is a system loading program, a PLD 52 which means data loaded in a processor, and a separate state storage database 53 which is loaded only in a memory storing the loading state. Each MP 60-1 to 60-3 includes a PLH 61 which is a processor loading program.

The SMP 50 reads the PLD 52 storing the loading block list according to the PLH 61 to reconstruct the block list to be loaded into the MPs 60-1 to 60-3, The loading state stored in the state storage database 53 is read to restore the state of each loading block, and the IPC channel is reconfigured in firmware for communication with other MPs 60-1 to 60-3.

The PLH 61 determines whether the MP restart or the process restart by using the process characteristics of the exchange, and thus the MP restart and process restart is distinguished so that the loading procedure according to each case is performed differently.

The loading method in the exchange system according to the embodiment of the present invention will be described with reference to the flowchart of FIG. 4.

First, when initially started by power, each MP 60-1 to 60-3 drives the internal PLH 61, which is a system loading program (step S1), so that the loading that it should perform is powered on. It is determined by on / off or process restart.

That is, the PLH 61 checks whether the SBEGM (not shown in the drawing for convenience of description) that is a program that interfaces with the PLD 52 in the SMP 50, which is the data used by the processor, is running normally, that is, is alive. In this case, the SBEGM is normally executed when the process is restarted for the interface with the PLD 52, and the execution is stopped when the power is on or off.

Accordingly, the PLH 61 determines whether to restart the corresponding MP 60-1 to 60-3 by checking whether the SBEGM is normally executed (step S3).

If the MPs 60-1 to 60-3 are restarted in the third step S3, the PLH 61 loads the PLD 52 to generate a loading block list (step S4). Then, the SBEGM is loaded and executed (step S5).

Therefore, when the loading of the SBEGM is normally completed, the SBEGM generates a block list to be loaded in the started processor (step S6), and then sends the firmware to the firmware for communication with other MPs 60-1 to 60-3. The IPC channel is set (step S7).

The SBEGM loads and executes the blocks existing in the generated loading block list from the HDD 40 again (step S8), and then stores the states of the executed loading blocks in the state storage database 53. (Step S9). At this time, the loaded state, the loaded time, the version of the loaded file is recorded in the state information.

On the other hand, if only the process is restarted and not the restart of the MP (60-1 ~ 60-3) in the third step (S3), the SBEGM stores a loading block list to reconfigure the state of the loading block Read the PLD 52 (step S10), through which the block list to be loaded to the corresponding MPs 60-1 to 60-3 is reconstructed (step S11) and stored in the state storage database 53 The loaded loading state is read (step S12), and the state of each loading block is restored using the read loading state, that is, loading time, loading state, version, and the like (step S13).

Accordingly, the SBEGM reconfigures the IPC channel in the firmware for communication with other MPs 60-1 to 60-3 (step S14). In the case of a process restart, the IPC channel stored in the firmware does not change. Reconfigure the IPC channel to change mode instead of add at creation.

As described above, by improving the conventional loading method according to the present invention, by performing the loading by distinguishing the restart of the exchanger and the restart of the processes of the processor to prevent the loading in the case of process restart to increase the loading efficiency, By restoring the loading state through the stored data, it is possible to ensure the reliability of the exchange operation. In addition, the present invention determines whether the exchange is restarted using a database maintained only during the operation of the exchange, thereby recovering the previous state, and performing a loading procedure according to the classification of the MP restart and the process restart, thereby changing the exchange loading performance. It can improve the efficiency of the system and ensure the reliability of the exchange operation.

Claims (6)

A main processor (MP) for determining whether a restart or a process restart is performed by using a process characteristic of the exchange and performing a different loading procedure according to the determination; At the discretion of the MP, a processor loading data (PLD) is read to reconstruct a block list to be loaded into the MP, a loading state previously stored is restored to restore a state of each loading block, and communication with another MP is performed. And a system management processor (SMP) for reconfiguring the IPC (Inter-processor Communication) channel in the firmware. The method of claim 1, And the SMP comprises a state storage database loaded only in a memory storing state information of each loading block. The method of claim 2, The state storage database stores the loading time, loading state and version information of each loading block. By initial power-on, the processor loading handler (PLH) in each MP (main processor) is driven to check the status of the Start Base Engine Manager (SBEGM) that interfaces with the PLD in the SMP. Judgment Process, If it is determined that only the process has restarted MP, a process of reading the PLD to reconstruct the block list to be loaded into the restarted MP and reading the previously stored loading state to restore the state of each loading block. and; And reloading the IPC channel in the change mode in the firmware to perform the loading for the communication between the restarted MP and the other MP. The method of claim 4, wherein In the process of determining whether each MP is restarted or the process is restarted, it is determined that the process is restarted for the interface with the PLD when the SBEGM is normally executed, and when the SBEGM is stopped, the power is turned on and off. Loading method in the exchange system, characterized in that it is determined that the case of MP restart. The method of claim 4, wherein If it is determined that there is a restarted MP in the process of determining whether each MP is restarted or a process restart, the PLD is loaded and the SBEGM is loaded and executed to generate a block list that should be loaded in the restarted MP. Process; Performing loading by setting an IPC channel in firmware for communication between the restarted MP and another MP; And storing the state of the loaded blocks in a state storage database in the SMP.

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