KR20020041005A - Remote software upgrade method and system in optical network - Google Patents

Abstract

PURPOSE: A software upgrade method and system at remote place are provided to upgrade a software at a low cost and manpower without influence on the motion of a system by using a DCC(Data Communication Channel). CONSTITUTION: The system comprises a memory unit, a protocol processor, a remote software processor, a software change processor, and an upgrade problem processor. The memory unit consists of a first memory(41) to decide and check the initial boot-up function and remote software upgrading state and to offer abnormal state correcting function, a second memory(42) to record the data for tracking the remote software upgrade running process, a third memory(43) to process system operation function and software upgrading function, and a fourth memory(44) to record the data of a new software and a present software. The protocol processor generates a remote software upgrade request. The software processor manages the validity of the remote software upgrade request and standby time and controls the change of software data. The software change processor replaces the third memory with the new software data of the fourth memory. The problem processor corrects the abnormal state of the system.

Description

REMOTE SOFTWARE UPGRADE METHOD AND SYSTEM IN OPTICAL NETWORK

The present invention relates to a technology for upgrading the software of a system installed in a remote site by the operator of the system, and in particular, it is possible to upgrade the software of the system with a low cost and a small number of people without affecting the operation of the system. The present invention relates to a remote software upgrade system and method that is suitable to be able.

Generally, the memory of the remote software upgrade system includes a nonvolatile memory 1 for providing an initial boot up function and an erase / write function of the nonvolatile memory as shown in FIG. 1. And a nonvolatile memory 2 for providing system operation functions and remote software upgrade processing functions, and a volatile memory 3 for use by software stored in the nonvolatile memory 2. Here, the volatile memory 3 is provided with a new software data recording area 3b for temporarily storing new software data. In general, the nonvolatile memory 1 and the memory 2 are electrically erasable programmable read only memory (EPEROM), which is an electrically erasable / writeable memory. Access Memory) is used.

As shown in FIG. 2, the remote software upgrade system having the memory shown in FIG. 1 receives new software data through an operator communication channel, stores the new software data in a volatile memory, determines whether the stored data is normal, and upgrades the remote software. A protocol processing process 21 for generating a function start request and a remote software upgrade function start request generated in the protocol processing process 21 are received and received in the volatile memory 3, and the stored data is examined and inspected data. A remote software upgrade process 22 which generates a signal for requesting writing to the nonvolatile memory 1, erases the software data stored in the nonvolatile memory 1, and removes new software data from the volatile memory 3 Machine to record to the memory (1) It consists of a software change process 23 to process.

Referring to the operation of the general remote software upgrade system as follows.

While the system is operating normally, the network management operator requests the upgrade of new software through the operator communication channel. The system receives a signal requesting upgrade of new software and starts receiving new software data by the request signal. At this time, the protocol processing process 21 stores the data of the new software received from the operator communication channel in a specific location of the memory 3, while not affecting other functions of the system. Then, when the reception of the data is completed, the protocol processing process 21 performs the address of the memory in which the new software data is written, the size of the data, the checksum of the data, and the actual software upgrade. Is performed to transmit additional data including the waiting time until the time of changing the contents of the memory 2, etc., to the remote software upgrade process 22 to generate a signal requesting a software upgrade.

The remote software upgrade process 22 checks the address of the received data, the size of the data, the checksum of the data, etc. together with the upgrade request signal, waits for the waiting time if these values are determined to be valid, and the values are invalid. If not, cancel the software upgrade request. The remote software upgrade process 22 passes the received data to the software in the memory 3 when the execution wait time expires so that the contents of the memory 3 are updated.

The software change process 23 immediately reads the software execution data stored in the memory 3, deletes the contents stored in the memory 2, and transfers the software data read from the memory 3 upon receipt of the control execution right. Record it. At this time, all functions of the system are temporarily stopped, but the service provided by the system is not affected. After the recording of the software data is completed, the software change process 23 performs a software reset of the memory 1, so that new software can be performed so that the system can be performed.

However, the general remote software upgrade method described above can be carried out under the premise that the system is operating normally during the remote software upgrade procedure and that no problem occurs during the execution procedure. Therefore, if the power is cut off during the upgrade procedure, or if the software is down due to a software problem, the software cannot be recovered even if the software is restarted.

In addition, after the upgrade to the new software from the remote operator's point of view, there was no way to check whether or not the upgrade to the new software has been provided, it was inconvenient management.

An object of the present invention is to solve the above-mentioned problems of the prior art, when a network management system or a system operator to upgrade the remote software of a specific system in the remote, network management communication channel (DCC: Data Communication Channel) It is to provide a remote software upgrade system and method that can upgrade the software of the system with a low cost and a small number of people without affecting the operation of the system using).

Another object of the present invention is to provide a remote software upgrade system and method that can report to the network management system all progress requiring retransmission due to failure and result after termination from receiving a software upgrade request signal after completion of the software upgrade. It is to provide.

Another object of the present invention is to remotely install the software of the local system by automatically determining the current state and requesting the software data to the network management system even if the system is installed without recording the main software data. To provide a software upgrade system and method.

1 is a block diagram of a memory provided in a general remote software upgrade system.

2 is a functional block diagram of a typical remote software upgrade system.

Figure 3 is a block diagram of a memory provided in the remote software upgrade system according to the present invention.

4 is a functional block diagram of a remote software upgrade system in accordance with the present invention.

5 (5a, 5b) is a control flowchart for explaining a remote software upgrade procedure according to an embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

41 ~ 44 ... Memory 51 ... Protocol processing process

52. Remote Upgrade Processing Process

53 ... Software Change Process

54 ... Remote Software Upgrade Anomaly Handling Process

In order to achieve the above object, the remote software upgrade system according to the present invention, the ability to determine and check the initial boot-up function and remote software upgrade status, and to recover the abnormal state in the event of a remote software execution error A first memory for providing a function, a second memory for recording data for tracking a remote software upgrade execution step, a third memory for a system operating function and a remote software upgrade processing function, and the third memory A memory unit used by the software stored in the system during operation of the system, the memory unit comprising a fourth memory for recording data of new software and data of the current software; A protocol processing process for storing new software data and data of the third memory received by processing a protocol in the fourth memory and generating a remote software upgrade request; A remote software processing process coupled with the protocol processing process for controlling the software data to be changed by managing the availability and latency of the remote software upgrade request; A software change process of erasing the third memory and replacing or programming with new software data of the fourth memory; And a remote software upgrade abnormal state processing process for recovering the abnormal state of the system generated by the abnormal operation of the system or the software, and controlling the system to be in normal operation.

In addition, a remote software upgrade method for achieving the object of the present invention, the remote software upgrade system, while the normal operation of the remote network management operator or network management system requires a specific software upgrade; Initiating a remote software upgrade processing process provided in the system as required; In order to track each step of the remote software upgrade process from the remote software upgrade process, the process proceeds while recording information on each step executed in the remote software upgrade status / additional information recording area of the second memory provided in the system. Steps; The system writes the software data recorded in the third memory which provides the current system operation function and the remote software upgrade function software to the existing software data area of the fourth memory provided in the system; The software change process included in the system includes checking validity of a software upgrade, deleting data written to the third memory, and writing new software data from the fourth memory to the third memory; When the writing is completed in the third memory, the system may be restarted.

Hereinafter, with reference to the accompanying drawings will be described the configuration and operation of the present invention.

3 is a block diagram of a memory included in the remote software upgrade system according to the present invention, and FIG. 4 is a functional block diagram of the remote software upgrade system according to the present invention.

The remote software upgrade system according to the present invention includes a first memory 41 for providing an initial boot-up function, a function for determining and checking a remote software upgrade state, a function for recovering an abnormal state in case of a remote software execution error, and a remote A second memory 42 for recording data for tracking the software upgrade execution step, a third memory 43 for system operation functions and a remote software upgrade processing function, and software stored in the third memory 43 A memory portion which is used during system operation and is composed of a fourth memory 44 for recording data of new software and data of current software; A protocol processing process 51 for storing new software data received by processing the protocol and data of the current third memory 43 in the fourth memory 44 and generating a remote software upgrade request; A remote software processing process 52 for managing the availability and latency of the remote software upgrade request and controlling to change the software data; A software change process (53) for erasing the third memory (43), replacing and recording the program with new software data in the fourth memory (44); Remote software upgrade abnormal state processing process 54 for recovering the abnormal state of the system caused by the abnormal operation of the system or software, and controlling the normal operation of the system.

Here, the first memory 41 is divided into a boot up function region 41a and an area 41b of the remote software recovery function software as shown in FIG. In the embodiment of the present invention, the first memory 41 and the third memory 43 use a non-volatile Non-volatile Electrical Erasable Programmable Read Only Memory (EEPROM) that is electrically erasable / writeable. The second memory 42 uses a nonvolatile dynamic random access memory (RAM) having its own power supply.

In addition, the fourth memory 44 is an area 44a used for system operation, a new software data recording area 44b, and an area 44c for storing current software data, that is, contents of the third memory 43. Separated by.

Further, although not shown in FIG. 4, the remote software upgrade abnormal state processing process 54 is composed of a protocol processing process, a remote software processing process, and a software change process.

The boot-up process, which is started first at system startup, initially checks the status of the remote software upgrade and starts the system in a normal state if it has been completed normally. The upgrade abnormal state processing process 54 is started.

Hereinafter, a remote software upgrade operation according to an embodiment of the present invention will be described in detail.

While the remote software upgrade system of the present invention operates normally, the remote network management operator or network management system transmits data for requesting a specific software upgrade to the system (S1).

The protocol processing process 51 of the system writes the data received through the operator communication channel into the new software data area 44b of the fourth memory 44, without affecting the function of the current system (S2).

When the protocol processing process 51 completes the data reception, a signal for requesting a remote software upgrade is generated together with the address, the size, the checksum, and the upgrade wait time information of the memory in which the received data is recorded (S3).

At this time, the remote software upgrade processing process 52 is activated by receiving a signal for requesting an upgrade. Therefore, in order to track each step of the remote software upgrade process from this process 52, the process proceeds while recording information on each step executed in the remote software upgrade status / additional information recording area of the second memory 42. (S4). The availability of data received from the address, size, and checksum information of the memory received with the upgrade request is checked (S5), and the software data currently recorded in the third memory 43 is stored in the existing software of the fourth memory 44. The data is written in the data area 44c (S6). Subsequently, the system waiting for the upgrade waiting time generates a signal requesting a software change when the waiting time expires (S7). At this time, the address, size and checksum of the memory in which the new software is recorded and the address, size and checksum of the memory in which the existing software is recorded are transmitted together.

After the software change process 53 receives the software change request signal using the software recorded and executed in the first memory 41 and checks the validity of the software upgrade using the received memory information (S8), Immediately, the data recorded in the third memory 43 is deleted and new software data of the fourth memory 44 is recorded into the third memory 43 (S9). Subsequently, when writing is completed in the third memory 43, the system is restarted (S10). At this time, the execution control right of the software is switched from the software in the memory 43 to the second software 42 remote software upgrade check and change software.

When the system is rebooted, the bootup software of the memory 41 is executed first. At this time, the boot-up software determines the current software upgrade state by using the remote software upgrade state data stored in the second memory 42 (S11). If the determination result is normal, the execution control right of the software is switched to the software of the third memory 43 to terminate all the processes of the remote software upgrade (S12). However, if it is determined that the system is restarted in a state where the remote software upgrade is not completed while the remote software upgrade is in progress, first, the new software data of the fourth memory 44 is stored using the data recorded in the second memory 42. Determine availability (S13). At this time, if it is determined that new software data of the fourth memory 44 is available, the software data of the fourth memory 44 is recorded into the third memory 43 (S14). However, if it is determined that the data is not already available, the system activates only the minimum functions necessary for remote software upgrade, prepares the system, and then sends a signal for requesting the remote software upgrade to the remote network management system through the protocol processing process 51. Transfer (S15). The network management system receives a signal requesting a remote software upgrade and retransmits the software data (S16). Thus, the system receives the software data and goes through the same process as when it first received the remote software upgrade request. Next, the system checks the availability of the received data and writes the software data into the third memory 43 (S17).

When explaining the fundamental reason that the process described above is different from the conventional process is as follows.

The previous upgrade process starts with the software recorded in the third memory 43 and transfers the control right to the software of the first memory 41 at the time when the recording of the memory is required. However, in the embodiment of the present invention, when a failure occurs in the middle of a remote software upgrade and the system is restarted, the remote software upgrade check and change software existing in the first memory 41 has control of all the systems and is abnormal. Completes the software upgrade.

According to the embodiment of the present invention, software having additionally such a remote software upgrade recovery function (boot-up and remote software upgrade status determination software and remote software upgrade check and change software) may be configured as main software such as the first memory 41. The system is restarted even if the remote software upgrade is abnormally terminated by being able to exist as a completely separate memory from the recorded third memory 43 and transfer control to completely separate software. You can recover from all abnormal conditions.

In addition, when the system is not disconnected from the power source and received new software data is not available, the system can always recover the existing software data stored in the existing software data recording area of the fourth memory 44. Have.

Therefore, when remote software upgrade is performed using the present invention, even if the system is installed in the field with no main software recorded in the third memory 43, the system requests software data from the network management system. In this case, they can install the software of their own system. Therefore, when the system is started and the state of the software is checked, the normal software data does not exist in both the third memory 43 and the fourth memory 44, and information about the remote software upgrade in the second memory 42 is present. The system automatically requests the software data to the network management system, and the system can bring the system to normal by the software data sent by the network management system.

According to the remote software upgrade system and method according to the present invention described above has the following advantages.

First, since the remote software upgrade function can shorten the software upgrade time of the system compared to the conventional technology, and the system can be software upgraded intelligently, it is possible to minimize the time that the system can not provide services. Therefore, it is possible to reduce the loss of opportunity cost caused by service interruption.

Second, in the related art, after the software upgrade is completed, the function of reporting the upgrade result to the network management system has been difficult. According to the embodiment of the present invention, all the items from receiving the software upgrade request signal to the request for retransmission due to the failure and the result after termination may be reported to the network management system. Therefore, the network management system or the system operator can obtain the effect of more convenient network management from a remote location.

Third, according to the present invention, even if the system is installed without recording the main software data, the software intelligently determines the current state, requests the software data to the network management system, and automatically installs the software of the local system. Can be obtained. Therefore, it is possible to easily upgrade the software of all systems managed by one network management system by integrating the upgrade problem of the software, which was conventionally mobilized by a large number of personnel, into one network management system.

In addition, in the past, a software upgrade for manually replacing a memory is no longer required, thereby significantly reducing maintenance and maintenance costs of all systems.

Claims (4)

Records the first memory to provide initial bootup capability, the ability to determine and check the status of remote software upgrades, the ability to recover from an abnormal condition in the event of a remote software execution, and data to track the stage of remote software upgrade execution A second memory for use, a third memory for a system operation function and a remote software upgrade processing function, and software stored in the third memory for use during system operation, for recording data of new software and data of the current software. A memory unit configured of a fourth memory; A protocol processing process for storing new software data and data of the third memory received by processing a protocol in the fourth memory and generating a remote software upgrade request; A remote software processing process coupled with the protocol processing process for controlling the software data to be changed by managing the availability and latency of the remote software upgrade request; A software change process of erasing the third memory and replacing or programming with new software data of the fourth memory; And a remote software upgrade abnormal state processing process for restoring the abnormal state of the system or the system caused by the abnormal operation of the software to control the system to be in normal operation. The remote software upgrade system of claim 1, wherein the fourth memory comprises an area used for system operation, a new software data recording area, and an area for storing contents of the third memory. Requesting a specific software upgrade by a remote network management operator or network management system while the remote software upgrade system is operating normally; Initiating a remote software upgrade processing process included in the system according to the specific software upgrade request; In order to track each step of the remote software upgrade process from the remote software upgrade process, the process proceeds while recording information on each step executed in the remote software upgrade status / additional information recording area of the second memory provided in the system. Steps; The system writes the software data recorded in the third memory which provides the current system operation function and the remote software upgrade function software to the existing software data area of the fourth memory provided in the system; The software change process included in the system includes checking validity of a software upgrade, deleting data written to the third memory, and writing new software data from the fourth memory to the third memory; Restarting the system when writing to the third memory is completed. 4. The method of claim 3, further comprising: determining the software upgrade state after the system is rebooted; If the determination result is normal, converting execution control right of software to software of the third memory; Determining the availability of new software data in the fourth memory if it is determined that the system is restarted while the determination result is not completed while the remote software upgrade is in progress; And if it is determined that new software data of the fourth memory is available, recording the software data of the fourth memory into the third memory.