KR100640508B1 - Software remote download - Google Patents

Abstract

The present invention provides a method for remotely downloading software between a source processor board and a destination processor board, wherein information about a target file downloaded through message communication is exchanged between both processor boards. This is divided into a number of pieces in an acceptable size and transmitted. The destination processor board has a process of downloading a piece of the transferred target file into RAM and processing it.

Download, RAM capacity, source / destination

Description

How to download software remotely {SOFTWARE REMOTE DOWNLOAD}             

1 is a schematic configuration diagram of a source / destination processor board for explaining a conventional software remote download operation;

2 is a schematic structural diagram of a source / destination processor board for explaining a software remote download operation according to an embodiment of the present invention;

3 is a flow chart of a software remote download process in accordance with one embodiment of the present invention.

The present invention relates to a software remote download operation on a processor board of a transmission device. In particular, even if the RAM capacity of the temporary storage space is smaller than the size of a software target file to be downloaded remotely, It is about a method.

In general, a synchronous digital hierarchy (hereinafter referred to as SDH) is required as a base technology of a transmission path for supporting a multimedia application. The synchronous digital hierarchy is generalized to be used as a network node interface standard of a broadband general information communication network. A synchronous transmission scheme is a transmission scheme based on the synchronous digital hierarchy.

1 is a schematic configuration diagram of a source / destination processor board for explaining a software remote download operation based on a conventional SDH. Referring to FIG. 1, when an interprocessor communication (IPC) is performed between a source processor board 110 and a destination processor board 120, the source processor board 110 may be connected. The target file existing in the RAM 112 is downloaded to the RAM 122 of the destination processor board 120. The target file downloaded from the RAM 122 of the destination processor board 120 is then copied to the flash EEPROM (Electrically Erasable Programmable ROM, hereinafter called FROM) 124, 126 of the destination processor board 120 at once. do.

The remote download of the software is based on the premise that the RAM 122 of the destination processor board 120 temporarily receives a larger size than the target file size to download. However, if the RAM 122 capacity of the destination processor board 120 to temporarily receive and store the target file size is smaller than the target file size to be downloaded, the target file cannot be reliably downloaded by the algorithm that is simultaneously downloaded.

If the capacity of the RAM 122 that temporarily receives and stores the size of the target file to be downloaded is larger than the RAM 112 of the source processor board 110 to the RAM 122 of the destination processor board 120 at one time, the download operation is performed. This is done and copying from the RAM 122 of the destination processor board 120 to the FROM1, 2 (124, 126) of the destination processor board 120 at once. In the memory structure as shown in FIG. 1, if the capacity of the RAM 122 allocated to the software download function of the destination processor board 122 is smaller than the size of the target file, the target file is the area of the RAM 122 at the time of downloading. It can be copied beyond, and it can violate existing code or data areas and cause fatal errors.

In order to prevent the above error, the maximum size that can be downloaded between the source processor board 110 and the destination processor board 120 may be specified in advance and checked before the download operation to prevent the download operation. In this case, however, the download operation is not performed. As a result, the download function cannot be supported.

Therefore, an object of the present invention is to provide a software download method that can reliably download even when the capacity of the RAM to temporarily receive and store the target file size to download from the source processor board to the destination processor board.

In order to achieve the above object, the present invention repeatedly divides the target file into pieces of RAM that can be accommodated, downloads them sequentially into RAM, and sequentially copies portions of the downloaded target file into the corresponding FROM area. It is characterized by performing as.

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

2 is a schematic diagram of a source / destination processor board for explaining a software remote download operation according to an embodiment of the present invention. Referring to FIG. 2, the memory configuration of the destination processor board 220 and also the same source processor board 210 is briefly described. It consists of areas of FROMs 224 and 226 that are actually copied. The FROMs 224 and 226 are divided into FROM1 224 and FROM2 226 in two or more regions, so that at least two different software versions can be stored in the entire FROM 224 and 226 regions. This is commonly referred to as Bank 1 and Bank 2.

In fact, in the main processor unit (MPU) and data communication unit (DCU) of 2.5G SDH transmission equipment, FROM is divided into two areas (2M-2M and bank 1-bank 2). In addition, it requires non-volatile RAM (NVRAM) that stores backup data such as its own data required by the program according to the download algorithm and which FROM area to execute when the program is executed again after an execution command. And a channel that acts as a download path of the download target file is required. This channel is handled by InterProcessor Communication (IPC) for 2,5G SDH transmission equipment. This IPC task exists in a nearly similar algorithm on the source processor board and the destination processor board.

As a practical example, the MPU of a 2.5G SDH transmitter has a small amount of RAM available to the software Remote Down-Load (RDL) task because many tasks consume most of the RAM. Therefore, the MPU program (target file) cannot be downloaded to the MPU from the DCU, the source processor board.

Referring back to FIG. 2, in the present invention, when the target file is transmitted from the source processor board 210 to the destination processor board 220, the plurality of RAMs 222 of the destination processor board 220 may be accommodated. By dividing by (# 1, # 2, # 3 ... #N) it is sequentially downloaded to the RAM (222). This method is preferably applied when the size of the target file is larger than the size of the RAM 222. If the size of the target file is smaller than the RAM, the target file may be transmitted at once. In FIG. 2, the RAM 222 is less than or equal to 2M, while the size of the target file is greater than or equal to 2M.

Each piece of the divided target file as described above is downloaded to the RAM 222 of the destination processor board 220 and then copied to the FROM1 224. At this time, the process of copying the fragment of the target file downloaded to the RAM 222 may be made by copying the already downloaded fragment to the FROM1 (224) during the download of the next fragment after one operation is downloaded to the RAM, If the size of each piece is small, it may be copied to FROM1 224 after a suitable number of pieces have been downloaded. The size of the fragment may be appropriately set according to the size of the target file, the size of the RAM 224 to be downloaded, the transmission speed and the like.

In order to perform the above-described operation of the present invention, some preconditions are necessary. First, when downloading according to the method of the present invention, both processor boards already know the total size of the target file and the number of target files divided by message communication. In the following description, one fragment obtained by dividing the target file is called a sequence. The size of this sequence must also be promised between the two processor boards. This is because the IPCs on both processor boards send and receive fragments of the target file at the promised size.

Hereinafter, a software remote download process according to an embodiment of the present invention will be described in detail with reference to FIG. 3. 3 is a flowchart of a software remote download process according to an embodiment of the present invention. Referring to FIG. 3, first, initialization is performed between both processor boards in step 302. At the time of initialization, as described above, information on the target file downloaded through message communication, that is, the total size, information about the number of target files divided, and the like are exchanged.

Thereafter, in step 304, the destination processor board 220 receives the first sequence (sub-sequence = 1) sent from the source processor board 210 through the RAM 222. Thereafter, in step 306, the destination processor board 220 may display a progress rate of the download for the convenience of the operator. Each time a sequence is received, it calculates a percentage of the total size of the target file and reports it to the graphical user interface (GUI) or network management subsystem (NMS).

Thereafter, in step 308, it is checked whether the currently received sequence is the last sequence. If not, the process proceeds to step 310, and if the last sequence, step 316. In operation 310, the destination processor board 220 copies the sequence stored in the RAM 222 to the FROM1 224. At this time, if the sequence is the first sequence, the FROM1 224 region is first erased before copying it to the FROM1 224. Thereafter, in step 312, a message is sent to the source processor board 210 to send the next sequence. The source processor board 210 should not send the next sequence until the message is received. Because if the transmission timing is wrong, the source processor board 210 overwrites the next sequence to the RAM 222 before the destination processor board 220 even copies the sequence of the RAM 222 to the FROM 224. Because you can.

The source processor board 210 receiving the next sequence request sends the next sequence in the target file to the RAM 222 of the destination processor board 220. At this time, the destination processor board 220 proceeds to step 306 to repeat the above process, in which case the sequence received from the next address is copied from the previous address without the operation of erasing the FROM 224. If the mode transmission to the last sequence in the above, in step 308 after confirming that the last sequence in step 316 it is copied to the FROM (224) and ends.

In the above process, the target file is copied to the FROM 224 area of the mode destination processor board 220. Since both the source processor board 220 and the destination processor board 224 know the total sequence, the destination processor board 220 copies the data to the FROM1 224 after receiving the last sequence. The source processor board 210 may be notified by sending a message indicating that the last sequence has been received, and the IPC channel, which is a passage through which the download operation was performed, may be closed. On the other hand, since the source processor board 210 knows that it has sent the last sequence of the target file, it may determine that the download operation is normally performed when it receives a message indicating that the last sequence has been received from the destination processor board 220 in the state. . Finally, the destination processor board 220 may automatically report 100% download completion to the GUI or NMS.

As described above, the present invention divides the target file into several sizes that the RAM can accommodate and sequentially downloads the target file to RAM, and repeatedly copies the downloaded target file portion to the corresponding FROM area. However, even if the target file is larger than the RAM of the destination processor, it can be downloaded.

As described above, the present invention can reliably download the target file even when the RAM for temporarily receiving and storing the temporary file is smaller than the target file size to be downloaded from the source processor board to the destination processor board.

Claims (3)

In the remote software download method between the source processor board and the destination processor board, Exchanging information about a target file downloaded through message communication between the processor boards; Transmitting the target file in the source processor board by dividing the target file into a plurality of pieces in a size that the RAM of the destination processor board can accommodate; Downloading the fragment of the transmitted target file from the destination processor board to the RAM and simultaneously storing the downloaded fragment of the target file in a flash ROM; And the information on the target file includes information on the size of the target file and the number of pieces divided by the target file. The method of claim 1, wherein the storing of the transmitted target file fragment in the destination processor board comprises displaying a download progress state to an operator. delete

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