CN116506377A - Data processing method, system, equipment and medium applied to data processor - Google Patents

Abstract

The application provides a data processing method, a system, equipment and a medium applied to a data processor, which comprise the steps of accessing an external network through a first network port in a server, and connecting the server and the data processor based on a second network port in the server and a switch in the data processor; receiving a data acquisition request generated by a first baseboard management controller in a server through an exchanger, and searching a target hidden network port in hidden network ports in a data processor according to the received data acquisition request; transmitting the data acquisition request to one or more destination components in the data processor based on the searched destination hidden network port; after the destination component returns the destination data in response to the data acquisition request, the returned destination data is sent to the server through the searched destination hidden network port and the switch. BMC information can be obtained without accessing the BMC in the DPU through a separate wire; and redundancy is increased, so that the stability of data acquisition is improved.

Description

Data processing method, system, equipment and medium applied to data processor

Technical Field

The application relates to the technical field of computers, in particular to a method, a system, equipment and a medium for optimizing the health degree of a storage system.

Background

A DPU (data processing unit), which is a programmable chip with high-speed processing capability, is currently considered as a third type of processor in parallel with a CPU and a GPU. The main function of the DPU is to offload a normal CPU, namely, load of a general computing resource (CPU) is unloaded, so that the CPU can exert the maximum computing capacity and reduce the data handling work. The DPU (including ancillary circuits) is often deployed on a physical machine in the form of a PCIe add-in card, which appears to be a network card.

However, in the present stage, when the machine of SA5212 is collocated with the DPU2.0, the DPU2.0 is regarded as a machine head, if the information of the BMC (baseboard management controller) in the DPU needs to be accessed by a separate wire when the information is required to be acquired, if one of two network ports of the DPU is damaged, data cannot be transferred, and resources are wasted. While individual wiring takes time and increases other resource usage (e.g., in the case of a network that is not supported, the network needs to be allocated by pc and the display needs to be connected to see os, etc.), reducing efficiency.

Therefore, a method for directly viewing BMC information in a data processor on a server is needed to solve the above-mentioned problems.

Disclosure of Invention

In view of the foregoing, it is desirable to provide a data processing method, system, device and medium applied to a data processor, so as to directly access a baseboard management controller and a system chip inside the data processor in a server.

In a first aspect, the present application provides a data processing method of a data processor, the method comprising:

accessing an external network through a first network port in a server, and connecting the server and a data processor based on a second network port in the server and a switch in the data processor;

receiving a data acquisition request generated by a first baseboard management controller in the server through the switch, and searching a target hidden network port in hidden network ports in a data processor according to the received data acquisition request;

transmitting the data acquisition request to one or more destination components in a data processor based on the searched destination hidden network port;

and after the destination component responds to the data acquisition request and returns destination data, the returned destination data is sent to the server through the searched destination hidden network port and the switch.

In some embodiments, the data acquisition request includes at least a destination address and a destination data type, the receiving, by the switch, the data acquisition request generated by the first baseboard management controller in the server, and searching, according to the received data acquisition request, a destination hidden portal in the hidden portals in the data processor, including:

receiving the data acquisition request through a second network port in a server, and transmitting the data acquisition request to a third network port and/or a fourth network port in the switch according to a destination address in the data acquisition request so as to transmit the data acquisition request to the data processor;

and searching and transmitting the destination hidden network port in the data processor based on the destination data type received by the third network port and/or the fourth network port, wherein the hidden network port comprises a first hidden network port and a second hidden network port.

In some embodiments, the searching for the destination hidden portal in the data processor based on the destination data type in the data acquisition request received by the third portal and/or the fourth portal includes:

if the target data type in the data acquisition request is a first data type, determining that the first hidden network port is the target hidden network port;

if the target data type in the data acquisition request is a second data type, determining that the second hidden network port is the target hidden network port;

and if the destination data type in the data acquisition request comprises the first data type and the second data type, determining the first hidden network port and the second hidden network port as destination hidden network ports.

In some embodiments, the passing the data acquisition request to one or more destination components based on the destination hidden portal found includes:

if the searched target hidden network port is the first hidden network port, transmitting the data acquisition request to a second baseboard management controller in the data processor;

and if the searched target hidden network port is a second hidden network port, transmitting the data acquisition request to a system chip in a data processor.

In some embodiments, the method further comprises:

and when the destination data returned to the server by the data processor is first data, the server responds to the destination data to generate a display page.

In some embodiments, the method further comprises:

based on the switch and the second network port, enabling the data processor to receive a data debugging command generated by a first baseboard management controller in the server;

transmitting the data debugging command to the second hidden network port through the switch;

and transmitting the data debugging command to a system chip in the data processor based on the second hidden network port so as to realize the debugging of the system chip.

In some embodiments, the searching and transferring the destination hidden network port in the data processor based on the destination data type in the data acquisition request received by the third network port and/or the fourth network port includes:

the switch receives the data acquisition request through a third network port and/or a fourth network port and repacks the data acquisition request;

and sending the repackaged data acquisition request to a router in a data processor, and sending the repackaged data request to the target hidden network port through the router.

In a second aspect, the present application provides a data processing system, comprising:

the network connection module is used for accessing an external network through a first network port in the server and connecting the server and the data processor based on a second network port in the server and a switch in the data processor;

the data processing module is used for receiving a data acquisition request generated by a first baseboard management controller in the server through the switch and searching a target hidden network port in hidden network ports in the data processor according to the received data acquisition request;

the data transmission module is used for transmitting the data acquisition request to one or more target components in the data processor based on the searched target hidden network port;

and the data transmission module is also used for sending the returned destination data to the server through the searched destination hidden network port and the switch after the destination component responds to the data acquisition request to return the destination data.

In a third aspect, the present application provides an electronic device, including:

one or more processors;

and a memory associated with the one or more processors, the memory for storing program instructions that, when read for execution by the one or more processors, perform the following:

accessing an external network through a first network port in a server, and connecting the server and a data processor based on a second network port in the server and a switch in the data processor;

receiving a data acquisition request generated by a first baseboard management controller in the server through the switch, and searching a target hidden network port in hidden network ports in a data processor according to the received data acquisition request;

transmitting the data acquisition request to one or more destination components in a data processor based on the searched destination hidden network port;

and after the destination component responds to the data acquisition request and returns destination data, the returned destination data is sent to the server through the searched destination hidden network port and the switch.

In a fourth aspect, the present application also provides a computer-readable storage medium having stored thereon a computer program that causes a computer to perform the operations of:

accessing an external network through a first network port in a server, and connecting the server and a data processor based on a second network port in the server and a switch in the data processor;

receiving a data acquisition request generated by a first baseboard management controller in the server through the switch, and searching a target hidden network port in hidden network ports in a data processor according to the received data acquisition request;

transmitting the data acquisition request to one or more destination components in a data processor based on the searched destination hidden network port;

and after the destination component responds to the data acquisition request and returns destination data, the returned destination data is sent to the server through the searched destination hidden network port and the switch.

The beneficial effect that this application realized is:

the application provides a data processing method applied to a data processor, which comprises the steps of accessing an external network through a first network port in a server, and connecting the server and the data processor based on a second network port in the server and a switch in the data processor; receiving a data acquisition request generated by a first baseboard management controller in the server through the switch, and searching a target hidden network port in hidden network ports in a data processor according to the received data acquisition request; transmitting the data acquisition request to one or more destination components in a data processor based on the searched destination hidden network port; and after the destination component responds to the data acquisition request and returns destination data, the returned destination data is sent to the server through the searched destination hidden network port and the switch. When the server acquires the BMC information in the DPU, the server does not need to access the BMC in the DPU by a separate wire; in addition, interaction with the BMC in the DPU can be achieved through the third network port and the fourth network port, redundancy is improved, and stability of data acquisition is improved.

Drawings

For a clearer description of the technical solutions in the embodiments of the present application, the drawings that are needed in the description of the embodiments will be briefly introduced below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art, wherein:

FIG. 1 is a schematic diagram of an overall data processing system according to an embodiment of the present disclosure;

FIG. 2 is a flow chart of a data processing method provided in an embodiment of the present application;

FIG. 3 is a block diagram of a data processing system architecture provided in an embodiment of the present application;

fig. 4 is a block diagram of an electronic device according to an embodiment of the present application.

Detailed Description

For the purposes of making the objects, technical solutions and advantages of the present application more apparent, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application, and it is apparent that the described embodiments are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present disclosure.

It should be understood that throughout the description of this application, unless the context clearly requires otherwise, the words "comprise," "comprising," and the like in the description and the claims are to be construed in an inclusive sense rather than an exclusive or exhaustive sense; that is, it is the meaning of "including but not limited to".

It should also be appreciated that the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Furthermore, in the description of the present application, unless otherwise indicated, the meaning of "a plurality" is two or more.

It should be noted that the terms "S1", "S2", and the like are used for the purpose of describing steps only, and are not intended to be limited to the order or sequence of steps or to limit the present application, but are merely used for convenience in describing the method of the present application and are not to be construed as indicating the sequence of steps. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be regarded as not exist and not within the protection scope of the present application.

Example 1

The embodiment of the application provides a data processing method of a data processor, and specifically, as shown in fig. 1, the process of accessing the data processor in a server by applying the method includes:

s1, accessing an external network in a server, and realizing network connection between the server and a data processor based on a network port in the server and a switch in the data processor.

Specifically, in this embodiment, the server includes two network ports, one of which is connected to an external network, and the other of which is connected to the switch of the data processor, and the two network ports in the server are interconnected and respectively communicable with the baseboard management controller in the server. In this embodiment, the network port connected to the external network in the server is denoted as a first network port, and the network port connected to the switch of the data processor is denoted as a second network port.

Based on the principle of interconnection of the switches, the data processor is internally provided with the HUB to realize interconnection of a third network port and a fourth network port in the data processor, and a router (not shown in the figure) is internally added. In addition, a mapping relation between the server MAC address and the switch address is also arranged in the switch.

S2, transmitting the data acquisition request generated by the substrate management controller in the server to the data processor through the switch and the second network port.

The baseboard management controller generates a data acquisition request and transmits the data acquisition request to the second network port, wherein the data acquisition request at least comprises a destination address and a destination data type; according to the destination address in the data acquisition request, the data acquisition request is transmitted to a third network port and/or a fourth network port in the switch so as to transmit the data acquisition request to the data processor, wherein the destination address is the address of the third network port and the fourth network port. In a specific implementation scenario, a baseboard management controller in a server packages a data acquisition request into a message of a hypertext connection protocol in an application layer, packages the message into a TCP message in a transmission layer, searches data packaged in a network layer by a second Internet Protocol (IP) corresponding to the server, packages the data into an Ethernet data frame through a link layer, and sends the Ethernet data frame to a switch according to MAC address mapping.

S3, searching a target hidden network port in the hidden network ports in the data processor according to the received data acquisition request.

And searching and transmitting the destination hidden network port in the data processor based on the destination data type received by the third network port and/or the fourth network port in the data acquisition request, wherein the hidden network port comprises a first hidden network port and a second hidden network port. Specifically, if the destination data type in the data acquisition request is the first data type, determining the first hidden network port as a destination hidden network port; if the target data type in the data acquisition request is the second data type, determining the second hidden network port as a target hidden network port; and if the destination data type in the data acquisition request comprises a first data type and a second data type, determining the first hidden network port and the second hidden network port as destination hidden network ports, wherein the first data corresponds to information of a second baseboard management controller in the data processor, and the second data corresponds to information of a system chip ((SOC, systemonChip)) in the data processor. In addition, after the switch receives the data acquisition request through the third network port and/or the fourth network port, the switch repacks the data acquisition request; and sending the repackaged data acquisition request to a router in the data processor, and sending the repackaged data request to a target hidden network port through the router. The router uses NAT technology to convert the server IP and modify the port number, so as to completely hide the server IP, thereby improving the security of the internal network of the data processor and reducing the address consumption; the first hidden network port is interconnected with a second baseboard management controller in the data server, and the second hidden network port is interconnected with a system chip in the data processor; after receiving the data acquisition request, the router sends the request to a hidden network port corresponding to the component according to the destination data type in the data request, namely the component data type which is required to be acquired.

And S4, transmitting the data acquisition request to one or more target components in the data processor based on the searched target hidden network port.

Specifically, if the searched target hidden network port is the first hidden network port, transmitting the data acquisition request to a second baseboard management controller in the data processor; if the searched target hidden network port is the second hidden network port, transmitting the data acquisition request to a system chip in the data processor.

And S5, after the destination component returns the destination data in response to the data acquisition request, the returned destination data is sent to the server through the searched destination hidden network port and the switch.

Specifically, after receiving the data acquisition request, the destination component produces corresponding destination data, and transmits the destination data to the second network port in the server through the determined hidden network port and the third network port and/or the fourth network port in the switch, and further transmits the destination data to the first baseboard management controller in the server through the second network port. In addition, if the destination data returned to the server by the data processor at this time is first data (i.e., second baseboard manager information in the data processor), the server generates a presentation page in response to the first data. In one implementation scenario, if an HTML page is returned, the server processes information returned by the second baseboard management controller, the server may respond to a picture or a static page, and the server directly delegates the fetched information to the JS script for processing, and then parses the information by the program at the server end to generate an HTML response for presentation.

In addition, based on the disclosure of the embodiment, the embodiment can also realize the debugging of the system chip in the data processor: after the first baseboard management controller in the server generates a data debugging command, the data debugging command is transmitted to the second network port and further transmitted to the switch, so that the data processor receives the data debugging command generated by the first baseboard management controller in the server; if a specific network port in the transfer switch needs to be determined, a destination address can be included in the data debugging command to point to the third network port or the fourth network port; after the data is transmitted to the switch, the data debugging command can be transmitted to the second hidden network port through the switch; and transmitting the data debugging command to a system chip in the data processor based on the second hidden network port so as to realize the debugging of the system chip.

Example two

Corresponding to the first embodiment, the embodiment of the present application further provides a data processing method applied to a data processor, as shown in fig. 2, which specifically includes the following steps:

2100. accessing an external network through a first network port in a server, and connecting the server and a data processor based on a second network port in the server and a switch in the data processor;

2200. receiving a data acquisition request generated by a first baseboard management controller in the server through the switch, and searching a target hidden network port in hidden network ports in a data processor according to the received data acquisition request;

preferably, the data acquisition request at least includes a destination address and a destination data type, the receiving, by the switch, the data acquisition request generated by the first baseboard management controller in the server, and searching, according to the received data acquisition request, a destination hidden network port in the hidden network ports in the data processor, including:

2210. receiving the data acquisition request through a second network port in a server, and transmitting the data acquisition request to a third network port and/or a fourth network port in the switch according to a destination address in the data acquisition request so as to transmit the data acquisition request to the data processor;

2220. and searching and transmitting the destination hidden network port in the data processor based on the destination data type received by the third network port and/or the fourth network port, wherein the hidden network port comprises a first hidden network port and a second hidden network port.

Preferably, the searching the destination hidden network port in the data processor based on the destination data type in the data acquisition request received by the third network port and/or the fourth network port includes:

2221. if the target data type in the data acquisition request is a first data type, determining that the first hidden network port is the target hidden network port;

2222. if the target data type in the data acquisition request is a second data type, determining that the second hidden network port is the target hidden network port;

2223. and if the destination data type in the data acquisition request comprises the first data type and the second data type, determining the first hidden network port and the second hidden network port as destination hidden network ports.

Preferably, the searching and transferring the destination hidden network port in the data processor based on the destination data type in the data acquisition request received by the third network port and/or the fourth network port includes:

2224. the switch receives the data acquisition request through a third network port and/or a fourth network port and repacks the data acquisition request;

2225. and sending the repackaged data acquisition request to a router in a data processor, and sending the repackaged data request to the target hidden network port through the router.

2300. Transmitting the data acquisition request to one or more destination components in a data processor based on the searched destination hidden network port;

preferably, the transferring the data acquisition request to one or more destination components based on the found destination hidden network port includes:

2310. if the searched target hidden network port is the first hidden network port, transmitting the data acquisition request to a second baseboard management controller in the data processor;

2320. and if the searched target hidden network port is a second hidden network port, transmitting the data acquisition request to a system chip in a data processor.

2400. And after the destination component responds to the data acquisition request and returns destination data, the returned destination data is sent to the server through the searched destination hidden network port and the switch.

Preferably, the method further comprises:

2500. and when the destination data returned to the server by the data processor is first data, the server responds to the destination data to generate a display page.

Preferably, the method further comprises:

2600. based on the switch and the second network port, enabling the data processor to receive a data debugging command generated by a first baseboard management controller in the server;

2700. transmitting the data debugging command to the second hidden network port through the switch;

2800. and transmitting the data debugging command to a system chip in the data processor based on the second hidden network port so as to realize the debugging of the system chip.

Example III

Corresponding to the first and second embodiments, the present application further provides a data processing system, as shown in fig. 3, including:

a network connection module 310, configured to access an external network through a first network port in a server, and connect the server and the data processor based on a second network port in the server and a switch in the data processor;

the data processing module 320 is configured to receive, through the switch, a data acquisition request generated by a first baseboard management controller in the server, and search, according to the received data acquisition request, a destination hidden network port in hidden network ports in a data processor;

a data transfer module 330, configured to transfer the data acquisition request to one or more destination components in the data processor based on the found destination hidden portal;

the data transfer module 330 is further configured to send, after the destination component returns the destination data in response to the data acquisition request, the returned destination data to the server through the searched destination hidden network port and the switch.

In some embodiments, the data processing module 320 is further configured to receive the data acquisition request through a second portal in a server, and transfer the data acquisition request to a third portal and/or a fourth portal in the switch according to a destination address in the data acquisition request to transfer the data acquisition request to the data processor; the data processing module 320 is further configured to search for and transmit, based on the destination data type received by the third portal and/or the fourth portal, a destination hidden portal in the hidden portals in the data processor, where the hidden portals include a first hidden portal and a second hidden portal.

In some embodiments, the data processing module 320 is further configured to determine that the first hidden portal is the destination hidden portal when the destination data type in the data acquisition request is the first data type; the data processing module 320 is further configured to determine that the second hidden network port is the destination hidden network port when the destination data type in the data acquisition request is a second data type; the data processing module 320 is further configured to determine that the first hidden network port and the second hidden network port are destination hidden network ports when the destination data type in the data acquisition request includes the first data type and the second data type.

In some embodiments, the data transfer module 330 is further configured to transfer the data acquisition request to a second baseboard management controller in the data processor when the found destination hidden network port is the first hidden network port; the data transfer module 330 is further configured to transfer the data acquisition request to a system chip in the data processor when the found destination hidden network port is the second hidden network port.

In some embodiments, the system further includes a data feedback module 340 (not illustrated in the figure), where the data feedback module 340 is configured to generate a presentation page in response to destination data returned to the server by the data processor when the destination data is first data.

In some embodiments, the system further includes a data debug module 350 (not illustrated in the figure), the data debug module 350 further configured to cause the data processor to receive a data debug command generated by a first baseboard management controller within the server based on the switch and the second portal; transmitting the data debugging command to the second hidden network port through the switch; and transmitting the data debugging command to a system chip in the data processor based on the second hidden network port so as to realize the debugging of the system chip.

In some embodiments, the data processing module 320 is further configured to repackage the data acquisition request after the switch receives the data acquisition request through a third portal and/or a fourth portal; and sending the repackaged data acquisition request to a router in a data processor, and sending the repackaged data request to the target hidden network port through the router.

Example IV

Corresponding to all the embodiments described above, an embodiment of the present application provides an electronic device, including:

one or more processors; and a memory associated with the one or more processors, the memory for storing program instructions that, when read for execution by the one or more processors, perform the following:

accessing an external network through a first network port in a server, and connecting the server and a data processor based on a second network port in the server and a switch in the data processor;

receiving a data acquisition request generated by a first baseboard management controller in the server through the switch, and searching a target hidden network port in hidden network ports in a data processor according to the received data acquisition request;

transmitting the data acquisition request to one or more destination components in a data processor based on the searched destination hidden network port;

and after the destination component responds to the data acquisition request and returns destination data, the returned destination data is sent to the server through the searched destination hidden network port and the switch.

Fig. 4 illustrates an architecture of an electronic device, which may include a processor 410, a video display adapter 411, a disk drive 412, an input/output interface 413, a network interface 414, and a memory 420, among others. The processor 410, video display adapter 411, disk drive 412, input/output interface 413, network interface 414, and memory 420 may be communicatively coupled via bus 430.

The processor 410 may be implemented by a general-purpose CPU (central processing unit), a microprocessor, an application-specific integrated circuit (ApplicationSpecificIntegratedCircuit, ASIC), or one or more integrated circuits, etc. for executing related programs to implement the technical solutions provided in the present application.

The memory 420 may be implemented in the form of ROM (read only memory), RAM (random access memory), a static storage device, a dynamic storage device, or the like. The memory 420 may store an operating system 421 for controlling the execution of the electronic device 400, and a Basic Input Output System (BIOS) 422 for controlling the low-level operation of the electronic device 400. In addition, a web browser 423, a data storage management system 424, an icon font processing system 425, and the like may also be stored. The icon font processing system 425 may be an application program that implements the operations of the foregoing steps in the embodiments of the present application. In general, when the technical solutions provided in the present application are implemented by software or firmware, relevant program codes are stored in the memory 420 and invoked by the processor 410 for execution.

The input/output interface 413 is used to connect to an input/output module to realize information input and output. The input/output module may be configured as a component in a device (not shown) or may be external to the device to provide corresponding functionality. Wherein the input devices may include a keyboard, mouse, touch screen, microphone, various types of sensors, etc., and the output devices may include a display, speaker, vibrator, indicator lights, etc.

The network interface 414 is used to connect communication modules (not shown) to enable communication interactions of the device with other devices. The communication module may implement communication through a wired manner (such as USB, network cable, etc.), or may implement communication through a wireless manner (such as mobile network, WIFI, bluetooth, etc.).

Bus 430 includes a path to transfer information between various components of the device (e.g., processor 410, video display adapter 411, disk drive 412, input/output interface 413, network interface 414, and memory 420).

In addition, the electronic device 400 may also obtain information of specific acquisition conditions from the virtual resource object acquisition condition information database, for performing condition judgment, and so on.

It should be noted that although the above devices only show the processor 410, the video display adapter 411, the disk drive 412, the input/output interface 413, the network interface 414, the memory 420, the bus 430, and the like, in the specific implementation, the device may further include other components necessary to achieve normal execution. Furthermore, it will be understood by those skilled in the art that the above-described apparatus may include only the components necessary to implement the present application, and not all the components shown in the drawings.

Example five

Corresponding to all the above embodiments, the present embodiments also provide a computer-readable storage medium, characterized in that it stores a computer program, which causes a computer to perform the following operations:

accessing an external network through a first network port in a server, and connecting the server and a data processor based on a second network port in the server and a switch in the data processor;

receiving a data acquisition request generated by a first baseboard management controller in the server through the switch, and searching a target hidden network port in hidden network ports in a data processor according to the received data acquisition request;

transmitting the data acquisition request to one or more destination components in a data processor based on the searched destination hidden network port;

and after the destination component responds to the data acquisition request and returns destination data, the returned destination data is sent to the server through the searched destination hidden network port and the switch.

From the above description of embodiments, it will be apparent to those skilled in the art that the present application may be implemented in software plus a necessary general purpose hardware platform. Based on such understanding, the technical solution of the present application may be embodied essentially or in a part contributing to the prior art in the form of a software product, which may be stored in a storage medium, such as a ROM/RAM, a magnetic disk, an optical disk, etc., and includes several instructions to cause a computer device (which may be a personal computer, a cloud server, or a network device, etc.) to perform the method described in the embodiments or some parts of the embodiments of the present application.

In this specification, each embodiment is described in a progressive manner, and identical and similar parts of each embodiment are all referred to each other, and each embodiment mainly describes differences from other embodiments. In particular, for a system or system embodiment, since it is substantially similar to a method embodiment, the description is relatively simple, with reference to the description of the method embodiment being made in part. The systems and system embodiments described above are merely illustrative, wherein the elements illustrated as separate elements may or may not be physically separate, and the elements shown as elements may or may not be physical elements, may be located in one place, or may be distributed over a plurality of network elements. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of this embodiment. Those of ordinary skill in the art will understand and implement the present invention without undue burden.

The foregoing description of the preferred embodiments of the present application is not intended to limit the invention to the particular embodiments of the present application, but to limit the scope of the invention to the particular embodiments of the present application.

Claims (10)

1. A data processing method applied to a data processor, the method comprising:

accessing an external network through a first network port in a server, and connecting the server and a data processor based on a second network port in the server and a switch in the data processor;

receiving a data acquisition request generated by a first baseboard management controller in the server through the switch, and searching a target hidden network port in hidden network ports in a data processor according to the received data acquisition request;

transmitting the data acquisition request to one or more destination components in a data processor based on the searched destination hidden network port;

and after the destination component responds to the data acquisition request and returns destination data, the returned destination data is sent to the server through the searched destination hidden network port and the switch.

2. The method according to claim 1, wherein the data acquisition request includes at least a destination address and a destination data type, the receiving, by the switch, the data acquisition request generated by the first baseboard management controller in the server, and searching for a destination hidden portal from the hidden portals in the data processor according to the received data acquisition request, includes:

receiving the data acquisition request through a second network port in a server, and transmitting the data acquisition request to a third network port and/or a fourth network port in the switch according to a destination address in the data acquisition request so as to transmit the data acquisition request to the data processor;

and searching and transmitting the destination hidden network port in the data processor based on the destination data type received by the third network port and/or the fourth network port, wherein the hidden network port comprises a first hidden network port and a second hidden network port.

3. The method according to claim 2, wherein the searching for the destination hidden portal in the data processor based on the destination data type in the data acquisition request received by the third portal and/or the fourth portal comprises:

if the target data type in the data acquisition request is a first data type, determining that the first hidden network port is the target hidden network port;

if the target data type in the data acquisition request is a second data type, determining that the second hidden network port is the target hidden network port;

and if the destination data type in the data acquisition request comprises the first data type and the second data type, determining the first hidden network port and the second hidden network port as destination hidden network ports.

4. The method of claim 2, wherein the passing the data acquisition request to one or more destination components based on the destination hidden portal found comprises:

if the searched target hidden network port is the first hidden network port, transmitting the data acquisition request to a second baseboard management controller in the data processor;

and if the searched target hidden network port is a second hidden network port, transmitting the data acquisition request to a system chip in a data processor.

5. The method according to claim 2, wherein the method further comprises:

and when the destination data returned to the server by the data processor is first data, the server responds to the destination data to generate a display page.

6. The method according to claim 4, wherein the method further comprises:

based on the switch and the second network port, enabling the data processor to receive a data debugging command generated by a first baseboard management controller in the server;

transmitting the data debugging command to the second hidden network port through the switch;

and transmitting the data debugging command to a system chip in the data processor based on the second hidden network port so as to realize the debugging of the system chip.

7. The method according to any one of claims 2-6, wherein the searching and transferring the destination hidden portal in the hidden portals in the data processor based on the destination data type in the data acquisition request received by the third portal and/or the fourth portal includes:

the switch receives the data acquisition request through a third network port and/or a fourth network port and repacks the data acquisition request;

and sending the repackaged data acquisition request to a router in a data processor, and sending the repackaged data request to the target hidden network port through the router.

8. A data processing system, the system comprising:

the network connection module is used for accessing an external network through a first network port in the server and connecting the server and the data processor based on a second network port in the server and a switch in the data processor;

the data processing module is used for receiving a data acquisition request generated by a first baseboard management controller in the server through the switch and searching a target hidden network port in hidden network ports in the data processor according to the received data acquisition request;

the data transmission module is used for transmitting the data acquisition request to one or more target components in the data processor based on the searched target hidden network port;

and the data transmission module is also used for sending the returned destination data to the server through the searched destination hidden network port and the switch after the destination component responds to the data acquisition request to return the destination data.

9. An electronic device, the electronic device comprising:

one or more processors;

and a memory associated with the one or more processors, the memory for storing program instructions that, when read for execution by the one or more processors, perform the method of any of claims 1-7.

10. A computer-readable storage medium, characterized in that it stores a computer program, which causes a computer to perform the method of any one of claims 1-7.