CN113794587A - Port configuration method and device - Google Patents

Abstract

The specification provides a port configuration method and a port configuration device, and relates to the technical field of communication. A port configuration method is applied to a management node in a server and comprises the following steps: the method comprises the steps that a slot position number of a service node, an equipment number of a network card in the service node and a first configuration file which is stored in the service node and configured aiming at the network card in the service node are obtained, wherein at least two service nodes and at least one screen board are further arranged in a server; determining a service node with a preset type slot position number as a target service node according to the slot position number of the service node; and issuing a second configuration file to the target service node so that the target service node modifies the port number of the port in the network card based on the second configuration file, wherein the port number of the port in the network card, which is connected to the network board and recorded in the second configuration file, is consistent with the port number of the port in the network card, which is connected to the network board and recorded in the first configuration file. By the method, the maintenance efficiency of the server can be improved.

Description

Port configuration method and device

Technical Field

The present disclosure relates to the field of communications technologies, and in particular, to a port configuration method and apparatus.

Background

With the popularity of networks, the use of servers for carrying traffic is also becoming increasingly common. In order to deploy more servers in a smaller space, the development of servers towards high density has emerged in a form of deploying multiple service nodes in one structural framework, which may be referred to as a blade server.

In the blade server, a plurality of deployed service nodes and management nodes are connected to a network board through a backboard to realize data interaction in the server, wherein the data interaction in the server nodes is realized through a plurality of network cards arranged in the server nodes. Due to the high density of the deployment, the service nodes can be divided into a plurality of accommodating spaces in the longitudinal direction, and can also be divided in the transverse direction, such as left and right arrangement. In order to improve the reliability of data interaction of the service nodes, paired ports can be arranged on each network card to connect different network boards, so that the problem of disconnection of the service nodes when one network board fails is solved.

However, in the current application, the service nodes arranged on the left and right are of the same type, and in order to minimize the loss caused by the lengthened line, the first port in a port group is preferentially connected to the network board closer to the port. This will cause the network cards in the two service nodes set left and right, and the network boards connected to the two ports in the port group at the same position are opposite, and at this time, when port-based forwarding or traffic test is set, a forwarding error or a test fault may occur. In order to avoid the above problem, the user needs to perform separate configuration for each of the left and right service nodes, thereby reducing the maintenance efficiency of the server.

Disclosure of Invention

To overcome the problems in the related art, the present specification provides a port configuration method and apparatus.

In combination with the first aspect of the embodiments of the present specification, the present application provides a port configuration method, applied to a management node in a server, including:

the method comprises the steps that a slot position number of a service node, an equipment number of a network card in the service node and a first configuration file which is stored in the service node and configured aiming at the network card in the service node are obtained, wherein at least two service nodes and at least one screen board are further arranged in a server;

determining a service node with a preset type slot position number as a target service node according to the slot position number of the service node;

and issuing a second configuration file to the target service node so that the target service node modifies the port number of the port in the network card based on the second configuration file, wherein the port number of the port in the network card, which is connected to the network board and recorded in the second configuration file, is consistent with the port number of the port in the network card, which is connected to the network board and recorded in the first configuration file.

Optionally, the method further includes:

acquiring system information of a service node;

before issuing the second configuration file to the target service node, the method further comprises the following steps:

and determining a second configuration file corresponding to the system information according to the system information.

Optionally, the method further includes:

acquiring system information of a service node;

before issuing the second configuration file to the target service node, the method further comprises the following steps:

and exchanging port numbers of a pair of ports of the network card in the acquired first configuration file according to the selected network card to generate a second configuration file.

Further, the method further comprises:

and if the service node is determined not to be provided with the system, generating an alarm message.

Optionally, after generating the second configuration file, the method further includes:

the generated second configuration file is stored.

In combination with the second aspect of the embodiments of the present specification, the present application provides a port configuration apparatus, applied to a management node in a server, including:

the system comprises an acquisition unit, a server and a management unit, wherein the acquisition unit is used for acquiring a slot position number of a service node, an equipment number of a network card in the service node and a first configuration file which is stored in the service node and configured aiming at the network card in the service node, and the server is also provided with at least two service nodes and at least one screen;

the determining unit is used for determining a service node with the slot position number of a preset type as a target service node according to the slot position number of the service node;

and the sending unit is used for issuing a second configuration file to the target service node so that the target service node modifies the port number of the port in the network card based on the second configuration file, wherein the port number of the port in the network card, which is recorded in the second configuration file and is connected to the network board, is consistent with the port number of the port in the network card, which is recorded in the first configuration file and is connected to the network board.

Optionally, the obtaining unit is further configured to obtain system information of the service node;

the device also comprises:

and the searching unit is used for determining a second configuration file corresponding to the system information according to the system information.

Optionally, the obtaining unit is further configured to obtain system information of the service node;

the device also comprises:

and the generating unit is used for interchanging port numbers of a pair of ports of the network card in the acquired first configuration file according to the system information and the selected network card so as to generate a second configuration file.

Optionally, the apparatus further includes:

and the alarm unit is used for generating an alarm message if the service node is determined not to be provided with the system.

Optionally, the apparatus further includes:

and the storage unit is used for storing the generated second configuration file.

The technical scheme provided by the implementation mode of the specification can have the following beneficial effects:

in the embodiment of the present specification, for a server provided with at least two service nodes and at least two network boards, based on the obtained slot numbers of the service nodes, port numbers of ports included in port groups of the network boards located at the same position in the two service nodes arranged left and right are modified, and the port numbers of the ports connected to one network board in the port groups are kept consistent, so that the two service nodes arranged left and right can implement configuration of different service nodes through the same test script or forwarding policy during port test or data forwarding, and maintenance efficiency of the server is improved.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the specification.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present specification and together with the description, serve to explain the principles of the specification.

FIG. 1 is a schematic diagram of a server according to the present application;

FIG. 2 is a front view of a server to which the present application relates;

FIG. 3 is a rear view of a server to which the present application relates;

FIG. 4 is a flow chart of a method of port configuration to which the present application is directed;

FIG. 5 is a schematic diagram of a configuration of a modified server to which the present application is directed;

fig. 6 is a schematic structural diagram of a port configuration device according to the present application.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present specification.

The application provides a port configuration method which is applied to a management node in a server.

In a server, as shown in fig. 1, the space of the server can be divided into a front space and a back space by a back board located at a middle position, so as to accommodate different functional modules.

At least two service nodes and at least one network board may be disposed in one server, for example, as shown in fig. 2-3, 8 service nodes, namely service node 1 to service node 8, are disposed on the front side of the server, 4 network boards are disposed on the back side of the server, and a management node is further disposed on the back side of the server. The service nodes can be used as storage nodes or computing nodes to realize corresponding functions, and a fan module, a power supply module and the like can be arranged on the rear side of the server to dissipate heat and supply power to the server. Through the connector and the internal circuit arranged on the backboard, data interaction between the service node positioned at the front side and the screen board and the management node positioned at the rear side can be realized, and the power module supplies power to the fan module, the service node, the management node, the screen board and the like.

Network cards are arranged on the service nodes, wherein the number of the network cards, the port groups arranged on the network cards and the ports included in the port groups can be set according to actual requirements, and no limitation is imposed on the configuration.

After the server is powered on, the management node may obtain the slot numbers of the service nodes according to the positions of the service nodes, for example, the slot numbers are sequentially set from bottom to top and from left to right, that is, at the front side of the server shown in fig. 2, the slot numbers are sequentially ordered from the service node 1 at the lower left corner to the service node 8 at the upper right corner, namely, the slot numbers 1 to 8 are respectively. Based on the above distribution manner, it can be seen that the slot numbers of the service nodes located on the left side of the server are odd numbers, and the slot numbers of the service nodes located on the right side of the server are even numbers.

For example, as shown in fig. 1, two network cards may be disposed on a service node, two port groups are disposed on each network card, and two ports are disposed in one port group. In order to implement backup connection of service node data interaction, two ports in a port group need to be connected to different network boards through a backplane respectively. However, in the server, the service nodes with the same function generally adopt the same model, the network card and the port of the two service nodes are relatively located at the same position in the left and right service nodes in the same row, and in some cases, the ports located at the same position in the service nodes are not necessarily connected to the same network board due to the design requirement of the backplane. It should be noted that the same applies to the case where there is only one board in the server, because in this case, there will be one port connected to the board on the network card, and the other board will be floating. At this time, the network cards on both sides may also have the situation that the ports at the same position are not connected to the same network board.

For example, as shown in fig. 1, the network card 11 on the service node 1 needs to be connected to a first network board and a third network board respectively, where a port 11A in a port group (a port group is indicated by a dashed box in the figure) of the network card 11 is connected to the first network board, and a port 11B is connected to the third network board. Correspondingly, the network card 21 on the service node 2 also needs to be connected to the first network board and the third network board, where the port 21A in the port group of the network card 21 is connected to the third network board, and the port 21B is connected to the first network board. It can be seen that, in different service nodes, the ports at the same position in the port group are connected to different network boards, and this difference will increase the complexity of the service node configuration. For example, when performing a traffic test, it is necessary to test the connection reliability between a traffic from a service node to a specific network board, and at this time, at least two sets of configuration files need to be set for the service node, and are respectively applicable to the left service node and the right service node, which undoubtedly increases the operation of configuring the server and reduces the maintenance efficiency of the server.

Based on the above server structure, a port configuration method according to the present application, as shown in fig. 4, includes:

s100, acquiring a slot number of a service node, a device number of a network card in the service node and a first configuration file which is stored in the service node and configured for the network card in the service node.

After the server is started, the Management node may detect the server and each service node, and obtain parameters of the server and each service node and a configuration file for the service node, and such data interaction may be completed through communication between the Management node and a BMC (Baseboard Management Controller). The parameters may include a slot number of the service node and a device number already allocated to the network card, and the configuration file may be a first configuration file applied by the current service node. The first configuration file may include information such as a device number of the network card and an IP (Internet Protocol) address. The parameters and the configuration file may be acquired through data interaction based on various management interfaces or management protocols, for example, based on an HTTP Protocol (hypertext Transfer Protocol) via a RESTful (REpresentational State Transfer) interface or a Redfish interface.

And after the parameters of the service node and the first configuration file are acquired, the acquired information can be displayed through the management interface, so that a worker can determine the configuration condition of the current service node.

S101, determining a service node with a preset equipment number as a target service node according to the slot position number of the service node.

After the management node obtains the parameters of the server, the position of the service node in the server, namely the slot number, can be determined. The slot numbers are allocated to the service nodes one by one based on detection and allocation after the server is powered on. Due to the fact that port inconsistency exists between the service node located on the left side of the server and the service node located on the right side of the server, when the port inconsistency is determined, distinguishing can be conducted according to the equipment numbers of the service nodes in the server. For the configuration of the port, the configuration information in the right service node may be modified based on the configuration information in the left service node, or the configuration information in the left service node may also be modified based on the configuration information in the right service node, and a specific modification manner may not be limited.

At this time, a service node of a preset type may be determined as a target service node in the management node, where the preset type may be set in various ways. For example, in a case where the manner of deploying the service node in the server is relatively fixed, the preset type may be pre-stored in the management node as a default value, and in addition, in combination with the management interface stored in the management node mentioned above, the preset type may be determined based on a selection made by the user in the management interface. The preset type can be divided into a plurality of forms, such as distinguishing by odd and even of slot numbers, selecting one (odd or even) service node as a target service node, and dividing into selected or non-selected service nodes based on whether a worker selects on the management interface.

For example, the preset type may be set based on the slot number where the service node is located, that is, the service node with the even slot number. Therefore, in the server shown in fig. 2, a service node with an even slot number on the right side is taken as a target service node.

After the target service node is determined, the current configuration of the target service node needs to be modified, that is, the modification is performed according to the first configuration file. The configuration file contains a device number for identifying a network card on the service node, for example, for each service node, the network card 11 is denoted as ENS1, the network card 12 is denoted as ENS2, and the configuration file also contains port numbers, for example, the port 11A of the network card 11 is denoted as F0, and the port 11B is denoted as F1. In summary, the ports on a service node may be uniquely labeled, for example, the port 11A on the network card 11 may be labeled ENS 1-F0.

Due to the arrangement of the main network board and the standby network board, in the first configuration file acquired by the management node from the service node 1, the port 11A of the network card 11 is connected to the first network board, the port 11B of the network card 11 is connected to the third network board, and in the first configuration file acquired by the service node 2, the port 21A of the network card 21 is connected to the third network board, and the port 21B of the network board 21 is connected to the first network board.

And S102, issuing a second configuration file to the target service node so that the target service node modifies the port number of the port in the network card based on the second configuration file.

After the management node generates or finds a second configuration file capable of modifying the port of the port in the network card, the second configuration file is sent to the selected target service node, so that the target service node modifies the configuration information stored in the target service node again after receiving the second configuration file, and restarts the service node after modification, so that the configuration information of the service node becomes effective.

The port number of the port in the network card connected to the network board recorded in the second configuration file is consistent with the port number of the port in the network card connected to the network board recorded in the first configuration file. That is, the port number setting shown in fig. 5 is formed, and it can be seen from the figure that, based on the modification of the second configuration file, the port number corresponding to the port 21A of the network card 21 in the service node 2 is switched to be connected to the third network board, i.e. from ENS1F0 to ENS1F1, and the port number corresponding to the port 21B of the network card 21 in the service node 2 is switched to be connected to the first network board, i.e. from ENS1F1 to ENS1F 0. Otherwise, the network card 12 and the network card 22 are modified similarly and will not be described.

After the second configuration file is issued and the service node performs configuration based on the second configuration file, the service node may execute a restart procedure to generate the configuration, thereby completing modification of the port number in the service node.

Therefore, the ports connected to the same network board are set to be the same port number, so that when a worker configures the server, the configuration can be completed based on the same port number without considering the problem that the connection relationship between the ports and the network board between the service nodes arranged on the left side and the right side is inconsistent due to the design of the back board, the relevant configurations issued in the process test or interface forwarding-based scene can be classified into consistency, and the maintenance efficiency of the server is improved.

Specifically, in order to modify the port number in the target service node, optionally, the method further includes:

s103, acquiring system information of the service node.

The management node may obtain information related to the operating system currently loaded by the service node based on data interaction with the service node, where the information is referred to as system information and may include an operating system type.

Before step S102, issuing the second configuration file to the target service node, the method further includes:

S104A, determining a second configuration file corresponding to the system information according to the system information.

Because different operating systems will cause different formats, contents, and storage paths of configuration files for performing the service node, it is necessary to search for a second configuration file corresponding to an operating system applied by the service node according to system information of the service node. For example, if the operating system of the service node 2 is Linux, the configuration file corresponding to Linux may be found as the second configuration file.

Optionally, in order to modify the port number in the target service node, the method further includes:

s103, acquiring system information of the service node.

Before step S102, issuing the second configuration file to the target service node, the method further includes:

S104B, interchanging port numbers of a pair of ports of the network card in the acquired first configuration file according to the system information and the selected network card, and generating a second configuration file.

When the worker manages the service nodes, the worker may select which network cards need to perform port number modification operation based on the requirement, and at this time, the worker may select on a management page provided by the management node to specify a specific network card of one service node, for example, only the port 21A and the port 21B on the network card 21 of the service node 2 may be switched.

At this time, since the configuration file is modified according to the selection of the worker, the unified configuration file cannot be applied, and the management node needs to modify the configuration file based on the acquired first configuration file to generate a second configuration file. Because the first configuration file is acquired from the service node, a uniform configuration file does not need to be directly selected based on the system information.

Then, the management node may modify the acquired first configuration file to generate a second configuration file for modifying the port. In addition, because different operating systems may have different content statements in the configuration file, in order to find the configuration information of the port in the configuration file, the position of the corresponding port content in the configuration file may be recorded based on the system information, so that the location of the modified position is quickly located, and the delay caused by traversal is avoided.

After finding the corresponding port configuration, for the form of the master/slave network board, the port numbers of the two ports in one port group may be exchanged, that is, the port number of the port 21A is modified to ENS1F1 in the service node 2 network card 21, and the port number of the port 21B is modified to ENS1F 0.

When the server is powered on and starts to work, the system may not be installed in the service node, and the specific configuration mode cannot be determined because the service node cannot complete the configuration. Therefore, further, the method further comprises:

and S105, if the service node is determined not to be provided with the system, generating an alarm message.

After the management node detects the service node through the BMC, the service node can be confirmed to not finish the installation of the operating system. At this time, the management node may generate an alarm message to display on the management page that the current operating system of the service node is absent, and prompt the staff that the configuration cannot be completed temporarily.

Optionally, after the step S104B of generating the second configuration file, the method further includes:

and S106, storing the generated second configuration file.

After the second configuration file is generated for the service node 2, it may be stored in the management node. And when the subsequent service nodes with even slot numbers are targeted, the management node can actively adapt the second configuration file to configure the ports of other service nodes. In addition, a second configuration file that has been stored may also be displayed in the management interface, and when the management node needs to perform port configuration on the next service node, for example, the service node 4, the second configuration file may be selected to complete configuration.

Therefore, in the process of modifying the port number, the management node does not need to repeatedly execute the processes of analyzing and modifying the first configuration file, and can directly select the second configuration file acquired after modification only by one operation of analyzing and modifying under the condition that the service nodes are the same.

In addition, if a plurality of servers are included in the service system and each server selects the same type of service node, then after the second configuration file is stored, synchronization can be performed among the plurality of servers, and the time consumed by repeated configuration is further reduced.

Correspondingly, the present application provides a port configuration apparatus, applied to a management node in a server, as shown in fig. 6, including:

the system comprises an acquisition unit, a server and a management unit, wherein the acquisition unit is used for acquiring a slot position number of a service node, an equipment number of a network card in the service node and a first configuration file which is stored in the service node and configured aiming at the network card in the service node, and the server is also provided with at least two service nodes and at least one screen;

the determining unit is used for determining a service node with a preset equipment number as a target service node according to the slot position number of the service node;

and the sending unit is used for issuing a second configuration file to the target service node so that the target service node modifies the port number of the port in the network card based on the second configuration file, wherein the port number of the port in the network card, which is recorded in the second configuration file and is connected to the network board, is consistent with the port number of the port in the network card, which is recorded in the first configuration file and is connected to the network board.

Optionally, the obtaining unit is further configured to obtain system information of the service node;

the device also comprises:

and the searching unit is used for determining a second configuration file corresponding to the system information according to the system information.

Optionally, the obtaining unit is further configured to obtain system information of the service node;

the device also comprises:

and the generating unit is used for interchanging port numbers of a pair of ports of the network card in the acquired first configuration file according to the system information and the selected network card so as to generate a second configuration file.

Optionally, the apparatus further includes:

and the alarm unit is used for generating an alarm message if the service node is determined not to be provided with the system.

Optionally, the apparatus further includes:

and the storage unit is used for storing the generated second configuration file.

The technical scheme provided by the implementation mode of the specification can have the following beneficial effects:

in the embodiment of the present specification, for a server provided with at least two service nodes and at least two network boards, based on the obtained slot numbers of the service nodes, port numbers of ports included in port groups of the network boards located at the same position in the two service nodes arranged left and right are modified, and the port numbers of the ports connected to one network board in the port groups are kept consistent, so that the two service nodes arranged left and right can implement configuration of different service nodes through the same test script or forwarding policy during port test or data forwarding, and maintenance efficiency of the server is improved.

It will be understood that the present description is not limited to the precise arrangements described above and shown in the drawings, and that various modifications and changes may be made without departing from the scope thereof.

The above description is only for the purpose of illustrating the preferred embodiments of the present disclosure and is not to be construed as limiting the present disclosure, and any modifications, equivalents, improvements, etc. made within the spirit and principle of the present disclosure are intended to be included within the scope of the present disclosure.

Claims (10)

1. A port configuration method is applied to a management node in a server, and comprises the following steps:

the method comprises the steps that a slot position number of a service node, an equipment number of a network card in the service node and a first configuration file which is stored in the service node and configured aiming at the network card in the service node are obtained, wherein the server is also provided with at least two service nodes and at least one screen board;

determining a service node with the slot position number of a preset type as a target service node according to the slot position number of the service node;

and issuing a second configuration file to the target service node so that the target service node modifies the port number of the port in the network card based on the second configuration file, wherein the port number of the port in the network card, which is recorded in the second configuration file and is connected to the network board, is consistent with the port number of the port in the network card, which is recorded in the first configuration file and is connected to the network board.

2. The method of claim 1, further comprising:

acquiring system information of a service node;

before issuing the second configuration file to the target service node, the method further includes:

and determining a second configuration file corresponding to the system information according to the system information.

3. The method of claim 1, further comprising:

acquiring system information of a service node;

before issuing the second configuration file to the target service node, the method further includes:

and interchanging port numbers of a pair of ports of the network card in the acquired first configuration file according to the system information and the selected network card to generate a second configuration file.

4. The method of claim 2 or 3, further comprising:

and if the service node is determined not to be provided with the system, generating an alarm message.

5. The method of claim 3, after generating the second configuration file, further comprising:

the generated second configuration file is stored.

6. A port configuration device applied to a management node in a server comprises:

the system comprises an acquisition unit, a server and a management unit, wherein the acquisition unit is used for acquiring a slot position number of a service node, an equipment number of a network card in the service node and a first configuration file which is stored in the service node and configured aiming at the network card in the service node, and the server is also provided with at least two service nodes and at least one screen board;

the determining unit is used for determining a service node with the slot position number of a preset type as a target service node according to the slot position number of the service node;

and the sending unit is used for issuing a second configuration file to the target service node so that the target service node modifies the port number of the port in the network card based on the second configuration file, wherein the port number of the port in the network card, which is connected to the network board and recorded in the second configuration file, is consistent with the port number of the port in the network card, which is connected to the network board and recorded in the first configuration file.

7. The apparatus of claim 6,

the acquiring unit is further configured to acquire system information of the service node;

the device, still include:

and the searching unit is used for determining a second configuration file corresponding to the system information according to the system information.

8. The apparatus of claim 6,

the acquiring unit is further configured to acquire system information of the service node;

the device, still include:

and the generating unit is used for interchanging port numbers of a pair of ports of the network card in the acquired first configuration file according to the system information and the selected network card so as to generate a second configuration file.

9. The apparatus of claim 7 or 8, further comprising:

and the alarm unit is used for generating an alarm message if the service node is determined not to be provided with the system.

10. The apparatus of claim 8, further comprising:

and the storage unit is used for storing the generated second configuration file.

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