CN109542479A - A kind of the firmware method for refreshing and system of multi-cascade server - Google Patents

Abstract

This application discloses a kind of firmware method for refreshing of multi-cascade server and systems, this method comprises: obtaining the nodal information for the GPU BOX node connecting with host by host；According to nodal information, the BMC version for the GPU BOX node each connecting with host is read；Judge whether BMC version is consistent with the newest BMC file in database；Otherwise, according to the newest BMC file in database, firmware update is carried out to each GPU BOX node connecting with host.The system includes: that nodal information obtains module, BMC version read module, first judgment module and update module.The high degree of automation of this method and system, test coverage are high.It can be realized automation firmware by this method and system to refresh, be conducive to very high testing efficiency and test accuracy.

Description

A kind of the firmware method for refreshing and system of multi-cascade server

Technical field

This application involves server product the field of test technology, refresh more particularly to a kind of firmware of multi-cascade server Method and system.

Background technique

To meet the high-end IT application such as cloud computing, big data, data mining, deep learning, gradually it has been born based on PCIe 2U PCIe GPU (Graphics Processing Unit, graphics processor) the equipment pondization of Switch chip development services Device, this server are primary server and one or more multi-cascade servers constituted from server.In this multi-cascade service In device framework, cpu resource uses generic server as host, and BOX (that is: from server) carry GPU, each BOX support 4 A GPU, single host can connect 1-8 BOX.In multi-cascade server architecture, in multiple GPU BOX of host institute carry Firmware refreshed, be important work.

Currently, to the method that the firmware in multiple GPU BOX of host institute carry is refreshed, usually: machine just Under normal operating status, by manually carrying out firmware refreshing to each GPU BOX node.

However, this method for manually carrying out firmware refreshing, is easy error, and refreshing efficiency is too low, causes to test Low efficiency.When again including especially a variety of firmwares when host carry multiple GPU BOX or in multiple GPU BOX, The method for manually refreshing firmware at present just more influences to refresh efficiency, and has been also easier to error, to influence test effect Rate.

Summary of the invention

This application provides a kind of firmware method for refreshing of multi-cascade server and systems, multistage in the prior art to solve The problem of connection server firmware refreshing low efficiency, easy test generation error.

In order to solve the above-mentioned technical problem, the embodiment of the present application discloses following technical solution:

A kind of firmware method for refreshing of multi-cascade server, the method are applied to the GPU that host connects the host The refreshing of BOX node, which comprises

The nodal information for the GPU BOX node connecting with the host is obtained by host, the nodal information includes: section The IP address of point；

According to the nodal information, the BMC (Baseboard for the GPU BOX node each connecting with the host is read Management Controller, baseboard management controller) version；

Judge whether the BMC version is consistent with the newest BMC file in database；

If not, according to the newest BMC file in database, to each GPU BOX node being connect with the host into Row firmware update.

Optionally, the newest BMC file according in database saves each GPU BOX connecting with the host Point carries out firmware update, specifically:

According to the newest BMC file in database, BMC brush is carried out to each GPU BOX node connecting with the host Newly, FRU (Field Replaceable Unit, live replaceable unit) refresh and RTC (Real-time clock, in real time Clock, for system clock to be arranged) time setting.

Optionally, according to the nodal information, the BMC version for the GPU BOX node each connecting with the host is read Before, the method also includes:

Judge whether the communication for the GPU BOX node each connecting with the host is normal；

If so, performing the next step rapid；

If not, issuing the prompt of communication abnormality.

Optionally, the whether normal method of communication of the GPU BOX node for judging each to connect with the host, packet It includes:

Obtain the quantity for the GPU BOX node connecting with the host；

Judge the quantity of GPU BOX node being connect with the host whether with the GPU BOX node that is prestored in database Quantity it is consistent；

If so, determining that the communication for the GPU BOX node each connecting with the host is normal；

If not, determining the communication abnormality for the GPU BOX node that at least one connect with the host.

Optionally, according to the newest BMC file in database, to each GPU BOX node being connect with the host into After row firmware update, the method also includes:

According to updated firmware in each GPU BOX node being connect with the host, upload related to firmware update Journal file.

Optionally, before the nodal information that the GPU BOX node connecting with the host is obtained by host, the method Further include:

The BMC network interface and common network interface of host, and, the network interface for the GPU BOX node each being connect with the host and Common network interface is arranged at same network segment.

A kind of firmware updating system of multi-cascade server, the system are applied to the GPU that host connects the host The refreshing of BOX node, the system comprises:

Nodal information obtains module, and the node for obtaining the GPU BOX node connecting with the host by host is believed Breath, the nodal information includes: the IP address of node；

BMC version read module, for reading the GPU BOX each connecting with the host according to the nodal information The BMC version of node；

First judgment module, for judging whether the BMC version is consistent with the newest BMC file in database；

Update module, for when the newest BMC file in the BMC version and database is inconsistent, according to database In newest BMC file, firmware update is carried out to each GPU BOX node for connecting with the host.

Optionally, the system also includes the second judgment modules, for judging each GPU connecting with the host Whether the communication of BOX node is normal, if so, starting BMC version read module, otherwise issues the prompt of communication abnormality.

Optionally, second judgment module includes:

Number of nodes acquiring unit, for obtaining the quantity for the GPU BOX node connecting with the host；

Communicate judging unit, the quantity of the GPU BOX node for judging to connect with the host whether in database The quantity of the GPU BOX node prestored is consistent, if unanimously, determining the logical of the GPU BOX node each connecting with the host Letter is normal, otherwise, it is determined that the communication abnormality of at least one GPU BOX node connecting with the host.

It optionally, further include network segment setting unit in the system, for by the BMC network interface and common network interface of host, with And the GPU BOX node each being connect with the host network interface and common network interface be arranged in same network segment.

The technical solution that embodiments herein provides can include the following benefits:

The application provides a kind of firmware method for refreshing of multi-cascade server, and this method is obtained first by host and host The nodal information of the GPU BOX node of connection；Secondly, reading the GPU BOX node each connecting with host according to nodal information BMC version；Then judge whether BMC version consistent with the newest BMC file in database, if it is without firmware more Newly, if not, carrying out firmware update to each GPU BOX node according to newest BMC file.The application is obtained all by host The IP address of GPU BOX node, it can be ensured that get all nodes connecting with host, test coverage is higher, then passes through All GPU BOX nodes that host pair is connect with host carry out firmware and refresh automatically, can greatly improve firmware and refresh efficiency, from And improve testing efficiency.Since the application can judge automatically the BMC version of node and refresh, whole process is not necessarily to manual intervention, can It using a part as host test, is added in hosted diagnostic process, is conducive to improve testing efficiency, improves product quality.

The application also provides a kind of firmware updating system of multi-cascade server, which mainly includes that nodal information obtains Module, BMC version read module, first judgment module and update module.Module is obtained by nodal information to get and host The information of the GPU BOX node of connection, predominantly IP address read the BMC version of each node according to the IP address and carry out Refresh.The IP address of all nodes connecting with host can be got by obtaining module by nodal information, be convenient for subsequent progress Firmware refreshes, and test coverage is higher, can be realized certainly by BMC version read module, first judgment module and update module The firmware version of dynamic refresh node can greatly improve the refreshing efficiency of each node firmware compared to manually refreshing, thus Greatly improve testing efficiency.

It should be understood that above general description and following detailed description be only it is exemplary and explanatory, not The application can be limited.

Detailed description of the invention

The drawings herein are incorporated into the specification and forms part of this specification, and shows the implementation for meeting the application Example, and together with specification it is used to explain the principle of the application.

In order to illustrate the technical solutions in the embodiments of the present application or in the prior art more clearly, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, for those of ordinary skill in the art Speech, without creative efforts, is also possible to obtain other drawings based on these drawings.

Fig. 1 is a kind of flow diagram of the firmware method for refreshing of multi-cascade server provided by the embodiment of the present application；

Fig. 2 is the process signal of the firmware method for refreshing of another kind multi-cascade server provided by the embodiment of the present application Figure；

Fig. 3 is the flow chart of the exemplary application provided in the embodiment of the present application；

Fig. 4 is a kind of structural schematic diagram of the firmware updating system of multi-cascade server provided by the embodiment of the present application.

Specific embodiment

In order to make those skilled in the art better understand the technical solutions in the application, below in conjunction with the application reality The attached drawing in example is applied, the technical scheme in the embodiment of the application is clearly and completely described, it is clear that described implementation Example is merely a part but not all of the embodiments of the present application.Based on the embodiment in the application, this field is common The application protection all should belong in technical staff's every other embodiment obtained without making creative work Range.

The application in order to better understand explains in detail presently filed embodiment with reference to the accompanying drawing.

Embodiment one

Referring to Fig. 1, Fig. 1 is a kind of process of the firmware method for refreshing of multi-cascade server provided by the embodiment of the present application Schematic diagram.As shown in Figure 1, the firmware method for refreshing of multi-cascade server mainly comprises the following processes in the present embodiment:

S2: the nodal information for the GPU BOX node connecting with host is obtained by host.

Wherein, nodal information includes: the IP address of node.In multi-cascade server architecture, host usually can be with carry 1-8 GPU BOX node.The present embodiment is obtained by host each first in order to carry out firmware refreshing to each GPU BOX node The relevant information of a GPU BOX node, the predominantly IP address of node.It, can by obtaining the IP address of each GPU BOX node Test coverage is improved, in order to avoid miss the node of any one and host carry, it is ensured that the subsequent BMC version for reading all nodes And carry out firmware refreshing.

Method in the present embodiment can be used as a part of host test, be added in hosted diagnostic process.Therefore, it executes When step S2, nodal information acquisition can be carried out when the GPU BOX node that host and host are connected is in open state, That is: when multi-cascade server architecture is switched on and runs, the nodal information of each GPU BOX node is obtained.

After the nodal information for getting each node, step S4 is executed: each being connect with host according to nodal information, reading The BMC version of GPU BOX node.

Specifically, the BMC version for the GPU BOX node each connecting with host can be read by the IPMI of host.This Embodiment accesses GPU BOX node by host ip MI, to read the BMC version for the GPU BOX node each connecting with host This, GPU BOX node is only passively accepted the interview.

S5: judge whether BMC version is consistent with the newest BMC file in database.

Before the method for executing the present embodiment, need the BMC file of latest edition, FRU information etc. being maintained into database In, therefore, in the database of multi-cascade server architecture all prestore newest BMC file.It is each connect with host by judgement GPU BOX node BMC version it is whether consistent with newest BMC file, it is determined whether need to GPU BOX node carry out firmware It updates.If consistent with the newest BMC file in database with the BMC version of the GPU BOX node of host connection, do not need Firmware update is carried out to the GPU BOX node, it is no to then follow the steps S6: according to the newest BMC file in database, to it is each with The GPU BOX node of host connection carries out firmware update.

Carrying out firmware update to each GPU BOX node in the present embodiment includes: to be updated to BMC, FRU and RTC.Step The specific execution method of S6 are as follows: according to the newest BMC file in database, each GPU BOX connecting with the host is saved Point carries out BMC refreshing, FRU refreshes and RTC time setting.

It should be noted that further including step S1 before executing the present embodiment step S2: the BMC network interface of host and common Network interface, and, the network interface and common network interface of the GPU BOX node each connecting with host are arranged at same network segment.Pass through master Machine, which is updated each node firmware, is necessary to ensure that each network interface is in same network segment, otherwise can not carry out firmware update.

Embodiment two

On the basis of embodiment shown in Fig. 1 referring to fig. 2, Fig. 2 is that another kind provided by the embodiment of the present application is multistage Join the flow diagram of the firmware method for refreshing of server.As shown in Figure 2, the present embodiment further includes step before step S 4 S3: whether the communication for the GPU BOX node that judgement is each connect with host is normal.If communication is normal, S4 is thened follow the steps, it is no It then issues the prompt of communication abnormality and terminates operation.

Specifically, step S3 is comprised the following processes again:

S31: the quantity for the GPU BOX node connecting with host is obtained.

S32: the quantity of GPU BOX node that judgement is connect with host whether with the GPU BOX node that is prestored in database Quantity it is consistent.

S33: if so, determining that the communication for the GPU BOX node each connecting with host is normal.

S34: if not, determining the communication abnormality for the GPU BOX node that at least one connect with host.

By above step S31-S34, the communication shape of host Yu each GPU BOX node can be judged from the angle of number of nodes Condition prevents having the GPU BOX node missed when obtaining nodal information in step S2, it is ensured that subsequent to be able to carry out entire multi-cascade clothes Being engaged in, the BMC version of all GPU BOX nodes judges in device framework and firmware refreshes, so that test coverage is further increased, And then improve test accuracy and testing efficiency.

With continued reference to Fig. 2 it is found that the present embodiment further includes step S7 after step S6: being connect according to each with host Updated firmware in GPU BOX node uploads journal file relevant to firmware update.

After carrying out firmware refreshing to all GPU BOX nodes, the upload of correlation log file is carried out, so that monitoring system System can be inquired by database and show the details of each operating procedure.

The part that the embodiment is not described in detail may refer to embodiment one shown in FIG. 1, and details are not described herein.

Below by taking an exemplary application as an example, the firmware method for refreshing of multi-cascade server in the application is described.Referring to Known to Fig. 3:

1) all GPU BOX nodes being connect by host and with host assemble, and scan binding.

The sequence number of host and GPU BOX node can be scanned into database by scanner, to realize host With the one-to-many binding between GPU BOX node, the convenient quantity for obtaining GPU BOX node subsequently through diagnostic program.

2) host server in multi-cascade server architecture is powered on and is switched on.

3) PXE starting is carried out.

That is: under PXE environment, all GPU BOX nodes for being connect by host-initiated with host.

4) enter system diagnostics.

5) GPU BOX number of nodes is read by host.

6) newest BMC file is read from database by host.

7) firmware version information for the GPU BOX node currently each connecting with host is obtained.

8) whether the firmware for judging each GPU BOX node is latest edition.

9) if it is latest edition, the journal file about version is uploaded, refreshing terminates.

10) if not latest edition, be not to firmware first latest edition GPU BOX node carry out BMC, FRU and RTC refreshes, and uploads the journal file about version after refreshing again, refreshing terminates.

Embodiment three

On Fig. 1-embodiment illustrated in fig. 3 basis referring to fig. 4, Fig. 4 is that one kind provided by the embodiment of the present application is more The structural schematic diagram of the firmware updating system of Cascade Server.As shown in Figure 4, in the present embodiment multi-cascade server firmware brush New system specifically includes that nodal information obtains module, four part of BMC version read module, first judgment module and update module.

Wherein, nodal information obtains the node letter that module is used to obtain the GPU BOX node connecting with host by host Breath, nodal information includes: the IP address of node；BMC version read module is used to read and each connect with host according to nodal information The BMC version of the GPU BOX node connect；First judgment module is used to judge whether BMC version to be literary with the newest BMC in database Part is consistent；Update module is used for when the newest BMC file in BMC version and database is inconsistent, according in database most New BMC file carries out firmware update to each GPU BOX node connecting with host.

The IP address of all nodes connecting with host can be got by obtaining module by nodal information, be convenient for it is subsequent into Row firmware refreshes, and test coverage is higher.It can be realized by BMC version read module, first judgment module and update module The firmware version of automatic refresh node can greatly improve the refreshing efficiency of each node firmware compared to manually refreshing, from And greatly improve testing efficiency.

Further, this system further includes the second judgment module, the GPU BOX node for judging each to connect with host Communication it is whether normal, if so, starting BMC version read module, otherwise issue communication abnormality prompt.

Specifically, the second judgment module includes: number of nodes acquiring unit and communication judging unit.Wherein, number of nodes obtains Unit is used to obtain the quantity for the GPU BOX node connecting with host；The GPU that communication judging unit is used to judge to connect with host Whether the quantity of BOX node consistent with the quantity of the GPU BOX node prestored in database, if unanimously, determine each with master The communication of the GPU BOX node of machine connection is normal, otherwise, it is determined that at least one GPU BOX node connecting with host is logical Letter is abnormal.

The setting of second judgment module can further ensure that the communication of host and each node is normal, avoid missing Node is convenient for subsequent disposable carry out firmware version information reading and firmware update, is conducive to further increase test coverage, Improve testing efficiency and test accuracy.

Further, this system further includes having network segment setting unit, for by the BMC network interface and common network interface of host, with And the GPU BOX node each being connect with the host network interface and common network interface be arranged in same network segment.

The working principle and working method of the firmware updating system of multi-cascade server in the present embodiment, in Fig. 1-Fig. 3 institute Elaborated in the embodiment shown, between three can mutual reference, details are not described herein.

The above is only the specific embodiment of the application, is made skilled artisans appreciate that or realizing this Shen Please.Various modifications to these embodiments will be apparent to one skilled in the art, as defined herein General Principle can be realized in other embodiments without departing from the spirit or scope of the application.Therefore, the application It is not intended to be limited to the embodiments shown herein, and is to fit to and the principles and novel features disclosed herein phase one The widest scope of cause.

Claims (10)

1. a kind of firmware method for refreshing of multi-cascade server, which is characterized in that the method is applied to host to the host The refreshing of the GPU BOX node of connection, which comprises

The nodal information for the GPU BOX node connecting with the host is obtained by host, the nodal information includes: node IP address；

According to the nodal information, the BMC version for the GPU BOX node each connecting with the host is read；

Judge whether the BMC version is consistent with the newest BMC file in database；

If not, being consolidated according to the newest BMC file in database to each GPU BOX node being connect with the host Part updates.

2. a kind of firmware method for refreshing of multi-cascade server according to claim 1, which is characterized in that described according to number According to the newest BMC file in library, firmware update is carried out to each GPU BOX node connecting with the host, specifically:

According to the newest BMC file in database, to each GPU BOX node being connect with the host carry out BMC refreshing, FRU refreshes and RTC time setting.

3. a kind of firmware method for refreshing of multi-cascade server according to claim 1, which is characterized in that according to the section Information is put, before the BMC version for reading the GPU BOX node each connecting with the host, the method also includes:

Judge whether the communication for the GPU BOX node each connecting with the host is normal；

If so, performing the next step rapid；

If not, issuing the prompt of communication abnormality.

4. a kind of firmware method for refreshing of multi-cascade server according to claim 3, which is characterized in that the judgement is every The whether normal method of communication of a GPU BOX node being connect with the host, comprising:

Obtain the quantity for the GPU BOX node connecting with the host；

Judge the quantity of GPU BOX node being connect with the host whether the number with the GPU BOX node prestored in database Amount is consistent；

If so, determining that the communication for the GPU BOX node each connecting with the host is normal；

If not, determining the communication abnormality for the GPU BOX node that at least one connect with the host.

5. a kind of firmware method for refreshing of multi-cascade server according to claim 1, which is characterized in that according to database In newest BMC file, after carrying out firmware update to each GPU BOX node for connecting with the host, the method is also Include:

According to updated firmware in each GPU BOX node connecting with the host, day relevant to firmware update is uploaded Will file.

6. according to claim 1 in -5 a kind of any multi-cascade server firmware method for refreshing, which is characterized in that it is logical It crosses before the nodal information that host obtains the GPU BOX node connecting with the host, the method also includes:

The BMC network interface and common network interface of host, and, the network interface for the GPU BOX node each being connect with the host and common Network interface is arranged at same network segment.

7. a kind of firmware updating system of multi-cascade server, which is characterized in that the system is applied to host to the host The refreshing of the GPU BOX node of connection, the system comprises:

Nodal information obtains module, for obtaining the nodal information for the GPU BOX node connecting with the host, institute by host State the IP address that nodal information includes: node；

BMC version read module, for reading the GPU BOX node each connecting with the host according to the nodal information BMC version；

First judgment module, for judging whether the BMC version is consistent with the newest BMC file in database；

Update module, for when the newest BMC file in the BMC version and database is inconsistent, according in database Newest BMC file carries out firmware update to each GPU BOX node connecting with the host.

8. a kind of firmware updating system of multi-cascade server according to claim 7, which is characterized in that the system is also It include: the second judgment module, whether the communication for judging each GPU BOX node connecting with the host is normal, if It is to start BMC version read module, otherwise issues the prompt of communication abnormality.

9. a kind of firmware updating system of multi-cascade server according to claim 8, which is characterized in that described second sentences Disconnected module includes:

Number of nodes acquiring unit, for obtaining the quantity for the GPU BOX node connecting with the host；

Communicate judging unit, the quantity of the GPU BOX node for judging to connect with the host whether with prestored in database GPU BOX node quantity it is consistent, if unanimously, determining the communication of GPU BOX node each connecting with the host just Often, otherwise, it is determined that the communication abnormality of at least one GPU BOX node being connect with the host.

10. a kind of firmware updating system of multi-cascade server according to any in claim 7-9, feature exist In, further include network segment setting unit in the system, for by the BMC network interface and common network interface of host, and, each with it is described The network interface and common network interface of the GPU BOX node of host connection are arranged in same network segment.