CN110471677A - Server cabinet system and its automatic synchronous method - Google Patents
Server cabinet system and its automatic synchronous method Download PDFInfo
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- CN110471677A CN110471677A CN201810446243.6A CN201810446243A CN110471677A CN 110471677 A CN110471677 A CN 110471677A CN 201810446243 A CN201810446243 A CN 201810446243A CN 110471677 A CN110471677 A CN 110471677A
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Abstract
The present invention proposes a kind of server cabinet system and its automatic synchronous method.The automatic synchronous method includes that the first substrate Management Controller of any server in several servers updates the first substrate Management Controller setup parameter of its server according to the first update instruction from user, first substrate Management Controller sends other servers that the second more new command does not receive first update instruction into several servers, and the second substrate Management Controllers of other servers of first update instruction is not received and updates the second substrate Management Controller setup parameter of its server according to updated first substrate Management Controller setup parameter.Wherein, the above-mentioned second more new command includes updated first substrate Management Controller setup parameter.
Description
Technical field
The invention relates to a kind of server cabinet system and its automatic synchronous methods, especially a kind of to have automatically together
Step updates the server cabinet system of the same substrate Management Controller setup parameter function between different server and its automatic
Synchronous method.
Background technique
Server cabinet system includes several servers, and each server has wisdom Platform Management Interface
(Intelligent Platform Management Interface;IPMI), wisdom Platform Management Interface is server admin
The standard architecture of platform.In the element that wisdom Platform Management Interface includes, with substrate manager (Baseboard
Management Controller;BMC) mostly important, substrate manager energy independent work is without being controlled by operating system
Each element in monitoring and control server is (for example including central processing unit, hard disk device, fan type radiating device, power supply
Power supply unit, network connections equipment, etc.) data, such as: temperature, revolving speed, voltage and current value etc..Through wisdom platform
Administration interface (Intelligent Platform Management Interface;IPMI), the management of server cabinet system
Person can understand the functioning condition of each element in server by substrate manager, reach convenient for the mesh of each server of management
's.
However, since server cabinet system may include large number of server.In the application of some clouds storage
In, server cabinet system even includes hundreds of thousands of servers, is penetrating wisdom Platform Management Interface and substrate manager
Understand in server before the functioning condition of each element, the manager of server cabinet system must first set substrate management
Device parameter (BMC configuration), such as: how many server with BMC is connected with each other, how many inductor
It is connected with BMC, setting value of connection etc..When manager is intended to the substrate manager for separately including each server setting ginseng
When number is set as identical, manager needs in a manual fashion seriatim to modify to each server, will so cause Pang
Big time cost, and modify in a manual fashion each server be easy caused because of artificial careless mistake different servers it
Between the inconsistent situation of same baseboard management controller setup parameter.
Summary of the invention
It is a kind of between automatic synchronization update different server the technical problem to be solved by the present invention is to be to provide
The server cabinet system and its automatic synchronous method of same substrate Management Controller setup parameter function.
In order to solve the above technical problems, a kind of server cabinet system includes several servers, several servers
Between interconnecting line and to belong to parallel nodes in same domain, each server includes a storage element and is coupled to above-mentioned
One baseboard management controller of storage element.Storage element includes several baseboard management controller setup parameters.Substrate management
Controller is then to update baseboard management controller setup parameter above-mentioned.Wherein, when any service in several servers
When device is received from the first update instruction of user, the baseboard management controller of the server of first update instruction is received
The baseboard management controller setup parameter of its server is updated according to first update instruction, and receives the service of first update instruction
Device sends other each servers that one second more new command does not receive first update instruction into several servers, and second more
New command includes updated baseboard management controller setup parameter, makes other each servers for not receiving first update instruction
Baseboard management controller the baseboard management controller setup parameter of its server is updated according to the second more new command.
In order to solve the above technical problems, a kind of server cabinet system automatic synchronous method, is suitable for one and includes several clothes
The server cabinet system of business device, and several servers above-mentioned are the parallel nodes belonged in same domain, side above-mentioned
Method includes: a first substrate Management Controller of any server in several servers is according to from the one of user
One more new command updates a first substrate Management Controller setup parameter of its server, first substrate Management Controller sends one
Second more new command does not receive other servers of first update instruction into several servers, and the second more new command includes more
First substrate Management Controller setup parameter after new and do not receive first update instruction other servers one second base
Board management controller updates a second substrate pipe of its server according to updated first substrate Management Controller setup parameter
Manage controller setup parameter.
Compared to the prior art, server cabinet system and its automatic synchronous method of the present invention, tool according to the present invention is certainly
The server cabinet system of dynamic synchronous baseboard management controller setup parameter function and its an embodiment of automatic synchronous method, appoint
The baseboard management controller setup parameter automatic synchronization that user changes can be updated to by the baseboard management controller of one server
Other servers make the baseboard management controller setting all having the same of each server in server system.User
It only needs to set a server, the baseboard management controller setting having the same of each server can be made, and by taking
Business device is updated automatically can reduce the risk that user manually sets each server and causes mistake.Furthermore Mei Yitai
Server can automatically update other servers, without additionally one management server of setting, can reduce hardware cost.
[Detailed description of the invention]
Fig. 1 is the same substrate Management Controller setup parameter function between tool automatic synchronization different server according to the present invention
Server an embodiment schematic diagram.
Same substrate management control of the Fig. 2 between the automatic synchronization different server according to the present invention suitable for server
The flow chart of one embodiment of the method for device setup parameter.
Fig. 3 is the method for the same substrate Management Controller setup parameter between the automatic synchronization different server of Fig. 2
The flow chart of one state sample implementation.
Fig. 4 is the same substrate Management Controller setup parameter between tool automatic synchronization different server according to the present invention
The schematic diagram of one embodiment of the server cabinet system of function.
The schematic diagram of an embodiment of the server cabinet system that Fig. 5 is Fig. 4 when running.
The schematic diagram of another embodiment of the server cabinet system that Fig. 6 is Fig. 4 when running.
Fig. 7 is that the automatic synchronization difference according to the present invention suitable for the server cabinet system comprising several servers takes
The flow chart of one embodiment of the method for the same substrate Management Controller setup parameter between business device.
[specific embodiment]
Fig. 1 is the same substrate Management Controller setup parameter function between tool automatic synchronization different server according to the present invention
Server 1 an embodiment block schematic diagram.Fig. 2 is the automatic synchronization difference service for being suitable for server 1 according to the present invention
The flow chart of one embodiment of the method for the same substrate Management Controller setup parameter between device.Please refer to Fig. 1 and Fig. 2
Shown, server 1 includes baseboard management controller 11 and storage element 12.Baseboard management controller is stored in storage element 12
The quantity of setup parameter, baseboard management controller setup parameter is at least one.Baseboard management controller 11 is coupled to storage element
12, baseboard management controller 11 can set the base of server 1 by the baseboard management controller setup parameter in storage element 12
The setting of board management controller.In this present embodiment, storage element 12 can be the read only memory, such as the electronics formula of erasing can make carbon copies only
It reads memory (EEPROM).
Baseboard management controller 11 includes parameter updating module 111, parameter synchronization module 112 and wisdom Platform Management Interface
(Intelligent Platform Management Interface;IPMI) 113.Baseboard management controller 11 can be by intelligence
Intelligent Platform Management Interface 113 receives the more new command S1(hereinafter referred to as first update instruction S1 from user) and come from
In other servers of the parallel nodes belonged in same domain, (other servers being previously mentioned below are all and server 1 belongs to
Parallel nodes in same domain) baseboard management controller another more new command S3(hereinafter referred to as third more new command
S3), wherein more new command S1, S3 is all the instruction of wisdom Platform Management Interface.Parameter updating module 111 can be updated according to first
Instruction S1 updates the baseboard management controller setup parameter (step S01) in storage element 12 or can be according to third more new command S3
Update the baseboard management controller setup parameter (step S03) in storage element 12.Baseboard management controller setup parameter more
After new, baseboard management controller 11 is again by the substrate of updated baseboard management controller setup parameter setting server 1
Management Controller setting.In this present embodiment, wisdom Platform Management Interface 113 can be IC bus (Inter-
Integrated Circuit;) and/or Local Area Network (Local Area Network I2C;LAN).
Parameter synchronization module 112 is to periodically by judging whether a flag signals are a logic of propositions level and sentence
Whether disconnected parameter updating module 111 according to first update instruction S1 updates baseboard management controller setup parameter (step S04), when
When judging result is "Yes", expression parameter update module 111 updates baseboard management controller according to first update instruction S1 and sets
Parameter, parameter synchronization module 112 can send one by wisdom Platform Management Interface 113 and also refer to for wisdom Platform Management Interface at this time
Other servers that the second more new command S2 enabled is extremely coupled with server 1.Second more new command S2 includes to update according to first
Instruct the updated baseboard management controller setup parameter of S1.
Base this, when user by distal end or directly operation server 1 with change server 1 baseboard management controller set
When, baseboard management controller 11 can receive first update instruction S1, and parameter updating module 111 can execute step S01 to update
Baseboard management controller setup parameter;Then, parameter synchronization module 112 judges out substrate management control when executing step S04
Device setup parameter processed is updated according to first update instruction S1, and parameter synchronization module 112 executes step S05 then to send second
More new command S2 is to other servers, the base for sending the parameter updating module of other servers according to parameter synchronization module 112
The setting of board management its baseboard management controller of controller setup parameter synchronized update;Alternatively, when user not changes server 1
Baseboard management controller setting but change other servers baseboard management controller setting when, baseboard management controller 11
The third more new command S3 from other servers can be received, parameter updating module 111 can execute step S03 to update base
Board management controller setup parameter;Then, according to third more new command S3, parameter synchronization module 112 will not in execution step S04
Judge that baseboard management controller setup parameter is to update (judging result is "No") according to first update instruction S1, at this point, ginseng
Number synchronization module 112 will not send the second more new command S2, and parameter synchronization module 112 can be continually performed step S04, until sentencing
Disconnected result begins to execute step S05 to send the second more new command S2 to other servers when being "Yes".It can or can not be with true features
In this present embodiment, aforesaid base plate Management Controller setup parameter includes a variety of different types of setup parameters, substrate pipe
Reason controller 11 can update in baseboard management controller setup parameter according to first update instruction S1 or third more new command S3
Corresponding setup parameter, and other servers can then update the substrate management of other servers according to the second more new command S2
Corresponding setup parameter in controller setup parameter.For example, baseboard management controller setup parameter above-mentioned may include
Related setup parameter is controlled (for example, according to uniformly may extend away tough body interface (Unified Extensible with hard disk startup
Firmware Interface;UEFI basic input output system or traditional basic input output system (Legacy)
BIOS the start-up mode of hard disk, or the related setup parameter with booting option (boot option), or and Local Area Network) are selected
(LAN) agreement is (for example, make Local Area Network agreement be fixed system or float system (Dynamic Host Configuration
Protocol;DHCP)) related setup parameter.Base this, parameter updating module 111 can be sentenced when receiving more new command S1, S3
The setup parameter updated is needed in disconnected storage element 12, parameter updating module 111 does not update the setting for not meeting more new command S1, S3
Parameter;By first update instruction S1 include booting set of options parameter above-mentioned for, parameter updating module 111 according to first more
New command S1 updates the booting set of options parameter in baseboard management controller setup parameter without updating other setup parameters.To
After the set of options parameter that is switched on updates, updated booting set of options parameter is sent to it again by parameter synchronization module 112
His server;By taking third more new command S3 includes booting set of options parameter above-mentioned as an example, parameter updating module 111 can basis
Third more new command S3 updates the booting set of options parameter in baseboard management controller setup parameter.
In this present embodiment, user can change the baseboard management controller of server 1 by direct operation server 1
Setting or the baseboard management controller setting for changing server 1 in server 1 by far end device line.
In this present embodiment, it is set when parameter updating module 111 updates baseboard management controller according to first update instruction S1
When determining parameter, an enable signal is can be transmitted to parameter synchronization module 112 in parameter updating module 111, and parameter synchronization module 112 is made to exist
It can determine whether out that parameter updating module 111 is according to first update instruction S1 after receiving aforementioned enable signal when executing step S04
Baseboard management controller setup parameter is updated, and then executes step S05.
In another embodiment, please refer to shown in Fig. 1 and Fig. 3, refer to when parameter updating module 111 is updated according to first
After enabling S1 update baseboard management controller setup parameter, parameter updating module 111 sets a flag signals (step above-mentioned
S02), flag signals is made to be changed into the second logic level (for example, " 1 ") by original first logic level (for example, " 0 ");In
This, parameter synchronization module 112 can be by judging whether aforementioned flag signals are a logic of propositions level when executing step S04
(that is, second logic level above-mentioned) judges whether parameter updating module 111 according to first update instruction S1 updates substrate
Management Controller setup parameter, when user changes baseboard management controller setting, parameter synchronization module 112 judges out flag
Mark signal executes step S05 for the second logic level, and resets flag signals after executing step S05, believes flag
Number original first logic level is changed by the second logic level, is that trigger parameter is not same for the flag signals of the first logic level
It walks module 112 and sends the second more new command S2.
On the other hand, when parameter updating module 111 updates baseboard management controller setting ginseng according to third more new command S3
When number, parameter updating module 111 does not set flag signals, and flag signals can be maintained at original first logic level at this time.In
It is that, when user changes the baseboard management controller setting of other servers, parameter synchronization module 112 will not judge flag
Signal is the second logic level (parameter updating module 111 is not carried out step S02), and in other words, parameter synchronization module 112 is in parameter
Update module 111 will not be sent according to third more after updating baseboard management controller setup parameter according to third more new command S3
The updated baseboard management controller setup parameter of new command S3 is to other servers.
It is on the implementation, not identical as the source of third more new command S3 due to first update instruction S1 that (the first update refers to
Enabling S1 is that the unit as produced by the unit inside server 1, inside server 1 above-mentioned is controllable by user's change service
The unit of the baseboard management controller setting of device 1 and generate first update instruction S1, and third more new command S3 is by server 1
Produced by the internal element of other servers in addition), first update instruction S1 and third more new command S3 respectively include to table
Show a bit (can be described as source title bit) in its source, and aforementioned bit is in first update instruction S1 and third more new command
It is different logic levels in S3, for example, distinguished with the first bit of first update instruction S1 and third more new command S3
For indicating its source, the logic level of the first bit of first update instruction S1 can be " 1 ", and the of third more new command S3
The logic level of one bit can be " 0 ".In this, be controlled by inside server 1 user change baseboard management controller setting and
The first bit set of first update instruction S1 can be " 1 ", parameter updating module 111 by the unit for generating first update instruction S1
Flag signals can be set according to the logic level that aforementioned bit is " 1 " when receiving first update instruction S1 (that is, flag is believed
Number it is set as the second logic level), and parameter updating module 111 does not set flag letter then when receiving third more new command S3
Number;Also, parameter synchronization module 112 can be by the source title bit of the second more new command S2 when generating the second more new command S2
It is set as " 0 ", makes source of other baseboard management controllers after receiving the second more new command S2 according to logic level " 0 "
Identify bit without setting flag signals.
In this present embodiment, flag signals can be stored in storage element 12 or with baseboard management controller 11 couple other
Storage element.Baseboard management controller 11 can access storage element above-mentioned to set flag.
In this present embodiment, when parameter synchronization module 112 sends the second more new command S2, parameter synchronization module 112 is
The second more new command S2 is sent in the form of broadcast (broadcast).In another embodiment, parameter synchronization module 112 can refer to
Surely network convention (the Internet Protocol for the server to be sent to;IP) address is sent to the second more new command S2
Specified IP address.Specifically, parameter synchronization module 112 is first sent out in the form of broadcast before sending the second more new command S2
A test signal is sent, after receiving test signal to other servers and returning confirmation signal accordingly, parameter synchronization module 112
The IP address of other servers in same domain is learnt by the server of passback confirmation signal again, at this time parameter synchronization module
112 are again sent to the second more new command S2 other servers for having returned confirmation signal.Base this, parameter synchronization module 112 is only
Second more new command S2 is sent to the BMC of other servers in identical domain (domain).
In this present embodiment, server 1 and to be coupled to other servers of server 1 may include that an identical parameter is clear
Single, parameter updating module 111 can update parameter list above-mentioned when executing step S01 according to first update instruction S1, and
Parameter updating module 111 also can update parameter list above-mentioned according to third more new command S3 when executing step S03.Parameter
Inventory may include the more new record of baseboard management controller setup parameter, such as the update note of hard disk controlling setup parameter above-mentioned
The more new record of record, the more new record of booting set of options parameter or Local Area Network agreement setup parameter;Alternatively, parameter list
It also may include that more new record above-mentioned is added according to the updated baseboard management controller setup parameter of first update instruction S1.
Then, the second more new command S2 may include parameter list above-mentioned, and parameter synchronization module 112 can be by second comprising parameter list
More new command S2 is sent to other servers, makes other servers and updates the setting of its baseboard management controller according to parameter list
Parameter and its own parameter list for being included.
In this present embodiment, when parameter updating module 111 updates baseboard management controller setup parameter (step S01, S03)
When but updating failure, parameter updating module 111 can record turkey above-mentioned, such as turkey above-mentioned is written one
Will (log) shelves carry out manager can according to the turkey recorded except mistake.
In this present embodiment, in step S03, parameter updating module 111 is when receiving the second more new command S2, parameter
Update module 111 can first judge whether the baseboard management controller setup parameter in storage element 12 needs to update, such as parameter
Update module 111 can be than to the baseboard management controller setup parameter and the second more new command S2 base for including in storage element 12
Whether board management controller setup parameter is identical, if parameter updating module 111 judges the substrate management control in storage element 12
Device setup parameter processed needs to update, the baseboard management controller that the beginning of parameter updating module 111 includes according to the second more new command S2
Setup parameter updates the baseboard management controller setup parameter in storage element 12, and more new record is stored in parameter above-mentioned
In inventory.
Fig. 4 is the same substrate Management Controller setup parameter between tool automatic synchronization different server according to the present invention
The schematic diagram of one embodiment of the server cabinet system of function.Fig. 5 and Fig. 6 is respectively the server cabinet system of Fig. 4 in fortune
The schematic diagram of embodiment when making.Here, fig. 4 to fig. 6 is by taking server cabinet system includes four servers as an example, so originally
Invention is not limited, and the quantity for the server that server cabinet system is included may be greater than four.Please refer to Fig. 4 to figure
Shown in 6, server cabinet system includes several servers 1,2,3,4.Several 1,2,3,4 lines of server are in each other.Clothes
Each of business device 1,2,3,4 component having the same, that is, server 2,3,4 and the component having the same of server 1.
It is noted that the interconnecting line and to belong to parallel nodes in same domain, such as Fig. 5 each other of server 1,2,3,4
And shown in Fig. 6, gathered together in (cluster) as composed by server 1,2,3,4, server 1,2,3,4 is to be arranged in parallel, not
There is setting host node (master node) to carry out each server of grouping management, therefore server 1,2,3,4 is from node
(slave node).As shown in Figures 5 and 6, server 1,2,3,4 separately include identical baseboard management controller 11,21,
31,41 and storage element 12,22,32,42.An identical at least substrate management control is stored in storage element 12,22,32,42
The baseboard management controller setup parameter of server 1,2,3,4 (for convenience of describing, is referred to as the below by device setup parameter processed
One baseboard management controller setup parameter, the second substrate Management Controller setup parameter, third baseboard management controller setting ginseng
Several and tetrabasal Management Controller setup parameter), that is, first substrate Management Controller setup parameter, the second substrate management
Controller setup parameter, third baseboard management controller setup parameter and tetrabasal Management Controller setup parameter are corresponding
Identical baseboard management controller setting between server 1,2,3,4.
Base this, baseboard management controller 21,31,41 is respectively coupled to storage element 22,32,42, baseboard management controller
21, it 31,41 can be set respectively by the baseboard management controller of its baseboard management controller setup parameter setting server 2,3,4
It is fixed.Baseboard management controller 21,31,41 separately include parameter updating module 211,311,411, parameter synchronization module 212,312,
412 and wisdom Platform Management Interface 213,313,413.Parameter updating module 211,311,411 has with parameter updating module 111
Identical operating mode, and parameter synchronization module 212,312,412 and the operating mode having the same of parameter synchronization module 112.
For example, parameter updating module 211,311,411 can execute step S01, S02, S03 in Fig. 3, or can record it is above-mentioned more
New turkey or undated parameter inventory, or send test signal above-mentioned, 212,312,412 energy of parameter synchronization module
Execute step S04, S05, S06 in Fig. 3.The fortune of parameter updating module 211,311,411 and parameter synchronization module 212,312,412
Before operation mode has been specified in, repeated no more in this.
Then, any server in several servers 1,2,3,4 can receive the more new command from user
(hereinafter referred to as first update instruction) is to be suitable for be according to the present invention comprising several servers please refer to Fig. 7, Fig. 7
1, same substrate Management Controller setup parameter between the automatic synchronization different server of 2,3,4 server cabinet system
The flow chart of one embodiment of method is received when any server in server cabinet system receives first update instruction
The baseboard management controller of the server of first update instruction updates the substrate management control of its server according to first update instruction
Device setup parameter (step S07) processed, and the server for receiving first update instruction sends another more new command (hereinafter referred to as second
More new command) do not receive other each servers (step S08) of first update instruction into server cabinet system, second more
New command includes updated baseboard management controller setup parameter, makes other each servers for not receiving first update instruction
Baseboard management controller the baseboard management controller setup parameter (step of its server is updated according to the second more new command
S09), and do not receive the baseboard management controllers of other each servers of first update instruction according to the second more new command more
Updated baseboard management controller setup parameter (step is not sent after the baseboard management controller setup parameter of its new server
Rapid S10).
For example, by taking user changes the Local Area Network agreement setting of baseboard management controller setting as an example, work as use
When person changes the Local Area Network agreement setting of the baseboard management controller setting of server 1, as shown in figure 5, parameter updating module
111 can be according to the regional network updated in first substrate Management Controller setup parameter from the first update instruction S1 of user
Network is reached an agreement on setup parameter (step S07), and first update instruction S1 meeting trigger parameter synchronization module 112 is sent comprising updated
Second more new command S2(step S08 of Local Area Network agreement setup parameter).Then, its of first update instruction S1 is not received
His server 2,3,4 receives the second more new command S2 from server 1, and baseboard management controller 21,31,41 is by its intelligence
Intelligent Platform Management Interface 213,313,413 receives the second more new command S2.Parameter updating module 211,311,411 according to second more
New command S2 updates the second substrate Management Controller setup parameter, third substrate pipe stored by storage element 22,32,42 respectively
Manage the Local Area Network agreement setup parameter (step in controller setup parameter and tetrabasal Management Controller setup parameter
S09), and the logic level of flag signals is not set as the second logic level, tool first by parameter updating module 211,311,411
The flag signals of logic level will not trigger parameter synchronization module 212,312,412 send corresponding to updated Local Area Network assist
The more new command for determining setup parameter gives server 1(step S10).
The second substrate Management Controller setup parameter, third base are updated according to the second more new command S2 in server 2,3,4
After Local Area Network agreement setup parameter in board management controller setup parameter and tetrabasal Management Controller setup parameter,
Server 2,3,4 and the Local Area Network having the same of server 1 reach an agreement on setup parameter and Local Area Network having the same agreement is set
It is fixed.For example, the Local Area Network agreement setting of server 1,2,3,4 can be changed to the system of floating by fixed system, or become by the system of floating
More fixed system.
On the other hand, equally by taking Local Area Network agreement setting as an example, when user changes the substrate management control of server 2
The Local Area Network of device setting reach an agreement on setting when, as shown in fig. 6, baseboard management controller 21 can receive from user one more
The hereinafter referred to as the 4th more new command S4 of new command S4(, and in this embodiment, first update instruction and second in Fig. 7 update
Instruction is the new command S5 just before dawn of the respectively the 4th more new command S4 and the), the 4th more new command S4 can trigger parameter update module
Local Area Network in 211 update the second substrate Management Controller setup parameters reaches an agreement on setup parameter (step S07) and believes flag
Number logic level be set as the second logic level (step S02), send parameter synchronization module 212 comprising updated region
The new command S5(step S08 just before dawn of the of network convention setup parameter).Then, other clothes of the 4th more new command S4 are not received
Device 1,3,4 of being engaged in receives the new command S5 just before dawn from server 2, and parameter updating module 111,311,411 is respectively according to the
New command S5 updates first substrate Management Controller setup parameter, third baseboard management controller setup parameter and the 4th base just before dawn
Local Area Network in board management controller setup parameter is reached an agreement on setup parameter (step S09), and parameter updating module 111,311,
411 do not set flag signals as the second logic level, and the flag signals of the first logic level of tool will not trigger parameter synchronization module
112,312,412 transmissions give server 2(step corresponding to the more new command of updated Local Area Network agreement setup parameter
S10).Server 1,3,4 according to just before dawn new command S5 update first substrate Management Controller setup parameter, third base respectively
After Local Area Network agreement setup parameter in board management controller setup parameter and tetrabasal Management Controller setup parameter,
Server 1,3,4 and the Local Area Network having the same of server 2 reach an agreement on setup parameter and Local Area Network having the same agreement is set
It is fixed.
It is worth noting that in the present case, baseboard management controller 11,21,31,41 is by one substrate management control of execution
Device firmware procedure code processed implements step S01 ~ S10 in Fig. 2, Fig. 3 and Fig. 7.
In conclusion the server cabinet of tool automatic synchronization baseboard management controller setup parameter function according to the present invention
One embodiment of system and its automatic synchronous method, the substrate that the baseboard management controller of any server can change user
Management Controller setup parameter automatic synchronization is updated to other servers, has each server in server system all
Identical setting.User only needs to set a server, can make each server setting having the same, and
The risk that user manually sets each server and causes mistake can be reduced by being updated automatically by server.Furthermore often
One server can automatically update other servers, without additionally one management server of setting, can reduce hardware cost.
The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any
Those familiar with the art in the technical scope disclosed by the present invention, can easily think of the change or the replacement, and should all contain
Lid is within protection scope of the present invention.Therefore, protection scope of the present invention should be subject to the protection scope in claims.
Claims (10)
1. a kind of server cabinet system, characterized by comprising:
Several servers, each other interconnecting line and to belong to parallel nodes in same domain, each server packet
Contain;
One storage element includes several baseboard management controller setup parameters;And
One baseboard management controller is coupled to the storage element, and the baseboard management controller is to update those substrate management controls
Device setup parameter processed;
When any server in those servers is received from the first update instruction of user, this is received first more
The baseboard management controller of the server of new command updates the baseboard management controller of its server according to the first update instruction
Setup parameter, and the server for receiving the first update instruction sends one second more new command and does not receive this into those servers
Other servers of first update instruction, the second more new command include updated baseboard management controller setup parameter, are made
The baseboard management controller for not receiving other servers of the first update instruction updates its service according to the second more new command
The baseboard management controller setup parameter of device.
2. server cabinet system according to claim 1, which is characterized in that each server in those servers
The baseboard management controller include:
One parameter updating module, those baseboard management controller setup parameters for being included to update the storage element;And
One parameter synchronization module, to judge whether the parameter updating module according to the first update instruction updates those substrate pipes
Controller setup parameter is managed, to decide whether to send updated baseboard management controller setup parameter;
When any server in those servers receives the first update instruction, the server of the first update instruction is received
The parameter updating module of baseboard management controller the baseboard management controller of its server is updated according to the first update instruction
Setup parameter, and the parameter synchronization module for receiving the baseboard management controller of the server of the first update instruction judges its substrate
The parameter updating module of Management Controller is that the baseboard management controller setting of its server is updated according to the first update instruction
Parameter and send the second more new command to other servers for not receiving the first update instruction;
Do not receive the parameter updating module of the baseboard management controller of other servers of the first update instruction according to this second
More new command updates the baseboard management controller setup parameter that its server is included, and do not receive the first update instruction its
The parameter synchronization module of the baseboard management controller of his server judges the non-root of the parameter updating module of its baseboard management controller
The baseboard management controller setup parameter of its server is updated without sending the second more new command according to the first update instruction.
3. server cabinet system according to claim 2, the parameter of the baseboard management controller of each server
Synchronization module is periodically to judge its baseboard management controller according to whether a flag signals are a logic of propositions level
Whether parameter updating module according to the first update instruction updates those baseboard management controller setup parameters, which is characterized in that
When receive the first update instruction server baseboard management controller parameter updating module according to the first update instruction
When updating the baseboard management controller setup parameter of its server, the substrate management control of the server of the first update instruction is received
The parameter updating module of device processed sets the flag signals as the logic of propositions level, makes the server for receiving the first update instruction
The parameter synchronization module of baseboard management controller send the second more new command, and receive the server of the first update instruction
Baseboard management controller parameter synchronization module in send the second more new command after set the flag signals as different from
Another logic level of the logic of propositions level.
4. server cabinet system according to claim 3, which is characterized in that receive the server of the first more new signal
The parameter updating module of baseboard management controller be the source title bit set for being included according to the first update instruction
The flag signals are the logic of propositions level, wherein the parameter synchronization module set before sending the second more new command this
Another source title bit that two more new commands are included, make the first update instruction the source title bit and this second more
It is different logic level between another source title bit of new command.
5. server cabinet system according to claim 2, which is characterized in that receive the server of the first update instruction
Baseboard management controller parameter synchronization module in send the second more new command before send one test signal, and according to return
The Internet protocol suite address that other servers for not receiving the first update instruction of signal should be tested sends this second more
New command.
6. a kind of server cabinet system automatic synchronous method, suitable for one include several servers server cabinet system,
And those servers are the parallel nodes belonged in same domain, which is characterized in that this method includes:
One first substrate Management Controller of any server in several servers is according to from the one of user
One more new command updates a first substrate Management Controller setup parameter of its server;
The first substrate Management Controller sends one second more new command and does not receive the first update instruction into those servers
Other servers, the second more new command include the updated first substrate Management Controller setup parameter;And
Do not receive a second substrate Management Controller of other servers of the first update instruction according to it is updated this first
Baseboard management controller setup parameter updates a second substrate Management Controller setup parameter of its server.
7. server cabinet system automatic synchronous method according to claim 6, which is characterized in that further include: this
After two baseboard management controllers update the second substrate Management Controller setup parameter of its server, the second substrate management
Controller does not send the updated the second substrate Management Controller setup parameter;
The first substrate Management Controller includes one first parameter updating module and one first parameter synchronization module, first parameter
Whether synchronization module is to judge first parameter updating module according to the first update instruction update from user
Any baseboard management controller setup parameter of its server is to decide whether to send updated any substrate management control
Device setup parameter should in the step of first substrate Management Controller updates the first substrate Management Controller setup parameter
First substrate Management Controller is to update the first substrate pipe according to the first update instruction via first parameter updating module
Controller setup parameter is managed, when first parameter updating module updates first substrate management control according to the first update instruction
When device setup parameter, in the step of first substrate Management Controller sends the second more new command, the first substrate management
Controller is to judge that first parameter updating module is according to being somebody's turn to do from user via the first parameter synchronization module
First update instruction updates the first substrate Management Controller setup parameter and sends the second more new command;
The second substrate Management Controller includes one second parameter updating module and one second parameter synchronization module, second parameter
Whether synchronization module is to judge second parameter updating module according to the first update instruction update from user
Any baseboard management controller setup parameter of its server is to decide whether to send updated any substrate management control
Device setup parameter should in the step of the second substrate Management Controller updates the second substrate Management Controller setup parameter
The second substrate Management Controller is to update the second substrate pipe according to the second more new command via second parameter updating module
Controller setup parameter is managed, when second parameter updating module updates the second substrate management control according to the second more new command
When device setup parameter, the updated the second substrate Management Controller setup parameter is not sent in the second substrate Management Controller
The step of in, which is to judge second parameter updating module via the second parameter synchronization module
The second substrate Management Controller setup parameter is updated without sending more not according to the first update instruction from user
The second substrate Management Controller setup parameter after new.
8. server cabinet system automatic synchronous method according to claim 7, which is characterized in that in the first substrate pipe
In the step of reason controller sends the second more new command, which is periodically to judge a flag signals
It whether is a logic of propositions level and to judge first parameter updating module be that first base is updated according to the first update instruction
Board management controller setup parameter, wherein the automatic synchronization updates the same substrate Management Controller setting between different server
The method of parameter further includes:
First parameter updating module in update the first substrate Management Controller setup parameter after set the flag signals as
The logic of propositions level;And
The first parameter synchronization module sets the flag signals as another logic of propositions position after sending the second more new command
It is quasi-.
9. server cabinet system automatic synchronous method according to claim 8, which is characterized in that first parameter updates
Module was set in the step of flag signals is the logic of propositions levels, which is according to first update
Instructing included source title bit set flag signals is the logic of propositions level;The wherein automatic synchronization update side
Method further includes: the first parameter synchronization module more sets the second more new command before sending the second more new command and is included
Another source title bit, make the second more new command another source title bit and the first update instruction this come
It is different logic level between identifing source bit.
10. server cabinet system automatic synchronous method according to claim 7, which is characterized in that the first substrate pipe
The step of reason controller sends the second more new command includes:
The first parameter synchronization module sends a test signal before sending the second more new command;And
The first parameter synchronization module is according to other servers for not receiving the first update instruction for responding the test signal
Internet protocol suite address sends the second more new command.
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Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20070186086A1 (en) * | 2006-02-02 | 2007-08-09 | Dell Products L.P. | Virtual BIOS firmware hub |
CN103138972A (en) * | 2011-11-28 | 2013-06-05 | 英业达科技有限公司 | Server cabinet system |
CN103294503A (en) * | 2012-02-24 | 2013-09-11 | 纬创资通股份有限公司 | Server deployment system and data updating method |
TW201423593A (en) * | 2012-12-11 | 2014-06-16 | Inventec Corp | Server and firmware updating method thereof |
CN104331300A (en) * | 2014-09-23 | 2015-02-04 | 英业达科技有限公司 | Server capable of directly updating setting by using substrate management controller |
CN107729038A (en) * | 2017-11-27 | 2018-02-23 | 英业达科技有限公司 | The baseboard management controller of firmware update and renewable firmware |
-
2018
- 2018-05-11 CN CN201810446243.6A patent/CN110471677B/en active Active
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20070186086A1 (en) * | 2006-02-02 | 2007-08-09 | Dell Products L.P. | Virtual BIOS firmware hub |
CN103138972A (en) * | 2011-11-28 | 2013-06-05 | 英业达科技有限公司 | Server cabinet system |
CN103294503A (en) * | 2012-02-24 | 2013-09-11 | 纬创资通股份有限公司 | Server deployment system and data updating method |
TW201423593A (en) * | 2012-12-11 | 2014-06-16 | Inventec Corp | Server and firmware updating method thereof |
CN104331300A (en) * | 2014-09-23 | 2015-02-04 | 英业达科技有限公司 | Server capable of directly updating setting by using substrate management controller |
CN107729038A (en) * | 2017-11-27 | 2018-02-23 | 英业达科技有限公司 | The baseboard management controller of firmware update and renewable firmware |
Non-Patent Citations (1)
Title |
---|
苏振宇: "可信计算在服务器基板管理控制器中的应用", 《电子技术应用》 * |
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