CN109309633A - A kind of whole machine cabinet server node management method and device based on management interchanger - Google Patents
A kind of whole machine cabinet server node management method and device based on management interchanger Download PDFInfo
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- CN109309633A CN109309633A CN201811108273.2A CN201811108273A CN109309633A CN 109309633 A CN109309633 A CN 109309633A CN 201811108273 A CN201811108273 A CN 201811108273A CN 109309633 A CN109309633 A CN 109309633A
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- whole machine
- interchanger
- machine cabinet
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L49/00—Packet switching elements
- H04L49/40—Constructional details, e.g. power supply, mechanical construction or backplane
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L61/00—Network arrangements, protocols or services for addressing or naming
- H04L61/09—Mapping addresses
- H04L61/25—Mapping addresses of the same type
- H04L61/2503—Translation of Internet protocol [IP] addresses
- H04L61/2517—Translation of Internet protocol [IP] addresses using port numbers
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L61/00—Network arrangements, protocols or services for addressing or naming
- H04L61/09—Mapping addresses
- H04L61/25—Mapping addresses of the same type
- H04L61/2503—Translation of Internet protocol [IP] addresses
- H04L61/255—Maintenance or indexing of mapping tables
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L2101/00—Indexing scheme associated with group H04L61/00
- H04L2101/60—Types of network addresses
- H04L2101/618—Details of network addresses
- H04L2101/622—Layer-2 addresses, e.g. medium access control [MAC] addresses
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Abstract
The application discloses a kind of whole machine cabinet server node management method and device based on management interchanger, this method is applied to node BMC managing chip, this method comprises: after BMC managing chip manages the MAC Address and Port ID of interchanger in getting whole machine cabinet server, it can be according to the MAC Address of the management interchanger, get the cabinet ID of whole machine cabinet server, similar, also the available node ID to whole machine cabinet server, and then cabinet ID and node ID the deposit FRU chip that can be will acquire, so as to the accessible node location information therein of user, realize the node administration to whole machine cabinet server.It can be seen that, the application no longer uses I2C topology and management hardware board etc. to realize node administration, but according to management switch mac address and Port ID, complete the identification to whole machine cabinet server cabinet ID and node ID, the complexity and system cost for reducing whole machine cabinet management design realize succinct, the efficient and inexpensive management to whole machine cabinet server node.
Description
Technical field
This application involves server technology fields, and in particular to a kind of whole machine cabinet server node based on management interchanger
Management method and device.
Background technique
Raising with user to the performance requirement of computer, user are more and more to the quantity required of server.Complete machine
Cabinet server has very big advantage on node density and TCO compared with traditional server, and in practice using increasingly
Extensively.
Whole machine cabinet server is a kind of centrally connected power supply, concentrates the high density server of heat dissipation, unified management.It is taken in whole machine cabinet
It is engaged in the design of device, how inexpensive, efficiently realization whole machine cabinet interior joint management has become primary solve the problems, such as.Mesh
Before, management to node is realized usually using whole machine cabinet management hardware board, while the corresponding mechanism design and soft of also needing to arrange in pairs or groups
Part design, for example, the second level management of whole machine cabinet node is realized on scorpio SR whole machine cabinet server by plate in multiple nodes, and
And the one-level management of whole machine cabinet node is realized using management board (RMC), but this node administration mode, be using I2C topology come
It realizes, causes signal stabilization poor, it is also desirable to develop the board of corresponding management function, structure, stand alone software etc., meeting
Cause complete machine management design complicated, at high cost.
Therefore, how using more advanced whole machine cabinet server node way to manage to replace traditional way to manage, realize
Succinct, efficient and inexpensive management to whole machine cabinet server node, it has also become urgent problem to be solved.
Summary of the invention
To solve the above problems, this application provides a kind of whole machine cabinet server node managers based on management interchanger
Method and device, specific technical solution are as follows:
In a first aspect, this application provides a kind of whole machine cabinet server node management method based on management interchanger, institute
Method is stated applied to node BMC managing chip, which comprises
Obtain the MAC address and each port numbering Port that interchanger is managed in whole machine cabinet server
ID;The MAC Address of the management interchanger is corresponding binding in advance with the cabinet of whole machine cabinet server coding ID, described
The coding ID of the Port ID and the whole machine cabinet server node that manage interchanger are that preparatory correspond is bound;
According to the MAC Address of the management interchanger, the cabinet ID of the whole machine cabinet server is obtained;
According to the Port ID of the management interchanger, the node ID of the whole machine cabinet server is obtained;
The cabinet ID of the whole machine cabinet server and node ID are stored in Field Replaceable Unit FRU chip, so as to user
Node location information in the accessible FRU chip realizes the node administration of whole machine cabinet server.
In an optional implementation manner, described to obtain the media access control that interchanger is managed in whole machine cabinet server
Before MAC Address and each port numbering Port ID, further includes:
It establishes and communicates to connect with the management interchanger in advance;
Correspondingly, described obtain the MAC address for managing interchanger in whole machine cabinet server and each end
Mouth number Port ID, comprising:
By the communication connection between the management interchanger, the MAC Address and Port of the management interchanger are obtained
ID。
In an optional implementation manner, the communication connection by between the management interchanger, obtains institute
State the MAC Address and Port ID of management interchanger, comprising:
Agreement LLDP message is found to the management interchanger broadcasting link layer, and the message, which carries, obtains the management
The request of the MAC Address and Port ID of interchanger;
The LLDP message that the management interchanger returns is received and saved, the message carries the management interchanger
MAC Address and Port ID.
In an optional implementation manner, the method also includes:
The node location information in the FRU chip is directly accessed by IPMI order.
In an optional implementation manner, the machine of the MAC Address of the management interchanger and the whole machine cabinet server
Cabinet ID is the data of quick response code form.
Second aspect, this application provides a kind of whole machine cabinet server node managing device based on management interchanger, institutes
Device is stated applied to node BMC managing chip, described device includes:
First acquisition unit, for obtain in whole machine cabinet server manage interchanger MAC address and
Each port numbering Port ID;The MAC Address of the management interchanger and the cabinet coding ID of the whole machine cabinet server are pre-
First corresponding binding, the Port ID of the management interchanger and the coding ID of the whole machine cabinet server node are in advance one by one
Corresponding binding;
Second acquisition unit obtains the machine of the whole machine cabinet server for the MAC Address according to the management interchanger
Cabinet ID;
Third acquiring unit obtains the section of the whole machine cabinet server for the Port ID according to the management interchanger
Point ID;
Storage unit, for the cabinet ID of the whole machine cabinet server and node ID to be stored in Field Replaceable Unit FRU
Chip realizes the node administration of whole machine cabinet server so as to the node location information in the accessible FRU chip of user.
In an optional implementation manner, described device further include:
Unit is established, is communicated to connect for being established in advance with the management interchanger;
Correspondingly, shown first acquisition unit is specifically used for:
By the communication connection between the management interchanger, the MAC Address and Port of the management interchanger are obtained
ID。
In an optional implementation manner, the first acquisition unit includes:
Subelement is broadcasted, for finding that agreement LLDP message, the message are taken to the management interchanger broadcasting link layer
Request with the MAC Address and Port ID for obtaining the management interchanger;
Receiving subelement, the LLDP message returned for receiving and saving the management interchanger, the message carry
The MAC Address and Port ID of the management interchanger.
In an optional implementation manner, described device further include:
Access unit, for directly accessing the node location information in the FRU chip by IPMI order.
In an optional implementation manner, the machine of the MAC Address of the management interchanger and the whole machine cabinet server
Cabinet ID is the data of quick response code form.
In the whole machine cabinet server node management method provided by the present application based on management interchanger, substrate management control
Device (Baseboard Management Controller, abbreviation BMC) managing chip manages in getting whole machine cabinet server
After the MAC Address and Port ID of interchanger, then, whole machine cabinet clothes can be got according to the MAC Address of the management interchanger
The cabinet ID of business device, meanwhile, the available node ID to whole machine cabinet server, and then the whole machine cabinet service that can be will acquire
The cabinet ID and node ID of device are stored in FRU (Field Replace Unit) chip, so as in the accessible FRU chip of user
Node location information realizes the node administration to whole machine cabinet server.As it can be seen that the application no longer uses I2C topology and exploitation
Board, structure, stand alone software of management function etc. is corresponded to realize the node administration to whole machine cabinet server, but according to management
Switch mac address and Port ID complete the identification to whole machine cabinet server cabinet ID and node ID, reduce whole machine cabinet pipe
The complexity and system cost for managing design, realize succinct, the efficient and inexpensive management to whole machine cabinet server node.
Detailed description of the invention
In order to more clearly explain the technical solutions in the embodiments of the present application, make required in being described below to embodiment
Attached drawing is briefly described, it should be apparent that, the drawings in the following description are only some examples of the present application, for
For those of ordinary skill in the art, without any creative labor, it can also be obtained according to these attached drawings
His attached drawing.
Fig. 1 is a kind of whole machine cabinet server node management method based on management interchanger provided by the embodiments of the present application
Flow diagram;
Fig. 2 is the flow diagram of the MAC Address for obtaining management interchanger and Port ID provided by the embodiments of the present application;
Fig. 3 is a kind of whole machine cabinet server node management method based on management interchanger provided by the embodiments of the present application
Overall structure diagram;
Fig. 4 is a kind of whole machine cabinet server node managing device based on management interchanger provided by the embodiments of the present application
Structural schematic diagram.
Specific embodiment
Below in conjunction with the attached drawing in the embodiment of the present application, technical solutions in the embodiments of the present application carries out clear, complete
Site preparation description, it is clear that described embodiments are only a part of embodiments of the present application, instead of all the embodiments.It is based on
Embodiment in the application, it is obtained by those of ordinary skill in the art without making creative efforts every other
Embodiment shall fall in the protection scope of this application.
Technical solution provided by the present application in order to facilitate understanding below first carries out the research background of technical scheme
Simple declaration.
It is well known that, with the fast development of internet industry, fusion is future development as the description in background technique
Direction so that equipment purchase, installation, use, maintenance all become simpler.Traditional generic server scale application is brought
The problems such as density is low, energy consumption is high, installation and maintenance workload are big, at this point, whole machine cabinet server comes into being, whole machine cabinet server
It is a kind of centrally connected power supply, concentrates the high density server of heat dissipation, unified management.It is how low in the design of whole machine cabinet server
Cost efficiently realizes that the management of whole machine cabinet interior joint has become primary solve the problems, such as.Currently, usually using whole machine cabinet management
Hardware board realizes the management to node, while also needing arrange in pairs or groups corresponding mechanism design and software design, but this node administration
Mode is realized using I2C topology, causes signal stabilization poor, it is also desirable to develop the plate of corresponding management function
It is complicated, at high cost to will cause complete machine management design for card, structure, stand alone software etc..So how to utilize more advanced whole machine cabinet
Server node way to manage replaces traditional way to manage, realize to whole machine cabinet server node it is succinct, efficient and low at
This management, it has also become urgent problem to be solved.
Based on this, present applicant proposes a kind of whole machine cabinet server node management methods and dress based on management interchanger
It sets, for realizing succinct, the efficient and inexpensive management to whole machine cabinet server node.
Below with reference to attached drawing to the whole machine cabinet server node pipe provided by the embodiments of the present application based on management interchanger
Reason method is described in detail.Referring to Fig. 1, it illustrates a kind of complete machines based on management interchanger provided by the embodiments of the present application
The flow chart of cabinet server node management method, the present embodiment may comprise steps of:
S101: the MAC address and each port numbering that interchanger is managed in whole machine cabinet server are obtained
Port ID, wherein manage the MAC Address of interchanger and the cabinet of whole machine cabinet server coding ID is corresponding binding in advance, pipe
The coding ID of the Port ID and whole machine cabinet server node that manage interchanger are that preparatory correspond is bound.
In the present embodiment, in the design of whole machine cabinet server, in order to low cost, efficiently realize whole machine cabinet in
The management of node, it is possible, firstly, to obtain the media interviews for managing interchanger in whole machine cabinet server using node BMC managing chip
Control MAC Address and each port numbering Port ID.
In practical applications, a management interchanger can be configured in each whole machine cabinet server, the management interchanger
MAC Address is unique;Meanwhile whole machine cabinet server equally has unique cabinet ID in data center machine room.
One kind being optionally achieved in that the cabinet ID of the MAC Address and whole machine cabinet server that manage interchanger can be
The data of quick response code form, for example, whole machine cabinet server when delivering, can will include management switch mac address information
Two dimensional code is attached on management interchanger, meanwhile, the two dimensional code comprising cabinet id information can be attached to corresponding whole machine cabinet server
On the bottom plate or cabinet of position, and then user can be scanned by handheld tool (such as smart phone etc.) and be attached to management interchanger
On MAC Address and the cabinet ID that is attached on whole machine cabinet server backplanes or cabinet, and the two is subjected to corresponding binding, both made
With one-to-one binding relationship, so as to subsequent execution step S102.
Similar, in practical applications, each port of the management interchanger configured in each whole machine cabinet server
(Port) it can be connected to 1 node of whole machine cabinet server, also, the ID for managing each Port of interchanger is unique, base
The uniqueness of each Port ID in management interchanger, can establish the Port of the corresponding management switch port of node ID
One-to-one relationship between ID, so as to subsequent execution step S103.For example, can establish height and pipe of the node in cabinet
It manages switch port to correspond, wherein each port for managing interchanger represents different height, for example, port 1 can be right
1U height is answered, port 2 corresponds to 2U height, and so on, the node of 1U/2U/4U/ ... is according to starting U height and corresponding management
The port of interchanger connects, if 2U node is in the position 4~5U of height, corresponding management interchanger Port4, the Port5 of node ID.
In some possible implementations of the application, BMC managing chip before executing step S101, need in advance with
It manages interchanger and establishes communication connection;
Correspondingly, BMC managing chip is when executing step S101, it can be by pre-establishing between management interchanger
Communication connection, obtain management interchanger MAC Address and Port ID.
In this implementation, BMC managing chip is designed on each server node in whole machine cabinet server, and
And the management network port of BMC managing chip can be corresponded by the port of cable and management interchanger and be interconnected, and then BMC is managed
The Internet line can be based on by managing chip, get the MAC Address and Port ID of the management interchanger of corresponding whole machine cabinet server.
Specifically, in some possible implementations of the application, step S101 can specifically include step S1011-
S1012:
S1011: to the management discovery of interchanger broadcasting link layer agreement (Link Layer Discovery Protocol, letter
Claim LLDP) message, wherein the message carries the request for obtaining the MAC Address and Port Id of the management interchanger.
In this implementation, BMC managing chip, can be logical based on this after establishing communication connection with management interchanger
Letter connection broadcasts LLDP message to management interchanger, and BMC managing chip is contained in the message and wishes to obtain from management interchanger
Take the request of the MAC Address and Port Id of the management interchanger, wherein LLDP agreement for traditional I2C bus,
The stability of signal is stronger, and communication quality is also higher.
S1012: the LLDP message that management interchanger returns is received and saved, wherein the message carries management exchange
The MAC Address and Port ID of machine.
In this implementation, by step S1011, BMC managing chip broadcasts to management interchanger and carries acquisition
It, may further be based on communication link between the two after the LLDP message of the request of the management switch mac address and Port Id
Connect, receive the management interchanger return LLDP message and save, the message carry the management interchanger MAC Address and
Port ID, that is, realize the MAC Address and Port ID for obtaining management interchanger.
S102: according to the MAC Address of management interchanger, the cabinet ID of whole machine cabinet server is obtained.
In the present embodiment, after BMC managing chip gets the MAC Address of management interchanger by step S101, into one
Step can according to the MAC Address, and pre-establish management interchanger MAC Address and whole machine cabinet server cabinet ID it
Between one-to-one binding relationship, get the cabinet ID of whole machine cabinet server.
S103: according to the Port ID of management interchanger, the node ID of whole machine cabinet server is obtained.
In the present embodiment, after BMC managing chip gets the Port ID of management interchanger by step S101, into one
Step can according to the Port ID, and pre-establish management interchanger Port ID and whole machine cabinet server node ID it
Between one-to-one relationship, get the node ID of whole machine cabinet server.
It should be noted that conditioning step S102 and step S103 does not execute sequence to the application, that is, can first obtain pipe
The MAC Address of interchanger is managed, then obtains the Port ID of management interchanger, can also first obtain the Port ID of management interchanger,
The MAC Address for managing interchanger or the two are obtained again while being obtained, and specific execution sequence can be set according to the actual situation
It is fixed.
S104: the cabinet ID and node ID of whole machine cabinet server are stored in Field Replaceable Unit FRU chip, so as to user
Node location information in the accessible FRU chip realizes the node administration of whole machine cabinet server.
In the present embodiment, the cabinet ID and node ID of whole machine cabinet server are got by step S102 and step S103
Afterwards, the data information for representing cabinet ID and node ID can be stored in FRU chip, so that user can pass through BMC managing chip
The node location information in the FRU chip is accessed, realizes the node administration of whole machine cabinet server.
In some possible implementations of the application, BMC managing chip is after executing the step S104, further includes:
The node location information in the FRU chip is directly accessed by IPMI order.
In this implementation, BMC managing chip is being believed the data for representing cabinet ID and node ID by step S104
After breath deposit FRU chip, further, user can be by BMC managing chip, the instruction supported using network protocol, such as
The cabinet ID in the FRU chip and node ID is directly accessed in IPMI order, that is, corresponding whole machine cabinet clothes can directly be accessed
The location information of business device node.
In this way, in the whole machine cabinet server node management method provided by the present application based on management interchanger, BMC management
It, then, can be according to the management after chip manages the MAC Address and Port ID of interchanger in getting whole machine cabinet server
The MAC Address of interchanger gets the cabinet ID of whole machine cabinet server, meanwhile, the available node to whole machine cabinet server
ID, and then the cabinet ID for the whole machine cabinet server that can be will acquire and node ID are stored in FRU chip, so that user is accessible
Node location information in FRU chip realizes the node administration to whole machine cabinet server.As it can be seen that the application is no longer opened up using I2C
Board, structure, stand alone software of corresponding management function etc. is flutterred and developed to realize the node administration to whole machine cabinet server, and
It is that the identification to whole machine cabinet server cabinet ID and node ID is completed according to management switch mac address and Port ID, reduces
The complexity and system cost of whole machine cabinet management design, realize to whole machine cabinet server node it is succinct, efficient and low at
This management.
For ease of understanding, now in conjunction with the whole of the whole machine cabinet server node management method based on management interchanger shown in Fig. 3
Body structural schematic diagram.To the tool of the whole machine cabinet server node management method provided by the embodiments of the present application based on management interchanger
Body realizes that process is introduced.
As shown in figure 3, the realization process of the embodiment of the present application are as follows: firstly, the BMC on node manages core after node powers on
The subsequent power-up starting of piece carries the request for obtaining the management switch mac address and Port Id to management interchanger broadcast
LLDP message, it is then possible to receive the MAC Address for carrying the management interchanger and Port ID that management interchanger returns
LLDP message and save, then, can according to pre-establish management interchanger MAC Address and whole machine cabinet server machine
One-to-one binding relationship between cabinet ID, and manage one between the Port ID of interchanger and the node ID of whole machine cabinet server
One-to-one correspondence gets the cabinet ID and node ID of whole machine cabinet server, and then the two can be stored in FRU chip,
So that user can directly access the node location information in FRU chip using IPMI order by BMC managing chip, realize
The management function of all nodes of whole machine cabinet implements process referring to step S101~step S104.
Above-described embodiment describes the technical solution of the application method in detail, and correspondingly, present invention also provides a kind of bases
In the whole machine cabinet server node managing device of management interchanger, the device is introduced below.
Referring to fig. 4, Fig. 4 is a kind of whole machine cabinet server node pipe based on management interchanger provided by the embodiments of the present application
The structure chart for managing device, as shown in figure 4, the device includes:
First acquisition unit 401, for obtaining the MAC address for managing interchanger in whole machine cabinet server
With each port numbering Port ID;The MAC Address of the management interchanger and the cabinet coding ID of the whole machine cabinet server are
Corresponding binding in advance, the Port ID of the management interchanger and the coding ID of the whole machine cabinet server node are preparatory one
One corresponding binding;
Second acquisition unit 402 obtains the whole machine cabinet server for the MAC Address according to the management interchanger
Cabinet ID;
Third acquiring unit 403 obtains the whole machine cabinet server for the Port ID according to the management interchanger
Node ID;
Storage unit 404, for the cabinet ID of the whole machine cabinet server and node ID to be stored in Field Replaceable Unit
FRU chip realizes the node pipe of whole machine cabinet server so as to the node location information in the accessible FRU chip of user
Reason.
Optionally, described device further include:
Unit is established, is communicated to connect for being established in advance with the management interchanger;
Correspondingly, shown first acquisition unit 401 is specifically used for:
By the communication connection between the management interchanger, the MAC Address and Port of the management interchanger are obtained
ID。
Optionally, the first acquisition unit 401 includes:
Subelement is broadcasted, for finding that agreement LLDP message, the message are taken to the management interchanger broadcasting link layer
Request with the MAC Address and Port ID for obtaining the management interchanger;
Receiving subelement, the LLDP message returned for receiving and saving the management interchanger, the message carry
The MAC Address and Port ID of the management interchanger.
Optionally, described device further include:
Access unit, for directly accessing the node location information in the FRU chip by IPMI order.
Optionally, the MAC Address of the management interchanger and the cabinet ID of the whole machine cabinet server are quick response code form
Data.
In this way, in the whole machine cabinet server node managing device provided by the present application based on management interchanger, BMC management
It, then, can be according to the management after chip manages the MAC Address and Port ID of interchanger in getting whole machine cabinet server
The MAC Address of interchanger gets the cabinet ID of whole machine cabinet server, meanwhile, the available node to whole machine cabinet server
ID, and then the cabinet ID for the whole machine cabinet server that can be will acquire and node ID are stored in FRU chip, so that user is accessible
Node location information in FRU chip realizes the node administration to whole machine cabinet server.As it can be seen that the application is no longer opened up using I2C
Board, structure, stand alone software of corresponding management function etc. is flutterred and developed to realize the node administration to whole machine cabinet server, and
It is that the identification to whole machine cabinet server cabinet ID and node ID is completed according to management switch mac address and Port ID, reduces
The complexity and system cost of whole machine cabinet management design, realize to whole machine cabinet server node it is succinct, efficient and low at
This management.
It should be noted that each embodiment in this specification is described in a progressive manner, each embodiment emphasis is said
Bright is the difference from other embodiments, and the same or similar parts in each embodiment may refer to each other.For reality
For applying system or device disclosed in example, since it is corresponded to the methods disclosed in the examples, so being described relatively simple, phase
Place is closed referring to method part illustration.
It should also be noted that, herein, relational terms such as first and second and the like are used merely to one
Entity or operation are distinguished with another entity or operation, without necessarily requiring or implying between these entities or operation
There are any actual relationship or orders.Moreover, the terms "include", "comprise" or its any other variant are intended to contain
Lid non-exclusive inclusion, so that the process, method, article or equipment including a series of elements is not only wanted including those
Element, but also including other elements that are not explicitly listed, or further include for this process, method, article or equipment
Intrinsic element.In the absence of more restrictions, the element limited by sentence "including a ...", it is not excluded that
There is also other identical elements in process, method, article or equipment including the element.
The step of method described in conjunction with the examples disclosed in this document or algorithm, can directly be held with hardware, processor
The combination of capable software module or the two is implemented.Software module can be placed in random access memory (RAM), memory, read-only deposit
Reservoir (ROM), electrically programmable ROM, electrically erasable ROM, register, hard disk, moveable magnetic disc, CD-ROM or technology
In any other form of storage medium well known in field.
The foregoing description of the disclosed embodiments makes professional and technical personnel in the field can be realized or use the application.
Various modifications to these embodiments will be readily apparent to those 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 whole machine cabinet server node management method based on management interchanger, which is characterized in that the method is applied to
Node BMC managing chip, which comprises
Obtain the MAC address and each port numbering Port ID that interchanger is managed in whole machine cabinet server;Institute
It states the MAC Address of management interchanger and the cabinet of whole machine cabinet server coding ID is corresponding binding in advance, the management
The coding ID of the Port ID of interchanger and the whole machine cabinet server node is that preparatory correspond is bound;
According to the MAC Address of the management interchanger, the cabinet ID of the whole machine cabinet server is obtained;
According to the Port ID of the management interchanger, the node ID of the whole machine cabinet server is obtained;
The cabinet ID of the whole machine cabinet server and node ID are stored in Field Replaceable Unit FRU chip, so that user can be with
The node location information in the FRU chip is accessed, realizes the node administration of whole machine cabinet server.
2. the whole machine cabinet server node management method according to claim 1 based on management interchanger, which is characterized in that
It is described obtain whole machine cabinet server in manage interchanger MAC address and each port numbering Port ID it
Before, further includes:
It establishes and communicates to connect with the management interchanger in advance;
Correspondingly, described obtain the MAC address for managing interchanger in whole machine cabinet server and each port volume
Number Port ID, comprising:
By the communication connection between the management interchanger, the MAC Address and Port ID of the management interchanger are obtained.
3. the whole machine cabinet server node management method according to claim 2 based on management interchanger, which is characterized in that
The communication connection by between the management interchanger, obtains the MAC Address and Port ID of the management interchanger,
Include:
Agreement LLDP message is found to the management interchanger broadcasting link layer, and the message, which carries, obtains the management exchange
The request of the MAC Address and Port ID of machine;
The LLDP message that the management interchanger returns is received and saved, the message carries the MAC of the management interchanger
Address and Port ID.
4. the whole machine cabinet server node management method according to claim 1 based on management interchanger, which is characterized in that
The method also includes:
The node location information in the FRU chip is directly accessed by IPMI order.
5. the whole machine cabinet server node management method according to claim 1-4 based on management interchanger,
It is characterized in that, the cabinet ID of the MAC Address for managing interchanger and the whole machine cabinet server is the data of quick response code form.
6. a kind of whole machine cabinet server node managing device based on management interchanger, which is characterized in that described device is applied to
Node BMC managing chip, described device include:
First acquisition unit manages the MAC address of interchanger and each for obtaining in whole machine cabinet server
Port numbering Port ID;The MAC Address of the management interchanger and the cabinet coding ID of the whole machine cabinet server are right in advance
It should bind, the Port ID of the management interchanger and the coding ID of the whole machine cabinet server node are to correspond in advance
Binding;
Second acquisition unit obtains the cabinet of the whole machine cabinet server for the MAC Address according to the management interchanger
ID;
Third acquiring unit obtains the node of the whole machine cabinet server for the Port ID according to the management interchanger
ID;
Storage unit, for the cabinet ID of the whole machine cabinet server and node ID to be stored in Field Replaceable Unit FRU chip,
So as to the node location information in the accessible FRU chip of user, the node administration of whole machine cabinet server is realized.
7. device according to claim 6, which is characterized in that described device further include:
Unit is established, is communicated to connect for being established in advance with the management interchanger;
Correspondingly, shown first acquisition unit is specifically used for:
By the communication connection between the management interchanger, the MAC Address and Port ID of the management interchanger are obtained.
8. device according to claim 7, which is characterized in that the first acquisition unit includes:
Subelement is broadcasted, for finding that agreement LLDP message, the message carry to the management interchanger broadcasting link layer
Obtain the request of the MAC Address and Port ID of the management interchanger;
Receiving subelement, the LLDP message returned for receiving and saving the management interchanger, the message carries described
Manage the MAC Address and Port ID of interchanger.
9. device according to claim 6, which is characterized in that described device further include:
Access unit, for directly accessing the node location information in the FRU chip by IPMI order.
10. according to the described in any item devices of claim 6-9, which is characterized in that the MAC Address of the management interchanger and institute
The cabinet ID for stating whole machine cabinet server is the data of quick response code form.
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