CN104281511A - Intelligent platform management interface system, substrate management controller and implementation method - Google Patents
Intelligent platform management interface system, substrate management controller and implementation method Download PDFInfo
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- CN104281511A CN104281511A CN201410499729.8A CN201410499729A CN104281511A CN 104281511 A CN104281511 A CN 104281511A CN 201410499729 A CN201410499729 A CN 201410499729A CN 104281511 A CN104281511 A CN 104281511A
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L43/00—Arrangements for monitoring or testing data switching networks
- H04L43/08—Monitoring or testing based on specific metrics, e.g. QoS, energy consumption or environmental parameters
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L41/00—Arrangements for maintenance, administration or management of data switching networks, e.g. of packet switching networks
- H04L41/08—Configuration management of networks or network elements
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L41/00—Arrangements for maintenance, administration or management of data switching networks, e.g. of packet switching networks
- H04L41/08—Configuration management of networks or network elements
- H04L41/0803—Configuration setting
- H04L41/0813—Configuration setting characterised by the conditions triggering a change of settings
- H04L41/082—Configuration setting characterised by the conditions triggering a change of settings the condition being updates or upgrades of network functionality
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Abstract
The invention discloses an intelligent platform management interface system, a substrate management controller and an implementation method and relates to the field of communication. The system comprises a frame and two IPMBs (intelligent platform management buses). A plurality of single plates and two network element management discs which can mutually be a primary disc and a secondary disc are inserted on the frame. When the BMCs of the single plates or the network element management discs receive a command for switching to primary nodes, the BMCs switch to the primary nodes automatically, the IPMBs collect the IPMI (intelligent platform management interface) information of other BMCs which do not switch to primary nodes, the IPMI information is transmitted back to the primary nodes, the primary nodes transmits the IPMI information to the corresponding BMUs through SPI interfaces, the BMU transmits the IPMI information to a network management server through a network element management channel, receives an IPMI instruction transmitted by the network management server and transmits the IPMI instruction to each BMC for execution, and the primary nodes can monitor other BMCs. The system has the advantages the BMCs are not divided into primary nodes and secondary nodes, each BMC can be switched into the primary node and manages other BMCs, and availability and reliability of the IPMI system can be increased effectively.
Description
Technical field
The present invention relates to the communications field, specifically relate to a kind of intelligent-platform management interface system, baseboard management controller and implementation method.
Background technology
IPMI (Intelligent Platfrom Management Interface, IPMI) originates from server field, the unified standard that to be each equipment vendors release in order to better management and Control Server.User utilizes IPMI can the physical electrical feature of remote monitoring server, as temperature, voltage, fan work, Power Supply Monitoring etc.
Increasingly mature along with communication facilities, user is also more and more higher to the reliability of product, maintainable requirement.In not traffic affecting situation, increase the outer intelligent management system of band become the direction that each telecommunications vendor product develop.IPMI becomes a kind of well solution, is introduced in ATCA (Advanced Telecom Computing Architecture, senior communication computer framework) specification.
Existingly meet employing business and IPMI completely independently framework in the communication facilities of ATCA specification, two cover management systems in system, will be comprised.A set of responsible service management, comprises the NE management dish in webmaster, frame and the veneer controller on veneer; Another set of is IPMI system, comprises the rack management device in system administration manager, frame and the IPMI controller on veneer.
In existing IPMI system, the host node of rack management device is by IPMB (Intelligent Platfrom Management Bus, Intelligent Platform Management Bus) bus communicates with the IPMI controller on each veneer, carried out the control of IPMI information.When the host node of rack management device not in place or abnormal time, whole system cannot work.When IPMB interface or bus malfunctions, the IPMI controller on veneer has just become information island.When existing IPMI system relates to multiple frame, the problem of system group network can the complicacy that connects of further increase system, reduces availability and the reliability of whole IPMI system.
Summary of the invention
The object of the invention is the deficiency in order to overcome above-mentioned background technology, a kind of intelligent-platform management interface system, baseboard management controller and implementation method are provided, BMC in IPMI system is physically regardless of host node with from node, each BMC can both switch to host node, manage other BMC, effectively can improve availability and the reliability of IPMI system.
The invention provides a kind of intelligent-platform management interface system, comprise 1 frame and 2 Intelligent Platform Management Bus IPMB, described frame is inserted with some veneers and 2 active and standby each other NE management dishes, each veneer is provided with first substrate Management Controller BMC and the first veneer administrative unit BMU, and each NE management dish is provided with the 2nd BMC and the 2nd BMU; A BMC on each veneer is all connected with 2 articles of IPMB buses, a BMC on each veneer is all connected with the BMU on this veneer by Serial Peripheral Interface SPI, 2nd BMC of each NE management dish is all connected with 2 articles of IPMB buses, and the 2nd BMC of each NE management dish is all connected with the 2nd BMU of this NE management dish by SPI interface;
When a BMC on veneer or the 2nd BMC of NE management dish receives the configuration order switching to host node, automatically switch to host node, article 2, IPMB bus collects the IPMI IPMI information of all the other BMC except host node, return IPMI information again to this host node, this host node transmits IPMI information to the BMU corresponding with this host node by SPI interface, IPMI information to be sent in NM server by NE management passage and to show by this BMU, and receive the IPMI steering order that NM server sends, again IPMI steering order is issued to each BMC to perform, finally realize the monitoring of this host node to all the other BMC.
On the basis of technique scheme, a BMC on described veneer comprises the first power-on and power-off administrative unit, the first power supply supervision unit, the first temperature collecting cell, the first fan control unit, the first upgrade unit, veneer maintenance information memory cell, first user interface, wherein:
First power-on and power-off administrative unit is used for: coordinate with the first power supply supervision unit, jointly completes the power-on and power-off of the BMC on veneer;
First power supply supervision unit for: the supply voltage of a BMC, electric current and power on monitoring veneer, realize switch electric control; Coordinate with the first power-on and power-off administrative unit, jointly complete power-on and power-off sequential;
The temperature monitored for the temperature of a BMC on monitoring veneer, and is dealt into the first fan control unit by the first temperature collecting cell;
First fan control unit is used for: the temperature sent according to the first temperature collecting cell, realizes the Based Intelligent Control to fan;
First upgrade unit for: the software of the BMC on veneer is upgraded;
Veneer maintenance information memory cell is used for: the production information storing veneer, stores the material information of on-the-spot replaceable device, stores the upgrade and repair record of veneer;
First user interface is used for: by the interface of the user interface UI based on serial ports, realizes the local interface display to intelligent management platform information and function maintenance.
On the basis of technique scheme, the flow process of the BMC work on described veneer is as follows:
S1, Board Power up;
After S2, Board Power up, the BMC acquiescence on veneer is started working from node module, and power supply rear class temporarily disconnects, and veneer does not work, and a BMC reads the electrifying startup pattern configured in veneer maintenance information;
S3, judge that electrifying startup pattern is controlled starting pattern or not controlled starting pattern, if controlled starting pattern, then forward step S5 to; If not controlled starting pattern, then forward step S4 to;
S4, control rear class power switch are connected, and forward step S5 to;
S5, wait host node issue electrifying startup order, and configuration of IP MB interface, forwards step S6 to;
S6, complete IPMB interface configuration after, the performance monitoring of the peripheral states such as cut-in voltage, power consumption and temperature, and report monitor message, forwards step S7 to;
The IPMI steering order that S7, wait host node issue also performs, and forwards step S8 to;
S8, unlatching first user interface, wait for user's inquiry and control command.
On the basis of technique scheme, 2nd BMC of described NE management dish comprises IPMI information collection unit, the second power-on and power-off administrative unit, second source monitoring unit, the second temperature collecting cell, the second fan control unit, the second upgrade unit, NE management dish maintenance information storage unit, the second user interface, wherein:
IPMI information collection unit is used for: when the 2nd BMC of NE management dish switches to host node, and the IPMI information collection unit of the 2nd BMC collects the IPMI information of all the other BMC except this host node by 2 articles of IPMB buses;
Second power-on and power-off administrative unit is used for: coordinate with second source monitoring unit, jointly completes the power-on and power-off of the 2nd BMC on NE management dish;
Second source monitoring unit, for the supply voltage of: the 2nd BMC on monitoring NE management dish, electric current and power, realizes switch electric control; Coordinate with the second power-on and power-off administrative unit, jointly complete power-on and power-off sequential;
The temperature monitored for the temperature of the 2nd BMC on monitoring NE management dish, and is dealt into the second fan control unit by the second temperature collecting cell;
Second fan control unit is used for: the temperature sent according to the second temperature collecting cell, realizes the Based Intelligent Control to fan;
Second upgrade unit for: the software of the 2nd BMC on NE management dish is upgraded;
NE management dish maintenance information storage unit is used for: the production information storing NE management dish, stores the material information of on-the-spot replaceable device, stores the upgrade and repair record of NE management dish;
Second user interface is used for: by the interface of the user UI based on serial ports, realizes the local interface display to intelligent management platform information and function maintenance.
On the basis of technique scheme, the flow process of the 2nd BMC work of described NE management dish is as follows:
After NE management dish powers on, the 2nd BMC acquiescence on NE management dish is started working from node module, and power supply rear class temporarily disconnects, and NE management dish does not work, and the 2nd BMC reads the electrifying startup pattern configured in NE management dish maintenance information;
Electrifying startup pattern be not controlled starting pattern time, control rear class power switch and connect, wait for that host node issues electrifying startup order, configuration of IP MB interface; When electrifying startup pattern is controlled starting pattern, directly wait for that host node issues electrifying startup order, configuration of IP MB interface;
After completing IPMB interface configuration, the performance monitoring of the peripheral states such as cut-in voltage, power consumption and temperature, and report monitor message; Wait for the IPMI steering order that host node issues and perform; Open the second user interface, wait for user's inquiry and control command.
The present invention also provides the implementation method of above-mentioned intelligent-platform management interface system, comprises the following steps:
After Board Power up, the BMC acquiescence on veneer is started working from node module, and power supply rear class temporarily disconnects, and veneer does not work, and a BMC reads the electrifying startup pattern configured in veneer maintenance information; Electrifying startup pattern be not controlled starting pattern time, control rear class power switch and connect, wait for that host node issues electrifying startup order, configuration of IP MB interface; When electrifying startup pattern is controlled starting pattern, directly wait for that host node issues electrifying startup order, configuration of IP MB interface; After completing IPMB interface configuration, the performance monitoring of the peripheral states such as cut-in voltage, power consumption and temperature, and report monitor message; Wait for the IPMI steering order that host node issues and perform; Open first user interface, wait for user's inquiry and control command;
After NE management dish powers on, the 2nd BMC acquiescence on NE management dish is started working from node module, and power supply rear class temporarily disconnects, and NE management dish does not work, and the 2nd BMC reads the electrifying startup pattern configured in NE management dish maintenance information; Electrifying startup pattern be not controlled starting pattern time, control rear class power switch and connect, wait for that host node issues electrifying startup order, configuration of IP MB interface; When electrifying startup pattern is controlled starting pattern, directly wait for that host node issues electrifying startup order, configuration of IP MB interface; After completing IPMB interface configuration, the performance monitoring of the peripheral states such as cut-in voltage, power consumption and temperature, and report monitor message; Wait for the IPMI steering order that host node issues and perform; Open the second user interface, wait for user's inquiry and control command.
The present invention also provides the baseboard management controller on a kind of veneer, comprise the first power-on and power-off administrative unit, the first power supply supervision unit, the first temperature collecting cell, the first fan control unit, the first upgrade unit, veneer maintenance information memory cell, first user interface, wherein:
First power-on and power-off administrative unit is used for: coordinate with the first power supply supervision unit, jointly completes the power-on and power-off of the baseboard management controller on veneer;
First power supply supervision unit for: the supply voltage of baseboard management controller, electric current and power on monitoring veneer, realize switch electric control; Coordinate with the first power-on and power-off administrative unit, jointly complete power-on and power-off sequential;
The temperature monitored for the temperature of baseboard management controller on monitoring veneer, and is dealt into the first fan control unit by the first temperature collecting cell;
First fan control unit is used for: the temperature sent according to the first temperature collecting cell, realizes the Based Intelligent Control to fan;
First upgrade unit for: the software of the baseboard management controller on veneer is upgraded;
Veneer maintenance information memory cell is used for: the production information storing veneer, stores the material information of on-the-spot replaceable device, stores the upgrade and repair record of veneer;
First user interface is used for: by the interface of the user interface UI based on serial ports, realizes the local interface display to intelligent management platform information and function maintenance.
On the basis of technique scheme, the flow process of the baseboard management controller work on described veneer is as follows:
S1, Board Power up;
After S2, Board Power up, the baseboard management controller acquiescence on veneer is started working from node module, and power supply rear class temporarily disconnects, and veneer does not work, and baseboard management controller reads the electrifying startup pattern configured in veneer maintenance information;
S3, judge that electrifying startup pattern is controlled starting pattern or not controlled starting pattern, if controlled starting pattern, then forward step S5 to; If not controlled starting pattern, then forward step S4 to;
S4, control rear class power switch are connected, and forward step S5 to;
S5, wait host node issue electrifying startup order, and configuration of IP MB interface, forwards step S6 to;
S6, complete IPMB interface configuration after, the performance monitoring of the peripheral states such as cut-in voltage, power consumption and temperature, and report monitor message, forwards step S7 to;
The IPMI steering order that S7, wait host node issue also performs, and forwards step S8 to;
S8, unlatching first user interface, wait for user's inquiry and control command.
The present invention also provides a kind of baseboard management controller of NE management dish, comprise IPMI information collection unit, the second power-on and power-off administrative unit, second source monitoring unit, the second temperature collecting cell, the second fan control unit, the second upgrade unit, NE management dish maintenance information storage unit, the second user interface, wherein:
IPMI information collection unit is used for: when the baseboard management controller of NE management dish switches to host node, and the IPMI information collection unit of baseboard management controller collects the IPMI information of all the other BMC except this host node by 2 IPMB buses;
Second power-on and power-off administrative unit is used for: coordinate with second source monitoring unit, jointly completes the power-on and power-off of the baseboard management controller on NE management dish;
Second source monitoring unit, for the supply voltage of: the baseboard management controller on monitoring NE management dish, electric current and power, realizes switch electric control; Coordinate with the second power-on and power-off administrative unit, jointly complete power-on and power-off sequential;
The temperature monitored for the temperature of the baseboard management controller on monitoring NE management dish, and is dealt into the second fan control unit by the second temperature collecting cell;
Second fan control unit is used for: the temperature sent according to the second temperature collecting cell, realizes the Based Intelligent Control to fan;
Second upgrade unit for: the software of the baseboard management controller on NE management dish is upgraded;
NE management dish maintenance information storage unit is used for: the production information storing NE management dish, stores the material information of on-the-spot replaceable device, stores the upgrade and repair record of NE management dish;
Second user interface is used for: by the interface of the user UI based on serial ports, realizes the local interface display to intelligent management platform information and function maintenance.
On the basis of technique scheme, the flow process of the baseboard management controller work of described NE management dish is as follows:
After NE management dish powers on, baseboard management controller acquiescence on NE management dish is started working from node module, power supply rear class temporarily disconnects, and NE management dish does not work, and baseboard management controller reads the electrifying startup pattern configured in NE management dish maintenance information;
Electrifying startup pattern be not controlled starting pattern time, control rear class power switch and connect, wait for that host node issues electrifying startup order, configuration of IP MB interface; When electrifying startup pattern is controlled starting pattern, directly wait for that host node issues electrifying startup order, configuration of IP MB interface;
After completing IPMB interface configuration, the performance monitoring of the peripheral states such as cut-in voltage, power consumption and temperature, and report monitor message; Wait for the IPMI steering order that host node issues and perform; Open the second user interface, wait for user's inquiry and control command.
Compared with prior art, advantage of the present invention is as follows:
(1) IPMI system of the present invention provides two IPMB buses, from original fixing host node and different from node mode, BMC in this IPMI system is physically regardless of host node with from node, and each BMC can switch to host node, manages other BMC.Switch to the BMC of host node to be switched between two IPMB buses by the communication between other BMC, effectively can improve the reliability of IPMB bus.When host node not time, by being host node by configuring other BMC, completion system function can be carried out, improving availability and the reliability of IPMI system.
(2) IPMI system and Element management system combine by the present invention, BMC is connected with BMU by SPI interface, utilize existing NE management plane channel to realize the transmission of IPMI information, existing webmaster and network element group network realize the management of multiple IPMI system.In addition, BMC can also utilize the Ethernet interface on BMU, is realized the remote monitoring of single BMC by Ethernet and user UI.On the basis of existing communication equipment, only need spend very little cost, just can realize local monitor and the remote monitoring of the individual node of IPMI information, and the remote monitoring of multiple IPMI system, IPMI system is become and is simple and easy to use.
Accompanying drawing explanation
Fig. 1 is the structured flowchart of IPMI system group network in the embodiment of the present invention.
Fig. 2 is the structured flowchart of IPMI system in the embodiment of the present invention.
Fig. 3 is the structural representation that in the embodiment of the present invention, BMC with BMU is connected.
Fig. 4 is the structured flowchart of the BMC in the embodiment of the present invention on veneer.
Fig. 5 is the process flow diagram of the BMC work in the embodiment of the present invention on veneer.
Embodiment
Below in conjunction with drawings and the specific embodiments, the present invention is described in further detail.
Shown in Figure 1, the embodiment of the present invention provides a kind of intelligent-platform management interface system, comprise 1 frame and 2 IPMB buses, frame is inserted with some veneers and 2 active and standby each other NE management dishes, each veneer is provided with a BMC (Baseboard Management Controller, baseboard management controller) and a BMU (Board Manage Unit, veneer administrative unit), each NE management dish is provided with the 2nd BMC and the 2nd BMU.Shown in Figure 2, a BMC on each veneer is all connected with 2 articles of IPMB buses, shown in Figure 3, the BMC on each veneer is all connected with the BMU on this veneer by SPI (Serial Peripheral Interface, Serial Peripheral Interface) interface.Shown in Figure 2, the 2nd BMC of each NE management dish is all connected with 2 articles of IPMB buses, shown in Figure 3, and the 2nd BMC of each NE management dish is all connected with the 2nd BMU of this NE management dish by SPI interface.
When a BMC on veneer or the 2nd BMC of NE management dish receives the configuration order switching to host node, automatically switch to host node, article 2, IPMB bus collects the IPMI information of all the other BMC except this host node, return IPMI information again to this host node, this host node transmits IPMI information to the BMU corresponding with this host node by SPI interface, IPMI information to be sent in NM server by NE management passage and to show by this BMU, and receive the IPMI steering order that NM server sends, again IPMI steering order is issued to each BMC to perform, finally realize the monitoring of this host node to all the other BMC.
BMC is connected with BMU by SPI interface, utilizes existing NE management plane channel to realize the transmission of IPMI information, existing webmaster and network element group network realize the management of multiple IPMI system.In addition, BMC can also utilize the Ethernet interface on BMU, is realized the remote monitoring of single BMC by Ethernet and user UI.
Shown in Figure 4, a BMC on veneer comprises the first power-on and power-off administrative unit, the first power supply supervision unit, the first temperature collecting cell, the first fan control unit, the first upgrade unit, veneer maintenance information memory cell, first user interface, wherein:
First power-on and power-off administrative unit is used for: coordinate with the first power supply supervision unit, jointly completes the power-on and power-off of the BMC on veneer;
First power supply supervision unit for: the supply voltage of a BMC, electric current and power on monitoring veneer, realize switch electric control; Coordinate with the first power-on and power-off administrative unit, jointly complete power-on and power-off sequential;
The temperature monitored for the temperature of a BMC on monitoring veneer, and is dealt into the first fan control unit by the first temperature collecting cell;
First fan control unit is used for: the temperature sent according to the first temperature collecting cell, realizes the Based Intelligent Control to fan;
First upgrade unit for: the software of the BMC on veneer is upgraded;
Veneer maintenance information memory cell is used for: the production information storing veneer, stores the material information of on-the-spot replaceable device, stores the upgrade and repair record of veneer;
First user interface is used for: by the interface of the user UI (User Interface, user interface) based on serial ports, realizes the local interface display to intelligent management platform information and function maintenance.
When actual production, the user interface shown in Fig. 4 is first utilized to complete the configuration of veneer maintenance information, comprise PCB (Printed Circuit Board, printed circuit board (PCB)) version number, produce date, the material number of on-the-spot replaceable device, power initiation pattern, the information such as upgrade and repair record are added when follow-up execution corresponding action again.
Shown in Figure 5, the flow process of the BMC work on veneer is as follows:
S1, Board Power up;
After S2, Board Power up, the BMC acquiescence on veneer is started working from node module, and power supply rear class temporarily disconnects, and veneer does not work, and a BMC reads the electrifying startup pattern configured in veneer maintenance information;
S3, judge that electrifying startup pattern is controlled starting pattern or not controlled starting pattern, if controlled starting pattern, then forward step S5 to; If not controlled starting pattern, then forward step S4 to;
S4, control rear class power switch are connected, and forward step S5 to;
S5, wait host node issue electrifying startup order, and configuration of IP MB interface, forwards step S6 to;
S6, complete IPMB interface configuration after, the performance monitoring of the peripheral states such as cut-in voltage, power consumption and temperature, and report monitor message, forwards step S7 to;
The IPMI steering order that S7, wait host node issue also performs, and forwards step S8 to;
S8, unlatching first user interface, wait for user's inquiry and control command.
2nd BMC of NE management dish comprises IPMI information collection unit, the second power-on and power-off administrative unit, second source monitoring unit, the second temperature collecting cell, the second fan control unit, the second upgrade unit, NE management dish maintenance information storage unit, the second user interface, wherein:
IPMI information collection unit is used for: when the 2nd BMC of NE management dish switches to host node, and the IPMI information collection unit of the 2nd BMC collects the IPMI information of all the other BMC except this host node by 2 articles of IPMB buses;
Second power-on and power-off administrative unit is used for: coordinate with second source monitoring unit, jointly completes the power-on and power-off of the 2nd BMC on NE management dish;
Second source monitoring unit, for the supply voltage of: the 2nd BMC on monitoring NE management dish, electric current and power, realizes switch electric control; Coordinate with the second power-on and power-off administrative unit, jointly complete power-on and power-off sequential;
The temperature monitored for the temperature of the 2nd BMC on monitoring NE management dish, and is dealt into the second fan control unit by the second temperature collecting cell;
Second fan control unit is used for: the temperature sent according to the second temperature collecting cell, realizes the Based Intelligent Control to fan;
Second upgrade unit for: the software of the 2nd BMC on NE management dish is upgraded;
NE management dish maintenance information storage unit is used for: the production information storing NE management dish, stores the material information of on-the-spot replaceable device, stores the upgrade and repair record of NE management dish;
Second user interface is used for: by the interface of the user UI based on serial ports, realizes the local interface display to intelligent management platform information and function maintenance.
2nd BMC of NE management dish is substantially identical with the function of the BMC on veneer, and difference is only: an IPMI information function that the 2nd BMC of NE management dish is more than the BMC on veneer.
The flow process of the 2nd BMC work of NE management dish is as follows:
After NE management dish powers on, the 2nd BMC acquiescence on NE management dish is started working from node module, and power supply rear class temporarily disconnects, and NE management dish does not work, and the 2nd BMC reads the electrifying startup pattern configured in NE management dish maintenance information;
Electrifying startup pattern be not controlled starting pattern time, control rear class power switch and connect, wait for that host node issues electrifying startup order, configuration of IP MB interface; When electrifying startup pattern is controlled starting pattern, directly wait for that host node issues electrifying startup order, configuration of IP MB interface;
After completing IPMB interface configuration, the performance monitoring of the peripheral states such as cut-in voltage, power consumption and temperature, and report monitor message; Wait for the IPMI steering order that host node issues and perform; Open the second user interface, wait for user's inquiry and control command.
The embodiment of the present invention also provides a kind of implementation method of above-mentioned intelligent-platform management interface system, comprises the following steps:
After Board Power up, the BMC acquiescence on veneer is started working from node module, and power supply rear class temporarily disconnects, and veneer does not work, and a BMC reads the electrifying startup pattern configured in veneer maintenance information; Electrifying startup pattern be not controlled starting pattern time, control rear class power switch and connect, wait for that host node issues electrifying startup order, configuration of IP MB interface; When electrifying startup pattern is controlled starting pattern, directly wait for that host node issues electrifying startup order, configuration of IP MB interface; After completing IPMB interface configuration, the performance monitoring of the peripheral states such as cut-in voltage, power consumption and temperature, and report monitor message; Wait for the IPMI steering order that host node issues and perform; Open first user interface, wait for user's inquiry and control command.
After NE management dish powers on, the 2nd BMC acquiescence on NE management dish is started working from node module, and power supply rear class temporarily disconnects, and NE management dish does not work, and the 2nd BMC reads the electrifying startup pattern configured in NE management dish maintenance information; Electrifying startup pattern be not controlled starting pattern time, control rear class power switch and connect, wait for that host node issues electrifying startup order, configuration of IP MB interface; When electrifying startup pattern is controlled starting pattern, directly wait for that host node issues electrifying startup order, configuration of IP MB interface; After completing IPMB interface configuration, the performance monitoring of the peripheral states such as cut-in voltage, power consumption and temperature, and report monitor message; Wait for the IPMI steering order that host node issues and perform; Open the second user interface, wait for user's inquiry and control command.
IPMI system in the embodiment of the present invention provides two IPMB buses, and the BMC in IPMI system is physically regardless of host node with from node, and each BMC can switch to host node, manages other BMC.Switch to the BMC of host node to be switched between two IPMB buses by the communication between other BMC, effectively can improve the reliability of IPMB bus.When host node not time, by being host node by configuring other BMC, completion system function can be carried out, improving availability and the reliability of equipment.
Those skilled in the art can carry out various modifications and variations to the embodiment of the present invention, if these amendments and modification are within the scope of the claims in the present invention and equivalent technologies thereof, then these revise and modification also within protection scope of the present invention.
The prior art that the content do not described in detail in instructions is known to the skilled person.
Claims (10)
1. an intelligent-platform management interface system, comprise 1 frame, it is characterized in that: this system also comprises 2 Intelligent Platform Management Bus IPMB, described frame is inserted with some veneers and 2 active and standby each other NE management dishes, each veneer is provided with first substrate Management Controller BMC and the first veneer administrative unit BMU, and each NE management dish is provided with the 2nd BMC and the 2nd BMU; A BMC on each veneer is all connected with 2 articles of IPMB buses, a BMC on each veneer is all connected with the BMU on this veneer by Serial Peripheral Interface SPI, 2nd BMC of each NE management dish is all connected with 2 articles of IPMB buses, and the 2nd BMC of each NE management dish is all connected with the 2nd BMU of this NE management dish by SPI interface;
When a BMC on veneer or the 2nd BMC of NE management dish receives the configuration order switching to host node, automatically switch to host node, article 2, IPMB bus collects the IPMI IPMI information of all the other BMC except host node, return IPMI information again to this host node, this host node transmits IPMI information to the BMU corresponding with this host node by SPI interface, IPMI information to be sent in NM server by NE management passage and to show by this BMU, and receive the IPMI steering order that NM server sends, again IPMI steering order is issued to each BMC to perform, finally realize the monitoring of this host node to all the other BMC.
2. intelligent-platform management interface system as claimed in claim 1, it is characterized in that: the BMC on described veneer comprises the first power-on and power-off administrative unit, the first power supply supervision unit, the first temperature collecting cell, the first fan control unit, the first upgrade unit, veneer maintenance information memory cell, first user interface, wherein:
First power-on and power-off administrative unit is used for: coordinate with the first power supply supervision unit, jointly completes the power-on and power-off of the BMC on veneer;
First power supply supervision unit for: the supply voltage of a BMC, electric current and power on monitoring veneer, realize switch electric control; Coordinate with the first power-on and power-off administrative unit, jointly complete power-on and power-off sequential;
The temperature monitored for the temperature of a BMC on monitoring veneer, and is dealt into the first fan control unit by the first temperature collecting cell;
First fan control unit is used for: the temperature sent according to the first temperature collecting cell, realizes the Based Intelligent Control to fan;
First upgrade unit for: the software of the BMC on veneer is upgraded;
Veneer maintenance information memory cell is used for: the production information storing veneer, stores the material information of on-the-spot replaceable device, stores the upgrade and repair record of veneer;
First user interface is used for: by the interface of the user interface UI based on serial ports, realizes the local interface display to intelligent management platform information and function maintenance.
3. intelligent-platform management interface system as claimed in claim 2, is characterized in that: the flow process of the BMC work on described veneer is as follows:
S1, Board Power up;
After S2, Board Power up, the BMC acquiescence on veneer is started working from node module, and power supply rear class temporarily disconnects, and veneer does not work, and a BMC reads the electrifying startup pattern configured in veneer maintenance information;
S3, judge that electrifying startup pattern is controlled starting pattern or not controlled starting pattern, if controlled starting pattern, then forward step S5 to; If not controlled starting pattern, then forward step S4 to;
S4, control rear class power switch are connected, and forward step S5 to;
S5, wait host node issue electrifying startup order, and configuration of IP MB interface, forwards step S6 to;
S6, complete IPMB interface configuration after, the performance monitoring of the peripheral states such as cut-in voltage, power consumption and temperature, and report monitor message, forwards step S7 to;
The IPMI steering order that S7, wait host node issue also performs, and forwards step S8 to;
S8, unlatching first user interface, wait for user's inquiry and control command.
4. intelligent-platform management interface system as claimed in claim 2 or claim 3, it is characterized in that: the 2nd BMC of described NE management dish comprises IPMI information collection unit, the second power-on and power-off administrative unit, second source monitoring unit, the second temperature collecting cell, the second fan control unit, the second upgrade unit, NE management dish maintenance information storage unit, the second user interface, wherein:
IPMI information collection unit is used for: when the 2nd BMC of NE management dish switches to host node, and the IPMI information collection unit of the 2nd BMC collects the IPMI information of all the other BMC except this host node by 2 articles of IPMB buses;
Second power-on and power-off administrative unit is used for: coordinate with second source monitoring unit, jointly completes the power-on and power-off of the 2nd BMC on NE management dish;
Second source monitoring unit, for the supply voltage of: the 2nd BMC on monitoring NE management dish, electric current and power, realizes switch electric control; Coordinate with the second power-on and power-off administrative unit, jointly complete power-on and power-off sequential;
The temperature monitored for the temperature of the 2nd BMC on monitoring NE management dish, and is dealt into the second fan control unit by the second temperature collecting cell;
Second fan control unit is used for: the temperature sent according to the second temperature collecting cell, realizes the Based Intelligent Control to fan;
Second upgrade unit for: the software of the 2nd BMC on NE management dish is upgraded;
NE management dish maintenance information storage unit is used for: the production information storing NE management dish, stores the material information of on-the-spot replaceable device, stores the upgrade and repair record of NE management dish;
Second user interface is used for: by the interface of the user UI based on serial ports, realizes the local interface display to intelligent management platform information and function maintenance.
5. intelligent-platform management interface system as claimed in claim 4, is characterized in that: the flow process of the 2nd BMC work of described NE management dish is as follows:
After NE management dish powers on, the 2nd BMC acquiescence on NE management dish is started working from node module, and power supply rear class temporarily disconnects, and NE management dish does not work, and the 2nd BMC reads the electrifying startup pattern configured in NE management dish maintenance information;
Electrifying startup pattern be not controlled starting pattern time, control rear class power switch and connect, wait for that host node issues electrifying startup order, configuration of IP MB interface; When electrifying startup pattern is controlled starting pattern, directly wait for that host node issues electrifying startup order, configuration of IP MB interface;
After completing IPMB interface configuration, the performance monitoring of the peripheral states such as cut-in voltage, power consumption and temperature, and report monitor message; Wait for the IPMI steering order that host node issues and perform; Open the second user interface, wait for user's inquiry and control command.
6. the implementation method of the intelligent-platform management interface system according to any one of claim 1 to 5, is characterized in that, comprises the following steps:
After Board Power up, the BMC acquiescence on veneer is started working from node module, and power supply rear class temporarily disconnects, and veneer does not work, and a BMC reads the electrifying startup pattern configured in veneer maintenance information; Electrifying startup pattern be not controlled starting pattern time, control rear class power switch and connect, wait for that host node issues electrifying startup order, configuration of IP MB interface; When electrifying startup pattern is controlled starting pattern, directly wait for that host node issues electrifying startup order, configuration of IP MB interface; After completing IPMB interface configuration, the performance monitoring of the peripheral states such as cut-in voltage, power consumption and temperature, and report monitor message; Wait for the IPMI steering order that host node issues and perform; Open first user interface, wait for user's inquiry and control command;
After NE management dish powers on, the 2nd BMC acquiescence on NE management dish is started working from node module, and power supply rear class temporarily disconnects, and NE management dish does not work, and the 2nd BMC reads the electrifying startup pattern configured in NE management dish maintenance information; Electrifying startup pattern be not controlled starting pattern time, control rear class power switch and connect, wait for that host node issues electrifying startup order, configuration of IP MB interface; When electrifying startup pattern is controlled starting pattern, directly wait for that host node issues electrifying startup order, configuration of IP MB interface; After completing IPMB interface configuration, the performance monitoring of the peripheral states such as cut-in voltage, power consumption and temperature, and report monitor message; Wait for the IPMI steering order that host node issues and perform; Open the second user interface, wait for user's inquiry and control command.
7. the baseboard management controller on a veneer, it is characterized in that: the baseboard management controller on described veneer comprises the first power-on and power-off administrative unit, the first power supply supervision unit, the first temperature collecting cell, the first fan control unit, the first upgrade unit, veneer maintenance information memory cell, first user interface, wherein:
First power-on and power-off administrative unit is used for: coordinate with the first power supply supervision unit, jointly completes the power-on and power-off of the baseboard management controller on veneer;
First power supply supervision unit for: the supply voltage of baseboard management controller, electric current and power on monitoring veneer, realize switch electric control; Coordinate with the first power-on and power-off administrative unit, jointly complete power-on and power-off sequential;
The temperature monitored for the temperature of baseboard management controller on monitoring veneer, and is dealt into the first fan control unit by the first temperature collecting cell;
First fan control unit is used for: the temperature sent according to the first temperature collecting cell, realizes the Based Intelligent Control to fan;
First upgrade unit for: the software of the baseboard management controller on veneer is upgraded;
Veneer maintenance information memory cell is used for: the production information storing veneer, stores the material information of on-the-spot replaceable device, stores the upgrade and repair record of veneer;
First user interface is used for: by the interface of the user interface UI based on serial ports, realizes the local interface display to intelligent management platform information and function maintenance.
8. the baseboard management controller on veneer as claimed in claim 7, is characterized in that: the flow process of the baseboard management controller work on described veneer is as follows:
S1, Board Power up;
After S2, Board Power up, the baseboard management controller acquiescence on veneer is started working from node module, and power supply rear class temporarily disconnects, and veneer does not work, and baseboard management controller reads the electrifying startup pattern configured in veneer maintenance information;
S3, judge that electrifying startup pattern is controlled starting pattern or not controlled starting pattern, if controlled starting pattern, then forward step S5 to; If not controlled starting pattern, then forward step S4 to;
S4, control rear class power switch are connected, and forward step S5 to;
S5, wait host node issue electrifying startup order, and configuration of IP MB interface, forwards step S6 to;
S6, complete IPMB interface configuration after, the performance monitoring of the peripheral states such as cut-in voltage, power consumption and temperature, and report monitor message, forwards step S7 to;
The IPMI steering order that S7, wait host node issue also performs, and forwards step S8 to;
S8, unlatching first user interface, wait for user's inquiry and control command.
9. the baseboard management controller of a NE management dish, it is characterized in that: the baseboard management controller of described NE management dish comprises IPMI information collection unit, the second power-on and power-off administrative unit, second source monitoring unit, the second temperature collecting cell, the second fan control unit, the second upgrade unit, NE management dish maintenance information storage unit, the second user interface, wherein:
IPMI information collection unit is used for: when the baseboard management controller of NE management dish switches to host node, and the IPMI information collection unit of baseboard management controller collects the IPMI information of all the other BMC except this host node by 2 IPMB buses;
Second power-on and power-off administrative unit is used for: coordinate with second source monitoring unit, jointly completes the power-on and power-off of the baseboard management controller on NE management dish;
Second source monitoring unit, for the supply voltage of: the baseboard management controller on monitoring NE management dish, electric current and power, realizes switch electric control; Coordinate with the second power-on and power-off administrative unit, jointly complete power-on and power-off sequential;
The temperature monitored for the temperature of the baseboard management controller on monitoring NE management dish, and is dealt into the second fan control unit by the second temperature collecting cell;
Second fan control unit is used for: the temperature sent according to the second temperature collecting cell, realizes the Based Intelligent Control to fan;
Second upgrade unit for: the software of the baseboard management controller on NE management dish is upgraded;
NE management dish maintenance information storage unit is used for: the production information storing NE management dish, stores the material information of on-the-spot replaceable device, stores the upgrade and repair record of NE management dish;
Second user interface is used for: by the interface of the user UI based on serial ports, realizes the local interface display to intelligent management platform information and function maintenance.
10. the baseboard management controller of NE management dish as claimed in claim 9, is characterized in that: the flow process of the baseboard management controller work of described NE management dish is as follows:
After NE management dish powers on, baseboard management controller acquiescence on NE management dish is started working from node module, power supply rear class temporarily disconnects, and NE management dish does not work, and baseboard management controller reads the electrifying startup pattern configured in NE management dish maintenance information;
Electrifying startup pattern be not controlled starting pattern time, control rear class power switch and connect, wait for that host node issues electrifying startup order, configuration of IP MB interface; When electrifying startup pattern is controlled starting pattern, directly wait for that host node issues electrifying startup order, configuration of IP MB interface;
After completing IPMB interface configuration, the performance monitoring of the peripheral states such as cut-in voltage, power consumption and temperature, and report monitor message; Wait for the IPMI steering order that host node issues and perform; Open the second user interface, wait for user's inquiry and control command.
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Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1983987A (en) * | 2006-05-12 | 2007-06-20 | 华为技术有限公司 | Monitor of rear card board in intelligent-platform management interface system |
CN101231612A (en) * | 2007-01-25 | 2008-07-30 | 宏正自动科技股份有限公司 | Intelligent platform supervision interface system and method |
CN102289402A (en) * | 2011-08-24 | 2011-12-21 | 浪潮电子信息产业股份有限公司 | Monitoring and managing method based on physical multi-partition computer architecture |
Family Cites Families (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101026480B (en) * | 2006-02-20 | 2010-05-12 | 华为技术有限公司 | IPMI subsystem and single chip power on method |
CN102724093B (en) * | 2012-06-26 | 2015-08-19 | 大唐移动通信设备有限公司 | A kind of ATCA machine frame and IPMB method of attachment thereof |
CN103678248A (en) * | 2012-09-24 | 2014-03-26 | 中国电子科技集团公司第三十二研究所 | FPGA equipment management system |
CN103281712B (en) * | 2013-04-27 | 2015-08-19 | 烽火通信科技股份有限公司 | Based on the communication base station and electric power monitoring and controlling system of IPMI |
-
2014
- 2014-09-25 CN CN201410499729.8A patent/CN104281511B/en active Active
- 2014-09-25 CN CN201710045874.2A patent/CN106850286B/en active Active
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1983987A (en) * | 2006-05-12 | 2007-06-20 | 华为技术有限公司 | Monitor of rear card board in intelligent-platform management interface system |
CN101231612A (en) * | 2007-01-25 | 2008-07-30 | 宏正自动科技股份有限公司 | Intelligent platform supervision interface system and method |
CN102289402A (en) * | 2011-08-24 | 2011-12-21 | 浪潮电子信息产业股份有限公司 | Monitoring and managing method based on physical multi-partition computer architecture |
Cited By (12)
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---|---|---|---|---|
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