CN111858411B - System and method for realizing out-of-band interaction of server Expander cards - Google Patents
System and method for realizing out-of-band interaction of server Expander cards Download PDFInfo
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- CN111858411B CN111858411B CN202010536169.4A CN202010536169A CN111858411B CN 111858411 B CN111858411 B CN 111858411B CN 202010536169 A CN202010536169 A CN 202010536169A CN 111858411 B CN111858411 B CN 111858411B
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- 238000006467 substitution reaction Methods 0.000 description 3
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F13/00—Interconnection of, or transfer of information or other signals between, memories, input/output devices or central processing units
- G06F13/14—Handling requests for interconnection or transfer
- G06F13/16—Handling requests for interconnection or transfer for access to memory bus
- G06F13/1668—Details of memory controller
Abstract
The invention provides a system and a method for realizing the out-of-band interaction of a server Expander card, wherein the system comprises the following steps: the remote management module is communicated with a Baseboard Management Controller (BMC) through an LAN port, the BMC is communicated with a CPLD through an I2C bus, the CPLD is communicated with an Expander chip through a UART bus, and finally the remote management module accesses the Expander chip out of band; the baseboard management controller BMC monitors the state of the hard disk through the CPLD, and when the abnormal state of the hard disk is monitored, the baseboard management controller BMC notifies the remote management module through the LAN port, communicates with the Expander chip through the CPLD and the UART bus, acquires an Expander chip log, and stores the log into the FLASH. The invention realizes the information interaction between the out-of-band card and the Expander card through the BMC, the CPLD and the LAN port.
Description
Technical Field
The invention belongs to the technical field of server debugging, and particularly relates to a system and a method for realizing out-of-band interaction of a server Expander card.
Background
SAS (Serial Attached SCSI), i.e., serial SCSI technology, is a disk connection technology. Expander is essentially a SAS switch that can connect multiple SAS devices to a limited number of Host ports. The switching architecture of SAS may allow for flexible expansion of SAS devices, where several SAS devices are connected together to form a SAS domain, and a SAS domain may theoretically have up to 16128 devices connected. The Expander card is the core component device of the SAS domain, and connects a plurality of SAS devices together, including SAS array cards, SAS hard disks, etc., thereby forming the SAS domain, so that any two devices in the SAS domain can access each other through the SAS address of the other, and the role of the Expander in the SAS domain is similar to the role of switches and routers in ethernet.
When the storage system of the server system is abnormal and the Expander card needs to be checked, under the general condition, due to the fact that a customer runs a service, the customer cannot access the Expander chip through an in-band tool corresponding to the Expander chip. The Expander card comprises an Expander chip, the Expander chip comprises a plurality of groups of UART pins, and the UART pins are connected to the 1 x 4pin header through hardware lines. When the configuration condition or log on the Expander card is required to be checked when the exception is caused, the case is required to be opened, the PC is connected with the UART interface of the Expander card by using a corresponding tool, and communication is established through a special command or software, so that information interaction with the Expander chip is realized. Because the log generated in the next time cannot be stored after the Expander card is powered off, for the server which is already arranged in the cabinet, the log and other information cannot be stored by connecting the Expander card to the server through a serial port when the fault condition is reserved.
Therefore, it is very necessary to provide a system and a method for implementing out-of-band interaction of the server Expander card in order to overcome the above-mentioned drawbacks in the prior art.
Disclosure of Invention
Aiming at the defect that the information of the Expander card acquired through the serial port in the band in the prior art cannot keep the log information in the fault, the invention provides a system and a method for realizing the out-of-band interaction of the Expander card of the server, so as to solve the technical problem.
In a first aspect, the invention provides a system for realizing out-of-band interaction of a server Expander card, which comprises the Expander card and a Baseboard Management Controller (BMC);
the Expander card is provided with a CPLD and an Expander chip;
the base plate management controller BMC is connected with the CPLD through an I2C bus, and the CPLD is connected with the Expander chip through a UART bus and an SGPIO bus;
the baseboard management controller BMC is connected with an LAN port and FLASH, and the LAN port is connected with a remote management module;
the remote management module is communicated with a Baseboard Management Controller (BMC) through an LAN port, the BMC is communicated with a CPLD through an I2C bus, the CPLD is communicated with an Expander chip through a UART bus, and finally the remote management module accesses the Expander chip out of band;
the baseboard management controller BMC monitors the state of the hard disk through the CPLD, and when the abnormal state of the hard disk is monitored, the baseboard management controller BMC notifies the remote management module through the LAN port, communicates with the Expander chip through the CPLD, acquires an Expander chip log, and stores the log into the FLASH.
Further, the baseboard management controller BMC, the LAN port and the FLASH are arranged on the mainboard. The baseboard management controller BMC provides an out-of-band access interface through the LAN port.
Further, the Expander chip is connected with an SAS/RAID card through a high-speed SAS cable;
the mainboard is also provided with a PCIE interface which is connected with the SAS/RAID card. The Expander chip is connected with the SAS/RAID card, and information interaction between the storage on the SAS/RAID card and the Expander chip is realized.
Further, the Expander chip is connected with a hard disk back plate;
the hard disk back plate is provided with a hard disk interface, and the hard disk interface is connected with the Expander chip through a high-speed SAS cable. The Expander chip is connected with the hard disk backboard, and information interaction between the hard disk backboard and the Expander chip is stored.
Furthermore, a plurality of HDD hard disk interfaces and a plurality of HDD hard disk indicating lamps are also arranged on the Expander card;
the number of the HDD hard disk interfaces is equal to that of the HDD hard disk indicator lamps, and the HDD hard disk interfaces correspond to the HDD hard disk indicator lamps one by one. The Expander chip realizes the interaction between the HDD hard disk and the SAS storage.
Further, the CPLD analyzes the SGPIO signal transmitted by the Expander chip to acquire the state of the hard disk, and controls the hard disk state indicator lamp according to the state of the hard disk. And the CPLD analyzes the SGPIO signal to acquire the state of the hard disk and controls a hard disk backboard and a hard disk state indicator lamp of the SAS/RAID card.
In a second aspect, the present invention provides a method for implementing out-of-band interaction of a server Expander card, including the following steps:
the remote management module is communicated with the Expander chip through the LAN port, the baseboard management controller BMC, the I2C bus, the CPLD and the UART bus in sequence, and finally the remote management module accesses the Expander chip out of band;
the baseboard management controller BMC monitors the state of the hard disk through the CPLD;
when the state of the hard disk is abnormal, the baseboard management controller BMC notifies the remote management module through the LAN port; meanwhile, the baseboard management controller BMC communicates with the Expander chip through the CPLD to acquire the Expander chip log and store the log into the FLASH.
Further, the CPLD monitors the hard disk state specifically:
the CPLD analyzes an SGPIO signal transmitted by the Expander chip to acquire the state of the hard disk;
and the CPLD controls the hard disk state indicator lamp according to the hard disk state.
Further, the hard disk state abnormity comprises hard disk dropping and hard disk alarming.
Further, when the system is initially electrified, the Expander chip outputs the current configuration information of the Expander chip and the log of the current electrifying process according to the UART signals received from the CPLD;
and after receiving the current configuration information of the Expander chip and the current power-on process log, the CPLD sends the current configuration information to the Baseboard Management Controller (BMC) and stores the current configuration information and the current power-on process log in the FLASH.
The beneficial effect of the invention is that,
the system and the method for realizing the out-of-band interaction of the Expander card of the server solve the problems that the Expander chip can only be connected through a serial port tool, the information interaction of the Expander card in the system is realized through the BMC and the CPLD, no additional hardware resource needs to be added, and the required debugging information of the Expander chip can be obtained in time conveniently by research personnel through the existing out-of-band management interface of the BMC. In addition, by monitoring the state of the hard disk by the existing BMC, when the hard disk in the system is abnormal, the BMC can store the information of the Expander card in real time, and the method has great significance for debugging the Expander chip.
In addition, the invention has reliable design principle, simple structure and very wide application prospect.
Therefore, compared with the prior art, the invention has prominent substantive features and remarkable progress, and the beneficial effects of the implementation are also obvious.
Drawings
In order to more clearly illustrate the embodiments or technical solutions in the prior art of the present invention, the drawings used in the description of the embodiments or prior art will be briefly described below, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.
FIG. 1 is a schematic diagram of the system architecture of the present invention;
FIG. 2 is a schematic flow diagram of the method of the present invention;
in the figure, 1-Expander card; 2-baseboard management controller BMC;3-CPLD;4-Expander chip; 5-LAN port; 6-remote management module; 7, a main board; 8-FLASH.
Detailed Description
In order to make those skilled in the art better understand the technical solution of the present invention, the technical solution in the embodiment of the present invention will be clearly and completely described below with reference to the drawings in the embodiment of the present invention, and it is obvious that the described embodiment is only a part of the embodiment of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Example 1:
as shown in fig. 1, the present invention provides a system for implementing out-of-band interaction of a server Expander card, including an Expander card 1 and a baseboard management controller BMC 2;
the Expander card 1 is provided with a CPLD 3 and an Expander chip 4;
the baseboard management controller BMC 2 is connected with the CPLD 3 through an I2C bus, and the CPLD 3 is connected with the Expander chip 4 through a UART bus and an SGPIO bus;
the baseboard management controller BMC 2 is connected with a LAN port 5 and a FLASH8, and the LAN port 5 is connected with a remote management module 6;
the remote management module 6 is communicated with the baseboard management controller BMC 2 through the LAN port 5, the baseboard management controller BMC 2 is communicated with the CPLD 3 through an I2C bus, the CPLD 3 is communicated with the Expander chip 4 through a UART bus, and finally the remote management module 6 accesses the Expander chip 4 out of band;
the baseboard management controller BMC 2 monitors the state of the hard disk through the CPLD 3, when the abnormal state of the hard disk is monitored, the baseboard management controller BMC 2 informs the remote management module 6 through the LAN port 5, and communicates with the Expander chip 4 through the CPLD 3 to acquire the log of the Expander chip 4 and store the log into the FLASH8; the CPLD 3 analyzes the SGPIO signal transmitted by the Expander chip 4 to obtain the state of the hard disk, and controls a hard disk state indicator lamp according to the state of the hard disk;
the baseboard management controller BMC 2, the LAN port 5 and the FLASH8 are arranged on the mainboard 7;
the Expander card 1 is also provided with a plurality of HDD hard disk interfaces and a plurality of HDD hard disk indicating lamps;
the number of the HDD hard disk interfaces is equal to that of the HDD hard disk indicator lamps, and the HDD hard disk interfaces correspond to the HDD hard disk indicator lamps one by one.
In the above embodiment 1, the Expander chip 4 is connected to an SAS/RAID card through a high-speed SAS cable;
the mainboard 7 is also provided with a PCIE interface which is connected with the SAS/RAID card;
the Expander chip 4 is connected with a hard disk backboard;
the hard disk back plate is provided with a hard disk interface, and the hard disk interface is connected with the Expander chip 4 through a high-speed SAS cable.
Example 2:
as shown in fig. 2, the present invention provides a method for implementing out-of-band interaction of a server Expander card, comprising the following steps:
s1, a remote management module communicates with an Expander chip sequentially through an LAN port, a Baseboard Management Controller (BMC), an I2C bus, a Complex Programmable Logic Device (CPLD) and a universal asynchronous receiver/transmitter (UART) bus, and finally the remote management module accesses the Expander chip out of band;
s2, monitoring the state of the hard disk by the aid of the CPLD through the BMC;
when the state of the hard disk is abnormal, the baseboard management controller BMC notifies the remote management module through the LAN port; meanwhile, the BMC communicates with the Expander chip through the CPLD to acquire the log of the Expander chip and store the log into the FLASH.
Example 3:
the invention provides a method for realizing out-of-band interaction of a server Expander card, which comprises the following steps:
s1, a remote management module communicates with an Expander chip sequentially through an LAN port, a Baseboard Management Controller (BMC), an I2C bus, a Complex Programmable Logic Device (CPLD) and a universal asynchronous receiver/transmitter (UART) bus, and finally the remote management module accesses the Expander chip out of band;
s2, monitoring the state of the hard disk by the aid of the CPLD through the BMC; the CPLD analyzes an SGPIO signal transmitted by the Expander chip to acquire the state of the hard disk; the CPLD controls the hard disk state indicator lamp according to the hard disk state at the same time; the hard disk state abnormity comprises hard disk dropping and hard disk alarming;
when the state of the hard disk is abnormal, the baseboard management controller BMC notifies the remote management module through the LAN port; meanwhile, the BMC communicates with the Expander chip through the CPLD to acquire the log of the Expander chip and store the log into the FLASH;
in some embodiments, when the system is initially powered on, the Expander chip outputs the current configuration information of the Expander chip and the log of the power-on process according to the UART signal received from the CPLD;
and after receiving the current configuration information of the Expander chip and the current power-on process log, the CPLD sends the current configuration information to the Baseboard Management Controller (BMC) and stores the current configuration information and the current power-on process log in the FLASH.
The I2C pin of the BMC is connected to an I2C interface arranged on the mainboard, and is connected to an I2C interface of the Expander card through an I2C cable, and then the I2C interface of the Expander card is connected with the I2C pin of the CPLD, and the CPLD and the Expander chip are simultaneously connected with an SGPIO signal and a UART signal; on the other hand, the CPLD analyzes the I2C signal from the BMC, converts the signal into a UART signal and transmits the UART signal to the UART pin of the Expander chip.
An I2C of the BMC provides an out-of-band management interface through an LAN interface, an out-of-band instruction is transmitted to a CPLD of the Expander card through the BMC, the I2C interface of the mainboard, an I2C cable and an I2C interface of the Expander card, and the CPLD analyzes the instruction and then transmits the instruction to the Expander chip, so that the Expander card is accessed in an out-of-band remote mode.
By means of the monitoring function of the baseboard management controller BMC on the state of the hard disk, when the baseboard management controller BMC monitors that the state of the hard disk is abnormal, an out-of-band management signal is sent through the LAN port, communication between the baseboard management controller BMC and the Expander chip is established, a log printing instruction is sent to the Expander chip, the received log is stored in a FLASH of the BMC, and the reason for disk removal is analyzed when the abnormality occurs.
Although the present invention has been described in detail in connection with the preferred embodiments with reference to the accompanying drawings, the present invention is not limited thereto. Various equivalent modifications or substitutions can be made on the embodiments of the present invention by those skilled in the art without departing from the spirit and scope of the present invention, and these modifications or substitutions are within the scope of the present invention/any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.
Claims (5)
1. A system for realizing the out-of-band interaction of a server Expander card is characterized by comprising the Expander card (1) and a Baseboard Management Controller (BMC) (2);
the Expander card (1) is provided with a CPLD (3) and an Expander chip (4);
the baseboard management controller BMC (2) is connected with the CPLD (3) through an I2C bus, and the CPLD (3) is connected with the Expander chip (4) through a UART bus and an SGPIO bus;
the baseboard management controller BMC (2) is connected with a LAN port (5) and a FLASH (8), and the LAN port (5) is connected with a remote management module (6);
the remote management module (6) is communicated with a Baseboard Management Controller (BMC) (2) through an LAN (5), the Baseboard Management Controller (BMC) (2) is communicated with a CPLD (3) through an I2C bus, the CPLD (3) is communicated with an Expander chip (4) through a UART bus, and finally the remote management module (6) is accessed to the Expander chip (4) out of band;
the baseboard management controller BMC (2) monitors the state of the hard disk through the CPLD (3), when the abnormal state of the hard disk is monitored, the baseboard management controller BMC (2) informs the remote management module (6) through the LAN port (5), communicates with the Expander chip (4) through the CPLD (3), acquires a log of the Expander chip (4), and stores the log into the FLASH (8);
the baseboard management controller BMC (2), the LAN port (5) and the FLASH (8) are arranged on the mainboard (7);
an I2C pin of a baseboard management controller BMC (2) is connected to an I2C interface arranged on a mainboard (7), the I2C interface of an Expander card (1) is connected through an I2C cable, the I2C interface of the Expander card (1) is connected with an I2C pin of a CPLD (3), and the CPLD (3) and an Expander chip (4) are simultaneously connected with an SGPIO signal and a UART signal; on one hand, the CPLD (3) analyzes the state of the SGPIO signal transmitted by the Expander chip (4) to control a hard disk state indicator lamp; on the other hand, the CPLD (3) analyzes the I2C signal from the BMC (2), converts the signal into a UART signal and transmits the UART signal to the UART pin of the Expander chip (4).
2. The system for implementing out-of-band interaction of the server Expander card as claimed in claim 1, wherein the Expander chip (4) is connected with a SAS/RAID card through a high-speed SAS cable;
the mainboard (7) is also provided with a PCIE interface which is connected with the SAS/RAID card.
3. The system for implementing the out-of-band interaction of the server Expander card as claimed in claim 1, wherein the Expander chip (4) is connected with a hard disk backplane;
the hard disk interface is arranged on the hard disk back plate and is connected with the Expander chip (4) through a high-speed SAS cable.
4. The system for realizing the out-of-band interaction of the server Expander card as claimed in claim 1, wherein the Expander card (1) is further provided with a plurality of HDD hard disk interfaces and a plurality of HDD hard disk indicator lamps;
the number of the HDD hard disk interfaces is equal to that of the HDD hard disk indicator lamps, and the HDD hard disk interfaces correspond to the HDD hard disk indicator lamps one by one.
5. A method for realizing out-of-band interaction of a server Expander card is characterized by comprising the following steps:
the remote management module is communicated with the Expander chip through the LAN port, the baseboard management controller BMC, the I2C bus, the CPLD and the UART bus in sequence, and finally the remote management module accesses the Expander chip out of band;
the baseboard management controller BMC monitors the state of the hard disk through the CPLD;
when the state of the hard disk is abnormal, the baseboard management controller BMC notifies the remote management module through the LAN port; meanwhile, the baseboard management controller BMC communicates with the Expander chip through the CPLD to acquire an Expander chip log and stores the log into the FLASH;
the CPLD monitors the state of the hard disk specifically:
the CPLD analyzes an SGPIO signal transmitted by the Expander chip to acquire a hard disk state;
the CPLD controls the hard disk state indicator lamp according to the hard disk state at the same time;
the hard disk state abnormity comprises hard disk dropping and hard disk alarming;
when the system is initially electrified, the Expander chip outputs the current configuration information of the Expander chip and the log of the current electrifying process according to the UART signal received from the CPLD;
after receiving the current configuration information of the Expander chip and the current power-on process log, the CPLD sends the current configuration information to the BMC and stores the current configuration information to the FLASH;
an I2C pin of a BMC (baseboard management controller) is connected to an I2C interface arranged on a mainboard, the I2C pin is connected to an I2C interface of an Expander card through an I2C cable, the I2C interface of the Expander card is connected with an I2C pin of a CPLD (complex programmable logic device), and the CPLD and the Expander chip are simultaneously connected with an SGPIO (signal processing input output) signal and a UART (universal asynchronous receiver transmitter) signal; on one hand, the CPLD analyzes an SGPIO signal transmitted by the Expander chip to control the state of the LED on the hard disk backboard; on the other hand, the CPLD analyzes the I2C signal from the BMC, converts the signal into a UART signal and transmits the UART signal to the UART pin of the Expander chip.
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CN113127302B (en) * | 2021-04-16 | 2023-05-26 | 山东英信计算机技术有限公司 | Board GPIO monitoring method and device |
CN114201439B (en) * | 2021-12-09 | 2023-07-14 | 苏州浪潮智能科技有限公司 | Server signal identification optimization method, system and storage medium |
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CN109039955A (en) * | 2018-06-28 | 2018-12-18 | 郑州云海信息技术有限公司 | A kind of storage system based on optical-fibre channel |
CN111092759A (en) * | 2019-12-13 | 2020-05-01 | 苏州浪潮智能科技有限公司 | Log management method, device and medium in JBOD (just in Bunch) out-of-band management system |
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CN109039955A (en) * | 2018-06-28 | 2018-12-18 | 郑州云海信息技术有限公司 | A kind of storage system based on optical-fibre channel |
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