JP5906747B2 - Server management system and server management method - Google Patents

Description

  The present invention relates to a server management system and a server management method.

  An example of a server installation position management system and a server installation position management method is described in Patent Document 1. The server installation position management system disclosed in Patent Document 1 includes a plurality of communication devices connected to a communication network capable of communication using TCP / IP, such as a LAN (Local Area Network) and a WAN (Wide Area Network). The server installation position management system and the server installation position management method of Patent Document 1 include a device information collection device that can communicate with a communication device through a communication network, and a hierarchization processing device that is communicably connected to the device information collection device. Yes. And the server installation position management system and the server installation position management method of Patent Document 1 can easily grasp the physical connection relationship of communication devices connected to the communication network, and can reduce the management burden of the communication network.

Japanese Patent No. 4361525

  In general, due to the centralized installation of servers due to the penetration of cloud computing, the scale of data centers is currently expanding, and efficient server management in data centers is required. At present, it is possible to acquire and set various information of the server by using the management function of the server. However, they are limited to address-based management on the network, and there are many inconveniences in maintenance work and management in an actual environment.

  For example, when a failure occurs, the installation position must be checked based on the IP address of the device before work. The list in which the installation positions required at this time are recorded needs to be updated manually every time the device is replaced, and management becomes difficult in a large-scale data center. In addition, it is impossible to manage the server separately for each installation position, and it is difficult to collectively control the power of all the devices that are affected when the server rack is powered off for work. These problems occur because server management is performed based on an IP address that is an address on the network.

  Therefore, it is considered that not only the IP address but also the installation position of the server is used together, thereby facilitating maintenance and more advanced server management. However, manual setting of the installation position for each server is not realistic, and a mechanism for automatically setting the installation position is required. As an approach to this, there is a method in which the server is provided with an RFID or a wireless communication function to communicate between the server and the server rack, and the server installation position is acquired by exchanging position information. However, the addition of functions and components to the server directly leads to an increase in cost. In addition, in order to use this function, the server to be installed needs to support this function, which can greatly restrict the introduction of the server.

  By the way, there is a server installation position management system and a server installation position management method for performing server management in which coordinates and IP addresses are linked by centralized management software. As shown in FIG. 3, the server installation position management system 100 includes a management terminal 102 that stores centralized management software 101, and a controller 105 to which a rack coordinate input unit 103 and a rack coordinate display unit 104 are connected. In the server installation position management system 100, the wireless communication module 106 transmits coordinates to the server 107. When receiving the coordinates, the BMC 108 of the server management chip mounted on the server 107 transmits this information to the centralized management software 101 of the management terminal 102. For example, the wireless communication module 110 installed at the third level of the server rack 109 installed at the coordinates [1,2] in the server room transmits the coordinate information [1,2,3] to the server 107.

  The BMC 108 sends this coordinate information to the centralized management software 101 via the network 111 along with the IP address of the server 107. Thereby, in the centralized management software 101, server management in which the coordinates [1, 2, 3] and the IP address are associated can be performed. However, such a server installation position management system and a server installation position management method have the following problems. A first problem is that the price of the server 107 increases because a dedicated component is mounted on the server 107. The second problem is that the installation position automatic recognition function cannot be used unless the server 107 is equipped with a dedicated component.

  On the other hand, a server installation position management system and a server installation position management method disclosed in Patent Document 1 include a device information collection device that can communicate with a communication device through a communication network, and a hierarchization processing device that is communicably connected to the device information collection device. I have. However, since the server installation position management system and the server installation position management method disclosed in Patent Document 1 require mounting of dedicated components and addition of functions to the server in the same manner as described above, there is room for improvement in terms of cost. Have.

The objective of this invention is providing the server management system and server management method which solve the subject mentioned above .

In order to solve the above problems, the Ru good to the first aspect of the present invention, a server management system, provided for each of a plurality of spaces in the server rack having a plurality of space for installing the server A plurality of adapters connected to a server installed in the same space via a network cable, and a controller provided in the server rack and connected to the plurality of adapters. The IP address of the connection server is obtained by analyzing the packet addressed to the connection server, and the IP address information is transmitted to the controller. When the controller receives the IP address information, the controller The position information including the position information of the space where the adapter is provided and the position information of the server rack is used as the server position. As broadcast, and transmits to the host device in correspondence with the information of the IP address received and the location information of the server.

When Ru good to a second embodiment of the present invention, a server management method, provided at a plurality of respective spaces that put the server rack having a plurality of space for installing the server is installed in the same space A plurality of adapters that are communicably connected to the connected server via a network cable obtains the IP address of the connection server by analyzing packets addressed to the connection server that are communicably connected, and the information of the IP address is transmitted to the controller. When the controller that is provided in the server rack and is connected to and communicated with a plurality of adapters receives the IP address information, the location information of the space in which the adapter of the information transmission source is provided and the server The position information including the position information of the rack is used as the position information of the server, and the position information of the server and the received IP address In association with the broadcast and transmitting to the host device.

  According to the present invention, there is an effect that the installation position of the server can be reliably identified without adding new parts and functions to the server.

It is a block block diagram of the server installation position management system of 1st Embodiment which concerns on this invention. It is a block block diagram of the server installation position management system of 2nd Embodiment which concerns on this invention. It is a block diagram of the server installation position management system relevant to patent document 1. FIG.

  Hereinafter, a server installation position management system and a server installation position management method according to a plurality of embodiments of the present invention will be described with reference to the drawings. As shown in FIG. 1, a server installation position management system 10 that executes the server installation position management method according to the first embodiment of the present invention includes a server rack 11 and a plurality of servers 12 mounted on the server rack 11. I have. The server installation position management system 10 includes a protocol analysis adapter 14 that is mounted on each stage of the server rack 11 and acquires the IP address of the installed server 12 by analyzing a packet flowing on the network 13.

  The server installation position management system 10 includes a controller 15 that controls the protocol analysis adapter 14, and includes an operation unit 16 for setting the installation position of the server rack 11 with respect to the controller 15. The operation unit 16 includes a rack coordinate input unit 17 and a rack coordinate display unit 18 connected to the controller 15. The operation unit 16 can set the coordinates in the server room of the server rack 11 and confirm the set coordinates by operating the controller 15. The server installation position management system 10 includes a management terminal 19 that stores centralized management software 20.

  One protocol analysis adapter 14 is installed in each stage of the server rack 11, and all of them are connected to the controller 15. The protocol analysis adapter 14 has a structure having an RJ-45 connector 21 on one side and an RJ45 modular jack 22 on the other side, and is connected so as to be sandwiched between the LAN cable 23 and the LAN port 24 of the server 12. use. The protocol analysis adapter 14 has a function of analyzing a packet flowing on the LAN, and analyzes an IP header portion of a packet transmitted from the RJ-45 connector 21 side. Then, the protocol analysis adapter 14 can acquire the IP address of the LAN port 24 connected to the RJ-45 connector 21 side.

  The IP address acquired in this way is transmitted to the controller 15. The server 12 has a LAN port 24 and participates in the network 13. The LAN port 24 is connected to the protocol analysis adapter 14.

  In the management terminal 19, centralized management software 20 operates and performs server management based on information collected from the server 12 via the network 13. The central management software 20 can also communicate with the controller 15 of the server rack 11 via the network 13. Since the detailed internal configuration of the server 12 is well known to those skilled in the art, the details thereof are omitted.

  Next, a server installation position management method executed by the server installation position management system 10 will be described. Hereinafter, the flow of position information at the time of server installation according to the server installation position management method will be described. First, when the server rack 11 is installed, coordinate information [X, Y] is set as a position in the server room in the rack coordinate input unit 17.

  The coordinate information [X, Y] set at this time is held by the controller 15. Subsequently, the server 12 is installed, and the protocol analysis adapter 14 is connected to the LAN port 24 of the server 12. Thereby, the protocol analysis adapter 14 analyzes the IP header of the flowing packet and acquires the IP address of the LAN port 24.

  The IP address acquired here is transmitted to the controller 15. When the controller 15 receives the IP address from the protocol analysis adapter 14, the controller 15 checks whether the IP address is a value obtained from the protocol analysis adapter 14 installed in which stage of the server rack 11.

  Then, the controller 15 associates [X, Y, Z] obtained by adding the step number [Z] of the server rack 11 to the coordinate information [X, Y] of the server rack 11 as coordinates corresponding to the IP address. For example, it is assumed that the IP address “111.222.333.444” is acquired by the protocol analysis adapter 14 installed at the third level of the server rack 11 installed at the coordinates [1,2] in the server room. In that case, the controller 15 associates the coordinates [1, 2, 3] = IP address “111.222.333.444”.

  The location and IP address information associated with the controller 15 of the server rack 11 is collected in the centralized management software 20 on the management terminal 19 via the network 13 and the IP address and location information are associated. Perform batch management.

  Thus, according to the server installation position management system 10 of the first embodiment of the present invention, the protocol analysis adapter 14 that acquires the IP address of the installed server 12 by analyzing the packet flowing on the network 13 is installed in the server rack. It is mounted on each of 11 stages. Therefore, according to the server installation position management system 10, the installation position can be automatically acquired without adding parts or functions to the server 12, so that the cost of the server 12 can be reduced. The server installation position management system 10 can realize a server installation position automatic setting function for efficient server management using the real space position information of the server 12.

  Further, according to the server installation position management system 10, regardless of the type of the server 12, any server 12 can use the installation position automatic acquisition function. Therefore, according to the server installation position management system 10, the installation position can be determined by any server 12 as long as the LAN port 24 is installed without depending on the manufacturer, model number, and installed software of the server 12. Can be acquired automatically.

  According to the server installation position management system 10, since the controller 15 and the operation unit 16 that control the protocol analysis adapter 14 are mounted on the server rack 11, a compact server rack 11 can be obtained.

  According to the server installation position management method, the IP address of the installed server 12 can be acquired by analyzing a packet flowing on the network 13 by the protocol analysis adapter 14 installed in each stage of the server rack 11. Therefore, according to the server installation position management method, the installation position can be automatically acquired without adding components or functions to the server 12, whereby the cost of the server 12 can be reduced.

  Next, a server installation position management system and a server installation position management method according to the second embodiment of the present invention will be described. Note that, in the following second embodiment, components that are the same as those in the first embodiment described above or components that are functionally similar are denoted by the same or corresponding reference numerals in the drawings, or the description is simplified. Omitted.

  As shown in FIG. 2, a dedicated switching HUB 31 is applied to the server installation position management system 30 according to the second embodiment of the present invention. The switching HUB 31 grasps all the MAC addresses of the devices connected to the port in terms of its function. Since the MAC address can be converted into an IP address by using the ARP protocol, a dedicated switching HUB that can refer to the MAC address information from the outside is applied. Thereby, the protocol analysis adapter of the first embodiment can be omitted.

  The switching HUB 31 is mounted on the server rack 11 and is connected to the controller 15 via a communication cable 32 so that data can be exchanged. Each port of the switching HUB 31 is associated with each stage of the server rack 11. For example, the server 12 installed in the first stage of the server rack 11 must be connected to the first stage port 33 of the switching HUB 31.

  The switching HUB 31 checks the MAC addresses of the devices connected to the ports 33, 34, 35, and 36 in terms of its function, and creates and holds a table of the MAC addresses and the ports 33, 34, 35, and 36. This table can be transmitted to the controller 15 via the communication cable 32. By receiving this table, the controller 15 converts the MAC address into an IP address using the ARP protocol. Accordingly, the controller 15 can know which IP address server is connected to which port 33, 34, 35, 36 of the switching HUB 31. For example, the IP address “111.222.333.444” and the MAC address “aa: bb: cc: dd: ee: ff” at the third level of the server rack 11 installed at the coordinates [1,2] in the server room. It is assumed that the server 12 having the LAN port 24 is installed. Since the server 12 is installed in the third stage, the LAN port 24 is connected to the third stage port 35 of the switching HUB 31 by the LAN cable 37.

  When the LAN cable 37 is connected, the switching HUB 31 adds the information of the third-stage port 35 = aa: bb: cc: dd: ee: ff to the MAC address table that it has, and the information Is transmitted to the controller 15 as well. When the controller 15 receives the information that the third stage port 35 = aa: bb: cc: dd: ee: ff, the IP address of the MAC address “aa: bb: cc: dd: ee: ff” is set to IP using the ARP protocol. It is converted to the address “111.222.333.444”. As a result, information that the third-stage port 35 = IP address “111.222.333.444” can be obtained.

  Since the controller 15 has [1, 2] as the coordinates of the server rack 11, by adding this, coordinates [1, 2, 3] = IP address “111.222.333.444” Coordinates and IP addresses can be linked. The location and IP address information associated with the controller 15 of the server rack 11 is collected in the centralized management software 20 on the management terminal 19 via the network 13 and the IP address and location information are associated. Collective management is performed.

  According to the server installation position management system 30 of the second embodiment, a dedicated switching HUB 31 is introduced into the server rack 11 without using an independent protocol analysis adapter. Therefore, according to the server installation position management system 30, the entire system can be simplified, which can be further advantageous in terms of cost.

  Moreover, according to the server installation position management system 30, since the controller 15 and the operation unit 16 that control the switching HUB 31 are mounted on the server rack 11, a compact server rack 11 can be obtained.

  The server installation position management system and the server installation position management method of the present invention are not limited to the above-described embodiment, and appropriate modifications and improvements can be made.

  As described above, according to the server installation position management system and the server installation position management method of the present invention, the server installation position can be reliably identified without adding new parts or functions to the server. . As a result, the cost can be greatly reduced, and the industrial applicability of the present invention can be said to be great.

  A part or all of the above-described embodiment can be described as in the following supplementary notes, but is not limited thereto.

  (Appendix A) A server rack and a plurality of servers mounted on the server rack, each mounted on each stage of the server rack, and the IP of the server installed by analyzing packets flowing on the network A server location management system equipped with a protocol analysis adapter that acquires addresses.

  (Appendix B) Server installation according to Appendix A, comprising a controller mounted on the server rack and controlling the protocol analysis adapter, and an operation unit for setting an installation position of the server rack with respect to the controller Location management system.

  (Appendix C) A server rack and a plurality of servers mounted in the server rack are provided. Each server has a MAC address that can be converted into an IP address by using the ARP protocol. A server installation position management system provided with a switching HUB.

  (Appendix D) Server installation position according to Appendix C, which includes a controller mounted on the server rack and controlling the switching HUB, and an operation unit for setting the installation position of the server rack with respect to the controller. Management system.

  (Appendix E) A protocol analysis adapter for obtaining an IP address of the server installed by analyzing a packet flowing on a network is mounted on each stage of the server rack on which a plurality of servers are mounted, and the server rack A server installation position management method for managing the installation position of the server at the IP address by connecting the protocol analysis adapter to the server when installing the server.

10, 30 Server installation position management system 11 Server rack 12 Server 13 Network 14 Protocol analysis adapter 15 Controller 16 Operation unit 31 Switching hub

Claims (2)

A plurality of adapters provided for each of the plurality of spaces in a server rack having a plurality of spaces for installing a server, and connected to and communicate with a server installed in the same space via a network cable;
A controller provided in the server rack and connected in communication with the plurality of adapters;
With
The adapter acquires an IP address of the connection server by analyzing a packet addressed to the connection server connected by communication, and transmits the information of the IP address to the controller.
When the controller receives the IP address information, the controller uses the location information including the location information of the space where the adapter of the information transmission source is provided and the location information of the server rack as the location information of the server. The server location information and the received IP address information are associated with each other and transmitted to the host device.
Server management system that is characterized in that. Provided in the each of the plurality of spaces that put the server rack having a plurality of space for installing the server, a plurality of adapters that are communicatively connected via a server installed and network cables in the same space, the communication Obtaining an IP address of the connection server by analyzing a packet addressed to the connected connection server, and transmitting information on the IP address to the controller;
When the controller provided in the server rack and connected to the plurality of adapters receives the IP address information, the position information of the space in which the adapter of the information transmission source is provided and the server rack Transmitting the position information including the position information as the position information of the server to the host device in association with the position information of the server and the received IP address information;
A server management method comprising:

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