CN103281200A - Redundancy heat standby implementation method for rail transport comprehensive monitor system - Google Patents

Abstract

The invention discloses a redundancy heat standby implementation method for a rail transport comprehensive monitor system. The redundancy heat standby implementation method comprises the following steps of (a) setting up a comprehensive monitor system, wherein the system comprises at least two hardware servers needing to be redundancy heat standby, and all hardware servers are communicated through a local area network and are communicated with shared storage equipment; (b) configuring a failure transferred group set through a Windows operation system; (c) configuring Hyper-V through the Windows operation system; (d) creating a virtual machine through the Windows operation system, wherein at least one virtual machine is deposited by the hardware servers in the step (a), and files of the virtual machine are stored on the sharing storage equipment; and (e) deploying an application function module of the comprehensive monitor system on each virtual machine. Through the method, the problems of long redundancy switching time and instable switching function can be efficiently solved.

Description

A kind of redundant heat for track traffic synthetic monitoring system is equipped with implementation method

Technical field

The present invention relates to the track traffic synthetic monitoring system field, specifically is that a kind of redundant heat for track traffic synthetic monitoring system is equipped with implementation method.

Background technology

Present existing track traffic synthetic monitoring system comprises comprehensive monitoring system at central level, redundant heat in station level comprehensive monitoring system and the rolling stock section's comprehensive monitoring system is equipped with the redundant hot-backup function of functional module level that implementation generally relies on the customization in the application software platform of using, its thinking roughly is, need do functional module that redundant heat is equipped with two each other the computer that is equipped with of heat move, functional module on the computer of activity is in normal operating condition, and the functional module on standby computer is in stand-by state, two computers are by heartbeat network service, when standby computer does not receive the heartbeat message of movable computer after a period of time, or the functional module on the movable computer is when initiatively switching to stand-by state, and standby computer will start this functional module makes it be in normal operating condition.When heartbeat network service is unusual, will cause switching unsuccessful; And in the time need doing the functional module more complicated that redundant heat is equipped with, long or a plurality of modules were switched simultaneously and will be caused switching time long individual module start-up time.

Summary of the invention

The invention provides a kind of redundant heat for track traffic synthetic monitoring system and be equipped with implementation method, solved track traffic synthetic monitoring system long, handoff functionality problem of unstable switching time in the past.

Purpose of the present invention is achieved through the following technical solutions: a kind of redundant heat for track traffic synthetic monitoring system is equipped with implementation method, may further comprise the steps:

(a) build a comprehensive monitoring system, comprise at least two needs in this system and do the hardware server that redundant heat is equipped with, all hardware servers are communicated with by local area network (LAN) and are communicated with shared storage device;

(b) troop by the transfer of Windows operating system config failure;

(c) by Windows operating system configuration Hyper-V;

(d) create virtual machine by Windows operating system, virtual machine of trustship at least in the hardware server described in the step (a), and virtual machine file is kept on the shared storage device;

(e) applied function module with comprehensive monitoring system is deployed on each virtual machine.

In this programme, redundant heat fully must two above servers, otherwise can't realize that heat is equipped with after a mechanical disorder, in addition, share storage as the media of storage Hyper-V virtual machine file, hardware server reads in the Hyper-V virtual machine file of sharing in the storage by network.

Further, the detailed process of described step (a) is:

(a1) use an industrial switch to build the local area network (LAN) of comprehensive monitoring system;

(a2) use a hardware server operation applied function module configuration management software;

(a3) use the hardware server more than two or two to move applied function module;

(a4) use a disk array as the shared storage device of virtual machine file;

(a5) hardware server described in the hardware server described in the step (a2) and the step (a3) is connected to the described local area network (LAN) of step (a1), and the hardware server described in the step (a3) is connected with the shared storage device described in the step (a4) by optical fiber.

Further, the detailed process of described step (b) is:

(b1) configuration shared storage device;

(b2) iSCSI of two physical servers of configuration initiates program;

(b3) config failure shifts collection;

(b4) config failure shifts the collection parameter;

(b5) deployment file cluster of servers.

The English full name of iSCSI is Internet Small Computer System Interface, it is a kind of agreement based on TCP/IP, be used for developing and managing interconnecting between IP memory device, main frame and the client computer etc., and create storage area network (SAN).

Because the real-time migration of Hyper-V virtual machine relies on failover cluster, so config failure shifts, and to troop be necessary step.

Further, the detailed process of described step (c) is:

(c1) in Windows operating system, select " beginning " → " setting " → " control panel " → " management tool " → " server manager ";

(c2) in " server manager " window, select " function " → " interpolation function " → " remote server administration instrument " → " Role Management instrument " → " Hyper-V instrument ", choose the check box of front, install.

Because the Intel Virtualization Technology that uses in this method relies on the Hyper-V technology of Microsoft, configuration Hyper-V also is necessary step.

Further, the detailed process of described step (d) is:

(d1) in Windows operating system, select " beginning " → " setting " → " control panel " → " management tool " → " server manager ";

(d2) " newly-built " → " virtual machine (M) " clicked in " operation " zone on " server manager " interface, ejects " newly-built virtual machine guide ", clicks " next step ";

(d3) in " create name and position " wizard sheet, insert the virtual machine title, choose the check box of " virtual machine is stored in other positions ", and in " position " hurdle, insert the address that is mapped to shared storage device, click " next step ";

(d4) in " storage allocation " wizard sheet, insert the internal memory that distributes to this virtual machine, click " next step ";

(d5) in " configuration network " wizard sheet, select a network interface card, click " next step ";

(d6) choose " establishment virtual hard disk " in " connection virtual hard disk " wizard sheet, insert the address that is mapped to shared storage device in " position " one, other keep acquiescence, click " next step ";

(d7) in " Installation Options " wizard sheet, choose " from guiding CD/DVD-ROM installing operating system " item, in " medium " hurdle, choose " image file (.iso) ", click " browsing (B) " and select the image file of Windows operating system, click " next step ";

(d8) click " finishing ", namely finish whole establishment and the installation process of virtual machine.

Further, the detailed process of described step (e) is:

(e1) in the described server of step (a2), open the applied function module management software;

(e2) in the operation interface of applied function module management software, select to do redundant applied function module, open configuration interface, in " computer name " hurdle, insert the computer name of virtual machine correspondence, click " preservation " button and keep configuration;

(e3) click right on this applied function module is selected " deployment " item, with the long-range virtual machine that is mounted to of applied function module in the popup menu item.

Further, the applied function module of described comprehensive monitoring system comprises electric power monitoring system, environmental monitoring system, fire monitoring system, ticket selling and checking system, gate control system, screen door, the anti-applied function module of door system, video monitoring system, broadcast system, passenger information system, signal system, network management system that floods.

The present invention compared with prior art has the following advantages and beneficial effect:

(1) real-time migration in the Intel Virtualization Technology of the present invention's use is the Hyper-V real-time migration technology that relies on Microsoft; the Hyper-V real-time migration is on guaranteeing virtual machine in the normal operation of applied function module; virtual machine moves between different physical hosts; in order to guarantee the available of applied function module in the transition process, transition process only has very of short duration downtime.Before the migration, applied function module is in the computer run of activity, standby computer has possessed the necessary resource of operational system, through a very of short duration switching, movable computer is transferred to standby computer with control, and applied function module continues operation at standby computer, for applied function module itself, because the time of switching is very of short duration, the interruption of the imperceptible service of user, thereby transition process is transparent to the user.

(2) operate in the virtual machine owing to applied function module; when the computer of activity breaks down when causing shutting down; the virtual machine at applied function module place switches to standby computer; so applied function module self behavior that do not switch is more more reliable and more stable than the switching of applied function module self.

Description of drawings

Fig. 1 is Hyper-V configuration of the present invention and implementation structure schematic diagram.

Embodiment

Below in conjunction with embodiment and accompanying drawing, the present invention is described in further detail, but embodiments of the present invention are not limited only to this.

Embodiment:

A kind of redundant heat for track traffic synthetic monitoring system is equipped with implementation method, may further comprise the steps:

(a) build a comprehensive monitoring system, comprise at least two needs in this system and do the hardware server that redundant heat is equipped with, all hardware servers are communicated with by local area network (LAN) and are communicated with shared storage device;

(b) troop by the transfer of Windows operating system config failure;

(c) by Windows operating system configuration Hyper-V;

(d) create virtual machine by Windows operating system, virtual machine of trustship at least in the hardware server described in the step (a), and virtual machine file is kept on the shared storage device;

(e) applied function module with comprehensive monitoring system is deployed on each virtual machine.

As preferably, the detailed process of the step of present embodiment (a) is:

(a1) use an industrial switch to build the local area network (LAN) of comprehensive monitoring system;

(a2) use a hardware server operation applied function module configuration management software;

(a3) use the hardware server more than two or two to move applied function module;

(a4) use a disk array as the shared storage device of virtual machine file;

(a5) hardware server described in the hardware server described in the step (a2) and the step (a3) is connected to the described local area network (LAN) of step (a1), and the hardware server described in the step (a3) is connected with the shared storage device described in the step (a4) by optical fiber.

As preferably, the detailed process of the step of present embodiment (b) is:

(b1) configuration shared storage device;

(b2) iSCSI of two physical servers of configuration initiates program;

(b3) config failure shifts collection;

(b4) config failure shifts the collection parameter;

(b5) deployment file cluster of servers.

As preferably, the detailed process of the step of present embodiment (c) is:

(c1) in Windows operating system, select " beginning " → " setting " → " control panel " → " management tool " → " server manager ";

(c2) in " server manager " window, select " function " → " interpolation function " → " remote server administration instrument " → " Role Management instrument " → " Hyper-V instrument ", choose the check box of front, install.

As preferably, the detailed process of the step of present embodiment (d) is:

(d1) in Windows operating system, select " beginning " → " setting " → " control panel " → " management tool " → " server manager ";

(d2) " newly-built " → " virtual machine (M) " clicked in " operation " zone on " server manager " interface, ejects " newly-built virtual machine guide ", clicks " next step ";

(d3) in " create name and position " wizard sheet, insert virtual machine title (as: Virtual-GR), choose the check box of " virtual machine is stored in other positions ", and in " position " hurdle, insert the address that is mapped to shared storage device, click " next step ";

(d4) in " storage allocation " wizard sheet, insert the internal memory (as: 4096MB) that distributes to this virtual machine, click " next step ";

(d5) in " configuration network " wizard sheet, select a network interface card, click " next step ";

(d6) choose " establishment virtual hard disk " in " connection virtual hard disk " wizard sheet, insert the address that is mapped to shared storage device in " position " one, other keep acquiescence, click " next step ";

(d7) in " Installation Options " wizard sheet, choose " from guiding CD/DVD-ROM installing operating system " item, in " medium " hurdle, choose " image file (.iso) ", click " browsing (B) " and select the image file of Windows operating system, click " next step ";

(d8) click " finishing ", namely finish whole establishment and the installation process of virtual machine.

In addition, as preferably, the detailed process of the step of present embodiment (e) is:

(e1) in the described server of step (a2), open the applied function module management software;

(e2) in the operation interface of applied function module management software, select to do redundant applied function module, open configuration interface, in " computer name " hurdle, insert the computer name of virtual machine correspondence, click " preservation " button and keep configuration;

(e3) click right on this applied function module is selected " deployment " item, with the long-range virtual machine that is mounted to of applied function module in the popup menu item.

 

The applied function module of described comprehensive monitoring system comprises electric power monitoring system, environmental monitoring system, fire monitoring system, ticket selling and checking system, gate control system, screen door, the anti-applied function module of door system, video monitoring system, broadcast system, passenger information system, signal system, network management system that floods.

Below in conjunction with concrete utilization implementation procedure of the present invention is described.As shown in Figure 1, applied function module is deployed in respectively on Virtual PC1, Virtual PC2, Virtual PC3 and the Virtual PC4, suppose current Virtual PC1, Virtual PC2, Virtual PC3 in 1 operation of Hyper-V server, Virtual PC4 is in 2 operations of Hyper-V server.When Hyper-V server 1 caused machine halt trouble owing to a variety of causes, Virtual PC1, Virtual PC2 moved real-time migration to Hyper-V server 2, and Virtual PC3 will migrate to Hyper-V server N and go up operation.In addition, also can be by the run location of all virtual machines in the Windows operating system manual switching system.

Real-time migration in the Intel Virtualization Technology that the present invention uses is the Hyper-V real-time migration technology that relies on Microsoft; the Hyper-V real-time migration is on guaranteeing virtual machine in the normal operation of applied function module; virtual machine moves between different physical hosts; in order to guarantee the available of applied function module in the transition process, transition process only has very of short duration downtime.Before the migration, applied function module is in the computer run of activity, standby computer has possessed the necessary resource of operational system, through a very of short duration switching, movable computer is transferred to standby computer with control, and applied function module continues operation at standby computer, for applied function module itself, because the time of switching is very of short duration, the interruption of the imperceptible service of user, thereby transition process is transparent to the user.In addition; because applied function module operates in the virtual machine; when the computer of activity breaks down when causing shutting down; the virtual machine at applied function module place switches to standby computer; so applied function module self behavior that do not switch is more more reliable and more stable than the switching of applied function module self.

Claims (7)

1. a redundant heat that is used for track traffic synthetic monitoring system is equipped with implementation method, it is characterized in that: may further comprise the steps:

Build a comprehensive monitoring system, comprise at least two needs in this system and do the hardware server that redundant heat is equipped with, all hardware servers are communicated with by local area network (LAN) and are communicated with shared storage device;

Troop by the transfer of Windows operating system config failure;

By Windows operating system configuration Hyper-V;

Create virtual machine by Windows operating system, virtual machine of trustship at least in the hardware server described in the step (a), and virtual machine file is kept on the shared storage device;

The applied function module of comprehensive monitoring system is deployed on each virtual machine.

2. a kind of redundant heat for track traffic synthetic monitoring system according to claim 1 is equipped with implementation method, and it is characterized in that: the detailed process of described step (a) is:

(a1) use an industrial switch to build the local area network (LAN) of comprehensive monitoring system;

(a2) use a hardware server operation applied function module configuration management software;

(a3) use the hardware server more than two or two to move applied function module;

(a4) use a disk array as the shared storage device of virtual machine file;

(a5) hardware server described in the hardware server described in the step (a2) and the step (a3) is connected to the described local area network (LAN) of step (a1), and the hardware server described in the step (a3) is connected with the shared storage device described in the step (a4) by optical fiber.

3. a kind of redundant heat for track traffic synthetic monitoring system according to claim 1 is equipped with implementation method, and it is characterized in that: the detailed process of described step (b) is:

(b1) configuration shared storage device;

(b2) iSCSI of two physical servers of configuration initiates program;

(b3) config failure shifts collection;

(b4) config failure shifts the collection parameter;

(b5) deployment file cluster of servers.

4. a kind of redundant heat for track traffic synthetic monitoring system according to claim 1 is equipped with implementation method, and it is characterized in that: the detailed process of described step (c) is:

(c1) in Windows operating system, select " beginning " → " setting " → " control panel " → " management tool " → " server manager ";

(c2) in " server manager " window, select " function " → " interpolation function " → " remote server administration instrument " → " Role Management instrument " → " Hyper-V instrument ", choose the check box of front, install.

5. a kind of redundant heat for track traffic synthetic monitoring system according to claim 1 is equipped with implementation method, and it is characterized in that: the detailed process of described step (d) is:

(d1) in Windows operating system, select " beginning " → " setting " → " control panel " → " management tool " → " server manager ";

(d2) " newly-built " → " virtual machine (M) " clicked in " operation " zone on " server manager " interface, ejects " newly-built virtual machine guide ", clicks " next step ";

(d3) in " create name and position " wizard sheet, insert the virtual machine title, choose the check box of " virtual machine is stored in other positions ", and in " position " hurdle, insert the address that is mapped to shared storage device, click " next step ";

(d4) in " storage allocation " wizard sheet, insert the internal memory that distributes to this virtual machine, click " next step ";

(d5) in " configuration network " wizard sheet, select a network interface card, click " next step ";

(d6) choose " establishment virtual hard disk " in " connection virtual hard disk " wizard sheet, insert the address that is mapped to shared storage device in " position " one, other keep acquiescence, click " next step ";

(d7) in " Installation Options " wizard sheet, choose " from guiding CD/DVD-ROM installing operating system " item, in " medium " hurdle, choose " image file (.iso) ", click " browsing (B) " and select the image file of Windows operating system, click " next step ";

(d8) click " finishing ", namely finish whole establishment and the installation process of virtual machine.

6. a kind of redundant heat for track traffic synthetic monitoring system according to claim 2 is equipped with implementation method, and it is characterized in that: the detailed process of described step (e) is:

(e1) in the described server of step (a2), open the applied function module management software;

(e2) in the operation interface of applied function module management software, select to do redundant applied function module, open configuration interface, in " computer name " hurdle, insert the computer name of virtual machine correspondence, click " preservation " button and keep configuration;

(e3) click right on this applied function module is selected " deployment " item, with the long-range virtual machine that is mounted to of applied function module in the popup menu item.

7. be equipped with implementation method according to each described a kind of redundant heat for track traffic synthetic monitoring system of claim 1 ~ 6, it is characterized in that: the applied function module of described comprehensive monitoring system comprises electric power monitoring system, environmental monitoring system, fire monitoring system, ticket selling and checking system, gate control system, screen door, the anti-applied function module of door system, video monitoring system, broadcast system, passenger information system, signal system, network management system that floods.

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