CN103905494A - Login-interface sequencing system and method for virtual machines - Google Patents
Login-interface sequencing system and method for virtual machines Download PDFInfo
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- CN103905494A CN103905494A CN201210578799.3A CN201210578799A CN103905494A CN 103905494 A CN103905494 A CN 103905494A CN 201210578799 A CN201210578799 A CN 201210578799A CN 103905494 A CN103905494 A CN 103905494A
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Abstract
Disclosed is a login-interface sequencing method for virtual machines. The method includes: through a motoring program, obtaining an operating parameter of each virtual machine used by a user and an accumulation time of each virtual machine used by the user; according to the obtained operating parameter of each virtual machine used by the user and accumulation time of each virtual machine used by the user, calculating a resource use quantity factor of each virtual machine used by the user; according to the calculated resource use quantity factor of each virtual machine, sequencing login interfaces of the virtual machines and displaying the sequenced login interfaces of the virtual machines on a login interface of a data center. The invention also provides a login-interface sequencing system for the virtual machines. Through use of the login-interface sequencing system and method for the virtual machines, a user is enabled to find a login interface of a needed virtual machine rapidly so that a virtual-machine login efficiency of the user is improved and time is saved.
Description
Technical field
The present invention relates to a kind of virtual machine control system and method, especially about a kind of login interface ordering system and method for virtual machine.
Background technology
Virtual machine (Virtual Machine) refer to by software simulation have complete hardware system function, operate in a complete computer in complete isolation environment.By on the server of data center, virtual machine being installed, can on this server, simulate one or more virtual server (multiple operating system is installed on virtual machine).Thus, can reduce the purchase cost of the server apparatus of data center, and all virtual machines can be applied in a flexible way.
Generally speaking, user by use multiple virtual machines, task can be distributed on different virtual machines, information by can not take mutually and can very clearly divide individual use with work use time virtual machine.Conventionally, after user logins data center, the login interface that can show the used virtual machine of user, still, the sequence of the login interface of virtual machine is random, for example, if the virtual machine that now user wants to enter some appointments (, the virtual machine that resource use amount is large) time, will spend some times in the login interface of data center, to search the login interface of this virtual machine, thus, reduce the efficiency that user logins virtual machine, wasted the time.
Summary of the invention
In view of above content, be necessary to provide a kind of login interface ordering system of virtual machine, it can sort to the login interface of virtual machine, allows user find fast the login interface of the virtual machine oneself needing, improve the efficiency that user logins virtual machine, saved the time.
In view of above content, also be necessary to provide a kind of login interface sort method of virtual machine, it can, to the login interface sequence of virtual machine, allow user find fast the login interface of the virtual machine oneself needing, improve the efficiency that user logins virtual machine, saved the time.
A login interface ordering system for virtual machine, this system comprises: module is set, for monitoring program being set at supervisory control comuter; Sending module, for monitoring program being sent to the server of data center, the server of described data center is provided with virtual machine; Acquisition module, the operational factor of each virtual machine and the accumulated time of each virtual machine that user uses that use for obtain user by described monitoring program; Computing module, for according to the operational factor of each virtual machine and the accumulated time of each virtual machine that user uses of obtaining user's use, calculates the resource use amount coefficient of each virtual machine of user's use; Order module, sorts to the login interface of virtual machine for the resource use amount coefficient according to calculated virtual machine, and in the login interface of data center, demonstrates the login interface of the virtual machine after sequence.
A login interface sort method for virtual machine, the method comprises: monitoring program is set in supervisory control comuter; Monitoring program is sent in the server of data center, the server of described data center is provided with virtual machine; Obtain by described monitoring program the operational factor of each virtual machine and the accumulated time of each virtual machine that user uses that user uses; According to the operational factor of each virtual machine and the accumulated time of each virtual machine that user uses of obtaining user's use, calculate the resource use amount coefficient of each virtual machine of user's use; According to the resource use amount coefficient of calculated virtual machine, the login interface of virtual machine is sorted, and in the login interface of data center, demonstrate the login interface of the virtual machine after sequence.
Compared to prior art, login interface ordering system and the method for virtual machine provided by the invention, it can sort to the login interface of virtual machine, allows user find fast the login interface of the virtual machine oneself needing, improve the efficiency that user logins virtual machine, saved the time.
Brief description of the drawings
Fig. 1 is the applied environment figure of the login interface ordering system preferred embodiment of virtual machine of the present invention.
Fig. 2 is the structural representation of supervisory control comuter preferred embodiment of the present invention.
Fig. 3 is the flow chart of the login interface sort method preferred embodiment of virtual machine of the present invention.
Fig. 4 is the schematic diagram that the login interface sequence of virtual machine in one embodiment of the invention shows at the login interface of data center afterwards.
Fig. 5 is the schematic diagram that the login interface sequence of virtual machine in another embodiment of the present invention shows at the login interface of data center afterwards.
Main element symbol description
Following embodiment further illustrates the present invention in connection with above-mentioned accompanying drawing.
Embodiment
Consulting shown in Fig. 1, is the applied environment figure of login interface ordering system 200 preferred embodiments of virtual machine of the present invention.The login interface ordering system 200 of this virtual machine is applied in supervisory control comuter 20.This supervisory control comuter 20 is communicated and is connected by network 40 with data center (Data Center) 50.
Described network 40 can be the Internet, local area network (LAN) or other communication network.
Described data center 50 comprises in multiple server 500(figure taking four as example), described server 500 is blade server.In the present embodiment, described server 500 is called Host main frame, on each Host main frame, one or more virtual machines is installed, and for these virtual machines of more effective management, on each Host main frame, Hypervisor software is also installed.Described Hypervisor software is a kind of intermediate software layer operating between server 500 and the operating system of server 500, can allow the hardware on multiple operating system and application share service device 500, also can be called virtual machine monitor (virtual machine monitor, VMM).Hypervisor software can comprise all physical equipments in CPU, disk and interior existence on access services device 500, and Hypervisor is not only coordinating the access of these hardware resources, also between each virtual machine, applies protection simultaneously.In the time that server 500 starts and carry out Hypervisor software, Hypervisor software can be distributed to the resources such as the appropriate internal memory of each virtual machine, CPU, network and disk, to ensure the operation of virtual machine.
Described supervisory control comuter 20, for the ruuning situation of the server 500 at monitor data center 50, obtains the operational factor of the virtual machine of each server 500.The operational factor of described virtual machine comprises the internal memory average calculating operation amount of CPU usage, the virtual machine of virtual machine, the percentage of handling procedure that virtual machine is carried out, and in addition, this supervisory control comuter 20 also obtains user and use the accumulated time of each virtual machine.
This supervisory control comuter 20 is also provided with DynamicHost agreement (Dynamic Host Configuration Protocol is set, DHCP) service, serve agreement (the Internet Protocol interconnecting between can distribution network by DHCP, IP) address, to each server 500 in data center 50, can communicate with each server 500 of data center 50 supervisory control comuter 20.This supervisory control comuter 20 can be personal computer, the webserver, can also be any other applicable computer.In addition, this supervisory control comuter 20 can also be placed on data center 50 inside, and user only need be operated and just can be realized the monitoring to server 500 by client 10.
Described supervisory control comuter 20 is connected and is connected with database 30 by a database.Wherein, described database connection can be an open type data storehouse and connects (Open Database Connectivity, ODBC), or Java database connects (Java Database Connectivity, JDBC).Described database 30 is for storing the data that send from each server 500 of data center 50, these data comprise virtual machine operational factor and user use the accumulated time of this virtual machine.
It should be noted that at this, database 30 can be independent of supervisory control comuter 20, also can be positioned at supervisory control comuter 20.Described database 30 can be stored in the hard disk or flash disk of supervisory control comuter 20.Consider from the angle of security of system, the database 30 in the present embodiment is independent of supervisory control comuter 20.
Described client 10 provides the login interface 600(of a data center as shown in Fig. 4 or 5), in the login interface 600 of data center, show the login interface 601 of each virtual machine, user can enter this virtual machine by the login interface 601 of clicking virtual machine, for example, as shown in Figure 4, the login interface 600 of this data center shows the login interface 601 of three virtual machines, and the login interface 601 that user clicks virtual machine V2 will enter virtual machine V2.In addition, when the login interface 600 at user's logon data center, need to input user name and password, and not need to input user name or password when login virtual machine, the login interface 601 of clicking this virtual machine just can directly enter virtual machine.This client 10 can be personal computer, notebook computer, mobile phone, panel computer and other equipment that can be connected with supervisory control comuter 20 arbitrarily.
Consulting shown in Fig. 2, is the structural representation of supervisory control comuter 20 preferred embodiments of the present invention.This supervisory control comuter 20 comprises the login interface ordering system 200 of virtual machine.The login interface ordering system 200 of this virtual machine comprises module 210, distribution module 220, sending module 230, acquisition module 240, computing module 250 and order module 260 is set.The alleged module of the present invention has been the computer program code segments of a specific function, be more suitable in describing the implementation of software in computer than program, therefore below the present invention to all describing with module in software description.
The described module 210 that arranges is for arranging monitoring program at supervisory control comuter 20.Described monitoring program is used the accumulated time of virtual machine for recording user.In addition, this monitoring program is also for reading the operational factor of each virtual machine that user uses from the Hypervisor software of each server 500.
Described distribution module 220 for the DHCP service distribution IP address by supervisory control comuter 20 to each server 500 in data center 50, to establish a communications link with each server 500.Particularly, as shown in Figure 1, there are four servers 500 in data center 50, is served to each server 500 and is distributed separately an IP address by DHCP.
Described sending module 230, for monitoring program being sent to server 500, moves this monitoring program in the server 500 that receives monitoring program.
The operational factor of each virtual machine and the accumulated time of each virtual machine that user uses that described acquisition module 240 uses for obtain user by described monitoring program.For example, suppose that operating system is Linux, the operational factor of each virtual machine that user uses is regularly obtained in the Monitor instruction of described monitoring program by Linux from the Hypervisor software of server 500.Acquisition module 240 directly obtains from monitoring program the operational factor of each virtual machine and the accumulated time of each virtual machine that user uses that user uses.
The resource use amount coefficient of each virtual machine that described computing module 250 uses for calculating user.The numerical value of described resource use amount coefficient is larger, shows that this virtual machine uses more frequent, and the while also shows that the resource use amount of this virtual machine is larger and this virtual machine is more more important to user.The account form of the resource use amount coefficient of described virtual machine is:
VM
efficient=W
c*f(VM
CPU)+W
m*g(VM
Memory)+W
r*k(VM
Process)
VM
Usage=Select(VM
t)/T
USE(VM)=VM
efficient+W
k*VM
Usage
Wherein, the resource use amount coefficient that USE (VM) is virtual machine, VM
efficientfor the load capacity of virtual machine in the unit interval, VM
usagefor the ratio that virtual machine uses within the unit interval, W
c, W
m, W
r, W
kfor constant, T is the unit interval, f (VM
cPU) be the CPU usage of virtual machine, g (VM
memory) the internal memory average calculating operation amount of virtual machine, k (VM
process) percentage of handling procedure carried out for virtual machine, Select (VM
t) use the accumulated time of this virtual machine for user.It should be noted that, in above-mentioned computing formula, the numerical value of just getting each parameter calculates, and do not consider the unit of each parameter, and the resource use amount coefficient of the virtual machine calculating does not have unit yet, just a numerical value.
Described order module 260 sorts to the login interface 601 of virtual machine for the resource use amount coefficient according to calculated virtual machine, and in the login interface 600 of data center, demonstrates the login interface 601 of the virtual machine after sequence.In this preferred embodiment, the mode of sequence is to sort from big to small according to the numerical value of the resource use amount coefficient of virtual machine.Particularly, suppose that user has used three virtual machines, be respectively V1, V2 and V3, wherein the resource use amount coefficient of virtual machine V1 is 2.74, the resource use amount coefficient of virtual machine V2 is 0.795, the resource use amount coefficient of virtual machine V3 is 1.32, user is in the time of logon data center 50, first on the display being connected with supervisory control comuter 20, show the login interface 600 of data center, secondly in the login interface 600 of this data center, show in order the login interface 601 of virtual machine V1, the login interface 601 of virtual machine V3 and the login interface 601 of virtual machine V2, as shown in Figure 4.If the resource use amount coefficient of virtual machine V1 is 0.71, the resource use amount coefficient of virtual machine V2 is 3.09, the resource use amount coefficient of virtual machine V3 is 1.31, user is in the time of logon data center 50, first on the display being connected with supervisory control comuter 20, show the login interface 600 of data center, secondly in the login interface 600 of this data center, show in order login interface 601, the login interface 601 of virtual machine V3 and the login interface 601 of virtual machine V1 of virtual machine V2, as shown in Figure 5.
As shown in Figure 3, be the flow chart of the login interface sort method preferred embodiment of virtual machine of the present invention.
Step S10, arranges module 210, in supervisory control comuter 20, monitoring program is set.Described monitoring program is used the accumulated time of virtual machine for recording user.In addition, this monitoring program is also for reading the operational factor of each virtual machine that user uses from the Hypervisor software of each server 500.
Step S20, distribution module 220 by the DHCP service distribution IP address in supervisory control comuter 20 to each server 500 in data center 50, to establish a communications link with each server 500.Particularly, as shown in Figure 1, there are four servers 500 in data center 50, is served to each server 500 and is distributed separately an IP address by DHCP.
Step S30, sending module 230 sends to monitoring program in server 500, in the server 500 that receives monitoring program, moves this monitoring program.
Step S40, acquisition module 240 obtains by described monitoring program the operational factor of each virtual machine and the accumulated time of each virtual machine that user uses that user uses.For example, suppose that operating system is Linux, the operational factor of each virtual machine that user uses is regularly obtained in the Monitor instruction of described monitoring program by Linux from the Hypervisor software of server 500.Acquisition module 240 directly obtains from monitoring program the operational factor of each virtual machine and the accumulated time of each virtual machine that user uses that user uses.
Step S50, the resource use amount coefficient of each virtual machine that computing module 250 uses for calculating user.The numerical value of described resource use amount coefficient is larger, shows that this virtual machine uses more frequent, and the while also shows that the resource use amount of this virtual machine is larger and this virtual machine is more more important to user.The account form of the resource use amount coefficient of described virtual machine is:
VM
efficient=W
c*f(VM
CPU)+W
m*g(VM
Memory)+W
r*k(VM
Process)
VM
Usage=Select(VM
t)/T
USE(VM)=VM
efficient+W
k*VM
Usage
Wherein, the resource use amount coefficient that USE (VM) is virtual machine, VM
efficientfor the load capacity of virtual machine in the unit interval, VM
usagefor the ratio that virtual machine uses within the unit interval, W
c, W
m, W
r, W
kfor constant, T is the unit interval, f (VM
cPU) be the CPU usage of virtual machine, g (VM
memory) the internal memory average calculating operation amount of virtual machine, k (VM
process) percentage of handling procedure carried out for virtual machine, Select (VM
t) use the accumulated time of this virtual machine for user.It should be noted that, in above-mentioned computing formula, the numerical value of just getting each parameter calculates, and do not consider the unit of each parameter, and the resource use amount coefficient of the virtual machine calculating does not have unit yet, just a numerical value.
Step S60, order module 260 sorts to the login interface 601 of virtual machine according to the resource use amount coefficient of calculated virtual machine, and in the login interface 600 of data center, demonstrates the login interface 601 of the virtual machine after sequence.In this preferred embodiment, the mode of sequence is to sort from big to small according to the numerical value of the resource use amount coefficient of virtual machine.Particularly, suppose that user has used three virtual machines, be respectively V1, V2 and V3, wherein the resource use amount coefficient of virtual machine V1 is 2.74, the resource use amount coefficient of virtual machine V2 is 0.795, the resource use amount coefficient of virtual machine V3 is 1.32, user is in the time of logon data center 50, first on the display being connected with supervisory control comuter 20, show the login interface 600 of data center, secondly in the login interface 600 of this data center, show in order the login interface 601 of virtual machine V1, the login interface 601 of virtual machine V3 and the login interface 601 of virtual machine V2, as shown in Figure 4.If the resource use amount coefficient of virtual machine V1 is 0.71, the resource use amount coefficient of virtual machine V2 is 3.09, the resource use amount coefficient of virtual machine V3 is 1.31, user is in the time of logon data center 50, first on the display being connected with supervisory control comuter 20, show the login interface 600 of data center, secondly in the login interface 600 of this data center, show in order login interface 601, the login interface 601 of virtual machine V3 and the login interface 601 of virtual machine V1 of virtual machine V2, as shown in Figure 5.
It should be noted last that, above embodiment is only unrestricted in order to technical scheme of the present invention to be described, although the present invention is had been described in detail with reference to above preferred embodiment, those of ordinary skill in the art is to be understood that, can modify or be equal to replacement technical scheme of the present invention, and not depart from the spirit and scope of technical solution of the present invention.
Claims (8)
1. a login interface ordering system for virtual machine, is characterized in that, this system comprises:
Module is set, for monitoring program being set at supervisory control comuter;
Sending module, for monitoring program being sent to the server of data center, the server of described data center is provided with virtual machine;
Acquisition module, the operational factor of each virtual machine and the accumulated time of each virtual machine that user uses that use for obtain user by described monitoring program;
Computing module, for the operational factor of each virtual machine and the accumulated time of each virtual machine that user uses that use according to user, calculates the resource use amount coefficient of each virtual machine of user's use; And
Order module, sorts to the login interface of virtual machine for the resource use amount coefficient according to calculated virtual machine, and in the login interface of data center, demonstrates the login interface of the virtual machine after sequence.
2. the login interface ordering system of virtual machine as claimed in claim 1, is characterized in that, the operational factor of described virtual machine comprises the percentage of the handling procedure that the internal memory average calculating operation amount, virtual machine of the CPU usage of virtual machine, virtual machine carry out.
3. the login interface ordering system of virtual machine as claimed in claim 2, is characterized in that, the account form of the resource use amount coefficient of described virtual machine is:
VM
efficient=W
c*f(VM
CPU)+W
m*g(VM
Memory)+W
r*k(VM
Process);
VM
Usage=Select(VM
t)/T;
USE(VM)=VM
efficient+W
k*VM
Usage;
Wherein, the resource use amount coefficient that USE (VM) is virtual machine, VM
efficientfor the load capacity of virtual machine in the unit interval, VM
usagefor the ratio that virtual machine uses within the unit interval, W
c, W
m, W
r, W
kfor constant, T is the unit interval, f (VM
cPU) be the CPU usage of virtual machine, g (VM
memory) the internal memory average calculating operation amount of virtual machine, k (VM
process) percentage of handling procedure carried out for virtual machine, Select (VM
t) use the accumulated time of this virtual machine for user.
4. the login interface ordering system of virtual machine as claimed in claim 1, is characterized in that, the mode that the login interface of described virtual machine sorts is to sort according to the numerical value of the resource use amount coefficient of virtual machine mode from big to small.
5. a login interface sort method for virtual machine, is characterized in that, the method comprises:
Monitoring program is set in supervisory control comuter;
Monitoring program is sent in the server of data center, the server of described data center is provided with virtual machine;
Obtain by described monitoring program the operational factor of each virtual machine and the accumulated time of each virtual machine that user uses that user uses;
The accumulated time of each virtual machine that the operational factor of the each virtual machine using according to user and user use, the resource use amount coefficient of each virtual machine that calculating user uses; And
According to the resource use amount coefficient of calculated virtual machine, the login interface of virtual machine is sorted, and in the login interface of data center, demonstrate the login interface of the virtual machine after sequence.
6. the login interface sort method of virtual machine as claimed in claim 5, is characterized in that, the operational factor of described virtual machine comprises the percentage of the handling procedure that the internal memory average calculating operation amount, virtual machine of the CPU usage of virtual machine, virtual machine carry out.
7. the login interface sort method of virtual machine as claimed in claim 6, is characterized in that, the account form of the resource use amount coefficient of described virtual machine is:
VM
efficient=W
c*f(VM
CPU)+W
m*g(VM
Memory)+W
r*k(VM
Process);
VM
Usage=Select(VM
t)/T;
USE(VM)=VM
efficient+W
k*VM
Usage;
Wherein, the resource use amount coefficient that USE (VM) is virtual machine, VM
efficientfor the load capacity of virtual machine in the unit interval, VM
usagefor the ratio that virtual machine uses within the unit interval, W
c, W
m, W
r, W
kfor constant, T is the unit interval, f (VM
cPU) be the CPU usage of virtual machine, g (VM
memory) the internal memory average calculating operation amount of virtual machine, k (VM
process) percentage of handling procedure carried out for virtual machine, Select (VM
t) use the accumulated time of this virtual machine for user.
8. the login interface sort method of virtual machine as claimed in claim 5, is characterized in that, the mode that the login interface of described virtual machine sorts is to sort according to the numerical value of the resource use amount coefficient of virtual machine mode from big to small.
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Application publication date: 20140702 |