CN111371880B - Dial cloud server deployment method capable of dynamically switching IP - Google Patents

Abstract

The invention discloses a dial-up cloud server deployment method capable of dynamically switching IP, which comprises the following deployment procedures: preparation work, environment deployment, networking, platform deployment and soft route security management. The IP of the dynamic switching IP cloud server is a real high-quality household IP, so that the resources are huge and the IP can be switched as required; the dynamic IP switching IP cloud server can select and use the IP of a certain city or randomly switch in the national IP range according to service requirements, can meet the requirement of large-batch IP switching, is more stable, is convenient to switch at any time, is favorable for improving service efficiency, can directly deploy services based on cloud server environment, has huge quantity of IP pools, is excellent and stable, and has perfect real-time monitoring and early warning service.

Description

Dial cloud server deployment method capable of dynamically switching IP

Technical Field

The invention relates to the technical field of cloud computing, in particular to a dial-up cloud server deployment method capable of dynamically switching IP.

Background

The cloud server is a cloud server with fixed IP, and is mainly used for building stations. The traditional IP has uneven IP quality, can not judge the problem in time and accurately after the IP has the problem, has unreliable IP source and low effective rate, and besides a fixed cloud server, the traditional IP also has a dynamic cloud server which is dynamic and does not support building of websites as the name implies.

The cloud server serves as a virtual computer, and functions of the cloud server are the same as those of a computer. The computer has high configuration and low configuration, and the cloud server is also configured. The broadband value determines the network speed, the memory determines the computer operable resource, the cpu determines the system processing capacity, and the hard disk determines how many files can be stored on the computer.

Dynamic IP addresses are commonly used for large local area network computer terminals of units, more local area network computer terminals are used, the addresses are set one by one, so that great workload is brought to network administrators, and the current home wide network generally uses automatic acquisition to access the Internet, thereby avoiding the trouble of network card setting. The static IP is also called fixed IP, the operator gives the fixed IP a corresponding mask and gateway, the dynamic state is different, and the IP security can be ensured. The method is commonly used for servers with special functions, and addresses are manually set; such as a web server, a DHCP server, an FTP server, a shared printer server, etc., by fixing an address, a stable service can be provided, avoiding problems caused by address changes.

The dynamic cloud server is a cloud server capable of changing the IP, controls another rented computer by using the computer, and can continuously change the IP address.

Disclosure of Invention

The invention aims to provide a dial-up cloud server deployment method capable of dynamically switching IP, which is a real high-quality household IP, has huge resources, can be switched according to needs of services, can select and use the IP of a certain city or randomly switch in the range of national IP according to the needs of services, can meet the requirements of large-scale IP switching, is more stable and convenient to switch at any time, is beneficial to improving the service efficiency, and solves the problems that the IP quality of the traditional IP is uneven, the problems cannot be timely, accurately and timely judged after the IP has problems, and the IP sources are unreliable and the effective rate is low.

In order to achieve the above purpose, the present invention provides the following technical solutions: a dial-up cloud server deployment method capable of dynamically switching IP comprises the following deployment procedures:

s1: preparation:

s101: disk requirements: preparing more than 2 disks, wherein one SSD solid state disk with the requirement of more than 1T is used for a virtual machine, and one mechanical hard disk with the requirement of more than 500G is used for installing a host machine system, storing a virtual machine configuration file and storing a paging file;

s102: partition requirements: more than 3 partitions are needed, wherein a C disk is a host machine system file, a D disk is a virtual machine data file, and an E disk is a storage virtual machine configuration file and a paging file;

s103: installing an operating system windows server 2016 data desktop;

s2: environmental deployment:

s201: installing hyper-v;

s202: firstly, creating an external virtual switch, binding a physical network card, and defining the network card as a WAN;

s203: creating an internal virtual switch, wherein the network card is defined as LAN;

s204: opening the adapter setting, finding the newly created LAN card, setting the IP to 192.168.0.254, and setting the subnet mask to 255.255.255.0, wherein the gateway does not need to be filled in;

s205: installing a soft route, creating two network cards, namely a WAN network card and a LAN network card, wherein the WAN network card enters an advanced state, and setting the MAC as static state so as to facilitate later debugging;

s3: networking:

s301: the host browser accesses http://192.168.0.1, a soft-route WEB management interface and an account password default admin;

s302: opening network setting-internal and external network setting, clicking the WAN1, and entering a network card setting interface;

s303: selecting a network card as wan, wherein the access mode is static IP, the IP address fills in a default main IP address, the subnet mask is 255.255.255.0, and the gateway fills in the corresponding address by itself;

s304: adding an extended IP which is a public network IP pool to be dialed;

s305: opening authentication billing, finding a local authentication service-pppore server, changing the address of the server into 10.1.1.1, enabling DNS to be random, authenticating a local account number in an authentication mode, adding a client IP pool, supporting a span of 10.1.1.2-10.1.1.254, and setting according to the requirement of the client;

s306: opening authentication account management, automatically adding a dialing account, and filling in according to requirements;

s307: finally, NAT forwarding is completed, the intranet IP is forwarded to the public network, network setting-NAT forwarding is opened, clicking addition is carried out, the line is arbitrary, the source address fills in the intranet IP, the destination address is not filled in, and the forwarding address fills in the public network IP;

s4: platform deployment:

s401: when the user virtual machine is created, only one network card is required to be created, the LAN is bound, and the intranet IP range is distributed: 192.168.0.2-192.168.0.253, 192.168.0.1 is a soft routing address, 192.168.0.254 is a gateway address, and the mask is unified as: 255.255.255.0;

s402: the host installs a port forwarding tool, allocates ports according to the intranet IP and forwards the ports, and the Win system forwards 3389 ports; forwarding 22 ports of the Linux system;

s403: the user virtual machine needs to create a dial-up connection, and dial-up networking can be realized by inputting the allocated pppore account password;

s5: soft route security management:

s501: and (3) recording internet surfing behavior: recording a user virtual machine Internet surfing record, an interactive chat online record and a dialing record;

s502: and (3) safety setting: setting a firewall through an ACL, and shielding a dangerous port; ARP protection and connection number limitation;

s503: and (3) real-time state monitoring: the method comprises line monitoring, terminal monitoring, protocol monitoring, strategy monitoring and load monitoring.

Furthermore, the source address in the S3 network supports a plurality of IPs, so that a plurality of intranet IPs bind one public network IP and are filled in as needed.

Furthermore, after the platform deployment in S4 is completed, if the user virtual machine needs to switch IP, only the broadband connection needs to be disconnected and the user virtual machine needs to dial again.

Further, in the S4 platform deployment, the user virtual machine is remotely connected with the virtual machine through the public network IP of the host and the port.

Compared with the prior art, the invention has the beneficial effects that:

(1) Based on cloud server environment, the service can be directly deployed: the dynamic switching IP cloud server is a cloud operating system of a platform, and is different from a traditional static IP cloud server, the dynamic switching IP cloud server can realize continuous IP replacement, so that the dynamic switching IP cloud server is called a dial IP cloud server, and different from a general proxy IP, the dynamic switching IP cloud server can directly deploy services and operates for 24 hours.

(2) The number of the IP pools is huge, and the quality is excellent and stable: the IP quality of the traditional IP is uneven, the problem can not be timely and accurately judged in time after the IP has problems, the IP source is unreliable, and the effective rate is low; the IP of the dynamic switching IP cloud server is a real high-quality household IP, so that the resources are huge and the IP can be switched as required; the dynamic IP switching IP cloud server can select and use the IP of a certain city or randomly switch in the national IP range according to the service requirement, can meet the requirement of large-batch IP switching, is more stable, is convenient to switch at any time, and is beneficial to improving the service efficiency.

(3) Perfect real-time monitoring and early warning service: the IP cloud server is dynamically switched, the CPU, the memory, the disk and the network resources of the cloud server are monitored, an alarm is generated by setting an index alarm rule, the processing can be immediately reflected, and the smooth operation of the application program is ensured.

Drawings

FIG. 1 is a diagram of a virtual switch management interface of the present invention;

FIG. 2 is a view of an adapter setup interface of the present invention;

fig. 3 is a diagram of a soft route setup interface of the present invention;

FIG. 4 is an add-on extension IP interface diagram of the present invention;

FIG. 5 is a diagram of a local authentication service-pppore server interface of the present invention;

FIG. 6 is a diagram of an authentication account management interface of the present invention;

FIG. 7 is a diagram of a NAT forwarding interface according to the present invention;

FIG. 8 is a host installation port setup interface diagram of the present invention;

FIG. 9 is a diagram of a remote desktop connection interface of the present invention;

FIG. 10 is a diagram of a user virtual machine dial-up connection interface created by the present invention;

FIG. 11 is a diagram of an interface to the Internet for connection to the present invention;

FIG. 12 is a diagram of a log-on behavior recording interface of the present invention;

FIG. 13 is a diagram of a security setup interface of the present invention;

FIG. 14 is a diagram of a real-time status monitoring interface of the present invention;

fig. 15 is a dynamic dialing flow chart of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 15, in an embodiment of the present invention: a dial-up cloud server deployment method capable of dynamically switching IP comprises the following deployment procedures:

1) Preparation:

the first step: disk requirements: preparing more than 2 disks, wherein one SSD solid state disk with the requirement of more than 1T is used for a virtual machine, and one mechanical hard disk with the requirement of more than 500G is used for installing a host machine system, storing a virtual machine configuration file and storing a paging file;

and a second step of: partition requirements: more than 3 partitions are needed, wherein a C disk is a host machine system file, a D disk is a virtual machine data file (solid state), and an E disk is a storage virtual machine configuration file and a paging file;

and a third step of: an operating system windows server 2016 data desktop is installed.

2) Environmental deployment:

the first step: installing hyper-v;

and a second step of: firstly, an external virtual switch is created, a physical network card is bound, and the network card is defined as a WAN (the name can be randomly filled in, and the WAN can be remembered by the network card);

and a third step of: creating an internal virtual switch, wherein the network card is defined as LAN, as shown in figure 1;

fourth step: opening the adapter setting, finding the newly created LAN card, setting the IP to 192.168.0.254, and the subnet mask 255.255.255.0, wherein the gateway does not need to be filled in, as shown in FIG. 2;

fifth step: the soft route is installed, two network cards are created, one WAN network card, one LAN network card, the WAN network card enters an advanced state, and the MAC is set to be static to facilitate later debugging, as shown in fig. 3.

3) Networking:

the first step: the host browser accesses http://192.168.0.1, a soft-route WEB management interface and an account password default admin;

and a second step of: opening network setting-internal and external network setting, clicking the WAN1, and entering a network card setting interface;

and a third step of: selecting a network card as wan, wherein the access mode is static IP, the IP address fills in a default main IP address, the subnet mask is 255.255.255.0, and the gateway fills in the corresponding address by itself;

fourth step: adding an extension IP, wherein the IP is a public network IP pool to be dialed, as shown in figure 4;

fifth step: opening authentication billing, finding a local authentication service-pppore server, changing the address of the server into 10.1.1.1, enabling DNS to be random, authenticating a local account number in an authentication mode, adding a client IP pool (the IP pool is distributed to a virtual machine), supporting spans by 10.1.1.2-10.1.1.254, and setting according to own requirements, as shown in figure 5;

sixth step: opening authentication account management, adding a dialing account by itself, and filling in according to requirements, as shown in fig. 6;

seventh step: and finally, forwarding the intranet IP to the public network, opening a network to set-NAT forwarding, clicking and adding, wherein the line is arbitrary, the source address fills in the intranet IP, the destination address is not filled in, and the forwarding address fills in the public network IP, wherein the source address can support a plurality of IPs, which means that the plurality of intranet IPs can be bound with one public network IP, and the intranet IP can be filled in according to the requirement, as shown in fig. 7.

4) Platform deployment:

the first step: when the user virtual machine is created, only one network card is required to be created, the LAN is bound, and the intranet IP range is distributed: 192.168.0.2-253, 192.168.0.1 is soft route address, 192.168.0.254 is gateway address, mask unifies as: 255.255.255.0;

and a second step of: the host installs a port forwarding tool, allocates ports according to the intranet IP and forwards the ports, and the Win system forwards 3389 ports; the Linux system forwards 22 ports, as shown in fig. 8, so that the user virtual machine is remotely connected with the virtual machine through the public network IP of the host and the ports, as shown in fig. 9;

and a third step of: the user virtual machine needs to create a dial-up connection, dial-up networking can be realized by inputting the allocated pppore account password, as shown in fig. 10-11, and the dynamic dial-up system is basically deployed until the user virtual machine needs to switch the IP, and only needs to disconnect the broadband connection and re-dial.

5) Soft route security management:

the first step: and (3) recording internet surfing behavior: recording a user virtual machine internet browsing record, an interactive chat online record and a dialing record, as shown in fig. 12;

and a second step of: and (3) safety setting: setting a firewall through an ACL, and shielding a dangerous port; ARP protection, connection number limitation, as shown in fig. 13;

and a third step of: and (3) real-time state monitoring: with line monitoring, terminal monitoring, protocol monitoring, policy monitoring, load monitoring, as shown in fig. 14.

To sum up: the dial-up cloud server deployment method capable of dynamically switching the IP is basically deployed, and the purposes of the cloud server host of the dynamic IP are more than those of the dial-up cloud server deployment method, for example: brushing a bill top paste, most common Xinlangjin, spider crawler, mail mass sending, hanging software and hanging qq; also, the click rate flow of the website is brushed, and the marketing seo is required to use a dynamic cloud server; because the computer is not always started, the address operator is recovered for other users after the computer is shut down, and when the computer is started, the other addresses are obtained for use, so that the address can be saved, and the computer is used as a virtual computer capable of realizing dial-up IP network access, and the biggest characteristic is that the IP is randomly changed once in a designated area every time when the computer is dialed once; the dynamic dialing cloud server can change an external IP once every dialing, and can be used for network voting, account registration, popularity, traffic flow, mobile phone robbing, software hanging and other purposes; the IP of the common cloud server is fixed, so that the application is not suitable for the application, but the configuration is higher than that of the dynamic dial-up cloud server, and the application is suitable for being used as a website.

Compared with the traditional HTTP server, the dynamic switching IP cloud server has several advantages:

(1) Based on cloud server environment, the service can be directly deployed: the dynamic switching IP cloud server is a cloud operating system of a platform, and is different from a traditional static IP cloud server, the dynamic switching IP cloud server can realize continuous IP replacement, so that the dynamic switching IP cloud server is called a dial IP cloud server, and different from a general proxy IP, the dynamic switching IP cloud server can directly deploy services and operates for 24 hours.

(2) The number of the IP pools is huge, and the quality is excellent and stable: the IP quality of the traditional IP is uneven, the problem can not be timely and accurately judged in time after the IP has problems, the IP source is unreliable, and the effective rate is low; the IP of the dynamic switching IP cloud server is a real high-quality household IP, so that the resources are huge and the IP can be switched as required; the dynamic IP switching IP cloud server can select and use the IP of a certain city or randomly switch in the national IP range according to the service requirement, can meet the requirement of large-batch IP switching, is more stable, is convenient to switch at any time, and is beneficial to improving the service efficiency.

(3) Perfect real-time monitoring and early warning service: the IP cloud server is dynamically switched, the CPU, the memory, the disk and the network resources of the cloud server are monitored, an alarm is generated by setting an index alarm rule, the processing can be immediately reflected, and the smooth operation of the application program is ensured.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (4)

1. The dial-up cloud server deployment method capable of dynamically switching the IP is characterized by comprising the following deployment procedures:

s1: preparation:

s101: disk requirements: preparing more than 2 disks, wherein one SSD solid state disk with the requirement of more than 1T is used for a virtual machine, and one mechanical hard disk with the requirement of more than 500G is used for installing a host machine system, storing a virtual machine configuration file and storing a paging file;

s102: partition requirements: more than 3 partitions are needed, wherein a C disk is a host machine system file, a D disk is a virtual machine data file, and an E disk is a storage virtual machine configuration file and a paging file;

s103: installing an operating system windows server 2016 data desktop;

s2: environmental deployment:

s201: installing hyper-v;

s202: firstly, creating an external virtual switch, binding a physical network card, and defining the network card as a WAN;

s203: creating an internal virtual switch, wherein the network card is defined as LAN;

s204: opening the adapter setting, finding the newly created LAN card, setting the IP to 192.168.0.254, and setting the subnet mask to 255.255.255.0, wherein the gateway does not need to be filled in;

s205: installing a soft route, creating two network cards, namely a WAN network card and a LAN network card, wherein the WAN network card enters an advanced state, and setting the MAC as static state so as to facilitate later debugging;

s3: networking:

s301: the host browser accesses http://192.168.0.1, a soft-route WEB management interface and an account password default admin;

s302: opening network setting-internal and external network setting, clicking the WAN1, and entering a network card setting interface;

s303: selecting a network card as wan, wherein the access mode is static IP, the IP address fills in a default main IP address, the subnet mask is 255.255.255.0, and the gateway fills in the corresponding address by itself;

s304: adding an extended IP which is a public network IP pool to be dialed;

s305: opening authentication billing, finding a local authentication service-pppore server, changing the address of the server into 10.1.1.1, enabling DNS to be random, authenticating a local account number in an authentication mode, adding a client IP pool, supporting a span of 10.1.1.2-10.1.1.254, and setting according to the requirement of the client;

s306: opening authentication account management, automatically adding a dialing account, and filling in according to requirements;

s307: finally, NAT forwarding is completed, the intranet IP is forwarded to the public network, network setting-NAT forwarding is opened, clicking addition is carried out, the line is arbitrary, the source address fills in the intranet IP, the destination address is not filled in, and the forwarding address fills in the public network IP;

s4: platform deployment:

s401: when the user virtual machine is created, only one network card is required to be created, the LAN is bound, and the intranet IP range is distributed: 192.168.0.2-192.168.0.253, 192.168.0.1 is a soft routing address, 192.168.0.254 is a gateway address, and the mask is unified as: 255.255.255.0;

s402: the host installs a port forwarding tool, allocates ports according to the intranet IP and forwards the ports, and the Win system forwards 3389 ports; forwarding 22 ports of the Linux system;

s403: the user virtual machine needs to create a dial-up connection, and dial-up networking can be realized by inputting the allocated pppore account password;

s5: soft route security management:

s501: and (3) recording internet surfing behavior: recording a user virtual machine Internet surfing record, an interactive chat online record and a dialing record;

s502: and (3) safety setting: setting a firewall through an ACL, and shielding a dangerous port; ARP protection and connection number limitation;

s503: and (3) real-time state monitoring: the method comprises line monitoring, terminal monitoring, protocol monitoring, strategy monitoring and load monitoring.

2. The method for deploying dial-up cloud server capable of dynamically switching over IP according to claim 1, wherein the source address in S3 networking supports a plurality of IPs, so that a plurality of intranet IPs bind one public network IP and are filled in according to need.

3. The method for dynamically switching IP dial-up cloud server deployment according to claim 1, wherein after platform deployment in S4 is completed, if the user virtual machine needs to switch IP, only needs to disconnect broadband connection and re-dial.

4. The method for dynamically switching IP dial-up cloud server deployment according to claim 1, wherein the user virtual machine in the S4 platform deployment is remotely connected with the virtual machine through host public network IP plus ports.