CN104836728B - Home gateway one drags multi-configuration method - Google Patents
Home gateway one drags multi-configuration method Download PDFInfo
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Abstract
Home gateway one drags multi-configuration method.The IP address that this method includes configuring all home gateways is 192.168.1.1;The VLAN patterns of configuration interchanger 1 port 1 16 are access, and PVID is 101 116, and the port 1 of interchanger 1 to port 16 is connected into home gateway 1 by netting twine respectively arrives home gateway 16;The port 17 of interchanger 2 to port 32 is connected into home gateway 17 by netting twine respectively and arrives home gateway 32;The port 33 of interchanger 3 to port 48 is connected into home gateway 33 by netting twine respectively and arrives home gateway 48;The port 49 of interchanger 4 to port 64 is connected into home gateway 49 by netting twine respectively and arrives home gateway 64;The network interface card IP address for configuring computer connection multiple machine servicer is 192.168.1.100 and 192.168.0.100;Computer connects multiple machine servicer by netting twine.The present invention drags multi-configuration for home gateway one.
Description
Technical field:
The present invention relates to a kind of home gateway one to drag multi-configuration method.
Background technology:
It may require that in the commercial test of examination and multiple home gateways configured, traditional collocation method is that computer passes through net
Line connects home gateway, then computer login home gateway page modification configuration, if one home gateway of configuration needs 10 points
Clock, calculated according to 64 home gateways, then need a people time-consuming 640 minutes.
Traditional separate unit home gateway configuration method is that computer connects home gateway by netting twine, then logs in home gateway page
Face configures relevant parameter, if more home gateways need to configure, then after the completion of needing to wait the configuration of First home gateway
Second home gateway could be configured.
Home gateway is the interface unit of home network and external network, and home network inside various terminals pass through home network
The user side interface of pass is communicated with home gateway, home gateway to by it data and application forwarded, control and
Management, and interacted by Network Side Interface and business platform and ITMS+ (enhanced terminal total management system), realize house
The communication of front yard network and external network, there is provided it is various manage, controllable application.
The content of the invention:
More home gateways are configured simultaneously by a computer it is an object of the invention to provide one kind, improve configuration effect
Rate, reduce manually separate unit and configure the home gateway one of the misoperation probability being likely to occur for a long time and drag multi-configuration side
Method.
Above-mentioned purpose is realized by following technical scheme:
A kind of home gateway one drags multi-configuration method, and this method includes eight steps, and the first step configures the IP of all home gateways
Address is 192.168.1.1;Second step configuration interchanger 1 port 1-16 VLAN patterns are access, PVID 101-116,
The port 1 of interchanger 1 to port 16 is connected into home gateway 1 by netting twine respectively and arrives home gateway 16;3rd step configures interchanger 2
Port 17-32 VLAN patterns are access, PVID 117-132, and the port 17 of interchanger 2 is passed through into netting twine respectively to port 32
Connection home gateway 17 arrives home gateway 32;4th step configuration interchanger 3 port 33-48 VLAN patterns are access, PVID
For 133-148, the port 33 of interchanger 3 to port 48 is connected into home gateway 33 by netting twine respectively and arrives home gateway 48;5th
Step configuration interchanger 4 port 49-64 VLAN patterns are access, PVID 149-164, and the port 49 of interchanger 4 is arrived into port
64 connect home gateway 49 by netting twine respectively arrives home gateway 64;The network interface card IP of 6th step configuration computer connection multiple machine servicer
Address is 192.168.1.100 and 192.168.0.100;7th step logs in the multiple machine servicer configuration page;8th step computer expert
Netting twine connection multiple machine servicer is crossed, multiple machine servicer passes through net by netting twine connecting hub, other 4 ports of hub again
Line connects the convergence port of interchanger 1 to 4.
Described home gateway one drags multi-configuration method, and the VLAN patterns of described second step configuration interchanger 1 port 1 are
Access, PVID 101, the VLAN patterns of configuration interchanger 1 port 2 are access, PVID 102, and configuration by that analogy is handed over
The VLAN patterns of 1 port 16 of changing planes are access, PVID 116;The configuration convergence of interchanger 1 port vlan pattern is in addition
Hybrid patterns, the VLANID passed through are 101 to 116.
Described home gateway one drags multi-configuration method, the VLAN patterns of the 3rd described step configuration interchanger 2 port 17
For access, PVID 117, the VLAN patterns of configuration interchanger 2 port 18 are access, PVID 118, are configured by that analogy
The VLAN patterns of the port 32 of interchanger 2 are access, PVID 132;It is hybrid to configure interchanger 2 and converge port vlan pattern
Pattern, the VLANID passed through are 117 to 132;The port 17 of interchanger 2 to port 32 is connected into home gateway 17 by netting twine respectively
To home gateway 32.
Described home gateway one drags multi-configuration method, the VLAN patterns of the 4th described step configuration interchanger 3 port 33
For access, PVID 133, the VLAN patterns of configuration interchanger 3 port 34 are access, PVID 134, are configured by that analogy
The VLAN patterns of the port 48 of interchanger 3 are access, PVID 148;It is hybrid to configure interchanger 3 and converge port vlan pattern
Pattern, the VLANID passed through are 133 to 148;The port 33 of interchanger 3 to port 48 is connected into home gateway 33 by netting twine respectively
To home gateway 48.
Described home gateway one drags multi-configuration method, the VLAN patterns of the 5th described step configuration interchanger 4 port 49
For access, PVID 149, the VLAN patterns of configuration interchanger 4 port 50 are access, PVID 150, are configured by that analogy
The VLAN patterns of the port 64 of interchanger 4 are access, PVID 164;It is hybrid to configure interchanger 4 and converge port vlan pattern
Pattern, the VLANID passed through are 149 to 164;The port 49 of interchanger 4 to port 64 is connected into home gateway 49 by netting twine respectively
To home gateway 64.
Described home gateway one drags multi-configuration method, and it is configuration that the 7th described step, which logs in the multiple machine servicer configuration page,
Purpose IP address is that 192.168.1.2 message purpose IP address is converted to 192.168.1.1, plus VLANID101, configuration
Purpose IP address is that 192.168.1.3 message purpose IP address is converted to 192.168.1.1, along with VLANID102, with this
Analogize the message purpose IP address that configuration purpose IP address is 192.168.1.65 and be converted to 192.168.1.1, finally add
VLANID164。
Described home gateway one drags multi-configuration method, and the 8th described step computer connects multiple machine servicer by netting twine is
As computer to access 192.168.1.2, message purpose IP address into 192.168.1.1 and takes after multiple machine servicer is changed
VLANID101, the message can be forwarded to interchanger 1, interchanger 2, interchanger 3, interchanger 4 after hub, due to handing over
The 1 permission VLANID that changes planes be 101 message by, and other interchangers do not allow VLANID be 101 message by, so should
Message can be received by interchanger 1, because the port 1 of interchanger 1 allows message that VLANID is 101 by the way that and other ports are not
Message that VLANID is 101 is allowed to be forwarded to home gateway 1 by, the message, and the VLAN patterns of the port 1 of interchanger 1
For access, the pattern can divest VLAN, and the message that home gateway 1 receives is without VLAN;
As computer to access 192.168.1.2, actual access is home gateway 1, as computer to access 192.168.1.3
Actual access is home gateway 2, and as computer to access 192.168.1.65, actual access is home gateway 64 by that analogy;
The step of configuring home gateway, is fabricated to an executable file, each executable file corresponds to one family
Gateway, perform 64 executable files simultaneously on computers.Beneficial effect:
1. the present invention is to utilize a computer by interchanger while control multiple home gateways, configuration effect is substantially increased
Rate, reduce manually separate unit and configure the misoperation probability being likely to occur for a long time.
2. the present invention can realize a computer while control 64 home gateways, will shorten to setup time 10 minutes,
It can save 630 minutes, greatly improve allocative efficiency, save human resources, and also reduce manually separate unit length
The misoperation probability that time configuration is likely to occur.
3. the present invention is greatly saved setup time.
Brief description of the drawings:
Accompanying drawing 1 is the switch ports themselves configuration of this product.
Accompanying drawing 2 is the multiple machine servicer configuration of this product.
Accompanying drawing 3 is the structural representation of this product.
Embodiment:
Embodiment 1:
A kind of home gateway one drags multi-configuration method, it is characterized in that:This method includes eight steps, and the first step configures all families
The IP address of gateway is 192.168.1.1;Second step configuration interchanger 1 port 1-16 VLAN (VLAN) pattern is
Access (visitor), PVID (default virtual LAN numbering) are 101-116, and the port 1 of interchanger 1 is passed through respectively to port 16
Netting twine connection home gateway 1 arrives home gateway 16;3rd step configuration interchanger 2 port 17-32 VLAN (VLAN) mould
Formula is access (visitor), and PVID (default virtual LAN numbering) is 117-132, and the port 17 of interchanger 2 is divided to port 32
Home gateway 17 is not connected by netting twine and arrives home gateway 32;4th step configuration interchanger 3 port 33-48 VLAN (virtual offices
Domain net) pattern is access (visitor), PVID (default virtual LAN numbering) is 133-148, by the port 33 of interchanger 3 to end
Mouth 48 connects home gateway 33 by netting twine respectively and arrives home gateway 48;5th step configuration interchanger 4 port 49-64 VLAN
(VLAN) pattern is access (visitor), and PVID (default virtual LAN numbering) is 149-164, by the end of interchanger 4
Mouth 49 connects home gateway 49 by netting twine respectively to port 64 and arrives home gateway 64;The configuration computer connection multimachine service of 6th step
The network interface card IP address of device is 192.168.1.100 and 192.168.0.100;7th step logs in the multiple machine servicer configuration page;The
Eight step computers connect multiple machine servicer by netting twine, and multiple machine servicer is again by netting twine connecting hub, other 4 of hub
Port connects the convergence port of interchanger 1 to 4 by netting twine.
Embodiment 2:
Home gateway one described in embodiment 1 drags multi-configuration method, and described home gateway one drags multi-configuration method, described
VLAN (VLAN) pattern of second step configuration interchanger 1 port 1 be access (visitor), PVID (default virtual offices
Domain net numbering) it is 101, VLAN (VLAN) pattern of configuration interchanger 1 port 2 is access (visitor), and PVID is (default
Virtual LAN numbering) it is 102, VLAN (VLAN) pattern for configuring the port 16 of interchanger 1 by that analogy is access
(visitor), PVID (default virtual LAN numbering) are 116;Configuration interchanger 1 converges port vlan (VLAN) in addition
Pattern is hybrid (mixing) pattern, and the VLANID passed through (virtual LAN numbering) is 101 to 116.
Embodiment 3:
Home gateway one described in embodiment 1 drags multi-configuration method, the 3rd described step configuration interchanger 2 port 17
VLAN (VLAN) pattern is access (visitor), and PVID (default virtual LAN numbering) is 117, configures interchanger 2
VLAN (VLAN) pattern of port 18 is access (visitor), and PVID (default virtual LAN numbering) is 118, with this
VLAN (VLAN) pattern for analogizing configuration interchanger 2 port 32 is access (visitor), PVID (default virtual LANs
Numbering) it is 132;It is hybrid (mixing) pattern to configure interchanger 2 and converge port vlan (VLAN) pattern, is passed through
VLANID (virtual LAN numbering) is 117 to 132;The port 17 of interchanger 2 is connected into family by netting twine respectively to port 32
Gateway 17 arrives home gateway 32.
Embodiment 4:
Home gateway one described in embodiment 1 drags multi-configuration method, the 4th described step configuration interchanger 3 port 33
VLAN (VLAN) pattern is access (visitor), and PVID (default virtual LAN numbering) is 133, configures interchanger 3
VLAN (VLAN) pattern of port 34 is access (visitor), and PVID (default virtual LAN numbering) is 134, with this
VLAN (VLAN) pattern for analogizing configuration interchanger 3 port 48 is access (visitor), PVID (default virtual LANs
Numbering) it is 148;It is hybrid (mixing) pattern to configure interchanger 3 and converge port vlan (VLAN) pattern, is passed through
VLANID (virtual LAN numbering) is 133 to 148;The port 33 of interchanger 3 is connected into family by netting twine respectively to port 48
Gateway 33 arrives home gateway 48.
Embodiment 5:
Home gateway one described in embodiment 1 drags multi-configuration method, the 5th described step configuration interchanger 4 port 49
VLAN (VLAN) pattern is access (visitor), and PVID (default virtual LAN numbering) is 149, configures interchanger 4
VLAN (VLAN) pattern of port 50 is access (visitor), and PVID (default virtual LAN numbering) is 150, with this
VLAN (VLAN) pattern for analogizing configuration interchanger 4 port 64 is access (visitor), PVID (default virtual LANs
Numbering) it is 164;It is hybrid (mixing) pattern to configure interchanger 4 and converge port vlan (VLAN) pattern, is passed through
VLANID (virtual LAN numbering) is 149 to 164;The port 49 of interchanger 4 is connected into family by netting twine respectively to port 64
Gateway 49 arrives home gateway 64.
Embodiment 6:
Home gateway one described in embodiment 1 drags multi-configuration method, and the 7th described step logs in multiple machine servicer configuration page
Face is that the message purpose IP address that configuration purpose IP address is 192.168.1.2 is converted to 192.168.1.1, plus VLANID
(virtual LAN numbering) 101, configuration purpose IP address are that 192.168.1.3 message purpose IP address is converted to
192.168.1.1, along with VLANID (virtual LAN numbering) 102, configuration purpose IP address is by that analogy
192.168.1.65 message purpose IP address is converted to 192.168.1.1, finally plus VLANID (virtual LAN numbering)
164。
Embodiment 7:
Home gateway one described in embodiment 1 drags multi-configuration method, and the 8th described step computer connects multimachine by netting twine
Server is as computer to access 192.168.1.2, and message purpose IP address is after multiple machine servicer is changed
192.168.1.1 and VLANID101 is taken, the message can be forwarded to interchanger 1, interchanger 2, interchanger after hub
3rd, interchanger 4, due to interchanger 1 allow VLANID be 101 message by, and other interchangers do not allow VLANID be 101
Message by so the message can be received by interchanger 1, because the message that the port 1 of interchanger 1 allows VLANID to be 101 leads to
Cross, and other ports do not allow message that VLANID is 101 to be forwarded to home gateway 1 by, the message, and interchanger
The VLAN patterns of 1 port 1 are access, and the pattern can divest VLAN, and the message that home gateway 1 receives is without VLAN
's;
As computer to access 192.168.1.2, actual access is home gateway 1, as computer to access 192.168.1.3
Actual access is home gateway 2, and as computer to access 192.168.1.65, actual access is home gateway 64 by that analogy;
The step of configuring home gateway, is fabricated to an executable file, each executable file corresponds to one family
Gateway, perform 64 executable files simultaneously on computers.
Claims (7)
1. a kind of home gateway one drags multi-configuration method, it is characterized in that:This method includes eight steps, and the first step configures all home networks
The IP address of pass is 192.168.1.1;Second step configuration interchanger 1 port 1-16 VLAN patterns are access, and PVID is
101-116, the port 1 of interchanger 1 to port 16 is connected into home gateway 1 by netting twine respectively and arrives home gateway 16;3rd step is matched somebody with somebody
The VLAN patterns for putting the port 17-32 of interchanger 2 are access, PVID 117-132, and the port 17 of interchanger 2 is divided to port 32
Home gateway 17 is not connected by netting twine and arrives home gateway 32;4th step configuration interchanger 3 port 33-48 VLAN patterns are
Access, PVID 133-148, the port 33 of interchanger 3 to port 48 is connected into home gateway 33 by netting twine respectively and arrives family
Gateway 48;5th step configuration interchanger 4 port 49-64 VLAN patterns are access, PVID 149-164, by the end of interchanger 4
Mouth 49 connects home gateway 49 by netting twine respectively to port 64 and arrives home gateway 64;The configuration computer connection multimachine service of 6th step
The network interface card IP address of device is 192.168.1.100 and 192.168.0.100;7th step logs in the multiple machine servicer configuration page;The
Eight step computers connect multiple machine servicer by netting twine, and multiple machine servicer is again by netting twine connecting hub, other 4 of hub
Port connects the convergence port of interchanger 1 to 4 by netting twine.
2. home gateway one according to claim 1 drags multi-configuration method, it is characterized in that:Described second step configuration exchanges
The VLAN patterns of the port 1 of machine 1 are access, PVID 101, and the VLAN patterns of configuration interchanger 1 port 2 are access, PVID
For 102, the VLAN patterns for configuring the port 16 of interchanger 1 by that analogy are access, PVID 116;Configuration interchanger 1 converges in addition
Poly- port vlan pattern is hybrid patterns, and the VLANID passed through is 101 to 116.
3. home gateway one according to claim 1 drags multi-configuration method, it is characterized in that:Described the 3rd step configuration exchanges
The VLAN patterns of the port 17 of machine 2 are access, PVID 117, and the VLAN patterns of configuration interchanger 2 port 18 are access,
PVID is 118, and the VLAN patterns for configuring the port 32 of interchanger 2 by that analogy are access, PVID 132;Configuration interchanger 2 converges
Poly- port vlan pattern is hybrid patterns, and the VLANID passed through is 117 to 132;The port 17 of interchanger 2 is distinguished to port 32
Home gateway 17 is connected by netting twine and arrives home gateway 32.
4. home gateway one according to claim 1 drags multi-configuration method, it is characterized in that:Described the 4th step configuration exchanges
The VLAN patterns of the port 33 of machine 3 are access, PVID 133, and the VLAN patterns of configuration interchanger 3 port 34 are access,
PVID is 134, and the VLAN patterns for configuring the port 48 of interchanger 3 by that analogy are access, PVID 148;Configuration interchanger 3 converges
Poly- port vlan pattern is hybrid patterns, and the VLANID passed through is 133 to 148;The port 33 of interchanger 3 is distinguished to port 48
Home gateway 33 is connected by netting twine and arrives home gateway 48.
5. home gateway one according to claim 1 drags multi-configuration method, it is characterized in that:Described the 5th step configuration exchanges
The VLAN patterns of the port 49 of machine 4 are access, PVID 149, and the VLAN patterns of configuration interchanger 4 port 50 are access,
PVID is 150, and the VLAN patterns for configuring the port 64 of interchanger 4 by that analogy are access, PVID 164;Configuration interchanger 4 converges
Poly- port vlan pattern is hybrid patterns, and the VLANID passed through is 149 to 164;The port 49 of interchanger 4 is distinguished to port 64
Home gateway 49 is connected by netting twine and arrives home gateway 64.
6. home gateway one according to claim 1 drags multi-configuration method, it is characterized in that:The 7th described step logs in multimachine
The server configuration page is that the message purpose IP address that configuration purpose IP address is 192.168.1.2 is converted to 192.168.1.1,
Plus VLANID101, configuration purpose IP address is that 192.168.1.3 message purpose IP address is converted to 192.168.1.1,
Along with VLANID102, configuration purpose IP address is that 192.168.1.65 message purpose IP address is converted to by that analogy
192.168.1.1 finally plus VLANID164.
7. home gateway one according to claim 1 drags multi-configuration method, it is characterized in that:The 8th described step computer passes through
Netting twine connection multiple machine servicer is as computer to access 192.168.1.2, and message purpose IP address is changed by multiple machine servicer
It is afterwards 192.168.1.1 and takes VLANID101, the message can be forwarded to interchanger 1, interchanger 2 after hub, hand over
Change planes 3, interchanger 4, because interchanger 1 allows message that VLANID is 101 by the way that and other interchangers do not allow the VLANID to be
101 message is by so the message can be received by interchanger 1, because the port 1 of interchanger 1 allows the message that VLANID is 101
By, and other ports do not allow VLANID be 101 message by the way that the message can be forwarded to home gateway 1, and exchange
The VLAN patterns of the port 1 of machine 1 are access, and the pattern can divest VLAN, and the message that home gateway 1 receives is without VLAN
's;
As computer to access 192.168.1.2, actual access is home gateway 1, actual as computer to access 192.168.1.3
What is accessed is home gateway 2, and as computer to access 192.168.1.65, actual access is home gateway 64 by that analogy;
The step of configuring home gateway, is fabricated to an executable file, each executable file corresponds to one family net
Close, perform 64 executable files simultaneously on computers.
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CN105591823A (en) * | 2016-01-12 | 2016-05-18 | 浪潮集团有限公司 | Switch remote management method based on OpenAPI |
CN111953586B (en) * | 2020-07-08 | 2023-10-20 | 杭州医惠物联网科技有限公司 | One drags eight thing networking gateway |
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CN101621406A (en) * | 2009-07-28 | 2010-01-06 | 中兴通讯股份有限公司 | Method for configuring domestic gateways in batch, configuring equipment and domestic gateways |
CN202455371U (en) * | 2011-09-30 | 2012-09-26 | 深圳市共进电子股份有限公司 | Multi-machine testing system |
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US9596737B2 (en) * | 2013-07-02 | 2017-03-14 | Xicato, Inc. | Multi-port LED-based lighting communications gateway |
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CN101621406A (en) * | 2009-07-28 | 2010-01-06 | 中兴通讯股份有限公司 | Method for configuring domestic gateways in batch, configuring equipment and domestic gateways |
CN202455371U (en) * | 2011-09-30 | 2012-09-26 | 深圳市共进电子股份有限公司 | Multi-machine testing system |
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