CN201323591Y - Three-layer plastic optical fiber Ethernet switch - Google Patents
Three-layer plastic optical fiber Ethernet switch Download PDFInfo
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- CN201323591Y CN201323591Y CNU2008202218379U CN200820221837U CN201323591Y CN 201323591 Y CN201323591 Y CN 201323591Y CN U2008202218379 U CNU2008202218379 U CN U2008202218379U CN 200820221837 U CN200820221837 U CN 200820221837U CN 201323591 Y CN201323591 Y CN 201323591Y
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Abstract
The utility model relates to a three-layer plastic optical fiber Ethernet switch, which comprises three layers, namely, a network management subsystem, a drive subsystem and an exchange protocol subsystem in sequence. During the exchange process, routing learning and data packet forwarding are separated; the routing learning is realized through a routing protocol operated by CPU in the network management subsystem; and the data packet forwarding is realized through the exchange circuit hardware. The utility model solves the technical problem of the lack of plastic optical fiber Ethernet switch, and has the advantages of high anti-jamming capability, anti-lightning strike capability, anti-disclosure capability and stability.
Description
Technical field
The utility model relates to a kind of Ethernet switch, is specifically related to a kind of 650nm three-layer plastic optical fiber Ethernet switch.
Background technology
Along with the continuous development of computer network transmission rate, the data message two-forty is more and more general to the application of desktop in Ethernet, and in this process, Ethernet switch is indispensable instrument.But all be to use traditional category-5 cable and copper cable or silica fiber in the present switch, have that inconvenience connects, the coupling efficiency of material also lower, not flexible, shock-sensitive moving, not radioresistance and a shortcoming such as cost an arm and a leg.Plastic fiber (POF) has the connection of being suitable for, the coupling efficiency of light is also higher, also have advantages such as softness, counter-bending, vibration resistance, radioresistance, low price, easy construction simultaneously concurrently, can replace traditional category-5 cable and copper cable, be fit to very much be applied to the more LAN of tie point.
Many in the world companies, Association for Standardization join the research in plastic fiber field one after another, and have dropped into a large amount of human and material resources at present.Plastic fiber is as the substitute products of copper cable, silica fiber, and it uses the support that also obtains various technical standards, has all formulated relevant POF technical standard as Ethernet, 1394, ATM etc.
Therefore, the development with the matching used plastic fiber Ethernet switch of plastic fiber in Ethernet becomes the technical problem that presses for solution, and traditional Ethernet switch can not satisfy actual needs far away.
Summary of the invention
The purpose of this utility model is to provide a kind of 650nm three-layer plastic optical fiber Ethernet switch, and it has solved the technical problem that lacks the plastic fiber Ethernet switch.
Technical solution of the present utility model is:
A kind of three-layer plastic optical fiber Ethernet switch comprises three layers of the network management subsystem that sets gradually, driver sub-system and exchange agreement subsystem;
The configuration data of described network management subsystem controls switch, in time announcement apparatus abnormal failure, the initial data of performance and control aspect is provided;
Described driver sub-system provides unified interface for operating system and exchange agreement subsystem access switch hardware, is convenient to protocol access and management exchange hardware;
Described exchange agreement subsystem is used for collection network information, sets up switch route switching path, provides switch management interface according to real needs to the network management subsystem simultaneously, makes things convenient for the exchange agreement subsystem that switch is managed;
Its special character is: in exchange process route learning is separated with the packet forwarding, described route learning is realized that by the Routing Protocol of the operation of CPU in the network management subsystem described packet is transmitted and realized by switched circuit hardware.
Each application module in the above-mentioned network management subsystem adopts unified access mechanism IDB+ to visit management object; The function interface that all protocol function modules all provide by IDB+ is set up the MIB storehouse of the corresponding objects of RFC standard code according to the switch current state, the function interface that each administration module then provides by IDB+ obtains the information of current switch to the user, and then carry out corresponding setting according to the IDB+ function interface that corresponding managed object is called in user feedback, realize management to switch device.
Above-mentioned driver sub-system is finished the initialization of exchange hardware, in the switch running,, finish setting and management to register according to the exchange agreement subsystem demands, and then realizing management to exchange hardware, these operations are finished by BSP and SSP respectively.
Each protocol module is finished reading and being provided with switch status attribute mode in the above-mentioned exchange agreement subsystem in administering and maintaining the switching path process.
The mode that reads and be provided with that above-mentioned each protocol module is finished the switch status attribute has two kinds, the one, directly call the interface function that provides is provided, another then is to use for the network management subsystem by using the IDB+ interface that relevant MIB storehouse is set, and each protocol module is realized the support to standard mib respectively.
Above-mentioned driver sub-system also comprises hardware abstraction layer HAL, and described hardware abstraction layer HAL provides unified api interface to exchange agreement subsystem and network management subsystem.
SDRAM internal storage and FLASH memory that above-mentioned network management subsystem specifically comprises CPU, is connected with CPU, described embedded communication processing and control element (PCE) externally provides serial ports and band collar extension, respectively as the communication interface of local network management and Remote Management of Network.
Above-mentioned driver sub-system comprises power management chip and core exchange chip BCM56110 and PHY chip;
Above-mentioned power management chip 220V exchanges the 10A high power switching power supply that technical grade is adopted in input,-48V modular power source can be installed on structural design flexibly, be convenient for changing and be the different direct current modular power sources that require such as+24V, described power management chip adopts TPS5124, and 3.3V small voltage and 10A are provided big electric current output;
Above-mentioned PHY chip comprises 2 BCM5248 and 1 BCM5461, every BCM5248 connects 8 650nm plastic fiber modules respectively, 16 road 650nm plastic fiber switching ports externally are provided, described BCM5461 connects the gigabit networking transformer externally provides 1 road 1000M/100M adaptive electro exchange mouth, other 1 road 1000M mouth connects the SFP optic module, pluggable optic module externally is provided, the silica fiber interface of different wave lengths such as adaptation 1550nm/1310nm/850nm, described 2 BCM5248 link to each other with core exchange chip BCM56110 respectively with 1 BCM5461;
Above-mentioned core exchange chip BCM56110 links to each other with CPU by pci bus, and this chip also has the expanded function of Ipv6.
Above-mentioned core exchange chip BCM56110 also connects a status indicator lamp, and the fpga logic circuit is adopted in the indication of described status indicator lamp, reads from the BCM56110 internal state, carries out logic decoding, lights the link state indicator of corresponding port.
Above-mentioned CPU is integrated communicaton microprocessor MPC8270PowerQUICCII.This processor can be realized the protocol layer exchange of switch and the function of network management.The SDRAM internal storage 256M that is connected with CPU, the FLASH memory is 16M.Processor unit externally provides serial ports and band collar extension, respectively as the communication interface of local network management and Remote Management of Network.
The utlity model has following advantage:
1) this equipment adopts high performance embedded CPU, and dominant frequency is up to 450MHz, and exchange chip adopts three layers of exchange chip of BCM of high integration, makes system response time easily reach the linear speed level exchange of hardware.
2) provide 1 road silica fiber to insert, the communication of 16 road plastic fibers, therefore local serial interface management possesses very high antijamming capability, anti-lightning strike ability, the anti-ability of divulging a secret, and reliability, fail safe for network service from the hardware platform provide solution efficiently.
3) can effectively solve demand bottleneck along with the ever-increasing router of data traffic, and support Ipv6, be that a large amount of costs is saved in networking, and business demand can constantly be upgraded with software, has increased the stability of the network architecture.
4) provide abundant, safe Network Management Function.As the core switching device in the autonomous system, possess isolation network storm, Control Network access rights and prevent functions such as IP address spoofing, prevention assault.
The utility model can be realized following major function:
1) 16 road 100M/650nm-SMI plastic fiber light transmitting-receiving port, 1 road 1000M/SFP silica fiber light transmitting-receiving port, 1 road 1000M/100M/RJ45 interface;
2) support the SNMPv2 Simple Network Management Protocol;
3) support is based on the configuration of the VLAN VLAN of port;
4) support MAC layer STP (spanning tree algorithm);
5) support IPv4 static routing/RIP/OSFP, and can upgrade to IPv6;
6) support access control ACL packet filtering function;
7) support the DHCP agreement, can make terminating machine obtain the IP address automatically;
8) be supported in binding MAC address and IP address on the port, can effectively prevent IP address and MAC address spoofing;
9) support the IGMPv2 multicast.
10) local (RS232) command line mode configuration network management function;
11) the embedded Web webmastering software of switch need not extra installation administration software;
12) switch system software has the online upgrading function.
Description of drawings
Fig. 1 is the utility model theory diagram;
Fig. 2 is the utility model software architecture theory diagram;
Embodiment
Referring to Fig. 1 and Fig. 2, a kind of three-layer plastic optical fiber Ethernet switch comprises three layers of the network management subsystem that sets gradually, driver sub-system and exchange agreement subsystem; The configuration data of wherein network management subsystem controls switch, in time announcement apparatus abnormal failure, the initial data of performance and control aspect is provided; Driver sub-system provides unified interface for operating system and exchange agreement subsystem access switch hardware, is convenient to protocol access and management exchange hardware; The exchange agreement subsystem is used for collection network information, sets up switch route switching path, provides switch management interface according to real needs to the network management subsystem simultaneously, makes things convenient for the exchange agreement subsystem that switch is managed; In exchange process route learning is separated with the packet forwarding, described route learning is realized that by the Routing Protocol of the operation of CPU in the network management subsystem described packet is transmitted and realized by switched circuit hardware.
Each application module in the network management subsystem adopts unified access mechanism IDB+ to visit management object; The function interface that all protocol function modules all provide by IDB+ is set up the MIB storehouse of the corresponding objects of RFC standard code according to the switch current state, the function interface that each administration module then provides by IDB+ obtains the information of current switch to the user, and then carry out corresponding setting according to the IDB+ function interface that corresponding managed object is called in user feedback, realize management to switch device.
Driver sub-system is finished the initialization of exchange hardware, in the switch running, according to the exchange agreement subsystem demands, finishes setting and management to register, and then realizes the management to exchange hardware, and these operations are finished by BSP and SSP respectively.
Each protocol module is finished reading and being provided with switch status attribute mode in the exchange agreement subsystem in administering and maintaining the switching path process.
The mode that reads and be provided with that each protocol module is finished the switch status attribute has two kinds, the one, directly call the interface function that provides is provided, another then is to use for the network management subsystem by using the IDB+ interface that relevant MIB storehouse is set, and each protocol module is realized the support to standard mib respectively.
Driver sub-system also comprises hardware abstraction layer HAL, and described hardware abstraction layer HAL provides unified api interface to exchange agreement subsystem and network management subsystem.
SDRAM internal storage and FLASH memory that the network management subsystem specifically comprises CPU, is connected with CPU, described embedded communication processing and control element (PCE) externally provides serial ports and band collar extension, respectively as the communication interface of local network management and Remote Management of Network.
Driver sub-system comprises power management chip and core exchange chip BCM56110 and PHY chip;
The PHY chip comprises 2 BCM5248 and 1 BCM5461, every BCM5248 connects 8 650nm plastic fiber modules respectively, 16 road 650nm plastic fiber switching ports externally are provided, described BCM5461 connects the gigabit networking transformer externally provides 1 road 1000M/100M adaptive electro exchange mouth, other 1 road 1000M mouth connects the SFP optic module, pluggable optic module externally is provided, the silica fiber interface of different wave lengths such as adaptation 1550nm/1310nm/850nm, 2 BCM5248 link to each other with core exchange chip BCM56110 respectively with 1 BCM5461;
Core exchange chip BCM56110 links to each other with CPU by pci bus, and this chip also has the expanded function of Ipv6.
Core exchange chip BCM56110 also connects a status indicator lamp, and the fpga logic circuit is adopted in the indication of described status indicator lamp, reads from the BCM56110 internal state, carries out logic decoding, lights the link state indicator of corresponding port.
CPU is integrated communicaton microprocessor MPC8270PowerQUICC II.This processor can be realized the protocol layer exchange of switch and the function of network management.The SDRAM internal storage 256M that is connected with CPU, the FLASH memory is 16M.Processor unit externally provides serial ports and band collar extension, respectively as the communication interface of local network management and Remote Management of Network.
The course of work of the present utility model mainly is divided into second layer exchange and the 3rd layer of exchange.When design, route learning is separated with the packet forwarding capability, route learning is realized that by the Routing Protocol that moves among the CPU packet is transmitted and then adopted switched circuit, promptly hardware is realized, can realize surface speed forwarding the 3rd layer (network layer).
1. second layer exchange
There is an address resolution logic exchange chip inside, is responsible for carrying out second layer exchange.After receiving packet, address resolution logic at first can carry out source address and search.Address resolution logic is extraction source MAC Address and VLAN ID from packet, if this packet is a packet of not being with the VLAN label, then address resolution logic can obtain corresponding VLAN ID and priority according to the port numbers of this packet of receiving and add label for it from PTABLE.Address resolution logic can remove to search the ARL table according to SA-E-VLAN ID like this.If can not find, address resolution logic can carry out source address study; If found, can carry out corresponding action according to corresponding setting.
Address resolution logic carries out destination address and searches subsequently.For unicast mac address, address resolution logic is searched the ARL table, and for multicast mac address, address resolution logic is searched the MARL table.If found, then can obtain outbound port; If can not find then outbound port is all member ports of the VLAN of this VALN ID correspondence.
Address resolution logic can carry out MAC address learning under the intervention that does not have CPU.Address resolution logic has three kinds of modes to learn MAC Address:
1) dynamic address study: after the address resolution logic was searched the source address failure, address resolution logic can insert a new list item in the ARL table; If source address searches success but variation has taken place corresponding port, at this moment the port numbers of this list item can be updated.
2) static address study: CPU can insert the static address item in the ARL table.But the static address item can't be deleted by the ager process of exchange chip because of overtime, can only be deleted under the intervention of CPU.
3) multicast address study: multicast address is stored in the MARL table.The study of multicast address is to finish under the assistance of upper strata multicast protocol, as IGMP Snooping and GMRP etc.
When source address is searched successfully, can be with the HIT mark position 1 in the ARL list item.Ager process can will pass through the time of setting and the ARL list item that the HIT flag bit is not set up deletion.
2. the 3rd layer of exchange
When packets need is transmitted between VLAN, will carry out routing, at this moment, packet will be submitted to the 3rd layer and exchange.The 3rd layer of exchange major function is exactly route between VLAN.Wherein routing table and exchange logic are realized in hardware by switched circuit, and the study of the management of routing table, IP address and the burin-in process of routing table will be finished by software.
Exchange chip provides following hardware resource: L3 table, L3 Interface table, Default IPRouter table and ARL table for the three layers of IP exchange.
IP address and pairing next jumping have been write down in the L3 table.IP ADDR represents the IP address of purpose website, and MAC ADDR represents the MAC Address of next jumping, when the purpose IP address of packet and IP ADDR coupling, and when packet is forwarded to next and jumps, will be with the target MAC (Media Access Control) address of MAC ADDR replacement data bag.PORT represents and IP ADDR corresponding port number.INTF is the index that corresponding L3 Interface shows.When the source IP address of packet and IP ADDR coupling, hardware is with HIT set; When the purpose IP address of packet and IP ADDR coupling, hardware is with D HIT set.Upper layer software (applications) utilizes these two flag bits long-time no L3 list item can be removed.
Default IP Router table is that the keyword of search becomes the subnet address by the IP address to replenishing that L3 shows.Before this table of search, need carry out AND-operation with the purpose IP address of subnet mask and packet, should table with the gained result as keyword search.
L3 Interface table invents VLAN an interface of router.ROUT ADDR represents the MAC Address with VLANTAG corresponding virtual interface, when packet is transmitted to the port of this VLAN, the source MAC of packet need be replaced with ROUT ADDR.
When the website in the subnet was communicated by letter with the website in another subnet, website was transmitted to the set gateway of website with packet, and gateway carries out routing for packet again.So have only when the target MAC (Media Access Control) address of IP packet is the MAC Address of gateway, gateway just is responsible for this IP packet and carries out routing.Finish this work by the ARL table is set, ARL.MAC ADDR is set to L3INTF.ROUT ADDR, and ARL.VLAN TAG is set to corresponding L3 INTF.VLAN TAG, and ARL.L3 is changed to 1.Like this when exchange chip is searched ARL table, if the ARL.L3 of the list item that is mated is 1 then this packets need of expression is carried out routing in network layer.
When exchange chip can't find next to jump for an IP packet, that is: exchange chip is by searching the list item that L3 table and Default IP Router table all do not find coupling, and exchange chip sends to CPU with the IP packet, is its routing by the upper strata Routing Protocol.CPU is responsible for the study of IP address when receiving and sending the IP packet, its Learning Principle is identical with the principle that hardware carries out MAC address learning.The IP address learning is realized in software.
When layer-3 switch is received an IP packet, can extract such information from packet: the MAC Address of next jumping of its source IP address correspondence is exactly its source MAC, and corresponding switch ports themselves is exactly the switch ports themselves that receives this packet.Just can finish source IP address study according to such information.
Will send to CPU to this packet when exchange chip can't find next to jump for an IP packet, software receives this packet, and the IP module is this packet routing by searching its routing table, and gives driver by corresponding virtual interface.At this moment driver can extract enough information and carries out purpose IP address learning.Can find next-hop mac address for purpose IP address by ARP, find corresponding forwarding port by searching ARL table for it then, if can not find then broadcasting among the VLAN accordingly.
Exchange chip is handled in the flow process of the 3rd layer of exchange, and the website of two different sub-networks intercoms mutually, and the bag of first on both direction data need be handled through upper layer software (applications).But for IP packet subsequently, exchange chip can directly be transmitted according to the IP address, need not to handle through upper layer software (applications) again.The website of different sub-network intercoms mutually and can obtain the speed of two layers of exchange like this.
Claims (4)
1. a three-layer plastic optical fiber Ethernet switch comprises three layers of the network management subsystem that sets gradually, driver sub-system and exchange agreement subsystem; SDRAM internal storage and FLASH memory that described network management subsystem specifically comprises CPU, is connected with CPU, described embedded communication processor control unit externally provides serial ports and band collar extension, respectively as the communication interface of local network management and Remote Management of Network.
2. according to the described three-layer plastic optical fiber Ethernet switch of claim 1, it is characterized in that: described driver sub-system comprises power management chip and core exchange chip BCM56110 and PHY chip;
Described power management chip 220V exchanges the 10A high power switching power supply that technical grade is adopted in input, and described power management chip adopts TPS5124, and 3.3V small voltage and 10A are provided big electric current output;
Described PHY chip comprises 2 BCM5248 and 1 BCM5461, every BCM5248 connects 8 650nm plastic fiber modules respectively, 16 road 650nm plastic fiber switching ports externally are provided, described BCM5461 connects the gigabit networking transformer externally provides 1 road 1000M/100M adaptive electro exchange mouth, other 1 road 1000M mouth connects the SFP optic module, pluggable optic module externally is provided, and described 2 BCM5248 link to each other with core exchange chip BCM56110 respectively with 1 BCM5461;
Described core exchange chip BCM56110 links to each other with CPU by pci bus.
3. according to the described three-layer plastic optical fiber Ethernet switch of claim 2, it is characterized in that: described core exchange chip BCM56110 also connects a status indicator lamp, the fpga logic circuit is adopted in the indication of described status indicator lamp, read from the BCM56110 internal state, carry out logic decoding, light the link state indicator of corresponding port.
4. according to the described three-layer plastic optical fiber Ethernet switch of claim 3, it is characterized in that: described CPU is integrated communicaton microprocessor MPC8270PowerQUICCII.
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN102377642A (en) * | 2010-08-10 | 2012-03-14 | 西安飞讯光电有限公司 | Plastic fiber access layer Ethernet switch |
CN102541493A (en) * | 2010-12-09 | 2012-07-04 | 九旸电子股份有限公司 | Electronic device for adjusting display mode |
CN101848186B (en) * | 2009-03-27 | 2014-03-05 | 西安飞讯光电有限公司 | Three-layer plastic optical fiber Ethernet switch |
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2008
- 2008-10-14 CN CNU2008202218379U patent/CN201323591Y/en not_active Expired - Fee Related
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101848186B (en) * | 2009-03-27 | 2014-03-05 | 西安飞讯光电有限公司 | Three-layer plastic optical fiber Ethernet switch |
CN102377642A (en) * | 2010-08-10 | 2012-03-14 | 西安飞讯光电有限公司 | Plastic fiber access layer Ethernet switch |
CN102541493A (en) * | 2010-12-09 | 2012-07-04 | 九旸电子股份有限公司 | Electronic device for adjusting display mode |
CN102541493B (en) * | 2010-12-09 | 2015-01-21 | 九旸电子股份有限公司 | electronic device for adjusting display mode |
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