CN105337749A

CN105337749A - Method for configuring network device, optical module, and network device system

Info

Publication number: CN105337749A
Application number: CN201410288610.6A
Authority: CN
Inventors: 叶正平; 韩志冲; 陈文�
Original assignee: Huawei Technologies Co Ltd
Current assignee: Huawei Technologies Co Ltd
Priority date: 2014-06-24
Filing date: 2014-06-24
Publication date: 2016-02-17
Anticipated expiration: 2034-06-24
Also published as: CN105337749B

Abstract

The invention, which relates to the technical field of communication, discloses a method for configuring a network device, an optical module, and a network device system. According to the scheme, the optical module determines that an address of an optical module in a reading command is identical with the address of the optical module, configuration information is obtained from the optical module according to an address of configuration information in the reading command; the obtained configuration information is sent to the network device; and then the network device carries out configuration. Therefore, time for network device configuration can be reduced; the configuration efficiency and accuracy of the network device configuration can be improved.

Description

A kind of method of configure network devices, optical module and network equipment system

Technical field

The present invention relates to communication technical field, particularly a kind of method of configure network devices, optical module and network equipment system.

Background technology

The network switch is for connecting the network equipments such as computer, and the most frequently used is Ethernet switch at present.If do not configure the network switch, then, after the network switch starts, running according to default parameter, limited service can only be provided, in order to make switch provide a greater variety of service, needing to configure this network switch before the network switch runs.

First the network switch carries out initialization by start-up routine to hardware device after starting, and wherein, start-up routine (also claiming start-up loading device, boot) refers to the program guiding operating system or embedded system to start.Such as, initialization central processing unit is (English: centralprocessingunit, abbreviation: CPU) and flash memory (English: flashmemory), then, from flash memory, obtain program by boot, this program is loaded into random access memory (English: random-accessmemory, abbreviation: run this program RAM), the configuration file in flash memory is read, according to the parameter configuration network switch of configuration file finally by this program.

Terminal equipment is connected to the network switch by serial ports or network interface, is configured the network switch, but.There is in large scale deployment the network switch of identical function, or when replacing the old network switch on a large scale, if use the method for above-mentioned human configuration to be configured the network switch, then exist consuming time longer, allocative efficiency is lower, simultaneously, owing to being manually be configured, also there is the problem that accuracy is lower.

In sum, there is length consuming time in the method for current configuration network switch, efficiency is low, and the problem that accuracy is low.

Summary of the invention

The embodiment of the present invention provides a kind of method of configure network devices, optical module and network equipment system, low in order to solve the configure network devices length consuming time, the efficiency that exist at present, and the problem that accuracy is low.

The concrete technical scheme that the embodiment of the present invention provides is as follows:

First aspect, provides a kind of method of configure network devices, comprising:

Optical module receives the read command that the network equipment that is connected with described optical module sends;

When described optical module determines that the address of the optical module in described read command is identical with the address of described optical module, the address according to the configuration information in described read command obtains configuration information from described optical module;

The configuration information of acquisition is sent to the described network equipment by described optical module, is configured according to described configuration information to make the described network equipment to the described network equipment.

In conjunction with first aspect, in the first possible implementation of first aspect, optical module receives the read command that the network equipment that is connected with described optical module sends, and specifically comprises:

The read command that the network equipment that optical module is connected with described optical module by internal integrate circuit bus IIC interface sends;

The configuration information of acquisition is sent to the described network equipment by described optical module, specifically comprises:

The configuration information of acquisition is sent to the described network equipment by IIC interface by described optical module.

In conjunction with first aspect, or the first possible implementation of first aspect, in the implementation that the second of first aspect is possible, described configuration information comprises at least one in following information:

Vertical stack port indicates, the information of the information of dual-mode of port, the information of the auto negotiation mode of port, the information of the closed condition of port, the Spanning-Tree Protocol stp state of port, and the information of the flow regulation state of port.

In conjunction with first aspect, or the implementation that the first to the second of first aspect is possible, in the third possible implementation of first aspect, described configuration information is stored in described optical module with the form of flag bit.

Second aspect, provides a kind of optical module, comprising:

Receiving element, for receiving the read command that the network equipment that is connected with described optical module sends;

Acquiring unit, during for determining that the address of the optical module in described read command is identical with the address of described optical module, the address according to the configuration information in described read command obtains configuration information from described optical module;

Transmitting element, for the configuration information of acquisition is sent to the described network equipment, is configured the described network equipment according to configuration information to make the described network equipment.

In conjunction with second aspect, in the first possible implementation of second aspect, described receiving element specifically for:

The read command that the network equipment be connected with described optical module by internal integrate circuit bus IIC interface is sent;

Described transmitting element specifically for:

The configuration information of acquisition is sent to described in order to equipment by IIC interface.

In conjunction with second aspect, or the first possible implementation of second aspect, in the implementation that the second of second aspect is possible, state configuration information that acquiring unit obtains and comprise at least one in following information:

In conjunction with second aspect, or the implementation that the first to the second of second aspect is possible, in the third possible implementation of second aspect, the configuration information that described acquiring unit obtains is stored in described optical module with the form of flag bit.

The third aspect, a kind of network equipment system is provided, described network equipment system comprises the network equipment and the optical module as described in second aspect to any one in the third possible implementation of second aspect, wherein, the described network equipment is used for being configured the described network equipment according to described configuration information.

In conjunction with the third aspect, in the first possible implementation of the third aspect, the described network equipment is stackable switch, described configuration information comprises the instruction of vertical stack port, and described stackable switch is used for, according to described vertical stack port instruction, the port connecting described optical module is set to vertical stack port.

Embodiment of the present invention beneficial effect is as follows:

Common, terminal equipment is connected to the network switch by serial ports or network interface, the network switch is configured one by one, but, there is in large scale deployment the network switch of identical function, or when replacing the old network switch on a large scale, if use the method for above-mentioned human configuration to be configured the network switch, then there is length consuming time, efficiency is low, namely the problem that accuracy is low, in the embodiment of the present invention, provide a kind of method of configure network devices: optical module receives the read command that the network equipment that is connected with optical module sends, when the address of the optical module in optical module determination read command is identical with the address of this optical module, the address according to the configuration information in read command obtains configuration information from optical module, the configuration information of acquisition is sent to the network equipment by optical module, the network equipment is configured according to configuration information to make the network equipment, in this scenario, when the address of the optical module in optical module determination read command is identical with the address of this optical module, address according to the configuration information in read command obtains configuration information from optical module, then, the configuration information of acquisition is sent to the network equipment, and then, the network equipment is configured according to configuration information, therefore, what shorten required for configure network devices is consuming time, improve the allocative efficiency of configure network devices, and accuracy.

Accompanying drawing explanation

Figure 1A is a kind of flow chart of configuration network switch in the embodiment of the present invention;

Figure 1B is the schematic diagram of optical module in transmitting procedure in the embodiment of the present invention;

Fig. 1 C is the schematic diagram of optical module in the embodiment of the present invention;

Fig. 2 is the embodiment of configuration network switch in the embodiment of the present invention;

Fig. 3 is the illustrative view of functional configuration of optical module in the embodiment of the present invention;

Fig. 4 is the entity structure schematic diagram of optical module in the embodiment of the present invention;

Fig. 5 is the schematic diagram of network equipment system in the embodiment of the present invention.

Embodiment

For making the object of the embodiment of the present invention, technical scheme and advantage clearly, below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly described.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

Below in conjunction with Figure of description, the preferred embodiment of the present invention is described in detail, be to be understood that, preferred embodiment described herein is only for instruction and explanation of the present invention, be not intended to limit the present invention, and when not conflicting, the feature in the embodiment of the present invention and embodiment can combine mutually.

Below in conjunction with accompanying drawing, the preferred embodiment of the present invention is described in detail.

The embodiment of the present invention is the method for configure network devices.The network equipment can be the network switch, router, fire compartment wall, wave-division device and gateway device etc.These network equipment infrastructure and function class seemingly, illustrate the embodiment of the present invention for the network switch below.

Consult shown in Figure 1A, in the embodiment of the present invention, a kind of detailed process of configuration network switch is as follows:

Step 100: optical module receives the read command that the network switch that is connected with optical module sends.

Step 110: when the address of the optical module in optical module determination read command is identical with the address of this optical module, the address according to the configuration information in read command obtains configuration information from optical module.

Step 120: the configuration information of acquisition is sent to the network switch by optical module, is configured the network switch according to configuration information to make the network switch.

In the invention process, optical module is the opto-electronic device carrying out photoelectricity and electro-optic conversion.(English: Transmit, abbreviation: TX) module is converted to light signal the signal of telecommunication, receives (English: Receive, abbreviation: RX) module is converted to the signal of telecommunication light signal, as shown in Figure 1B in the transmission of optical module.

The mode classification of optical module has multiple, as classified according to speed, according to emission wavelength classification, according to occupation mode classification, classifies according to packaged type.

Wherein, when classifying according to occupation mode, optical module can be divided into the optical module of non-thermal pluggable mode, the optical module of hot plug mode.

Wherein, when classifying according to packaged type, optical module can be divided into: Small Form-Factor Pluggable is (English: SmallForm-factorPluggable, abbreviation: SFP) transceiver, strengthen Small Form-Factor Pluggable (English: enhancedsmallform-factorpluggable, abbreviation: SFP+) transceiver, and gigabit ethernet interface transducer (English: gigabitinterfaceconverter, abbreviation: GBIC) etc.

In the embodiment of the present invention, optical module, when being connected with the network switch, can be connected with the network switch by electric mouth.

In the embodiment of the present invention, the read command that the CPU that can receive in the network switch be connected with optical module for optical module when optical module receives the read command that the network switch that is connected with optical module sends sends.

In the embodiment of the present invention, when optical module receives the read command that the network switch that is connected with optical module sends, can in the following way:

The read command that the network switch that optical module is connected with optical module by IIC (Inter-IntegratedCircuit, internal integrated circuit) interface sends;

Now, when the configuration information of acquisition is sent to the network switch by optical module, can in the following way:

The configuration information of acquisition is sent to the network switch by IIC interface by optical module.

The configuration information of acquisition is sent to the CPU of the network switch by optical module, is configured according to configuration information to make the CPU of the network switch to the network switch.

In the embodiment of the present invention, configuration information comprises much information, optionally, comprises any one or combination in any of following information:

The duplex of port is (English: the duplex) information of pattern, the auto-negotiation (English: the Negotiationauto) information of pattern, the closedown (English: the shutdown) information of state, the Spanning-Tree Protocol (English: SpanningTreeProtocol of port of port of port, abbreviation: the STP) information of state, the flow control (English: the auto sleep of the flowcontrol) information of state, and port is (English: autosleep) state information of port.

Optionally, this configuration information can also be longitudinally (English: vertical) stacking (English: stack) port instruction, is used to indicate stackable switch (English: port stackableswitch) inserting this optical module is vertical stack port.The port connecting optical module is set to vertical stack port according to the instruction of this vertical stack port by stackable switch.In this scene, can will connect this optical module optical fiber separate marking (such as optical fiber prints specific color or word outward) and as vertical stack client cables.

Wherein, dual-mode refers to the mode can carrying out two-way data transmission between two equipment, and dual-mode can be that full duplex is (English: full-duplex) pattern or half-duplex (English: half-duplex) pattern.Full-duplex mode refers to, two equipment rooms can carry out two-way data transmission simultaneously; Semiduplex mode refers to, can carry out two-way data transmission between two equipment, but can not carry out simultaneously, therefore, the same time only allows equipment to transmit data, if another equipment will transmit data, and reprocessing after the equipment transmission of original transmission data such as needing complete.

The value of dual-mode for representing that port uses full-duplex mode, or uses semiduplex mode.

The value of auto negotiation mode is used for representing whether open auto negotiation mode, the content of consulting during auto-negotiation is speed or dual-mode, wherein, when the value of auto negotiation mode is 0, the speed of the network equipment or dual-mode are configured according to the value preset, when the value of auto negotiation mode is 1, the speed of the network equipment or dual-mode are according to the connection speed of other end equipment and dual-mode, automatically the speed of the port is adjusted to the highest working level, the prestissimo that both link ends can be had and dual-mode.

The value of closed condition is used for representing whether open port, makes port carry out forwarding data.

The value of stp state is used for representing whether open STP agreement.

Whether the value of flow regulation state controls the flow in port forwarding data process for representing.

When the value of auto sleep state detects that port and another port disconnect for expression, whether port enters auto sleep state.

Certainly, in actual applications, configuration information also can change along with the difference of application scenarios, describes in detail no longer one by one at this.

In the invention process, optical module obtains configuration information according to the address of the configuration information in read command from optical module, therefore, in the embodiment of the present invention, optical module, before obtaining configuration information according to the address of the configuration information in read command from optical module, also comprises following operation:

The write order that optical module is sent by the IIC interface network equipment;

When the address of the optical module in optical module determination write order is identical with the address of this optical module, according to the address of the configuration information in write order, and configuration information, by memory space corresponding with the address of configuration information for configuration information write.

Common, configuration information in the network switch directly represents with the form of character string, such as, in the network switch of certain model, dual-mode is half-duplex, semiduplex information is described as " half-duplex ", if directly represent configuration information with the form of character string in the memory space of optical module, need to take multiple byte, and the memory space in optical module is limited, therefore, the configuration information in the network switch directly represents the defect that the utilance of the memory space that there is optical module is lower with the form of character string.Optionally, in order to improve the utilance of the memory space of optical module, in the embodiment of the present invention, configuration information is stored in optical module with the form of flag bit, the configuration information that each bit of each byte of memory space is corresponding different.

Such as, first bit of the first character joint of regulation memory space describes the information of port wrapped state, because port wrapped state specifically comprises two states: a kind of state for the closedown of port loopback, the state that another kind is opened for port loopback, so can represent with " 0 " state that port loopback is closed, can represent with " 1 " state that port loopback is opened; Again such as, second bit of the first character joint of regulation memory space describes the information of flow regulation state, because flow regulation state specifically comprises two states: a kind of state for Flow Control closedown, another kind is the enable state of Flow Control, so can represent with " 0 " state that Flow Control is closed, can represent with " 1 " state that Flow Control is enable.In actual applications, also have other configuration information, as shown in table 1, describe in detail no longer one by one at this.

Table 1 configuration information describes

In actual applications, some configuration information has two states, now, identifies this configuration information, represents a kind of state with " 0 ", represent another kind of state with " 1 " with a bit; Some configuration information has two or more states, now, two or more bit identifies this configuration information, and as the speed in table 1, speed has three kinds of states, so now identify with two bit, because two bit can identify 4 kinds of states, therefore, suppose that rate information is four kinds of states, now, the 12nd bit and the 13rd bit still can be used to identify rate information.

In addition, can by the data address of optical module (English: DataAddress) be 2 the value of a byte be set to 23h (wherein h represents that this value is hexadecimal) to represent that vertical stack port indicates.

Certainly, along with the change of application scenarios, configuration information also may comprise other information, no longer describes in detail at this.

Common, the network switch has multiple port, can be connected with multiple optical module simultaneously, if when all having the configuration information of the network switch in multiple optical module, in the embodiment of the present invention, in order to improve the success rate of the configuration of the network switch, further, the priority of port can be set, or also can arrange can obtain configuration information from which port.If configuration information in optical module is the port for connecting this optical module, such as configuration information is that vertical stack is (English: stack) port instruction, configuration information then in the optical module that connects of each port can not conflict, and therefore also need not arrange the priority of port.

Such as, the network switch is connected with 3 optical modules simultaneously, wherein, optical module 1 is connected with the network switch by port one, optical module 2 is connected with the network switch by port 2, optical module 3 is connected with the network switch by port 3, the priority that the priority of port one is greater than port 2 is greater than the priority of port 3, all configuration information is had in optical module 1, optical module 2, optical module 3, now, the CPU of the network switch directly reads configuration information from optical module 1, and is configured the network switch.

Again such as, the network switch is designated and reads configuration information from optical module 1.The network switch is connected with 3 optical modules simultaneously, wherein, optical module 1 is connected with the network switch by port one, optical module 2 is connected with the network switch by port 2, optical module 3 is connected with the network switch by port 3, all has configuration information, now in optical module 1, optical module 2, optical module 3, the CPU of the network switch only reads configuration information from optical module 1, and is configured the network switch.

In order to monitor the operational factor of optical module, such as, temperature, voltage, received optical power, transmitting optical power etc., also comprise a control module in optical module, the optical module comprising the control module possessing this function is called enhancement mode optical module.Enhancement mode optical module is detected on the circuit board of inside modules and the parameter signal of the operational factor of optical module is carried in digitlization, then, operational factor is parsed, the electronics formula of erasing that these trip informations are all placed on optical module inside can make carbon copies read-only memory (English: ElectricallyErasableProgrammableRead-OnlyMemory, abbreviation: EEPROM), as shown in Figure 1 C.EEPROM space can be 512 bytes, store some information of optical module, as the information etc. of the manufacturer of the sequence number information of the type information of the transmitting optical power of the received optical power of the information of voltage of the temperature information of the optical module that monitors, optical module, optical module, optical module, optical module, optical module, the date of manufacture information of optical module, the transmission range information of optical module and optical module.Space shared by these information above-mentioned is less than 512 bytes usually, also has some remainder bytes.

In the embodiment of the present invention, configuration information can be stored in the remainder bytes of the EEPROM of optical module by optical module.

In order to understand the embodiment of the present invention better, below providing embody rule scene, for the process of configuration network switch, making and describing in further detail, as shown in Figure 2:

Network switch A due to ageing equipment need replace, with network switch B alternative networks switch A, wherein, network switch B is identical with the model of network switch A.

Step 200: the CPU in network switch B sends read command by IIC interface to optical module 1.

Step 210: after optical module 1 receives read command, obtains the address of optical module from read command.

Step 220: optical module 1 judges that whether the address of the optical module obtained is identical with the address of optical module 1, if identical, then performs step 230, otherwise, shut-down operation.

Step 230: optical module 1 obtains the address of configuration information from read command.

Step 240: optical module 1 from the EEPROM of optical module 1, according to the address acquisition configuration information of configuration information obtained.

Step 250: the configuration information of acquisition is sent to the CPU in network switch B by optical module 1, makes the CPU in network switch B be configured network switch B according to the configuration information received.

In this embodiment, when optical module 1 determines that the address of the optical module carried in read command is identical with the address of optical module 1, address according to the configuration information carried in read command obtains configuration information from optical module 1, then, the configuration information of acquisition is sent to the CPU of network switch B, and then, CPU is configured network switch B, and therefore, what shorten required for configuration network switch is consuming time, improve the allocative efficiency of configuration network switch, and accuracy.

Based on technique scheme, consult shown in Fig. 3, the embodiment of the present invention provides a kind of optical module, comprises receiving element 30, acquiring unit 31, transmitting element 32, wherein:

Receiving element 30, for receiving the read command that the network equipment that is connected with optical module sends;

Acquiring unit 31, when the address for the address with optical module of determining the optical module in read command is identical, the address according to the configuration information in read command obtains configuration information from optical module;

Transmitting element 32, for the configuration information of acquisition is sent to the network equipment, is configured the network equipment according to configuration information to make the network equipment.

In the embodiment of the present invention, receiving element 30 specifically for:

The read command that the network equipment be connected with optical module by IIC interface is sent;

Transmitting element 32 specifically for:

By IIC interface, the configuration information of acquisition is sent to the network equipment.

In the embodiment of the present invention, the configuration information that acquiring unit 31 obtains comprises at least one in following information:

In the embodiment of the present invention, the configuration information that acquiring unit 31 obtains is stored in optical module with the form of flag bit.

As shown in Figure 4, be the entity apparatus figure of the optical module that the embodiment of the present invention provides, optical module comprises sending module 401, receiver module 402, management processor 403, bus 404.

Wherein, sending module 401 comprises laser 4011 and drive circuit 4012, the signal of telecommunication that drive circuit 4012 sends for receiving the network equipment, and convert electrical signals to the signal of telecommunication of applicable laser 4011 process, launch after being converted to light signal after the signal of telecommunication after laser 4011 receives conversion.

Receiver module 402 for receiving the light signal come by Optical Fiber Transmission, and is emitted to the network equipment after light signal is converted to the signal of telecommunication.

Bus 404 comprises holding wire and pin thereof, such as iic bus, for controlling optical module.

Management processor 403 comprises EEPROM, the read command that management processor 403 sends for the central processor CPU received in the network switch that is connected with optical module; When the address of the optical module determining to carry in read command is identical with the address of this optical module, the address according to the configuration information carried in read command obtains configuration information from the EEPROM comprised; The configuration information of acquisition is sent to CPU by bus 404, according to configuration information, the network switch is configured to make CPU.

Based on technique scheme, consult shown in Fig. 5, the embodiment of the present invention provides a kind of network equipment system, and network equipment system comprises the network equipment and as Fig. 3 or optical module as shown in Figure 4, wherein, the network equipment is used for being configured the network equipment according to configuration information.

In the embodiment of the present invention, optionally, the network equipment is stackable switch, and configuration information comprises the instruction of vertical stack port, and stackable switch is used for, according to the instruction of vertical stack port, the port connecting optical module is set to vertical stack port.

In sum, in the embodiment of the present invention, a kind of method of configuration network switch is proposed: optical module receives the read command that the network equipment that is connected with optical module sends, when the address of the optical module in optical module determination read command is identical with the address of this optical module, the address according to the configuration information in read command obtains configuration information from optical module, the configuration information of acquisition is sent to the network equipment by optical module, the network equipment is configured according to configuration information to make the network equipment, in this scenario, when the address of the optical module in optical module determination read command is identical with the address of this optical module, address according to the configuration information in read command obtains configuration information from optical module, then, the configuration information of acquisition is sent to the network equipment, and then, the network equipment is configured according to configuration information, therefore, what shorten required for configure network devices is consuming time, improve the allocative efficiency of configure network devices, and accuracy.

These computer program instructions also can be stored in can in the computer-readable memory that works in a specific way of vectoring computer or other programmable data processing device, the instruction making to be stored in this computer-readable memory produces the manufacture comprising command device, and this command device realizes the function in flow chart flow process or multiple flow process and/or block diagram square frame or multiple square frame.

Although describe the preferred embodiments of the present invention, those skilled in the art once obtain the basic creative concept of the cicada embodiment of the present invention, then can make other change and amendment to these embodiments.So claims are intended to be interpreted as comprising preferred embodiment and falling into all changes and the amendment of the scope of the invention.

Obviously, those skilled in the art can carry out various change and modification to the embodiment of the present invention and not depart from the scope of the embodiment of the present invention.Like this, if these amendments of the embodiment of the present invention and modification belong within the scope of the claims in the present invention and equivalent technologies thereof, then the present invention is also intended to comprise these change and modification.

Claims

1. a method for configure network devices, is characterized in that, comprising:

2. the method for claim 1, is characterized in that, optical module receives the read command that the network equipment that is connected with described optical module sends, and specifically comprises:

3. method as claimed in claim 1 or 2, it is characterized in that, described configuration information comprises at least one in following information:

4. the method as described in any one of claim 1-3, is characterized in that, described configuration information is stored in described optical module with the form of flag bit.

5. an optical module, is characterized in that, comprising:

6. optical module as claimed in claim 5, is characterized in that, described receiving element specifically for:

Described transmitting element specifically for:

By IIC interface, the configuration information of acquisition is sent to the described network equipment.

7. the optical module as described in claim 5 or 6, is characterized in that, the configuration information that described acquiring unit obtains comprises at least one in following information:

8. the optical module as described in any one of claim 5-7, is characterized in that, the configuration information that described acquiring unit obtains is stored in described optical module with the form of flag bit.

9. a network equipment system, is characterized in that, described network equipment system comprises the network equipment and the optical module as described in any one of claim 5-8, and wherein, the described network equipment is used for being configured the described network equipment according to described configuration information.

10. network equipment system as claimed in claim 9, it is characterized in that, the described network equipment is stackable switch, described configuration information comprises the instruction of vertical stack port, and described stackable switch is used for, according to described vertical stack port instruction, the port connecting described optical module is set to vertical stack port.