CN101321028A - Communication method and system between photo-timing transmission equipment master control board and business single plate - Google Patents
Communication method and system between photo-timing transmission equipment master control board and business single plate Download PDFInfo
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- CN101321028A CN101321028A CNA2008100681962A CN200810068196A CN101321028A CN 101321028 A CN101321028 A CN 101321028A CN A2008100681962 A CNA2008100681962 A CN A2008100681962A CN 200810068196 A CN200810068196 A CN 200810068196A CN 101321028 A CN101321028 A CN 101321028A
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Abstract
The invention discloses a communication method between a master control board of a phototiming transmission device and an operation single board and a system thereof, wherein the master control board and the operation single board all support a first communication mode, and at least one of the master control board and the operation single board supports a second communication mode. The communication method comprises the following steps: A. after the master control board and the operation single board are power on and started, the communication is performed through the first communication mode; B. the master control board and the operation single board perform the communication mode negotiation, to determine whether the both support the second communication mode, if true, the master control board and the operation single board are switched to the second communication mode for communicating. The communication system includes a negotiation module in the communication mode and a switching module in the communication mode. The invention realizes the front compatible on the phototiming transmission device and the operation single board.
Description
Technical field
The present invention relates to the optical transmission field, relate to the means of communication and system between a kind of phototiming transmission equipment master control borad and service board specifically.
Background technology
In optical transmission device, the user manages whole network by webmaster, comprises management, disposes, safeguards the veneer that each piece is concrete.Wherein, service board can not be directly and webmaster to carry out communication mutual, but the two is communicated with by this bridge of master control borad, therefore, the communication between master control borad and the service board is very important.
At present, High-Level Data Link Control (HDLC) protocol mode has generally been adopted in the communication in SDH (phototiming transmission) equipment between master control borad and the service board.Long-term, extensive use along with Ethernet and ICP/IP protocol, and because the communication throughput of Ethernet mode is big, speed is fast, and stability is high simultaneously, SDH equipment more and more tends to substitute HDLC with the ether net mode, realizes the communication of master control borad and service board.
But a large amount of SDH equipment of past production have used the communication between HDLC protocol interface realization master control borad and service board, and this is an accomplished fact.New master control borad and new business veneer are used instead after the ethernet communication mode, and it can only carry out communication with the veneer that uses identical communication modes, do not have to consider, also can't realize the compatibility to old veneer, thereby cause a large amount of wastes of old equipment.
Summary of the invention
Because the problems referred to above the invention provides the means of communication and system between a kind of phototiming transmission equipment master control borad and service board, the old veneer of veneer forward compatibility that can be new, thus realized device upgrade economically.
In order to solve the problems of the technologies described above, the present invention has adopted following technical scheme:
The means of communication between a kind of phototiming transmission equipment master control borad and service board, described master control borad and service board are all supported first communication modes, and at least one supports second communication modes described master control borad and service board, and the described means of communication comprise following steps:
Behind A, master control borad and the service board electrifying startup, carry out communication by first communication modes;
B, master control borad and service board carry out communication modes to be consulted, and confirms whether both sides support second communication modes, and in this way, master control borad and service board switch to second communication modes and carry out communication.
Described step B can carry out in the following way:
The service board of B11, support second communication modes reports order to master control borad, and the communication modes of self supporting is described;
B12, master control borad resolve and describedly report order, if master control borad is supported second communication modes, report order to confirm that service board supports second communication modes according to described, and the informing business veneer adopts second communication modes, carries out step B13; If master control borad is not supported second communication modes, do not process;
B13, master control borad and service board switch to second communication modes and carry out communication.
Described step B also can carry out in the following way:
The master control borad of B21, support second communication modes sends querying command to service board, the communication modes that the inquiry business veneer is supported;
B22, service board are resolved described querying command, if service board is supported second communication modes, the response querying command reports master control borad with the communication modes of self supporting, carries out step B23; If service board is not supported second communication modes, do not process;
B23, master control borad report according to service board, and the affirmation service board is supported second communication modes, and the informing business veneer adopts second communication modes;
B24, master control borad and service board switch to second communication modes and carry out communication.
Described first communication modes adopts the High-Level Data Link Control communication modes.
Described second communication modes adopts the ethernet communication mode.
The invention also discloses the communication system between a kind of phototiming transmission equipment master control borad and service board, described master control borad and service board are all supported first communication modes, at least one supports second communication modes described master control borad and service board, described communication system comprises communication modes negotiation module and communication modes handover module, described communication modes negotiation module is used to realize the communication modes negotiation of master control borad and service board, confirm whether both sides support second communication modes, described communication modes handover module is used for when the communication modes negotiation module confirms that both sides support second communication modes, master control borad and service board is switched to second communication modes carry out communication.
Described communication modes negotiation module can adopt the service board of supporting second communication modes to report the working method of order to master control borad.
Described communication modes negotiation module also can adopt the master control borad of supporting second communication modes to send the working method of querying command to service board.
Described first communication modes is the High-Level Data Link Control communication modes.
Described second communication modes is the ethernet communication mode.
The present invention carries out communication by at first utilizing first communication modes, negotiation by communication modes then, communication modes with both when master control borad and service board are all supported second communication modes is adjusted into second communication modes, thereby having realized forward compatibility to the phototiming transmission equipment, economy has solved the upgrade problem of phototiming transmission equipment easily.
Description of drawings
Fig. 1 is the process chart of the service board of the specific embodiment of the invention;
Fig. 2 is the process chart of the master control borad of the specific embodiment of the invention;
Fig. 3 is the process chart of new Optical Line Board OL in the specific embodiment of the invention;
Fig. 4 is the process chart of new master control borad in the specific embodiment of the invention;
Fig. 5 is the process chart of old Optical Line Board OL in the specific embodiment of the invention;
Fig. 6 is the process chart of old master control borad in the specific embodiment of the invention.
Embodiment
Contrast accompanying drawing and the present invention is described in further details below in conjunction with embodiment.
Main purpose of the present invention is in order to realize SDH equipment master control borad and service board when adopting new communication modes, and forward compatibility can only be used the old master control borad and the old service veneer of old communication modes.
At first the implication of the part english abbreviation that hereinafter uses is an explanation: comm_mode_old: the old communication modes between master control borad and the service board (this communication modes is that all veneers are all supported)
Comm_mode_new: the new communication modes between master control borad and the service board (this communication modes has only new veneer just to support)
Cmd_A: service board reports all communication modes orders of oneself supporting to master control borad
Cmd_B: all communication modes orders that master control borad inquiry business veneer is supported
Cmd_C: which kind of communication modes order master control borad informing business veneer finally uses
Referring to Fig. 1 to Fig. 6, main thought of the present invention is: under default situations, behind the electrifying startup, the comm_mode_old mode that master control borad and service board use both sides all to support is carried out communication.Then, both sides carry out the negotiation of communication modes, for example, when service board is supported comm_mode_new, then service board is informed master control borad to all communication modes of oneself supporting, then, selects the final communication modes of both sides by master control borad, if the principle of selecting is---both sides support communication modes comm_mode_new, then select comm_mode_new; Otherwise, select comm_mode_old.At last, master control borad is with selection result informing business veneer, and both sides use the communication modes of final selection.Describe from service board and master control borad two aspects respectively below.
Service board aspect (see figure 1):
The first step: after the service board electrifying startup, board software control central processing unit (CPU) uses master control borad and service board all to give tacit consent to the comm_mode_old communication modes of support, initiatively sends order cmd_A to master control borad.
Second step: service board normally moves.
The 3rd step: when service board receives the order of master control borad, if judge command number---be cmd_B, loopback cmd_A then; If be cmd_C, resolve command then, the mode of using when determining this veneer after this with the master control borad communication, and reply successfully; Otherwise, other orders of respective handling.Returned for second step.Master control borad aspect (see figure 2):
The first step: after the master control borad electrifying startup, board software control central processor CPU uses master control borad and service board all to give tacit consent to the comm_mode_old communication modes of support, sends order cmd_B to service board.
Second step: master control borad normally moves.
The 3rd step: when master control borad receives the order of service board, if judge command number---be cmd_A, if then first resolve command---service board is supported comm_mode_new, then selecting the final communication modes of master control borad and service board is comm_mode_new, otherwise be comm_mode_old, loopback cmd_C then, the communication modes that after this informing business veneer uses; Otherwise, other orders of respective handling.Returned for second step.
Communication with master control borad and Optical Line Board OL in the SDH equipment is that example further specifies the specific embodiment of the invention below, in this example, comprise the communication process under new master control borad and new Optical Line Board OL, new master control borad and old Optical Line Board OL, old master control borad and new these three kinds of collocation situations of Optical Line Board OL, wherein, the two kinds of situations in back have embodied forward compatibility of the present invention.
Illustrate: new master control borad and new Optical Line Board OL, support High-Level Data Link Control (HDLC) and two kinds of communication modes of Ethernet (ETHERNET) simultaneously, use comm_mode_hdlc and comm_mode_ethernet to represent here respectively.Old master control borad and old Optical Line Board OL are only supported the HDLC communication modes.
Collocation situation 1: the communication of new master control borad and new Optical Line Board OL
Optical Line Board OL aspect (Fig. 3):
The first step: behind the Optical Line Board OL electrifying startup, the software control central processor CPU, use master control borad and service board all to give tacit consent to the comm_mode_hdlc communication modes of support, initiatively send order cmd_A, inform this veneer of master control borad support comm_mode_hdl and comm_mode_ethernet communication modes to master control borad.
Second step: Optical Line Board OL normally moves.
The 3rd step: when Optical Line Board OL receives the order of master control borad, if judge command number---be cmd_B, loopback cmd_A then; If be cmd_C, then resolve command when determining this veneer after this with the master control borad communication, is used comm_mode_hdlc or comm_mode_ethernet mode, and is replied successfully; Otherwise, other orders of respective handling.Returned for second step.
Master control borad aspect (Fig. 4):
The first step: behind the master control borad electrifying startup, the software control central processor CPU uses master control borad and service board all to give tacit consent to the comm_mode_hdlc communication modes of support, sends order cmd_B to Optical Line Board OL, all communication modes that the inquiry Optical Line Board OL is supported.
Second step: master control borad normally moves.
The 3rd step: when master control borad receives the order of service board, if judge command number---be cmd_A, if then first resolve command---service board is supported comm_mode_ethernet, then selecting the final communication modes of master control borad and service board is comm_mode_ethernet, otherwise be comm_mode_hdlc, loopback cmd_C then, the communication modes that after this informing business veneer uses; Otherwise, other orders of respective handling.Returned for second step.
Collocation situation 2: the communication of new master control borad and old Optical Line Board OL
Optical Line Board OL aspect (Fig. 5):
The first step: behind the Optical Line Board OL electrifying startup, normal operation does not send order cmd_A.
Second step: when Optical Line Board OL receives the order of master control borad, judge command number---because old Optical Line Board OL does not adopt the technical program,, do not handle,, do not handle yet if be cmd_C if be cmd_B; Otherwise, other orders of respective handling.Return the first step.
Master control borad aspect (Fig. 4):
The first step: behind the master control borad electrifying startup, the software control central processor CPU uses master control borad and service board all to give tacit consent to the comm_mode_hdlc communication modes of support, sends order cmd_B to Optical Line Board OL, all communication modes that the inquiry Optical Line Board OL is supported.
Second step: master control borad normally moves.
The 3rd step: when master control borad receives the order of service board, if judge command number---be cmd_A, then first resolve command, loopback cmd_C then, the communication modes that after this informing business veneer uses (still, because old Optical Line Board OL can not send cmd_A,, can not send cmd_C) so master control borad just can not received cmd_A yet; Otherwise, other orders of respective handling.Returned for second step.
Collocation situation 3: the communication of old master control borad and new Optical Line Board OL
Optical Line Board OL aspect (Fig. 3):
The first step: behind the Optical Line Board OL electrifying startup, the software control central processor CPU, use master control borad and service board all to give tacit consent to the comm_mode_hdlc communication modes of support, initiatively send order cmd_A, inform this veneer of master control borad support comm_mode_hdl and comm_mode_ethernet communication modes to master control borad.
Second step: Optical Line Board OL normally moves.
The 3rd step: when Optical Line Board OL receives the order of master control borad, if judge command number---be cmd_B, loopback cmd_A then, if be cmd_C, resolve command then, the mode of using when determining this veneer after this with the master control borad communication, and reply successfully (still, because old master control borad can not send cmd_B and cmd_C, so Optical Line Board OL just can not received cmd_B and cmd_C, also can loopback cmd_A); Otherwise, other orders of respective handling.Returned for second step.
Master control borad aspect (Fig. 6):
The first step: behind the master control borad electrifying startup, normal operation can not send order cmd_B to Optical Line Board OL.
Second step: when master control borad receives the order of service board, if judge command number---be cmd_A, do not handle; Otherwise, other orders of respective handling.Returned for second step.
From above-mentioned three kinds of situations as can be seen, when all being new, the two can correctly select new comm_mode_ethernet communication modes at master control borad and service board; Communication under other situations also can default use comm_mode_hdlc mode, has realized forward compatibility.
The method of the invention can realize between the master control borad of SDH equipment and the service board when adopting new communication modes, and to the original master control borad that can only use old communication modes and the forward compatibility of service board, new and old veneer can work on the same equipment.This function upgrading for old old equipment is safeguarded, adds up-to-date veneer on old equipment, will be very useful.
The present invention also discloses the communication system between a kind of phototiming transmission equipment master control borad and service board simultaneously, described master control borad and service board are all supported first communication modes, at least one supports second communication modes described master control borad and service board, described communication system comprises communication modes negotiation module and communication modes handover module, described communication modes negotiation module is used to realize the communication modes negotiation of master control borad and service board, confirm whether both sides support second communication modes, described communication modes handover module is used for when the communication modes negotiation module confirms that both sides support second communication modes, master control borad and service board is switched to second communication modes carry out communication.Because the working method and the aforementioned means of communication of this system are similar, do not repeat them here.
Above content be in conjunction with concrete preferred implementation to further describing that the present invention did, can not assert that concrete enforcement of the present invention is confined to these explanations.For the general technical staff of the technical field of the invention, without departing from the inventive concept of the premise, can also make some simple deduction or replace, all should be considered as belonging to protection scope of the present invention.
Claims (10)
1. the means of communication between phototiming transmission equipment master control borad and service board, it is characterized in that, described master control borad and service board are all supported first communication modes, and at least one supports second communication modes described master control borad and service board, and the described means of communication comprise following steps:
Behind A, master control borad and the service board electrifying startup, carry out communication by first communication modes;
B, master control borad and service board carry out communication modes to be consulted, and confirms whether both sides support second communication modes, and in this way, master control borad and service board switch to second communication modes and carry out communication.
2. the means of communication as claimed in claim 1 is characterized in that, described step B carries out in the following way:
The service board of B11, support second communication modes reports order to master control borad, and the communication modes of self supporting is described;
B12, master control borad resolve and describedly report order, if master control borad is supported second communication modes, report order to confirm that service board supports second communication modes according to described, and the informing business veneer adopts second communication modes, carries out step B13; If master control borad is not supported second communication modes, do not process;
B13, master control borad and service board switch to second communication modes and carry out communication.
3. the means of communication as claimed in claim 1 is characterized in that, described step B carries out in the following way:
The master control borad of B21, support second communication modes sends querying command to service board, the communication modes that the inquiry business veneer is supported;
B22, service board are resolved described querying command, if service board is supported second communication modes, the response querying command reports master control borad with the communication modes of self supporting, carries out step B23; If service board is not supported second communication modes, do not process;
B23, master control borad report according to service board, and the affirmation service board is supported second communication modes, and the informing business veneer adopts second communication modes;
B24, master control borad and service board switch to second communication modes and carry out communication.
4. as the arbitrary described means of communication of claim 1 to 3, it is characterized in that described first communication modes adopts the High-Level Data Link Control communication modes.
5. as the arbitrary described means of communication of claim 1 to 3, it is characterized in that described second communication modes adopts the ethernet communication mode.
6. the communication system between phototiming transmission equipment master control borad and service board, it is characterized in that, described master control borad and service board are all supported first communication modes, at least one supports second communication modes described master control borad and service board, described communication system comprises communication modes negotiation module and communication modes handover module, described communication modes negotiation module is used to realize the communication modes negotiation of master control borad and service board, confirm whether both sides support second communication modes, described communication modes handover module is used for when the communication modes negotiation module confirms that both sides support second communication modes, master control borad and service board is switched to second communication modes carry out communication.
7. communication system as claimed in claim 6 is characterized in that, described communication modes negotiation module adopts the service board of supporting second communication modes to report the working method of order to master control borad.
8. communication system as claimed in claim 6 is characterized in that, described communication modes negotiation module adopts the master control borad of supporting second communication modes to send the working method of querying command to service board.
9. as the arbitrary described communication system of claim 6 to 8, it is characterized in that described first communication modes is the High-Level Data Link Control communication modes.
10. as the arbitrary described communication system of claim 6 to 8, it is characterized in that described second communication modes is the ethernet communication mode.
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CN2008100681962A CN101321028B (en) | 2008-07-02 | 2008-07-02 | Communication method and system between photo-timing transmission equipment master control board and business single plate |
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CN2008100681962A CN101321028B (en) | 2008-07-02 | 2008-07-02 | Communication method and system between photo-timing transmission equipment master control board and business single plate |
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CN101321028B CN101321028B (en) | 2012-06-06 |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102890635A (en) * | 2011-07-20 | 2013-01-23 | 中兴通讯股份有限公司 | Method and device for loading digital signal processor |
CN103067430A (en) * | 2011-10-21 | 2013-04-24 | 中兴通讯股份有限公司 | Method and equipment for communication between boards |
Family Cites Families (2)
Publication number | Priority date | Publication date | Assignee | Title |
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JP3916554B2 (en) * | 2002-12-10 | 2007-05-16 | 京セラ株式会社 | Wireless communication terminal and handoff determination method |
US20080102886A1 (en) * | 2004-10-26 | 2008-05-01 | Hiroshi Sakurada | Wireless Mobile Station Apparatus and Communication Switching Deciding Method |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102890635A (en) * | 2011-07-20 | 2013-01-23 | 中兴通讯股份有限公司 | Method and device for loading digital signal processor |
CN102890635B (en) * | 2011-07-20 | 2018-01-30 | 中兴通讯股份有限公司 | The loading method and device of a kind of digital signal processor |
CN103067430A (en) * | 2011-10-21 | 2013-04-24 | 中兴通讯股份有限公司 | Method and equipment for communication between boards |
WO2013056569A1 (en) * | 2011-10-21 | 2013-04-25 | 中兴通讯股份有限公司 | Method and device for communication between boards |
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