TR201713827T1 - Method and apparatus for determining the connection loop of the PON system. - Google Patents

Abstract

Disclosed is a method and apparatus for detecting the connection loop of a PON system. The method comprises: activating the loopback detection function of a kernel exchange disk and sending first level detection messages to all downlink ports and time slot ports of all service disks, respectively; terminating the detection if no returned first level detection messages are received; otherwise, confirmation that no loopback is present in a PON system; terminating the detection if no loopback exists between the downlink ports; If loopback exists between the downlink ports and the time zone ports, or all time zone ports, the loopback detection functions of the service cards are activated, each of the service cards sends a second level detection message to a designed ONU and terminating the detection if the service cards do not receive the returned second level detection message; the correct positioning of the designed ONU, which otherwise constitutes the service card and connection loop, according to the number of ONU permits and time slots of the service carried in the second level detection message. According to the present invention, the application process is simple and a detection result can be reported in time so that the efficiency of detecting the connection loop of a PON system is greatly improved.

Description

DESCRIPTION FOR DETERMINING THE CONNECTION BACKGROUND OF THE PON SYSTEM METHOD AND DEVICE Technical Field The present invention is in the field of communication technology, especially the connection recovery of a PON system. relates to a method and apparatus for determining the cycle of

Infrastructure Technique With the advancement of communication technologies, the broadband access by the user, has become more and more common, broadband access equipment, network side transmission connects to the convergence layer equipment and allows the diversity of user access and due to its complexity, the DSL (digital user line) modem at the user's end the user connects to the home gateway, a connection loopback phenomenon occurs, for example users often have problems with internet access or trouble making calls. meets with. Many of these problems are caused by connection loopback formation within the system. causes, after exiting the optical line terminals, from the uplink ports messages are returned to the equipment through some means such as PON (Passive Optical Network), one or more source MAC (media access control) addresses of messages, PON in case the key chip of the equipment core replacement disk transmit messages one or more of a key chip simultaneously causing Available on multiple ports.

Currently, loopback detection technology is generally used for PON equipment. adopted to solve the loop problem, loopback detection of PON equipment function is activated so that the PON equipment receives the detection messages itself, the PON equipment to receive detection messages returning within the preset time connection loopback is considered to exist within the PON equipment, and Detection messages of the PON equipment that return within the preset time. If not, link loopback does not exist within the PON equipment. or connections are considered eliminated, but PON equipment is because it is a type of equipment, there are many possible loopback situations, other ie loopback exists between downlink ports or PON between ports, between ONUs (optical network unit), OLTs (optical line terminal) loopback is available, so the existing PON system link loopback detection methods have the following problems: (1) many system resources allow a loopback connection to fail during loopback detection. required for positioning; (2) the application process is complex; (3) detection results cannot be reported in time. In short, the current PON system The link loopback detection method is ineffective.

Brief Description of the Invention The technical problem to be solved by the present invention is the existing PON system connection. The loopback detection method is ineffective.

In order to solve the above technical problems, the present invention follows the following steps. A method for detecting the link loopback of a PON system, including step 10: activating the loopback detection function of a kernel replacement disk and all downlink ports of first level detection messages, respectively, and to the time zone ports of all the service disks, via the kernel replacement disk sending; step 20: the kernel replacement disk, other downlink ports or time of the first level detection messages returned from the slice ports whether or not it is received in, if received, the execution step (40); otherwise do not execute allowing it to determine its step (30); step 30: no link loopback is present in the PON system or acknowledgment that connections have been destroyed and maintenance personnel end detection informing about it; step 40: time between these downlink ports and downlink ports connection between slot ports or between all time slot ports assuming that loop is present, time with downlink ports link loopback between slot ports or between all time slot ports if it is, the execution step (50); step 50: activating the loopback detection functions of the service cards, each a second-level detection message to an ONU designed in sequence of the service card allowing it to send a second-level detection message at least ONU permission number of designed ONU and second level detection message sender contains the time slot number of the service card; step 60: each service card receives the returned second level detection message and If it is determined that it does not receive it, the ONU or any link loopback exists between the destroyed links stating that it is not, followed by termination of detection; otherwise the service Second-level detection of the designed ONU, which creates the card and link loopback correctly according to the number of ONU permissions and the number of time slots of the service carried in the message. positioning in the row.

The present invention also includes the connection recovery of a PON system, which includes: provides a device for detecting the cycle: activating a loopback detection function of a kernel replacement disk and all downlink ports and all downlinks through the kernel replacement disk, respectively. first-level detection messages to the timeslot ports of the service disks. a first activating unit for sending; kernel replacement disk, other downlink ports or time zone of the first-level detection messages returned from the determines whether it has been received within the specified period, if received, a second confirmation execution of the unit (204), otherwise a first validation unit (203) enabling its execution; PON system or any link loopback on destroyed links maintenance personnel about confirmation of non-existence and completion of detection. a first validation unit (203) for informing; time zone between these downlink ports and downlink ports connection loopback between ports or between all time slot ports. confirmation of availability, downlink ports and time zone ports connection loopback between or between all time slot ports a second actuation unit (205) for executing a second activating unit (205) validation unit (204); activating the loopback detection functions of the service cards one sends a second-level detection message to the designed ONU in sequence a second activating unit 205 to enable second level detection The message is at least the ONU permission number of the designed ONU and the second level detection contains the time slot number of the service card that sent the message; whether each service card receives the returned second-level detection message ONU designed with this service card or destroyed that there is no connection loopback between established connections indicating, followed by termination of detection; otherwise, service card and refund the loop-forming designed ONU carried in the second-level detection message correctly according to the number of ONU permits and time slots of the service card. a second identification unit (206) for positioning.

According to the present invention, detecting the link loopback within the PON system, detection classification using kernel replacement disk and separate service cards is achieved through can quickly determine the position of the loop and generate warning information, and the application process is simple, the detection results can be reported in a timely manner, thus the PON The efficiency of system link loopback detection is greatly increased.

Brief Description of Figures Figure 1 is the connection of a PON system provided through an example of the present invention. a flowchart of a method for detecting loopback; Figure 2 is the connection of a PON system provided through an example of the present invention. is a schematic structural view of a device for detecting loopback.

Detailed Description of the Invention The present invention is hereby detailed with reference to the accompanying figures and embodiments. will be disclosed.

Examples of the present invention are the connection recovery of a PON system as shown in Fig. provides a method for detecting the cycle, the method follows the following steps step 10: opening a network management interface, detection of connection loopback setting parameters, loopback detection of a kernel replacement disk activation of the function and, in turn, all downlink of first-level detection messages. connection ports and service disks all have time zone ports, kernel sent via the replacement disk; the Ethernet type in the first-level detection messages is determined by a user. It should be noted that the Ethernet type can be set to Oxeffa; step 20: the kernel replacement disk, other downlink ports or time of the first level detection messages returned from the slice ports whether or not it is received in, if received, the execution step (40); otherwise do not execute allowing it to determine its step (30); In a particular embodiment provided by the present invention, a central control disk, 28 port, 12 of which act as downlink ports and the other 16 ports are connected to the service disks, the CPU of the central control disk, the kernel in case it sends first level detection messages via the change disk, first-level detection messages, simultaneous downlink ports and is sent to the timezone ports of the service, so the loopback is first performed as follows is placed: a. the first-level detection message by a downlink port to another downlink ports, if returned from the downlink port b. the first-level detection message by a downlink port, a time If returned from the slot port, the time slot with the downlink port loopback exists between port; 0 is a first-level detection message sent by a timeslot port. If returned from the downlink port, the timeslot port and the downlink port loopback exists between port; D. a first-level detection message sent by a timeslot port timezone ports, if returned from another timezone port in case of omission, the time interval of sending detection messages by the CPU is 5 minutes and the preset time is three times continuously detecting by the CPU the duration of the sending of messages; preset time may be other values and not angry with it. step 30: no link loopback is present in the PON system or acknowledgment that connections have been destroyed and maintenance personnel end detection informing about it; step 40: time between these downlink ports and downlink ports connection between slot ports or between all time slot ports acknowledgment that the cycle exists; loopback detection information recording and generating warning information; In step 40, link loopback exists between downlink ports. If it is determined that there is to the corresponding usage, followed by going back to step 10 as informed about the result of the detection; otherwise downlink ports to restore connection between timezone ports or between all timezone ports loop exists, execution step (50); step 50: create a virtual local area network according to the service model of the next connected equipment determination of a mode, the loopback detection functions of the service cards Activation is a second-level link to an ONU designed by each service card sequentially. allowing it to send a detection message, where the second level detection message is at least the ONU permission number of the designed ONU and the timeslot number of the service card sending the second level detection message; a state of neglect, a designed vlan contract mode of each of the service cards, respectively. or in a return mode the second level detection message to the designed ONU it should be taken into account that it can send; specifically, the omission contract mode is second due to an omission vlan with 4088 refers to sending level detection messages; designed vlan contract mode of the second level detection messages depending on the vlan selected by the user. refers to sending; return mode is in the PON system of the service vlan If not understood, you can successfully pass the second level from the first vlan to the last vlan. refers to sending detection messages; step 60: each service card receives the returned second level detection message and If it is determined that it does not receive it, the ONU or any link loopback exists between the destroyed links stating that it is not, warning the maintenance personnel about the detection result, until the detection of the next service is complete, the detection of all service cards continue and terminate detection; otherwise the service card and connection of the engineered ONU that generates the loopback, which is carried in the second-level detection message. correctly based on the number of ONU permissions and time slots of the service. positioning.

After identification of all service cards, maintenance personnel is informed. In the prior art, many system resources are used during loopback detection. occupied for locating a loopback connection, application process is completed, the detection result cannot be reported in a timely manner and thus the PON detection of system link loopback is ineffective. with prior art Compared with the method and device of the present invention, the PON system classification-detection, kernel-switching disk's late-loop-detection function and separate obtained through the use of the loopback detection function of the service cards, this is Occupies fewer system resources, quickly adjusts the position of the link loopback. way, and generate warning information, and the application process is simple, detection results can be reported in a timely manner, thus PON system link loopback detection efficiency is greatly increased.

On the basis of the above method, examples of the present invention are also presented in Figure 2. for detecting the connection loopback of a PON system, as shown. provides a device (20), the device (20) comprising: activating a loopback detection function of a kernel replacement disk and all downlink ports and all downlinks through the kernel replacement disk, respectively. first-level detection messages to the timeslot ports of the service disks. a first activation unit (201) for sending; kernel replacement disk, other downlink ports or time zone of the first-level detection messages returned from the determines whether it has been received within the specified period, if received, a second confirmation execution of the unit (204), otherwise a first validation unit (203) a first determination unit (202) for enabling its execution; In the PON system, there is no connection loopback or maintenance on confirmation of destruction and termination of detection a first validation unit (203) for informing its personnel; time zone between these downlink ports and downlink ports connection loopback between ports or between all time slot ports. confirmation of availability, downlink ports and time zone ports connection loopback between or between all time slot ports a second actuation unit (205) for executing a second activating unit (205) validation unit (204); activating the loopback detection functions of the service cards to send a second-level detection message to the designated ONU in sequence. a second activating unit 205 to enable second level detection The message is at least the ONU permission number of the designed ONU and the second level detection contains the time slot number of the service card that sent the message; whether each service card receives the returned second-level detection message ONU designed with this service card or destroyed that there is no connection loopback between established connections indicating, followed by termination of detection; otherwise, service card and refund the loop-forming designed ONU carried in the second-level detection message correctly according to the number of ONU permits and time slots of the service card. a second identification unit (206) for positioning.

The above preferred embodiments, with the scope of the present disclosure. It is not intended to limit structural changes that have the same or similar technical solutions as the present invention should be understood by anyone falling within the scope of this invention. b'r network management interface opening, connection loop detection parameter- Setting ler'i'i'i is a loopback detection function of a kernel change disk activation and, respectively, my first level detection message, all downlink portlan and all service disks' time dim porting, kernel replacement disk send via /ports or :ann porttirdii back H.

Claims (1)

REQUESTS . It is a method for detecting the link loopback of a PON system, characterized in that it includes the following steps: step 10: activating the loopback detection function of a kernel replacement disk and the timeslot of all downlink ports and service disks of first level detection messages, respectively. to ports via kernel replacement disk; step 20: execution step (40) if the first level detection messages returned from the core swap disk, other downlink ports or timeslot ports are received within the current time period; otherwise allowing it to determine the execution step (30); step 30: acknowledgment that no link loopback is present in the PON system or that links have been destroyed, and notify maintenance personnel about the end of detection; step 40: assuming that link loopback exists between these downlink ports, between downlink ports and timeslot ports, or between all timezone ports, between downlink ports and timeslot ports, or all timezone ports execution step (50), in case of connection loopback between step 50: enabling the loopback detection functions of the service cards, allowing each service card to send a second level detection message to a designed ONU in turn, the second level detection message at least the ONU permission number of the designed ONU and the service sending the second level detection message contains the card's time zone number; step 60: determining whether each service card has received the returned second level detection message, if not, indicating that no connection loopback exists between that service card and the designed ONU or destroyed connections, then terminating detection; otherwise correctly positioning the engineered ONU that creates the service card and link loopback according to the ONU permission count and time slot count of the service carried in the second level detection message. It is a method according to claim 1, its feature is; It is characterized by the fact that the Ethernet type in the first level detection messages is set by a user. It is a method according to claim 1, its feature is; It is characterized by recording loopback detection information and generating warning information after the connection loopback is determined. It is a method according to claim 1, its feature is; in step 50, the second level detection messages can be sent in a state of omission, a designed vlan contract mode, or a return mode. It is a method according to claim 4, and its feature is; The neglect contract mode refers to the sending of second-level detection messages based on a neglect vlan, the designed vlan contract mode refers to the sending of second-level detection messages based on the user-selected vlan, and the return mode is from the first vlan if the service vlan is not understood in the PON system. It is characterized in that it refers to the successful sending of second-level detection messages to the last VLAN. A device 20 for detecting the link loopback of a PON system, characterized in that it contains the following elements: activating a loopback detection function of a core replacement disk and the timing of all downlink ports and all service disks through the core swap disk, respectively. a first activation unit (201) for sending first level detection messages to the slot ports; the core swap disk determines whether first level detection messages returned from other downlink ports or timeslot ports have been received within the preset time, if received, a second acknowledgment unit (204) is executed, otherwise a first acknowledgment unit (203) a first determination unit (202) for enabling its execution; a first validation unit (203) for confirming that no link loopback is present on the PON system or destroyed links, and informing maintenance personnel about the end of detection; confirming that link loopback exists between these downlink ports, between downlink ports and timeslot ports, or between all timeslot ports, link loopback exists between downlink ports and timeslot ports, or between all timezone ports a second validation unit (204) for executing a second activating unit (205) in the case of case; a second activation unit 205 to activate the loopback detection functions of the service cards, each of the service cards to allow each of the service cards to send a second-level detection message to the designed ONU in turn, the second-level detection message to at least the ONU permission number of the designed ONU, and the second contains the time slot number of the service card sending the level detection message; determining whether each service card has received the returned second-level detection message, and if not, indicating that no connection loopback exists between that service card and the designed ONU or destroyed connections, then terminating detection; Otherwise, it is the device according to Claim 6 for correctly placing the service card and the designed ONU forming the loopback according to the ONU permission number and time slot number of the service card carried in the second level detection message. It is characterized by the fact that the Ethernet type in the first level detection messages is set by a user. It is a device according to claim 6 and its feature is; it is also characterized in that it contains a recording unit for recording the loopback information and creating the warning information. It is a device according to claim 6 and its feature is; characterized in that in the second activation unit, second level detection messages can be sent in a state of omission, a designed vlan contract mode, or a return mode. It is a device according to claim 9, and its feature is; The neglect contract mode refers to the sending of second level detection messages based on a neglect vlan, the designed vlan contract mode refers to the sending of second level detection messages based on the vlan selected by the user, and the return mode is the first vlan if the service vlan is not understood in the PON system It is characterized in that it refers to the successful sending of second level detection messages from 'to the last vlan'.