KR20200101050A - Ring network device and a method for checking communication port information and status the same - Google Patents

Abstract

Disclosed are a ring network device and a method for checking communication port information and a communication status of the ring network device. According to an embodiment of the present invention, in a ring network device, a plurality of root switching modules transmit and receive bridge protocol data units (BPDUs) for rapid spanning tree protocol (RSTP) to form a ring network, wherein each root switching module sets a communication path of communication lines connected to itself. In the process of setting the communication path, since each set or converted communication port information and the communication status information of each communication port are displayed in a method of lighting a plurality of LEDs, the ring network device constituting the ring network may support to check information such as status information and types of communication ports through the plurality of LEDs for each root switching module.

Description

RING NETWORK DEVICE AND A METHOD FOR CHECKING COMMUNICATION PORT INFORMATION AND STATUS THE SAME}

The present invention relates to a ring network device and a method for checking communication port information and communication status of a ring network device.

In industrial communication using Ethernet, ring networks are often used for redundancy of communication lines. In such an Ethernet ring network, a plurality of L2 switches that process packets based on a MAC address (Media Access Control Address) are connected to form a loop.

In an Ethernet ring network, a multicast packet or a broadcast packet continuously traverses the loop.When each packet is continuously copied to the L2 switch, the full bandwidth of the ring network This occupied problem (for example, Broadcast Storm) used to occur.

In order to solve this problem, the Rapid Spanning Tree Protocol (RSTP) was developed, which enables fast recovery and blocking of looping.

Hereinafter, referring to FIGS. 1 and 2, a process of selecting a root switching module of a ring network device to which RSTP is applied, and a method of checking communication port status and port information of the root switching module will be described as follows. Here, the switching module may mean a node switching module that switches the communication route of the ring network device.

1 is a schematic diagram illustrating a process of selecting a root switching module of a ring network device to which RSTP is applied. In addition, FIG. 2 is a screen showing a method of checking a communication port state and port information of a route switching module.

Referring to FIG. 1, when a plurality of switching modules N1 to N(n) are turned on, each of the switching modules N1 to N(n) is ) Regards itself as a root node, and transmits a Bridge Protocol Data Unit (BPDU) for RSTP through each port. Here, n is a natural number of 1 or more.

For example, the first switching module (N1) of the ring network device transmits the RSTP BPDU to the second switching module (N2) through the first port (P1), and the n-th switching through the second port (P2). It is possible to receive the RSTP BPDU from the module (N(n)). Here, the BPDU for RSTP includes a root vector value, and the root vector includes a 16-bit integer value called Bridge Priority and a MAC address of each node.

Accordingly, each switching module (N1 to N(n)) is routed to a value that is a combination of the bridge priority value set in each switching module (N1 to N(n)) and its own MAC address when turned on. As a vector, the RSTP BPDU is transmitted.

Thereafter, each switching module (N1 ~ N(n)), if the root vector value of the RSTP BPDU received from the adjacent switching module is less than the root vector value of the RSTP BPDU, The root vector value is replaced, and the RSTP BPDU is transmitted every specific time (for example, Hello Time).

On the other hand, each switching module (N1 to N(n)) uses its own root vector value as it is if the root vector value of the RSTP BPDU received from the adjacent node is greater than or equal to its own root vector value.

When this process is repeated, the root vector value of the node with the smallest root vector value is finally used as the root vector value of each root switching module (N1 ~ N(n)), and the corresponding node is selected as the root node to operate. do.

Through the above process, for example, when the first switching module N1 is elected as the root node, each switching module N1 to N(n) is connected to the links (ie, communication lines) connected to it. For this, the shortest path to the root node is substituted, and the communication line of the shortest path is set as the root path. In addition, the port to which the link is connected may be set as a root port. In addition, the remaining ports may be set as Designated Ports. That is, since each of the root switching modules N1 to N(n) has two ports P1 and P2, each of the ports P1 and P2 may be set as a root port or a digital port. .

As described above, in the ring network device, when any one switching module is set as the highest node, the ring network device may be simplified into a structure such as a ring shape or a tree shape as shown in FIG. 1.

Each port (P1, P2) provided in each switching module (N1 to N(n)) is configured as a root port or a designated port, and BPDU for RSTP at a specific time (for example, hello time) Is transmitted or received periodically.

In order to check the types of ports (P1, P2) of each of these switching modules (N1 to N(n)) and the port status, it was possible to check by using a console application of the monitoring computer 100.

Referring to FIG. 2, in order to check the type of port (P1, P2) and communication status of each switching module (N1 to N(n)) in the related art, an administrator directly inputs a command to the console program and each switching module ( Each port (P1, P2) had to scan and check the communication status and port type for each N1 ~ N(n)).

Therefore, in the prior art, in order to find a root port, a designed port, a blocked port, etc. for each port (P1, P2) of each switching module (N1 ~ N(n)), it is necessary to scan and check all ports with a console program. There was a cumbersome problem.

The present invention is to solve the above problems, and the ring network device and the ring network device capable of supporting to check communication port information and communication status through a plurality of LEDs for each route switching module of the ring network device forming the ring network. It aims to provide communication port information and a method of checking communication status.

The objects of the present invention are not limited to the above-mentioned objects, and other objects and advantages of the present invention that are not mentioned can be understood by the following description, and will be more clearly understood by examples of the present invention. In addition, it will be easily understood that the objects and advantages of the present invention can be realized by the means shown in the claims and combinations thereof.

In the ring network device according to an embodiment of the present invention for achieving the above object, a plurality of route switching modules transmit and receive RSTP BPDUs to form a ring network, and each route switching module communicates with communication lines connected to it. In the process of setting the path and setting the communication path, each communication port information set or converted and communication status information of each communication port are displayed in a plurality of LED lighting methods.

Each communication port configured in each route switching module according to an example is set or changed to any one of a root port, a designed port, and a blocked port during the route setting process of communication lines, and is in a discounted state, It is set or changed to any one of a running state and a forwarding state, and each route switching module changes and displays a plurality of LED light emission methods according to setting and changing state information and type information of each communication port.

Each route switching module according to an example sets a route route for communication lines connected to it, and determines status information and type information of each of the first and second communication ports that are set or changed in the process of setting the route route. And an LED control unit for controlling light emission or off of the first and second LEDs according to state information and type information of each of the first and second communication ports.

The port communication detection unit according to an example determines that each type of each of the first and second communication ports is a root port, and if it is determined that all of the types of the first and second communication ports are maintained in a forwarding state, the first and second communication ports 2 When the route port type information and forwarding status information for the communication port are transmitted to the LED control unit, and the LED control unit receives the same forwarding status information and route port type information for each of the first and second communication ports, the Both the first and second LEDs emit red light.

The port communication detection unit according to an example determines that the type of the first communication port is a designed port, the second communication port is determined as a root port, and the first and second communication ports When it is confirmed that is in the forwarding state, the route port type information and forwarding state information for the first and second communication ports that are confirmed and determined are transmitted to the LED control unit in real time, and the LED control unit is configured to each of the first and second communication ports According to the forwarding status information for and the type of the digital port of the first communication port, the second LED is kept red, but the first LED is changed to green to emit light.

The port communication detection unit according to an example determines that the type of the first communication port is a root port, but the second communication port is determined as a designed port, and the first and second communication ports are When it is confirmed that the forwarding state is maintained, the port type information and forwarding state information for each of the first and second communication ports are transmitted to the LED control unit in real time, and the LED control unit is used for the first and second communication ports. According to the forwarding status information and the designed port information of the second communication port, the first LED is red and the second LED is green, respectively.

The port communication detection unit according to an example determines that the type of the first communication port is a designed port, the second communication port is determined to be a blocked port, and the first and second communication When it is determined that the port is in the Discarding state, the root port type information and forwarding state information for the first and second communication ports are transmitted to the LED control unit in real time, and the LED control unit is used for the first and second communication ports. Although each is determined to be in a discounted state, unlike the type of the designed port of the first communication port, when the second communication port is determined to be a blocked port, the first LED illuminates in green. But turn off the second LED.

The port communication detection unit according to an example determines that the type of the first communication port is a blocked port, and the second communication port is determined as a designed port, and the first and second communication ports When it is confirmed that all of are in the Discarding state, route port type information and forwarding state information for the first and second communication ports are transmitted to the LED control unit in real time, and the LED control unit is used for the first and second communication ports. Although each is determined to be in the discounting state, only the second LED is illuminated in green, but the first LED is turned off according to the type of the blocked port of the first communication port and the designated port determination information of the second communication port. Let it.

In addition, a method for checking communication port information and status of a ring network device according to an embodiment of the present invention for achieving the above object is a method of a ring network device constituting a ring network by transmitting and receiving a BPDU for RSTP. In the method of checking communication port information and communication status, each route switching module sets a communication path of communication lines connected to it, and each route switching module set or converted in a process of setting a communication path. And displaying communication port information and communication status information of each communication port in a plurality of LED light-emitting methods.

In the step of changing the status information and communication port information of each communication port according to an example, in the process of setting the path of the communication lines, the port is set or changed to any one type of a root port, a designated port, and a blocked port, and discounting Including the step of setting or changing to any one of a state, a running state, and a forwarding state, and the step of displaying the communication state information of each communication port in a plurality of LED lighting methods includes state information and type of each communication port. According to information setting and change, a plurality of LED emission methods are changed and displayed.

In the step of displaying the communication status information of each communication port in a light-emitting manner of a plurality of LEDs according to an example, the port communication detection unit sets a route path for communication lines connected to itself, and is set in the process of setting the route route. Or determining state information and type information of each of the first and second communication ports to be changed, and the first and second LEDs according to the state information and type information of each of the first and second communication ports in the LED control unit. And controlling light emission or off.

In the step of determining status information and type information of each of the first and second communication ports according to an example, all types of each of the first and second communication ports are determined to be root ports, and both are forwarded ( Forwarding) state is determined to be maintained, transmitting root port type information and forwarding state information for the first and second communication ports to the LED control unit, and controlling the emission or off of the first and second LEDs When the forwarding status information and the root port type information for each of the first and second communication ports are received in the same manner, both the first and second LEDs light up red.

In determining the state information and type information of each of the first and second communication ports according to an example, the type of the first communication port is determined as a designed port, and the second communication port is a root port ( Root Port), and if it is confirmed that the first and second communication ports are in the forwarding state, the confirmed and determined root port type information and forwarding state information for the first and second communication ports are sent to the LED control unit in real time. To transfer.

The controlling of light emission or off of the first and second LEDs according to an example includes forwarding status information for each of the first and second communication ports and the second LED according to the type of the designated port of the first communication port. Keep it red, but change the first LED to green to emit light.

In the step of determining the state information and type information of each of the first and second communication ports according to an example, the type of the first communication port is determined as a root port, but the second communication port is a digital port ( Designated Port), and if it is confirmed that the first and second communication ports are maintained in a forwarding state, the LED control unit displays port type information and forwarding state information for each of the first and second communication ports. The first and second LEDs are transmitted in real time and controlled to emit or turn off the first and second LEDs according to the forwarding status information for each of the first and second communication ports and the digital port information of the second communication port. The LED emits red and the second LED emits green, respectively.

In the step of determining status information and type information of each of the first and second communication ports according to an example, the type of the first communication port is determined as a designed port, and the second communication port is a blockkid port. When it is determined as (Blocked Port) and it is determined that the first and second communication ports are in Discarding state, route port type information and forwarding state information for the first and second communication ports are transmitted to the LED control unit. In the step of transmitting in real time and controlling the light emission or off of the first and second LEDs, while each of the first and second communication ports is determined to be in a discounted state, unlike the type of the digital port of the first communication port, 2 When it is determined that the communication port is a blocked port, the first LED emits green but the second LED is turned off.

In the step of determining status information and type information of each of the first and second communication ports according to an example, the type of the first communication port is determined as a blocked port, and the second communication port is a digital port. If it is determined as (Designated Port), and it is determined that both the first and second communication ports are in Discarding state, route port type information and forwarding state information for the first and second communication ports are sent to the LED control unit. The step of transmitting in real time and controlling the light emission or off of the first and second LEDs is performed while determining that each of the first and second communication ports is in a discounted state, and the type of the blockkidd port of the first communication port and the second communication According to the digital port determination information of the port, only the second LED is illuminated in green, but the first LED is turned off.

As described above, according to the present invention, a ring network device constituting a ring network can support to check information such as status information and types of communication ports through a plurality of LEDs for each route switching module. Accordingly, a user or an administrator of the ring network device can immediately visually check communication port information and communication status for each route switching module without using a separate application program, thereby increasing management efficiency and convenience.

In particular, since a user or an administrator can easily check information such as status information and port type of communication ports through a plurality of LEDs, it is possible to expect effects such as time savings in research and development and reduction of test environments.

In addition, when a failure occurs in a communication line in a ring network network formed through the route switching modules, it is easier and faster to visually check that normal communication is restored by switching to a spare line.

1 is a schematic diagram illustrating a process of selecting a root switching module of a ring network device to which RSTP is applied.
2 is a diagram showing a communication port status and port information confirmation screen of a route switching module.
3 is a schematic diagram showing an arrangement configuration of a ring network device to which RSTP is applied and its root switching modules according to an embodiment of the present invention.
FIG. 4 is a block diagram showing a detailed configuration of any one route switching module shown in FIG. 3.
5 is a diagram illustrating a communication port state and a method of checking port information of the route switching module shown in FIG. 4.
6 is another diagram for explaining a communication port state and a method of checking port information of the route switching module shown in FIG. 5.
FIG. 7 is another diagram illustrating a communication port state and a method of checking port information of the route switching module illustrated in FIG. 6.
FIG. 8 is another diagram illustrating a communication port state and a method of checking port information of the route switching module shown in FIG. 4.
9 is another diagram for explaining a communication port state and a method of checking port information of the route switching module shown in FIG. 8.

The above-described objects, features, and advantages will be described later in detail with reference to the accompanying drawings, and accordingly, one of ordinary skill in the art to which the present invention pertains will be able to easily implement the technical idea of the present invention. In describing the present invention, if it is determined that a detailed description of known technologies related to the present invention may unnecessarily obscure the subject matter of the present invention, a detailed description will be omitted. Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to indicate the same or similar elements.

Hereinafter, a ring network device according to an embodiment of the present invention and a method of checking communication port information and a communication state of the ring network device according to an embodiment of the present invention will be described with reference to FIGS. 3 to 9.

3 is a schematic diagram showing an arrangement configuration of a ring network device to which RSTP is applied and its root switching modules according to an embodiment of the present invention.

Referring to FIG. 3, in the ring network device according to the present invention, a plurality of root switching modules SM1 to SMn are configured to transmit and receive a Bridge Protocol Data Unit (BPDU) for a Rapid Spanning Tree Protocol (RSTP) to form a ring network. Here, n is a natural number of 1 or more.

Specifically, when all of the root switching modules SM1 to SMn of the ring network device are turned on, each of the root switching modules SM1 to SMn regards itself as a root node, And transmits and receives BPDUs through the second communication ports P1 and P2.

For example, the first route switching module SM1 of the ring network device transmits the BPDU to the second route switching module SM2 through the first port P1, and the n-th route through the second port P2. The BPDU may be received from the switching module SMn. Here, the BPDU includes a root vector value, and the root vector includes a 16-bit integer value called Bridge Priority and a MAC address of each node.

Accordingly, each root switching module (SM1 to SMn) uses a combination of the bridge priority value set in each root switching module (SM1 to SMn) and its own MAC address as a root vector at turn-on. , BPDU is transmitted, and each route switching module (SM1 ~ SMn) uses the root vector value of the received BPDU if the root vector value of the BPDU received through the adjacent route switching module is less than its own root vector value. It replaces its own root vector value, and transmits a BPDU at a predetermined specific time (eg, Hello Time).

On the other hand, each of the root switching modules SM1 to SMn uses its own root vector value as it is if the root vector value of the BPDU received from the adjacent node is greater than or equal to its own root vector value.

When this process is repeated, the root vector value of the node with the smallest root vector value is finally used as the root vector value of each of the root switching modules SM1 to SMn, and the corresponding node is selected as the root node and operates.

Through the above process, each of the root switching modules SM1 to SMn substitutes the shortest path connected to the root node for the communication lines connected to it, and the communication line of the shortest path is used as the root path. Set. In addition, a port to which a corresponding communication line is connected may be set as a root port. In addition, the remaining ports may be set as Designated Ports. That is, each route switching module (SM1 to SMn) has two first and second communication ports (P1, P2), and each of the first and second communication ports (P1, P2) is a root port or digital Each can be set to a gnated port or the like.

According to RSTP, the types of the first and second communication ports (P1, P2) of each root switching module (SM1 to SMn) are largely a root port, a designed port, or a block kid port ( Blocked Port). Specifically, the root port is the only port through which data frames are transmitted from a specific root switching module to at least one other root switch module. In the case of a digital port, a data frame is transmitted from a specific segment to at least one other root switch module. On the other hand, in the case of a blocked port, a port in which communication is not performed except for a root port and a digital port.

On the other hand, the state of the communication ports (P1, P2) of each route switching module (SM1 to SMn) set by RSTP is largely set and changed to a Discarding state, a Learning state, or a Forwarding state. It is possible. Specifically, the discounting state is a state in which storage and learning of the MAC address is impossible, and transmission of various packets or data is impossible. In the running state, the MAC address can be stored and learned, but data transmission is impossible. On the other hand, in the forwarding state, the MAC address can be stored and learned, and various packets or data can be transmitted.

Each of the root switching modules SM1 to SMn according to the present invention sets a communication path, that is, a root path, as the shortest path for communication lines connected to it. In addition, information on each of the communication ports P1 and P2 that are set or converted during the path setting of the communication lines and communication status information are displayed in a plurality of LED light-emitting methods.

Specifically, each of the first and second communication ports P1 and P2 configured in each of the root switching modules SM1 to SMn is one of a root port, a digital port, and a blocked port in the path setting process of the communication lines. It can be set and changed by type of port. In addition, each of the first and second communication ports P1 and P2 configured in each of the root switching modules SM1 to SMn may be set and changed to any one of a discounting state, a running state, and a forwarding state. .

Accordingly, each of the root switching modules SM1 to SMn changes and displays a plurality of LED light emission methods according to setting and changing state information and type information of each of the first and second communication ports P1 and P2.

FIG. 4 is a block diagram showing a detailed configuration of any one route switching module shown in FIG. 3.

Any one route switching module shown in FIG. 4, for example, the first route switching module SM1, includes first and second communication ports P1 and P2 configured on at least one printed circuit board (PCB), etc. ), a port communication detection unit (CS), first and second LEDs (1_LED, 2_LED), and an LED control unit (COL).

Specifically, the port communication detection unit CS performs a root path for communication lines connected to itself through the first and second communication ports P1 and P2. In addition, status information and type information of each of the first and second communication ports P1 and P2 that are set or changed in the process of setting the route path are checked and determined in real time. The status information and type information of each of the first and second communication ports P1 and P2 that have been checked and determined are transmitted to the LED control unit COL. Although only the first and second communication ports P1 and P2 are illustrated in FIG. 4 and the like, the number of communication ports is not limited to the number displayed in this exemplary embodiment. In addition, the port communication detection unit CS may be configured to include at least one microprocessor, such as a microcontroller unit (MCU).

It is preferable that the first and second LEDs 1_LED and 2_LED are composed of two-color LEDs to display the same color or different colors, respectively. For example, in the present invention, the first and second LEDs (1_LED, 2_LED) are turned off according to the control of the LED control unit (COL), or when turned on, the first and second LEDs (1_LED, 2_LED) are controlled by the LED control unit (COL). Each may be composed of LEDs that display a color (eg, green) or a second color (eg, red). Likewise, only the first and second LEDs (1_LED, 2_LED) are shown in FIG. 4, but the number of LEDs can be changed differently according to the number of communication ports, and the number of these LEDs is the number of displays in one embodiment. Not limited.

The LED control unit COL receives status information and type information of each of the first and second communication ports P1 and P2 from the port communication detection unit CS. In addition, light emission or off of the first and second LEDs 1_LED and 2_LED is controlled according to the received state information and type information of each of the first and second communication ports P1 and P2. The LED control unit (COL) may also include at least one microprocessor and an ADC circuit for controlling light emission of the first and second LEDs (1_LED, 2_LED).

5 is a diagram illustrating a communication port state and a method of checking port information of the route switching module shown in FIG. 4.

Referring to FIG. 5, the port communication detection unit CS provided in each of the root switching modules SM1 to SMn is turned on and starts operation of each of the first And sets and changes a root path for communication lines connected to the communication lines through the second communication ports P1 and P2.

Referring to Table 1 below, each port communication detection unit CS stores status information and type information of each of the first and second communication ports P1 and P2 that are set or changed in the process of setting the route path. Check and judge in real time.

[Table 1]

Specifically, the port communication detection unit CS determines whether each of the first and second communication ports P1 and P2 is set and changed to any one type of a root port, a digital port, and a blocked port. Check and judge in real time.

In addition, it is checked and determined in real time whether each of the first and second communication ports P1 and P2 is set or changed to any one of a discounting state, a running state, and a forwarding state.

For example, the port communication detection unit CS determines that the types of each of the first and second communication ports P1 and P2 are all root ports, and maintains a forwarding state. If it is determined that, the root port type information and forwarding status information for the first and second communication ports P1 and P2 are transmitted to the LED control unit COL.

The LED control unit (COL) receives the same forwarding status information and route port type information for each of the first and second communication ports (P1, P2) from the port communication detection unit (CS), the first and second LEDs Make all (1_LED,2_LED) light in red.

The user or the administrator has the same type of the first and second communication ports (P1, P2) when both the first and second LEDs (1_LED, 2_LED) configured in the root switching module (SM1) emit red, and both are It can be determined and confirmed as maintaining the forwarding state.

6 is another diagram for explaining a communication port state and a method of checking port information of the route switching module shown in FIG. 5.

Referring to Table 1 above together with FIG. 6, the port communication detection unit CS of each route switching module (SM1 to SMn) sets and changes route paths for communication lines in real time, and sets and changes the route route. In the process of changing, status information and type information of each of the first and second communication ports P1 and P2 that are changed are checked and determined in real time.

Similarly, the port communication detection unit CS determines whether each of the first and second communication ports (P1, P2) is set or changed to any one type of root port, digital port, and blocked port in real time. To confirm. In addition, it is also checked in real time whether each of the first and second communication ports P1 and P2 is set and changed to any one of a discounting state, a running state, and a forwarding state.

As an example, the port communication detection unit CS determines that the type of the first communication port P1 has been changed to a designed port, but the second communication port P2 refers to a root port. In addition to the determination as to maintain, if it is confirmed that the first and second communication ports (P1, P2) are maintained in the forwarding state, the first and second communication ports (P1, P2) at this time are It transmits information about the type of route port and forwarding status information to the LED control unit (COL) in real time.

The LED control unit (COL) maintains the forwarding status information for each of the first and second communication ports (P1, P2) from the port communication detection unit (CS), but only the first communication port (P1) is not a root port. If it is determined that it is a designed port, the second LED (2_LED) remains red, but the first LED (1_LED) changes to green to emit light.

When the user or the administrator changes the first and second LEDs (1_LED, 2_LED) configured in the root switching module (SM1) to green and red differently to emit light, only the first communication port (P1) is not a root port, but is digital. It has been changed to a port, and it can be determined and confirmed that all are maintaining the forwarding state. In this way, when only the first communication port (P1) is changed to a digital port other than the root port, but the first and second communication ports (P1, P2) maintain the mode forward state, the user or the administrator It can be seen that BPDUs are being delivered in one direction (forward direction).

FIG. 7 is another diagram illustrating a communication port state and a method of checking port information of the route switching module illustrated in FIG. 6.

Referring to Table 1 above along with FIG. 7, the port communication detection unit CS of each route switching module SM1 to SMn includes the first and second changes in the process of setting the route paths for communication lines in real time. 2 Check and judge status information and type information of each communication port (P1, P2) in real time.

For example, the port communication detection unit CS determines that the type of the first communication port P1 maintains a root port, but the second communication port P2 is a designed port. If it is determined that it has been changed to and it is confirmed that the first and second communication ports (P1, P2) are maintained in a forwarding state, the route to the first and second communication ports (P1, P2) at this time It transmits port type information and forwarding status information to the LED control unit (COL) in real time.

The LED control unit (COL) maintains the forwarding status information for each of the first and second communication ports (P1, P2) from the port communication detection unit (CS), but only the second communication port (P2) is not a root port. If it is determined that it is a designed port, the first LED (1_LED) remains red, but the second LED (2_LED) turns green to emit light.

When the user or the administrator changes the first and second LEDs (1_LED, 2_LED) configured in the root switching module (SM1) to red and green differently to emit light, only the second communication port (P2) is not a root port, but is digitalized. It has been changed to a port, and it can be determined and confirmed that all are maintaining the forwarding state. In this way, when only the second communication port (P2) is changed to a digital port other than the root port, but the first and second communication ports (P1, P2) maintain the mode forward state, the user or the administrator It can be seen that the BPDU is being delivered in the (reverse direction).

FIG. 8 is another diagram illustrating a communication port state and a method of checking port information of the route switching module shown in FIG. 4.

Referring to Table 1 above together with FIG. 8, the port communication detection unit CS of each route switching module SM1 to SMn includes the first and second changes in the process of setting the route paths for communication lines in real time. 2 Check and judge status information and type information of each communication port (P1, P2) in real time.

Similarly, the port communication detection unit CS determines whether each of the first and second communication ports (P1, P2) is set or changed to any one type of root port, digital port, and blocked port in real time. To confirm. In addition, it is also checked in real time whether each of the first and second communication ports P1 and P2 is set and changed to any one of a discounting state, a running state, and a forwarding state.

For example, the port communication detection unit CS determines that the type of the first communication port P1 is a designed port, but the second communication port P2 is determined as a blocked port. In addition, if it is confirmed that both the first and second communication ports (P1, P2) are changed to the Discarding state, the root port type information for the first and second communication ports (P1, P2) at this time and It transmits forwarding status information to the LED control unit (COL) in real time.

The LED control unit (COL) is a designed port of the first communication port (P1), while each of the first and second communication ports (P1, P2) is determined to be in a discount state from the port communication detection unit (CS). ) Unlike the type, when the second communication ports (P1, P2) are determined to be blocked ports, the first LED (1_LED) emits green but the second LED (2_LED) is turned off. .

When the user or the administrator turns off the first LED (1_LED) configured in the root switching module (SM1) in green but only the second LED (2_LED) is off, the first communication port (P1) is a designed port. Port) type, and it can be determined that the second communication ports P1 and P2 have been changed to Blocked Ports. In addition, it can be confirmed that each of the first and second communication ports P1 and P2 is in a discounting state, and that BPDUs are transmitted or received in a preset first direction (forward direction).

9 is another diagram for explaining a communication port state and a method of checking port information of the route switching module shown in FIG. 8.

Referring to Table 1 above along with FIG. 9, the port communication detection unit CS of each route switching module SM1 to SMn includes the first and second changes in the process of setting the route paths for communication lines in real time. 2 Check and judge status information and type information of each communication port (P1, P2) in real time.

Similarly, the port communication detection unit CS determines whether each of the first and second communication ports (P1, P2) is set or changed to any one type of root port, digital port, and blocked port in real time. To confirm. In addition, it is also checked in real time whether each of the first and second communication ports P1 and P2 is set and changed to any one of a discounting state, a running state, and a forwarding state.

For example, the port communication detection unit CS determines that the type of the first communication port P1 is a blocked port, while the second communication port P2 is determined as a designed port. If it is confirmed that both the first and second communication ports (P1, P2) are in the Discarding state, the root port type information and forwarding state of the first and second communication ports (P1, P2) at this time It transmits information to the LED control unit (COL) in real time.

The LED control unit (COL) is a blocked port of the first communication port (P1), while each of the first and second communication ports (P1, P2) is determined to be in a discount state from the port communication detection unit (CS). Unlike the type, when it is determined that the second communication ports P1 and P2 are designed ports, only the second LED (2_LED) emits green, but the first LED (1_LED) is turned off. .

If the user or administrator turns off the first LED (1_LED) configured in the root switching module (SM1) and only the second LED (2_LED) lights green, the first communication port (P1) is a Blocked Port type. It has been changed, and it can be determined that the second communication ports P1 and P2 are maintained as designed ports. In addition, it is possible to confirm that each of the first and second communication ports P1 and P2 is in a discounting state, and that BPDUs are transmitted or received in a preset second direction (reverse direction).

As described above, according to the present invention, it is possible to support to check information such as status information and types of communication ports through a plurality of LEDs for each route switching module of a ring network device constituting a ring network. Accordingly, a user or an administrator of the ring network device can immediately visually check communication port information and communication status for each route switching module without using a separate application program, thereby increasing management efficiency and convenience.

In particular, since a user or an administrator can check information such as status information and types of communication ports through a plurality of LEDs, effects such as time savings in research and development and reduction of test environments can be expected.

In addition, when a failure occurs in a communication line in a ring network network formed through the route switching modules, it is easier and faster to visually check that normal communication is restored by switching to a spare line.

The above-described present invention is capable of various substitutions, modifications, and changes without departing from the technical spirit of the present invention for those of ordinary skill in the technical field to which the present invention belongs. Is not limited by

SM1 to SMn: multiple root switching modules
P1, P2: first and second communication ports
CS: Port communication detector
1_LED,2_LED: first and second LEDs
COL: LED control

Claims (16)

In a ring network device in which a plurality of route switching modules transmit and receive RSTP BPDUs to form a ring network,
Each of the above route switching modules
Setting communication paths of communication lines connected to the user, and displaying information on each communication port set or converted in the process of setting the communication path and communication status information of each communication port in a plurality of LED lighting methods,
Ring network device.
The method of claim 1,
Each communication port configured in each of the route switching modules is
In the route setting process of the communication lines, the port is set or changed to any one of a root port, a digital port, and a blocked port, and is set to any one of a discounting state, a running state, and a forwarding state. Or being changed,
Each of the above route switching modules
Changing and displaying a plurality of LED lighting methods according to the setting and change of status information and type information of each of the communication ports,
Ring network device.
The method of claim 1,
Each of the above route switching modules
A port communication detector configured to set a route path for communication lines connected to the user and determine status information and type information of each of the first and second communication ports set or changed in the process of setting the route route; And
Including an LED control unit for controlling the emission or off of the first and second LEDs according to the state information and type information of each of the first and second communication ports,
Ring network device.
The method of claim 3,
The port communication detection unit
When it is determined that each type of each of the first and second communication ports is determined to be a root port and all of them are in a forwarding state, the route to the first and second communication ports Transmit port type information and forwarding status information to the LED control unit,
The LED control unit illuminates both the first and second LEDs in red when the forwarding status information and the route port type information for each of the first and second communication ports are received identically,
Ring network device.
The method of claim 3,
The port communication detection unit
The type of the first communication port is determined as a designed port, the second communication port is determined as a root port, and the first and second communication ports are in a forwarding state. When it is confirmed, the route port type information and forwarding status information for the first and second communication ports that have been confirmed and determined are transmitted to the LED control unit in real time, and
The LED control unit maintains the second LED in red, but the first LED changes to green according to the forwarding status information for each of the first and second communication ports and the type of the digital port of the first communication port. To make it glow,
Ring network device.
The method of claim 3,
The port communication detection unit
The type of the first communication port is determined as a root port, but the second communication port is determined as a designed port, and the first and second communication ports are forwarded. When it is confirmed that the state is maintained, port type information and forwarding state information for each of the first and second communication ports are transmitted to the LED control unit in real time, and
According to the forwarding status information for each of the first and second communication ports and the designed port information of the second communication port, the LED control unit is configured to indicate that the first LED is red and the second LED is green. To emit light,
Ring network device.
The method of claim 3,
The port communication detection unit
The type of the first communication port is determined as a Designated Port, the second communication port is determined as a Blocked Port, and the first and second communication ports are discounted ( Discarding) state, transmits root port type information and forwarding state information for the first and second communication ports to the LED control unit in real time,
The LED control unit determines that each of the first and second communication ports is in a discounted state, but unlike the type of the designed port of the first communication port, the second communication port is a Blocked port. Port), the first LED emits green but the second LED is turned off,
Ring network device.
The method of claim 3,
The port communication detection unit
As the type of the first communication port is determined as a blocked port, the second communication port is determined as a designed port, and both the first and second communication ports are discounted ( Discarding) state, transmits root port type information and forwarding state information for the first and second communication ports to the LED control unit in real time,
Although the LED control unit determines that each of the first and second communication ports is in a discounting state, the LED control unit is configured according to the type of the blockkidd port of the first communication port and the Designated Port determination information of the second communication port. Only the second LED emits green, but the first LED is turned off,
Ring network device.
In the method for checking communication port information and communication status of a ring network device forming a ring network by a plurality of route switching modules transmitting and receiving BPDUs for RSTP,
Setting a communication path of communication lines connected to each of the root switching modules; And
Including the step of displaying each communication port information set or converted in the process of setting the communication path by each of the route switching modules and communication status information of each communication port in a plurality of LED lighting methods,
How to check the communication port information and communication status of the ring network device.
The method of claim 9,
The step of changing the status information and communication port information of each communication port,
In the route setting process of the communication lines, the port is set or changed to any one of a root port, a digital port, and a blocked port, and is set to any one of a discounting state, a running state, and a forwarding state. Or a step of changing,
Displaying the communication status information of each communication port in a plurality of LED light emission methods
Changing and displaying a plurality of LED lighting methods according to the setting and change of status information and type information of each of the communication ports,
How to check the communication port information and communication status of the ring network device.
The method of claim 9,
Displaying the communication status information of each communication port in a plurality of LED light emission methods
Setting a route path for communication lines connected to the port communication detection unit, and determining state information and type information of each of the first and second communication ports set or changed in the process of setting the route route; And
Including the step of controlling light emission or off of the first and second LEDs according to the state information and type information of each of the first and second communication ports in the LED control unit,
How to check the communication port information and communication status of the ring network device.
The method of claim 11,
The step of determining status information and type information of each of the first and second communication ports
When it is determined that each type of each of the first and second communication ports is determined to be a root port and all of them are in a forwarding state, the route to the first and second communication ports Transmit port type information and forwarding status information to the LED control unit,
The controlling of the light emission or off of the first and second LEDs is performed when the forwarding status information for each of the first and second communication ports and the root port type information are received in the same manner, both the first and second LEDs are turned off. Emitting red,
How to check the communication port information and communication status of the ring network device.
The method of claim 11,
The step of determining status information and type information of each of the first and second communication ports
The type of the first communication port is determined as a designed port, the second communication port is determined as a root port, and the first and second communication ports are in a forwarding state. When it is confirmed, the route port type information and forwarding status information for the first and second communication ports that have been confirmed and determined are transmitted to the LED control unit in real time, and
Controlling light emission or off of the first and second LEDs
According to the forwarding status information for each of the first and second communication ports and the type of the digital port of the first communication port, the second LED is kept red, but the first LED is changed to green to emit light,
How to check the communication port information and communication status of the ring network device.
The method of claim 11,
The step of determining status information and type information of each of the first and second communication ports
The type of the first communication port is determined as a root port, but the second communication port is determined as a designed port, and the first and second communication ports are forwarded. When it is confirmed that the state is maintained, port type information and forwarding state information for each of the first and second communication ports are transmitted to the LED control unit in real time, and
Controlling light emission or off of the first and second LEDs
According to the forwarding status information for each of the first and second communication ports and the digital port information of the second communication port, the first LED is red and the second LED is green, respectively,
How to check the communication port information and communication status of the ring network device.
The method of claim 11,
The step of determining status information and type information of each of the first and second communication ports
The type of the first communication port is determined as a Designated Port, the second communication port is determined as a Blocked Port, and the first and second communication ports are discounted ( Discarding) state, transmits root port type information and forwarding state information for the first and second communication ports to the LED control unit in real time,
Controlling light emission or off of the first and second LEDs
Although each of the first and second communication ports is determined to be in a discounted state, when the second communication port is determined to be a blocked port, unlike the type of the digital port of the first communication port, the first LED is It emits green but turns off the second LED,
How to check the communication port information and communication status of the ring network device.
The method of claim 11,
The step of determining status information and type information of each of the first and second communication ports
As the type of the first communication port is determined as a blocked port, the second communication port is determined as a designed port, and both the first and second communication ports are discounted ( Discarding) state, transmits root port type information and forwarding state information for the first and second communication ports to the LED control unit in real time,
Controlling light emission or off of the first and second LEDs
Although each of the first and second communication ports is determined to be in a discounted state, only the second LED is illuminated in green according to the type of the blocked keyed port of the first communication port and the digital port determination information of the second communication port. But the first LED is turned off,
How to check the communication port information and communication status of the ring network device.

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