JP6721186B2 - Communication control device, communication system, authentication method, and program - Google Patents

Description

The present disclosure relates to a communication control device, a communication system, an authentication method, and a program.

Patent Document 1 discloses an example of a method for exchanging authentication data between two wireless devices. In the method described in Patent Document 1, first, one wireless device lights a plurality of LEDs (light emitting diodes) included in the wireless device in an order associated with the authentication data of the device to be replaced. Then, the user is caused to perform a key operation according to the lighting and input information indicating the lighting order. This key operation is performed using an input key of a personal computer (PC) connected to the other wireless device. The input information is transmitted to the other wireless device, and is transmitted by the other wireless device to the one wireless device as the authentication data of the own device.

The one wireless device confirms whether or not the authentication data of the own wireless device and the information (the authentication data of the own device in the other wireless device) transmitted from the other wireless device match. Note that this confirmation can also be performed on the side of the other wireless device. In the method described in Patent Document 1, a simple framing is performed by exchanging authentication data in such a procedure, and then a regular authentication procedure is performed.

Patent Document 2 discloses a method of establishing a wireless connection by sharing authentication data between a transmitting device that wirelessly transmits digital data and a receiving device that wirelessly receives the data. In this method, first, the transmitting device blinks one LED provided in a predetermined blinking pattern corresponding to the authentication data. Then, the receiving device causes the user to input the information corresponding to the blinking pattern from the input switch provided, and transmits the information to the transmitting device. The transmitting device receives the above information from the receiving device, and when the above information corresponds to the blinking pattern, sets it as authentication data for wireless connection with the receiving device.

JP, 2009-089058, A JP, 2007-323339, A

However, in the technique described in Patent Document 1, the user visually checks the turned-on LED every time any one of the plurality of LEDs turns on, in order to input information indicating the turn-on order. It is necessary to perform the key operation according to the LED. Further, in the technique described in Patent Document 2, the user cannot confirm whether or not the input switch is accurately pressed while inputting the blinking pattern of the LED, the input fails, and the LED blinks repeatedly. It may be necessary to re-enter the pattern. As described above, in the techniques disclosed in Patent Documents 1 and 2, the user cannot easily input the authentication information while ensuring the security.

An object of the present disclosure is to solve the above-described problem, that is, a problem that a user cannot easily input authentication information while ensuring security for access from a terminal device, a communication control device, a communication system, and an authentication method. , And to provide a program.

A communication control device according to a first aspect of the present disclosure,
A plurality of display lamps, and a control unit that performs communication control in the communication control device and lighting control of the plurality of display lamps,
The control unit is
For the access request from the terminal device connected via the network, determine the lighting pattern of the plurality of display lamps,
While controlling the lighting of the plurality of display lamps according to the determined lighting pattern, the information input image for prompting the input of pattern information indicating the lighting pattern of the plurality of display lamps is displayed on the terminal device,
When the pattern information matching the determined lighting pattern is received from the terminal device, the authentication of the terminal device is successful.

The authentication method according to the second aspect of the present disclosure is
An authentication method executed by a communication control device having a plurality of display lamps, comprising:
In response to an access request from a terminal device connected to the communication control device via a network, a lighting pattern of the plurality of display lamps is determined,
While controlling the lighting of the plurality of display lamps according to the determined lighting pattern, the information input image for prompting the input of pattern information indicating the lighting pattern of the plurality of display lamps is displayed on the terminal device,
When the pattern information matching the determined lighting pattern is received from the terminal device, the authentication of the terminal device is successful.

The program according to the third aspect of the present disclosure is
A program for causing a communication control device having a plurality of display lamps to perform authentication processing,
The authentication process is
In response to an access request from a terminal device connected to the communication control device via a network, a lighting pattern of the plurality of display lamps is determined,
While controlling the lighting of the plurality of display lamps according to the determined lighting pattern, the information input image for prompting the input of pattern information indicating the lighting pattern of the plurality of display lamps is displayed on the terminal device,
When the pattern information matching the determined lighting pattern is received from the terminal device, the authentication of the terminal device is successful.
Processing.

According to the present disclosure, it is possible to provide a communication control device, a communication system, an authentication method, and a program that allow a user to easily input authentication information while ensuring security against access from a terminal device.

FIG. 3 is a block diagram showing a configuration example of a communication control device according to the first embodiment. 6 is a block diagram showing a configuration example of a router as an example of a communication control device according to a second embodiment. FIG. 9 is a block diagram showing a configuration example of a terminal device connected to the communication control device according to the second embodiment. FIG. FIG. 9 is a schematic diagram for explaining an example of an LED pattern authentication process executed in a communication system including a router according to the second embodiment. FIG. 9 is a schematic diagram for explaining an example of an LED pattern authentication process executed in a communication system including a router according to the second embodiment. FIG. 9 is a flowchart for explaining an example of an LED pattern authentication process executed in a communication system including a router according to the second embodiment. FIG. 9 is a schematic diagram for explaining an authentication process according to a comparative example for comparison with the LED pattern authentication process executed in the second embodiment. FIG. 10 is a flowchart for explaining an example of an LED pattern authentication process executed in the communication system according to the third embodiment. It is a figure which shows an example of the hardware constitutions of a communication control apparatus.

Hereinafter, embodiments will be described with reference to the drawings. In addition, in the embodiment, the same or equivalent elements are denoted by the same reference numerals, and overlapping description will be omitted.

<Embodiment 1>
FIG. 1 is a block diagram illustrating a configuration example of a communication control device according to the first embodiment.
The communication control device 1 according to the present embodiment is connected to a terminal device (not shown) via a network. This network may be a wired network such as a wired LAN (Local Area Network) or a wireless network such as a wireless LAN. A communication system can be configured by the communication control device 1 and this terminal device.

Examples of the communication control device 1 include an HGW (Home Gate Way) product having a router function and a gateway function. Note that this HGW product may be simply called a router. However, as the communication control device 1, various devices such as a router having no gateway function can be applied.

As illustrated in FIG. 1, the communication control device 1 according to the first embodiment includes n display lamps 11-1 to 11-n and a control unit 12. In the following description, each of the display lamps 11-1 to 11-n may be referred to as the display lamp 11 when the contents common to all of them are described. n is an integer of 2 or more. That is, the communication control device 1 has a plurality of display lamps 11. The indicator lamp 11 can have a light emitting diode (LED), but can also have other light emitting means.

The control unit 12 performs communication control in the communication control device 1 and lighting control of the n display lamps 11-1 to 11-n. Then, the control unit 12 performs the following process A in response to the access request from the terminal device connected via the network.

In the process A, first, the lighting patterns of the n display lamps 11-1 to 11-n are determined. This lighting pattern can be determined, for example, by generating it by random processing or by randomly selecting it from pre-stored patterns. The lighting pattern can be selected in a predetermined order from patterns stored in advance.

In the process A, next, the lighting of the n display lamps 11-1 to 11-n is controlled according to the determined lighting pattern, and the information input image is displayed on the terminal device. This information input image is an image that prompts the input of pattern information indicating the lighting pattern of the n display lamps 11-1 to 11-n.

In process A, if pattern information matching the determined lighting pattern is then received from the terminal device (that is, it is confirmed that pattern information matching the determined lighting pattern is input to the terminal device), Authentication of the terminal device is successful. Here, the successful authentication of the terminal device means that the authentication of the user who is using the terminal device has succeeded. The control unit 12 officially accepts access from the terminal device that has been successfully authenticated.

On the other hand, when pattern information that does not match the determined lighting pattern is transmitted from the terminal device, the control unit 12 determines that the authentication for the terminal device has failed, and rejects the access from the terminal device.

As described above, in the communication control device 1 according to the first embodiment, the control unit 12 responds to the access request from the terminal device by n display lamps 11-1 to 11- for authenticating the terminal device. The lighting pattern of n is determined, and control is performed so that lighting is performed in the lighting pattern. Therefore, security can be ensured for the number of combinations of the display lamps 11 indicated by the lighting pattern. In addition, in this communication control device 1, since the information input image is displayed on the terminal device to prompt the user to input the lighting pattern, the user can easily see the lighting pattern while viewing the lighting pattern (that is, authentication information). Can be entered. Therefore, according to the communication control device 1, the user can easily input the authentication information while ensuring the security against the access from the terminal device (the user can easily input the authentication information and complete the authentication). Will be possible.

<Embodiment 2>
<< configuration example >>
Regarding the second embodiment, various application examples described in the first embodiment will be applied, in which a router device (hereinafter, simply referred to as a router) is cited as an example of the communication control device, and differences from the first embodiment are mainly described. it can. FIG. 2 is a block diagram showing a configuration example of a router as an example of the communication control device according to the second embodiment, and FIG. 3 is a block diagram showing a configuration example of a terminal device connected to the communication control device. ..

The router 10 illustrated in FIG. 2 is an example of the communication control device according to the second embodiment, and includes five LEDs 11-1 to 11-5, a control unit 12, and a setting storage unit 13. Each of the LEDs 11-1 to 11-5 is an example of the display lamp 11 and may be referred to as an LED lamp. Of course, the number of LEDs provided in the router 10 is not limited to five, and a plurality of LEDs may be provided.

Further, each of the LEDs 11-1 to 11-5 can be a status display lamp that displays a status of communication control in the router 10 (operation status indicating communication operation). Further, at least one of the LEDs 11-1 to 11-5 may be a status display lamp that displays another operating status (power status, etc.) of the router 10. By performing the processing A using the LED provided as the status display lamp, it is not necessary to separately provide the display lamp used for the authentication. The status display lamp can also be called an indicator lamp.

Here, the status display lamp for displaying the status of communication control will be briefly described. When the router 10 is configured to be capable of communicating with a WAN (Wide Area Network) side, 2.4 GHz band Wi-Fi (registered trademark; the same applies hereinafter) communication, and 5 GHz band Wi-Fi communication Take as an example. As one of such status display lamps, there is a display lamp for displaying the link establishment state with the WAN side and the operation mode (for example,) of the router 10 such as whether an IP (Internet Protocol) address is set. .. The operation mode refers to, for example, a PPPoE (Point-to-Point Protocol over Ethernet) router mode, a local router mode, a bridge mode, or the like. Further, as the status display lamp as described above, a display lamp indicating whether or not Wi-Fi communication in the 2.4 GHz band is established, and indicating whether or not Wi-Fi communication in the 5 GHz band is established. There is also an indicator lamp.

Next, the functions of the control unit 12 and the setting storage unit 13 in the router 10 will be described, but it is sufficient that the router 10 can realize these functions. Therefore, the router 10 may have a configuration in which the control unit 12 includes the setting storage unit 13, for example.

The control unit 12 has the same function as the control unit 12 in the first embodiment, and is configured to be able to execute the process A. In the present embodiment, since the LED is used as the display lamp 11, the process A will be described as an LED pattern authentication process. That is, the control unit 12 in the second embodiment has a function of performing the LED pattern authentication process.

The control unit 12 in the router 10 may include a packet transmission/reception interface (I/F) 21, a packet processing unit 22, a source storage unit 23, an LED control unit 24, a pattern matching determination unit 25, and an LED pattern generation unit 26. it can. The control unit 12 can be realized by, for example, an integrated circuit except for a connection portion of the packet transmission/reception I/F 21 with a line (for example, an optical line). Each component of the control unit 12 will be described later.

The setting storage unit 13 is a storage unit that stores setting values (setting parameters) for communication control of the router 10. The setting values stored in the setting storage unit 13 may include setting values other than communication control. Note that the setting storage unit 13, the source storage unit 23, and a storage unit (not shown) that stores information regarding the lighting pattern and the like may be configured by a common storage device.

Next, a terminal device connected to the router 10 will be described. The terminal device 30 illustrated in FIG. 3 is a device connected to the router 10 via a network, and can include a display unit 31, a control unit 32, an operation unit 33, and a communication unit 34. A stationary personal computer (PC), a mobile terminal, or the like can be applied as the terminal device 30, but the terminal device 30 is not limited to this. Examples of mobile terminals include terminals such as mobile PCs and mobile phones (including smartphones).

The display unit 31 includes a display panel and the like, and can be used to display an image for information input in the LED pattern authentication process. The control unit 32 is a unit that controls the entire terminal device 30, and can be configured by, for example, a CPU (Central Processing Unit), a work memory, a non-volatile storage device, and the like. This storage device can store an operation system and application software to be executed by the control unit 32, various setting data in the terminal device 30, content data for the user to view, and the like.

The operation unit 33 is a unit that receives a user input, and can be used to input pattern information from an information input image in the LED pattern authentication process. The operation unit 33 can have a hardware key. The operation unit 33 can also have a software key and a touch panel mounted on the display unit 31. The communication unit 34 has an interface that communicates with the router 10, and may also have an interface that communicates with other electronic devices. The communication unit 34 can include, for example, a wireless LAN circuit according to a standard such as Wi-Fi, a Bluetooth (registered trademark) circuit, an LTE (Long Term Evolution) communication circuit, and the like.

Next, each component of the control unit 12 will be described.
The packet transmission/reception I/F 21 transmits/receives HTTP (Hypertext Transfer Protocol) packets and the like. The packet processing unit 22 performs processing such as analyzing a packet received by the packet transmission/reception I/F 21, and outputs the processed packet to each part (each module) such as the LED control unit 24 and the pattern matching determination unit 25. Send the corresponding processing request. Further, the packet processing unit 22 reads an HTML (Hypertext Markup Language) source or the like from the source storage unit 23 to generate a transmission packet, and transmits the transmission packet to the packet transmission/reception I/F 21.

The packet processing unit 22 will be specifically described.
When the packet received by the packet transmission/reception I/F 21 is the LED pattern authentication request from the terminal device 30, the packet processing unit 22 transmits the LED pattern display request to the LED control unit 24. The LED pattern authentication request is a request for the terminal device 30 to request the LED pattern authentication process (that is, the authentication process based on the lighting pattern of the LED). The LED pattern display request is a request for generating a lighting pattern of the LEDs 11-1 to 11-5 and requesting lighting in the lighting pattern.

After transmitting the LED pattern display request, the packet processing unit 22 reads the source for displaying the information input image from the source storage unit 23 and generates a transmission packet for displaying the information input image on the terminal device 30. .. This information input image is an image for allowing the user to input the pattern information when performing the authentication processing based on the LED lighting pattern, and can also be referred to as an LED pattern authentication image. The packet processing unit 22 transmits the generated transmission packet to the terminal device 30 via the packet transmission/reception I/F 21 as a response to the LED pattern authentication request.

If the packet received by the packet transmission/reception I/F 21 is an HTTP packet including pattern information (hereinafter, input pattern information) input by the user of the terminal device 30, the packet processing unit 22 outputs the input pattern information. It is transmitted to the pattern matching determination unit 25. As a response to this transmission, the packet processing unit 22 receives the determination result information from the pattern matching determination unit 25. The packet processing unit 22 reads the image indicating the received determination result information from the source storage unit 23, transmits it to the terminal device 30 via the packet transmission/reception I/F 21, and the display unit 31 of the terminal device 30 confirms whether the authentication is successful or not. It can also be configured to display.

When the LED control unit 24 receives the LED pattern display request from the packet processing unit 22, the LED control unit 24 transmits the LED pattern generation request to the LED pattern generation unit 26 to generate the lighting pattern of the LEDs 11-1 to 11-5. Then, the LED control unit 24 receives the information indicating the generated lighting pattern (hereinafter, lighting pattern information). In addition, the LED control unit 24 generates an LED control signal for controlling the LEDs 11-1 to 11-5 based on the received lighting pattern information and transmits the LED control signal to the LEDs 11-1 to 11-5, Lighting control is performed. The LEDs 11-1 to 11-5 are turned on based on the LED control signal received from the LED control unit 24.

When the LED pattern generation unit 26 receives the LED pattern generation request from the LED control unit 24, the LED pattern generation unit 26 generates a lighting pattern and transmits lighting pattern information indicating the lighting pattern to the LED control unit 24. Further, the LED pattern generation unit 26 transmits the generated lighting pattern information to the pattern matching determination unit 25.

Here, the generated lighting pattern can be a pattern in which a lighting color is designated for each of the LEDs 11-1 to 11-5. However, in this case, each of the LEDs 11-1 to 11-5 is an LED whose lighting color can be changed. Examples of LEDs whose lighting colors can be changed include multi-color LEDs such as 2-color LEDs and 3-color LEDs.

The pattern matching determination unit 25 stores the lighting pattern information transmitted from the LED pattern generation unit 26, compares the lighting pattern information with the input pattern information transmitted from the packet processing unit 22, and the two match. Determine whether you are doing. The pattern matching determination unit 25 transmits determination result information indicating the determination result to the packet processing unit 22 and the LED control unit 24.

The control unit 12 also has a function of performing authentication processing (password authentication processing) based on the authentication password. This function is a function of causing the terminal device 30 to display an authentication image that prompts the user to enter an authentication password, and performing authentication processing based on the authentication password received from the terminal device 30. The authentication image includes a selection area (such as a link for displaying another authentication image) for selecting the LED pattern authentication processing which is an authentication processing different from the password authentication processing. The authentication image can be stored in the source storage unit 23.

Then, the control unit 12 causes the terminal device 30 to display the authentication image in response to the access request from the terminal device 30, and when the selection area is selected, shifts to the LED pattern authentication processing, and as described above. The lighting pattern is determined. After the lighting pattern is determined, as described above, the lighting control is performed, the information input image is displayed on the terminal device 30, and the reception of the input pattern information from the terminal device 30 is waited for to perform the authentication. ..

<<Operation example>>
A preferred operation example of the router 10 according to the second exemplary embodiment will be described with reference to FIGS. 4 and 5 are schematic diagrams for explaining an example of the LED pattern authentication process executed in the communication system including the router 10 and the terminal device 30. FIG. 6 is a flow chart for explaining an example of the LED pattern authentication processing.

In the operation example described here, when the user accesses the router 10 from the terminal device 30 and the user forgets the authentication password set for the authentication in the password authentication process, the LED pattern authentication process is performed. Execute. Since this LED pattern authentication processing basically uses the authentication information only at that time, it can be referred to as one-time authentication processing.

First, with reference to FIGS. 2 to 4, a processing example up to displaying an initial login image, which is an example of the authentication image, will be briefly described. The user activates a browser such as a Web browser using the operation unit 33 in the terminal device 30, and inputs or selects the IP address of the router 10. As a result, the control unit 32 of the terminal device 30 transmits, via the communication unit 34, an HTTP request for requesting access to the router 10, that is, an HTTP request for requesting the initial login image 40 (step S1 in FIG. 4). In response to this, the router 10 transmits an HTTP response for displaying the initial login image 40 stored in the source storage unit 23 (step S2 in FIG. 4).

The initial login image 40 can be a GUI (Graphical User Interface) image displayed on a browser such as a Web browser. In the terminal device 30, the communication unit 34 receives the HTTP response in step S2, and the control unit 32 causes the browser of the display unit 31 to display the initial login image 40. The initial login image 40 can include a password input field 41, which is an input field for an authentication password, and a login button 42.

The procedure of displaying the initial login image 40 on the browser is basically the same as the procedure of displaying the LED pattern authentication image 50 of FIG. Therefore, the source storage unit 23 also stores the source of the initial login image 40. Further, the initial login image 40 is simply referred to as an “initial” login image in order to make a distinction from the login image in the LED pattern authentication processing (the LED pattern authentication image of FIG. 5 described later). Therefore, the initial login image 40 may be displayed even when performing the normal authentication process for the second time and thereafter.

When the authentication password is input to the password input field 41 by the operation unit 33 and the login button 42 is selected, the terminal device 30 includes the authentication password and the unique information (ID) indicating the terminal device 30 or the user. The HTTP request is transmitted to the router 10. A default value can be used as the ID. The control unit 12 of the router 10 performs authentication by determining whether or not the authentication password and the password registered in advance in association with the ID match. That is, the control unit 12 performs authentication by determining the consistency between the authentication password and the registered password. The setting storage unit 13 can store a previously registered ID and password as one of the set values. The router 10 transmits an HTTP response indicating the result of the authentication to the terminal device 30. This allows the user to know the result of the authentication on the terminal device 30.

The initial login image may be stored in the terminal device 30 in advance and read out to be displayed on the display unit 31. In this case, the terminal device 30 will access the router 10 only when the login button 42 or the link 43 described later is selected.

Next, an example of the LED pattern authentication process will be described with reference to FIGS.
The initial login image 40 can include a link 43. The link 43 is an example of the selection area, and is a link for shifting to a mode for executing the LED pattern authentication processing. The LED pattern authentication process is a process different from the password authentication process which is a normal authentication process using an authentication password. As shown in FIG. 4, by displaying the link 43 together with a sentence such as "If you forget your password, click here", you can prompt the user to execute the LED pattern authentication process when you forget the authentication password. it can.

When the link 43 is selected on the browser by the operation unit 33, the terminal device 30 transmits an HTTP request (the above LED pattern authentication request) for starting the LED pattern authentication processing to the router 10 (step S11 in FIG. 6). ). Step S11 corresponds to step S3 in FIG.

The router 10 receives the packet of the LED pattern authentication request at the packet transmission/reception I/F 21. The packet processing unit 22 executes packet analysis of the received packet and transmits an LED pattern display request to the LED control unit 24.

Upon receiving the LED pattern display request, the LED control unit 24 transmits the pattern generation request to the LED pattern generation unit 26, and causes the LED pattern generation unit 26 to generate the lighting patterns of the LEDs 11-1 to 11-5 (step S12). Specifically, the LED pattern generation unit 26 generates a lighting pattern by determining the lighting color of the LEDs 11-1 to 11-5 by random processing.

The LED pattern generation unit 26 transmits lighting pattern information indicating the generated lighting pattern to the LED control unit 24, and the LED control unit 24 transmits a lighting control signal to the LEDs 11-1 to 11-5. Accordingly, the LED control unit 24 lights each of the LEDs 11-1 to 11-5 with the determined lighting color (step S13). Through step S13, the router 10 displays the LED pattern (lighting color arrangement pattern) in the arrangement area of the LEDs 11-1 to 11-5, as illustrated in FIG. The LED pattern generation unit 26 also transmits the generated lighting pattern information to the pattern matching determination unit 25.

After controlling the lighting of the LEDs 11-1 to 11-5, the control unit 12 of the router 10 returns an HTTP response to the terminal device 30 as a response to the LED pattern authentication request of step S11 (step S14). Step S14 in FIG. 6 corresponds to step S4 in FIG. This HTTP response is a response for displaying the LED pattern authentication image 50 on the browser of the terminal device 30. The LED pattern authentication image 50 is an example of the information input image described above, and can be a GUI image displayed on a browser such as a Web browser.

A specific processing example of step S14 is as follows. That is, the packet processing unit 22 acquires an HTML source or the like indicating the LED pattern authentication image 50 from the source storage unit 23, generates an HTTP response packet, and then transmits the packet to the terminal device 30 via the packet transmission/reception I/F 21. ..

The terminal device 30 receives the HTTP response transmitted in step S14 and displays the LED pattern authentication image 50 on the browser. This allows the user to input the LED pattern on the LED pattern authentication image 50. As described above, in the terminal device 30, when the link 43 is selected, the initial login image 40 transitions to the LED pattern authentication image 50 (page transition), and the input from the user can be accepted.

As shown in FIG. 5, the LED pattern authentication image 50 includes an input field 51 and a login button 52. The input field 51 has a check box for selecting a lighting color for each of the LEDs 11-1 to 11-5. In addition, in FIG. 5, in order to allow the user to identify the LEDs 11-1 to 11-5, the router 10 has a name (here, next to each LED 11-1 to 11-5 in the LED arrangement area). , “LED1”, “LED2”,..., “LED5” are illustrated). Then, these names are also written in the input field 51. At the time of step S14, the check box is not checked. The name here may be the name of the object whose status is displayed by the status display lamp (for example, “WAN” or the like).

The user visually confirms the LEDs 11-1 to 11-5 in the router 10 and selects the check boxes of the input fields 51 corresponding to the respective lighting colors by using the operation unit 33, whereby the authentication information (input pattern information) is displayed. ) Is input (step S15). When the login button 52 is pressed by the operation unit 33, the terminal device 30 transmits the HTTP request to which the input pattern information is added to the router 10 (step S16).

The router 10 receives the HTTP request at the packet transmission/reception I/F 21, performs packet analysis at the packet processing unit 22, and transmits the input pattern information input by the user at the terminal device 30 to the pattern matching determination unit 25. To do. The pattern matching determination unit 25 performs a matching determination to determine whether the input pattern information and the lighting pattern information transmitted from the LED pattern generation unit 26 match (match). The process proceeds to step S18 (step S17). In addition, in step S17, the pattern matching determination unit 25 transmits determination result information indicating the result of the matching determination to the LED control unit 24 and the packet processing unit 22.

Since it is determined in the matching determination in step S17 that both pieces of information have already matched (that is, there is matching), it is not necessary to turn on the LEDs 11-1 to 11-5 for the LED pattern authentication processing. Therefore, in step S18, the LED control unit 24 that has received the determination result information indicating that there is consistency controls the extinction of the LEDs 11-1 to 11-5. In addition, when the status display lamps are used as the LEDs 11-1 to 11-5 as illustrated here, the LED pattern authentication processing is executed after the extinguishing control or instead of the extinguishing control. It is possible to execute the state display control as it was displayed before.

After step S18, the packet processing unit 22 generates an HTTP response indicating that the authentication has succeeded via the packet transmission/reception I/F 21 and transmits it to the terminal device 30 (step S19). As a result, the LED pattern authentication process ends. Then, the control unit 12 officially accepts access from the terminal device 30 that has been successfully authenticated (login is permitted).

The router 10 lights the LEDs 11-1 to 11-5 before transmitting the HTTP response in step S14, but lights the LEDs 11-1 to 11-5 at the same time as or immediately after transmitting the HTTP response in step S14. It can also be done.

Further, the case where the LED pattern authentication process is successful has been described above. If it fails (that is, if the consistency determination fails in step S17), the communication system including the router 10 and the terminal device 30 can perform authentication again from generation of the lighting pattern in step S12. The lighting pattern thus regenerated is different from the lighting pattern initially generated.

Further, not only when the consistency determination fails, the router 10 regenerates another lighting pattern and switches to another LED pattern when a certain period of time elapses after lighting, and the LED that has been displayed until then is displayed. It is preferable for security to invalidate the pattern. Further, it is preferable that the router 10 include information indicating the fixed time or the fixed time and the remaining time in the LED pattern authentication image 50. Further, when the LED pattern is switched, it is preferable that the router 10 displays the fact on the LED pattern authentication image 50.

Next, the processing after login will be briefly described. In response to the access request from the terminal device 30, the control unit 12 of the router 10 stores in the setting storage unit 13 when the authentication of the terminal device 30 is successful using either the authentication password or the input pattern information. It can be configured to allow the setting value to be changed. In particular, it is preferable that the control unit 12 be configured to allow the change of the authentication password as one of the set values. Thus, even a user who forgets the authentication password can reset the authentication password through the LED pattern authentication process.

The router 10 is equipped with a WebGUI having a setting value changing function by storing in the source storage unit 23 the source of the WebGUI that allows the user to change the setting value in the router 10 using a Web browser, for example. I'll do it. If the Web GUI is equipped with a function capable of displaying the initial login image 40 and the LED pattern authentication image 50 as an authentication function, the setting value changing process can be performed subsequent to the process described with reference to FIG. When the router 10 is configured to be able to change the set value, it means that the router 10 is also configured to check the set value for the change (check the setting status).

Further, when the authentication of the terminal device 30 is successful, the control unit 12 accepts an operation of turning off the power of the router 10 or an operation of restarting the router 10 from the terminal device 30, and according to the operation, turns off the power of the router 10 or The router 10 can also be configured to restart.

Next, the effect of the second embodiment will be described with reference to the comparative example shown in FIG. 7 when the above-described LED pattern authentication processing is not performed. FIG. 7 is a schematic diagram for explaining an authentication process according to a comparative example for comparison with the LED pattern authentication process executed in the second embodiment.

The communication system of the comparative example shown in FIG. 7 includes a router 101 and a terminal device 102. The router 101 can display the initial login image 110 on the terminal device 102. Specifically, the terminal device 102 transmits an HTTP request requesting the initial login image 110 to the router 101 using the installed browser (step S101). The router 101 transmits an HTTP response including the source of the initial login image 110, and the terminal device 102 receives it (step S102). Then, the terminal device 102 displays the initial login image 110 on the browser. The initial login image 110 includes an authentication password input field 111, a login button 112, and a note 113 such as “If password is forgotten, initialization is required”. The precautionary note 113 is written for the user who forgets the password.

In fact, many users forget their passwords. In addition, as is the case with many existing routers, if the router 101 can only initialize the router 101 as a coping method when it forgets, it is initialized when it forgets and the authentication password is set to the initial password (default value). There is no choice but to put it back. At this time, since the setting values of the router 101 up to now are initialized in addition to the authentication password, the user who forgets the password cannot confirm the setting value. Therefore, it becomes difficult for the user who forgets the password to restore the setting value, and the resetting work is troublesome.

Because of such a situation, the support center of the manufacturer of the router 101 receives a lot of inquiries from users who do not know how to deal with forgetfulness itself, a resetting method, a set value, or the like. However, in reality, in many cases, the support center can only deal with prompting the user for initialization.

On the other hand, by adopting the LED pattern authentication processing according to the second embodiment, in the router 10 according to the second embodiment, as with the first embodiment, while ensuring security against access from the terminal device 30, The user can easily input the authentication information. Therefore, in the second embodiment, it is possible to reduce the number of inquiries to the support center due to forgetting the password. Note that this effect is also exhibited in the first embodiment.

Further, the router 10 can execute the LED pattern authentication processing even if the router 10 does not have a display capable of displaying any of numbers, characters, and images. The first embodiment also has this effect. Therefore, when the router 10 is a device that does not have a display and is capable of confirming and changing the setting value, even if the user forgets the authentication password, the router 10 can be set easily and securely without initialization. You can check, retrieve, and change the value. Since the set value can include the authentication password, it is possible to easily reset the authentication password.

As described above, in the present embodiment, the lighting pattern is determined to be the pattern in which the lighting color is designated for each of the LEDs 11-1 to 11-5. This makes it easier for the user to see the LED pattern, and thus it becomes easier to input the input pattern information. Further, by adopting the lighting pattern in which the lighting color is designated in this way, the number of possible lighting patterns is determined according to the number of LEDs and the number of lighting colors. The security can be enhanced as compared with the case where the number of lighting patterns is determined according to the two types.

On the other hand, the determined lighting pattern may be a pattern in which at least one of the lighting colors at the time of extinction and lighting is designated for each of the LEDs 11-1 to 11-5. However, also in this case, the lighting color of each of the LEDs 11-1 to 11-5 can be changed. By adopting such a lighting pattern, the number of possible lighting patterns is determined according to the number of LEDs and “(the number of lighting colors)+1”, so that the security can be further enhanced.

Moreover, although an example in which all of the LEDs 11-1 to 11-5 are status display lamps has been given, at least one of the LEDs 11-1 to 11-5 is in a state of communication control in the router 10 (operation indicating communication operation). If the status display lamp that displays the status) or the status display lamp that displays other operating statuses (power supply status, etc.) in the router 10, there is no need to separately provide a display lamp used for authentication. can get.

In addition, in the second embodiment, the password authentication process is performed prior to the LED pattern authentication process. As a result, based on the password authentication process, the LED pattern authentication process can be performed as a special authentication process when the password authentication process cannot be performed.

<Embodiment 3>
<< configuration example >>
Since the communication control device according to the third embodiment has the same configuration as the communication control device according to the second embodiment, the communication control device according to the third embodiment will be described by taking the router 10 shown in FIG. 2 as an example. Hereinafter, the configuration example of the third embodiment will be described focusing on the differences from the second embodiment, but various application examples described in the first and second embodiments can be applied.

In the router 10 according to the third embodiment, the control unit 12 has a function of performing the password authentication process described above. The control unit 12 executes the password authentication process, and determines the lighting pattern when the authentication of the terminal device 30 fails a predetermined number of times in the executed password authentication process. After the lighting pattern is determined, as described above, the lighting control is performed, the information input image is displayed on the terminal device 30, and the pattern information from the terminal device 30 is waited to be authenticated. That is, the control unit 12 shifts to the LED pattern authentication processing when the authentication with the authentication password transmitted from the terminal device 30 fails a predetermined number of times.

<<Operation example>>
A preferred operation example of the router 10 according to the third exemplary embodiment will be described with reference to FIG. FIG. 8 is a flowchart for explaining an example of the LED pattern authentication processing executed in the communication system according to the third embodiment.

Until the initial login image 40 shown in FIG. 4 is displayed, it is the same as in the second embodiment. The case where the authentication password is input in the password input field 41 and the login button 42 is selected (pressed) while the initial login image 40 is displayed will be described. In this case, the terminal device 30 transmits an HTTP request including the ID of the terminal device 30 and the authentication password to the router 10 (step S21).

Upon receiving the HTTP request, the control unit 12 of the router 10 performs authentication by determining whether or not the authentication password and the password registered in advance in association with the ID match. When the authentication has failed, the control unit 12 transmits an HTTP response indicating that the authentication has failed to the terminal device 30 (step S22). The user again inputs the authentication password and presses the login button 42 to retry the password authentication process (step S23). The authentication password input in step S23 will be transmitted again in step S21.

The control unit 12 executes such a password authentication process again until the authentication succeeds, but when the authentication fails 10 times (step S24), the LED pattern authentication process (the LED pattern authentication process is automatically performed). Mode). The number of failures determined in step S24 is not limited to 10, but may be a predetermined number, and may be 1 in an extreme example.

In the LED pattern authentication process, the control unit 12 causes the lighting patterns of the LEDs 11-1 to 11-5 to be generated (step S25) as in steps S12 and S13 of FIG. 6, and the LEDs 11-1 to 11-according to the lighting pattern. 5 is turned on (step S26). Next, the control unit 12 transmits an HTTP response to the terminal device 30 (step S27). This HTTP response is a response for displaying the LED pattern authentication image 50 on the browser of the terminal device 30. In the present embodiment, it is preferable that the LED pattern authentication image 50 include information indicating that the password authentication process has failed the specified number of times and that the LED pattern authentication process has started.

The transmission of the LED pattern authentication image 50 in step S27 is as described in step S14 of FIG. However, in the terminal device 30, the initial login image 40 transitions to the LED pattern authentication image 50 not when the link 43 is selected but when the authentication fails 10 times.

Steps S28 to S32 are the same as steps S15 to S19 in FIG. Further, the processing when the consistency determination in step S30 fails (that is, when it is determined that there is no consistency) is the same as that in the second embodiment.

As described above, in the third embodiment, the LED pattern authentication process is automatically executed when the password authentication process fails a predetermined number of times. Therefore, in the router 10 according to the third embodiment, not only the same effects as those of the first and second embodiments are achieved, but also when the user does not actively select the LED pattern authentication processing, the Pattern authentication processing can be executed.

Further, the router 10 according to the third embodiment can incorporate the processing described in the second embodiment. In other words, the router 10 not only shifts to the LED pattern authentication processing when it fails a predetermined number of times but also performs the LED pattern authentication processing when there is an instruction from the user such as when the link 43 of FIG. 4 is selected. It can also be configured to migrate.

<Other Embodiments>
[A]
The second and third embodiments have been described on the premise that authentication is performed in order to change the setting value stored in the setting storage unit 13. However, the router 10 can perform the authentication only for confirming the set value or only for updating the firmware of the communication control device such as the router 10 or for confirming the version. Further, the user can access the terminal device 30 for purposes other than checking and changing the setting value or the firmware, and thus the setting storage unit 13 is not provided as the communication control device according to another embodiment. A communication controller may be used.

[B]
In the second and third embodiments, the description has been made on the assumption that the display lamp exemplified by the LED is the status display lamp, but the present invention is not limited to this, and the display lamp provided only for the authentication processing exemplified in the LED pattern authentication processing. May be

[C]
The communication control device 1 and the router 10 according to the first to third embodiments may have the following hardware configurations. FIG. 9 is a diagram illustrating an example of a hardware configuration of the communication control device 1 or the router 10. The same applies to the other embodiments [a] and [b].

The communication control device 90 shown in FIG. 9 has a processor 91 and a memory 92. The communication control device 90 also has a display lamp (not shown) such as an LED as described in FIG. 1 and the like. The control unit 12 in the communication control device 1 or the router 10 described in the first to third embodiments is realized by the processor 91 reading and executing the program stored in the memory 92. That is, this program is a program for causing the processor 91 to function as the above-described control unit 12, and is a program for causing the communication control device 90 to execute processing (including authentication processing) in the control unit 12. The memory 92 can also function as the setting storage unit 13 of the router 10 in FIG.

In the above example, the program can be stored using various types of non-transitory computer readable media and supplied to the computer. Non-transitory computer readable media include various types of tangible storage media. Examples of non-transitory computer readable media include magnetic recording media (eg, flexible disks, magnetic tapes, hard disk drives), magneto-optical recording media (eg, magneto-optical disks). Furthermore, in this example, a CD-ROM (Read Only Memory), a CD-R, a CD-R/W, a semiconductor memory (for example, a mask ROM, a PROM (Programmable ROM), an EPROM (Erasable PROM), a flash ROM, a RAM ( Random Access Memory)) is included. In addition, the program may be supplied to the computer by various types of transitory computer readable media. Examples of transitory computer-readable media include electrical signals, optical signals, and electromagnetic waves. The transitory computer-readable medium can supply the program to the computer via a wired communication path such as an electric wire and an optical fiber, or a wireless communication path.

[D]
Further, as described in the various embodiments described above, the control procedure including the authentication procedure in the communication control device, the present disclosure also takes a form as an authentication method or a communication control method executed by the communication control device. obtain. This authentication method is an authentication method executed by a communication control device provided with n display lamps 11-1 to 11-n, and the authentication processing executed is as described in the first to third embodiments. is there. The communication control method is a method of authenticating a terminal device by using this authentication method and controlling the communication control device, and any communication control other than the authentication may be performed.

It should be noted that the present disclosure is not limited to the above-described embodiment, and can be modified as appropriate without departing from the spirit of the present disclosure. Further, the present disclosure may be implemented by appropriately combining the respective embodiments.

<Appendix>
The whole or part of the exemplary embodiments disclosed above can be described as, but not limited to, the following supplementary notes.

(Appendix 1)
A communication control device,
A plurality of display lamps, and a control unit that performs communication control in the communication control device and lighting control of the plurality of display lamps,
The control unit is
For the access request from the terminal device connected via the network, determine the lighting pattern of the plurality of display lamps,
While controlling the lighting of the plurality of display lamps according to the determined lighting pattern, the information input image for prompting the input of pattern information indicating the lighting pattern of the plurality of display lamps is displayed on the terminal device,
When the pattern information matching the determined lighting pattern is received from the terminal device, the authentication of the terminal device is successful.
Communication control device.

(Appendix 2)
Each of the plurality of display lamps is a lamp whose lighting color can be changed,
The lighting pattern is a pattern in which a lighting color is designated for each of the plurality of display lamps,
The communication control device according to attachment 1.

(Appendix 3)
Each of the plurality of display lamps is a lamp whose lighting color can be changed,
The lighting pattern is a pattern in which at least one of the lighting colors at the time of turning off and lighting is designated for each of the plurality of display lamps.
The communication control device according to attachment 1.

(Appendix 4)
The control unit is
It has a function of displaying an authentication image prompting the user to enter an authentication password on the terminal device, receiving the authentication password from the terminal device, and performing password authentication processing based on the received authentication password,
The authentication image includes a selection area for selecting an authentication process different from the password authentication process,
The control unit is
In response to the access request, display the authentication image on the terminal device,
When the selection area is selected, the lighting pattern is determined.
4. The communication control device according to any one of appendices 1 to 3.

(Appendix 5)
The control unit is
In response to the access request, an authentication image prompting the user to enter an authentication password is displayed on the terminal device, the authentication password is received from the terminal device, and password authentication processing is performed based on the received authentication password,
If the authentication of the terminal device fails a predetermined number of times in the password authentication process, the lighting pattern is determined.
5. The communication control device according to any one of appendices 1 to 4.

(Appendix 6)
A storage unit for storing setting values for the communication control,
In response to the access request from the terminal device, the control unit permits the change of the setting value when the terminal device is successfully authenticated using either the authentication password or the information indicating the lighting pattern. To do
The communication control device according to attachment 4 or 5.

(Appendix 7)
At least one of the plurality of display lamps is a status display lamp that displays a status of communication control in the communication control device,
7. The communication control device according to any one of appendices 1 to 6.

(Appendix 8)
The indicator lamp has a light emitting diode,
8. The communication control device according to any one of appendices 1 to 7.

(Appendix 9)
The communication control device according to any one of appendices 1 to 8,
The terminal device;
A communication system having.

(Appendix 10)
An authentication method executed by a communication control device having a plurality of display lamps, comprising:
In response to an access request from a terminal device connected to the communication control device via a network, a lighting pattern of the plurality of display lamps is determined,
While controlling the lighting of the plurality of display lamps according to the determined lighting pattern, the information input image for prompting the input of pattern information indicating the lighting pattern of the plurality of display lamps is displayed on the terminal device,
When the pattern information matching the determined lighting pattern is received from the terminal device, the authentication of the terminal device is successful.
Authentication method.

(Appendix 11)
Each of the plurality of display lamps is a lamp whose lighting color can be changed,
The lighting pattern is a pattern in which a lighting color is designated for each of the plurality of display lamps,
The authentication method according to attachment 10.

(Appendix 12)
A program for causing a communication control device having a plurality of display lamps to perform authentication processing,
The authentication process is
In response to an access request from a terminal device connected to the communication control device via a network, a lighting pattern of the plurality of display lamps is determined,
While controlling the lighting of the plurality of display lamps according to the determined lighting pattern, the information input image for prompting the input of pattern information indicating the lighting pattern of the plurality of display lamps is displayed on the terminal device,
When the pattern information matching the determined lighting pattern is received from the terminal device, the authentication of the terminal device is successful.
Processing,
program.

(Appendix 13)
Each of the plurality of display lamps is a lamp whose lighting color can be changed,
The lighting pattern is a pattern in which a lighting color is designated for each of the plurality of display lamps,
The program according to attachment 12.

1,90 Communication control device 10 Router 11 Display lamp,
11-1, 11-n Display lamp (LED)
11-2, 11-3, 11-4, 11-5 LED
12 control unit,
13 setting memory,
21 Packet transmission/reception I/F
22 packet processing unit 23 source storage unit 24 LED control unit 25 pattern matching determination unit 26 LED pattern generation unit 30 terminal device 31 display unit 32 terminal device control unit 33 operation unit 34 communication unit 40 initial login image 41 password input field 42 , 52 Login button 43 Link 50 LED pattern authentication image 51 Input field 91 Processor 92 Memory

Claims (10)

A communication control device,
A plurality of display lamps, and a control unit that performs communication control in the communication control device and lighting control of the plurality of display lamps,
At least one of the plurality of display lamps is a status display lamp for displaying a status of communication control in the communication control device,
The control unit is
For the access request from the terminal device connected via the network, the lighting pattern of the plurality of display lamps is determined irrespective of the case of displaying the state of the communication control ,
While controlling the lighting of the plurality of display lamps according to the determined lighting pattern, the information input image for prompting the input of pattern information indicating the lighting pattern of the plurality of display lamps is displayed on the terminal device,
When the pattern information matching the determined lighting pattern is received from the terminal device, the authentication of the terminal device is successful.
Communication control device. Each of the plurality of display lamps is a lamp whose lighting color can be changed,
The lighting pattern is a pattern in which a lighting color is designated for each of the plurality of display lamps,
The communication control device according to claim 1. Each of the plurality of display lamps is a lamp whose lighting color can be changed,
The lighting pattern is a pattern in which at least one of the lighting colors at the time of turning off and lighting is designated for each of the plurality of display lamps.
The communication control device according to claim 1. The control unit is
It has a function of displaying an authentication image prompting the user to enter an authentication password on the terminal device, receiving the authentication password from the terminal device, and performing password authentication processing based on the received authentication password,
The authentication image includes a selection area for selecting an authentication process different from the password authentication process,
The control unit is
In response to the access request, display the authentication image on the terminal device,
When the selection area is selected, the lighting pattern is determined.
The communication control device according to any one of claims 1 to 3. The control unit is
In response to the access request, an authentication image prompting the user to enter an authentication password is displayed on the terminal device, the authentication password is received from the terminal device, and password authentication processing is performed based on the received authentication password,
If the authentication of the terminal device fails a predetermined number of times in the password authentication process, the lighting pattern is determined.
The communication control device according to any one of claims 1 to 4. The indicator lamp has a light emitting diode,
The communication control device according to any one of claims 1 to 5 . The communication control device is a router device,
The communication control device according to any one of claims 1 to 6. A communication control device according to any one of claims 1 to 7,
The terminal device;
A communication system having. An authentication method executed by a communication control device having a plurality of display lamps, comprising:
At least one of the plurality of display lamps is a status display lamp for displaying a status of communication control in the communication control device,
In response to an access request from a terminal device connected to the communication control device via a network, the lighting pattern of the plurality of display lamps is determined irrespective of the case of displaying the state of the communication control ,
While controlling the lighting of the plurality of display lamps according to the determined lighting pattern, the information input image for prompting the input of pattern information indicating the lighting pattern of the plurality of display lamps is displayed on the terminal device,
When the pattern information matching the determined lighting pattern is received from the terminal device, the authentication of the terminal device is successful.
Authentication method. A program for causing a communication control device having a plurality of display lamps to perform authentication processing,
At least one of the plurality of display lamps is a status display lamp for displaying a status of communication control in the communication control device,
The authentication process is
In response to an access request from a terminal device connected to the communication control device via a network, the lighting pattern of the plurality of display lamps is determined irrespective of the case of displaying the state of the communication control ,
While controlling the lighting of the plurality of display lamps according to the determined lighting pattern, the information input image for prompting the input of pattern information indicating the lighting pattern of the plurality of display lamps is displayed on the terminal device,
When the pattern information matching the determined lighting pattern is received from the terminal device, the authentication of the terminal device is successful.
Processing,
program.

Images