JP5026458B2 - Game machine, peripheral board, authentication method, program - Google Patents

Description

  The present invention relates to a gaming machine such as a pachinko machine.

  2. Description of the Related Art Conventionally, techniques for preventing fraud with respect to control boards mounted on various electronic devices have been proposed. The control board includes a main control board that controls the operation of the entire electronic device such as a pachinko game machine, and a controlled board (peripheral board) that operates each part of the electronic device. The main control board outputs a control signal including a control command to the peripheral board. The peripheral board performs an operation according to the control signal transmitted from the main control board.

  Examples of frauds with respect to the control board include a method of replacing a regular main control board with an unauthorized control board, or connecting an unauthorized control board between a regular main control board and a controlled board. In order to prevent such injustice, a technique has been proposed in which authentication data for authenticating the main control board is added to the control command, and the main control board is authenticated using the authentication data (for example, Patent Documents). 1).

  In Patent Document 1, as shown in FIG. 21, a main control unit 201 and a peripheral board that performs predetermined processing based on a control command transmitted by the main control unit 201 (effect control unit 202a, prize ball control unit 203d). In a pachinko machine equipped with That is, in the same figure, the adding unit 312 of the main control unit 201 controls the main control when the control command to be transmitted to the peripheral board is a miss command that causes the peripheral board to execute the process when the lottery result at the lottery is missed. Authentication data for authenticating the unit 201 is added to the control command. The transmission unit 314a transmits a control command to the peripheral board. The peripheral board receiving unit 321 receives the control command transmitted from the main control unit 201. The intermediate unit 322 authenticates the main control unit 201 using the control command received by the receiving unit 321.

  The control command storage unit 311 of the main control unit 201 stores control command data (control command data) to be transmitted to the peripheral board. A predetermined program code is recorded in the recording unit 313.

  The notification signal output unit 323 outputs a notification signal when the intermediate control unit 322 does not authenticate the main control unit. When the peripheral board has the effect control unit 202a, the notification signal output unit 323 outputs a notification signal to, for example, a symbol display unit (not shown) or a lamp control unit (not shown).

JP 2008-279042 A

  By the way, if it is attempted to authenticate the main control unit 201 by increasing the security strength, the capacity of the authentication data increases or complicated calculation processing is required. If the capacity of the authentication data is increased or complicated arithmetic processing is required, the processing load on the peripheral board increases, which is not preferable. Therefore, in the conventional gaming machine, there is a design restriction when trying to increase the strength of security.

  The present invention relates to a gaming machine, a peripheral board, an authentication method, and a program that can determine whether or not the main control unit is valid without being restricted by design even if the strength of security is increased as compared with the prior art. The purpose is to provide.

In order to solve the above-mentioned problems and achieve the above-mentioned object, the gaming machine according to the present invention has a command to specify that a normal state continues without a special state relating to a game, and that it is valid. A main control unit that outputs first authentication data for authentication and an output of the main control unit as inputs, and controls the execution of the effect based on the off command or the pre-processing or post-processing of the effect, A peripheral unit that outputs the first authentication data; data for determining whether the main control unit is valid based on the first authentication data output from the peripheral unit ; and An intermediate unit that generates second authentication data subjected to a simpler encryption process than the first authentication data, and outputs the second authentication data to the peripheral unit; Second authentication The main control unit is characterized in that it is determined whether justified based on chromatography data.

  According to such a configuration, the intermediate unit generates second authentication data that is intermediate data for determining whether or not the main control unit is valid separately from the peripheral unit, and this second authentication is performed. Since the peripheral unit authenticates the main control unit using data, the burden on the peripheral unit is reduced compared to the case where all authentication processing is performed in the peripheral unit, the capacity of authentication data is increased, and complicated calculation processing is performed. Thus, it is possible to determine whether the main control unit is legitimate by increasing the strength of security compared to the prior art. The special prize state refers to an advantageous state in which a predetermined game value can be given to the player, and includes, for example, an opening operation of a special prize opening.

  When it is determined that the main control unit is not valid, the peripheral unit may notify the fact. This makes it easier for employees and players of pachinko halls to recognize the state.

  The peripheral portion may determine whether or not the main control unit is valid after a period in which the effect based on the miss command or the pre-processing or post-processing of the effect is executed. By determining whether the main control unit is legitimate after a period of presentation based on the off command or when pre-processing or post-processing is executed, the capacity of the authentication data increases or complex arithmetic processing is performed. Even if the authentication processing is all performed in the peripheral portion, the burden on the peripheral portion is reduced. Therefore, it is possible to determine whether or not the main control unit is legitimate by increasing the strength of security compared to the conventional case.

  You may provide the single path | route used for signal transmission / reception with the said peripheral part and the said intermediate part. Even when the authentication data is exchanged through a single route, it is possible to determine whether the main control unit is valid by increasing the strength of security compared to the conventional case.

  Provided with two paths used for signal exchange between the peripheral part and the intermediate part, the peripheral part outputs the first authentication data to the intermediate part by one of the paths, the intermediate part, The second authentication data may be output to the peripheral portion through the other of the paths. Even when authentication data is exchanged through two routes, it is possible to determine whether or not the main control unit is legitimate by increasing the strength of security compared to the conventional case.

The peripheral board of the present invention controls the execution of the effect based on the off command for designating that the special state related to the game does not occur and the normal state continues from the main control unit or the pre-processing or post-processing of the effect And a peripheral unit that outputs first authentication data for authenticating that the main control unit is valid from the main control unit, and the first authentication data output from the peripheral unit. Generating second authentication data that is data for determining whether or not the main control unit is legitimate based on the data and is simpler than the first authentication data . And an intermediate part that outputs the authentication data of 2 to the peripheral part, wherein the peripheral part determines whether or not the main control part is valid based on the second authentication data. . Apart from the peripheral part, it has an intermediate part for generating second authentication data, which is intermediate data for determining whether or not the main control part is valid, so compared with the case where all authentication processing is performed in the peripheral part. Therefore, the burden on the peripheral part is reduced, the authentication data is increased, and complicated calculation processing is performed to increase the security strength compared to the conventional one to determine whether the main control part is valid. be able to.

  When it is determined that the main control unit is not valid, the peripheral unit may notify the fact. This makes it easier for employees and players of pachinko halls to recognize the state.

  The peripheral unit may determine whether the main control unit is valid after the presentation based on the off command or a period during which the pre-processing or post-processing is executed. By determining whether or not the main control unit is legitimate after the production based on the off command or the period during which pre-processing or post-processing is executed, the capacity of the authentication data is increased or complicated arithmetic processing is performed. Even if the authentication processing is all performed in the peripheral portion, the burden on the peripheral portion is reduced. Therefore, it is possible to determine whether or not the main control unit is legitimate by increasing the strength of security compared to the conventional case.

The authentication method of the present invention outputs an off command for designating that the special state relating to the game does not occur and the normal state continues, and first authentication data for authenticating that the player is valid. An authentication method in a gaming machine comprising a main control unit and an effect based on the off command or a peripheral unit that controls execution of pre-processing or post-processing of the effect, wherein the main control unit is valid A second authentication data for determining whether or not the second authentication data is generated, and an intermediate part for outputting the second authentication data to the peripheral part, further comprising the intermediate control unit, Outputting the first authentication data; and controlling the execution of the presentation or the pre-processing or post-processing by the peripheral unit, and outputting the first authentication data; The inter is the data for the main control unit determines whether it is justified on the basis of the first authentication data output from the peripheral unit and simple than the first authentication data Generating second authentication data subjected to encryption processing and outputting the second authentication data to the peripheral portion; and the peripheral portion based on the second authentication data, the main control portion And an authentication step for determining whether or not is valid. Apart from the peripheral part, by providing an intermediate part that generates intermediate data for determining whether or not the main control part is valid, the burden on the peripheral part is reduced compared to the case where all authentication processing is performed in the peripheral part. It is possible to reduce the size of the authentication data, increase the capacity of the authentication data, or perform complicated arithmetic processing to increase the strength of the security compared to the prior art and determine whether the main control unit is valid.

  The peripheral part may further include a step of notifying that when it is determined that the main control part is not valid. This makes it easier for employees and players of pachinko halls to recognize the state.

The authentication method of the present invention outputs an off command for designating that the special state relating to the game does not occur and the normal state continues, and first authentication data for authenticating that the player is valid. A main control unit, an effect based on the off command, a peripheral unit that controls execution of pre-processing or post-processing of the effect, and second authentication data for determining whether or not the main control unit is valid And authenticating the main control unit in a gaming machine comprising an intermediate unit that outputs the second authentication data to the peripheral unit , wherein the intermediate unit includes the first authentication data, and acquiring through the peripheral portion, the intermediate portion, since the main control unit determines whether it is justified based on the first authentication data acquired in said acquisition step Data at and and the first simple encryption process than authentication data generates the second authentication data subjected, and a step of outputting the second authentication data to the peripheral portion, the peripheral The unit is configured to determine whether the main control unit is valid based on the second authentication data. Since the second authentication data, which is intermediate data, is generated based on the first authentication data acquired via the peripheral part, and the peripheral part authenticates the main control part using the second authentication data, the authentication process Compared to the case where everything is performed in the peripheral part, the burden on the peripheral part is reduced, the capacity of the authentication data is increased, and complicated arithmetic processing is performed to increase the strength of security compared to the conventional control unit. It can be judged whether it is legitimate.

The peripheral unit may further include a notification signal output step of outputting a signal for notifying the authentication result when it is determined that the main control unit is not valid. This makes it easier for employees and players of pachinko halls to recognize the state.

The peripheral unit may determine whether or not the main control unit is valid after the production based on the off command or the period during which the pre-processing or post-processing is executed. By determining whether or not the main control unit is legitimate after the production based on the off command or the period during which pre-processing or post-processing is executed, the capacity of the authentication data is increased or complicated arithmetic processing is performed. Alternatively, the second authentication data can be generated independently of the operation of the peripheral part. Therefore, it is possible to determine whether or not the main control unit is legitimate by increasing the strength of security compared to the conventional case.

The program according to the present invention outputs a failure command for designating that the special state relating to the game does not occur and the normal state continues, and first authentication data for authenticating that the game is valid. A control unit, an effect based on the off command, a peripheral unit that controls execution of pre-processing or post-processing of the effect, and second authentication data for determining whether the main control unit is valid A program for authenticating the main control unit in a gaming machine comprising an intermediate unit that generates and outputs the second authentication data to the peripheral unit, the computer authenticating the peripheral unit An output step for outputting data to the intermediate unit, for determining whether or not the main control unit is valid based on the first authentication data output in the output step An acquisition step of acquiring from the intermediate unit second authentication data generated by performing encryption processing simpler than the first authentication data and whether the main control unit is valid The step of judging whether or not based on the second authentication data acquired in the acquisition step is executed. Since the main control unit is authenticated using authentication data acquired via the peripheral and intermediate units, the burden on the peripheral unit is reduced and the capacity of the authentication data is increased compared to the case where all authentication processing is performed in the peripheral unit. It is possible to determine whether or not the main control unit is legitimate by increasing the strength of security compared to the prior art by performing complicated arithmetic processing. Further, by outputting a signal for informing the authentication result, it becomes easier for employees and players of the pachinko hall to recognize the state.

  According to the present invention, the second authentication data, which is intermediate data, is generated in the intermediate unit provided separately from the peripheral unit, and the peripheral unit authenticates the main control unit using the second authentication data. Compared to the case where all processing is performed in the peripheral part, the burden on the peripheral part is reduced, and even if the security strength is increased by increasing the capacity of authentication data or performing complicated arithmetic processing, the peripheral part Therefore, it is possible to determine whether or not the main control unit is valid without being restricted by design.

It is a figure which shows the structural example of the game board of the game machine by this Embodiment. It is a figure which shows the structural example of the gaming machine by this Embodiment. It is a block diagram which shows the structure of a main control part. It is a figure which shows the data structure of a control command. It is a flowchart which shows a game control process. It is a flowchart which shows a control command transmission process. It is a flowchart which shows a winning determination process. It is a flowchart which shows a jackpot determination process. It is a flowchart which shows an electric accessory control process. It is a flowchart which shows production control processing. It is a flowchart which shows a control command reception process. It is a flowchart which shows a fluctuation pattern command process. It is a flowchart which shows a jackpot command process. It is a figure which shows the sequence of the authentication operation | movement of a miss reach command and a miss non-reach command pachinko machine. It is a figure which shows the sequence of operation | movement of the pachinko machine based on control commands other than an outlier reach command and an outlier non-reach command. It is a 1st figure which shows the timing when the production | presentation or pre-processing or post-process based on a non-reach reach command and a non-reach non-reach command is performed, and the timing at which an authentication process is performed. It is a 2nd figure which shows the timing at which the production | presentation based on a non-reach reach command and a non-reach non-reach command or the pre-process or post-process is performed, and the timing at which an authentication process is performed. It is a figure which shows the other structural example of the gaming machine by this Embodiment. It is a figure which shows the structure which added the alerting | reporting part to the structure of FIG. It is a figure which shows the structure which added the alerting | reporting part to the structure of FIG. It is a block diagram of the conventional game machine.

EMBODIMENT OF THE INVENTION Below, the form for implementing this invention is demonstrated with reference to drawings. Here, a case where the gaming machine, peripheral board, authentication method, and program according to the present invention are applied to a pachinko machine will be described.
[Composition of game board]
First, the configuration of the game board 1 in the pachinko machine will be described.
FIG. 1 is a front view of the game board 1.

  In FIG. 1, two rails 102 a and 102 b are provided on the left side of the game board 1 so as to draw an arc and extend upward. The game area 101 is provided with a plurality of nails (not shown) for making the trajectory of the game ball fall irregularly, and a windmill or a prize opening for changing the fall direction of the game ball is provided in the middle of the fall. It has been. The game ball is fired by a launching unit (not shown) disposed at a lower position of the game board 1 and rises between the rails 102a and 102b to reach the upper position of the game board 1, and then falls within the game area 101. To do.

In the center of the game board 1, there is provided a symbol display unit 104 that displays the effect symbols in three regions while independently varying the effect symbols. The symbol display unit 104 is, for example, a liquid crystal display (LCD (Liquid
Crystal Display) or CRT (Cathode Ray)
Tube) a variable display device such as a display, a 7-segment LED, a dot matrix display device, a drum variably displayed by the rotation of a motor, and the like, and variably displays an effect symbol composed of a plurality of numbers and symbols.

  Below the symbol display unit 104 is provided a start winning opening 105 through which a game ball can be won. A winning gate 106 is provided on each of the left and right sides of the symbol display unit 104. When the game ball passes through the winning gate 106, a predetermined lottery is performed, and when the winning ball is won, the start winning opening 105 is opened for a predetermined time.

  A normal winning opening 107 is provided on each of the left and right sides of the start winning opening 105. When a game ball wins the normal winning opening 107, a predetermined number (for example, 10) of game balls is paid out as a prize ball for each game ball.

Below the start winning opening 105, it is normally closed, but when the design symbol on the symbol display unit 104 becomes a jackpot symbol (for example, “777”), the game ball can be won in an open state. A special winning opening 109 is provided. When the jackpot lottery results in a “hit” (hereinafter simply referred to as “hit”), the opening and closing members installed on the entire surface of the big winning opening 109 repeat the opening and closing operation. While the open / close member is open, a large number of game balls are received. When a game ball wins the big winning opening 109, a predetermined number (for example, 10) of game balls is paid out as a prize ball for each game ball. The opening of the special winning opening 109 continues until a predetermined time (for example, 30 seconds) elapses or a predetermined number (for example, 10) of game balls wins. One opening period of the big prize opening 109 is called a round, and the round continues a maximum of a predetermined number of times (hereinafter referred to as the maximum number of rounds).
At the lowermost part of the game area 101, a collection port 108 is provided for collecting game balls that have not won any prize opening.
[Overall configuration of gaming machine]

  FIG. 2 is a block diagram showing the overall configuration of the gaming machine of the present embodiment. As shown in FIG. 2, the gaming machine has a game board 1, a main control board 2, and a peripheral board 3. The main control board 2 and the peripheral board 3 constitute a gaming machine control device 100.

  The main control board 2 is a board having a main control unit 2a. The main control unit 2a has a control command for controlling an effect relating to the game executed by the game board 1 or pre-processing or post-processing of the effect, and a first command for authenticating the main control unit 2a. It is a means for outputting authentication data.

  Here, “production” is, for example, a jackpot production by lottery. “Pre-production of the effect” is, for example, a process of setting a value for changing the symbol in the register when the symbol displayed by the symbol display unit is changed. However, the main control unit 2a may not output the control data but may output the control command and the first authentication data to the peripheral unit 3a. For example, when the contents of the control are clear, such as when the power of the pachinko machine is going to be turned on, the control data is not output. In this case, the power of the pachinko machine is turned on as preprocessing for the effect. Note that the “post-processing of the effect” is, for example, a process of initializing the contents of the RAM described later after the effect.

  The peripheral substrate 3 is a substrate having a peripheral portion 3a, an intermediate portion 3b, and a bus 3c. The peripheral unit 3a receives the output of the main control unit 2a as input, and controls the execution of the pre-processing or post-processing of the production or production based on the control command from the main control unit 2a, and the first from the main control unit 2a. The authentication data is output to the intermediate unit 3b.

  The intermediate unit 3b is provided at a subsequent stage of the peripheral unit 3a, and a second unit for determining whether the main control unit 2a is valid based on the first authentication data output from the peripheral unit 3a. This is means for generating authentication data and outputting it to the peripheral part 3a. Apart from the peripheral part, a configuration with an intermediate part is adopted. For this reason, even if the main control unit and the peripheral unit are not authenticated by the general configuration of the main control unit, adding an intermediate unit minimizes changes in the specifications of the peripheral unit and minimizes the main control unit Authentication can be performed. When it is determined that the main control unit 2a is not valid, the peripheral unit 3a performs control for notifying that the main control unit 2a is not valid. When the main control unit 2a notifies that it is not valid, the notification by displaying on a liquid crystal (not shown) provided in the gaming machine or lighting a lamp or the like under the control of the peripheral unit 3a Is done. The notification using the liquid crystal and the lamp will be described in detail later.

Not only visual notification by lighting a liquid crystal display or a lamp, but also auditory notification by outputting sound from a speaker (not shown) or tactile notification by vibrating a vibrator (not shown) may be performed. Moreover, you may perform combining the said alert | report. The bus 3c is the only communication path used for exchanging signals between the peripheral part 3a and the intermediate part 3b. A single bus 3c provided between the peripheral part 3a and the intermediate part 3b is used as a bidirectional communication path.
[Configuration of game control device]
Next, the configuration of the game control device in the pachinko machine will be described.
FIG. 3 is a block diagram showing a configuration of the game control device 100.

  As shown in FIG. 3, the game control device 100 includes a main control board 2, a peripheral board 3, and a prize ball control unit 400. In this example, the main control board 2 is provided with a main control unit 2a that performs main control of the game. Further, the peripheral board 3 generates an effect control unit 300 that controls the effect of the game by the control of the main control unit 2a, and second authentication data for authenticating the main control unit 2a. An intermediate portion 3b that outputs to 3a is provided. The effect control unit 300 is an example of the peripheral portion 3a in FIG. The prize ball control unit 400 controls the payout of game balls under the control of the main control unit 2a.

  The main control unit 2a performs main control of the game, and transmits various control commands for performing game effect control or game ball payout control to the effect control unit 300 and the prize ball control unit 400, respectively. The main control unit 2a includes a ROM 204 that stores a control program, a CPU 202 that executes game control processing in accordance with the control program stored in the ROM 204, a RAM 206 that functions as a data work area when the CPU 202 performs arithmetic processing, and input / output between external devices. And an I / F (interface) 210 for performing the above.

  In the I / F 210, a start winning port detection unit 280 that detects a game ball won in the start winning port 105, a gate detection unit 282 that detects a game ball that has passed the winning gate 106, and a normal winning port 107 are won. An ordinary winning opening detection unit 284 that detects a game ball and a large winning opening detection unit 286 that detects a gaming ball that has won a prize winning port 109 are connected. These detection parts 280-286 can be comprised using a proximity switch, for example.

  The I / F 210 is further connected to a big prize opening / closing part 288 that opens and closes the opening / closing member of the big prize opening 109 during the big hit, an effect control part 300, and a prize ball control part 400. Note that communication with the effect control unit 300 is in one direction from the main control unit 2a to the effect control unit 300. In contrast, communication with the prize ball control unit 400 is bidirectional.

  The big prize opening opening / closing unit 288 can be configured using, for example, a solenoid. The jackpot is pre-programmed to occur with a predetermined probability (for example, 1/300) based on the jackpot random number.

The effect control unit 300 receives a control command from the main control unit 2a, and performs an effect control of the game based on the received control command. The effect control unit 300 includes a ROM 304 that stores a control program, a CPU 302 that executes an effect control process according to the control program stored in the ROM 304, a RAM 306 that functions as a data work area during the calculation process of the CPU 302, and a display on the symbol display unit 104. And an I / F 310 for inputting / outputting data to / from an external device.
The ROM 304 stores an expected value for collation with the verification value. The verification value is for authenticating the main control unit 200, and the expected value is the same value as the verification value.

  The RAM 306 stores input data from the main control unit 200, data for arithmetic processing, a random number counter for generating random numbers, various other counters, and various flags.

  The I / F 310 includes a main control unit 2a, a symbol display unit 104, a sound control unit 382 that performs sound control for outputting sound from the speaker 380, and a lamp control unit 386 that performs lamp control for lighting the lamp 384. It is connected.

  The award ball control unit 400 receives a control command from the main control unit 2a, and performs payout control of the game ball based on the received control command. The prize ball control unit 400 includes a ROM 404 that stores a control program, a CPU 402 that executes a payout control process according to the control program in the ROM 404, a RAM 406 that functions as a data work area during the calculation process of the CPU 402, and an external device. And an I / F 410 that performs output.

  Connected to the I / F 410 are a main control unit 2 a, a payout unit 480 that pays out a predetermined number of game balls from a storage unit for game balls, and a launch unit 482 that launches game balls to the game board 1.

  The award ball control unit 400 controls the payout unit 480 to pay out a predetermined number of game balls in accordance with winnings in each winning award (starting winning port 105, normal winning port 107, large winning port 109). . In addition, an operation on the launch unit 482 is detected, and the launch of the game ball is controlled.

  The launching unit 482 includes a sensor (not shown) that detects an operation by the player and a solenoid (not shown) that launches a game ball. When the award ball control unit 400 detects an operation by the sensor of the launch unit 482, the prize ball control unit 400 intermittently fires a game ball by driving a solenoid according to the operation amount.

The main control unit 2a, the effect control unit 300, and the prize ball control unit 400 are provided on different printed boards. However, the present invention is not limited to this, and the prize ball control unit 400 is the same print as the main control unit 2a. It can also be provided on the substrate.
[Data structure of control commands, etc.]
Next, a data structure such as a control command will be described.
FIG. 4 is a diagram illustrating a data structure of control commands and the like.

  In the case of a normal control command 500, control data 501 is added as shown in FIG. On the other hand, in the case of a control command with authentication data, as shown in FIG. 4B, control data 501 is added, and encrypted authentication data 502, which is first authentication data, is added. ing. In this way, by adding the first authentication data to the control command and transmitting from the main control unit 2a, compared with the case where the authentication data is transmitted alone, between the main control unit 2a and the peripheral unit 3a. An increase in communication load can be suppressed. Also, by adding the first authentication data to the control command and transmitting from the main control unit 2a, the authentication data is extracted and analyzed from the communication data as compared with the case where the authentication data is transmitted alone. Risk can be reduced. Furthermore, since the authentication process is performed only when the control command to which the first authentication data is added is transmitted, the rate at which the processing load of the main control unit 2a due to the authentication process increases due to the authentication process can be suppressed.

Note that the arrangement order of the control data 501 and the first authentication data 502 with respect to the control command 500 is not limited to the case of FIG. That is, as shown in FIG. 4C, the first authentication data 502 is added to the head of the control command 500, or the control command 500 and the control data 501 are arranged as shown in FIG. Alternatively, the first authentication data 502 may be inserted between them. Further, the first authentication data may be transmitted separately from the control command 500 and the control data 501. For example, after transmitting the control command and its control data, the first authentication data may be added and transmitted when the third control command is transmitted.

Here, the control commands include a power-on command, a power-off command, a customer waiting demo start command, a customer waiting demo stop command, a variation pattern command, a jackpot start command, a jackpot end command, and a jackpot command.
The power-on command is a control command for designating power-on, and is transmitted to the effect control unit 300 and the prize ball control unit 400 when the power is turned on.
The power-off command is a control command for designating power-off, and is transmitted to the effect control unit 300 and the prize ball control unit 400 when the power is turned off.

The customer waiting demonstration start command is a control command for designating the start of a demonstration effect (hereinafter referred to as a customer waiting demo) for attracting a player, and is transmitted to the effect control unit 300 when the game is interrupted.
The customer waiting demo stop command is a control command for designating the end of the customer waiting demo, and is transmitted to the effect control unit 300 when the game is resumed.

  The variation pattern command is a control command for designating the variation pattern of the effect symbol, and is transmitted to the effect control unit 300 when the variation of the effect symbol is started. The variation pattern command includes an outlier non-reach command, an outlier reach command, and a jackpot reach command.

  The non-reach non-reach command is a control command for designating a change pattern that does not perform reach among the change patterns that are selected when the big hit lottery results in “out” (hereinafter, simply referred to as “out”). .

  The detachment reach command is a control command for designating a variation pattern for performing a reach effect among the variation patterns selected at the time of detachment. The effect control unit 300 can determine that there is a loss based on a loss reach command or a loss non-reach command. That is, the miss reach command and the miss non-reach command are miss commands for designating that the special state relating to the game does not occur and the normal state continues.

The jackpot reach command is a control command for designating a variation pattern for performing a reach effect among the variation patterns selected at the time of the jackpot. The effect control unit 300 can determine that the jackpot is based on the jackpot reach command.
The jackpot start command is a control command for designating the start of the jackpot effect, and is transmitted to the effect control unit 300 at the start of the jackpot effect.

The jackpot end command is a control command for designating the end of the jackpot effect, and is transmitted to the effect control unit 300 at the end of the jackpot effect (at the end of the final round).
The jackpot command is a control command for designating a jackpot, and includes a round start command and a round end command.

  The round start command is a control command for designating the start of a round, and is transmitted to the effect control unit 300 at the start of the round. The round start command is set for each round. For example, when the maximum number of rounds is 15, 15 types of round start commands are set. Accordingly, when the round continues twice or more, the round start command is transmitted a plurality of times during the jackpot.

  The round end command is a control command for designating the end of the round, and is transmitted to the effect control unit 300 at the end of the round excluding the final round. The round end command is set for each round except the final round. For example, when the maximum number of rounds is 15, 14 types of round end commands are set. Therefore, when the round continues three or more times, the round end command is transmitted a plurality of times during the jackpot.

These control commands are merely representative, and various other control commands are defined. Among these control commands, encryption authentication data is added to predetermined ones. In the present embodiment, encrypted authentication data is added to a loss reach command or a loss non-reach command (that is, a loss command).
[Game control processing]
Next, the game control process executed by the main control unit 2a will be described.

The CPU 202 reads from the ROM 204 a control program that can execute one cycle at a predetermined operation clock (for example, 4 [ms]), and executes the game control process shown in the flowchart of FIG. 5 according to the read control program.
FIG. 5 is a flowchart showing the game control process.
When the game control process is executed by the CPU 202, as shown in FIG. 5, first, the process proceeds to step S100.

  In step S100, it is determined whether or not the power is turned on. When it is determined that the power is turned on (Yes), the process proceeds to step S102, but when it is determined that it is not (No), the power is turned on. It waits in step S100 until it turns on.

  In step S102, the contents of the RAM 206 are initialized, and an initialization process for transmitting a power-on command to the effect control unit 300 and the prize ball control unit 400 via the I / F 210 is executed.

  Next, the process proceeds to step S104, and a winning determination process is performed to determine that a game ball has been won at the start winning opening 105, and the process proceeds to step S106 to determine the jackpot and determine the variation pattern of the effect symbol. The jackpot determination process is executed, the process proceeds to step S108, the electric accessory control process for opening the opening / closing member of the big winning opening 109 in a predetermined pattern is performed, and the process proceeds to step S110.

  In step S110, a prize ball payout control process for storing in the transmission buffer of the RAM 206 a control command (payout control command) for designating game ball payout to the prize ball control unit 400 is executed, and the process proceeds to step S112. Then, a control command transmission process for transmitting the control command stored in the transmission buffer to the effect control unit 300 or the prize ball control unit 400 via the I / F 210 is executed, and the process proceeds to step S114.

In step S114, it is determined whether or not the power is turned off. When it is determined that the power is turned off (Yes), the process proceeds to step S116, and the effect control unit 300 and the award are received via the I / F 210. A termination process for transmitting a power-off command to the ball control unit 400 is executed, and the game control process is terminated.
On the other hand, when it is determined in step S114 that the power is not turned off (No), the process proceeds to step S104.

Note that the random number counter is updated using the remaining time during which each process is executed in one cycle (for example, 4 [ms]) of the operation clock. In addition, it can be updated by a random number update process executed in parallel with the game control process. For example, the random number counter counts up by “1” sequentially from “0”, and returns to “0” when the count value exceeds the maximum value (for example, “999”). Counting is performed cyclically in a range (for example, “0” to “999”).
[Control command transmission processing]
Next, the control command transmission process in step S112 will be described.
FIG. 6 is a flowchart showing the control command transmission process.
When the control command transmission process is executed in step S112, the process first proceeds to step S200 as shown in FIG.

  In step S200, the control command is read from the transmission buffer, and the process proceeds to step S202, where it is determined whether the read control command is a predetermined command, that is, a miss reach command or a miss non-reach command. Or when it determines with it being a non-reach non-reach command (Yes), it transfers to step S204.

In step S204, first authentication data is generated based on the data of the control program stored in the ROM 204. The first authentication data is data for authenticating the main control unit 200 by the production control unit 300. For example, calculation by a hash function, parity check, and circulation for part or all of the control program data Redundancy check (CRC (Cyclic
Redundancy Check)) or a value obtained by performing error detection calculation such as checksum is included as a verification value. Thus, the verification value is calculated from the data of the control program actually stored in the ROM 204. Therefore, by performing authentication using the verification value, it is possible to detect fraudulent acts such as replacing a regular main control board with an unauthorized main control board or falsifying the control program in the ROM 204.
Next, the process proceeds to step S206, and an encryption process for encrypting the generated first authentication data is executed by a predetermined encryption algorithm.

In this encryption process, for example, an encryption algorithm that calculates an exclusive OR (XOR) with an encryption key (for example, “0x33”) is used. In this case, the decryption algorithm corresponding to the encryption algorithm is the same.
Then, with this encryption algorithm, the operation value obtained by the executed encryption process is used as encrypted authentication data.

  Next, the process proceeds to step S208, and the control command read in step S200 is transmitted to the effect control unit 300 with the encrypted encrypted authentication data added thereto, and the series of processes is terminated and the original process is restored. .

  On the other hand, when it is determined in step S202 that the command is not a miss reach command or a miss non-reach command (No), the process proceeds to step S210, and the control command read in step S200 is directly used as the effect control unit 300 or the prize ball control unit 400. To complete the series of processing and return to the original processing.

Note that the transmission of the power-on command and the power-off command (steps S102 and S116) is similar to the control command transmission process shown in the flowchart of FIG.
[Winning determination process]
Next, the winning determination process in step S104 will be described.
FIG. 7 is a flowchart showing a winning determination process.
When the winning determination process is executed in step S104, the process first proceeds to step S300 as shown in FIG.
In step S300, it is determined whether or not the number of reserved balls is “0”, and when it is determined that the number of reserved balls is “0” (Yes), the process proceeds to step S302.

  In step S302, a timer (not shown) is used to determine whether or not a predetermined time (for example, 10 minutes) has elapsed since the last winning to the start winning opening 105, and when it is determined that the predetermined time has elapsed ( If Yes, the process proceeds to step S304.

  In step S304, a customer waiting demo execution process for performing a customer waiting demo is executed. In the customer waiting demo execution process, the customer waiting demo is started by storing the customer waiting demo start command in the transmission buffer. Further, when the resumption of the game is detected in response to winning at the start winning opening 105, an operation on the launching unit 482, etc., the customer waiting demo is terminated by storing a customer waiting demo stop command in the transmission buffer. Thereby, in the control command transmission process of step S112, a customer waiting demonstration start command or a customer waiting demonstration stop command is transmitted to the effect control unit 300.

  Next, the process proceeds to step S306, where the sensor signal from the start winning opening detection unit 280 is read via the I / F 210, and whether it is detected that the game ball has won the start winning opening 105 based on the read sensor signal. If it is determined whether or not the winning of the game ball is detected (Yes), the process proceeds to step S308.

  In step S308, it is determined whether or not the number of retained balls is “4” or more, and when it is determined that the number of retained balls is less than “4” (No), the process proceeds to step S310 and the number of retained balls is determined. “1” is added to, and the process proceeds to step S312.

  In step S312, the jackpot determined random number, stop symbol determined random number and other random numbers used for game control are acquired from the random number counter, and the process proceeds to step S314, where each acquired random number is stored in a predetermined area of the RAM 206 corresponding to the number of reserved balls. Store, end a series of processing, and return to the original processing.

  On the other hand, when it is determined in step S308 that the number of held balls is “4” or more (Yes) and when it is determined in step S306 that no winning of a game ball is detected (No), a series of processes To return to the original process.

On the other hand, when it is determined in step S302 that the predetermined time has not elapsed (No) and when it is determined in step S300 that the number of reserved balls is not “0” (No), the process proceeds to step S306. .
[Big hit judgment processing]
Next, the jackpot determination process in step S106 will be described.
FIG. 8 is a flowchart showing the jackpot determination process.

  In the jackpot determination process, in order to generate a jackpot with a predetermined probability, one jackpot value is set in a predetermined numerical range (for example, “0” to “400”) that can be taken by the jackpot determination random number, and the start winning hole 105 8 is a process for obtaining a jackpot decision random number at the winning timing when the game ball is won, and generating a jackpot when the acquired random number value matches the jackpot value. First, the process proceeds to step S400.

  In step S400, it is determined whether or not the effect symbol is changing in the symbol display unit 104, and when it is determined that the effect symbol is not changing (No), the process proceeds to step S402 and the number of reserved balls is “1”. When it is determined whether or not the number is equal to or more than one and the number of reserved balls is determined to be “1” or more (Yes), the process proceeds to step S404.

  In step S404, the jackpot determination random number is read from a predetermined area of the RAM 206 corresponding to the number of reserved balls, and the process proceeds to step S406 to determine whether or not the read random number value matches the jackpot value. When it is determined that it has been done (Yes), the process proceeds to step S408, the jackpot flag is set, and the process proceeds to step S410.

  In step S410, a big-hit stop symbol determination process is executed to determine the aspect of the effect symbol to be stopped at the big-hit. In the jackpot stop symbol determination process, for example, a jackpot stop symbol determination table is read from the ROM 204. Then, a stop symbol determination random number is read from a predetermined area of the RAM 206 corresponding to the number of reserved balls, a stop symbol number of the order of the read random number value is acquired from the read stop symbol determination table, and control indicating the acquired stop symbol number Store the command (designation command) in the transmission buffer.

  Next, the process proceeds to step S412, and the big hit hour fluctuation pattern determination process is executed for determining the fluctuation pattern of the effect symbol to be displayed in a variable manner at the big hit. In the jackpot variation pattern determination process, for example, a reach determination random number is acquired from a random number counter, and a variation pattern determination table for jackpot corresponding to the acquired random number value is read from the ROM 204. Since the jackpot reach command is registered only in one or a plurality of specific variation pattern determination tables, this selection based on the reach determination random number determines whether or not to perform the reach effect. Then, the fluctuation pattern determination random number is obtained from the random number counter, the fluctuation pattern number of the order of the obtained random number value is obtained from the read fluctuation pattern determination table, and the fluctuation pattern command indicating the obtained fluctuation pattern number is stored in the transmission buffer. To do. As a result, in the control command transmission process of step S112, the jackpot reach command and other variation pattern commands selected at the time of jackpot are transmitted to the effect control unit 300.

  Next, the process proceeds to step S414, and a symbol variation start process for storing in the transmission buffer a control command (variation start command) for designating the effect symbol variation start to the effect control unit 300 is executed, and the process proceeds to step S416. Then, “1” is subtracted from the number of held balls, a series of processing is terminated, and the original processing is restored.

  On the other hand, when it is determined in step S406 that it does not coincide with the jackpot value (No), the process proceeds to step S418, and the off-time stop symbol determining process is executed to determine the mode of the effect symbol to be stopped at the time of loss. The off-time stop symbol determination process is configured in the same manner as in step S410. The difference from step S410 is that a stop symbol determination table for detachment is used.

Next, the process proceeds to step S420, and a variation pattern determination process at the time of detachment is performed to determine a variation pattern of the effect symbol that is variably displayed at the time of the detachment. The deviation variation pattern determination process is configured in the same manner as in step S412. The difference from step S412 is that a deviation variation pattern determination table is used. Thereby, in the control command transmission process of step S112, the fluctuation pattern command selected at the time of the deviation non-reach command, the deviation reach command or the like is transmitted to the effect control unit 300.
When the process of step S420 ends, the process proceeds to step S414.
On the other hand, when it is determined in step S400 that the effect symbol is changing in the symbol display unit 104 (Yes), the process proceeds to step S422.

  In step S422, it is determined whether or not a predetermined time (for example, 30 seconds) has elapsed since the start of the change in the effect design. If it is determined that the predetermined time has elapsed (Yes), the process proceeds to step S424. The symbol stop process for storing in the transmission buffer a control command (design stop command) for designating the stop of the effect symbol to the effect control unit 300 is executed, and the series of processes is terminated and the original process is restored. Let

On the other hand, when it is determined at step S422 that the predetermined time has not elapsed (No) and when it is determined at step S402 that the number of reserved balls is “0” (No), a series of processing is performed. End and return to the original process.
[Electric character control processing]
Next, the electric accessory control process in step S108 will be described.
FIG. 9 is a flowchart showing the electric accessory control process.
When the electric accessory control process is executed in step S108, as shown in FIG. 9, first, the process proceeds to step S500.

  In step S500, it is determined whether or not the jackpot is based on the jackpot flag, and if it is determined that the jackpot is set by setting the jackpot flag (Yes), the process proceeds to step S502.

  In step S502, it is determined whether or not it is time to start the jackpot effect. If it is determined that it is time to start the jackpot effect (Yes), the process proceeds to step S504.

  In step S504, a jackpot presentation start process for storing the jackpot start command in the transmission buffer is executed, and a series of processes is terminated and the process returns to the original process. Thereby, in the control command transmission process of step S112, the jackpot start command is transmitted to the effect control unit 300.

  On the other hand, when it is determined in step S502 that it is not the timing to start the jackpot effect (No), the process proceeds to step S506, where it is determined whether it is the timing to start the round, and the timing to start the round. (Yes), the process proceeds to step S508.

  In step S508, a round start process for storing the round start command in the transmission buffer is executed, a series of processes are terminated, and the original process is restored. Thereby, in the control command transmission process of step S112, the round start command to which the encrypted authentication data is added is transmitted to the effect control unit 300.

  On the other hand, when it is determined in step S506 that it is not the timing to start the round (No), the process proceeds to step S510, where it is determined whether the round is continuing, and it is determined that the round is continuing. If (Yes), the process proceeds to step S512.

  In step S512, a special prize opening / closing control process for controlling the opening / closing of the special prize opening 109 is executed by the special prize opening / closing part 288, and a series of processes is terminated and the process returns to the original process.

  On the other hand, when it is determined in step S510 that the round is not continuing (No), the process proceeds to step S514, where it is determined whether it is time to end the round, and it is determined that it is time to end the round. If yes (Yes), the process proceeds to step S516.

  In step S516, “1” is added to the number of rounds, and the process proceeds to step S518 to determine whether or not the number of rounds exceeds the maximum number of rounds (for example, 15 times). When it determines (No), it transfers to step S520.

In step S520, a round end process for storing the round end command in the transmission buffer is executed, and a series of processes are ended to return to the original process. Thereby, in the control command transmission process of step S112, the round end command to which the encrypted authentication data is added is transmitted to the effect control unit 300.
On the other hand, when it is determined in step S518 that the number of rounds exceeds the maximum number of rounds (Yes), the process proceeds to step S522.

In step S522, a jackpot presentation end process for storing the jackpot end command in the transmission buffer is executed. Thereby, in the control command transmission process of step S112, a jackpot end command is transmitted to the effect control unit 300.
Next, the process proceeds to step S524, where the jackpot flag is reset, a series of processes are terminated, and the original process is restored.

On the other hand, when it is determined at step S514 that it is not the timing to end the round (No), and when it is determined at step S500 that the big hit flag is not reset because the big hit flag is reset (No), a series of processing To return to the original process.
[Production control processing]
Next, the effect control process executed by the effect control unit 300 will be described.
The CPU 302 reads the control program from the ROM 304, and executes the effect control process shown in the flowchart of FIG. 10 according to the read control program.
FIG. 10 is a flowchart showing the effect control process.
When the effect control process is executed in the CPU 302, as shown in FIG. 10, first, the process proceeds to step S600.

  In step S600, a control command reception process for receiving a control command from the main control unit 200 is executed, and the process proceeds to step S602 to execute a fluctuation pattern command process for processing a fluctuation pattern command among the received control commands. The process proceeds to S604.

In step S604, a jackpot command process for processing the jackpot command among the received control commands is executed, and the process proceeds to step S606, and other command processes for processing the received control command other than the variation pattern command and the jackpot command. And the process proceeds to step S600.
[Control command reception processing]
Next, the control command reception process in step S600 will be described.
FIG. 11 is a flowchart showing control command reception processing.
When the control command reception process is executed in step S600, the process first proceeds to step S700 as shown in FIG.

  In step S700, it is determined whether or not a control command has been received from the main control unit 200 via the I / F 310. When it is determined that a control command has been received (Yes), the process proceeds to step S702. (No), the process waits in step S700 until a control command is received.

  In step S702, it is determined whether the received control command is an outlier reach command or an outlier nonreach command. If it is determined that the received control command is an outlier reach command or an outlier nonreach command (Yes), the process proceeds to step S704. The encrypted authentication data added to the received control command is acquired, and the process proceeds to step S706.

  In step S706, a decryption process for decrypting the obtained encrypted authentication data is executed by a decryption algorithm corresponding to a predetermined encryption algorithm used by the main control unit 200.

  As the decryption algorithm, for example, a decryption algorithm that calculates an exclusive OR with a decryption key (for example, “0x33”) is used. Here, the decryption algorithm is capable of decrypting the encrypted result encrypted by the encryption algorithm.

  Therefore, in the decryption process, the verification value is obtained by decrypting the encrypted authentication data by the decryption algorithm. This verification value matches the verification value generated by the main control unit 200 (that is, the expected value).

Next, the process proceeds to step S708, the expected value is read from the ROM 304, and the process proceeds to step S710, where it is determined whether the verification value obtained by decoding matches the read expected value, When it is determined that they match (Yes), the process proceeds to step S712.
In step S712, the control command received in step S700 is stored in the reception buffer of the RAM 306, and a series of processing is terminated and the original processing is restored.
On the other hand, when it is determined in step S710 that the verification value does not match the expected value (No), the process proceeds to step S716.
In step S716, the control command received in step S700 is discarded, and the process proceeds to step S718.

In step S718, a fraud notification process for transmitting a control command (fault notification effect command) for designating a fraud notification effect for performing a fraud notification to the symbol display unit 104, the sound control unit 382, and the lamp control unit 386, respectively. Run. When the symbol display unit 104, the voice control unit 382, and the lamp control unit 386 receive the fraud notification effect command, the fraud notification effect is performed. In the fraud notification effect, for example, a character that does not normally appear in the symbol display unit 104 appears, or a character appears in a method different from normal. Further, notification may be performed by changing the brightness or color of the symbol display unit 104 or blinking the lamp 384 with a predetermined blinking pattern. This makes it easier for employees of pachinko halls to recognize the condition. Further, the fraud notification effect may be performed in a mode in which the player is difficult to recognize the state, or conversely, may be performed in a mode in which the player is easy to recognize. If it is performed in a manner that is easy for the player to recognize, it can be expected that fraud will be stopped.
When the process of step S718 ends, the series of processes ends and the original process is restored.

On the other hand, when it is determined in step S702 that the received control command is not an outlier reach command or an outlier non-reach command (No), the process proceeds to step S720, and the control command received in step S700 is stored in the reception buffer. A series of processing is terminated and the original processing is restored.
[Variation pattern command processing]
Next, the variation pattern command process in step S602 will be described.
FIG. 12 is a flowchart showing the variation pattern command processing.
When the variation pattern command process is executed in step S602, as shown in FIG. 12, first, the process proceeds to step S800.

  In step S800, it is determined whether or not a variation pattern command has been received based on the control command of the reception buffer. When it is determined that the variation pattern command has been received (Yes), the process proceeds to step S802. When it is determined (No), the process waits in step S800 until a variation pattern command is received.

  In step S802, a random number is acquired from a random number counter, the process proceeds to step S804, and one of a plurality of variation effects corresponding to the received variation pattern command is selected based on the acquired random number, and the process proceeds to step S806. Transition.

  In step S806, a variation effect start process for transmitting a control command (variation effect start command) for designating the start of the selected variation effect to the symbol display unit 104, the sound control unit 382, and the lamp control unit 386 is performed. Run.

  Next, the process proceeds to step S808, where it is determined whether or not a predetermined time (for example, 30 seconds) has elapsed since the transmission of the change effect start command, and when it is determined that the predetermined time has not elapsed (No). Shifts to step S810 to determine whether or not a symbol stop command has been received based on the control command of the reception buffer, and when it is determined that a symbol stop command has been received (Yes), shifts to step S812. .

In step S812, a variation effect end process is performed in which a control command (variation effect end command) for designating the end of the variation effect is transmitted to the symbol display unit 104, the sound control unit 382, and the lamp control unit 386, respectively. .
When the process of step S812 ends, the series of processes ends and the original process is restored.
On the other hand, when it determines with not receiving a symbol stop command by step S810 (No), it transfers to step S808.
On the other hand, when it is determined in step S808 that the predetermined time has elapsed (Yes), the process proceeds to step S812.

The random number counter can be updated by the above method employed by the main control unit 200. However, the update method is not necessarily the same as that of the main control unit 200.
[Big hit command processing]
Next, the jackpot command processing in step S604 will be described.
FIG. 13 is a flowchart showing the jackpot command processing.
When the jackpot command process is executed in step S604, the process first proceeds to step S900 as shown in FIG.

  In step S900, it is determined whether or not a jackpot start command has been received based on the control command of the reception buffer. If it is determined that a jackpot start command has been received (Yes), the process proceeds to step S902.

  In step S902, a jackpot effect start process for transmitting a control command (a jackpot effect start command) for designating the start of a jackpot effect to the symbol display unit 104, the sound control unit 382, and the lamp control unit 386 is executed. .

  Next, the process proceeds to step S904, where it is determined whether a round start command is received based on the control command of the reception buffer. When it is determined that the round start command is received (Yes), the process proceeds to step S906. .

  In step S906, a round effect start process for transmitting a control command (round effect start command) for designating the start of the round effect to the symbol display unit 104, the sound control unit 382, and the lamp control unit 386 is executed. .

  Next, the process proceeds to step S908, where it is determined whether a round end command has been received based on the control command of the reception buffer. When it is determined that a round end command has been received (Yes), the process proceeds to step S910. .

  In step S910, a round effect end process for transmitting a control command (round effect end command) for designating the end of the round effect to the symbol display unit 104, the sound control unit 382, and the lamp control unit 386 is executed. The process proceeds to step S904.

  On the other hand, when it is determined in step S908 that the round end command is not received (No), the process proceeds to step S912, where it is determined whether or not the jackpot end command is received based on the control command of the reception buffer. When it is determined that the end command has been received (Yes), the process proceeds to step S914.

In step S914, a big hit effect ending process is executed for transmitting a control command (big hit effect end command) for designating the end of the big win effect to the symbol display unit 104, the sound control unit 382, and the lamp control unit 386, respectively. Then, the series of processes is terminated and the original process is restored.
On the other hand, when it is determined in step S912 that the jackpot end command is not received (No), the process proceeds to step S908.

  On the other hand, when it is determined in step S904 that the round start command is not received (No), the process waits in step S904 until the round start command is received.

On the other hand, when it is determined in step S900 that the jackpot start command is not received (No), the process waits in step S900 until the jackpot start command is received.
[Operation of the present embodiment]
Next, the operation of the present embodiment will be described.

  First, when power is turned on to the pachinko machine, the main control unit 200 executes an initialization process through step S102. In the initialization process, a power-on command is transmitted. Since the power-on command is not a predetermined command (that is, a miss reach command or a miss non-reach command), the effect control unit 300 and the prize ball control unit 400 are not added with encryption authentication data through step S210. It is sent as it is.

  When the effect control unit 300 receives the power-on command, the effect display unit 104, the sound control unit 382, and the lamp control unit 386 receive the control command for the effect when the power is turned on (specifically, display of a demonstration screen). , The lighting of the lamp 384 and the control command for designating the output of sound) are transmitted respectively.

  When the initialization process is completed, the main control unit 200 repeatedly performs a winning determination process, a jackpot determination process, an electric accessory control process, and a control command transmission process at predetermined intervals through steps S104 to S112. As a result, the pachinko machine is in a playable state. A player can play a game by loading a rented game ball into a pachinko machine and operating the launch unit 482 to fire the game ball onto the game board 101.

  When the game ball launched by the player wins the start winning opening 105, the main control unit 200 acquires a jackpot determination random number at the winning timing through steps S306 and S312. Then, after steps S404 and S406, if the acquired random number value matches the jackpot value, it is a jackpot.

  When the jackpot is reached, the stop symbol mode and the variation pattern at the jackpot are determined through steps S410 and S412. At this time, when it is determined to perform the reach effect, in the control command transmission process, a symbol designation command for designating a jackpot symbol and a jackpot reach command are transmitted. Since the jackpot reach command is not a predetermined command (ie, a miss reach command or a miss non-reach command), the encrypted authentication data is not added to the effect control unit 300 via step S210.

  When the effect control unit 300 receives the jackpot reach command, the process at the time of jackpot reach change is executed based on the received jackpot reach command through steps S802 to S812.

  In the main control unit 200, through steps S414 and S424, the effect symbols are variably displayed with a predetermined variation pattern, and after a part of the effect symbols is stopped with the reach symbol, the effect symbols are stopped with the jackpot symbol. When the effect symbol stops, a jackpot start command is transmitted in the control command transmission process. Since the jackpot start command is not a predetermined command (that is, a miss reach command or a miss non-reach command), the encrypted authentication data is not added to the effect control unit 300 via step S210.

  When the effect control unit 300 receives the jackpot start command, the process at the time of starting the jackpot effect is executed based on the received jackpot start command through step S902.

  During the big hit, the round continues until the predetermined condition is satisfied with the maximum number of rounds as the upper limit. In the control command transmission process, a jackpot command is transmitted at the start and end of a round. Since the jackpot command is not a predetermined command (that is, a miss reach command or a miss non-reach command), the encrypted authentication data is not added to the effect control unit 300 through step S210.

  In addition, during the big hit, the big winning opening 109 is opened with a predetermined opening / closing pattern, and when a gaming ball wins the big winning opening 109, a predetermined number of gaming balls are paid out as one winning ball.

  When the final round ends, a jackpot end command is transmitted in the control command transmission process. Since the jackpot end command is not a predetermined command (that is, a miss reach command or a miss non-reach command), the encrypted authentication data is not added to the effect control unit 300 via step S210.

When the effect control unit 300 receives the jackpot end command, the process at the time of the end of the jackpot effect is executed based on the received jackpot end command through step S914.
On the other hand, if the acquired random number value does not coincide with the jackpot value through steps S404 and S406, the result is a loss.

  When it comes off, through steps S418 and S420, the mode and variation pattern of the stop symbol at the time of loss are determined. At this time, when it is determined to perform the reach effect, in the control command transmission process, a symbol designating command and a missed reach command for designating a missed symbol (or an effect of becoming a missed symbol) are transmitted. On the other hand, when it is determined not to perform the reach effect, the symbol designation command and the off-reach non-reach command are transmitted in the control command transmission process. Since the loss reach command and the loss non-reach command are predetermined commands, encrypted authentication data is added and transmitted to the effect control unit 300, which is an example of the peripheral portion 3a, through steps S204 to S208.

  When the production control unit 300 receives the outlier reach command or the outlier nonreach command, the process at the time of deviation fluctuation is executed based on the received outlier reach command or outlier nonreach command through steps S802 to S812.

  On the other hand, when the game is interrupted, the main control unit 200 executes a customer waiting demonstration execution process. In the control command transmission process, a customer waiting demonstration start command is transmitted. Since the customer-waiting demo start command is not a predetermined command (that is, a miss reach command or a miss non-reach command), the encrypted authentication data is not added to the effect control unit 300 via step S210. .

  When the production control unit 300 receives the customer waiting demonstration start command, as a process at the time of the customer waiting demonstration start, control commands for the customer waiting demonstration are sent to the symbol display unit 104, the voice control unit 382, and the lamp control unit 386, respectively. Sent.

  Thereafter, when the game is resumed, a customer waiting demonstration stop command is transmitted in the control command transmission process. Since the customer-waiting demo stop command is not a predetermined command (that is, a miss reach command or a miss non-reach command), the encrypted authentication data is not added to the effect control unit 300 via step S210. .

  When the production control unit 300 receives the customer waiting demonstration stop command, a control command for the customer waiting demonstration is sent to the symbol display unit 104, the voice control unit 382, and the lamp control unit 386 as processing at the time of the customer waiting demonstration end. Sent.

  In the above description, the case where the control command is not a predetermined command and the encrypted authentication data is transmitted without being added has been described. However, dummy value data is added instead of the encrypted authentication data. You may send it. In this case, the intermediate unit receives the control command to which the dummy value data is added via the peripheral unit. The intermediate unit that has received it may transmit the dummy value data as it is to the peripheral unit, or may generate another dummy value data and transmit it to the peripheral unit.

  FIG. 14 is a diagram showing a sequence of the authentication operation of the pachinko machine. When the control command is a predetermined command (that is, a loss reach command or a loss non-reach command), the encrypted authentication data is added and then transmitted from the main control unit 2a.

  When a control command is stored (S1) and the control command is a predetermined command (ie, a miss reach command or a miss non-reach command), first authentication data including a verification value is generated (S2). The generated first authentication data is encrypted by a predetermined encryption algorithm (S3). Then, the loss reach command or the loss non-reach command to which the first authentication data is added is transmitted from the main control unit 2a to the peripheral unit 3a (S4, S5).

The loss reach command or the loss non-reach command to which the first authentication data is added is received by the peripheral part (S6). Then, the loss reach command or the loss non-reach command to which the first authentication data is added is transmitted from the peripheral portion 3a to the intermediate portion 3b via the bus 3c (S7, S8).
Further, processing based on the outlier reach command or the outlier non-reach command is performed in the peripheral portion 3a (S9).

The loss reach command or the loss non-reach command to which the first authentication data is added is received by the intermediate unit 3b (S10). The intermediate unit 3b generates second authentication data based on the first authentication data (S11). The generated second authentication data is transmitted from the intermediate unit 3b to the peripheral unit 3a (S12, S13). The second authentication data is received by the peripheral part 3a (S14). In the peripheral part 3a, after the decryption process is performed (S15), the authentication process using the second authentication data is performed (S16). In the case of authentication OK, the processing is continued as it is.
If the authentication is not OK (No in S17), it is notified that the main control unit 2a is not valid (S18).

Here, the authentication process in the peripheral part 3a will be described in more detail. For example, when the verification value is “0x12”, encrypted authentication data “0x21” is obtained by the predetermined encryption algorithm as shown in the following formula (1).
0x21 = 0x12 xor 0x33 (1)

When receiving the loss reach command or the loss non-reach command, the effect control unit 300 acquires encrypted authentication data added to the received command through steps S704 and S706, and the acquired encrypted authentication data is predetermined. Decrypted by the decryption algorithm.
When the encrypted authentication data “0x21” obtained by the above equation (1) is decrypted by a predetermined decryption algorithm, the verification value “0x12” is obtained by the following equation (2).
0x12 = 0x21 xor 0x33 (2)

  When the verification value is obtained, an expected value “0x12” that is the same value as the verification value generated by the main control unit 200 is read through step S708. Then, through step S710, the verification value obtained by decoding is collated with the expected value. At this time, since the verification value “0x12” obtained by the above equation (2) matches the expected value “0x12”, authentication is obtained, and the control command is stored in the reception buffer through step S712. Then, processing is executed based on the received control command.

  On the other hand, if an unauthorized act such as an unauthorized control board is connected between the main control board and the production control board, even if the unauthorized control board sends a control command to the production control board, In the effect control unit 300, since the encrypted authentication data is not added to the received command, the verification value does not match the expected value, and there is a high possibility that the authentication cannot be obtained. As a result, the received control command is discarded through steps S716 and S718, and the fraud notification process is executed (that is, it is notified that the main control unit is not valid).

  Even if an unauthorized control board adds some authentication data and transmits a control command to the production control board, the production control unit 300 cannot obtain an appropriate verification value, so that the verification value matches the expected value. Therefore, there is a high possibility that authentication will not be obtained.

  It should be noted that the order in which the processing is performed is not limited for the transmission of the control command to the intermediate portion in the peripheral portion and the processing based on the control command in the peripheral portion. That is, as shown in FIG. 14, the order in which the control command is transmitted to the intermediate portion is performed first, and then the processing based on the control command is performed, and conversely, based on the control command. The order may be such that the processing is performed first and then the control command is transmitted to the intermediate portion.

  Similarly, the order in which processing is performed does not matter for the processing based on the control command in the peripheral portion and the authentication processing using the second authentication data in the peripheral portion. In other words, the processing based on the control command may be performed first, and then the authentication processing using the second authentication data may be performed, or vice versa.

FIG. 15 is a sequence diagram illustrating an operation based on a control command other than a miss reach command or a miss non-reach command. As shown in FIG. 15, when a control command other than an outlier reach command or outlier non-reach command is stored (S151), a normal control command to which no authentication data is added is transmitted from the main control unit 2a to the peripheral unit 3a. (S152, S153). The control command is received by the peripheral part (S154), and processing based on the control command is performed (S155). Control commands other than the miss reach command or the miss non-reach command are not transmitted from the peripheral portion 3a to the intermediate portion 3b.
[Timing of authentication operation]

  Incidentally, the main control unit 2a normally outputs a plurality of control commands at intervals. In the following, a case where the main control unit 2a outputs the detachment reach command B1 or the detachment non-reach command B2 after the detachment reach command A1 or the detachment non-reach command A2 is output will be described as an example. The timing of the authentication operation when outputting the control command at intervals will be described with reference to FIGS. 16 and 17.

  In FIG. 16, the rendering or pre-processing or post-processing is executed when the main control unit 2a outputs the detachment reach command B1 or the detachment non-reach command B2 after outputting the detachment reach command A1 or the detachment non-reach command A2. FIG. 6 is a first diagram illustrating the timing at which the peripheral portion 3a performs authentication processing. In FIG. 17, the rendering or pre-processing or post-processing is executed when the main control unit 2a outputs the detachment reach command B1 or the detachment non-reach command B2 after outputting the detachment reach command A1 or the detachment non-reach command A2. It is a 2nd figure which shows the timing which the peripheral part 3a performs an authentication process.

  When the main control unit 2a outputs the miss reach command A1 or the miss non-reach command A2, the main control unit 2a outputs first authentication data associated with the miss reach command A1 or the miss non-reach command A2. When the main control unit 2a outputs the outlier reach command B1 or the outlier nonreach command B2, the main controller 2a outputs first authentication data associated with the outlier reach command B1 or outlier nonreach command B2.

  At this time, after the authentication operation is performed on the second authentication data generated based on the detachment reach command A1 or the detachment non-reach command A2, the second detachment reach command B1 or detachment non-reach is performed from the main control unit 2a. The command B2 may be output. For example, as shown in FIG. 16, after the production based on the outlier reach command A1 or the outlier nonreach command A2 or the execution period t41 of the pre-processing or post-processing, the second corresponding to the outlier reach command A1 or outlier non-reach command A2. Whether or not the main control unit 2a is legitimate is determined in the period t42 based on the authentication data. Thereafter, after the performance based on the outlier reach command B1 or the outlier nonreach command B2 or the execution period t43 of the pre-processing or post-processing, based on the second authentication data corresponding to the outlier reach command B1 or outlier non-reach command B2. Whether or not the control unit 2a is valid is determined in a period t44.

  On the other hand, the main control unit 2a does not perform the outreach reach command B1 or the out-of-reception command from the main control unit 2a before the authentication operation for the second authentication data corresponding to the outreach reach command A1 or the outreach non-reach command A2. The reach command B2 may be output. In this case, as shown in FIG. 17, after the production based on the outlier reach command B1 or the outlier nonreach command B2 or the execution period t42 ′ of the pre-processing or post-processing, it corresponds to the outlier reach command A1 or outlier non-reach command A2. Based on the second authentication data, it is determined in period t43 ′ whether or not the main control unit 2a is valid. Thereafter, based on the second authentication data corresponding to the miss reach command B1 or the miss non-reach command B2, whether or not the main control unit 2a is valid is determined in the period t44 '.

  In any case, as apparent from FIG. 16 and FIG. 17, the peripheral portion 3a receives the outlier reach command after a period in which the presentation based on the outlier reach command or the outlier non-reach command or the pre-processing or post-processing is executed. Alternatively, it is determined whether or not the main control unit 2a is valid based on the second authentication data corresponding to the non-reach command.

  As described above, the pachinko machine according to the present embodiment includes the intermediate unit 3b that generates the second authentication data used to determine whether or not the main control unit 2a is valid, separately from the peripheral unit 3a. Therefore, the burden on the peripheral portion 3a is reduced, the authentication data capacity is increased, or complicated arithmetic processing is performed to increase the security strength compared to the prior art, and whether or not the main control portion 2a is legitimate. Can be determined.

  Further, the peripheral portion 3a is output from the main control unit 2a together with the detachment reach command or the detachment non-reach command after the period in which the production based on the detachment reach command or the detachment non-reach command or the pre-processing or post-processing is executed. Based on the second authentication data generated based on the first authentication data, it is determined whether or not the main control unit 2a is valid. Therefore, even if the capacity of the authentication data is increased or a complicated calculation process is performed, the intermediate unit 3b can generate the second authentication data independently of the operation of the peripheral unit 3a. Therefore, the pachinko machine according to the present embodiment can determine whether or not the main control unit 2a is legitimate by increasing the strength of security compared to the conventional one.

  In the above-described embodiment, the peripheral board 3 has the bus 3c which is the only communication path used for signal exchange between the peripheral part 3a and the intermediate part 3b. However, as shown in FIG. 18, the peripheral board 3 does not have the bus 3c, but the bus 3d and the bus 3e, which are two communication paths used for signal exchange between the peripheral portion 3a and the intermediate portion 3b. You may have. In that case, the peripheral unit 3a outputs the first authentication data to the intermediate unit 3b via one of the communication paths (for example, the bus 3d), and the intermediate unit 3b determines whether the main control unit 2a is valid. The second authentication data used for the determination is output to the peripheral portion 3a via the other communication path (for example, the bus 3e).

  Further, a memory having a program for causing a computer to realize the functions of the main control unit 2a and a computer for executing the program may be provided on the main control board 2. In this case, the function of the main control unit 2a is realized by the computer executing the program.

  A memory having a program for causing the computer to realize the functions of the peripheral unit 3a and a computer for executing the program may be provided on the peripheral board 3. In this case, the function of the peripheral portion 3a is realized by the computer executing the program.

A memory having a program for causing the computer to realize the function of the intermediate unit 3b and a computer for executing the program may be provided on the peripheral board 3. In this case, the function of the intermediate unit 3b is realized by the computer executing the program.
[Authentication method]

In the gaming machine described above, the following authentication method is employed. That is, a main control unit that outputs a loss command for designating that a normal state continues without a special state relating to a game, and first authentication data for authenticating that it is valid, An authentication method for a gaming machine comprising an effect based on the off command or a peripheral unit that controls execution of pre-processing or post-processing of the effect, wherein the gaming machine is valid for the main control unit. Generating a second authentication data for determining the second authentication data, and outputting the second authentication data to the peripheral unit, wherein the main control unit includes the detach command and the first authentication data. Are output (corresponding to S4 and S5 in FIG. 14), and the peripheral portion controls execution of the effect or the pre-processing or post-processing, and outputs the first authentication data. Step (corresponding to S7, S8 in FIG. 14), the intermediate portion, for the main control unit determines whether it is justified on the basis of the first authentication data output from the peripheral portion Generating second authentication data that is data and has been subjected to simpler encryption processing than the first authentication data , and outputting the second authentication data to the peripheral portion (S11 in FIG. 14) And an authentication method in which the peripheral unit determines whether or not the main control unit is valid based on the second authentication data (corresponding to S16 in FIG. 14). It has been adopted. When this authentication method is adopted, in addition to the peripheral part, by providing an intermediate part that generates intermediate data for determining whether or not the main control part is valid, all authentication processes are performed at the peripheral part. Compared to the above, the burden on the peripheral part is reduced, the authentication data capacity is increased, or complicated arithmetic processing is performed to increase the security strength compared to the conventional one to determine whether the main control part is valid. Judgment can be made. In addition, when the peripheral part is determined not to be valid by the main control part, it further includes a step of notifying the fact (corresponding to S18 in FIG. 14), so that employees and players of the pachinko hall It becomes easy to recognize the state.

In the peripheral portion 3a of the gaming machine described above, the following authentication method is employed. That is, a main control unit that outputs a loss command for designating that a normal state continues without a special state relating to a game, and first authentication data for authenticating that it is valid, Generating a second authentication data for determining whether or not the main control unit is valid, and a peripheral unit that controls the execution based on the off-line command or the pre-processing or post-processing of the production, An authentication method for authenticating the main control unit in a gaming machine comprising an intermediate unit that outputs second authentication data to the peripheral unit , wherein the intermediate unit transmits the first authentication data to the peripheral unit parts and acquiring through the (corresponding to S8, S10 in FIG. 14), the intermediate portion, is valid the main control section based on the first authentication data acquired in said acquisition step Generating a second authentication data data a and and the first simple encryption process than the authentication data is performed to determine whether to output the second authentication data to the peripheral portion step and a (corresponding to S11~S13 in FIG. 14), the peripheral portion, whether the main control unit is valid, authentication methods to be determined based on the second authentication data Is adopted. When this authentication method is adopted, second authentication data that is intermediate data is generated using the first authentication data acquired via the peripheral portion, and the peripheral portion is controlled by the second authentication data. Since the authentication is performed on the authentication part, the burden on the peripheral part is reduced compared to the case where the entire authentication process is performed on the peripheral part. It is possible to determine whether or not the main control unit is valid. Further, the peripheral portion further includes a notification signal output step (corresponding to S18 in FIG. 14) for outputting a signal for notifying the authentication result when it is determined that the main control portion is not valid. Hall employees and players can easily recognize the situation.

The peripheral unit may determine whether or not the main control unit is valid after the production based on the off command or the period during which the pre-processing or post-processing is executed. By determining whether or not the main control unit is legitimate after the production based on the off command or the period during which pre-processing or post-processing is executed, the capacity of the authentication data is increased or complicated arithmetic processing is performed. Alternatively, the second authentication data can be generated independently of the operation of the peripheral part. Therefore, it is possible to determine whether or not the main control unit is legitimate by increasing the strength of security compared to the conventional case.
〔program〕

Moreover, in order to implement | achieve the said authentication method, the program which makes a computer perform the following each step may be prepared, and may be performed by CPU in a peripheral part . In other words, this program outputs a failure command for designating that the special state relating to the game does not occur and the normal state continues and the first authentication data for authenticating that it is valid. A control unit, an effect based on the off command, a peripheral unit that controls execution of pre-processing or post-processing of the effect, and second authentication data for determining whether the main control unit is valid A program for authenticating the main control unit in a gaming machine comprising an intermediate unit that generates and outputs the second authentication data to the peripheral unit, the computer authenticating the peripheral unit the data output steps to be output to said intermediate portion, based on the first authentication data output in said output step, the main control unit determines whether it is legitimate Acquisition step of acquiring second authentication data data a and and the first simple encryption process than authentication data because is generated is subjected from the intermediate portion, or the main control unit is legal the whether a program characterized by executing the absence Te' flop, be determined based on the second authentication data acquired in the acquisition step. When this program is executed by a computer, second authentication data, which is intermediate data for determining whether or not the main control unit is valid, is generated in the intermediate unit, so that all authentication processing is performed in the peripheral unit Compared to the above, the burden on the peripheral part is reduced, the authentication data capacity is increased, or complicated arithmetic processing is performed to increase the security strength compared to the conventional one to determine whether the main control part is valid. Judgment can be made. When it is determined that the main control unit is not valid, it may further include a notification signal output step of outputting a signal for notifying the authentication result. This makes it easier for employees and players of pachinko halls to recognize the state.

Then, it may be determined whether or not the main control unit is valid after the production based on the miss command or the period during which the pre-processing or post-processing is executed. By determining whether or not the main control unit is legitimate after the production based on the off command or the period during which pre-processing or post-processing is executed, the capacity of the authentication data is increased or complicated arithmetic processing is performed. Alternatively, the second authentication data can be generated independently of the operation of the peripheral part. Therefore, it is possible to determine whether or not the main control unit is legitimate by increasing the strength of security compared to the conventional case.
[Modification]

  In the above-described embodiment, the case where the peripheral unit 3a performs notification that the main control unit 2a is not valid has been described. However, a notification unit for the notification is provided, and the notification unit is the peripheral unit 3a. Notification may be performed instead of. For example, as shown in FIGS. 19 and 20, a notification unit 4 that notifies that the main control unit 2a is not valid may be provided separately from the peripheral unit 3a. When the notification unit 4 receives a signal indicating that the main control unit 2a is not valid from the peripheral unit 3a, the notification unit 4 notifies the outside of the pachinko machine to that effect.

FIG. 19 is a diagram illustrating a configuration in which a notification unit 4 is added to the configuration illustrated in FIG. FIG. 20 is a diagram illustrating a configuration in which a notification unit 4 is added to the configuration illustrated in FIG. In either case of FIG. 19 or FIG. 20, the notification unit 4 performs notification by displaying on a liquid crystal (not shown) or notification by turning on a lamp or the like. Not only visual notification by turning on or blinking a liquid crystal display or a lamp, but also auditory notification by outputting sound from a speaker (not shown) and tactile notification by vibrating a vibrator (not shown). You may go. Moreover, you may perform combining these alerting | reporting.
Further, the peripheral unit 3a may simply pass the first authentication data from the main control unit 2a without receiving it and allow the intermediate unit 3b to receive it.
In addition, the first authentication data transmitted from the main control unit to the intermediate unit via the peripheral unit is subjected to a complicated encryption process. After the encryption process is canceled in the intermediate unit, the first authentication data is transferred from the intermediate unit to the peripheral unit. The second authentication data to be transmitted to may be subjected to a non-complex encryption process (encryption process simpler than the first authentication data). In this way, even when a complicated encryption process is employed for the first authentication data transmitted from the main control unit to the intermediate part via the peripheral part, the peripheral part employs an uncomplicated encryption process. Since the authentication is performed using the second authentication data, the load on the peripheral portion can be reduced.

  Further, in the above-described embodiment, the gaming machine of the present invention has been described by taking a pachinko machine as an example. However, the gaming machine of the present invention is not limited to a pachinko machine. Examples of the gaming machine of the present invention include a pachislot machine, an amusement game machine, and the like having an execution unit that executes an effect relating to a game. In that case, a gaming machine such as a pachislot machine or an amusement game machine has a main control part 2a, a peripheral part 3a, and an intermediate part 3b.

DESCRIPTION OF SYMBOLS 1 Game board 2 Main control board 2a Main control part 3 Peripheral board 3a Peripheral part 3b Intermediate | middle part 3c-3e Bus | bath 4 Information part 100 Game control apparatus 101 Game area 102a, 102b Rail 104 Symbol display part 105 Start winning opening 106 Winning gate 107 Normal winning port 108 Collection port 109 Large winning port 201 Main control unit 202 CPU
202a Production control unit 203d Prize ball control unit 204 ROM
206 RAM
210 I / F
280 Start winning port detecting unit 282 Gate detecting unit 284 Normal winning port detecting unit 286 Large winning port detecting unit 288 Large winning port opening / closing unit 300 Production control unit 302 CPU
304 ROM
306 RAM
308 VRAM
310 I / F
311 Control command storage unit 312 Addition unit 313 Recording unit 314 Production related device group 314a Transmission unit 321 Reception unit 322 Intermediate unit 323 Notification signal output unit 380 Speaker 382 Audio control unit 384 Lamp 386 Lamp control unit 400 Prize ball control unit 402 CPU
404 ROM
406 RAM
410 I / F
414 Prize ball-related device group 480 Dispensing unit 482 Launching unit 500 Control command 501 Control data 502 Authentication data

Claims (14)

A main control unit for outputting a loss command for designating that the normal state continues without generating a special state relating to the game, and first authentication data for authenticating that it is valid;
With the output of the main control unit as an input, and controlling the execution of the effect based on the off command or the pre-processing or post-processing of the effect, and a peripheral unit that outputs the first authentication data;
It is data for determining whether or not the main control unit is legitimate based on the first authentication data output from the peripheral part , and has a simpler encryption process than the first authentication data. An intermediate unit that generates second authentication data that has been applied and outputs the second authentication data to the peripheral unit;
The peripheral device determines whether or not the main control unit is valid based on the second authentication data. The gaming machine according to claim 1, wherein when the main control unit is determined not to be valid, the peripheral unit notifies the fact. The peripheral unit determines whether or not the main control unit is valid after a period in which the effect based on the off command or the pre-processing or post-processing of the effect is executed. Or the gaming machine of 2. The gaming machine according to any one of claims 1 to 3, further comprising a single path used for signal exchange between the peripheral portion and the intermediate portion. Two paths used for signal exchange between the peripheral part and the intermediate part,
The peripheral portion outputs the first authentication data to the intermediate portion through one of the paths,
The gaming machine according to any one of claims 1 to 3, wherein the intermediate unit outputs the second authentication data to the peripheral unit through the other of the paths. The main control unit controls the execution of the effect based on the off command for designating that the special state related to the game does not occur and the normal state continues, or the pre-processing or post-processing of the effect, from the main control unit. A peripheral unit for outputting first authentication data for authenticating that the main control unit is valid,
It is data for determining whether or not the main control unit is legitimate based on the first authentication data output from the peripheral part , and has a simpler encryption process than the first authentication data. An intermediate unit that generates second authentication data that has been applied and outputs the second authentication data to the peripheral unit;
The peripheral board, wherein the peripheral section determines whether or not the main control section is valid based on the second authentication data. The peripheral board according to claim 6, wherein, when it is determined that the main control section is not valid, the peripheral section notifies that fact. 8. The peripheral unit determines whether or not the main control unit is valid after the presentation based on the miss command or a period during which the pre-processing or post-processing is executed. The peripheral board as described in. A main control unit that outputs an outage command for designating that the normal state continues without generating a special state relating to the game, and first authentication data for authenticating that the game is valid; An authentication method in a gaming machine comprising an effect based on a command or a peripheral unit that controls execution of pre-processing or post-processing of the effect, wherein the gaming machine determines whether or not the main control unit is valid Further comprising an intermediate unit for generating second authentication data for outputting and outputting the second authentication data to the peripheral unit,
The main control unit outputting the control command and the first authentication data;
The peripheral portion controls execution of the effect or the pre-processing or post-processing, and outputs the first authentication data;
The intermediate unit is data for determining whether or not the main control unit is valid based on the first authentication data output from the peripheral unit , and is simpler than the first authentication data. Generating second authentication data subjected to a simple encryption process , and outputting the second authentication data to the peripheral part;
An authentication method, wherein the peripheral section includes an authentication step of determining whether or not the main control section is valid based on the second authentication data.   The authentication method according to claim 9, further comprising a step of notifying the peripheral unit when the main control unit is determined not to be valid. A main control unit that outputs an outage command for designating that the normal state continues without generating a special state relating to the game, and first authentication data for authenticating that the game is valid; Generating second authentication data for determining whether or not the main control unit is legitimate and a peripheral part that controls the execution of the effect based on the command or the pre-processing or post-processing of the effect; An authentication method for authenticating the main control unit in a gaming machine including an intermediate unit that outputs the authentication data to the peripheral unit ,
The intermediate unit acquires the first authentication data via the peripheral unit; and
The intermediate unit is data for determining whether or not the main control unit is valid based on the first authentication data acquired in the acquiring step, and is simpler than the first authentication data. Generating second authentication data that has been subjected to the processing , and outputting the second authentication data to the peripheral portion,
2. The authentication method according to claim 1, wherein the peripheral unit determines whether or not the main control unit is valid based on the second authentication data. The authentication method according to claim 11, further comprising a notification signal output step of outputting a signal for notifying the authentication result when the peripheral portion determines that the main control portion is not valid. The said peripheral part judges whether the said main control part is legitimate after the period when the said production | presentation based on the said loss command or the said pre-processing or post-processing is performed. The authentication method according to any one of Items 12 to 12. A main control unit that outputs an outage command for designating that the normal state continues without generating a special state relating to the game, and first authentication data for authenticating that the game is valid; Generating second authentication data for determining whether or not the main control unit is legitimate and a peripheral part that controls the execution of the effect based on the command or the pre-processing or post-processing of the effect; A program for performing authentication on the main control unit in a gaming machine including an intermediate unit that outputs the authentication data to the peripheral unit,
In the peripheral computer,
An output step of outputting the first authentication data to the intermediate unit;
Based on the first authentication data output in the output step, it is data for determining whether or not the main control unit is legitimate and is subjected to a simpler encryption process than the first authentication data. And obtaining the second authentication data generated from the intermediate unit,
Determining whether or not the main control unit is valid based on the second authentication data acquired in the acquisition step;
A program characterized by having executed.

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