JP2021076991A - Information processor and system and information processing method and program - Google Patents

Abstract

To provide an information processor, a system, an information processing method, and a program that can collectively manage information for failure analysis by developers.SOLUTION: An information processor has usage means for using functions of a predetermined device that has middleware via the middleware, change means for changing operations via a menu for developers when developer functions of the middleware are enabled, generation means for generating information that integrates multiple types of logs recorded when the developer functions are enabled, and transmission means for sending the information to a predetermined device.SELECTED DRAWING: Figure 3

Description

The present invention relates to information processing devices, systems, information processing methods, and programs.

In a system in which a predetermined device and an information processing device are communicably connected, the information processing device uses the function of the predetermined device via the middleware of the predetermined device in response to a request received from the user by the information processing device. Sometimes.

In Patent Document 1, in a mobile terminal device, an operation log of a user received by an application is accumulated as log data, and when a request for self-diagnosis is received from the user by the application, the log data and scenario data are compared and an operation error is made. It is described to make a diagnosis of. As a result, according to Patent Document 1, the user can diagnose the operation error by using the application normally used by the user.

In Patent Document 2, in an image processing cooperation system in which a mobile information device and an MFP are communicably connected, the mobile information device acquires a log about a file from the MFP and combines it with a log about the file in the own device. It is described that it is managed. According to Patent Document 2, this makes it easy to track files handled across the portable information device and the MFP.

In the technique described in Patent Document 1, the accumulated log data is only related to the operation of the user's mobile terminal device, and there is a possibility that the information is insufficient for the defect analysis by the developer.

In the technology described in Patent Document 2, the log managed together with the mobile information device and the MFP is only a log about a file, and there is a possibility that the information is insufficient for defect analysis by the developer. is there.

The present invention has been made in view of the above, and an object of the present invention is to provide an information processing device, a system, an information processing method, and a program capable of collectively managing information for defect analysis by a developer. ..

In order to solve the above-mentioned problems and achieve the object, the information processing device according to one aspect of the present invention is a means of using the function of a predetermined device having middleware via the middleware, and development of the middleware. A change means that changes the operation by the developer menu when the function for developers is enabled, and a generation means that generates information that integrates multiple types of logs recorded when the function for developers is enabled. It is characterized by having a transmitting means for transmitting the information to the predetermined device.

According to the present invention, there is an effect that the information for defect analysis by the developer can be collectively managed.

FIG. 1 is a diagram showing a schematic configuration of a system according to an embodiment. FIG. 2 is a diagram showing a schematic hardware configuration of each device in the embodiment. FIG. 3 is a diagram showing a functional configuration of the information processing device according to the embodiment. FIG. 4 is a sequence diagram showing the operation of the system according to the embodiment. FIG. 5 is a diagram showing an example of a job log in the embodiment. FIG. 6 is a diagram showing an example of an API (Application Programming Interface) log in the embodiment. FIG. 7 is a diagram showing an example of a screen log in the embodiment. FIG. 8 is a diagram showing an example of a packet log in the embodiment. FIG. 9 is a diagram showing an example of an error log in the embodiment. FIG. 10 is a sequence diagram showing the operation of the system according to the first modification of the embodiment. FIG. 11 is a sequence diagram showing the operation of the system according to the second modification of the embodiment. FIG. 12 is a diagram showing the operation of the system according to the third modification of the embodiment. FIG. 13 is a diagram showing a hardware configuration example of the information processing apparatus in the embodiment and the first to third modifications thereof. FIG. 14 is a diagram showing a hardware configuration example of a predetermined device in the embodiment and the first to third modifications thereof.

(Embodiment)
The system 100 according to the embodiment of the present invention is a system in which a predetermined device and an information processing device are communicably connected to each other. The predetermined device 1 is an image forming device having middleware, for example, an image forming device that forms an image in response to a request received via the middleware, and is a multifunction device having a plurality of functions such as a scanner function, a printer function, and a facsimile function. MFP: Multifunction Peripheral) may be used. The information processing device is, for example, a mobile terminal such as a tablet or a smartphone. In this system, the information processing device may use the function of the predetermined device via the middleware of the predetermined device in response to the request received from the user by the information processing device.

For example, in an information processing device, an operation log of a user received by an application is accumulated as log data, and when a self-diagnosis request is received from the user by the application, the log data and scenario data are compared to diagnose an operation error. Consider the case. In this case, the accumulated log data is only related to the operation of the information processing device of the user, and there is a tendency that the information is insufficient for the defect analysis by the developer.

Further, consider a case where the information processing device acquires a log about a file from a predetermined device and manages the log together with the log about the file in the own device in the system. In this case, the log managed together with the information processing device and the predetermined device is only a log about the file, and there is a tendency that the information is insufficient for the defect analysis by the developer.

Therefore, in the present embodiment, in the system, the information processing device is generated by generating integrated information of a plurality of types of logs recorded when the function for developers is enabled in the information processing device and transmitting the information to a predetermined device. It enables the integrated log of the information processing and the log of a predetermined device to be integrated, and enables the developer to collectively manage information for defect analysis.

Specifically, the system 100 can be configured, for example, as shown in FIG. FIG. 1 is a diagram showing a schematic configuration of a system 100 according to an embodiment.

The system 100 has a predetermined device 1, an information processing device 2, a network 3, and a log server 30. The predetermined device 1, the information processing device 2, and the log server 30 are connected to each other so as to be able to communicate with each other via the network 3. The network 3 includes a wireless communication line and / or a wired communication line. The wireless communication line includes a wireless LAN (Local Area Network), a mobile phone line, and the like. The wired communication line includes a wired LAN, WAN (Wide Area Network), and the like.

The predetermined device 1 is, for example, an image forming device that forms an image on demand. The predetermined device 1 has middleware and a plurality of functions, and can transmit the received request to the plurality of functions via the middleware. The plurality of functions include a copy function, a scanner function, a printer function, a facsimile function, and the like. The predetermined device 1 may be a multifunction device (MFP) having a plurality of these functions. Note that FIG. 1 illustrates a configuration in which one predetermined device 1 (MFP) is connected to the network 3 for simplification of illustration and description, but a plurality of predetermined devices 1 are connected to the network 3. (MFP) may be connected.

The information processing device 2 is a device capable of receiving a request from a user and transmitting the information to a predetermined device 1, and may be, for example, a mobile terminal such as a tablet, a portable personal computer, or a smartphone. , It may be an information terminal such as a stationary personal computer or a workstation. Further, the information processing device 2 may be a device capable of autonomously generating a request and transmitting the request to a predetermined device 1. The information processing device 2 has an application and a relay application. When the application receives a request from the user or autonomously generates the request, the application supplies the request to the relay application. The relay application transmits the received request to the middleware of the predetermined device 1 via the network 3. As a result, the information processing device 2 can transmit the request to a plurality of functions via the middleware of the predetermined device 1, and can use the function of the predetermined device 1 via the middleware of the predetermined device 1.

The log server 30 is a server that stores logs of a predetermined device 1 and an information processing device 2, respectively. When the log server 30 receives a log from a predetermined device 1, the log server 30 associates the received log with the predetermined device 1 and stores the received log. When the log server 30 receives a log from the information processing device 2, the log server 30 associates the received log with the information processing device 2 and stores the received log.

Next, a schematic hardware configuration of each device in the system 100 will be described with reference to FIG. FIG. 2 is a diagram showing a schematic hardware configuration of each device in the embodiment.

The predetermined device 1 is, for example, a multifunction device (MFP), and is a control device 11, a display device 12, a main storage device 13, an operation input device 14, an external storage device 15, a printing device 16, an image reading device 17, and a communication device 18. , And has a bus 19. The control device 11, the display device 12, the main storage device 13, the operation input device 14, the external storage device 15, the printing device 16, the image reading device 17, and the communication device 18 are connected to each other via the bus 19. The main storage device 13 includes a RAM or the like that functions as a work area for a program executed by the control device 11. The external storage device 15 is, for example, a hard disk drive, and stores various control programs, application programs, image data, and the like. The control device 11 loads and executes necessary programs and the like from the external storage device 15 to the main storage device 13, and controls the entire predetermined device 1 through the bus 19.

The information processing device 2 is, for example, a smartphone, and has a control device 23, a display device 24, a main storage device 25, an operation input device 26, an external storage device 27, a communication device 28, and a bus 29. The control device 23, the display device 24, the main storage device 25, the operation input device 26, the external storage device 27, and the communication device 28 are connected to each other via the bus 29. The main storage device 25 includes a RAM or the like that functions as a work area for a program executed by the control device 23. The external storage device 27 is, for example, a hard disk drive, and stores various control programs, application programs, image data, and the like. The control device 23 loads and executes necessary programs and the like from the external storage device 27 to the main storage device 25, and controls the entire information processing device 2 through the bus 29.

The log server 30 has a communication device 31, a storage device 32, and a bus 33. The communication device 31 and the storage device 32 are connected via the bus 33. The storage device 32 stores the logs of the predetermined device 1 and the information processing device 2, respectively.

The communication device 18 of the predetermined device 1, the communication device 28 of the information processing device 2, and the communication device 31 of the log server 30 are connected to each other so as to be able to communicate with each other via the network 3.

Next, the functional configuration of the information processing device 2 will be described with reference to FIG. FIG. 3 is a diagram showing a functional configuration of the information processing device 2. When the program stored in the external storage device 27 shown in FIG. 2 is executed by the control device 23, the functional configuration as shown in FIG. 3 in the main storage device 25 is collectively performed at the time of compilation or the processing progresses. It can be deployed sequentially accordingly.

The information processing device 2 has an application and a relay application as software, and has an application 21 and a relay application 22 as configurations corresponding to the application and the relay application, respectively. The application 21 has an input unit 211, a utilization unit 212, a change unit 213, a transmission unit 214, and a display control unit 215. The relay application 22 has a request management unit (generation means) 221 and a log management unit 222. The log management unit 222 includes an API (Application Programming Interface) log management unit 222a, a job log management unit 222b, a screen log management unit (log acquisition means) 222c, a packet log management unit 222d, and an error log management unit 222e.

When the input unit 211 receives a request from the user, the input unit 211 supplies the request to the user unit 212. The user unit 212 uses the function of the predetermined device 1 via the middleware in response to the request of the user or the request generated autonomously in the information processing device 2. The user unit 212 transmits the request to the middleware of the predetermined device 1 via the request management unit 221. In the predetermined device 1, the middleware transmits the request to the function corresponding to the request, and the function receiving the request performs the operation according to the request.

At this time, the request management unit 221 supplies a log recording request to the log management unit 222 according to the operation. If the operation is related to API, the request management unit 221 supplies the log recording request to the API log management unit 222a, and the API log management unit 222a generates and holds the API log. If the operation is related to a job, the request management unit 221 supplies a log recording request to the job log management unit 222b, and the job log management unit 222b generates and holds a job log. If the operation is related to the screen, the request management unit 221 supplies the screen log management unit 222c with a log recording request, and the screen log management unit 222c generates and holds the screen log. If the operation is related to a packet, the request management unit 221 supplies a log recording request to the packet log management unit 222d, and the packet log management unit 222d generates and holds a packet log. If the operation is related to an error, the request management unit 221 supplies a log recording request to the error log management unit 222e, and the error log management unit 222e generates and holds an error log.

When the middleware developer function is enabled in the predetermined device 1, the change unit 213 changes the operation according to the request selected in the predetermined device 1 or by the developer menu in the predetermined device 1. For example, if the information processing device 2 is operating in the job execution processing mode and log acquisition processing is selected in the developer menu, the change unit 213 changes the operation mode of the information processing device 2 from the job execution processing mode. The request management unit 221 is instructed to change to the log acquisition processing mode and operate in the log acquisition processing mode. In response to the instruction, the request management unit 221 makes a log acquisition request in the log management unit 222, such as the API log management unit 222a, the job log management unit 222b, the screen log management unit 222c, the packet log management unit 222d, and the error log management unit 222e. Supply to each. The API log management unit 222a, the job log management unit 222b, the screen log management unit 222c, the packet log management unit 222d, and the error log management unit 222e respectively respond to each log (for example, API log, job log) in response to a log acquisition request. , Screen log, packet log, error log) is returned to the request management unit 221.

The requirements management unit 221 generates information that integrates a plurality of types of logs that are recorded when the developer function is enabled. When the request management unit 221 receives each log from the log management unit 222, the request management unit 221 generates information in which each log is integrated. The request management unit 221 transmits the information to a predetermined device 1 via the network 3. In response to this, the predetermined device 1 acquires its own log (for example, the MFP log), generates information further integrated with the received information, and outputs the log by a predetermined method. As a result, the developer can collectively manage the information for defect analysis by allowing the developer to view the information in which the integrated log of the information processing device 2 and the log of the predetermined device 1 are integrated. Can be.

Next, the operation of the system 100 will be described with reference to FIG. FIG. 4 is a sequence diagram showing the operation of the system 100.

The user selects a predetermined device (MFP) 1 to be connected by the application 21 of the information processing device (mobile terminal) 2. The application 21 acquires information for identifying a predetermined device (MFP) 1, such as an IP address, from the user or from the predetermined device (MFP) 1. The application 21 can display a touch panel screen that accepts an IP address input from the user. Further, the application 21 is displayed on the operation screen of the predetermined device (MFP) 1 using the imaging device (for example, a camera) included in the information processing device (portable terminal) 2 (or the predetermined device (MFP) 1). The IP address may be obtained by photographing the QR code (registered trademark) attached to the housing and analyzing the QR code, or a predetermined by a short-range wireless communication means such as an NFC (Near Field Communication) interface. The IP address may be obtained from the device (MFP) 1.

As shown in FIG. 4, in the job execution processing mode of the information processing device (mobile terminal) 2, the application 21 uses the function (scan function, etc.) of the predetermined device (MFP) 1. By linking with the predetermined device (MFP) 1, the application 21 can utilize the functions of the predetermined device (MFP) 1, such as the print function, the copy function, and the scan function. The application 21 displays buttons of various functions on the display device 24, and sends a job request to a predetermined device (MFP) 1 so as to execute a function corresponding to the button selected by the user on the operation input device 26. To do.

The log of the job executed by the application 21 is saved in the log management unit 222 in the relay application 22. When the predetermined device (MFP) 1 executes a job in response to a request from the application 21, the relay application 22 saves a job log for the job.

For example, the job log acquired and managed by the log management unit 222 of the relay application 22 may be the information shown in FIG. FIG. 5 is a diagram showing an example of a job log. The job log may include a log ID, a log type, a start time, an end time, a job status, an operation source, a user name, and a device ID. The log ID is an ID that uniquely indicates the job log, and is, for example, "1". The log type is an attribute for distinguishing jobs, for example, "scanner". The start time is the start time of the job, for example, "2019/01/01 12:00". The end time is the end time of the job, for example, "2019/01/01 12:03". The job state indicates any of in-process / normal end / abnormal end, and is, for example, “normal end”. The operation source indicates from where the job was input, and is, for example, the “operation panel” of the operation input device 26. The user name is the user name that submitted the job, and is, for example, "department A". The device ID is identification information of the machine number to which the job is input, and is, for example, "10012345".

The log of the API executed by the application 21 is stored in the log management unit 222 in the relay application 22. Here, the relay application 22 is software that needs to be installed separately from the application 21, and is software that is independent of the application 21. The application 21 communicates with the predetermined device (MFP) 1 via the relay application 22 when performing communication including transmission of a job request. Further, the relay application 22 may transmit a response to the application 21 via the relay application 22 when the predetermined device (MFP) 1 responds to the application 21 via the API.

For example, the API log is a log as shown in FIG. FIG. 6 is a diagram showing an example of an API log. For example, when a program as shown in FIG. 6 (a) is used in API, an API log as shown in FIG. 6 (b) is generated. As shown in FIG. 6B, the API log includes the time when the API was used, the input parameters to the API, and the result output from the API. In FIG. 6B, the time when the API was used is "10-30 21:37:09.217", the input parameter to the API is "This is job setting", and the result output from the API. Is exemplified as "ip / rest / config / user / 1: parameter, user 1, 10012345".

The information on the screen of the information processing device (mobile terminal) 2 is stored in the log management unit 222 in the relay application 22. The relay application 22 can acquire a captured image of the screen displayed on the information processing device (mobile terminal) 2 and save it as a screen log in the log server 30.

For example, the screen log is a log as shown in FIG. FIG. 7 is a diagram showing an example of a screen log. The relay application 22 may save and / or display a snapshot of the screen of the display device 24 of the information processing device (mobile terminal) 2 at the timing when the user operates the information processing device (mobile terminal) 2. A predetermined device (MFP) 1 may be requested to save a snapshot of the screen of the device 12. FIG. 7A shows an example of the screen log of the display device 24 of the information processing device (mobile terminal) 2, and FIG. 7B shows an example of the screen log of the display device 12 of the predetermined device (MFP) 1. Is shown. The relay application 22 may acquire screen information by communicating with software that controls the display of the information processing device (mobile terminal) 2 or the application 21 to be operated. The screen log makes it possible to grasp the situation that could not be understood only by the text log. For example, since the screen of the information processing device (portable terminal) 2 is recorded, it is possible to match the operation procedure with other logs. Alternatively, since the screen of the predetermined device (MFP) 1 is recorded, the state of the predetermined device (MFP) can be compared with other logs. FIG. 4 illustrates a case where a snapshot of the screen of the display device 24 of the information processing device (mobile terminal) 2 is saved (recorded) as a screen log.

Further, the relay application 22 saves the packet log in the log management unit 222 when the information processing device (mobile terminal) 2 communicates with an external server (for example, mail).

For example, the packet log is a log as shown in FIG. FIG. 8 is a diagram showing an example of a packet log. When the information processing device (portable terminal) 2 communicates with the outside of the device, the detailed operating status can be grasped from the packet. Since the packet to be stored is performed by the relay application 22 of the information processing device (mobile terminal) 2, the packet of the relay application 22 is assumed, but a method of acquiring the communication packet on the predetermined device (MFP) 1 side is also conceivable. .. The packet log contains information such as the source, destination, visited site, passed server, router, and switch of the packet.

If an error occurs during processing in the predetermined device (MFP) 1 and / or the information processing device (mobile terminal) 2, the error log is saved in the log management unit 222.

For example, the error log is a log as shown in FIG. FIG. 9 is a diagram showing an example of an error log. If an error occurs during processing, the error log saves the error occurrence time and error code. In FIG. 9, the case where the error occurrence time is “2019/01/01 10:00” and the error code is “SC999” is illustrated. By setting the error code different between the predetermined device (MFP) 1 and the information processing device (mobile terminal) 2, the location where the error occurs is set between the predetermined device (MFP) 1 and the information processing device (mobile terminal). ) 2 may be grasped from the error code.

Returning to FIG. 4, for example, when the application 21 receives a connection setting request from the user (S1), the application 21 supplies the connection setting request to the request management unit 221 (S2). In response to the connection setting request, the request management unit 221 requests the API log management unit 222a to record the API log (S3), and requests the screen log management unit 222c to record the screen (S4). In response to this, the API log management unit 222a generates and holds the API log, and the screen log management unit 222c generates and holds the screen log according to the information on the screen of the display device 24.

When the application 21 receives the job setting request from the user (S5), the application 21 supplies the job setting request to the request management unit 221 (S6). In response to the job setting request, the request management unit 221 requests the API log management unit 222a to record the API log (S7), and transmits the job setting request to the predetermined device 1 (S8). In response to this, the API log management unit 222a generates and holds the API log. The predetermined device 1 sets the function according to the job setting request, and returns the response of the job setting OK to the request management unit 221. Since the communication with the predetermined device 1 has been performed, the request management unit 221 requests the packet log management unit 222d to record the packet log (S9). In response to this, the packet log management unit 222d generates and holds the packet log.

When the request management unit 221 receives the response of the job setting OK from the predetermined device 1 (S10), the request management unit 221 requests the screen log management unit 222c to record the screen (S11). In response to this, the screen log management unit 222c generates and holds a screen log according to the information on the screen of the display device 24.

When the application receives the job start request from the user (S12), the application supplies the job start request to the request management unit 221 (S13). In response to the job start request, the request management unit 221 requests the API log management unit 222a to record the API log (S14), requests the job log management unit 222b to record the job log (S15), and starts the job. The request is transmitted to the predetermined device 1 (S16). In response to this, the API log management unit 222a generates and holds the API log, the job log management unit 222b generates and holds the job log, and the predetermined device 1 has a function corresponding to the job start request. Attempts to start working with. At this time, if the predetermined device 1 cannot start the operation due to some trouble, the predetermined device 1 returns a response of the job start NG to the request management unit 221 (S17). Since the communication with the predetermined device 1 has been performed, the request management unit 221 requests the packet log management unit 222d to record the packet log (S18). In response to this, the packet log management unit 222d generates and holds the packet log.

Further, since the request management unit 221 receives the response of the job start NG from the predetermined device 1, the request management unit 221 requests the error log management unit 222e to record the error log (S19). In response to this, the error log management unit 222e generates and holds an error log. The request management unit 221 notifies the application 21 that the job start has become an error (S20). In response to this, the application 21 notifies the user that a job start error has occurred by displaying a message on the screen of the display device 24 (S21).

These logs can be obtained at the request of the user. Note that FIG. 4 shows an example in which a log is acquired via a predetermined device (MFP) 1. The predetermined device (MFP) 1 receives an instruction (log acquisition request) to acquire log information from the user via the operation input device 14 (S22). The predetermined device (MFP) 1 transmits a log acquisition request according to an instruction from the user to the connected information processing device (mobile terminal) 2 (S23). When the relay application 22 receives the log acquisition request from the predetermined device (MFP) 1, the relay application 22 collects a plurality of types of logs stored in the information processing device (mobile terminal) 2 by the relay application 22. That is, when the request management unit 221 receives the log acquisition request from the predetermined device (MFP) 1, the API log management unit 222a, the job log management unit 222b, the screen log management unit 222c, and the packet log management unit of the log management unit 222. Log acquisition requests are supplied to 222d and the error log management unit 222e, respectively (S24 to S28). The request management unit 221 receives logs from the API log management unit 222a, the job log management unit 222b, the screen log management unit 222c, the packet log management unit 222d, and the error log management unit 222e of the log management unit 222, respectively. The request management unit 221 generates information in which a plurality of types of received logs are integrated. The information in which the plurality of types of logs collected by the relay application are integrated is transmitted and output to the predetermined device (MFP) 1 that has transmitted the log acquisition request (S29). The predetermined device (MFP) 1 acquires a log (for example, an MFP log) in the predetermined device (MFP) 1 (S30), and a plurality of types acquired from the acquired log and the information processing device (mobile terminal) 2. Information that is further integrated with the integrated information of the above logs is generated and output as information for defect analysis (S31). The output of the information for defect analysis is connected to the display output on the screen of the display device 12 of the predetermined device (MFP) 1, the print output from the predetermined device (MFP) 1, and the predetermined device (MFP) 1. The transmission output to an external device (for example, the display control unit 215 of the information processing device 2) is included. For example, the analysis time can be shortened by printing out the information in which the log of the predetermined device (MFP) 1 and the log of the information processing device (portable terminal) 2 are integrated. Alternatively, when the predetermined device (MFP) 1 further has a memory card as the external storage device 15, the predetermined device (MFP) 1 may output the information for defect analysis by writing it to the memory card.

The log acquisition request includes a method of requesting acquisition from the information processing device (portable terminal) 2 from the predetermined device (MFP) 1 at the requested timing, and a predetermined method sequentially from the information processing device (mobile terminal) 2. A method of transmitting a log to the device (MFP) 1 can be considered. FIG. 4 illustrates a method of requesting acquisition from a predetermined device (MFP) 1 to an information processing device (portable terminal) 2 at a requested timing. Further, the log recording may be saved / not specified on the setting screen displayed on the display device 24 of the information processing device (mobile terminal) 2.

As described above, in the system 100, information that integrates a plurality of types of logs recorded when the function for developers is enabled in the information processing device 2 is generated and transmitted to a predetermined device 1. As a result, the predetermined device can acquire its own log, generate information further integrated with the received information, and output the log by a predetermined method. As a result, it is possible for the developer to collectively manage the information for defect analysis by having the developer view the information in which the integrated log of the information processing device 2 and the log of the predetermined device 1 are integrated. Can be. Therefore, it is not necessary for the developer to replace the middleware for defect analysis, and the interaction with the vendor can be reduced, so that the development period can be shortened.

As shown in FIG. 10, the log acquisition request is made even if the information processing device (mobile terminal) 2 is configured to acquire a log (for example, an MFP log or a screen log) from a predetermined device (MFP) 1. good. At this time, the predetermined device (MFP) 1 may save the screen information of the display device 12 as a screen log in response to the request from the request management unit 221. FIG. 10 is a sequence diagram showing the operation of the system 100 according to the first modification of the embodiment.

As shown in FIG. 10, for example, when the application receives a job setting request from the user (S41), the application supplies the job setting request to the request management unit 221 (S42). In response to the job setting request, the request management unit 221 requests the API log management unit 222a to record the API log (S43), and transmits the job setting to the predetermined device 1 (S44). In response to this, the API log management unit 222a generates and holds the API log. The predetermined device 1 sets the function according to the job setting request. Since the function has been set, the predetermined device 1 generates and holds a screen log according to the information on the screen of the display device 12 (S45). Since the communication with the predetermined device 1 has been performed, the request management unit 221 requests the packet log management unit 222d to record the packet log (S46). When the request management unit 221 receives the response of the job setting OK from the predetermined device 1 (S47), the request management unit 221 requests the screen log management unit 222c to record the screen (S48).

When the application 21 receives the job start request from the user (S49), the application 21 supplies the job start request to the request management unit 221 (S50). In response to the job start request, the request management unit 221 requests the API log management unit 222a to record the API log (S51), requests the job log management unit 222b to record the job log (S52), and starts the job. The request is transmitted to the predetermined device 1 (S53). In response to this, the API log management unit 222a generates and holds the API log. The predetermined device 1 attempts to start the operation with a function corresponding to the job start request. At this time, if the predetermined device 1 cannot start the operation due to some trouble, the predetermined device 1 generates and holds a screen log corresponding to the information on the screen of the display device 12 (S54), and responds to the job start NG by the request management unit. Reply to 221 (S55). Since the communication with the predetermined device 1 has been performed, the request management unit 221 requests the packet log management unit 222d to record the packet log (S56). In response to this, the packet log management unit 222d generates and holds the packet log.

Further, since the request management unit 221 receives the response of the job start NG from the predetermined device 1, the request management unit 221 requests the error log management unit 222e to record the error log (S57). In response to this, the error log management unit 222e generates and holds an error log. The request management unit 221 notifies the application 21 that the job start has become an error (S58). In response to this, the application 21 notifies the user that a job start error has occurred by displaying a message on the screen of the display device 24 (S59).

Further, the application 21 of the information processing device (mobile terminal) 2 receives an instruction (log acquisition request) to acquire log information from the user via the operation input device 26 (S60). The application supplies the log acquisition request to the request management unit 221 (S61). Upon receiving the log acquisition request, the request management unit 221 logs to the API log management unit 222a, the job log management unit 222b, the screen log management unit 222c, the packet log management unit 222d, and the error log management unit 222e of the log management unit 222, respectively. Along with supplying the acquisition request (S62 to S66), the log acquisition request is transmitted to the predetermined device (MFP) 1 (S67). The request management unit 221 receives logs from the API log management unit 222a, the job log management unit 222b, the screen log management unit 222c, the packet log management unit 222d, and the error log management unit 222e of the log management unit 222, and is predetermined. Receives logs from device (MFP) 1. The request management unit 221 generates information in which a plurality of types of logs received from the log management unit 222 are integrated, and also generates a log (for example, an MFP log) and an information processing device (portable terminal) in a predetermined device (MFP) 1. ) Generate information that is further integrated with the information that integrates the multiple types of logs acquired from 2 as information for defect analysis. The requirement management unit 221 outputs the information for defect analysis to the display control unit 215 of the application 21 as a log acquisition result (S68). As a result, the information for defect analysis is displayed on the screen of the display device 24 of the information processing device (mobile terminal) 2 and notified to the user (S69).

Alternatively, as shown in FIG. 11, the operation mode of the information processing device (mobile terminal) 2 is set to the log printing mode in response to the selection of log printing from the middleware developer menu of the predetermined device (MFP) 1. May be changed to. FIG. 11 is a sequence diagram showing the operation of the system 100 according to the second modification of the embodiment. The predetermined device (MFP) 1 receives an instruction (log print request) from the user to print the log via the operation input device 14 (S71). The predetermined device (MFP) 1 transmits a log acquisition request according to an instruction from the user to the connected information processing device (mobile terminal) 2. When the relay application 22 receives the log acquisition request from the predetermined device (MFP) 1, the operation mode of the information processing device (mobile terminal) 2 is changed to the log print mode, and the information processing device (mobile terminal) 2 is changed by the relay application. Collect multiple types of logs stored in each. That is, when the request management unit 221 receives the log acquisition request from the predetermined device (MFP) 1 (S72), the API log management unit 222a, the job log management unit 222b, the screen log management unit 222c, and the packet of the log management unit 222. Log acquisition requests are supplied to the log management unit 222d and the error log management unit 222e, respectively (S73 to S77). The request management unit 221 receives logs from the API log management unit 222a, the job log management unit 222b, the screen log management unit 222c, the packet log management unit 222d, and the error log management unit 222e of the log management unit 222, respectively. The request management unit 221 generates information in which a plurality of types of received logs are integrated. The information in which the plurality of types of logs collected by the relay application 22 are integrated is transmitted and output to the predetermined device (MFP) 1 that has transmitted the log acquisition request (S78). The predetermined device (MFP) 1 acquires a log (for example, an MFP log) in the predetermined device (MFP) 1 (S79), and a plurality of types acquired from the acquired log and the information processing device (portable terminal) 2. Information that is further integrated with the integrated information of the above logs is generated as information for defect analysis and output by printing (S80). Even with this, the developer can collectively manage the information for defect analysis by allowing the developer to view the information in which the integrated log of the information processing device 2 and the log of the predetermined device 1 are integrated. Can be made possible.

Alternatively, as shown in FIG. 12, the error location and the countermeasure plan may be presented to the user. FIG. 12 is a diagram showing the operation of the system 100 according to the third modification of the embodiment. For example, when the location where an error occurs is shown in the API log as shown in FIG. 12 (a), it is analyzed by showing the user an example of countermeasures as shown in FIG. 12 (b) by displaying it on the display device 12. , Measures can be taken efficiently. That is, when the display control unit (countermeasure presentation means) 215 of the application has an error in the usage method of the middleware, the display control unit (countermeasure presentation means) 215 may present the fact and the countermeasure example to the user. As a result, it is possible to shorten the time until the problem is solved because the error location of the middleware such as the wrong call order of the middleware and the countermeasures are presented.

Further, the information processing device 2 is not limited to a mobile terminal as long as it is a device having a communication function. The information processing device 2 is, for example, an output device such as a PJ (Projector: projector), an IWB (Interactive White Board: a white board having an electronic whiteboard function capable of intercommunication), a digital signage, or a HUD (Head Up Display) device. , Industrial machinery, imaging equipment, sound collectors, medical equipment, network home appliances, automobiles (Connected Car), notebook PCs (Personal Computer), mobile phones, smartphones, tablet terminals, game machines, PDA (Personal Digital Assistant), digital cameras , Wearable PC, desktop PC, etc.

The information processing device 2 may be, for example, a smartphone 4 as shown in FIG. FIG. 13 is a diagram showing a hardware configuration of a smartphone 4 as a hardware configuration example of the information processing device 2 in the embodiment and the first to third modifications thereof. As shown in FIG. 13, the smartphone 4 includes a CPU 401, a ROM 402, a RAM 403, an EEPROM 404, a CMOS sensor 405, an image sensor I / F 406, an acceleration / orientation sensor 407, a media I / F 409, and a GPS receiver 411. There is.

Of these, the CPU 401 controls the operation of the entire smartphone 4. The ROM 402 stores a program used to drive the CPU 401 such as the CPU 401 and the IPL. The RAM 403 is used as a work area for the CPU 401. The EEPROM 404 reads or writes various data such as a smartphone program under the control of the CPU 401. The CMOS (Complementary Metal Oxide Sensor) sensor 405 is a kind of built-in imaging means for capturing an image of a subject (mainly a self-portrait) under the control of a CPU 401 to obtain image data. Instead of a CMOS sensor, an imaging means such as a CCD (Charge Coupled Device) sensor may be used. The image sensor I / F 406 is a circuit that controls the drive of the CMOS sensor 405. The acceleration / orientation sensor 407 is a variety of sensors such as an electronic magnetic compass, a gyro compass, and an acceleration sensor that detect the geomagnetism. The media I / F 409 controls reading or writing (storage) of data to a recording medium 408 such as a flash memory. The GPS receiving unit 411 receives GPS signals from GPS satellites.

Further, the smartphone 4 includes a long-distance communication circuit 412, a CMOS sensor 413, an image sensor I / F 414, a microphone 415, a speaker 416, a sound input / output I / F 417, a display 418, an external device connection I / F (Interface) 419, and near. It includes a range communication circuit 420, an interface 420a of the short range communication circuit 420, and a touch panel 421.

Of these, the long-distance communication circuit 412 is a circuit that communicates with other devices via the network 3. The CMOS sensor 413 is a kind of built-in imaging means for capturing an image of a subject and obtaining image data under the control of the CPU 401. The image sensor I / F 414 is a circuit that controls the drive of the CMOS sensor 413. The microphone 415 is a built-in circuit that converts sound into an electric signal. The speaker 416 is a built-in circuit that converts an electric signal into physical vibration to produce sounds such as music and voice. The sound input / output I / F 417 is a circuit that processes sound signal input / output between the microphone 415 and the speaker 416 under the control of the CPU 401. The display 418 is a kind of display means such as a liquid crystal or an organic EL (Electroluminescence) for displaying an image of a subject, various icons, and the like. The external device connection I / F419 is an interface for connecting various external devices. The short-range communication circuit 420 is a communication circuit such as NFC (Near Field Communication) or Bluetooth (registered trademark). The touch panel 421 is a kind of input means for operating the smartphone 4 by the user pressing the display 418.

Further, the smartphone 4 is provided with a bus line 410. The bus line 410 is an address bus, a data bus, or the like for electrically connecting each component such as the CPU 401 shown in FIG.

Further, the predetermined device 1 may be an MFP 9 as shown in FIG. FIG. 14 is a diagram showing a hardware configuration of the MFP 9 as a hardware configuration example of a predetermined device 1 in the embodiment and the first to third modifications thereof. As shown in FIG. 14, the MFP (Multifunction Peripheral / Product / Printer) 9 includes a controller 910, a short-range communication circuit 920, an engine control unit 930, an operation panel 940, and a network I / F950.

Of these, the controller 910 is a CPU 901, a system memory (MEM-P) 902, a north bridge (NB) 903, a south bridge (SB) 904, an ASIC (Application Special Integrated Circuit) 906, and a storage unit, which are the main parts of the computer. It has a local memory (MEM-C) 907, an HDD controller 908, and a storage unit HD909, and has a configuration in which the NB 903 and the ASIC 906 are connected by an AGP (Accelerated Graphics Port) bus 921.

Of these, the CPU 901 is a control unit that controls the entire MFP 9. The NB903 is a bridge for connecting the CPU 901, the MEM-P902, the SB904, and the AGP bus 921, and includes a memory controller that controls reading and writing to the MEM-P902, a PCI (Peripheral Component Interconnect) master, and an AGP target. Has.

The MEM-P902 includes a ROM 902a which is a memory for storing programs and data that realizes each function of the controller 910, and a RAM 902b which is used as a memory for developing programs and data and a memory for drawing at the time of memory printing. The program stored in the RAM 902b is configured to be recorded and provided on a computer-readable recording medium such as a CD-ROM, CD-R, or DVD in an installable format or an executable format file. You may.

SB904 is a bridge for connecting NB903 to a PCI device and peripheral devices. The ASIC 906 is an IC (Integrated Circuit) for image processing applications having hardware elements for image processing, and has a role of a bridge connecting the AGP bus 921, the PCI bus 922, the HDD controller 908, and the MEM-C907, respectively. This ASIC906 is a PCI target and an AGP master, an arbiter (ARB) that forms the core of the ASIC906, a memory controller that controls the MEM-C907, and a plurality of DMACs (Direct Memory Access Controllers) that rotate image data by hardware logic. , And a PCI unit that transfers data between the scanner unit 931 and the printer unit 932 via the PCI bus 922. A USB (Universal Bus) interface or an IEEE 1394 (Institute of Electrical and Electronics Engineers 1394) interface may be connected to the ASIC 906.

The MEM-C907 is a local memory used as a copy image buffer and a code buffer. The HD909 is a storage for accumulating image data, accumulating font data used at the time of printing, and accumulating forms. The HD909 controls reading or writing of data to the HD909 according to the control of the CPU 901. The AGP bus 921 is a bus interface for a graphics accelerator card proposed for speeding up graphic processing, and the graphics accelerator card can be speeded up by directly accessing the MEM-P902 with high throughput. ..

Further, the short-range communication circuit 920 includes a short-range communication circuit 920a. The short-range communication circuit 920 is a communication circuit such as NFC or Bluetooth.

Further, the engine control unit 930 is composed of a scanner unit 931 and a printer unit 932. Further, the operation panel 940 displays the current setting value, the selection screen, and the like, and displays the panel display unit 940a such as a touch panel that accepts the input from the operator, and the setting value of the image formation condition such as the density setting condition. It is provided with an operation panel 940b including a numeric keypad for receiving and a start key for receiving a copy start instruction. The controller 910 controls the entire MFP 9, and controls, for example, drawing, communication, input from the operation panel 940, and the like. The scanner unit 931 or the printer unit 932 includes an image processing portion such as error diffusion and gamma conversion.

The MFP 9 can sequentially switch and select the document box function, the copy function, the printer function, and the facsimile function by the application switching key on the operation panel 940. When the document box function is selected, the document box mode is set, when the copy function is selected, the copy mode is set, when the printer function is selected, the printer mode is set, and when the facsimile mode is selected, the facsimile mode is set.

Further, the network I / F950 is an interface for data communication using the network 3. The short-range communication circuit 920 and the network I / F 950 are electrically connected to the ASIC 906 via the PCI bus 922.

Further, each function of the embodiment described above can be realized by one or a plurality of processing circuits. Here, the "processing circuit" in the present specification is a processor programmed to execute each function by software such as a processor implemented by an electronic circuit, or a processor designed to execute each function described above. It shall include devices such as an ASIC (Application Specific Integrated Circuit), a DSP (Digital Signal Processor), an FPGA (Field Programmable Gate Array), and a conventional circuit module.

Further, the program executed by each device of the present embodiment is a file in an installable format or an executable format, and is a computer such as a CD-ROM, a flexible disk (FD), a CD-R, or a DVD (Digital Versaille Disk). It is recorded and provided on a readable recording medium.

Further, the program executed by each device of the present embodiment may be stored on a computer connected to a network such as the Internet and provided by downloading via the network. Further, the program executed by the device of the present embodiment may be configured to be provided or distributed via a network such as the Internet.

Further, the program of the present embodiment may be configured to be provided by incorporating it into a ROM or the like in advance.

The program executed by each device of the present embodiment has a module configuration including the above-mentioned parts, and as the actual hardware, the CPU (processor) reads the program from the storage medium and executes the program. Each part is loaded on the main memory and each is generated on the main memory.

Further, in the above embodiment, an example in which the image forming apparatus of the present invention is applied to a multifunction device having at least two functions of a copy function, a printer function, a scanner function, and a facsimile function will be described. It can be applied to any image forming apparatus such as a printer, a scanner apparatus, and a facsimile apparatus.

1 Predetermined device 2 Information processing device 3 Network 100 system

Japanese Unexamined Patent Publication No. 2012-216982 Japanese Unexamined Patent Publication No. 2014-21874

Claims (8)

A means of using the function of a predetermined device having middleware via the middleware, and
A change means for changing the behavior according to the request selected by the developer menu when the middleware developer function is enabled.
A generation means that generates information that integrates multiple types of logs that are recorded when the developer function is enabled, and
A transmission means for transmitting the information to the predetermined device, and
An information processing device characterized by being equipped with. The claim is further provided with a log acquisition means for acquiring information on the screen of the information processing apparatus as a screen log at the timing when the relay application that relays the transmission of the request from the application to the predetermined device is used. The information processing apparatus according to 1. The claim is further provided with a log acquisition means for acquiring information on the screen of the predetermined device as a screen log at the timing when the relay application that relays the transmission of the request from the application to the predetermined device is used. The information processing apparatus according to 1. The function of the predetermined device includes a printing function.
The information processing device according to any one of claims 1 to 3, wherein the utilization means prints a log of the predetermined device and a log of the information processing device by the predetermined device. The information processing apparatus according to any one of claims 1 to 4, further comprising a countermeasure presenting means for displaying countermeasures against an error in the usage of the middleware. With the specified device
An information processing device capable of communicating with the predetermined device,
With
The information processing device
A means of using the function of a predetermined device having middleware via the middleware, and
A change means for changing the behavior according to the request selected by the developer menu when the middleware developer function is enabled.
A generation means generation means for generating information that integrates a plurality of types of logs recorded when the developer function is enabled, and a generation means.
A transmission means for transmitting the information to the predetermined device, and
A system characterized by having. A step of using the function of a predetermined device having middleware via the middleware, and
A step of changing the behavior according to the request selected by the developer menu when the middleware developer function is enabled, and
A generation means step that generates information that integrates multiple types of logs that are recorded when the developer function is enabled, and a generation means step.
The step of transmitting the information to the predetermined device, and
An information processing method characterized by being equipped with. For information processing equipment
Steps to use the functions of a given device via middleware,
A step of changing the behavior according to the request selected by the developer menu when the middleware developer function is enabled, and
A generation means step that generates information that integrates multiple types of logs that are recorded when the developer function is enabled, and a generation means step.
The step of transmitting the information to the predetermined device, and
A program characterized by executing.

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