JP5181958B2 - Device management apparatus, device management system, device information acquisition program, and recording medium recording the program - Google Patents

Description

  The present invention relates to a device management apparatus and a device management system for managing at least one device connected via a data transmission path such as a network, in particular, the device management device polls a device participating in the system, The present invention relates to technology for acquiring information related to devices.

  A system for monitoring the status of an image processing apparatus such as a multifunction peripheral or a printer via a predetermined data transmission path such as a network is already known, and a user can manage a plurality of managed devices (hereinafter referred to as “managed devices”). It is possible to detect (know) an abnormality of the managed device without going to the office by itself.

  For example, in Patent Document 1, in a system environment where devices are managed via a network, a device connected to the same network as the device is searched for, and an IP address of each device is acquired. Obtaining the IP address of the device, generating a subnet address of a network different from the device, and searching for devices connected to other networks based on the generated subnet address, reducing the work burden on the user, A device management apparatus capable of searching for devices on different networks has been proposed.

  In such a device management system, a device management apparatus acquires information about a device (hereinafter referred to as “device information”) from a managed device, monitors the status of each device based on the acquired device information, I manage.

  In the device management system, the device information is acquired by the device management apparatus performing data communication with a device connected to the network using a communication protocol such as SNMP (Simple Network Management Protocol), and the like. This is done by acquiring Management Information Base) information.

For example, in Patent Document 2, a model of a device connected to a network is determined, a data file in which a MIB mounted by the device is defined is read according to the determination result, and the MIB is read from the device by referring to the read data file. A network monitoring device (device management device) that can acquire the MIB of all devices by a single MIB acquisition program and monitor the state of the device regardless of the model has been proposed. .
JP 2007-221565 A JP 2003-44374 A

  However, the conventional device management apparatus disclosed in the patent document cannot acquire detailed information from the managed device.

  The MIB information is mainly classified into standard MIB and extended MIB. For example, device information such as device name and status information is RFC (RFC (Technical Specification Saving / Publication Format) by IETF (Internet Engineering Task Force). It is defined according to the provisions of Request for Comments.

  The standard MIB defines simple information (standard information) that does not depend on the manufacturer (hereinafter referred to as “vendor”) that manufactures the device, while the extended MIB includes detailed information (vendor-dependent information (standard information)). Extended information), that is, vendor-specific information can be defined.

  In such a device management system that manages devices by acquiring MIB information, devices of different vendors are to be managed (the environment in which the devices of vendors that have introduced the system are mixed with devices of other vendors). Can be considered. For this reason, in order for the device management apparatus to manage devices, it is necessary to acquire information on extended MIBs of other companies in addition to information on standard MIBs and in-house extended MIBs.

  However, the conventional device management apparatus does not consider the point of acquiring an extended MIB uniquely defined by another company, and as a result, can only acquire information on the standard MIB and its own extended MIB. That is, only simplified information that is a standard MIB can be acquired from devices of other companies among managed devices.

  For this reason, in the conventional technology, in the environment where the current device management system is introduced, devices of other companies are managed based on less (simple) information than their own devices. It is conceivable that the device management function cannot be provided.

The present invention has been proposed in view of the above-described problems of the prior art, and an object of the present invention is to provide a device management apparatus, a device management system , and a device that can acquire detailed device information from devices managed by other companies. A device information acquisition program and a recording medium on which the program is recorded are provided.

In order to achieve the above object, in the present invention, there is provided a device management apparatus that monitors the state of a device connected via a predetermined data transmission path and manages the device based on information about the device including the state information. , information identifying the type of the device, a determining means and information to determine the manufacturer and is vendor of the device with reference to the definition information defined in association determines before Kibe Sunda,
Based on a determination result by the determination unit, an acquisition program for acquiring information about the device from the device, a specifying unit for specifying a parameter for specifying information about the device to be acquired,
The gist of the invention is to include execution means for executing the acquisition program according to the parameter specified by the specifying means.

  With such a configuration, the device management apparatus according to the present invention acquires information (model identification information) for identifying the type of managed device, and determines the vendor (manufacturer) of the managed device based on the acquired model identification information. Then, device information such as an acquisition program for acquiring device information from a managed device and a parameter (MIB object ID (OID) mounted on the device) for specifying device information to be acquired for each vendor is acquired. The parameter used when acquiring the device information from the device management apparatus of the determined vendor is identified from the definition file in which the information for defining is defined, and the identified parameter is set in the acquisition program and executed.

  In order to achieve the above object, the device management apparatus according to the present invention is configured such that the determination unit includes information identifying the device type based on information identifying the device type acquired from the device, and the vendor. The vendor is identified by referring to the definition information defined in association with the information for identifying the vendor and identifying the information for identifying the vendor.

  In order to achieve the above object, the device management apparatus according to the present invention provides the information relating to the acquisition program and the parameter for each piece of information for the identification unit to determine the vendor based on a determination result by the determination unit. The acquisition program and the parameter corresponding to the vendor are specified by referring to the definition information defined in association with the information related to the vendor.

  In order to achieve the above object, the device management apparatus according to the present invention provides the acquisition unit based on an execution address of the acquisition program obtained by the execution unit based on information related to the acquisition program specified by the specification unit. Run the program.

  In order to achieve the above object, the device management apparatus according to the present invention performs predetermined data conversion on information on devices obtained from other companies as a result of executing the acquisition program by the execution means. Conversion means for performing conversion, and the conversion means converts the information about the device obtained from the device of the other company into information according to the specifications of the company.

  Further, in order to achieve the above object, the device management apparatus according to the present invention is configured so that the conversion means is based on definition information in which values before conversion and values after conversion are defined in association with each other. Data on the obtained device is converted.

  In order to achieve the above object, the device management apparatus according to the present invention is configured so that the conversion unit obtains information about devices for each information type based on information types of information about devices obtained from the devices of other companies. Data conversion is performed by referring to definition information in which information related to a conversion program for data conversion is defined and executing the conversion program corresponding to the information type.

  In order to achieve the above object, in the device management apparatus according to the present invention, the definition information includes a storage device included in the device management device, and an external device connected to the device management device via a predetermined data transmission path. The data is stored in any storage area of the storage device or a recording medium readable by the device management apparatus.

  As a result, the device management apparatus according to the present invention can acquire detailed device information from other company's managed devices in the device management system as well as the company's managed devices. As a result, even in a network environment in which devices from different vendors are mixed as managed devices, device management can be performed based on detailed device information regardless of the vendor, and a suitable device management function is provided to the user. be able to.

In order to achieve the above object, a device management system according to the present invention monitors the state of a device connected via a predetermined data transmission path by a device management apparatus, and manages the device based on information about the device including state information. a system for managing the device management apparatus, refers information for identifying the type of the equipment, the definition information and the information to determine the manufacturer and is vendor of the device is defined in association with the previous SL discriminating means for discriminating vendor,
Based on a determination result by the determination unit, an acquisition program for acquiring information about the device from the device, a specifying unit for specifying a parameter for specifying information about the device to be acquired,
Execution means for executing the acquisition program according to the parameter specified by the specifying means.

  According to the present invention, the parameter specified based on the vendor determination result of the management target device from the parameter group that specifies the device information to be acquired, which is held in advance for each vendor, is changed from the management target device to the device information. By setting the acquisition program for acquisition and executing it, it is possible to acquire detailed device information from managed devices of other companies.

  DESCRIPTION OF EMBODIMENTS Hereinafter, preferred embodiments of the present invention (hereinafter referred to as “embodiments”) will be described in detail with reference to the drawings.

[First Embodiment]
<System configuration>
Now, the configuration of the device management system according to the present embodiment will be described. FIG. 1 is a diagram illustrating a configuration example of a device management system 1 according to the first embodiment of the present invention.

  As shown in FIG. 1, the device management system 1 includes at least one device manufactured by the company such as an MFP (Multifunction Peripheral) or LP (Laser Printer) (hereinafter referred to as “device managed by the company”). 200 and / or a device manufactured by another company (hereinafter referred to as “other company management target device”) 300, at least one client PC (Personal Computer) 400 (hereinafter simply referred to as “PC”), The device management apparatus 100 is connected to each other via a data transmission path 90 such as a network.

  With such a system configuration, the device management apparatus 100 monitors the status of the company-managed device 200 and / or the other company's managed device 300 and collects information (for example, “status” and “job” by the device management function that operates in the device. Various information such as “History” etc.) is managed to manage each device. The PC 300 is also provided with various types of information relating to the status of the company-managed device 200 and / or the other company's managed device 300.

<Hardware configuration>
Next, a hardware configuration of the device management apparatus 100 that performs device management in the device management system 1 will be described. FIG. 2 is a diagram illustrating a hardware configuration example of the device management apparatus 100 according to the first embodiment of the present invention.

  As shown in FIG. 2, the device management apparatus 100 includes an input device 101, a display device 102, a drive device 103, a RAM (Random Access Memory) 104, a ROM (Read Only Memory) 105, a CPU (Central Processing). Unit) 106, interface device 107, and HDD (Hard Disk Drive) 108, which are mutually connected by a bus.

  The input device 101 includes a keyboard and a mouse, and is used to input each operation signal to the device management apparatus 100. The display device 102 is configured with a display or the like, and displays a processing result by the device management device 100 (for example, “various information regarding the state acquired from the company-managed device 200 and / or another company's managed device 300”).

  The interface device 107 is an interface that connects the device management apparatus 100 to a data transmission path 90 such as a network. As described in the above system configuration, the device management apparatus 100 performs data communication with the company-managed device 200 and / or the other company's managed device 300, the PC 400, and the like via the interface device 107.

  The HDD 108 controls the entire device management apparatus 100 and provides an information processing system (for example, an OS (Operating System) that is basic software such as “Windows (registered trademark)” and “UNIX (registered trademark)), Non-volatile storage of data and programs (such as “application program” and “application data”) that provide various functions (eg, “device management function” and “data communication function”) on the information processing system Is a sex storage device. The HDD 108 manages the stored programs and data by a predetermined file system or DB (Data Base).

  The program and data are provided to the device management apparatus 100 by a recording medium 103a such as a CD (Compact Disk), or downloaded from the data transmission path 90 such as a network via the interface apparatus 107. For example, when provided from the recording medium 103a, it is installed in the HDD 108 via the drive device 103 that can read the recording medium 103a.

  The ROM 105 is a nonvolatile semiconductor memory (storage device) that can retain internal data even when the power is turned off. The ROM 105 stores data such as a basic input / output system (BIOS) that is executed when the device management apparatus 100 is activated, and system settings and network-related settings of the device management apparatus 100.

  The RAM 104 is a volatile semiconductor memory (storage device) that temporarily holds programs and data read from the various storage devices, and the CPU 106 executes a program read on the RAM 104 to execute a device management device. Various functions installed in the overall control 100 and the device management apparatus 100 are operated.

  With such a hardware configuration, the device management apparatus 100 executes, for example, a program for realizing a device management function read from the HDD 108 onto the RAM 104 by the CPU 106, and manages the device 200 to be managed by the company and / or the device to be managed by another company. It is possible to monitor the status of 300, collect various information, and provide information to the PC 400.

<Device management function>
From here, the device management function according to the present embodiment that operates on the hardware configuration will be briefly described. FIG. 3 is a diagram illustrating a configuration example of the device management function according to the first embodiment of the present invention.

  The device management function acquires information related to a device including status information such as MIB information (hereinafter referred to as “device information” for convenience) from the self-managed device 200 and / or another company's managed device 300. This is a function for monitoring the state based on the device information 31 and managing each device. Therefore, it has the state management function part group 20 comprised from a some function part as shown in FIG.

(State management function group)
The state management function unit group 20 includes a device state monitoring unit 21 and a device information management unit 22.

  The device status monitoring unit 21 acquires the device information 31 from the company-managed device 200 and / or the other company's managed device 300 via the data transmission path 90 such as a network, and monitors the status of each device. In addition, the device state monitoring unit 21 acquires the device information 31 by a polling process according to a predetermined monitoring interval (operation timing).

  The device information management unit 22 holds the device information 31 acquired by the device state monitoring unit 21 and manages it for each company-managed device 200 and / or other company's managed device 300. The device information management unit 22 manages the device information 31 by storing the device information 31 in a predetermined storage area of a storage device (for example, “HDD 108”) included in the device management apparatus 100.

  As described above, the device management function according to the present embodiment functions by the operation of the state management function unit group 20. The operation of the state management function unit group 20 is mainly realized by software components related to the device management function of the device management component (application) installed (installed) in the device management apparatus 100.

  Therefore, as described above, as a problem to be solved by the present invention, in the conventional technique, the detailed device information 31 (extended MIB) is acquired from the other company's managed device 300 as in the self-managed device 200. It is a point that cannot be done.

  Therefore, in the environment where the current device management system 1 is introduced, the device 300 to be managed by the other company is managed based on less (simple) information than the device 200 to be managed by the company, and device management appropriate for the user is performed. The function cannot be provided.

  Therefore, in the device management apparatus 100 according to the present embodiment, information for identifying the type of device to be managed (hereinafter referred to as “model identification information”) is acquired, and the device identification is performed based on the acquired model identification information. An acquisition program for determining the vendor (manufacturer) and acquiring the device information 31 from the device, and a parameter for specifying the device information 31 to be acquired for each vendor (an object ID (hereinafter referred to as “OID” of the MIB mounted on the device). The device information from the device of the vendor (company-managed device 200 or other company-managed device 300) determined from the definition file (definition information) in which the information for acquiring the device information 31 is defined. 31 has a device information acquisition function for specifying parameters to be used when acquiring 31 and setting and executing the specified parameters in the acquisition program.

  As a result, in the device management apparatus 100 according to the present embodiment, the device management system 1 can acquire detailed device information 31 from the other company's managed device 300 in the same manner as the company-managed device 200. Even in a network environment in which multiple devices are mixed, device management can be performed based on detailed device information 31 regardless of the vendor, and a suitable device management function can be provided to the user.

  Now, the configuration and operation of the device information acquisition function will be described in detail.

<Device information acquisition function>
<Functional configuration>
The device information acquisition function is a function possessed by the device state monitoring unit 21 constituting the device management function. Therefore, the device state monitoring unit 21 has a plurality of functional units as shown in FIG. FIG. 4 is a diagram illustrating a configuration example of the device information acquisition function according to the first embodiment of the present invention.

  As illustrated in FIG. 4, the device information acquisition function includes a device information acquisition unit 211, a vendor determination information acquisition unit 212, an execution program information acquisition unit 213, and a program execution unit 214.

  The device information acquisition unit 211 has a function of acquiring the device information 31 from the self-managed device 200 and / or the other company's managed device 300.

  When the device information acquisition unit 211 first receives an information acquisition instruction, the device information acquisition unit 211 determines information (hereinafter referred to as “vendor determination information”) for determining a vendor (device manufacturer) acquired by a vendor determination information acquisition unit 212 described later. In order to acquire device information 31 such as an acquisition program for acquiring device information 31 from a device and a parameter (OID of an MIB mounted on the device) for specifying device information 31 acquired for each vendor. The parameter used when acquiring the device information 31 corresponding to the vendor of the device is specified by referring to the definition information 41 which is a definition file in which the information of the device is defined. In other words, the device information acquisition unit 211 is defined from the definition information 41 in association with the vendor identification information (for each company and other company's device) and specifies parameters (equipment implemented by the device) that specify the device information 31 to be acquired. MIB OID). The definition information 41 is stored in advance in a predetermined storage area of a storage device (for example, “HDD 108”) provided in the device management apparatus 100.

  Here, the OID will be briefly described. The OID is an identification code for designating specific device information 31 from the MIB mounted on the device.

  The MIB has a tree-structured data structure, and all nodes are uniquely numbered. This number becomes the identifier of the node. In order to designate specific device information 31 from among the MIBs mounted on the device, it is possible to use identifiers of a plurality of nodes from the node located at the top of the tree structure to the designated information. This is the identification code.

  The MIB structure is called a management information structure (SMI) and is defined in RFC 1155 “Structure and Identification of Management Information for TCP / IP-based Internets”. Among these, the detailed structure of the standard MIB that is normally provided by devices managed by SNMP is defined in RFC 1213 “Management Information Base for Network Management of TCP / IP-based Internets: MIB-II”. ing.

  With such an OID, it is possible to specify device information 31 to be acquired for the device, and the OID is a parameter for specifying the device information 31 to be acquired. The parameter referred to here means a setting value given from the outside in order to specify the operation when executing software or calling a function in a program.

  When the parameter (OID) is specified (acquired) from the definition information 41, the device information acquisition unit 211 instructs the program execution unit 214 described later to execute the acquisition program defined in the definition information 41.

  In the acquisition program instructed to execute, the device information 31 specified by the specified parameter (OID specifying sysObjectID) is received as an execution result, and the received execution result is sent to the device information acquisition unit 211 instructing execution. return.

  As a result, the device information acquisition unit 211 receives the device information 31 specified by the specified (acquired) parameter as the execution result of the acquisition program.

  The vendor identification information acquisition unit 212 is a function for acquiring vendor identification information of the company-managed device 200 and / or the other company's managed device 300.

  When receiving the information acquisition instruction, the vendor determination information acquisition unit 212 first instructs the program execution unit 214 described later to execute the acquisition program defined in the definition information 41. In the definition information 41, in addition to an acquisition program for acquiring the device information 31, an acquisition program for acquiring model identification information (a value of sysObjectID [MIB-II RCF1213]) is also defined.

  In the acquisition program instructed to execute, first, the model identification information designated by a predetermined parameter is received as an execution result, and the definition information 41 is referred to based on the model identification information received as the execution result, and the model identification information is obtained. Identify the corresponding vendor identification information. That is, the vendor determination information defined in association with the model identification information is acquired from the definition information 41. The acquired vendor determination information is returned to the vendor determination information acquisition unit 212 that has instructed execution.

  As a result, the vendor determination information acquisition unit 212 receives the vendor determination information as an execution result of the acquisition program. That is, the vendor identification information acquisition unit 212 acquires model identification information that is a standard MIB that can be commonly acquired in the company-managed device 200 and the other company's managed device 300, and further, based on the acquired model identification information, Identify (acquire) information that identifies the vendor that is the manufacturer of the device.

  The execution program information acquisition unit 213 acquires information related to various information acquisition programs (hereinafter referred to as “execution program information”) instructed to be executed by the device information acquisition unit 211 or the vendor determination information acquisition unit 212. It is.

  When the execution program information acquisition unit 213 receives an information acquisition instruction from the device information acquisition unit 211 or the vendor determination information acquisition unit 212, the execution program information acquisition unit 213 refers to the definition information 41 and identifies execution program information corresponding to the acquisition information. That is, the execution program information defined in association with the acquisition information is acquired from the definition information 41.

  As a result, the execution program information acquisition unit 213 obtains the address value of the acquisition program to be executed based on the acquired execution program information, and sends it to the device information acquisition unit 211 or the vendor determination information acquisition unit 212 that has requested the information acquisition. The obtained address value is returned as an information acquisition result.

  The program execution unit 214 has a function of executing various information acquisition programs instructed to be executed by the device information acquisition unit 211 or the vendor determination information acquisition unit 212.

  When receiving an execution instruction from the device information acquisition unit 211 or the vendor determination information acquisition unit 212, the program execution unit 214 executes the acquisition program based on the address value obtained by the execution program information acquisition unit 213. At this time, the parameters (MIB OIDs mounted on the device) for specifying various information to be acquired are set in the acquisition program by, for example, “setting to external variable” or “setting to function argument”. And executed.

  Further, the program execution unit 214 collects information on execution results from each acquisition program into predetermined data, generates result information, and sends the information to the device information acquisition unit 211 or the vendor determination information acquisition unit 212 that has instructed execution. Return the generated result information.

  Then, the cooperation operation | movement of the apparatus information acquisition by each function part demonstrated above is demonstrated, and the detail of the apparatus information acquisition function which concerns on this embodiment is clarified.

<Functional operation>
The device information acquisition function functions when the above functional units cooperate with each other, and a software component for realizing device information acquisition in the device management function installed in the device management apparatus 100 is stored by the CPU 106 (for example, “ ROM 105 "or the like) is read into the RAM 104, and the following processing is executed.

(Device information acquisition process: Part 1)
FIG. 5 is a sequence diagram illustrating an example of a processing procedure (part 1) for acquiring device information according to the first embodiment of the present invention. FIG. 6 is a diagram illustrating a data example of the definition information 41 (part 1) for acquiring the device information 31 according to the first embodiment of the present invention.

  In the device information acquisition processing procedure according to the present embodiment, mainly “vendor determination information acquisition processing” for acquiring vendor determination information for determining the vendor of a device to be managed and the acquired vendor determination information. The parameter (OID) used when acquiring the device information 31 from the device of the vendor determined in the above (company-managed device 200 or other company-managed device 300) is specified from the definition information 41, and using the specified parameter, “Device information acquisition processing” for acquiring device information 31 from the device is performed.

  In the following description, in order to explain in an easy-to-understand manner how the definition information 41 is used in the processing performed by each functional unit, description will be given using FIG. 6 as an example of specific reference data. I do. Further, in the following description, the partner from which the device management apparatus 100 acquires device information in the process is described as another company's management target device 300.

  First, as illustrated in FIG. 5, the device management apparatus 100 performs “vendor determination information acquisition processing” before performing “device information 31 acquisition processing”.

  The device management apparatus 100 instructs the device information acquisition unit 211 to acquire vendor determination information from the scheduler S (step S101).

  Upon receiving the instruction for acquiring the vendor determination information, the device information acquisition unit 211 instructs the vendor determination information acquisition unit 212 to initialize the vendor determination information (step S102).

  After the initialization, the vendor determination information acquisition unit 212 instructs the execution program information acquisition unit 213 to acquire execution program information for acquiring model identification information that is a basis for vendor determination (step S103).

  When the execution program information acquisition unit 213 receives the execution program information acquisition instruction, the execution program information acquisition unit 213 refers to the definition information 411 illustrated in FIG. 6A and uses the “<param> tag” to finally acquire “VendorID” (vendor Get "VendorIDParamController" (execution program information) defined in association with (discrimination information). The execution program information acquisition unit 213 obtains the address value of the acquisition program to be executed based on the acquired “VendorIDParamController”, and returns the obtained address value as an information acquisition result to the vendor identification information acquisition unit 212 that has requested the information acquisition. To do.

  Upon receiving the address value of the model identification information acquisition program, the vendor identification information acquisition unit 212 instructs the program execution unit 214 to execute the acquisition program (step S104).

  When receiving an execution instruction, the program execution unit 214 executes a model identification information acquisition program based on the address value obtained in step S103.

  At this time, the acquisition program uses the parameter “1.3.6.1.2.1.1.2” (model identification information to be acquired) defined in association with “sysObjectID” (model identification information) in the definition information 411 shown in FIG. Is set and executed. As a result, model identification information (sysObjectID) is acquired from the other company's management target device 300.

  Subsequently, the acquisition program uses the “<reslutTable> tag” indicated by reference numeral 411a in FIG. 6A to identify vendor identification information candidates (VendorIDs associated with the resultValue) defined in association with the model identification information. Value)), vendor identification information corresponding to the acquired model identification information is specified (acquired).

  For example, if the acquired model identification information is "sysObjectID =" 1.3.6.1.4.20000.1.2.3.0 "", it matches the value of the acquired model identification information among the defined vendor identification information candidates The vendor determination information “VendorID ID =“ XCompany ”” corresponding to the value of “resultValue” to be specified is specified (obtained) as the vendor determination information. When the acquired model identification information is “sysObjectID =“ 1.3.6.1.4.30000.1.1.1.1.0 ””, among the defined vendor identification information candidates, the vendor identification information “VendorID ID = “YCompany” is specified (obtained) as vendor discrimination information.

  The program execution unit 214 collects the vendor identification information specified (acquired) in this way into predetermined data as information related to the execution result to generate result information (step S106), and executes the generated result information. It returns to the instructed vendor identification information acquisition unit 212.

  The vendor determination information acquisition unit 212 holds the received result information on the memory (RAM 104), returns the received information to the device information acquisition unit 211, and further returns the device information acquisition unit 211 to the scheduler S.

  Subsequently, the device management apparatus 100 instructs the device information acquisition unit 211 to acquire device information from the scheduler S (step S107).

  The device information acquisition unit 211 requests the vendor determination information acquisition unit 212 to acquire vendor determination information (step S108). As a result, the vendor discrimination information acquisition unit 212 extracts the vendor discrimination information (VendorID) from the result information generated in step S106 and stored in the memory, and uses the extracted data (VendorID value) as a request source. return.

  For example, when the acquired vendor determination information is “VendorID ID =“ XCompany ””, “XCompany” is returned as the extracted data.

  Subsequently, the device information acquisition unit 211 refers to the definition information 412 illustrated in FIG. 6B based on the acquired vendor determination information. At this time, the device information acquisition unit 211 acquires device information 31 from the device defined in association with each vendor using the “<vendorID> tag” indicated by reference numerals 412a and 412b in FIG. 6B. Referring to the acquisition program (controller) and the parameter (MID OID (value) of the MIB implemented by the device) for specifying the device information 31 to be acquired for each vendor, the parameter corresponding to the acquired vendor identification information is identified ( Acquisition) (step S109).

  For example, in the case of the acquired vendor identification information “XCompany”, definition information 412a “<vendorID name =“ XCompany ”> corresponding to“ XCompany ”defined by the“ <vendorID> tag ”. > ”Specifies (acquires) the parameter“ value = “1.3.6.1.4.1.20000.1.2.3.4” ”that specifies the X-DeviceName (device name of company X) as the device information 31. In the case of the acquired vendor identification information “YCompany”, the definition information 412b “<vendorID name =“ YCompany ”> corresponding to“ YCompany ”defined by the“ <vendorID> tag ”. > ”Specifies (acquires) a parameter“ value = “1.3.6.1.4.1.30000.3.1.3.4” ”that specifies Y-DeviceName (device name of Y company) as the device information 31.

  The device information acquisition unit 211 passes the specified (acquired) parameters and vendor determination information to the execution program information acquisition unit 213, and instructs acquisition of execution program information for acquiring the specified device information 31. (Step S110).

  When the execution program information acquisition unit 213 receives an instruction to acquire execution program information, the execution program information acquisition unit 213 is defined by the “<vendorID> tag” shown in the definition information 412a and 412b shown in FIG. 6B based on the vendor identification information (VendorID). In addition, with reference to an acquisition program (controller) for acquiring the device information 31 from the device, information on the acquisition program (execution program information) defined in association with the device information 31 to be acquired is acquired. The execution program information acquisition unit 213 obtains the address value of the acquisition program to be executed based on the obtained execution program information, and returns the obtained address value as an information acquisition result to the device information acquisition unit 211 that has requested the information acquisition. .

  For example, in the case of the vendor discrimination information “XCompany”, definition information 412a “<vendorID name =“ XCompany ”> corresponding to“ XCompany ”defined by the“ <vendorID> tag ”. From “DeviceName” (device information 31) to be acquired, “StringParamController” (execution program information) defined in association with it is acquired, and based on the acquired “StringParamController”, the address value of the acquisition program to be executed is obtained. The obtained address value is returned as an information acquisition result.

  Further, in the case of vendor identification information “YCompany”, definition information 412b “<vendorID name =“ YCompany ”> corresponding to“ YCompany ”defined by“ <vendorID> tag ”... </ VendorID>” From “DeviceName” (device information 31) to be acquired, “StringParamController” (execution program information) defined in association with it is acquired, and based on the acquired “StringParamController”, the address value of the acquisition program to be executed is obtained. The obtained address value is returned as an information acquisition result.

  Upon receiving the address value of the acquisition program of the device information 31, the device information acquisition unit 211 instructs the program execution unit 214 to execute the acquisition program (step S111).

  When receiving the execution instruction, the program execution unit 214 executes the acquisition program for the device information 31 based on the address value obtained in step S110.

  At this time, the acquisition program is set and executed with the parameter “1.3.6.1.4.1.20000.1.2.3.4” (OID specifying the device information 31 to be acquired) acquired in step S109. As a result, the device information 31 (DeviceName) is acquired from the device 300 managed by the other company.

  The program execution unit 214 collects the device information 31 acquired in this way into predetermined data as information related to the execution result to generate result information (step S113), and the generated result information is the device that has instructed execution. It returns to the information acquisition unit 211.

  The device information acquisition unit 211 returns the received result information to the scheduler S.

(Device information acquisition processing: 2)
The processing procedure described above is executed by an existing software component group that implements a device management function installed in the device management apparatus 100. However, depending on changes in the device management environment in the device management system 1 (for example, adding a new vendor's device as a management target), in addition to existing software components, original software components may be developed and added later. Is also envisaged.

  The unique software component mentioned here means, for example, file data (DLL file) obtained by converting an acquisition program for acquiring new device information 31 or expanded device information 31 into DLL.

  DLL is a method of using a Windows® (registered trademark) as a part of a highly versatile program that is commonly used by a plurality of application software, storing it as a file, and calling it to a memory as needed. It is a program component that is used in this way.

  From this, by making the functional unit for acquiring information into a DLL, it can be used in common by each application installed in the device management apparatus 100.

  Hereinafter, how the device information 31 is acquired using the unique software component will be described. FIG. 7 is a sequence diagram illustrating a processing procedure example (part 2) for acquiring device information according to the first embodiment of the present invention. FIG. 8 is a diagram illustrating a data example of definition information (part 2) for acquiring device information according to the first embodiment of the present invention.

  In the following description, only differences from the processing procedure of the “apparatus information acquisition process” described with reference to FIG. 5 will be described.

  As illustrated in FIG. 7, in the device management apparatus 100, the device information acquisition unit 211 acquires a parameter specifying the device information 31 to be acquired from the definition information 41 as in the processing procedure of step S <b> 109 in FIG. 5 (step S <b> 203). Then, the execution program information acquisition unit 213 is instructed to read the DLL file (step S204).

  When the execution program information acquisition unit 213 receives the execution program information acquisition instruction, the execution program information acquisition unit 213 refers to the definition information 412a and 412b illustrated in FIG. 8 based on the vendor determination information, and is acquired in association with the device information 31 to be acquired. The program (execution program) reads the DLL file converted into a DLL (step S205), and returns the result.

  For example, when the vendor identification information is “XCompany”, the definition information 412a “<vendorID name =“ XCompany ”> corresponding to“ XCompany ”defined by the“ <vendorID> tag ”. "XModule.dll" in which "XStringChangeParamController" (execution program) defined in association with "DeviceName" (device information 31) to be acquired is converted into a DLL is read.

  If the vendor identification information is “YCompany”, the definition information 412b “<vendorID name =“ YCompany ”> corresponding to“ YCompany ”defined by the“ <vendorID> tag ”. "YModule.dll" in which "YStringChangeParamController" (execution program) defined in association with "DeviceName" (device information 31) to be acquired is converted into a DLL is read.

  Subsequently, the device information acquisition unit 211 passes the parameters and vendor identification information to the execution program information acquisition unit 213, and instructs acquisition of execution program information for acquiring the specified device information 31 (step S206).

  When the execution program information acquisition unit 213 receives the instruction to acquire the execution program information, the execution program information acquisition unit 213 changes the device information from the device defined by the “<vendorID> tag” shown in the definition information 412a and 412b shown in FIG. With reference to an acquisition program (controller) for acquiring 31, acquisition program information (execution program information) defined in association with the device information 31 to be acquired is acquired. The execution program information acquisition unit 213 obtains the address value of the acquisition program to be executed based on the obtained execution program information (step S207), and obtains the obtained address value from the device information acquisition unit 211 that requested the information acquisition. Respond as a result.

  When the device information acquisition unit 211 receives the address value of the acquisition program of the device information 31 as in the processing procedure of step S111 of FIG. 5, the device information acquisition unit 211 instructs the program execution unit 214 to execute the acquisition program (step S208). Subsequent steps S209 and S210 are the same as steps S112 and S113 in FIG.

<Summary>
As described above, according to the first embodiment of the present invention, in the device management apparatus 100 according to the present embodiment, first, the vendor identification information acquisition unit 212 has a device to be managed (in-house management target device 200 and The device identification information (sysObjectID) of the device 300 managed by the other company is acquired, and the vendor of the device is determined based on the acquired device identification information (the vendor determination information (VendorID) is acquired).

  Subsequently, the device information acquisition unit 211 acquires an acquisition program (controller) for acquiring the device information 31 from the device, a parameter for specifying the device information 31 acquired for each vendor (an OID (MIB of the MIB mounted on the device)). value)) when acquiring the device information 31 from the determined vendor device (in-house managed device 200 or other company managed device 300) from the definition information 41 in which information for acquiring the device information 31 is defined. Specify (acquire) the parameters to be used.

  As a result, based on the specified (acquired) parameters and the vendor identification information, the execution program information acquisition unit 213 obtains the address value of the acquisition program, and the program execution unit 214 obtains the address value obtained. Set the specified parameter in the acquisition program and execute it.

  As a result, the device management apparatus 100 can acquire the detailed device information 31 (extended MIB) from the other company's managed device 300 in the device management system 1 as well as the self-managed device 200. In addition, since the information (definition information 41) related to the acquisition of the device information 31 is a data file, a highly expandable device information acquisition function such as specification change during development and maintenance during operation can be realized.

  From the above, the device management system 1 according to the present embodiment can perform device management based on the detailed device information 31 regardless of the vendor even in a network environment in which devices of different vendors are mixed. A suitable device management function can be provided to the user.

[Second Embodiment]
In the first embodiment, the configuration for acquiring detailed device information from other company's managed devices as well as the company managed device has been described.

  In such a case, a device management apparatus that manages device information must manage device information in a format that complies with the specifications of other companies, as well as its own device information. In other words, different types of data must be managed.

  Therefore, in order to perform device management based on device information in a general and efficient manner, for example, when managing device information, it is necessary to handle the acquired device information of the company and other companies (different vendors) in common. There is.

  Therefore, in the device information acquisition function in the device management function of the device management apparatus according to the present embodiment, a function to perform data conversion so that the acquired device information of other companies can be handled in common with the device information of the company (data conversion function). To solve the above problems.

  The device management apparatus according to the present embodiment will be described below, but the difference between the device management apparatus according to the present embodiment and the device management apparatus according to the first embodiment is only the data conversion function. Therefore, with respect to other technical matters, the same drawings and reference numerals as those in the first embodiment are referred to and description thereof is omitted.

<Device information acquisition function>
<Functional configuration>
FIG. 9 is a diagram illustrating a configuration example of a device information acquisition function according to the second embodiment of the present invention. As illustrated in FIG. 9, each functional unit configuring the device information acquisition function according to the present embodiment is the same as the device information acquisition function according to the first embodiment.

  In the functional configuration, the difference from the first embodiment is that the definition information 41 defines a procedure (conversion table (data conversion unit) 51) for converting the device information 31 of another company based on the device information 31 of the company. The program execution unit 214 performs data conversion based on the conversion table 51 so that the device information 31 of other companies can be handled in the same manner as the device information 31 of the company.

  Hereinafter, the details of the functional operation using the conversion table 51 will be described.

<Functional operation>
FIG. 10 is a flowchart showing an example of a processing procedure for generating result information according to the second embodiment of the present invention.

  In order to be able to handle the device information 31 of the other company in the same way as the device information 31 of the company, after acquiring the device information 31 from the device 300 managed by the other company, it is acquired by the information acquisition request source instructing to acquire the device information 31 This must be done before the result is answered.

  Therefore, in the present embodiment, data conversion is performed at the stage of generating result information based on the device information 31 after acquisition described in step S113 of FIG. 5 and step S210 of FIG.

  FIG. 10A shows an example of a processing procedure performed at that time, and FIG. 10B further shows an example of a data conversion process performed in the processing.

(Result information generation process)
As shown in FIG. 10A, in the device management apparatus 100, when the program execution unit 214 receives an execution instruction (step S301), the device management apparatus 100 uses the address value of the acquisition program to acquire the device information 31 to be acquired based on the address value of the acquisition program. The information acquisition program is executed to acquire the device information 31 from the other company's management target device 300 (step S302).

  Subsequently, the program execution unit 214 refers to the definition information 41 (step S303), and determines whether or not conversion program information (execution program information) for converting data can be acquired from the definition information 41 (execution program information is defined). Whether or not) (step S304).

  If it is determined in step S304 that the execution program information can be acquired, that is, if it is determined that the execution program information is defined (step S304: YES), the execution program information is acquired (step S305). The address value of the conversion program to be executed is obtained based on the acquired information.

  The program execution unit 241 executes a conversion program for converting data based on the obtained address value, and performs data conversion processing (step S306).

  The program execution unit 214 collects the values converted in this way into predetermined data as information relating to the execution result, and generates result information (step S307).

  The result information generated in this way is returned to the device information acquisition unit 211 that has instructed execution.

  On the other hand, if it is determined in step S304 that the execution program information cannot be acquired, that is, if it is determined that the execution program information is not defined (step S304: NO), it is acquired from the other company's managed device 300. The determined device information 31 determines that it is not necessary to perform data conversion, and the processing shown in FIG.

(Data conversion process)
The processing procedure described below is the details of the data conversion process performed by executing the conversion program in step S306.

  As shown in FIG. 10B, the executed conversion program first includes a “<reslutTable> tag” in the definition information 41 based on the acquired device information 31 of another company and the information type of the device information 31. The conversion table 51 in which the value of the acquired device information 31 and the converted value defined by the above are associated is searched (step S401), and the converted value corresponding to the value of the device information 31 of another company is defined. It is determined whether or not it has been performed (step S402).

  In step S402, when the converted value is defined in the conversion table 51 (step S402: YES), the corresponding converted value is acquired and the device information 31 of the other company is converted (the device of the other company). The value of the information 31 is replaced with the acquired converted value) (step S403).

  On the other hand, in step S402, when the converted value is not defined in the conversion table 51 (step S402: NO), the processing shown in FIG.

  The device management apparatus 100 according to the present embodiment performs data conversion processing in the device information acquisition function according to the above processing procedure.

  From here, the data conversion function according to the present embodiment will be described more specifically based on the data example of the conversion table 51.

For example, the following is assumed when the data conversion function is operated.
(1) A scene where the value of the company's extended MIB matches the value of another company's extended MIB (2) A scene corresponding to a vendor-defined value in the standard MIB (3) Device information output contents by the acquisition program (4) Scene corresponding to vendor-specific Trap MIB In the following description, each of the above scenes will be described as an example.

(1) A scene in which the value of the extension MIB of the company and the value of the extension MIB of another company are matched. FIG. 11 shows definition information 41 (part 1) for acquiring the device information 31 according to the second embodiment of the present invention. FIG.

In the device information acquiring function according to the present embodiment, based on the vendor distinguishing information "Xcompany", when referring to the definition information 412 ₁ shown in FIG. 11, the vendor distinguishing information defined by "<vendorID>tag""Xcompany" From the information corresponding to, the program execution unit 214 adds the parameter “value =” 1.3.6.1.4.1.20000.4.3.2 to the acquisition program of “CopyStatusParamController” that acquires the device information 31 defined by the “<param> tag”. .1 "is set," X-CopyStatusSummary "is acquired, and parameter" value = "1.3.6.1.4.1.20000.4.5.6.1" is set, and "X-EnageStatusSummary" is acquired.

  Subsequently, the program execution unit 214 determines whether or not conversion program information (execution program information) can be acquired based on whether or not the information defined by the “<resultTable> tag” exists.

  When the information defined by the “<resultTable> tag” exists, the program execution unit 214 determines that the conversion program information can be acquired, and the conversion program (ValueChangeController) ) Is identified and executed.

  The conversion program (ValueChangeController) executed in this way refers to the conversion table 511a in the figure and converts the values of “X-CopyStatusSummary” and “X-EnageStatusSummary” acquired by the acquisition program (CopyStatusParamController).

  Here, the configuration of the conversion table 51 will be described. In the conversion table 51 used in the case where the value of the company's extended MIB (own device information 31) and the value of the other company's extended MIB (other company's device information 31) are matched, one data conversion procedure is one. It is defined by two “<result> tags”. In the “<result> tag”, an information type (valueID) indicating the type of the device information 31, a value (value) before conversion (acquired device information 31 of another company acquired), a value after conversion (resultValue), Are defined in association with each other. Therefore, in the conversion table 51, data conversion procedures are defined by “<result> tag” as many as the number of device information 31 of other companies to be converted.

When data conversion is performed using the conversion table 51 having such a configuration, conversion processing is performed according to the following procedure.
(Procedure 1) With reference to “valueID” of the conversion table 511a, the “<result> tag” corresponding to the information type of the acquired device information 31 of another company is narrowed down. The information type of the device information 31 is defined as the value of “valueID” in the same “<obj> tag” as the parameter (value) that specifies the device information 31 to be acquired. The device information 31 is associated with a name (name) and a parameter (value).
(Procedure 2) “<result> tag” in which the value of “value” that matches the acquired value of the device information 31 of another company is defined from the information of one or more “<result> tag” that has been narrowed down Is identified.
(Procedure 3) The value of “resultValue” defined in the information of the identified “<result> tag” is acquired as the converted value.

For example, when the acquired device information 31 of another company is “X-CopyStatusSummary” and the value is “0x0100”, if data conversion is performed using the conversion table 511a in the figure, the definition information 412 in the figure is displayed. ₁ , since the information type of “X-CopyStatusSummary” is defined as “valueID =“ 1 ””, “<result> tag” in which “valueID =“ 1 ”” is defined in the conversion table 511a. Are narrowed down as candidates for data conversion procedures.

  Next, “<result> tag” in which the value of “value” that matches the value “0x0100” of “X-CopyStatusSummary” is defined from the information of one or more “<result> tag” that has been narrowed down. And “0x0020” of “resultValue” defined in the information of the specified “<result> tag” is acquired as a converted value.

Further, in the device information 31 of the other companies acquired "X-EnageStatusSummary", if the value is "0x1000" is the definition information 412 ₁ in the drawing, information of types of "X-EnageStatusSummary" is " Since valueID = “2” ”is defined, information of“ <result> tag ”in which“ valueID = “2” ”is defined in the conversion table 511a is narrowed down as a data conversion procedure candidate.

  Next, “<result> tag” in which the value of “value” that matches the value “0x0001” of “X-EnageStatusSummary” is defined from the information of one or more “<result> tag” that has been narrowed down. And “0x1000” of “resultValue” defined in the information of the specified “<result> tag” is acquired as the converted value.

Further, examples of the conversion table 511b in the definition information 412 ₁ in the drawing, when the device information 31 of the other companies acquired is a character string, to be converted into code values of their device information 31 corresponding to the character string It is shown. Thus, even if the data formats are different, it is possible to achieve matching.

  The converted values obtained in this way are collected into predetermined data as information related to the execution result by the program execution unit 214, and result information is generated. As a result, the result information generated using the converted value is returned to the device information acquisition unit 211 that is the information acquisition request source.

  In addition, when performing the above-described data conversion processing, if there is no information type corresponding to the conversion table 51 or a value before conversion, for example, as shown in the conversion tables 511a and 511b in the figure, a predetermined conversion value Convert to ("0xFFFF").

(2) Scene corresponding to a value uniquely defined by the vendor in the standard MIB FIG. 12 is a data example of definition information 41 (part 2) for acquiring the device information 31 according to the second embodiment of the present invention. FIG.

  For example, the standard MIB includes information that can be uniquely defined by a vendor, such as Printer-MIB (prtAlertLocation). As described above, the device information 31 that has no commonality among vendors and has high expandability needs to be shared between the company and other companies.

Therefore, based on the definition information 412 ₂ conversion table 512 is defined as shown in FIG. 12, the device information 31 of the other companies acquired, converted in accordance with the company's specifications.

In the device information acquiring function according to the present embodiment, when referring to the definition information 412 ₂ shown in FIG. 12, the information defined by "<vendorID>tag", the program execution unit 214, the "<param>tag" The parameter “value =“ 1.3.6.1.4.1.43.18.1.1.6.1 ”” is set in the acquisition program of “StringParamController” that acquires the defined device information 31, and “prtAletLocation” is acquired.

  Subsequently, the program execution unit 214 determines whether or not conversion program information (execution program information) can be acquired based on whether or not the information defined by the “<resultTable> tag” exists.

  When the information defined by the “<resultTable> tag” exists, the program execution unit 214 determines that the conversion program information can be acquired, and from ““ controller ”=“ PrinterAlertCodeValueController ””, the conversion program (PrinterAlertCodeValueController) ) Is identified and executed.

  The conversion program (PrinterAlertCodeValueController) executed in this way refers to the conversion table 512 in the figure and converts the value of “prtAletLocation” acquired by the acquisition program (StringParamController).

  Here, the configuration of the conversion table 51 will be described. In the conversion table 51 used in a scene corresponding to a value uniquely defined in the vendor in the standard MIB, one data conversion procedure is defined by one “<result> tag”. In the “<result> tag”, an information type (valueID) indicating the type of the device information 31, a value (value) before conversion (acquired device information 31 of another company acquired), a value after conversion (resultValue), The vendor identification information (vendorID) is defined in association with each other. Therefore, in the conversion table 51, data conversion procedures are defined by “<result> tag” as many as the number of device information 31 of other companies to be converted.

When data conversion is performed using the conversion table 51 having such a configuration, conversion processing is performed according to the following procedure.
(Procedure 1) With reference to “valueID” of the conversion table 511a, the “<result> tag” corresponding to the information type of the acquired device information 31 of another company is narrowed down. The information type of the device information 31 is defined as the value of “valueID” in the same “<obj> tag” as the parameter (value) that specifies the device information 31 to be acquired. The device information 31 is associated with a name (name) and a parameter (value).
(Procedure 2) From the information of one or more “<result> tags” that have been narrowed down, the corresponding “<result> tags” are further narrowed down based on the vendor discrimination information.
(Procedure 3) “<result> tag” in which the value of “value” that matches the acquired value of the device information 31 of another company is defined from the information of one or more “<result> tag” that has been narrowed down Is identified.
(Procedure 4) The value of “resultValue” defined in the specified “<result> tag” information is acquired as the converted value.

For example, when the determined vendor determination information is “XCompany” and the acquired device information 31 “prtAletLocation” of the other company is “10022”, data conversion is performed using the conversion table 512 in the figure. in the definition information 412 ₂ of FIG, information species "prtAletLocation" is "valueID =" 1 "" because it is defined as, in the conversion table 512 "valueID =" 1 "" is defined "<Result> tag information is narrowed down as data conversion procedure candidates.

  Next, from among the narrowed down information of one or more “<result> tags”, “vendorID =“ XCompany ”” is defined based on the vendor identification information “XCompany” and the corresponding “<result> tag ".

  Next, specify the “<result> tag” in which the “value” value that matches the “prtAletLocation” value “10022” is defined from the information of one or more “<result> tags” Then, the value “10123” of “resultValue” defined in the specified “<result> tag” information is acquired as the converted value.

Further, when the determined vendor determination information is “YCompany” and the acquired device information 31 “prtAletLocation” of the other company is “30123”, data conversion is performed using the conversion table 512 in the figure. in the definition information 412 ₂ of FIG, information species "prtAletLocation" is "valueID =" 1 "" because it is defined as, in the conversion table 512 "valueID =" 1 "" is defined "<Result> tag information is narrowed down as data conversion procedure candidates.

  Next, based on the vendor identification information “YCompany”, the “vendorID =“ YCompany ”” is defined from the narrowed down information of one or more “<result> tags”. ".

  Next, specify the “<result> tag” in which the value of “value” that matches the value “30123” of “prtAletLocation” is defined from the information of one or more “<result> tags” that have been narrowed down Then, the value “20010” of “resultValue” defined in the specified “<result> tag” information is acquired as the converted value.

Further, the definition information 412 ₂ of FIG, by "<result>tag", an information type representing the type of device information 31 (valueID), conversion value before (device information 31 of the other companies acquired) (value) And an example of a conversion table 512 that converts the acquired device information 31 of other companies according to the company's specifications in accordance with a data conversion procedure defined in association with the converted value (resultValue). . As described above, it is possible to perform data conversion in common with devices of other companies (common to each device of “Company X” and “Company Y”) without depending on the vendor identification information (VendorID).

  The converted values obtained in this way are collected into predetermined data as information related to the execution result by the program execution unit 214, and result information is generated. As a result, the result information generated using the converted value is returned to the device information acquisition unit 211 that is the information acquisition request source.

  In addition, when performing the above-described data conversion processing, if there is no information type corresponding to the conversion table 51 or a value before conversion, for example, as shown in the conversion tables 511a and 511b in the figure, a predetermined conversion value Convert to ("0xFFFF").

(3) Scene in which new information is added to the output contents of device information by the acquisition program FIG. 13 is data of definition information 41 (part 3) for acquiring device information 31 according to the second embodiment of the present invention. It is a figure which shows an example.

For example, the definition information 412 ₃ shown in FIG. 13, using the "<param>tag" by a defined acquisition program "CopyStatusParamController", when acquiring the device information 31 (CopyStatus), obtainable about the output contents (CopyStatus Information). This is because the acquisition program is a program developed by the company and can only be output in accordance with the specifications at the time of development.

  When acquiring the device information 31 of another company using such an acquisition program, it is desired that new information provided by the other company can be acquired according to the specifications of the company.

Therefore, based on the definition information 412 ₃ a conversion table 513a and 513b are defined as shown in FIG. 13, based on the device information 31 of the other companies acquired, together new information by others to provide to their specifications Convert.

  In the data conversion function, “information acquisition by acquisition program”, “execution of conversion program”, “configuration of conversion table”, and “procedure for data conversion” are the contents described in (1) above. Therefore, the description here is omitted, and only the specific conversion process performed using the conversion tables 513a and 513b shown in FIG. 13 will be described.

For example, when the value of the acquired device information 31 “X-CopyStatusSummary” of the other company is a new value “0x0040” provided by the other company, if data conversion is performed using the conversion table 513a in FIG. in definition information 412 ₃ in, "X-CopyStatusSummary" information type of "valueID =" 1 ",""valueID=" 1 "," since they are defined in the conversion table 513a and is defined "<Result> tag information is narrowed down as data conversion procedure candidates.

  Next, “<result> tag” in which the value of “value” that matches the value “0x0040” of “X-CopyStatusSummary” is defined from the information of one or more “<result> tag” that has been narrowed down. , And obtain the "resultValue" value "Toner empty (Cyan)" defined in the specified "<result> tag" information as the converted value (predetermined character string according to the company's specifications) To do.

The value of the acquired device information 31 of the third "X-EnageStatusSummary" is, when was a new value "0x0001" by others to provide, in the definition information 412 ₃ in FIG, the "X-EnageStatusSummary" Since the information type is defined as “valueID =“ 2 ””, the information of the “<result> tag” in which “valueID =“ 2 ”” is defined in the conversion table 513a is the data conversion procedure candidate. As narrowed down.

  Next, “<result> tag” in which the value of “value” that matches the value “0x0001” of “X-EnageStatusSummary” is defined from the information of one or more “<result> tag” that has been narrowed down. And the value “Energy Saver Mode” of “resultValue” defined in the information of the specified “<result> tag” is acquired as a value after conversion (a predetermined character string according to the company's specifications).

  The converted values obtained in this way are collected into predetermined data as information related to the execution result by the program execution unit 214, and result information is generated. As a result, the result information generated using the converted value is returned to the device information acquisition unit 211 that is the information acquisition request source.

  In addition, when performing the data conversion process, if there is no information type corresponding to the conversion table 51 or a value before conversion, for example, as shown in the conversion tables 513a and 513b in the figure, a predetermined conversion value ("Other Error")

(4) Scene corresponding to vendor-specific Trap MIB FIG. 14 is a diagram illustrating a data example of definition information 41 (part 4) for acquiring device information 31 according to the second embodiment of the present invention.

  First, Trap will be briefly described. Trap refers to a destination specified in advance (for example, “device management apparatus” when an error occurs, a setting is changed, or some change occurs in the company-managed device 200 or another company-managed device 300. 100 ”etc.) is notified of the device information 31 including the state information.

  The device information 31 acquired in this way includes the IP address of the device in which the change has occurred, event identification information (event ID) for identifying the event (occurrence failure or setting change), the occurrence time, and the OID. And the value of the OID.

  Of these, the OID of the standard MIB is mainly set in the OID, but in some cases, the OID of the extension MIB of another company is set. In such a case, the OID of the extension MIB of the other company is set. I want to convert the OID value according to my company's specifications so that the application can use it.

Therefore, based on the definition information 412 ₄ a conversion table 514 is defined as shown in FIG. 14, based on the device information 31 of the other companies acquired, it converts the combined information by others to provide to their specifications.

In the device information acquiring function according to the present embodiment, when the acquired device information 31 (OID "1.3.6.1.4.1.20000.4.3.2.1") by TrapMIB, with reference to the definition information 412 ₄ shown in FIG. 14, the program Based on the OID “1.3.6.1.4.1.20000.4.3.2.1” acquired by the execution unit 214 using the “TrapParamController” conversion program that converts the device information 31 defined by the “<param> tag”. With reference to the information defined by the <obj> tag, the value “X-CopyStatusSummary” of the name “name” of the device information 31 and the value “11” of the information type “valueID” indicating the type of the device information 31 are acquired. .

  Subsequently, the program execution unit 214 determines whether the information defined by the “<resultTable> tag” includes information corresponding to the value “11” of the acquired information type “valueID”. It is determined whether or not the information (execution program information) of a conversion program (hereinafter referred to as “other company extended MIB compatible conversion program”) corresponding to another company's extended MIB can be acquired.

  When the information defined by the “<resultTable> tag” exists, the program execution unit 214 determines that the conversion program information corresponding to the other company's extended MIB can be acquired, and from ““ controller ”=“ TrapCodeValueController ””, Identify and execute another company's extended MIB compatible conversion program (ValueChangeController).

  The third-party extended MIB compatible conversion program (TrapCodeValueController) executed in this way refers to the conversion table 514 in the figure and converts the value of “X-CopyStatusSummary” acquired by the conversion program (TrapParamController).

  Here, the configuration of the conversion table 51 will be described. In the conversion table 51 used in the case where the value of the company's extended MIB (own device information 31) and the value of the other company's extended MIB (other company's device information 31) are matched, one data conversion procedure is one. It is defined by two “<result> tags”. In the “<result> tag”, the information type (before_valueID, after_valueID) indicating the type of the device information 31, the value (value) before conversion (acquired device information 31 of another company), and the value after conversion (resultValue) ) Are defined in association with each other. Therefore, in the conversion table 51, data conversion procedures are defined by “<result> tag” as many as the number of device information 31 of other companies to be converted.

  Further, in the conversion table 51, not only the value (value) of the acquired device information 31 of the other company but also the name (name) of the device information 31 of the other company is specified based on the information type representing the type of the device information 31. Need to be converted to match.

  Therefore, the value before conversion (before_valueID) of the information type representing the type of the device information 31 and the value after conversion (after_valueID) are defined in association with each other.

When data conversion is performed using the conversion table 51 having such a configuration, conversion processing is performed according to the following procedure.
(Procedure 1) With reference to “before_valueID” of the conversion table 511a, the “<result> tag” corresponding to the acquired information type of the device information 31 of another company is narrowed down. The information type of the device information 31 is defined as the value of “valueID” in the same “<obj> tag” as the parameter (value) that specifies the device information 31 to be acquired. It is associated with the name (name) of the device information 31 and the value (value) of the OID.
(Procedure 2) “<result> tag” in which the value of “value” that matches the acquired value of the device information 31 of another company is defined from the information of one or more “<result> tag” that has been narrowed down Is identified.
(Procedure 3) The “after_valueID” value defined in the specified “<result> tag” information and the “resultValue” value are acquired as converted values.
(Procedure 4) Furthermore, the name (name) of the device information 31 defined in association with the converted value (after_valueID) of the information type representing the type of the device information 31 from the information of “<obj> tag” To get.

For example, if the acquired device information 31 (TrapMIB) of another company is “X-CopyStatusSummary” of OID “1.3.6.1.4.1.20000.4.3.2.1” and the value is “0x0100”, When performing data conversion using the conversion table 514, since the definition information 412 ₄ in the drawing, the information type of "X-CopyStatusSummary", is defined as "valueID =" 11 "", the conversion table 514 Information of “<result> tag” in which “before_valueID =“ 11 ”” is defined is narrowed down as data conversion procedure candidates.

  Next, “<result> tag” in which the value of “value” that matches the value “0x0100” of “X-CopyStatusSummary” is defined from the information of one or more “<result> tag” that has been narrowed down. And the value “9” of “after_valueID” and the value “0x0020” of “resultValue” defined in the information of the specified “<result> tag” are acquired as converted values.

  Based on the value “9” of the converted value “after_valueID” of the information type representing the type of the device information 31 converted in this way, the matching “valueID” from the information of “<obj> tag”. “<Obj> tag” in which the value of “<obj> tag” is defined, and the device information 31 name “name” value “MyCompanyCopyAlertCodeOrg” defined in the specified “<obj> tag” information is converted into device information after conversion. Acquired as 31 name.

Further, examples of the conversion table 514 in the definition information 412 ₄ in FIG, when the device information 31 of the other companies acquired is a character string, to be converted into code values of their device information 31 corresponding to the character string It is shown. Thus, even if the data formats are different, it is possible to achieve matching.

  The converted values obtained in this way are collected into predetermined data as information related to the execution result by the program execution unit 214, and result information is generated. As a result, the result information generated using the converted value is returned to the device information acquisition unit 211 that is the information acquisition request source.

  When the data conversion process is performed and there is no information type or value before conversion in the conversion table 51, for example, as shown in the conversion table 514 in the figure, a predetermined conversion value ("" 0xFFFF ").

<Summary>
As described above, according to the second embodiment of the present invention, the device management apparatus 100 according to the present embodiment realizes the same device information acquisition function as that of the first embodiment.

  Further, in the device management apparatus 100, after executing the acquisition program by the program execution unit 214, it is determined whether or not the acquired device information 31 of another company is data to be subjected to data conversion. Run the conversion program.

  As a result, the conversion program performs data conversion on the acquired device information 31 of the other company according to the company's specifications based on the definition information 41 in which the conversion table 51 is defined.

  As a result, the device management apparatus 100 has the same effects as the first embodiment, and the device management system 1 can handle the device information 31 of other companies in common with the device information 31 of the company.

  From the above, in the device management system 1 according to the present embodiment, even in a network environment in which devices of different vendors are mixed, device management is efficiently performed based on the detailed device information 31 regardless of the vendor. And a suitable device management function can be provided to the user.

  Up to this point, the present invention has been described based on the above-described embodiments. However, the “device information acquisition function” of the device management apparatus 100 according to each of the above-described embodiments is based on each processing procedure described with reference to the drawings. This is realized by being executed by the CPU 108 as a program coded in a programming language suitable for the operating environment (platform). Therefore, the program can be stored in the computer-readable recording medium 103a.

  The program is stored in a recording medium 103a such as a floppy (registered trademark) disk, a CD, or a DVD (Digital Versatile Disk), and the device management apparatus can be read via the drive device 103 that can read the recording medium 103a. 100 can be installed. In addition, since the device management apparatus 100 includes the interface device 107, the program can be downloaded and installed using a telecommunication line such as the Internet.

  By the way, in each said embodiment, although the structure which hold | maintains the apparatus information 31 and the definition information 41 in the predetermined storage area of the memory | storage device with which the apparatus management apparatus 100 is provided was demonstrated, this invention is limited to this structure. It is not a thing.

  For example, the various types of information may be stored in the external recording medium 103a or may be stored in a storage device included in an external device connected via the data transmission path 90. The configuration may not be held in the storage device provided. The storage destination of the various types of information may be configured to be controlled by each functional unit that manages and refers to the information.

  In each of the above embodiments, the definition information 41 using XML (Extensible Markup Language) data has been described as an example. However, the present invention is not limited to this data format.

  The definition information 41 includes vendor identification information in the device information acquisition function, information on the acquisition program for acquiring the device information 31 (execution program information), a parameter (OID) for specifying the device information 31 to be acquired, and a data conversion function. Any configuration may be used as long as each piece of information such as conversion program information (execution program information) and converted values is specified (acquired).

  In each of the embodiments described above, the reason why XML is used as the data format of the definition information 41 is that, in the case of XML data, there is a general-purpose program (XML parser) that analyzes the data and interprets the definition contents, so that the function can be easily realized. Points and points that can be easily developed and maintained because the definition contents can be entered as text.

  Finally, the present invention is not limited to the requirements shown here, such as combinations of other elements with the shapes and configurations described in the above embodiments. With respect to these points, the present invention can be changed within a range that does not detract from the gist of the present invention, and can be appropriately determined according to the application form.

It is a figure which shows the structural example of the apparatus management system which concerns on the 1st Embodiment of this invention. It is a figure which shows the hardware structural example of the apparatus management apparatus which concerns on the 1st Embodiment of this invention. It is a figure which shows the structural example of the apparatus management function which concerns on the 1st Embodiment of this invention. It is a figure which shows the structural example of the apparatus information acquisition function which concerns on the 1st Embodiment of this invention. It is a sequence diagram which shows the process sequence example (the 1) of the apparatus information acquisition which concerns on the 1st Embodiment of this invention. It is a figure which shows the example of a data of the definition information (the 1) for acquiring the apparatus information which concerns on the 1st Embodiment of this invention. It is a sequence diagram which shows the process sequence example (the 2) of apparatus information acquisition which concerns on the 1st Embodiment of this invention. It is a figure which shows the example of a data of the definition information (the 2) for acquiring the apparatus information which concerns on the 1st Embodiment of this invention. It is a figure which shows the structural example of the apparatus information acquisition function which concerns on the 2nd Embodiment of this invention. It is a flowchart which shows the example of a process sequence which produces | generates the result information which concerns on the 2nd Embodiment of this invention. It is a figure which shows the example of a data of the definition information (the 1) for acquiring the apparatus information which concerns on the 2nd Embodiment of this invention. It is a figure which shows the example of a data of the definition information (the 2) for acquiring the apparatus information which concerns on the 2nd Embodiment of this invention. It is a figure which shows the example of data of the definition information (the 3) for acquiring the apparatus information which concerns on the 2nd Embodiment of this invention. It is a figure which shows the example of a data of the definition information (the 4) for acquiring the apparatus information which concerns on the 2nd Embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Device management system 20 State management function part group 21 Device state monitoring part 211 Equipment information acquisition part 212 Vendor discrimination information acquisition part 213 Execution program information acquisition part 214 Program execution part 22 Equipment information management part 31 Equipment information 41 Definition information 51 Conversion table 90 data transmission path 100 device management device 101 input device 102 display device 103 drive device (a: recording medium)
104 RAM (volatile semiconductor memory)
105 ROM (nonvolatile semiconductor memory)
106 CPU (Central Processing Unit)
107 Interface device (NIC: Network I / F Card)
108 HDD (nonvolatile storage device)
200 In-house managed devices (image processing devices)
300 Other company's managed devices (image processing devices)
400 Client PC (information processing device)

Claims (12)

A device management apparatus that monitors the state of a device connected via a predetermined data transmission path and manages the device based on information about the device including state information,
Information identifying the type of the device, a determining means and information to determine the manufacturer and is vendor of the device with reference to the definition information defined in association determines before Kibe Sunda,
Based on a determination result by the determination unit, an acquisition program for acquiring information about the device from the device, a specifying unit for specifying a parameter for specifying information about the device to be acquired,
And an execution unit that executes the acquisition program according to the parameter specified by the specifying unit. The determination means refers to the pre-Symbol definition information, the vendor is specific to that information to determine the device management apparatus according to claim 1, wherein the determining the vendor. 2. The device management apparatus according to claim 1, wherein information for identifying the type of the device is acquired from the device. The specifying means is:
Based on the discrimination result by the discrimination means,
For each piece of information for determining the vendor, refer to definition information defined by associating information about the acquisition program with information about the parameter,
Device management apparatus according to any one of claims 1 to 3, characterized in that identifying the acquisition program and the parameters corresponding to the vendor. The execution means includes
It was determined on the basis of the acquired information on program specified by the specifying means, based on the execution address of the acquisition program, apparatus according to any one of claims 1 to 4, characterized in that executing the acquisition program Management device. The device management device
As a result of executing the acquisition program by the execution means, it has conversion means for performing predetermined data conversion on information on the equipment obtained from other companies' equipment,
The converting means includes
The device management apparatus according to any one of claims 1 to 5 , wherein information on the device obtained from the device of the other company is converted into information that conforms to the specifications of the company. The converting means includes
7. The device management according to claim 6 , wherein information on the device obtained from the device of the other company is converted based on definition information defined by associating a value before conversion and a value after conversion. apparatus. The converting means includes
Based on the information types of information about equipment obtained from other companies' equipment,
For each information type, refer to definition information in which information about a conversion program that converts data about equipment is defined,
The device management apparatus according to claim 6 or 7 , wherein data conversion is performed by executing the conversion program corresponding to the information type. The definition information includes
Stored in one of storage areas of a storage device included in the device management device, a storage device included in an external device connected to the device management device via a predetermined data transmission path, and a recording medium readable by the device management device device management apparatus according to claims 1 to 8, characterized in that. A device management system for monitoring a state of a device connected via a predetermined data transmission path and managing the device based on information about the device including the state information;
Information identifying the type of the device, a determining means and information to determine the manufacturer and is vendor of the device with reference to the definition information defined in association determines before Kibe Sunda,
Based on a determination result by the determination unit, an acquisition program for acquiring information about the device from the device, a specifying unit for specifying a parameter for specifying information about the device to be acquired,
And an execution unit that executes the acquisition program according to the parameter specified by the specifying unit. A device information acquisition program in a device management apparatus that monitors a state of a device connected via a predetermined data transmission path and manages the device based on information about the device including state information,
Computer
Information identifying the type of the device, a determining means and information to determine the manufacturer and is vendor of the device with reference to the definition information defined in association determines before Kibe Sunda,
Based on a determination result by the determination unit, an acquisition program for acquiring information about the device from the device, a specifying unit for specifying a parameter for specifying information about the device to be acquired,
A device information acquisition program that functions as an execution unit that executes the acquisition program according to the parameter specified by the specifying unit. Media claim corresponding to claim 1

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