JP6003295B2 - Information processing apparatus, control method thereof, and program - Google Patents

Description

  The present invention relates to an information processing apparatus, a control method thereof, and a program.

  In recent years, there are many companies that have restrictions on the size of e-mail received. 2. Description of the Related Art A technique for split transmission of electronic mail is generally known in which when an attached file size exceeds a threshold value that is a restriction value of the reception size, the electronic mail and the attached file are divided and transmitted below the threshold value.

  In addition, when the size of the e-mail to be sent exceeds the threshold, a technique for reducing the size of the e-mail by dividing the image data of the attached file into pages and sending the e-mail with a size equal to or smaller than the threshold is disclosed. ing. (For example, Patent Document 1)

JP 2011-86314 A

  However, in the technique described in Patent Document 1, if the user on the e-mail receiving side does not use the same mailer as the mailer on the transmitting side, the divided files cannot be combined.

An object of the present invention is to provide a mechanism that allows an attached file to be easily viewed without using a function for restoring the attached file on the e-mail receiving side when dividing an attached file that does not fit within the upper limit size. And

The information processing apparatus of the present invention is an information processing apparatus having a function of transmitting and receiving e-mail, first when said email attachment file is attached, is an e-mail that the attachment was attached A mail size determination means for determining whether a data size of the size of the electronic mail and the file size of the attached file falls within the upper limit size, and the first electronic mail as a separate electronic mail from the first electronic mail electronic mail generating means for generating a second e-mail is a small email sized compared to e-mail, in the mail size determining means, when the data size is determined to not fit the size limit, Whether the data size of the size of the attached file and the size of the second e-mail fits within the upper limit size or not When the file size determining means to be determined and the file size determining means determine that the data size of the size of the attached file and the size of the second e-mail falls within the upper limit size, the second size An attachment means for attaching the attached file to the e-mail without dividing it, and a file size determining means, wherein the data size of the size of the attached file and the size of the second e-mail is the upper limit size. If it is determined not fit, to fit the size limit, and dividing means for dividing the first e-mail to the accompanying Tei was attachments, used in the binding attachment divided by the dividing means, the divided was a binding file generation means for generating a binding file including identification information identifying the attachment, said attachment means Transmitting more the second e-mail attachment is attached, and / or the binding file and generated by the plurality of e-mail before Symbol binding file generation means with attached attachment divided by said dividing means Transmission means for transmitting first.

According to the present invention, when an attached file that does not fit in the upper limit size is divided , a mechanism for easily browsing the attached file without using the function for restoring the attached file on the e-mail receiving side is provided. I can do it.

The figure which shows an example of the system configuration | structure containing information processing apparatus in embodiment of this invention The figure which shows an example of the hardware constitutions of various apparatuses in embodiment of this invention The figure which shows an example of the function structure of various apparatuses in embodiment of this invention. The flowchart which shows the outline | summary of the email transmission process in embodiment of this invention The flowchart which shows the detail of an email division | segmentation process in embodiment of this invention. The figure which shows an example of a structure of the threshold value table in embodiment of this invention. The figure which shows the mode of an email division | segmentation process in embodiment of this invention. The figure which shows an example of a structure of an email header in embodiment of this invention. The flowchart which shows the detail of the division | segmentation process of the email with which the attached file is attached in embodiment of this invention The figure which shows an example of a structure of the transmission log | history table of an email in embodiment of this invention. The figure which shows an example of a structure of the batch file in embodiment of this invention The flowchart which shows the detail of the division | segmentation process of the email with which the compressed attachment file is attached in embodiment of this invention The flowchart which shows the detail of the division | segmentation process of the compressed attachment file in embodiment of this invention

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. First, an example of a system configuration including an information processing apparatus according to an embodiment of the present invention will be described with reference to FIG. FIG. 1 is a diagram illustrating an example of a system configuration including an information processing apparatus according to an embodiment of the present invention. Note that the information processing apparatus here is the server 200.

  As shown in FIG. 1, a system including an information processing apparatus according to an embodiment of the present invention includes a client PC 100, a LAN 101, a server 200, a WAN 102, a server 220, a PC 120, and the like.

  The client PC 100 generates an e-mail and transmits it to the server 200. The LAN 101 connects the client PC 100 and the server 200 so that they can communicate with each other. Note that the communication between the client PC 100 and the server 200 is not necessarily the communication via the LAN 101. For example, WAN may be used.

  The server 200 receives an e-mail or an attached file attached to the e-mail from the client PC 100, and sets the e-mail and the attached file to a mail reception upper limit size for each transmission destination based on a threshold for each transmission destination. Divide and send to the destination. That is, it has an e-mail transmission / reception function.

  The WAN 102 connects the server 200 and the server 220 that receives the electronic mail transmitted from the server 200 so that they can communicate with each other. The server 220 receives the e-mail transmitted from 200 and provides the e-mail in response to a request from the PC 120.

  The PC 120 acquires the electronic mail received by the server 220, combines it, and decrypts it. It should be noted that the process of combining and decrypting the e-mail does not necessarily depend on the process of the PC 120. For example, the server 220 may perform processing for combining and decrypting the electronic mail. The above is the description of an example of the system configuration including the information processing apparatus in the embodiment of the present invention shown in FIG.

  Next, an example of the hardware configuration of various apparatuses according to the embodiment of the present invention will be described with reference to FIG. FIG. 1 is a diagram illustrating an example of a hardware configuration of various apparatuses according to an embodiment of the present invention.

  The CPU 201 comprehensively controls each device and controller connected to the system bus 204.

  Further, the ROM 202 or the external memory 211 is necessary to realize a BIOS (BasIC Input Output System) or an operating system program (hereinafter referred to as an OS), which is a control program of the CPU 201, or a function executed by each server or each PC. Various programs to be described later are stored.

  The RAM 203 functions as a main memory, work area, and the like for the CPU 201. The CPU 201 implements various operations by loading a program or the like necessary for execution of processing from the ROM 202 or the external memory 211 into the RAM 203 and executing the loaded program.

  The input controller 205 controls input from a keyboard (KB) 209 or a pointing device such as a mouse (not shown). The video controller 206 controls display on a display device such as a CRT display (CRT) 210. In FIG. 2, although described as CRT 210, the display device is not limited to the CRT, but may be another display device such as a liquid crystal display.

  The memory controller 207 is connected to a hard disk (HDD), a flexible disk (FD), or a PCMCIA card slot for storing a boot program, various applications, font data, user files, editing files, various data, and the like via an adapter. Controlling access to an external memory 211 such as a CompactFlash (registered trademark) memory.

  The communication I / F controller 208 is connected to and communicates with an external device via a network, and executes communication control processing on the network. For example, communication using TCP / IP is possible.

  Note that the CPU 201 enables display on the CRT 210 by executing, for example, outline font development (rasterization) processing on a display information area in the RAM 203. In addition, the CPU 201 enables a user instruction with a mouse cursor (not shown) on the CRT 210.

  Various programs to be described later for realizing the present invention are recorded in the external memory 211 and executed by the CPU 201 by being loaded into the RAM 203 as necessary. Furthermore, definition files and various information tables used when executing the program are also stored in the external memory 211. The above is an explanation of an example of the hardware configuration of various devices in the embodiment of the present invention shown in FIG.

  Next, with reference to FIG. 3, an example of a functional configuration of various apparatuses according to the embodiment of the present invention will be described. FIG. 3 is a diagram illustrating an example of a functional configuration of various apparatuses according to the embodiment of the present invention.

  As shown in FIG. 3, the client PC 100 includes an e-mail transmission unit 311 and the like. The server 200 includes an e-mail transmission / reception unit 321, a threshold determination unit 322, a division determination unit 323, an e-mail division unit 324, a combination file generation unit 325, a combination file transmission unit 326, and the like.

  The e-mail transmission unit 311 of the client PC 100 is a transmission unit that transmits an e-mail to the server 200.

  The e-mail transmission / reception unit 321 of the server 200 is a transmission / reception unit that receives an e-mail from the client PC 100, an external e-mail server, or the like and transmits the e-mail to the client PC 100, an external e-mail server, or the like.

  The threshold determination unit 322 is a determination unit that determines a threshold for dividing an e-mail from the past e-mail division size specified for each transmission destination.

  The division determination unit 323 is a determination unit that determines whether to divide an e-mail or an attached file based on the threshold value determined by the threshold value determination unit 322. The e-mail dividing unit 324 is a dividing unit that divides an e-mail and an attached file attached to the e-mail based on the threshold value determined by the threshold value determining unit 322.

  The combination file generation unit 325 is a generation unit that generates a combination file that is a file for combining the electronic mail and the attached file divided by the electronic mail division unit 324.

  The combination file transmission unit 326 is a transmission unit that transmits the combination file generated by the combination file generation unit 325 to a transmission destination of a divided electronic mail that is a divided electronic mail. The above is an explanation of an example of the functional configuration of various devices in the embodiment of the present invention shown in FIG.

  Next, with reference to FIG. 4, an outline of the e-mail transmission process in the embodiment of the present invention will be described. FIG. 4 is a flowchart showing details of the e-mail dividing process in the embodiment of the invention.

  The CPU 201 of the client PC 100 generates an e-mail based on an instruction from the user (step S401), and transmits the e-mail to the server 200 (step S402).

  The CPU 201 of the server 200 receives the electronic mail (step S403), and executes mail division processing (step S404). Details of the mail division process (step S404) will be described later with reference to FIG.

  Here, with reference to FIG. 5, the details of the e-mail dividing process in the embodiment of the present invention will be described. FIG. 5 is a flowchart showing details of the e-mail division process in the embodiment of the present invention.

  The CPU 201 of the server 200 creates an email header 800 based on the From information, To information, Subject information, and Date information acquired from the built-in clock set in the email received in step S403 in FIG. S501).

  The e-mail header 800 is data as shown in FIG. 8, for example. The email header will be described later with reference to FIG.

  Here, with reference to FIG. 8, an example of the configuration of the e-mail header in the embodiment of the present invention will be described. FIG. 8 is a diagram showing an example of the configuration of the e-mail header in the embodiment of the present invention.

  As shown in FIG. 8, the e-mail header 800 includes a transmission source (From) 801, a transmission destination (To) 802, a domain 803, a subject 804, a message ID (Message-Id) 805, a return source message ID (In-reply- to) 806 and the like.

  The transmission source 801 is an email address of the transmission source of the email that is the creation source of the email header 800. The transmission destination 802 is an electronic mail address of the transmission destination of the electronic mail.

  A domain 803 is a domain of an email address. The subject 804 is the subject of the e-mail. The message ID 805 is identification information for uniquely identifying the electronic mail.

  The reply source message ID 806 is identification information for identifying which electronic mail the electronic mail is a reply mail to, and the electronic mail that is the reply source of the electronic mail from which the electronic mail header 800 is created Message ID. The above is an example of the configuration of the e-mail header in the embodiment of the present invention shown in FIG.

  Returning to the description of FIG. The CPU 201 of the server 200 performs BASE64 conversion in order to convert the e-mail into character data that can be transmitted to the transmission destination. (Step S502).

  The CPU 201 of the server 200 acquires the To information domain 803 described in the e-mail header 800 of FIG. 8 (corresponding to the transmission destination acquisition means in the claims), and the mail size threshold corresponding to the domain is the threshold value. It is determined whether it is stored in the table 600 (step S503). That is, it corresponds to an upper limit size acquisition availability determination unit that determines whether the threshold value 602 can be acquired. The threshold table 600 will be described later with reference to FIG.

  Here, with reference to FIG. 6, an example of the configuration of the threshold table in the embodiment of the present invention will be described. FIG. 6 is a diagram showing an example of the configuration of the threshold table in the embodiment of the present invention.

  As shown in FIG. 6, the threshold value table 600 is composed of a domain 601, a threshold value 602, and the like. The uniform threshold table 610 includes a domain 611, a threshold 612, and the like.

  A domain 601 in the threshold table 600 is a transmission destination domain when mail is divided and transmitted. The threshold value 602 is a threshold value of the mail division size for the electronic mail address including the domain. That is, the transmission destination including the domain 601 has an upper limit size that is a data size that can be received at one time.

  In the embodiment of the present invention, the domain 601 and the threshold value 602 are acquired from the mail transmission / reception history. That is, the receivable size on the transmission destination side of the electronic mail transmitted to the transmission destination of the same domain in the past is acquired from the transmission history of the electronic mail and set in the threshold value table 600. (Corresponding to the first upper limit size setting means in the claims) The e-mail transmission history will be described later with reference to FIG.

  The uniform threshold table 610 is referred to when the transmission destination 801 of the email header 800 generated in step S501 of FIG. 5 is not included in the domain 601 of the threshold table 600 in which the upper limit size for each transmission destination is set. This is a table in which a uniform upper limit size that does not distinguish transmission destinations is set.

  In the domain 611 of the uniform threshold table 610, the domain to which the threshold 612 is applied is not specified, and the threshold 612 is uniformly applied to any transmission destination. The threshold 612 is a threshold for the mail division size. In the embodiment of the present invention, it is assumed that the uniform threshold table 610 has already been set based on the manual operation of the user via the client PC 100 (in the second upper limit size setting means in the claims). Applicable).

  In the embodiment of the present invention, the threshold 602 is stored for each domain, but the storage form of the threshold 602 is not necessarily limited to this.

  For example, the threshold value 602 may be set for each email address of the transmission destination, or the threshold value 602 may be set for each group to which the email address of the transmission destination belongs. The above is an explanation of an example of the configuration of the threshold table in the embodiment of the present invention shown in FIG.

  Here, with reference to FIG. 10, an example of the configuration of an e-mail transmission history table in the embodiment of the present invention will be described. FIG. 10 is a diagram showing an example of the configuration of an e-mail transmission history table in the embodiment of the present invention.

  As shown in FIG. 10, the transmission history table 1000 includes a transmission destination 1001, a transmission date and time 1002, a division size 1003, and the like. Assume that the transmission example table 1000 is stored in the external memory 211 of the client PC 100, the external memory 211 of the server 200, or both. A transmission destination 1001 is a transmission destination that has transmitted an e-mail.

  The transmission date and time 1002 is the date and time when the electronic mail is transmitted. The division size 1003 is a size obtained by dividing the electronic mail so that the transmission destination receives the electronic mail when the electronic mail is transmitted to the transmission destination 1001.

  In the threshold table 600 in FIG. 6, the transmission destination domain of the transmission history table 1000 and the minimum value of the division size are extracted and set. For example, since the minimum value of the division size 1003 corresponding to the transmission destination 1001 having the domain “aaa.co.jp” is 2 MB, the threshold 602 corresponding to the domain 601 = “aaa.co.jp” in FIG. Set to

  For example, when the division size 1003 for each transmission destination 1001 stored in the transmission history table 1000 is stored as 3 MB for a certain period, the value of the threshold 602 may be changed from 2 MB to 3 MB. Further, the process of extracting and setting the minimum value of the division size may be performed automatically with the update of the history, or may be set based on the manual operation of the user. The above is an example of the configuration of the e-mail transmission history table in the embodiment of the present invention shown in FIG.

  Returning to FIG. If the CPU 201 of the server 200 determines that the same domain 601 as the domain 803 is stored in the threshold table 600 (YES in step S503), the CPU 201 acquires the threshold 602 corresponding to the domain 601 (step S504). That is, it corresponds to the upper limit size acquisition means in the claims.

  When it is determined that the same domain 601 as the domain 803 is not stored in the threshold table 600 (NO in step S503), that is, from the threshold table 600, the same domain 601 as the domain 803 or corresponding to the domain 601 If the threshold value 602 cannot be acquired, the process proceeds to step S510, and the threshold value of the division size set by the mailer on the transmission side of the email is acquired (step S512). That is, the threshold value 612 of the uniform threshold value table 610 is acquired.

  The CPU 201 of the server 200 acquires the size of the e-mail (step S505), and determines whether an attached file is attached to the e-mail (step S506). That is, it corresponds to the attached file judging means in the claims.

  If it is determined that the attached file is not attached (NO in step S506), it is determined whether the size of the e-mail has cleared the threshold value 602 or the threshold value acquired in step S512 (step S507), and e-mail If it is determined that the size (the size of the e-mail with no attached file attached) clears the threshold 602 or the threshold acquired in step S512 (YES in step S507), execute the e-mail dividing process. The process ends without

  If it is determined that the size of the e-mail does not clear the threshold 602 or the threshold acquired in step S512 (NO in step S507), the e-mail is divided so as to be within the threshold 602 (step S508).

  The state where the threshold is cleared is a state where the size of the e-mail is equal to or smaller than the threshold or the size of the e-mail is smaller than the threshold. Which of the state in which the size of the e-mail is equal to or smaller than the threshold and the state in which the size of the e-mail is smaller than the threshold is set to clear the threshold depends on the setting on the apparatus side.

  The CPU 201 of the server 200 generates a serial numbered mail header (step S510), and the CPU 201 of the server 200 determines whether or not the processing from step S501 to step S514 has been applied to all transmission destinations of the e-mail. Is determined (step S511).

  If it is determined that it has been applied (YES in step S511), the process ends. If it is determined that it has not been applied (NO in step S511), the process returns to step S501, and the processes in steps S501 to S514 are applied to another e-mail.

  If the CPU 201 of the server 200 determines that the attached file is attached to the e-mail (YES in step S506), the process proceeds to step S513, and the e-mail dividing process in which the attached file is attached is executed. (Step S513). Details of the process of dividing the email attached with the attached file (step S513) will be described later with reference to FIG.

  Here, with reference to FIG. 9, the details of the division processing of the electronic mail to which the attached file is attached according to the embodiment of the present invention will be described. FIG. 9 is a flowchart showing details of the process of dividing an e-mail attached with an attached file in the embodiment of the present invention.

  The CPU 201 of the server 200 acquires the size of the attached file (step S901 / corresponds to the file size acquisition means in the claims), and determines whether a plurality of attached files are attached (step S902). That is, it corresponds to the file number determination means in the claims.

  When it is determined that a plurality of attached files are not attached (NO in step S902), the CPU 201 of the server 200 determines whether or not the sum of the e-mail size and the attached file size has cleared the threshold value 602 (step). S910 / mail size determination means).

  If it is determined that the sum of the e-mail size and the attached file size has cleared the threshold 602 (YES in step S910), the process ends without executing the division process. If it is determined that the sum of the e-mail size and the attached file size has not cleared the threshold 602 (NO in step S910), it is determined whether the attached file size has cleared the threshold 602 (step S911).

  When the CPU 201 of the server 200 determines that the attached file size has cleared the threshold value 602 (YES in step S911), the attached file is not divided and a blank mail is generated (step S906 / in claim) Corresponding to empty mail generation means) Attach an attached file to the empty mail (step S907).

  When it is determined that the attached file size does not clear the threshold 602 (NO in step S911), the electronic mail and the attached file are divided together (step S917). Here, “divide the email and the attached file together” means, for example, that the threshold 602 = 2 MB, the email (text) is 50 KB, and the attached file is 3 MB. ) Is divided into two groups, e-mail = 25 KB and attached file = 1.5 MB. Hereinafter, when it is described as “divide the electronic mail and the attached file together”, the above-described contents are shown.

  Here, with reference to FIG. 7, the state of the e-mail division process in the embodiment of the present invention will be described. FIG. 7 is a diagram showing a state of the e-mail division process in the embodiment of the present invention.

  Transmission data 700 is pre-division transmission data which is an e-mail before division and an attached file. The transmission data 710 is transmission data that has been subjected to e-mail division processing in the present invention. The transmission data 720 is transmission data that has been subjected to conventional e-mail division processing.

  The CPU 201 of the server 200 acquires the threshold value 602 from the threshold value table 600. Here, it is assumed that the threshold 602 is 2 MB. In addition, it is assumed that the size of the e-mail in the transmission data 700 is 60 KB and the size of the attached file (single) is 1.96 MB.

  When the conventional e-mail dividing process is applied to the transmission data 700, for example, when the e-mail and the attached file are combined so as to clear the threshold value 602, the e-mail and the attached file are separated as in the transmission data 720. Both will be split.

  In the present invention, when the size (1.96 MB) of the attached file clears the threshold value 602 (2 MB), the CPU 201 of the server 200 does not divide the attached file as shown in the transmission data 710 and sets the size of the attached file. Attach to a small blank email and personalize it with the email body. In other words, the individualization is to separate the e-mail body and the attached file.

  Therefore, strictly speaking, whether or not the size of the attached file (1.96 MB) has cleared the threshold value 602 (2 MB) is determined by the size of the attached file (1.96 MB) + the size of the empty mail (here, 5KB) is a determination of whether or not the threshold value 602 (2 MB) is cleared. That is, it is determined whether or not the total data size of the empty mail and the attached file is below the threshold value.

  Further, the threshold value 602 (2 MB) may be reduced in advance by the size of the empty mail. When the mail text does not clear the threshold value 602, only the mail text is divided.

  In this way, an e-mail can be transmitted to the transmission destination without extra division processing.

  Further, it is possible to prevent a decoding error caused by the attachment file being divided.

  The above is the description of the state of the e-mail dividing process in the embodiment of the present invention shown in FIG.

  Returning to the description of FIG. If the CPU 201 of the server 200 determines in step S902 that a plurality of attached files are attached (YES in step S902), the CPU 201 determines whether the number of attached files is within the upper limit (step S916). That is, it corresponds to the upper limit excess determination means in the claims.

  In other words, when a large number of attached files are attached to an e-mail, the processing load increases due to the attachment file combination calculation process that clears the threshold value 602. The process advances to step S917 without calculating the combination of attached files that clears the threshold value 602.

  Although it is determined here whether or not the upper limit is “within”, for example, it may be determined whether or not the upper limit number is exceeded. The upper limit number is stored in advance in a storage device such as the external memory 211 of the client PC 100 to the server 200. It is assumed that the upper limit is provided in order to prevent complication of determination processing for determining whether or not there is a combination of attached files that clears the threshold value 602, which is performed in step S905 described later.

  If it is determined that the number of the attached files is not within the upper limit (NO in step S916), the process proceeds to step S917, and the electronic mail and the attached file are divided together as usual (step S917).

  If it is determined that the number of the attached files is within the upper limit (YES in step S916), it is determined whether or not the total size of all the attached files has cleared the threshold 602 (step S903 / mail size determining means) ).

  If it is determined that the total size of all attached files has cleared the threshold 602 (YES in step S903), the CPU 201 of the server 200 ends the process without performing the transmission data dividing process.

  If it is determined that the total size of all the attached files does not clear the threshold 602 (NO in step S903), it is determined whether there is an attached file that clears the threshold 602 (step S904 / file size). Determination means). For example, one file is acquired from the attached files, and it is determined whether or not a combination with the acquired file and a combination with another file that clears the threshold value 602 exists.

  In determining whether the size of the attached file (1.96 MB) has cleared the threshold 602 (2 MB), the size of the attached file (1.96 MB) + the size of the empty mail (here 5 KB) is the threshold 602. When determining whether or not (2MB) is cleared, first, the size of the email of the email size acquired in step S805 (originally the email with the attached file attached) + the size of the attached file It is determined in the same step whether there is a size that has cleared the threshold value 602 (2 MB). If it exists (YES in step S904), the process proceeds to step S905. If it does not exist, the size of the attached file (1.96 MB) + the size of the empty mail (here, 5 KB) is set to the threshold value 602 ( 2MB) is cleared.

  If it is determined that there is no attached file that clears the threshold 602 (NO in step S904), the CPU 201 of the server 200 divides the email and the attached file together (step S917). That is, it is divided like transmission data 720 in FIG.

  If it is determined that there is an attached file that clears the threshold 602 (YES in step S904), it is determined whether there is a combination that clears the threshold 602 between the attached files (step S905).

  For example, when an e-mail attached with three attachment files of 1.0 MB, 1.3 MB, and 0.9 MB is transmitted to a transmission destination having a threshold value of 2 MB, a 1.0 MB file, 0.9 MB Since the threshold is cleared when the files are combined, it is determined that there is a combination that clears the threshold.

  When the CPU 201 of the server 200 determines that there is a combination that clears the threshold 602 (YES in step S905), the attachments are combined (step S912), and empty mails are generated for the number of the combinations (step S913). / Corresponds to empty mail generation means in claims).

  The CPU 201 of the server 200 attaches the attached file combined in step S912 to the empty mail (step S914), and whether or not the attachment to the empty mail or the division process for all the attached files attached to the e-mail is completed. Is determined (step S915).

  In step S904, the threshold value 602 (2 MB) is cleared by the total size of the size of the email of the email size acquired in step S805 (originally the email to which the attached file was attached) + the size of the attached file. If the CPU 201 of the server 200 executes the processing of steps S906 and S907, and S913 and S914, it first acquires an email of the mail size acquired in step S805. In step S904, the attached file used for the combination with the e-mail, which is determined to have cleared the threshold value 602 (2 MB), is attached to the e-mail. Thereafter, empty mail is generated for the number of combinations, and a process of attaching a file indicated by each combination to each empty mail is performed.

  If it is determined that all attachment files attached to the e-mail have not been attached to the empty mail or have been split (NO in step S915), the process returns to step S901.

  If it is determined that all attachments attached to the e-mail have been attached to the empty mail or have been split (YES in step S915), whether or not the e-mail size has cleared the threshold value 602 is determined. Determination is made (step S908).

  If it is determined that the size of the email does not clear the threshold value 602 (NO in step S908), the email is divided based on the threshold value 602 (step S909).

  If it is determined that the size of the e-mail has cleared the threshold value 602 (YES in step S908), the process ends without dividing the e-mail.

  If the CPU 201 of the server 200 determines that there is no combination that clears the threshold 602 (NO in step S905), the CPU 201 generates empty mails for the number of attached files that clear the threshold 602 (step S906). The attached file is attached to the empty mail (step S907), and the process proceeds to step S908.

  Note that the determination in step S916 is, as described above, the time required for determining an appropriate combination and the processing load on the apparatus caused by the increase in the number of combinations in proportion to the increase in the number of attached files. In order to reduce the above, when the upper limit is exceeded, the threshold is unconditionally allocated. The above is the description of the details of the process of dividing the e-mail attached with the attached file in the embodiment of the present invention of FIG.

  Returning to the description of FIG. The CPU 201 of the server 200 determines whether or not the e-mail is divided or individualized with the attached file (step S514), and determines that the e-mail is not divided or individualized with the attached file. If so (NO in step S514), the process ends.

  If it is determined that the e-mail is divided or individualized with an attached file (YES in step S514), the process proceeds to step S509, and a serial number for decrypting the divided transmission data is set as a coupling file. A batch file is generated (step S509). Then, the process proceeds to step S510. The above is the description of the details of the e-mail dividing process in the embodiment of the present invention shown in FIG.

  The batch file is a file in which a command for combining the attached files divided and attached to the e-mail is set. A batch file is a file like the batch file 1100 of FIG. 11, for example.

  Here, an example of the configuration of the batch file in the embodiment of the present invention will be described with reference to FIG. FIG. 11 is a diagram showing an example of the configuration of a batch file in the embodiment of the present invention.

  As shown in FIG. 11, the batch file 1100 includes a RENAME column 1101, a COPY column 1102, a delete instruction column 1103, and the like. The RENAME column 1101 describes an instruction for executing a process of RENAME one of the divided files to the file name before the division.

  In the COPY column 1102, an instruction to copy a file other than the file renamed by the RENAME 1101 and execute a process of combining with the file renamed by the RENAME 1101 is described.

  The delete instruction column 1103 describes an instruction to execute processing for deleting a copied file in accordance with the instruction in the COPY column 1102. The CPU 201 of the client PC 120 on the e-mail receiving side aggregates the divided attached files into one folder or the like based on an instruction from the user, and accepts selection and pressing instructions for the batch file, thereby combining files. Execute. The above is an example of the configuration of the batch file in the embodiment of the present invention shown in FIG.

  Returning to the description of FIG. The CPU 201 of the server 200 transmits the batch file of the email and the combination file to the transmission destination (step S405). The above is the outline of the email transmission processing in the embodiment of the present invention of FIG. Note that if the electronic mail is not divided or not individualized, it is not always necessary to transmit the batch file.

  The CPU of the client PC 120 obtains an electronic mail from the server 220 that has received the electronic mail, and combines the divided attached files. Specifically, based on an instruction from the user, the divided attached files are collected into one folder, and the collected files are combined by receiving a batch file designation and activation instruction.

  Next, with reference to FIG. 12, the detail of the division | segmentation process of the electronic mail to which the compressed attachment file is attached in embodiment of this invention is demonstrated. FIG. 12 is a flowchart showing the details of the process of dividing an e-mail attached with a compressed attached file in the embodiment of the present invention. The flowchart in FIG. 12 shows the detailed procedure of step S513 in FIG. 5, as in FIG.

  The processes in steps S1201 to S1203, steps S1205 to S1210, and steps S1212 to S1216 correspond to the processes in steps S901 to S903, steps S905 to S910, and steps S912 to S916 in FIG.

  In step S1204, the CPU 201 of the server 200 determines whether there is an attached file that clears the threshold 602 (step S1204). For example, one file is acquired from the attached files, and it is determined whether or not a combination with the acquired file and a combination with another file that clears the threshold value 602 exists.

  Further, when the determination in step S1204 is performed, first, the threshold value is the total size of the size of the email of the email size acquired in step S805 (originally the email to which the attached file was attached) + the size of the attached file. It is determined in the same step whether there is a size that has cleared 602 (2 MB). If it exists (YES in step S1204), the process proceeds to step S1205. If it does not exist, the size of the attached file (1.96 MB) + the size of the empty mail (here 5 KB) is continuously set to the threshold value 602 ( 2MB) is cleared.

  If it is determined that there is an attached file that has cleared the threshold 602 (YES in step S1204), the process proceeds to a process of determining whether there is a combination that clears the threshold 602 between the attached files (step S1205). To do.

  If it is determined that there is no attached file that clears the threshold 602 (NO in step S1204), it is determined whether the attached file is a compressed file (step S1218).

  If it is determined that the attached file is not a compressed file (NO in step S1218), the process proceeds to step S1217. If it is determined that the attached file is a compressed file (YES in step S1218), the process proceeds to step S1219, a process of decompressing, dividing, and combining the compressed file is executed, and the process ends. Details of the processing in step S1219 will be described later with reference to FIG.

  Further, the CPU 201 of the server 200 determines whether or not the attached file size has cleared the threshold value 602 in step S1211 (step S1211). If it is determined that the attached file size has cleared the threshold value 602 (YES in step S1211), the attached file is not divided and a blank mail is generated (step S1206), and the attached file is attached to the blank mail (step S1206). Step S1207).

  If it is determined that the attached file size does not clear the threshold value 602 (NO in step S1211), the process proceeds to step S1218. This completes the description of the details of the process of dividing the email attached with the compressed attachment file in the embodiment of the present invention in FIG.

  Here, with reference to FIG. 13, the details of the process of dividing the compressed attached file in the embodiment of the present invention will be described. FIG. 13 is a flowchart showing details of a process for dividing a compressed attached file in the embodiment of the present invention. Steps S1310 to S1313 correspond to the processes of steps S910 to S913 in FIG.

  The CPU 201 of the server 200 determines whether or not a password is set for the attached compressed file (step S1301). In the present embodiment, it is assumed that a password used for encryption (password setting) of an attached file is stored and managed by the server 200.

  If a password is set for the attached compressed file (YES in step S1301), the attached file is decrypted using (obtained) a password (key) stored in advance in server 200 (step S1303). Defrost (step S1302). If no password is set for the attached compressed file (NO in step S1301), the process proceeds to step S1302.

  When a password for decrypting the attached file cannot be obtained (for example, when the password is not stored in the server 200), the attached file is handled as one attached file. In other words, the process proceeds to step S1316 without decrypting the attached file (step S1303) and decompressing (step S1302) (NO in step S1304, NO in step S1310, NO in step S1311, and not decrypted / decompressed). Step S1315 is skipped and the process of step S1316 is executed).

  The CPU 201 of the server 200 determines whether or not the compressed file attached to the e-mail is a plurality of files compressed into one file (step S1304). If it is determined that the compressed file attached to the e-mail is a compressed one file (NO in step S1304), the process proceeds to step S1310. In step S1301, the CPU 201 of the server 200 determines whether or not the sum of the size of the attached file and the size of the e-mail has cleared the threshold value. If it is determined that the sum is not cleared (NO in step S1310), The process proceeds to step S1311. If it is determined that it has been cleared (YES in step S1310), the process proceeds to step S1314.

  In step S1305, the CPU 201 of the server 200 determines whether there is a file that has cleared the threshold 602 (step S1305). Here, the CPU 201 of the server 200 calculates a file size after compression when each file is compressed again, and there is a file that clears the threshold 602 using the file size after compression. It shall be determined whether or not. The same applies to the file size calculation processing described below.

  For example, in determining whether the size of the attached file (1.96 MB) has cleared the threshold 602 (2 MB), the size of the attached file (1.96 MB) + the size of the empty mail (here 5 KB) is When determining whether or not the threshold value 602 (2 MB) is cleared, first, the size of the e-mail of the e-mail size acquired in step S805 (the e-mail originally having the attached file attached) + the attached file It is determined in the same step whether or not there is a size that has cleared the threshold value 602 (2 MB) by the total size. If it exists (YES in step S1305), the process proceeds to step S1306. If it does not exist (NO in step S1305), the size of the attached file (1.96 MB) + the size of the empty mail (here) 5KB) clears the threshold value 602 (2 MB).

  If it is determined that there is no file that clears the threshold 602 (NO in step S1305), the file is compressed again as one file (step S1315). Further, when compressing the file, it is determined whether the file is a decrypted file in step S1303. If the file is a decrypted file, the password used for the decryption process in step S1303 is used, and the file is re-executed in step S1315. The compressed file is encrypted (re-encrypted) (step S1315).

  It is determined whether or not the file is decrypted in step S1303. If the file is not decrypted, the re-encryption is not performed in step S1315, and the process proceeds to step S1316. The CPU 201 of the server 200 divides the email and the attached file together (step S1316).

  If it is determined that there is an attached file that clears the threshold value 602 (YES in step S1305), it is determined whether there is a combination that clears the threshold value 602 between the attached files (step S1306). For example, one file is acquired from the attached files, and it is determined whether or not a combination with the acquired file and a combination with another file that clears the threshold value 602 exists.

  When the CPU 201 of the server 200 determines that there is a combination that clears the threshold value 602 (YES in step S1306), the attachment files are combined (step S1312), and empty mails are generated for the number of the combinations (step S1313). ).

  The CPU 201 of the server 200 compresses (recompresses) the attached file combined in step S1312 (step S1314). It is determined whether or not each of the files is the compressed file decrypted in step S1303. If the compressed file is decrypted in step S1303, the re-compressed file using the password used in the decryption process in step S1303. Is encrypted (re-encrypted) (step S1314). If it is not the compressed file decrypted in step S1303, re-encryption is not performed in step S1314, and the process ends.

  The CPU 201 of the server 200 attaches the file compressed in step S1314, compressed and encrypted in step S1314 to the empty mail (step S1317), and empty mail for all the files in the compressed file attached to the e-mail. It is determined whether or not the attachment or division processing has been completed (step S1318).

  In step S1305, the threshold value 602 (2 MB) is cleared by the total size of the size of the e-mail of the e-mail size acquired in step S805 (originally the e-mail to which the attached file was attached) + the size of the attached file. If it is determined that there is a size, the CPU 201 of the server 200 first obtains an email of the email size obtained in step S805 before executing the processes of steps S1307 and S1313 to S1317. In step S1305, an attachment file combined with the electronic mail determined to have cleared the threshold 602 (2 MB) is attached to the electronic mail. Thereafter, empty mails are generated for the number of combinations, the files indicated by the respective combinations are recompressed and re-encrypted, and a process of attaching to each empty mail is performed.

  If it is determined that the attachment to the empty mail or the division process for all the compressed files attached to the e-mail has not been completed (NO in step S1318), the process returns to step S1305.

  If it is determined that all files in the compressed file attached to the e-mail have been attached to the empty mail or have been divided (YES in step S1318), the process ends.

  If the CPU 201 of the server 200 determines that there is no combination that clears the threshold 602 (NO in step S1306), the CPU 201 generates empty mails for the number of attached files that clear the threshold 602 (step S1307). The process proceeds to step S1314.

  In step S1305, the threshold value 602 (2 MB) is cleared by the total size of the size of the e-mail of the e-mail size acquired in step S805 (originally the e-mail to which the attached file was attached) + the size of the attached file. If it is determined that there is a size, the CPU 201 of the server 200 first obtains an email of the mail size acquired in step S805 before executing the processes of steps S1307, S1313, and S1318. The attached file of the combination determined to have cleared the threshold value 602 (2 MB) in S1305 is attached to the e-mail. Thereafter, empty mail is generated for the number of combinations, and a process of attaching a file indicated by each combination to each empty mail is performed. The above is the description of the details of the compressed attachment file dividing process in the embodiment of the present invention shown in FIG.

  As described above, according to the present invention, it is possible to provide an information processing apparatus capable of easily browsing an attached file, a control method thereof, and a program regardless of the types of mailers on the e-mail transmission side and the e-mail reception side. I can do it.

  Although one embodiment has been described above, the present invention can take an embodiment as, for example, a system, apparatus, method, program, or recording medium, and specifically includes a plurality of devices. The present invention may be applied to a system including a single device.

  By supplying a recording medium recording a program for realizing the functions of the above-described embodiments to a system or apparatus, and reading and executing the program stored in the recording medium by a computer (or CPU or MPU) of the system or apparatus However, it goes without saying that the object of the present invention is achieved.

  In this case, the program itself read from the recording medium realizes the novel function of the present invention, and the recording medium storing the program constitutes the present invention.

  As a recording medium for supplying the program, for example, a flexible disk, hard disk, optical disk, magneto-optical disk, CD-ROM, CD-R, DVD-ROM, magnetic tape, nonvolatile memory card, ROM, EEPROM, silicon A disk, solid state drive, or the like can be used.

  Further, by executing the program read by the computer, not only the functions of the above-described embodiments are realized, but also an OS (operating system) operating on the computer based on an instruction of the program is actually It goes without saying that a case where the function of the above-described embodiment is realized by performing part or all of the processing and the processing is included.

  Furthermore, after the program read from the recording medium is written to the memory provided in the function expansion board inserted into the computer or the function expansion unit connected to the computer, the function expansion board is based on the instructions of the program code. It goes without saying that the case where the CPU or the like provided in the function expansion unit performs part or all of the actual processing and the functions of the above-described embodiments are realized by the processing.

Furthermore, by downloading and reading a program for achieving the present invention from a server, database, etc. on a network using a communication program, the system or apparatus can enjoy the effects of the present invention. In addition, all the structures which combined each embodiment mentioned above and its modification are also included in this invention.

100 client PC
101 LAN
102 WAN
120 PC
200 server 220 server 311 mail transmission unit 321 mail transmission / reception unit 322 threshold determination unit 323 division determination unit 324 mail division unit 325 combination file generation unit 326 combination file transmission unit

Claims (6)

An information processing apparatus having an e-mail transmission / reception function,
When the attachment to the e-mail has been attached, the file size and the data size of the combined upper limit size of the attachment and the first size of the e-mail is attached which was e-mail the attachment Mail size determination means for determining whether it fits,
E-mail generating means for generating a second e-mail, which is an e-mail having a smaller size than the first e-mail, as an e-mail different from the first e-mail;
In the mail size determining means, or when said data size is determined to not fit the size limit, the size and the data size of the combined size of the second e-mail of the attachment fits to the size limit File size determination means for determining whether or not,
When the file size determining means determines that the data size of the size of the attached file and the size of the second e-mail is within the upper limit size, the attached file is added to the second e-mail. Attaching means to attach without dividing,
When the file size determination means determines that the data size of the size of the attached file and the size of the second e-mail does not fit within the upper limit size, the first size is set so as to fit within the upper limit size . dividing means for dividing the Tei was attached file attached to an e-mail,
Used in binding attachment divided by the dividing means, coupled file generation means for generating a binding file including identification information identifying the divided attachments,
The second e-mail attachment is attached by said attachment means, and / or a plurality of electronic mail and the previous SL coupling files generated by the binding file generation means attaches the divided attachment said dividing means An information processing apparatus comprising: a transmission unit that transmits the information to a transmission destination. Said electronic mail generating means, the information processing apparatus according to claim 1, wherein the benzalkonium generates a blank email to said second electronic mail. A combination determination unit that determines whether there is a combination of attachment files that have a combination of the attachment files and the total data size falls within the upper limit size when there are a plurality of the attachment files; and
Said attachment means, the combination if it is determined that there is a combination that fits the size limit in the determination unit, according to claim 1 or 2, characterized in that to attach the attachments in the combination with the second e-mail The information processing apparatus described in 1. The file size determination means determines whether the data size of the data size of at least one file of the plurality of files included in the compressed attached file and the data size of the second e- mail falls within the upper limit size. Determine whether or not
The attachment means determines that the file size determination means determines that a data size of a data size of at least one of the plurality of attached files and a data size of the second e- mail is within the upper limit size. the case, before Symbol one attachment, the information processing apparatus according to any one of claims 1 to 3, characterized in that attached to the second electronic mail without dividing. A method for controlling an information processing apparatus having an e-mail transmission / reception function,
If that was pre Symbol email attachments attachments, file size and the combined data size is the size limit of the attachment is attached to the first size of the e-mail is an e-mail has been the attachment Email size determination process to determine whether it fits,
An e-mail generating step for generating a second e-mail, which is an e-mail having a smaller size than the first e-mail, as an e-mail different from the first e-mail;
In the mail size determination step, whether the case where the data size is determined to not fit the size limit, the size and the data size of the combined size of the second e-mail of the attachment fits to the size limit A file size determination step for determining whether or not,
When it is determined in the file size determination step that the data size of the size of the attached file and the size of the second e-mail is within the upper limit size, the attached file is added to the second e-mail. Attaching process to attach without dividing,
In the file size determination step, when it is determined that the data size of the size of the attached file and the size of the second e-mail does not fit within the upper limit size, the first size is set so as to fit within the upper limit size . a dividing step of dividing the Tei was attached file attached to an e-mail,
Used in binding attachment divided by pre Symbol dividing step, and the binding file generation step of generating a binding file including identification information identifying the divided attachments,
The second e-mail attachment is attached by the attachment process, and / or, wherein the dividing step in divided attachments more with attached e-mail before Symbol coupling files generated by the binding file generation step And a transmission step of transmitting to the destination,
A method for controlling an information processing apparatus, comprising: A program that can be executed by an information processing apparatus having an e-mail transmission / reception function,
The information processing apparatus;
When the attachment to the e-mail has been attached, the file size and the data size of the combined upper limit size of the attachment and the first size of the e-mail is attached which was e-mail the attachment Mail size determination means for determining whether it fits,
E-mail generating means for generating a second e-mail, which is an e-mail having a smaller size than the first e-mail, as an e-mail different from the first e-mail;
In the mail size determining means, or when said data size is determined to not fit the size limit, the size and the data size of the combined size of the second e-mail of the attachment fits to the size limit File size determination means for determining whether or not,
When the file size determining means determines that the data size of the size of the attached file and the size of the second e-mail is within the upper limit size, the attached file is added to the second e-mail. Attaching means to attach without dividing,
When the file size determination means determines that the data size of the size of the attached file and the size of the second e-mail does not fit within the upper limit size, the first size is set so as to fit within the upper limit size . dividing means for dividing the Tei was attached file attached to an e-mail,
Used in binding attachment divided by the dividing means, coupled file generation means for generating a binding file including identification information identifying the divided attachments,
The second e-mail attachment is attached by said attachment means, and / or a plurality of electronic mail and the previous SL coupling files generated by the binding file generation means attaches the divided attachment said dividing means And a function of a transmission unit that transmits the information to a transmission destination.

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