JP3610743B2 - Attachment file conversion method, e-mail system using the same, and terminal for the same - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an electronic mail system, and more particularly to an attached file conversion method in which an access terminal to an electronic mail system is attached to a mail text, and an electronic mail system using the same.
[0002]
[Prior art]
In recent years, with the spread of personal computers (PCs) and local area networks (LANs), access terminals to electronic mail systems are becoming PCs. Typical e-mail systems of PC access terminals (hereinafter abbreviated as PC terminals) are Lotus cc: Mail, Microsoft MS-Mail, etc., and mail realized by the conventional UNIX mail system. In addition to the main body communication, there is an advantage that the attached file can be exchanged between PC terminals. A method of exchanging attached files between PC terminals is described in “CC: Mail User Guide” issued by Lotus. Hereinafter, this function is referred to as an attached file transmission / reception function. This attachment file transmission / reception function allows the PC terminal that has received the attachment file to take over and process a document with a format typified by Microsoft MS-Word or an Excel data file of spreadsheet software from the sending PC terminal. There is. However, between PC terminals that send and receive e-mails, operating programs of the same family and type (Operating System: OS), such as Windows and MS-Word, must be run (also referred to as application software). In addition, the function of exchanging attached files between access terminals of different models is not realized. In the typical PC terminal type electronic mail system described above, an operating system of the same kind is operating between the electronic mail server that controls the distribution of the mail text and attached file and the PC terminal.
[0003]
[Problems to be solved by the invention]
On the other hand, in an e-mail system, a word processor (word processor) equipped with a workstation that operates a UNIX system, a portable terminal PDA (Personal Data Assistant), and a Macintosh PC can also be used as an access terminal. The range of use can be expected to expand. In particular, a function that can continuously process the contents of a file sent from a PC terminal using a different type of access terminal is desired. On the contrary, a function that can transmit an attached file to a partner PC terminal using a different type of access terminal is also desired. In particular, in a mobile environment that is expected to develop greatly in the future, it is desired to realize a function for transmitting and receiving an attached file from a lightweight portable terminal PDA.
[0004]
Accordingly, an object of the present invention is to provide an electronic mail system that can operate an attached file from an access terminal other than a PC terminal.
[0005]
Another object of the present invention is to provide an e-mail system including a control unit that enables an attached file to be exchanged between access terminals even if the operating system of the e-mail server is different from the operating system of the access terminal. Is to provide.
[0006]
[Means for Solving the Problems]
In the electronic mail system with the attached file conversion function of the present invention, when the electronic mail system is constituted by the electronic mail server and the access terminal group, the access terminal is a portable terminal PDA, UNIX workstation, word processor with communication function in addition to the PC terminal. Alternatively, even with a Macintosh PC of a different OS, the contents of the attached file can be exchanged with the PC terminal. Specifically, the attached file conversion function for realizing the present invention cooperates with the e-mail server, and the attached file conversion function extracts the attached file from the mailbox in the e-mail server, and supports the extension of the attached file. Application program (hereinafter abbreviated as application software) is executed. For example, if the file is an attachment file (extension is doc) created by Microsoft MS-Word, which is well-known in the document processing field, the attachment file includes character string data and a line feed code. Contains document format information. Therefore, the attached file conversion function of the present invention operates MS-Word to separate the format information and uses the attached file as input data.
[0007]
Next, the attached file conversion function causes the application software to store in the work file in a file format (extension is txt) that includes only character string data and a control code such as a line feed code. At this time, format information is also stored separately. Thereafter, the format information and the contents of the converted attached file (converted attached file) are sent to an access terminal other than the PC terminal. Thereby, the contents of the attached file can be received on the access terminal side. Therefore, it is not necessary to prepare application software corresponding to the contents of the attached file on the access terminal side, and it is only necessary to have a normal communication function for transmitting and receiving character string data. In the case of an attached file containing numerical data, such as Microsoft Excel CEL well known for spreadsheet software, it is also decomposed into character string data and delimiter control characters and transmitted to the access terminal. In the present invention, this function is called an attached file decompression processing function.
[0008]
On the other hand, the electronic mail system with an attached file conversion function of the present invention also operates when an attached file is attached to the mail text from an access terminal other than the PC terminal to the PC terminal. The attached file conversion function sequentially receives attached file information and stored data from the access terminal as character string data. Attached file information includes information such as the type of character string data that follows, specifically, the file format (extension doc, xls, etc.) and the type of delimiter when stored in the mailbox of the e-mail system. Including. When all the stored data is received from the access terminal, the attached file conversion function activates application software corresponding to the attached file information and uses the stored data as input data. Thereafter, the work file is stored using the function of the application software. This is equivalent to the attached file sent from the PC terminal. Next, the contents of the work file are stored together with the mail text in the mailbox of the electronic mail server. In the present invention, the function of converting the data of the transmission file into the attached file format depending on the application software is called an attached file shaping processing function. Therefore, the attached file conversion processing function includes an attached file decompression processing function and an attached file shaping processing function. With the electronic mail system with an attached file conversion function of the present invention, the mailbox can store a file equivalent to the attached file sent from the PC terminal, so that the contents of the mailbox can be accessed by an ordinary PC terminal. It becomes.
[0009]
The electronic mail system with an attachment file function of the present invention can exchange attachment files between different types of access terminals even when the OS of the electronic mail server and the OS of the access terminal which are other objects of the present invention are different. I have to. In this case, the attached file conversion function of the present invention operates on a processing device different from the electronic mail server, and executes the above processing while communicating with the electronic mail server via the network.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the attached file conversion processing function of the electronic mail system with attached file conversion function according to the present invention will be described in more detail with reference to the embodiments shown in the drawings.
[0011]
FIG. 1 is a diagram briefly showing the function and configuration of an electronic mail system with an attached file conversion function of the present invention. An electronic mail system with an attached file conversion function that implements the present invention is realized by an electronic mail server 1 and an attached file conversion processing mechanism 2. Here, the attached file conversion processing mechanism 2 may be included in the electronic mail server 1. In this embodiment, the OS-A 7 operating on the processing device 3 of the electronic mail server (A) 1 and the OS-B operating on the processing device 15 of the attached file conversion processing mechanism 2 are different. For example, the OS of the OS-A7 is a configuration example when the OS is UNIX and the OS of the OS-B21 is Windows. There may be a plurality of attached file conversion mechanisms 2. For example, when converting an attachment file created with Windows application software, OS-B21 is running Windows. When converting an attachment file created with Macintosh OS, another attachment file conversion mechanism 2a is used. The OS becomes a Macintosh OS. Which attached file conversion mechanism 2 or 2a is used is determined by searching the management information managed by the selection table IDTBL13. This selection table IDTBL13 is a correspondence table of application software names (which can be replaced by extension doc, txt, xls, etc.) AP, OS name on which the application software operates, and address information of the attached file conversion mechanism 2 that can operate. .
[0012]
The electronic mail server 1 includes a processing device 3, a mailbox file 6, a shaping buffer EN-BUF4, and a decompression buffer DE-BUF5. The shaping buffer EN-BUF4 and the decompression buffer DE-BUF5 may be realized by a memory in the processing device 3, or may be a file device. The mailbox file 6 is realized by a file device. The OS-A 7 operates in the processing device 3, and the e-mail control processing program MAIL-SERV 8 operates under that.
[0013]
For normal e-mail processing, the processing program LPC-AG 9 operates corresponding to the PC terminal 33. For example, when used from the PC terminal 33, the LPC-AG 9 operates. This LPC-AG9 is called a PC terminal agent processing program. When transmitting to another user, the LPC-AG 9 stores the mail text and attached file in the mail box 6 b in the mail box file 6. On the other hand, the mail text and attached file addressed to itself are taken out from the mail box 6a in the mail box file 6 and transferred to the currently used PC terminal 33. The format of the mailboxes 6a and 6b will be described in detail later with reference to FIG. Although only two PC terminals 33 and 39 are shown in FIG. 1, it is understood that a plurality of PC terminals can be connected to a network line (LAN) 30. Therefore, a plurality of processing programs LPC-AG9 corresponding to the PC terminal are also generated corresponding to the PC terminal.
[0014]
The e-mail control processing program 8 operates under the operating system OS-A7 of the processing device 3, and manages e-mail mailboxes 6a and 6b, the PC terminal agent processing program LPC-AG9, and the present invention. It controls the processing function component group 10-13 for realizing an electronic mail system with an attached file conversion function. Specifically, the management of the number of concurrent executions of LPC-AC9 and MBL-PROC10, the allocation management of the mailbox file 6, and the distribution management of the mailboxes 6a and 6b shown in FIG. 2 are performed.
[0015]
If the destination of the e-mail text is a user registered in the e-mail server (A) 1, the mailboxes 6a and 6b in the mailbox file 6 do not move from the mailbox file 6 and will be moved later. A user who receives the mail text of the mailbox 6a logs on to the electronic mail server (A) 1 using the electronic mail terminals 33, 34, 38, etc., and refers to the contents of the mailbox 6a, that is, the mail text. Can be received.
[0016]
When the destination of the e-mail text is addressed to a user registered in another e-mail server (B) 36 connected to the path 33, the e-mail control processing program 8 extracts the contents of the mail box 6b, and the OS- The data is sent to the electronic mail server (B) 36 via A7, LAN 30, LAN router 32a, path 32b, LAN router 32c, and LAN 35. The electronic mail server (B) 36 stores the received mail text in the mail box 36a. Thus, the user registered in the electronic mail server (B) 36 can receive the mail text sent from the electronic mail server (A) 1 using the PC terminal 37. The delivery method of the mail text addressed to the user registered in the electronic mail server (A) 1 from the user registered in the electronic mail server (B) 36 is also performed in the reverse operation described above.
[0017]
FIG. 2 is a format example of the mailboxes 6a and 6b in the mailbox file 6 shown in FIG. The reception mail box 6a and the transmission mail box 6b are composed of mail body parts 41 and 42 and attached file parts 44 and 45. In the case of transmission / reception of a normal mail text sentence, the mail boxes 6a and 6b are only the mail body parts 41 and 42. However, when an attached file is attached to the mail body from a PC terminal, the attached file part 44 is provided. 45 are made. In the example of FIG. 2, two attached files are attached from the PC terminal 33, and the attached file portion 44 is a document data file (for example, an MS-Word document file) created by the PC terminal 33, and an attached file 44. Stores spreadsheet software (for example, an EXCEL data file) created by the PC terminal 33. The contents of the attached file portions 44 and 45 are created by application software of an OS (for example, Microsoft Windows) operating under the PC terminal 33 or the PC terminal 39, and the file is transmitted from the PC terminal 33 to the LAN 30. Via MAIL-SERV 8 and LPC-AG 9 in the electronic mail server (A) 1, these processing units 8 and 9 store in the mailboxes 6 a and 6 b in the mailbox file 6. That is, since the OS-A 7 does not process the contents of the mail text or the attached file, the OS-A 7 in FIG. 1 does not need to be the same family or the same type of OS as the PC terminal 33. However, in the conventional electronic mail system represented by cc: Mail of Lotus and MS-Mail of Microsoft, the attached file portions 44 and 45 created by the PC terminal 33 are the PC terminals 33 and 39 and the PC terminal 37. Can only be accessed. That is, the contents of the attached file portions 44 and 45 cannot be referred to (accessed) by the WS terminal 34 or the portable terminal PDA 38 of FIG. The electronic mail system with an attached file conversion function of the present invention solves this problem.
[0018]
Referring to FIG. 1 again, the electronic mail system with an attached file conversion function of the present invention includes a virtual terminal processing agent unit MBL-PROC 10, an attached file decompression control unit DCD 12, and attached file shaping control in the electronic mail server (A) 1. This is realized by each processing component of the part ECD11, the selection table IDTBL13, the shaping buffer EN-BUF4, and the decompression buffer DE-BUF5 and the attached file conversion processing mechanisms 2 and 2a.
[0019]
The attached file conversion processing mechanism 2 includes a processing device 15, a file device 16, an input buffer I-BUF 17, and an output buffer O-BUF 18. The I-BUF 17 and the O-BUF 18 may be realized by a memory as in the case of the previous EN-BUF 4 and DE-BUF 5, or may be realized by a file device. As a matter of course, the processing device 15 includes a microcomputer that can execute a program group, and a memory that stores the OS-B 21 and each processing program group 22-24. In FIG. 1, the hardware configuration of the processing device 15 is not shown, but it can be realized by a general personal computer (PC) or a workstation (Work Station: WS). For example, the attached file conversion processing mechanism 2 can be realized by a PC, and the attached file conversion processing mechanism 2a can be realized by WS. In the processing device 15, the operating system OS-B21, the decompression processing program DEC22, the shaping processing program ENC23, and application software 24 that operates on the OS-B21 operate.
[0020]
Here, the processing function for outputting the attached file in the mail box 6a to the general access terminals 34, 38 other than the PC terminal 33 is the attachment file decompression processing function, and conversely, the transmission from the access terminals 34, 38 other than the PC terminal. A function for converting and storing data into the attached file format of the mailbox 6b is an attached file shaping conversion function. These two processing functions are one of the features of the present invention. These processing functions operate when the electronic mail server (A) 1 is used using the portable terminal PDA 38 and the WS terminal 34. The terminals 34 and 38 only need to have a normal communication function, specifically, a non-procedural communication function. When the electronic mail server (A) 1 is used from the portable terminal PDA, it is connected via the public network 31.
[0021]
Next, the operations of the attachment file decompression processing function and the shaping processing function, which are features of the present invention, will be described with reference to FIGS. The attached file conversion processing function includes the decompression processing function and the shaping processing function. FIG. 2 shows the format of the mailboxes 6a and 6b. 3 and 5 are examples of command operations when the electronic mail system is used from the access terminals 34 and 38 other than the PC terminals, FIG. 3 is an example of received mail operations, and FIG. 5 is an example of creating outgoing mails. . FIG. 4 is a diagram schematically illustrating the processing procedure of the attached file decompression processing function, and FIG. 6 is a diagram schematically illustrating the processing procedure of the attached file shaping processing function. 7 is a diagram showing a processing procedure of the virtual terminal processing agent unit 10 of FIG. 1, FIG. 8 is a diagram showing a procedure for decompressing an attached file, and FIG. 9 is a diagram showing a procedure for shaping an attached file.
[0022]
First, the operation of the attached file decompression processing function will be described. Here, the operation when the terminal connected to the electronic mail system (A) 1 uses the portable terminal PDA 38 of FIG. 1 as an example of use from a terminal other than the PC terminal 33 will be described. The operation is the same when a general WS 34 or PC terminal other than the terminal 38 is connected to the public line network 31 and used. FIG. 3 shows an operation example for receiving a received mail from the portable terminal PDA 38 using the electronic mail server (A) 1. When this operation is performed, the virtual terminal processing agent unit 10, the attached file decompression control 12, and the decompression processing program 22 shown in FIG. Referring to FIG. 3, the operations (1) and (2) are procedures for using the e-mail server (A) 1 from the portable terminal PDA 38, and the underlined portion is input character string data from the terminal 38. . A list of e-mails sent to the user is displayed by the list command on the command line (4). The Display command on the command line (5) instructs the command line (4) to display the first mail sentence from the received mail list display result. By this command, the virtual terminal processing agent unit 10 sends the mail text body of the mail box 6 a to the terminal 38, and as a result, the mail text sentence is displayed on the screen of the terminal 38. Line (7) is displayed when an attached file is attached to the received mail. When the user instructs display of the attached file on the yes command line (8), the decompression processing function operates in the attached file conversion function of the present invention, and the decompression result is displayed on the terminal 38. The command line (10) instructs storage by attaching the file name fn to the decompressed result of the attached file. The command line (11) is a command for returning a reply mail, fm is a reply attached file creation instruction, and CNV is a conversion instruction. By this instruction, the shaping processing function of the attached file conversion processing function of the present invention operates. In (11) (a), the reply text is received from the terminal 38, and in (b), fm is shaped and converted to create an attached file. The command line (12) means the end of input data. Thereafter, the user logs off from the electronic mail server (A) 1 at the command line (13). The above terminal operations are e-mail reception and reply mail creation, attachment file creation, and transmission operations.
[0023]
The MBL-PROC 10 in FIG. 1 takes out the mail text sentence 42 in FIG. 2 and sends it to the terminal 38 in response to the Display command of the command line (5) in FIG. The mail text sentence 42 is composed of character string data and a line feed control character CrLf code, and the mail text sentence can be received even if the terminal 38 has no application software. On the other hand, if the received mail has the attachment files 44 and 45 as shown in FIG. 2, after confirming the inquiry to the user (command lines (7) and (8)), the decompression processing of the attachment files 44 and 45 is performed. Is made. FIG. 4 is a diagram schematically showing a procedure for decompressing an attached file according to the present invention. The attached file 44 is a document file with document format information, and includes format information (such as a tag and an embedding instruction code) in addition to character string data and a line feed code CrLf code. The attached file 45 is a file created by spreadsheet software such as EXCEL, and includes control data such as numerical data (binary data) and ruled lines in addition to character string data. The contents of these files are read from the mail box 6 a by the decompression control unit DCD 12 and stored in the input buffer I-BUF 17 in the attached file conversion mechanism 2. Next, the attached file conversion mechanism selection table IDTBL13 indicating the correspondence between the application software in which the attached file is created, the OS, and the corresponding attached file conversion processing mechanisms 2 and 2a is searched, and the corresponding attached file conversion process is performed. Control is passed to mechanism 2. The attached files 44 and 45 are decompressed by the decompression processing program DEC22 in the conversion processing mechanism 2. In the decompression results 25 and 26, in the case of document data, character string data, CrLf code and data type information 25a are converted. In the case of the attached file 45, numerical data is converted into character string data. And data type information 26a. In the data type information 25a and 26a, application software names and the like are stored. The decompression result is stored in the output buffer O-BUF 18 and returns to the decompression buffer DE-BUF5 via the LAN 30.
[0024]
Next, an outline of the operation of the attached file creation process, that is, the attached file shaping process function, which is another feature of the present invention, will be described with reference to FIGS. FIG. 5 shows an example of operation at the terminal 38. The command line (14) is a procedure for connecting to the electronic mail server (A) 1, and is the same as the command lines (1) and (2) in FIG. The mail transmission process is started by the send command of the command line (15). Here, fa is the name of the file to be formatted, and the CNV option represents an instruction for shaping conversion. Therefore, when the CNV option is specified, the file fa is converted into an attached file. At the command lines (16) and (17), the destination of the outgoing mail and the subject of the mail body are determined. The text of the outgoing mail is input from the terminal 38 at the line (19), and becomes the mail text sentence 42 in FIG. The processing for shaping and converting the file fa operates at the line (21). FIG. 6 is a diagram schematically showing an attached file creation process, that is, an attached file shaping process procedure. The input file 27 is for document data. The input file 28 is input data for creating an attached file in which numerical data and character string data are mixed, and is composed of character string data and a delimiter. In addition, management information for creating an attached file in the data type fields 27a and 28a, for example, the name of application software for processing the attached file, an extension to be attached to the attached file, a delimiter character in the case of a tabular attached file, etc. There is information. After these files are stored in the input buffer I-BUF 17 of the attached file conversion processing mechanism 2, the attached file 44 or 45 is created by the attached file shaping control unit ECD11 and the shaping processing program ENC23 of FIG. This process of creating an attached file is called an attached file shaping process function. The attached files 44 and 45 created by the shaping process become input data of application software. In this shaping process, the attached file conversion mechanism 2 that searches the IDTBL 13 and executes the shaping process is selected. The converted attached file is output to the output buffer O-BUF 18 and then returned to the electronic mail server (A) 1 via the LAN 30 and stored in the mail box 6b.
[0025]
The above is the outline of the operation of the electronic mail system with the attached file conversion function of the present invention. Next, the processing procedure of each processing unit 10-14 shown in FIG. 1 and each processing unit 22-24 of the attached file conversion processing mechanism 2, 2a, which represents the present invention, is selected by a selection table IDTBL13, buffers 4, 5, 17 , 18 will be described in detail. FIG. 7 is a processing flowchart of the virtual terminal processing agent MBL-PROC 10 of FIG. FIG. 8 is a diagram showing the attachment file decompression processing procedure in association with the attachment file decompression control unit (DCD) 12 of FIG. 1 and the decompression processing program DEC22 in the attachment file conversion processing mechanism 2. FIG. 9 is a diagram showing the attached file creation processing procedure, that is, the shaping processing procedure in association with the attached file shaping control unit ECD11 of FIG. 1 and the shaping processing program ENC23 in the attached file conversion processing mechanism 2.
[0026]
Referring to FIGS. 1 and 7, the virtual terminal processing agent MBL-PROC 10 performs a login procedure process from a general mail terminal 38 in a processing step 51a. In the processing step 51a, an example of the login procedure processing from the public line network is shown, but the login procedure from the WS terminal 34 connected to the LAN 30 shown in FIG. 1 can also be performed. The received mail is processed in processing steps 51b and 51c. As a result of this processing, a message shown in line (3) in FIG. 3 is displayed.
[0027]
In process step 51c, a command input from the terminal 38 is awaited. If the command is the list command, the process of displaying the received mail list of the user in the mailbox file 6 on the terminal 38 is completed. If the command is the logout command, the electronic mail process using the electronic mail server (A) 1 is terminated.
[0028]
If it is a Display command, processing steps 51f to 51h and the decompression process 12 of the attached file are executed. After processing step 51g and processing step 51h, if it is determined that the attached file 44 or 45 of the received mail is to be decompressed and displayed, the processing step group shown in FIG. 8 is executed. Referring to FIG. 8, the decompression process proceeds with the attachment file decompression control unit 12 and the decompression process program 22 working together. In processing step 12a and processing step 22a, preparations are made for starting communication with each other. This process uses well-known Windows and UNIX socket communication techniques. For details of socket communication, refer to the following publications.
[0029]
(1) Issued by ASCII Publishing Office: Windows network programming by WinSock
(2) Arthur Dumas: Programming WinSock, published by Sams
In step 12b, the DCD 12 retrieves the attached file 44 from the mail box 6a, searches the selection table IDTBL13 in FIG. 1, and selects the attached file conversion mechanism 2 on which the application software 24 that can process the attached file 44 is operating. To do. The selection table IDTBL13 is a correspondence table of application software names (which can be replaced by extensions doc, txt, xls, etc.) AP, the OS name on which the application software operates, and the address information of the attached file conversion mechanism 2 that can operate.
[0030]
In processing steps 12d and 12e, the contents of the attached file are transmitted to the DEC 22, and the decompression processing result in the DEC 22 is awaited. The DEC 22 is stored in the I-BUF at the processing step 22c. The DEC 22 activates the corresponding application software 24 based on the extension (doc, txt, etc.) of the attached file in the processing step 22d. In processing steps 22e and 22f, the execution result is stored in 0-BUF18. In addition, before storing in this O-BUF18, the process once stored in the file 16 may intervene. Next, data type information 25a (see FIG. 4) is added. Thereby, the DCD 12 transmits the decompression result to the terminal 38 in the processing step 12f. The series of processes described above is continued until there are no attached files. When the decompression processing of the attached files 44 and 45 is finished, the communication with the DEC 22 is finished in the processing step 12h.
[0031]
Referring to FIG. 7 again, the attached file creation process, that is, the shaping process is executed when the Send command or the Reply command shown in FIGS. 3 and 5 is input. After the body text of the outgoing mail is stored in the mail text sentence area 42 of the mail box 6b in the processing step 51j of FIG. 7, it is checked in the determination processing step 51k whether an attached file is designated. This check is uniquely determined by whether the fn and fa operands and the CNV operand of the Reply command and Send command shown in FIGS. 3 and 5 are specified. As a result of the inspection, if attachment file creation is specified, control is passed to the attachment file shaping control unit ECD11.
[0032]
FIG. 9 is a diagram showing the attached file creation processing procedure, that is, the shaping processing procedure in association with the attached file shaping control unit ECD11 of FIG. 1 and the shaping processing program ENC23 in the attached file conversion processing mechanism 2. Referring to FIG. 9, preparation is made for communication with each other in processing step 11a of ECD11 and processing step 23a of ENC23. This processing is the same as the processing steps 12a and 22a shown in FIG. In processing step 11b, a file for creating an attached file is received from the terminal 38, and the attached file conversion processing mechanism 2 on which the application software is operating is selected. This selection process is the same as the process step 12b of FIG. In processing steps 11c and 11d, file data for creating an attached file is transmitted to ENC23.
[0033]
In ENC 23, the content of the file sent from ECD 11 is stored in I-BUF 17 in processing step 23c, and application software 24 corresponding to the desired attached file is activated in processing step 23d. After the application software 24 is activated, the data of the I-BUF 17 is used as input data of the activated application software in the processing step 23e. Next, in the processing step 23f, the work file 16 (FIG. 1) is temporarily stored in a standard format that can be stored by the application software 24. The attached file stored in the work file 16 is transferred to the ECD 11 by the processing step 23g and the processing step 23h. This attached file is stored in the EN-BUF 4 and then stored in the attached file area 44 of the mail box 6a (processing step 11e). With the above processing procedure, the file sent from the terminal 38 is stored as an attached file in the electronic mail system 1, and can be referred to as an attached file later using the PC terminal 33 or the PC terminal 39.
[0034]
In one embodiment of the present invention, the attached file conversion processing mechanism 2 and the e-mail server (A) 1 are each divided into separate processing devices, and this is because the OS-A7 and OS-B21 are of the same family and the same kind. Required if not. Therefore, as long as the OSs of OS-A7 and OS-B21 are the same, they may be realized in the same processing apparatus.
[0035]
【The invention's effect】
According to the present invention, in an electronic mail system composed of an electronic mail server and an access terminal, transmission / reception of an attached file can be performed between access terminals other than a PC terminal.
[0036]
Further, since the attached file can be handled from a small and light portable terminal PDA, the use environment of the e-mail system from the mobile environment expected to greatly develop in the future is greatly improved.
[Brief description of the drawings]
FIG. 1 is a diagram showing the functions and configuration of an electronic mail system with an attached file conversion function according to the present invention.
FIG. 2 is a diagram showing a format of mail boxes 6a and 6b.
FIG. 3 is a diagram showing an example of received mail operation when an e-mail system is used from access terminals 34 and 38 other than PC terminals.
FIG. 4 is a diagram schematically illustrating a processing procedure of an attachment file decompression processing function;
FIG. 5 is a diagram showing an example of an operation at the time of creating a transmission mail when the electronic mail system is used from the access terminals 34 and 38 other than the PC terminal.
FIG. 6 is a diagram schematically illustrating a processing procedure of an attached file shaping processing function;
7 is a diagram showing a processing procedure of the virtual terminal processing agent unit 10 in FIG. 1;
FIG. 8 is a diagram showing a procedure for decompressing an attached file.
FIG. 9 is a diagram showing an attached file shaping process procedure;
[Explanation of symbols]
1, 36 ... e-mail server, 2, 2a ... attachment file conversion processing mechanism,
3 ... processing device, 4 ... shaping buffer EN-BUF, 5 ... decompression buffer DE-BUF,
6 ... mailbox file, 6a, 6b ... mailbox,
7 ... Operating system A (OS-A),
8 ... E-mail control processing program,
9 ... PC terminal agent processing program,
10 ... Virtual terminal processing agent MBL-PROC,
11 ... Attached file shaping control unit, 12 ... Attached file decompression control unit,
13 ... Attachment file conversion processing mechanism selection table IDTBL,
15 ... Processing device, 16 ... File device, 17 ... Input buffer I-BUF,
18 ... Output buffer O-BUF, 21 ... Operating system B (OS-B),
22 ... Decompression processing program DEC, 23 ... Shaping processing program ENC,
24 ... Application software, 30 ... Local area network LAN,
31 ... Public line network, 32b ... Route, 33, 37, 39 ... PC terminal,
34 ... WS terminal, 38 ... mobile terminal PDA, 44 ... attached file.

Claims (3)

An attached file conversion method in an e-mail system comprising an e-mail server that manages a plurality of e-mail access terminals and e-mail collection and distribution,
Attachment decompression control mechanism,
An attachment file conversion processing mechanism,
The attached file decompression control mechanism is an operating system (hereinafter referred to as OS) that can process the contents of an attached file when an e-mail access terminal that cannot refer to the contents of the attached file receives a received mail from the mailbox of the e-mail server. The content of the attached file is transferred to the attachment file conversion function processing mechanism in which
At least one attached file conversion processing mechanism is provided for the OS, and the entity of the attached file is input to an application program (hereinafter referred to as AP) that operates under the OS in cooperation with the e-mail server. An attached file conversion method comprising: performing decompression processing; returning a processing result to the attached file decompression control mechanism; and sequentially transmitting the processing result to the electronic mail access terminal through the attached file decompression control mechanism. An attached file conversion method in an e-mail system comprising a plurality of e-mail access terminals and an e-mail server that manages collection and distribution of e-mails,
Attached file shaping control mechanism,
An attachment file conversion processing mechanism,
When an e-mail access terminal that cannot create an attached file transmits a mail via the e-mail server, the attached file shaping control mechanism receives a file to be converted into the attached file format from the access terminal, and the attached file format Received from the access terminal to create an attached file to an attached file conversion processing mechanism running an operating system (hereinafter referred to as OS) capable of executing an application program (hereinafter referred to as AP) Transfer the contents of the file,
At least one attached file conversion processing mechanism is provided for the OS, and in cooperation with an e-mail server, the contents of the desired attached file are input to the AP operating under the OS for shaping processing, An attached file conversion method comprising: returning a processing result to the attached file shaping control mechanism, and storing the attached file of the shaped result in a mailbox in the electronic mail server through the attached file shaping control mechanism. An e-mail access terminal that receives e-mail from an e-mail server that manages e-mail collection and distribution,
When the e-mail access terminal receives the received mail from the e-mail server, if the contents of the attached file of the received mail cannot be referred to by itself, an operating system (hereinafter referred to as OS) that can refer to the attached file operates. Transfer the contents of the attached file to the attached file reference mechanism
An e-mail access terminal that receives and displays the attached file returned from the attached file referring mechanism in a form that can be referred to by itself.

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