Network Working Group C. Malamud Request for Comments: 1528 Internet Multicasting Service Obsoletes: 1486 M. Rose Category: Experimental Dover Beach Consulting, Inc. October 1993 Principles of Operation for the TPC.INT Subdomain: Remote Printing -- Technical Procedures Status of this Memo This memo defines an Experimental Protocol for the Internet community. It does not specify an Internet standard. Discussion and suggestions for improvement are requested. Please refer to the current edition of the "Internet Official Protocol Standards" for the standardization state and status of this protocol. Distribution of this memo is unlimited. Table of Contents 1. Introduction .......................................... 2 2. Naming, Addressing, and Routing ....................... 2 2.1 Addressing ........................................... 2 2.2 Routing .............................................. 3 3. Procedure ............................................. 3 3.1 Content-Types ........................................ 4 3.2 Generating a Cover-Sheet ............................. 4 3.3 Return Receipt ....................................... 6 4. Usage Examples ........................................ 6 4.1 Explicit Cover Sheet ................................. 6 4.2 Implicit Cover Sheet ................................. 7 4.3 Minimal, Text-only ................................... 7 5. Prototype Implementation .............................. 7 6. Future Issues ......................................... 9 7. Security Considerations ............................... 9 8. Acknowledgements ...................................... 9 9. References ............................................ 9 10. Authors' Addresses .................................. 10 A. The application/remote-printing Content-Type ......... 11 B. The image/tiff Content-Type .......................... 12 1. Introduction Although electronic mail is preferable as a means of third-party communication, in some cases it may be necessary to print information, in hard-copy form, at a remote location. The remote output device may consist of a standard line printer, a printer with
multiple fonts and faces, a printer that can reproduce graphics, or a facsimile device. Remote output may be accompanied by information that identifies the intended recipient. This memo describes a technique for "remote printing" using the Internet mail infrastructure. In particular, this memo focuses on the case in which remote printers are connected to the international telephone network. 2. Naming, Addressing, and Routing A printer is identified by a telephone number which corresponds to a G3-facsimile device connected to the international telephone network, e.g., +1 415 968 2510 where "+1" indicates the IDDD country code, and the remaining string is a telephone number within that country. 2.1 Addressing This number is used to construct the address of a remote printer server, which forms the recipient address for the message, e.g., either remote-printer@0.1.5.2.8.6.9.5.1.4.1.tpc.int or remote-printer.ATOM@0.1.5.2.8.6.9.5.1.4.1.tpc.int where "ATOM" is an (optional) RFC 822 atom [1], an opaque string for use in recipient identification when generating a cover-sheet, and the domain-part is constructed by reversing the telephone number, converting each digit to a domain-label, and being placed under "tpc.int."
Note that the mailbox syntax is purposefully restricted in the interests of pragmatism. To paraphrase RFC 822, an atom is defined as: atom = 1*atomchar atomchar= <any upper or lowercase alphabetic character (A-Z a-z)> / <any digit (0-9)> / "!" / "#" / "$" / "%" / "&" / "'" / "*" / "+" / "-" / "/" / "=" / "?" / "^" / "_" / "`" / "{" / "|" / "}" / "~" Finally, note that some Internet mail software (especially gateways from outside the Internet) impose stringent limitations on the size of a mailbox-string. Thus, originating user agents should take care in limiting the local-part to no more than 70 or so characters. 2.2 Routing The message is routed in exactly the same fashion as all other electronic mail, i.e., using the MX algorithm [2]. Since a remote printer server might be able to access many printers, the wildcarding facilities of the DNS [3,4] are used accordingly. For example, if a remote printer server residing at "dbc.mtview.ca.us" was willing to access any printer with a telephone number prefix of +1 415 968 then this resource record might be present *.8.6.9.5.1.4.1.tpc.int. IN MX 10 dbc.mtview.ca.us. Naturally, if several remote printer servers were willing to access any printer in that prefix, multiple MX resource records would be present. It should be noted that the presence of a wildcard RR which matches a remote printer server's address does not imply that the corresponding telephone number is valid, or, if valid, that a G3-facsimile device is connected at the phone number. 3. Procedure When information is to be remotely printed, the user application constructs an RFC 822 message, containing a "Message-ID" field.
If the local-part of the address does not contain an opaque string for use in recipient identification, then the body must consist "multipart/mixed" content [5] having at two parts, the first being a "application/remote-printing" content-type (defined in Appendix A), which will be used to generate a cover-sheet, and the second being an arbitrary content-type corresponding to the information to be printed. If the local-part of the address does contain an opaque string for use in recipient identification, then the body consists of an arbitrary content-type corresponding to the information to be printed. Regardless, the message is then sent to the remote printer server's electronic mail address. 3.1 Content-Types It should be noted that not all content-types have a natural printing representation, e.g., an "audio" or "video" content. For this reason, the second part of the "multipart/mixed" content should be one of the following: text/plain, message/rfc822, application/postscript image/tiff (defined in Appendix B), any multipart. Note that: (1) With the "text/plain" content-type, not all character sets may be available for printing. (2) With the "message" content-type, the subordinate content will be processed recursively. (3) With the "application/postscript" content-type, the remote printer server should evaluate the contents in a safe execution environment. (4) With the "multipart" content-type the subordinate contents will be processed recursively: for a "multipart/mixed" or "multipart/digest" content, each subordinate content will start on a new page, whilst for a "multipart/parallel" content, all subordinate contents will, if possible, start on the same page. Naturally, when processing a "multipart/alternative" content, only one subordinate content will be printed. 3.2 Generating a Cover-Sheet If the "application/remote-printing" content-type is present, this contains all the information necessary to generate a
cover-sheet. Otherwise, the cover-sheet must be generated based on other information available. Typically, a cover sheet consists of three sections: o information identifying the originator; o information identifying the recipient; and, o additional information supplied by the remote printer server. To identify the originator, the remote printer server will use the message headers, usually by stripping any trace headers (i.e., "Received" and "Return-Path") and then re-ordering the remaining headers starting with the "From" header. To identify the recipient, the opaque string from the local- part of the remote printer server's address is consulted. For example, if the remote printer server's address is remote-printer.Arlington_Hewes/Room_403@0.1.5.2.8.6.9.5.1.4.1.tpc.int then the opaque string Arlington_Hewes/Room_403 is consulted. lp When generating a cover-sheet using this opaque string, the remote printer server will interpret an underscore character ("_") as a space, and a solidus character ("/") as an end- of-line sequence. A remote printer server will interpret two consecutive underscore characters in the opaque string as a single underscore, and two consecutive solidus characters as a single solidus. So, the opaque string, Arlington_Hewes/Room_403 might appear on the cover-sheet as To: Arlington Hewes Room 403
3.3 Return Receipt When the remote printer server finishes its processing, a message is returned to the originator, indicating either success (i.e., the message was successfully sent to the facsimile device), or failure, with an explanation (e.g., after several repeated attempts, there was no answer). 4. Usage Examples 4.1 Explicit Cover Sheet To: remote-printer@0.1.5.2.8.6.9.5.1.4.1.tpc.int From: Carl Malamud <carl@malamud.com> Date: Thu, 22 Jul 1993 08:38:00 -0800 Subject: First example Message-ID: <19930722163800.1@malamud.com> MIME-Version: 1.0 Content-Type: multipart/mixed; boundary="----- =_aaaaaaaaaa0" ------- =_aaaaaaaaaa0 Content-Type: application/remote-printing Recipient: Arlington Hewes Telephone: +1 415 968 1052 Facsimile: +1 415 968 2510 Originator: Carl Malamud Organization: Internet Multicasting Service Address: Suite 1155, The National Press Building Washington, DC 20045 US Telephone: +1 202 628 2044 Facsimile: +1 202 628 2042 EMail: carl@malamud.com Any text appearing here would go on the cover-sheet. ------- =_aaaaaaaaaa0 Content-Type: text/plain; charset="us-ascii" Here are my comments... ------- =_aaaaaaaaaa0--
4.2 Implicit Cover Sheet To:remote-printer.Arlington_Hewes/Room_403@0.1.5.2.8.6.9.5.1.4.1.tpc.int cc: Marshall Rose <mrose@dbc.mtview.ca.us> From: Carl Malamud <carl@malamud.com> Date: Thu, 22 Jul 1993 08:38:00 -0800 Subject: Second example Message-ID: <19930722163800.2@malamud.com> MIME-Version: 1.0 Content-Type: application/postscript %! Note that in this latter example, both remote printing and e-mail recipients can be identified in the same message. 4.3 Minimal, Text-only To:remote-printer.Arlington_Hewes/Room_403@0.1.5.2.8.6.9.5.1.4.1.tpc.int cc: Marshall Rose <mrose@dbc.mtview.ca.us> From: Carl Malamud <carl@malamud.com> Date: Thu, 22 Jul 1993 08:38:00 -0800 Subject: Third example Message-ID: <19930722163800.3@malamud.com> Here are my comments... 5. Prototype Implementation A prototype implementation is openly available. The MIME instructions for retrieval are:
MIME-Version: 1.0 Content-Type: multipart/alternative; boundary="----- =_aaaaaaaaaa0" Content-Description: pointers to ftp and e-mail access ------- =_aaaaaaaaaa0 Content-Type: message/external-body; access-type="mail-server"; server="archive-server@ftp.ics.uci.edu" Content-Type: application/octet-stream; type="tar"; x-conversions="x-compress" Content-ID: <4599.735726126.1@dbc.mtview.ca.us> mimesend mrose/tpc/rp.tar.Z ------- =_aaaaaaaaaa0 Content-Type: message/external-body; access-type="anon-ftp"; name="rp.tar.Z"; directory="mrose/tpc"; site="ftp.ics.uci.edu" Content-Type: application/octet-stream; type="tar"; x-conversions="x-compress" Content-ID: <4599.735726126.2@dbc.mtview.ca.us> ------- =_aaaaaaaaaa0-- This package contains software for UNIX-based systems, and was developed and tested under SunOS, with an openly-available facsimile package (Sam Leffler's FlexFAX package), and contains information for sites acting as either client or server participants, and zone administrators.
6. Future Issues Note that several issues are not addressed, e.g., o determining which content-types and character sets are supported by a remote printer server; o introduction of authentication, integrity, privacy, authorization, and accounting services; o preferential selection of a remote printer server; and, o aggregation of multiple print recipients in a single message. Subsequent work might consider these issues in detail. 7. Security Considerations Internet mail may be subject to monitoring by third parties, and in particular, message relays. 8. Acknowledgements This document is based on RFC 1486, "An Experiment in Remote Printing". 9. References [1] Crocker, D., "Standard for the Format of ARPA Internet Text Messages", STD 11, RFC 822, UDEL, August 1982. [2] Partridge, C., "Mail Routing and the Domain System" STD 14, RFC 974, CSNET CIC BBN, January 1986. [3] Mockapetris, P., "Domain Names -- Concepts and Facilities", STD 13, RFC 1034, USC/Information Sciences Institute, November 1987). [4] Mockapetris, P., "Domain Names -- Implementation and Specification", STD 13, RFC 1035, USC/Information Sciences Institute, November 1987. [5] Borenstein, N., and N. Freed, "MIME (Multipurpose Internet Mail Extensions) Part One: Mechanisms for Specifying and Describing the Format of Internet Message Bodies", RFC 1521, Bellcore, Innosoft, September 1993.
10. Authors' Addresses Carl Malamud Internet Multicasting Service Suite 1155, The National Press Building Washington, DC 20045 US Phone: +1 202 628 2044 Fax: +1 202 628 2042 Email: carl@malamud.com Marshall T. Rose Dover Beach Consulting, Inc. 420 Whisman Court Mountain View, CA 94043-2186 US Phone: +1 415 968 1052 Fax: +1 415 968 2510 Email: mrose@dbc.mtview.ca.us
Appendix A. The application/remote-printing Content-Type (1) MIME type name: application (2) MIME subtype name: remote-printing (3) Required parameters: none (4) Optional parameters: none (5) Encoding considerations: 7bit preferred (6) Security considerations: none (7) Specification: The "application/remote-printing" content-type contains originator and recipient information used when generating a cover-sheet. Using the ABNF notation of RFC 822, the syntax for this content is: <content> ::= <recipient-info> CRLF <originator-info> [CRLF <cover-info>] <recipient-info> ::= "Recipient" ":" <value> CRLF <address-info> <originator-info> ::= "Originator" ":" <value> CRLF <address-info> <address-info> ::= ["Title" ":" <value> CRLF] ["Department" ":" <value> CRLF] ["Organization" ":" <value> CRLF] ["Mailstop" ":" <value> CRLF] ["Address" ":" <value> CRLF] ["Telephone" ":" <value> CRLF] "Facsimile" ":" <value> CRLF ["Email" ":" <value> CRLF] <value> ::= *text [CRLF LWSP-char <value> ] <cover-info> ::= *(*text CRLF) Note that the value of the "Email" field is an RFC 822 mailbox address.
Appendix B. The image/tiff Content-Type (1) MIME type name: image (2) MIME subtype name: tiff (3) Required parameters: none (4) Optional parameters: none (5) Encoding considerations: base64 (6) Security considerations: none (7) Published specification: TIFF class F, as defined in: Tag Image File Format (TIFF) revision 6.0 Developer's Desk Aldus Corporation 411 First Ave. South Suite 200 Seattle, WA 98104 206-622-5500