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Versions: 00                                                            
       INTERNET_DRAFT
       <draft-debry-ipp-sec-00.txt>
                                                                  Roger deBry
                                                              IBM Corporation
                                                                Jerry Hadsell
                                                              IBM Corporation
                                                              Daniel Manchala
                                                            Xerox Corporation
                                                                 Xavier Riley
                                                            Xerox Corporation
       
       
       March 25, 1997                         Expires September 25, 1997
       
                     Internet Printing Protocol/1.0: Security
       
       Status of this memo
       
       This document is an Internet-Draft. Internet-Drafts are working
       documents of the Internet Engineering Task Force (IETF), its areas,
       and its working groups.  Note that other groups may also distribute
       working documents as Internet-Drafts. Internet-Drafts are draft
       documents valid for a maximum of six months and may be updated,
       replaced, or obsoleted by other documents at any time.  It is
       inappropriate to use Internet-Drafts as reference material or
       to cite them other than as "work in progress."
       
       To learn the current status of any Internet-Draft, please check
       the "1id-abstracts.txt" listing contained in the Internet-Drafts
       Shadow Directories on ftp.is.co.za (Africa), nic.nordu.net (Europe),
       munnari.oz.au (Pacific Rim), ds.internic.net (US East Coast), or
       ftp.isi.edu (US West Coast).
       
       Abstract
       
       This document is one of a set of documents which together describe
       all aspects of a new Internet Printing Protocol (IPP). IPP is an
       application level protocol that can be used for distributed
       printing on the Internet. The protocol is heavily influenced by
       the printing model introduced in the Document Printing Application
       (ISO/IEC 10175 DPA) standard, which describes a distributed printing
       service. The full set of IPP documents includes:
       
       
            Internet Printing Protocol/1.0: Requirements
            Internet Printing Protocol/1.0: Model and Semantics
            Internet Printing Protocol/1.0: Security
            Internet Printing Protocol/1.0: Protocol Specification
            Internet Printing Protocol/1.0: Directory Schema
       
       
       
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       This document deals with the security considerations for IPP.
       
       Table of Contents
       
       1.0 Introduction
       
       2.0 Internet Printing Environments
           2.1 Client, content and printer in the same security domain
           2.2 Client and printer in one security domain, content in another
           2.3 Client and content in one security domain, printer in another
           2.4 Printer and content in one security domain, client in another
           2.5 Printer, content and client all in different security domains
       3.0 Security Services
           3.1 Basic concepts
           3.5 Miscellaneous
       4.0 IPP Security threats and methods of attack
           4.1 Threats
           4.2 Methods of attack
           4.3 Quality of service
       5.0 Attacks vs. security services
       6.0 Quality of service vs. security services
       7.0 Required security services provided by current security methods
       8.0 Further references.
       9.0 Author's Address
       10.0 Other Contributors
       
       1.0 Introduction
       
       It is required that the Internet Printing Protocol be able to operate
       within a secure environment. Wherever possible, IPP ought to make use
       of existing security protocols and services. IPP will not invent new
       security features when the requirements described in this document can
       be met by existing protocols and services. Examples of such services
       include Secure Sockets (SSL), Digest Access Authentication in HTTP,
       and the Content MD-5 Header Field in MIME.
       
       It is difficult to anticipate the security risks that might exist in
       any given IPP environment. For example, if IPP is used within a given
       corporation over a private network,  the risks of exposing print data
       may be low enough that the corporation will choose to not use
       encryption on that data. However, if the connection between the
       client and the Printer is over a public network, the client may wish
       to protect the content of the information during transmission through
       the network with encryption.
       
       Furthermore, the value of the information being printed may vary from
       one use of the protocol to the next. Printing payroll checks, for
       
       
       
       
       
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       example, might have a different value than printing public information
       from a file.
       
       Since we cannot anticipate the security levels or the specific threats
       that any given IPP print administrator may be concerned with, IPP must
       be capable of operating with different security mechanisms and
       security policies as required by the individual installation. Security
       policies might vary from very strong, to very weak, to none at all,
       and corresponding security mechanisms will be required.
       
       This document will describe the various environments within which IPP
       must operate. It will then introduce security related terminology used
       in this document, describe the various security services available and
       the possible threats and methods of attack. Finally, it will provide a
       mapping of threats to services and discuss how existing security
       methods address these requirements.
       
       
       2.0 Internet Printing Environments
       
       The printing environments described in this section must take into
       account the fact that the client, the Printer, and the document to be
       printed may all exist in separate security domains. This is
       complicated by the fact that IPP allows documents to be included in
       the print request or they may be printed by reference. When printing
       by reference a Printer may fetch the document from the client, but
       more often the document will be on another network node. Furthermore,
       there are at least two parties that have an interest in the value of
       the information being printed:
       
       the client: the person asking to have the information printed
       
       the author: the person who originated the information. This brings
       into the picture the need to worry about copyrights and protection
       of the content.
       
       This requires consideration of the following Internet printing
       environments. Where examples are provided they should be considered
       illustrative of the environment and not an exhaustive set.
       
       
       2.1 Client, Content and Printer in the same security domain
       
       This environment would be typical of the traditional office where
       users print the output of office applications on shared work-group
       printers, or where batch applications print their output on large
       production printers.  Documents may be included in a print request
       
       
       
       
       
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       or printed by reference.  Depending upon company policies security
       could range from none to very secure.
       
       
       2.2 Client and Printer in one security domain, Content in another
       
       In this environment, printing can only be done by reference (If the
       client has already obtained the content, then it is in the client's
       security domain). Examples of this environment include printing a
       document, such as software documentation, from a publicly available
       source on the Internet; or a copy of a contract or purchase order from
       a business partner, on a local Printer. Controlling access to content
       would be a major concern in this environment.
       
       
       2.3 Client and Content in one security domain, Printer in another
       
       Examples of this environment include printing a document created by
       the client on a publicly available printer, such as at a commercial
       print shop; or printing a contract on a business partner's printer.
       This latter operation would be functionally equivalent to sending the
       contract to the business partner as a facsimile. Documents may be
       included in the print request or printed by reference. Some
       credentials are required for the printer to fetch a document not in
       it's security domain.
       
       2.4 Printer and Content in one security domain, Client in another
       
       Printing in this environment is by reference only.  Examples would
       include an employee at home connecting to his office through the
       Internet to print a document on a printer at work, or a student
       using the Internet to connect to the college library and asking
       to have the results of a literature search printed on the library's
       printer. Authentication of the user and controlling access to print
       resources would be major concerns in this environment.
       
       
       2.5 Printer, Content, and Client all in different security domains
       
       Printing in this environment is by reference only. Examples include a
       person at home using the Internet to print a document from a remote
       site, at a commercial print shop. Authentication and controlling
       access to content and to print resources would be concerns in this
       environment.
       
       
       
       
       
       
       
       
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       3.0 Security Services
       
       This section introduces common security terms used in this paper.
       
       
       3.1 Basic Concepts
       
       
       AAA: Overall term for security. The three A's are generally taken to
       be
       
       Authentication, Authorization, and Auditing although it may mean
       Authentication, Authorization & Accounting in some contexts.
       
       Security Domain: Security domain refers to the domain within which a
       specific set of security policies and mechanisms define access to
       resources within that domain.
       
       Authentication: The process of reliably determining the identity of a
       communicating party. There are three classic ways of authenticating
       oneself: something you know, something you have and something you are.
       The two entities involved in the communication could use the following
       two ways to authenticate themselves.
       
       Single entity authentication. Only one of the entities is
       authenticated by the other. In the case of IPP this may either by the
       end user or the Printer.
       
       Mutual authentication. Both the parties authenticate each other.
       
       Authorization: The granting of rights to a user, program or process to
       access a resource such as a Printer. Authorization may also apply to
       content being printed or to protect a resource from unauthorized use.
       This can be achieved by the use of access control lists (ACL) or
       capabilities.
       
       Auditing: Keep a record of events that might have some significance,
       such as when a Printer is used and by whom. To record independently
       and later examine system activity. Audit data is generally used for
       security concerns (e.g. intrusion detection and consistency checks).
       
       Accounting: Keep a record of events that might have some significance,
       such as when access to a Printer occurred, who accessed it, what print
       resources were used. Accounting data is generally used for commercial
       concerns (e.g. billing and charges).
       
       
       
       
       
       
       
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       3.2 Security Service Attributes
       
       Anonymity: The ability to communicate so that the other principal
       can't find out the identity of the sender.
       
       Integrity: Keeping information from corruption or unauthorized
       modification either maliciously or accidentally. Integrity protects
       against forgery or tampering. Many document printing applications,
       such as payroll, absolutely require integrity.
       
       Non-Repudiation: There is proof who sent a message that a recipient
       can show to a third party and the third party can independently verify
       the source.
       
       Confidentiality: Protection from the unauthorized disclosure of print
       data, both during transport, in storage, and on the printer.
       
       
       3.3 Encryption Concepts
       
       Encryption: To scramble information so that only someone knowing the
       appropriate secret can obtain the original information. This might
       apply to the document being printed, or to the entire print request.
       
       Nonce: In order to prevent an attacker from launching a replay attack,
       a very large random number or sequence number that is different every
       time the cryptographic protocol is run is used. A nonce can also be
       created from a time stamp that indicates the current date and time
       up to milliseconds accuracy.
       
       Public Key: Dual key (RSA/PGP style) cryptography. Uses two different
       keys, either one for encryption and the other for decryption. Also
       called a asymmetric cryptography.
       
       Secret Key: Single key cryptography. Also called symmetric
       cryptography.
       
       Session Key: A short lived Secret Key used by two principals for the
       purpose of secure communications between them.
       
       
       3.4 Authorization Concepts
       
       ACL: Access Control List. A list of the subjects authorized to access
       a Printer, a print resource, or a document. The list usually indicates
       what type of access is allowed for each user.
       
       
       
       
       
       
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       Groups: A named set of users, created for convenience in stating
       authorization policy.
       
       Roles: A specific function a principal plays with respect to another
       principal. Examples include a print administrator, a printer operator,
       or an end-user. If a principal has multiple functions with respect to
       another principal, it has multiple roles (e.g. A person can have both
       administrator and operator roles for a Printer).
       
       Capability: An identifier that specifies an object, such as a Printer,
       and the access rights for the subject who possess the capability. See
       also "Certificate / Ticket / Token"
       
       Proxy Agent: A principal that has been authorized to work on the
       behalf of another.
       
       Proxy: A token that grants the rights of a principal to another.
       
       Restricted Proxy: A token that grants the rights of a principal to
       another while placing restrictions on the privileges granted.
       
       Certificate / Ticket / Token: Different names for a object used to
       grant privileges. While these terms have individual meanings in
       specific contexts (Kerberos generates tickets, physical objects
       are tokens), there is no general agreement on how they differ.
       We will use Certificate / Ticket / Token largely interchangeably.
       Capability & Proxy are related terms, but with narrower focus.
       
       CRL: Certificate Revocation List. A list of revoked certificates.
       
       
       3.5 Miscellaneous
       
       Denial of Service: An action that prevents a system or its
       resources from functioning efficiently and reliably.
       
       
       4.0 IPP Security Threats and Methods of Attack
       
       The purpose of a security system is to restrict access to information
       and resources to just those users which are authorized to have access.
       To produce a system that is demonstrably secure against specific
       threats, it is useful to classify the threats and methods of attack by
       which each of them may be achieved.
       
       
       
       
       
       
       
       
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       4.1 Threats
       
       Security threats for IPP fall into the following broad categories:
       
       Resource stealing: The unauthorized use of facilities, such as
       printers, specific printer features, media, fonts, or logos etc.
       resulting in some value to the perpetrator.
       
       Vandalism: Similar to resource stealing, but usually without gain to
       the perpetrator.  Often results in denial of service to other
       authorized users.
       
       Leakage: The acquisition of information by unauthorized interceptors
       during transmission.
       
       Tampering: The interception and altering of information during
       transmission.
       
       
       4.2 Methods of Attack
       
       The methods by which security violations can be perpetrated in the IPP
       environment depend upon obtaining access to existing communication
       channels or establishing channels that masquerade as connections to
       a user with some desired authority.  These methods are:
       
       Masquerading: Submission of print jobs or performing other IPP
       operations using the identity and password of another user without
       their authority, or by using an access token or capability after the
       authorization to use it has expired.
       
       Eavesdropping: Obtaining copies of documents and job instructions
       without authority, either directly from the network or by examining
       information that is inadequately protected in storage.
       
       Document tampering: Interception documents or other print job related
       information and altering their contents before passing them on to the
       printer or print server.
       
       Replaying: Intercepting and storing print jobs or documents, and have
       them submitted again later. Example: Stock Certificate Printing.
       
       Spamming: Sending irrelevant or nonsensical print jobs or other IPP
       operations to a printer or print server with the objective of
       overloading the system and prevent legal users to get service.
       
       Malicious Document Content Code: Sending documents that contain
       
       
       
       
       
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       malicious code which will bring the printer software into a loop
       or even ruin hardware components in the print device. Example: Using
       PostScript as a programming language to run the printer into an
       infinite loop.
       
       
       4.3 Quality of Service
       
       Liability: Responsibility of the user for the printed content. This
       holds the user accountable for making payments, usage of special
       resources like transparencies, color printing, etc. The printer is
       also responsible for the services performed and will be held
       responsible for it.
       
       Provability of Service: The printer should be able to prove that it
       performed correctly according to the job attributes which  the
       client/user had indeed issued. Example: The printer should be able
       to prove that the job request was indeed a monochrome when the user
       claims it issued a color copy.
       
       Payment and Accounting System: It is a mistake to charge the wrong
       person when someone has issued a print request.
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
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       5.0 Attacks Vs. Security Services
       
       The following table defines how the services described here address
       security attacks. A (C) in the table refers to client side services,
       an (S) server side services.  CA = Client Authentication, SA = Server
       Authentication, DC = Data Confidentiality, DI = Data Integrity, NR =
       Non-repudiation, TS = Time Stamp and Nonce.
       
       Attacks\Services           CA      SA      DC      DI      NR      TS
       
       
       Masquerading
       1. User/Client             Yes
          (Incorrect source -
          misuse of resources)
       
       2. Printer/Server                  Yes     Yes             Yes (S)
          (Incorrect destination)
       
       Eavesdropping                      Yes
       
       Document Tampering
       1. incorrect rendering                             Yes
          of data and job attributes
       
       2. guarantee security                      Yes                     Yes
           marks (watermarking,
          fingerprinting, security
          banners)
       
       Replaying                                                  Yes
       
       Denial of Service          Yes                             Yes(C)  Yes
       (Spamming)
       
       Document Malicious
       Content Code
       1. corruption of hardware   Yes    Yes     Yes
          resources
       2. corruption of printer    Yes            Yes
           software
       
       
       
       
       
       
       
       
       
       
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       6.0 Quality of Service vs. Security Services
       
       The following table defines how the services described here address
       security attacks. A (C) in the table refers to client side services,
       an (S) server side services.  CA = Client Authentication, SA = Server
       Authentication, DC = Data Confidentiality, DI = Data Integrity, NR =
       Non-repudiation, TS = Time Stamp and Nonce.
       
       Qual of Service/Services   CA      SA      DC      DI      NR      TS
       
       
       Liability for
       1. printed content         Yes                                     Yes
       2. for services                    Yes                             Yes
          performed
       
       Provability of                                             Yes(S)  Yes
       service
       
       Defeating payment          Yes                             Yes(C)  Yes
       or accounting
       system
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
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       7.0 Required Security Services provided by current security methods
       
       The following table describes how current security methods address
       the requirements discussed in this paper. Security methods would be
       invoked by standard means, i.e. IPP would use the URL
       https://www.xyz.com/printer-1 to name a printer that requires SSL.
       
       Requirements    HTTP/1.1        SSL (V2)        SSL (V3)     LDAP
       Authentication
         single entity Yes             Yes             No
         mutual        No              No              Yes
       
       Authorization
          ACL          --              --              --
          Capability   --              --              --
       
       Non-repudiation
       
       Integrity       --              Yes             Yes
       
       Confidentiality --              Yes             Yes
       
       Administration
          Certificate
          Mgmt.        --              --              --            Yes
       
       Secure Comm.
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
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       8.0 References
       
       [1] C. Kaufmann, R. Perlman and M. Speciner, Network Security
       
       [2] D. Russell and G.T. Gabgemi Sr., Computer Security Basics
       
       [3] A. Freier, P. Karlton and P. Kocher, The SSL Protocol Version 3.0,
           Internet Draft <draft-freier-ssl-version3-01.txt>, March 1996
       
       [4] K. Hickman and T. Elgamal, The SSL Protocol, Internet Draft <
           draft-hickman-netscape-ssl-01.txt> (deleted), February 1995
       
       [5] X.500: The Directory -- Overview of Concepts, Models, and Service,
           CCITT Recommendation X.500, December 1988
       
       [6] W. Yeoung, T. Howes, and S. Kille, Lightweight Directory Access
           Protocol, RFC 1777, 03/28/1995. (Work is alos underway in the
           IETF to produce an extended version of LDAP.)
       
       [7] R. Rivest, The MD5 Message Digest Algorithm, RFC 1321, April 1992
       
       [8] M. Mahl, T. Howes, S. Kille, Lightweight Directory Access Protocol
          (v3), Work in progress, Internet Draft
           <draft-ietf-asid-ldapv3-protocol-03.txt>, October 22, 1996
       
       [9] J, Franks, P. Hallam-Baker, J. Hostetler, P. Leach, A. Luotonen,
           E. Sink, and L. Stewart, An Extension to HTTP: Digest Access
           Authentication, RFC 2069, January 1997
       
       [10] J. Myers and M. Rose, The Content MD-5 Header Field, RFC 1864,
            October 1995
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
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       9.0 Author's Address
       
       Roger deBry
       HUC/003G
       IBM Corporation
       P.O. Box 1900
       Boulder, CO 80301-9191
       
       Jerry Hadsell
       1130
       IBM Corporation
       Rt. 100
       Somers, N.Y. 10589
       
       Daniel Manchala
       Xerox Corporation
       701 Aviation Blvd.
       El Segundo, CA 90245
       
       Xavier Riley
       Xerox Corporation
       701 Aviation Blvd.
       El Segundo, CA 90245
       
       10.0 Other Contributors
       
       Scott Isaacson
       Carl-Uno Manros
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
       
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