Network Working Group S. Kille Request for Comments: 2294 Isode Ltd. Obsoletes: 1836 March 1998 Category: Standards Track Representing the O/R Address hierarchy in the X.500 Directory Information Tree Status of this Memo This document specifies an Internet standards track protocol for the Internet community, and requests discussion and suggestions for improvements. Please refer to the current edition of the "Internet Official Protocol Standards" (STD 1) for the standardization state and status of this protocol. Distribution of this memo is unlimited. Copyright Notice Copyright (C) The Internet Society (1998). All Rights Reserved. Abstract This document defines a representation of the O/R Address hierarchy in the Directory Information Tree [6, 1]. This is useful for a range of purposes, including: o Support for MHS Routing [4]. o Support for X.400/RFC 822 address mappings [2, 5]. Please send comments to the author or to the discussion group <mhs- ds@mercury.udev.cdc.com>. Kille Standards Track [Page 1]
RFC 2294 Directory Information Tree March 1998 Object Class Mandatory ------------ --------- mHSCountry M aDMD M pRMD O mHSX121 O mHSNumericUserIdentifier O mHSOrganization O mHSOrganizationalUnit O mHSPerson O mHSNamedObject O mHSTerminalID O mHSDomainDefinedAttribute O Table 1: Order of O/R Address Directory Components 1 The O/R Address Hierarchy An O/R Address hierarchy is represented in the X.500 directory by associating directory name components with O/R Address components. An example of this is given in Figure 1. The object classes and attributes required to support this representation are defined in Figure 2. The schema, which defines the hierarchy in which these objects are represented in the directory information tree is specified in Table 1. A given object class defined in the table will always be higher in the DIT than an object class defined lower down the table. Valid combinations of O/R Address components are defined in X.400. Kille Standards Track [Page 2]
RFC 2294 Directory Information Tree March 1998 /\ / \ C=GB / \ Numeric-C=234 / \ / \ / \ +------------+<----------------+----+ | Country | | | +------------+ +----+ /\ / \ / \ / \ ADMD=" " / \ ADMD=Gold 400 +-------------+ +------------+ | ADMD | | ADMD | +-------------+ +------------+ \ \ \ \ \ PRMD=UK.AC \ PRMD=UK.AC \ \ +----------+ +----+ | PRMD |< -----------| | +----------+ +----+ / / O=UCL / / +------------+ | MHS-Org | +------------+ \ \ OU=CS \ \ +-----------+ | MHS-OU | +-----------+ Figure 1: Example O/R Address Tree Kille Standards Track [Page 3]
RFC 2294 Directory Information Tree March 1998 IMPORTS ub-domain-name-length, ub-organization-name-length, ub-organizational-unit-name-length, ub-common-name-length, ub-x121-address-length, ub-domain-defined-attribute-type-length, ub-domain-defined-attribute-value-length, ub-terminal-id-length, ub-numeric-user-id-length, ub-country-name-numeric-length, ub-surname-length, ub-given-name-length, ub-initials-length, ub-generation-qualifier-length FROM MTSUpperBounds {joint-iso-ccitt mhs-motis(6) mts(3) 10 modules(0) upper-bounds(3) }; mHSCountry OBJECT-CLASS ::= { SUBCLASS OF {country} MAY CONTAIN {mHSNumericCountryName} ID oc-mhs-country} mHSNumericCountryName ATTRIBUTE ::= { WITH SYNTAX NumericString (SIZE (1..ub-country-name-numeric-length)) SINGLE VALUE 20 ID at-mhs-numeric-country-name} aDMD OBJECT-CLASS ::= { SUBCLASS OF {top} MUST CONTAIN {aDMDName} ID oc-admd} aDMDName ATTRIBUTE ::= { SUBTYPE OF name WITH SYNTAX DirectoryString {ub-domain-name-length} 30 ID at-admd-name} pRMD OBJECT-CLASS ::= { SUBCLASS OF {top} MUST CONTAIN {pRMDName} ID oc-prmd} pRMDName ATTRIBUTE ::= { SUBTYPE OF name WITH SYNTAX DirectoryString {ub-domain-name-length} 40 ID at-prmd-name} mHSOrganization OBJECT-CLASS ::= { SUBCLASS OF {top} MUST CONTAIN {mHSOrganizationName } ID oc-mhs-organization} Kille Standards Track [Page 4]
RFC 2294 Directory Information Tree March 1998 mHSOrganizationName ATTRIBUTE ::= { SUBTYPE OF organizationName WITH SYNTAX DirectoryString {ub-organization-name-length} 50 ID at-mhs-organization-name} mHSOrganizationalUnit OBJECT-CLASS ::= { SUBCLASS OF {top} MUST CONTAIN {mHSOrganizationalUnitName} ID oc-mhs-organizational-unit} mHSOrganizationalUnitName ATTRIBUTE ::= { SUBTYPE OF organizationalUnitName 60 WITH SYNTAX DirectoryString {ub-organizational-unit-name-length} ID at-mhs-organizational-unit-name} mHSPerson OBJECT-CLASS ::= { SUBCLASS OF {top} MUST CONTAIN {mHSSurname} MAY CONTAIN {mHSGivenName| mHSInitials| mHSGenerationalQualifier} ID oc-mhs-person} 70 mHSSurname ATTRIBUTE ::= { SUBTYPE OF surname WITH SYNTAX DirectoryString {ub-surname-length} ID at-mhs-surname} mHSGivenName ATTRIBUTE ::= { SUBTYPE OF givenName WITH SYNTAX DirectoryString {ub-given-name-length} ID at-mhs-given-name} 80 mHSInitials ATTRIBUTE ::= { SUBTYPE OF initials WITH SYNTAX DirectoryString {ub-initials-length} ID at-mhs-initials} mHSGenerationQualifier ATTRIBUTE ::= { SUBTYPE OF generationQualifier WITH SYNTAX DirectoryString {ub-generation-qualifier-length} ID at-mhs-generation-qualifier} 90 mHSNamedObject OBJECT-CLASS ::= { SUBCLASS OF {top} MUST CONTAIN {mHSCommonName} ID oc-mhs-named-object} Kille Standards Track [Page 5]
RFC 2294 Directory Information Tree March 1998 mHSCommonName ATTRIBUTE ::= { SUBTYPE OF commonName WITH SYNTAX DirectoryString {ub-common-name-length} ID at-mhs-common-name} 100 mHSX121 OBJECT-CLASS ::= { SUBCLASS OF {top} MUST CONTAIN {mHSX121Address} ID oc-mhs-x121} mHSX121Address ATTRIBUTE ::= { SUBTYPE OF name WITH SYNTAX DirectoryString {ub-x121-address-length} ID at-x121-address} 110 mHSDomainDefinedAttribute OBJECT-CLASS ::= { SUBCLASS OF {top} MUST CONTAIN { mHSDomainDefinedAttributeType| mHSDomainDefinedAttributeValue} ID oc-mhs-domain-defined-attribute} mHSDomainDefinedAttributeType ATTRIBUTE ::= { SUBTYPE OF name 120 WITH SYNTAX DirectoryString {ub-domain-defined-attribute-type-length} SINGLE VALUE ID at-mhs-domain-defined-attribute-type} mHSDomainDefinedAttributeValue ATTRIBUTE ::= { SUBTYPE OF name WITH SYNTAX DirectoryString {ub-domain-defined-attribute-value-length} SINGLE VALUE ID at-mhs-domain-defined-attribute-value} 130 mHSTerminalID OBJECT-CLASS ::= { SUBCLASS OF {top} MUST CONTAIN {mHSTerminalIDName} ID oc-mhs-terminal-id} mHSTerminalIDName ATTRIBUTE ::= { SUBTYPE OF name WITH SYNTAX DirectoryString {ub-terminal-id-length} ID at-mhs-terminal-id-name} 140 Kille Standards Track [Page 6]
RFC 2294 Directory Information Tree March 1998 mHSNumericUserIdentifier OBJECT-CLASS ::= { SUBCLASS OF {top} MUST CONTAIN {mHSNumericUserIdentifierName} ID oc-mhs-numeric-user-id} mHSNumericeUserIdentifierName ATTRIBUTE ::= { SUBTYPE OF name WITH SYNTAX DirectoryString {ub-numeric-user-id-length} 150 ID at-mhs-numeric-user-id-name} Figure 2: O/R Address Hierarchy The hierarchy is defined so that: 1. The representation is defined so that it is straightforward to make a mechanical transformation in either direction. This requires that each node is named by an attribute whose type can determine the mapping. 2. Where there are multiple domain defined attributes, the first in the sequence is the most significant. 3. Physical Delivery (postal) addresses are not represented in this hierarchy. This is primarily because physical delivery can be handled by the Access Unit routing mechanisms defined in [4], and there is no need for this representation. 4. Terminal and network forms of address are not handled, except for X.121 form, which is useful for addressing faxes. 5. MHSCountry is defined as a subclass of Country, and so the same entry will be used for MHS Routing as for the rest of the DIT. 6. The numeric country code will be an alias. 7. ADMD will always be present in the hierarchy. This is true in the case of " " and of "0". This facilitates an easy mechanical transformation between the two forms of address. 8. Each node is named by the relevant part of the O/R Address. 9. Aliases may be used in other parts of the tree, in order to normalize alternate values. Where an alias is used, the value of the alias should be present as an alternate value in the node aliased to. Aliases may not be used for domain defined attributes. Kille Standards Track [Page 7]
RFC 2294 Directory Information Tree March 1998 10. Domain Defined Attributes are named by a multi-valued RDN (Relative Distinguished Name), consisting of the type and value. This is done so that standard attribute syntaxes can be used. 11. Where an O/R Address has a valid Printable String and T.61 form, both must be present, with one as an alias for the other. This is so that direct lookup of the name will work, independent of the variant used. When both are present in an O/R Address being looked up, either may be used to construct the distinguished name. 12. Personal name is handled by use of the mHSPerson object class. Each of the components of the personal name will be present in the relative distinguished name, which will usually be multi- valued. The relationship between X.400 O/R Addresses and the X.400 Entries (Attribute Type and Object Class) are given in Table 2. Where there are multiple Organizational Units or Domain Defined Attributes, each component is mapped onto a single X.500 entry. Note: When an X.121 address is used for addressing fax transmission, this may only be done relative to the PRMD or ADMD. This is in line with the current X.400 standards position. This means that it is not possible to use this form of addressing for an organizational or departmental fax gateway service. O/R Address Object Class Naming Attribute ----------- ------------ ---------------- C mHSCountry countryName or mHSNumericCountryName A aDMD aDMDName P pRMD pRMDName O mHSOrganization mHSOrganizationName OU/OU1/OU2 mHSOrganizationalUnit mHSOrganizationalUnitName OU3/OU4 PN mHSPerson personName CN mHSNamedObject mHSCommonName X121 mHSX121 mHSX121Address T-ID mHSTerminalID mHSTerminalIDName UA-ID mHSNumericUserIdentifier mHSNumericUserIdentifierName DDA mHSDomainDefinedAttribute mHSDomainDefinedAttributeType and mHSDomainDefinedAttributeValue Table 2: O/R Address relationship to Directory Name Kille Standards Track [Page 8]
RFC 2294 Directory Information Tree March 1998 2 Notation O/R Addresses are written in the standard X.400 Notation. Distinguished Names use the string representation of distinguished names defined in [3]. The keywords used for the attributes defined in this specification are given in Table 3. 3 Example Representation The O/R Address: I=S; S=Kille; OU1=CS; O=UCL, P=UK.AC; A=Gold 400; C=GB; would be represented in the directory as: MHS-I=S + MHS-S=Kille, MHS-OU=CS, MHS-O=UCL, Attribute Keyword --------- ------- mHSNumericCountryName MHS-Numeric-Country aDMDName ADMD pRMDName PRMD mHSOrganizationName MHS-O mHSOrganizationalUnitName MHS-OU mHSSurname MHS-S mHSGivenName MHS-G mHSInitials MHS-I mHSGenerationalQualifier MHS-GQ mHSCommonName MHS-CN mHSX121Address MHS-X121 mHSDomainDefinedAttributeType MHS-DDA-Type mHSDomainDefinedAttributeValue MHS-DDA-Value mHSTerminalIDName MHS-T-ID mHSNumericeUserIdentifierName MHS-UA-ID Table 3: Keywords for String DN Representation PRMD=UK.AC, ADMD=Gold 400, C=GB 4 Mapping from O/R Address to Directory Name The primary application of this mapping is to take an X.400 encoded O/R Address and to generate an equivalent directory name. This mapping is only used for selected types of O/R Address: Kille Standards Track [Page 9]
RFC 2294 Directory Information Tree March 1998 o Mnemonic form o Numeric form o Terminal form, where country is present and X121 addressing is used Other forms of O/R address are handled by Access Unit mechanisms. The O/R Address is treated as an ordered list, with the order as defined in Table 1. For each O/R Address attribute, generate the equivalent directory naming attribute. In most cases, the mapping is mechanical. Printable String or Teletex encodings are chosen as appropriate. Where both forms are present in the O/R Address, either form may be used to generate the distinguished name. Both will be represented in the DIT. There are two special cases: 1. A DDA generates a multi-valued RDN 2. The Personal Name is mapped to a multi-valued RDN In many cases, an O/R Address will be provided, and only the higher components of the address will be represented in the DIT. In this case, the "longest possible match" should be returned. 5 Mapping from Directory Name to O/R Address The reverse mapping is also needed in some cases. All of the naming attributes are unique, so the mapping is mechanically reversible. 6 Acknowledgments Acknowledgments for work on this document are given in [4]. References [1] The Directory --- overview of concepts, models and services, 1993. CCITT X.500 Series Recommendations. [2] Kille, S., "MIXER (Mime Internet X.400 Enhanced Relay): Mapping between X.400 and RFC 822/MIME", RFC 2156, January 1998. [3] Kille, S., "A String Representation of Distinguished Names", RFC 1779, March 1995. [4] Kille, S., "Use of an X.500/LDAP directory to support MIXER address mapping", RFC 2164, January 1998. Kille Standards Track [Page 10]
RFC 2294 Directory Information Tree March 1998 [5] Kille, S., "X.400-MHS use of the X.500 directory to support X.400-MHS routing", RFC 1801, June 1995. [6] CCITT recommendations X.400 / ISO 10021, April 1988. CCITT SG 5/VII / ISO/IEC JTC1, Message Handling: System and Service Overview. 7 Security Considerations This protocol introduces no known security risks. 8 Author's Address Steve Kille Isode Ltd. The Dome The Square Richmond TW9 1DT England Phone: +44-181-332-9091 EMail: S.Kille@ISODE.COM X.400: I=S; S=Kille; P=ISODE; A=Mailnet; C=FI; Kille Standards Track [Page 11]
RFC 2294 Directory Information Tree March 1998 A Object Identifier Assignment mhs-ds OBJECT IDENTIFIER ::= {iso(1) org(3) dod(6) internet(1) private(4) enterprises(1) isode-consortium (453) mhs-ds (7)} tree OBJECT IDENTIFIER ::= {mhs-ds 2} oc OBJECT IDENTIFIER ::= {tree 1} at OBJECT IDENTIFIER ::= {tree 2} oc-admd OBJECT IDENTIFIER ::= {oc 1} 10 oc-mhs-country OBJECT IDENTIFIER ::= {oc 2} oc-mhs-domain-defined-attribute OBJECT IDENTIFIER ::= {oc 3} oc-mhs-named-object OBJECT IDENTIFIER ::= {oc 4} oc-mhs-organization OBJECT IDENTIFIER ::= {oc 5} oc-mhs-organizational-unit OBJECT IDENTIFIER ::= {oc 6} oc-mhs-person OBJECT IDENTIFIER ::= {oc 7} oc-mhs-x121 OBJECT IDENTIFIER ::= {oc 8} oc-prmd OBJECT IDENTIFIER ::= {oc 9} oc-mhs-terminal-id OBJECT IDENTIFIER ::= {oc 10} oc-mhs-numeric-user-id OBJECT IDENTIFIER ::= {oc 11} 20 at-admd-name OBJECT IDENTIFIER ::= {at 1} at-mhs-common-name OBJECT IDENTIFIER ::= {at 2} at-mhs-domain-defined-attribute-type OBJECT IDENTIFIER ::= {at 3} at-mhs-domain-defined-attribute-value OBJECT IDENTIFIER ::= {at 4} at-mhs-numeric-country-name OBJECT IDENTIFIER ::= {at 5} at-mhs-organization-name OBJECT IDENTIFIER ::= {at 6} at-mhs-organizational-unit-name OBJECT IDENTIFIER ::= {at 7} at-prmd-name OBJECT IDENTIFIER ::= {at 10} at-x121-address OBJECT IDENTIFIER ::= {at 12} 30 at-mhs-terminal-id-name OBJECT IDENTIFIER ::= {at 13} at-mhs-numeric-user-id-name OBJECT IDENTIFIER ::= {at 14} at-mhs-surname OBJECT IDENTIFIER ::= {at 15} at-mhs-given-name OBJECT IDENTIFIER ::= {at 16} at-mhs-initials OBJECT IDENTIFIER ::= {at 17} at-mhs-generation-qualifier OBJECT IDENTIFIER ::= {at 18} Figure 3: Object Identifier Assignment Kille Standards Track [Page 12]
RFC 2294 Directory Information Tree March 1998
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Kille Standards Track [Page 13]
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