NFSv4 D. Noveck Internet-Draft HPE Updates: 5661 (if approved) June 23, 2016 Intended status: Standards Track Expires: December 25, 2016 Rules for NFSv4 Extensions and Minor Versions. draft-dnoveck-nfsv4-extension-00 Abstract This document describes the rules relating to the extension of the NFSv4 family of protocols. It covers the creation of minor versions, the addition of optional features to existing minor versions, and the correction of flaws in features already published as Proposed Standards. The rules relating to the construction of minor versions and the interaction of minor version implementations that appear in this document supersede the minor versioning rules in RFC5661. Status of This Memo This Internet-Draft is submitted in full conformance with the provisions of BCP 78 and BCP 79. Internet-Drafts are working documents of the Internet Engineering Task Force (IETF). Note that other groups may also distribute working documents as Internet-Drafts. The list of current Internet- Drafts is at http://datatracker.ietf.org/drafts/current/. 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." This Internet-Draft will expire on December 25, 2016. Copyright Notice Copyright (c) 2016 IETF Trust and the persons identified as the document authors. All rights reserved. This document is subject to BCP 78 and the IETF Trust's Legal Provisions Relating to IETF Documents (http://trustee.ietf.org/license-info) in effect on the date of publication of this document. Please review these documents carefully, as they describe your rights and restrictions with respect to this document. Code Components extracted from this document must Noveck Expires December 25, 2016 [Page 1] Internet-Draft NFSv4 Extension June 2016 include Simplified BSD License text as described in Section 4.e of the Trust Legal Provisions and are provided without warranty as described in the Simplified BSD License. Table of Contents 1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . 2 2. Terminology . . . . . . . . . . . . . . . . . . . . . . . . . 3 2.1. Use of Keywords Defined in RFC2119 . . . . . . . . . . . 3 2.2. Use of Feature Statuses . . . . . . . . . . . . . . . . . 4 2.3. NFSv4 Versions . . . . . . . . . . . . . . . . . . . . . 5 3. Consolidation of Extension Rules . . . . . . . . . . . . . . 6 4. XDR Considerations . . . . . . . . . . . . . . . . . . . . . 7 4.1. XDR Extension . . . . . . . . . . . . . . . . . . . . . . 7 4.2. Rules for XDR Extension within NFSv4 . . . . . . . . . . 8 4.3. Handling of Protocol Elements . . . . . . . . . . . . . . 9 4.4. Inter-version Interoperability . . . . . . . . . . . . . 10 4.4.1. Requirements for Knowledge of Protocol Elements . . . 10 4.4.2. Establishing Interoperability . . . . . . . . . . . . 12 4.4.3. Determining Knowledge of Protocol Elements . . . . . 13 4.5. XDR Overlay . . . . . . . . . . . . . . . . . . . . . . . 14 5. Other NFSv4 Protocol Changes . . . . . . . . . . . . . . . . 14 5.1. Field Interpretation and Use . . . . . . . . . . . . . . 14 5.2. Behavioral Changes . . . . . . . . . . . . . . . . . . . 15 6. Extending Existing Minor Versions . . . . . . . . . . . . . . 16 7. Minor Versions . . . . . . . . . . . . . . . . . . . . . . . 16 7.1. Creation of New Minor Versions . . . . . . . . . . . . . 16 8. Minor Version Interaction Rules . . . . . . . . . . . . . . . 16 8.1. Minor Version Identifier Transfer Issues . . . . . . . . 17 8.2. Minor Version Compatibility . . . . . . . . . . . . . . . 17 9. Correction of Existing Minor Versions and Features . . . . . 18 9.1. XDR Changes to Implement Protocol Corrections . . . . . . 19 10. Security Considerations . . . . . . . . . . . . . . . . . . . 20 11. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 20 12. References . . . . . . . . . . . . . . . . . . . . . . . . . 20 12.1. Normative References . . . . . . . . . . . . . . . . . . 21 12.2. Informative References . . . . . . . . . . . . . . . . . 21 Appendix A. Acknowledgements . . . . . . . . . . . . . . . . . . 21 Author's Address . . . . . . . . . . . . . . . . . . . . . . . . 21 1. Introduction To address the requirement for an NFS protocol that can evolve as the need arises, the Network File System (NFS) version 4 (NFSv4) protocol provides a framework to allow for future changes via the creation of new protocol versions including minor versions and certain forms of modification of existing minor versions. The extension rules contained in this document allow extensions and other changes to be Noveck Expires December 25, 2016 [Page 2] Internet-Draft NFSv4 Extension June 2016 implemented in a way that maintains compatibility with existing clients and servers. Previously, all protocol changes had been part of new minor versions. The COMPOUND procedure (see Section 14.2 of [RFC7530]) specifies the minor version being used by the client in making requests. The CB_COMPOUND procedure (see Section 15.2 of [RFC7530]) specifies the minor version being used by the server on callback requests. Creation of a new minor version is no longer the only way in which protocol changes may be made. Added optional features and protocol corrections can be proposed, specified and implemented within the context of a single minor version. Creation of new minor versions remains available to make other sorts of changes. 2. Terminology A basic familiarity with NFSv4 terminology is assumed in this document and the reader is pointed to [RFC7530]. In this document, the term "version" is not limited to minor versions. When minor versions are meant, the term "minor version" is used explicitly. For more discussion of this and related terms, see Section 2.3 A "feature package" is a set of features that are defined together, either as part of a minor version or as part of the same protocol extension. 2.1. Use of Keywords Defined in RFC2119 The keywords defined by [RFC2119] have special meanings which this document intends to adhere to. However, due to the nature of this document and some special circumstances, there are some complexities to take note of: o Where this document does not directly specify implementation requirements, use of these capitalized terms is often not appropriate, since the guidance given in this document does not directly affect interoperability. o In this document, what authors of RFCs defining features and minor versions need to do is stated without these specialized terms. Although it is necessary to follow this guidance to provide successful NFSv4 protocol extension, that sort of necessity is not of the sort defined as applicable to the use of the keywords defined in [RFC2119]. Noveck Expires December 25, 2016 [Page 3] Internet-Draft NFSv4 Extension June 2016 The fact that these capitalized terms are not used should not be interpreted as indicating that this guidance does not need to be followed or is somehow not important. o In speaking of the possible statuses of features and feature elements, the terms "OPTIONAL" and "REQUIRED" are used. For further discussion, see Section 2.2. o When one of these upper-case keywords defined in [RFC2119] is used in this document, it is in the context of a rule directed to an implementer of NFSv4 minor versions, the status of a feature or protocol element, or in a quotation, sometimes indirect, from another document. 2.2. Use of Feature Statuses There has been some confusion, during the history of NFSv4, about the correct use of these terms, and instances in which the keywords defined in [RFC2119] were used in ways that appear to be at variance with the definitions in that document. o In [RFC3530], the lower-case terms "optional", "recommended", and "required" were used as feature statuses, Later, in [RFC5661] and [RFC7530], the corresponding upper-case keywords were used. It is not clear why this change was made. o In the case of "RECOMMENDED", its use as a feature status is inconsistent with [RFC2119] and it will not be used for this purpose in this document. o The word "RECOMMENDED" to denote the status of attributes in [RFC7530] and [RFC5661] raises similar issues. This has been recognized in [RFC7530] with regard to NFSV4.0, although the situation with regard to NFSv4.1 remains unresolved. In this document, the keywords "OPTIONAL" and "REQUIRED" and the phrase "mandatory to not implement" are used to denote the status of features within a given minor version. In using these terms, RFCs which specify the status of features inform: o client implementations whether they need to deal with the absence of support for these features. o server implementations whether they need to provide support for these features. Noveck Expires December 25, 2016 [Page 4] Internet-Draft NFSv4 Extension June 2016 2.3. NFSv4 Versions The term "version" denotes any valid protocol variant constructed according to the rules in this document. It includes minor versions, but there are situations which allow multiple variant versions to be associated with and co-exist within a single minor version: o When there are feature specification documents published as Proposed Standards extending a given minor version, then the protocol defined by the minor version specification document, when combined with any subset (not necessarily proper) of the feature specification documents, is a valid NFSv4 version variant which is part of the minor version in question. o When there are protocol corrections published which update a given minor version, each set of published updates, up to the date of publication of the update, is a valid NFSv4 version variant which is part of the minor version in question. Because of the above, there can be multiple version variants that are part of a given minor version. Two of these are worthy of special terms: o The term "base minor version" denotes the version variant that corresponds to the minor version as originally defined, including all protocol elements specified in the minor version definition document but not incorporating any extensions or protocol corrections published subsequently. o At any given time, the term "current minor version" denotes the minor version variant including all extensions of and corrections to the minor version made by standard-track documents published subsequently. Each version variant which is part of a given minor version is a subset of the current minor version and a superset of the base minor version. When the term "minor version" is used without either of these qualifiers, it should refer to something which is true of all variants within that minor version. For example, one may refer to the set of REQUIRED features in a given minor version since it is the same for all variants within the minor version. Each client and server which implements a specific minor version will implement some particular variant of that minor version. Each of these will be a superset of the appropriate base minor version. Noveck Expires December 25, 2016 [Page 5] Internet-Draft NFSv4 Extension June 2016 3. Consolidation of Extension Rules In the past, the only existing extension rules were the minor versioning rules that were being maintained and specified in the Standards Track RFCs which defined the individual minor versions. In the past, these minor versioning rules were modified on an ad hoc basis for each new minor version. More recently, minor versioning rules were specified in [RFC5661] while modifications to those rules were allowed in subsequent minor versions. This document defines a set of extension rules, including rules for minor version construction. These rules apply to all future changes to the NFSv4 protocol. The rules are subject to change but any such change should be part of a standards track RFC obsoleting or updating this document. Rather than a single list of extension rules, as was done in the minor versioning rules in [RFC5661], this document defines multiple sets of rules that deal with the various forms of protocol change provided for in the NFSv4 extension framework. o The kinds of XDR changes that may be made to extend NFSv4 are addressed in the rules in Section 4.2. o Minor version construction, including rules applicable to changes which cannot be made in extensions to existing minor versions are addressed in Section 7.1 o Minor version interaction rules are discussed in Sections 8.1 and 8.2. This document supersedes minor versioning rules appearing in the minor version specification RFC's, including those in [RFC5661]. As a result, potential conflicts among documents should be addressed as follows: o The specification of the actual protocols for minor versions previously published as Proposed Standards take precedence over minor versioning rules in either this document or in the minor version specification RFC's. In other words, if the transition from version A to version B violates a minor versioning rule, the version B protocol stays as it is. o Since minor versioning rules #11 and #13 from [RFC5661] deal with the interactions between multiple minor versions, the situation is more complicated. See Section 8 for a discussion of these issues, Noveck Expires December 25, 2016 [Page 6] Internet-Draft NFSv4 Extension June 2016 including how potential conflicts between rules are to be resolved. o Otherwise, any conflict between the extension rules in this document and those in minor version specification RFC's are to be resolved based on the treatment in this document. In particular, corrections may be made as specified in Section 9 for all previously specified minor versions and the extensibility of previously specified minor versions is to be handled in accord with Section 6. Future minor version specification documents should avoid specifying rules relating to minor versioning and reference this document in connection with rules for NFSv4 extension. 4. XDR Considerations As an extensible XDR-based protocol, NFSv4 has to ensure interversion compatibility in situations in which the client and server use different XDR descriptions. For example, the client and server may implement different variants of the same minor version, in that they each might add different sets of extensions to the base minor version. The XDR extension paradigm, discussed in Section 4.1, assures that these descriptions are compatible, with clients and servers able to determine and use those portions of the protocol that they both share according to the method described in Section 4.4.2. 4.1. XDR Extension When an NFSv4 version change requires a modification to the protocol XDR, this is effected within a framework based on the idea of XDR extension. This is opposed to transitions between major NFS versions (including that between NFSv3 and NFSv4.0) in which the XDR for one version was replaced by a different XDR for a newer version. The XDR extension approach allows an XDR description to be extended in a way which retains the structure of all previously valid messages. If a base XDR description is extended to create a second XDR description, the following will be true for the second description to be a valid extension of the first: o The set of valid messages described by the extended definition is a superset of that described by the first. Noveck Expires December 25, 2016 [Page 7] Internet-Draft NFSv4 Extension June 2016 o Each message within the set of valid messages described by the base definition is recognized as having exactly the same structure/interpretation using the extended definition. o Each message within the set of messages described as valid by the extended definition but not the base definition must be recognized, using the base definition, as part of an extension not provided for. The use of XDR extension can facilitate compatibility between different versions of the NFSv4 protocol. When XDR extension is used to implement OPTIONAL features, the greatest degree of inter-version compatibility is obtained. In this case, no change in minor version number is needed and the extension may be effected in the context of a single minor version. 4.2. Rules for XDR Extension within NFSv4 In the context of NFSv4, an extension of a given XDR description consists of one or more of the following: o Addition of previously unspecified operation codes, within the framework established by COMPOUND and CB_COMPOUND. o Addition of previously unspecified attributes. o Addition of new, previously unused, values to existing enums. o Addition of previously unassigned bit values to a flag word. o Addition of new cases to existing switches, provided that the existing switch did not contain a default case. However, none of the following is allowed to happen: o Any change to the structure of existing requests or replies other than those listed above. o Addition of previously unspecified RPC operation codes, for either the nfsv4 program or the callback program, is not allowed. o Deletion of existing RPC operations, enum values, flag bit values and switch cases. Note that changes may be made to define use of any of these as causing an error, as long as the XDR is unaffected. o Similarly, none of these items may be reused for a new purpose. Noveck Expires December 25, 2016 [Page 8] Internet-Draft NFSv4 Extension June 2016 4.3. Handling of Protocol Elements Implementations handle protocol elements in one of three ways. Which of the following ways are valid depends on the status of the protocol element in the variant being implemented: o The protocol element is not a part of definition of the variant in question and so is "unknown". The responder, when it does not report an RPC XDR decode error, reports an error indicative of the element not being defined in the XDR such as NFS4ERR_OP_ILLEGAL, NFS4ERR_BADXDR, or NFS4ERR_INVAL. See Section 4.4.3 for details. o The protocol element is a known part of the variant but is not supported by the particular implementation. The responder reports an error indicative of the element being recognized as one which is not supported such as NFS4ERR_NOTSUPP, NFS4ERR_UNION_NOTSUPP, or NFS4ERR_ATTRNOTSUPP. o The protocol element is a known part of the variant which is supported by the particular implementation. The responder reports success or an error other than the special ones discussed above. Which of these are validly returned by the responder depends on the status of the protocol element in the minor version specified in the COMPOUND or CB_COMPOUND. The possibilities which can exist are listed below. o The protocol element is not known in the minor version. In this case all implementations of the minor version MUST indicate that the protocol element is not known. o The protocol element is part of a feature specified mandatory to not implement in the minor version. In this case as well, all implementations of the minor version MUST indicate that the protocol element is not known. o The protocol element is defined as part of the current variant of the minor version but is not part of the corresponding base variant. In this case, the requester can encounter situations in which the protocol element is either not known to the responder, is known to but not supported by the responder, or is both known to and supported by the responder. o The protocol element is defined as an OPTIONAL part of the base minor version. In this case, the requester can expect the protocol element to be known but must deal with cases in which it is supported or is not supported. Noveck Expires December 25, 2016 [Page 9] Internet-Draft NFSv4 Extension June 2016 o The protocol element is defined as a REQUIRED part of the base minor version. In this case, the requester can expect the protocol element to be both known and supported by the responder. The listing of possibilities above does not mean that a requester always needs to be prepared for all such possibilities. Often, depending on the scope of the feature of which the protocol element is a part, handling of a previous request using the same or related protocol elements, will allow the requester to be sure that certain of these possibilities cannot occur. Requesters, typically clients, may test for knowledge of or support for protocol elements as part of connection establishment. This may allow the requester to be aware of responder lack of knowledge of or support for problematic requests before they are actually used to effect user requests. 4.4. Inter-version Interoperability Because of NFSv4's use of XDR extension, any communicating client and server versions have XDR definitions that are each valid extensions of a third version. Once that version is determined, it may be used by both client and server to communicate. Each party can successfully use a subset of protocol elements that are both known and supported by both parties. 4.4.1. Requirements for Knowledge of Protocol Elements With regard to requirements for knowledge of protocol elements, the following rules apply. These rules are the result of the use of the XDR extension paradigm combined with the way in which extensions are incorporated in existing minor versions (for details of which see Section 6). o Any protocol element defined as part of the base variant of particular minor version is required to be known by that minor version. This occurs whether the specification happens in the body of the minor definition document or is in a feature definition document that is made part of the minor version by being normatively referenced by the minor version definition document. o Any protocol element required to be known in a given minor version is required to be known in subsequent minor version, unless and until a minor version has made that protocol element as mandatory to not implement. Noveck Expires December 25, 2016 [Page 10] Internet-Draft NFSv4 Extension June 2016 o When a protocol element is defined as part of an extension to an extensible minor version, it is not required to be known in that minor version but is required to be known by the next minor version. In the earlier minor version, it might not be defined in the XDR definition document, while in the later version it needs to be defined in the XDR definition document. In either case, if it is defined, it might or might not be supported. o When knowledge of protocol elements is optional in a given minor version, the responder's knowledge of such optional elements must obey the rule that if one such element is known, then all the protocol elements defined in the same minor version definition document must be known as well. For many minor versions, all existing protocol elements, are required to be known by both the client and the server, and so requesters do not have to test for the presence or absence of knowledge regarding protocol elements for which knowledge might be optional. This is the case if there has been no extension for the minor version in question. Extensions can be added to extensible minor versions as described in Section 6 and can be used to correct protocol flaws as described in Section 9. Requesters can ascertain the knowledge of the responder in two ways: o By issuing a request using the protocol element and looking at the response. Note that, even if the protocol element used is not supported by the responder, the requester can still determine if the element is known by the responder. o By receiving a request from the responder, acting in the role of requester. For example, a client may issue a request enabling the server to infer that it is aware of a corresponding callback. In making this determination, the requester can rely on two basic facts: o If the responder is aware of a single protocol element within a feature package, it must be aware of all protocol elements within that feature package o If a protocol element is one defined by the minor version specified by a request (and not in an extension), or in a previous minor version, the responder must be aware of it. Noveck Expires December 25, 2016 [Page 11] Internet-Draft NFSv4 Extension June 2016 4.4.2. Establishing Interoperability When a client and a server interact, they need to able to take advantage of the compatibility provided by NFSv4's use of XDR extension. In this context, the client and server would arrive at a common variant which the client would uses to send requests which the server would then accept. The server would use that variant to send callbacks which the client would then accept. This state of affairs could arise in a number of ways: o Client and server have been built using XDR variants that belong to the same minor version o The client's minor version is lower than that of the server. In this case the server, in accord with Section 8.2, accepts the client's minor version, and acts as if it has no knowledge of extensions made in subsequent minor versions. It has knowledge of protocol elements within the current (i.e. effectively final) variant of the lower minor version. o The client's minor version is higher than that of the server. In this case the client, in accord with Section 8.2, uses a lower minor version that the server will accept. In this case, the server has no knowledge of extensions made in subsequent minor versions. There are a number of cases to consider based on the characteristics of the minor version chosen. o The minor version consists of only a single variant (no extension or XDR corrections), so the client and the server are using the same XDR description and have knowledge of the same protocol elements. o When the minor version consists of multiple variants (i.e. there are one or more XDR extensions or XDR corrections), the client and the server are using compatible XDR descriptions. The client is aware of some set of extensions while the server may be aware of a different set. The client can determine which of the extensions that he is aware of, are also known to the server by using the approach described in Section 4.4.3. Once this is done, the client and server will both be using a common variant. The variants that the client and the server were built with will both either be identical to this variant or a valid extension of it. Similarly, the variants that the client and the server actually Noveck Expires December 25, 2016 [Page 12] Internet-Draft NFSv4 Extension June 2016 use will be a subset of this variant, in that certain OPTIONAL features will not be used. In either case, the client must determine which of the OPTIONAL protocol elements within the common version are supported by the server, just as it does for OPTIONAL features introduced as part of a minor version. 4.4.3. Determining Knowledge of Protocol Elements A requester may test the responder's knowledge of particular protocol elements as defined below, based on the type of protocol element. o When a GETATTR request is made specifying an attribute bit to be tested and that attribute is not a set-only attribute, if the GETATTR returns with the error NFS4ERR_INVAL, then it can be concluded that the responder has no knowledge of the attribute in question. Other responses, including NFS4ERR_ATTRNOTSUPP, indicate that the responder is aware of the attribute in question. o When a SETATTR request is made specifying the attribute bit to be tested and that attribute is not a get-only attribute, if the SETATTR returns with the error NFS4ERR_INVAL, then it can be concluded that the responder has no knowledge of the attribute in question. Other responses, including NFS4ERR_ATTRNOTSUPP, indicate that the responder is aware of the attribute in question. o When a request is made including an operation with a new flag bit, if the operation returns with the error NFS4ERR_INVAL,then it can generally be concluded that the responder has no knowledge of the flag bit in question, as long as the requester is careful to avoid other error situations in which the operation in question is defined as returning NFS4ERR_INVAL. Other responses indicate that the responder is aware of the flag bit in question. o When a request is made including the operation to be tested, if the responder returns an RPC XDR decode error, or a response indicating that the operation in question resulted in NFS4ERR_OP_ILLEGAL or NFS4ERR_BADXDR, then it can be concluded that the responder has no knowledge of the operation in question. Other responses, including NFS4ERR_NOTSUPP, indicate that the responder is aware of the operation in question. o When a request is made including the switch arm to be tested, if the responder returns an RPC XDR decode error, or a response indicating that the operation in question resulted in NFS4ERR_BADXDR, then it can be concluded that the responder has no knowledge of the operation in question. Other responses, Noveck Expires December 25, 2016 [Page 13] Internet-Draft NFSv4 Extension June 2016 including NFS4ERR_UNION_NOTSUPP, indicate that the responder is aware of the protocol element in question. A determination of the knowledge or lack of knowledge of a particular protocol element is expected to remain valid as long as the clientid associated with the request remains valid. The above assumes, as should be the case, that the server will accept the minor version used by the client. For more detail regarding this issue, see Section 8.2. 4.5. XDR Overlay XDR additions may also be made by defining XDR structures that overlay nominally opaque fields. defined to allow such incremental extensions. For example, each pNFS mapping type provides its own XDR definition for various pNFS-related fields defined in [RFC5661] as opaque arrays. Because such additions provide new interpretations of existing fields, they may be made outside of the extension framework as long as they obey the rules previously established when the nominally opaque protocol elements were added to the protocol. 5. Other NFSv4 Protocol Changes There are a number of types of protocol changes that are outside the XDR extension framework discussed in Section 4. These changes are also managed within the NFSv4 versioning framework and may be of a number of types, which are discussed in the sections below Despite the previous emphasis on XDR changes, additions and changes to the NFSv4 protocols have not been limited to those that involve changes (in the form of extensions) to the protocol XDR. Examples of other sorts of changes have been taken from NFSv4.1. All such changes that have been made in the past have been made as part of new minor version. Future change of these sorts may not be done in an extension but can only be made in a new minor version. 5.1. Field Interpretation and Use The XDR description of a protocol does not constitute a complete description of the protocol. Therefore, versioning needs to consider the role of changes in the use of fields, even when there is no change to the underlying XDR. Noveck Expires December 25, 2016 [Page 14] Internet-Draft NFSv4 Extension June 2016 Although any XDR element is potentially subject to a change in its interpretation and use, the likelihood of such change will vary with the XDR-specified type of the element, as discussed below: o When XDR elements are defined as strings, rules regarding the appropriate string values are specified in protocol specification text with changes in such rules documented in minor version definition documents. Some types of strings within NFS4 are used in server names (in location-related attributes), user and group names, and in the names of file objects within directories. Rules regarding what strings are acceptable appear in [RFC7530] and [RFC5661] with the role of the XDR limited to hints regarding UTF-8 and capitalization issues via XDR typedefs. o Fields that are XDR-defined as opaque elements and which are truly opaque, do not raise versioning issues, except as regards inter- version use, which is effectively foreclosed by the rules in Section 8.1. Note that sometimes a field will seem to be opaque but not actually be fully opaque when considered carefully. For example, the "other" field of stateids is defined as an opaque array, while the specification text specially defines appropriate treatment when the "other" field within it is either all zeros or all ones. Given this context, creation or deletion of reserved values for "special" stateids will be a protocol change which versioning rules need to deal with. o Some nominally opaque elements have external XDR definitions that overlay the nominally opaque arrays. Such cases are discussed in Section 4.5. 5.2. Behavioral Changes Changes in the behavior of NFSv4 operations are possible, even if there is no change in the underlying XDR or change to field interpretation and use. One class of behavioral change involves changes in the set of errors to be returned in the event of various errors. When the set of valid requests remain the same, and the behavior for each of them remains the same, such changes can be implemented with only limited disruption to existing clients. Many more substantial behavioral changes have occurred in connection with the addition of the session concept in NFSv4.1. Even though there was no change to the XDR for existing operations, many existing operations and COMPOUUNDs consisting only of them became invalid. Noveck Expires December 25, 2016 [Page 15] Internet-Draft NFSv4 Extension June 2016 Also, changes were made regarding the required server behavior as to the interaction of the MODE and ACL attributes. 6. Extending Existing Minor Versions Extensions to the most recently published NFSv4 minor version may be made by publishing the extension as a Proposed Standard, unless the minor version in question has been defined as non-extensible. A document need not update the document defining the minor version, which remains a valid description of the base variant of the minor version in question. Corrections to protocol errors (see Section 9) may be accomplished by publishing an extension, including a compatible XDR change. Such documents will update the defining documents for the corrected minor version. 7. Minor Versions 7.1. Creation of New Minor Versions It is important to note that this section, in describing situations that would require new minor versions or minor version groups to be created, does not thereby imply that situations will exist in the future. Judgments regarding desirability of future changes will be made by the working group or its successors and any guidance that can be offered at this point is necessarily quite limited. Creation of a new minor version or minor version group is an option that the working group retains. The listing of situations below that would prompt such actions is not meant to be exhaustive. The following sorts of features are not allowed as extensions and would require creation of a new minor version: o Features that incorporate any of the non-XDR-based changes discussed in Sections 5.1 and 5.2. o Addition of REQUIRED new features. o Changes to the status of existing features including converting features to be mandatory to not implement. 8. Minor Version Interaction Rules This section addresses issues related to rules #11 and #13 in the minor versioning rules in [RFC5661]. With regard to the supersession of minor versioning rules, the treatment here overrides that in Noveck Expires December 25, 2016 [Page 16] Internet-Draft NFSv4 Extension June 2016 [RFC5661] when either of the potentially interacting minor versions has not yet been published as a Proposed Standard. Note that these rules are the only ones directed to minor version implementers, rather than to those specifying new minor versions. 8.1. Minor Version Identifier Transfer Issues Each relationship between a client instance and a server instance, as represented by a clientid, is to be devoted to a single minor version. If a server detects that a COMPOUND with an inappropriate minor version is being used, it MUST reject the request. In doing so, it may return either NFS4ERR_BAD_CLIENTID or NFS4RR_MINOR_VERS_MISMATCH. As a result of the above, the client has the assurance that the set of REQUIRED and OPTONAL features will not change within the context of a single clientid. Server implementations MUST ensure that the set of supported features and protocol elements does not change within such a context. 8.2. Minor Version Compatibility The goal of the NFSv4 extension model is to enable compatibility including compatibility between clients and servers implementing different minor versions. Within a set of minor versions that define the same set of features as REQUIRED and mandatory to not implement, it is relatively easy for clients and servers to provides the needed compatibility by adhering to the following practices. o Servers supporting a given minor version should support earlier minor versions in the same minor version group. and return appropriate errors for use of protocol elements that were not a valid part of that earlier minor version. For details see below. o Clients should deal with an NFS4ERR_MINOR_VERS_MISMATCH error by a searching for a lower minor version number that the server will accept. Servers supporting a given minor version MUST, in returning errors for operation which were a valid part of the minor version, return the errors allowed for the current operation in the minor version actually being used. With regard to protocol elements not known in a given minor version, the appropriate error codes are given below. Essentially, the Noveck Expires December 25, 2016 [Page 17] Internet-Draft NFSv4 Extension June 2016 server, although it has a more extensive XDR reflective of a newer minor version, must act as a server with a more limited XDR would. o When an operation is used which is not known in the specified minor version, NFS4ERR_OP_ILLEGAL (as opposed to NFS4ERR_NOTSUPP) should be returned. o When an attribute is used which is not known in the specified minor version, NFS4ERR_INVAL (as opposed to NFS4ERR_ATTRNOTSUPP) should be returned. o When a switch case is used which is not known in the specified minor version, NFS4ERR_BADXDR (as opposed to NFS4ERR_UNION_NOTSUPP) should be returned. Even though the message may be XDR-decodable by the server's current XDR, it is not so according to the minor version being used. o When a flag bit is used which is not known in the specified minor version, NFS4ERR_INVAL (as opposed to NFS4ERR_NOTSUPP Or any other error defined as indicated non-support a flag bit) should be returned. 9. Correction of Existing Minor Versions and Features The possibility always exists that there will be a need to correct an existing feature in some way, after the acceptance of that feature or a minor version containing it, as a Proposed Standard. While the working group can reduce the probability of such situations arising by waiting for running code before considering a feature as done, it cannot reduce the probability to zero. As features are used more extensively and interact with other features, previously unseen flaws may be discovered and will need to be corrected. Such corrections are best done in a document obsoleting or updating the RFC defining the relevant feature definition document or minor version specification. In making such corrections, the working will have to carefully consider how to assure interoperability with older clients and servers. Often, corrections can be done without changing the protocol XDR. In many cases, a change in client and server behavior can be implemented without taking special provision with regard to interoperability with earlier implementations. In those case, and in cases in which a revision merely clarifies an earlier protocol definition document, a new document can be published which simply updates the earlier protocol definition document. Subsequently, the indexing material would be updated to reflect the existence of the newer document. Noveck Expires December 25, 2016 [Page 18] Internet-Draft NFSv4 Extension June 2016 In other cases, it is best if client or server behavior needs to change in a way which raises interoperability concerns. In such cases, incompatible changes in server or client behavior should not be mandated in order to avoid XDR changes. 9.1. XDR Changes to Implement Protocol Corrections When XDR changes are necessary as part of correcting a flaw, these should be done in a manner similar to that used when implementing new minor versions or features within them. In particular, o Existing XDR structures may not be modified or deleted. o XDR extensions may be used to correct existing protocol facilities in a manner similar to those used to add additional optional features. Such corrections may be done in a minor version for which optional features may no longer be added, if the working group decides that it is an appropriate to compatibly effect a correction. o When a correction is made to an OPTIONAL feature, the result is similar to a situation in which there are two independent OPTIONAL features. A server may choose to implement either or both. o When a correction is made to a required feature, the situation becomes one in which neither the old nor the new version of the feature is required. Instead, it is required that a server support at least one of the two, while each is individually OPTIONAL. Although use of the corrected version is ultimately better, and may be recommended, it should not be described as "RECOMMENDED", since the choice of which version to support if only one is supported will depend on the needs of clients, which may be slow to adopt the updated version. o In all of the cases above, it is appropriate that the old version of the feature, be considered obsolescent, with the expectation that the working group might, in a later minor version, decide that the older version is to become mandatory to not implement. By doing things this way, the protocol with the XDR modification can accommodate clients and servers that support either the corrected or the uncorrected version of the protocol and also clients and servers aware of and capable of supporting both alternatives. o A client that supports only the earlier version of the feature (i.e., an older unfixed client) can determine whether the server it is connecting to supports the older version of feature. It is Noveck Expires December 25, 2016 [Page 19] Internet-Draft NFSv4 Extension June 2016 capable of interoperating with older servers that support only the unfixed protocol as well as ones that support both versions. o A client that supports only the corrected version of the feature (i.e., a new or updated client) can determine whether the server it is connecting to supports the newer version of the feature. It is capable of interoperating with newer servers that support only the updated feature as well as ones that support both versions. o A client that supports both the older and newer version of the feature can determine which version of the particular feature is supported by the server it is working with. o A server that supports only the earlier version of the feature (i.e., an older unfixed server) can only successfully interoperate with older clients. However newer clients can easily determine that the feature cannot be used on that server. o A server that supports only the newer version of the feature (i.e., a new or updated server) can only successfully interoperate with newer clients. However, older clients can easily determine that the feature cannot be used on that server. In the case of OPTIONAL features, clients can be expected to deal with non- support of that particular feature. o A server that supports both the older and newer versions of the feature can interoperate with all client variants. By using extensions in this manner, the protocol creates a clear path which preserves the functioning of existing clients and servers and allows client and server implementers to adopt the new version of the feature at a reasonable pace. 10. Security Considerations Since no substantive protocol changes are proposed here, no security considerations apply. 11. IANA Considerations The current document does not require any actions by IANA. 12. References Noveck Expires December 25, 2016 [Page 20] Internet-Draft NFSv4 Extension June 2016 12.1. Normative References [RFC2119] Bradner, S., "Key words for use in RFCs to Indicate Requirement Levels", BCP 14, RFC 2119, DOI 10.17487/RFC2119, March 1997, . [RFC5661] Shepler, S., Ed., Eisler, M., Ed., and D. Noveck, Ed., "Network File System (NFS) Version 4 Minor Version 1 Protocol", RFC 5661, DOI 10.17487/RFC5661, January 2010, . [RFC7530] Haynes, T., Ed. and D. Noveck, Ed., "Network File System (NFS) Version 4 Protocol", RFC 7530, DOI 10.17487/RFC7530, March 2015, . 12.2. Informative References [RFC3530] Shepler, S., Callaghan, B., Robinson, D., Thurlow, R., Beame, C., Eisler, M., and D. Noveck, "Network File System (NFS) version 4 Protocol", RFC 3530, DOI 10.17487/RFC3530, April 2003, . Appendix A. Acknowledgements The author wishes to thank Tom Haynes of Primary Data for his role in getting this effort started and his work in co-authoring the first version of the initial working group versioning document. The author also wishes to thank Chuck Lever and Mike Kepfer of Oracle for their thorough document reviews and many helpful suggestions with regard to versioning issues. Author's Address David Noveck Hewlett Packard Enterprise 165 Dascomb Road Andover, MA 01810 US Phone: +1 978 474 2011 Email: davenoveck@gmail.com Noveck Expires December 25, 2016 [Page 21]