9e4ded5d0e
(I think I'm up to part 6.)
1373 lines
41 KiB
Plaintext
1373 lines
41 KiB
Plaintext
.\"
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.\" Must use -- tbl -- with this one
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.\"
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.\" @(#)nfs.rfc.ms 2.2 88/08/05 4.0 RPCSRC
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.de BT
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.if \\n%=1 .tl ''- % -''
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..
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.ND
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.\" prevent excess underlining in nroff
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.if n .fp 2 R
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.OH 'Network File System: Version 2 Protocol Specification''Page %'
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.EH 'Page %''Network File System: Version 2 Protocol Specification'
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.if \\n%=1 .bp
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.SH
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\&Network File System: Version 2 Protocol Specification
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.IX NFS "" "" "" PAGE MAJOR
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.IX "Network File System" "" "" "" PAGE MAJOR
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.IX NFS "version-2 protocol specification"
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.IX "Network File System" "version-2 protocol specification"
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.LP
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.NH 0
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\&Status of this Standard
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.LP
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Note: This document specifies a protocol that Sun Microsystems, Inc.,
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and others are using. It specifies it in standard ARPA RFC form.
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.NH 1
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\&Introduction
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.IX NFS introduction
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.LP
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The Sun Network Filesystem (NFS) protocol provides transparent remote
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access to shared filesystems over local area networks. The NFS
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protocol is designed to be machine, operating system, network architecture,
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and transport protocol independent. This independence is
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achieved through the use of Remote Procedure Call (RPC) primitives
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built on top of an External Data Representation (XDR). Implementations
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exist for a variety of machines, from personal computers to
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supercomputers.
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.LP
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The supporting mount protocol allows the server to hand out remote
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access privileges to a restricted set of clients. It performs the
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operating system-specific functions that allow, for example, to
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attach remote directory trees to some local file system.
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.NH 2
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\&Remote Procedure Call
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.IX "Remote Procedure Call"
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.LP
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Sun's remote procedure call specification provides a procedure-
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oriented interface to remote services. Each server supplies a
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program that is a set of procedures. NFS is one such "program".
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The combination of host address, program number, and procedure
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number specifies one remote service procedure. RPC does not depend
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on services provided by specific protocols, so it can be used with
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any underlying transport protocol. See the
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.I "Remote Procedure Calls: Protocol Specification"
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chapter of this manual.
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.NH 2
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\&External Data Representation
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.IX "External Data Representation"
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.LP
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The External Data Representation (XDR) standard provides a common
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way of representing a set of data types over a network.
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The NFS
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Protocol Specification is written using the RPC data description
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language.
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For more information, see the
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.I " External Data Representation Standard: Protocol Specification."
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Sun provides implementations of XDR and
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RPC, but NFS does not require their use. Any software that
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provides equivalent functionality can be used, and if the encoding
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is exactly the same it can interoperate with other implementations
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of NFS.
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.NH 2
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\&Stateless Servers
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.IX "stateless servers"
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.IX servers stateless
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.LP
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The NFS protocol is stateless. That is, a server does not need to
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maintain any extra state information about any of its clients in
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order to function correctly. Stateless servers have a distinct
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advantage over stateful servers in the event of a failure. With
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stateless servers, a client need only retry a request until the
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server responds; it does not even need to know that the server has
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crashed, or the network temporarily went down. The client of a
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stateful server, on the other hand, needs to either detect a server
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crash and rebuild the server's state when it comes back up, or
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cause client operations to fail.
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.LP
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This may not sound like an important issue, but it affects the
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protocol in some unexpected ways. We feel that it is worth a bit
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of extra complexity in the protocol to be able to write very simple
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servers that do not require fancy crash recovery.
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.LP
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On the other hand, NFS deals with objects such as files and
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directories that inherently have state -- what good would a file be
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if it did not keep its contents intact? The goal is to not
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introduce any extra state in the protocol itself. Another way to
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simplify recovery is by making operations "idempotent" whenever
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possible (so that they can potentially be repeated).
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.NH 1
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\&NFS Protocol Definition
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.IX NFS "protocol definition"
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.IX NFS protocol
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.LP
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Servers have been known to change over time, and so can the
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protocol that they use. So RPC provides a version number with each
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RPC request. This RFC describes version two of the NFS protocol.
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Even in the second version, there are various obsolete procedures
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and parameters, which will be removed in later versions. An RFC
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for version three of the NFS protocol is currently under
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preparation.
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.NH 2
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\&File System Model
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.IX filesystem model
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.LP
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NFS assumes a file system that is hierarchical, with directories as
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all but the bottom-level files. Each entry in a directory (file,
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directory, device, etc.) has a string name. Different operating
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systems may have restrictions on the depth of the tree or the names
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used, as well as using different syntax to represent the "pathname",
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which is the concatenation of all the "components" (directory and
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file names) in the name. A "file system" is a tree on a single
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server (usually a single disk or physical partition) with a specified
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"root". Some operating systems provide a "mount" operation to make
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all file systems appear as a single tree, while others maintain a
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"forest" of file systems. Files are unstructured streams of
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uninterpreted bytes. Version 3 of NFS uses a slightly more general
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file system model.
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.LP
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NFS looks up one component of a pathname at a time. It may not be
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|
obvious why it does not just take the whole pathname, traipse down
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the directories, and return a file handle when it is done. There are
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several good reasons not to do this. First, pathnames need
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separators between the directory components, and different operating
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systems use different separators. We could define a Network Standard
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Pathname Representation, but then every pathname would have to be
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parsed and converted at each end. Other issues are discussed in
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\fINFS Implementation Issues\fP below.
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.LP
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|
Although files and directories are similar objects in many ways,
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different procedures are used to read directories and files. This
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provides a network standard format for representing directories. The
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same argument as above could have been used to justify a procedure
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that returns only one directory entry per call. The problem is
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efficiency. Directories can contain many entries, and a remote call
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to return each would be just too slow.
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.NH 2
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\&RPC Information
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.IX NFS "RPC information"
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.IP \fIAuthentication\fP
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The NFS service uses
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.I AUTH_UNIX ,
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.I AUTH_DES ,
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or
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.I AUTH_SHORT
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style
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authentication, except in the NULL procedure where
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.I AUTH_NONE
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is also allowed.
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|
.IP "\fITransport Protocols\fP"
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NFS currently is supported on UDP/IP only.
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|
.IP "\fIPort Number\fP"
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|
The NFS protocol currently uses the UDP port number 2049. This is
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|
not an officially assigned port, so later versions of the protocol
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use the \*QPortmapping\*U facility of RPC.
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.NH 2
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|
\&Sizes of XDR Structures
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|
.IX "XDR structure sizes"
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|
.LP
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|
These are the sizes, given in decimal bytes, of various XDR
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structures used in the protocol:
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.DS
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/* \fIThe maximum number of bytes of data in a READ or WRITE request\fP */
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const MAXDATA = 8192;
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/* \fIThe maximum number of bytes in a pathname argument\fP */
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const MAXPATHLEN = 1024;
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/* \fIThe maximum number of bytes in a file name argument\fP */
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const MAXNAMLEN = 255;
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/* \fIThe size in bytes of the opaque "cookie" passed by READDIR\fP */
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const COOKIESIZE = 4;
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/* \fIThe size in bytes of the opaque file handle\fP */
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const FHSIZE = 32;
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.DE
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.NH 2
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|
\&Basic Data Types
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|
.IX "NFS data types"
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|
.IX NFS "basic data types"
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.LP
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|
The following XDR definitions are basic structures and types used
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in other structures described further on.
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.KS
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.NH 3
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|
\&stat
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.IX "NFS data types" stat "" \fIstat\fP
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.DS
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enum stat {
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NFS_OK = 0,
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NFSERR_PERM=1,
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NFSERR_NOENT=2,
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NFSERR_IO=5,
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NFSERR_NXIO=6,
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NFSERR_ACCES=13,
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NFSERR_EXIST=17,
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NFSERR_NODEV=19,
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NFSERR_NOTDIR=20,
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NFSERR_ISDIR=21,
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NFSERR_FBIG=27,
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NFSERR_NOSPC=28,
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NFSERR_ROFS=30,
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NFSERR_NAMETOOLONG=63,
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NFSERR_NOTEMPTY=66,
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NFSERR_DQUOT=69,
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NFSERR_STALE=70,
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NFSERR_WFLUSH=99
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};
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.DE
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.KE
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.LP
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|
The
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.I stat
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|
type is returned with every procedure's results. A
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|
value of
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.I NFS_OK
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|
indicates that the call completed successfully and
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|
the results are valid. The other values indicate some kind of
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|
error occurred on the server side during the servicing of the
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|
procedure. The error values are derived from UNIX error numbers.
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|
.IP \fBNFSERR_PERM\fP:
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|
Not owner. The caller does not have correct ownership
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to perform the requested operation.
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|
.IP \fBNFSERR_NOENT\fP:
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|
No such file or directory. The file or directory
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|
specified does not exist.
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|
.IP \fBNFSERR_IO\fP:
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|
Some sort of hard error occurred when the operation was
|
|
in progress. This could be a disk error, for example.
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|
.IP \fBNFSERR_NXIO\fP:
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No such device or address.
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|
.IP \fBNFSERR_ACCES\fP:
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Permission denied. The caller does not have the
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|
correct permission to perform the requested operation.
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|
.IP \fBNFSERR_EXIST\fP:
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File exists. The file specified already exists.
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|
.IP \fBNFSERR_NODEV\fP:
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No such device.
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|
.IP \fBNFSERR_NOTDIR\fP:
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|
Not a directory. The caller specified a
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non-directory in a directory operation.
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|
.IP \fBNFSERR_ISDIR\fP:
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|
Is a directory. The caller specified a directory in
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|
a non- directory operation.
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|
.IP \fBNFSERR_FBIG\fP:
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|
File too large. The operation caused a file to grow
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|
beyond the server's limit.
|
|
.IP \fBNFSERR_NOSPC\fP:
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|
No space left on device. The operation caused the
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server's filesystem to reach its limit.
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|
.IP \fBNFSERR_ROFS\fP:
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|
Read-only filesystem. Write attempted on a read-only filesystem.
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|
.IP \fBNFSERR_NAMETOOLONG\fP:
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|
File name too long. The file name in an operation was too long.
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|
.IP \fBNFSERR_NOTEMPTY\fP:
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|
Directory not empty. Attempted to remove a
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directory that was not empty.
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|
.IP \fBNFSERR_DQUOT\fP:
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|
Disk quota exceeded. The client's disk quota on the
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server has been exceeded.
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|
.IP \fBNFSERR_STALE\fP:
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|
The "fhandle" given in the arguments was invalid.
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|
That is, the file referred to by that file handle no longer exists,
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or access to it has been revoked.
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|
.IP \fBNFSERR_WFLUSH\fP:
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|
The server's write cache used in the
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|
.I WRITECACHE
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call got flushed to disk.
|
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.LP
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.KS
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.NH 3
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\&ftype
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.IX "NFS data types" ftype "" \fIftype\fP
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.DS
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enum ftype {
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NFNON = 0,
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NFREG = 1,
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NFDIR = 2,
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NFBLK = 3,
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NFCHR = 4,
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NFLNK = 5
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};
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.DE
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.KE
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|
The enumeration
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.I ftype
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|
gives the type of a file. The type
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|
.I NFNON
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|
indicates a non-file,
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|
.I NFREG
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is a regular file,
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|
.I NFDIR
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is a directory,
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|
.I NFBLK
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is a block-special device,
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|
.I NFCHR
|
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is a character-special device, and
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.I NFLNK
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is a symbolic link.
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.KS
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.NH 3
|
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\&fhandle
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.IX "NFS data types" fhandle "" \fIfhandle\fP
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.DS
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typedef opaque fhandle[FHSIZE];
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.DE
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.KE
|
|
The
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.I fhandle
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is the file handle passed between the server and the client.
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|
All file operations are done using file handles to refer to a file or
|
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directory. The file handle can contain whatever information the server
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needs to distinguish an individual file.
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.KS
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.NH 3
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|
\&timeval
|
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.IX "NFS data types" timeval "" \fItimeval\fP
|
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.DS
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struct timeval {
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unsigned int seconds;
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unsigned int useconds;
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};
|
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.DE
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|
.KE
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|
The
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|
.I timeval
|
|
structure is the number of seconds and microseconds
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since midnight January 1, 1970, Greenwich Mean Time. It is used to
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pass time and date information.
|
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.KS
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.NH 3
|
|
\&fattr
|
|
.IX "NFS data types" fattr "" \fIfattr\fP
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.DS
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struct fattr {
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ftype type;
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|
unsigned int mode;
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|
unsigned int nlink;
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unsigned int uid;
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unsigned int gid;
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unsigned int size;
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unsigned int blocksize;
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unsigned int rdev;
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unsigned int blocks;
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unsigned int fsid;
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unsigned int fileid;
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timeval atime;
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timeval mtime;
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timeval ctime;
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};
|
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.DE
|
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.KE
|
|
The
|
|
.I fattr
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|
structure contains the attributes of a file; "type" is the type of
|
|
the file; "nlink" is the number of hard links to the file (the number
|
|
of different names for the same file); "uid" is the user
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|
identification number of the owner of the file; "gid" is the group
|
|
identification number of the group of the file; "size" is the size in
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bytes of the file; "blocksize" is the size in bytes of a block of the
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file; "rdev" is the device number of the file if it is type
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.I NFCHR
|
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or
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.I NFBLK ;
|
|
"blocks" is the number of blocks the file takes up on disk; "fsid" is
|
|
the file system identifier for the filesystem containing the file;
|
|
"fileid" is a number that uniquely identifies the file within its
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|
filesystem; "atime" is the time when the file was last accessed for
|
|
either read or write; "mtime" is the time when the file data was last
|
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modified (written); and "ctime" is the time when the status of the
|
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file was last changed. Writing to the file also changes "ctime" if
|
|
the size of the file changes.
|
|
.LP
|
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"mode" is the access mode encoded as a set of bits. Notice that the
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file type is specified both in the mode bits and in the file type.
|
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This is really a bug in the protocol and will be fixed in future
|
|
versions. The descriptions given below specify the bit positions
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using octal numbers.
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.TS
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box tab (&) ;
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cfI cfI
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lfL l .
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Bit&Description
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_
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0040000&This is a directory; "type" field should be NFDIR.
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0020000&This is a character special file; "type" field should be NFCHR.
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0060000&This is a block special file; "type" field should be NFBLK.
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0100000&This is a regular file; "type" field should be NFREG.
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0120000&This is a symbolic link file; "type" field should be NFLNK.
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0140000&This is a named socket; "type" field should be NFNON.
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0004000&Set user id on execution.
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|
0002000&Set group id on execution.
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|
0001000&Save swapped text even after use.
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0000400&Read permission for owner.
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|
0000200&Write permission for owner.
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0000100&Execute and search permission for owner.
|
|
0000040&Read permission for group.
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0000020&Write permission for group.
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0000010&Execute and search permission for group.
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0000004&Read permission for others.
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0000002&Write permission for others.
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0000001&Execute and search permission for others.
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.TE
|
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.KS
|
|
Notes:
|
|
.IP
|
|
The bits are the same as the mode bits returned by the
|
|
.I stat(2)
|
|
system call in the UNIX system. The file type is specified both in
|
|
the mode bits and in the file type. This is fixed in future
|
|
versions.
|
|
.IP
|
|
The "rdev" field in the attributes structure is an operating system
|
|
specific device specifier. It will be removed and generalized in
|
|
the next revision of the protocol.
|
|
.KE
|
|
.LP
|
|
.KS
|
|
.NH 3
|
|
\&sattr
|
|
.IX "NFS data types" sattr "" \fIsattr\fP
|
|
.DS
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|
struct sattr {
|
|
unsigned int mode;
|
|
unsigned int uid;
|
|
unsigned int gid;
|
|
unsigned int size;
|
|
timeval atime;
|
|
timeval mtime;
|
|
};
|
|
.DE
|
|
.KE
|
|
The
|
|
.I sattr
|
|
structure contains the file attributes which can be set
|
|
from the client. The fields are the same as for
|
|
.I fattr
|
|
above. A "size" of zero means the file should be truncated.
|
|
A value of -1 indicates a field that should be ignored.
|
|
.LP
|
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.KS
|
|
.NH 3
|
|
\&filename
|
|
.IX "NFS data types" filename "" \fIfilename\fP
|
|
.DS
|
|
typedef string filename<MAXNAMLEN>;
|
|
.DE
|
|
.KE
|
|
The type
|
|
.I filename
|
|
is used for passing file names or pathname components.
|
|
.LP
|
|
.KS
|
|
.NH 3
|
|
\&path
|
|
.IX "NFS data types" path "" \fIpath\fP
|
|
.DS
|
|
typedef string path<MAXPATHLEN>;
|
|
.DE
|
|
.KE
|
|
The type
|
|
.I path
|
|
is a pathname. The server considers it as a string
|
|
with no internal structure, but to the client it is the name of a
|
|
node in a filesystem tree.
|
|
.LP
|
|
.KS
|
|
.NH 3
|
|
\&attrstat
|
|
.IX "NFS data types" attrstat "" \fIattrstat\fP
|
|
.DS
|
|
union attrstat switch (stat status) {
|
|
case NFS_OK:
|
|
fattr attributes;
|
|
default:
|
|
void;
|
|
};
|
|
.DE
|
|
.KE
|
|
The
|
|
.I attrstat
|
|
structure is a common procedure result. It contains
|
|
a "status" and, if the call succeeded, it also contains the
|
|
attributes of the file on which the operation was done.
|
|
.LP
|
|
.KS
|
|
.NH 3
|
|
\&diropargs
|
|
.IX "NFS data types" diropargs "" \fIdiropargs\fP
|
|
.DS
|
|
struct diropargs {
|
|
fhandle dir;
|
|
filename name;
|
|
};
|
|
.DE
|
|
.KE
|
|
The
|
|
.I diropargs
|
|
structure is used in directory operations. The
|
|
"fhandle" "dir" is the directory in which to find the file "name".
|
|
A directory operation is one in which the directory is affected.
|
|
.LP
|
|
.KS
|
|
.NH 3
|
|
\&diropres
|
|
.IX "NFS data types" diropres "" \fIdiropres\fP
|
|
.DS
|
|
union diropres switch (stat status) {
|
|
case NFS_OK:
|
|
struct {
|
|
fhandle file;
|
|
fattr attributes;
|
|
} diropok;
|
|
default:
|
|
void;
|
|
};
|
|
.DE
|
|
.KE
|
|
The results of a directory operation are returned in a
|
|
.I diropres
|
|
structure. If the call succeeded, a new file handle "file" and the
|
|
"attributes" associated with that file are returned along with the
|
|
"status".
|
|
.NH 2
|
|
\&Server Procedures
|
|
.IX "NFS server procedures" "" "" "" PAGE MAJOR
|
|
.LP
|
|
The protocol definition is given as a set of procedures with
|
|
arguments and results defined using the RPC language. A brief
|
|
description of the function of each procedure should provide enough
|
|
information to allow implementation.
|
|
.LP
|
|
All of the procedures in the NFS protocol are assumed to be
|
|
synchronous. When a procedure returns to the client, the client
|
|
can assume that the operation has completed and any data associated
|
|
with the request is now on stable storage. For example, a client
|
|
.I WRITE
|
|
request may cause the server to update data blocks,
|
|
filesystem information blocks (such as indirect blocks), and file
|
|
attribute information (size and modify times). When the
|
|
.I WRITE
|
|
returns to the client, it can assume that the write is safe, even
|
|
in case of a server crash, and it can discard the data written.
|
|
This is a very important part of the statelessness of the server.
|
|
If the server waited to flush data from remote requests, the client
|
|
would have to save those requests so that it could resend them in
|
|
case of a server crash.
|
|
.ie t .DS
|
|
.el .DS L
|
|
|
|
.ft I
|
|
/*
|
|
* Remote file service routines
|
|
*/
|
|
.ft CW
|
|
program NFS_PROGRAM {
|
|
version NFS_VERSION {
|
|
void NFSPROC_NULL(void) = 0;
|
|
attrstat NFSPROC_GETATTR(fhandle) = 1;
|
|
attrstat NFSPROC_SETATTR(sattrargs) = 2;
|
|
void NFSPROC_ROOT(void) = 3;
|
|
diropres NFSPROC_LOOKUP(diropargs) = 4;
|
|
readlinkres NFSPROC_READLINK(fhandle) = 5;
|
|
readres NFSPROC_READ(readargs) = 6;
|
|
void NFSPROC_WRITECACHE(void) = 7;
|
|
attrstat NFSPROC_WRITE(writeargs) = 8;
|
|
diropres NFSPROC_CREATE(createargs) = 9;
|
|
stat NFSPROC_REMOVE(diropargs) = 10;
|
|
stat NFSPROC_RENAME(renameargs) = 11;
|
|
stat NFSPROC_LINK(linkargs) = 12;
|
|
stat NFSPROC_SYMLINK(symlinkargs) = 13;
|
|
diropres NFSPROC_MKDIR(createargs) = 14;
|
|
stat NFSPROC_RMDIR(diropargs) = 15;
|
|
readdirres NFSPROC_READDIR(readdirargs) = 16;
|
|
statfsres NFSPROC_STATFS(fhandle) = 17;
|
|
} = 2;
|
|
} = 100003;
|
|
.DE
|
|
.KS
|
|
.NH 3
|
|
\&Do Nothing
|
|
.IX "NFS server procedures" NFSPROC_NULL() "" \fINFSPROC_NULL()\fP
|
|
.DS
|
|
void
|
|
NFSPROC_NULL(void) = 0;
|
|
.DE
|
|
.KE
|
|
This procedure does no work. It is made available in all RPC
|
|
services to allow server response testing and timing.
|
|
.KS
|
|
.NH 3
|
|
\&Get File Attributes
|
|
.IX "NFS server procedures" NFSPROC_GETATTR() "" \fINFSPROC_GETATTR()\fP
|
|
.DS
|
|
attrstat
|
|
NFSPROC_GETATTR (fhandle) = 1;
|
|
.DE
|
|
.KE
|
|
If the reply status is
|
|
.I NFS_OK ,
|
|
then the reply attributes contains
|
|
the attributes for the file given by the input fhandle.
|
|
.KS
|
|
.NH 3
|
|
\&Set File Attributes
|
|
.IX "NFS server procedures" NFSPROC_SETATTR() "" \fINFSPROC_SETATTR()\fP
|
|
.DS
|
|
struct sattrargs {
|
|
fhandle file;
|
|
sattr attributes;
|
|
};
|
|
|
|
attrstat
|
|
NFSPROC_SETATTR (sattrargs) = 2;
|
|
.DE
|
|
.KE
|
|
The "attributes" argument contains fields which are either -1 or
|
|
are the new value for the attributes of "file". If the reply
|
|
status is
|
|
.I NFS_OK ,
|
|
then the reply attributes have the attributes of
|
|
the file after the "SETATTR" operation has completed.
|
|
.LP
|
|
Note: The use of -1 to indicate an unused field in "attributes" is
|
|
changed in the next version of the protocol.
|
|
.KS
|
|
.NH 3
|
|
\&Get Filesystem Root
|
|
.IX "NFS server procedures" NFSPROC_ROOT "" \fINFSPROC_ROOT\fP
|
|
.DS
|
|
void
|
|
NFSPROC_ROOT(void) = 3;
|
|
.DE
|
|
.KE
|
|
Obsolete. This procedure is no longer used because finding the
|
|
root file handle of a filesystem requires moving pathnames between
|
|
client and server. To do this right we would have to define a
|
|
network standard representation of pathnames. Instead, the
|
|
function of looking up the root file handle is done by the
|
|
.I MNTPROC_MNT()
|
|
procedure. (See the
|
|
.I "Mount Protocol Definition"
|
|
later in this chapter for details).
|
|
.KS
|
|
.NH 3
|
|
\&Look Up File Name
|
|
.IX "NFS server procedures" NFSPROC_LOOKUP() "" \fINFSPROC_LOOKUP()\fP
|
|
.DS
|
|
diropres
|
|
NFSPROC_LOOKUP(diropargs) = 4;
|
|
.DE
|
|
.KE
|
|
If the reply "status" is
|
|
.I NFS_OK ,
|
|
then the reply "file" and reply
|
|
"attributes" are the file handle and attributes for the file "name"
|
|
in the directory given by "dir" in the argument.
|
|
.KS
|
|
.NH 3
|
|
\&Read From Symbolic Link
|
|
.IX "NFS server procedures" NFSPROC_READLINK() "" \fINFSPROC_READLINK()\fP
|
|
.DS
|
|
union readlinkres switch (stat status) {
|
|
case NFS_OK:
|
|
path data;
|
|
default:
|
|
void;
|
|
};
|
|
|
|
readlinkres
|
|
NFSPROC_READLINK(fhandle) = 5;
|
|
.DE
|
|
.KE
|
|
If "status" has the value
|
|
.I NFS_OK ,
|
|
then the reply "data" is the data in
|
|
the symbolic link given by the file referred to by the fhandle argument.
|
|
.LP
|
|
Note: since NFS always parses pathnames on the client, the
|
|
pathname in a symbolic link may mean something different (or be
|
|
meaningless) on a different client or on the server if a different
|
|
pathname syntax is used.
|
|
.KS
|
|
.NH 3
|
|
\&Read From File
|
|
.IX "NFS server procedures" NFSPROC_READ "" \fINFSPROC_READ\fP
|
|
.DS
|
|
struct readargs {
|
|
fhandle file;
|
|
unsigned offset;
|
|
unsigned count;
|
|
unsigned totalcount;
|
|
};
|
|
|
|
union readres switch (stat status) {
|
|
case NFS_OK:
|
|
fattr attributes;
|
|
opaque data<NFS_MAXDATA>;
|
|
default:
|
|
void;
|
|
};
|
|
|
|
readres
|
|
NFSPROC_READ(readargs) = 6;
|
|
.DE
|
|
.KE
|
|
Returns up to "count" bytes of "data" from the file given by
|
|
"file", starting at "offset" bytes from the beginning of the file.
|
|
The first byte of the file is at offset zero. The file attributes
|
|
after the read takes place are returned in "attributes".
|
|
.LP
|
|
Note: The argument "totalcount" is unused, and is removed in the
|
|
next protocol revision.
|
|
.KS
|
|
.NH 3
|
|
\&Write to Cache
|
|
.IX "NFS server procedures" NFSPROC_WRITECACHE() "" \fINFSPROC_WRITECACHE()\fP
|
|
.DS
|
|
void
|
|
NFSPROC_WRITECACHE(void) = 7;
|
|
.DE
|
|
.KE
|
|
To be used in the next protocol revision.
|
|
.KS
|
|
.NH 3
|
|
\&Write to File
|
|
.IX "NFS server procedures" NFSPROC_WRITE() "" \fINFSPROC_WRITE()\fP
|
|
.DS
|
|
struct writeargs {
|
|
fhandle file;
|
|
unsigned beginoffset;
|
|
unsigned offset;
|
|
unsigned totalcount;
|
|
opaque data<NFS_MAXDATA>;
|
|
};
|
|
|
|
attrstat
|
|
NFSPROC_WRITE(writeargs) = 8;
|
|
.DE
|
|
.KE
|
|
Writes "data" beginning "offset" bytes from the beginning of
|
|
"file". The first byte of the file is at offset zero. If the
|
|
reply "status" is NFS_OK, then the reply "attributes" contains the
|
|
attributes of the file after the write has completed. The write
|
|
operation is atomic. Data from this call to
|
|
.I WRITE
|
|
will not be mixed with data from another client's calls.
|
|
.LP
|
|
Note: The arguments "beginoffset" and "totalcount" are ignored and
|
|
are removed in the next protocol revision.
|
|
.KS
|
|
.NH 3
|
|
\&Create File
|
|
.IX "NFS server procedures" NFSPROC_CREATE() "" \fINFSPROC_CREATE()\fP
|
|
.DS
|
|
struct createargs {
|
|
diropargs where;
|
|
sattr attributes;
|
|
};
|
|
|
|
diropres
|
|
NFSPROC_CREATE(createargs) = 9;
|
|
.DE
|
|
.KE
|
|
The file "name" is created in the directory given by "dir". The
|
|
initial attributes of the new file are given by "attributes". A
|
|
reply "status" of NFS_OK indicates that the file was created, and
|
|
reply "file" and reply "attributes" are its file handle and
|
|
attributes. Any other reply "status" means that the operation
|
|
failed and no file was created.
|
|
.LP
|
|
Note: This routine should pass an exclusive create flag, meaning
|
|
"create the file only if it is not already there".
|
|
.KS
|
|
.NH 3
|
|
\&Remove File
|
|
.IX "NFS server procedures" NFSPROC_REMOVE() "" \fINFSPROC_REMOVE()\fP
|
|
.DS
|
|
stat
|
|
NFSPROC_REMOVE(diropargs) = 10;
|
|
.DE
|
|
.KE
|
|
The file "name" is removed from the directory given by "dir". A
|
|
reply of NFS_OK means the directory entry was removed.
|
|
.LP
|
|
Note: possibly non-idempotent operation.
|
|
.KS
|
|
.NH 3
|
|
\&Rename File
|
|
.IX "NFS server procedures" NFSPROC_RENAME() "" \fINFSPROC_RENAME()\fP
|
|
.DS
|
|
struct renameargs {
|
|
diropargs from;
|
|
diropargs to;
|
|
};
|
|
|
|
stat
|
|
NFSPROC_RENAME(renameargs) = 11;
|
|
.DE
|
|
.KE
|
|
The existing file "from.name" in the directory given by "from.dir"
|
|
is renamed to "to.name" in the directory given by "to.dir". If the
|
|
reply is
|
|
.I NFS_OK ,
|
|
the file was renamed. The
|
|
RENAME
|
|
operation is
|
|
atomic on the server; it cannot be interrupted in the middle.
|
|
.LP
|
|
Note: possibly non-idempotent operation.
|
|
.KS
|
|
.NH 3
|
|
\&Create Link to File
|
|
.IX "NFS server procedures" NFSPROC_LINK() "" \fINFSPROC_LINK()\fP
|
|
.DS
|
|
struct linkargs {
|
|
fhandle from;
|
|
diropargs to;
|
|
};
|
|
|
|
stat
|
|
NFSPROC_LINK(linkargs) = 12;
|
|
.DE
|
|
.KE
|
|
Creates the file "to.name" in the directory given by "to.dir",
|
|
which is a hard link to the existing file given by "from". If the
|
|
return value is
|
|
.I NFS_OK ,
|
|
a link was created. Any other return value
|
|
indicates an error, and the link was not created.
|
|
.LP
|
|
A hard link should have the property that changes to either of the
|
|
linked files are reflected in both files. When a hard link is made
|
|
to a file, the attributes for the file should have a value for
|
|
"nlink" that is one greater than the value before the link.
|
|
.LP
|
|
Note: possibly non-idempotent operation.
|
|
.KS
|
|
.NH 3
|
|
\&Create Symbolic Link
|
|
.IX "NFS server procedures" NFSPROC_SYMLINK() "" \fINFSPROC_SYMLINK()\fP
|
|
.DS
|
|
struct symlinkargs {
|
|
diropargs from;
|
|
path to;
|
|
sattr attributes;
|
|
};
|
|
|
|
stat
|
|
NFSPROC_SYMLINK(symlinkargs) = 13;
|
|
.DE
|
|
.KE
|
|
Creates the file "from.name" with ftype
|
|
.I NFLNK
|
|
in the directory
|
|
given by "from.dir". The new file contains the pathname "to" and
|
|
has initial attributes given by "attributes". If the return value
|
|
is
|
|
.I NFS_OK ,
|
|
a link was created. Any other return value indicates an
|
|
error, and the link was not created.
|
|
.LP
|
|
A symbolic link is a pointer to another file. The name given in
|
|
"to" is not interpreted by the server, only stored in the newly
|
|
created file. When the client references a file that is a symbolic
|
|
link, the contents of the symbolic link are normally transparently
|
|
reinterpreted as a pathname to substitute. A
|
|
.I READLINK
|
|
operation returns the data to the client for interpretation.
|
|
.LP
|
|
Note: On UNIX servers the attributes are never used, since
|
|
symbolic links always have mode 0777.
|
|
.KS
|
|
.NH 3
|
|
\&Create Directory
|
|
.IX "NFS server procedures" NFSPROC_MKDIR() "" \fINFSPROC_MKDIR()\fP
|
|
.DS
|
|
diropres
|
|
NFSPROC_MKDIR (createargs) = 14;
|
|
.DE
|
|
.KE
|
|
The new directory "where.name" is created in the directory given by
|
|
"where.dir". The initial attributes of the new directory are given
|
|
by "attributes". A reply "status" of NFS_OK indicates that the new
|
|
directory was created, and reply "file" and reply "attributes" are
|
|
its file handle and attributes. Any other reply "status" means
|
|
that the operation failed and no directory was created.
|
|
.LP
|
|
Note: possibly non-idempotent operation.
|
|
.KS
|
|
.NH 3
|
|
\&Remove Directory
|
|
.IX "NFS server procedures" NFSPROC_RMDIR() "" \fINFSPROC_RMDIR()\fP
|
|
.DS
|
|
stat
|
|
NFSPROC_RMDIR(diropargs) = 15;
|
|
.DE
|
|
.KE
|
|
The existing empty directory "name" in the directory given by "dir"
|
|
is removed. If the reply is
|
|
.I NFS_OK ,
|
|
the directory was removed.
|
|
.LP
|
|
Note: possibly non-idempotent operation.
|
|
.KS
|
|
.NH 3
|
|
\&Read From Directory
|
|
.IX "NFS server procedures" NFSPROC_READDIR() "" \fINFSPROC_READDIR()\fP
|
|
.DS
|
|
struct readdirargs {
|
|
fhandle dir;
|
|
nfscookie cookie;
|
|
unsigned count;
|
|
};
|
|
|
|
struct entry {
|
|
unsigned fileid;
|
|
filename name;
|
|
nfscookie cookie;
|
|
entry *nextentry;
|
|
};
|
|
|
|
union readdirres switch (stat status) {
|
|
case NFS_OK:
|
|
struct {
|
|
entry *entries;
|
|
bool eof;
|
|
} readdirok;
|
|
default:
|
|
void;
|
|
};
|
|
|
|
readdirres
|
|
NFSPROC_READDIR (readdirargs) = 16;
|
|
.DE
|
|
.KE
|
|
Returns a variable number of directory entries, with a total size
|
|
of up to "count" bytes, from the directory given by "dir". If the
|
|
returned value of "status" is
|
|
.I NFS_OK ,
|
|
then it is followed by a
|
|
variable number of "entry"s. Each "entry" contains a "fileid"
|
|
which consists of a unique number to identify the file within a
|
|
filesystem, the "name" of the file, and a "cookie" which is an
|
|
opaque pointer to the next entry in the directory. The cookie is
|
|
used in the next
|
|
.I READDIR
|
|
call to get more entries starting at a
|
|
given point in the directory. The special cookie zero (all bits
|
|
zero) can be used to get the entries starting at the beginning of
|
|
the directory. The "fileid" field should be the same number as the
|
|
"fileid" in the the attributes of the file. (See the
|
|
.I "Basic Data Types"
|
|
section.)
|
|
The "eof" flag has a value of
|
|
.I TRUE
|
|
if there are no more entries in the directory.
|
|
.KS
|
|
.NH 3
|
|
\&Get Filesystem Attributes
|
|
.IX "NFS server procedures" NFSPROC_STATFS() "" \fINFSPROC_STATFS()\fP
|
|
.DS
|
|
union statfsres (stat status) {
|
|
case NFS_OK:
|
|
struct {
|
|
unsigned tsize;
|
|
unsigned bsize;
|
|
unsigned blocks;
|
|
unsigned bfree;
|
|
unsigned bavail;
|
|
} info;
|
|
default:
|
|
void;
|
|
};
|
|
|
|
statfsres
|
|
NFSPROC_STATFS(fhandle) = 17;
|
|
.DE
|
|
.KE
|
|
If the reply "status" is
|
|
.I NFS_OK ,
|
|
then the reply "info" gives the
|
|
attributes for the filesystem that contains file referred to by the
|
|
input fhandle. The attribute fields contain the following values:
|
|
.IP tsize:
|
|
The optimum transfer size of the server in bytes. This is
|
|
the number of bytes the server would like to have in the
|
|
data part of READ and WRITE requests.
|
|
.IP bsize:
|
|
The block size in bytes of the filesystem.
|
|
.IP blocks:
|
|
The total number of "bsize" blocks on the filesystem.
|
|
.IP bfree:
|
|
The number of free "bsize" blocks on the filesystem.
|
|
.IP bavail:
|
|
The number of "bsize" blocks available to non-privileged users.
|
|
.LP
|
|
Note: This call does not work well if a filesystem has variable
|
|
size blocks.
|
|
.NH 1
|
|
\&NFS Implementation Issues
|
|
.IX NFS implementation
|
|
.LP
|
|
The NFS protocol is designed to be operating system independent, but
|
|
since this version was designed in a UNIX environment, many
|
|
operations have semantics similar to the operations of the UNIX file
|
|
system. This section discusses some of the implementation-specific
|
|
semantic issues.
|
|
.NH 2
|
|
\&Server/Client Relationship
|
|
.IX NFS "server/client relationship"
|
|
.LP
|
|
The NFS protocol is designed to allow servers to be as simple and
|
|
general as possible. Sometimes the simplicity of the server can be a
|
|
problem, if the client wants to implement complicated filesystem
|
|
semantics.
|
|
.LP
|
|
For example, some operating systems allow removal of open files. A
|
|
process can open a file and, while it is open, remove it from the
|
|
directory. The file can be read and written as long as the process
|
|
keeps it open, even though the file has no name in the filesystem.
|
|
It is impossible for a stateless server to implement these semantics.
|
|
The client can do some tricks such as renaming the file on remove,
|
|
and only removing it on close. We believe that the server provides
|
|
enough functionality to implement most file system semantics on the
|
|
client.
|
|
.LP
|
|
Every NFS client can also potentially be a server, and remote and
|
|
local mounted filesystems can be freely intermixed. This leads to
|
|
some interesting problems when a client travels down the directory
|
|
tree of a remote filesystem and reaches the mount point on the server
|
|
for another remote filesystem. Allowing the server to follow the
|
|
second remote mount would require loop detection, server lookup, and
|
|
user revalidation. Instead, we decided not to let clients cross a
|
|
server's mount point. When a client does a LOOKUP on a directory on
|
|
which the server has mounted a filesystem, the client sees the
|
|
underlying directory instead of the mounted directory. A client can
|
|
do remote mounts that match the server's mount points to maintain the
|
|
server's view.
|
|
.LP
|
|
.NH 2
|
|
\&Pathname Interpretation
|
|
.IX NFS "pathname interpretation"
|
|
.LP
|
|
There are a few complications to the rule that pathnames are always
|
|
parsed on the client. For example, symbolic links could have
|
|
different interpretations on different clients. Another common
|
|
problem for non-UNIX implementations is the special interpretation of
|
|
the pathname ".." to mean the parent of a given directory. The next
|
|
revision of the protocol uses an explicit flag to indicate the parent
|
|
instead.
|
|
.NH 2
|
|
\&Permission Issues
|
|
.IX NFS "permission issues"
|
|
.LP
|
|
The NFS protocol, strictly speaking, does not define the permission
|
|
checking used by servers. However, it is expected that a server
|
|
will do normal operating system permission checking using
|
|
.I AUTH_UNIX
|
|
style authentication as the basis of its protection mechanism. The
|
|
server gets the client's effective "uid", effective "gid", and groups
|
|
on each call and uses them to check permission. There are various
|
|
problems with this method that can been resolved in interesting ways.
|
|
.LP
|
|
Using "uid" and "gid" implies that the client and server share the
|
|
same "uid" list. Every server and client pair must have the same
|
|
mapping from user to "uid" and from group to "gid". Since every
|
|
client can also be a server, this tends to imply that the whole
|
|
network shares the same "uid/gid" space.
|
|
.I AUTH_DES
|
|
(and the next
|
|
revision of the NFS protocol) uses string names instead of numbers,
|
|
but there are still complex problems to be solved.
|
|
.LP
|
|
Another problem arises due to the usually stateful open operation.
|
|
Most operating systems check permission at open time, and then check
|
|
that the file is open on each read and write request. With stateless
|
|
servers, the server has no idea that the file is open and must do
|
|
permission checking on each read and write call. On a local
|
|
filesystem, a user can open a file and then change the permissions so
|
|
that no one is allowed to touch it, but will still be able to write
|
|
to the file because it is open. On a remote filesystem, by contrast,
|
|
the write would fail. To get around this problem, the server's
|
|
permission checking algorithm should allow the owner of a file to
|
|
access it regardless of the permission setting.
|
|
.LP
|
|
A similar problem has to do with paging in from a file over the
|
|
network. The operating system usually checks for execute permission
|
|
before opening a file for demand paging, and then reads blocks from
|
|
the open file. The file may not have read permission, but after it
|
|
is opened it doesn't matter. An NFS server can not tell the
|
|
difference between a normal file read and a demand page-in read. To
|
|
make this work, the server allows reading of files if the "uid" given
|
|
in the call has execute or read permission on the file.
|
|
.LP
|
|
In most operating systems, a particular user (on the user ID zero)
|
|
has access to all files no matter what permission and ownership they
|
|
have. This "super-user" permission may not be allowed on the server,
|
|
since anyone who can become super-user on their workstation could
|
|
gain access to all remote files. The UNIX server by default maps
|
|
user id 0 to -2 before doing its access checking. This works except
|
|
for NFS root filesystems, where super-user access cannot be avoided.
|
|
.NH 2
|
|
\&Setting RPC Parameters
|
|
.IX NFS "setting RPC parameters"
|
|
.LP
|
|
Various file system parameters and options should be set at mount
|
|
time. The mount protocol is described in the appendix below. For
|
|
example, "Soft" mounts as well as "Hard" mounts are usually both
|
|
provided. Soft mounted file systems return errors when RPC
|
|
operations fail (after a given number of optional retransmissions),
|
|
while hard mounted file systems continue to retransmit forever.
|
|
Clients and servers may need to keep caches of recent operations to
|
|
help avoid problems with non-idempotent operations.
|
|
.NH 1
|
|
\&Mount Protocol Definition
|
|
.IX "mount protocol" "" "" "" PAGE MAJOR
|
|
.sp 1
|
|
.NH 2
|
|
\&Introduction
|
|
.IX "mount protocol" introduction
|
|
.LP
|
|
The mount protocol is separate from, but related to, the NFS
|
|
protocol. It provides operating system specific services to get the
|
|
NFS off the ground -- looking up server path names, validating user
|
|
identity, and checking access permissions. Clients use the mount
|
|
protocol to get the first file handle, which allows them entry into a
|
|
remote filesystem.
|
|
.LP
|
|
The mount protocol is kept separate from the NFS protocol to make it
|
|
easy to plug in new access checking and validation methods without
|
|
changing the NFS server protocol.
|
|
.LP
|
|
Notice that the protocol definition implies stateful servers because
|
|
the server maintains a list of client's mount requests. The mount
|
|
list information is not critical for the correct functioning of
|
|
either the client or the server. It is intended for advisory use
|
|
only, for example, to warn possible clients when a server is going
|
|
down.
|
|
.LP
|
|
Version one of the mount protocol is used with version two of the NFS
|
|
protocol. The only connecting point is the
|
|
.I fhandle
|
|
structure, which is the same for both protocols.
|
|
.NH 2
|
|
\&RPC Information
|
|
.IX "mount protocol" "RPC information"
|
|
.IP \fIAuthentication\fP
|
|
The mount service uses
|
|
.I AUTH_UNIX
|
|
and
|
|
.I AUTH_DES
|
|
style authentication only.
|
|
.IP "\fITransport Protocols\fP"
|
|
The mount service is currently supported on UDP/IP only.
|
|
.IP "\fIPort Number\fP"
|
|
Consult the server's portmapper, described in the chapter
|
|
.I "Remote Procedure Calls: Protocol Specification",
|
|
to find the port number on which the mount service is registered.
|
|
.NH 2
|
|
\&Sizes of XDR Structures
|
|
.IX "mount protocol" "XDR structure sizes"
|
|
.LP
|
|
These are the sizes, given in decimal bytes, of various XDR
|
|
structures used in the protocol:
|
|
.DS
|
|
/* \fIThe maximum number of bytes in a pathname argument\fP */
|
|
const MNTPATHLEN = 1024;
|
|
|
|
/* \fIThe maximum number of bytes in a name argument\fP */
|
|
const MNTNAMLEN = 255;
|
|
|
|
/* \fIThe size in bytes of the opaque file handle\fP */
|
|
const FHSIZE = 32;
|
|
.DE
|
|
.NH 2
|
|
\&Basic Data Types
|
|
.IX "mount protocol" "basic data types"
|
|
.IX "mount data types"
|
|
.LP
|
|
This section presents the data types used by the mount protocol.
|
|
In many cases they are similar to the types used in NFS.
|
|
.KS
|
|
.NH 3
|
|
\&fhandle
|
|
.IX "mount data types" fhandle "" \fIfhandle\fP
|
|
.DS
|
|
typedef opaque fhandle[FHSIZE];
|
|
.DE
|
|
.KE
|
|
The type
|
|
.I fhandle
|
|
is the file handle that the server passes to the
|
|
client. All file operations are done using file handles to refer
|
|
to a file or directory. The file handle can contain whatever
|
|
information the server needs to distinguish an individual file.
|
|
.LP
|
|
This is the same as the "fhandle" XDR definition in version 2 of
|
|
the NFS protocol; see
|
|
.I "Basic Data Types"
|
|
in the definition of the NFS protocol, above.
|
|
.KS
|
|
.NH 3
|
|
\&fhstatus
|
|
.IX "mount data types" fhstatus "" \fIfhstatus\fP
|
|
.DS
|
|
union fhstatus switch (unsigned status) {
|
|
case 0:
|
|
fhandle directory;
|
|
default:
|
|
void;
|
|
};
|
|
.DE
|
|
.KE
|
|
The type
|
|
.I fhstatus
|
|
is a union. If a "status" of zero is returned,
|
|
the call completed successfully, and a file handle for the
|
|
"directory" follows. A non-zero status indicates some sort of
|
|
error. In this case the status is a UNIX error number.
|
|
.KS
|
|
.NH 3
|
|
\&dirpath
|
|
.IX "mount data types" dirpath "" \fIdirpath\fP
|
|
.DS
|
|
typedef string dirpath<MNTPATHLEN>;
|
|
.DE
|
|
.KE
|
|
The type
|
|
.I dirpath
|
|
is a server pathname of a directory.
|
|
.KS
|
|
.NH 3
|
|
\&name
|
|
.IX "mount data types" name "" \fIname\fP
|
|
.DS
|
|
typedef string name<MNTNAMLEN>;
|
|
.DE
|
|
.KE
|
|
The type
|
|
.I name
|
|
is an arbitrary string used for various names.
|
|
.NH 2
|
|
\&Server Procedures
|
|
.IX "mount server procedures"
|
|
.LP
|
|
The following sections define the RPC procedures supplied by a
|
|
mount server.
|
|
.ie t .DS
|
|
.el .DS L
|
|
.ft I
|
|
/*
|
|
* Protocol description for the mount program
|
|
*/
|
|
.ft CW
|
|
|
|
program MOUNTPROG {
|
|
.ft I
|
|
/*
|
|
* Version 1 of the mount protocol used with
|
|
* version 2 of the NFS protocol.
|
|
*/
|
|
.ft CW
|
|
version MOUNTVERS {
|
|
void MOUNTPROC_NULL(void) = 0;
|
|
fhstatus MOUNTPROC_MNT(dirpath) = 1;
|
|
mountlist MOUNTPROC_DUMP(void) = 2;
|
|
void MOUNTPROC_UMNT(dirpath) = 3;
|
|
void MOUNTPROC_UMNTALL(void) = 4;
|
|
exportlist MOUNTPROC_EXPORT(void) = 5;
|
|
} = 1;
|
|
} = 100005;
|
|
.DE
|
|
.KS
|
|
.NH 3
|
|
\&Do Nothing
|
|
.IX "mount server procedures" MNTPROC_NULL() "" \fIMNTPROC_NULL()\fP
|
|
.DS
|
|
void
|
|
MNTPROC_NULL(void) = 0;
|
|
.DE
|
|
.KE
|
|
This procedure does no work. It is made available in all RPC
|
|
services to allow server response testing and timing.
|
|
.KS
|
|
.NH 3
|
|
\&Add Mount Entry
|
|
.IX "mount server procedures" MNTPROC_MNT() "" \fIMNTPROC_MNT()\fP
|
|
.DS
|
|
fhstatus
|
|
MNTPROC_MNT(dirpath) = 1;
|
|
.DE
|
|
.KE
|
|
If the reply "status" is 0, then the reply "directory" contains the
|
|
file handle for the directory "dirname". This file handle may be
|
|
used in the NFS protocol. This procedure also adds a new entry to
|
|
the mount list for this client mounting "dirname".
|
|
.KS
|
|
.NH 3
|
|
\&Return Mount Entries
|
|
.IX "mount server procedures" MNTPROC_DUMP() "" \fIMNTPROC_DUMP()\fP
|
|
.DS
|
|
struct *mountlist {
|
|
name hostname;
|
|
dirpath directory;
|
|
mountlist nextentry;
|
|
};
|
|
|
|
mountlist
|
|
MNTPROC_DUMP(void) = 2;
|
|
.DE
|
|
.KE
|
|
Returns the list of remote mounted filesystems. The "mountlist"
|
|
contains one entry for each "hostname" and "directory" pair.
|
|
.KS
|
|
.NH 3
|
|
\&Remove Mount Entry
|
|
.IX "mount server procedures" MNTPROC_UMNT() "" \fIMNTPROC_UMNT()\fP
|
|
.DS
|
|
void
|
|
MNTPROC_UMNT(dirpath) = 3;
|
|
.DE
|
|
.KE
|
|
Removes the mount list entry for the input "dirpath".
|
|
.KS
|
|
.NH 3
|
|
\&Remove All Mount Entries
|
|
.IX "mount server procedures" MNTPROC_UMNTALL() "" \fIMNTPROC_UMNTALL()\fP
|
|
.DS
|
|
void
|
|
MNTPROC_UMNTALL(void) = 4;
|
|
.DE
|
|
.KE
|
|
Removes all of the mount list entries for this client.
|
|
.KS
|
|
.NH 3
|
|
\&Return Export List
|
|
.IX "mount server procedures" MNTPROC_EXPORT() "" \fIMNTPROC_EXPORT()\fP
|
|
.DS
|
|
struct *groups {
|
|
name grname;
|
|
groups grnext;
|
|
};
|
|
|
|
struct *exportlist {
|
|
dirpath filesys;
|
|
groups groups;
|
|
exportlist next;
|
|
};
|
|
|
|
exportlist
|
|
MNTPROC_EXPORT(void) = 5;
|
|
.DE
|
|
.KE
|
|
Returns a variable number of export list entries. Each entry
|
|
contains a filesystem name and a list of groups that are allowed to
|
|
import it. The filesystem name is in "filesys", and the group name
|
|
is in the list "groups".
|
|
.LP
|
|
Note: The exportlist should contain
|
|
more information about the status of the filesystem, such as a
|
|
read-only flag.
|