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- .TH INTRO 5
- .SH NAME
- intro \- introduction to the Plan 9 File Protocol, 9P
- .SH SYNOPSIS
- .B #include <fcall.h>
- .SH DESCRIPTION
- A Plan 9
- .I server
- is an agent that provides one or more hierarchical file systems
- \(em file trees \(em
- that may be accessed by Plan 9 processes.
- A server responds to requests by
- .I clients
- to navigate the hierarchy,
- and to create, remove, read, and write files.
- The prototypical server is a separate machine that stores
- large numbers of user files on permanent media;
- such a machine is called, somewhat confusingly, a
- .I file
- .IR server .
- Another possibility for a server is to synthesize
- files on demand, perhaps based on information on data structures
- inside the kernel; the
- .IR proc (3)
- .I kernel device
- is a part of the Plan 9 kernel that does this.
- User programs can also act as servers.
- .PP
- A
- .I connection
- to a server is a bidirectional communication path from the client to the server.
- There may be a single client or
- multiple clients sharing the same connection.
- A server's file tree is attached to a process
- group's name space by
- .IR bind (2)
- and
- .I mount
- calls;
- see
- .IR intro (2).
- Processes in the group are then clients
- of the server:
- system calls operating on files are translated into requests
- and responses transmitted on the connection to the appropriate service.
- .PP
- The
- .IR "Plan 9 File Protocol" ,
- 9P, is used for messages between
- .I clients
- and
- .IR servers .
- A client transmits
- .I requests
- .RI ( T-messages )
- to a server, which
- subsequently returns
- .I replies
- .RI ( R-messages )
- to the client.
- The combined acts of transmitting (receiving) a request of a particular type,
- and receiving (transmitting)
- its reply is called a
- .I transaction
- of that type.
- .PP
- Each message consists of a sequence of bytes.
- Two-, four-, and eight-byte fields hold unsigned
- integers represented in little-endian order
- (least significant byte first).
- Data items of larger or variable lengths are represented
- by a two-byte field specifying a count,
- .IR n ,
- followed by
- .I n
- bytes of data.
- Text strings are represented this way,
- with the text itself stored as a UTF-8
- encoded sequence of Unicode characters (see
- .IR utf (6)).
- Text strings in 9P messages are not
- .SM NUL\c
- -terminated:
- .I n
- counts the bytes of UTF-8 data, which include no final zero byte.
- The
- .SM NUL
- character is illegal in all text strings in 9P, and is therefore
- excluded from file names, user names, and so on.
- .PP
- Each 9P message begins with a four-byte size field
- specifying the length in bytes of the complete message including
- the four bytes of the size field itself.
- The next byte is the message type, one of the constants
- in the enumeration in the include file
- .BR <fcall.h> .
- The next two bytes are an identifying
- .IR tag ,
- described below.
- The remaining bytes are parameters of different sizes.
- In the message descriptions, the number of bytes in a field
- is given in brackets after the field name.
- The notation
- .IR parameter [ n ]
- where
- .I n
- is not a constant represents a variable-length parameter:
- .IR n [2]
- followed by
- .I n
- bytes of data forming the
- .IR parameter .
- The notation
- .IR string [ s ]
- (using a literal
- .I s
- character)
- is shorthand for
- .IR s [2]
- followed by
- .I s
- bytes of UTF-8 text.
- (Systems may choose to reduce the set of legal characters
- to reduce syntactic problems,
- for example to remove slashes from name components,
- but the protocol has no such restriction.
- Plan 9 names may contain any printable character (that is, any character
- outside hexadecimal 00-1F and 80-9F)
- except slash.)
- Messages are transported in byte form to allow for machine independence;
- .IR fcall (2)
- describes routines that convert to and from this form into a machine-dependent
- C structure.
- .SH MESSAGES
- .ta \w'\fLTsession 'u
- .IP
- .ne 2v
- .IR size [4]
- .B Tversion
- .IR tag [2]
- .IR msize [4]
- .IR version [ s ]
- .br
- .IR size [4]
- .B Rversion
- .IR tag [2]
- .IR msize [4]
- .IR version [ s ]
- .IP
- .ne 2v
- .IR size [4]
- .B Tauth
- .IR tag [2]
- .IR afid [4]
- .IR uname [ s ]
- .IR aname [ s ]
- .br
- .br
- .IR size [4]
- .B Rauth
- .IR tag [2]
- .IR aqid [13]
- .IP
- .ne 2v
- .IR size [4]
- .B Rerror
- .IR tag [2]
- .IR ename [ s ]
- .IP
- .ne 2v
- .IR size [4]
- .B Tflush
- .IR tag [2]
- .IR oldtag [2]
- .br
- .IR size [4]
- .B Rflush
- .IR tag [2]
- .IP
- .ne 2v
- .IR size [4]
- .B Tattach
- .IR tag [2]
- .IR fid [4]
- .IR afid [4]
- .IR uname [ s ]
- .IR aname [ s ]
- .br
- .IR size [4]
- .B Rattach
- .IR tag [2]
- .IR qid [13]
- .IP
- .ne 2v
- .IR size [4]
- .B Twalk
- .IR tag [2]
- .IR fid [4]
- .IR newfid [4]
- .IR nwname [2]
- .IR nwname *( wname [ s ])
- .br
- .IR size [4]
- .B Rwalk
- .IR tag [2]
- .IR nwqid [2]
- .IR nwqid *( wqid [13])
- .IP
- .ne 2v
- .IR size [4]
- .B Topen
- .IR tag [2]
- .IR fid [4]
- .IR mode [1]
- .br
- .IR size [4]
- .B Ropen
- .IR tag [2]
- .IR qid [13]
- .IR iounit [4]
- .IP
- .ne 2v
- .IR size [4]
- .B Tcreate
- .IR tag [2]
- .IR fid [4]
- .IR name [ s ]
- .IR perm [4]
- .IR mode [1]
- .br
- .IR size [4]
- .B Rcreate
- .IR tag [2]
- .IR qid [13]
- .IR iounit [4]
- .IP
- .ne 2v
- .IR size [4]
- .B Tread
- .IR tag [2]
- .IR fid [4]
- .IR offset [8]
- .IR count [4]
- .br
- .IR size [4]
- .B Rread
- .IR tag [2]
- .IR count [4]
- .IR data [ count ]
- .IP
- .ne 2v
- .IR size [4]
- .B Twrite
- .IR tag [2]
- .IR fid [4]
- .IR offset [8]
- .IR count [4]
- .IR data [ count ]
- .br
- .IR size [4]
- .B Rwrite
- .IR tag [2]
- .IR count [4]
- .IP
- .ne 2v
- .IR size [4]
- .B Tclunk
- .IR tag [2]
- .IR fid [4]
- .br
- .IR size [4]
- .B Rclunk
- .IR tag [2]
- .IP
- .ne 2v
- .IR size [4]
- .B Tremove
- .IR tag [2]
- .IR fid [4]
- .br
- .IR size [4]
- .B Rremove
- .IR tag [2]
- .IP
- .ne 2v
- .IR size [4]
- .B Tstat
- .IR tag [2]
- .IR fid [4]
- .br
- .IR size [4]
- .B Rstat
- .IR tag [2]
- .IR stat [ n ]
- .IP
- .ne 2v
- .IR size [4]
- .B Twstat
- .IR tag [2]
- .IR fid [4]
- .IR stat [ n ]
- .br
- .IR size [4]
- .B Rwstat
- .IR tag [2]
- .PP
- Each T-message has a
- .I tag
- field, chosen and used by the client to identify the message.
- The reply to the message will have the same tag.
- Clients must arrange that no two outstanding messages
- on the same connection have the same tag.
- An exception is the tag
- .BR NOTAG ,
- defined as
- .B (ushort)~0
- in
- .BR <fcall.h> :
- the client can use it, when establishing a connection,
- to
- override tag matching in
- .B version
- messages.
- .PP
- The type of an R-message will either be one greater than the type
- of the corresponding T-message or
- .BR Rerror ,
- indicating that the request failed.
- In the latter case, the
- .I ename
- field contains a string describing the reason for failure.
- .PP
- The
- .B version
- message identifies the version of the protocol and indicates
- the maximum message size the system is prepared to handle.
- It also initializes the connection and
- aborts all outstanding I/O on the connection.
- The set of messages between
- .B version
- requests is called a
- .IR session .
- .PP
- Most T-messages contain a
- .IR fid ,
- a 32-bit unsigned integer that the client uses to identify
- a ``current file'' on the server.
- Fids are somewhat like file descriptors in a user process,
- but they are not restricted to files open for I/O:
- directories being examined, files being accessed by
- .IR stat (2)
- calls, and so on \(em all files being manipulated by the operating
- system \(em are identified by fids.
- Fids are chosen by the client.
- All requests on a connection share the same fid space;
- when several clients share a connection,
- the agent managing the sharing must arrange
- that no two clients choose the same fid.
- .PP
- The fid supplied in an
- .B attach
- message
- will be taken by the server to refer to the root of the served file tree.
- The
- .B attach
- identifies the user
- to the server and may specify a particular file tree served
- by the server (for those that supply more than one).
- .PP
- Permission to attach to the service is proven by providing a special fid, called
- .BR afid ,
- in the
- .B attach
- message. This
- .B afid
- is established by exchanging
- .B auth
- messages and subsequently manipulated using
- .B read
- and
- .B write
- messages to exchange authentication information not defined explicitly by 9P.
- Once the authentication protocol is complete, the
- .B afid
- is presented in the
- .B attach
- to permit the user to access the service.
- .PP
- A
- .B walk
- message causes the server to change the current file associated
- with a fid to be a file in the directory that is the old current file, or one of
- its subdirectories.
- .B Walk
- returns a new fid that refers to the resulting file.
- Usually, a client maintains a fid for the root,
- and navigates by
- .B walks
- from the root fid.
- .PP
- A client can send multiple T-messages without waiting for the corresponding
- R-messages, but all outstanding T-messages must specify different tags.
- The server may delay the response to a request
- and respond to later ones;
- this is sometimes necessary, for example when the client reads
- from a file that the server synthesizes from external events
- such as keyboard characters.
- .PP
- Replies (R-messages) to
- .BR auth ,
- .BR attach ,
- .BR walk ,
- .BR open ,
- and
- .B create
- requests convey a
- .I qid
- field back to the client.
- The qid represents the server's unique identification for the
- file being accessed:
- two files on the same server hierarchy are the same if and only if their qids
- are the same.
- (The client may have multiple fids pointing to a single file on a server
- and hence having a single qid.)
- The thirteen-byte qid fields hold a one-byte type,
- specifying whether the file is a directory, append-only file, etc.,
- and two unsigned integers:
- first the four-byte qid
- .IR version ,
- then the eight-byte qid
- .IR path .
- The path is an integer unique among all files in the hierarchy.
- If a file is deleted and recreated with the
- same name in the same directory, the old and new path components of the qids
- should be different.
- The version is a version number for a file;
- typically, it is incremented every time the file is modified.
- .PP
- An existing file can be
- .BR opened ,
- or a new file may be
- .B created
- in the current (directory) file.
- I/O of a given number of bytes
- at a given offset
- on an open file is done by
- .B read
- and
- .BR write .
- .PP
- A client should
- .B clunk
- any fid that is no longer needed.
- The
- .B remove
- transaction deletes files.
- .PP
- The
- .B stat
- transaction retrieves information about the file.
- The
- .I stat
- field in the reply includes the file's
- name,
- access permissions (read, write and execute for owner, group and public),
- access and modification times, and
- owner and group identifications
- (see
- .IR stat (2)).
- The owner and group identifications are textual names.
- The
- .B wstat
- transaction allows some of a file's properties
- to be changed.
- .PP
- A request can be aborted with a
- flush
- request.
- When a server receives a
- .BR Tflush ,
- it should not reply to the message with tag
- .I oldtag
- (unless it has already replied),
- and it should immediately send an
- .BR Rflush .
- The client must wait
- until it gets the
- .B Rflush
- (even if the reply to the original message arrives in the interim),
- at which point
- .I oldtag
- may be reused.
- .PP
- Because the message size is negotiable and some elements of the
- protocol are variable length, it is possible (although unlikely) to have
- a situation where a valid message is too large to fit within the negotiated size.
- For example, a very long file name may cause a
- .B Rstat
- of the file or
- .B Rread
- of its directory entry to be too large to send.
- In most such cases, the server should generate an error rather than
- modify the data to fit, such as by truncating the file name.
- The exception is that a long error string in an
- .B Rerror
- message should be truncated if necessary, since the string is only
- advisory and in some sense arbitrary.
- .PP
- Most programs do not see the 9P protocol directly; instead calls to library
- routines that access files are
- translated by the mount driver,
- .IR mnt (3),
- into 9P messages.
- .SH DIRECTORIES
- Directories are created by
- .B create
- with
- .B DMDIR
- set in the permissions argument (see
- .IR stat (5)).
- The members of a directory can be found with
- .IR read (5).
- All directories must support
- .B walks
- to the directory
- .B ..
- (dot-dot)
- meaning parent directory, although by convention directories
- contain no explicit entry for
- .B ..
- or
- .B .
- (dot).
- The parent of the root directory of a server's tree is itself.
- .SH "ACCESS PERMISSIONS"
- Each file server maintains a set of user and group names.
- Each user can be a member of any number of groups.
- Each group has a
- .I group leader
- who has special privileges (see
- .IR stat (5)
- and
- .IR users (6)).
- Every file request has an implicit user id (copied from the original
- .BR attach )
- and an implicit set of groups (every group of which the user is a member).
- .PP
- Each file has an associated
- .I owner
- and
- .I group
- id and
- three sets of permissions:
- those of the owner, those of the group, and those of ``other'' users.
- When the owner attempts to do something to a file, the owner, group,
- and other permissions are consulted, and if any of them grant
- the requested permission, the operation is allowed.
- For someone who is not the owner, but is a member of the file's group,
- the group and other permissions are consulted.
- For everyone else, the other permissions are used.
- Each set of permissions says whether reading is allowed,
- whether writing is allowed, and whether executing is allowed.
- A
- .B walk
- in a directory is regarded as executing the directory,
- not reading it.
- Permissions are kept in the low-order bits of the file
- .IR mode :
- owner read/write/execute permission represented as 1 in bits 8, 7, and 6
- respectively (using 0 to number the low order).
- The group permissions are in bits 5, 4, and 3,
- and the other permissions are in bits 2, 1, and 0.
- .PP
- The file
- .I mode
- contains some additional attributes besides the permissions.
- If bit 31
- .RB ( DMDIR )
- is set, the file is a directory;
- if bit 30
- .RB ( DMAPPEND )
- is set, the file is append-only (offset is ignored in writes);
- if bit 29
- .RB ( DMEXCL )
- is set, the file is exclusive-use (only one client may have it
- open at a time);
- if bit 27
- .RB ( DMAUTH )
- is set, the file is an authentication file established by
- .B auth
- messages.
- (Bit 28 is skipped for historical reasons.)
- These bits are reproduced, from the top bit down, in the type byte of the Qid:
- .BR QTDIR ,
- .BR QTAPPEND ,
- .BR QTEXCL ,
- and (skipping one bit)
- .BR QTAUTH .
- The name
- .BR QTFILE ,
- defined to be zero,
- identifies the value of the type for a plain file.
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