code: purgatorio

ref: 84989770721391018dd6a247831cb79a43c1d86b
dir: /man/2/plumbmsg/

View raw version
.TH PLUMBMSG 2
.SH NAME
plumbmsg \- plumbing message module
.SH SYNOPSIS
.EX
include "plumbmsg.m";
plumbmsg := load Plumbmsg Plumbmsg->PATH;
Msg: import plumbmsg;

Msg: adt
{
    src:    string;
    dst:    string; 
    dir:    string;
    kind:   string;
    attr:   string;
    data:   array of byte;
    # used by applications
    send:   fn(msg: self ref Msg): int;
    recv:   fn(): ref Msg;
    # used by plumb and send, recv
    pack:   fn(msg: self ref Msg): array of byte;
    unpack: fn(b: array of byte): ref Msg;
};

Attr: adt
{
    name: string;
    val:  string;
};

init:         fn(willsend: int, rcvport: string, maxdata: int): int;
shutdown:     fn();
string2attrs: fn(s: string): list of ref Attr;
attrs2string: fn(l: list of ref Attr): string;
lookup:       fn(attrs: list of ref Attr, name: string): (int, string);
.EE
.SH DESCRIPTION
.B Plumbmsg
is an interface for message-passing between applications
via the
.IR plumber (8).
It allows applications to receive messages from the plumber on a logical input port,
and send messages to other applications via the plumber.
.PP
.B Init
must be called once when the application starts, to
set up its plumbing connections.
Applications can choose to send messages, receive them, or do both.
Note that
the plumber must be running before any of these functions are useful.
Normally, that is done by the window system's initialisation procedure,
but in specialised systems, plumbing can be used for attribute-oriented
communication even without a window system.
.PP
If the application will be sending
messages via the plumber, the value
.I willsend
must be non-zero, and
.B init
will open an appropriate channel to the plumber; if the application
will not send messages, the value should be zero.
.PP
If the application is prepared to receive messages, the parameter
.I rcvport
names its logical input port,
which must also be known to the plumber (ie, it must
be named as a possible destination in
.IR plumbing (6));
.B init
will open an appropriate channel to receive messages from the plumber.
The parameter
.I maxdata
gives the size in bytes of the largest message
the application is prepared to receive.
Applications that only send messages set
.I rcvport
to nil.
.PP
.B Init
returns returns -1 if for any reason either connection cannot be set up correctly,
in particular if the plumber is not running or the input port is unknown.
Otherwise it returns a non-negative value.
.PP
The following program fragment establishes input and output plumbing
for an application `edit':
.IP
.EX
plumbed := 0;
plumbmsg = load Plumbmsg Plumbmsg->PATH;
if(plumbmsg->init(1, "edit", 1000) >= 0)
	plumbed = 1;
.EE
.PP
The variable
.B plumbed
is set to allow the application to disable its plumbing user interface
(and not attempt to send messages) if initialisation fails.
.PP
The
.B Msg
adt
encapsulates the message data routed between applications and
provides member functions to send and receive them.
Its components are used as follows:
.TF dataxx
.PD
.TP
.B src
The name of the program generating the message.
.TP
.B dst
The output port to which the plumber should route the message.
In practice, destination is often left empty, and
the destination port will be determined by
the plumber applying the automatic routing rules
(cf.
.IR plumbing (6))
.TP
.B dir
The directory in which to interpret the data (eg, if the data is a local file name).
.TP
.B kind
The format of the data.
Currently,
.RB ` text '
is the only type that applications understand, but the plumbing system
can route any kind of data.
.TP
.B attr
A string containing
.IB name = value
pairs (eg,
.BR click=7 ),
separated by tabs.
Normally the value should be created using
.B attrs2string
and parsed using
.BR string2attrs ,
described below.
.TP
.B data
The message to be conveyed.
If
.B kind
is
.BR text ,
and the message is a string
.IR s ,
.B data
will be
.RB ` array
.B of
.BI byte " s'"
(ie, its UTF encoding).
.PD
.PP
Plumbing messages are created directly using Limbo's
.B ref
operator, giving the desired value to each field.
For example:
.IP
.EX
	msg := ref Msg(
		"WmSh",
		"",
		workdir->init(),
		"text",
		attr,
		array of byte text);
.EE
.PP
The plumbing messages are exchanged with
the plumber
using two member functions:
.TP
.IB m .send( msg )
Writes a plumbing message to the
plumber.
It returns the number of bytes written (the result of
.I write
in
.IR sys-read (2)
which does the writing).
It returns -1 if the plumber cannot route the message.
.TP
.B Msg.recv()
Reads a plumbing message from the file
representing the application's input port,
previously opened by
.BR init .
It waits for a message, and returns a reference to a
.B Msg
that contains the message data.
.PP
.B Shutdown
sends a message to the plumber
that shuts down plumbing for the application's input port
.IR rcvport .
An application
.I must
call it before it exits if it has an active input port.
.PP
.B String2attrs
takes a string containing a tab-separated list of attribute pairs and returns a list of references to
.B Attr
adts.
.PP
.B Attr2string
converts a list of references to
.B Attr
adts into a string of the form
.IB name = value name = value
\&. . .  .
The
.IB name = value
pairs are separated by a single tab.
.PP
.B Lookup
searches
.I attrs
for an attribute
.IR name ,
and if found, returns the tuple
.BI (1, value ) .
If
.I name
is not found,
.B lookup
returns
.BR "(0, nil)" .
.SS Packed message format
The format of plumbing messages as transmitted, and member functions
that encapsulate it, are documented here for completeness, and in case
the details are useful in interpreting plumbing messages outside the Inferno environment.
.PP
Plumbing messages have a fixed structure: five lines of text
giving UTF representations of the
corresponding fields of
.BR Msg ,
then a line giving the length of
.B data
in decimal,
followed by the bytes of
.BR data :
.IP
.nf
.IB source \en
.IB destination \en
.IB directory \en
.IB kind \en
.IB attributes \en
.IB n \en
.IB n " bytes"
.fi
.PP
The details are encapsulated in two functions:
.TP
.IB m .pack()
.B Pack
packs the contents
.B Msg
.I m
into an array of byte for subsequent transmission using
.I write
(see
.IR sys-read (2)).
.TP
.BI Msg.unpack( b )
Unpack unpacks an array of byte
.I b
to form a copy of the original
.BR Msg ,
which it returns.
.SH FILES
.TF /chan/plumb.rcvport
.TP
.B /chan/plumb.input
file to send messages to the plumber
.TP
.BI /chan/plumb. rcvport
file to receive messages routed to the logical name
.I rcvport
.SH SOURCE
.B /appl/lib/plumbmsg.b
.SH BUGS
.I Shutdown
should not be needed:
the
.IR plumber (8),
as a file server, must know that a particular client has vanished.