457 lines
11 KiB
Text
457 lines
11 KiB
Text
.TH INTRO 2
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.SH NAME
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intro \- introduction to library functions
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.SH SYNOPSIS
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.nf
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.B #include <u.h>
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.PP
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.B #include <libc.h>
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.PP
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.B #include <auth.h>
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.PP
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.B #include <bio.h>
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.PP
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.B #include <draw.h>
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.PP
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.B #include <fcall.h>
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.PP
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.B #include <frame.h>
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.PP
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.B #include <mach.h>
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.PP
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.B #include <ndb.h>
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.PP
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.B #include <regexp.h>
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.PP
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.B #include <stdio.h>
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.PP
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.B #include <thread.h>
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.fi
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.SH DESCRIPTION
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This section describes functions
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in various libraries.
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For the most part, each library is defined by a single C include
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file, such as those listed above, and a single archive file containing
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the library proper. The name of the archive is
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.BI /$objtype/lib/lib x .a \f1,
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where
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.I x
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is the base of the include file name, stripped of a leading
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.B lib
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if present.
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For example,
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.B <draw.h>
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defines the contents of library
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.BR /$objtype/lib/libdraw.a ,
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which may be abbreviated when named to the loader as
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.BR -ldraw .
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In practice, each include file contains a
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.B #pragma
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that directs the loader to pick up the associated archive
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automatically, so it is rarely necessary to tell the loader
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which
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libraries a program needs.
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.PP
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The library to which a function belongs is defined by the
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header file that defines its interface.
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The `C library',
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.IR libc ,
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contains most of the basic subroutines such
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as
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.IR strlen .
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Declarations for all of these functions are
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in
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.BR <libc.h> ,
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which must be preceded by
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.RI ( needs )
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an include of
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.BR <u.h> .
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The graphics library,
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.IR draw ,
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is defined by
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.BR <draw.h> ,
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which needs
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.B <libc.h>
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and
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.BR <u.h> .
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The Buffered I/O library,
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.IR libbio ,
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is defined by
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.BR <bio.h> ,
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which needs
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.B <libc.h>
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and
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.BR <u.h> .
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The ANSI C Standard I/O library,
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.IR libstdio ,
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is defined by
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.BR <stdio.h> ,
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which needs
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.BR <u.h> .
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There are a few other, less commonly used libraries defined on
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individual pages of this section.
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.PP
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The include file
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.BR <u.h> ,
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a prerequisite of several other include files,
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declares the architecture-dependent and -independent types, including:
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.IR uchar ,
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.IR ushort ,
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.IR uint ,
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and
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.IR ulong ,
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the unsigned integer types;
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.IR schar ,
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the signed char type;
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.I vlong
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and
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.IR uvlong ,
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the signed and unsigned very long integral types;
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.IR Rune ,
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the Unicode character type;
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.IR u8int ,
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.IR u16int ,
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.IR u32int ,
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and
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.IR u64int ,
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the unsigned integral types with specific widths;
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.IR uintptr ,
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the unsigned integral type with the same width as a pointer;
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.IR jmp_buf ,
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the type of the argument to
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.I setjmp
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and
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.IR longjmp ,
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plus macros that define the layout of
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.IR jmp_buf
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(see
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.IR setjmp (2));
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definitions of the bits in the floating-point control register
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as used by
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.IR getfcr (2);
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and
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the macros
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.B va_arg
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and friends for accessing arguments of variadic functions (identical to the
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macros defined in
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.B <stdarg.h>
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in ANSI C).
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.SS "Name space
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Files are collected into a hierarchical organization called a
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.I "file tree
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starting in a
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.I directory
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called the
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.IR root .
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File names, also called
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.IR paths ,
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consist of a number of
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.BR / -separated
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.I "path elements"
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with the slashes corresponding to directories.
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A path element must contain only printable
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characters (those outside the control spaces of
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.SM ASCII
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and Latin-1).
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A path element cannot contain a slash.
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.PP
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When a process presents a file name to Plan 9, it is
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.I evaluated
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by the following algorithm.
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Start with a directory that depends on the first
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character of the path:
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.L /
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means the root of the main hierarchy,
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.L #
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means the separate root of a kernel device's file tree (see Section 3),
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and anything else means the process's current working directory.
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Then for each path element, look up the element
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in the directory, advance to that directory,
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do a possible translation (see below), and repeat.
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The last step may yield a directory or regular file.
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The collection of files reachable from the root is called the
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.I "name space
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of a process.
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.PP
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A program can use
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.I bind
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or
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.I mount
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(see
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.IR bind (2))
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to say that whenever a specified file is reached during evaluation,
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evaluation instead continues from a second specified file.
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Also, the same system calls create
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.IR "union directories" ,
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which are concatenations of ordinary directories
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that are searched sequentially until the desired element is found.
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Using
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.I bind
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and
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.I mount
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to do name space adjustment affects only
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the current process group (see below).
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Certain conventions about the layout of the name space should
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be preserved; see
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.IR namespace (4).
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.SS "File I/O"
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Files are opened for input or output
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by
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.I open
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or
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.I create
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(see
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.IR open (2)).
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These calls return an integer called a
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.IR "file descriptor"
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which identifies the file
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to subsequent I/O calls,
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notably
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.IR read (2)
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and
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.IR write .
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The system allocates the numbers by selecting the lowest unused descriptor.
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They are allocated dynamically; there is no visible limit to the number of file
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descriptors a process may have open.
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They may be reassigned using
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.IR dup (2).
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File descriptors are indices into a
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kernel resident
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.IR "file descriptor table" .
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Each process has an associated file descriptor table.
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In some cases (see
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.I rfork
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in
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.IR fork (2))
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a file descriptor table may be shared by several processes.
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.PP
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By convention,
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file descriptor 0 is the standard input,
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1 is the standard output,
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and 2 is the standard error output.
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With one exception, the operating system is unaware of these conventions;
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it is permissible to close file 0,
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or even to replace it by a file open only for writing,
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but many programs will be confused by such chicanery.
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The exception is that the system prints messages about broken processes
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to file descriptor 2.
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.PP
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Files are normally read or written in sequential order.
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The I/O position in the file is called the
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.IR "file offset"
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and may be set arbitrarily using the
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.IR seek (2)
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system call.
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.PP
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Directories may be opened and read much like regular files.
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They contain an integral number of records, called
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.IR "directory entries" .
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Each entry is a machine-independent representation of
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the information about an existing file in the directory,
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including the name, ownership,
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permission,
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access dates,
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and so on.
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The entry
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corresponding to an arbitrary file can be retrieved by
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.IR stat (2)
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or
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.IR fstat ;
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.I wstat
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and
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.I fwstat
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write back entries, thus changing the properties of a file.
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An entry may be translated into a more convenient, addressable
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form called a
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.B Dir
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structure;
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.IR dirstat ,
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.IR dirfstat,
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.IR dirwstat ,
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and
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.I dirfwstat
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execute the appropriate translations (see
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.IR stat (2)).
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.PP
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New files are made with
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.I create
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(see
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.IR open (2))
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and deleted with
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.IR remove (2).
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Directories may not directly be written;
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.IR create ,
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.IR remove ,
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.IR wstat ,
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and
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.I fwstat
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alter them.
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.PP
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The operating system kernel records the file name used to access each open file or directory.
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If the file is opened by a local name (one that does not begin
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.B /
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or
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.BR # ),
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the system makes the stored name absolute by prefixing
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the string associated with the current directory.
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Similar lexical adjustments are made for path names containing
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.B .
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(dot) or
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.B ..
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(dot-dot).
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By this process, the system maintains a record of the route by which each file was accessed.
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Although there is a possibility for error\(emthe name is not maintained after the file is opened,
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so removals and renamings can confound it\(emthis simple method usually
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permits the system to return, via the
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.IR fd2path (2)
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system call and related calls such as
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.IR getwd (2),
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a valid name that may be used to find a file again.
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This is also the source of the names reported in the name space listing of
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.IR ns (1)
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or
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.B /dev/ns
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(see
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.IR proc (3)).
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.PP
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.IR Pipe (2)
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creates a connected pair of file descriptors,
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useful for bidirectional local communication.
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.SS "Process execution and control"
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A new process is created
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when an existing one calls
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.I rfork
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with the
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.B RFPROC
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bit set, usually just by calling
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.IR fork (2).
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The new (child) process starts out with
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copies of the address space and most other attributes
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of the old (parent) process.
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In particular,
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the child starts out running
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the same program as the parent;
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.IR exec (2)
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will bring in a different one.
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.PP
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Each process has a unique integer process id;
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a set of open files, indexed by file descriptor;
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and a current working directory
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(changed by
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.IR chdir (2)).
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.PP
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Each process has a set of attributes \(em memory, open files,
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name space, etc. \(em that may be shared or unique.
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Flags to
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.IR rfork
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control the sharing of these attributes.
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.PP
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The memory of a process is divided into
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.IR segments .
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Every program has at least a
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.I text
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(instruction) and
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.I stack
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segment.
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Most also have an initialized
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.I data
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segment and a segment of zero-filled data called
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.IR bss .
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Processes may
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.IR segattach (2)
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other segments for special purposes.
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.PP
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A process terminates by calling
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.IR exits (2).
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A parent process may call
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.IR wait (2)
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to wait for some child to terminate.
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A string of status information
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may be passed from
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.I exits
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to
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.IR wait .
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A process can go to sleep for a specified time by calling
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.IR sleep (2).
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.PP
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There is a
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.I notification
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mechanism for telling a process about events such as address faults,
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floating point faults, and messages from other processes.
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A process uses
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.IR notify (2)
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to register the function to be called (the
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.IR "notification handler" )
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when such events occur.
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.SS Multithreading
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By calling
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.I rfork
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with the
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.B RFMEM
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bit set, a program may create several independently executing processes sharing the same
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memory (except for the stack segment, which is unique to each process).
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Where possible according to the ANSI C standard,
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the main C library works properly in multiprocess programs;
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.IR malloc ,
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.IR print ,
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and the other routines use locks (see
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.IR lock (2))
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to synchronize access to their data structures.
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The graphics library defined in
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.B <draw.h>
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is also multi-process capable; details are in
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.IR graphics (2).
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In general, though, multiprocess programs should use some form of synchronization
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to protect shared data.
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.PP
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The thread library, defined in
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.BR <thread.h> ,
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provides support for multiprocess programs.
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It includes a data structure called a
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.B Channel
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that can be used to send messages between processes,
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and coroutine-like
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.IR threads ,
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which enable multiple threads of control within a single process.
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The threads within a process are scheduled by the library, but there is
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no pre-emptive scheduling within a process; thread switching occurs
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only at communication or synchronization points.
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.PP
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Most programs using the thread library
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comprise multiple processes
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communicating over channels, and within some processes,
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multiple threads. Since Plan 9 I/O calls may block, a system
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call may block all the threads in a process.
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Therefore, a program that shouldn't block unexpectedly will use a process
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to serve the I/O request, passing the result to the main processes
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over a channel when the request completes.
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For examples of this design, see
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.IR ioproc (2)
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or
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.IR mouse (2).
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.SH SEE ALSO
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.IR nm (1),
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.IR 2l (1),
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.IR 2c (1)
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.SH DIAGNOSTICS
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Math functions in
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.I libc
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return
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special values when the function is undefined for the
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given arguments or when the value is not representable
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(see
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.IR nan (2)).
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.PP
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Some of the functions in
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.I libc
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are system calls and many others employ system calls in their implementation.
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All system calls return integers,
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with \-1 indicating that an error occurred;
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.IR errstr (2)
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recovers a string describing the error.
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Some user-level library functions also use the
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.I errstr
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mechanism to report errors.
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Functions that may affect the value of the error string are said to ``set
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.IR errstr '';
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it is understood that the error string is altered only if an error occurs.
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