1.0.23.37: more CLOS and classoid thread safety

[sbcl/tcr.git] / contrib / sb-posix / sb-posix.texinfo

@node sb-posix
@section sb-posix
@cindex Operating System Interface
@cindex System Calls
@cindex Posix

Sb-posix is the supported interface for calling out to the operating
system.@footnote{The functionality contained in the package
@code{SB-UNIX} is for SBCL internal use only; its contents are likely to
change from version to version.}

The scope of this interface is ``operating system calls on a typical
Unixlike platform''.  This is section 2 of the Unix manual, plus section
3 calls that are (a) typically found in libc, but (b) not part of the C
standard.  For example, we intend to provide support for
@code{opendir()} and @code{readdir()}, but not for @code{printf()}.
That said, if your favourite system call is not included yet, you are
encouraged to submit a patch to the SBCL mailing list.

Some facilities are omitted where they offer absolutely no additional
use over some portable function, or would be actively dangerous to the
consistency of Lisp.  Not all functions are available on all
platforms.  

@menu
* Lisp names for C names::
* Types::
* Lisp objects and C structures::
* Function Parameters::
* Function Return Values::
* Functions with idiosyncratic bindings::
@end menu


@node Lisp names for C names
@subsection  Lisp names for C names

All symbols are in the @code{SB-POSIX} package.  This package contains a
Lisp function for each supported Unix system call or function, a
variable or constant for each supported Unix constant, an object type
for each supported Unix structure type, and a slot name for each
supported Unix structure member.  A symbol name is derived from the C
binding's name, by (a) uppercasing, then (b) removing leading
underscores (@code{#\_}) then replacing remaining underscore characters
with the hyphen (@code{#\-}). The requirement to uppercase is so that in
a standard upcasing reader the user may write @code{sb-posix:creat}
instead of @code{sb-posix:|creat|} as would otherise be required.

No other changes to ``Lispify'' symbol names are made, so @code{creat()}
becomes @code{CREAT}, not @code{CREATE}.

The user is encouraged not to @code{(USE-PACKAGE :SB-POSIX)} but instead
to use the @code{SB-POSIX:} prefix on all references, as some of the
symbols symbols contained in the SB-POSIX package have the same name as
CL symbols (@code{OPEN}, @code{CLOSE}, @code{SIGNAL} etc).

@node Types
@subsection Types

Generally, marshalling between Lisp and C data types is done using
SBCL's FFI. @xref{Foreign Function Interface}.

Some functions accept objects such as filenames or file descriptors.  In
the C binding to POSIX these are represented as strings and small
integers respectively. For the Lisp programmer's convenience we
introduce designators such that CL pathnames or open streams can be
passed to these functions.  For example, @code{rename} accepts both
pathnames and strings as its arguments.

@menu 
* File-descriptors::
* Filenames::
* Type conversion functions::
@end menu

@node File-descriptors
@subsubsection File-descriptors

A file-descriptor is a non-negative small integer.  

A file-stream is a designator for a file-descriptor: the stream's file
descriptor is extracted.  Note that mixing I/O operations on a stream
with operations directly on its descriptor may produce unexpected
results if the stream is buffered.

@code{SB-EXT:MAKE-FD-STREAM} can be used to construct a stream
associated with a file descriptor.

@node Filenames
@subsubsection Filenames

A filename is a string.  

A pathname is a designator for a filename: the filename is computed
using the same mechanism that SBCL uses to map pathnames to OS filenames
internally.

Note that filename syntax is distinct from namestring syntax, and that
@code{SB-EXT:PARSE-NATIVE-NAMESTRING} may be used to construct
Lisp pathnames that denote POSIX filenames returned by system calls.
@xref{Function sb-ext:parse-native-namestring}.  Additionally, notice
that POSIX filename syntax does not distinguish the names of files
from the names of directories.  Consequently, in order to parse the
name of a directory in POSIX filename syntax into a pathname
@code{defaults} for which

@lisp
(merge-pathnames (make-pathname :name "FOO" :case :common)
                 defaults)
@end lisp

@noindent
returns a pathname that denotes a file in the directory, supply a true
@code{AS-DIRECTORY} argument to @code{SB-EXT:PARSE-NATIVE-NAMESTRING}.
Likewise, if it is necessary to supply the name of a directory to a
POSIX function in non-directory syntax, supply a true @code{AS-FILE}
argument to @code{SB-EXT:NATIVE-NAMESTRING}.

@node Type conversion functions
@subsubsection Type conversion functions

For each of these types there is a function of the same name that
converts any valid designator for the type into an object of said type.

@lisp
(with-open-file (o "/tmp/foo" :direction :output) 
  (sb-posix:file-descriptor o)) 
=> 4
@end lisp

@node Function Parameters
@subsection Function Parameters

The calling convention is modelled after that of CMUCL's @code{UNIX}
package: in particular, it's like the C interface except that:

@enumerate a
@item
Length arguments are omitted or optional where the sensible value
is obvious.  For example, @code{read} would be defined this way:

@lisp
(read fd buffer &optional (length (length buffer))) => bytes-read
@end lisp

@item
Where C simulates ``out'' parameters using pointers (for instance, in
@code{pipe()} or @code{socketpair()}) these may be optional or omitted
in the Lisp interface: if not provided, appropriate objects will be
allocated and returned (using multiple return values if necessary).

@item
Some functions accept objects such as filenames or file descriptors.
Wherever these are specified as such in the C bindings, the Lisp
interface accepts designators for them as specified in the 'Types'
section above.

@item
A few functions have been included in sb-posix that do not correspond
exactly with their C counterparts.  These are described in
@xref{Functions with idiosyncratic bindings}.

@end enumerate

@node Function Return Values
@subsection  Function Return Values

The return value is usually the same as for the C binding, except in
error cases: where the C function is defined as returning some sentinel
value and setting @code{errno} on error, we instead signal an error of
type @code{SYSCALL-ERROR}.  The actual error value (@code{errno}) is
stored in this condition and can be accessed with @code{SYSCALL-ERRNO}.

We do not automatically translate the returned value into ``Lispy''
objects -- for example, @code{SB-POSIX:OPEN} returns a small integer,
not a stream.  Exception: boolean-returning functions (or, more
commonly, macros) do not return a C integer, but instead a Lisp
boolean.

@node Lisp objects and C structures
@subsection Lisp objects and C structures

Sb-posix provides various Lisp object types to stand in for C
structures in the POSIX library.  Lisp bindings to C functions that
accept, manipulate, or return C structures accept, manipulate, or
return instances of these Lisp types instead of instances of alien
types.

The names of the Lisp types are chosen according to the general rules
described above.  For example Lisp objects of type @code{STAT} stand
in for C structures of type @code{struct stat}.

Accessors are provided for each standard field in the structure. These
are named @code{@var{structure-name}-@var{field-name}} where the two
components are chosen according to the general name conversion rules,
with the exception that in cases where all fields in a given structure
have a common prefix, that prefix is omitted. For example,
@code{stat.st_dev} in C becomes @code{STAT-DEV} in Lisp.

@c This was in the README, but it proves to be false about sb-posix.
@ignore
For each Lisp object type corresponding to a C structure type, there
is a @code{make-@var{structure-name}} function that takes keyword
arguments with names deriving from each documented field name
according to the name conversion rules for accessors.
@end ignore


Because sb-posix might not support all semi-standard or
implementation-dependent members of all structure types on your system
(patches welcome), here is an enumeration of all supported Lisp
objects corresponding to supported POSIX structures, and the supported
slots for those structures.

@itemize

@item flock
@include class-sb-posix-flock.texinfo

@item passwd
@include class-sb-posix-passwd.texinfo

@item stat
@include class-sb-posix-stat.texinfo

@item termios
@include class-sb-posix-termios.texinfo

@item timeval
@include class-sb-posix-timeval.texinfo
@end itemize

@node Functions with idiosyncratic bindings
@subsection Functions with idiosyncratic bindings

A few functions in sb-posix don't correspond directly to their C
counterparts.

@itemize
@item getcwd
@include fun-sb-posix-getcwd.texinfo
@item readlink
@include fun-sb-posix-readlink.texinfo
@item syslog
@include fun-sb-posix-syslog.texinfo
@end itemize