478 lines
12 KiB
TeX
478 lines
12 KiB
TeX
@c -*- Texinfo -*-
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@node Syscalls
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@chapter System Calls
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@cindex linking the C library
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The C subroutine library depends on a handful of subroutine calls for
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operating system services. If you use the C library on a system that
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complies with the POSIX.1 standard (also known as IEEE 1003.1), most of
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these subroutines are supplied with your operating system.
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If some of these subroutines are not provided with your system---in
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the extreme case, if you are developing software for a ``bare board''
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system, without an OS---you will at least need to provide do-nothing
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stubs (or subroutines with minimal functionality) to allow your
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programs to link with the subroutines in @code{libc.a}.
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@menu
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* Stubs:: Definitions for OS interface
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* Reentrant Syscalls:: Reentrant covers for OS subroutines
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@end menu
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@node Stubs
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@section Definitions for OS interface
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@cindex stubs
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@cindex subroutines for OS interface
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@cindex OS interface subroutines
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This is the complete set of system definitions (primarily subroutines)
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required; the examples shown implement the minimal functionality
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required to allow @code{libc} to link, and fail gracefully where OS
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services are not available.
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Graceful failure is permitted by returning an error code. A minor
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complication arises here: the C library must be compatible with
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development environments that supply fully functional versions of these
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subroutines. Such environments usually return error codes in a global
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@code{errno}. However, the Red Hat newlib C library provides a @emph{macro}
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definition for @code{errno} in the header file @file{errno.h}, as part
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of its support for reentrant routines (@pxref{Reentrancy,,Reentrancy}).
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@cindex @code{errno} global vs macro
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The bridge between these two interpretations of @code{errno} is
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straightforward: the C library routines with OS interface calls
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capture the @code{errno} values returned globally, and record them in
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the appropriate field of the reentrancy structure (so that you can query
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them using the @code{errno} macro from @file{errno.h}).
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This mechanism becomes visible when you write stub routines for OS
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interfaces. You must include @file{errno.h}, then disable the macro,
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like this:
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@example
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#include <errno.h>
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#undef errno
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extern int errno;
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@end example
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@noindent
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The examples in this chapter include this treatment of @code{errno}.
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@ftable @code
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@item _exit
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Exit a program without cleaning up files. If your system doesn't
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provide this, it is best to avoid linking with subroutines that require
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it (@code{exit}, @code{system}).
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@item close
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Close a file. Minimal implementation:
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@example
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int close(int file)@{
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return -1;
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@}
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@end example
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@item environ
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A pointer to a list of environment variables and their values. For a
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minimal environment, this empty list is adequate:
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@example
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char *__env[1] = @{ 0 @};
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char **environ = __env;
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@end example
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@item execve
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Transfer control to a new process. Minimal implementation (for a system
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without processes):
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@example
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#include <errno.h>
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#undef errno
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extern int errno;
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int execve(char *name, char **argv, char **env)@{
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errno=ENOMEM;
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return -1;
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@}
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@end example
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@item fork
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Create a new process. Minimal implementation (for a system without processes):
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@example
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#include <errno.h>
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#undef errno
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extern int errno;
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int fork() @{
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errno=EAGAIN;
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return -1;
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@}
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@end example
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@item fstat
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Status of an open file. For consistency with other minimal
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implementations in these examples, all files are regarded as character
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special devices. The @file{sys/stat.h} header file required is
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distributed in the @file{include} subdirectory for this C library.
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@example
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#include <sys/stat.h>
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int fstat(int file, struct stat *st) @{
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st->st_mode = S_IFCHR;
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return 0;
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@}
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@end example
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@item getpid
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Process-ID; this is sometimes used to generate strings unlikely to
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conflict with other processes. Minimal implementation, for a system
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without processes:
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@example
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int getpid() @{
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return 1;
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@}
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@end example
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@item isatty
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Query whether output stream is a terminal. For consistency with the
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other minimal implementations, which only support output to
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@code{stdout}, this minimal implementation is suggested:
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@example
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int isatty(int file)@{
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return 1;
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@}
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@end example
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@item kill
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Send a signal. Minimal implementation:
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@example
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#include <errno.h>
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#undef errno
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extern int errno;
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int kill(int pid, int sig)@{
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errno=EINVAL;
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return(-1);
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@}
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@end example
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@item link
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Establish a new name for an existing file. Minimal implementation:
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@example
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#include <errno.h>
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#undef errno
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extern int errno;
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int link(char *old, char *new)@{
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errno=EMLINK;
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return -1;
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@}
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@end example
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@item lseek
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Set position in a file. Minimal implementation:
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@example
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int lseek(int file, int ptr, int dir)@{
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return 0;
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@}
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@end example
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@item open
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Open a file. Minimal implementation:
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@example
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int open(const char *name, int flags, int mode)@{
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return -1;
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@}
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@end example
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@item read
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Read from a file. Minimal implementation:
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@example
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int read(int file, char *ptr, int len)@{
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return 0;
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@}
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@end example
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@item sbrk
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Increase program data space. As @code{malloc} and related functions
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depend on this, it is useful to have a working implementation. The
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following suffices for a standalone system; it exploits the symbol
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@code{end} automatically defined by the GNU linker.
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@example
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@group
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caddr_t sbrk(int incr)@{
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extern char end; /* @r{Defined by the linker} */
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static char *heap_end;
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char *prev_heap_end;
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if (heap_end == 0) @{
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heap_end = &end;
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@}
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prev_heap_end = heap_end;
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if (heap_end + incr > stack_ptr)
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@{
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_write (1, "Heap and stack collision\n", 25);
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abort ();
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@}
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heap_end += incr;
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return (caddr_t) prev_heap_end;
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@}
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@end group
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@end example
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@item stat
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Status of a file (by name). Minimal implementation:
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@example
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int stat(char *file, struct stat *st) @{
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st->st_mode = S_IFCHR;
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return 0;
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@}
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@end example
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@item times
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Timing information for current process. Minimal implementation:
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@example
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int times(struct tms *buf)@{
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return -1;
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@}
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@end example
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@item unlink
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Remove a file's directory entry. Minimal implementation:
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@example
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#include <errno.h>
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#undef errno
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extern int errno;
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int unlink(char *name)@{
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errno=ENOENT;
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return -1;
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@}
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@end example
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@item wait
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Wait for a child process. Minimal implementation:
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@example
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#include <errno.h>
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#undef errno
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extern int errno;
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int wait(int *status) @{
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errno=ECHILD;
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return -1;
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@}
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@end example
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@item write
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Write a character to a file. @file{libc} subroutines will use this
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system routine for output to all files, @emph{including}
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@code{stdout}---so if you need to generate any output, for example to a
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serial port for debugging, you should make your minimal @code{write}
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capable of doing this. The following minimal implementation is an
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incomplete example; it relies on a @code{writechar} subroutine (not
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shown; typically, you must write this in assembler from examples
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provided by your hardware manufacturer) to actually perform the output.
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@example
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@group
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int write(int file, char *ptr, int len)@{
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int todo;
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for (todo = 0; todo < len; todo++) @{
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writechar(*ptr++);
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@}
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return len;
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@}
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@end group
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@end example
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@end ftable
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@page
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@node Reentrant Syscalls
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@section Reentrant covers for OS subroutines
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Since the system subroutines are used by other library routines that
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require reentrancy, @file{libc.a} provides cover routines (for example,
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the reentrant version of @code{fork} is @code{_fork_r}). These cover
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routines are consistent with the other reentrant subroutines in this
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library, and achieve reentrancy by using a reserved global data block
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(@pxref{Reentrancy,,Reentrancy}).
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@c FIXME!!! The following ignored text specifies how this section ought
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@c to work; however, both standalone info and Emacs info mode fail when
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@c confronted with nodes beginning `_' as of 24may93. Restore when Info
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@c readers fixed!
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@ignore
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@menu
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* _open_r:: Reentrant version of open
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* _close_r:: Reentrant version of close
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* _lseek_r:: Reentrant version of lseek
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* _read_r:: Reentrant version of read
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* _write_r:: Reentrant version of write
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* _link_r:: Reentrant version of link
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* _unlink_r:: Reentrant version of unlink
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* _stat_r:: Reentrant version of stat
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* _fstat_r:: Reentrant version of fstat
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* _sbrk_r:: Reentrant version of sbrk
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* _fork_r:: Reentrant version of fork
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* _wait_r:: Reentrant version of wait
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@end menu
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@down
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@include reent/filer.def
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@include reent/execr.def
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@include reent/statr.def
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@include reent/fstatr.def
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@include reent/linkr.def
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@include reent/unlinkr.def
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@include reent/sbrkr.def
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@up
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@end ignore
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@ftable @code
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@item _open_r
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A reentrant version of @code{open}. It takes a pointer
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to the global data block, which holds @code{errno}.
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@example
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int _open_r(void *@var{reent},
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const char *@var{file}, int @var{flags}, int @var{mode});
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@end example
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@ifset STDIO64
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@item _open64_r
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A reentrant version of @code{open64}. It takes a pointer
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to the global data block, which holds @code{errno}.
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@example
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int _open64_r(void *@var{reent},
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const char *@var{file}, int @var{flags}, int @var{mode});
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@end example
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@end ifset
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@item _close_r
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A reentrant version of @code{close}. It takes a pointer to the global
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data block, which holds @code{errno}.
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@example
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int _close_r(void *@var{reent}, int @var{fd});
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@end example
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@item _lseek_r
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A reentrant version of @code{lseek}. It takes a pointer to the global
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data block, which holds @code{errno}.
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@example
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off_t _lseek_r(void *@var{reent},
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int @var{fd}, off_t @var{pos}, int @var{whence});
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@end example
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@ifset STDIO64
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@item _lseek64_r
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A reentrant version of @code{lseek64}. It takes a pointer to the global
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data block, which holds @code{errno}.
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@example
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off_t _lseek64_r(void *@var{reent},
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int @var{fd}, off_t @var{pos}, int @var{whence});
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@end example
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@end ifset
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@item _read_r
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A reentrant version of @code{read}. It takes a pointer to the global
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data block, which holds @code{errno}.
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@example
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long _read_r(void *@var{reent},
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int @var{fd}, void *@var{buf}, size_t @var{cnt});
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@end example
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@item _write_r
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A reentrant version of @code{write}. It takes a pointer to the global
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data block, which holds @code{errno}.
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@example
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long _write_r(void *@var{reent},
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int @var{fd}, const void *@var{buf}, size_t @var{cnt});
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@end example
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@item _fork_r
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A reentrant version of @code{fork}. It takes a pointer to the global
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data block, which holds @code{errno}.
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@example
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int _fork_r(void *@var{reent});
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@end example
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@item _wait_r
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A reentrant version of @code{wait}. It takes a pointer to the global
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data block, which holds @code{errno}.
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@example
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int _wait_r(void *@var{reent}, int *@var{status});
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@end example
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@item _stat_r
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A reentrant version of @code{stat}. It takes a pointer to the global
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data block, which holds @code{errno}.
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@example
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int _stat_r(void *@var{reent},
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const char *@var{file}, struct stat *@var{pstat});
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@end example
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@item _fstat_r
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A reentrant version of @code{fstat}. It takes a pointer to the global
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data block, which holds @code{errno}.
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@example
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int _fstat_r(void *@var{reent},
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int @var{fd}, struct stat *@var{pstat});
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@end example
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@ifset STDIO64
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@item _fstat64_r
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A reentrant version of @code{fstat64}. It takes a pointer to the global
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data block, which holds @code{errno}.
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@example
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int _fstat64_r(void *@var{reent},
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int @var{fd}, struct stat *@var{pstat});
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@end example
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@end ifset
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@item _link_r
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A reentrant version of @code{link}. It takes a pointer to the global
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data block, which holds @code{errno}.
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@example
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int _link_r(void *@var{reent},
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const char *@var{old}, const char *@var{new});
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@end example
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@item _unlink_r
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A reentrant version of @code{unlink}. It takes a pointer to the global
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data block, which holds @code{errno}.
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@example
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int _unlink_r(void *@var{reent}, const char *@var{file});
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@end example
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@item _sbrk_r
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A reentrant version of @code{sbrk}. It takes a pointer to the global
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data block, which holds @code{errno}.
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@example
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char *_sbrk_r(void *@var{reent}, size_t @var{incr});
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@end example
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@end ftable
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