| blob | 368665e758d386d8046ec8cd7a4f457baa540ba5 |
1 ;;;; This file contains Unix support that SBCL needs to implement
2 ;;;; itself. It's derived from Peter Van Eynde's unix-glibc2.lisp for
3 ;;;; CMU CL, which was derived from CMU CL unix.lisp 1.56. But those
4 ;;;; files aspired to be complete Unix interfaces exported to the end
5 ;;;; user, while this file aims to be as simple as possible and is not
6 ;;;; intended for the end user.
7 ;;;;
8 ;;;; FIXME: The old CMU CL unix.lisp code was implemented as hand
9 ;;;; transcriptions from Unix headers into Lisp. It appears that this was as
10 ;;;; unmaintainable in practice as you'd expect in theory, so I really really
11 ;;;; don't want to do that. It'd be good to implement the various system calls
12 ;;;; as C code implemented using the Unix header files, and have their
13 ;;;; interface back to SBCL code be characterized by things like "32-bit-wide
14 ;;;; int" which are already in the interface between the runtime
15 ;;;; executable and the SBCL lisp code.
17 ;;;; This software is part of the SBCL system. See the README file for
18 ;;;; more information.
19 ;;;;
20 ;;;; This software is derived from the CMU CL system, which was
21 ;;;; written at Carnegie Mellon University and released into the
22 ;;;; public domain. The software is in the public domain and is
23 ;;;; provided with absolutely no warranty. See the COPYING and CREDITS
24 ;;;; files for more information.
36 ;;; Given a C-level zero-terminated array of C strings, return a
37 ;;; corresponding Lisp-level list of SIMPLE-STRINGs.
47 \f
48 ;;;; Lisp types used by syscalls
57 \f
58 ;;;; system calls
62 ;;; FIXME: The various FOO-SYSCALL-BAR macros, and perhaps some other
63 ;;; macros in this file, are only used in this file, and could be
64 ;;; implemented using SB!XC:DEFMACRO wrapped in EVAL-WHEN.
75 ;;; This is like SYSCALL, but if it fails, signal an error instead of
76 ;;; returning error codes. Should only be used for syscalls that will
77 ;;; never really get an error.
98 #!+sb-doc
99 "Evaluate BODY with VALUE and ERRNO bound to the return values of
100 SYSCALL-FORM. Repeat evaluation of SYSCALL-FORM if it is interrupted."
108 #!+win32
111 \f
112 ;;;; hacking the Unix environment
114 #!-win32
117 corresponds to NAME, or NIL if there is none."
119 \f
120 ;;; from stdio.h
122 ;;; Rename the file with string NAME1 to the string NAME2. NIL and an
123 ;;; error code is returned if an error occurs.
124 #!-win32
128 \f
129 ;;; from sys/types.h and gnu/types.h
133 ;;; FIXME: We shouldn't hand-copy types from header files into Lisp
134 ;;; like this unless we have extreme provocation. Reading directories
135 ;;; is not extreme enough, since it doesn't need to be blindingly
136 ;;; fast: we can just implement those functions in C as a wrapper
137 ;;; layer.
149 \f
150 \f
151 ;;;; fcntl.h
152 ;;;;
153 ;;;; POSIX Standard: 6.5 File Control Operations <fcntl.h>
155 ;;; Open the file whose pathname is specified by PATH for reading
156 ;;; and/or writing as specified by the FLAGS argument. Various FLAGS
157 ;;; masks (O_RDONLY etc.) are defined in fcntlbits.h.
158 ;;;
159 ;;; If the O_CREAT flag is specified, then the file is created with a
160 ;;; permission of argument MODE if the file doesn't exist. An integer
161 ;;; file descriptor is returned by UNIX-OPEN.
167 path
169 #!+largefile o_largefile
170 flags)
171 mode))
173 ;;; UNIX-CLOSE accepts a file descriptor and attempts to close the file
174 ;;; associated with it.
179 \f
180 ;;;; stdlib.h
182 ;;; There are good reasons to implement some OPEN options with an
183 ;;; mkstemp(3)-like routine, but we don't do that yet. Instead, this
184 ;;; function is used only to make a temporary file for RUN-PROGRAM.
185 ;;; sb_mkstemp() is a wrapper that lives in src/runtime/wrap.c. Since
186 ;;; SUSv3 mkstemp() doesn't specify the mode of the created file and
187 ;;; since we have to implement most of this ourselves for Windows
188 ;;; anyway, it seems worthwhile to depart from the mkstemp()
189 ;;; specification by taking a mode to use when creating the new file.
198 mode)))
202 \f
203 ;;;; timebits.h
205 ;; A time value that is accurate to the nearest
206 ;; microsecond but also has a range of years.
207 ;; CLH: Note that tv-usec used to be a time-t, but that this seems
208 ;; problematic on Darwin x86-64 (and wrong). Trying suseconds-t.
209 #!-win32
215 #!+win32
220 \f
221 ;;;; resourcebits.h
245 \f
246 ;;;; unistd.h
248 ;;; Given a file path (a string) and one of four constant modes,
249 ;;; return T if the file is accessible with that mode and NIL if not.
250 ;;; When NIL, also return an errno value with NIL which tells why the
251 ;;; file was not accessible.
252 ;;;
253 ;;; The access modes are:
254 ;;; r_ok Read permission.
255 ;;; w_ok Write permission.
256 ;;; x_ok Execute permission.
257 ;;; f_ok Presence of file.
259 ;;; In Windows, the MODE argument to access is defined in terms of
260 ;;; literal magic numbers---there are no constants to grovel. X_OK
261 ;;; is not defined.
262 #!+win32
273 ;;; values for the second argument to UNIX-LSEEK
278 ;;; Is a stream interactive?
284 "Unix-lseek accepts a file descriptor and moves the file pointer by
285 OFFSET octets. Whence can be any of the following:
287 L_SET Set the file pointer.
288 L_INCR Increment the file pointer.
289 L_XTND Extend the file size.
290 "
296 fd offset whence)))
301 ;;; UNIX-READ accepts a file descriptor, a buffer, and the length to read.
302 ;;; It attempts to read len bytes from the device associated with fd
303 ;;; and store them into the buffer. It returns the actual number of
304 ;;; bytes read.
314 ;;; UNIX-WRITE accepts a file descriptor, a buffer, an offset, and the
315 ;;; length to write. It attempts to write len bytes to the device
316 ;;; associated with fd from the buffer starting at offset. It returns
317 ;;; the actual number of bytes written.
324 fd
327 len)))
335 ;;; Set up a unix-piping mechanism consisting of an input pipe and an
336 ;;; output pipe. Return two values: if no error occurred the first
337 ;;; value is the pipe to be read from and the second is can be written
338 ;;; to. If an error occurred the first value is NIL and the second the
339 ;;; unix error code.
340 #!-win32
346 #!+win32
351 #!+win32
356 ;; Windows mkdir() doesn't take the mode argument. It's cdecl, so we could
357 ;; actually call it passing the mode argument, but some sharp-eyed reader
358 ;; would put five and twenty-seven together and ask us about it, so...
359 ;; -- AB, 2005-12-27
360 #!-win32
367 ;;; Given a C char* pointer allocated by malloc(), free it and return a
368 ;;; corresponding Lisp string (or return NIL if the pointer is a C NULL).
372 nil
377 ;;; Return the Unix current directory as a SIMPLE-STRING, in the
378 ;;; style returned by getcwd() (no trailing slash character).
379 #!-win32
381 ;; This implementation relies on a BSD/Linux extension to getcwd()
382 ;; behavior, automatically allocating memory when a null buffer
383 ;; pointer is used. On a system which doesn't support that
384 ;; extension, it'll have to be rewritten somehow.
385 ;;
386 ;; SunOS and OSF/1 provide almost as useful an extension: if given a null
387 ;; buffer pointer, it will automatically allocate size space. The
388 ;; KLUDGE in this solution arises because we have just read off
389 ;; PATH_MAX+1 from the Solaris header files and stuck it in here as
390 ;; a constant. Going the grovel_headers route doesn't seem to be
391 ;; helpful, either, as Solaris doesn't export PATH_MAX from
392 ;; unistd.h.
393 ;;
394 ;; FIXME: The (,stub,) nastiness produces an error message about a
395 ;; comma not inside a backquote. This error has absolutely nothing
396 ;; to do with the actual meaning of the error (and little to do with
397 ;; its location, either).
403 size-t))
404 nil
409 ;;; Return the Unix current directory as a SIMPLE-STRING terminated
410 ;;; by a slash character.
414 ;;; Duplicate an existing file descriptor (given as the argument) and
415 ;;; return it. If FD is not a valid file descriptor, NIL and an error
416 ;;; number are returned.
421 ;;; Terminate the current process with an optional error code. If
422 ;;; successful, the call doesn't return. If unsuccessful, the call
423 ;;; returns NIL and an error number.
428 ;;; Return the process id of the current process.
431 ;;; Return the real user id associated with the current process.
432 #!-win32
435 ;;; Translate a user id into a login name.
436 #!-win32
440 uid))
443 ;;; Return the namestring of the home directory, being careful to
444 ;;; include a trailing #\/
445 #!-win32
449 uid))
452 ;;; Invoke readlink(2) on the file name specified by PATH. Return
453 ;;; (VALUES LINKSTRING NIL) on success, or (VALUES NIL ERRNO) on
454 ;;; failure.
455 #!-win32
460 "wrapped_readlink"
462 path)))
467 nil)
469 #!+win32
470 ;; Win32 doesn't do links, but something likes to call this anyway.
471 ;; Something in this file, no less. But it only takes one result, so...
474 nil)
480 "sb_realpath"
482 path)))
487 nil)
490 ;;; UNIX-UNLINK accepts a name and deletes the directory entry for that
491 ;;; name and the file if this is the last link.
496 ;;; Return the name of the host machine as a string.
497 #!-win32
504 #!-win32
508 ;;;; sys/ioctl.h
510 ;;; UNIX-IOCTL performs a variety of operations on open i/o
511 ;;; descriptors. See the UNIX Programmer's Manual for more
512 ;;; information.
513 #!-win32
518 \f
519 ;;;; sys/resource.h
521 ;;; FIXME: All we seem to need is the RUSAGE_SELF version of this.
522 ;;;
523 ;;; This is like getrusage(2), except it returns only the system and
524 ;;; user time, and returns the seconds and microseconds as separate
525 ;;; values.
527 #!-win32
541 ;;; Return information about the resource usage of the process
542 ;;; specified by WHO. WHO can be either the current process
543 ;;; (rusage_self) or all of the terminated child processes
544 ;;; (rusage_children). NIL and an error number is returned if the call
545 ;;; fails.
546 #!-win32
570 \f
571 ;;;; sys/select.h
575 ;;; Calling select in a bad place can hang in a nasty manner, so it's better
576 ;;; to have some way to detect these.
581 (:warn
584 (:error
587 (:backtrace
589 "=== Starting a select without a timeout while interrupts are disabled. ==="
592 nil))
594 ;;;; FIXME: Why have both UNIX-SELECT and UNIX-FAST-SELECT?
596 ;;; Perform the UNIX select(2) system call.
599 read-fds write-fds exception-fds
600 timeout-secs timeout-usecs)
603 read-fds write-fds exception-fds)
608 num-descriptors read-fds write-fds exception-fds
609 tv-sap)))
620 ;;; UNIX-SELECT accepts sets of file descriptors and waits for an event
621 ;;; to happen on one of them or to time out.
645 ;;; Examine the sets of descriptors passed as arguments to see whether
646 ;;; they are ready for reading and writing. See the UNIX Programmer's
647 ;;; Manual for more information.
678 \f
679 ;;;; sys/stat.h
681 ;;; This is a structure defined in src/runtime/wrap.c, to look
682 ;;; basically like "struct stat" according to stat(2). It may not
683 ;;; actually correspond to the real in-memory stat structure that the
684 ;;; syscall uses, and that's OK. Linux in particular is packed full of
685 ;;; stat macros, and trying to keep Lisp code in correspondence with
686 ;;; it is more pain than it's worth, so we just let our C runtime
687 ;;; synthesize a nice consistent structure for us.
688 ;;;
689 ;;; Note that st-dev is a long, not a dev-t. This is because dev-t on
690 ;;; linux 32 bit archs is a 64 bit quantity, but alien doesn't support
691 ;;; those. We don't actually access that field anywhere, though, so
692 ;;; until we can get 64 bit alien support it'll do. Also note that
693 ;;; st_size is a long, not an off-t, because off-t is a 64-bit
694 ;;; quantity on Alpha. And FIXME: "No one would want a file length
695 ;;; longer than 32 bits anyway, right?":-|
696 ;;;
697 ;;; The comment about alien and 64-bit quantities has not been kept in
698 ;;; sync with the comment now in wrap.h (formerly wrap.c), but it's
699 ;;; not clear whether either comment is correct. -- RMK 2007-11-14.
716 ;;; shared C-struct-to-multiple-VALUES conversion for the stat(2)
717 ;;; family of Unix system calls
718 ;;;
719 ;;; FIXME: I think this should probably not be INLINE. However, when
720 ;;; this was not inline, it seemed to cause memory corruption
721 ;;; problems. My first guess is that it's a bug in the FFI code, where
722 ;;; the WITH-ALIEN expansion doesn't deal well with being wrapped
723 ;;; around a call to a function returning >10 values. But I didn't try
724 ;;; to figure it out, just inlined it as a quick fix. Perhaps someone
725 ;;; who's motivated to debug the FFI code can go over the DISASSEMBLE
726 ;;; output in the not-inlined case and see whether there's a problem,
727 ;;; and maybe even find a fix..
746 ;;; Unix system calls in the stat(2) family are handled by calls to
747 ;;; C-level wrapper functions which copy all the raw "struct stat"
748 ;;; slots into the system-independent wrapped_stat format.
749 ;;; stat(2) <-> stat_wrapper()
750 ;;; fstat(2) <-> fstat_wrapper()
751 ;;; lstat(2) <-> lstat_wrapper()
770 \f
771 ;;;; time.h
773 ;; the POSIX.4 structure for a time value. This is like a "struct
774 ;; timeval" but has nanoseconds instead of microseconds.
780 ;; used by other time functions
800 #!-win32
817 \f
818 ;;;; sys/time.h
820 ;;; Structure crudely representing a timezone. KLUDGE: This is
821 ;;; obsolete and should never be used.
827 ;;; If it works, UNIX-GETTIMEOFDAY returns 5 values: T, the seconds
828 ;;; and microseconds of the current time of day, the timezone (in
829 ;;; minutes west of Greenwich), and a daylight-savings flag. If it
830 ;;; doesn't work, it returns NIL and the errno.
835 ;; CLH: FIXME! This seems to be a MacOS bug, but on x86-64/darwin,
836 ;; gettimeofday occasionally fails. passing in a null pointer for
837 ;; the timezone struct seems to work around the problem. I can't
838 ;; find any instances in the SBCL where we actually ues the
839 ;; timezone values, so we just punt for the moment.
846 nil))
859 \f
861 ;; Type of the second argument to `getitimer' and
862 ;; the second and third arguments `setitimer'.
872 #!-win32
874 "Unix-getitimer returns the INTERVAL and VALUE slots of one of
875 three system timers (:real :virtual or :profile). On success,
876 unix-getitimer returns 5 values,
877 T, it-interval-secs, it-interval-usec, it-value-secs, it-value-usec."
895 #!-win32
897 " Unix-setitimer sets the INTERVAL and VALUE slots of one of
898 three system timers (:real :virtual or :profile). A SIGALRM signal
899 will be delivered VALUE <seconds+microseconds> from now. INTERVAL,
900 when non-zero, is <seconds+microseconds> to be loaded each time
901 the timer expires. Setting INTERVAL and VALUE to zero disables
902 the timer. See the Unix man page for more details. On success,
903 unix-setitimer returns the old contents of the INTERVAL and VALUE
904 slots as in unix-getitimer."
929 \f
930 ;;; FIXME: Many Unix error code definitions were deleted from the old
931 ;;; CMU CL source code here, but not in the exports of SB-UNIX. I
932 ;;; (WHN) hope that someday I'll figure out an automatic way to detect
933 ;;; unused symbols in package exports, but if I don't, there are
934 ;;; enough of them all in one place here that they should probably be
935 ;;; removed by hand.
936 \f
937 ;;;; support routines for dealing with Unix pathnames
940 #!+sb-doc
941 "Return either :FILE, :DIRECTORY, :LINK, :SPECIAL, or NIL."
951 #!-win32
954 \f
958 ;;; UNIX specific code, that has been cleanly separated from the
959 ;;; Windows build.
960 #!-win32
963 system-real-time-values))
970 ;; There are two optimizations here that actually matter (on 32-bit
971 ;; systems): substract the epoch from seconds and milliseconds
972 ;; separately, as those should remain fixnums for the first 17 years
973 ;; or so of runtime. Also, avoid doing consing a new bignum if the
974 ;; result would be = to the last result given.
975 ;;
976 ;; Note: the next trick would be to spin a separate thread to update
977 ;; a global value once per internal tick, so each individual call to
978 ;; get-internal-real-time would be just a memory read... but that is
979 ;; probably best left for user-level code. ;)
980 ;;
981 ;; Thanks to James Anderson for the optimization hint.
982 ;;
983 ;; Yes, it is possible to a computation to be GET-INTERNAL-REAL-TIME
984 ;; bound.
985 ;;
986 ;; --NS 2007-04-05
997 c-sec 0
999 ;; If two threads call this at the same time, we're still safe, I believe,
1000 ;; as long as NOW is updated before either of C-MSEC or C-SEC. Same applies
1001 ;; to interrupts. --NS
1008 c-msec msec
1009 c-sec sec))
1010 now)))
1017 ;; (Classic CMU CL had these (MOD 1000000) instead, but
1018 ;; at least in Linux 2.2.12, the type doesn't seem to
1019 ;; be documented anywhere and the observed behavior is
1020 ;; to sometimes return 1000000 exactly.)
1025 stime-usec
1027 micro-seconds-per-internal-time-unit))))
1028 result))))
1029 \f
1030 ;;;; A magic constant for wait3().
1031 ;;;;
1032 ;;;; FIXME: This used to be defined in run-program.lisp as
1033 ;;;; (defconstant wait-wstopped #-svr4 #o177 #+svr4 wait-wuntraced)
1034 ;;;; According to some of the man pages, the #o177 is part of the API
1035 ;;;; for wait3(); that said, under SunOS there is a WSTOPPED thing in
1036 ;;;; the headers that may or may not be the same thing. To be
1037 ;;;; investigated. -- CSR, 2002-03-25
1040 \f
1041 ;;;; stuff not yet found in the header files
1042 ;;;;
1043 ;;;; Abandon all hope who enters here...
1045 ;;; not checked for linux...
1056 ;;; not checked for linux...
1068 ;;; not checked for linux...
1076 ;;; not checked for linux...