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.
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.
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.
26 (in-package "SB!UNIX")
28 (/show0 "unix.lisp 21")
30 ;;; Given a C-level zero-terminated array of C strings, return a
31 ;;; corresponding Lisp-level list of SIMPLE-STRINGs.
32 (defun c-strings->string-list (c-strings)
33 (declare (type (alien (* c-string)) c-strings))
34 (let ((reversed-result nil))
35 (dotimes (i most-positive-fixnum (error "argh! can't happen"))
36 (declare (type index i))
37 (let ((c-string (deref c-strings i)))
39 (push c-string reversed-result)
40 (return (nreverse reversed-result)))))))
42 ;;;; Lisp types used by syscalls
44 (deftype unix-pathname () 'simple-string)
45 (deftype unix-fd () `(integer 0 ,sb!xc:most-positive-fixnum))
47 (deftype unix-file-mode () '(unsigned-byte 32))
48 (deftype unix-pid () '(unsigned-byte 32))
49 (deftype unix-uid () '(unsigned-byte 32))
50 (deftype unix-gid () '(unsigned-byte 32))
54 (/show0 "unix.lisp 74")
56 ;;; FIXME: The various FOO-SYSCALL-BAR macros, and perhaps some other
57 ;;; macros in this file, are only used in this file, and could be
58 ;;; implemented using SB!XC:DEFMACRO wrapped in EVAL-WHEN.
60 ;;; SB-EXECUTABLE, at least, uses one of these macros; other libraries
61 ;;; and programs have been known to use them as well. Perhaps they
62 ;;; should live in SB-SYS or even SB-EXT?
64 (defmacro syscall ((name &rest arg-types) success-form &rest args)
66 (declare (optimize (sb!c::float-accuracy 0)))
67 (let ((result (alien-funcall (extern-alien ,name (function int ,@arg-types))
70 (values nil (get-errno))
73 ;;; This is like SYSCALL, but if it fails, signal an error instead of
74 ;;; returning error codes. Should only be used for syscalls that will
75 ;;; never really get an error.
76 (defmacro syscall* ((name &rest arg-types) success-form &rest args)
78 (declare (optimize (sb!c::float-accuracy 0)))
79 (let ((result (alien-funcall (extern-alien ,name (function int ,@arg-types))
82 (error "Syscall ~A failed: ~A" ,name (strerror))
85 (defmacro int-syscall ((name &rest arg-types) &rest args)
86 `(syscall (,name ,@arg-types) (values result 0) ,@args))
88 (defmacro with-restarted-syscall ((&optional (value (gensym))
90 syscall-form &rest body)
92 "Evaluate BODY with VALUE and ERRNO bound to the return values of
93 SYSCALL-FORM. Repeat evaluation of SYSCALL-FORM if it is interrupted."
95 (loop (multiple-value-setq (,value ,errno)
97 (unless #!-win32 (eql ,errno sb!unix:eintr) #!+win32 nil
98 (return (values ,value ,errno))))
101 (defmacro void-syscall ((name &rest arg-types) &rest args)
102 `(syscall (,name ,@arg-types) (values t 0) ,@args))
106 (defconstant espipe 29))
108 ;;;; hacking the Unix environment
111 (define-alien-routine ("getenv" posix-getenv) c-string
112 "Return the \"value\" part of the environment string \"name=value\" which
113 corresponds to NAME, or NIL if there is none."
114 (name (c-string :not-null t)))
118 ;;; Rename the file with string NAME1 to the string NAME2. NIL and an
119 ;;; error code is returned if an error occurs.
121 (defun unix-rename (name1 name2)
122 (declare (type unix-pathname name1 name2))
123 (void-syscall ("rename" (c-string :not-null t)
124 (c-string :not-null t))
127 ;;; from sys/types.h and gnu/types.h
129 (/show0 "unix.lisp 220")
131 ;;; FIXME: We shouldn't hand-copy types from header files into Lisp
132 ;;; like this unless we have extreme provocation. Reading directories
133 ;;; is not extreme enough, since it doesn't need to be blindingly
134 ;;; fast: we can just implement those functions in C as a wrapper
136 (define-alien-type fd-mask unsigned-long)
138 (define-alien-type nil
140 (fds-bits (array fd-mask #.(/ fd-setsize
141 sb!vm:n-machine-word-bits)))))
143 (/show0 "unix.lisp 304")
148 ;;;; POSIX Standard: 6.5 File Control Operations <fcntl.h>
150 ;;; Open the file whose pathname is specified by PATH for reading
151 ;;; and/or writing as specified by the FLAGS argument. Various FLAGS
152 ;;; masks (O_RDONLY etc.) are defined in fcntlbits.h.
154 ;;; If the O_CREAT flag is specified, then the file is created with a
155 ;;; permission of argument MODE if the file doesn't exist. An integer
156 ;;; file descriptor is returned by UNIX-OPEN.
157 (defun unix-open (path flags mode)
158 (declare (type unix-pathname path)
160 (type unix-file-mode mode))
161 (with-restarted-syscall (value errno)
162 (int-syscall ("open" c-string int int)
164 (logior #!+win32 o_binary
165 #!+largefile o_largefile
169 ;;; UNIX-CLOSE accepts a file descriptor and attempts to close the file
170 ;;; associated with it.
171 (/show0 "unix.lisp 391")
172 (defun unix-close (fd)
173 (declare (type unix-fd fd))
174 (void-syscall ("close" int) fd))
178 ;;; There are good reasons to implement some OPEN options with an
179 ;;; mkstemp(3)-like routine, but we don't do that yet. Instead, this
180 ;;; function is used only to make a temporary file for RUN-PROGRAM.
181 ;;; sb_mkstemp() is a wrapper that lives in src/runtime/wrap.c. Since
182 ;;; SUSv3 mkstemp() doesn't specify the mode of the created file and
183 ;;; since we have to implement most of this ourselves for Windows
184 ;;; anyway, it seems worthwhile to depart from the mkstemp()
185 ;;; specification by taking a mode to use when creating the new file.
186 (defun sb-mkstemp (template-string mode)
187 (declare (type string template-string)
188 (type unix-file-mode mode))
189 (let ((template-buffer (string-to-octets template-string :null-terminate t)))
190 (with-pinned-objects (template-buffer)
191 (let ((fd (alien-funcall (extern-alien "sb_mkstemp"
192 (function int (* char) int))
193 (vector-sap template-buffer)
196 (values nil (get-errno))
197 (values fd (octets-to-string template-buffer)))))))
201 ;; A time value that is accurate to the nearest
202 ;; microsecond but also has a range of years.
203 ;; CLH: Note that tv-usec used to be a time-t, but that this seems
204 ;; problematic on Darwin x86-64 (and wrong). Trying suseconds-t.
205 #!-(or win32 openbsd netbsd)
206 (define-alien-type nil
208 (tv-sec time-t) ; seconds
209 (tv-usec suseconds-t))) ; and microseconds
211 ;; The above definition doesn't work on 64-bit OpenBSD platforms.
212 ;; Both tv_sec and tv_usec are declared as long instead of time_t, and
213 ;; time_t is a typedef for int.
214 #!+(or openbsd netbsd)
215 (define-alien-type nil
217 (tv-sec long) ; seconds
218 (tv-usec long))) ; and microseconds
221 (define-alien-type nil
223 (tv-sec time-t) ; seconds
224 (tv-usec long))) ; and microseconds
228 (defconstant rusage_self 0) ; the calling process
229 (defconstant rusage_children -1) ; terminated child processes
230 (defconstant rusage_both -2)
232 (define-alien-type nil
234 (ru-utime (struct timeval)) ; user time used
235 (ru-stime (struct timeval)) ; system time used.
236 (ru-maxrss long) ; maximum resident set size (in kilobytes)
237 (ru-ixrss long) ; integral shared memory size
238 (ru-idrss long) ; integral unshared data size
239 (ru-isrss long) ; integral unshared stack size
240 (ru-minflt long) ; page reclaims
241 (ru-majflt long) ; page faults
242 (ru-nswap long) ; swaps
243 (ru-inblock long) ; block input operations
244 (ru-oublock long) ; block output operations
245 (ru-msgsnd long) ; messages sent
246 (ru-msgrcv long) ; messages received
247 (ru-nsignals long) ; signals received
248 (ru-nvcsw long) ; voluntary context switches
249 (ru-nivcsw long))) ; involuntary context switches
253 ;;; Given a file path (a string) and one of four constant modes,
254 ;;; return T if the file is accessible with that mode and NIL if not.
255 ;;; When NIL, also return an errno value with NIL which tells why the
256 ;;; file was not accessible.
258 ;;; The access modes are:
259 ;;; r_ok Read permission.
260 ;;; w_ok Write permission.
261 ;;; x_ok Execute permission.
262 ;;; f_ok Presence of file.
264 ;;; In Windows, the MODE argument to access is defined in terms of
265 ;;; literal magic numbers---there are no constants to grovel. X_OK
271 (defconstant r_ok 4))
273 (defun unix-access (path mode)
274 (declare (type unix-pathname path)
276 (void-syscall ("access" c-string int) path mode))
278 ;;; values for the second argument to UNIX-LSEEK
279 ;;; Note that nowadays these are called SEEK_SET, SEEK_CUR, and SEEK_END
280 (defconstant l_set 0) ; to set the file pointer
281 (defconstant l_incr 1) ; to increment the file pointer
282 (defconstant l_xtnd 2) ; to extend the file size
284 ;;; Is a stream interactive?
285 (defun unix-isatty (fd)
286 (declare (type unix-fd fd))
287 (int-syscall ("isatty" int) fd))
289 (defun unix-lseek (fd offset whence)
290 "Unix-lseek accepts a file descriptor and moves the file pointer by
291 OFFSET octets. Whence can be any of the following:
293 L_SET Set the file pointer.
294 L_INCR Increment the file pointer.
295 L_XTND Extend the file size.
297 (declare (type unix-fd fd)
298 (type (integer 0 2) whence))
299 (let ((result (alien-funcall (extern-alien #!-largefile "lseek"
300 #!+largefile "lseek_largefile"
301 (function off-t int off-t int))
304 (values nil (get-errno))
307 ;;; UNIX-READ accepts a file descriptor, a buffer, and the length to read.
308 ;;; It attempts to read len bytes from the device associated with fd
309 ;;; and store them into the buffer. It returns the actual number of
313 (declaim (maybe-inline unix-read))
315 (defun unix-read (fd buf len)
316 (declare (type unix-fd fd)
317 (type (unsigned-byte 32) len))
318 (int-syscall ("read" int (* char) int) fd buf len))
320 ;;; UNIX-WRITE accepts a file descriptor, a buffer, an offset, and the
321 ;;; length to write. It attempts to write len bytes to the device
322 ;;; associated with fd from the buffer starting at offset. It returns
323 ;;; the actual number of bytes written.
324 (defun unix-write (fd buf offset len)
325 (declare (type unix-fd fd)
326 (type (unsigned-byte 32) offset len))
328 (declare (system-area-pointer sap))
329 (int-syscall ("write" int (* char) int)
331 (with-alien ((ptr (* char) sap))
332 (addr (deref ptr offset)))
335 ((simple-array * (*))
336 (with-pinned-objects (buf)
337 (%write (vector-sap buf))))
341 ;;; Set up a unix-piping mechanism consisting of an input pipe and an
342 ;;; output pipe. Return two values: if no error occurred the first
343 ;;; value is the pipe to be read from and the second is can be written
344 ;;; to. If an error occurred the first value is NIL and the second the
348 (with-alien ((fds (array int 2)))
349 (syscall ("pipe" (* int))
350 (values (deref fds 0) (deref fds 1))
351 (cast fds (* int)))))
353 (defun msvcrt-raw-pipe (fds size mode)
354 (syscall ("_pipe" (* int) int int)
355 (values (deref fds 0) (deref fds 1))
356 (cast fds (* int)) size mode))
359 (with-alien ((fds (array int 2)))
360 (msvcrt-raw-pipe fds 256 o_binary)))
362 ;; Windows mkdir() doesn't take the mode argument. It's cdecl, so we could
363 ;; actually call it passing the mode argument, but some sharp-eyed reader
364 ;; would put five and twenty-seven together and ask us about it, so...
367 (defun unix-mkdir (name mode)
368 (declare (type unix-pathname name)
369 (type unix-file-mode mode)
370 #!+win32 (ignore mode))
371 (void-syscall ("mkdir" c-string #!-win32 int) name #!-win32 mode))
373 ;;; Given a C char* pointer allocated by malloc(), free it and return a
374 ;;; corresponding Lisp string (or return NIL if the pointer is a C NULL).
375 (defun newcharstar-string (newcharstar)
376 (declare (type (alien (* char)) newcharstar))
377 (if (null-alien newcharstar)
380 (cast newcharstar c-string)
381 (free-alien newcharstar))))
383 ;;; Return the Unix current directory as a SIMPLE-STRING, in the
384 ;;; style returned by getcwd() (no trailing slash character).
386 (defun posix-getcwd ()
387 ;; This implementation relies on a BSD/Linux extension to getcwd()
388 ;; behavior, automatically allocating memory when a null buffer
389 ;; pointer is used. On a system which doesn't support that
390 ;; extension, it'll have to be rewritten somehow.
392 ;; SunOS and OSF/1 provide almost as useful an extension: if given a null
393 ;; buffer pointer, it will automatically allocate size space. The
394 ;; KLUDGE in this solution arises because we have just read off
395 ;; PATH_MAX+1 from the Solaris header files and stuck it in here as
396 ;; a constant. Going the grovel_headers route doesn't seem to be
397 ;; helpful, either, as Solaris doesn't export PATH_MAX from
400 ;; FIXME: The (,stub,) nastiness produces an error message about a
401 ;; comma not inside a backquote. This error has absolutely nothing
402 ;; to do with the actual meaning of the error (and little to do with
403 ;; its location, either).
404 #!-(or linux openbsd freebsd netbsd sunos osf1 darwin hpux win32) (,stub,)
405 #!+(or linux openbsd freebsd netbsd sunos osf1 darwin hpux win32)
406 (or (newcharstar-string (alien-funcall (extern-alien "getcwd"
411 #!+(or linux openbsd freebsd netbsd darwin win32) 0
412 #!+(or sunos osf1 hpux) 1025))
413 (simple-perror "getcwd")))
415 ;;; Return the Unix current directory as a SIMPLE-STRING terminated
416 ;;; by a slash character.
417 (defun posix-getcwd/ ()
418 (concatenate 'string (posix-getcwd) "/"))
420 ;;; Duplicate an existing file descriptor (given as the argument) and
421 ;;; return it. If FD is not a valid file descriptor, NIL and an error
422 ;;; number are returned.
424 (declare (type unix-fd fd))
425 (int-syscall ("dup" int) fd))
427 ;;; Terminate the current process with an optional error code. If
428 ;;; successful, the call doesn't return. If unsuccessful, the call
429 ;;; returns NIL and an error number.
430 (deftype exit-code ()
432 (defun os-exit (code &key abort)
434 "Exit the process with CODE. If ABORT is true, exit is performed using _exit(2),
435 avoiding atexit(3) hooks, etc. Otherwise exit(2) is called."
436 (unless (typep code 'exit-code)
437 (setf code (if abort 1 0)))
439 (void-syscall ("_exit" int) code)
440 (void-syscall ("exit" int) code)))
442 (define-deprecated-function :early "1.0.56.55" unix-exit os-exit (code)
445 ;;; Return the process id of the current process.
446 (define-alien-routine ("getpid" unix-getpid) int)
448 ;;; Return the real user id associated with the current process.
450 (define-alien-routine ("getuid" unix-getuid) int)
452 ;;; Translate a user id into a login name.
454 (defun uid-username (uid)
455 (or (newcharstar-string (alien-funcall (extern-alien "uid_username"
456 (function (* char) int))
458 (error "found no match for Unix uid=~S" uid)))
460 ;;; Return the namestring of the home directory, being careful to
461 ;;; include a trailing #\/
464 (defun uid-homedir (uid)
465 (or (newcharstar-string (alien-funcall (extern-alien "uid_homedir"
466 (function (* char) int))
468 (error "failed to resolve home directory for Unix uid=~S" uid)))
470 (defun user-homedir (uid)
471 (or (newcharstar-string (alien-funcall (extern-alien "user_homedir"
472 (function (* char) c-string))
474 (error "failed to resolve home directory for Unix uid=~S" uid))))
476 ;;; Invoke readlink(2) on the file name specified by PATH. Return
477 ;;; (VALUES LINKSTRING NIL) on success, or (VALUES NIL ERRNO) on
480 (defun unix-readlink (path)
481 (declare (type unix-pathname path))
482 (with-alien ((ptr (* char)
483 (alien-funcall (extern-alien
485 (function (* char) c-string))
488 (values nil (get-errno))
489 (multiple-value-prog1
490 (values (with-alien ((c-string c-string ptr)) c-string)
494 ;; Win32 doesn't do links, but something likes to call this anyway.
495 ;; Something in this file, no less. But it only takes one result, so...
496 (defun unix-readlink (path)
497 (declare (ignore path))
500 (defun unix-realpath (path)
501 (declare (type unix-pathname path))
502 (with-alien ((ptr (* char)
503 (alien-funcall (extern-alien
505 (function (* char) c-string))
508 (values nil (get-errno))
509 (multiple-value-prog1
510 (values (with-alien ((c-string c-string ptr)) c-string)
514 ;;; UNIX-UNLINK accepts a name and deletes the directory entry for that
515 ;;; name and the file if this is the last link.
516 (defun unix-unlink (name)
517 (declare (type unix-pathname name))
518 (void-syscall ("unlink" c-string) name))
520 ;;; Return the name of the host machine as a string.
522 (defun unix-gethostname ()
523 (with-alien ((buf (array char 256)))
524 (syscall ("gethostname" (* char) int)
526 (cast buf (* char)) 256)))
529 (defun unix-setsid ()
530 (int-syscall ("setsid")))
534 ;;; UNIX-IOCTL performs a variety of operations on open i/o
535 ;;; descriptors. See the UNIX Programmer's Manual for more
538 (defun unix-ioctl (fd cmd arg)
539 (declare (type unix-fd fd)
540 (type (signed-byte 32) cmd))
541 (void-syscall ("ioctl" int int (* char)) fd cmd arg))
545 ;;; FIXME: All we seem to need is the RUSAGE_SELF version of this.
547 ;;; This is like getrusage(2), except it returns only the system and
548 ;;; user time, and returns the seconds and microseconds as separate
550 #!-sb-fluid (declaim (inline unix-fast-getrusage))
552 (defun unix-fast-getrusage (who)
553 (declare (values (member t)
554 (unsigned-byte 31) (integer 0 1000000)
555 (unsigned-byte 31) (integer 0 1000000)))
556 (with-alien ((usage (struct rusage)))
557 (syscall* ("getrusage" int (* (struct rusage)))
559 (slot (slot usage 'ru-utime) 'tv-sec)
560 (slot (slot usage 'ru-utime) 'tv-usec)
561 (slot (slot usage 'ru-stime) 'tv-sec)
562 (slot (slot usage 'ru-stime) 'tv-usec))
565 ;;; Return information about the resource usage of the process
566 ;;; specified by WHO. WHO can be either the current process
567 ;;; (rusage_self) or all of the terminated child processes
568 ;;; (rusage_children). NIL and an error number is returned if the call
571 (defun unix-getrusage (who)
572 (with-alien ((usage (struct rusage)))
573 (syscall ("getrusage" int (* (struct rusage)))
575 (+ (* (slot (slot usage 'ru-utime) 'tv-sec) 1000000)
576 (slot (slot usage 'ru-utime) 'tv-usec))
577 (+ (* (slot (slot usage 'ru-stime) 'tv-sec) 1000000)
578 (slot (slot usage 'ru-stime) 'tv-usec))
579 (slot usage 'ru-maxrss)
580 (slot usage 'ru-ixrss)
581 (slot usage 'ru-idrss)
582 (slot usage 'ru-isrss)
583 (slot usage 'ru-minflt)
584 (slot usage 'ru-majflt)
585 (slot usage 'ru-nswap)
586 (slot usage 'ru-inblock)
587 (slot usage 'ru-oublock)
588 (slot usage 'ru-msgsnd)
589 (slot usage 'ru-msgrcv)
590 (slot usage 'ru-nsignals)
591 (slot usage 'ru-nvcsw)
592 (slot usage 'ru-nivcsw))
595 (defvar *on-dangerous-wait* :warn)
597 ;;; Calling select in a bad place can hang in a nasty manner, so it's better
598 ;;; to have some way to detect these.
599 (defun note-dangerous-wait (type)
600 (let ((action *on-dangerous-wait*)
601 (*on-dangerous-wait* nil))
604 (warn "Starting a ~A without a timeout while interrupts are ~
608 (error "Starting a ~A without a timeout while interrupts are ~
613 "~&=== Starting a ~A without a timeout while interrupts are disabled. ===~%"
615 (sb!debug:backtrace)))
621 (define-alien-type nil
624 (events short) ; requested events
625 (revents short))) ; returned events
627 (defun unix-simple-poll (fd direction to-msec)
628 (declare (fixnum fd to-msec))
629 (when (and (minusp to-msec) (not *interrupts-enabled*))
630 (note-dangerous-wait "poll(2)"))
631 (let ((events (ecase direction
632 (:input (logior pollin pollpri))
634 (with-alien ((fds (struct pollfd)))
635 (with-restarted-syscall (count errno)
637 (setf (slot fds 'fd) fd
638 (slot fds 'events) events
639 (slot fds 'revents) 0)
640 (int-syscall ("poll" (* (struct pollfd)) int int)
641 (addr fds) 1 to-msec))
643 (let ((revents (slot fds 'revents)))
644 (or (and (eql 1 count) (logtest events revents))
645 (logtest pollhup revents)))
646 (error "Syscall poll(2) failed: ~A" (strerror))))))))
650 (defmacro with-fd-setsize ((n) &body body)
651 `(let ((,n (if (< 0 ,n fd-setsize)
653 (error "Cannot select(2) on ~D: above FD_SETSIZE limit."
654 (1- num-descriptors)))))
655 (declare (type (integer 0 #.fd-setsize) ,n))
658 ;;;; FIXME: Why have both UNIX-SELECT and UNIX-FAST-SELECT?
660 ;;; Perform the UNIX select(2) system call.
661 (declaim (inline unix-fast-select))
662 (defun unix-fast-select (num-descriptors
663 read-fds write-fds exception-fds
664 timeout-secs timeout-usecs)
665 (declare (type integer num-descriptors)
666 (type (or (alien (* (struct fd-set))) null)
667 read-fds write-fds exception-fds)
668 (type (or null (unsigned-byte 31)) timeout-secs timeout-usecs))
669 (with-fd-setsize (num-descriptors)
670 (flet ((select (tv-sap)
671 (int-syscall ("select" int (* (struct fd-set)) (* (struct fd-set))
672 (* (struct fd-set)) (* (struct timeval)))
673 num-descriptors read-fds write-fds exception-fds
675 (cond ((or timeout-secs timeout-usecs)
676 (with-alien ((tv (struct timeval)))
677 (setf (slot tv 'tv-sec) (or timeout-secs 0))
678 (setf (slot tv 'tv-usec) (or timeout-usecs 0))
679 (select (alien-sap (addr tv)))))
681 (unless *interrupts-enabled*
682 (note-dangerous-wait "select(2)"))
683 (select (int-sap 0)))))))
685 ;;; UNIX-SELECT accepts sets of file descriptors and waits for an event
686 ;;; to happen on one of them or to time out.
687 (defmacro num-to-fd-set (fdset num)
690 (setf (deref (slot ,fdset 'fds-bits) 0) ,num)
691 ,@(loop for index upfrom 1 below (/ fd-setsize
692 sb!vm:n-machine-word-bits)
693 collect `(setf (deref (slot ,fdset 'fds-bits) ,index) 0)))
695 ,@(loop for index upfrom 0 below (/ fd-setsize
696 sb!vm:n-machine-word-bits)
697 collect `(setf (deref (slot ,fdset 'fds-bits) ,index)
698 (ldb (byte sb!vm:n-machine-word-bits
699 ,(* index sb!vm:n-machine-word-bits))
702 (defmacro fd-set-to-num (nfds fdset)
703 `(if (<= ,nfds sb!vm:n-machine-word-bits)
704 (deref (slot ,fdset 'fds-bits) 0)
705 (+ ,@(loop for index upfrom 0 below (/ fd-setsize
706 sb!vm:n-machine-word-bits)
707 collect `(ash (deref (slot ,fdset 'fds-bits) ,index)
708 ,(* index sb!vm:n-machine-word-bits))))))
710 ;;; Examine the sets of descriptors passed as arguments to see whether
711 ;;; they are ready for reading and writing. See the UNIX Programmer's
712 ;;; Manual for more information.
713 (defun unix-select (nfds rdfds wrfds xpfds to-secs &optional (to-usecs 0))
714 (declare (type integer nfds)
715 (type unsigned-byte rdfds wrfds xpfds)
716 (type (or (unsigned-byte 31) null) to-secs)
717 (type (unsigned-byte 31) to-usecs)
718 (optimize (speed 3) (safety 0) (inhibit-warnings 3)))
719 (with-fd-setsize (nfds)
720 (with-alien ((tv (struct timeval))
721 (rdf (struct fd-set))
722 (wrf (struct fd-set))
723 (xpf (struct fd-set)))
725 (setf (slot tv 'tv-sec) to-secs
726 (slot tv 'tv-usec) to-usecs))
727 ((not *interrupts-enabled*)
728 (note-dangerous-wait "select(2)")))
729 (num-to-fd-set rdf rdfds)
730 (num-to-fd-set wrf wrfds)
731 (num-to-fd-set xpf xpfds)
732 (macrolet ((frob (lispvar alienvar)
733 `(if (zerop ,lispvar)
735 (alien-sap (addr ,alienvar)))))
736 (syscall ("select" int (* (struct fd-set)) (* (struct fd-set))
737 (* (struct fd-set)) (* (struct timeval)))
739 (fd-set-to-num nfds rdf)
740 (fd-set-to-num nfds wrf)
741 (fd-set-to-num nfds xpf))
742 nfds (frob rdfds rdf) (frob wrfds wrf) (frob xpfds xpf)
743 (if to-secs (alien-sap (addr tv)) (int-sap 0)))))))
745 ;;; Lisp-side implmentations of FD_FOO macros. Abandon all hope who enters
748 (defmacro fd-set (offset fd-set)
749 (with-unique-names (word bit)
750 `(multiple-value-bind (,word ,bit) (floor ,offset
751 sb!vm:n-machine-word-bits)
752 (setf (deref (slot ,fd-set 'fds-bits) ,word)
753 (logior (truly-the (unsigned-byte #.sb!vm:n-machine-word-bits)
755 (deref (slot ,fd-set 'fds-bits) ,word))))))
757 (defmacro fd-clr (offset fd-set)
758 (with-unique-names (word bit)
759 `(multiple-value-bind (,word ,bit) (floor ,offset
760 sb!vm:n-machine-word-bits)
761 (setf (deref (slot ,fd-set 'fds-bits) ,word)
762 (logand (deref (slot ,fd-set 'fds-bits) ,word)
763 (sb!kernel:word-logical-not
764 (truly-the (unsigned-byte #.sb!vm:n-machine-word-bits)
767 (defmacro fd-isset (offset fd-set)
768 (with-unique-names (word bit)
769 `(multiple-value-bind (,word ,bit) (floor ,offset
770 sb!vm:n-machine-word-bits)
771 (logbitp ,bit (deref (slot ,fd-set 'fds-bits) ,word)))))
773 (defmacro fd-zero (fd-set)
775 ,@(loop for index upfrom 0 below (/ fd-setsize sb!vm:n-machine-word-bits)
776 collect `(setf (deref (slot ,fd-set 'fds-bits) ,index) 0))))
779 (defun unix-simple-poll (fd direction to-msec)
780 (multiple-value-bind (to-sec to-usec)
783 (multiple-value-bind (to-sec to-msec2) (truncate to-msec 1000)
784 (values to-sec (* to-msec2 1000))))
785 (sb!unix:with-restarted-syscall (count errno)
786 (sb!alien:with-alien ((fds (sb!alien:struct sb!unix:fd-set)))
787 (sb!unix:fd-zero fds)
788 (sb!unix:fd-set fd fds)
789 (multiple-value-bind (read-fds write-fds)
792 (values (addr fds) nil))
794 (values nil (addr fds))))
795 (sb!unix:unix-fast-select (1+ fd)
796 read-fds write-fds nil
802 (error "Syscall select(2) failed on fd ~D: ~A" fd (strerror)))))))
806 ;;; This is a structure defined in src/runtime/wrap.c, to look
807 ;;; basically like "struct stat" according to stat(2). It may not
808 ;;; actually correspond to the real in-memory stat structure that the
809 ;;; syscall uses, and that's OK. Linux in particular is packed full of
810 ;;; stat macros, and trying to keep Lisp code in correspondence with
811 ;;; it is more pain than it's worth, so we just let our C runtime
812 ;;; synthesize a nice consistent structure for us.
814 ;;; Note that st-dev is a long, not a dev-t. This is because dev-t on
815 ;;; linux 32 bit archs is a 64 bit quantity, but alien doesn't support
816 ;;; those. We don't actually access that field anywhere, though, so
817 ;;; until we can get 64 bit alien support it'll do. Also note that
818 ;;; st_size is a long, not an off-t, because off-t is a 64-bit
819 ;;; quantity on Alpha. And FIXME: "No one would want a file length
820 ;;; longer than 32 bits anyway, right?":-|
822 ;;; The comment about alien and 64-bit quantities has not been kept in
823 ;;; sync with the comment now in wrap.h (formerly wrap.c), but it's
824 ;;; not clear whether either comment is correct. -- RMK 2007-11-14.
825 (define-alien-type nil
830 (st-nlink wst-nlink-t)
835 (st-blksize wst-blksize-t)
836 (st-blocks wst-blkcnt-t)
841 ;;; shared C-struct-to-multiple-VALUES conversion for the stat(2)
842 ;;; family of Unix system calls
844 ;;; FIXME: I think this should probably not be INLINE. However, when
845 ;;; this was not inline, it seemed to cause memory corruption
846 ;;; problems. My first guess is that it's a bug in the FFI code, where
847 ;;; the WITH-ALIEN expansion doesn't deal well with being wrapped
848 ;;; around a call to a function returning >10 values. But I didn't try
849 ;;; to figure it out, just inlined it as a quick fix. Perhaps someone
850 ;;; who's motivated to debug the FFI code can go over the DISASSEMBLE
851 ;;; output in the not-inlined case and see whether there's a problem,
852 ;;; and maybe even find a fix..
853 (declaim (inline %extract-stat-results))
854 (defun %extract-stat-results (wrapped-stat)
855 (declare (type (alien (* (struct wrapped_stat))) wrapped-stat))
857 (slot wrapped-stat 'st-dev)
858 (slot wrapped-stat 'st-ino)
859 (slot wrapped-stat 'st-mode)
860 (slot wrapped-stat 'st-nlink)
861 (slot wrapped-stat 'st-uid)
862 (slot wrapped-stat 'st-gid)
863 (slot wrapped-stat 'st-rdev)
864 (slot wrapped-stat 'st-size)
865 (slot wrapped-stat 'st-atime)
866 (slot wrapped-stat 'st-mtime)
867 (slot wrapped-stat 'st-ctime)
868 (slot wrapped-stat 'st-blksize)
869 (slot wrapped-stat 'st-blocks)))
871 ;;; Unix system calls in the stat(2) family are handled by calls to
872 ;;; C-level wrapper functions which copy all the raw "struct stat"
873 ;;; slots into the system-independent wrapped_stat format.
874 ;;; stat(2) <-> stat_wrapper()
875 ;;; fstat(2) <-> fstat_wrapper()
876 ;;; lstat(2) <-> lstat_wrapper()
877 (defun unix-stat (name)
878 (declare (type unix-pathname name))
879 (with-alien ((buf (struct wrapped_stat)))
880 (syscall ("stat_wrapper" c-string (* (struct wrapped_stat)))
881 (%extract-stat-results (addr buf))
883 (defun unix-lstat (name)
884 (declare (type unix-pathname name))
885 (with-alien ((buf (struct wrapped_stat)))
886 (syscall ("lstat_wrapper" c-string (* (struct wrapped_stat)))
887 (%extract-stat-results (addr buf))
889 (defun unix-fstat (fd)
890 (declare (type unix-fd fd))
891 (with-alien ((buf (struct wrapped_stat)))
892 (syscall ("fstat_wrapper" int (* (struct wrapped_stat)))
893 (%extract-stat-results (addr buf))
898 (declare (type unix-fd fd))
901 (or (with-alien ((buf (struct wrapped_stat)))
902 (syscall ("fstat_wrapper" int (* (struct wrapped_stat)))
906 (cond ((logtest sb!unix:s-ififo fmt)
908 ((logtest sb!unix:s-ifchr fmt)
910 ((logtest sb!unix:s-ifdir fmt)
912 ((logtest sb!unix:s-ifblk fmt)
914 ((logtest sb!unix:s-ifreg fmt)
916 ((logtest sb!unix:s-ifsock fmt)
923 ;; the POSIX.4 structure for a time value. This is like a "struct
924 ;; timeval" but has nanoseconds instead of microseconds.
925 #!-(or openbsd netbsd)
926 (define-alien-type nil
928 (tv-sec long) ; seconds
929 (tv-nsec long))) ; nanoseconds
931 ;; Just as with struct timeval, 64-bit OpenBSD has problems with the
932 ;; above definition. tv_sec is declared as time_t instead of long,
933 ;; and time_t is a typedef for int.
934 #!+(or openbsd netbsd)
935 (define-alien-type nil
937 (tv-sec time-t) ; seconds
938 (tv-nsec long))) ; nanoseconds
940 ;; used by other time functions
941 (define-alien-type nil
943 (tm-sec int) ; Seconds. [0-60] (1 leap second)
944 (tm-min int) ; Minutes. [0-59]
945 (tm-hour int) ; Hours. [0-23]
946 (tm-mday int) ; Day. [1-31]
947 (tm-mon int) ; Month. [0-11]
948 (tm-year int) ; Year - 1900.
949 (tm-wday int) ; Day of week. [0-6]
950 (tm-yday int) ; Days in year. [0-365]
951 (tm-isdst int) ; DST. [-1/0/1]
952 (tm-gmtoff long) ; Seconds east of UTC.
953 (tm-zone c-string))) ; Timezone abbreviation.
955 (define-alien-routine get-timezone sb!alien:void
957 (seconds-west sb!alien:int :out)
958 (daylight-savings-p sb!alien:boolean :out))
961 (defun nanosleep (secs nsecs)
962 (with-alien ((req (struct timespec))
963 (rem (struct timespec)))
964 (setf (slot req 'tv-sec) secs
965 (slot req 'tv-nsec) nsecs)
966 (loop while (and (eql sb!unix:eintr
968 (int-syscall ("nanosleep" (* (struct timespec))
969 (* (struct timespec)))
970 (addr req) (addr rem))))
971 ;; KLUDGE: On Darwin, if an interrupt cases nanosleep to
972 ;; take longer than the requested time, the call will
973 ;; return with EINT and (unsigned)-1 seconds in the
974 ;; remainder timespec, which would cause us to enter
975 ;; nanosleep again for ~136 years. So, we check that the
976 ;; remainder time is actually decreasing.
978 ;; It would be neat to do this bit of defensive
979 ;; programming on all platforms, but unfortunately on
980 ;; Linux, REM can be a little higher than REQ if the
981 ;; nanosleep() call is interrupted quickly enough,
982 ;; probably due to the request being rounded up to the
983 ;; nearest HZ. This would cause the sleep to return way
986 (let ((rem-sec (slot rem 'tv-sec))
987 (rem-nsec (slot rem 'tv-nsec)))
988 (when (or (> secs rem-sec)
989 (and (= secs rem-sec) (>= nsecs rem-nsec)))
990 ;; Update for next round.
994 do (setf (slot req 'tv-sec) (slot rem 'tv-sec)
995 (slot req 'tv-nsec) (slot rem 'tv-nsec)))))
997 (defun unix-get-seconds-west (secs)
998 (multiple-value-bind (ignore seconds dst) (get-timezone secs)
999 (declare (ignore ignore) (ignore dst))
1004 ;;; Structure crudely representing a timezone. KLUDGE: This is
1005 ;;; obsolete and should never be used.
1006 (define-alien-type nil
1008 (tz-minuteswest int) ; minutes west of Greenwich
1009 (tz-dsttime int))) ; type of dst correction
1012 ;; Type of the second argument to `getitimer' and
1013 ;; the second and third arguments `setitimer'.
1014 (define-alien-type nil
1016 (it-interval (struct timeval)) ; timer interval
1017 (it-value (struct timeval)))) ; current value
1019 (defconstant itimer-real 0)
1020 (defconstant itimer-virtual 1)
1021 (defconstant itimer-prof 2)
1024 (defun unix-getitimer (which)
1025 "Unix-getitimer returns the INTERVAL and VALUE slots of one of
1026 three system timers (:real :virtual or :profile). On success,
1027 unix-getitimer returns 5 values,
1028 T, it-interval-secs, it-interval-usec, it-value-secs, it-value-usec."
1029 (declare (type (member :real :virtual :profile) which)
1031 (unsigned-byte 29) (mod 1000000)
1032 (unsigned-byte 29) (mod 1000000)))
1033 (let ((which (ecase which
1035 (:virtual itimer-virtual)
1036 (:profile itimer-prof))))
1037 (with-alien ((itv (struct itimerval)))
1038 (syscall* ("getitimer" int (* (struct itimerval)))
1040 (slot (slot itv 'it-interval) 'tv-sec)
1041 (slot (slot itv 'it-interval) 'tv-usec)
1042 (slot (slot itv 'it-value) 'tv-sec)
1043 (slot (slot itv 'it-value) 'tv-usec))
1044 which (alien-sap (addr itv))))))
1047 (defun unix-setitimer (which int-secs int-usec val-secs val-usec)
1048 " Unix-setitimer sets the INTERVAL and VALUE slots of one of
1049 three system timers (:real :virtual or :profile). A SIGALRM signal
1050 will be delivered VALUE <seconds+microseconds> from now. INTERVAL,
1051 when non-zero, is <seconds+microseconds> to be loaded each time
1052 the timer expires. Setting INTERVAL and VALUE to zero disables
1053 the timer. See the Unix man page for more details. On success,
1054 unix-setitimer returns the old contents of the INTERVAL and VALUE
1055 slots as in unix-getitimer."
1056 (declare (type (member :real :virtual :profile) which)
1057 (type (unsigned-byte 29) int-secs val-secs)
1058 (type (integer 0 (1000000)) int-usec val-usec)
1060 (unsigned-byte 29) (mod 1000000)
1061 (unsigned-byte 29) (mod 1000000)))
1062 (let ((which (ecase which
1064 (:virtual itimer-virtual)
1065 (:profile itimer-prof))))
1066 (with-alien ((itvn (struct itimerval))
1067 (itvo (struct itimerval)))
1068 (setf (slot (slot itvn 'it-interval) 'tv-sec ) int-secs
1069 (slot (slot itvn 'it-interval) 'tv-usec) int-usec
1070 (slot (slot itvn 'it-value ) 'tv-sec ) val-secs
1071 (slot (slot itvn 'it-value ) 'tv-usec) val-usec)
1072 (syscall* ("setitimer" int (* (struct timeval))(* (struct timeval)))
1074 (slot (slot itvo 'it-interval) 'tv-sec)
1075 (slot (slot itvo 'it-interval) 'tv-usec)
1076 (slot (slot itvo 'it-value) 'tv-sec)
1077 (slot (slot itvo 'it-value) 'tv-usec))
1078 which (alien-sap (addr itvn))(alien-sap (addr itvo))))))
1081 ;;; FIXME: Many Unix error code definitions were deleted from the old
1082 ;;; CMU CL source code here, but not in the exports of SB-UNIX. I
1083 ;;; (WHN) hope that someday I'll figure out an automatic way to detect
1084 ;;; unused symbols in package exports, but if I don't, there are
1085 ;;; enough of them all in one place here that they should probably be
1086 ;;; removed by hand.
1088 (defconstant micro-seconds-per-internal-time-unit
1089 (/ 1000000 sb!xc:internal-time-units-per-second))
1091 ;;; UNIX specific code, that has been cleanly separated from the
1096 #!-sb-fluid (declaim (inline get-time-of-day))
1097 (defun get-time-of-day ()
1098 "Return the number of seconds and microseconds since the beginning of
1099 the UNIX epoch (January 1st 1970.)"
1101 (with-alien ((tv (struct timeval)))
1102 ;; CLH: FIXME! This seems to be a MacOS bug, but on x86-64/darwin,
1103 ;; gettimeofday occasionally fails. passing in a null pointer for the
1104 ;; timezone struct seems to work around the problem. NS notes: Darwin
1105 ;; manpage says the timezone is not used anymore in their implementation
1107 (syscall* ("gettimeofday" (* (struct timeval))
1108 (* (struct timezone)))
1109 (values (slot tv 'tv-sec)
1113 #!-(and x86-64 darwin)
1114 (with-alien ((tv (struct timeval))
1115 (tz (struct timezone)))
1116 (syscall* ("gettimeofday" (* (struct timeval))
1117 (* (struct timezone)))
1118 (values (slot tv 'tv-sec)
1123 (declaim (inline system-internal-run-time
1124 system-real-time-values))
1126 (defun system-real-time-values ()
1127 (multiple-value-bind (sec usec) (get-time-of-day)
1128 (declare (type (unsigned-byte 32) sec usec))
1129 (values sec (truncate usec micro-seconds-per-internal-time-unit))))
1131 ;; There are two optimizations here that actually matter (on 32-bit
1132 ;; systems): substract the epoch from seconds and milliseconds
1133 ;; separately, as those should remain fixnums for the first 17 years
1134 ;; or so of runtime. Also, avoid doing consing a new bignum if the
1135 ;; result would be = to the last result given.
1137 ;; Note: the next trick would be to spin a separate thread to update
1138 ;; a global value once per internal tick, so each individual call to
1139 ;; get-internal-real-time would be just a memory read... but that is
1140 ;; probably best left for user-level code. ;)
1142 ;; Thanks to James Anderson for the optimization hint.
1144 ;; Yes, it is possible to a computation to be GET-INTERNAL-REAL-TIME
1153 (declare (type (unsigned-byte 32) e-sec c-sec)
1154 (type fixnum e-msec c-msec)
1155 (type unsigned-byte now))
1156 (defun reinit-internal-real-time ()
1157 (setf (values e-sec e-msec) (system-real-time-values)
1160 ;; If two threads call this at the same time, we're still safe, I
1161 ;; believe, as long as NOW is updated before either of C-MSEC or
1162 ;; C-SEC. Same applies to interrupts. --NS
1164 ;; I believe this is almost correct with x86/x86-64 cache
1165 ;; coherency, but if the new value of C-SEC, C-MSEC can become
1166 ;; visible to another CPU without NOW doing the same then it's
1167 ;; unsafe. It's `almost' correct on x86 because writes by other
1168 ;; processors may become visible in any order provided transitity
1169 ;; holds. With at least three cpus, C-MSEC and C-SEC may be from
1170 ;; different threads and an incorrect value may be returned.
1171 ;; Considering that this failure is not detectable by the caller -
1172 ;; it looks like time passes a bit slowly - and that it should be
1173 ;; an extremely rare occurance I'm inclinded to leave it as it is.
1175 (defun get-internal-real-time ()
1176 (multiple-value-bind (sec msec) (system-real-time-values)
1177 (unless (and (= msec c-msec) (= sec c-sec))
1178 (setf now (+ (* (- sec e-sec)
1179 sb!xc:internal-time-units-per-second)
1185 (defun system-internal-run-time ()
1186 (multiple-value-bind (ignore utime-sec utime-usec stime-sec stime-usec)
1187 (unix-fast-getrusage rusage_self)
1188 (declare (ignore ignore)
1189 (type (unsigned-byte 31) utime-sec stime-sec)
1190 ;; (Classic CMU CL had these (MOD 1000000) instead, but
1191 ;; at least in Linux 2.2.12, the type doesn't seem to
1192 ;; be documented anywhere and the observed behavior is
1193 ;; to sometimes return 1000000 exactly.)
1194 (type (integer 0 1000000) utime-usec stime-usec))
1195 (let ((result (+ (* (+ utime-sec stime-sec)
1196 sb!xc:internal-time-units-per-second)
1197 (floor (+ utime-usec
1199 (floor micro-seconds-per-internal-time-unit 2))
1200 micro-seconds-per-internal-time-unit))))
1203 ;;; FIXME, KLUDGE: GET-TIME-OF-DAY used to be UNIX-GETTIMEOFDAY, and had a
1204 ;;; primary return value indicating sucess, and also returned timezone
1205 ;;; information -- though the timezone data was not there on Darwin.
1206 ;;; Now we have GET-TIME-OF-DAY, but it turns out that despite SB-UNIX being
1207 ;;; an implementation package UNIX-GETTIMEOFDAY has users in the wild.
1208 ;;; So we're stuck with it for a while -- maybe delete it towards the end
1210 (defun unix-gettimeofday ()
1211 (multiple-value-bind (sec usec) (get-time-of-day)
1212 (values t sec usec nil nil)))
1214 ;;;; opendir, readdir, closedir, and dirent-name
1216 (declaim (inline unix-opendir))
1217 (defun unix-opendir (namestring &optional (errorp t))
1218 (let ((dir (alien-funcall
1219 (extern-alien "sb_opendir"
1220 (function system-area-pointer c-string))
1222 (if (zerop (sap-int dir))
1223 (when errorp (simple-perror
1224 (format nil "Error opening directory ~S"
1228 (declaim (inline unix-readdir))
1229 (defun unix-readdir (dir &optional (errorp t) namestring)
1230 (let ((ent (alien-funcall
1231 (extern-alien "sb_readdir"
1232 (function system-area-pointer system-area-pointer))
1234 (if (zerop (sap-int ent))
1235 (when errorp (simple-perror
1236 (format nil "Error reading directory entry~@[ from ~S~]"
1240 (declaim (inline unix-closedir))
1241 (defun unix-closedir (dir &optional (errorp t) namestring)
1242 (let ((r (alien-funcall
1243 (extern-alien "sb_closedir" (function int system-area-pointer))
1246 (when errorp (simple-perror
1247 (format nil "Error closing directory~@[ ~S~]"
1251 (declaim (inline unix-dirent-name))
1252 (defun unix-dirent-name (ent)
1254 (extern-alien "sb_dirent_name" (function c-string system-area-pointer))
1257 ;;;; A magic constant for wait3().
1259 ;;;; FIXME: This used to be defined in run-program.lisp as
1260 ;;;; (defconstant wait-wstopped #-svr4 #o177 #+svr4 wait-wuntraced)
1261 ;;;; According to some of the man pages, the #o177 is part of the API
1262 ;;;; for wait3(); that said, under SunOS there is a WSTOPPED thing in
1263 ;;;; the headers that may or may not be the same thing. To be
1264 ;;;; investigated. -- CSR, 2002-03-25
1265 (defconstant wstopped #o177)