-;;;; support routines for dealing with Unix pathnames
-
-(defun unix-file-kind (name &optional check-for-links)
- #!+sb-doc
- "Return either :FILE, :DIRECTORY, :LINK, :SPECIAL, or NIL."
- (declare (simple-string name))
- (multiple-value-bind (res dev ino mode)
- (if check-for-links (unix-lstat name) (unix-stat name))
- (declare (type (or fixnum null) mode)
- (ignore dev ino))
- (when res
- (let ((kind (logand mode s-ifmt)))
- (cond ((eql kind s-ifdir) :directory)
- ((eql kind s-ifreg) :file)
- ((eql kind s-iflnk) :link)
- (t :special))))))
-
-(defun unix-maybe-prepend-current-directory (name)
- (declare (simple-string name))
- (if (and (> (length name) 0) (char= (schar name 0) #\/))
- name
- (multiple-value-bind (win dir) (unix-current-directory)
- (if win
- (concatenate 'simple-string dir "/" name)
- name))))
-
-;;; Return the pathname with all symbolic links resolved.
-;;;
-;;; FIXME: Could we just use Unix readlink(2) instead?
-(defun unix-resolve-links (pathname)
- (declare (simple-string pathname))
- (let ((len (length pathname))
- (pending pathname))
- (declare (fixnum len) (simple-string pending))
- (if (zerop len)
- pathname
- (let ((result (make-string 1024 :initial-element (code-char 0)))
- (fill-ptr 0)
- (name-start 0))
- (loop
- (let* ((name-end (or (position #\/ pending :start name-start) len))
- (new-fill-ptr (+ fill-ptr (- name-end name-start))))
- (replace result pending
- :start1 fill-ptr
- :end1 new-fill-ptr
- :start2 name-start
- :end2 name-end)
- (let ((kind (unix-file-kind (if (zerop name-end) "/" result) t)))
- (unless kind (return nil))
- (cond ((eq kind :link)
- (multiple-value-bind (link err) (unix-readlink result)
- (unless link
- (error 'simple-file-error
- :pathname pathname
- :format-control
- "~@<error reading link ~S: ~2I~_~A~:>"
- :format-arguments (list (subseq
- result 0 fill-ptr)
- (strerror err))))
- (cond ((or (zerop (length link))
- (char/= (schar link 0) #\/))
- ;; It's a relative link.
- (fill result (code-char 0)
- :start fill-ptr
- :end new-fill-ptr))
- ((string= result "/../" :end1 4)
- ;; It's across the super-root.
- (let ((slash (or (position #\/ result :start 4)
- 0)))
- (fill result (code-char 0)
- :start slash
- :end new-fill-ptr)
- (setf fill-ptr slash)))
- (t
- ;; It's absolute.
- (and (> (length link) 0)
- (char= (schar link 0) #\/))
- (fill result (code-char 0) :end new-fill-ptr)
- (setf fill-ptr 0)))
- (setf pending
- (if (= name-end len)
- link
- (concatenate 'simple-string
- link
- (subseq pending name-end))))
- (setf len (length pending))
- (setf name-start 0)))
- ((= name-end len)
- (return (subseq result 0 new-fill-ptr)))
- ((eq kind :directory)
- (setf (schar result new-fill-ptr) #\/)
- (setf fill-ptr (1+ new-fill-ptr))
- (setf name-start (1+ name-end)))
- (t
- (return nil))))))))))
-
-(defun unix-simplify-pathname (src)
- (declare (simple-string src))
- (let* ((src-len (length src))
- (dst (make-string src-len))
- (dst-len 0)
- (dots 0)
- (last-slash nil))
- (macrolet ((deposit (char)
- `(progn
- (setf (schar dst dst-len) ,char)
- (incf dst-len))))
- (dotimes (src-index src-len)
- (let ((char (schar src src-index)))
- (cond ((char= char #\.)
- (when dots
- (incf dots))
- (deposit char))
- ((char= char #\/)
- (case dots
- (0
- ;; Either ``/...' or ``...//...'
- (unless last-slash
- (setf last-slash dst-len)
- (deposit char)))
- (1
- ;; Either ``./...'' or ``..././...''
- (decf dst-len))
- (2
- ;; We've found ..
- (cond
- ((and last-slash (not (zerop last-slash)))
- ;; There is something before this ..
- (let ((prev-prev-slash
- (position #\/ dst :end last-slash :from-end t)))
- (cond ((and (= (+ (or prev-prev-slash 0) 2)
- last-slash)
- (char= (schar dst (- last-slash 2)) #\.)
- (char= (schar dst (1- last-slash)) #\.))
- ;; The something before this .. is another ..
- (deposit char)
- (setf last-slash dst-len))
- (t
- ;; The something is some directory or other.
- (setf dst-len
- (if prev-prev-slash
- (1+ prev-prev-slash)
- 0))
- (setf last-slash prev-prev-slash)))))
- (t
- ;; There is nothing before this .., so we need to keep it
- (setf last-slash dst-len)
- (deposit char))))
- (t
- ;; Something other than a dot between slashes.
- (setf last-slash dst-len)
- (deposit char)))
- (setf dots 0))
- (t
- (setf dots nil)
- (setf (schar dst dst-len) char)
- (incf dst-len))))))
- (when (and last-slash (not (zerop last-slash)))
- (case dots
- (1
- ;; We've got ``foobar/.''
- (decf dst-len))
- (2
- ;; We've got ``foobar/..''
- (unless (and (>= last-slash 2)
- (char= (schar dst (1- last-slash)) #\.)
- (char= (schar dst (- last-slash 2)) #\.)
- (or (= last-slash 2)
- (char= (schar dst (- last-slash 3)) #\/)))
- (let ((prev-prev-slash
- (position #\/ dst :end last-slash :from-end t)))
- (if prev-prev-slash
- (setf dst-len (1+ prev-prev-slash))
- (return-from unix-simplify-pathname "./")))))))
- (cond ((zerop dst-len)
- "./")
- ((= dst-len src-len)
- dst)
- (t
- (subseq dst 0 dst-len)))))
+(defconstant micro-seconds-per-internal-time-unit
+ (/ 1000000 sb!xc:internal-time-units-per-second))
+
+;;; UNIX specific code, that has been cleanly separated from the
+;;; Windows build.
+#!-win32
+(progn
+
+ #!-sb-fluid (declaim (inline get-time-of-day))
+ (defun get-time-of-day ()
+ "Return the number of seconds and microseconds since the beginning of
+the UNIX epoch (January 1st 1970.)"
+ #!+darwin
+ (with-alien ((tv (struct timeval)))
+ ;; CLH: FIXME! This seems to be a MacOS bug, but on x86-64/darwin,
+ ;; gettimeofday occasionally fails. passing in a null pointer for the
+ ;; timezone struct seems to work around the problem. NS notes: Darwin
+ ;; manpage says the timezone is not used anymore in their implementation
+ ;; at all.
+ (syscall* ("gettimeofday" (* (struct timeval))
+ (* (struct timezone)))
+ (values (slot tv 'tv-sec)
+ (slot tv 'tv-usec))
+ (addr tv)
+ nil))
+ #!-(and x86-64 darwin)
+ (with-alien ((tv (struct timeval))
+ (tz (struct timezone)))
+ (syscall* ("gettimeofday" (* (struct timeval))
+ (* (struct timezone)))
+ (values (slot tv 'tv-sec)
+ (slot tv 'tv-usec))
+ (addr tv)
+ (addr tz))))
+
+ (declaim (inline system-internal-run-time
+ system-real-time-values))
+
+ (defun system-real-time-values ()
+ (multiple-value-bind (sec usec) (get-time-of-day)
+ (declare (type (unsigned-byte 32) sec usec))
+ (values sec (truncate usec micro-seconds-per-internal-time-unit))))
+
+ ;; There are two optimizations here that actually matter (on 32-bit
+ ;; systems): substract the epoch from seconds and milliseconds
+ ;; separately, as those should remain fixnums for the first 17 years
+ ;; or so of runtime. Also, avoid doing consing a new bignum if the
+ ;; result would be = to the last result given.
+ ;;
+ ;; Note: the next trick would be to spin a separate thread to update
+ ;; a global value once per internal tick, so each individual call to
+ ;; get-internal-real-time would be just a memory read... but that is
+ ;; probably best left for user-level code. ;)
+ ;;
+ ;; Thanks to James Anderson for the optimization hint.
+ ;;
+ ;; Yes, it is possible to a computation to be GET-INTERNAL-REAL-TIME
+ ;; bound.
+ ;;
+ ;; --NS 2007-04-05
+ (let ((e-sec 0)
+ (e-msec 0)
+ (c-sec 0)
+ (c-msec 0)
+ (now 0))
+ (declare (type (unsigned-byte 32) e-sec c-sec)
+ (type fixnum e-msec c-msec)
+ (type unsigned-byte now))
+ (defun reinit-internal-real-time ()
+ (setf (values e-sec e-msec) (system-real-time-values)
+ c-sec 0
+ c-msec 0))
+ ;; If two threads call this at the same time, we're still safe, I
+ ;; believe, as long as NOW is updated before either of C-MSEC or
+ ;; C-SEC. Same applies to interrupts. --NS
+ ;;
+ ;; I believe this is almost correct with x86/x86-64 cache
+ ;; coherency, but if the new value of C-SEC, C-MSEC can become
+ ;; visible to another CPU without NOW doing the same then it's
+ ;; unsafe. It's `almost' correct on x86 because writes by other
+ ;; processors may become visible in any order provided transitity
+ ;; holds. With at least three cpus, C-MSEC and C-SEC may be from
+ ;; different threads and an incorrect value may be returned.
+ ;; Considering that this failure is not detectable by the caller -
+ ;; it looks like time passes a bit slowly - and that it should be
+ ;; an extremely rare occurance I'm inclinded to leave it as it is.
+ ;; --MG
+ (defun get-internal-real-time ()
+ (multiple-value-bind (sec msec) (system-real-time-values)
+ (unless (and (= msec c-msec) (= sec c-sec))
+ (setf now (+ (* (- sec e-sec)
+ sb!xc:internal-time-units-per-second)
+ (- msec e-msec))
+ c-msec msec
+ c-sec sec))
+ now)))
+
+ (defun system-internal-run-time ()
+ (multiple-value-bind (ignore utime-sec utime-usec stime-sec stime-usec)
+ (unix-fast-getrusage rusage_self)
+ (declare (ignore ignore)
+ (type (unsigned-byte 31) utime-sec stime-sec)
+ ;; (Classic CMU CL had these (MOD 1000000) instead, but
+ ;; at least in Linux 2.2.12, the type doesn't seem to
+ ;; be documented anywhere and the observed behavior is
+ ;; to sometimes return 1000000 exactly.)
+ (type (integer 0 1000000) utime-usec stime-usec))
+ (let ((result (+ (* (+ utime-sec stime-sec)
+ sb!xc:internal-time-units-per-second)
+ (floor (+ utime-usec
+ stime-usec
+ (floor micro-seconds-per-internal-time-unit 2))
+ micro-seconds-per-internal-time-unit))))
+ result))))
+\f
+;;; FIXME, KLUDGE: GET-TIME-OF-DAY used to be UNIX-GETTIMEOFDAY, and had a
+;;; primary return value indicating sucess, and also returned timezone
+;;; information -- though the timezone data was not there on Darwin.
+;;; Now we have GET-TIME-OF-DAY, but it turns out that despite SB-UNIX being
+;;; an implementation package UNIX-GETTIMEOFDAY has users in the wild.
+;;; So we're stuck with it for a while -- maybe delete it towards the end
+;;; of 2009.
+(defun unix-gettimeofday ()
+ (multiple-value-bind (sec usec) (get-time-of-day)
+ (values t sec usec nil nil)))
+\f
+;;;; opendir, readdir, closedir, and dirent-name
+
+(declaim (inline unix-opendir))
+(defun unix-opendir (namestring &optional (errorp t))
+ (let ((dir (alien-funcall
+ (extern-alien "sb_opendir"
+ (function system-area-pointer c-string))
+ namestring)))
+ (if (zerop (sap-int dir))
+ (when errorp (simple-perror
+ (format nil "Error opening directory ~S"
+ namestring)))
+ dir)))
+
+(declaim (inline unix-readdir))
+(defun unix-readdir (dir &optional (errorp t) namestring)
+ (let ((ent (alien-funcall
+ (extern-alien "sb_readdir"
+ (function system-area-pointer system-area-pointer))
+ dir)))
+ (if (zerop (sap-int ent))
+ (when errorp (simple-perror
+ (format nil "Error reading directory entry~@[ from ~S~]"
+ namestring)))
+ ent)))
+
+(declaim (inline unix-closedir))
+(defun unix-closedir (dir &optional (errorp t) namestring)
+ (let ((r (alien-funcall
+ (extern-alien "sb_closedir" (function int system-area-pointer))
+ dir)))
+ (if (minusp r)
+ (when errorp (simple-perror
+ (format nil "Error closing directory~@[ ~S~]"
+ namestring)))
+ r)))
+
+(declaim (inline unix-dirent-name))
+(defun unix-dirent-name (ent)
+ (alien-funcall
+ (extern-alien "sb_dirent_name" (function c-string system-area-pointer))
+ ent))