;;; sets *interrupt-pending* and returns without handling the signal.
;;;
;;; When we drop out the without interrupts, we check to see whether
-;;; *interrupt-pending* has been set. If so, we call
-;;; do-pending-interrupt, which generates a SIGTRAP. The C code
+;;; *INTERRUPT-PENDING* has been set. If so, we call
+;;; RECEIVE-PENDING-INTERRUPT, which generates a SIGTRAP. The C code
;;; invokes the handler for the saved signal instead of the SIGTRAP
;;; after replacing the signal mask in the signal context with the
;;; saved value. When that hander returns, the original signal mask is
;;; installed, allowing any other pending signals to be handled.
;;;
-;;; This means that the cost of without-interrupts is just a special
+;;; This means that the cost of WITHOUT-INTERRUPTS is just a special
;;; binding in the case when no signals are delivered (the normal
;;; case). It's only when a signal is actually delivered that we use
;;; any system calls, and by then the cost of the extra system calls
;;; are lost in the noise when compared with the cost of delivering
;;; the signal in the first place.
-#!-gengc (progn
-
(defvar *interrupts-enabled* t)
(defvar *interrupt-pending* nil)
(sb!xc:defmacro without-interrupts (&body body)
#!+sb-doc
"Execute BODY in a context impervious to interrupts."
- (let ((name (gensym)))
+ (let ((name (gensym "WITHOUT-INTERRUPTS-BODY-")))
`(flet ((,name () ,@body))
- (if *interrupts-enabled*
- (unwind-protect
- (let ((*interrupts-enabled* nil))
- (,name))
- ;; FIXME: Does it matter that an interrupt coming in here
- ;; could be executed before any of the pending interrupts?
- ;; Or do incoming interrupts have the good grace to check
- ;; whether interrupts are pending before executing themselves
- ;; immediately?
- (when *interrupt-pending*
- (do-pending-interrupt)))
- (,name)))))
+ (if *interrupts-enabled*
+ (unwind-protect
+ (let ((*interrupts-enabled* nil))
+ (,name))
+ ;; If we were interrupted in the protected section, then
+ ;; the interrupts are still blocked and it remains so
+ ;; until the pending interrupt is handled.
+ ;;
+ ;; If we were not interrupted in the protected section,
+ ;; but here, then even if the interrupt handler enters
+ ;; another WITHOUT-INTERRUPTS, the pending interrupt will
+ ;; be handled immediately upon exit from said
+ ;; WITHOUT-INTERRUPTS, so it is as if nothing has
+ ;; happened.
+ (when *interrupt-pending*
+ (receive-pending-interrupt)))
+ (,name)))))
(sb!xc:defmacro with-interrupts (&body body)
#!+sb-doc
(let ((name (gensym)))
`(flet ((,name () ,@body))
(if *interrupts-enabled*
- (,name)
- (let ((*interrupts-enabled* t))
- (when *interrupt-pending*
- (do-pending-interrupt))
- (,name))))))
-
-) ; PROGN
-
-;;; On the GENGC system, we have to do it slightly differently because of the
-;;; existence of threads. Each thread has a suspends_disabled_count in its
-;;; mutator structure. When this value is other then zero, the low level stuff
-;;; will not suspend the thread, but will instead set the suspend_pending flag
-;;; (also in the mutator). So when we finish the without-interrupts, we just
-;;; check the suspend_pending flag and trigger a do-pending-interrupt if
-;;; necessary.
-
-#!+gengc
-(defmacro without-interrupts (&body body)
- `(unwind-protect
- (progn
- (locally
- (declare (optimize (speed 3) (safety 0)))
- (incf (sb!kernel:mutator-interrupts-disabled-count)))
- ,@body)
- (locally
- (declare (optimize (speed 3) (safety 0)))
- (when (and (zerop (decf (sb!kernel:mutator-interrupts-disabled-count)))
- (not (zerop (sb!kernel:mutator-interrupt-pending))))
- (do-pending-interrupt)))))
-\f
-;;;; utilities for dealing with signal names and numbers
-
-(defstruct (unix-signal
- (:constructor make-unix-signal (%name %number))
- (:copier nil))
- ;; signal keyword (e.g. :SIGINT for the Unix SIGINT signal)
- (%name (required-argument) :type keyword :read-only t)
- ;; signal number
- (%number (required-argument) :type integer :read-only t))
-
-;;; list of all defined UNIX-SIGNALs
-(defvar *unix-signals* nil)
-
-(defmacro !def-unix-signal (name number)
- (declare (type keyword name))
- (declare (type (and fixnum unsigned-byte) number))
- `(push (make-unix-signal ,name ,number) *unix-signals*))
-
-(/show0 "signal.lisp 131")
-
-(defun unix-signal-or-lose (designator)
- (or (find designator (the list *unix-signals*)
- :key (etypecase designator
- (symbol #'unix-signal-%name)
- (number #'unix-signal-%number)))
- (error "not a valid signal name or number: ~S" designator)))
-
-(/show0 "signal.lisp 142")
-
-;;; Return the name of the designated signal.
-(defun unix-signal-name (designator)
- (symbol-name (unix-signal-%name (unix-signal-or-lose designator))))
-
-(/show0 "signal.lisp 150")
-
-;;; Return the number of the designated signal.
-(defun unix-signal-number (designator)
- (unix-signal-%number (unix-signal-or-lose designator)))
-
-(/show0 "signal.lisp 168")
-
-;;; known signals
-(/show0 "defining Unix signals")
-(!def-unix-signal :CHECK 0) ; check
-(/show0 "done defining CHECK")
-(!def-unix-signal :SIGHUP 1) ; hangup
-(/show0 "done defining SIGHUP")
-(!def-unix-signal :SIGINT 2) ; interrupt
-(/show0 "done defining SIGINT")
-(!def-unix-signal :SIGQUIT 3) ; quit
-(!def-unix-signal :SIGILL 4) ; illegal instruction
-(!def-unix-signal :SIGTRAP 5) ; trace trap
-(!def-unix-signal :SIGIOT 6) ; IOT instruction
-#!-linux
-(!def-unix-signal :SIGEMT 7) ; EMT instruction
-(!def-unix-signal :SIGFPE 8) ; floating point exception
-(!def-unix-signal :SIGKILL 9) ; kill
-(!def-unix-signal :SIGBUS #!-linux 10 #!+linux 7) ; bus error
-(!def-unix-signal :SIGSEGV 11) ; segmentation violation
-#!-linux
-(!def-unix-signal :SIGSYS 12) ; bad argument to system call
-(!def-unix-signal :SIGPIPE 13) ; write on a pipe with no one to read it
-(!def-unix-signal :SIGALRM 14) ; alarm clock
-(!def-unix-signal :SIGTERM 15) ; software termination signal
-#!+linux
-(!def-unix-signal :SIGSTKFLT 16) ; stack fault on coprocessor
-(!def-unix-signal :SIGURG ; urgent condition present on socket
- #!+svr4 21
- #!-(or hpux svr4 linux) 16
- #!+hpux 29
- #!+linux 23)
-(!def-unix-signal :SIGSTOP ; stop
- #!-(or hpux svr4 linux) 17
- #!+hpux 24
- #!+svr4 23
- #!+linux 19)
-(!def-unix-signal :SIGTSTP ; stop signal generated from keyboard
- #!-(or hpux svr4 linux) 18
- #!+hpux 25
- #!+svr4 24
- #!+linux 20)
-(!def-unix-signal :SIGCONT ; continue after stop
- #!-(or hpux svr4 linux) 19
- #!+hpux 26
- #!+svr4 25
- #!+linux 18)
-(!def-unix-signal :SIGCHLD ; Child status has changed.
- #!-(or linux hpux) 20
- #!+hpux 18
- #!+linux 17)
-(!def-unix-signal :SIGTTIN ; background read attempted from control terminal
- #!-(or hpux svr4) 21
- #!+hpux 27
- #!+svr4 26)
-(!def-unix-signal :SIGTTOU ; background write attempted to control terminal
- #!-(or hpux svr4) 22
- #!+hpux 28
- #!+svr4 27)
-(!def-unix-signal :SIGIO ; I/O is possible on a descriptor.
- #!-(or hpux irix linux) 23
- #!+(or hpux irix) 22
- #!+linux 29)
-#!-hpux
-(!def-unix-signal :SIGXCPU ; CPU time limit exceeded
- #!-svr4 24
- #!+svr4 30)
-#!-hpux
-(!def-unix-signal :SIGXFSZ ; file size limit exceeded
- #!-svr4 25
- #!+svr4 31)
-(!def-unix-signal :SIGVTALRM ; virtual time alarm
- #!-(or hpux svr4) 26
- #!+hpux 20
- #!+svr4 28)
-(!def-unix-signal :SIGPROF ; profiling timer alarm
- #!-(or hpux svr4 linux) 27
- #!+hpux 21
- #!+svr4 29
- #!+linux 30)
-(!def-unix-signal :SIGWINCH ; window size change
- #!-(or hpux svr4) 28
- #!+hpux 23
- #!+svr4 20)
-(!def-unix-signal :SIGUSR1 ; user-defined signal 1
- #!-(or hpux svr4 linux) 30
- #!+(or hpux svr4) 16
- #!+linux 10)
-(!def-unix-signal :SIGUSR2 ; user-defined signal 2
- #!-(or hpux svr4 linux) 31
- #!+(or hpux svr4) 17
- #!+linux 12)
-
-;;; SVR4 (or Solaris?) specific signals
-#!+svr4
-(!def-unix-signal :SIGWAITING 32) ; Process's LWPs are blocked.
-
-(sb!xc:defmacro sigmask (&rest signals)
- #!+sb-doc
- "Returns a mask given a set of signals."
- (apply #'logior
- (mapcar (lambda (signal)
- (ash 1 (1- (unix-signal-number signal))))
- signals)))
-
-(/show0 "done with signal.lisp")
+ (,name)
+ (let ((*interrupts-enabled* t))
+ (when *interrupt-pending*
+ (receive-pending-interrupt))
+ (,name))))))