;;;; support for threads in the target machine ;;;; This software is part of the SBCL system. See the README file for ;;;; more information. ;;;; ;;;; This software is derived from the CMU CL system, which was ;;;; written at Carnegie Mellon University and released into the ;;;; public domain. The software is in the public domain and is ;;;; provided with absolutely no warranty. See the COPYING and CREDITS ;;;; files for more information. (in-package "SB!THREAD") ;;; Of the WITH-PINNED-OBJECTS in this file, not every single one is ;;; necessary because threads are only supported with the conservative ;;; gencgc and numbers on the stack (returned by GET-LISP-OBJ-ADDRESS) ;;; are treated as references. ;;; set the doc here because in early-thread FDOCUMENTATION is not ;;; available, yet #!+sb-doc (setf (fdocumentation '*current-thread* 'variable) "Bound in each thread to the thread itself.") (defstruct (thread (:constructor %make-thread)) #!+sb-doc "Thread type. Do not rely on threads being structs as it may change in future versions." name %alive-p os-thread interruptions (interruptions-lock (make-mutex :name "thread interruptions lock")) result (result-lock (make-mutex :name "thread result lock"))) #!+sb-doc (setf (fdocumentation 'thread-name 'function) "The name of the thread. Setfable.") (def!method print-object ((thread thread) stream) (if (thread-name thread) (print-unreadable-object (thread stream :type t :identity t) (prin1 (thread-name thread) stream)) (print-unreadable-object (thread stream :type t :identity t) ;; body is empty => there is only one space between type and ;; identity )) thread) (defun thread-alive-p (thread) #!+sb-doc "Check if THREAD is running." (thread-%alive-p thread)) ;; A thread is eligible for gc iff it has finished and there are no ;; more references to it. This list is supposed to keep a reference to ;; all running threads. (defvar *all-threads* ()) (defvar *all-threads-lock* (make-mutex :name "all threads lock")) (defmacro with-all-threads-lock (&body body) `(call-with-system-mutex (lambda () ,@body) *all-threads-lock*)) (defun list-all-threads () #!+sb-doc "Return a list of the live threads." (with-all-threads-lock (copy-list *all-threads*))) (declaim (inline current-thread-sap)) (defun current-thread-sap () (sb!vm::current-thread-offset-sap sb!vm::thread-this-slot)) (declaim (inline current-thread-sap-id)) (defun current-thread-sap-id () (sap-int (sb!vm::current-thread-offset-sap sb!vm::thread-os-thread-slot))) (defun init-initial-thread () (/show0 "Entering INIT-INITIAL-THREAD") (let ((initial-thread (%make-thread :name "initial thread" :%alive-p t :os-thread (current-thread-sap-id)))) (setq *current-thread* initial-thread) ;; Either *all-threads* is empty or it contains exactly one thread ;; in case we are in reinit since saving core with multiple ;; threads doesn't work. (setq *all-threads* (list initial-thread)))) ;;;; #!+sb-thread (progn ;; FIXME it would be good to define what a thread id is or isn't ;; (our current assumption is that it's a fixnum). It so happens ;; that on Linux it's a pid, but it might not be on posix thread ;; implementations. (define-alien-routine ("create_thread" %create-thread) unsigned-long (lisp-fun-address unsigned-long)) (define-alien-routine "signal_interrupt_thread" integer (os-thread unsigned-long)) (define-alien-routine "block_deferrable_signals" void) #!+sb-lutex (progn (declaim (inline %lutex-init %lutex-wait %lutex-wake %lutex-lock %lutex-unlock)) (define-alien-routine ("lutex_init" %lutex-init) int (lutex unsigned-long)) (define-alien-routine ("lutex_wait" %lutex-wait) int (queue-lutex unsigned-long) (mutex-lutex unsigned-long)) (define-alien-routine ("lutex_wake" %lutex-wake) int (lutex unsigned-long) (n int)) (define-alien-routine ("lutex_lock" %lutex-lock) int (lutex unsigned-long)) (define-alien-routine ("lutex_trylock" %lutex-trylock) int (lutex unsigned-long)) (define-alien-routine ("lutex_unlock" %lutex-unlock) int (lutex unsigned-long)) (define-alien-routine ("lutex_destroy" %lutex-destroy) int (lutex unsigned-long)) ;; FIXME: Defining a whole bunch of alien-type machinery just for ;; passing primitive lutex objects directly to foreign functions ;; doesn't seem like fun right now. So instead we just manually ;; pin the lutex, get its address, and let the callee untag it. (defmacro with-lutex-address ((name lutex) &body body) `(let ((,name ,lutex)) (with-pinned-objects (,name) (let ((,name (get-lisp-obj-address ,name))) ,@body)))) (defun make-lutex () (/show0 "Entering MAKE-LUTEX") ;; Suppress GC until the lutex has been properly registered with ;; the GC. (without-gcing (let ((lutex (sb!vm::%make-lutex))) (/show0 "LUTEX=..") (/hexstr lutex) (with-lutex-address (lutex lutex) (%lutex-init lutex)) lutex)))) #!-sb-lutex (progn (declaim (inline futex-wait %futex-wait futex-wake)) (define-alien-routine ("futex_wait" %futex-wait) int (word unsigned-long) (old-value unsigned-long) (to-sec long) (to-usec unsigned-long)) (defun futex-wait (word old to-sec to-usec) (with-interrupts (%futex-wait word old to-sec to-usec))) (define-alien-routine "futex_wake" int (word unsigned-long) (n unsigned-long)))) ;;; used by debug-int.lisp to access interrupt contexts #!-(or sb-fluid sb-thread) (declaim (inline sb!vm::current-thread-offset-sap)) #!-sb-thread (defun sb!vm::current-thread-offset-sap (n) (declare (type (unsigned-byte 27) n)) (sap-ref-sap (alien-sap (extern-alien "all_threads" (* t))) (* n sb!vm:n-word-bytes))) #!+sb-thread (defun sb!vm::current-thread-offset-sap (n) (declare (type (unsigned-byte 27) n)) (sb!vm::current-thread-offset-sap n)) ;;;; spinlocks (define-structure-slot-compare-and-swap compare-and-swap-spinlock-value :structure spinlock :slot value) (declaim (inline get-spinlock release-spinlock)) ;; Should always be called with interrupts disabled. (defun get-spinlock (spinlock) (declare (optimize (speed 3) (safety 0))) (let* ((new *current-thread*) (old (compare-and-swap-spinlock-value spinlock nil new))) (when old (when (eq old new) (error "Recursive lock attempt on ~S." spinlock)) #!+sb-thread (flet ((cas () (unless (compare-and-swap-spinlock-value spinlock nil new) (return-from get-spinlock t)))) (if (and (not *interrupts-enabled*) *allow-with-interrupts*) ;; If interrupts are enabled, but we are allowed to enabled them, ;; check for pending interrupts every once in a while. (loop (loop repeat 128 do (cas)) ; 128 is arbitrary here (sb!unix::%check-interrupts)) (loop (cas))))) t)) (defun release-spinlock (spinlock) (declare (optimize (speed 3) (safety 0))) (setf (spinlock-value spinlock) nil) nil) ;;;; mutexes #!+sb-doc (setf (fdocumentation 'make-mutex 'function) "Create a mutex." (fdocumentation 'mutex-name 'function) "The name of the mutex. Setfable." (fdocumentation 'mutex-value 'function) "The value of the mutex. NIL if the mutex is free. Setfable.") #!+(and sb-thread (not sb-lutex)) (progn (define-structure-slot-addressor mutex-value-address :structure mutex :slot value) (define-structure-slot-compare-and-swap compare-and-swap-mutex-value :structure mutex :slot value)) (defun get-mutex (mutex &optional (new-value *current-thread*) (waitp t)) #!+sb-doc "Acquire MUTEX, setting it to NEW-VALUE or some suitable default value if NIL. If WAITP is non-NIL and the mutex is in use, sleep until it is available." (declare (type mutex mutex) (optimize (speed 3))) (/show0 "Entering GET-MUTEX") (unless new-value (setq new-value *current-thread*)) #!-sb-thread (let ((old (mutex-value mutex))) (when (and old waitp) (error "In unithread mode, mutex ~S was requested with WAITP ~S and ~ new-value ~S, but has already been acquired (with value ~S)." mutex waitp new-value old)) (setf (mutex-value mutex) new-value) t) #!+sb-thread (progn (when (eql new-value (mutex-value mutex)) (warn "recursive lock attempt ~S~%" mutex) (format *debug-io* "Thread: ~A~%" *current-thread*) (sb!debug:backtrace most-positive-fixnum *debug-io*) (force-output *debug-io*)) ;; FIXME: Lutexes do not currently support deadlines, as at least ;; on Darwin pthread_foo_timedbar functions are not supported: ;; this means that we probably need to use the Carbon multiprocessing ;; functions on Darwin. ;; ;; FIXME: This is definitely not interrupt safe: what happens if ;; we get hit (1) during the lutex calls (ok, they may be safe, ;; but has that been checked?) (2) after the lutex call, but ;; before setting the mutex value. #!+sb-lutex (when (zerop (with-lutex-address (lutex (mutex-lutex mutex)) (if waitp (with-interrupts (%lutex-lock lutex)) (%lutex-trylock lutex)))) (setf (mutex-value mutex) new-value)) #!-sb-lutex (let (old) (when (and (setf old (compare-and-swap-mutex-value mutex nil new-value)) waitp) (loop while old do (multiple-value-bind (to-sec to-usec) (decode-timeout nil) (when (= 1 (with-pinned-objects (mutex old) (futex-wait (mutex-value-address mutex) (get-lisp-obj-address old) (or to-sec -1) (or to-usec 0)))) (signal-deadline))) (setf old (compare-and-swap-mutex-value mutex nil new-value)))) (not old)))) (defun release-mutex (mutex) #!+sb-doc "Release MUTEX by setting it to NIL. Wake up threads waiting for this mutex." (declare (type mutex mutex)) (/show0 "Entering RELEASE-MUTEX") (setf (mutex-value mutex) nil) #!+sb-thread (progn #!+sb-lutex (with-lutex-address (lutex (mutex-lutex mutex)) (%lutex-unlock lutex)) #!-sb-lutex (futex-wake (mutex-value-address mutex) 1))) ;;;; waitqueues/condition variables (defstruct (waitqueue (:constructor %make-waitqueue)) #!+sb-doc "Waitqueue type." (name nil :type (or null simple-string)) #!+(and sb-lutex sb-thread) (lutex (make-lutex)) #!-sb-lutex (data nil)) (defun make-waitqueue (&key name) #!+sb-doc "Create a waitqueue." (%make-waitqueue :name name)) #!+sb-doc (setf (fdocumentation 'waitqueue-name 'function) "The name of the waitqueue. Setfable.") #!+(and sb-thread (not sb-lutex)) (define-structure-slot-addressor waitqueue-data-address :structure waitqueue :slot data) (defun condition-wait (queue mutex) #!+sb-doc "Atomically release MUTEX and enqueue ourselves on QUEUE. Another thread may subsequently notify us using CONDITION-NOTIFY, at which time we reacquire MUTEX and return to the caller." #!-sb-thread (declare (ignore queue)) (assert mutex) #!-sb-thread (error "Not supported in unithread builds.") #!+sb-thread (let ((value (mutex-value mutex))) (/show0 "CONDITION-WAITing") #!+sb-lutex (progn ;; FIXME: This doesn't look interrupt safe! (setf (mutex-value mutex) nil) (with-lutex-address (queue-lutex-address (waitqueue-lutex queue)) (with-lutex-address (mutex-lutex-address (mutex-lutex mutex)) (%lutex-wait queue-lutex-address mutex-lutex-address))) (setf (mutex-value mutex) value)) #!-sb-lutex (unwind-protect (let ((me *current-thread*)) ;; FIXME: should we do something to ensure that the result ;; of this setf is visible to all CPUs? (setf (waitqueue-data queue) me) (release-mutex mutex) ;; Now we go to sleep using futex-wait. If anyone else ;; manages to grab MUTEX and call CONDITION-NOTIFY during ;; this comment, it will change queue->data, and so ;; futex-wait returns immediately instead of sleeping. ;; Ergo, no lost wakeup. We may get spurious wakeups, ;; but that's ok. (multiple-value-bind (to-sec to-usec) (decode-timeout nil) (when (= 1 (with-pinned-objects (queue me) (futex-wait (waitqueue-data-address queue) (get-lisp-obj-address me) (or to-sec -1) ;; our way if saying "no timeout" (or to-usec 0)))) (signal-deadline)))) ;; If we are interrupted while waiting, we should do these things ;; before returning. Ideally, in the case of an unhandled signal, ;; we should do them before entering the debugger, but this is ;; better than nothing. (get-mutex mutex value)))) (defun condition-notify (queue &optional (n 1)) #!+sb-doc "Notify N threads waiting on QUEUE." #!-sb-thread (declare (ignore queue n)) #!-sb-thread (error "Not supported in unithread builds.") #!+sb-thread (declare (type (and fixnum (integer 1)) n)) (/show0 "Entering CONDITION-NOTIFY") #!+sb-thread (progn #!+sb-lutex (with-lutex-address (lutex (waitqueue-lutex queue)) (%lutex-wake lutex n)) ;; no problem if >1 thread notifies during the comment in ;; condition-wait: as long as the value in queue-data isn't the ;; waiting thread's id, it matters not what it is ;; XXX we should do something to ensure that the result of this setf ;; is visible to all CPUs #!-sb-lutex (let ((me *current-thread*)) (progn (setf (waitqueue-data queue) me) (with-pinned-objects (queue) (futex-wake (waitqueue-data-address queue) n)))))) (defun condition-broadcast (queue) #!+sb-doc "Notify all threads waiting on QUEUE." (condition-notify queue ;; On a 64-bit platform truncating M-P-F to an int results ;; in -1, which wakes up only one thread. (ldb (byte 29 0) most-positive-fixnum))) ;;;; semaphores (defstruct (semaphore (:constructor %make-semaphore)) #!+sb-doc "Semaphore type." (name nil :type (or null simple-string)) (count 0 :type (integer 0)) (mutex (make-mutex)) (queue (make-waitqueue))) (defun make-semaphore (&key name (count 0)) #!+sb-doc "Create a semaphore with the supplied COUNT." (%make-semaphore :name name :count count)) (setf (fdocumentation 'semaphore-name 'function) "The name of the semaphore. Setfable.") (defun wait-on-semaphore (sem) #!+sb-doc "Decrement the count of SEM if the count would not be negative. Else block until the semaphore can be decremented." ;; a more direct implementation based directly on futexes should be ;; possible (with-mutex ((semaphore-mutex sem)) (loop until (> (semaphore-count sem) 0) do (condition-wait (semaphore-queue sem) (semaphore-mutex sem)) finally (decf (semaphore-count sem))))) (defun signal-semaphore (sem &optional (n 1)) #!+sb-doc "Increment the count of SEM by N. If there are threads waiting on this semaphore, then N of them is woken up." (declare (type (and fixnum (integer 1)) n)) (with-mutex ((semaphore-mutex sem)) (when (= n (incf (semaphore-count sem) n)) (condition-notify (semaphore-queue sem) n)))) ;;;; job control, independent listeners (defstruct session (lock (make-mutex :name "session lock")) (threads nil) (interactive-threads nil) (interactive-threads-queue (make-waitqueue))) (defvar *session* nil) ;;; the debugger itself tries to acquire the session lock, don't let ;;; funny situations (like getting a sigint while holding the session ;;; lock) occur (defmacro with-session-lock ((session) &body body) `(call-with-system-mutex (lambda () ,@body) (session-lock ,session))) (defun new-session () (make-session :threads (list *current-thread*) :interactive-threads (list *current-thread*))) (defun init-job-control () (/show0 "Entering INIT-JOB-CONTROL") (setf *session* (new-session)) (/show0 "Exiting INIT-JOB-CONTROL")) (defun %delete-thread-from-session (thread session) (with-session-lock (session) (setf (session-threads session) (delete thread (session-threads session)) (session-interactive-threads session) (delete thread (session-interactive-threads session))))) (defun call-with-new-session (fn) (%delete-thread-from-session *current-thread* *session*) (let ((*session* (new-session))) (funcall fn))) (defmacro with-new-session (args &body forms) (declare (ignore args)) ;for extensibility (sb!int:with-unique-names (fb-name) `(labels ((,fb-name () ,@forms)) (call-with-new-session (function ,fb-name))))) ;;; Remove thread from its session, if it has one. #!+sb-thread (defun handle-thread-exit (thread) (/show0 "HANDLING THREAD EXIT") ;; We're going down, can't handle interrupts sanely anymore. ;; GC remains enabled. (block-deferrable-signals) ;; Lisp-side cleanup (with-all-threads-lock (setf (thread-%alive-p thread) nil) (setf (thread-os-thread thread) nil) (setq *all-threads* (delete thread *all-threads*)) (when *session* (%delete-thread-from-session thread *session*))) #!+sb-lutex (without-gcing (/show0 "FREEING MUTEX LUTEX") (with-lutex-address (lutex (mutex-lutex (thread-interruptions-lock thread))) (%lutex-destroy lutex)))) (defun terminate-session () #!+sb-doc "Kill all threads in session except for this one. Does nothing if current thread is not the foreground thread." ;; FIXME: threads created in other threads may escape termination (let ((to-kill (with-session-lock (*session*) (and (eq *current-thread* (car (session-interactive-threads *session*))) (session-threads *session*))))) ;; do the kill after dropping the mutex; unwind forms in dying ;; threads may want to do session things (dolist (thread to-kill) (unless (eq thread *current-thread*) ;; terminate the thread but don't be surprised if it has ;; exited in the meantime (handler-case (terminate-thread thread) (interrupt-thread-error ())))))) ;;; called from top of invoke-debugger (defun debugger-wait-until-foreground-thread (stream) "Returns T if thread had been running in background, NIL if it was interactive." (declare (ignore stream)) #!-sb-thread nil #!+sb-thread (prog1 (with-session-lock (*session*) (not (member *current-thread* (session-interactive-threads *session*)))) (get-foreground))) (defun get-foreground () #!-sb-thread t #!+sb-thread (let ((was-foreground t)) (loop (/show0 "Looping in GET-FOREGROUND") (with-session-lock (*session*) (let ((int-t (session-interactive-threads *session*))) (when (eq (car int-t) *current-thread*) (unless was-foreground (format *query-io* "Resuming thread ~A~%" *current-thread*)) (return-from get-foreground t)) (setf was-foreground nil) (unless (member *current-thread* int-t) (setf (cdr (last int-t)) (list *current-thread*))) (condition-wait (session-interactive-threads-queue *session*) (session-lock *session*))))))) (defun release-foreground (&optional next) #!+sb-doc "Background this thread. If NEXT is supplied, arrange for it to have the foreground next." #!-sb-thread (declare (ignore next)) #!-sb-thread nil #!+sb-thread (with-session-lock (*session*) (when (rest (session-interactive-threads *session*)) (setf (session-interactive-threads *session*) (delete *current-thread* (session-interactive-threads *session*)))) (when next (setf (session-interactive-threads *session*) (list* next (delete next (session-interactive-threads *session*))))) (condition-broadcast (session-interactive-threads-queue *session*)))) (defun foreground-thread () (car (session-interactive-threads *session*))) (defun make-listener-thread (tty-name) (assert (probe-file tty-name)) (let* ((in (sb!unix:unix-open (namestring tty-name) sb!unix:o_rdwr #o666)) (out (sb!unix:unix-dup in)) (err (sb!unix:unix-dup in))) (labels ((thread-repl () (sb!unix::unix-setsid) (let* ((sb!impl::*stdin* (make-fd-stream in :input t :buffering :line :dual-channel-p t)) (sb!impl::*stdout* (make-fd-stream out :output t :buffering :line :dual-channel-p t)) (sb!impl::*stderr* (make-fd-stream err :output t :buffering :line :dual-channel-p t)) (sb!impl::*tty* (make-fd-stream err :input t :output t :buffering :line :dual-channel-p t)) (sb!impl::*descriptor-handlers* nil)) (with-new-session () (unwind-protect (sb!impl::toplevel-repl nil) (sb!int:flush-standard-output-streams)))))) (make-thread #'thread-repl)))) ;;;; the beef (defun make-thread (function &key name) #!+sb-doc "Create a new thread of NAME that runs FUNCTION. When the function returns the thread exits. The return values of FUNCTION are kept around and can be retrieved by JOIN-THREAD." #!-sb-thread (declare (ignore function name)) #!-sb-thread (error "Not supported in unithread builds.") #!+sb-thread (let* ((thread (%make-thread :name name)) (setup-sem (make-semaphore :name "Thread setup semaphore")) (real-function (coerce function 'function)) (initial-function (lambda () ;; In time we'll move some of the binding presently done in C ;; here too. ;; ;; KLUDGE: Here we have a magic list of variables that are ;; not thread-safe for one reason or another. As people ;; report problems with the thread safety of certain ;; variables, (e.g. "*print-case* in multiple threads ;; broken", sbcl-devel 2006-07-14), we add a few more ;; bindings here. The Right Thing is probably some variant ;; of Allegro's *cl-default-special-bindings*, as that is at ;; least accessible to users to secure their own libraries. ;; --njf, 2006-07-15 (let ((*current-thread* thread) (*restart-clusters* nil) (*handler-clusters* nil) (*condition-restarts* nil) (sb!impl::*step-out* nil) ;; internal printer variables (sb!impl::*previous-case* nil) (sb!impl::*previous-readtable-case* nil) (sb!impl::*merge-sort-temp-vector* (vector)) ; keep these small! (sb!impl::*zap-array-data-temp* (vector)) ; (sb!impl::*internal-symbol-output-fun* nil) (sb!impl::*descriptor-handlers* nil)) ; serve-event (setf (thread-os-thread thread) (current-thread-sap-id)) (with-mutex ((thread-result-lock thread)) (with-all-threads-lock (push thread *all-threads*)) (with-session-lock (*session*) (push thread (session-threads *session*))) (setf (thread-%alive-p thread) t) (signal-semaphore setup-sem) ;; can't use handling-end-of-the-world, because that flushes ;; output streams, and we don't necessarily have any (or we ;; could be sharing them) (catch 'sb!impl::toplevel-catcher (catch 'sb!impl::%end-of-the-world (with-simple-restart (terminate-thread (format nil "~~@" *current-thread*)) (unwind-protect (progn ;; now that most things have a chance to ;; work properly without messing up other ;; threads, it's time to enable signals (sb!unix::reset-signal-mask) (setf (thread-result thread) (cons t (multiple-value-list (funcall real-function))))) (handle-thread-exit thread))))))) (values)))) ;; Keep INITIAL-FUNCTION pinned until the child thread is ;; initialized properly. (with-pinned-objects (initial-function) (let ((os-thread (%create-thread (get-lisp-obj-address initial-function)))) (when (zerop os-thread) (error "Can't create a new thread")) (wait-on-semaphore setup-sem) thread)))) (define-condition join-thread-error (error) ((thread :reader join-thread-error-thread :initarg :thread)) #!+sb-doc (:documentation "Joining thread failed.") (:report (lambda (c s) (format s "Joining thread failed: thread ~A ~ has not returned normally." (join-thread-error-thread c))))) #!+sb-doc (setf (fdocumentation 'join-thread-error-thread 'function) "The thread that we failed to join.") (defun join-thread (thread &key (default nil defaultp)) #!+sb-doc "Suspend current thread until THREAD exits. Returns the result values of the thread function. If the thread does not exit normally, return DEFAULT if given or else signal JOIN-THREAD-ERROR." (with-mutex ((thread-result-lock thread)) (cond ((car (thread-result thread)) (values-list (cdr (thread-result thread)))) (defaultp default) (t (error 'join-thread-error :thread thread))))) (defun destroy-thread (thread) #!+sb-doc "Deprecated. Same as TERMINATE-THREAD." (terminate-thread thread)) (define-condition interrupt-thread-error (error) ((thread :reader interrupt-thread-error-thread :initarg :thread)) #!+sb-doc (:documentation "Interrupting thread failed.") (:report (lambda (c s) (format s "Interrupt thread failed: thread ~A has exited." (interrupt-thread-error-thread c))))) #!+sb-doc (setf (fdocumentation 'interrupt-thread-error-thread 'function) "The thread that was not interrupted.") (defmacro with-interruptions-lock ((thread) &body body) `(call-with-system-mutex (lambda () ,@body) (thread-interruptions-lock ,thread))) ;; Called from the signal handler in C. (defun run-interruption () (in-interruption () (loop (let ((interruption (with-interruptions-lock (*current-thread*) (pop (thread-interruptions *current-thread*))))) (if interruption (with-interrupts (funcall interruption)) (return)))))) ;; The order of interrupt execution is peculiar. If thread A ;; interrupts thread B with I1, I2 and B for some reason receives I1 ;; when FUN2 is already on the list, then it is FUN2 that gets to run ;; first. But when FUN2 is run SIG_INTERRUPT_THREAD is enabled again ;; and I2 hits pretty soon in FUN2 and run FUN1. This is of course ;; just one scenario, and the order of thread interrupt execution is ;; undefined. (defun interrupt-thread (thread function) #!+sb-doc "Interrupt the live THREAD and make it run FUNCTION. A moderate degree of care is expected for use of INTERRUPT-THREAD, due to its nature: if you interrupt a thread that was holding important locks then do something that turns out to need those locks, you probably won't like the effect." #!-sb-thread (declare (ignore thread)) #!-sb-thread (with-interrupts (funcall function)) #!+sb-thread (if (eq thread *current-thread*) (with-interrupts (funcall function)) (let ((os-thread (thread-os-thread thread))) (cond ((not os-thread) (error 'interrupt-thread-error :thread thread)) (t (with-interruptions-lock (thread) (push function (thread-interruptions thread))) (when (minusp (signal-interrupt-thread os-thread)) (error 'interrupt-thread-error :thread thread))))))) (defun terminate-thread (thread) #!+sb-doc "Terminate the thread identified by THREAD, by causing it to run SB-EXT:QUIT - the usual cleanup forms will be evaluated" (interrupt-thread thread 'sb!ext:quit)) ;;; internal use only. If you think you need to use this, either you ;;; are an SBCL developer, are doing something that you should discuss ;;; with an SBCL developer first, or are doing something that you ;;; should probably discuss with a professional psychiatrist first #!+sb-thread (defun thread-sap-for-id (id) (let ((thread-sap (alien-sap (extern-alien "all_threads" (* t))))) (loop (when (sap= thread-sap (int-sap 0)) (return nil)) (let ((os-thread (sap-ref-word thread-sap (* sb!vm:n-word-bytes sb!vm::thread-os-thread-slot)))) (when (= os-thread id) (return thread-sap)) (setf thread-sap (sap-ref-sap thread-sap (* sb!vm:n-word-bytes sb!vm::thread-next-slot))))))) #!+sb-thread (defun symbol-value-in-thread (symbol thread-sap) (let* ((index (sb!vm::symbol-tls-index symbol)) (tl-val (sap-ref-word thread-sap (* sb!vm:n-word-bytes index)))) (if (eql tl-val sb!vm::no-tls-value-marker-widetag) (sb!vm::symbol-global-value symbol) (make-lisp-obj tl-val)))) (defun sb!vm::locked-symbol-global-value-add (symbol-name delta) (sb!vm::locked-symbol-global-value-add symbol-name delta)) ;;; Stepping (defun thread-stepping () (make-lisp-obj (sap-ref-word (current-thread-sap) (* sb!vm::thread-stepping-slot sb!vm:n-word-bytes)))) (defun (setf thread-stepping) (value) (setf (sap-ref-word (current-thread-sap) (* sb!vm::thread-stepping-slot sb!vm:n-word-bytes)) (get-lisp-obj-address value)))