;;;; While most of SBCL is derived from the CMU CL system, the test
;;;; files (like this one) were written from scratch after the fork
;;;; from CMU CL.
-;;;
+;;;
;;;; This software is in the public domain and is provided with
;;;; absoluely no warranty. See the COPYING and CREDITS files for
;;;; more information.
-#-sb-thread (quit :unix-status 104)
-
(in-package "SB-THREAD") ; this is white-box testing, really
+(defun wait-for-threads (threads)
+ (loop while (some #'sb-thread:thread-alive-p threads) do (sleep 0.01)))
+
+(assert (eql 1 (length (list-all-threads))))
+
+(assert (eq *current-thread*
+ (find (thread-name *current-thread*) (list-all-threads)
+ :key #'thread-name :test #'equal)))
+
+(assert (thread-alive-p *current-thread*))
+
+(let ((a 0))
+ (interrupt-thread *current-thread* (lambda () (setq a 1)))
+ (assert (eql a 1)))
+
+(let ((spinlock (make-spinlock)))
+ (with-spinlock (spinlock)))
+
+(let ((mutex (make-mutex)))
+ (with-mutex (mutex)
+ mutex))
+
+#-sb-thread (sb-ext:quit :unix-status 104)
+
+(let ((old-threads (list-all-threads))
+ (thread (make-thread (lambda ()
+ (assert (find *current-thread* *all-threads*))
+ (sleep 2))))
+ (new-threads (list-all-threads)))
+ (assert (thread-alive-p thread))
+ (assert (eq thread (first new-threads)))
+ (assert (= (1+ (length old-threads)) (length new-threads)))
+ (sleep 3)
+ (assert (not (thread-alive-p thread))))
+
;;; We had appalling scaling properties for a while. Make sure they
;;; don't reappear.
(defun scaling-test (function &optional (nthreads 5))
;; Start NTHREADS idle threads.
(dotimes (i nthreads)
(sb-thread:make-thread (lambda ()
- (sb-thread:condition-wait queue mutex)
- (sb-ext:quit))))
+ (with-mutex (mutex)
+ (sb-thread:condition-wait queue mutex))
+ (sb-ext:quit))))
(let ((start-time (get-internal-run-time)))
(funcall function)
(prog1 (- (get-internal-run-time) start-time)
- (sb-thread:condition-broadcast queue)))))
+ (sb-thread:condition-broadcast queue)))))
(defun fact (n)
"A function that does work with the CPU."
(if (zerop n) 1 (* n (fact (1- n)))))
(let ((work (lambda () (fact 15000))))
(let ((zero (scaling-test work 0))
- (four (scaling-test work 4)))
+ (four (scaling-test work 4)))
;; a slightly weak assertion, but good enough for starters.
(assert (< four (* 1.5 zero)))))
(with-open-file (o "threads-foreign.c" :direction :output :if-exists :supersede)
(format o "void loop_forever() { while(1) ; }~%"))
-(sb-ext:run-program
+(sb-ext:run-program
"cc"
(or #+linux '("-shared" "-o" "threads-foreign.so" "threads-foreign.c")
(error "Missing shared library compilation options for this platform"))
;;; elementary "can we get a lock and release it again"
(let ((l (make-mutex :name "foo"))
- (p (current-thread-id)))
+ (p *current-thread*))
(assert (eql (mutex-value l) nil) nil "1")
- (assert (eql (mutex-lock l) 0) nil "2")
(sb-thread:get-mutex l)
(assert (eql (mutex-value l) p) nil "3")
- (assert (eql (mutex-lock l) 0) nil "4")
(sb-thread:release-mutex l)
- (assert (eql (mutex-value l) nil) nil "5")
- (assert (eql (mutex-lock l) 0) nil "6")
- (describe l))
-
-(let ((l (make-waitqueue :name "spinlock"))
- (p (current-thread-id)))
- (assert (eql (waitqueue-lock l) 0) nil "1")
+ (assert (eql (mutex-value l) nil) nil "5"))
+
+(labels ((ours-p (value)
+ (sb-vm:control-stack-pointer-valid-p
+ (sb-sys:int-sap (sb-kernel:get-lisp-obj-address value)))))
+ (let ((l (make-mutex :name "rec")))
+ (assert (eql (mutex-value l) nil) nil "1")
+ (sb-thread:with-recursive-lock (l)
+ (assert (ours-p (mutex-value l)) nil "3")
+ (sb-thread:with-recursive-lock (l)
+ (assert (ours-p (mutex-value l)) nil "4"))
+ (assert (ours-p (mutex-value l)) nil "5"))
+ (assert (eql (mutex-value l) nil) nil "6")))
+
+(let ((l (make-spinlock :name "spinlock"))
+ (p *current-thread*))
+ (assert (eql (spinlock-value l) 0) nil "1")
(with-spinlock (l)
- (assert (eql (waitqueue-lock l) p) nil "2"))
- (assert (eql (waitqueue-lock l) 0) nil "3")
- (describe l))
+ (assert (eql (spinlock-value l) p) nil "2"))
+ (assert (eql (spinlock-value l) 0) nil "3"))
;; test that SLEEP actually sleeps for at least the given time, even
;; if interrupted by another thread exiting/a gc/anything
(let ((start-time (get-universal-time)))
- (make-thread (lambda () (sleep 1))) ; kid waits 1 then dies ->SIG_THREAD_EXIT
+ (make-thread (lambda () (sleep 1) (sb-ext:gc :full t)))
(sleep 5)
(assert (>= (get-universal-time) (+ 5 start-time))))
(let ((queue (make-waitqueue :name "queue"))
- (lock (make-mutex :name "lock")))
+ (lock (make-mutex :name "lock"))
+ (n 0))
(labels ((in-new-thread ()
- (with-mutex (lock)
- (assert (eql (mutex-value lock) (current-thread-id)))
- (format t "~A got mutex~%" (current-thread-id))
- ;; now drop it and sleep
- (condition-wait queue lock)
- ;; after waking we should have the lock again
- (assert (eql (mutex-value lock) (current-thread-id))))))
+ (with-mutex (lock)
+ (assert (eql (mutex-value lock) *current-thread*))
+ (format t "~A got mutex~%" *current-thread*)
+ ;; now drop it and sleep
+ (condition-wait queue lock)
+ ;; after waking we should have the lock again
+ (assert (eql (mutex-value lock) *current-thread*))
+ (assert (eql n 1))
+ (decf n))))
(make-thread #'in-new-thread)
- (sleep 2) ; give it a chance to start
+ (sleep 2) ; give it a chance to start
;; check the lock is free while it's asleep
- (format t "parent thread ~A~%" (current-thread-id))
- (assert (eql (mutex-value lock) nil))
- (assert (eql (mutex-lock lock) 0))
+ (format t "parent thread ~A~%" *current-thread*)
+ (assert (eql (mutex-value lock) nil))
(with-mutex (lock)
+ (incf n)
(condition-notify queue))
(sleep 1)))
(let ((queue (make-waitqueue :name "queue"))
(lock (make-mutex :name "lock")))
(labels ((ours-p (value)
- (sb-vm:control-stack-pointer-valid-p
- (sb-sys:int-sap (sb-kernel:get-lisp-obj-address value))))
- (in-new-thread ()
- (with-recursive-lock (lock)
- (assert (ours-p (mutex-value lock)))
- (format t "~A got mutex~%" (mutex-value lock))
- ;; now drop it and sleep
- (condition-wait queue lock)
- ;; after waking we should have the lock again
- (format t "woken, ~A got mutex~%" (mutex-value lock))
- (assert (ours-p (mutex-value lock))))))
+ (sb-vm:control-stack-pointer-valid-p
+ (sb-sys:int-sap (sb-kernel:get-lisp-obj-address value))))
+ (in-new-thread ()
+ (with-recursive-lock (lock)
+ (assert (ours-p (mutex-value lock)))
+ (format t "~A got mutex~%" (mutex-value lock))
+ ;; now drop it and sleep
+ (condition-wait queue lock)
+ ;; after waking we should have the lock again
+ (format t "woken, ~A got mutex~%" (mutex-value lock))
+ (assert (ours-p (mutex-value lock))))))
(make-thread #'in-new-thread)
- (sleep 2) ; give it a chance to start
+ (sleep 2) ; give it a chance to start
;; check the lock is free while it's asleep
- (format t "parent thread ~A~%" (current-thread-id))
- (assert (eql (mutex-value lock) nil))
- (assert (eql (mutex-lock lock) 0))
+ (format t "parent thread ~A~%" *current-thread*)
+ (assert (eql (mutex-value lock) nil))
(with-recursive-lock (lock)
(condition-notify queue))
(sleep 1)))
(let ((mutex (make-mutex :name "contended")))
(labels ((run ()
- (let ((me (current-thread-id)))
- (dotimes (i 100)
- (with-mutex (mutex)
- (sleep .1)
- (assert (eql (mutex-value mutex) me)))
- (assert (not (eql (mutex-value mutex) me))))
- (format t "done ~A~%" (current-thread-id)))))
+ (let ((me *current-thread*))
+ (dotimes (i 100)
+ (with-mutex (mutex)
+ (sleep .1)
+ (assert (eql (mutex-value mutex) me)))
+ (assert (not (eql (mutex-value mutex) me))))
+ (format t "done ~A~%" *current-thread*))))
(let ((kid1 (make-thread #'run))
- (kid2 (make-thread #'run)))
- (format t "contention ~A ~A~%" kid1 kid2))))
+ (kid2 (make-thread #'run)))
+ (format t "contention ~A ~A~%" kid1 kid2)
+ (wait-for-threads (list kid1 kid2)))))
(defun test-interrupt (function-to-interrupt &optional quit-p)
(let ((child (make-thread function-to-interrupt)))
(sleep 2)
(format t "interrupting child ~A~%" child)
(interrupt-thread child
- (lambda ()
- (format t "child pid ~A~%" (current-thread-id))
- (when quit-p (sb-ext:quit))))
+ (lambda ()
+ (format t "child pid ~A~%" *current-thread*)
+ (when quit-p (sb-ext:quit))))
(sleep 1)
child))
-;;; separate tests for (a) interrupting Lisp code, (b) C code, (c) a syscall,
-;;; (d) waiting on a lock, (e) some code which we hope is likely to be
-;;; in pseudo-atomic
+;; separate tests for (a) interrupting Lisp code, (b) C code, (c) a syscall,
+;; (d) waiting on a lock, (e) some code which we hope is likely to be
+;; in pseudo-atomic
(let ((child (test-interrupt (lambda () (loop))))) (terminate-thread child))
(test-interrupt #'loop-forever :quit)
(let ((child (test-interrupt (lambda () (loop (sleep 2000))))))
- (terminate-thread child))
-
+ (terminate-thread child)
+ (wait-for-threads (list child)))
+
(let ((lock (make-mutex :name "loctite"))
child)
(with-mutex (lock)
(setf child (test-interrupt
- (lambda ()
- (with-mutex (lock)
- (assert (eql (mutex-value lock) (current-thread-id))))
- (assert (not (eql (mutex-value lock) (current-thread-id))))
- (sleep 60))))
+ (lambda ()
+ (with-mutex (lock)
+ (assert (eql (mutex-value lock) *current-thread*)))
+ (assert (not (eql (mutex-value lock) *current-thread*)))
+ (sleep 10))))
;;hold onto lock for long enough that child can't get it immediately
- (sleep 20)
+ (sleep 5)
(interrupt-thread child (lambda () (format t "l ~A~%" (mutex-value lock))))
(format t "parent releasing lock~%"))
- (terminate-thread child))
+ (terminate-thread child)
+ (wait-for-threads (list child)))
+
+(format t "~&locking test done~%")
(defun alloc-stuff () (copy-list '(1 2 3 4 5)))
-(let ((c (test-interrupt (lambda () (loop (alloc-stuff))))))
+(progn
+ (let ((thread (sb-thread:make-thread (lambda () (loop (alloc-stuff))))))
+ (let ((killers
+ (loop repeat 4 collect
+ (sb-thread:make-thread
+ (lambda ()
+ (loop repeat 25 do
+ (sleep (random 0.1d0))
+ (princ ".")
+ (force-output)
+ (sb-thread:interrupt-thread thread (lambda ()))))))))
+ (wait-for-threads killers)
+ (sb-thread:terminate-thread thread)
+ (wait-for-threads (list thread))))
+ (sb-ext:gc :full t))
+
+(format t "~&multi interrupt test done~%")
+
+(let ((c (make-thread (lambda () (loop (alloc-stuff))))))
;; NB this only works on x86: other ports don't have a symbol for
;; pseudo-atomic atomicity
- (format t "new thread ~A~%" c)
(dotimes (i 100)
- (sleep (random 1d0))
+ (sleep (random 0.1d0))
(interrupt-thread c
- (lambda ()
- (princ ".") (force-output)
- (assert (zerop SB-KERNEL:*PSEUDO-ATOMIC-ATOMIC*)))))
- (terminate-thread c))
-(terpri)
+ (lambda ()
+ (princ ".") (force-output)
+ (assert (eq (thread-state *current-thread*) :running))
+ (assert (zerop SB-KERNEL:*PSEUDO-ATOMIC-ATOMIC*)))))
+ (terminate-thread c)
+ (wait-for-threads (list c)))
+
+(format t "~&interrupt test done~%")
(defparameter *interrupt-count* 0)
(princ ".")
(force-output)
(sb-impl::atomic-incf/symbol *interrupt-count*))))
- (sb-sys:with-pinned-objects (func)
- (setq *interrupt-count* 0)
- (dotimes (i 100)
- (sleep (random 1d0))
- (interrupt-thread c func))
- (sleep 1)
- (assert (= 100 *interrupt-count*))
- (terminate-thread c))))
+ (setq *interrupt-count* 0)
+ (dotimes (i 100)
+ (sleep (random 0.1d0))
+ (interrupt-thread c func))
+ (loop until (= *interrupt-count* 100) do (sleep 0.1))
+ (terminate-thread c)
+ (wait-for-threads (list c))))
-(format t "~&interrupt test done~%")
+(format t "~&interrupt count test done~%")
(let (a-done b-done)
(make-thread (lambda ()
- (dotimes (i 100)
- (sb-ext:gc) (princ "\\") (force-output) )
- (setf a-done t)))
+ (dotimes (i 100)
+ (sb-ext:gc) (princ "\\") (force-output))
+ (setf a-done t)))
(make-thread (lambda ()
- (dotimes (i 25)
- (sb-ext:gc :full t)
- (princ "/") (force-output))
- (setf b-done t)))
+ (dotimes (i 25)
+ (sb-ext:gc :full t)
+ (princ "/") (force-output))
+ (setf b-done t)))
(loop
(when (and a-done b-done) (return))
(sleep 1)))
(loop do
(funcall fn)
(let ((errno (sb-unix::get-errno)))
- (sleep (random 1.0))
+ (sleep (random 0.1d0))
(unless (eql errno reference-errno)
(format t "Got errno: ~A (~A) instead of ~A~%"
errno
(format t "~&thread startup sigmask test done~%")
+(sb-debug::enable-debugger)
+(let* ((main-thread *current-thread*)
+ (interruptor-thread
+ (make-thread (lambda ()
+ (sleep 2)
+ (interrupt-thread main-thread #'break)
+ (sleep 2)
+ (interrupt-thread main-thread #'continue)))))
+ (with-session-lock (*session*)
+ (sleep 3))
+ (loop while (thread-alive-p interruptor-thread)))
+
+(format t "~&session lock test done~%")
+
+(sb-ext:gc :full t)
+(loop repeat 20 do
+ (wait-for-threads
+ (loop for i below 100 collect
+ (sb-thread:make-thread (lambda ()))))
+ (sb-ext:gc :full t)
+ (princ "+")
+ (force-output))
+
+(format t "~&creation test done~%")
+
+;; watch out for *current-thread* being the parent thread after exit
+(let ((thread (sb-thread:make-thread (lambda ()))))
+ (wait-for-threads (list thread))
+ (assert (null (symbol-value-in-thread 'sb-thread:*current-thread*
+ thread))))
+
+;; interrupt handlers are per-thread with pthreads, make sure the
+;; handler installed in one thread is global
+(sb-thread:make-thread
+ (lambda ()
+ (sb-ext:run-program "sleep" '("1") :search t :wait nil)))
+
#| ;; a cll post from eric marsden
| (defun crash ()
| (setq *debugger-hook*
| (mp:make-process #'roomy)
| (mp:make-process #'roomy)))
|#
-
-;; give the other thread time to die before we leave, otherwise the
-;; overall exit status is 0, not 104
-(sleep 2)
-
-(sb-ext:quit :unix-status 104)