A test no longer fails.
[sbcl.git] / tests / compare-and-swap.impure.lisp
blob8e6618d38c94a80fed6a26ce1bfd41c7b9c7fd91
1 ;;; Basics
3 (defstruct xxx yyy)
5 (macrolet ((test (init op)
6 `(with-test (:name (:cas :basics ,(intern (symbol-name op) "KEYWORD")))
7 (let ((x ,init)
8 (y (list 'foo))
9 (z (list 'bar)))
10 (assert (eql nil (compare-and-swap (,op x) nil y)))
11 (assert (eql y (compare-and-swap (,op x) nil z)))
12 (assert (eql y (,op x)))
13 (let ((x (eval "foo"))) ; hide the compile-time type error
14 (multiple-value-bind (res err)
15 (ignore-errors (compare-and-swap (,op x) nil nil))
16 (unless (not res)
17 (error "Wanted NIL and type-error, got: ~S" res))
18 (assert (typep err 'type-error))))))))
19 (test (cons nil :no) car)
20 (test (cons nil :no) first)
21 (test (cons :no nil) cdr)
22 (test (cons :no nil) rest)
23 (test '.foo. symbol-plist)
24 (test (progn (set '.bar. nil) '.bar.) symbol-value)
25 (test (make-xxx) xxx-yyy))
27 (defvar *foo*)
29 ;;; thread-local bindings
31 (with-test (:name (:cas :tls))
32 (let ((*foo* 42))
33 (let ((*foo* nil))
34 (assert (eql nil (compare-and-swap (symbol-value '*foo*) nil t)))
35 (assert (eql t (compare-and-swap (symbol-value '*foo*) nil :foo)))
36 (assert (eql t *foo*)))
37 (assert (eql 42 *foo*))))
39 ;;; unbound symbols + symbol-value
41 (assert (not (boundp '*foo*)))
43 (with-test (:name (:cas :unbound))
44 (multiple-value-bind (res err)
45 (ignore-errors (compare-and-swap (symbol-value '*foo*) nil t))
46 (assert (not res))
47 (assert (typep err 'unbound-variable))))
49 (defvar *bar* t)
51 (with-test (:name (:cas :unbound 2))
52 (let ((*bar* nil))
53 (makunbound '*bar*)
54 (multiple-value-bind (res err)
55 (ignore-errors (compare-and-swap (symbol-value '*bar*) nil t))
56 (assert (not res))
57 (assert (typep err 'unbound-variable)))))
59 ;;; SVREF
61 (defvar *v* (vector 1))
63 ;; basics
64 (with-test (:name (:cas :svref))
65 (assert (eql 1 (compare-and-swap (svref *v* 0) 1 2)))
66 (assert (eql 2 (compare-and-swap (svref *v* 0) 1 3)))
67 (assert (eql 2 (svref *v* 0))))
69 ;; bounds
70 (with-test (:name (:cas :svref :bounds))
71 (multiple-value-bind (res err)
72 (ignore-errors (compare-and-swap (svref *v* -1) 1 2))
73 (assert (not res))
74 (assert (typep err 'type-error)))
75 (multiple-value-bind (res err)
76 (ignore-errors (compare-and-swap (svref *v* 1) 1 2))
77 (assert (not res))
78 (assert (typep err 'type-error))))
80 ;; type of the first argument
81 (with-test (:name (:cas :svref :type))
82 (multiple-value-bind (res err)
83 (ignore-errors (compare-and-swap (svref (eval "foo") 1) 1 2))
84 (assert (not res))
85 (assert (typep err 'type-error))))
87 ;; Check that we don't modify constants
88 (defconstant +a-constant+ 42)
89 (with-test (:name (:cas :symbol-value :constant-modification))
90 (assert
91 (eq :error
92 (handler-case
93 (sb-ext:compare-and-swap (symbol-value '+a-constant+) 42 13)
94 (error () :error))))
95 (let ((name '+a-constant+))
96 (assert
97 (eq :error
98 (handler-case
99 (sb-ext:compare-and-swap (symbol-value name) 42 13)
100 (error () :error))))))
102 ;; Check that we don't mess declaimed types
103 (declaim (boolean *a-boolean*))
104 (defparameter *a-boolean* t)
105 (with-test (:name (:cas :symbol-value :type-checking))
106 (assert
107 (eq :error
108 (handler-case
109 (sb-ext:compare-and-swap (symbol-value '*a-boolean*) t (eval 42))
110 (error () :error))))
111 (let ((name '*a-boolean*))
112 (assert
113 (eq :error
114 (handler-case
115 (sb-ext:compare-and-swap (symbol-value name) t (eval 42))
116 (error () :error))))))
118 ;;;; ATOMIC-INCF and ATOMIC-DECF (we should probably rename this file atomic-ops...)
120 (defstruct box
121 (word 0 :type sb-vm:word))
123 ;; Have the following tests check that CAS access to the superclass
124 ;; works in the presence of a subclass sharing the conc-name.
125 (defstruct (subbox (:include box) (:conc-name "BOX-")))
127 (defun inc-box (box n)
128 (declare (fixnum n) (box box))
129 (loop repeat n
130 do (sb-ext:atomic-incf (box-word box))))
132 (defun dec-box (box n)
133 (declare (fixnum n) (box box))
134 (loop repeat n
135 do (sb-ext:atomic-decf (box-word box))))
137 (with-test (:name :atomic-incf/decf)
138 (let ((box (make-box)))
139 (inc-box box 10000)
140 (assert (= 10000 (box-word box)))
141 (dec-box box 10000)
142 (assert (= 0 (box-word box)))))
144 (with-test (:name :atomic-incf-wraparound)
145 (let ((box (make-box :word sb-ext:most-positive-word)))
146 (sb-ext:atomic-incf (box-word box) 2)
147 (assert (= 1 (box-word box)))))
149 (with-test (:name :atomic-decf-wraparound)
150 (let ((box (make-box :word 0)))
151 (sb-ext:atomic-decf (box-word box) 2)
152 (assert (= (- (ash 1 sb-vm:n-word-bits) 2) (box-word box)))))
154 (with-test (:name :cas-raw-instance-ref-word
155 :skipped-on (not (or :x86 :x86-64)))
156 (let ((foo (make-box :word 42)))
157 ;; basic smoke test - not checking for atomicity or anything
158 (assert (eql (cas (box-word foo) 42 43) 42))
159 (assert (eql (cas (box-word foo) 43 44) 43))))
161 (with-test (:name :atomic-incf-full-call-lp1381867
162 :skipped-on (not (or :x86 :x86-64 :ppc)))
163 ;; contortions to avoid reader errors
164 (let* ((%riai/w (intern "%RAW-INSTANCE-ATOMIC-INCF/WORD" "SB-KERNEL"))
165 (form
166 `(locally
167 ;; Rebind %RAW-INSTANCE-ATOMIC-INCF/WORD as a local
168 ;; function. Declaring it locally notinline fails because
169 ;; it is marked with the ALWAYS-TRANSLATABLE attribute, so
170 ;; it's a bug to call it even though we've asked to call
171 ;; it. (Maybe that's a bug?) And I don't want to call it
172 ;; explictly - I want the macro to do it so that I don't
173 ;; have to inject any of the sign masking noise and such.
174 (declare (disable-package-locks ,%riai/w))
175 (let ((b (make-box :word 0))
176 (delta (- (ash 1 (1- sb-vm:n-word-bits))))
177 (f (fdefinition ',%riai/w)))
178 (flet ((,%riai/w (a b c) (funcall f a b c)))
179 (assert (= (atomic-incf (box-word b) delta) 0))
180 (assert (= (atomic-incf (box-word b) delta)
181 (ash 1 (1- sb-vm:n-word-bits))))
182 (assert (= (box-word b) 0))
183 (atomic-decf (box-word b))
184 (assert (= (box-word b) sb-ext:most-positive-word)))))))
185 (eval form)))
187 #+sb-thread
188 (with-test (:name (:atomic-incf/decf :threads))
189 (let* ((box (make-box))
190 (threads (loop repeat 64
191 collect (sb-thread:make-thread (lambda ()
192 (inc-box box 1000)
193 (dec-box box 10000)
194 (inc-box box 10000)
195 (dec-box box 1000))
196 :name "inc/dec thread"))))
197 (mapc #'sb-thread:join-thread threads)
198 (assert (= 0 (box-word box)))))
200 (defglobal **my-atomic-counter* 0)
201 (declaim (fixnum **my-atomic-counter*))
202 ;; Assert that safe (atomic-incf car) type-checks the car.
203 (with-test (:name :atomic-incf-car-safe)
204 (let ((x (cons (1+ most-positive-fixnum) 0))) ; a bignum
205 (assert (eq (handler-case (atomic-incf (car x))
206 (type-error () 'win)) 'win))))
208 ;; Basic correctness tests, not testing atomicity
209 (macrolet
210 ((test-place (place)
211 `(progn
212 ;; using a constant for the delta
213 (assert (eq (atomic-incf ,place 2) 0))
214 (assert (eq ,place 2))
215 (assert (eq (atomic-incf ,place -1) 2))
216 (assert (eq ,place 1))
217 (assert (eq (atomic-decf ,place 1) 1))
218 (assert (eq ,place 0))
219 ;; using a non-constant for the delta
220 (assert (eq (atomic-incf ,place (eval 2)) 0))
221 (assert (eq ,place 2))
222 (assert (eq (atomic-incf ,place (eval -1)) 2))
223 (assert (eq ,place 1))
224 (assert (eq (atomic-decf ,place (eval 1)) 1))
225 (assert (eq ,place 0))
226 (setf ,place most-positive-fixnum)
227 (atomic-incf ,place)
228 (assert (eq ,place most-negative-fixnum))
229 (atomic-decf ,place)
230 (assert (eq ,place most-positive-fixnum)))))
231 (with-test (:name (:atomic-incf :global-var))
232 (test-place **my-atomic-counter*))
233 (with-test (:name (:atomic-incf :car))
234 (let ((x (cons 0 'foo)))
235 (test-place (car x))))
236 (with-test (:name (:atomic-incf :cdr))
237 (let ((x (cons 'foo 0)))
238 (test-place (cdr x))))
239 ;; Fast code for (atomic-{incf|decf} {car|cdr}) is decidedly unsafe
240 ;; on x86-64. Ensure basic correctness when used correctly.
241 (with-test (:name (:atomic-incf-fast :car))
242 (let ((x (cons 0 'foo)))
243 (declare (optimize (safety 0)))
244 (test-place (car x))))
245 (with-test (:name (:atomic-incf-fast :cdr))
246 (let ((x (cons 'foo 0)))
247 (declare (optimize (safety 0)))
248 (test-place (cdr x)))))
250 ;;; STANDARD-INSTANCE-ACCESS, FUNCALLABLE-STANDARD-INSTANCE-ACCESS
252 (defclass sia-cas-test ()
253 ((a :initarg :a)
254 (b :initarg :b)))
256 (with-test (:name (:cas :standard-instance-access))
257 (flet ((slot-loc (slot class)
258 (sb-mop:slot-definition-location
259 (find slot (sb-mop:class-slots class) :key #'sb-mop:slot-definition-name))))
260 (let* ((class (find-class 'sia-cas-test))
261 (instance (make-instance class :a 'a :b 'b))
262 (a-loc (slot-loc 'a class))
263 (b-loc (slot-loc 'b class)))
264 (assert (eq 'a (slot-value instance 'a)))
265 (assert (eq 'a (compare-and-swap (sb-mop:standard-instance-access instance a-loc)
266 'x 'oops)))
267 (assert (eq 'a (sb-mop:standard-instance-access instance a-loc)))
268 (assert (eq 'a (compare-and-swap (sb-mop:standard-instance-access instance a-loc)
269 'a 'a2)))
270 (assert (eq 'a2 (sb-mop:standard-instance-access instance a-loc)))
271 (assert (eq 'a2 (slot-value instance 'a)))
272 (assert (eq 'b (slot-value instance 'b)))
273 (assert (eq 'b (sb-mop:standard-instance-access instance b-loc))))))
275 (defclass fia-cas-test (sb-mop:funcallable-standard-object)
276 ((a :initarg :a)
277 (b :initarg :b))
278 (:metaclass sb-mop:funcallable-standard-class))
280 (with-test (:name (:cas :standard-instance-access))
281 (flet ((slot-loc (slot class)
282 (sb-mop:slot-definition-location
283 (find slot (sb-mop:class-slots class) :key #'sb-mop:slot-definition-name))))
284 (let* ((class (find-class 'fia-cas-test))
285 (instance (make-instance class :a 'a :b 'b))
286 (a-loc (slot-loc 'a class))
287 (b-loc (slot-loc 'b class)))
288 (sb-mop:set-funcallable-instance-function instance (lambda () :ok))
289 (eq :ok (funcall instance))
290 (assert (eq 'a (slot-value instance 'a)))
291 (assert (eq 'a (compare-and-swap
292 (sb-mop:funcallable-standard-instance-access instance a-loc)
293 'x 'oops)))
294 (assert (eq 'a (sb-mop:funcallable-standard-instance-access instance a-loc)))
295 (assert (eq 'a (compare-and-swap
296 (sb-mop:funcallable-standard-instance-access instance a-loc)
297 'a 'a2)))
298 (assert (eq 'a2 (sb-mop:funcallable-standard-instance-access instance a-loc)))
299 (assert (eq 'a2 (slot-value instance 'a)))
300 (assert (eq 'b (slot-value instance 'b)))
301 (assert (eq 'b (sb-mop:funcallable-standard-instance-access instance b-loc))))))
303 ;;; SLOT-VALUE
305 (defclass standard-thing ()
306 ((x :initform 42)
307 (y)))
309 (defmethod slot-unbound ((class standard-class) (obj standard-thing) slot)
310 (list :unbound slot))
312 (defmethod slot-missing ((class standard-class) (obj standard-thing) slot op &optional val)
313 (list :missing slot op val))
315 (with-test (:name (:cas :slot-value :standard-object))
316 (let ((x (make-instance 'standard-thing)))
317 (assert (eql 42 (slot-value x 'x)))
318 (assert (eql 42 (compare-and-swap (slot-value x 'x) 0 :foo)))
319 (assert (eql 42 (slot-value x 'x)))
320 (assert (eql 42 (compare-and-swap (slot-value x 'x) 42 :foo)))
321 (assert (eql :foo (slot-value x 'x)))))
323 (with-test (:name (:cas :slot-value :slot-unbound))
324 (let ((x (make-instance 'standard-thing)))
325 (assert (equal '(:unbound y) (slot-value x 'y)))
326 (assert (equal '(:unbound y) (compare-and-swap (slot-value x 'y) 0 :foo)))
327 (assert (equal '(:unbound y) (slot-value x 'y)))
328 (assert (eq sb-pcl:+slot-unbound+
329 (compare-and-swap (slot-value x 'y) sb-pcl:+slot-unbound+ :foo)))
330 (assert (eq :foo (slot-value x 'y)))))
332 (with-test (:name (:cas :slot-value :slot-missing))
333 (let ((x (make-instance 'standard-thing)))
334 (assert (equal '(:missing z slot-value nil) (slot-value x 'z)))
335 (assert (equal '(:missing z sb-ext:cas (0 :foo)) (compare-and-swap (slot-value x 'z) 0 :foo)))
336 (assert (equal '(:missing z slot-value nil) (slot-value x 'z)))))
338 (defclass non-standard-class (standard-class)
341 (defmethod sb-mop:validate-superclass ((class non-standard-class) (superclass standard-class))
344 (defclass non-standard-thing-0 ()
345 ((x :initform 13))
346 (:metaclass non-standard-class))
348 (defclass non-standard-thing-1 ()
349 ((x :initform 13))
350 (:metaclass non-standard-class))
352 (defclass non-standard-thing-2 ()
353 ((x :initform 13))
354 (:metaclass non-standard-class))
356 (defclass non-standard-thing-3 ()
357 ((x :initform 13))
358 (:metaclass non-standard-class))
360 (defvar *access-list* nil)
362 (defmethod sb-mop:slot-value-using-class
363 ((class non-standard-class) (obj non-standard-thing-1) slotd)
364 (let ((v (call-next-method)))
365 (push :read *access-list*)
368 (defmethod (setf sb-mop:slot-value-using-class)
369 (value (class non-standard-class) (obj non-standard-thing-2) slotd)
370 (let ((v (call-next-method)))
371 (push :write *access-list*)
374 (defmethod sb-mop:slot-boundp-using-class
375 ((class non-standard-class) (obj non-standard-thing-3) slotd)
376 (let ((v (call-next-method)))
377 (push :boundp *access-list*)
380 (with-test (:name (:cas :slot-value :non-standard-object :standard-access))
381 (let ((x (make-instance 'non-standard-thing-0)))
382 (assert (eql 13 (slot-value x 'x)))
383 (assert (eql 13 (compare-and-swap (slot-value x 'x) 0 :bar)))
384 (assert (eql 13 (slot-value x 'x)))
385 (assert (eql 13 (compare-and-swap (slot-value x 'x) 13 :bar)))
386 (assert (eql :bar (slot-value x 'x)))))
388 (with-test (:name (:cas :slot-value :non-standard-object :slot-value-using-class))
389 (setf *access-list* nil)
390 (let ((x (make-instance 'non-standard-thing-1)))
391 (declare (notinline slot-value))
392 (assert (null *access-list*))
393 (assert (eql 13 (slot-value x 'x)))
394 (assert (equal '(:read) *access-list*))
395 (assert (eq :error
396 (handler-case
397 (compare-and-swap (slot-value x 'x) 0 :bar)
398 (error () :error))))
399 (assert (eql 13 (slot-value x 'x)))
400 (assert (equal '(:read :read) *access-list*))))
402 (with-test (:name (:cas :slot-value :non-standard-object :setf-slot-value-using-class))
403 (setf *access-list* nil)
404 (let ((x (make-instance 'non-standard-thing-2)))
405 (assert (equal '(:write) *access-list*))
406 (assert (eql 13 (slot-value x 'x)))
407 (assert (equal '(:write) *access-list*))
408 (assert (eq :error
409 (handler-case
410 (compare-and-swap (slot-value x 'x) 0 :bar)
411 (error () :error))))
412 (assert (eql 13 (slot-value x 'x)))
413 (assert (equal '(:write) *access-list*))))
415 (with-test (:name (:cas :slot-value :non-standard-object :slot-boundp-using-class))
416 (setf *access-list* nil)
417 (let ((x (make-instance 'non-standard-thing-3)))
418 (assert (equal '(:boundp) *access-list*))
419 (assert (eql 13 (slot-value x 'x)))
420 (assert (eq :error
421 (handler-case
422 (compare-and-swap (slot-value x 'x) 0 :bar)
423 (error () :error))))
424 (assert (eql 13 (slot-value x 'x)))))
426 (defvar *foo* nil)
428 (defun foo ()
429 *foo*)
431 (defun (cas foo) (old new)
432 (cas (symbol-value '*foo*) old new))
434 (with-test (:name (:cas :defun))
435 (assert (null (foo)))
436 (assert (null (cas (foo) nil t)))
437 (assert (eq t (foo)))
438 (assert (eq t (cas (foo) nil :oops)))
439 (assert (eq t (foo))))
441 (with-test (:name (:cas :flet))
442 (let (x)
443 (flet (((cas x) (old new)
444 (let ((tmp x))
445 (when (eq tmp old)
446 (setf x new))
447 tmp))
448 (x ()
450 (assert (null (x)))
451 (assert (null (cas (x) nil t)))
452 (assert (eq t (x)))
453 (assert (eq t (cas (x) nil :oops)))
454 (assert (eq t (x))))))
456 (defgeneric (cas thing) (old new thing))
458 (defmethod (cas thing) (old new (thing cons))
459 (cas (car thing) old new))
461 (defmethod (cas thing) (old new (thing symbol))
462 (cas (symbol-value thing) old new))
464 (defgeneric thing (thing)
465 (:method ((x cons))
466 (car x))
467 (:method ((x symbol))
468 (symbol-value x)))
470 (with-test (:name (:cas :defgeneric))
471 (let ((a (list nil))
472 (b (gensym "X")))
473 (set b nil)
474 (assert (null (thing a)))
475 (assert (null (thing b)))
476 (assert (null (cas (thing a) nil t)))
477 (assert (null (cas (thing b) nil t)))
478 (assert (eq t (thing a)))
479 (assert (eq t (thing b)))
480 (assert (eq t (cas (thing a) nil :oops)))
481 (assert (eq t (cas (thing b) nil :oops)))
482 (assert (eq t (thing a)))
483 (assert (eq t (thing b)))))
485 ;;; SYMBOL-VALUE with a constant argument used to return a bogus read-form
486 (with-test (:name :symbol-value-cas-expansion)
487 (multiple-value-bind (vars vals old new cas-form read-form)
488 (get-cas-expansion `(symbol-value t))
489 (declare (ignore old new cas-form))
490 (assert (not vars))
491 (assert (not vals))
492 (assert (eq t (eval read-form))))
493 (multiple-value-bind (vars vals old new cas-form read-form)
494 (get-cas-expansion `(symbol-value *))
495 (declare (ignore old new cas-form))
496 (let ((* :foo))
497 (assert (eq :foo
498 (eval `(let (,@(mapcar 'list vars vals))
499 ,read-form)))))
500 (let ((* :bar))
501 (assert (eq :bar
502 (eval `(let (,@(mapcar 'list vars vals))
503 ,read-form)))))))
505 (with-test (:name :atomic-push
506 :skipped-on (not :sb-thread))
507 (let ((store (cons nil nil))
508 (n 100000))
509 (symbol-macrolet ((x (car store))
510 (y (cdr store)))
511 (dotimes (i n)
512 (push i y))
513 (mapc #'sb-thread:join-thread
514 (loop repeat (ecase sb-vm:n-word-bits (32 100) (64 1000))
515 collect (sb-thread:make-thread
516 (lambda ()
517 (loop for z = (atomic-pop y)
518 while z
519 do (atomic-push z x)
520 (sleep 0.00001))))))
521 (assert (not y))
522 (assert (eql n (length x))))))
524 (with-test (:name :local-special-symbol-value)
525 (assert
526 (= (funcall (compile nil
527 `(lambda ()
528 (let ((x 10))
529 (declare (special x))
530 (cas (symbol-value 'x) 10 12)
531 x))))
532 12))
533 (assert
534 (= (funcall
535 (compile nil
536 `(lambda ()
537 (let ((x (list 1)))
538 (declare (special x))
539 (atomic-pop (symbol-value 'x))))))
540 1)))
542 (in-package "SB-VM")
544 ;;; This file defines a structure, so is an 'impure' test
545 (defstruct my-struct
546 ;; The slots under test have to be naturally aligned for a double-Lispword,
547 ;; at least on x86-64, so add a random slot if there is no layout slot.
548 #+compact-instance-header fluff
549 one two three four)
551 (locally
552 (declare (muffle-conditions style-warning)) ; functions don't exist for non-x86
553 (defun test-a-cons (acons oldcar oldcdr newcar newcdr)
554 (%cons-cas-pair acons oldcar oldcdr newcar newcdr))
555 (defun test-a-vect (avect ind old1 old2 new1 new2)
556 (%vector-cas-pair avect ind old1 old2 new1 new2))
557 (defun test-a-struct (inst ind old1 old2 new1 new2)
558 (%instance-cas-pair inst ind old1 old2 new1 new2))
560 (defun test-wide-cmpxchg ()
561 (let ((x (cons 'a 'b)))
562 (multiple-value-bind (old1 old2) (test-a-cons x 'a 'b 'foo 'bar)
563 (assert (and (eq old1 'a) (eq old2 'b) (equal x '(foo . bar)))))
564 (multiple-value-bind (old1 old2) (test-a-cons x 0 0 1 2)
565 (assert (and (eq old1 'foo) (eq old2 'bar) (equal x '(foo . bar))))))
567 ;; This is just testing that the offsets are correct.
568 ;; Correct working of the instruction is tested by the CONS example.
569 (let ((x (make-array 6 :initial-element nil)))
570 (multiple-value-bind (old1 old2) (test-a-vect x 2 nil nil 'foo 'bar)
571 (assert (and (null old1) (null old2) (equalp x #(nil nil foo bar nil nil))))))
573 ;; Same remark applies - just check that the offset to the slot is right.
574 (let ((s (make-my-struct :three 'the :four 'floor)))
575 ;; in slots 3 and 4 put your bootee (a baby shoe, i.e.) on the floor
576 (multiple-value-bind (old1 old2) (test-a-struct s 3 'the 'floor 'your 'bootee)
577 (assert (and (eq old1 'the) (eq old2 'floor)
578 (eq (my-struct-three s) 'your)
579 (eq (my-struct-four s) 'bootee)))))
582 (test-util:with-test (:name :wide-compare-and-exchange
583 :skipped-on (not (or :x86 :x86-64)))
584 (multiple-value-bind (a b c d) (%cpu-identification 0 0)
585 (declare (ignore b c d))
586 ;; paranoidly check for whether we can execute function ID 1
587 (or (and (>= a 1) ; the highest function ID
588 (multiple-value-bind (a b c d) (%cpu-identification 1 0)
589 (declare (ignore a b) (ignorable c d))
590 ;; paranoidly check for CMPXCHGxB presence
591 ;; constants from Table 3-20 and 3-21 of Intel manual
592 (and #+x86(logbitp 8 d) #+x86-64(logbitp 13 c)
593 (test-wide-cmpxchg))))
594 (format t "Double-width compare-and-swap NOT TESTED~%"))))
596 (test-util:with-test (:name :cas-sap-ref-smoke-test
597 :skipped-on (not (and :sb-thread (or :ppc64 :x86-64))))
598 (let ((data (make-array 1 :element-type 'sb-vm:word)))
599 (sb-sys:with-pinned-objects (data)
600 (let ((sap (sb-sys:vector-sap data)))
601 ;; It's important to exercise an initial value that has lots of bits on,
602 ;; because I made at least two mistakes in the x86-64 lispword-sized vop:
603 ;; 1. it was using a :dword move where it should have used a :qword
604 ;; 2. it was emitting constants as bignums instead of inline raw constants
605 (macrolet ((test (signedp nbits newval
606 &aux (ref (symbolicate (if signedp "SIGNED-" "")
607 "SAP-REF-" nbits))
608 (init (if signedp -1
609 (ldb (byte nbits 0) most-positive-word))))
610 `(progn
611 ;; (format t "Testing ~a with initial bits ~x~%" ',ref ,init)
612 (setf (,ref sap 0) ,init)
613 (let ((old (cas (,ref sap 0) 0 5)))
614 (assert (eql old ,init)) ; actual old
615 (assert (eql (,ref sap 0) ,init))) ; memory should not have changed
616 (let ((old (cas (,ref sap 0) ,init ,newval)))
617 (assert (eql old ,init)) ; actual old
618 (assert (eql (,ref sap 0) ,newval)))))) ; should have changed
619 (test nil 64 #xdeadc0fefe00)
620 (test t 64 most-negative-fixnum)
621 (test nil 32 #xbabab00e)
622 #-ppc64 (test nil 16 #xfafa) ; gets "illegal instruction" if unimplemented
623 #-ppc64 (test nil 8 #xbb)
625 ;; SAP-REF-SAP
626 (setf (aref data 0) 0)
627 (let ((old (cas (sap-ref-sap sap 0) (int-sap 1) (int-sap #xffff))))
628 (assert (sb-sys:sap= old (int-sap 0))) ; actual old
629 (assert (sb-sys:sap= (sap-ref-sap sap 0) (int-sap 0)))) ; memory should not have changed
630 (let ((old (cas (sap-ref-sap sap 0) (int-sap 0) (int-sap sb-ext:most-positive-word))))
631 (assert (sb-sys:sap= old (int-sap 0)))
632 (assert (sb-sys:sap= (sap-ref-sap sap 0) (int-sap sb-ext:most-positive-word))))
633 ;; SAP-REF-LISPOBJ
634 (setf (aref data 0) sb-vm:nil-value)
635 (let ((old (cas (sap-ref-lispobj sap 0) t '*print-base*)))
636 (assert (eq old nil)) ; actual old
637 (assert (eq (sap-ref-lispobj sap 0) nil))) ; memory should not have changed
638 (let ((old (cas (sap-ref-lispobj sap 0) nil t)))
639 (assert (eq old nil))
640 (assert (eq (sap-ref-lispobj sap 0) t)))))))
642 (test-util:with-test (:name :cas-sap-ref-stress-test
643 :skipped-on (not (and :sb-thread (or :ppc64 :x86-64))))
644 (let ((data (make-array 1 :element-type 'sb-vm:word
645 :initial-element 0)))
646 (sb-sys:with-pinned-objects (data)
647 (let ((sap (sb-sys:vector-sap data))
648 (n-threads 3)
649 (n-increments 100000)
650 (threads))
651 (flet ((increment ()
652 (let ((fails 0))
653 (dotimes (i n-increments fails)
654 (let ((old (sap-ref-32 sap 0)))
655 (loop
656 (let ((actual (cas (sap-ref-32 sap 0) old (1+ old))))
657 (if (eq actual old) (return))
658 (incf fails)
659 (setq old actual))))))))
660 (dotimes (i n-threads)
661 (push (sb-thread:make-thread #'increment) threads))
662 (mapc 'sb-thread:join-thread threads)
663 (assert (= (sap-ref-32 sap 0) (* n-threads n-increments))))))))
665 (define-alien-variable "small_generation_limit" (signed 8))
666 ;; PPC64 shouldn't fail, but depending on the CPU revision it might not
667 ;; have the needed instruction, and I don't know how to test for it.
668 ;; And surely it doesn't really depend on endian-ness, but the machine
669 ;; that I'm testing on which is little-endian passes the test.
670 #+(and sb-thread (or x86-64 (and ppc64 little-endian)))
671 (progn
672 (defun cas-an-alien-byte (x y) (cas small-generation-limit x y))
673 (compile 'cas-an-alien-byte)
674 (test-util:with-test (:name :cas-alien)
675 (assert (= small-generation-limit 1))
676 (assert (= (cas-an-alien-byte 0 5) 1))
677 (assert (= (cas-an-alien-byte 1 6) 1))
678 (assert (= small-generation-limit 6))
679 (setf small-generation-limit 1)))