1 ;;;; the VOPs and other necessary machine specific support
2 ;;;; routines for call-out to C
4 ;;;; This software is part of the SBCL system. See the README file for
7 ;;;; This software is derived from the CMU CL system, which was
8 ;;;; written at Carnegie Mellon University and released into the
9 ;;;; public domain. The software is in the public domain and is
10 ;;;; provided with absolutely no warranty. See the COPYING and CREDITS
11 ;;;; files for more information.
15 ;; The MOVE-ARG vop is going to store args on the stack for
16 ;; call-out. These tn's will be used for that. move-arg is normally
17 ;; used for things going down the stack but C wants to have args
18 ;; indexed in the positive direction.
20 (defun my-make-wired-tn (prim-type-name sc-name offset)
21 (make-wired-tn (primitive-type-or-lose prim-type-name)
22 (sc-number-or-lose sc-name)
25 (defstruct (arg-state (:copier nil))
28 (define-alien-type-method (integer :arg-tn) (type state)
29 (let ((stack-frame-size (arg-state-stack-frame-size state)))
30 (setf (arg-state-stack-frame-size state) (1+ stack-frame-size))
31 (multiple-value-bind (ptype stack-sc)
32 (if (alien-integer-type-signed type)
33 (values 'signed-byte-32 'signed-stack)
34 (values 'unsigned-byte-32 'unsigned-stack))
35 (my-make-wired-tn ptype stack-sc stack-frame-size))))
37 (define-alien-type-method (system-area-pointer :arg-tn) (type state)
38 (declare (ignore type))
39 (let ((stack-frame-size (arg-state-stack-frame-size state)))
40 (setf (arg-state-stack-frame-size state) (1+ stack-frame-size))
41 (my-make-wired-tn 'system-area-pointer
46 (define-alien-type-method (long-float :arg-tn) (type state)
47 (declare (ignore type))
48 (let ((stack-frame-size (arg-state-stack-frame-size state)))
49 (setf (arg-state-stack-frame-size state) (+ stack-frame-size 3))
50 (my-make-wired-tn 'long-float 'long-stack stack-frame-size)))
52 (define-alien-type-method (double-float :arg-tn) (type state)
53 (declare (ignore type))
54 (let ((stack-frame-size (arg-state-stack-frame-size state)))
55 (setf (arg-state-stack-frame-size state) (+ stack-frame-size 2))
56 (my-make-wired-tn 'double-float 'double-stack stack-frame-size)))
58 (define-alien-type-method (single-float :arg-tn) (type state)
59 (declare (ignore type))
60 (let ((stack-frame-size (arg-state-stack-frame-size state)))
61 (setf (arg-state-stack-frame-size state) (1+ stack-frame-size))
62 (my-make-wired-tn 'single-float 'single-stack stack-frame-size)))
64 (defstruct (result-state (:copier nil))
67 (defun result-reg-offset (slot)
72 (define-alien-type-method (integer :result-tn) (type state)
73 (let ((num-results (result-state-num-results state)))
74 (setf (result-state-num-results state) (1+ num-results))
75 (multiple-value-bind (ptype reg-sc)
76 (if (alien-integer-type-signed type)
77 (values 'signed-byte-32 'signed-reg)
78 (values 'unsigned-byte-32 'unsigned-reg))
79 (my-make-wired-tn ptype reg-sc (result-reg-offset num-results)))))
81 (define-alien-type-method (system-area-pointer :result-tn) (type state)
82 (declare (ignore type))
83 (let ((num-results (result-state-num-results state)))
84 (setf (result-state-num-results state) (1+ num-results))
85 (my-make-wired-tn 'system-area-pointer 'sap-reg
86 (result-reg-offset num-results))))
89 (define-alien-type-method (long-float :result-tn) (type state)
90 (declare (ignore type))
91 (let ((num-results (result-state-num-results state)))
92 (setf (result-state-num-results state) (1+ num-results))
93 (my-make-wired-tn 'long-float 'long-reg (* num-results 2))))
95 (define-alien-type-method (double-float :result-tn) (type state)
96 (declare (ignore type))
97 (let ((num-results (result-state-num-results state)))
98 (setf (result-state-num-results state) (1+ num-results))
99 (my-make-wired-tn 'double-float 'double-reg (* num-results 2))))
101 (define-alien-type-method (single-float :result-tn) (type state)
102 (declare (ignore type))
103 (let ((num-results (result-state-num-results state)))
104 (setf (result-state-num-results state) (1+ num-results))
105 (my-make-wired-tn 'single-float 'single-reg (* num-results 2))))
107 (define-alien-type-method (values :result-tn) (type state)
108 (let ((values (alien-values-type-values type)))
109 (when (> (length values) 2)
110 (error "Too many result values from c-call."))
111 (mapcar (lambda (type)
112 (invoke-alien-type-method :result-tn type state))
115 (!def-vm-support-routine make-call-out-tns (type)
116 (let ((arg-state (make-arg-state)))
118 (dolist (arg-type (alien-fun-type-arg-types type))
119 (arg-tns (invoke-alien-type-method :arg-tn arg-type arg-state)))
120 (values (my-make-wired-tn 'positive-fixnum 'any-reg esp-offset)
121 (* (arg-state-stack-frame-size arg-state) n-word-bytes)
123 (invoke-alien-type-method :result-tn
124 (alien-fun-type-result-type type)
125 (make-result-state))))))
128 (deftransform %alien-funcall ((function type &rest args) * * :node node)
129 (aver (sb!c::constant-lvar-p type))
130 (let* ((type (sb!c::lvar-value type))
131 (env (sb!c::node-lexenv node))
132 (arg-types (alien-fun-type-arg-types type))
133 (result-type (alien-fun-type-result-type type)))
134 (aver (= (length arg-types) (length args)))
135 (if (or (some #'(lambda (type)
136 (and (alien-integer-type-p type)
137 (> (sb!alien::alien-integer-type-bits type) 32)))
139 (and (alien-integer-type-p result-type)
140 (> (sb!alien::alien-integer-type-bits result-type) 32)))
141 (collect ((new-args) (lambda-vars) (new-arg-types))
142 (dolist (type arg-types)
143 (let ((arg (gensym)))
145 (cond ((and (alien-integer-type-p type)
146 (> (sb!alien::alien-integer-type-bits type) 32))
147 (new-args `(logand ,arg #xffffffff))
148 (new-args `(ash ,arg -32))
149 (new-arg-types (parse-alien-type '(unsigned 32) env))
150 (if (alien-integer-type-signed type)
151 (new-arg-types (parse-alien-type '(signed 32) env))
152 (new-arg-types (parse-alien-type '(unsigned 32) env))))
155 (new-arg-types type)))))
156 (cond ((and (alien-integer-type-p result-type)
157 (> (sb!alien::alien-integer-type-bits result-type) 32))
158 (let ((new-result-type
159 (let ((sb!alien::*values-type-okay* t))
161 (if (alien-integer-type-signed result-type)
162 '(values (unsigned 32) (signed 32))
163 '(values (unsigned 32) (unsigned 32)))
165 `(lambda (function type ,@(lambda-vars))
166 (declare (ignore type))
167 (multiple-value-bind (low high)
168 (%alien-funcall function
169 ',(make-alien-fun-type
170 :arg-types (new-arg-types)
171 :result-type new-result-type)
173 (logior low (ash high 32))))))
175 `(lambda (function type ,@(lambda-vars))
176 (declare (ignore type))
177 (%alien-funcall function
178 ',(make-alien-fun-type
179 :arg-types (new-arg-types)
180 :result-type result-type)
182 (sb!c::give-up-ir1-transform))))
185 (deftransform %alien-funcall-stdcall ((function type &rest args) * * :node node)
186 (aver (sb!c::constant-lvar-p type))
187 (let* ((type (sb!c::lvar-value type))
188 (env (sb!c::node-lexenv node))
189 (arg-types (alien-fun-type-arg-types type))
190 (result-type (alien-fun-type-result-type type)))
191 (aver (= (length arg-types) (length args)))
192 (if (or (some #'(lambda (type)
193 (and (alien-integer-type-p type)
194 (> (sb!alien::alien-integer-type-bits type) 32)))
196 (and (alien-integer-type-p result-type)
197 (> (sb!alien::alien-integer-type-bits result-type) 32)))
198 (collect ((new-args) (lambda-vars) (new-arg-types))
199 (dolist (type arg-types)
200 (let ((arg (gensym)))
202 (cond ((and (alien-integer-type-p type)
203 (> (sb!alien::alien-integer-type-bits type) 32))
204 (new-args `(logand ,arg #xffffffff))
205 (new-args `(ash ,arg -32))
206 (new-arg-types (parse-alien-type '(unsigned 32) env))
207 (if (alien-integer-type-signed type)
208 (new-arg-types (parse-alien-type '(signed 32) env))
209 (new-arg-types (parse-alien-type '(unsigned 32) env))))
212 (new-arg-types type)))))
213 (cond ((and (alien-integer-type-p result-type)
214 (> (sb!alien::alien-integer-type-bits result-type) 32))
215 (let ((new-result-type
216 (let ((sb!alien::*values-type-okay* t))
218 (if (alien-integer-type-signed result-type)
219 '(values (unsigned 32) (signed 32))
220 '(values (unsigned 32) (unsigned 32)))
222 `(lambda (function type ,@(lambda-vars))
223 (declare (ignore type))
224 (multiple-value-bind (low high)
225 (%alien-funcall function
226 ',(make-alien-fun-type
227 :arg-types (new-arg-types)
228 :result-type new-result-type)
230 (logior low (ash high 32))))))
232 `(lambda (function type ,@(lambda-vars))
233 (declare (ignore type))
234 (%alien-funcall function
235 ',(make-alien-fun-type
236 :arg-types (new-arg-types)
237 :result-type result-type)
239 (sb!c::give-up-ir1-transform))))
241 (define-vop (foreign-symbol-sap)
242 (:translate foreign-symbol-sap)
245 (:arg-types (:constant simple-string))
246 (:info foreign-symbol)
247 (:results (res :scs (sap-reg)))
248 (:result-types system-area-pointer)
250 (inst lea res (make-fixup foreign-symbol :foreign))))
253 (define-vop (foreign-symbol-dataref-sap)
254 (:translate foreign-symbol-dataref-sap)
257 (:arg-types (:constant simple-string))
258 (:info foreign-symbol)
259 (:results (res :scs (sap-reg)))
260 (:result-types system-area-pointer)
262 (inst mov res (make-fixup foreign-symbol :foreign-dataref))))
264 (define-vop (call-out)
265 (:args (function :scs (sap-reg))
267 (:results (results :more t))
268 (:temporary (:sc unsigned-reg :offset eax-offset
269 :from :eval :to :result) eax)
270 (:temporary (:sc unsigned-reg :offset ecx-offset
271 :from :eval :to :result) ecx)
272 (:temporary (:sc unsigned-reg :offset edx-offset
273 :from :eval :to :result) edx)
277 (:ignore args ecx edx)
279 (cond ((policy node (> space speed))
281 (inst call (make-fixup "call_into_c" :foreign)))
283 ;; Setup the NPX for C; all the FP registers need to be
284 ;; empty; pop them all.
291 ;; To give the debugger a clue. XX not really internal-error?
292 (note-this-location vop :internal-error)
294 ;; Restore the NPX for lisp; ensure no regs are empty
299 (location= (tn-ref-tn results) fr0-tn))
300 ;; The return result is in fr0.
301 (inst fxch fr7-tn) ; move the result back to fr0
302 (inst fldz)) ; insure no regs are empty
305 (define-vop (alloc-number-stack-space)
307 (:results (result :scs (sap-reg any-reg)))
310 (aver (location= result esp-tn))
311 (when (policy node (= sb!c::float-accuracy 3))
313 (inst fnstcw (make-ea :word :base esp-tn))
315 (inst or (make-ea :word :base esp-tn) #x300)
316 (inst fldcw (make-ea :word :base esp-tn))
318 (unless (zerop amount)
319 (let ((delta (logandc2 (+ amount 3) 3)))
320 (inst sub esp-tn delta)))
321 (move result esp-tn)))
323 (define-vop (dealloc-number-stack-space)
327 (unless (zerop amount)
328 (let ((delta (logandc2 (+ amount 3) 3)))
329 (inst add esp-tn delta)))
330 (when (policy node (= sb!c::float-accuracy 3))
331 (inst fnstcw (make-ea :word :base esp-tn))
333 (inst and (make-ea :word :base esp-tn) #xfeff)
334 (inst fldcw (make-ea :word :base esp-tn))
336 (inst add esp-tn 4))))
338 (define-vop (alloc-alien-stack-space)
340 #!+sb-thread (:temporary (:sc unsigned-reg) temp)
341 (:results (result :scs (sap-reg any-reg)))
344 (aver (not (location= result esp-tn)))
345 (unless (zerop amount)
346 (let ((delta (logandc2 (+ amount 3) 3)))
350 (static-symbol-offset '*alien-stack*)
351 (ash symbol-tls-index-slot word-shift)
352 (- other-pointer-lowtag))))
353 (inst fs-segment-prefix)
354 (inst sub (make-ea :dword :scale 1 :index temp) delta)))
355 (load-tl-symbol-value result *alien-stack*))
358 (aver (not (location= result esp-tn)))
359 (unless (zerop amount)
360 (let ((delta (logandc2 (+ amount 3) 3)))
361 (inst sub (make-ea :dword
363 (static-symbol-offset '*alien-stack*)
364 (ash symbol-value-slot word-shift)
365 (- other-pointer-lowtag)))
367 (load-symbol-value result *alien-stack*)))
369 (define-vop (dealloc-alien-stack-space)
371 #!+sb-thread (:temporary (:sc unsigned-reg) temp)
374 (unless (zerop amount)
375 (let ((delta (logandc2 (+ amount 3) 3)))
379 (static-symbol-offset '*alien-stack*)
380 (ash symbol-tls-index-slot word-shift)
381 (- other-pointer-lowtag))))
382 (inst fs-segment-prefix)
383 (inst add (make-ea :dword :scale 1 :index temp) delta))))
386 (unless (zerop amount)
387 (let ((delta (logandc2 (+ amount 3) 3)))
388 (inst add (make-ea :dword
390 (static-symbol-offset '*alien-stack*)
391 (ash symbol-value-slot word-shift)
392 (- other-pointer-lowtag)))
395 ;;; these are not strictly part of the c-call convention, but are
396 ;;; needed for the WITH-PRESERVED-POINTERS macro used for "locking
397 ;;; down" lisp objects so that GC won't move them while foreign
398 ;;; functions go to work.
400 (define-vop (push-word-on-c-stack)
401 (:translate push-word-on-c-stack)
402 (:args (val :scs (sap-reg)))
404 (:arg-types system-area-pointer)
408 (define-vop (pop-words-from-c-stack)
409 (:translate pop-words-from-c-stack)
411 (:arg-types (:constant (unsigned-byte 29)))
415 (inst add esp-tn (fixnumize number))))
418 (defun alien-callback-accessor-form (type sp offset)
419 `(deref (sap-alien (sap+ ,sp ,offset) (* ,type))))
422 (defun alien-callback-assembler-wrapper (index return-type arg-types)
423 "Cons up a piece of code which calls call-callback with INDEX and a
424 pointer to the arguments."
425 (declare (ignore arg-types))
426 (let* ((segment (make-segment))
431 ([ebp-8] (make-ea :dword :base ebp :disp -8))
432 ([ebp-4] (make-ea :dword :base ebp :disp -4)))
434 (inst push ebp) ; save old frame pointer
435 (inst mov ebp esp) ; establish new frame
437 (inst sub eax 8) ; place for result
438 (inst push eax) ; arg2
439 (inst add eax 16) ; arguments
440 (inst push eax) ; arg1
441 (inst push (ash index 2)) ; arg0
442 (inst push (get-lisp-obj-address #'enter-alien-callback)) ; function
443 (inst mov eax (foreign-symbol-address "funcall3"))
445 ;; now put the result into the right register
447 ((and (alien-integer-type-p return-type)
448 (eql (alien-type-bits return-type) 64))
449 (inst mov eax [ebp-8])
450 (inst mov edx [ebp-4]))
451 ((or (alien-integer-type-p return-type)
452 (alien-pointer-type-p return-type)
453 (alien-type-= #.(parse-alien-type 'system-area-pointer nil)
455 (inst mov eax [ebp-8]))
456 ((alien-single-float-type-p return-type)
458 ((alien-double-float-type-p return-type)
460 ((alien-void-type-p return-type))
462 (error "unrecognized alien type: ~A" return-type)))
463 (inst mov esp ebp) ; discard frame
464 (inst pop ebp) ; restore frame pointer
466 (finalize-segment segment)
467 ;; Now that the segment is done, convert it to a static
468 ;; vector we can point foreign code to.
469 (let ((buffer (sb!assem::segment-buffer segment)))
470 (make-static-vector (length buffer)
471 :element-type '(unsigned-byte 8)
472 :initial-contents buffer))))