| blob | 1d9635f3cabe7006fe58c926baf4884db140bd8b |
1 /*
2 * the Win32 incarnation of OS-dependent routines. See also
3 * $(sbcl_arch)-win32-os.c
4 *
5 * This file (along with os.h) exports an OS-independent interface to
6 * the operating system VM facilities. Surprise surprise, this
7 * interface looks a lot like the Mach interface (but simpler in some
8 * places). For some operating systems, a subset of these functions
9 * will have to be emulated.
10 */
12 /*
13 * This software is part of the SBCL system. See the README file for
14 * more information.
15 *
16 * This software is derived from the CMU CL system, which was
17 * written at Carnegie Mellon University and released into the
18 * public domain. The software is in the public domain and is
19 * provided with absolutely no warranty. See the COPYING and CREDITS
20 * files for more information.
21 */
23 /*
24 * This file was copied from the Linux version of the same, and
25 * likely still has some linuxisms in it have haven't been elimiated
26 * yet.
27 */
29 #include <malloc.h>
30 #include <stdio.h>
31 #include <sys/param.h>
32 #include <sys/file.h>
33 #include <io.h>
48 #include <sys/types.h>
49 #include <signal.h>
50 #include <sys/time.h>
51 #include <sys/stat.h>
52 #include <unistd.h>
54 /* KLUDGE: Avoid double definition of boolean by rpcndr.h included via
55 * shlobj.h.
56 *
57 * FIXME: We should probably arrange to use the rpcndr.h boolean on Windows,
58 * or get rid of our own boolean type.
59 */
60 #define boolean rpcndr_boolean
61 #include <shlobj.h>
62 #undef boolean
64 #include <math.h>
65 #include <float.h>
67 #include <excpt.h>
76 #if 0
79 #endif
81 /* The exception handling function looks like this: */
84 CONTEXT *,
90 {
94 }
97 {
99 }
101 #if 0
103 {
110 }
113 {
117 }
118 #endif
121 {
122 SYSTEM_INFO system_info;
128 }
131 /*
132 * So we have three fun scenarios here.
133 *
134 * First, we could be being called to reserve the memory areas
135 * during initialization (prior to loading the core file).
136 *
137 * Second, we could be being called by the GC to commit a page
138 * that has just been decommitted (for easy zero-fill).
139 *
140 * Third, we could be being called by create_thread_struct()
141 * in order to create the sundry and various stacks.
142 *
143 * The third case is easy to pick out because it passes an
144 * addr of 0.
145 *
146 * The second case is easy to pick out because it will be for
147 * a range of memory that is MEM_RESERVE rather than MEM_FREE.
148 *
149 * The second case is also an easy implement, because we leave
150 * the memory as reserved (since we do lazy commits).
151 */
153 os_vm_address_t
155 {
156 MEMORY_BASIC_INFORMATION mem_info;
159 /* the simple case first */
160 os_vm_address_t real_addr;
164 }
167 }
172 }
179 }
181 if (!VirtualAlloc(addr, len, (mem_info.State == MEM_RESERVE)? MEM_COMMIT: MEM_RESERVE, PAGE_EXECUTE_READWRITE)) {
184 }
187 }
189 /*
190 * For os_invalidate(), we merely decommit the memory rather than
191 * freeing the address space. This loses when freeing per-thread
192 * data and related memory since it leaks address space. It's not
193 * too lossy, however, since the two scenarios I'm aware of are
194 * fd-stream buffers, which are pooled rather than torched, and
195 * thread information, which I hope to pool (since windows creates
196 * threads at its own whim, and we probably want to be able to
197 * have them callback without funky magic on the part of the user,
198 * and full-on thread allocation is fairly heavyweight). Someone
199 * will probably shoot me down on this with some pithy comment on
200 * the use of (setf symbol-value) on a special variable. I'm happy
201 * for them.
202 */
204 void
206 {
209 }
210 }
212 /*
213 * os_map() is called to map a chunk of the core file into memory.
214 *
215 * Unfortunately, Windows semantics completely screws this up, so
216 * we just add backing store from the swapfile to where the chunk
217 * goes and read it up like a normal file. We could consider using
218 * a lazy read (demand page) setup, but that would mean keeping an
219 * open file pointer for the core indefinately (and be one more
220 * thing to maintain).
221 */
223 os_vm_address_t
225 {
226 os_vm_size_t count;
228 #if 0
231 #endif
236 }
240 }
246 }
249 }
252 PAGE_NOACCESS,
253 PAGE_READONLY,
254 PAGE_READWRITE,
255 PAGE_READWRITE,
256 PAGE_EXECUTE,
257 PAGE_EXECUTE_READ,
258 PAGE_EXECUTE_READWRITE,
259 PAGE_EXECUTE_READWRITE,
260 };
262 void
264 {
265 DWORD old_prot;
270 }
271 }
273 /* FIXME: Now that FOO_END, rather than FOO_SIZE, is the fundamental
274 * description of a space, we could probably punt this and just do
275 * (FOO_START <= x && x < FOO_END) everywhere it's called. */
276 static boolean
278 {
283 }
285 boolean
287 {
289 }
291 boolean
293 {
300 if(((os_vm_address_t)th->control_stack_start <= addr) && (addr < (os_vm_address_t)th->control_stack_end))
304 }
306 }
308 /* A tiny bit of interrupt.c state we want our paws on. */
311 /*
312 * A good explanation of the exception handling semantics is
313 * http://win32assembly.online.fr/Exceptionhandling.html .
314 */
316 EXCEPTION_DISPOSITION
321 {
323 /* If we're being unwound, be graceful about it. */
325 /* Undo any dynamic bindings. */
330 }
332 /* For EXCEPTION_ACCESS_VIOLATION only. */
337 /* We are doing a displaced instruction. At least function
338 * end breakpoints uses this. */
341 }
345 /* This is just for info in case the monitor wants to print an
346 * approximation. */
347 current_control_stack_pointer =
349 /* Unlike some other operating systems, Win32 leaves EIP
350 * pointing to the breakpoint instruction. */
352 /* Now EIP points just after the INT3 byte and aims at the
353 * 'kind' value (eg trap_Cerror). */
356 /* Done, we're good to go! */
358 }
362 /* Pick off GC-related memory fault next. */
363 MEMORY_BASIC_INFORMATION mem_info;
368 }
371 /* First use new page, lets get some memory for it. */
378 /*
379 * Now, if the page is supposedly write-protected and this
380 * is a write, tell the gc that it's been hit.
381 *
382 * FIXME: Are we supposed to fall-through to the Lisp
383 * exception handler if the gc doesn't take the wp violation?
384 */
389 }
390 }
392 }
395 /* gc accepts the wp violation, so resume where we left off. */
397 }
399 /* All else failed, drop through to the lisp-side exception handler. */
400 }
402 /*
403 * If we fall through to here then we need to either forward
404 * the exception to the lisp-side exception handler if it's
405 * set up, or drop to LDB.
406 */
409 lispobj context_sap;
410 lispobj exception_record_sap;
412 /* We're making the somewhat arbitrary decision that having
413 * internal errors enabled means that lisp has sufficient
414 * marbles to be able to handle exceptions, but exceptions
415 * aren't supposed to happen during cold init or reinit
416 * anyway. */
420 /* Allocate the SAP objects while the "interrupts" are still
421 * disabled. */
425 /* The exception system doesn't automatically clear pending
426 * exceptions, so we lose as soon as we execute any FP
427 * instruction unless we do this first. */
430 /* Call into lisp to handle things. */
432 exception_record_sap);
434 /* If Lisp doesn't nlx, we need to put things back. */
437 /* FIXME: HANDLE-WIN32-EXCEPTION should be allowed to decline */
439 }
444 MEMORY_BASIC_INFORMATION mem_info;
448 }
453 }
460 /* FIXME: WTF? How are we supposed to end up here? */
462 }
464 void
466 {
470 }
473 {
475 }
477 /*
478 * The stubs below are replacements for the windows versions,
479 * which can -fail- when used in our memory spaces because they
480 * validate the memory spaces they are passed in a way that
481 * denies our exception handler a chance to run.
482 */
485 {
491 }
493 }
496 {
499 }
502 {
510 }
517 }
518 }
521 }
523 /* This is a manually-maintained version of ldso_stubs.S. */
528 {
564 #ifndef LISP_FEATURE_SB_UNICODE
574 #else
585 #endif
586 }
590 {
593 DWORD size;
601 }
603 /* EOF */