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root/cebix/BasiliskII/src/Unix/vm_alloc.cpp
Revision: 1.15
Committed: 2004-12-11T10:19:34Z (19 years, 11 months ago) by gbeauche
Branch: MAIN
Changes since 1.14: +12 -5 lines
Log Message:
implement vm_page_size() to get the actual size of a page

File Contents

# User Rev Content
1 gbeauche 1.1 /*
2     * vm_alloc.cpp - Wrapper to various virtual memory allocation schemes
3     * (supports mmap, vm_allocate or fallbacks to malloc)
4     *
5 cebix 1.12 * Basilisk II (C) 1997-2004 Christian Bauer
6 gbeauche 1.1 *
7     * This program is free software; you can redistribute it and/or modify
8     * it under the terms of the GNU General Public License as published by
9     * the Free Software Foundation; either version 2 of the License, or
10     * (at your option) any later version.
11     *
12     * This program is distributed in the hope that it will be useful,
13     * but WITHOUT ANY WARRANTY; without even the implied warranty of
14     * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15     * GNU General Public License for more details.
16     *
17     * You should have received a copy of the GNU General Public License
18     * along with this program; if not, write to the Free Software
19     * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
20     */
21    
22     #ifdef HAVE_CONFIG_H
23     #include "config.h"
24     #endif
25    
26 gbeauche 1.13 #ifdef HAVE_FCNTL_H
27     #include <fcntl.h>
28     #endif
29    
30 gbeauche 1.14 #ifdef HAVE_WIN32_VM
31     #define WIN32_LEAN_AND_MEAN /* avoid including junk */
32     #include <windows.h>
33     #endif
34    
35 gbeauche 1.13 #include <stdio.h>
36 gbeauche 1.1 #include <stdlib.h>
37     #include <string.h>
38 gbeauche 1.13 #include <limits.h>
39 gbeauche 1.1 #include "vm_alloc.h"
40    
41     #ifdef HAVE_MACH_VM
42     #ifndef HAVE_MACH_TASK_SELF
43     #ifdef HAVE_TASK_SELF
44     #define mach_task_self task_self
45     #else
46     #error "No task_self(), you lose."
47     #endif
48     #endif
49     #endif
50    
51 gbeauche 1.9 /* We want MAP_32BIT, if available, for SheepShaver and BasiliskII
52     because the emulated target is 32-bit and this helps to allocate
53     memory so that branches could be resolved more easily (32-bit
54     displacement to code in .text), on AMD64 for example. */
55     #ifndef MAP_32BIT
56     #define MAP_32BIT 0
57     #endif
58 gbeauche 1.13 #ifndef MAP_ANON
59     #define MAP_ANON 0
60     #endif
61     #ifndef MAP_ANONYMOUS
62     #define MAP_ANONYMOUS 0
63     #endif
64 gbeauche 1.9
65     #define MAP_EXTRA_FLAGS (MAP_32BIT)
66    
67 gbeauche 1.1 #ifdef HAVE_MMAP_VM
68 gbeauche 1.9 #if defined(__linux__) && defined(__i386__)
69     /* Force a reasonnable address below 0x80000000 on x86 so that we
70     don't get addresses above when the program is run on AMD64.
71     NOTE: this is empirically determined on Linux/x86. */
72     #define MAP_BASE 0x10000000
73     #else
74     #define MAP_BASE 0x00000000
75     #endif
76     static char * next_address = (char *)MAP_BASE;
77 gbeauche 1.1 #ifdef HAVE_MMAP_ANON
78 gbeauche 1.10 #define map_flags (MAP_ANON | MAP_EXTRA_FLAGS)
79 gbeauche 1.1 #define zero_fd -1
80     #else
81     #ifdef HAVE_MMAP_ANONYMOUS
82 gbeauche 1.10 #define map_flags (MAP_ANONYMOUS | MAP_EXTRA_FLAGS)
83 gbeauche 1.1 #define zero_fd -1
84     #else
85 gbeauche 1.10 #define map_flags (MAP_EXTRA_FLAGS)
86 gbeauche 1.1 static int zero_fd = -1;
87     #endif
88     #endif
89     #endif
90    
91 gbeauche 1.13 /* Utility functions for POSIX SHM handling. */
92    
93     #ifdef USE_33BIT_ADDRESSING
94     struct shm_range_t {
95     const char *file;
96     void *base;
97     unsigned int size;
98     shm_range_t *next;
99     };
100    
101     static shm_range_t *shm_ranges = NULL;
102    
103     static bool add_shm_range(const char *file, void *base, unsigned int size)
104     {
105     shm_range_t *r = (shm_range_t *)malloc(sizeof(shm_range_t));
106     if (r) {
107     r->file = file;
108     r->base = base;
109     r->size = size;
110     r->next = shm_ranges ? shm_ranges : NULL;
111     shm_ranges = r;
112     return true;
113     }
114     return false;
115     }
116    
117     static shm_range_t *find_shm_range(void *base, unsigned int size)
118     {
119     for (shm_range_t *r = shm_ranges; r != NULL; r = r->next)
120     if (r->base == base && r->size == size)
121     return r;
122     return NULL;
123     }
124    
125     static bool remove_shm_range(shm_range_t *r)
126     {
127     if (r) {
128     for (shm_range_t *p = shm_ranges; p != NULL; p = p->next) {
129     if (p->next == r) {
130     p->next = r->next;
131     free(r);
132     return true;
133     }
134     }
135     }
136     return false;
137     }
138    
139     static bool remove_shm_range(void *base, unsigned int size)
140     {
141     remove_shm_range(find_shm_range(base, size));
142     }
143     #endif
144    
145     /* Build a POSIX SHM memory segment file descriptor name. */
146    
147     #ifdef USE_33BIT_ADDRESSING
148     static const char *build_shm_filename(void)
149     {
150     static int id = 0;
151     static char filename[PATH_MAX];
152    
153     int ret = snprintf(filename, sizeof(filename), "/BasiliskII-%d-shm-%d", getpid(), id);
154     if (ret == -1 || ret >= sizeof(filename))
155     return NULL;
156    
157     id++;
158     return filename;
159     }
160     #endif
161    
162 gbeauche 1.10 /* Translate generic VM map flags to host values. */
163    
164     #ifdef HAVE_MMAP_VM
165     static int translate_map_flags(int vm_flags)
166     {
167     int flags = 0;
168     if (vm_flags & VM_MAP_SHARED)
169     flags |= MAP_SHARED;
170     if (vm_flags & VM_MAP_PRIVATE)
171     flags |= MAP_PRIVATE;
172     if (vm_flags & VM_MAP_FIXED)
173     flags |= MAP_FIXED;
174     if (vm_flags & VM_MAP_32BIT)
175     flags |= MAP_32BIT;
176     return flags;
177     }
178     #endif
179    
180 gbeauche 1.14 /* Align ADDR and SIZE to 64K boundaries. */
181    
182     #ifdef HAVE_WIN32_VM
183     static inline LPVOID align_addr_segment(LPVOID addr)
184     {
185     return (LPVOID)(((DWORD)addr) & -65536);
186     }
187    
188     static inline DWORD align_size_segment(LPVOID addr, DWORD size)
189     {
190     return size + ((DWORD)addr - (DWORD)align_addr_segment(addr));
191     }
192     #endif
193    
194     /* Translate generic VM prot flags to host values. */
195    
196     #ifdef HAVE_WIN32_VM
197     static int translate_prot_flags(int prot_flags)
198     {
199     int prot = PAGE_READWRITE;
200     if (prot_flags == (VM_PAGE_EXECUTE | VM_PAGE_READ | VM_PAGE_WRITE))
201     prot = PAGE_EXECUTE_READWRITE;
202     else if (prot_flags == (VM_PAGE_EXECUTE | VM_PAGE_READ))
203     prot = PAGE_EXECUTE_READ;
204     else if (prot_flags == (VM_PAGE_READ | VM_PAGE_WRITE))
205     prot = PAGE_READWRITE;
206     else if (prot_flags == VM_PAGE_READ)
207     prot = PAGE_READONLY;
208     else if (prot_flags == 0)
209     prot = PAGE_NOACCESS;
210     return prot;
211     }
212     #endif
213    
214 gbeauche 1.1 /* Initialize the VM system. Returns 0 if successful, -1 for errors. */
215    
216     int vm_init(void)
217     {
218     #ifdef HAVE_MMAP_VM
219     #ifndef zero_fd
220     zero_fd = open("/dev/zero", O_RDWR);
221     if (zero_fd < 0)
222     return -1;
223     #endif
224     #endif
225     return 0;
226     }
227    
228     /* Deallocate all internal data used to wrap virtual memory allocators. */
229    
230     void vm_exit(void)
231     {
232     #ifdef HAVE_MMAP_VM
233     #ifndef zero_fd
234     close(zero_fd);
235     #endif
236     #endif
237     }
238    
239     /* Allocate zero-filled memory of SIZE bytes. The mapping is private
240     and default protection bits are read / write. The return value
241     is the actual mapping address chosen or VM_MAP_FAILED for errors. */
242    
243 gbeauche 1.10 void * vm_acquire(size_t size, int options)
244 gbeauche 1.1 {
245     void * addr;
246 gbeauche 1.10
247     // VM_MAP_FIXED are to be used with vm_acquire_fixed() only
248     if (options & VM_MAP_FIXED)
249     return VM_MAP_FAILED;
250    
251 gbeauche 1.1 #ifdef HAVE_MACH_VM
252     // vm_allocate() returns a zero-filled memory region
253     if (vm_allocate(mach_task_self(), (vm_address_t *)&addr, size, TRUE) != KERN_SUCCESS)
254     return VM_MAP_FAILED;
255     #else
256     #ifdef HAVE_MMAP_VM
257 gbeauche 1.13 int fd = zero_fd;
258     int the_map_flags = translate_map_flags(options) | map_flags;
259    
260     #ifdef USE_33BIT_ADDRESSING
261     const char *shm_file = NULL;
262     if (sizeof(void *) == 8 && (options & VM_MAP_33BIT)) {
263     the_map_flags &= ~(MAP_PRIVATE | MAP_ANON | MAP_ANONYMOUS);
264     the_map_flags |= MAP_SHARED;
265    
266     if ((shm_file = build_shm_filename()) == NULL)
267     return VM_MAP_FAILED;
268    
269     if ((fd = shm_open(shm_file, O_RDWR | O_CREAT | O_EXCL, 0644)) < 0)
270     return VM_MAP_FAILED;
271    
272     if (ftruncate(fd, size) < 0)
273     return VM_MAP_FAILED;
274    
275     the_map_flags |= MAP_SHARED;
276     }
277     #endif
278 gbeauche 1.10
279 gbeauche 1.13 if ((addr = mmap((caddr_t)next_address, size, VM_PAGE_DEFAULT, the_map_flags, fd, 0)) == (void *)MAP_FAILED)
280 gbeauche 1.1 return VM_MAP_FAILED;
281    
282 gbeauche 1.10 // Sanity checks for 64-bit platforms
283     if (sizeof(void *) == 8 && (options & VM_MAP_32BIT) && !((char *)addr <= (char *)0xffffffff))
284     return VM_MAP_FAILED;
285    
286 gbeauche 1.3 next_address = (char *)addr + size;
287    
288 gbeauche 1.1 // Since I don't know the standard behavior of mmap(), zero-fill here
289     if (memset(addr, 0, size) != addr)
290     return VM_MAP_FAILED;
291 gbeauche 1.13
292     // Remap to 33-bit space
293     #ifdef USE_33BIT_ADDRESSING
294     if (sizeof(void *) == 8 && (options & VM_MAP_33BIT)) {
295     if (!add_shm_range(strdup(shm_file), addr, size))
296     return VM_MAP_FAILED;
297    
298     if (mmap((char *)addr + (1L << 32), size, VM_PAGE_DEFAULT, the_map_flags | MAP_FIXED, fd, 0) == (void *)MAP_FAILED)
299     return VM_MAP_FAILED;
300     close(fd);
301     }
302     #endif
303 gbeauche 1.1 #else
304 gbeauche 1.14 #ifdef HAVE_WIN32_VM
305     if ((addr = VirtualAlloc(NULL, size, MEM_RESERVE | MEM_COMMIT, PAGE_EXECUTE_READWRITE)) == NULL)
306     return VM_MAP_FAILED;
307    
308     // Zero newly allocated memory
309     if (memset(addr, 0, size) != addr)
310     return VM_MAP_FAILED;
311     #else
312 gbeauche 1.1 if ((addr = calloc(size, 1)) == 0)
313     return VM_MAP_FAILED;
314    
315     // Omit changes for protections because they are not supported in this mode
316     return addr;
317     #endif
318     #endif
319 gbeauche 1.14 #endif
320 cebix 1.2
321 gbeauche 1.1 // Explicitely protect the newly mapped region here because on some systems,
322     // say MacOS X, mmap() doesn't honour the requested protection flags.
323     if (vm_protect(addr, size, VM_PAGE_DEFAULT) != 0)
324     return VM_MAP_FAILED;
325    
326     return addr;
327     }
328    
329     /* Allocate zero-filled memory at exactly ADDR (which must be page-aligned).
330     Retuns 0 if successful, -1 on errors. */
331    
332 gbeauche 1.10 int vm_acquire_fixed(void * addr, size_t size, int options)
333 gbeauche 1.1 {
334 gbeauche 1.10 // Fixed mappings are required to be private
335     if (options & VM_MAP_SHARED)
336     return -1;
337    
338 gbeauche 1.1 #ifdef HAVE_MACH_VM
339     // vm_allocate() returns a zero-filled memory region
340     if (vm_allocate(mach_task_self(), (vm_address_t *)&addr, size, 0) != KERN_SUCCESS)
341     return -1;
342     #else
343     #ifdef HAVE_MMAP_VM
344 gbeauche 1.10 const int extra_map_flags = translate_map_flags(options);
345    
346 gbeauche 1.11 if (mmap((caddr_t)addr, size, VM_PAGE_DEFAULT, extra_map_flags | map_flags | MAP_FIXED, zero_fd, 0) == (void *)MAP_FAILED)
347 gbeauche 1.1 return -1;
348    
349     // Since I don't know the standard behavior of mmap(), zero-fill here
350 gbeauche 1.8 if (memset(addr, 0, size) != addr)
351 gbeauche 1.1 return -1;
352     #else
353 gbeauche 1.14 #ifdef HAVE_WIN32_VM
354     // Windows cannot allocate Low Memory
355     if (addr == NULL)
356     return -1;
357    
358     // Allocate a possibly offset region to align on 64K boundaries
359     LPVOID req_addr = align_addr_segment(addr);
360     DWORD req_size = align_size_segment(addr, size);
361     LPVOID ret_addr = VirtualAlloc(req_addr, req_size, MEM_COMMIT | MEM_RESERVE, PAGE_EXECUTE_READWRITE);
362     if (ret_addr != req_addr)
363     return -1;
364    
365     // Zero newly allocated memory
366     if (memset(addr, 0, size) != addr)
367     return -1;
368     #else
369 gbeauche 1.1 // Unsupported
370     return -1;
371     #endif
372     #endif
373 gbeauche 1.14 #endif
374 gbeauche 1.1
375     // Explicitely protect the newly mapped region here because on some systems,
376     // say MacOS X, mmap() doesn't honour the requested protection flags.
377 gbeauche 1.6 if (vm_protect(addr, size, VM_PAGE_DEFAULT) != 0)
378 gbeauche 1.1 return -1;
379    
380     return 0;
381     }
382    
383     /* Deallocate any mapping for the region starting at ADDR and extending
384     LEN bytes. Returns 0 if successful, -1 on errors. */
385    
386     int vm_release(void * addr, size_t size)
387     {
388 gbeauche 1.3 // Safety check: don't try to release memory that was not allocated
389     if (addr == VM_MAP_FAILED)
390     return 0;
391    
392 gbeauche 1.1 #ifdef HAVE_MACH_VM
393 gbeauche 1.4 if (vm_deallocate(mach_task_self(), (vm_address_t)addr, size) != KERN_SUCCESS)
394     return -1;
395 gbeauche 1.1 #else
396     #ifdef HAVE_MMAP_VM
397 gbeauche 1.7 if (munmap((caddr_t)addr, size) != 0)
398 gbeauche 1.4 return -1;
399 gbeauche 1.13
400     #ifdef USE_33BIT_ADDRESSING
401     shm_range_t *r = find_shm_range(addr, size);
402     if (r) {
403     if (munmap((char *)r->base + (1L << 32), size) != 0)
404     return -1;
405    
406     if (shm_unlink(r->file) < 0)
407     return -1;
408     free((char *)r->file);
409    
410     if (!remove_shm_range(r))
411     return -1;
412     }
413     #endif
414 gbeauche 1.1 #else
415 gbeauche 1.14 #ifdef HAVE_WIN32_VM
416     if (VirtualFree(align_addr_segment(addr), 0, MEM_RELEASE) == 0)
417     return -1;
418     #else
419 gbeauche 1.1 free(addr);
420     #endif
421     #endif
422 gbeauche 1.14 #endif
423 gbeauche 1.4
424     return 0;
425 gbeauche 1.1 }
426    
427     /* Change the memory protection of the region starting at ADDR and
428     extending LEN bytes to PROT. Returns 0 if successful, -1 for errors. */
429    
430     int vm_protect(void * addr, size_t size, int prot)
431     {
432     #ifdef HAVE_MACH_VM
433     int ret_code = vm_protect(mach_task_self(), (vm_address_t)addr, size, 0, prot);
434     return ret_code == KERN_SUCCESS ? 0 : -1;
435     #else
436     #ifdef HAVE_MMAP_VM
437 gbeauche 1.7 int ret_code = mprotect((caddr_t)addr, size, prot);
438 gbeauche 1.1 return ret_code == 0 ? 0 : -1;
439     #else
440 gbeauche 1.14 #ifdef HAVE_WIN32_VM
441     DWORD old_prot;
442     int ret_code = VirtualProtect(addr, size, translate_prot_flags(prot), &old_prot);
443     return ret_code != 0 ? 0 : -1;
444     #else
445 gbeauche 1.1 // Unsupported
446     return -1;
447     #endif
448     #endif
449 gbeauche 1.14 #endif
450 gbeauche 1.1 }
451    
452 gbeauche 1.15 /* Returns the size of a page. */
453    
454     int vm_page_size(void)
455     {
456     #ifdef _WIN32
457     return 4096;
458     #else
459     return getpagesize();
460     #endif
461     }
462    
463 gbeauche 1.1 #ifdef CONFIGURE_TEST_VM_MAP
464     /* Tests covered here:
465     - TEST_VM_PROT_* program slices actually succeeds when a crash occurs
466     - TEST_VM_MAP_ANON* program slices succeeds when it could be compiled
467     */
468     int main(void)
469     {
470     vm_init();
471    
472     #define page_align(address) ((char *)((unsigned long)(address) & -page_size))
473 gbeauche 1.15 unsigned long page_size = vm_page_size();
474 gbeauche 1.1
475     const int area_size = 6 * page_size;
476     volatile char * area = (volatile char *) vm_acquire(area_size);
477     volatile char * fault_address = area + (page_size * 7) / 2;
478    
479     #if defined(TEST_VM_MMAP_ANON) || defined(TEST_VM_MMAP_ANONYMOUS)
480     if (area == VM_MAP_FAILED)
481     return 1;
482    
483     if (vm_release((char *)area, area_size) < 0)
484     return 1;
485    
486     return 0;
487     #endif
488    
489     #if defined(TEST_VM_PROT_NONE_READ) || defined(TEST_VM_PROT_NONE_WRITE)
490     if (area == VM_MAP_FAILED)
491     return 0;
492    
493     if (vm_protect(page_align(fault_address), page_size, VM_PAGE_NOACCESS) < 0)
494     return 0;
495     #endif
496    
497     #if defined(TEST_VM_PROT_RDWR_WRITE)
498     if (area == VM_MAP_FAILED)
499     return 1;
500    
501     if (vm_protect(page_align(fault_address), page_size, VM_PAGE_READ) < 0)
502     return 1;
503    
504     if (vm_protect(page_align(fault_address), page_size, VM_PAGE_READ | VM_PAGE_WRITE) < 0)
505     return 1;
506     #endif
507    
508     #if defined(TEST_VM_PROT_READ_WRITE)
509     if (vm_protect(page_align(fault_address), page_size, VM_PAGE_READ) < 0)
510     return 0;
511     #endif
512    
513     #if defined(TEST_VM_PROT_NONE_READ)
514     // this should cause a core dump
515     char foo = *fault_address;
516     return 0;
517     #endif
518    
519     #if defined(TEST_VM_PROT_NONE_WRITE) || defined(TEST_VM_PROT_READ_WRITE)
520     // this should cause a core dump
521     *fault_address = 'z';
522     return 0;
523     #endif
524    
525     #if defined(TEST_VM_PROT_RDWR_WRITE)
526     // this should not cause a core dump
527     *fault_address = 'z';
528     return 0;
529     #endif
530     }
531     #endif