Root/
Source at commit 1083 created 13 years 1 month ago. By meklort, add GetDriveInfo | |
---|---|
1 | /*␊ |
2 | File added by David F. Elliott <dfe@cox.net> on 2007/06/26␊ |
3 | */␊ |
4 | ␊ |
5 | #include "libsaio.h"␊ |
6 | #include "boot.h"␊ |
7 | ␊ |
8 | #include "mboot.h"␊ |
9 | ␊ |
10 | int multiboot_timeout=0;␊ |
11 | int multiboot_timeout_set=0;␊ |
12 | int multiboot_partition=0;␊ |
13 | int multiboot_partition_set=0;␊ |
14 | ␊ |
15 | // Global multiboot info, if using multiboot.␊ |
16 | struct multiboot_info *gMI;␊ |
17 | ␊ |
18 | extern void continue_at_low_address(void);␊ |
19 | ␊ |
20 | // prototype hi_multiboot and keep its implementation below multiboot_to_boot␊ |
21 | // to ensure that it doesn't get inlined by the compiler␊ |
22 | // We don't want it inlined because we specifically want the stack frame␊ |
23 | // pointer to be as high as possible and the hi_multiboot function␊ |
24 | // copies multiboot_info onto its stack.␊ |
25 | uint32_t hi_multiboot(int multiboot_magic, struct multiboot_info *mi_orig);␊ |
26 | // prototype dochainload for the same reason.␊ |
27 | void dochainload();␊ |
28 | ␊ |
29 | #define OFFSET_1MEG 0x100000␊ |
30 | #define BAD_BOOT_DEVICE 0xffffffff␊ |
31 | ␊ |
32 | // This assumes that the address of the first argument to the function will␊ |
33 | // be exactly 4 bytes above the address of the return address.␊ |
34 | // It is intended to be used as an lvalue with a statement like this -= OFFSET_1MEG;␊ |
35 | #define RETURN_ADDRESS_USING_FIRST_ARG(arg) \␊ |
36 | (*(uint32_t*)((char*)&(arg) - 4))␊ |
37 | ␊ |
38 | #define FIX_RETURN_ADDRESS_USING_FIRST_ARG(arg) \␊ |
39 | RETURN_ADDRESS_USING_FIRST_ARG(arg) -= OFFSET_1MEG␊ |
40 | ␊ |
41 | extern void jump_to_chainbooter();␊ |
42 | extern unsigned char chainbootdev;␊ |
43 | extern unsigned char chainbootflag;␊ |
44 | ␊ |
45 | void chainLoad();␊ |
46 | void waitThenReload();␊ |
47 | ␊ |
48 | /*␊ |
49 | int multibootRamdiskReadBytes( int biosdev, unsigned int blkno,␊ |
50 | unsigned int byteoff,␊ |
51 | unsigned int byteCount, void * buffer );␊ |
52 | int multiboot_get_ramdisk_info(int biosdev, struct driveInfo *dip);␊ |
53 | static long multiboot_LoadExtraDrivers(FileLoadDrivers_t FileLoadDrivers_p);␊ |
54 | */␊ |
55 | ␊ |
56 | // Starts off in the multiboot context 1 MB high but eventually gets into low memory␊ |
57 | // and winds up with a bootdevice in eax which is all that boot() wants␊ |
58 | // This lets the stack pointer remain very high.␊ |
59 | // If we were to call boot directly from multiboot then the whole multiboot_info␊ |
60 | // would be on the stack which would possibly be using way too much stack.␊ |
61 | void multiboot_to_boot(int multiboot_magic, struct multiboot_info *mi_orig)␊ |
62 | {␊ |
63 | uint32_t bootdevice = hi_multiboot(multiboot_magic, mi_orig);␊ |
64 | if(bootdevice != BAD_BOOT_DEVICE)␊ |
65 | {␊ |
66 | // boot only returns to do a chain load.␊ |
67 | for(;;)␊ |
68 | { // NOTE: boot only uses the last byte (the drive number)␊ |
69 | common_boot(bootdevice);␊ |
70 | if(chainbootflag)␊ |
71 | chainLoad();␊ |
72 | else␊ |
73 | waitThenReload();␊ |
74 | }␊ |
75 | }␊ |
76 | // Avoid returning to high-memory address which isn't valid in the segment␊ |
77 | // we are now in.␊ |
78 | // Calling sleep() ensures the user ought to be able to use Ctrl+Alt+Del␊ |
79 | // because the BIOS will have interrupts on.␊ |
80 | for(;;)␊ |
81 | sleep(10);␊ |
82 | // NOTE: *IF* we needed to return we'd have to fix up our return address to␊ |
83 | // be in low memory using the same trick as below.␊ |
84 | // However, there doesn't seem to be any point in returning to assembly␊ |
85 | // particularly when the remaining code merely halts the processor.␊ |
86 | }␊ |
87 | ␊ |
88 | void chainLoad()␊ |
89 | {␊ |
90 | /* TODO: We ought to load the appropriate partition table, for example␊ |
91 | the MBR if booting a primary partition or the particular extended␊ |
92 | partition table if booting a logical drive. For example, the␊ |
93 | regular MS MBR booter will relocate itself (e.g. the MBR) from␊ |
94 | 0:7C00 to 0:0600 and will use SI as the offset when reading␊ |
95 | the partition data from itself. Thus when it jumps to the partition␊ |
96 | boot sector, SI will be 0x600 + 446 + i<<4 where i is the partition␊ |
97 | table index.␊ |
98 | ␊ |
99 | On the other hand, our code for the non-Multiboot case doesn't do␊ |
100 | this either, although GRUB does.␊ |
101 | */␊ |
102 | ␊ |
103 | const unsigned char *bootcode = (const unsigned char*)0x7c00;␊ |
104 | if(bootcode[0x1fe] == 0x55 && bootcode[0x1ff] == 0xaa)␊ |
105 | {␊ |
106 | printf("Calling chainbooter\n");␊ |
107 | jump_to_chainbooter();␊ |
108 | /* NORETURN */␊ |
109 | }␊ |
110 | else␊ |
111 | {␊ |
112 | printf("Bad chain boot sector magic: %02x%02x\n", bootcode[0x1fe], bootcode[0x1ff]);␊ |
113 | }␊ |
114 | }␊ |
115 | ␊ |
116 | void waitThenReload()␊ |
117 | {␊ |
118 | /* FIXME: Ctrl+Alt+Del does not work under Boot Camp */␊ |
119 | printf("Darwin booter exited for some reason.\n");␊ |
120 | printf("Please reboot (Ctrl+Alt+Del) your machine.\n");␊ |
121 | printf("Restarting Darwin booter in 5 seconds...");␊ |
122 | sleep(1);␊ |
123 | printf("4...");␊ |
124 | sleep(1);␊ |
125 | printf("3...");␊ |
126 | sleep(1);␊ |
127 | printf("2...");␊ |
128 | sleep(1);␊ |
129 | printf("1...");␊ |
130 | sleep(1);␊ |
131 | printf("0\n");␊ |
132 | }␊ |
133 | ␊ |
134 | // Declare boot2_sym as an opaque struct so it can't be converted to a pointer␊ |
135 | // i.e. ensure the idiot programmer (me) makes sure to use address-of␊ |
136 | // Technically it's a function but it's real mode code and we sure don't␊ |
137 | // want to call it under any circumstances.␊ |
138 | extern struct {} boot2_sym asm("boot2");␊ |
139 | ␊ |
140 | // prototype multiboot and keep its implementation below hi_multiboot to␊ |
141 | // ensure that it doesn't get inlined by the compiler␊ |
142 | static inline uint32_t multiboot(int multiboot_magic, struct multiboot_info *mi);␊ |
143 | ␊ |
144 | ␊ |
145 | /*!␊ |
146 | Returns a pointer to the first safe address we can use for stowing the multiboot info.␊ |
147 | This might actually be a bit pedantic because mboot.c32 and GRUB both stow the multiboot␊ |
148 | info in low memory meaning that the >= 128 MB location we choose is plenty high enough.␊ |
149 | */␊ |
150 | void *determine_safe_hi_addr(int multiboot_magic, struct multiboot_info *mi_orig)␊ |
151 | {␊ |
152 | // hi_addr must be at least up in 128MB+ space so it doesn't get clobbered␊ |
153 | void *hi_addr = (void*)PREBOOT_DATA;␊ |
154 | ␊ |
155 | // Fail if the magic isn't correct. We'll complain later.␊ |
156 | if(multiboot_magic != MULTIBOOT_INFO_MAGIC)␊ |
157 | return NULL;␊ |
158 | // Make sure the command-line isn't in high memory.␊ |
159 | if(mi_orig->mi_flags & MULTIBOOT_INFO_HAS_CMDLINE)␊ |
160 | {␊ |
161 | char *end = mi_orig->mi_cmdline;␊ |
162 | if(end != NULL)␊ |
163 | {␊ |
164 | for(; *end != '\0'; ++end)␊ |
165 | ;␊ |
166 | ++end;␊ |
167 | if( (void*)end > hi_addr)␊ |
168 | hi_addr = end;␊ |
169 | }␊ |
170 | }␊ |
171 | // Make sure the module information isn't in high memory␊ |
172 | if(mi_orig->mi_flags & MULTIBOOT_INFO_HAS_MODS)␊ |
173 | {␊ |
174 | struct multiboot_module *modules = (void*)mi_orig->mi_mods_addr;␊ |
175 | int i;␊ |
176 | for(i=0; i < mi_orig->mi_mods_count; ++i)␊ |
177 | {␊ |
178 | // make sure the multiboot_module struct itself won't get clobbered␊ |
179 | void *modinfo_end = modules+i+1;␊ |
180 | if(modinfo_end > hi_addr)␊ |
181 | hi_addr = modinfo_end;␊ |
182 | // make sure the module itself won't get clobbered␊ |
183 | modinfo_end = (void*)modules[i].mm_mod_end;␊ |
184 | if(modinfo_end > hi_addr)␊ |
185 | hi_addr = modinfo_end;␊ |
186 | // make sure the module string doesn't get clobbered␊ |
187 | char *end = modules[i].mm_string;␊ |
188 | for(; *end != '\0'; ++end)␊ |
189 | ;␊ |
190 | ++end;␊ |
191 | modinfo_end = end;␊ |
192 | if(modinfo_end > hi_addr)␊ |
193 | hi_addr = modinfo_end;␊ |
194 | }␊ |
195 | }␊ |
196 | // TODO: Copy syms (never needed), mmap, drives, config table, loader name, apm table, VBE info␊ |
197 | ␊ |
198 | // Round up to page size␊ |
199 | hi_addr = (void*)(((uint32_t)hi_addr + 0xfff) & ~(uint32_t)0xfff);␊ |
200 | return hi_addr;␊ |
201 | }␊ |
202 | ␊ |
203 | /*!␊ |
204 | Like malloc but with a preceding input/output parameter which points to the next available␊ |
205 | location for data. The original value of *hi_addr is returned and *hi_addr is incremented␊ |
206 | by size bytes.␊ |
207 | */␊ |
208 | void * _hi_malloc(void **hi_addr, size_t size)␊ |
209 | {␊ |
210 | void *ret = *hi_addr;␊ |
211 | *hi_addr += size;␊ |
212 | return ret;␊ |
213 | }␊ |
214 | ␊ |
215 | /*!␊ |
216 | Like strdup but with a preceding input/output parameter. The original value of *hi_addr is␊ |
217 | returned and *hi_addr is incremented by the number of bytes necessary to complete the string␊ |
218 | copy including its NUL terminator.␊ |
219 | */␊ |
220 | char * _hi_strdup(void **hi_addr, char *src)␊ |
221 | {␊ |
222 | char *dstStart;␊ |
223 | char *dst = dstStart = *hi_addr;␊ |
224 | for(; *src != '\0'; ++src, ++dst, ++(*hi_addr))␊ |
225 | *dst = *src;␊ |
226 | *dst = '\0';␊ |
227 | ++(*hi_addr);␊ |
228 | return dstStart;␊ |
229 | }␊ |
230 | ␊ |
231 | // Convenience macros␊ |
232 | #define hi_malloc(size) _hi_malloc(&hi_addr, (size))␊ |
233 | #define hi_strdup(src) _hi_strdup(&hi_addr, (src))␊ |
234 | ␊ |
235 | /*!␊ |
236 | Copies the Multiboot info and any associated data (e.g. various strings and any multiboot modules)␊ |
237 | up to very high RAM (above 128 MB) to ensure it doesn't get clobbered by the booter.␊ |
238 | */␊ |
239 | struct multiboot_info * copyMultibootInfo(int multiboot_magic, struct multiboot_info *mi_orig)␊ |
240 | {␊ |
241 | void *hi_addr = determine_safe_hi_addr(multiboot_magic, mi_orig);␊ |
242 | if(hi_addr == NULL)␊ |
243 | return NULL;␊ |
244 | ␊ |
245 | struct multiboot_info *mi_copy = hi_malloc(sizeof(*mi_copy));␊ |
246 | memcpy(mi_copy, mi_orig, sizeof(*mi_copy));␊ |
247 | ␊ |
248 | // Copy the command line␊ |
249 | if(mi_orig->mi_flags & MULTIBOOT_INFO_HAS_CMDLINE)␊ |
250 | {␊ |
251 | mi_copy->mi_cmdline = hi_strdup(mi_orig->mi_cmdline);␊ |
252 | }␊ |
253 | // Copy the loader name␊ |
254 | if(mi_orig->mi_flags & MULTIBOOT_INFO_HAS_LOADER_NAME)␊ |
255 | {␊ |
256 | mi_copy->mi_loader_name = hi_strdup(mi_orig->mi_loader_name);␊ |
257 | }␊ |
258 | // Copy the module info␊ |
259 | if(mi_orig->mi_flags & MULTIBOOT_INFO_HAS_MODS)␊ |
260 | {␊ |
261 | struct multiboot_module *dst_modules = hi_malloc(sizeof(*dst_modules)*mi_orig->mi_mods_count);␊ |
262 | struct multiboot_module *src_modules = (void*)mi_orig->mi_mods_addr;␊ |
263 | mi_copy->mi_mods_addr = (uint32_t)dst_modules;␊ |
264 | ␊ |
265 | // Copy all of the module info plus the actual module into high memory␊ |
266 | int i;␊ |
267 | for(i=0; i < mi_orig->mi_mods_count; ++i)␊ |
268 | {␊ |
269 | // Assume mod_end is 1 past the actual end (i.e. it is start + size, not really end (i.e. start + size - 1))␊ |
270 | // This is what GRUB and mboot.c32 do although the spec is unclear on this.␊ |
271 | uint32_t mod_length = src_modules[i].mm_mod_end - src_modules[i].mm_mod_start;␊ |
272 | ␊ |
273 | dst_modules[i].mm_mod_start = (uint32_t)hi_malloc(mod_length);␊ |
274 | dst_modules[i].mm_mod_end = (uint32_t)dst_modules[i].mm_mod_start + mod_length;␊ |
275 | memcpy((char*)dst_modules[i].mm_mod_start, (char*)src_modules[i].mm_mod_start, mod_length);␊ |
276 | ␊ |
277 | dst_modules[i].mm_string = hi_strdup(src_modules[i].mm_string);␊ |
278 | dst_modules[i].mm_reserved = src_modules[i].mm_reserved;␊ |
279 | }␊ |
280 | }␊ |
281 | // Make sure that only stuff that didn't need to be copied or that we did deep copy is indicated in the copied struct.␊ |
282 | mi_copy->mi_flags &= MULTIBOOT_INFO_HAS_MEMORY | MULTIBOOT_INFO_HAS_BOOT_DEVICE | MULTIBOOT_INFO_HAS_CMDLINE | MULTIBOOT_INFO_HAS_LOADER_NAME | MULTIBOOT_INFO_HAS_MODS;␊ |
283 | ␊ |
284 | return mi_copy;␊ |
285 | }␊ |
286 | ␊ |
287 | // When we enter, we're actually 1 MB high.␊ |
288 | // Fortunately, memcpy is position independent, and it's all we need␊ |
289 | uint32_t hi_multiboot(int multiboot_magic, struct multiboot_info *mi_orig)␊ |
290 | {␊ |
291 | // Copy the multiboot info out of the way.␊ |
292 | // We can't bitch about the magic yet because printf won't work␊ |
293 | // because it contains an absolute location of putchar which␊ |
294 | // contains absolute locations to other things which eventually␊ |
295 | // makes a BIOS call from real mode which of course won't work␊ |
296 | // because we're stuck in extended memory at this point.␊ |
297 | struct multiboot_info *mi_p = copyMultibootInfo(multiboot_magic, mi_orig);␊ |
298 | ␊ |
299 | // Get us in to low memory so we can run everything␊ |
300 | ␊ |
301 | // We cannot possibly be more than 447k and copying extra won't really hurt anything␊ |
302 | // We use the address of the assembly entrypoint to get our starting location.␊ |
303 | memcpy(&boot2_sym, (char*)&boot2_sym + OFFSET_1MEG, BOOT2_MAX_LENGTH /* 447k */);␊ |
304 | ␊ |
305 | // This is a little assembler routine that returns to us in the correct selector␊ |
306 | // instead of the kernel selector we're running in now and at the correct␊ |
307 | // instruction pointer ( current minus 1 MB ). It does not fix our return␊ |
308 | // address nor does it fix the return address of our caller.␊ |
309 | continue_at_low_address();␊ |
310 | ␊ |
311 | // Now fix our return address.␊ |
312 | FIX_RETURN_ADDRESS_USING_FIRST_ARG(multiboot_magic);␊ |
313 | ␊ |
314 | // We can now do just about anything, including return to our caller correctly.␊ |
315 | // However, our caller must fix his return address if he wishes to return to␊ |
316 | // his caller and so on and so forth.␊ |
317 | ␊ |
318 | /* Zero the BSS and initialize malloc */␊ |
319 | initialize_runtime();␊ |
320 | ␊ |
321 | gMI = mi_p;␊ |
322 | ␊ |
323 | /* Set up a temporary bootArgs so we can call console output routines␊ |
324 | like printf that check the v_display. Note that we purposefully␊ |
325 | do not initialize anything else at this early stage.␊ |
326 | ␊ |
327 | We are reasonably sure we're already in text mode if GRUB booted us.␊ |
328 | This is the same assumption that initKernBootStruct makes.␊ |
329 | We could check the multiboot info I guess, but why bother?␊ |
330 | */␊ |
331 | boot_args temporaryBootArgsData;␊ |
332 | bzero(&temporaryBootArgsData, sizeof(boot_args));␊ |
333 | // bootArgs = &temporaryBootArgsData;␊ |
334 | // bootArgs->Video.v_display = VGA_TEXT_MODE;␊ |
335 | ␊ |
336 | // Install ramdisk and extra driver hooks␊ |
337 | //p_get_ramdisk_info = &multiboot_get_ramdisk_info;␊ |
338 | //p_ramdiskReadBytes = &multibootRamdiskReadBytes;␊ |
339 | //LoadExtraDrivers_p = &multiboot_LoadExtraDrivers;␊ |
340 | ␊ |
341 | // Since we call multiboot ourselves, its return address will be correct.␊ |
342 | // That is unless it's inlined in which case it does not matter.␊ |
343 | uint32_t bootdevice = multiboot(multiboot_magic, mi_p);␊ |
344 | // We're about to exit and temporaryBootArgs will no longer be valid␊ |
345 | //bootArgs = NULL;␊ |
346 | return bootdevice;␊ |
347 | }␊ |
348 | ␊ |
349 | // This is the meat of our implementation. It grabs the boot device from␊ |
350 | // the multiboot_info and returns it as is. If it fails it returns␊ |
351 | // BAD_BOOT_DEVICE. We can call an awful lot of libsa and libsaio but␊ |
352 | // we need to take care not to call anything that requires malloc because␊ |
353 | // it won't be initialized until boot() does it.␊ |
354 | static inline uint32_t multiboot(int multiboot_magic, struct multiboot_info *mi)␊ |
355 | {␊ |
356 | if(multiboot_magic != MULTIBOOT_INFO_MAGIC)␊ |
357 | {␊ |
358 | printf("Wrong Multiboot magic\n");␊ |
359 | sleep(2);␊ |
360 | return BAD_BOOT_DEVICE;␊ |
361 | }␊ |
362 | printf("Multiboot info @0x%x\n", (uint32_t)mi);␊ |
363 | if(mi->mi_flags & MULTIBOOT_INFO_HAS_LOADER_NAME)␊ |
364 | printf("Loaded by %s\n", mi->mi_loader_name);␊ |
365 | ␊ |
366 | // Multiboot puts boot device in high byte␊ |
367 | // Normal booter wants it in low byte␊ |
368 | int bootdevice = mi->mi_boot_device_drive;␊ |
369 | ␊ |
370 | bool doSelectDevice = false;␊ |
371 | if(mi->mi_flags & MULTIBOOT_INFO_HAS_BOOT_DEVICE)␊ |
372 | {␊ |
373 | printf("Boot device 0x%x\n", bootdevice);␊ |
374 | }␊ |
375 | else␊ |
376 | {␊ |
377 | printf("Multiboot info does not include chosen boot device\n");␊ |
378 | doSelectDevice = true;␊ |
379 | bootdevice = BAD_BOOT_DEVICE;␊ |
380 | }␊ |
381 | ␊ |
382 | if(bootdevice == BAD_BOOT_DEVICE)␊ |
383 | sleep(2); // pause for a second before halting␊ |
384 | return bootdevice;␊ |
385 | }␊ |
386 | ␊ |
387 | ///////////////////////////////////////////////////////////////////////////␊ |
388 | // Ramdisk and extra drivers code␊ |
389 | #if 0␊ |
390 | int multibootRamdiskReadBytes( int biosdev, unsigned int blkno,␊ |
391 | unsigned int byteoff,␊ |
392 | unsigned int byteCount, void * buffer )␊ |
393 | {␊ |
394 | int module_count = gMI->mi_mods_count;␊ |
395 | struct multiboot_module *modules = (void*)gMI->mi_mods_addr;␊ |
396 | if(biosdev < 0x100)␊ |
397 | return -1;␊ |
398 | if(biosdev >= (0x100 + module_count))␊ |
399 | return -1;␊ |
400 | struct multiboot_module *module = modules + (biosdev - 0x100);␊ |
401 | ␊ |
402 | void *p_initrd = (void*)module->mm_mod_start;␊ |
403 | bcopy(p_initrd + blkno*512 + byteoff, buffer, byteCount);␊ |
404 | return 0;␊ |
405 | }␊ |
406 | ␊ |
407 | int multiboot_get_ramdisk_info(int biosdev, struct driveInfo *dip)␊ |
408 | {␊ |
409 | int module_count = gMI->mi_mods_count;␊ |
410 | struct multiboot_module *modules = (void*)gMI->mi_mods_addr;␊ |
411 | if(biosdev < 0x100)␊ |
412 | return -1;␊ |
413 | if(biosdev >= (0x100 + module_count))␊ |
414 | return -1;␊ |
415 | struct multiboot_module *module = modules + (biosdev - 0x100);␊ |
416 | dip->biosdev = biosdev;␊ |
417 | dip->uses_ebios = true;␉// XXX aserebln uses_ebios isn't a boolean at all␊ |
418 | dip->di.params.phys_sectors = (module->mm_mod_end - module->mm_mod_start + 511) / 512;␊ |
419 | dip->valid = true;␊ |
420 | return 0;␊ |
421 | }␊ |
422 | static long multiboot_LoadExtraDrivers(FileLoadDrivers_t FileLoadDrivers_p)␊ |
423 | {␊ |
424 | char extensionsSpec[1024];␊ |
425 | int ramdiskUnit;␊ |
426 | for(ramdiskUnit = 0; ramdiskUnit < gMI->mi_mods_count; ++ramdiskUnit)␊ |
427 | {␊ |
428 | int partCount; // unused␊ |
429 | BVRef ramdiskChain = diskScanBootVolumes(0x100 + ramdiskUnit, &partCount);␊ |
430 | if(ramdiskChain == NULL)␊ |
431 | {␊ |
432 | verbose("Ramdisk contains no partitions\n");␊ |
433 | continue;␊ |
434 | }␊ |
435 | for(; ramdiskChain != NULL; ramdiskChain = ramdiskChain->next)␊ |
436 | {␊ |
437 | sprintf(extensionsSpec, "rd(%d,%d)/Extra/", ramdiskUnit, ramdiskChain->part_no);␊ |
438 | struct dirstuff *extradir = opendir(extensionsSpec);␊ |
439 | closedir(extradir);␊ |
440 | if(extradir != NULL)␊ |
441 | {␊ |
442 | int ret = FileLoadDrivers_p(extensionsSpec, 0 /* this is a kext root dir, not a kext with plugins */);␊ |
443 | if(ret != 0)␊ |
444 | {␊ |
445 | verbose("FileLoadDrivers failed on a ramdisk\n");␊ |
446 | return ret;␊ |
447 | }␊ |
448 | }␊ |
449 | }␊ |
450 | }␊ |
451 | return 0;␊ |
452 | }␊ |
453 | #endif |