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process_32.c

process_32.c 8.4 KB
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  1. /*
    2. 

  2.  *  Copyright (C) 1995  Linus Torvalds
    3. 

  3.  *
    4. 

  4.  *  Pentium III FXSR, SSE support
    5. 

  5.  *	Gareth Hughes <gareth@valinux.com>, May 2000
    6. 

  6.  */
    7. 

  7. 

  8. /*
    9. 

  9.  * This file handles the architecture-dependent parts of process handling..
    10. 

  10.  */
    11. 

  11. 

  12. #include <linux/cpu.h>
    13. 

  13. #include <linux/errno.h>
    14. 

  14. #include <linux/sched.h>
    15. 

  15. #include <linux/fs.h>
    16. 

  16. #include <linux/kernel.h>
    17. 

  17. #include <linux/mm.h>
    18. 

  18. #include <linux/elfcore.h>
    19. 

  19. #include <linux/smp.h>
    20. 

  20. #include <linux/stddef.h>
    21. 

  21. #include <linux/slab.h>
    22. 

  22. #include <linux/vmalloc.h>
    23. 

  23. #include <linux/user.h>
    24. 

  24. #include <linux/interrupt.h>
    25. 

  25. #include <linux/delay.h>
    26. 

  26. #include <linux/reboot.h>
    27. 

  27. #include <linux/init.h>
    28. 

  28. #include <linux/mc146818rtc.h>
    29. 

  29. #include <linux/module.h>
    30. 

  30. #include <linux/kallsyms.h>
    31. 

  31. #include <linux/ptrace.h>
    32. 

  32. #include <linux/personality.h>
    33. 

  33. #include <linux/percpu.h>
    34. 

  34. #include <linux/prctl.h>
    35. 

  35. #include <linux/ftrace.h>
    36. 

  36. #include <linux/uaccess.h>
    37. 

  37. #include <linux/io.h>
    38. 

  38. #include <linux/kdebug.h>
    39. 

  39. 

  40. #include <asm/pgtable.h>
    41. 

  41. #include <asm/ldt.h>
    42. 

  42. #include <asm/processor.h>
    43. 

  43. #include <asm/i387.h>
    44. 

  44. #include <asm/fpu-internal.h>
    45. 

  45. #include <asm/desc.h>
    46. 

  46. #ifdef CONFIG_MATH_EMULATION
    47. 

  47. #include <asm/math_emu.h>
    48. 

  48. #endif
    49. 

  49. 

  50. #include <linux/err.h>
    51. 

  51. 

  52. #include <asm/tlbflush.h>
    53. 

  53. #include <asm/cpu.h>
    54. 

  54. #include <asm/idle.h>
    55. 

  55. #include <asm/syscalls.h>
    56. 

  56. #include <asm/debugreg.h>
    57. 

  57. #include <asm/switch_to.h>
    58. 

  58. 

  59. asmlinkage void ret_from_fork(void) __asm__("ret_from_fork");
    60. 

  60. 

  61. /*
    62. 

  62.  * Return saved PC of a blocked thread.
    63. 

  63.  */
    64. 

  64. unsigned long thread_saved_pc(struct task_struct *tsk)
    65. 

  65. {
    66. 

  66. 	return ((unsigned long *)tsk->thread.sp)[3];
    67. 

  67. }
    68. 

  68. 

  69. void __show_regs(struct pt_regs *regs, int all)
    70. 

  70. {
    71. 

  71. 	unsigned long cr0 = 0L, cr2 = 0L, cr3 = 0L, cr4 = 0L;
    72. 

  72. 	unsigned long d0, d1, d2, d3, d6, d7;
    73. 

  73. 	unsigned long sp;
    74. 

  74. 	unsigned short ss, gs;
    75. 

  75. 

  76. 	if (user_mode_vm(regs)) {
    77. 

  77. 		sp = regs->sp;
    78. 

  78. 		ss = regs->ss & 0xffff;
    79. 

  79. 		gs = get_user_gs(regs);
    80. 

  80. 	} else {
    81. 

  81. 		sp = kernel_stack_pointer(regs);
    82. 

  82. 		savesegment(ss, ss);
    83. 

  83. 		savesegment(gs, gs);
    84. 

  84. 	}
    85. 

  85. 

  86. 	show_regs_common();
    87. 

  87. 

  88. 	printk(KERN_DEFAULT "EIP: %04x:[<%08lx>] EFLAGS: %08lx CPU: %d\n",
    89. 

  89. 			(u16)regs->cs, regs->ip, regs->flags,
    90. 

  90. 			smp_processor_id());
    91. 

  91. 	print_symbol("EIP is at %s\n", regs->ip);
    92. 

  92. 

  93. 	printk(KERN_DEFAULT "EAX: %08lx EBX: %08lx ECX: %08lx EDX: %08lx\n",
    94. 

  94. 		regs->ax, regs->bx, regs->cx, regs->dx);
    95. 

  95. 	printk(KERN_DEFAULT "ESI: %08lx EDI: %08lx EBP: %08lx ESP: %08lx\n",
    96. 

  96. 		regs->si, regs->di, regs->bp, sp);
    97. 

  97. 	printk(KERN_DEFAULT " DS: %04x ES: %04x FS: %04x GS: %04x SS: %04x\n",
    98. 

  98. 	       (u16)regs->ds, (u16)regs->es, (u16)regs->fs, gs, ss);
    99. 

  99. 

  100. 	if (!all)
    101. 

  101. 		return;
    102. 

  102. 

  103. 	cr0 = read_cr0();
    104. 

  104. 	cr2 = read_cr2();
    105. 

  105. 	cr3 = read_cr3();
    106. 

  106. 	cr4 = read_cr4_safe();
    107. 

  107. 	printk(KERN_DEFAULT "CR0: %08lx CR2: %08lx CR3: %08lx CR4: %08lx\n",
    108. 

  108. 			cr0, cr2, cr3, cr4);
    109. 

  109. 

  110. 	get_debugreg(d0, 0);
    111. 

  111. 	get_debugreg(d1, 1);
    112. 

  112. 	get_debugreg(d2, 2);
    113. 

  113. 	get_debugreg(d3, 3);
    114. 

  114. 	printk(KERN_DEFAULT "DR0: %08lx DR1: %08lx DR2: %08lx DR3: %08lx\n",
    115. 

  115. 			d0, d1, d2, d3);
    116. 

  116. 

  117. 	get_debugreg(d6, 6);
    118. 

  118. 	get_debugreg(d7, 7);
    119. 

  119. 	printk(KERN_DEFAULT "DR6: %08lx DR7: %08lx\n",
    120. 

  120. 			d6, d7);
    121. 

  121. }
    122. 

  122. 

  123. void release_thread(struct task_struct *dead_task)
    124. 

  124. {
    125. 

  125. 	BUG_ON(dead_task->mm);
    126. 

  126. 	release_vm86_irqs(dead_task);
    127. 

  127. }
    128. 

  128. 

  129. int copy_thread(unsigned long clone_flags, unsigned long sp,
    130. 

  130. 	unsigned long unused,
    131. 

  131. 	struct task_struct *p, struct pt_regs *regs)
    132. 

  132. {
    133. 

  133. 	struct pt_regs *childregs;
    134. 

  134. 	struct task_struct *tsk;
    135. 

  135. 	int err;
    136. 

  136. 

  137. 	childregs = task_pt_regs(p);
    138. 

  138. 	*childregs = *regs;
    139. 

  139. 	childregs->ax = 0;
    140. 

  140. 	childregs->sp = sp;
    141. 

  141. 

  142. 	p->thread.sp = (unsigned long) childregs;
    143. 

  143. 	p->thread.sp0 = (unsigned long) (childregs+1);
    144. 

  144. 

  145. 	p->thread.ip = (unsigned long) ret_from_fork;
    146. 

  146. 

  147. 	task_user_gs(p) = get_user_gs(regs);
    148. 

  148. 

  149. 	p->fpu_counter = 0;
    150. 

  150. 	p->thread.io_bitmap_ptr = NULL;
    151. 

  151. 	tsk = current;
    152. 

  152. 	err = -ENOMEM;
    153. 

  153. 

  154. 	memset(p->thread.ptrace_bps, 0, sizeof(p->thread.ptrace_bps));
    155. 

  155. 

  156. 	if (unlikely(test_tsk_thread_flag(tsk, TIF_IO_BITMAP))) {
    157. 

  157. 		p->thread.io_bitmap_ptr = kmemdup(tsk->thread.io_bitmap_ptr,
    158. 

  158. 						IO_BITMAP_BYTES, GFP_KERNEL);
    159. 

  159. 		if (!p->thread.io_bitmap_ptr) {
    160. 

  160. 			p->thread.io_bitmap_max = 0;
    161. 

  161. 			return -ENOMEM;
    162. 

  162. 		}
    163. 

  163. 		set_tsk_thread_flag(p, TIF_IO_BITMAP);
    164. 

  164. 	}
    165. 

  165. 

  166. 	err = 0;
    167. 

  167. 

  168. 	/*
    169. 

  169. 	 * Set a new TLS for the child thread?
    170. 

  170. 	 */
    171. 

  171. 	if (clone_flags & CLONE_SETTLS)
    172. 

  172. 		err = do_set_thread_area(p, -1,
    173. 

  173. 			(struct user_desc __user *)childregs->si, 0);
    174. 

  174. 

  175. 	if (err && p->thread.io_bitmap_ptr) {
    176. 

  176. 		kfree(p->thread.io_bitmap_ptr);
    177. 

  177. 		p->thread.io_bitmap_max = 0;
    178. 

  178. 	}
    179. 

  179. 	return err;
    180. 

  180. }
    181. 

  181. 

  182. void
    183. 

  183. start_thread(struct pt_regs *regs, unsigned long new_ip, unsigned long new_sp)
    184. 

  184. {
    185. 

  185. 	set_user_gs(regs, 0);
    186. 

  186. 	regs->fs		= 0;
    187. 

  187. 	regs->ds		= __USER_DS;
    188. 

  188. 	regs->es		= __USER_DS;
    189. 

  189. 	regs->ss		= __USER_DS;
    190. 

  190. 	regs->cs		= __USER_CS;
    191. 

  191. 	regs->ip		= new_ip;
    192. 

  192. 	regs->sp		= new_sp;
    193. 

  193. }
    194. 

  194. EXPORT_SYMBOL_GPL(start_thread);
    195. 

  195. 

  196. 

  197. /*
    198. 

  198.  *	switch_to(x,y) should switch tasks from x to y.
    199. 

  199.  *
    200. 

  200.  * We fsave/fwait so that an exception goes off at the right time
    201. 

  201.  * (as a call from the fsave or fwait in effect) rather than to
    202. 

  202.  * the wrong process. Lazy FP saving no longer makes any sense
    203. 

  203.  * with modern CPU's, and this simplifies a lot of things (SMP
    204. 

  204.  * and UP become the same).
    205. 

  205.  *
    206. 

  206.  * NOTE! We used to use the x86 hardware context switching. The
    207. 

  207.  * reason for not using it any more becomes apparent when you
    208. 

  208.  * try to recover gracefully from saved state that is no longer
    209. 

  209.  * valid (stale segment register values in particular). With the
    210. 

  210.  * hardware task-switch, there is no way to fix up bad state in
    211. 

  211.  * a reasonable manner.
    212. 

  212.  *
    213. 

  213.  * The fact that Intel documents the hardware task-switching to
    214. 

  214.  * be slow is a fairly red herring - this code is not noticeably
    215. 

  215.  * faster. However, there _is_ some room for improvement here,
    216. 

  216.  * so the performance issues may eventually be a valid point.
    217. 

  217.  * More important, however, is the fact that this allows us much
    218. 

  218.  * more flexibility.
    219. 

  219.  *
    220. 

  220.  * The return value (in %ax) will be the "prev" task after
    221. 

  221.  * the task-switch, and shows up in ret_from_fork in entry.S,
    222. 

  222.  * for example.
    223. 

  223.  */
    224. 

  224. __notrace_funcgraph struct task_struct *
    225. 

  225. __switch_to(struct task_struct *prev_p, struct task_struct *next_p)
    226. 

  226. {
    227. 

  227. 	struct thread_struct *prev = &prev_p->thread,
    228. 

  228. 				 *next = &next_p->thread;
    229. 

  229. 	int cpu = smp_processor_id();
    230. 

  230. 	struct tss_struct *tss = &per_cpu(init_tss, cpu);
    231. 

  231. 	fpu_switch_t fpu;
    232. 

  232. 

  233. 	/* never put a printk in __switch_to... printk() calls wake_up*() indirectly */
    234. 

  234. 

  235. 	fpu = switch_fpu_prepare(prev_p, next_p, cpu);
    236. 

  236. 

  237. 	/*
    238. 

  238. 	 * Reload esp0.
    239. 

  239. 	 */
    240. 

  240. 	load_sp0(tss, next);
    241. 

  241. 

  242. 	/*
    243. 

  243. 	 * Save away %gs. No need to save %fs, as it was saved on the
    244. 

  244. 	 * stack on entry.  No need to save %es and %ds, as those are
    245. 

  245. 	 * always kernel segments while inside the kernel.  Doing this
    246. 

  246. 	 * before setting the new TLS descriptors avoids the situation
    247. 

  247. 	 * where we temporarily have non-reloadable segments in %fs
    248. 

  248. 	 * and %gs.  This could be an issue if the NMI handler ever
    249. 

  249. 	 * used %fs or %gs (it does not today), or if the kernel is
    250. 

  250. 	 * running inside of a hypervisor layer.
    251. 

  251. 	 */
    252. 

  252. 	lazy_save_gs(prev->gs);
    253. 

  253. 

  254. 	/*
    255. 

  255. 	 * Load the per-thread Thread-Local Storage descriptor.
    256. 

  256. 	 */
    257. 

  257. 	load_TLS(next, cpu);
    258. 

  258. 

  259. 	/*
    260. 

  260. 	 * Restore IOPL if needed.  In normal use, the flags restore
    261. 

  261. 	 * in the switch assembly will handle this.  But if the kernel
    262. 

  262. 	 * is running virtualized at a non-zero CPL, the popf will
    263. 

  263. 	 * not restore flags, so it must be done in a separate step.
    264. 

  264. 	 */
    265. 

  265. 	if (get_kernel_rpl() && unlikely(prev->iopl != next->iopl))
    266. 

  266. 		set_iopl_mask(next->iopl);
    267. 

  267. 

  268. 	/*
    269. 

  269. 	 * Now maybe handle debug registers and/or IO bitmaps
    270. 

  270. 	 */
    271. 

  271. 	if (unlikely(task_thread_info(prev_p)->flags & _TIF_WORK_CTXSW_PREV ||
    272. 

  272. 		     task_thread_info(next_p)->flags & _TIF_WORK_CTXSW_NEXT))
    273. 

  273. 		__switch_to_xtra(prev_p, next_p, tss);
    274. 

  274. 

  275. 	/*
    276. 

  276. 	 * Leave lazy mode, flushing any hypercalls made here.
    277. 

  277. 	 * This must be done before restoring TLS segments so
    278. 

  278. 	 * the GDT and LDT are properly updated, and must be
    279. 

  279. 	 * done before math_state_restore, so the TS bit is up
    280. 

  280. 	 * to date.
    281. 

  281. 	 */
    282. 

  282. 	arch_end_context_switch(next_p);
    283. 

  283. 

  284. 	/*
    285. 

  285. 	 * Restore %gs if needed (which is common)
    286. 

  286. 	 */
    287. 

  287. 	if (prev->gs | next->gs)
    288. 

  288. 		lazy_load_gs(next->gs);
    289. 

  289. 

  290. 	switch_fpu_finish(next_p, fpu);
    291. 

  291. 

  292. 	this_cpu_write(current_task, next_p);
    293. 

  293. 

  294. 	return prev_p;
    295. 

  295. }
    296. 

  296. 

  297. #define top_esp                (THREAD_SIZE - sizeof(unsigned long))
    298. 

  298. #define top_ebp                (THREAD_SIZE - 2*sizeof(unsigned long))
    299. 

  299. 

  300. unsigned long get_wchan(struct task_struct *p)
    301. 

  301. {
    302. 

  302. 	unsigned long bp, sp, ip;
    303. 

  303. 	unsigned long stack_page;
    304. 

  304. 	int count = 0;
    305. 

  305. 	if (!p || p == current || p->state == TASK_RUNNING)
    306. 

  306. 		return 0;
    307. 

  307. 	stack_page = (unsigned long)task_stack_page(p);
    308. 

  308. 	sp = p->thread.sp;
    309. 

  309. 	if (!stack_page || sp < stack_page || sp > top_esp+stack_page)
    310. 

  310. 		return 0;
    311. 

  311. 	/* include/asm-i386/system.h:switch_to() pushes bp last. */
    312. 

  312. 	bp = *(unsigned long *) sp;
    313. 

  313. 	do {
    314. 

  314. 		if (bp < stack_page || bp > top_ebp+stack_page)
    315. 

  315. 			return 0;
    316. 

  316. 		ip = *(unsigned long *) (bp+4);
    317. 

  317. 		if (!in_sched_functions(ip))
    318. 

  318. 			return ip;
    319. 

  319. 		bp = *(unsigned long *) bp;
    320. 

  320. 	} while (count++ < 16);
    321. 

  321. 	return 0;
    322. 

  322. }
    323. 

  323.