root/kernel/irq.c

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DEFINITIONS

This source file includes following definitions.
  1. disable_irq
  2. enable_irq
  3. do_bottom_half
  4. do_IRQ
  5. do_fast_IRQ
  6. irqaction
  7. request_irq
  8. free_irq
  9. math_error_irq
  10. no_action
  11. init_IRQ

   1 /*
   2  *      linux/kernel/irq.c
   3  *
   4  *      Copyright (C) 1992 Linus Torvalds
   5  *
   6  * This file contains the code used by various IRQ handling routines:
   7  * asking for different IRQ's should be done through these routines
   8  * instead of just grabbing them. Thus setups with different IRQ numbers
   9  * shouldn't result in any weird surprises, and installing new handlers
  10  * should be easier.
  11  */
  12 
  13 /*
  14  * IRQ's are in fact implemented a bit like signal handlers for the kernel.
  15  * The same sigaction struct is used, and with similar semantics (ie there
  16  * is a SA_INTERRUPT flag etc). Naturally it's not a 1:1 relation, but there
  17  * are similarities.
  18  *
  19  * sa_handler(int irq_NR) is the default function called.
  20  * sa_mask is 0 if nothing uses this IRQ
  21  * sa_flags contains various info: SA_INTERRUPT etc
  22  * sa_restorer is the unused
  23  */
  24 
  25 #include <linux/ptrace.h>
  26 #include <linux/errno.h>
  27 #include <linux/kernel_stat.h>
  28 #include <linux/signal.h>
  29 #include <linux/sched.h>
  30 #include <linux/interrupt.h>
  31 
  32 #include <asm/system.h>
  33 #include <asm/io.h>
  34 #include <asm/irq.h>
  35 
  36 #define CR0_NE 32
  37 
  38 static unsigned char cache_21 = 0xff;
  39 static unsigned char cache_A1 = 0xff;
  40 
  41 unsigned long intr_count = 0;
  42 unsigned long bh_active = 0;
  43 unsigned long bh_mask = 0xFFFFFFFF;
  44 struct bh_struct bh_base[32]; 
  45 
  46 void disable_irq(unsigned int irq_nr)
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  47 {
  48         unsigned long flags;
  49         unsigned char mask;
  50 
  51         mask = 1 << (irq_nr & 7);
  52         save_flags(flags);
  53         if (irq_nr < 8) {
  54                 cli();
  55                 cache_21 |= mask;
  56                 outb(cache_21,0x21);
  57                 restore_flags(flags);
  58                 return;
  59         }
  60         cli();
  61         cache_A1 |= mask;
  62         outb(cache_A1,0xA1);
  63         restore_flags(flags);
  64 }
  65 
  66 void enable_irq(unsigned int irq_nr)
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  67 {
  68         unsigned long flags;
  69         unsigned char mask;
  70 
  71         mask = ~(1 << (irq_nr & 7));
  72         save_flags(flags);
  73         if (irq_nr < 8) {
  74                 cli();
  75                 cache_21 &= mask;
  76                 outb(cache_21,0x21);
  77                 restore_flags(flags);
  78                 return;
  79         }
  80         cli();
  81         cache_A1 &= mask;
  82         outb(cache_A1,0xA1);
  83         restore_flags(flags);
  84 }
  85 
  86 /*
  87  * do_bottom_half() runs at normal kernel priority: all interrupts
  88  * enabled.  do_bottom_half() is atomic with respect to itself: a
  89  * bottom_half handler need not be re-entrant.
  90  */
  91 asmlinkage void do_bottom_half(void)
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  92 {
  93         unsigned long active;
  94         unsigned long mask, left;
  95         struct bh_struct *bh;
  96 
  97         bh = bh_base;
  98         active = bh_active & bh_mask;
  99         for (mask = 1, left = ~0 ; left & active ; bh++,mask += mask,left += left) {
 100                 if (mask & active) {
 101                         void (*fn)(void *);
 102                         bh_active &= ~mask;
 103                         fn = bh->routine;
 104                         if (!fn)
 105                                 goto bad_bh;
 106                         fn(bh->data);
 107                 }
 108         }
 109         return;
 110 bad_bh:
 111         printk ("irq.c:bad bottom half entry\n");
 112 }
 113 
 114 /*
 115  * This builds up the IRQ handler stubs using some ugly macros in irq.h
 116  *
 117  * These macros create the low-level assembly IRQ routines that do all
 118  * the operations that are needed to keep the AT interrupt-controller
 119  * happy. They are also written to be fast - and to disable interrupts
 120  * as little as humanly possible.
 121  *
 122  * NOTE! These macros expand to three different handlers for each line: one
 123  * complete handler that does all the fancy stuff (including signal handling),
 124  * and one fast handler that is meant for simple IRQ's that want to be
 125  * atomic. The specific handler is chosen depending on the SA_INTERRUPT
 126  * flag when installing a handler. Finally, one "bad interrupt" handler, that
 127  * is used when no handler is present.
 128  */
 129 BUILD_IRQ(FIRST,0,0x01)
 130 BUILD_IRQ(FIRST,1,0x02)
 131 BUILD_IRQ(FIRST,2,0x04)
 132 BUILD_IRQ(FIRST,3,0x08)
 133 BUILD_IRQ(FIRST,4,0x10)
 134 BUILD_IRQ(FIRST,5,0x20)
 135 BUILD_IRQ(FIRST,6,0x40)
 136 BUILD_IRQ(FIRST,7,0x80)
 137 BUILD_IRQ(SECOND,8,0x01)
 138 BUILD_IRQ(SECOND,9,0x02)
 139 BUILD_IRQ(SECOND,10,0x04)
 140 BUILD_IRQ(SECOND,11,0x08)
 141 BUILD_IRQ(SECOND,12,0x10)
 142 BUILD_IRQ(SECOND,13,0x20)
 143 BUILD_IRQ(SECOND,14,0x40)
 144 BUILD_IRQ(SECOND,15,0x80)
 145 
 146 /*
 147  * Pointers to the low-level handlers: first the general ones, then the
 148  * fast ones, then the bad ones.
 149  */
 150 static void (*interrupt[16])(void) = {
 151         IRQ0_interrupt, IRQ1_interrupt, IRQ2_interrupt, IRQ3_interrupt,
 152         IRQ4_interrupt, IRQ5_interrupt, IRQ6_interrupt, IRQ7_interrupt,
 153         IRQ8_interrupt, IRQ9_interrupt, IRQ10_interrupt, IRQ11_interrupt,
 154         IRQ12_interrupt, IRQ13_interrupt, IRQ14_interrupt, IRQ15_interrupt
 155 };
 156 
 157 static void (*fast_interrupt[16])(void) = {
 158         fast_IRQ0_interrupt, fast_IRQ1_interrupt,
 159         fast_IRQ2_interrupt, fast_IRQ3_interrupt,
 160         fast_IRQ4_interrupt, fast_IRQ5_interrupt,
 161         fast_IRQ6_interrupt, fast_IRQ7_interrupt,
 162         fast_IRQ8_interrupt, fast_IRQ9_interrupt,
 163         fast_IRQ10_interrupt, fast_IRQ11_interrupt,
 164         fast_IRQ12_interrupt, fast_IRQ13_interrupt,
 165         fast_IRQ14_interrupt, fast_IRQ15_interrupt
 166 };
 167 
 168 static void (*bad_interrupt[16])(void) = {
 169         bad_IRQ0_interrupt, bad_IRQ1_interrupt,
 170         bad_IRQ2_interrupt, bad_IRQ3_interrupt,
 171         bad_IRQ4_interrupt, bad_IRQ5_interrupt,
 172         bad_IRQ6_interrupt, bad_IRQ7_interrupt,
 173         bad_IRQ8_interrupt, bad_IRQ9_interrupt,
 174         bad_IRQ10_interrupt, bad_IRQ11_interrupt,
 175         bad_IRQ12_interrupt, bad_IRQ13_interrupt,
 176         bad_IRQ14_interrupt, bad_IRQ15_interrupt
 177 };
 178 
 179 /*
 180  * Initial irq handlers.
 181  */
 182 static struct sigaction irq_sigaction[16] = {
 183         { NULL, 0, 0, NULL }, { NULL, 0, 0, NULL },
 184         { NULL, 0, 0, NULL }, { NULL, 0, 0, NULL },
 185         { NULL, 0, 0, NULL }, { NULL, 0, 0, NULL },
 186         { NULL, 0, 0, NULL }, { NULL, 0, 0, NULL },
 187         { NULL, 0, 0, NULL }, { NULL, 0, 0, NULL },
 188         { NULL, 0, 0, NULL }, { NULL, 0, 0, NULL },
 189         { NULL, 0, 0, NULL }, { NULL, 0, 0, NULL },
 190         { NULL, 0, 0, NULL }, { NULL, 0, 0, NULL }
 191 };
 192 
 193 /*
 194  * do_IRQ handles IRQ's that have been installed without the
 195  * SA_INTERRUPT flag: it uses the full signal-handling return
 196  * and runs with other interrupts enabled. All relatively slow
 197  * IRQ's should use this format: notably the keyboard/timer
 198  * routines.
 199  */
 200 asmlinkage void do_IRQ(int irq, struct pt_regs * regs)
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 201 {
 202         struct sigaction * sa = irq + irq_sigaction;
 203 
 204         kstat.interrupts[irq]++;
 205         sa->sa_handler((int) regs);
 206 }
 207 
 208 /*
 209  * do_fast_IRQ handles IRQ's that don't need the fancy interrupt return
 210  * stuff - the handler is also running with interrupts disabled unless
 211  * it explicitly enables them later.
 212  */
 213 asmlinkage void do_fast_IRQ(int irq)
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 214 {
 215         struct sigaction * sa = irq + irq_sigaction;
 216 
 217         kstat.interrupts[irq]++;
 218         sa->sa_handler(irq);
 219 }
 220 
 221 int irqaction(unsigned int irq, struct sigaction * new_sa)
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 222 {
 223         struct sigaction * sa;
 224         unsigned long flags;
 225 
 226         if (irq > 15)
 227                 return -EINVAL;
 228         sa = irq + irq_sigaction;
 229         if (sa->sa_mask)
 230                 return -EBUSY;
 231         if (!new_sa->sa_handler)
 232                 return -EINVAL;
 233         save_flags(flags);
 234         cli();
 235         *sa = *new_sa;
 236         sa->sa_mask = 1;
 237         if (sa->sa_flags & SA_INTERRUPT)
 238                 set_intr_gate(0x20+irq,fast_interrupt[irq]);
 239         else
 240                 set_intr_gate(0x20+irq,interrupt[irq]);
 241         if (irq < 8) {
 242                 cache_21 &= ~(1<<irq);
 243                 outb(cache_21,0x21);
 244         } else {
 245                 cache_21 &= ~(1<<2);
 246                 cache_A1 &= ~(1<<(irq-8));
 247                 outb(cache_21,0x21);
 248                 outb(cache_A1,0xA1);
 249         }
 250         restore_flags(flags);
 251         return 0;
 252 }
 253                 
 254 int request_irq(unsigned int irq, void (*handler)(int))
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 255 {
 256         struct sigaction sa;
 257 
 258         sa.sa_handler = handler;
 259         sa.sa_flags = 0;
 260         sa.sa_mask = 0;
 261         sa.sa_restorer = NULL;
 262         return irqaction(irq,&sa);
 263 }
 264 
 265 void free_irq(unsigned int irq)
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 266 {
 267         struct sigaction * sa = irq + irq_sigaction;
 268         unsigned long flags;
 269 
 270         if (irq > 15) {
 271                 printk("Trying to free IRQ%d\n",irq);
 272                 return;
 273         }
 274         if (!sa->sa_mask) {
 275                 printk("Trying to free free IRQ%d\n",irq);
 276                 return;
 277         }
 278         save_flags(flags);
 279         cli();
 280         if (irq < 8) {
 281                 cache_21 |= 1 << irq;
 282                 outb(cache_21,0x21);
 283         } else {
 284                 cache_A1 |= 1 << (irq-8);
 285                 outb(cache_A1,0xA1);
 286         }
 287         set_intr_gate(0x20+irq,bad_interrupt[irq]);
 288         sa->sa_handler = NULL;
 289         sa->sa_flags = 0;
 290         sa->sa_mask = 0;
 291         sa->sa_restorer = NULL;
 292         restore_flags(flags);
 293 }
 294 
 295 /*
 296  * Note that on a 486, we don't want to do a SIGFPE on a irq13
 297  * as the irq is unreliable, and exception 16 works correctly
 298  * (ie as explained in the intel litterature). On a 386, you
 299  * can't use exception 16 due to bad IBM design, so we have to
 300  * rely on the less exact irq13.
 301  *
 302  * Careful.. Not only is IRQ13 unreliable, but it is also
 303  * leads to races. IBM designers who came up with it should
 304  * be shot.
 305  */
 306 static void math_error_irq(int cpl)
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 307 {
 308         outb(0,0xF0);
 309         if (ignore_irq13 || !hard_math)
 310                 return;
 311         math_error();
 312 }
 313 
 314 static void no_action(int cpl) { }
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 315 
 316 static struct sigaction ignore_IRQ = {
 317         no_action,
 318         0,
 319         SA_INTERRUPT,
 320         NULL
 321 };
 322 
 323 void init_IRQ(void)
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 324 {
 325         int i;
 326 
 327         for (i = 0; i < 16 ; i++)
 328                 set_intr_gate(0x20+i,bad_interrupt[i]);
 329         if (irqaction(2,&ignore_IRQ))
 330                 printk("Unable to get IRQ2 for cascade\n");
 331         if (request_irq(13,math_error_irq))
 332                 printk("Unable to get IRQ13 for math-error handler\n");
 333 
 334         /* intialize the bottom half routines. */
 335         for (i = 0; i < 32; i++) {
 336                 bh_base[i].routine = NULL;
 337                 bh_base[i].data = NULL;
 338         }
 339         bh_active = 0;
 340         intr_count = 0;
 341 }

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