kernel/interrupt.c

   1 /*
   2  *   The Minix hardware interrupt system.
   3  *
   4  *   This file contains routines for managing the interrupt
   5  *   controller.
   6  *
   7  *   put_irq_handler: register an interrupt handler.
   8  *   rm_irq_handler:  deregister an interrupt handler.
   9  *   irq_handle:     handle a hardware interrupt.
  10  *                    called by the system dependent part when an
  11  *                    external interrupt occurs.
  12  *   enable_irq:      enable hook for IRQ.
  13  *   disable_irq:     disable hook for IRQ.
  14  */
  15
  16 #include <assert.h>
  17
  18 #include "kernel/kernel.h"
  19 #include "archconst.h"
  20 #include "hw_intr.h"
  21
  22
  23 /* number of lists of IRQ hooks, one list per supported line. */
  24 static irq_hook_t* irq_handlers[NR_IRQ_VECTORS] = {0};
  25
  26 /*===========================================================================*
  27  *                              put_irq_handler                              *
  28  *===========================================================================*/
  29 /* Register an interrupt handler.  */
  30 void put_irq_handler( irq_hook_t* hook, int irq,
  31   const irq_handler_t handler)
  32 {
  33   int id;
  34   irq_hook_t **line;
  35   unsigned long bitmap;
  36
  37   if( irq < 0 || irq >= NR_IRQ_VECTORS )
  38         panic("invalid call to put_irq_handler: %d",  irq);
  39
  40   line = &irq_handlers[irq];
  41
  42   bitmap = 0;
  43   while ( *line != NULL ) {
  44         if(hook == *line) return; /* extra initialization */
  45         bitmap |= (*line)->id;  /* mark ids in use */
  46         line = &(*line)->next;
  47   }
  48
  49   /* find the lowest id not in use */
  50   for (id = 1; id != 0; id <<= 1)
  51         if (!(bitmap & id)) break;
  52
  53   if(id == 0)
  54         panic("Too many handlers for irq: %d",  irq);
  55
  56   hook->next = NULL;
  57   hook->handler = handler;
  58   hook->irq = irq;
  59   hook->id = id;
  60   *line = hook;
  61
  62   /* And as last enable the irq at the hardware.
  63    *
  64    * Internal this activates the line or source of the given interrupt.
  65    */
  66   if((irq_actids[hook->irq] &= ~hook->id) == 0) {
  67           hw_intr_used(irq);
  68           hw_intr_unmask(hook->irq);
  69   }
  70 }
  71
  72 /*===========================================================================*
  73  *                              rm_irq_handler                               *
  74  *===========================================================================*/
  75 /* Unregister an interrupt handler.  */
  76 void rm_irq_handler( const irq_hook_t* hook ) {
  77   const int irq = hook->irq;
  78   const int id = hook->id;
  79   irq_hook_t **line;
  80
  81   if( irq < 0 || irq >= NR_IRQ_VECTORS )
  82         panic("invalid call to rm_irq_handler: %d",  irq);
  83
  84   /* remove the hook  */
  85   line = &irq_handlers[irq];
  86   while( (*line) != NULL ) {
  87         if((*line)->id == id) {
  88                 (*line) = (*line)->next;
  89                 if (irq_actids[irq] & id)
  90                         irq_actids[irq] &= ~id;
  91         }
  92         else {
  93                 line = &(*line)->next;
  94         }
  95   }
  96
  97   /* Disable the irq if there are no other handlers registered.
  98    * If the irq is shared, reenable it if there is no active handler.
  99    */
 100   if (irq_handlers[irq] == NULL) {
 101         hw_intr_mask(irq);
 102         hw_intr_not_used(irq);
 103   }
 104   else if (irq_actids[irq] == 0) {
 105         hw_intr_unmask(irq);
 106   }
 107 }
 108
 109 /*===========================================================================*
 110  *                              irq_handle                                   *
 111  *===========================================================================*/
 112 /*
 113  * The function first disables interrupt is need be and restores the state at
 114  * the end. Before returning, it unmasks the IRQ if and only if all active ID
 115  * bits are cleared, and restart a process.
 116  */
 117 void irq_handle(int irq)
 118 {
 119   irq_hook_t * hook;
 120
 121   /* here we need not to get this IRQ until all the handlers had a say */
 122   assert(irq >= 0 && irq < NR_IRQ_VECTORS);
 123   hw_intr_mask(irq);
 124   hook = irq_handlers[irq];
 125
 126   /* Check for spurious interrupts. */
 127   if(hook == NULL) {
 128       static int nspurious[NR_IRQ_VECTORS], report_interval = 100;
 129       nspurious[irq]++;
 130       if(nspurious[irq] == 1 || !(nspurious[irq] % report_interval)) {
 131         printf("irq_handle: spurious irq %d (count: %d); keeping masked\n",
 132                 irq, nspurious[irq]);
 133         if(report_interval < INT_MAX/2)
 134                 report_interval *= 2;
 135       }
 136       return;
 137   }
 138
 139   /* Call list of handlers for an IRQ. */
 140   while( hook != NULL ) {
 141     /* For each handler in the list, mark it active by setting its ID bit,
 142      * call the function, and unmark it if the function returns true.
 143      */
 144     irq_actids[irq] |= hook->id;
 145
 146     /* Call the hooked function. */
 147     if( (*hook->handler)(hook) )
 148       irq_actids[hook->irq] &= ~hook->id;
 149
 150     /* Next hooked function. */
 151     hook = hook->next;
 152   }
 153
 154   /* reenable the IRQ only if there is no active handler */
 155   if (irq_actids[irq] == 0)
 156           hw_intr_unmask(irq);
 157
 158   hw_intr_ack(irq);
 159 }
 160
 161 /* Enable/Disable a interrupt line.  */
 162 void enable_irq(const irq_hook_t *hook)
 163 {
 164   if((irq_actids[hook->irq] &= ~hook->id) == 0) {
 165     hw_intr_unmask(hook->irq);
 166   }
 167 }
 168
 169 /* Return true if the interrupt was enabled before call.  */
 170 int disable_irq(const irq_hook_t *hook)
 171 {
 172   if(irq_actids[hook->irq] & hook->id)  /* already disabled */
 173     return 0;
 174   irq_actids[hook->irq] |= hook->id;
 175   hw_intr_mask(hook->irq);
 176   return TRUE;
 177 }
 178