source: trunk/minix/kernel/system/do_irqctl.c@ 9

/* The kernel call implemented in this file:
 *   m_type:    SYS_IRQCTL
 *
 * The parameters for this kernel call are:
 *    m5_c1:    IRQ_REQUEST     (control operation to perform)  
 *    m5_c2:    IRQ_VECTOR      (irq line that must be controlled)
 *    m5_i1:    IRQ_POLICY      (irq policy allows reenabling interrupts)
 *    m5_l3:    IRQ_HOOK_ID     (provides index to be returned on interrupt)
 *      ,,          ,,          (returns index of irq hook assigned at kernel)
 */

#include "../system.h"

#include <minix/endpoint.h>

#if USE_IRQCTL

FORWARD _PROTOTYPE(int generic_handler, (irq_hook_t *hook));

/*===========================================================================*
 *                              do_irqctl                                    *
 *===========================================================================*/
PUBLIC int do_irqctl(m_ptr)
register message *m_ptr;        /* pointer to request message */
{
  /* Dismember the request message. */
  int irq_vec;
  int irq_hook_id;
  int notify_id;
  int r = OK;
  int i;
  irq_hook_t *hook_ptr;
  struct proc *rp;
  struct priv *privp;

  /* Hook identifiers start at 1 and end at NR_IRQ_HOOKS. */
  irq_hook_id = (unsigned) m_ptr->IRQ_HOOK_ID - 1;
  irq_vec = (unsigned) m_ptr->IRQ_VECTOR; 

  /* See what is requested and take needed actions. */
  switch(m_ptr->IRQ_REQUEST) {

  /* Enable or disable IRQs. This is straightforward. */
  case IRQ_ENABLE:           
  case IRQ_DISABLE: 
      if (irq_hook_id >= NR_IRQ_HOOKS || irq_hook_id < 0 ||
          irq_hooks[irq_hook_id].proc_nr_e == NONE) return(EINVAL);
      if (irq_hooks[irq_hook_id].proc_nr_e != m_ptr->m_source) return(EPERM);
      if (m_ptr->IRQ_REQUEST == IRQ_ENABLE)
          enable_irq(&irq_hooks[irq_hook_id]);  
      else 
          disable_irq(&irq_hooks[irq_hook_id]); 
      break;

  /* Control IRQ policies. Set a policy and needed details in the IRQ table.
   * This policy is used by a generic function to handle hardware interrupts. 
   */
  case IRQ_SETPOLICY:  

      /* Check if IRQ line is acceptable. */
      if (irq_vec < 0 || irq_vec >= NR_IRQ_VECTORS) return(EINVAL);

      rp= proc_addr(who_p);
      privp= priv(rp);
      if (!privp)
      {
        kprintf("no priv structure!\n");
        return EPERM;
      }
      if (privp->s_flags & CHECK_IRQ)
      {
        for (i= 0; i<privp->s_nr_irq; i++)
        {
                if (irq_vec == privp->s_irq_tab[i])
                        break;
        }
        if (i >= privp->s_nr_irq)
        {
                kprintf(
                "do_irqctl: IRQ check failed for proc %d, IRQ %d\n",
                        m_ptr->m_source, irq_vec);
                return EPERM;
        }
    }

      /* Find a free IRQ hook for this mapping. */
      hook_ptr = NULL;
      for (irq_hook_id=0; irq_hook_id<NR_IRQ_HOOKS; irq_hook_id++) {
          if (irq_hooks[irq_hook_id].proc_nr_e == NONE) {       
              hook_ptr = &irq_hooks[irq_hook_id];       /* free hook */
              break;
          }
      }
      if (hook_ptr == NULL) return(ENOSPC);

      /* When setting a policy, the caller must provide an identifier that
       * is returned on the notification message if a interrupt occurs.
       */
      notify_id = (unsigned) m_ptr->IRQ_HOOK_ID;
      if (notify_id > CHAR_BIT * sizeof(irq_id_t) - 1) return(EINVAL);

      /* Install the handler. */
      hook_ptr->proc_nr_e = m_ptr->m_source;    /* process to notify */         
      hook_ptr->notify_id = notify_id;          /* identifier to pass */        
      hook_ptr->policy = m_ptr->IRQ_POLICY;     /* policy for interrupts */
      put_irq_handler(hook_ptr, irq_vec, generic_handler);

      /* Return index of the IRQ hook in use. */
      m_ptr->IRQ_HOOK_ID = irq_hook_id + 1;
      break;

  case IRQ_RMPOLICY:
      if (irq_hook_id < 0 || irq_hook_id >= NR_IRQ_HOOKS ||
               irq_hooks[irq_hook_id].proc_nr_e == NONE) {
           return(EINVAL);
      } else if (m_ptr->m_source != irq_hooks[irq_hook_id].proc_nr_e) {
           return(EPERM);
      }
      /* Remove the handler and return. */
      rm_irq_handler(&irq_hooks[irq_hook_id]);
      break;

  default:
      r = EINVAL;                               /* invalid IRQ_REQUEST */
  }
  return(r);
}

/*===========================================================================*
 *                             generic_handler                               *
 *===========================================================================*/
PRIVATE int generic_handler(hook)
irq_hook_t *hook;       
{
/* This function handles hardware interrupt in a simple and generic way. All
 * interrupts are transformed into messages to a driver. The IRQ line will be
 * reenabled if the policy says so.
 */
  int proc;

  /* As a side-effect, the interrupt handler gathers random information by 
   * timestamping the interrupt events. This is used for /dev/random.
   */
  get_randomness(hook->irq);

  /* Check if the handler is still alive. If not, forget about the
   * interrupt. This should never happen, as processes that die 
   * automatically get their interrupt hooks unhooked.
   */
  if(!isokendpt(hook->proc_nr_e, &proc)) {
     hook->proc_nr_e = NONE;
     return 0;
  }

  /* Add a bit for this interrupt to the process' pending interrupts. When 
   * sending the notification message, this bit map will be magically set
   * as an argument. 
   */
  priv(proc_addr(proc))->s_int_pending |= (1 << hook->notify_id);

  /* Build notification message and return. */
  lock_notify(HARDWARE, hook->proc_nr_e);
  return(hook->policy & IRQ_REENABLE);
}

#endif /* USE_IRQCTL */