2005-04-21 16:53:53 +02:00
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/* This file contains routines for initializing the 8259 interrupt controller:
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* put_irq_handler: register an interrupt handler
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* intr_handle: handle a hardware interrupt
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* intr_init: initialize the interrupt controller(s)
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*/
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#include "kernel.h"
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#define ICW1_AT 0x11 /* edge triggered, cascade, need ICW4 */
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#define ICW1_PC 0x13 /* edge triggered, no cascade, need ICW4 */
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#define ICW1_PS 0x19 /* level triggered, cascade, need ICW4 */
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#define ICW4_AT 0x01 /* not SFNM, not buffered, normal EOI, 8086 */
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#define ICW4_PC 0x09 /* not SFNM, buffered, normal EOI, 8086 */
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#if _WORD_SIZE == 2
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typedef _PROTOTYPE( void (*vecaddr_t), (void) );
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FORWARD _PROTOTYPE( void set_vec, (int vec_nr, vecaddr_t addr) );
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PRIVATE vecaddr_t int_vec[] = {
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int00, int01, int02, int03, int04, int05, int06, int07,
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};
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PRIVATE vecaddr_t irq_vec[] = {
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hwint00, hwint01, hwint02, hwint03, hwint04, hwint05, hwint06, hwint07,
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hwint08, hwint09, hwint10, hwint11, hwint12, hwint13, hwint14, hwint15,
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};
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#else
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#define set_vec(nr, addr) ((void)0)
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#endif
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/*==========================================================================*
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* intr_init *
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*==========================================================================*/
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PUBLIC void intr_init(mine)
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int mine;
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{
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/* Initialize the 8259s, finishing with all interrupts disabled. This is
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* only done in protected mode, in real mode we don't touch the 8259s, but
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* use the BIOS locations instead. The flag "mine" is set if the 8259s are
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* to be programmed for Minix, or to be reset to what the BIOS expects.
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*/
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int i;
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lock();
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2005-04-29 17:36:43 +02:00
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if (machine.protected) {
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2005-04-21 16:53:53 +02:00
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/* The AT and newer PS/2 have two interrupt controllers, one master,
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* one slaved at IRQ 2. (We don't have to deal with the PC that
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* has just one controller, because it must run in real mode.)
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*/
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2005-04-29 17:36:43 +02:00
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outb(INT_CTL, machine.ps_mca ? ICW1_PS : ICW1_AT);
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2005-04-21 16:53:53 +02:00
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outb(INT_CTLMASK, mine ? IRQ0_VECTOR : BIOS_IRQ0_VEC);
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/* ICW2 for master */
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outb(INT_CTLMASK, (1 << CASCADE_IRQ)); /* ICW3 tells slaves */
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outb(INT_CTLMASK, ICW4_AT);
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outb(INT_CTLMASK, ~(1 << CASCADE_IRQ)); /* IRQ 0-7 mask */
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2005-04-29 17:36:43 +02:00
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outb(INT2_CTL, machine.ps_mca ? ICW1_PS : ICW1_AT);
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2005-04-21 16:53:53 +02:00
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outb(INT2_CTLMASK, mine ? IRQ8_VECTOR : BIOS_IRQ8_VEC);
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/* ICW2 for slave */
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outb(INT2_CTLMASK, CASCADE_IRQ); /* ICW3 is slave nr */
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outb(INT2_CTLMASK, ICW4_AT);
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outb(INT2_CTLMASK, ~0); /* IRQ 8-15 mask */
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/* Copy the BIOS vectors from the BIOS to the Minix location, so we
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* can still make BIOS calls without reprogramming the i8259s.
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*/
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#if IRQ0_VECTOR != BIOS_IRQ0_VEC
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phys_copy(BIOS_VECTOR(0) * 4L, VECTOR(0) * 4L, 8 * 4L);
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#endif
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#if IRQ8_VECTOR != BIOS_IRQ8_VEC
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phys_copy(BIOS_VECTOR(8) * 4L, VECTOR(8) * 4L, 8 * 4L);
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#endif
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} else {
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/* Use the BIOS interrupt vectors in real mode. We only reprogram the
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* exceptions here, the interrupt vectors are reprogrammed on demand.
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* SYS_VECTOR is the Minix system call for message passing.
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*/
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for (i = 0; i < 8; i++) set_vec(i, int_vec[i]);
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set_vec(SYS_VECTOR, s_call);
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}
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}
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/*=========================================================================*
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* put_irq_handler *
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*=========================================================================*/
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PUBLIC void put_irq_handler(hook, irq, handler)
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irq_hook_t *hook;
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int irq;
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irq_handler_t handler;
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{
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/* Register an interrupt handler. */
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int id;
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irq_hook_t **line;
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if ((unsigned) irq >= NR_IRQ_VECTORS)
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panic("invalid call to put_irq_handler", irq);
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2005-05-02 16:30:04 +02:00
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line = &irq_handlers[irq];
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2005-04-21 16:53:53 +02:00
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id = 1;
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while (*line != NULL) {
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if (hook == *line) return; /* extra initialization */
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line = &(*line)->next;
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id <<= 1;
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}
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if (id == 0) panic("Too many handlers for irq", irq);
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hook->next = NULL;
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hook->handler = handler;
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hook->irq = irq;
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hook->id = id;
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*line = hook;
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irq_use |= 1 << irq;
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}
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/*==========================================================================*
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* intr_handle *
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*==========================================================================*/
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PUBLIC void intr_handle(hook)
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irq_hook_t *hook;
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{
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/* Call the interrupt handlers for an interrupt with the given hook list.
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* The assembly part of the handler has already masked the IRQ, reenabled the
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* controller(s) and enabled interrupts.
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*/
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/* Call list of handlers for an IRQ. */
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while (hook != NULL) {
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/* For each handler in the list, mark it active by setting its ID bit,
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* call the function, and unmark it if the function returns true.
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*/
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irq_actids[hook->irq] |= hook->id;
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if ((*hook->handler)(hook)) irq_actids[hook->irq] &= ~hook->id;
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hook = hook->next;
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}
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/* The assembly code will now disable interrupts, unmask the IRQ if and only
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* if all active ID bits are cleared, and restart a process.
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*/
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}
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#if _WORD_SIZE == 2
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/*===========================================================================*
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* set_vec *
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*===========================================================================*/
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PRIVATE void set_vec(vec_nr, addr)
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int vec_nr; /* which vector */
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vecaddr_t addr; /* where to start */
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{
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/* Set up a real mode interrupt vector. */
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u16_t vec[2];
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/* Build the vector in the array 'vec'. */
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vec[0] = (u16_t) addr;
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vec[1] = (u16_t) physb_to_hclick(code_base);
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/* Copy the vector into place. */
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phys_copy(vir2phys(vec), vec_nr * 4L, 4L);
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}
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#endif /* _WORD_SIZE == 2 */
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