/** Handles an interrupt (exception code 0). All interrupt handlers
* that are registered for any of the occured interrupts (hardware
* 0-5, software 0-1) are called. The scheduler is called if a timer
* interrupt (hardware 5) or a context switch request (software
* interrupt 0) occured, or if the currently running thread for the
* processor is the idle thread.
*
* @param cause The Cause register from CP0
*/
void interrupt_handle(uint32_t cause) {
int this_cpu, i;
if(cause & INTERRUPT_CAUSE_SOFTWARE_0) {
_interrupt_clear_sw0();
}
this_cpu = _interrupt_getcpu();
/* Exceptions should be handled elsewhere: */
if((cause & 0x0000007c) != 0) {
kprintf("Caught exception, cause %.8x, CPU %i\n", cause, this_cpu);
KERNEL_PANIC("Exception in interrupt_handle");
}
/* Call appropiate interrupt handlers. Handlers cannot be
* unregistered, so after the first empty * entry all others are
* also empty.
*/
for (i=0; i<CONFIG_MAX_DEVICES; i++) {
if (interrupt_handlers[i].device == NULL)
break;
/* If this handler is registered for any of the interrupts
* that occured, call it.
*/
if ((cause & interrupt_handlers[i].irq) != 0)
interrupt_handlers[i].handler(interrupt_handlers[i].device);
}
/* Timer interrupt (HW5) or requested context switch (SW0)
* Also call scheduler if we're running the idle thread.
*/
if((cause & (INTERRUPT_CAUSE_SOFTWARE_0 |
INTERRUPT_CAUSE_HARDWARE_5)) ||
scheduler_current_thread[this_cpu] == IDLE_THREAD_TID) {
scheduler_schedule();
/* Until we have proper VM we must manually fill
the TLB with pagetable entries before running code using
given pagetable. Note that this method limits pagetable
rows (possible mapping pairs) to 16 and can't be used
with proper pagetables and VM.
Note that if you remove this call (which you probably do when
you implement proper VM), you must manually call _tlb_set_asid
here. See the implementation of tlb_fill on details how to do that.
*/
_tlb_set_asid(thread_get_current_thread());
}
}
/** Handles an interrupt (exception code 0). All interrupt handlers
* that are registered for any of the occured interrupts (hardware
* 0-5, software 0-1) are called. The scheduler is called if a timer
* interrupt (hardware 5) or a context switch request (software
* interrupt 0) occured, or if the currently running thread for the
* processor is the idle thread.
*
* @param cause The Cause register from CP0
*/
void interrupt_handle(uint32_t cause) {
int this_cpu, i;
if(cause & INTERRUPT_CAUSE_SOFTWARE_0) {
_interrupt_clear_sw0();
}
this_cpu = _interrupt_getcpu();
/* Exceptions should be handled elsewhere: */
if((cause & 0x0000007c) != 0) {
kprintf("Caught exception, cause %.8x, CPU %i\n", cause, this_cpu);
KERNEL_PANIC("Exception in interrupt_handle");
}
/* Call appropiate interrupt handlers. Handlers cannot be
* unregistered, so after the first empty * entry all others are
* also empty.
*/
for (i=0; i<CONFIG_MAX_DEVICES; i++) {
if (interrupt_handlers[i].device == NULL)
break;
/* If this handler is registered for any of the interrupts
* that occured, call it.
*/
if ((cause & interrupt_handlers[i].irq) != 0)
interrupt_handlers[i].handler(interrupt_handlers[i].device);
}
/* Timer interrupt (HW5) or requested context switch (SW0)
* Also call scheduler if we're running the idle thread.
*/
if((cause & (INTERRUPT_CAUSE_SOFTWARE_0 |
INTERRUPT_CAUSE_HARDWARE_5)) ||
scheduler_current_thread[this_cpu] == IDLE_THREAD_TID) {
scheduler_schedule();
tlb_fill(thread_get_current_thread_entry()->pagetable);
}
/*
thread_table_t *thread = thread_get_current_thread_entry();
process_id_t pid = thread->process_id;
if(pid == -1) {
* Not a process thread. Use thread id with most significant
bit flipped as ASID.
Note: this limits both PROCESS_MAX_PROCESSES and the
number of kernel work threads to 128 since ASID is one
byte and the ASID address space is divided into two.
*
uint8_t asid = thread_get_current_thread() | 0x8;
_tlb_set_asid(asid);
return;
} else {
* Use PID as ASID. This ensures that threads within a
process shares the same ASID
_tlb_set_asid(pid);
/
}
}*/
}
/** Handles an interrupt (exception code 0). All interrupt handlers
* that are registered for any of the occured interrupts (hardware
* 0-5, software 0-1) are called. The scheduler is called if a timer
* interrupt (hardware 5) or a context switch request (software
* interrupt 0) occured, or if the currently running thread for the
* processor is the idle thread.
*
* @param cause The Cause register from CP0
*/
void interrupt_handle(virtaddr_t cause) {
int this_cpu, i;
if(cause & INTERRUPT_CAUSE_SOFTWARE_0) {
_interrupt_clear_sw0();
}
this_cpu = _interrupt_getcpu();
/* Exceptions should be handled elsewhere: */
if((cause & 0x0000007c) != 0) {
kprintf("Caught exception, cause %.8x, CPU %i\n", cause, this_cpu);
KERNEL_PANIC("Exception in interrupt_handle");
}
/* Call appropiate interrupt handlers. Handlers cannot be
* unregistered, so after the first empty * entry all others are
* also empty.
*/
for (i=0; i<CONFIG_MAX_DEVICES; i++) {
if (interrupt_handlers[i].device == NULL)
break;
/* If this handler is registered for any of the interrupts
* that occured, call it.
*/
if ((cause & interrupt_handlers[i].irq) != 0)
interrupt_handlers[i].handler(interrupt_handlers[i].device);
}
/* Timer interrupt (HW5) or requested context switch (SW0)
* Also call scheduler if we're running the idle thread.
*/
if((cause & (INTERRUPT_CAUSE_SOFTWARE_0 |
INTERRUPT_CAUSE_HARDWARE_5)) ||
scheduler_current_thread[this_cpu] == IDLE_THREAD_TID) {
scheduler_schedule();
/* Until we have proper VM we must manually fill
the TLB with pagetable entries before running code using
given pagetable. Note that this method limits pagetable
rows (possible mapping pairs) to 16 and can't be used
with proper pagetables and VM.
Note that if you remove this call (which you probably do when
you implement proper VM), you must manually call _tlb_set_asid
here. See the implementation of tlb_fill on details how to do that.
*/
pagetable_t* pagetable = thread_get_current_thread_entry()->pagetable;
if(pagetable == NULL)
return;
/* Check that the pagetable can fit into TLB. This is needed until
we have proper VM system, because the whole pagetable must fit
into TLB. */
KERNEL_ASSERT(pagetable->valid_count <= (_tlb_get_maxindex()+1));
_tlb_write(pagetable->entries, 0, pagetable->valid_count);
/* Set ASID field in Co-Processor 0 to match thread ID so that
only entries with the ASID of the current thread will match in
the TLB hardware. */
_tlb_set_asid(pagetable->ASID);
}
}
