minix/kernel/arch/earm/exception.c
Thomas Cort 9f23acf410 kernel: spelling fixes
Change-Id: I73c759bdef98be35be77130895ae0ec497e1b954
2013-10-09 20:24:17 -04:00

232 lines
6.1 KiB
C

/* This file contains a simple exception handler. Exceptions in user
* processes are converted to signals. Exceptions in a kernel task cause
* a panic.
*/
#include "kernel/kernel.h"
#include "arch_proto.h"
#include <signal.h>
#include <string.h>
#include <assert.h>
#include "kernel/proc.h"
#include "kernel/proto.h"
#include <machine/vm.h>
struct ex_s {
char *msg;
int signum;
};
static struct ex_s ex_data[] = {
{ "Reset", 0},
{ "Undefined instruction", SIGILL},
{ "Supervisor call", 0},
{ "Prefetch Abort", SIGILL},
{ "Data Abort", SIGSEGV},
{ "Hypervisor call", 0},
{ "Interrupt", 0},
{ "Fast Interrupt", 0},
};
static void inkernel_disaster(struct proc *saved_proc,
reg_t *saved_lr, struct ex_s *ep, int is_nested);
extern int catch_pagefaults;
static void proc_stacktrace_execute(struct proc *whichproc, reg_t v_bp, reg_t pc);
static void pagefault( struct proc *pr,
reg_t *saved_lr,
int is_nested,
u32_t pagefault_addr,
u32_t pagefault_status)
{
int in_physcopy = 0, in_memset = 0;
message m_pagefault;
int err;
in_physcopy = (*saved_lr > (vir_bytes) phys_copy) &&
(*saved_lr < (vir_bytes) phys_copy_fault);
in_memset = (*saved_lr > (vir_bytes) phys_memset) &&
(*saved_lr < (vir_bytes) memset_fault);
if((is_nested || iskernelp(pr)) &&
catch_pagefaults && (in_physcopy || in_memset)) {
if (is_nested) {
if(in_physcopy) {
assert(!in_memset);
*saved_lr = (reg_t) phys_copy_fault_in_kernel;
} else {
*saved_lr = (reg_t) memset_fault_in_kernel;
}
}
else {
pr->p_reg.pc = (reg_t) phys_copy_fault;
pr->p_reg.retreg = pagefault_addr;
}
return;
}
if(is_nested) {
printf("pagefault in kernel at pc 0x%lx address 0x%lx\n",
*saved_lr, pagefault_addr);
inkernel_disaster(pr, saved_lr, NULL, is_nested);
}
/* VM can't handle page faults. */
if(pr->p_endpoint == VM_PROC_NR) {
/* Page fault we can't / don't want to
* handle.
*/
printf("pagefault for VM on CPU %d, "
"pc = 0x%x, addr = 0x%x, flags = 0x%x, is_nested %d\n",
cpuid, pr->p_reg.pc, pagefault_addr, pagefault_status,
is_nested);
proc_stacktrace(pr);
printf("pc of pagefault: 0x%lx\n", pr->p_reg.pc);
panic("pagefault in VM");
return;
}
/* Don't schedule this process until pagefault is handled. */
RTS_SET(pr, RTS_PAGEFAULT);
/* tell Vm about the pagefault */
m_pagefault.m_source = pr->p_endpoint;
m_pagefault.m_type = VM_PAGEFAULT;
m_pagefault.VPF_ADDR = pagefault_addr;
m_pagefault.VPF_FLAGS = pagefault_status;
if ((err = mini_send(pr, VM_PROC_NR,
&m_pagefault, FROM_KERNEL))) {
panic("WARNING: pagefault: mini_send returned %d\n", err);
}
return;
}
static void inkernel_disaster(struct proc *saved_proc,
reg_t *saved_lr, struct ex_s *ep,
int is_nested)
{
#if USE_SYSDEBUG
if(ep)
printf("\n%s\n", ep->msg);
printf("cpu %d is_nested = %d ", cpuid, is_nested);
if (saved_proc) {
printf("scheduled was: process %d (%s), ", saved_proc->p_endpoint, saved_proc->p_name);
printf("pc = 0x%x\n", (unsigned) saved_proc->p_reg.pc);
proc_stacktrace(saved_proc);
panic("Unhandled kernel exception");
}
/* in an early stage of boot process we don't have processes yet */
panic("exception in kernel while booting, no saved_proc yet");
#endif /* USE_SYSDEBUG */
}
void exception_handler(int is_nested, reg_t *saved_lr, int vector)
{
/* An exception or unexpected interrupt has occurred. */
struct ex_s *ep;
struct proc *saved_proc;
saved_proc = get_cpulocal_var(proc_ptr);
ep = &ex_data[vector];
assert((vir_bytes) saved_lr >= kinfo.vir_kern_start);
/*
* handle special cases for nested problems as they might be tricky or filter
* them out quickly if the traps are not nested
*/
if (is_nested) {
/*
* if a problem occurred while copying a message from userspace because
* of a wrong pointer supplied by userland, handle it the only way we
* can handle it ...
*/
if (((void*)*saved_lr >= (void*)copy_msg_to_user &&
(void*)*saved_lr <= (void*)__copy_msg_to_user_end) ||
((void*)*saved_lr >= (void*)copy_msg_from_user &&
(void*)*saved_lr <= (void*)__copy_msg_from_user_end)) {
switch(vector) {
/* these error are expected */
case DATA_ABORT_VECTOR:
*saved_lr = (reg_t) __user_copy_msg_pointer_failure;
return;
default:
panic("Copy involving a user pointer failed unexpectedly!");
}
}
}
if (vector == DATA_ABORT_VECTOR) {
pagefault(saved_proc, saved_lr, is_nested, read_dfar(), read_dfsr());
return;
}
if (!is_nested && vector == PREFETCH_ABORT_VECTOR) {
reg_t ifar = read_ifar(), ifsr = read_ifsr();
/* The saved_lr is the instruction we're going to execute after
* the fault is handled; IFAR is the address that pagefaulted
* while fetching the instruction. As far as we know the two
* should be the same, if not this assumption will lead to very
* hard to debug problems (instruction executing being off by one)
* and this assumption needs re-examining, hence the assert.
*/
assert(*saved_lr == ifar);
pagefault(saved_proc, saved_lr, is_nested, ifar, ifsr);
return;
}
/* If an exception occurs while running a process, the is_nested variable
* will be zero. Exceptions in interrupt handlers or system traps will make
* is_nested non-zero.
*/
if (is_nested == 0 && ! iskernelp(saved_proc)) {
cause_sig(proc_nr(saved_proc), ep->signum);
return;
}
/* Exception in system code. This is not supposed to happen. */
inkernel_disaster(saved_proc, saved_lr, ep, is_nested);
panic("return from inkernel_disaster");
}
#if USE_SYSDEBUG
/*===========================================================================*
* proc_stacktrace_execute *
*===========================================================================*/
static void proc_stacktrace_execute(struct proc *whichproc, reg_t v_bp, reg_t pc)
{
printf("%-8.8s %6d 0x%lx \n",
whichproc->p_name, whichproc->p_endpoint, pc);
}
#endif
void proc_stacktrace(struct proc *whichproc)
{
#if USE_SYSDEBUG
proc_stacktrace_execute(whichproc, whichproc->p_reg.fp, whichproc->p_reg.pc);
#endif /* USE_SYSDEBUG */
}
void enable_fpu_exception(void)
{
}
void disable_fpu_exception(void)
{
}