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#include "pcr.h"
#include "pk.h"
int have_fp = 1; // initialized to 1 because it can't be in the .bss section!
static void handle_fp_disabled(trapframe_t* tf)
{
if(have_fp)
init_fp();
else
{
#ifdef PK_ENABLE_FP_EMULATION
if(emulate_fp(tf) != 0)
{
dump_tf(tf);
panic("FPU emulation failed!");
}
#else
panic("FPU emulation disabled! pc %lx, insn %x",tf->epc,(uint32_t)tf->insn);
#endif
}
}
static void handle_privileged_instruction(trapframe_t* tf)
{
dump_tf(tf);
panic("A privileged instruction was executed!");
}
static void handle_illegal_instruction(trapframe_t* tf)
{
#ifdef PK_ENABLE_FP_EMULATION
if(emulate_fp(tf) == 0)
return;
#endif
dump_tf(tf);
panic("An illegal instruction was executed!");
}
static void handle_misaligned_fetch(trapframe_t* tf)
{
dump_tf(tf);
panic("Misaligned instruction access!");
}
void handle_misaligned_ldst(trapframe_t* tf)
{
dump_tf(tf);
panic("Misaligned data access!");
}
static void handle_fault_fetch(trapframe_t* tf)
{
dump_tf(tf);
panic("Faulting instruction access!");
}
void handle_fault_load(trapframe_t* tf)
{
dump_tf(tf);
panic("Faulting load!");
}
void handle_fault_store(trapframe_t* tf)
{
dump_tf(tf);
panic("Faulting store!");
}
static void handle_bad_interrupt(trapframe_t* tf, int interrupt)
{
panic("Bad interrupt %d!",interrupt);
}
static void handle_timer_interrupt(trapframe_t* tf)
{
mtpcr(mfpcr(PCR_COMPARE)+TIMER_PERIOD,PCR_COMPARE);
}
static void handle_interrupt(trapframe_t* tf)
{
int interrupts = (tf->cause & CAUSE_IP) >> CAUSE_IP_SHIFT;
for(int i = 0; interrupts; interrupts >>= 1, i++)
{
if(i == TIMER_IRQ)
handle_timer_interrupt(tf);
else
handle_bad_interrupt(tf,i);
}
}
void handle_trap(trapframe_t* tf)
{
typedef void (*trap_handler)(trapframe_t*);
const static trap_handler trap_handlers[] = {
handle_misaligned_fetch,
handle_fault_fetch,
handle_illegal_instruction,
handle_privileged_instruction,
handle_fp_disabled,
handle_syscall,
handle_interrupt,
handle_misaligned_ldst,
handle_fault_load,
handle_fault_store,
};
int exccode = (tf->cause & CAUSE_EXCCODE) >> CAUSE_EXCCODE_SHIFT;
kassert(exccode < sizeof(trap_handlers)/sizeof(trap_handlers[0]));
trap_handlers[exccode](tf);
pop_tf(tf);
}
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