/*
* vectors_init.c Exception hanlding initialisation (and generic handler).
*
* This include file describe the data structure and the functions implemented
* by rtems to handle exceptions.
*
*
* MPC5xx port sponsored by Defence Research and Development Canada - Suffield
* Copyright (C) 2004, Real-Time Systems Inc. (querbach@realtime.bc.ca)
*
* Derived from libbsp/powerpc/mbx8xx/vectors/vectors_init.c:
*
* CopyRight (C) 1999 valette@crf.canon.fr
*
* The license and distribution terms for this file may be
* found in the file LICENSE in this distribution or at
* http://www.rtems.com/license/LICENSE.
*/
#include <rtems/bspIo.h>
#include <libcpu/vectors.h>
#include <libcpu/raw_exception.h>
extern rtems_exception_handler_t default_exception_handler;
static rtems_raw_except_global_settings exception_config;
static rtems_raw_except_connect_data exception_table[NUM_EXCEPTIONS];
rtems_exception_handler_t* exception_handler_table[NUM_EXCEPTIONS];
void C_default_exception_handler(CPU_Exception_frame* excPtr)
{
int recoverable = 0;
printk("exception handler called for exception %d\n", excPtr->_EXC_number);
printk("\t Next PC or Address of fault = %x\n", excPtr->EXC_SRR0);
printk("\t Saved MSR = %x\n", excPtr->EXC_SRR1);
printk("\t R0 = %x\n", excPtr->GPR0);
printk("\t R1 = %x\n", excPtr->GPR1);
printk("\t R2 = %x\n", excPtr->GPR2);
printk("\t R3 = %x\n", excPtr->GPR3);
printk("\t R4 = %x\n", excPtr->GPR4);
printk("\t R5 = %x\n", excPtr->GPR5);
printk("\t R6 = %x\n", excPtr->GPR6);
printk("\t R7 = %x\n", excPtr->GPR7);
printk("\t R8 = %x\n", excPtr->GPR8);
printk("\t R9 = %x\n", excPtr->GPR9);
printk("\t R10 = %x\n", excPtr->GPR10);
printk("\t R11 = %x\n", excPtr->GPR11);
printk("\t R12 = %x\n", excPtr->GPR12);
printk("\t R13 = %x\n", excPtr->GPR13);
printk("\t R14 = %x\n", excPtr->GPR14);
printk("\t R15 = %x\n", excPtr->GPR15);
printk("\t R16 = %x\n", excPtr->GPR16);
printk("\t R17 = %x\n", excPtr->GPR17);
printk("\t R18 = %x\n", excPtr->GPR18);
printk("\t R19 = %x\n", excPtr->GPR19);
printk("\t R20 = %x\n", excPtr->GPR20);
printk("\t R21 = %x\n", excPtr->GPR21);
printk("\t R22 = %x\n", excPtr->GPR22);
printk("\t R23 = %x\n", excPtr->GPR23);
printk("\t R24 = %x\n", excPtr->GPR24);
printk("\t R25 = %x\n", excPtr->GPR25);
printk("\t R26 = %x\n", excPtr->GPR26);
printk("\t R27 = %x\n", excPtr->GPR27);
printk("\t R28 = %x\n", excPtr->GPR28);
printk("\t R29 = %x\n", excPtr->GPR29);
printk("\t R30 = %x\n", excPtr->GPR30);
printk("\t R31 = %x\n", excPtr->GPR31);
printk("\t CR = %x\n", excPtr->EXC_CR);
printk("\t CTR = %x\n", excPtr->EXC_CTR);
printk("\t XER = %x\n", excPtr->EXC_XER);
printk("\t LR = %x\n", excPtr->EXC_LR);
printk("\t MSR = %x\n", excPtr->EXC_MSR);
if (excPtr->_EXC_number == ASM_DEC_VECTOR)
recoverable = 1;
if (excPtr->_EXC_number == ASM_SYS_VECTOR)
#ifdef TEST_RAW_EXCEPTION_CODE
recoverable = 1;
#else
recoverable = 0;
#endif
if (!recoverable) {
printk("unrecoverable exception!!! Push reset button\n");
while(1);
}
}
void nop_except_enable(const rtems_raw_except_connect_data* ptr)
{
}
int except_always_enabled(const rtems_raw_except_connect_data* ptr)
{
return 1;
}
void initialize_exceptions(void)
{
int i;
/*
* Initialize all entries of the exception table with a description of the
* default exception handler.
*/
exception_config.exceptSize = NUM_EXCEPTIONS;
exception_config.rawExceptHdlTbl = &exception_table[0];
exception_config.defaultRawEntry.exceptIndex = 0;
exception_config.defaultRawEntry.hdl.vector = 0;
exception_config.defaultRawEntry.hdl.raw_hdl = default_exception_handler;
for (i = 0; i < exception_config.exceptSize; i++) {
printk("installing exception number %d\n", i);
exception_table[i].exceptIndex = i;
exception_table[i].hdl = exception_config.defaultRawEntry.hdl;
exception_table[i].hdl.vector = i;
exception_table[i].on = nop_except_enable;
exception_table[i].off = nop_except_enable;
exception_table[i].isOn = except_always_enabled;
}
/*
* Now pass the initialized exception table to the exceptions module which
* will install the handler pointers in the exception handler table.
*/
if (!mpc5xx_init_exceptions(&exception_config)) {
/*
* At this stage we may not call CPU_Panic because it uses exceptions!!!
*/
printk("Exception handling initialization failed\n");
printk("System locked\n"); while(1);
}
else {
printk("Exception handling initialization done\n");
}
}