/*
* Authorship
* ----------
* This software was created by
* Till Straumann <strauman@slac.stanford.edu>, 5/2002,
* Stanford Linear Accelerator Center, Stanford University.
*
* Acknowledgement of sponsorship
* ------------------------------
* This software was produced by
* the Stanford Linear Accelerator Center, Stanford University,
* under Contract DE-AC03-76SFO0515 with the Department of Energy.
*
* Government disclaimer of liability
* ----------------------------------
* Neither the United States nor the United States Department of Energy,
* nor any of their employees, makes any warranty, express or implied, or
* assumes any legal liability or responsibility for the accuracy,
* completeness, or usefulness of any data, apparatus, product, or process
* disclosed, or represents that its use would not infringe privately owned
* rights.
*
* Stanford disclaimer of liability
* --------------------------------
* Stanford University makes no representations or warranties, express or
* implied, nor assumes any liability for the use of this software.
*
* Stanford disclaimer of copyright
* --------------------------------
* Stanford University, owner of the copyright, hereby disclaims its
* copyright and all other rights in this software. Hence, anyone may
* freely use it for any purpose without restriction.
*
* Maintenance of notices
* ----------------------
* In the interest of clarity regarding the origin and status of this
* SLAC software, this and all the preceding Stanford University notices
* are to remain affixed to any copy or derivative of this software made
* or distributed by the recipient and are to be affixed to any copy of
* software made or distributed by the recipient that contains a copy or
* derivative of this software.
*
* ------------------ SLAC Software Notices, Set 4 OTT.002a, 2004 FEB 03
*/
/* Copyright :
* (C) S. Kate Feng <feng1@bnl.gov> 4/2004 modified it for MVME5500
*/
#include <bsp.h>
#include <bsp/vectors.h>
#include <bsp/bootcard.h>
#include <libcpu/spr.h>
#include <bsp/pci.h>
#include <rtems/bspIo.h>
#include <bsp/bspException.h>
#define SRR1_TEA_EXC (1<<(31-13))
#define SRR1_MCP_EXC (1<<(31-12))
static volatile BSP_ExceptionExtension BSP_exceptionExtension = 0;
BSP_ExceptionExtension
BSP_exceptionHandlerInstall(BSP_ExceptionExtension e)
{
volatile BSP_ExceptionExtension test;
if ( RTEMS_SUCCESSFUL != rtems_task_variable_get(RTEMS_SELF, (void*)&BSP_exceptionExtension, (void**)&test) ) {
/* not yet added */
rtems_task_variable_add(RTEMS_SELF, (void*)&BSP_exceptionExtension, 0);
}
test = BSP_exceptionExtension;
BSP_exceptionExtension = e;
return test;
}
void
BSP_exceptionHandler(BSP_Exception_frame* excPtr)
{
uint32_t note;
BSP_ExceptionExtension ext=0;
rtems_id id=0;
int recoverable = 0;
char *fmt="Uhuuuh, Exception %d in unknown task???\n";
int quiet=0;
if (!quiet) printk("In BSP_exceptionHandler()\n");
/* If we are in interrupt context, we are in trouble - skip the user
* hook and panic
*/
if (rtems_interrupt_is_in_progress()) {
fmt="Aieeh, Exception %d in interrupt handler\n";
} else if ( !_Thread_Executing) {
fmt="Aieeh, Exception %d in initialization code\n";
} else {
/* retrieve the notepad which possibly holds an extention pointer */
if (RTEMS_SUCCESSFUL==rtems_task_ident(RTEMS_SELF,RTEMS_LOCAL,&id) &&
#if 0
/* Must not use a notepad due to unknown initial value (notepad memory is allocated from the
* workspace)!
*/
RTEMS_SUCCESSFUL==rtems_task_get_note(id, BSP_EXCEPTION_NOTEPAD, ¬e)
#else
RTEMS_SUCCESSFUL==rtems_task_variable_get(id, (void*)&BSP_exceptionExtension, (void**)¬e)
#endif
) {
ext = (BSP_ExceptionExtension)note;
if (ext)
quiet=ext->quiet;
if (!quiet) {
printk("Task (Id 0x%08x) got ",id);
}
fmt="exception %d\n";
}
}
if (ext && ext->lowlevelHook && ext->lowlevelHook(excPtr,ext,0)) {
/* they did all the work and want us to do nothing! */
printk("they did all the work and want us to do nothing!\n");
return;
}
if (!quiet) {
/* message about exception */
printk(fmt, excPtr->_EXC_number);
/* register dump */
printk("\t Next PC or Address of fault = %x, ", excPtr->EXC_SRR0);
printk("Mvme5500 Saved MSR = %x\n", excPtr->EXC_SRR1);
printk("\t R0 = %08x", excPtr->GPR0);
printk(" R1 = %08x", excPtr->GPR1);
printk(" R2 = %08x", excPtr->GPR2);
printk(" R3 = %08x\n", excPtr->GPR3);
printk("\t R4 = %08x", excPtr->GPR4);
printk(" R5 = %08x", excPtr->GPR5);
printk(" R6 = %08x", excPtr->GPR6);
printk(" R7 = %08x\n", excPtr->GPR7);
printk("\t R8 = %08x", excPtr->GPR8);
printk(" R9 = %08x", excPtr->GPR9);
printk(" R10 = %08x", excPtr->GPR10);
printk(" R11 = %08x\n", excPtr->GPR11);
printk("\t R12 = %08x", excPtr->GPR12);
printk(" R13 = %08x", excPtr->GPR13);
printk(" R14 = %08x", excPtr->GPR14);
printk(" R15 = %08x\n", excPtr->GPR15);
printk("\t R16 = %08x", excPtr->GPR16);
printk(" R17 = %08x", excPtr->GPR17);
printk(" R18 = %08x", excPtr->GPR18);
printk(" R19 = %08x\n", excPtr->GPR19);
printk("\t R20 = %08x", excPtr->GPR20);
printk(" R21 = %08x", excPtr->GPR21);
printk(" R22 = %08x", excPtr->GPR22);
printk(" R23 = %08x\n", excPtr->GPR23);
printk("\t R24 = %08x", excPtr->GPR24);
printk(" R25 = %08x", excPtr->GPR25);
printk(" R26 = %08x", excPtr->GPR26);
printk(" R27 = %08x\n", excPtr->GPR27);
printk("\t R28 = %08x", excPtr->GPR28);
printk(" R29 = %08x", excPtr->GPR29);
printk(" R30 = %08x", excPtr->GPR30);
printk(" R31 = %08x\n", excPtr->GPR31);
printk("\t CR = %08x\n", excPtr->EXC_CR);
printk("\t CTR = %08x\n", excPtr->EXC_CTR);
printk("\t XER = %08x\n", excPtr->EXC_XER);
printk("\t LR = %08x\n", excPtr->EXC_LR);
BSP_printStackTrace(excPtr);
}
if (ASM_MACH_VECTOR == excPtr->_EXC_number) {
/* ollah , we got a machine check - this could either
* be a TEA, MCP or internal; let's see and provide more info
*/
if (!quiet)
printk("Machine check; reason:");
if ( ! (excPtr->EXC_SRR1 & (SRR1_TEA_EXC | SRR1_MCP_EXC)) ) {
if (!quiet)
printk("SRR1\n");
} else {
if (excPtr->EXC_SRR1 & (SRR1_TEA_EXC)) {
if (!quiet)
printk(" TEA");
}
if (excPtr->EXC_SRR1 & (SRR1_MCP_EXC)) {
unsigned long gerr;
if (!quiet) printk(" MCP\n");
/* it's MCP; gather info from the host bridge */
gerr=_BSP_clear_hostbridge_errors(0,0);
if (gerr&0x80000000) printk("GT64260 Parity error\n");
if (gerr&0x40000000) printk("GT64260 SysErr\n");
if ((!quiet) && (!gerr)) printk("GT64260 host bridge seems OK\n");
}
}
} else if (ASM_DEC_VECTOR == excPtr->_EXC_number) {
recoverable = 1;
} else if (ASM_SYS_VECTOR == excPtr->_EXC_number) {
#ifdef TEST_RAW_EXCEPTION_CODE
recoverable = 1;
#else
recoverable = 0;
#endif
}
/* call them for a second time giving a chance to intercept
* the task_suspend
*/
if (ext && ext->lowlevelHook && ext->lowlevelHook(excPtr, ext, 1))
return;
if (!recoverable) {
if (id) {
/* if there's a highlevel hook, install it */
if (ext && ext->highlevelHook) {
excPtr->EXC_SRR0 = (uint32_t)ext->highlevelHook;
excPtr->GPR3 = (uint32_t)ext;
return;
}
if (excPtr->EXC_SRR1 & MSR_FP) {
/* thread dispatching is _not_ disabled at this point; hence
* we must make sure we have the FPU enabled...
*/
_write_MSR( _read_MSR() | MSR_FP );
__asm__ __volatile__("isync");
}
printk("unrecoverable exception!!! task %08x suspended\n",id);
rtems_task_suspend(id);
} else {
printk("PANIC, rebooting...\n");
bsp_reset();
}
}
}