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|
/*
* PPC emulation helpers for qemu.
*
* Copyright (c) 2003 Jocelyn Mayer
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#include "exec.h"
#if defined (USE_OPEN_FIRMWARE)
#include <time.h>
#include "of.h"
#endif
//#define DEBUG_MMU
//#define DEBUG_BATS
//#define DEBUG_EXCEPTIONS
/*****************************************************************************/
/* PPC MMU emulation */
int cpu_ppc_handle_mmu_fault (CPUState *env, uint32_t address, int rw,
int is_user, int is_softmmu);
/* Perform BAT hit & translation */
static int get_bat (CPUState *env, uint32_t *real, int *prot,
uint32_t virtual, int rw, int type)
{
uint32_t *BATlt, *BATut, *BATu, *BATl;
uint32_t base, BEPIl, BEPIu, bl;
int i;
int ret = -1;
#if defined (DEBUG_BATS)
if (loglevel > 0) {
fprintf(logfile, "%s: %cBAT v 0x%08x\n", __func__,
type == ACCESS_CODE ? 'I' : 'D', virtual);
}
#endif
switch (type) {
case ACCESS_CODE:
BATlt = env->IBAT[1];
BATut = env->IBAT[0];
break;
default:
BATlt = env->DBAT[1];
BATut = env->DBAT[0];
break;
}
#if defined (DEBUG_BATS)
if (loglevel > 0) {
fprintf(logfile, "%s...: %cBAT v 0x%08x\n", __func__,
type == ACCESS_CODE ? 'I' : 'D', virtual);
}
#endif
base = virtual & 0xFFFC0000;
for (i = 0; i < 4; i++) {
BATu = &BATut[i];
BATl = &BATlt[i];
BEPIu = *BATu & 0xF0000000;
BEPIl = *BATu & 0x0FFE0000;
bl = (*BATu & 0x00001FFC) << 15;
#if defined (DEBUG_BATS)
if (loglevel > 0) {
fprintf(logfile, "%s: %cBAT%d v 0x%08x BATu 0x%08x BATl 0x%08x\n",
__func__, type == ACCESS_CODE ? 'I' : 'D', i, virtual,
*BATu, *BATl);
}
#endif
if ((virtual & 0xF0000000) == BEPIu &&
((virtual & 0x0FFE0000) & ~bl) == BEPIl) {
/* BAT matches */
if ((msr_pr == 0 && (*BATu & 0x00000002)) ||
(msr_pr == 1 && (*BATu & 0x00000001))) {
/* Get physical address */
*real = (*BATl & 0xF0000000) |
((virtual & 0x0FFE0000 & bl) | (*BATl & 0x0FFE0000)) |
(virtual & 0x0001F000);
if (*BATl & 0x00000001)
*prot = PAGE_READ;
if (*BATl & 0x00000002)
*prot = PAGE_WRITE | PAGE_READ;
#if defined (DEBUG_BATS)
if (loglevel > 0) {
fprintf(logfile, "BAT %d match: r 0x%08x prot=%c%c\n",
i, *real, *prot & PAGE_READ ? 'R' : '-',
*prot & PAGE_WRITE ? 'W' : '-');
}
#endif
ret = 0;
break;
}
}
}
if (ret < 0) {
#if defined (DEBUG_BATS)
printf("no BAT match for 0x%08x:\n", virtual);
for (i = 0; i < 4; i++) {
BATu = &BATut[i];
BATl = &BATlt[i];
BEPIu = *BATu & 0xF0000000;
BEPIl = *BATu & 0x0FFE0000;
bl = (*BATu & 0x00001FFC) << 15;
printf("%s: %cBAT%d v 0x%08x BATu 0x%08x BATl 0x%08x \n\t"
"0x%08x 0x%08x 0x%08x\n",
__func__, type == ACCESS_CODE ? 'I' : 'D', i, virtual,
*BATu, *BATl, BEPIu, BEPIl, bl);
}
#endif
}
/* No hit */
return ret;
}
/* PTE table lookup */
static int find_pte (uint32_t *RPN, int *prot, uint32_t base, uint32_t va,
int h, int key, int rw)
{
uint32_t pte0, pte1, keep = 0, access = 0;
int i, good = -1, store = 0;
int ret = -1; /* No entry found */
for (i = 0; i < 8; i++) {
pte0 = ldl_raw(phys_ram_base + base + (i * 8));
pte1 = ldl_raw(phys_ram_base + base + (i * 8) + 4);
#if defined (DEBUG_MMU)
if (loglevel > 0) {
fprintf(logfile, "Load pte from 0x%08x => 0x%08x 0x%08x "
"%d %d %d 0x%08x\n", base + (i * 8), pte0, pte1,
pte0 >> 31, h, (pte0 >> 6) & 1, va);
}
#endif
/* Check validity and table match */
if (pte0 & 0x80000000 && (h == ((pte0 >> 6) & 1))) {
/* Check vsid & api */
if ((pte0 & 0x7FFFFFBF) == va) {
if (good == -1) {
good = i;
keep = pte1;
} else {
/* All matches should have equal RPN, WIMG & PP */
if ((keep & 0xFFFFF07B) != (pte1 & 0xFFFFF07B)) {
if (loglevel > 0)
fprintf(logfile, "Bad RPN/WIMG/PP\n");
return -1;
}
}
/* Check access rights */
if (key == 0) {
access = PAGE_READ;
if ((pte1 & 0x00000003) != 0x3)
access |= PAGE_WRITE;
} else {
switch (pte1 & 0x00000003) {
case 0x0:
access = 0;
break;
case 0x1:
case 0x3:
access = PAGE_READ;
break;
case 0x2:
access = PAGE_READ | PAGE_WRITE;
break;
}
}
if (ret < 0) {
if ((rw == 0 && (access & PAGE_READ)) ||
(rw == 1 && (access & PAGE_WRITE))) {
#if defined (DEBUG_MMU)
if (loglevel > 0)
fprintf(logfile, "PTE access granted !\n");
#endif
good = i;
keep = pte1;
ret = 0;
} else {
/* Access right violation */
ret = -2;
#if defined (DEBUG_MMU)
if (loglevel > 0)
fprintf(logfile, "PTE access rejected\n");
#endif
}
*prot = access;
}
}
}
}
if (good != -1) {
*RPN = keep & 0xFFFFF000;
#if defined (DEBUG_MMU)
if (loglevel > 0) {
fprintf(logfile, "found PTE at addr 0x%08x prot=0x%01x ret=%d\n",
*RPN, *prot, ret);
}
#endif
/* Update page flags */
if (!(keep & 0x00000100)) {
/* Access flag */
keep |= 0x00000100;
store = 1;
}
if (!(keep & 0x00000080)) {
if (rw && ret == 0) {
/* Change flag */
keep |= 0x00000080;
store = 1;
} else {
/* Force page fault for first write access */
*prot &= ~PAGE_WRITE;
}
}
if (store) {
stl_raw(phys_ram_base + base + (good * 8) + 4, keep);
}
}
return ret;
}
static inline uint32_t get_pgaddr (uint32_t sdr1, uint32_t hash, uint32_t mask)
{
return (sdr1 & 0xFFFF0000) | (hash & mask);
}
/* Perform segment based translation */
static int get_segment (CPUState *env, uint32_t *real, int *prot,
uint32_t virtual, int rw, int type)
{
uint32_t pg_addr, sdr, ptem, vsid, pgidx;
uint32_t hash, mask;
uint32_t sr;
int key;
int ret = -1, ret2;
sr = env->sr[virtual >> 28];
#if defined (DEBUG_MMU)
if (loglevel > 0) {
fprintf(logfile, "Check segment v=0x%08x %d 0x%08x nip=0x%08x "
"lr=0x%08x ir=%d dr=%d pr=%d %d t=%d\n",
virtual, virtual >> 28, sr, env->nip,
env->lr, msr_ir, msr_dr, msr_pr, rw, type);
}
#endif
key = (((sr & 0x20000000) && msr_pr == 1) ||
((sr & 0x40000000) && msr_pr == 0)) ? 1 : 0;
if ((sr & 0x80000000) == 0) {
#if defined (DEBUG_MMU)
if (loglevel > 0)
fprintf(logfile, "pte segment: key=%d n=0x%08x\n",
key, sr & 0x10000000);
#endif
/* Check if instruction fetch is allowed, if needed */
if (type != ACCESS_CODE || (sr & 0x10000000) == 0) {
/* Page address translation */
vsid = sr & 0x00FFFFFF;
pgidx = (virtual >> 12) & 0xFFFF;
sdr = env->sdr1;
hash = ((vsid ^ pgidx) & 0x0007FFFF) << 6;
mask = ((sdr & 0x000001FF) << 16) | 0xFFC0;
pg_addr = get_pgaddr(sdr, hash, mask);
ptem = (vsid << 7) | (pgidx >> 10);
#if defined (DEBUG_MMU)
if (loglevel > 0) {
fprintf(logfile, "0 sdr1=0x%08x vsid=0x%06x api=0x%04x "
"hash=0x%07x pg_addr=0x%08x\n", sdr, vsid, pgidx, hash,
pg_addr);
}
#endif
/* Primary table lookup */
ret = find_pte(real, prot, pg_addr, ptem, 0, key, rw);
if (ret < 0) {
/* Secondary table lookup */
hash = (~hash) & 0x01FFFFC0;
pg_addr = get_pgaddr(sdr, hash, mask);
#if defined (DEBUG_MMU)
if (virtual != 0xEFFFFFFF && loglevel > 0) {
fprintf(logfile, "1 sdr1=0x%08x vsid=0x%06x api=0x%04x "
"hash=0x%05x pg_addr=0x%08x\n", sdr, vsid, pgidx,
hash, pg_addr);
}
#endif
ret2 = find_pte(real, prot, pg_addr, ptem, 1, key, rw);
if (ret2 != -1)
ret = ret2;
}
} else {
#if defined (DEBUG_MMU)
if (loglevel > 0)
fprintf(logfile, "No access allowed\n");
#endif
ret = -3;
}
} else {
#if defined (DEBUG_MMU)
if (loglevel > 0)
fprintf(logfile, "direct store...\n");
#endif
/* Direct-store segment : absolutely *BUGGY* for now */
switch (type) {
case ACCESS_INT:
/* Integer load/store : only access allowed */
break;
case ACCESS_CODE:
/* No code fetch is allowed in direct-store areas */
return -4;
case ACCESS_FLOAT:
/* Floating point load/store */
return -4;
case ACCESS_RES:
/* lwarx, ldarx or srwcx. */
return -4;
case ACCESS_CACHE:
/* dcba, dcbt, dcbtst, dcbf, dcbi, dcbst, dcbz, or icbi */
/* Should make the instruction do no-op.
* As it already do no-op, it's quite easy :-)
*/
*real = virtual;
return 0;
case ACCESS_EXT:
/* eciwx or ecowx */
return -4;
default:
if (logfile) {
fprintf(logfile, "ERROR: instruction should not need "
"address translation\n");
}
printf("ERROR: instruction should not need "
"address translation\n");
return -4;
}
if ((rw == 1 || key != 1) && (rw == 0 || key != 0)) {
*real = virtual;
ret = 2;
} else {
ret = -2;
}
}
return ret;
}
int get_physical_address (CPUState *env, uint32_t *physical, int *prot,
uint32_t address, int rw, int access_type)
{
int ret;
#if 0
if (loglevel > 0) {
fprintf(logfile, "%s\n", __func__);
}
#endif
if ((access_type == ACCESS_CODE && msr_ir == 0) ||
(access_type != ACCESS_CODE && msr_dr == 0)) {
/* No address translation */
*physical = address & ~0xFFF;
*prot = PAGE_READ | PAGE_WRITE;
ret = 0;
} else {
/* Try to find a BAT */
ret = get_bat(env, physical, prot, address, rw, access_type);
if (ret < 0) {
/* We didn't match any BAT entry */
ret = get_segment(env, physical, prot, address, rw, access_type);
}
}
#if 0
if (loglevel > 0) {
fprintf(logfile, "%s address %08x => %08x\n",
__func__, address, *physical);
}
#endif
return ret;
}
#if defined(CONFIG_USER_ONLY)
target_ulong cpu_get_phys_page_debug(CPUState *env, target_ulong addr)
{
return addr;
}
#else
target_ulong cpu_get_phys_page_debug(CPUState *env, target_ulong addr)
{
uint32_t phys_addr;
int prot;
if (get_physical_address(env, &phys_addr, &prot, addr, 0, ACCESS_INT) != 0)
return -1;
return phys_addr;
}
#endif
#if !defined(CONFIG_USER_ONLY)
#define MMUSUFFIX _mmu
#define GETPC() (__builtin_return_address(0))
#define SHIFT 0
#include "softmmu_template.h"
#define SHIFT 1
#include "softmmu_template.h"
#define SHIFT 2
#include "softmmu_template.h"
#define SHIFT 3
#include "softmmu_template.h"
/* try to fill the TLB and return an exception if error. If retaddr is
NULL, it means that the function was called in C code (i.e. not
from generated code or from helper.c) */
/* XXX: fix it to restore all registers */
void tlb_fill(unsigned long addr, int is_write, int is_user, void *retaddr)
{
TranslationBlock *tb;
CPUState *saved_env;
unsigned long pc;
int ret;
/* XXX: hack to restore env in all cases, even if not called from
generated code */
saved_env = env;
env = cpu_single_env;
#if 0
{
unsigned long tlb_addrr, tlb_addrw;
int index;
index = (addr >> TARGET_PAGE_BITS) & (CPU_TLB_SIZE - 1);
tlb_addrr = env->tlb_read[is_user][index].address;
tlb_addrw = env->tlb_write[is_user][index].address;
if (loglevel) {
fprintf(logfile,
"%s 1 %p %p idx=%d addr=0x%08lx tbl_addr=0x%08lx 0x%08lx "
"(0x%08lx 0x%08lx)\n", __func__, env,
&env->tlb_read[is_user][index], index, addr,
tlb_addrr, tlb_addrw, addr & TARGET_PAGE_MASK,
tlb_addrr & (TARGET_PAGE_MASK | TLB_INVALID_MASK));
}
}
#endif
ret = cpu_ppc_handle_mmu_fault(env, addr, is_write, is_user, 1);
if (ret) {
if (retaddr) {
/* now we have a real cpu fault */
pc = (unsigned long)retaddr;
tb = tb_find_pc(pc);
if (tb) {
/* the PC is inside the translated code. It means that we have
a virtual CPU fault */
cpu_restore_state(tb, env, pc, NULL);
}
}
do_raise_exception_err(env->exception_index, env->error_code);
}
#if 0
{
unsigned long tlb_addrr, tlb_addrw;
int index;
index = (addr >> TARGET_PAGE_BITS) & (CPU_TLB_SIZE - 1);
tlb_addrr = env->tlb_read[is_user][index].address;
tlb_addrw = env->tlb_write[is_user][index].address;
printf("%s 2 %p %p idx=%d addr=0x%08lx tbl_addr=0x%08lx 0x%08lx "
"(0x%08lx 0x%08lx)\n", __func__, env,
&env->tlb_read[is_user][index], index, addr,
tlb_addrr, tlb_addrw, addr & TARGET_PAGE_MASK,
tlb_addrr & (TARGET_PAGE_MASK | TLB_INVALID_MASK));
}
#endif
env = saved_env;
}
void cpu_ppc_init_mmu(CPUState *env)
{
/* Nothing to do: all translation are disabled */
}
#endif
/* Perform address translation */
int cpu_ppc_handle_mmu_fault (CPUState *env, uint32_t address, int rw,
int is_user, int is_softmmu)
{
uint32_t physical;
int prot;
int exception = 0, error_code = 0;
int access_type;
int ret = 0;
if (rw == 2) {
/* code access */
rw = 0;
access_type = ACCESS_CODE;
} else {
/* data access */
/* XXX: put correct access by using cpu_restore_state()
correctly */
access_type = ACCESS_INT;
// access_type = env->access_type;
}
if (env->user_mode_only) {
/* user mode only emulation */
ret = -2;
goto do_fault;
}
ret = get_physical_address(env, &physical, &prot,
address, rw, access_type);
if (ret == 0) {
ret = tlb_set_page(env, address & ~0xFFF, physical, prot,
is_user, is_softmmu);
} else if (ret < 0) {
do_fault:
#if defined (DEBUG_MMU)
if (loglevel > 0)
cpu_dump_state(env, logfile, fprintf, 0);
#endif
if (access_type == ACCESS_CODE) {
exception = EXCP_ISI;
switch (ret) {
case -1:
/* No matches in page tables */
error_code = EXCP_ISI_TRANSLATE;
break;
case -2:
/* Access rights violation */
error_code = EXCP_ISI_PROT;
break;
case -3:
/* No execute protection violation */
error_code = EXCP_ISI_NOEXEC;
break;
case -4:
/* Direct store exception */
/* No code fetch is allowed in direct-store areas */
error_code = EXCP_ISI_DIRECT;
break;
}
} else {
exception = EXCP_DSI;
switch (ret) {
case -1:
/* No matches in page tables */
error_code = EXCP_DSI_TRANSLATE;
break;
case -2:
/* Access rights violation */
error_code = EXCP_DSI_PROT;
break;
case -4:
/* Direct store exception */
switch (access_type) {
case ACCESS_FLOAT:
/* Floating point load/store */
exception = EXCP_ALIGN;
error_code = EXCP_ALIGN_FP;
break;
case ACCESS_RES:
/* lwarx, ldarx or srwcx. */
exception = EXCP_DSI;
error_code = EXCP_DSI_NOTSUP | EXCP_DSI_DIRECT;
break;
case ACCESS_EXT:
/* eciwx or ecowx */
exception = EXCP_DSI;
error_code = EXCP_DSI_NOTSUP | EXCP_DSI_DIRECT |
EXCP_DSI_ECXW;
break;
default:
printf("DSI: invalid exception (%d)\n", ret);
exception = EXCP_PROGRAM;
error_code = EXCP_INVAL | EXCP_INVAL_INVAL;
break;
}
}
if (rw)
error_code |= EXCP_DSI_STORE;
/* Store fault address */
env->spr[DAR] = address;
}
#if 0
printf("%s: set exception to %d %02x\n",
__func__, exception, error_code);
#endif
env->exception_index = exception;
env->error_code = error_code;
ret = 1;
}
return ret;
}
uint32_t _load_xer (CPUState *env)
{
return (xer_so << XER_SO) |
(xer_ov << XER_OV) |
(xer_ca << XER_CA) |
(xer_bc << XER_BC);
}
void _store_xer (CPUState *env, uint32_t value)
{
xer_so = (value >> XER_SO) & 0x01;
xer_ov = (value >> XER_OV) & 0x01;
xer_ca = (value >> XER_CA) & 0x01;
xer_bc = (value >> XER_BC) & 0x1f;
}
uint32_t _load_msr (CPUState *env)
{
return (msr_pow << MSR_POW) |
(msr_ile << MSR_ILE) |
(msr_ee << MSR_EE) |
(msr_pr << MSR_PR) |
(msr_fp << MSR_FP) |
(msr_me << MSR_ME) |
(msr_fe0 << MSR_FE0) |
(msr_se << MSR_SE) |
(msr_be << MSR_BE) |
(msr_fe1 << MSR_FE1) |
(msr_ip << MSR_IP) |
(msr_ir << MSR_IR) |
(msr_dr << MSR_DR) |
(msr_ri << MSR_RI) |
(msr_le << MSR_LE);
}
void _store_msr (CPUState *env, uint32_t value)
{
#if 0 // TRY
if (((value >> MSR_IR) & 0x01) != msr_ir ||
((value >> MSR_DR) & 0x01) != msr_dr)
{
/* Flush all tlb when changing translation mode or privilege level */
tlb_flush(env, 1);
}
#endif
msr_pow = (value >> MSR_POW) & 0x03;
msr_ile = (value >> MSR_ILE) & 0x01;
msr_ee = (value >> MSR_EE) & 0x01;
msr_pr = (value >> MSR_PR) & 0x01;
msr_fp = (value >> MSR_FP) & 0x01;
msr_me = (value >> MSR_ME) & 0x01;
msr_fe0 = (value >> MSR_FE0) & 0x01;
msr_se = (value >> MSR_SE) & 0x01;
msr_be = (value >> MSR_BE) & 0x01;
msr_fe1 = (value >> MSR_FE1) & 0x01;
msr_ip = (value >> MSR_IP) & 0x01;
msr_ir = (value >> MSR_IR) & 0x01;
msr_dr = (value >> MSR_DR) & 0x01;
msr_ri = (value >> MSR_RI) & 0x01;
msr_le = (value >> MSR_LE) & 0x01;
}
void do_interrupt (CPUState *env)
{
#if defined (CONFIG_USER_ONLY)
env->exception_index |= 0x100;
#else
uint32_t msr;
int excp = env->exception_index;
msr = _load_msr(env);
#if defined (DEBUG_EXCEPTIONS)
if ((excp == EXCP_PROGRAM || excp == EXCP_DSI) && msr_pr == 1)
{
if (loglevel > 0) {
fprintf(logfile, "Raise exception at 0x%08x => 0x%08x (%02x)\n",
env->nip, excp << 8, env->error_code);
}
if (loglevel > 0)
cpu_dump_state(env, logfile, fprintf, 0);
}
#endif
if (loglevel & CPU_LOG_INT) {
fprintf(logfile, "Raise exception at 0x%08x => 0x%08x (%02x)\n",
env->nip, excp << 8, env->error_code);
}
/* Generate informations in save/restore registers */
switch (excp) {
case EXCP_OFCALL:
#if defined (USE_OPEN_FIRMWARE)
env->gpr[3] = OF_client_entry((void *)env->gpr[3]);
#endif
return;
case EXCP_RTASCALL:
#if defined (USE_OPEN_FIRMWARE)
printf("RTAS call !\n");
env->gpr[3] = RTAS_entry((void *)env->gpr[3]);
printf("RTAS call done\n");
#endif
return;
case EXCP_NONE:
/* Do nothing */
#if defined (DEBUG_EXCEPTIONS)
printf("%s: escape EXCP_NONE\n", __func__);
#endif
return;
case EXCP_RESET:
if (msr_ip)
excp += 0xFFC00;
goto store_next;
case EXCP_MACHINE_CHECK:
if (msr_me == 0) {
cpu_abort(env, "Machine check exception while not allowed\n");
}
msr_me = 0;
break;
case EXCP_DSI:
/* Store exception cause */
/* data location address has been stored
* when the fault has been detected
*/
msr &= ~0xFFFF0000;
env->spr[DSISR] = 0;
if (env->error_code & EXCP_DSI_TRANSLATE)
env->spr[DSISR] |= 0x40000000;
else if (env->error_code & EXCP_DSI_PROT)
env->spr[DSISR] |= 0x08000000;
else if (env->error_code & EXCP_DSI_NOTSUP) {
env->spr[DSISR] |= 0x80000000;
if (env->error_code & EXCP_DSI_DIRECT)
env->spr[DSISR] |= 0x04000000;
}
if (env->error_code & EXCP_DSI_STORE)
env->spr[DSISR] |= 0x02000000;
if ((env->error_code & 0xF) == EXCP_DSI_DABR)
env->spr[DSISR] |= 0x00400000;
if (env->error_code & EXCP_DSI_ECXW)
env->spr[DSISR] |= 0x00100000;
#if defined (DEBUG_EXCEPTIONS)
if (loglevel) {
fprintf(logfile, "DSI exception: DSISR=0x%08x, DAR=0x%08x\n",
env->spr[DSISR], env->spr[DAR]);
} else {
printf("DSI exception: DSISR=0x%08x, DAR=0x%08x nip=0x%08x\n",
env->spr[DSISR], env->spr[DAR], env->nip);
}
#endif
goto store_next;
case EXCP_ISI:
/* Store exception cause */
msr &= ~0xFFFF0000;
if (env->error_code == EXCP_ISI_TRANSLATE)
msr |= 0x40000000;
else if (env->error_code == EXCP_ISI_NOEXEC ||
env->error_code == EXCP_ISI_GUARD ||
env->error_code == EXCP_ISI_DIRECT)
msr |= 0x10000000;
else
msr |= 0x08000000;
#if defined (DEBUG_EXCEPTIONS)
if (loglevel) {
fprintf(logfile, "ISI exception: msr=0x%08x, nip=0x%08x\n",
msr, env->nip);
} else {
printf("ISI exception: msr=0x%08x, nip=0x%08x tbl:0x%08x\n",
msr, env->nip, env->spr[V_TBL]);
}
#endif
goto store_next;
case EXCP_EXTERNAL:
if (msr_ee == 0) {
#if defined (DEBUG_EXCEPTIONS)
if (loglevel > 0) {
fprintf(logfile, "Skipping hardware interrupt\n");
}
#endif
/* Requeue it */
do_raise_exception(EXCP_EXTERNAL);
return;
}
goto store_next;
case EXCP_ALIGN:
/* Store exception cause */
/* Get rS/rD and rA from faulting opcode */
env->spr[DSISR] |=
(ldl_code((void *)(env->nip - 4)) & 0x03FF0000) >> 16;
/* data location address has been stored
* when the fault has been detected
*/
goto store_current;
case EXCP_PROGRAM:
msr &= ~0xFFFF0000;
switch (env->error_code & ~0xF) {
case EXCP_FP:
if (msr_fe0 == 0 && msr_fe1 == 0) {
#if defined (DEBUG_EXCEPTIONS)
printf("Ignore floating point exception\n");
#endif
return;
}
msr |= 0x00100000;
/* Set FX */
env->fpscr[7] |= 0x8;
/* Finally, update FEX */
if ((((env->fpscr[7] & 0x3) << 3) | (env->fpscr[6] >> 1)) &
((env->fpscr[1] << 1) | (env->fpscr[0] >> 3)))
env->fpscr[7] |= 0x4;
break;
case EXCP_INVAL:
// printf("Invalid instruction at 0x%08x\n", env->nip);
msr |= 0x00080000;
break;
case EXCP_PRIV:
msr |= 0x00040000;
break;
case EXCP_TRAP:
msr |= 0x00020000;
break;
default:
/* Should never occur */
break;
}
msr |= 0x00010000;
goto store_current;
case EXCP_NO_FP:
goto store_current;
case EXCP_DECR:
if (msr_ee == 0) {
/* Requeue it */
do_raise_exception(EXCP_DECR);
return;
}
goto store_next;
case EXCP_SYSCALL:
if (loglevel & CPU_LOG_INT) {
fprintf(logfile, "syscall %d 0x%08x 0x%08x 0x%08x 0x%08x\n",
env->gpr[0], env->gpr[3], env->gpr[4],
env->gpr[5], env->gpr[6]);
if (env->gpr[0] == 4 && env->gpr[3] == 1) {
int len, addr, i;
uint8_t c;
fprintf(logfile, "write: ");
addr = env->gpr[4];
len = env->gpr[5];
if (len > 64)
len = 64;
for(i = 0; i < len; i++) {
c = 0;
cpu_memory_rw_debug(env, addr + i, &c, 1, 0);
if (c < 32 || c > 126)
c = '.';
fprintf(logfile, "%c", c);
}
fprintf(logfile, "\n");
}
}
goto store_next;
case EXCP_TRACE:
goto store_next;
case EXCP_FP_ASSIST:
goto store_next;
case EXCP_MTMSR:
/* Nothing to do */
return;
case EXCP_BRANCH:
/* Nothing to do */
return;
case EXCP_RFI:
/* Restore user-mode state */
tb_flush(env);
#if defined (DEBUG_EXCEPTIONS)
if (msr_pr == 1)
printf("Return from exception => 0x%08x\n", (uint32_t)env->nip);
#endif
return;
store_current:
/* SRR0 is set to current instruction */
env->spr[SRR0] = (uint32_t)env->nip - 4;
break;
store_next:
/* SRR0 is set to next instruction */
env->spr[SRR0] = (uint32_t)env->nip;
break;
}
env->spr[SRR1] = msr;
/* reload MSR with correct bits */
msr_pow = 0;
msr_ee = 0;
msr_pr = 0;
msr_fp = 0;
msr_fe0 = 0;
msr_se = 0;
msr_be = 0;
msr_fe1 = 0;
msr_ir = 0;
msr_dr = 0;
msr_ri = 0;
msr_le = msr_ile;
/* Jump to handler */
env->nip = excp << 8;
env->exception_index = EXCP_NONE;
/* Invalidate all TLB as we may have changed translation mode */
tlb_flush(env, 1);
/* ensure that no TB jump will be modified as
the program flow was changed */
#ifdef __sparc__
tmp_T0 = 0;
#else
T0 = 0;
#endif
#endif
env->exception_index = -1;
}
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