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version 1.2, 2003/12/11 15:03:16
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version 1.19, 2005/03/05 16:47:04
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| /* $Id$ */ |
/* $Id$ */ |
| |
|
| /* |
/* |
| * Copyright (c) 2002-2003 NONAKA Kimihiro |
* Copyright (c) 2002-2004 NONAKA Kimihiro |
| * All rights reserved. |
* All rights reserved. |
| * |
* |
| * Redistribution and use in source and binary forms, with or without |
* Redistribution and use in source and binary forms, with or without |
|
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| #include "cpu.h" |
#include "cpu.h" |
| #include "memory.h" |
#include "memory.h" |
| |
|
| // ¤¢¤È¤Ç¡Ä |
|
| extern DWORD cpumem_addrmask; |
|
| |
|
| BYTE *cpumem = 0; |
|
| DWORD extmem_size = 0; |
|
| BYTE protectmem_size = 0; |
|
| |
|
| /* |
|
| * initialize 1MB-16MB memory |
|
| */ |
|
| |
|
| int |
|
| init_cpumem(BYTE usemem) |
|
| { |
|
| DWORD size; |
|
| |
|
| if (usemem > 13) |
|
| usemem = 13; |
|
| size = usemem << 20; |
|
| |
|
| if (extmem_size != size - (LOWMEM - 0x100000)) { |
|
| if (cpumem) { |
|
| free(cpumem); |
|
| cpumem = 0; |
|
| } |
|
| if (size <= LOWMEM - 0x100000) { |
|
| extmem_size = 0; |
|
| cpumem = 0; |
|
| } else { |
|
| extmem_size = size - (LOWMEM - 0x100000); |
|
| cpumem = (BYTE *)malloc(extmem_size); |
|
| if (cpumem == NULL) { |
|
| protectmem_size = 0; |
|
| return FAILURE; |
|
| } |
|
| memset(cpumem, 0, extmem_size); |
|
| } |
|
| } |
|
| protectmem_size = usemem; |
|
| return SUCCESS; |
|
| } |
|
| |
|
| |
|
| /* |
/* |
| * memory access check |
* memory access check |
| */ |
*/ |
| void |
void |
| cpu_memoryread_check(descriptor_t* sd, DWORD madr, DWORD length, int e) |
cpu_memoryread_check(descriptor_t *sd, UINT32 offset, UINT length, int e) |
| { |
{ |
| |
UINT32 uplimit; |
| |
|
| if (CPU_STAT_PM) { |
if (CPU_STAT_PM) { |
| /* invalid */ |
/* invalid */ |
| if (!sd->valid) { |
if (!sd->valid) { |
| |
VERBOSE(("cpu_memoryread_check: invalid")); |
| EXCEPTION(GP_EXCEPTION, 0); |
EXCEPTION(GP_EXCEPTION, 0); |
| } |
} |
| |
|
| /* not present */ |
/* not present */ |
| if (!sd->p) { |
if (!sd->p) { |
| |
VERBOSE(("cpu_memoryread_check: not present")); |
| EXCEPTION(e, 0); |
EXCEPTION(e, 0); |
| } |
} |
| |
} |
| |
|
| switch (sd->type) { |
switch (sd->type) { |
| case 0: case 1: /* ro */ |
case 0: case 1: /* ro */ |
| case 2: case 3: /* rw */ |
case 2: case 3: /* rw */ |
| case 10: case 11: /* rx */ |
case 10: case 11: /* rx */ |
| case 14: case 15: /* rxc */ |
case 14: case 15: /* rxc */ |
| if ((madr > sd->u.seg.segend - length + 1) |
if (offset > sd->u.seg.limit - length + 1) { |
| || (length - 1 > sd->u.seg.limit)) { |
VERBOSE(("cpu_memoryread_check: offset(%08x) > sd->u.seg.limit(%08x) - length(%08x) + 1", offset, sd->u.seg.limit, length)); |
| EXCEPTION(e, 0); |
EXCEPTION(e, 0); |
| } |
|
| break; |
|
| |
|
| case 4: case 5: /* ro (expand down) */ |
|
| case 6: case 7: /* rw (expand down) */ |
|
| { |
|
| DWORD uplimit = sd->d ? 0xffffffff : 0x0000ffff; |
|
| if ((madr <= sd->u.seg.segend) |
|
| || (madr > uplimit) |
|
| || (uplimit - madr < length - 1)) { |
|
| EXCEPTION(e, 0); |
|
| } |
|
| } |
} |
| break; |
if (length - 1 > sd->u.seg.limit) { |
| |
VERBOSE(("cpu_memoryread_check: length(%08x) - 1 > sd->u.seg.limit(%08x)", length, sd->u.seg.limit)); |
| |
EXCEPTION(e, 0); |
| |
} |
| |
break; |
| |
|
| default: |
case 4: case 5: /* ro (expand down) */ |
| |
case 6: case 7: /* rw (expand down) */ |
| |
uplimit = sd->d ? 0xffffffff : 0x0000ffff; |
| |
if (offset <= sd->u.seg.limit) { |
| |
VERBOSE(("cpu_memoryread_check: offset(%08x) <= sd->u.seg.limit(%08x)", offset, sd->u.seg.limit)); |
| |
EXCEPTION(e, 0); |
| |
} |
| |
if (offset > uplimit) { |
| |
VERBOSE(("cpu_memoryread_check: offset(%08x) > uplimit(%08x)", offset, uplimit)); |
| EXCEPTION(e, 0); |
EXCEPTION(e, 0); |
| break; |
|
| } |
} |
| |
if (uplimit - offset < length - 1) { |
| |
VERBOSE(("cpu_memoryread_check: uplimit(%08x) - offset(%08x) < length(%08x) - 1", uplimit, offset, length)); |
| |
EXCEPTION(e, 0); |
| |
} |
| |
break; |
| |
|
| |
default: |
| |
VERBOSE(("cpu_memoryread_check: invalid type (type = %d)", sd->type)); |
| |
EXCEPTION(e, 0); |
| |
break; |
| } |
} |
| sd->flag |= CPU_DESC_READABLE; |
sd->flag |= CPU_DESC_FLAG_READABLE; |
| } |
} |
| |
|
| void |
void |
| cpu_memorywrite_check(descriptor_t* sd, DWORD madr, DWORD length, int e) |
cpu_memorywrite_check(descriptor_t *sd, UINT32 offset, UINT length, int e) |
| { |
{ |
| |
UINT32 uplimit; |
| |
|
| if (CPU_STAT_PM) { |
if (CPU_STAT_PM) { |
| /* invalid */ |
/* invalid */ |
| if (!sd->valid) { |
if (!sd->valid) { |
| |
VERBOSE(("cpu_memorywrite_check: invalid")); |
| EXCEPTION(GP_EXCEPTION, 0); |
EXCEPTION(GP_EXCEPTION, 0); |
| } |
} |
| |
|
| /* not present */ |
/* not present */ |
| if (!sd->p) { |
if (!sd->p) { |
| |
VERBOSE(("cpu_memorywrite_check: not present")); |
| EXCEPTION(e, 0); |
EXCEPTION(e, 0); |
| } |
} |
| |
|
| switch (sd->type) { |
if (!sd->s) { |
| case 2: case 3: /* rw */ |
VERBOSE(("cpu_memorywrite_check: system segment")); |
| if ((madr > sd->u.seg.segend - length + 1) |
EXCEPTION(e, 0); |
| || (length - 1 > sd->u.seg.limit)) { |
} |
| EXCEPTION(e, 0); |
} |
| } |
|
| break; |
|
| |
|
| case 6: case 7: /* rw (expand down) */ |
switch (sd->type) { |
| { |
case 2: case 3: /* rw */ |
| DWORD uplimit = sd->d ? 0xffffffff : 0x0000ffff; |
if (offset > sd->u.seg.limit - length + 1) { |
| if ((madr <= sd->u.seg.segend) |
VERBOSE(("cpu_memorywrite_check: offset(%08x) > sd->u.seg.limit(%08x) - length(%08x) + 1", offset, sd->u.seg.limit, length)); |
| || (madr > uplimit) |
EXCEPTION(e, 0); |
| || (uplimit - madr < length - 1)) { |
|
| EXCEPTION(e, 0); |
|
| } |
|
| } |
} |
| break; |
if (length - 1 > sd->u.seg.limit) { |
| |
VERBOSE(("cpu_memorywrite_check: length(%08x) - 1 > sd->u.seg.limit(%08x)", length, sd->u.seg.limit)); |
| |
EXCEPTION(e, 0); |
| |
} |
| |
break; |
| |
|
| default: |
case 6: case 7: /* rw (expand down) */ |
| |
uplimit = sd->d ? 0xffffffff : 0x0000ffff; |
| |
if (offset <= sd->u.seg.limit) { |
| |
VERBOSE(("cpu_memorywrite_check: offset(%08x) <= sd->u.seg.limit(%08x)", offset, sd->u.seg.limit)); |
| |
EXCEPTION(e, 0); |
| |
} |
| |
if (offset > uplimit) { |
| |
VERBOSE(("cpu_memorywrite_check: offset(%08x) > uplimit(%08x)", offset, uplimit)); |
| |
EXCEPTION(e, 0); |
| |
} |
| |
if (uplimit - offset < length - 1) { |
| |
VERBOSE(("cpu_memorywrite_check: uplimit(%08x) - offset(%08x) < length(%08x) - 1", uplimit, offset, length)); |
| EXCEPTION(e, 0); |
EXCEPTION(e, 0); |
| break; |
|
| } |
} |
| |
break; |
| |
|
| |
default: |
| |
VERBOSE(("cpu_memorywrite_check: invalid type (type = %d)", sd->type)); |
| |
EXCEPTION(e, 0); |
| |
break; |
| } |
} |
| sd->flag |= CPU_DESC_WRITABLE; |
sd->flag |= CPU_DESC_FLAG_WRITABLE; |
| } |
} |
| |
|
| BOOL |
void |
| cpu_stack_push_check(descriptor_t* sdp, DWORD esp, DWORD length) |
cpu_stack_push_check(UINT16 s, descriptor_t *sd, UINT32 esp, UINT length) |
| { |
{ |
| |
UINT32 limit; |
| |
|
| if (!CPU_STAT_PM) |
if (CPU_STAT_PM) { |
| return TRUE; |
if (!sd->valid || !sd->p) { |
| |
VERBOSE(("cpu_stack_push_check: valid = %d, present = %d", sd->valid, sd->p)); |
| if (!sdp->valid || !sdp->p) |
EXCEPTION(SS_EXCEPTION, s & 0xfffc); |
| return FALSE; |
} |
| #ifdef _DEBUG |
if (!sd->s || sd->u.seg.c || !sd->u.seg.wr) { |
| if (!sdp->s || sdp->u.seg.c || !sdp->u.seg.wr) |
VERBOSE(("cpu_stack_push_check: s = %d, c = %d, wr", sd->s, sd->u.seg.c, sd->u.seg.wr)); |
| return FALSE; |
EXCEPTION(SS_EXCEPTION, s & 0xfffc); |
| #endif |
} |
| |
|
| if (!sdp->d) |
if (!sd->d) { |
| esp &= 0xffff; |
limit = 0xffff; |
| if (sdp->u.seg.ec) { |
|
| DWORD limit = (sdp->d) ? 0xffffffff : 0xffff; |
|
| if ((esp == 0) |
|
| || (esp < length) |
|
| || (esp - length <= sdp->u.seg.segend) |
|
| || (esp > limit)) |
|
| return FALSE; |
|
| } else { |
|
| /* expand-up stack */ |
|
| if (esp == 0) { |
|
| if ((sdp->d && (sdp->u.seg.segend != 0xffffffff)) |
|
| || (!sdp->d && (sdp->u.seg.segend != 0xffff))) |
|
| return FALSE; |
|
| } else { |
} else { |
| if ((esp < length) |
limit = 0xffffffff; |
| || (esp - 1 > sdp->u.seg.segend)) |
} |
| return FALSE; |
if (sd->u.seg.ec) { |
| |
/* expand-down stack */ |
| |
if ((esp == 0) |
| |
|| (esp < length) |
| |
|| (esp - length <= sd->u.seg.limit) |
| |
|| (esp > limit)) { |
| |
VERBOSE(("cpu_stack_push_check: expand-down, esp = %08x, length = %08x", esp, length)); |
| |
VERBOSE(("cpu_stack_push_check: limit = %08x, seglimit = %08x", limit, sd->u.seg.limit)); |
| |
VERBOSE(("cpu_stack_push_check: segbase = %08x, segend = %08x", sd->u.seg.segbase, sd->u.seg.segend)); |
| |
EXCEPTION(SS_EXCEPTION, s & 0xfffc); |
| |
} |
| |
} else { |
| |
/* expand-up stack */ |
| |
if (esp == 0) { |
| |
if ((sd->d && (sd->u.seg.segend != 0xffffffff)) |
| |
|| (!sd->d && (sd->u.seg.segend != 0xffff))) { |
| |
VERBOSE(("cpu_stack_push_check: expand-up, esp = %08x, length = %08x", esp, length)); |
| |
VERBOSE(("cpu_stack_push_check: limit = %08x, seglimit = %08x", limit, sd->u.seg.limit)); |
| |
VERBOSE(("cpu_stack_push_check: segbase = %08x, segend = %08x", sd->u.seg.segbase, sd->u.seg.segend)); |
| |
EXCEPTION(SS_EXCEPTION, s & 0xfffc); |
| |
} |
| |
} else { |
| |
if ((esp < length) |
| |
|| (esp - 1 > sd->u.seg.limit)) { |
| |
VERBOSE(("cpu_stack_push_check: expand-up, esp = %08x, length = %08x", esp, length)); |
| |
VERBOSE(("cpu_stack_push_check: limit = %08x, seglimit = %08x", limit, sd->u.seg.limit)); |
| |
VERBOSE(("cpu_stack_push_check: segbase = %08x, segend = %08x", sd->u.seg.segbase, sd->u.seg.segend)); |
| |
EXCEPTION(SS_EXCEPTION, s & 0xfffc); |
| |
} |
| |
} |
| } |
} |
| } |
} |
| return TRUE; |
|
| } |
} |
| |
|
| BOOL |
void |
| cpu_stack_pop_check(descriptor_t* sdp, DWORD esp, DWORD length) |
cpu_stack_pop_check(UINT16 s, descriptor_t *sd, UINT32 esp, UINT length) |
| { |
{ |
| DWORD limit; |
UINT32 limit; |
| |
|
| if (!CPU_STAT_PM) |
|
| return TRUE; |
|
| |
|
| if (!sdp->valid || !sdp->p) |
if (CPU_STAT_PM) { |
| return FALSE; |
if (!sd->valid || !sd->p) { |
| #ifdef _DEBUG |
VERBOSE(("cpu_stack_pop_check: valid = %d, present = %d", sd->valid, sd->p)); |
| if (!sdp->s || sdp->u.seg.c || !sdp->u.seg.wr) |
EXCEPTION(SS_EXCEPTION, s & 0xfffc); |
| return FALSE; |
} |
| #endif |
if (!sd->s || sd->u.seg.c || !sd->u.seg.wr) { |
| |
VERBOSE(("cpu_stack_pop_check: s = %d, c = %d, wr", sd->s, sd->u.seg.c, sd->u.seg.wr)); |
| |
EXCEPTION(SS_EXCEPTION, s & 0xfffc); |
| |
} |
| |
|
| if (!sdp->d) { |
if (!sd->d) { |
| esp &= 0xffff; |
limit = 0xffff; |
| limit = 0xffff; |
} else { |
| } else { |
limit = 0xffffffff; |
| limit = 0xffffffff; |
} |
| |
if (sd->u.seg.ec) { |
| |
/* expand-down stack */ |
| |
if ((esp == limit) |
| |
|| ((limit - esp) + 1 < length)) { |
| |
VERBOSE(("cpu_stack_pop_check: expand-up, esp = %08x, length = %08x", esp, length)); |
| |
VERBOSE(("cpu_stack_pop_check: limit = %08x, seglimit = %08x", limit, sd->u.seg.limit)); |
| |
VERBOSE(("cpu_stack_pop_check: segbase = %08x, segend = %08x", sd->u.seg.segbase, sd->u.seg.segend)); |
| |
EXCEPTION(SS_EXCEPTION, s & 0xfffc); |
| |
} |
| |
} else { |
| |
/* expand-up stack */ |
| |
if ((esp == limit) |
| |
|| (sd->u.seg.segend == 0) |
| |
|| (esp > sd->u.seg.limit) |
| |
|| ((sd->u.seg.limit - esp) + 1 < length)) { |
| |
VERBOSE(("cpu_stack_pop_check: expand-up, esp = %08x, length = %08x", esp, length)); |
| |
VERBOSE(("cpu_stack_pop_check: limit = %08x, seglimit = %08x", limit, sd->u.seg.limit)); |
| |
VERBOSE(("cpu_stack_pop_check: segbase = %08x, segend = %08x", sd->u.seg.segbase, sd->u.seg.segend)); |
| |
EXCEPTION(SS_EXCEPTION, s & 0xfffc); |
| |
} |
| |
} |
| } |
} |
| if (sdp->u.seg.ec) { |
} |
| if ((esp == limit) |
|
| || ((limit - esp) + 1 < length)) |
#if defined(IA32_SUPPORT_DEBUG_REGISTER) |
| return FALSE; |
INLINE static void |
| } else { |
check_memory_break_point(UINT32 address, UINT length, UINT rw) |
| /* expand-up stack */ |
{ |
| if ((esp == limit) |
int i; |
| || (sdp->u.seg.segend == 0) |
|
| || (esp > sdp->u.seg.segend) |
if (CPU_STAT_BP && !(CPU_EFLAG & RF_FLAG)) { |
| || ((sdp->u.seg.segend - esp) + 1 < length)) |
for (i = 0; i < CPU_DEBUG_REG_INDEX_NUM; i++) { |
| return FALSE; |
if ((CPU_STAT_BP & (1 << i)) |
| |
&& (CPU_DR7_GET_RW(i) & rw) |
| |
|
| |
&& ((address <= CPU_DR(i) && address + length > CPU_DR(i)) |
| |
|| (address > CPU_DR(i) && address < CPU_DR(i) + CPU_DR7_GET_LEN(i)))) { |
| |
CPU_STAT_BP_EVENT |= CPU_STAT_BP_EVENT_B(i); |
| |
} |
| |
} |
| } |
} |
| return TRUE; |
|
| } |
} |
| |
#else |
| |
#define check_memory_break_point(address, length, rw) |
| |
#endif |
| |
|
| |
|
| /* |
/* |
| * code fetch |
* code fetch |
| */ |
*/ |
| BYTE MEMCALL |
#define ucrw (CPU_PAGE_READ_CODE | CPU_STAT_USER_MODE) |
| cpu_codefetch(DWORD madr) |
|
| |
UINT8 MEMCALL |
| |
cpu_codefetch(UINT32 offset) |
| { |
{ |
| descriptor_t *sd; |
descriptor_t *sd; |
| DWORD addr; |
UINT32 addr; |
| |
#if defined(IA32_SUPPORT_TLB) |
| |
TLB_ENTRY_T *ep; |
| |
#endif |
| |
|
| sd = &CPU_STAT_SREG(CPU_CS_INDEX); |
sd = &CPU_STAT_SREG(CPU_CS_INDEX); |
| if (!CPU_INST_AS32) |
if (offset <= sd->u.seg.limit) { |
| madr &= 0xffff; |
addr = sd->u.seg.segbase + offset; |
| if (madr <= sd->u.seg.segend) { |
if (!CPU_STAT_PAGING) |
| addr = CPU_STAT_SREGBASE(CPU_CS_INDEX) + madr; |
|
| if (!CPU_STAT_PM) |
|
| return cpu_memoryread(addr); |
return cpu_memoryread(addr); |
| return cpu_lcmemoryread(addr); |
#if defined(IA32_SUPPORT_TLB) |
| |
ep = tlb_lookup(addr, ucrw); |
| |
if (ep != NULL && ep->memp != NULL) { |
| |
return ep->memp[addr & 0xfff]; |
| |
} |
| |
#endif |
| |
return cpu_linear_memory_read_b(addr, ucrw); |
| } |
} |
| EXCEPTION(GP_EXCEPTION, 0); |
EXCEPTION(GP_EXCEPTION, 0); |
| return 0; /* compiler happy */ |
return 0; /* compiler happy */ |
| } |
} |
| |
|
| WORD MEMCALL |
UINT16 MEMCALL |
| cpu_codefetch_w(DWORD madr) |
cpu_codefetch_w(UINT32 offset) |
| { |
{ |
| descriptor_t *sd; |
descriptor_t *sd; |
| DWORD addr; |
UINT32 addr; |
| |
#if defined(IA32_SUPPORT_TLB) |
| |
TLB_ENTRY_T *ep; |
| |
UINT16 value; |
| |
#endif |
| |
|
| sd = &CPU_STAT_SREG(CPU_CS_INDEX); |
sd = &CPU_STAT_SREG(CPU_CS_INDEX); |
| if (!CPU_INST_AS32) |
if (offset <= sd->u.seg.limit - 1) { |
| madr &= 0xffff; |
addr = sd->u.seg.segbase + offset; |
| if (madr <= sd->u.seg.segend - 1) { |
if (!CPU_STAT_PAGING) |
| addr = CPU_STAT_SREGBASE(CPU_CS_INDEX) + madr; |
|
| if (!CPU_STAT_PM) |
|
| return cpu_memoryread_w(addr); |
return cpu_memoryread_w(addr); |
| return cpu_lcmemoryread_w(addr); |
#if defined(IA32_SUPPORT_TLB) |
| |
ep = tlb_lookup(addr, ucrw); |
| |
if (ep != NULL && ep->memp != NULL) { |
| |
if ((addr + 1) & 0x00000fff) { |
| |
return LOADINTELWORD(ep->memp + (addr & 0xfff)); |
| |
} |
| |
value = ep->memp[0xfff]; |
| |
ep = tlb_lookup(addr + 1, ucrw); |
| |
if (ep != NULL && ep->memp != NULL) { |
| |
value += (UINT16)ep->memp[0] << 8; |
| |
return value; |
| |
} |
| |
} |
| |
#endif |
| |
return cpu_linear_memory_read_w(addr, ucrw); |
| } |
} |
| EXCEPTION(GP_EXCEPTION, 0); |
EXCEPTION(GP_EXCEPTION, 0); |
| return 0; /* compiler happy */ |
return 0; /* compiler happy */ |
| } |
} |
| |
|
| DWORD MEMCALL |
UINT32 MEMCALL |
| cpu_codefetch_d(DWORD madr) |
cpu_codefetch_d(UINT32 offset) |
| { |
{ |
| descriptor_t *sd; |
descriptor_t *sd; |
| DWORD addr; |
UINT32 addr; |
| |
#if defined(IA32_SUPPORT_TLB) |
| |
TLB_ENTRY_T *ep[2]; |
| |
UINT32 value; |
| |
UINT remain; |
| |
#endif |
| |
|
| sd = &CPU_STAT_SREG(CPU_CS_INDEX); |
sd = &CPU_STAT_SREG(CPU_CS_INDEX); |
| if (!CPU_INST_AS32) |
if (offset <= sd->u.seg.limit - 3) { |
| madr &= 0xffff; |
addr = sd->u.seg.segbase + offset; |
| if (madr <= sd->u.seg.segend - 3) { |
if (!CPU_STAT_PAGING) |
| addr = CPU_STAT_SREGBASE(CPU_CS_INDEX) + madr; |
|
| if (!CPU_STAT_PM) |
|
| return cpu_memoryread_d(addr); |
return cpu_memoryread_d(addr); |
| return cpu_lcmemoryread_d(addr); |
#if defined(IA32_SUPPORT_TLB) |
| |
ep[0] = tlb_lookup(addr, ucrw); |
| |
if (ep[0] != NULL && ep[0]->memp != NULL) { |
| |
remain = 0x1000 - (addr & 0xfff); |
| |
if (remain >= 4) { |
| |
return LOADINTELDWORD(ep[0]->memp + (addr & 0xfff)); |
| |
} |
| |
ep[1] = tlb_lookup(addr + remain, ucrw); |
| |
if (ep[1] != NULL && ep[1]->memp != NULL) { |
| |
switch (remain) { |
| |
case 3: |
| |
value = ep[0]->memp[0xffd]; |
| |
value += (UINT32)LOADINTELWORD(ep[0]->memp + 0xffe) << 8; |
| |
value += (UINT32)ep[1]->memp[0] << 24; |
| |
break; |
| |
|
| |
case 2: |
| |
value = LOADINTELWORD(ep[0]->memp + 0xffe); |
| |
value += (UINT32)LOADINTELWORD(ep[1]->memp + 0) << 16; |
| |
break; |
| |
|
| |
case 1: |
| |
value = ep[0]->memp[0xfff]; |
| |
value += (UINT32)LOADINTELWORD(ep[1]->memp + 0) << 8; |
| |
value += (UINT32)ep[1]->memp[2] << 24; |
| |
break; |
| |
|
| |
default: |
| |
ia32_panic("cpu_codefetch_d(): out of range. (remain = %d)\n", remain); |
| |
return (UINT32)-1; |
| |
} |
| |
return value; |
| |
} |
| |
} |
| |
#endif |
| |
return cpu_linear_memory_read_d(addr, ucrw); |
| } |
} |
| EXCEPTION(GP_EXCEPTION, 0); |
EXCEPTION(GP_EXCEPTION, 0); |
| return 0; /* compiler happy */ |
return 0; /* compiler happy */ |
| } |
} |
| |
|
| |
|
| /* |
/* |
| * virtual address -> linear address |
* additional physical address memory access functions |
| */ |
*/ |
| BYTE MEMCALL |
UINT64 |
| cpu_vmemoryread(int idx, DWORD madr) |
cpu_memoryread_q(UINT32 address) |
| { |
{ |
| descriptor_t *sd; |
UINT64 value; |
| DWORD addr; |
|
| |
|
| __ASSERT((unsigned int)idx < CPU_SEGREG_NUM); |
value = cpu_memoryread_d(address); |
| |
value += (UINT64)cpu_memoryread_d(address + 4) << 32; |
| |
|
| sd = &CPU_STAT_SREG(idx); |
return value; |
| if (!sd->valid) { |
} |
| EXCEPTION(GP_EXCEPTION, 0); |
|
| } |
|
| |
|
| if (!CPU_INST_AS32) |
REG80 |
| madr &= 0xffff; |
cpu_memoryread_f(UINT32 address) |
| for (;;) { |
{ |
| if ((sd->flag & CPU_DESC_READABLE) |
REG80 value; |
| || (madr <= sd->u.seg.segend)) { |
UINT i; |
| addr = CPU_STAT_SREGBASE(idx) + madr; |
|
| if (!CPU_STAT_PM) |
for (i = 0; i < sizeof(REG80); ++i) { |
| return cpu_memoryread(addr); |
value.b[i] = cpu_memoryread(address + i); |
| return cpu_lmemoryread(addr); |
|
| } |
|
| cpu_memoryread_check(sd, madr, 1, |
|
| (idx == CPU_SS_INDEX) ? SS_EXCEPTION : GP_EXCEPTION); |
|
| } |
} |
| /*NOTREACHED*/ |
return value; |
| } |
} |
| |
|
| WORD MEMCALL |
void |
| cpu_vmemoryread_w(int idx, DWORD madr) |
cpu_memorywrite_q(UINT32 address, UINT64 value) |
| { |
{ |
| descriptor_t *sd; |
|
| DWORD addr; |
|
| |
|
| __ASSERT((unsigned int)idx < CPU_SEGREG_NUM); |
cpu_memorywrite_d(address, (UINT32)value); |
| |
cpu_memorywrite_d(address + 4, (UINT32)(value >> 32)); |
| |
} |
| |
|
| sd = &CPU_STAT_SREG(idx); |
void |
| if (!sd->valid) { |
cpu_memorywrite_f(UINT32 address, const REG80 *value) |
| EXCEPTION(GP_EXCEPTION, 0); |
{ |
| } |
UINT i; |
| |
|
| if (!CPU_INST_AS32) |
for (i = 0; i < sizeof(REG80); ++i) { |
| madr &= 0xffff; |
cpu_memorywrite(address + i, value->b[i]); |
| for (;;) { |
|
| if ((sd->flag & CPU_DESC_READABLE) |
|
| || (madr <= sd->u.seg.segend - 1)) { |
|
| addr = CPU_STAT_SREGBASE(idx) + madr; |
|
| if (!CPU_STAT_PM) |
|
| return cpu_memoryread_w(addr); |
|
| return cpu_lmemoryread_w(addr); |
|
| } |
|
| cpu_memoryread_check(sd, madr, 2, |
|
| (idx == CPU_SS_INDEX) ? SS_EXCEPTION : GP_EXCEPTION); |
|
| } |
} |
| /*NOTREACHED*/ |
|
| } |
} |
| |
|
| DWORD MEMCALL |
/* |
| cpu_vmemoryread_d(int idx, DWORD madr) |
* virtual address memory access functions |
| |
*/ |
| |
#include "cpu_mem.mcr" |
| |
|
| |
VIRTUAL_ADDRESS_MEMORY_ACCESS_FUNCTION(b, UINT8, 1) |
| |
VIRTUAL_ADDRESS_MEMORY_ACCESS_FUNCTION(w, UINT16, 2) |
| |
VIRTUAL_ADDRESS_MEMORY_ACCESS_FUNCTION(d, UINT32, 4) |
| |
|
| |
UINT64 MEMCALL |
| |
cpu_vmemoryread_q(int idx, UINT32 offset) |
| { |
{ |
| descriptor_t *sd; |
descriptor_t *sd; |
| DWORD addr; |
UINT32 addr; |
| |
int exc; |
| |
|
| __ASSERT((unsigned int)idx < CPU_SEGREG_NUM); |
__ASSERT((unsigned int)idx < CPU_SEGREG_NUM); |
| |
|
| sd = &CPU_STAT_SREG(idx); |
sd = &CPU_STAT_SREG(idx); |
| if (!sd->valid) { |
if (!sd->valid) { |
| EXCEPTION(GP_EXCEPTION, 0); |
exc = GP_EXCEPTION; |
| |
goto err; |
| } |
} |
| |
|
| if (!CPU_INST_AS32) |
if (!(sd->flag & CPU_DESC_FLAG_READABLE)) { |
| madr &= 0xffff; |
cpu_memoryread_check(sd, offset, 8, |
| for (;;) { |
|
| if ((sd->flag & CPU_DESC_READABLE) |
|
| || (madr <= sd->u.seg.segend - 3)) { |
|
| addr = CPU_STAT_SREGBASE(idx) + madr; |
|
| if (!CPU_STAT_PM) |
|
| return cpu_memoryread_d(addr); |
|
| return cpu_lmemoryread_d(addr); |
|
| } |
|
| cpu_memoryread_check(sd, madr, 4, |
|
| (idx == CPU_SS_INDEX) ? SS_EXCEPTION : GP_EXCEPTION); |
(idx == CPU_SS_INDEX) ? SS_EXCEPTION : GP_EXCEPTION); |
| |
} else { |
| |
switch (sd->type) { |
| |
case 4: case 5: case 6: case 7: |
| |
if (offset - (8 - 1) <= sd->u.seg.limit) |
| |
goto range_failure; |
| |
break; |
| |
|
| |
default: |
| |
if (offset > sd->u.seg.limit - (8 - 1)) |
| |
goto range_failure; |
| |
break; |
| |
} |
| |
} |
| |
addr = sd->u.seg.segbase + offset; |
| |
check_memory_break_point(addr, 8, CPU_DR7_RW_RO); |
| |
if (!CPU_STAT_PAGING) |
| |
return cpu_memoryread_q(addr); |
| |
return cpu_linear_memory_read_q(addr, CPU_PAGE_READ_DATA | CPU_STAT_USER_MODE); |
| |
|
| |
range_failure: |
| |
if (idx == CPU_SS_INDEX) { |
| |
exc = SS_EXCEPTION; |
| |
} else { |
| |
exc = GP_EXCEPTION; |
| } |
} |
| /*NOTREACHED*/ |
VERBOSE(("cpu_vmemoryread_q: type = %d, offset = %08x, limit = %08x", sd->type, offset, sd->u.seg.limit)); |
| |
err: |
| |
EXCEPTION(exc, 0); |
| |
return 0; /* compiler happy */ |
| } |
} |
| |
|
| /* vaddr memory write */ |
|
| void MEMCALL |
void MEMCALL |
| cpu_vmemorywrite(int idx, DWORD madr, BYTE val) |
cpu_vmemorywrite_q(int idx, UINT32 offset, UINT64 value) |
| { |
{ |
| descriptor_t *sd; |
descriptor_t *sd; |
| DWORD addr; |
UINT32 addr; |
| |
int exc; |
| |
|
| __ASSERT((unsigned int)idx < CPU_SEGREG_NUM); |
__ASSERT((unsigned int)idx < CPU_SEGREG_NUM); |
| |
|
| sd = &CPU_STAT_SREG(idx); |
sd = &CPU_STAT_SREG(idx); |
| if (!sd->valid) { |
if (!sd->valid) { |
| EXCEPTION(GP_EXCEPTION, 0); |
exc = GP_EXCEPTION; |
| |
goto err; |
| } |
} |
| |
|
| if (!CPU_INST_AS32) |
if (!(sd->flag & CPU_DESC_FLAG_WRITABLE)) { |
| madr &= 0xffff; |
cpu_memorywrite_check(sd, offset, 8, |
| for (;;) { |
|
| if ((sd->flag & CPU_DESC_WRITABLE) |
|
| || (madr <= sd->u.seg.segend)) { |
|
| addr = CPU_STAT_SREGBASE(idx) + madr; |
|
| if (!CPU_STAT_PM) { |
|
| /* real mode */ |
|
| cpu_memorywrite(addr, val); |
|
| } else { |
|
| /* protected mode */ |
|
| cpu_lmemorywrite(addr, val); |
|
| } |
|
| return; |
|
| } |
|
| cpu_memorywrite_check(sd, madr, 1, |
|
| (idx == CPU_SS_INDEX) ? SS_EXCEPTION : GP_EXCEPTION); |
(idx == CPU_SS_INDEX) ? SS_EXCEPTION : GP_EXCEPTION); |
| |
} else { |
| |
switch (sd->type) { |
| |
case 6: case 7: |
| |
if (offset - (8 - 1) <= sd->u.seg.limit) |
| |
goto range_failure; |
| |
break; |
| |
|
| |
default: |
| |
if (offset > sd->u.seg.limit - (8 - 1)) |
| |
goto range_failure; |
| |
break; |
| |
} |
| |
} |
| |
addr = sd->u.seg.segbase + offset; |
| |
check_memory_break_point(addr, 8, CPU_DR7_RW_RW); |
| |
if (!CPU_STAT_PAGING) { |
| |
cpu_memorywrite_q(addr, value); |
| |
} else { |
| |
cpu_linear_memory_write_q(addr, value, CPU_PAGE_WRITE_DATA | CPU_STAT_USER_MODE); |
| |
} |
| |
return; |
| |
|
| |
range_failure: |
| |
if (idx == CPU_SS_INDEX) { |
| |
exc = SS_EXCEPTION; |
| |
} else { |
| |
exc = GP_EXCEPTION; |
| } |
} |
| /*NOTREACHED*/ |
VERBOSE(("cpu_vmemorywrite_q: type = %d, offset = %08x, limit = %08x", sd->type, offset, sd->u.seg.limit)); |
| |
err: |
| |
EXCEPTION(exc, 0); |
| } |
} |
| |
|
| void MEMCALL |
REG80 MEMCALL |
| cpu_vmemorywrite_w(int idx, DWORD madr, WORD val) |
cpu_vmemoryread_f(int idx, UINT32 offset) |
| { |
{ |
| descriptor_t *sd; |
descriptor_t *sd; |
| DWORD addr; |
UINT32 addr; |
| |
int exc; |
| |
|
| __ASSERT((unsigned int)idx < CPU_SEGREG_NUM); |
__ASSERT((unsigned int)idx < CPU_SEGREG_NUM); |
| |
|
| sd = &CPU_STAT_SREG(idx); |
sd = &CPU_STAT_SREG(idx); |
| if (!sd->valid) { |
if (!sd->valid) { |
| EXCEPTION(GP_EXCEPTION, 0); |
exc = GP_EXCEPTION; |
| |
goto err; |
| } |
} |
| |
|
| if (!CPU_INST_AS32) |
if (!(sd->flag & CPU_DESC_FLAG_READABLE)) { |
| madr &= 0xffff; |
cpu_memoryread_check(sd, offset, 10, |
| for (;;) { |
|
| if ((sd->flag & CPU_DESC_WRITABLE) |
|
| || (madr <= sd->u.seg.segend - 1)) { |
|
| addr = CPU_STAT_SREGBASE(idx) + madr; |
|
| if (!CPU_STAT_PM) { |
|
| /* real mode */ |
|
| cpu_memorywrite_w(addr, val); |
|
| } else { |
|
| /* protected mode */ |
|
| cpu_lmemorywrite_w(addr, val); |
|
| } |
|
| return; |
|
| } |
|
| cpu_memorywrite_check(sd, madr, 2, |
|
| (idx == CPU_SS_INDEX) ? SS_EXCEPTION : GP_EXCEPTION); |
(idx == CPU_SS_INDEX) ? SS_EXCEPTION : GP_EXCEPTION); |
| |
} else { |
| |
switch (sd->type) { |
| |
case 4: case 5: case 6: case 7: |
| |
if (offset - (10 - 1) <= sd->u.seg.limit) |
| |
goto range_failure; |
| |
break; |
| |
|
| |
default: |
| |
if (offset > sd->u.seg.limit - (10 - 1)) |
| |
goto range_failure; |
| |
break; |
| |
} |
| |
} |
| |
addr = sd->u.seg.segbase + offset; |
| |
check_memory_break_point(addr, 10, CPU_DR7_RW_RO); |
| |
if (!CPU_STAT_PAGING) |
| |
return cpu_memoryread_f(addr); |
| |
return cpu_linear_memory_read_f(addr, CPU_PAGE_READ_DATA | CPU_STAT_USER_MODE); |
| |
|
| |
range_failure: |
| |
if (idx == CPU_SS_INDEX) { |
| |
exc = SS_EXCEPTION; |
| |
} else { |
| |
exc = GP_EXCEPTION; |
| |
} |
| |
VERBOSE(("cpu_vmemoryread_f: type = %d, offset = %08x, limit = %08x", sd->type, offset, sd->u.seg.limit)); |
| |
err: |
| |
EXCEPTION(exc, 0); |
| |
{ |
| |
REG80 dummy; |
| |
memset(&dummy, 0, sizeof(dummy)); |
| |
return dummy; /* compiler happy */ |
| } |
} |
| /*NOTREACHED*/ |
|
| } |
} |
| |
|
| void MEMCALL |
void MEMCALL |
| cpu_vmemorywrite_d(int idx, DWORD madr, DWORD val) |
cpu_vmemorywrite_f(int idx, UINT32 offset, const REG80 *value) |
| { |
{ |
| descriptor_t *sd; |
descriptor_t *sd; |
| DWORD addr; |
UINT32 addr; |
| |
int exc; |
| |
|
| __ASSERT((unsigned int)idx < CPU_SEGREG_NUM); |
__ASSERT((unsigned int)idx < CPU_SEGREG_NUM); |
| |
|
| sd = &CPU_STAT_SREG(idx); |
sd = &CPU_STAT_SREG(idx); |
| if (!sd->valid) { |
if (!sd->valid) { |
| EXCEPTION(GP_EXCEPTION, 0); |
exc = GP_EXCEPTION; |
| |
goto err; |
| } |
} |
| |
|
| if (!CPU_INST_AS32) |
if (!(sd->flag & CPU_DESC_FLAG_WRITABLE)) { |
| madr &= 0xffff; |
cpu_memorywrite_check(sd, offset, 10, |
| for (;;) { |
|
| if ((sd->flag & CPU_DESC_WRITABLE) |
|
| || (madr <= sd->u.seg.segend - 3)) { |
|
| addr = CPU_STAT_SREGBASE(idx) + madr; |
|
| if (!CPU_STAT_PM) { |
|
| /* real mode */ |
|
| cpu_memorywrite_d(addr, val); |
|
| } else { |
|
| /* protected mode */ |
|
| cpu_lmemorywrite_d(addr, val); |
|
| } |
|
| return; |
|
| } |
|
| cpu_memorywrite_check(sd, madr, 4, |
|
| (idx == CPU_SS_INDEX) ? SS_EXCEPTION : GP_EXCEPTION); |
(idx == CPU_SS_INDEX) ? SS_EXCEPTION : GP_EXCEPTION); |
| } |
|
| /*NOTREACHED*/ |
|
| } |
|
| |
|
| /* |
|
| * physical address memory function |
|
| */ |
|
| void MEMCALL |
|
| cpu_memorywrite_d(DWORD address, DWORD value) |
|
| { |
|
| DWORD adr = address & cpumem_addrmask; |
|
| |
|
| if (adr < LOWMEM - 3) { |
|
| __i286_memorywrite_d(adr, value); |
|
| } else if (adr < LOWMEM) { |
|
| cpu_memorywrite_w(adr, value & 0xffff); |
|
| cpu_memorywrite_w(adr + 2, (value >> 16) & 0xffff); |
|
| } else { |
|
| adr -= LOWMEM; |
|
| if (adr < extmem_size - 3) { |
|
| STOREINTELDWORD(cpumem + adr, value); |
|
| } else { |
|
| ia32_panic("cpu_memorywrite_d: out of universe."); |
|
| } |
|
| } |
|
| } |
|
| |
|
| void MEMCALL |
|
| cpu_memorywrite_w(DWORD address, WORD value) |
|
| { |
|
| DWORD adr = address & cpumem_addrmask; |
|
| |
|
| if (adr < LOWMEM - 1) { |
|
| __i286_memorywrite_w(adr, value); |
|
| } else if (adr < LOWMEM) { |
|
| __i286_memorywrite(adr, value & 0xff); |
|
| cpumem[adr - (LOWMEM - 1)] = (value >> 8) & 0xff; |
|
| } else { |
|
| adr -= LOWMEM; |
|
| if (adr < extmem_size - 1) { |
|
| STOREINTELWORD(cpumem + adr, value); |
|
| } else { |
|
| ia32_panic("cpu_memorywrite_w: out of universe."); |
|
| } |
|
| } |
|
| } |
|
| |
|
| void MEMCALL |
|
| cpu_memorywrite(DWORD address, BYTE value) |
|
| { |
|
| DWORD adr = address & cpumem_addrmask; |
|
| |
|
| if (adr < LOWMEM) { |
|
| __i286_memorywrite(adr, value); |
|
| } else { |
} else { |
| adr -= LOWMEM; |
switch (sd->type) { |
| if (adr < extmem_size) { |
case 6: case 7: |
| cpumem[adr] = value; |
if (offset - (10 - 1) <= sd->u.seg.limit) |
| } else { |
goto range_failure; |
| ia32_panic("cpu_memorywrite: out of universe."); |
break; |
| } |
|
| } |
|
| } |
|
| |
|
| DWORD MEMCALL |
|
| cpu_memoryread_d(DWORD address) |
|
| { |
|
| DWORD adr = address & cpumem_addrmask; |
|
| DWORD val; |
|
| |
|
| if (adr < LOWMEM - 3) { |
default: |
| val = __i286_memoryread_d(adr); |
if (offset > sd->u.seg.limit - (10 - 1)) |
| } else if (adr < LOWMEM) { |
goto range_failure; |
| val = cpu_memoryread_w(adr); |
break; |
| val |= (DWORD)cpu_memoryread_w(adr + 2) << 16; |
|
| } else { |
|
| adr -= LOWMEM; |
|
| if (adr < extmem_size - 3) { |
|
| val = LOADINTELDWORD(cpumem + adr); |
|
| } else { |
|
| ia32_panic("cpu_memoryread_d: out of universe."); |
|
| val = (DWORD)-1; |
|
| } |
} |
| } |
} |
| return val; |
addr = sd->u.seg.segbase + offset; |
| } |
check_memory_break_point(addr, 10, CPU_DR7_RW_RW); |
| |
if (!CPU_STAT_PAGING) { |
| WORD MEMCALL |
cpu_memorywrite_f(addr, value); |
| cpu_memoryread_w(DWORD address) |
|
| { |
|
| DWORD adr = address & cpumem_addrmask; |
|
| WORD val; |
|
| |
|
| if (adr < LOWMEM - 1) { |
|
| val = __i286_memoryread_w(adr); |
|
| } else if (adr < LOWMEM) { |
|
| val = cpu_memoryread(adr); |
|
| val |= (WORD)cpumem[adr - (LOWMEM - 1)] << 8; |
|
| } else { |
} else { |
| adr -= LOWMEM; |
cpu_linear_memory_write_f(addr, value, CPU_PAGE_WRITE_DATA | CPU_STAT_USER_MODE); |
| if (adr < extmem_size - 1) { |
|
| val = LOADINTELWORD(cpumem + adr); |
|
| } else { |
|
| ia32_panic("cpu_memoryread_w: out of universe."); |
|
| val = (WORD)-1; |
|
| } |
|
| } |
} |
| return val; |
return; |
| } |
|
| |
|
| BYTE MEMCALL |
|
| cpu_memoryread(DWORD address) |
|
| { |
|
| DWORD adr = address & cpumem_addrmask; |
|
| BYTE val; |
|
| |
|
| if (adr < LOWMEM) { |
range_failure: |
| val = __i286_memoryread(adr); |
if (idx == CPU_SS_INDEX) { |
| |
exc = SS_EXCEPTION; |
| } else { |
} else { |
| adr -= LOWMEM; |
exc = GP_EXCEPTION; |
| if (adr < extmem_size) { |
|
| val = cpumem[adr]; |
|
| } else { |
|
| ia32_panic("cpu_memoryread: out of universe."); |
|
| val = (BYTE)-1; |
|
| } |
|
| } |
} |
| return val; |
VERBOSE(("cpu_vmemorywrite_f: type = %d, offset = %08x, limit = %08x", sd->type, offset, sd->u.seg.limit)); |
| |
err: |
| |
EXCEPTION(exc, 0); |
| } |
} |
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