--- np2/i386c/ia32/cpu_mem.h 2004/02/20 16:09:04 1.4 +++ np2/i386c/ia32/cpu_mem.h 2012/01/08 19:09:40 1.15 @@ -1,7 +1,5 @@ -/* $Id: cpu_mem.h,v 1.4 2004/02/20 16:09:04 monaka Exp $ */ - /* - * Copyright (c) 2002-2003 NONAKA Kimihiro + * Copyright (c) 2002-2004 NONAKA Kimihiro * All rights reserved. * * Redistribution and use in source and binary forms, with or without @@ -12,8 +10,6 @@ * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. - * 3. The name of the author may not be used to endorse or promote products - * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES @@ -40,29 +36,46 @@ extern "C" { /* * memory access check */ -void cpu_memoryread_check(descriptor_t *sd, UINT32 madr, UINT length, int e); -void cpu_memorywrite_check(descriptor_t *sd, UINT32 madr, UINT length, int e); -BOOL cpu_stack_push_check(descriptor_t *sd, UINT32 madr, UINT length); -BOOL cpu_stack_pop_check(descriptor_t *sd, UINT32 madr, UINT length); -#define CHECK_STACK_PUSH(sdp, addr, n) cpu_stack_push_check(sdp, addr, n) -#define CHECK_STACK_POP(sdp, addr, n) cpu_stack_pop_check(sdp, addr, n) +void MEMCALL cpu_stack_push_check(UINT16 s, descriptor_t *sdp, UINT32 sp, UINT len); +void MEMCALL cpu_stack_pop_check(UINT16 s, descriptor_t *sdp, UINT32 sp, UINT len); +#define SS_PUSH_CHECK(sp, len) \ + cpu_stack_push_check(CPU_SS_INDEX, &CPU_SS_DESC, (sp), (len)) +#define SS_POP_CHECK(sp, len) \ + cpu_stack_pop_check(CPU_SS_INDEX, &CPU_SS_DESC, (sp), (len)) /* * virtual address function */ -void MEMCALL cpu_vmemorywrite(int idx, UINT32 address, UINT8 value); -void MEMCALL cpu_vmemorywrite_w(int idx, UINT32 address, UINT16 value); -void MEMCALL cpu_vmemorywrite_d(int idx, UINT32 address, UINT32 value); -UINT8 MEMCALL cpu_vmemoryread(int idx, UINT32 address); -UINT16 MEMCALL cpu_vmemoryread_w(int idx, UINT32 address); -UINT32 MEMCALL cpu_vmemoryread_d(int idx, UINT32 address); +void MEMCALL cpu_vmemorywrite_b(int idx, UINT32 offset, UINT8 value); +#define cpu_vmemorywrite(i,o,v) cpu_vmemorywrite_b(i,o,v) +void MEMCALL cpu_vmemorywrite_w(int idx, UINT32 offset, UINT16 value); +void MEMCALL cpu_vmemorywrite_d(int idx, UINT32 offset, UINT32 value); +void MEMCALL cpu_vmemorywrite_q(int idx, UINT32 offset, UINT64 value); +void MEMCALL cpu_vmemorywrite_f(int idx, UINT32 offset, const REG80 *value); +UINT8 MEMCALL cpu_vmemoryread_b(int idx, UINT32 offset); +#define cpu_vmemoryread(i,o) cpu_vmemoryread_b(i,o) +UINT16 MEMCALL cpu_vmemoryread_w(int idx, UINT32 offset); +UINT32 MEMCALL cpu_vmemoryread_d(int idx, UINT32 offset); +UINT64 MEMCALL cpu_vmemoryread_q(int idx, UINT32 offset); +REG80 MEMCALL cpu_vmemoryread_f(int idx, UINT32 offset); +UINT32 MEMCALL cpu_vmemory_RMW_b(int idx, UINT32 offset, UINT32 (CPUCALL *func)(UINT32, void *), void *arg); +UINT32 MEMCALL cpu_vmemory_RMW_w(int idx, UINT32 offset, UINT32 (CPUCALL *func)(UINT32, void *), void *arg); +UINT32 MEMCALL cpu_vmemory_RMW_d(int idx, UINT32 offset, UINT32 (CPUCALL *func)(UINT32, void *), void *arg); /* * code fetch */ -UINT8 MEMCALL cpu_codefetch(UINT32 madr); -UINT16 MEMCALL cpu_codefetch_w(UINT32 madr); -UINT32 MEMCALL cpu_codefetch_d(UINT32 madr); +UINT8 MEMCALL cpu_codefetch(UINT32 offset); +UINT16 MEMCALL cpu_codefetch_w(UINT32 offset); +UINT32 MEMCALL cpu_codefetch_d(UINT32 offset); + +/* + * additional physical address function + */ +UINT64 MEMCALL cpu_memoryread_q(UINT32 paddr); +REG80 MEMCALL cpu_memoryread_f(UINT32 paddr); +void MEMCALL cpu_memorywrite_q(UINT32 paddr, UINT64 value); +void MEMCALL cpu_memorywrite_f(UINT32 paddr, const REG80 *value); #ifdef __cplusplus }