/* * Emulation of priviledged instructions * * Copyright 1995 Alexandre Julliard */ #include "windows.h" #include "ldt.h" #include "global.h" #include "module.h" #include "miscemu.h" #include "sig_context.h" #include "debug.h" #define STACK_sig(context) \ (IS_SELECTOR_32BIT(SS_sig(context)) ? ESP_sig(context) : SP_sig(context)) #define MAKE_PTR(seg,off) \ (IS_SELECTOR_SYSTEM(seg) ? (void *)(off) : PTR_SEG_OFF_TO_LIN(seg,off)) #define STACK_PTR(context) \ (IS_SELECTOR_SYSTEM(SS_sig(context)) ? (void *)ESP_sig(context) : \ (PTR_SEG_OFF_TO_LIN(SS_sig(context),STACK_sig(context)))) /*********************************************************************** * INSTR_ReplaceSelector * * Try to replace an invalid selector by a valid one. * The only selector where it is allowed to do "mov ax,40;mov es,ax" * is the so called 'bimodal' selector 0x40, which points to the BIOS * data segment. Used by (at least) Borland products (and programs compiled * using Borland products). * * See Undocumented Windows, Chapter 5, __0040. */ static WORD INSTR_ReplaceSelector( SIGCONTEXT *context, WORD sel) { if (sel == 0x40) { static WORD sys_timer = 0; if (!sys_timer) sys_timer = CreateSystemTimer( 55, (FARPROC16)DOSMEM_Tick ); return DOSMEM_BiosSeg; } return 0; /* Can't replace selector, crashdump */ } /*********************************************************************** * INSTR_GetOperandAddr * * Return the address of an instruction operand (from the mod/rm byte). */ static BYTE *INSTR_GetOperandAddr( SIGCONTEXT *context, BYTE *instr, int long_addr, int segprefix, int *len ) { int mod, rm, base, index = 0, ss = 0, seg = 0, off; #define GET_VAL(val,type) \ { *val = *(type *)instr; instr += sizeof(type); *len += sizeof(type); } *len = 0; GET_VAL( &mod, BYTE ); rm = mod & 7; mod >>= 6; if (mod == 3) { switch(rm) { case 0: return (BYTE *)&EAX_sig(context); case 1: return (BYTE *)&ECX_sig(context); case 2: return (BYTE *)&EDX_sig(context); case 3: return (BYTE *)&EBX_sig(context); case 4: return (BYTE *)&ESP_sig(context); case 5: return (BYTE *)&EBP_sig(context); case 6: return (BYTE *)&ESI_sig(context); case 7: return (BYTE *)&EDI_sig(context); } } if (long_addr) { if (rm == 4) { BYTE sib; GET_VAL( &sib, BYTE ); rm = sib & 7; ss = sib >> 6; switch(sib >> 3) { case 0: index = EAX_sig(context); break; case 1: index = ECX_sig(context); break; case 2: index = EDX_sig(context); break; case 3: index = EBX_sig(context); break; case 4: index = 0; break; case 5: index = EBP_sig(context); break; case 6: index = ESI_sig(context); break; case 7: index = EDI_sig(context); break; } } switch(rm) { case 0: base = EAX_sig(context); seg = DS_sig(context); break; case 1: base = ECX_sig(context); seg = DS_sig(context); break; case 2: base = EDX_sig(context); seg = DS_sig(context); break; case 3: base = EBX_sig(context); seg = DS_sig(context); break; case 4: base = ESP_sig(context); seg = SS_sig(context); break; case 5: base = EBP_sig(context); seg = SS_sig(context); break; case 6: base = ESI_sig(context); seg = DS_sig(context); break; case 7: base = EDI_sig(context); seg = DS_sig(context); break; } switch (mod) { case 0: if (rm == 5) /* special case: ds:(disp32) */ { GET_VAL( &base, DWORD ); seg = DS_sig(context); } break; case 1: /* 8-bit disp */ GET_VAL( &off, BYTE ); base += (signed char)off; break; case 2: /* 32-bit disp */ GET_VAL( &off, DWORD ); base += (signed long)off; break; } } else /* short address */ { switch(rm) { case 0: /* ds:(bx,si) */ base = BX_sig(context) + SI_sig(context); seg = DS_sig(context); break; case 1: /* ds:(bx,di) */ base = BX_sig(context) + DI_sig(context); seg = DS_sig(context); break; case 2: /* ss:(bp,si) */ base = BP_sig(context) + SI_sig(context); seg = SS_sig(context); break; case 3: /* ss:(bp,di) */ base = BP_sig(context) + DI_sig(context); seg = SS_sig(context); break; case 4: /* ds:(si) */ base = SI_sig(context); seg = DS_sig(context); break; case 5: /* ds:(di) */ base = DI_sig(context); seg = DS_sig(context); break; case 6: /* ss:(bp) */ base = BP_sig(context); seg = SS_sig(context); break; case 7: /* ds:(bx) */ base = BX_sig(context); seg = DS_sig(context); break; } switch(mod) { case 0: if (rm == 6) /* special case: ds:(disp16) */ { GET_VAL( &base, WORD ); seg = DS_sig(context); } break; case 1: /* 8-bit disp */ GET_VAL( &off, BYTE ); base += (signed char)off; break; case 2: /* 16-bit disp */ GET_VAL( &off, WORD ); base += (signed short)off; break; } base &= 0xffff; } if (segprefix != -1) seg = segprefix; /* Make sure the segment and offset are valid */ if (IS_SELECTOR_SYSTEM(seg)) return (BYTE *)(base + (index << ss)); if (((seg & 7) != 7) || IS_SELECTOR_FREE(seg)) return NULL; if (GET_SEL_LIMIT(seg) < (base + (index << ss))) return NULL; return (BYTE *)PTR_SEG_OFF_TO_LIN( seg, (base + (index << ss)) ); #undef GET_VAL } /*********************************************************************** * INSTR_EmulateLDS * * Emulate the LDS (and LES,LFS,etc.) instruction. */ static BOOL32 INSTR_EmulateLDS( SIGCONTEXT *context, BYTE *instr, int long_op, int long_addr, int segprefix, int *len ) { WORD seg; BYTE *regmodrm = instr + 1 + (*instr == 0x0f); BYTE *addr = INSTR_GetOperandAddr( context, regmodrm, long_addr, segprefix, len ); if (!addr) return FALSE; /* Unable to emulate it */ seg = *(WORD *)(addr + (long_op ? 4 : 2)); if (!(seg = INSTR_ReplaceSelector( context, seg ))) return FALSE; /* Unable to emulate it */ /* Now store the offset in the correct register */ switch((*regmodrm >> 3) & 7) { case 0: if (long_op) EAX_sig(context) = *(DWORD *)addr; else AX_sig(context) = *(WORD *)addr; break; case 1: if (long_op) ECX_sig(context) = *(DWORD *)addr; else CX_sig(context) = *(WORD *)addr; break; case 2: if (long_op) EDX_sig(context) = *(DWORD *)addr; else DX_sig(context) = *(WORD *)addr; break; case 3: if (long_op) EBX_sig(context) = *(DWORD *)addr; else BX_sig(context) = *(WORD *)addr; break; case 4: if (long_op) ESP_sig(context) = *(DWORD *)addr; else SP_sig(context) = *(WORD *)addr; break; case 5: if (long_op) EBP_sig(context) = *(DWORD *)addr; else BP_sig(context) = *(WORD *)addr; break; case 6: if (long_op) ESI_sig(context) = *(DWORD *)addr; else SI_sig(context) = *(WORD *)addr; break; case 7: if (long_op) EDI_sig(context) = *(DWORD *)addr; else DI_sig(context) = *(WORD *)addr; break; } /* Store the correct segment in the segment register */ switch(*instr) { case 0xc4: ES_sig(context) = seg; break; /* les */ case 0xc5: DS_sig(context) = seg; break; /* lds */ case 0x0f: switch(instr[1]) { case 0xb2: SS_sig(context) = seg; break; /* lss */ #ifdef FS_sig case 0xb4: FS_sig(context) = seg; break; /* lfs */ #endif #ifdef GS_sig case 0xb5: GS_sig(context) = seg; break; /* lgs */ #endif } break; } /* Add the opcode size to the total length */ *len += 1 + (*instr == 0x0f); return TRUE; } /*********************************************************************** * INSTR_EmulateInstruction * * Emulate a priviledged instruction. Returns TRUE if emulation successful. */ BOOL32 INSTR_EmulateInstruction( SIGCONTEXT *context ) { int prefix, segprefix, prefixlen, len, repX, long_op, long_addr; SEGPTR gpHandler; BYTE *instr; /* Check for page-fault */ #if defined(TRAP_sig) && defined(CR2_sig) if (TRAP_sig(context) == 0x0e && VIRTUAL_HandleFault( (LPVOID)CR2_sig(context) )) return TRUE; #endif long_op = long_addr = IS_SELECTOR_32BIT(CS_sig(context)); instr = (BYTE *)MAKE_PTR(CS_sig(context),EIP_sig(context)); if (!instr) return FALSE; /* First handle any possible prefix */ segprefix = -1; /* no prefix */ prefix = 1; repX = 0; prefixlen = 0; while(prefix) { switch(*instr) { case 0x2e: segprefix = CS_sig(context); break; case 0x36: segprefix = SS_sig(context); break; case 0x3e: segprefix = DS_sig(context); break; case 0x26: segprefix = ES_sig(context); break; #ifdef FS_sig case 0x64: segprefix = FS_sig(context); break; #endif #ifdef GS_sig case 0x65: segprefix = GS_sig(context); break; #endif case 0x66: long_op = !long_op; /* opcode size prefix */ break; case 0x67: long_addr = !long_addr; /* addr size prefix */ break; case 0xf0: /* lock */ break; case 0xf2: /* repne */ repX = 1; break; case 0xf3: /* repe */ repX = 2; break; default: prefix = 0; /* no more prefixes */ break; } if (prefix) { instr++; prefixlen++; } } /* Now look at the actual instruction */ switch(*instr) { case 0x07: /* pop es */ case 0x17: /* pop ss */ case 0x1f: /* pop ds */ { WORD seg = *(WORD *)STACK_PTR( context ); if ((seg = INSTR_ReplaceSelector( context, seg )) != 0) { switch(*instr) { case 0x07: ES_sig(context) = seg; break; case 0x17: SS_sig(context) = seg; break; case 0x1f: DS_sig(context) = seg; break; } STACK_sig(context) += long_op ? 4 : 2; EIP_sig(context) += prefixlen + 1; return TRUE; } } break; /* Unable to emulate it */ case 0x0f: /* extended instruction */ switch(instr[1]) { #ifdef FS_sig case 0xa1: /* pop fs */ { WORD seg = *(WORD *)STACK_PTR( context ); if ((seg = INSTR_ReplaceSelector( context, seg )) != 0) { FS_sig(context) = seg; STACK_sig(context) += long_op ? 4 : 2; EIP_sig(context) += prefixlen + 2; return TRUE; } } break; #endif /* FS_sig */ #ifdef GS_sig case 0xa9: /* pop gs */ { WORD seg = *(WORD *)STACK_PTR( context ); if ((seg = INSTR_ReplaceSelector( context, seg )) != 0) { GS_sig(context) = seg; STACK_sig(context) += long_op ? 4 : 2; EIP_sig(context) += prefixlen + 2; return TRUE; } } break; #endif /* GS_sig */ case 0xb2: /* lss addr,reg */ #ifdef FS_sig case 0xb4: /* lfs addr,reg */ #endif #ifdef GS_sig case 0xb5: /* lgs addr,reg */ #endif if (INSTR_EmulateLDS( context, instr, long_op, long_addr, segprefix, &len )) { EIP_sig(context) += prefixlen + len; return TRUE; } break; } break; /* Unable to emulate it */ case 0x6c: /* insb */ case 0x6d: /* insw/d */ case 0x6e: /* outsb */ case 0x6f: /* outsw/d */ { int typ = *instr; /* Just in case it's overwritten. */ int outp = (typ >= 0x6e); unsigned long count = repX ? (long_addr ? ECX_sig(context) : CX_sig(context)) : 1; int opsize = (typ & 1) ? (long_op ? 4 : 2) : 1; int step = (EFL_sig(context) & 0x400) ? -opsize : +opsize; int seg = outp ? DS_sig(context) : ES_sig(context); /* FIXME: is this right? */ if (outp) /* FIXME: Check segment readable. */ (void)0; else /* FIXME: Check segment writeable. */ (void)0; if (repX) if (long_addr) ECX_sig(context) = 0; else CX_sig(context) = 0; while (count-- > 0) { void *data; if (outp) { data = MAKE_PTR(seg, long_addr ? ESI_sig(context) : SI_sig(context)); if (long_addr) ESI_sig(context) += step; else SI_sig(context) += step; } else { data = MAKE_PTR(seg, long_addr ? EDI_sig(context) : DI_sig(context)); if (long_addr) EDI_sig(context) += step; else DI_sig(context) += step; } switch (typ) { case 0x6c: *((BYTE *)data) = IO_inport( DX_sig(context), 1); TRACE(io, "0x%x < %02x @ %04x:%04x\n", DX_sig(context), *((BYTE *)data), CS_sig(context), IP_sig(context)); break; case 0x6d: if (long_op) { *((DWORD *)data) = IO_inport( DX_sig(context), 4); TRACE(io, "0x%x < %08lx @ %04x:%04x\n", DX_sig(context), *((DWORD *)data), CS_sig(context), IP_sig(context)); } else { *((WORD *)data) = IO_inport( DX_sig(context), 2); TRACE(io, "0x%x < %04x @ %04x:%04x\n", DX_sig(context), *((WORD *)data), CS_sig(context), IP_sig(context)); } break; case 0x6e: IO_outport( DX_sig(context), 1, *((BYTE *)data)); TRACE(io, "0x%x > %02x @ %04x:%04x\n", DX_sig(context), *((BYTE *)data), CS_sig(context), IP_sig(context)); break; case 0x6f: if (long_op) { IO_outport( DX_sig(context), 4, *((DWORD *)data)); TRACE(io, "0x%x > %08lx @ %04x:%04x\n", DX_sig(context), *((DWORD *)data), CS_sig(context), IP_sig(context)); } else { IO_outport( DX_sig(context), 2, *((WORD *)data)); TRACE(io, "0x%x > %04x @ %04x:%04x\n", DX_sig(context), *((WORD *)data), CS_sig(context), IP_sig(context)); } break; } } EIP_sig(context) += prefixlen + 1; } return TRUE; case 0x8e: /* mov XX,segment_reg */ { WORD seg; BYTE *addr = INSTR_GetOperandAddr(context, instr + 1, long_addr, segprefix, &len ); if (!addr) break; /* Unable to emulate it */ seg = *(WORD *)addr; if (!(seg = INSTR_ReplaceSelector( context, seg ))) break; /* Unable to emulate it */ switch((instr[1] >> 3) & 7) { case 0: ES_sig(context) = seg; EIP_sig(context) += prefixlen + len + 1; return TRUE; case 1: /* cs */ break; case 2: SS_sig(context) = seg; EIP_sig(context) += prefixlen + len + 1; return TRUE; case 3: DS_sig(context) = seg; EIP_sig(context) += prefixlen + len + 1; return TRUE; case 4: #ifdef FS_sig FS_sig(context) = seg; EIP_sig(context) += prefixlen + len + 1; return TRUE; #endif case 5: #ifdef GS_sig GS_sig(context) = seg; EIP_sig(context) += prefixlen + len + 1; return TRUE; #endif case 6: /* unused */ case 7: /* unused */ break; } } break; /* Unable to emulate it */ case 0xc4: /* les addr,reg */ case 0xc5: /* lds addr,reg */ if (INSTR_EmulateLDS( context, instr, long_op, long_addr, segprefix, &len )) { EIP_sig(context) += prefixlen + len; return TRUE; } break; /* Unable to emulate it */ case 0xcd: /* int */ if (long_op) { ERR(int, "int xx from 32-bit code is not supported.\n"); break; /* Unable to emulate it */ } else { FARPROC16 addr = INT_GetPMHandler( instr[1] ); WORD *stack = (WORD *)STACK_PTR( context ); /* Push the flags and return address on the stack */ *(--stack) = FL_sig(context); *(--stack) = CS_sig(context); *(--stack) = IP_sig(context) + prefixlen + 2; STACK_sig(context) -= 3 * sizeof(WORD); /* Jump to the interrupt handler */ CS_sig(context) = HIWORD(addr); EIP_sig(context) = LOWORD(addr); } return TRUE; case 0xcf: /* iret */ if (long_op) { DWORD *stack = (DWORD *)STACK_PTR( context ); EIP_sig(context) = *stack++; CS_sig(context) = *stack++; EFL_sig(context) = *stack; STACK_sig(context) += 3*sizeof(DWORD); /* Pop the return address and flags */ } else { WORD *stack = (WORD *)STACK_PTR( context ); EIP_sig(context) = *stack++; CS_sig(context) = *stack++; FL_sig(context) = *stack; STACK_sig(context) += 3*sizeof(WORD); /* Pop the return address and flags */ } return TRUE; case 0xe4: /* inb al,XX */ AL_sig(context) = IO_inport( instr[1], 1 ); TRACE(io, "0x%x < %02x @ %04x:%04x\n", instr[1], AL_sig(context), CS_sig(context), IP_sig(context)); EIP_sig(context) += prefixlen + 2; return TRUE; case 0xe5: /* in (e)ax,XX */ if (long_op) { EAX_sig(context) = IO_inport( instr[1], 4 ); TRACE(io, "0x%x < %08lx @ %04x:%04x\n", instr[1], EAX_sig(context), CS_sig(context), IP_sig(context)); } else { AX_sig(context) = IO_inport( instr[1], 2 ); TRACE(io, "0x%x < %04x @ %04x:%04x\n", instr[1], AX_sig(context), CS_sig(context), IP_sig(context)); } EIP_sig(context) += prefixlen + 2; return TRUE; case 0xe6: /* outb XX,al */ IO_outport( instr[1], 1, AL_sig(context) ); TRACE(io, "0x%x > %02x @ %04x:%04x\n", instr[1], AL_sig(context), CS_sig(context), IP_sig(context)); EIP_sig(context) += prefixlen + 2; return TRUE; case 0xe7: /* out XX,(e)ax */ if (long_op) { IO_outport( instr[1], 4, EAX_sig(context) ); TRACE(io, "0x%x > %08lx @ %04x:%04x\n", instr[1], EAX_sig(context), CS_sig(context), IP_sig(context)); } else { IO_outport( instr[1], 2, AX_sig(context) ); TRACE(io, "0x%x > %04x @ %04x:%04x\n", instr[1], AX_sig(context), CS_sig(context), IP_sig(context)); } EIP_sig(context) += prefixlen + 2; return TRUE; case 0xec: /* inb al,dx */ AL_sig(context) = IO_inport( DX_sig(context), 1 ); TRACE(io, "0x%x < %02x @ %04x:%04x\n", DX_sig(context), AL_sig(context), CS_sig(context), IP_sig(context)); EIP_sig(context) += prefixlen + 1; return TRUE; case 0xed: /* in (e)ax,dx */ if (long_op) { EAX_sig(context) = IO_inport( DX_sig(context), 4 ); TRACE(io, "0x%x < %08lx @ %04x:%04x\n", DX_sig(context), EAX_sig(context), CS_sig(context), IP_sig(context)); } else { AX_sig(context) = IO_inport( DX_sig(context), 2 ); TRACE(io, "0x%x < %04x @ %04x:%04x\n", DX_sig(context), AX_sig(context), CS_sig(context), IP_sig(context)); } EIP_sig(context) += prefixlen + 1; return TRUE; case 0xee: /* outb dx,al */ IO_outport( DX_sig(context), 1, AL_sig(context) ); TRACE(io, "0x%x > %02x @ %04x:%04x\n", DX_sig(context), AL_sig(context), CS_sig(context), IP_sig(context)); EIP_sig(context) += prefixlen + 1; return TRUE; case 0xef: /* out dx,(e)ax */ if (long_op) { IO_outport( DX_sig(context), 4, EAX_sig(context) ); TRACE(io, "0x%x > %08lx @ %04x:%04x\n", DX_sig(context), EAX_sig(context), CS_sig(context), IP_sig(context)); } else { IO_outport( DX_sig(context), 2, AX_sig(context) ); TRACE(io, "0x%x > %04x @ %04x:%04x\n", DX_sig(context), AX_sig(context), CS_sig(context), IP_sig(context)); } EIP_sig(context) += prefixlen + 1; return TRUE; case 0xfa: /* cli, ignored */ EIP_sig(context) += prefixlen + 1; return TRUE; case 0xfb: /* sti, ignored */ EIP_sig(context) += prefixlen + 1; return TRUE; } /* Check for Win16 __GP handler */ gpHandler = HasGPHandler( PTR_SEG_OFF_TO_SEGPTR( CS_sig(context), EIP_sig(context) ) ); if (gpHandler) { WORD *stack = (WORD *)STACK_PTR( context ); *--stack = CS_sig(context); *--stack = EIP_sig(context); STACK_sig(context) -= 2*sizeof(WORD); CS_sig(context) = SELECTOROF( gpHandler ); EIP_sig(context) = OFFSETOF( gpHandler ); return TRUE; } MSG("Unexpected Windows program segfault" " - opcode = %x\n", *instr); return FALSE; /* Unable to emulate it */ }