/* Copyright holders: Sarah Walker see COPYING for more details */ static int opMOVSB_a16(uint32_t fetchdat) { uint8_t temp = readmemb(ea_seg->base, SI); if (abrt) return 1; writememb(es, DI, temp); if (abrt) return 1; if (flags & D_FLAG) { DI--; SI--; } else { DI++; SI++; } CLOCK_CYCLES(7); return 0; } static int opMOVSB_a32(uint32_t fetchdat) { uint8_t temp = readmemb(ea_seg->base, ESI); if (abrt) return 1; writememb(es, EDI, temp); if (abrt) return 1; if (flags & D_FLAG) { EDI--; ESI--; } else { EDI++; ESI++; } CLOCK_CYCLES(7); return 0; } static int opMOVSW_a16(uint32_t fetchdat) { uint16_t temp = readmemw(ea_seg->base, SI); if (abrt) return 1; writememw(es, DI, temp); if (abrt) return 1; if (flags & D_FLAG) { DI -= 2; SI -= 2; } else { DI += 2; SI += 2; } CLOCK_CYCLES(7); return 0; } static int opMOVSW_a32(uint32_t fetchdat) { uint16_t temp = readmemw(ea_seg->base, ESI); if (abrt) return 1; writememw(es, EDI, temp); if (abrt) return 1; if (flags & D_FLAG) { EDI -= 2; ESI -= 2; } else { EDI += 2; ESI += 2; } CLOCK_CYCLES(7); return 0; } static int opMOVSL_a16(uint32_t fetchdat) { uint32_t temp = readmeml(ea_seg->base, SI); if (abrt) return 1; writememl(es, DI, temp); if (abrt) return 1; if (flags & D_FLAG) { DI -= 4; SI -= 4; } else { DI += 4; SI += 4; } CLOCK_CYCLES(7); return 0; } static int opMOVSL_a32(uint32_t fetchdat) { uint32_t temp = readmeml(ea_seg->base, ESI); if (abrt) return 1; writememl(es, EDI, temp); if (abrt) return 1; if (flags & D_FLAG) { EDI -= 4; ESI -= 4; } else { EDI += 4; ESI += 4; } CLOCK_CYCLES(7); return 0; } static int opCMPSB_a16(uint32_t fetchdat) { uint8_t src = readmemb(ea_seg->base, SI); uint8_t dst = readmemb(es, DI); if (abrt) return 1; setsub8(src, dst); if (flags & D_FLAG) { DI--; SI--; } else { DI++; SI++; } CLOCK_CYCLES((is486) ? 8 : 10); return 0; } static int opCMPSB_a32(uint32_t fetchdat) { uint8_t src = readmemb(ea_seg->base, ESI); uint8_t dst = readmemb(es, EDI); if (abrt) return 1; setsub8(src, dst); if (flags & D_FLAG) { EDI--; ESI--; } else { EDI++; ESI++; } CLOCK_CYCLES((is486) ? 8 : 10); return 0; } static int opCMPSW_a16(uint32_t fetchdat) { uint16_t src = readmemw(ea_seg->base, SI); uint16_t dst = readmemw(es, DI); if (abrt) return 1; setsub16(src, dst); if (flags & D_FLAG) { DI -= 2; SI -= 2; } else { DI += 2; SI += 2; } CLOCK_CYCLES((is486) ? 8 : 10); return 0; } static int opCMPSW_a32(uint32_t fetchdat) { uint16_t src = readmemw(ea_seg->base, ESI); uint16_t dst = readmemw(es, EDI); if (abrt) return 1; setsub16(src, dst); if (flags & D_FLAG) { EDI -= 2; ESI -= 2; } else { EDI += 2; ESI += 2; } CLOCK_CYCLES((is486) ? 8 : 10); return 0; } static int opCMPSL_a16(uint32_t fetchdat) { uint32_t src = readmeml(ea_seg->base, SI); uint32_t dst = readmeml(es, DI); if (abrt) return 1; setsub32(src, dst); if (flags & D_FLAG) { DI -= 4; SI -= 4; } else { DI += 4; SI += 4; } CLOCK_CYCLES((is486) ? 8 : 10); return 0; } static int opCMPSL_a32(uint32_t fetchdat) { uint32_t src = readmeml(ea_seg->base, ESI); uint32_t dst = readmeml(es, EDI); if (abrt) return 1; setsub32(src, dst); if (flags & D_FLAG) { EDI -= 4; ESI -= 4; } else { EDI += 4; ESI += 4; } CLOCK_CYCLES((is486) ? 8 : 10); return 0; } static int opSTOSB_a16(uint32_t fetchdat) { writememb(es, DI, AL); if (abrt) return 1; if (flags & D_FLAG) DI--; else DI++; CLOCK_CYCLES(4); return 0; } static int opSTOSB_a32(uint32_t fetchdat) { writememb(es, EDI, AL); if (abrt) return 1; if (flags & D_FLAG) EDI--; else EDI++; CLOCK_CYCLES(4); return 0; } static int opSTOSW_a16(uint32_t fetchdat) { writememw(es, DI, AX); if (abrt) return 1; if (flags & D_FLAG) DI -= 2; else DI += 2; CLOCK_CYCLES(4); return 0; } static int opSTOSW_a32(uint32_t fetchdat) { writememw(es, EDI, AX); if (abrt) return 1; if (flags & D_FLAG) EDI -= 2; else EDI += 2; CLOCK_CYCLES(4); return 0; } static int opSTOSL_a16(uint32_t fetchdat) { writememl(es, DI, EAX); if (abrt) return 1; if (flags & D_FLAG) DI -= 4; else DI += 4; CLOCK_CYCLES(4); return 0; } static int opSTOSL_a32(uint32_t fetchdat) { writememl(es, EDI, EAX); if (abrt) return 1; if (flags & D_FLAG) EDI -= 4; else EDI += 4; CLOCK_CYCLES(4); return 0; } static int opLODSB_a16(uint32_t fetchdat) { uint8_t temp = readmemb(ea_seg->base, SI); if (abrt) return 1; AL = temp; if (flags & D_FLAG) SI--; else SI++; CLOCK_CYCLES(5); return 0; } static int opLODSB_a32(uint32_t fetchdat) { uint8_t temp = readmemb(ea_seg->base, ESI); if (abrt) return 1; AL = temp; if (flags & D_FLAG) ESI--; else ESI++; CLOCK_CYCLES(5); return 0; } static int opLODSW_a16(uint32_t fetchdat) { uint16_t temp = readmemw(ea_seg->base, SI); if (abrt) return 1; AX = temp; if (flags & D_FLAG) SI -= 2; else SI += 2; CLOCK_CYCLES(5); return 0; } static int opLODSW_a32(uint32_t fetchdat) { uint16_t temp = readmemw(ea_seg->base, ESI); if (abrt) return 1; AX = temp; if (flags & D_FLAG) ESI -= 2; else ESI += 2; CLOCK_CYCLES(5); return 0; } static int opLODSL_a16(uint32_t fetchdat) { uint32_t temp = readmeml(ea_seg->base, SI); if (abrt) return 1; EAX = temp; if (flags & D_FLAG) SI -= 4; else SI += 4; CLOCK_CYCLES(5); return 0; } static int opLODSL_a32(uint32_t fetchdat) { uint32_t temp = readmeml(ea_seg->base, ESI); if (abrt) return 1; EAX = temp; if (flags & D_FLAG) ESI -= 4; else ESI += 4; CLOCK_CYCLES(5); return 0; } static int opSCASB_a16(uint32_t fetchdat) { uint8_t temp = readmemb(es, DI); if (abrt) return 1; setsub8(AL, temp); if (flags & D_FLAG) DI--; else DI++; CLOCK_CYCLES(7); return 0; } static int opSCASB_a32(uint32_t fetchdat) { uint8_t temp = readmemb(es, EDI); if (abrt) return 1; setsub8(AL, temp); if (flags & D_FLAG) EDI--; else EDI++; CLOCK_CYCLES(7); return 0; } static int opSCASW_a16(uint32_t fetchdat) { uint16_t temp = readmemw(es, DI); if (abrt) return 1; setsub16(AX, temp); if (flags & D_FLAG) DI -= 2; else DI += 2; CLOCK_CYCLES(7); return 0; } static int opSCASW_a32(uint32_t fetchdat) { uint16_t temp = readmemw(es, EDI); if (abrt) return 1; setsub16(AX, temp); if (flags & D_FLAG) EDI -= 2; else EDI += 2; CLOCK_CYCLES(7); return 0; } static int opSCASL_a16(uint32_t fetchdat) { uint32_t temp = readmeml(es, DI); if (abrt) return 1; setsub32(EAX, temp); if (flags & D_FLAG) DI -= 4; else DI += 4; CLOCK_CYCLES(7); return 0; } static int opSCASL_a32(uint32_t fetchdat) { uint32_t temp = readmeml(es, EDI); if (abrt) return 1; setsub32(EAX, temp); if (flags & D_FLAG) EDI -= 4; else EDI += 4; CLOCK_CYCLES(7); return 0; } static int opINSB_a16(uint32_t fetchdat) { uint8_t temp; check_io_perm(DX); temp = inb(DX); writememb(es, DI, temp); if (abrt) return 1; if (flags & D_FLAG) DI--; else DI++; CLOCK_CYCLES(15); return 0; } static int opINSB_a32(uint32_t fetchdat) { uint8_t temp; check_io_perm(DX); temp = inb(DX); writememb(es, EDI, temp); if (abrt) return 1; if (flags & D_FLAG) EDI--; else EDI++; CLOCK_CYCLES(15); return 0; } static int opINSW_a16(uint32_t fetchdat) { uint16_t temp; check_io_perm(DX); check_io_perm(DX + 1); temp = inw(DX); writememw(es, DI, temp); if (abrt) return 1; if (flags & D_FLAG) DI -= 2; else DI += 2; CLOCK_CYCLES(15); return 0; } static int opINSW_a32(uint32_t fetchdat) { uint16_t temp; check_io_perm(DX); check_io_perm(DX + 1); temp = inw(DX); writememw(es, EDI, temp); if (abrt) return 1; if (flags & D_FLAG) EDI -= 2; else EDI += 2; CLOCK_CYCLES(15); return 0; } static int opINSL_a16(uint32_t fetchdat) { uint32_t temp; check_io_perm(DX); check_io_perm(DX + 1); check_io_perm(DX + 2); check_io_perm(DX + 3); temp = inl(DX); writememl(es, DI, temp); if (abrt) return 1; if (flags & D_FLAG) DI -= 4; else DI += 4; CLOCK_CYCLES(15); return 0; } static int opINSL_a32(uint32_t fetchdat) { uint32_t temp; check_io_perm(DX); check_io_perm(DX + 1); check_io_perm(DX + 2); check_io_perm(DX + 3); temp = inl(DX); writememl(es, EDI, temp); if (abrt) return 1; if (flags & D_FLAG) EDI -= 4; else EDI += 4; CLOCK_CYCLES(15); return 0; } static int opOUTSB_a16(uint32_t fetchdat) { uint8_t temp = readmemb(ea_seg->base, SI); if (abrt) return 1; check_io_perm(DX); if (flags & D_FLAG) SI--; else SI++; outb(DX, temp); CLOCK_CYCLES(14); return 0; } static int opOUTSB_a32(uint32_t fetchdat) { uint8_t temp = readmemb(ea_seg->base, ESI); if (abrt) return 1; check_io_perm(DX); if (flags & D_FLAG) ESI--; else ESI++; outb(DX, temp); CLOCK_CYCLES(14); return 0; } static int opOUTSW_a16(uint32_t fetchdat) { uint16_t temp = readmemw(ea_seg->base, SI); if (abrt) return 1; check_io_perm(DX); check_io_perm(DX + 1); if (flags & D_FLAG) SI -= 2; else SI += 2; outw(DX, temp); CLOCK_CYCLES(14); return 0; } static int opOUTSW_a32(uint32_t fetchdat) { uint16_t temp = readmemw(ea_seg->base, ESI); if (abrt) return 1; check_io_perm(DX); check_io_perm(DX + 1); if (flags & D_FLAG) ESI -= 2; else ESI += 2; outw(DX, temp); CLOCK_CYCLES(14); return 0; } static int opOUTSL_a16(uint32_t fetchdat) { uint32_t temp = readmeml(ea_seg->base, SI); if (abrt) return 1; check_io_perm(DX); check_io_perm(DX + 1); check_io_perm(DX + 2); check_io_perm(DX + 3); if (flags & D_FLAG) SI -= 4; else SI += 4; outl(EDX, temp); CLOCK_CYCLES(14); return 0; } static int opOUTSL_a32(uint32_t fetchdat) { uint32_t temp = readmeml(ea_seg->base, ESI); if (abrt) return 1; check_io_perm(DX); check_io_perm(DX + 1); check_io_perm(DX + 2); check_io_perm(DX + 3); if (flags & D_FLAG) ESI -= 4; else ESI += 4; outl(EDX, temp); CLOCK_CYCLES(14); return 0; }