--- np2/bios/bios1b.c 2003/11/29 00:36:00 1.5 +++ np2/bios/bios1b.c 2004/01/13 05:30:58 1.10 @@ -1,6 +1,5 @@ #include "compiler.h" -#include "i286.h" -#include "memory.h" +#include "cpucore.h" #include "pccore.h" #include "iocore.h" #include "bios.h" @@ -37,10 +36,10 @@ static void init_fdd_equip(void) { static void biosfd_setchrn(void) { - fdc.C = I286_CL; - fdc.H = I286_DH; - fdc.R = I286_DL; - fdc.N = I286_CH; + fdc.C = CPU_CL; + fdc.H = CPU_DH; + fdc.R = CPU_DL; + fdc.N = CPU_CH; } #if 0 @@ -102,7 +101,7 @@ static UINT16 fdfmt_biospara(BYTE fmt, B off += fdc.us * 2; off = i286_memword_read(seg, off); off += n * 8; - if (!(I286_AH & 0x40)) { + if (!(CPU_AH & 0x40)) { off += 4; } if (fmt) { @@ -137,7 +136,7 @@ static void fdd_int(int result) { if (result == FDCBIOS_NORESULT) { // ver0.29 return; } - switch(I286_AH & 0x0f) { + switch(CPU_AH & 0x0f) { case 0x00: // シーク case 0x01: // ベリファイ case 0x02: // 診断の為の読み込み @@ -197,11 +196,11 @@ static struct { static void b0patch(void) { - if ((!b0p.flg) || (b0p.cx != I286_CX) || (b0p.dx != I286_DX)) { + if ((!b0p.flg) || (b0p.cx != CPU_CX) || (b0p.dx != CPU_DX)) { b0p.flg = TRUE; b0p.pos = 0; - b0p.cx = I286_CX; - b0p.dx = I286_DX; + b0p.cx = CPU_CX; + b0p.dx = CPU_DX; } else { if (!b0p.pos) { @@ -211,8 +210,8 @@ static void b0patch(void) { REG8 c; REG8 cl; REG8 last; - addr = ES_BASE + I286_BP; - size = I286_BX; + addr = ES_BASE + CPU_BP; + size = CPU_BX; cnt = 0; last = 0; while(size--) { @@ -239,10 +238,10 @@ static void b0patch(void) { } } } - if ((b0p.pos >> 3) < I286_BX) { + if ((b0p.pos >> 3) < CPU_BX) { UINT32 addr; REG8 c; - addr = ES_BASE + I286_BP + (b0p.pos >> 3); + addr = ES_BASE + CPU_BP + (b0p.pos >> 3); c = i286_memoryread(addr); c ^= (1 << (b0p.pos & 7)); b0p.pos++; @@ -277,13 +276,13 @@ static BYTE fdd_operate(BYTE type, BOOL // とりあえずBIOSの時は無視する fdc.mf = 0xff; // ver0.29 -// TRACE_("int 1Bh", I286_AH); +// TRACE_("int 1Bh", CPU_AH); change_rpm(rpm); // ver0.31 - if ((I286_AH & 0x0f) != 0x0a) { + if ((CPU_AH & 0x0f) != 0x0a) { fdc.crcn = 0; } - if ((I286_AH & 0x0f) != 0x03) { + if ((CPU_AH & 0x0f) != 0x03) { CTRL_FDMEDIA = type; switch(type) { case DISKTYPE_2HD: @@ -297,21 +296,21 @@ static BYTE fdd_operate(BYTE type, BOOL } break; } - if (fdc.us != (I286_AL & 0x03)) { - fdc.us = I286_AL & 0x03; + if (fdc.us != (CPU_AL & 0x03)) { + fdc.us = CPU_AL & 0x03; fdc.crcn = 0; } - hd = ((I286_DH) ^ (I286_AL >> 2)) & 1; + hd = ((CPU_DH) ^ (CPU_AL >> 2)) & 1; if (fdc.hd != hd) { fdc.hd = hd; fdc.crcn = 0; } if (!fdd_diskready(fdc.us)) { fdd_int(FDCBIOS_NONREADY); - if (I286_AH == 0x84) { // ver0.28 + if (CPU_AH == 0x84) { // ver0.28 return(0x68); // 新センスは 両用ドライブ情報も } - if (I286_AH == 0xc4) { // ver0.31 + if (CPU_AH == 0xc4) { // ver0.31 if (np2cfg.usefd144) { return(0x6c); } @@ -328,10 +327,10 @@ static BYTE fdd_operate(BYTE type, BOOL } } - switch(I286_AH & 0x0f) { + switch(CPU_AH & 0x0f) { case 0x00: // シーク - if (I286_AH & 0x10) { - if (!biosfd_seek(I286_CL, ndensity)) { + if (CPU_AH & 0x10) { + if (!biosfd_seek(CPU_CL, ndensity)) { result = FDCBIOS_SEEKSUCCESS; } else { @@ -342,8 +341,8 @@ static BYTE fdd_operate(BYTE type, BOOL break; case 0x01: // ベリファイ - if (I286_AH & 0x10) { - if (!biosfd_seek(I286_CL, ndensity)) { + if (CPU_AH & 0x10) { + if (!biosfd_seek(CPU_CL, ndensity)) { result = FDCBIOS_SEEKSUCCESS; } else { @@ -364,7 +363,7 @@ static BYTE fdd_operate(BYTE type, BOOL else { secsize = 128 << 8; } - size = I286_BX; + size = CPU_BX; while(size) { if (size > secsize) { accesssize = secsize; @@ -377,7 +376,7 @@ static BYTE fdd_operate(BYTE type, BOOL } size -= accesssize; mtr_r += accesssize; // ver0.26 - if ((fdc.R++ == (BYTE)para) && (I286_AH & 0x80) && (!fdc.hd)) { + if ((fdc.R++ == (BYTE)para) && (CPU_AH & 0x80) && (!fdc.hd)) { fdc.hd = 1; fdc.H = 1; fdc.R = 1; @@ -409,7 +408,7 @@ static BYTE fdd_operate(BYTE type, BOOL else if (fdd_diskprotect(fdc.us)) { ret_ah = 0x10; } - if (I286_AL & 0x80) { // 2HD + if (CPU_AL & 0x80) { // 2HD ret_ah |= 0x01; } else { // 2DD @@ -420,9 +419,9 @@ static BYTE fdd_operate(BYTE type, BOOL ret_ah |= 0x04; } } - if (I286_AH & 0x80) { // ver0.30 + if (CPU_AH & 0x80) { // ver0.30 ret_ah |= 8; // 1MB/640KB両用ドライブ - if ((I286_AH & 0x40) && + if ((CPU_AH & 0x40) && (np2cfg.usefd144)) { // ver0.31 ret_ah |= 4; // 1.44対応ドライブ } @@ -430,8 +429,8 @@ static BYTE fdd_operate(BYTE type, BOOL break; case 0x05: // データの書き込み - if (I286_AH & 0x10) { - if (!biosfd_seek(I286_CL, ndensity)) { + if (CPU_AH & 0x10) { + if (!biosfd_seek(CPU_CL, ndensity)) { result = FDCBIOS_SEEKSUCCESS; } else { @@ -457,8 +456,8 @@ static BYTE fdd_operate(BYTE type, BOOL else { secsize = 128 << 8; } - size = I286_BX; - addr = ES_BASE + I286_BP; + size = CPU_BX; + addr = ES_BASE + CPU_BP; while(size) { if (size > secsize) { accesssize = secsize; @@ -473,7 +472,7 @@ static BYTE fdd_operate(BYTE type, BOOL addr += accesssize; size -= accesssize; mtr_r += accesssize; // ver0.26 - if ((fdc.R++ == (BYTE)para) && (I286_AH & 0x80) && (!fdc.hd)) { + if ((fdc.R++ == (BYTE)para) && (CPU_AH & 0x80) && (!fdc.hd)) { fdc.hd = 1; fdc.H = 1; fdc.R = 1; @@ -494,8 +493,8 @@ static BYTE fdd_operate(BYTE type, BOOL case 0x02: // 診断の為の読み込み case 0x06: // データの読み込み - if (I286_AH & 0x10) { - if (!biosfd_seek(I286_CL, ndensity)) { + if (CPU_AH & 0x10) { + if (!biosfd_seek(CPU_CL, ndensity)) { result = FDCBIOS_SEEKSUCCESS; } else { @@ -522,8 +521,8 @@ static BYTE fdd_operate(BYTE type, BOOL else { secsize = 128 << 8; } - size = I286_BX; - addr = ES_BASE + I286_BP; + size = CPU_BX; + addr = ES_BASE + CPU_BP; while(size) { if (size > secsize) { accesssize = secsize; @@ -539,7 +538,7 @@ static BYTE fdd_operate(BYTE type, BOOL size -= accesssize; mtr_r += accesssize; // ver0.26 if (fdc.R++ == (BYTE)para) { - if ((I286_AH & 0x80) && (!fdc.hd)) { + if ((CPU_AH & 0x80) && (!fdc.hd)) { fdc.hd = 1; fdc.H = 1; fdc.R = 1; @@ -569,7 +568,7 @@ static BYTE fdd_operate(BYTE type, BOOL #endif } #if 1 - else if ((I286_AH & 0x0f) == 0x02) { // ARS対策… + else if ((CPU_AH & 0x0f) == 0x02) { // ARS対策… ret_ah = 0x00; result = FDCBIOS_READERROR; } @@ -587,9 +586,9 @@ static BYTE fdd_operate(BYTE type, BOOL break; case 0x0a: // READ ID - fdc.mf = I286_AH & 0x40; // ver0.29 - if (I286_AH & 0x10) { // ver0.28 - if (!biosfd_seek(I286_CL, ndensity)) { + fdc.mf = CPU_AH & 0x40; // ver0.29 + if (CPU_AH & 0x10) { // ver0.28 + if (!biosfd_seek(CPU_CL, ndensity)) { result = FDCBIOS_SEEKSUCCESS; } else { @@ -609,23 +608,23 @@ static BYTE fdd_operate(BYTE type, BOOL mtr_r += 128 << 8; } ret_ah = 0x00; - I286_CL = fdc.C; - I286_DH = fdc.H; - I286_DL = fdc.R; - I286_CH = fdc.N; + CPU_CL = fdc.C; + CPU_DH = fdc.H; + CPU_DL = fdc.R; + CPU_CH = fdc.N; result = FDCBIOS_SUCCESS; break; case 0x0d: // フォーマット - if (I286_AH & 0x10) { - biosfd_seek(I286_CL, ndensity); + if (CPU_AH & 0x10) { + biosfd_seek(CPU_CL, ndensity); } if (fdd_diskprotect(fdc.us)) { ret_ah = 0x70; break; } - fdc.d = I286_DL; - fdc.N = I286_CH; + fdc.d = CPU_DL; + fdc.N = CPU_CH; para = fdfmt_biospara(1, rpm); if (!para) { ret_ah = 0xd0; @@ -633,9 +632,9 @@ static BYTE fdd_operate(BYTE type, BOOL } fdc.sc = (BYTE)para; fdd_formatinit(); - pos = I286_BP; + pos = CPU_BP; for (s=0; s> 4; - if ((I286_AL & 0x0f) >= 2) { + np2drv = (CPU_AL & 0x20) >> 4; + if ((CPU_AL & 0x0f) >= 2) { return(0x60); } - np2drv |= (I286_AL & 1); + np2drv |= (CPU_AL & 1); sxsi = &sxsi_hd[np2drv]; - if (I286_AL & 0x80) { - if ((I286_DL >= sxsi->sectors) || - (I286_DH >= sxsi->surfaces) || - (I286_CX >= sxsi->tracks)) { + if (CPU_AL & 0x80) { + if ((CPU_DL >= sxsi->sectors) || + (CPU_DH >= sxsi->surfaces) || + (CPU_CX >= sxsi->tracks)) { return(0xd0); } - (*pos) = ((I286_CX * sxsi->surfaces) + I286_DH) * sxsi->sectors - + I286_DL; + (*pos) = ((CPU_CX * sxsi->surfaces) + CPU_DH) * sxsi->sectors + + CPU_DL; } else { - *pos = (I286_DL << 16) | I286_CX; - if (!(I286_AL & 0x20)) { + *pos = (CPU_DL << 16) | CPU_CX; + if (!(CPU_AL & 0x20)) { (*pos) &= 0x1fffff; } if ((*pos) >= sxsi->totals) { @@ -733,20 +732,20 @@ static BYTE sxsi_pos(long *pos) { } -static BYTE sxsi_operate(BYTE type) { +UINT8 sxsi_operate(UINT8 type) { BYTE ret_ah = 0x00; BYTE drv; long pos; // int i; - drv = (I286_AL & 0x20) >> 4; - if ((I286_AL & 0x0f) >= 2) { + drv = (CPU_AL & 0x20) >> 4; + if ((CPU_AL & 0x0f) >= 2) { return(0x60); } - drv |= (I286_AL & 1); + drv |= (CPU_AL & 1); - switch(I286_AH & 0x0f) { + switch(CPU_AH & 0x0f) { case 0x01: // ベリファイ case 0x07: // リトラクト case 0x0f: // リトラクト @@ -763,47 +762,47 @@ static BYTE sxsi_operate(BYTE type) { case 0x04: // センス ret_ah = 0x00; - if ((I286_AH == 0x04) && (type == HDDTYPE_SASI)) { + if ((CPU_AH == 0x04) && (type == HDDTYPE_SASI)) { ret_ah = 0x04; } - else if ((I286_AH == 0x44) && (type == HDDTYPE_SCSI)) { - I286_BX = 1; + else if ((CPU_AH == 0x44) && (type == HDDTYPE_SCSI)) { + CPU_BX = 1; } - else if (I286_AH == 0x84) { - I286_BX = sxsi_hd[drv].size; - I286_CX = sxsi_hd[drv].tracks; - I286_DH = sxsi_hd[drv].surfaces; - I286_DL = sxsi_hd[drv].sectors; + else if (CPU_AH == 0x84) { + CPU_BX = sxsi_hd[drv].size; + CPU_CX = sxsi_hd[drv].tracks; + CPU_DH = sxsi_hd[drv].surfaces; + CPU_DL = sxsi_hd[drv].sectors; } break; case 0x05: // データの書き込み - i286_memx_read(ES_BASE + I286_BP, work, I286_BX); + i286_memx_read(ES_BASE + CPU_BP, work, CPU_BX); ret_ah = sxsi_pos(&pos); if (!ret_ah) { - ret_ah = sxsi_write(I286_AL, pos, work, I286_BX); + ret_ah = sxsi_write(CPU_AL, pos, work, CPU_BX); } break; case 0x06: // データの読み込み ret_ah = sxsi_pos(&pos); if (!ret_ah) { - ret_ah = sxsi_read(I286_AL, pos, work, I286_BX); + ret_ah = sxsi_read(CPU_AL, pos, work, CPU_BX); if (ret_ah < 0x20) { - i286_memx_write(ES_BASE + I286_BP, work, I286_BX); + i286_memx_write(ES_BASE + CPU_BP, work, CPU_BX); } } break; case 0x0d: // フォーマット - if (I286_DL) { + if (CPU_DL) { ret_ah = 0x30; break; } - i286_memstr_read(I286_ES, I286_BP, work, I286_BX); + i286_memstr_read(CPU_ES, CPU_BP, work, CPU_BX); ret_ah = sxsi_pos(&pos); if (!ret_ah) { - ret_ah = sxsi_format(I286_AL, pos); + ret_ah = sxsi_format(CPU_AL, pos); } break; @@ -996,7 +995,42 @@ void bios0x1b(void) { BYTE ret_ah; REG8 flag; - switch(I286_AL & 0xf0) { +#if 0 // bypass to disk bios + REG8 seg; + UINT sp; + + seg = mem[0x004b0 + (CPU_AL >> 4)]; + if (seg) { + TRACEOUT(("call by %.4x:%.4x", + i286_memword_read(CPU_SS, CPU_SP+2), + i286_memword_read(CPU_SS, CPU_SP))); + sp = CPU_SP; + i286_memword_write(CPU_SS, sp - 2, CPU_DS); + i286_memword_write(CPU_SS, sp - 4, CPU_SI); + i286_memword_write(CPU_SS, sp - 6, CPU_DI); + i286_memword_write(CPU_SS, sp - 8, CPU_ES); // +a + i286_memword_write(CPU_SS, sp - 10, CPU_BP); // +8 + i286_memword_write(CPU_SS, sp - 12, CPU_DX); // +6 + i286_memword_write(CPU_SS, sp - 14, CPU_CX); // +4 + i286_memword_write(CPU_SS, sp - 16, CPU_BX); // +2 + i286_memword_write(CPU_SS, sp - 18, CPU_AX); // +0 + TRACEOUT(("bypass to %.4x:0018", seg << 8)); + TRACEOUT(("AX=%04x BX=%04x %02x:%02x:%02x:%02x ES=%04x BP=%04x", + CPU_AX, CPU_BX, CPU_CL, CPU_DH, CPU_DL, CPU_CH, + CPU_ES, CPU_BP)); + sp -= 18; + CPU_SP = sp; + CPU_BP = sp; + CPU_DS = 0x0000; + CPU_BX = 0x04B0; + CPU_AX = seg << 8; + CPU_CS = seg << 8; + CPU_IP = 0x18; + return; + } +#endif + + switch(CPU_AL & 0xf0) { case 0x90: ret_ah = fdd_operate(DISKTYPE_2HD, 0, 0); break; @@ -1034,7 +1068,7 @@ void bios0x1b(void) { #if 0 { static BYTE p = 0; - if ((I286_CL == 0x4d) && (ret_ah == 0xe0)) { + if ((CPU_CL == 0x4d) && (ret_ah == 0xe0)) { if (!p) { trace_sw = 1; p++; @@ -1047,16 +1081,16 @@ void bios0x1b(void) { #if 0 TRACEOUT(("%04x:%04x AX=%04x BX=%04x %02x:%02x:%02x:%02x\n" \ "ES=%04x BP=%04x \nret=%02x", - i286_memword_read(I286_SS, I286_SP+2), - i286_memword_read(I286_SS, I286_SP), - I286_AX, I286_BX, I286_CL, I286_DH, I286_DL, I286_CH, - I286_ES, I286_BP, ret_ah)); + i286_memword_read(CPU_SS, CPU_SP+2), + i286_memword_read(CPU_SS, CPU_SP), + CPU_AX, CPU_BX, CPU_CL, CPU_DH, CPU_DL, CPU_CH, + CPU_ES, CPU_BP, ret_ah)); #endif - I286_AH = ret_ah; - flag = i286_membyte_read(I286_SS, I286_SP+4) & 0xfe; + CPU_AH = ret_ah; + flag = i286_membyte_read(CPU_SS, CPU_SP+4) & 0xfe; if (ret_ah >= 0x20) { flag += 1; } - i286_membyte_write(I286_SS, I286_SP+4, flag); + i286_membyte_write(CPU_SS, CPU_SP + 4, flag); }