#ifdef INCLUDE_IWM_RCSID_C const char rcsdif_iwm_35_525_h[] = "@(#)$KmKId: iwm_35_525.h,v 1.14 2004-12-01 19:45:02-05 kentd Exp $"; #endif int IWM_READ_ROUT (Disk *dsk, int fast_disk_emul, double dcycs) { Trk *trk; double dcycs_last_read; int pos; int pos2; int size; int next_size; int qtr_track; int skip_nibs; int track_len; byte ret; int shift; int skip; int cycs_this_nib; int cycs_passed; double dcycs_this_nib; double dcycs_next_nib; double dcycs_passed; double track_dcycs; double dtmp; iwm.previous_write_bits = 0; qtr_track = dsk->cur_qtr_track; #if IWM_DISK_525 qtr_track = qtr_track & -4; /* round to nearest whole trk! */ #endif trk = 0; track_len = 0; if(dsk->trks) { trk = &(dsk->trks[qtr_track]); track_len = trk->track_len; } dcycs_last_read = dsk->dcycs_last_read; dcycs_passed = dcycs - dcycs_last_read; cycs_passed = (int)dcycs_passed; if(track_len == 0) { ret = (cycs_passed & 0x7f) + 0x80; iwm_printf("Reading c0ec, track_len 0, returning %02x\n", ret); return ret; } pos = dsk->nib_pos; if(pos >= track_len) { /* Arm may have moved from inner 3.5 track to outer one, */ /* and so must make pos fit on smaller sized track */ pos = 0; } size = trk->nib_area[pos]; while(size == 0) { pos += 2; if(pos >= track_len) { pos = 0; } size = trk->nib_area[pos]; } cycs_this_nib = size * (2 * IWM_CYC_MULT); dcycs_this_nib = (double)cycs_this_nib; if(fast_disk_emul) { cycs_passed = cycs_this_nib; dcycs_passed = dcycs_this_nib; /* pull a trick to make disk motor-on test pass ($bd34 RWTS) */ /* if this would be a sync byte, and we didn't just do this */ /* then don't return whole byte */ /* BUT, don't do this if g_fast_disk_unnib, since it will */ /* cause the dsk->unix routines to break */ if(size > 8 && !g_fast_disk_unnib && (g_iwm_fake_fast == 0)) { cycs_passed = cycs_passed >> 1; dcycs_passed = dcycs_passed * 0.5; g_iwm_fake_fast = 1; } else { g_iwm_fake_fast = 0; } } skip = 0; if(cycs_passed >= (cycs_this_nib + 11)) { /* skip some bits? */ skip = 1; if(iwm.iwm_mode & 1) { /* latch mode */ pos2 = pos + 2; if(pos2 >= track_len) { pos2 = 0; } next_size = trk->nib_area[pos2]; while(next_size == 0) { pos2 += 2; if(pos2 >= track_len) { pos2 = 0; } next_size = trk->nib_area[pos2]; } dcycs_next_nib = next_size * (2 * IWM_CYC_MULT); if(dcycs_passed < (dcycs_this_nib + dcycs_next_nib)) { skip = 0; } } } if(skip) { iwm_printf("skip since cycs_passed: %f, cycs_this_nib: %f\n", dcycs_passed, dcycs_this_nib); track_dcycs = IWM_CYC_MULT * (track_len * 8); if(dcycs_passed >= track_dcycs) { dtmp = (int)(dcycs_passed / track_dcycs); dcycs_passed = dcycs_passed - (dtmp * track_dcycs); dcycs_last_read += (dtmp * track_dcycs); } if(dcycs_passed >= track_dcycs || dcycs_passed < 0.0) { dcycs_passed = 0.0; } cycs_passed = (int)dcycs_passed; skip_nibs = ((word32)cycs_passed) >> (4 + IWM_DISK_525); pos += skip_nibs * 2; while(pos >= track_len) { pos -= track_len; } dcycs_last_read += (skip_nibs * 16 * IWM_CYC_MULT); dsk->dcycs_last_read = dcycs_last_read; size = trk->nib_area[pos]; dcycs_passed = dcycs - dcycs_last_read; if(dcycs_passed < 0.0 || dcycs_passed > 64.0) { halt_printf("skip, last_read:%f, dcycs:%f, dcyc_p:%f\n", dcycs_last_read, dcycs, dcycs_passed); } while(size == 0) { pos += 2; if(pos >= track_len) { pos = 0; } size = trk->nib_area[pos]; } cycs_this_nib = size * (2 * IWM_CYC_MULT); cycs_passed = (int)dcycs_passed; dcycs_this_nib = cycs_this_nib; } if(cycs_passed < cycs_this_nib) { /* partial */ #if 0 iwm_printf("Disk partial, %f < %f, size: %d\n", dcycs_passed, dcycs_this_nib, size); #endif shift = (cycs_passed) >> (1 + IWM_DISK_525); ret = trk->nib_area[pos+1] >> (size - shift); if(ret & 0x80) { halt_printf("Bad shift in partial read: %02x, but " "c_pass:%f, this_nib:%f, shift: %d, size: %d\n", ret, dcycs_passed, dcycs_this_nib, shift, size); } } else { /* whole thing */ ret = trk->nib_area[pos+1]; pos += 2; if(pos >= track_len) { pos = 0; } if(!fast_disk_emul) { dsk->dcycs_last_read = dcycs_last_read + dcycs_this_nib; } } dsk->nib_pos = pos; if(pos < 0 || pos > track_len) { halt_printf("I just set nib_pos: %d!\n", pos); } #if 0 iwm_printf("Disk read, returning: %02x\n", ret); #endif return ret; } void IWM_WRITE_ROUT (Disk *dsk, word32 val, int fast_disk_emul, double dcycs) { double dcycs_last_read; word32 bits_read; word32 mask; word32 prev_val; double dcycs_this_nib; double dcycs_passed; int sdiff; int prev_bits; if(dsk->fd < 0 || dsk->trks == 0) { halt_printf("Tried to write to type: %d, drive: %d, fd: %d!\n", IWM_DISK_525, dsk->drive, dsk->fd, dsk->trks); return; } dcycs_last_read = dsk->dcycs_last_read; dcycs_passed = dcycs - dcycs_last_read; prev_val = iwm.previous_write_val; prev_bits = iwm.previous_write_bits; mask = 0x100; iwm_printf("Iwm write: prev: %x,%d, new:%02x\n", prev_val, prev_bits, val); if(IWM_DISK_525) { /* Activate slow write emulation mode */ g_dcycs_end_emul_wr = dcycs + 64.0; if(!g_slow_525_emul_wr) { set_halt(HALT_EVENT); g_slow_525_emul_wr = 1; } } else { /* disable slow writes on 3.5" drives */ if(g_slow_525_emul_wr) { set_halt(HALT_EVENT); printf("HACK3: g_slow_525_emul_wr set to 0\n"); g_slow_525_emul_wr = 0; } } if(iwm.iwm_mode & 2) { /* async mode = 3.5" default */ bits_read = 8; } else { /* sync mode, 5.25" drives */ bits_read = ((int)dcycs_passed) >> (1 + IWM_DISK_525); if(bits_read < 8) { bits_read = 8; } } if(fast_disk_emul) { bits_read = 8; } dcycs_this_nib = bits_read * (2 * IWM_CYC_MULT); if(fast_disk_emul) { dcycs_passed = dcycs_this_nib; } if(prev_bits > 0) { while((prev_val & 0x80) == 0 && bits_read > 0) { /* previous byte needs some bits */ mask = mask >> 1; prev_val = (prev_val << 1) + ((val & mask) !=0); prev_bits++; bits_read--; } } val = val & (mask - 1); if(prev_bits) { /* force out prev_val if it had many bits before */ /* this prevents writes of 0 from messing us up */ if(((prev_val & 0x80) == 0) && (prev_bits < 10)) { /* special case: we still don't have enough to go */ iwm_printf("iwm_write: zip2: %02x, %d, left:%02x,%d\n", prev_val, prev_bits, val,bits_read); val = prev_val; bits_read = prev_bits; } else { iwm_printf("iwm_write: prev: %02x, %d, left:%02x, %d\n", prev_val, prev_bits, val, bits_read); disk_nib_out(dsk, prev_val, prev_bits); } } else if(val & 0x80) { iwm_printf("iwm_write: new: %02x, %d\n", val,bits_read); disk_nib_out(dsk, val, bits_read); bits_read = 0; } else { iwm_printf("iwm_write: zip: %02x, %d, left:%02x,%d\n", prev_val, prev_bits, val,bits_read); } iwm.previous_write_val = val; iwm.previous_write_bits = bits_read; if(bits_read < 0) { halt_printf("iwm, bits_rd:%d, val:%08x, prev:%02x, prevb:%d\n", bits_read, val, prev_val, prev_bits); } sdiff = dcycs - dcycs_last_read; if(sdiff < (dcycs_this_nib) || (sdiff > (2*dcycs_this_nib)) ) { dsk->dcycs_last_read = dcycs; } else { dsk->dcycs_last_read = dcycs_last_read + dcycs_this_nib; } }