mirror of
https://github.com/AppleWin/AppleWin.git
synced 2024-11-17 21:04:45 +00:00
92504e0751
Changed struct Disk_t: . Added new struct Drive_t with "has-a" relationship to Disk_t . Split properties of drive into Drive_t and properties of disk into Disk_t
368 lines
13 KiB
C++
368 lines
13 KiB
C++
/*
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AppleWin : An Apple //e emulator for Windows
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Copyright (C) 1994-1996, Michael O'Brien
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Copyright (C) 1999-2001, Oliver Schmidt
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Copyright (C) 2002-2005, Tom Charlesworth
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Copyright (C) 2006-2017, Tom Charlesworth, Michael Pohoreski, Nick Westgate
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AppleWin is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 2 of the License, or
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(at your option) any later version.
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AppleWin is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with AppleWin; if not, write to the Free Software
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Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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*/
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/* Description: Disk][ format track support
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*
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* Author: Various
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*/
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/*
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DOS 3.2 INIT notes
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------------------
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Writes the following: (in 1 continuous write operation)
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. 0x26A0 x 36-cycle (9-bit) sync FFs - wraps track
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. Address Field (Prologue=D5AAB5, Epilogue=DEAAEB)
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. NB. this trailing EB gets overwritten when sector is written to
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. Sector order: {0,A,7,4,1,B,8,5,2,C,9,6,3}
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. 432 x 32-cycle FFs
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. Gap2: 10
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. Data Field:3+410+1+3=417
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. NB. no Data Field pro/epilogue written during track format
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. 79 x 36-cycle (9-bit) sync FFs (gap3?)
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. Address Field (Prologue=D5AAB5, ...), etc.
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*/
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#include "StdAfx.h"
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#include "Disk.h"
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#include "DiskLog.h"
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#include "DiskFormatTrack.h"
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#include "Log.h"
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#include "YamlHelper.h"
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// Occurs on these conditions:
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// . ctor
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// . disk][ reset
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void FormatTrack::Reset(void)
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{
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memset(m_VolTrkSecChk, 0, sizeof(m_VolTrkSecChk));
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memset(m_VolTrkSecChk4and4, 0, sizeof(m_VolTrkSecChk4and4));
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m_trackState = TS_GAP1;
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m_uLast3Bytes = 0;
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m_4and4idx = 0;
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DriveNotWritingTrack();
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}
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// Occurs on these conditions:
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// . spin > 2 bytes (empirical from inspecting DOS3.3-INIT/ProDOS-FORMAT operations)
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// . drive stepper track change
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// . drive motor state change
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// . switch to read mode after having written a complete track
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void FormatTrack::DriveNotWritingTrack(void)
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{
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m_bmWrittenSectorAddrFields = 0x0000;
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m_WriteTrackStartIndex = 0;
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m_WriteTrackHasWrapped = false;
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m_WriteDataFieldPrologueCount = 0;
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m_bAddressPrologueIsDOS3_2 = false;
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#if LOG_DISK_NIBBLES_WRITE_TRACK_GAPS
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m_DbgGap1Size = 0;
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m_DbgGap2Size = 0;
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m_DbgGap3Size = -1; // Data Field's epilogue has an extra 0xFF, which isn't part of the Gap3 sync-FF field
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#endif
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}
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void FormatTrack::UpdateOnWriteLatch(UINT uSpinNibbleCount, const Disk_t* const pFloppy)
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{
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if (pFloppy->bWriteProtected)
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return;
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if (m_bmWrittenSectorAddrFields == 0x0000)
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{
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if (m_WriteTrackStartIndex == (UINT)-1) // waiting for 1st write?
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m_WriteTrackStartIndex = pFloppy->byte;
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return;
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}
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// Written at least 1 sector
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if (m_WriteTrackHasWrapped)
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return;
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if (uSpinNibbleCount > 2)
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{
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_ASSERT(0); // Not seen this case yet
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DriveNotWritingTrack();
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return;
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}
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UINT uTrackIndex = pFloppy->byte;
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const UINT& kTrackMaxNibbles = pFloppy->nibbles;
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// NB. spin in write mode is only max 1-2 bytes
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do
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{
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if (m_WriteTrackStartIndex == uTrackIndex) // disk has completed a revolution
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{
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// Occurs for: .dsk & enhance=0|1 & ProDOS-FORMAT/DOS3.3-INIT with big gap3 size (as trackimage is only 0x18F0 in size)
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m_WriteTrackHasWrapped = true;
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// Now wait until drive switched from write to read mode
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return;
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}
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uTrackIndex = (uTrackIndex+1) % kTrackMaxNibbles;
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}
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while (uSpinNibbleCount--);
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}
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void FormatTrack::DriveSwitchedToReadMode(Disk_t* const pFloppy)
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{
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if (m_bAddressPrologueIsDOS3_2)
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{
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if (m_bmWrittenSectorAddrFields != 0x1FFF) // written all 13 sectors? (NB. data field not written by formatter)
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return;
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}
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else
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{
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if (m_bmWrittenSectorAddrFields != 0xFFFF || m_WriteDataFieldPrologueCount != 16) // written all 16 sectors?
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return;
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}
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// Zero-fill the remainder of the track buffer:
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// Either up to 0x18F0 (if less than 0x18F0) or up to 0x1A00 (for .nib).
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// When there's no spin (enhanced=1), then 0x18F0 is still too long, eg: (see GH#125)
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// Gap1 = 0x81, Gap2 = 0x05, Gap3 = 0x1D (29), TrackSize = 0x1963
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// Gap1 = 0x81, Gap2 = 0x05, Gap3 = 0x1C (28), TrackSize = 0x1954
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// Gap1 = 0x81, Gap2 = 0x05, Gap3 = 0x1B (27), TrackSize = 0x1945
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// Gap1 = 0x81, Gap2 = 0x05, Gap3 = 0x1A (26), TrackSize = 0x1936
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//
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// And 0x1936 - 0x81(gap1) = 0x18B5
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// So need a track size between 0x18B0 (rounding down) and 0x182F
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const UINT kShortTrackLen = 0x18B0;
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LPBYTE TrackBuffer = pFloppy->trackimage;
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const UINT kLongTrackLen = pFloppy->nibbles;
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UINT uWriteTrackEndIndex = pFloppy->byte;
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UINT uWrittenTrackSize = m_WriteTrackHasWrapped ? kLongTrackLen : 0;
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if (m_WriteTrackStartIndex <= uWriteTrackEndIndex)
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uWrittenTrackSize += uWriteTrackEndIndex - m_WriteTrackStartIndex;
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else
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uWrittenTrackSize += (kLongTrackLen - m_WriteTrackStartIndex) + uWriteTrackEndIndex;
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#if LOG_DISK_NIBBLES_WRITE_TRACK_GAPS
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LOG_DISK("Gap1 = 0x%02X, Gap2 = 0x%02X, Gap3 = 0x%02X (%02d), TrackSize = 0x%04X\n", m_DbgGap1Size, m_DbgGap2Size, m_DbgGap3Size, m_DbgGap3Size, uWrittenTrackSize);
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#endif
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if (uWrittenTrackSize > kShortTrackLen)
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uWrittenTrackSize = kShortTrackLen;
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int iSrc = uWriteTrackEndIndex - uWrittenTrackSize; // Rewind to start of non-overwritten part of short track
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if (iSrc < 0)
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iSrc += kLongTrackLen;
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// S < E: | S-------E |
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// S > E: |----E S---|
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if ((UINT)iSrc < uWriteTrackEndIndex)
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{
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memset(&TrackBuffer[0], 0, iSrc);
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memset(&TrackBuffer[uWriteTrackEndIndex], 0, kLongTrackLen - uWriteTrackEndIndex);
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}
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else
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{
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// NB. For the iSrc == uWriteTrackEndIndex case: memset() size=0
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memset(&TrackBuffer[uWriteTrackEndIndex], 0, iSrc - uWriteTrackEndIndex);
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}
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// NB. No need to skip the zero nibbles, as INIT/FORMAT's 'read latch until high bit' loop will just consume these
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DriveNotWritingTrack();
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}
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void FormatTrack::DriveSwitchedToWriteMode(UINT uTrackIndex)
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{
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// ProDOS/DOS3.3: during track write, switches to read mode then back to write mode:
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// . between Address Field & Gap2; and between Data Field & Gap3
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// . so if at TS_GAP2_START then stay at TS_GAP2_START
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if (m_trackState != TS_GAP2_START)
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m_trackState = (m_bmWrittenSectorAddrFields == 0x0000) ? TS_GAP1 : TS_GAP3;
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m_uLast3Bytes = 0;
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m_4and4idx = 0;
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if (m_bmWrittenSectorAddrFields == 0x0000) // written no sectors
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{
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m_WriteTrackStartIndex = (UINT)-1; // wait for 1st write
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}
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}
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// This is just for debug/logging: used to output when a new Address Field has been read
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void FormatTrack::DecodeLatchNibbleRead(BYTE floppylatch)
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{
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DecodeLatchNibble(floppylatch, false, false);
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}
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void FormatTrack::DecodeLatchNibbleWrite(BYTE floppylatch, UINT uSpinNibbleCount, const Disk_t* const pFloppy, bool bIsSyncFF)
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{
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DecodeLatchNibble(floppylatch, true, bIsSyncFF);
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UpdateOnWriteLatch(uSpinNibbleCount, pFloppy);
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}
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void FormatTrack::DecodeLatchNibble(BYTE floppylatch, bool bIsWrite, bool bIsSyncFF)
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{
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m_uLast3Bytes <<= 8;
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m_uLast3Bytes |= floppylatch;
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m_uLast3Bytes &= 0xFFFFFF;
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if (m_trackState == TS_GAP2_START && bIsWrite) // NB. bIsWrite, as there's a read between writing Addr Field & Gap2
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m_trackState = TS_GAP2;
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#if LOG_DISK_NIBBLES_WRITE_TRACK_GAPS
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if (bIsSyncFF && (m_trackState == TS_GAP1 || m_trackState == TS_GAP2 || m_trackState == TS_GAP3))
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{
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if (m_bmWrittenSectorAddrFields == 0x0000 && m_trackState == TS_GAP1)
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m_DbgGap1Size++;
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else if (m_bmWrittenSectorAddrFields == 0x0001 && m_trackState == TS_GAP2)
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m_DbgGap2Size++; // Only count Gap2 after sector0 Addr Field (assume other inter-sectors gap2's have same count)
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else if (m_bmWrittenSectorAddrFields == 0x0001 && m_trackState == TS_GAP3)
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m_DbgGap3Size++; // Only count Gap3 between sector0 & 1 (assume other inter-sectors gap3's have same count)
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return;
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}
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#endif
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// Beneath Apple ProDOS 3-14: NB. $D5 and $AA are reserved (never written as data)
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const UINT32 kADDR_PROLOGUE_DOS3_3 = 0xD5AA96; // D5AA96 is used by DOS3.3/ProDOS
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const UINT32 kADDR_PROLOGUE_DOS3_2 = 0xD5AAB5; // D5AAB5 is used by DOS3.2/3.2.1
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if (m_uLast3Bytes == kADDR_PROLOGUE_DOS3_3 || m_uLast3Bytes == kADDR_PROLOGUE_DOS3_2)
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{
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m_bAddressPrologueIsDOS3_2 = (m_uLast3Bytes == kADDR_PROLOGUE_DOS3_2);
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m_trackState = TS_ADDRFIELD;
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m_4and4idx = 0;
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return;
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}
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// NB. If TS_ADDRFIELD && m_4and4idx == 8, then writing Address Field's epilogue
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if (m_trackState == TS_ADDRFIELD && m_4and4idx < 8)
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{
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m_VolTrkSecChk4and4[m_4and4idx++] = floppylatch;
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if (m_4and4idx == 8)
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{
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for (UINT i=0; i<4; i++)
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m_VolTrkSecChk[i] = ((m_VolTrkSecChk4and4[i*2] & 0x55) << 1) | (m_VolTrkSecChk4and4[i*2+1] & 0x55);
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#if LOG_DISK_NIBBLES_READ
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if (!bIsWrite)
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{
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BYTE addrPrologue = m_bAddressPrologueIsDOS3_2 ? (BYTE)kADDR_PROLOGUE_DOS3_2 : (BYTE)kADDR_PROLOGUE_DOS3_3;
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LOG_DISK("read D5AA%02X detected - Vol:%02X Trk:%02X Sec:%02X Chk:%02X\r\n", addrPrologue, m_VolTrkSecChk[0], m_VolTrkSecChk[1], m_VolTrkSecChk[2], m_VolTrkSecChk[3]);
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}
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#endif
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#if LOG_DISK_NIBBLES_WRITE
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if (bIsWrite)
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{
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BYTE addrPrologue = m_bAddressPrologueIsDOS3_2 ? (BYTE)kADDR_PROLOGUE_DOS3_2 : (BYTE)kADDR_PROLOGUE_DOS3_3;
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LOG_DISK("write D5AA%02X detected - Vol:%02X Trk:%02X Sec:%02X Chk:%02X\r\n", addrPrologue, m_VolTrkSecChk[0], m_VolTrkSecChk[1], m_VolTrkSecChk[2], m_VolTrkSecChk[3]);
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}
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#endif
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if (bIsWrite)
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{
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// NB. Address Field only written when formatting track
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BYTE sector = m_VolTrkSecChk[2];
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_ASSERT( sector <= 15 );
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if (sector > 15) // Ignore exotic formats with >16 sectors!
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return;
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_ASSERT( (m_bmWrittenSectorAddrFields & (1<<sector)) == 0 );
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m_bmWrittenSectorAddrFields |= (1<<sector);
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}
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}
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return;
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}
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#if LOG_DISK_NIBBLES_WRITE_TRACK_GAPS
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if (m_uLast3Bytes == 0xDEAAEB && bIsWrite) // NB. bIsWrite, as reads could start reading anywhere
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{
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if (m_trackState == TS_ADDRFIELD)
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{
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m_trackState = TS_GAP2_START;
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}
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else // m_trackState == TS_DATAFIELD
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{
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_ASSERT(m_trackState == TS_DATAFIELD);
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m_trackState = TS_GAP3;
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}
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return;
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}
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#endif
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if (m_uLast3Bytes == 0xD5AAAD)
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{
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m_trackState = TS_DATAFIELD;
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if (bIsWrite) // NB. Data Field written every time a sector is written
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m_WriteDataFieldPrologueCount++;
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_ASSERT(m_WriteDataFieldPrologueCount <= 16);
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}
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}
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//===========================================================================
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#define SS_YAML_KEY_FORMAT_TRACK "Format Track state"
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// NB. No version - this is determined by the parent "Disk][" unit
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#define SS_YAML_KEY_WRITTEN_SECTOR_ADDR_FIELDS "Written Sector Address Fields"
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#define SS_YAML_KEY_WRITE_TRACK_START_IDX "Write Track Start Index"
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#define SS_YAML_KEY_WRITE_TRACK_HAS_WRAPPED "Write Track Wrapped"
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#define SS_YAML_KEY_WRITE_DATA_FIELD_PROLOGUE_COUNT "Write Data Field Prologue Count"
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#define SS_YAML_KEY_TRACK_STATE "Track State"
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#define SS_YAML_KEY_LAST3BYTES "Last 3 bytes"
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#define SS_YAML_KEY_VTSC_4AND4 "Vol,Trk,Sec,Chk (4 and 4)"
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#define SS_YAML_KEY_VTSC_4AND4_IDX "Index (4 and 4)"
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void FormatTrack::SaveSnapshot(class YamlSaveHelper& yamlSaveHelper)
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{
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YamlSaveHelper::Label label(yamlSaveHelper, "%s:\n", SS_YAML_KEY_FORMAT_TRACK);
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yamlSaveHelper.SaveHexUint16(SS_YAML_KEY_WRITTEN_SECTOR_ADDR_FIELDS, m_bmWrittenSectorAddrFields);
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yamlSaveHelper.SaveHexUint16(SS_YAML_KEY_WRITE_TRACK_START_IDX, m_WriteTrackStartIndex);
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yamlSaveHelper.SaveBool(SS_YAML_KEY_WRITE_TRACK_HAS_WRAPPED, m_WriteTrackHasWrapped);
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yamlSaveHelper.SaveHexUint8(SS_YAML_KEY_WRITE_DATA_FIELD_PROLOGUE_COUNT, m_WriteDataFieldPrologueCount);
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yamlSaveHelper.SaveHexUint8(SS_YAML_KEY_TRACK_STATE, m_trackState);
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yamlSaveHelper.SaveHexUint24(SS_YAML_KEY_LAST3BYTES, m_uLast3Bytes);
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yamlSaveHelper.SaveHexUint64(SS_YAML_KEY_VTSC_4AND4, *(UINT64*)m_VolTrkSecChk4and4); // Stored in reverse order
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yamlSaveHelper.SaveHexUint4(SS_YAML_KEY_VTSC_4AND4_IDX, m_4and4idx);
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}
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void FormatTrack::LoadSnapshot(class YamlLoadHelper& yamlLoadHelper)
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{
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if (!yamlLoadHelper.GetSubMap(SS_YAML_KEY_FORMAT_TRACK))
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throw std::string("Card: Expected key: ") + std::string(SS_YAML_KEY_FORMAT_TRACK);
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m_bmWrittenSectorAddrFields = yamlLoadHelper.LoadUint(SS_YAML_KEY_WRITTEN_SECTOR_ADDR_FIELDS);
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m_WriteTrackStartIndex = yamlLoadHelper.LoadUint(SS_YAML_KEY_WRITE_TRACK_START_IDX);
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m_WriteTrackHasWrapped = yamlLoadHelper.LoadBool(SS_YAML_KEY_WRITE_TRACK_HAS_WRAPPED);
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m_WriteDataFieldPrologueCount = yamlLoadHelper.LoadUint(SS_YAML_KEY_WRITE_DATA_FIELD_PROLOGUE_COUNT);
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m_trackState = (TRACKSTATE_e) yamlLoadHelper.LoadUint(SS_YAML_KEY_TRACK_STATE);
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m_uLast3Bytes = yamlLoadHelper.LoadUint(SS_YAML_KEY_LAST3BYTES);
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*(UINT64*)m_VolTrkSecChk4and4 = yamlLoadHelper.LoadUint64(SS_YAML_KEY_VTSC_4AND4);
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m_4and4idx = yamlLoadHelper.LoadUint(SS_YAML_KEY_VTSC_4AND4_IDX);
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m_bAddressPrologueIsDOS3_2 = false; // Doesn't matter if this is wrong - for DOS 3.2 INIT, will just get a long (non-truncated) track-0
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yamlLoadHelper.PopMap();
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}
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