mirror of
https://github.com/Oibaf66/frodo-wii.git
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481 lines
10 KiB
C++
481 lines
10 KiB
C++
/*
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* 1541job.cpp - Emulation of 1541 GCR disk reading/writing
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*
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* Frodo (C) 1994-1997,2002-2005 Christian Bauer
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*
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* This program 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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*
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* This program 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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*
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* You should have received a copy of the GNU General Public License
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* along with this program; 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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/*
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* Notes:
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* ------
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*
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* - This is only used for processor-level 1541 emulation.
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* It simulates the 1541 disk controller hardware (R/W head,
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* GCR reading/writing).
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* - The preferences settings for drive 8 are used to
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* specify the .d64 file
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*
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* Incompatibilities:
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* ------------------
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*
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* - No GCR writing possible (WriteSector is a ROM patch)
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* - Programs depending on the exact timing of head movement/disk
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* rotation don't work
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* - The .d64 error info is unused
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*/
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#include "sysdeps.h"
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#include "1541job.h"
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#include "CPU1541.h"
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#include "Prefs.h"
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#include "utils.hh"
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// Number of tracks/sectors
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const int NUM_TRACKS = 35;
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const int NUM_SECTORS = 683;
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// Size of GCR encoded data
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const int GCR_SECTOR_SIZE = 1+10+9+1+325+8; // SYNC Header Gap SYNC Data Gap (should be 5 SYNC bytes each)
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const int GCR_TRACK_SIZE = GCR_SECTOR_SIZE * 21; // Each track in gcr_data has 21 sectors
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const int GCR_DISK_SIZE = GCR_TRACK_SIZE * NUM_TRACKS;
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// Job return codes
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const int RET_OK = 1; // No error
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const int RET_NOT_FOUND = 2; // Block not found
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const int RET_NOT_READY = 15; // Drive not ready
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// Number of sectors of each track
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const int num_sectors[36] = {
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0,
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21,21,21,21,21,21,21,21,21,21,21,21,21,21,21,21,21,
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19,19,19,19,19,19,19,
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18,18,18,18,18,18,
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17,17,17,17,17
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};
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// Sector offset of start of track in .d64 file
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const int sector_offset[36] = {
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0,
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0,21,42,63,84,105,126,147,168,189,210,231,252,273,294,315,336,
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357,376,395,414,433,452,471,
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490,508,526,544,562,580,
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598,615,632,649,666
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};
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/*
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* Constructor: Open .d64 file if processor-level 1541
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* emulation is enabled
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*/
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Job1541::Job1541(uint8 *ram1541) : ram(ram1541)
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{
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the_file = NULL;
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gcr_data = gcr_ptr = gcr_track_start = new uint8[GCR_DISK_SIZE];
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gcr_track_end = gcr_track_start + GCR_TRACK_SIZE;
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current_halftrack = 2;
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disk_changed = true;
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if (ThePrefs.Emul1541Proc)
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open_d64_file(ThePrefs.DrivePath[0]);
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}
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/*
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* Destructor: Close .d64 file
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*/
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Job1541::~Job1541()
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{
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close_d64_file();
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delete[] gcr_data;
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}
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/*
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* Preferences may have changed
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*/
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void Job1541::NewPrefs(Prefs *prefs)
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{
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// 1541 emulation turned off?
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if (!prefs->Emul1541Proc)
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close_d64_file();
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// 1541 emulation turned on?
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else if (!ThePrefs.Emul1541Proc && prefs->Emul1541Proc)
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open_d64_file(prefs->DrivePath[0]);
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// .d64 file name changed?
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else if (strcmp(ThePrefs.DrivePath[0], prefs->DrivePath[0])) {
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close_d64_file();
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open_d64_file(prefs->DrivePath[0]);
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disk_changed = true;
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}
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}
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/*
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* Open .d64 file
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*/
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void Job1541::open_d64_file(char *filepath)
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{
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long size;
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uint8 magic[4];
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uint8 bam[256];
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// Clear GCR buffer
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memset(gcr_data, 0x55, GCR_DISK_SIZE);
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// Try opening the file for reading/writing first, then for reading only
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write_protected = false;
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the_file = fopen(filepath, "rb+");
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if (the_file == NULL) {
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write_protected = true;
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the_file = fopen(filepath, "rb");
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}
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if (the_file != NULL) {
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// Check length
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fseek(the_file, 0, SEEK_END);
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if ((size = ftell(the_file)) < NUM_SECTORS * 256) {
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fclose(the_file);
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the_file = NULL;
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return;
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}
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// x64 image?
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fseek(the_file, 0, SEEK_SET);
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if (fread(&magic, 4, 1, the_file) != 1)
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warning("Can't read all bytes\n");
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if (magic[0] == 0x43 && magic[1] == 0x15 && magic[2] == 0x41 && magic[3] == 0x64)
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image_header = 64;
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else
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image_header = 0;
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// Preset error info (all sectors no error)
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memset(error_info, 1, NUM_SECTORS);
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// Load sector error info from .d64 file, if present
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if (!image_header && size == NUM_SECTORS * 257) {
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fseek(the_file, NUM_SECTORS * 256, SEEK_SET);
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if (fread(&error_info, NUM_SECTORS, 1, the_file) != 1)
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warning("Can't read all bytes\n");
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};
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// Read BAM and get ID
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read_sector(18, 0, bam);
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id1 = bam[162];
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id2 = bam[163];
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// Create GCR encoded disk data from image
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disk2gcr();
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}
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}
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/*
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* Close .d64 file
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*/
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void Job1541::close_d64_file(void)
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{
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if (the_file != NULL) {
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fclose(the_file);
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the_file = NULL;
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}
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}
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/*
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* Write sector to disk (1541 ROM patch)
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*/
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void Job1541::WriteSector(void)
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{
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int track = ram[0x18];
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int sector = ram[0x19];
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uint16 buf = ram[0x30] | (ram[0x31] << 8);
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if (buf <= 0x0700)
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if (write_sector(track, sector, ram + buf))
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sector2gcr(track, sector);
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}
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/*
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* Format one track (1541 ROM patch)
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*/
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void Job1541::FormatTrack(void)
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{
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int track = ram[0x51];
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// Get new ID
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uint8 bufnum = ram[0x3d];
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id1 = ram[0x12 + bufnum];
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id2 = ram[0x13 + bufnum];
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// Create empty block
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uint8 buf[256];
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memset(buf, 1, 256);
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buf[0] = 0x4b;
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// Write block to all sectors on track
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for(int sector=0; sector<num_sectors[track]; sector++) {
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write_sector(track, sector, buf);
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sector2gcr(track, sector);
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}
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// Clear error info (all sectors no error)
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if (track == 35)
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memset(error_info, 1, NUM_SECTORS);
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// Write error_info to disk?
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}
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/*
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* Read sector (256 bytes)
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* true: success, false: error
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*/
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bool Job1541::read_sector(int track, int sector, uint8 *buffer)
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{
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int offset;
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// Convert track/sector to byte offset in file
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if ((offset = offset_from_ts(track, sector)) < 0)
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return false;
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#ifdef AMIGA
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if (offset != ftell(the_file))
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fseek(the_file, offset + image_header, SEEK_SET);
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#else
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fseek(the_file, offset + image_header, SEEK_SET);
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#endif
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if (fread(buffer, 256, 1, the_file) != 1)
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warning("Can't read all bytes\n");
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return true;
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}
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/*
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* Write sector (256 bytes) !! -> GCR
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* true: success, false: error
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*/
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bool Job1541::write_sector(int track, int sector, uint8 *buffer)
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{
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int offset;
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// Convert track/sector to byte offset in file
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if ((offset = offset_from_ts(track, sector)) < 0)
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return false;
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#ifdef AMIGA
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if (offset != ftell(the_file))
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fseek(the_file, offset + image_header, SEEK_SET);
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#else
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fseek(the_file, offset + image_header, SEEK_SET);
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#endif
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fwrite(buffer, 256, 1, the_file);
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return true;
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}
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/*
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* Convert track/sector to offset
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*/
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int Job1541::secnum_from_ts(int track, int sector)
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{
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return sector_offset[track] + sector;
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}
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int Job1541::offset_from_ts(int track, int sector)
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{
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if ((track < 1) || (track > NUM_TRACKS) ||
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(sector < 0) || (sector >= num_sectors[track]))
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return -1;
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return (sector_offset[track] + sector) << 8;
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}
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/*
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* Convert 4 bytes to 5 GCR encoded bytes
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*/
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const uint16 gcr_table[16] = {
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0x0a, 0x0b, 0x12, 0x13, 0x0e, 0x0f, 0x16, 0x17,
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0x09, 0x19, 0x1a, 0x1b, 0x0d, 0x1d, 0x1e, 0x15
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};
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void Job1541::gcr_conv4(uint8 *from, uint8 *to)
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{
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uint16 g;
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g = (gcr_table[*from >> 4] << 5) | gcr_table[*from & 15];
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*to++ = g >> 2;
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*to = (g << 6) & 0xc0;
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from++;
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g = (gcr_table[*from >> 4] << 5) | gcr_table[*from & 15];
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*to++ |= (g >> 4) & 0x3f;
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*to = (g << 4) & 0xf0;
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from++;
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g = (gcr_table[*from >> 4] << 5) | gcr_table[*from & 15];
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*to++ |= (g >> 6) & 0x0f;
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*to = (g << 2) & 0xfc;
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from++;
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g = (gcr_table[*from >> 4] << 5) | gcr_table[*from & 15];
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*to++ |= (g >> 8) & 0x03;
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*to = g;
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}
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/*
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* Create GCR encoded disk data from image
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*/
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void Job1541::sector2gcr(int track, int sector)
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{
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uint8 block[256];
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uint8 buf[4];
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uint8 *p = gcr_data + (track-1) * GCR_TRACK_SIZE + sector * GCR_SECTOR_SIZE;
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read_sector(track, sector, block);
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// Create GCR header
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*p++ = 0xff; // SYNC
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buf[0] = 0x08; // Header mark
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buf[1] = sector ^ track ^ id2 ^ id1; // Checksum
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buf[2] = sector;
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buf[3] = track;
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gcr_conv4(buf, p);
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buf[0] = id2;
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buf[1] = id1;
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buf[2] = 0x0f;
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buf[3] = 0x0f;
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gcr_conv4(buf, p+5);
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p += 10;
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memset(p, 0x55, 9); // Gap
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p += 9;
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// Create GCR data
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uint8 sum;
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*p++ = 0xff; // SYNC
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buf[0] = 0x07; // Data mark
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sum = buf[1] = block[0];
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sum ^= buf[2] = block[1];
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sum ^= buf[3] = block[2];
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gcr_conv4(buf, p);
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p += 5;
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for (int i=3; i<255; i+=4) {
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sum ^= buf[0] = block[i];
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sum ^= buf[1] = block[i+1];
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sum ^= buf[2] = block[i+2];
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sum ^= buf[3] = block[i+3];
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gcr_conv4(buf, p);
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p += 5;
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}
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sum ^= buf[0] = block[255];
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buf[1] = sum; // Checksum
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buf[2] = 0;
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buf[3] = 0;
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gcr_conv4(buf, p);
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p += 5;
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memset(p, 0x55, 8); // Gap
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}
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void Job1541::disk2gcr(void)
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{
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// Convert all tracks and sectors
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for (int track=1; track<=NUM_TRACKS; track++)
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for(int sector=0; sector<num_sectors[track]; sector++)
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sector2gcr(track, sector);
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}
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/*
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* Move R/W head out (lower track numbers)
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*/
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void Job1541::MoveHeadOut(void)
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{
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if (current_halftrack == 2)
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return;
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current_halftrack--;
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#if !defined(__riscos__) && !defined(GEKKO)
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printf("Head move %d\n", current_halftrack);
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#endif
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gcr_ptr = gcr_track_start = gcr_data + ((current_halftrack >> 1) - 1) * GCR_TRACK_SIZE;
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gcr_track_end = gcr_track_start + num_sectors[current_halftrack >> 1] * GCR_SECTOR_SIZE;
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}
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/*
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* Move R/W head in (higher track numbers)
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*/
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void Job1541::MoveHeadIn(void)
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{
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if (current_halftrack == NUM_TRACKS*2)
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return;
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current_halftrack++;
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#if !defined(__riscos__) && !defined(GEKKO)
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printf("Head move %d\n", current_halftrack);
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#endif
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gcr_ptr = gcr_track_start = gcr_data + ((current_halftrack >> 1) - 1) * GCR_TRACK_SIZE;
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gcr_track_end = gcr_track_start + num_sectors[current_halftrack >> 1] * GCR_SECTOR_SIZE;
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}
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/*
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* Get state
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*/
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void Job1541::GetState(Job1541State *state)
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{
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state->current_halftrack = current_halftrack;
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state->gcr_ptr = gcr_ptr - gcr_data;
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state->write_protected = write_protected;
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state->disk_changed = disk_changed;
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}
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/*
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* Set state
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*/
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void Job1541::SetState(Job1541State *state)
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{
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current_halftrack = state->current_halftrack;
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gcr_ptr = gcr_data + state->gcr_ptr;
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gcr_track_start = gcr_data + ((current_halftrack >> 1) - 1) * GCR_TRACK_SIZE;
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gcr_track_end = gcr_track_start + num_sectors[current_halftrack >> 1] * GCR_SECTOR_SIZE;
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write_protected = state->write_protected;
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disk_changed = state->disk_changed;
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}
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