mirror of
https://github.com/dingusdev/dingusppc.git
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d4c9db7fcf
Allows different implementations for different platforms (the JS build relies on browser APIs to stream disk images over the network). Setting aside the JS build, this also reduces some code duplication.
321 lines
8.8 KiB
C++
321 lines
8.8 KiB
C++
/*
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DingusPPC - The Experimental PowerPC Macintosh emulator
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Copyright (C) 2018-22 divingkatae and maximum
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(theweirdo) spatium
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(Contact divingkatae#1017 or powermax#2286 on Discord for more info)
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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 3 of the License, or
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(at your option) any later version.
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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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You should have received a copy of the GNU General Public License
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along with this program. If not, see <https://www.gnu.org/licenses/>.
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*/
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/** @file Support for reading and writing of various floppy images. */
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#include <devices/floppy/floppyimg.h>
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#include <machines/machineproperties.h>
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#include <loguru.hpp>
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#include <memaccess.h>
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#include <utils/imgfile.h>
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#include <cinttypes>
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#include <cstring>
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#include <string>
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static FlopImgType identify_image(ImgFile& img_file)
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{
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// WOZ images identification strings
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static uint8_t WOZ1_SIG[] = {0x57, 0x4F, 0x5A, 0x31, 0xFF, 0x0A, 0x0D, 0x0A};
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static uint8_t WOZ2_SIG[] = {0x57, 0x4F, 0x5A, 0x32, 0xFF, 0x0A, 0x0D, 0x0A};
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uint8_t buf[8] = { 0 };
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img_file.read((char *)buf, 0, sizeof(buf));
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// WOZ files are easily identified
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if (!std::memcmp(buf, WOZ1_SIG, sizeof(buf))) {
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return FlopImgType::WOZ1;
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} else if (!std::memcmp(buf, WOZ2_SIG, sizeof(buf))) {
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return FlopImgType::WOZ2;
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} else {
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for (int offset = 0; offset <=84; offset += 84) {
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// rewind to logical block 2
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img_file.read((char *)buf, 2*BLOCK_SIZE + offset, sizeof(buf));
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// check for HFS/MFS signature at the start of the logical block 2
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if ((buf[0] == 0x42 && buf[1] == 0x44) ||
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(buf[0] == 0xD2 && buf[1] == 0xD7)) {
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if (offset) {
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return FlopImgType::DC42;
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} else {
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return FlopImgType::RAW;
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}
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}
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}
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}
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return FlopImgType::UNKNOWN;
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}
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//======================= RAW IMAGE CONVERTER ============================
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RawFloppyImg::RawFloppyImg(std::string& file_path) : FloppyImgConverter()
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{
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this->img_path = file_path;
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}
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/**
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For raw images, we'll attempt to guess disk format based on image size.
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*/
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int RawFloppyImg::calc_phys_params()
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{
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ImgFile img_file;
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if (!img_file.open(img_path)) {
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img_file.close();
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LOG_F(ERROR, "RawFloppyImg: Could not open specified floppy image!");
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return -1;
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}
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// determine image size
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size_t img_size = img_file.size();
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img_file.close();
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if (img_size > 2*1024*1024) {
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LOG_F(ERROR, "RawFloppyImg: image size is too large to determine disk format from image size!");
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return -1;
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}
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this->img_size = (int)img_size;
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// verify image size
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if (this->img_size < 5*BLOCK_SIZE) {
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LOG_F(ERROR, "RawFloppyImg: image too short!");
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return -1;
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}
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if (this->img_size > MFM_HD_SIZE) {
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LOG_F(ERROR, "RawFloppyImg: image too big!");
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return -1;
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}
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// raw images don't include anything other than raw disk data
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this->data_size = this->img_size;
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// see if user has specified disk format manually
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std::string fmt = GET_STR_PROP("fdd_fmt");
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if (!fmt.empty()) {
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if (fmt == "GCR_400K") {
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this->img_size = 409600;
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} else if (fmt == "GCR_800K") {
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this->img_size = 819200;
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} else if (fmt == "MFM_720K") {
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this->img_size = 737280;
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} else if (fmt == "MFM_1440K") {
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this->img_size = 1474560;
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} else {
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LOG_F(WARNING, "Invalid floppy disk format %s", fmt.c_str());
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}
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}
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// guess disk format from image file size
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static struct {
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int capacity;
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int rec_method;
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int num_tracks;
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int num_sectors;
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int num_sides;
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int density;
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} size_to_params[] = {
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{ 409600, 0, 80, 800, 1, 0}, // 400K GCR
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{ 819200, 0, 80, 800, 2, 0}, // 800K GCR
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{ 737280, 1, 80, 1440, 2, 0}, // 720K MFM
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{1474560, 1, 80, 2880, 2, 1}, // 1440K MFM
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};
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this->rec_method = -1;
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for (int i = 0; i < 4; i++) {
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if (this->img_size == size_to_params[i].capacity) {
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this->rec_method = size_to_params[i].rec_method;
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this->num_tracks = size_to_params[i].num_tracks;
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this->num_sectors = size_to_params[i].num_sectors;
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this->num_sides = size_to_params[i].num_sides;
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this->density = size_to_params[i].density;
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// fake format byte for GCR disks
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if (!this->rec_method) {
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this->format_byte = (this->num_sides == 2) ? 0x22 : 0x2;
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} else {
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// For MFM disks this byte indicates sector size in blocks
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this->format_byte = 2;
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}
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break;
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}
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}
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if (this->rec_method == -1) {
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LOG_F(ERROR, "RawFloppyImg: could't determine disk format from image size!");
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return -1;
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}
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return 0;
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}
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/** Retrieve raw disk data. */
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int RawFloppyImg::get_raw_disk_data(char* buf)
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{
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ImgFile img_file;
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if (!img_file.open(img_path)) {
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img_file.close();
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LOG_F(ERROR, "RawFloppyImg: Could not open specified floppy image!");
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return -1;
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}
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img_file.read(buf, 0, this->data_size);
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img_file.close();
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return 0;
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}
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/** Convert low-level disk data to high-level image data. */
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int RawFloppyImg::export_data()
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{
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return 0;
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}
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// ====================== DISK COPY 4.2 IMAGE CONVERTER ======================
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DiskCopy42Img::DiskCopy42Img(std::string& file_path) : FloppyImgConverter()
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{
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this->img_path = file_path;
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}
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int DiskCopy42Img::calc_phys_params() {
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ImgFile img_file;
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if (!img_file.open(img_path)) {
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img_file.close();
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LOG_F(ERROR, "DiskCopy42Img: could not open specified floppy image!");
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return -1;
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}
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// determine image size
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size_t img_size = img_file.size();
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// get data size from image
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uint8_t buf[4];
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img_file.read((char *)&buf, 0x40, 4);
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this->data_size = READ_DWORD_BE_U(buf);
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if (this->data_size > img_size) {
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img_file.close();
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LOG_F(ERROR, "DiskCopy42Img: invalid data size %d", this->data_size);
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return -1;
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}
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this->img_size = (int)img_size;
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uint8_t disk_format = 0xFFU;
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img_file.read((char *)&disk_format, 0x50, 1);
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img_file.read((char *)&this->format_byte, 0x51, 1);
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img_file.close();
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this->density = 0; // assume double density by default
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this->num_tracks = 80;
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this->num_sides = ((this->format_byte >> 5) & 1) + 1;
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switch (disk_format) {
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case 0:
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case 1:
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this->rec_method = 0; // GCR
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this->num_sectors = 800;
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break;
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case 2:
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this->rec_method = 1; // MFM
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this->num_sectors = 1440;
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this->format_byte = 2;
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break;
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case 3:
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this->rec_method = 1; // MFM
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this->density = 1; // report high density
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this->num_sectors = 2880;
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this->format_byte = 2;
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break;
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default:
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LOG_F(ERROR, "DiskCopy42Img: invalid disk format %X", disk_format);
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return -1;
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}
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return 0;
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}
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int DiskCopy42Img::get_raw_disk_data(char* buf) {
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ImgFile img_file;
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if (!img_file.open(img_path)) {
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img_file.close();
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LOG_F(ERROR, "DiskCopy42Img: could not open specified floppy image!");
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return -1;
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}
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img_file.read(buf, 0x54, this->data_size);
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img_file.close();
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return 0;
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}
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int DiskCopy42Img::export_data(void) {
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return 0;
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}
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FloppyImgConverter* open_floppy_image(std::string& img_path)
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{
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FloppyImgConverter *fconv = nullptr;
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ImgFile img_file;
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if (!img_file.open(img_path)) {
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img_file.close();
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LOG_F(ERROR, "Could not open specified floppy image (%s)!", img_path.c_str());
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return nullptr;
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}
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FlopImgType itype = identify_image(img_file);
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img_file.close();
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switch(itype) {
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case FlopImgType::RAW:
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LOG_F(INFO, "Raw floppy image");
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fconv = new RawFloppyImg(img_path);
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break;
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case FlopImgType::DC42:
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LOG_F(INFO, "Disk Copy 4.2 image");
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fconv = new DiskCopy42Img(img_path);
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break;
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case FlopImgType::WOZ1:
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case FlopImgType::WOZ2:
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LOG_F(INFO, "WOZ v%s image", (itype == FlopImgType::WOZ2) ? "2" : "1");
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break;
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default:
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LOG_F(WARNING, "Unknown image format - assume RAW");
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fconv = new RawFloppyImg(img_path);
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}
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if (fconv->calc_phys_params()) {
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delete fconv;
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return nullptr;
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}
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return fconv;
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}
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