mirror of
https://github.com/dingusdev/dingusppc.git
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35c86ad6bf
Result of running IWYU (https://include-what-you-use.org/) and applying most of the suggestions about unncessary includes and forward declarations. Was motivated by observing that <thread> was being included in ppcopcodes.cpp even though it was unused (found while researching the use of threads), but seems generally good to help with build times and correctness.
375 lines
12 KiB
C++
375 lines
12 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 Macintosh Superdrive emulation. */
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#include <core/timermanager.h>
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#include <devices/floppy/floppyimg.h>
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#include <devices/floppy/superdrive.h>
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#include <loguru.hpp>
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#include <cinttypes>
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using namespace MacSuperdrive;
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MacSuperDrive::MacSuperDrive()
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{
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this->name = "Superdrive";
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this->supported_types = HWCompType::FLOPPY_DRV;
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this->eject_latch = 0; // eject latch is off
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this->reset_params();
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}
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void MacSuperDrive::reset_params()
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{
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this->media_kind = MediaKind::high_density;
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this->has_disk = 0; // drive is empty
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this->motor_stat = 0; // spindle motor is off
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this->motor_on_time = 0;
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this->cur_track = 0; // current head position
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this->is_ready = 0; // drive not ready
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// come up in the MFM mode by default
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this->switch_drive_mode(RecMethod::MFM);
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}
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void MacSuperDrive::command(uint8_t addr, uint8_t value)
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{
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uint8_t new_motor_stat;
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LOG_F(9, "Superdrive: command addr=0x%X, value=%d", addr, value);
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switch(addr) {
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case CommandAddr::Step_Direction:
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this->step_dir = value ? -1 : 1;
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break;
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case CommandAddr::Do_Step:
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if (!value) {
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this->cur_track += this->step_dir;
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if (this->cur_track < 0)
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this->cur_track = 0;
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this->track_zero = this->cur_track == 0;
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}
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break;
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case CommandAddr::Motor_On_Off:
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new_motor_stat = value ^ 1;
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if (this->motor_stat != new_motor_stat) {
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this->motor_stat = new_motor_stat;
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if (new_motor_stat) {
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this->motor_on_time = TimerManager::get_instance()->current_time_ns();
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this->track_start_time = 0;
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this->sector_start_time = 0;
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this->init_track_search(-1);
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this->is_ready = 1;
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LOG_F(INFO, "Superdrive: turn spindle motor on");
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} else {
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this->motor_on_time = 0;
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this->is_ready = 0;
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LOG_F(INFO, "Superdrive: turn spindle motor off");
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}
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}
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break;
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case CommandAddr::Eject_Disk:
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if (value) {
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LOG_F(INFO, "Superdrive: disk ejected");
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this->eject_latch = 1;
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this->reset_params();
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}
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case CommandAddr::Reset_Eject_Latch:
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if (value) {
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this->eject_latch = 0;
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}
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break;
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case CommandAddr::Switch_Drive_Mode:
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if (this->drive_mode != (value ^ 1)) {
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switch_drive_mode(value ^ 1); // reverse logic
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this->is_ready = 1;
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}
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break;
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default:
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LOG_F(WARNING, "Superdrive: unimplemented command, addr=0x%X", addr);
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}
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}
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uint8_t MacSuperDrive::status(uint8_t addr)
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{
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LOG_F(9, "Superdrive: status request, addr = 0x%X", addr);
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switch(addr) {
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case StatusAddr::Step_Status:
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return 1; // not sure what should be returned here
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case StatusAddr::Motor_Status:
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return this->motor_stat ^ 1; // reverse logic
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case StatusAddr::Eject_Latch:
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return this->eject_latch;
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case StatusAddr::Select_Head_0:
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return this->cur_head = 0;
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case StatusAddr::MFM_Support:
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return 1; // Superdrive does support MFM encoding scheme
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case StatusAddr::Double_Sided:
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return 1; // yes, Superdrive is double sided
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case StatusAddr::Drive_Exists:
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return 0; // tell the world I'm here
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case StatusAddr::Disk_In_Drive:
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return this->has_disk ^ 1; // reverse logic (active low)!
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case StatusAddr::Write_Protect:
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return this->wr_protect ^ 1; // reverse logic
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case StatusAddr::Track_Zero:
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return this->track_zero ^ 1; // reverse logic
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case StatusAddr::Select_Head_1:
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return this->cur_head = 1;
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case StatusAddr::Drive_Mode:
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return this->drive_mode;
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case StatusAddr::Drive_Ready:
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return this->is_ready ^ 1; // reverse logic
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case StatusAddr::Media_Kind:
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return this->media_kind ^ 1; // reverse logic!
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default:
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LOG_F(WARNING, "Superdrive: unimplemented status request, addr=0x%X", addr);
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return 0;
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}
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}
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int MacSuperDrive::insert_disk(std::string& img_path, int write_flag = 0)
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{
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if (this->has_disk) {
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LOG_F(ERROR, "Superdrive: drive is not empty!");
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return -1;
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}
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FloppyImgConverter* img_conv = open_floppy_image(img_path);
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if (img_conv != nullptr) {
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this->img_conv = std::unique_ptr<FloppyImgConverter>(img_conv);
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set_disk_phys_params();
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// allocate memory for raw disk data
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this->disk_data = std::unique_ptr<char[]>(new char[this->img_conv->get_data_size()]);
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// swallow all raw disk data at once!
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this->img_conv->get_raw_disk_data(this->disk_data.get());
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// disk is write-enabled by default
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this->wr_protect = write_flag;
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// everything is set up, let's say we got a disk
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this->has_disk = 1;
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} else {
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this->has_disk = 0;
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}
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return 0;
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}
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void MacSuperDrive::set_disk_phys_params()
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{
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this->rec_method = this->img_conv->get_disk_rec_method();
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this->num_tracks = this->img_conv->get_number_of_tracks();
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this->num_sides = this->img_conv->get_number_of_sides();
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this->media_kind = this->img_conv->get_rec_density();
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this->format_byte = this->img_conv->get_format_byte();
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switch_drive_mode(this->rec_method);
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}
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void MacSuperDrive::switch_drive_mode(int mode)
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{
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if (mode == RecMethod::GCR) {
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// Apple GCR speeds per group of 16 tracks
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static int gcr_rpm_per_group[5] = {394, 429, 472, 525, 590};
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// initialize three lookup tables:
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// sectors per track
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// rpm per track
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// logical block number of the first sector in each track
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// for easier navigation
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for (int grp = 0, blk_num = 0; grp < 5; grp++) {
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for (int trk = 0; trk < 16; trk++) {
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this->sectors_per_track[grp * 16 + trk] = 12 - grp;
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this->rpm_per_track[grp * 16 + trk] = gcr_rpm_per_group[grp];
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this->track2lblk[grp * 16 + trk] = blk_num;
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blk_num += (12 - grp) * this->num_sides;
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}
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}
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this->drive_mode = RecMethod::GCR;
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} else {
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int sectors_per_track = this->media_kind ? 18 : 9;
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// MFM disks use constant number of sectors per track
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// and the fixed rotational speed of 300 RPM
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for (int trk = 0; trk < 80; trk++) {
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this->sectors_per_track[trk] = sectors_per_track;
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this->rpm_per_track[trk] = 300;
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this->track2lblk[trk] = trk * sectors_per_track * 2;
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}
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// set up disk timing parameters
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this->index_delay = MFM_INDX_MARK_DELAY;
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this->addr_mark_delay = MFM_ADR_MARK_DELAY;
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if (this->media_kind) {
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this->sector_delay = MFM_HD_SECTOR_DELAY;
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this->eot_delay = MFM_HD_EOT_DELAY;
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} else {
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this->sector_delay = MFM_DD_SECTOR_DELAY;
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this->eot_delay = MFM_DD_EOT_DELAY;
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}
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this->drive_mode = RecMethod::MFM;
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}
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}
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double MacSuperDrive::get_current_track_delay()
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{
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return 60.0f / this->rpm_per_track[this->cur_track];
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}
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void MacSuperDrive::init_track_search(int pos)
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{
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if (pos == -1) {
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// pick random sector number
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uint64_t seed = TimerManager::get_instance()->current_time_ns() >> 8;
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this->cur_sector = seed % this->sectors_per_track[this->cur_track];
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LOG_F(9, "Superdrive: current sector number set to %d", this->cur_sector);
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} else {
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this->cur_sector = pos;
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}
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}
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uint64_t MacSuperDrive::sync_to_disk()
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{
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uint64_t cur_time_ns, track_time_ns;
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uint64_t track_delay = this->get_current_track_delay() * NS_PER_SEC;
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// look how much ns have been elapsed since the last motor enabling
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cur_time_ns = TimerManager::get_instance()->current_time_ns() - this->motor_on_time;
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if (!this->track_start_time ||
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(cur_time_ns - this->track_start_time) >= track_delay) {
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// subtract full disk revolutions
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track_time_ns = cur_time_ns % track_delay;
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this->track_start_time = cur_time_ns - track_time_ns;
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// return delay until the first address mark if we're currently
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// looking at the end of track
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if (track_time_ns >= this->eot_delay) {
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this->next_sector = 0;
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// CHEAT: don't account for the remaining time of the current track
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return this->index_delay + this->addr_mark_delay;
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}
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// return delay until the first address mark
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// if the first address mark was not reached yet
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if (track_time_ns < this->index_delay) {
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this->next_sector = 0;
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return this->index_delay + this->addr_mark_delay - track_time_ns;
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}
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} else {
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track_time_ns = cur_time_ns - this->track_start_time;
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}
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// subtract index field delay
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track_time_ns -= this->index_delay;
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// calculate current sector number from timestamp
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int cur_sect_num = this->cur_sector = (int)(track_time_ns / this->sector_delay);
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this->sector_start_time = this->track_start_time + cur_sect_num * this->sector_delay +
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this->index_delay;
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if (this->cur_sector + 1 >= this->sectors_per_track[this->cur_track]) {
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uint64_t diff = track_delay - (cur_time_ns - this->track_start_time);
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this->next_sector = 0;
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this->track_start_time = 0;
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this->sector_start_time = 0;
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return diff + this->index_delay + this->addr_mark_delay;
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} else {
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this->next_sector = this->cur_sector + 1;
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uint64_t diff = cur_time_ns - this->sector_start_time;
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this->sector_start_time += this->sector_delay;
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return this->sector_delay - diff + this->addr_mark_delay;
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}
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}
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uint64_t MacSuperDrive::next_addr_mark_delay(uint8_t *next_sect_num)
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{
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uint64_t delay;
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if (this->cur_sector + 1 >= this->sectors_per_track[this->cur_track]) {
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this->next_sector = 0;
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delay = this->index_delay + this->addr_mark_delay;
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} else {
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this->next_sector = this->cur_sector + 1;
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delay = this->addr_mark_delay;
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}
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if (next_sect_num) {
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*next_sect_num = this->next_sector + ((this->rec_method == RecMethod::MFM) ? 1 : 0);
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}
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return delay;
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}
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uint64_t MacSuperDrive::next_sector_delay()
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{
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if (this->cur_sector + 1 >= this->sectors_per_track[this->cur_track]) {
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this->next_sector = 0;
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return this->sector_delay + this->index_delay + this->addr_mark_delay;
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}
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this->next_sector = this->cur_sector + 1;
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return this->sector_delay - this->addr_mark_delay;
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}
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uint64_t MacSuperDrive::sector_data_delay()
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{
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return MFM_SECT_DATA_DELAY;
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}
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SectorHdr MacSuperDrive::current_sector_header()
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{
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this->cur_sector = this->next_sector;
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// MFM sector numbering is 1-based so we need to bump sector number
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uint8_t sector_num = this->cur_sector + ((this->rec_method == RecMethod::MFM) ? 1 : 0);
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return SectorHdr {
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this->cur_track,
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this->cur_head,
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sector_num,
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this->format_byte
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};
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}
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char* MacSuperDrive::get_sector_data_ptr(int sector_num)
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{
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return this->disk_data.get() +
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((this->track2lblk[this->cur_track] +
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(this->cur_head * this->sectors_per_track[this->cur_track]) +
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sector_num - 1) * 512
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);
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}
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