/*
DingusPPC - The Experimental PowerPC Macintosh emulator
Copyright (C) 2018-22 divingkatae and maximum
(theweirdo) spatium
(Contact divingkatae#1017 or powermax#2286 on Discord for more info)
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see .
*/
/** @file Sander-Wozniak Machine 3 (SWIM3) emulation. */
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
using namespace Swim3;
Swim3Ctrl::Swim3Ctrl()
{
this->name = "SWIM3";
this->supported_types = HWCompType::FLOPPY_CTRL;
this->setup_reg = 0;
this->mode_reg = 0;
this->int_reg = 0;
this->int_flags = 0;
this->int_mask = 0;
this->error = 0;
this->step_count = 0;
this->xfer_cnt = 0;
this->first_sec = 0xFF;
this->cur_state = SWIM3_IDLE;
// Attach virtual Superdrive to the internal drive connector
// TODO: make SWIM3/drive wiring user selectable
this->int_drive = std::unique_ptr
(new MacSuperdrive::MacSuperDrive());
}
int Swim3Ctrl::device_postinit()
{
this->int_ctrl = dynamic_cast(
gMachineObj->get_comp_by_type(HWCompType::INT_CTRL));
this->irq_id = this->int_ctrl->register_dev_int(IntSrc::SWIM3);
// if a floppy image was given "insert" it into the virtual superdrive
std::string fd_image_path = GET_STR_PROP("fdd_img");
int fd_write_prot = GET_BIN_PROP("fdd_wr_prot");
if (!fd_image_path.empty()) {
this->int_drive->insert_disk(fd_image_path, fd_write_prot);
}
return 0;
};
uint8_t Swim3Ctrl::read(uint8_t reg_offset)
{
uint8_t status_addr, rddata_val, old_int_flags, old_error;
switch(reg_offset) {
case Swim3Reg::Timer:
return this->calc_timer_val();
case Swim3Reg::Error:
old_error = this->error;
this->error = 0;
return old_error;
case Swim3Reg::Phase:
return this->phase_lines;
case Swim3Reg::Setup:
return this->setup_reg;
case Swim3Reg::Handshake_Mode1:
if (this->mode_reg & 2) { // internal drive?
status_addr = ((this->mode_reg & 0x20) >> 2) | (this->phase_lines & 7);
rddata_val = this->int_drive->status(status_addr) & 1;
// transfer rddata_val to both bit 2 (RDDATA) and bit 3 (SENSE)
// because those signals seem to be historically wired together
return (rddata_val << 2) | (rddata_val << 3);
}
return 0xC; // report both RdData & Sense high
case Swim3Reg::Interrupt_Flags:
old_int_flags = this->int_flags;
this->int_flags = 0; // read from this register clears all flags
update_irq();
return old_int_flags;
case Swim3Reg::Step:
return this->step_count;
case Swim3Reg::Current_Track:
return this->cur_track;
case Swim3Reg::Current_Sector:
return this->cur_sector;
case Swim3Reg::Gap_Format:
return this->format;
case Swim3Reg::First_Sector:
return this->first_sec;
case Swim3Reg::Sectors_To_Xfer:
return this->xfer_cnt;
case Swim3Reg::Interrupt_Mask:
return this->int_mask;
default:
LOG_F(INFO, "SWIM3: reading from 0x%X register", reg_offset);
}
return 0;
}
void Swim3Ctrl::write(uint8_t reg_offset, uint8_t value)
{
uint8_t status_addr;
switch(reg_offset) {
case Swim3Reg::Timer:
this->init_timer(value);
break;
case Swim3Reg::Param_Data:
this->pram = value;
break;
case Swim3Reg::Phase:
this->phase_lines = value & 0xF;
if (this->phase_lines & 8) { // CA3 aka LSTRB high -> sending a command to the drive
if (this->mode_reg & 2) { // if internal drive is selected
this->int_drive->command(
((this->mode_reg & 0x20) >> 3) | (this->phase_lines & 3),
(value >> 2) & 1
);
}
} else if (this->phase_lines == 4 && (this->mode_reg & 2)) {
status_addr = ((this->mode_reg & 0x20) >> 2) | (this->phase_lines & 7);
this->rd_line = this->int_drive->status(status_addr) & 1;
}
break;
case Swim3Reg::Setup:
this->setup_reg = value;
break;
case Swim3Reg::Status_Mode0:
// ones in value clear the corresponding bits in the mode register
if ((this->mode_reg & value) & (SWIM3_GO | SWIM3_GO_STEP)) {
if (value & SWIM3_GO_STEP) {
stop_stepping();
} else {
stop_disk_access();
}
}
this->mode_reg &= ~value;
break;
case Swim3Reg::Handshake_Mode1:
// ones in value set the corresponding bits in the mode register
if ((this->mode_reg ^ value) & (SWIM3_GO | SWIM3_GO_STEP)) {
if (value & SWIM3_GO_STEP) {
start_stepping();
} else {
start_disk_access();
}
}
this->mode_reg |= value;
break;
case Swim3Reg::Step:
this->step_count = value;
break;
case Swim3Reg::Gap_Format:
this->gap_size = value;
break;
case Swim3Reg::First_Sector:
this->first_sec = value;
break;
case Swim3Reg::Sectors_To_Xfer:
this->xfer_cnt = value;
break;
case Swim3Reg::Interrupt_Mask:
this->int_mask = value;
break;
default:
LOG_F(INFO, "SWIM3: writing 0x%X to register 0x%X", value, reg_offset);
}
}
void Swim3Ctrl::update_irq()
{
if (this->mode_reg & SWIM3_INT_ENA) {
uint8_t new_irq = !!(this->int_flags & this->int_mask);
if (new_irq != this->irq) {
this->irq = new_irq;
this->int_ctrl->ack_int(this->irq_id, new_irq);
}
}
}
void Swim3Ctrl::do_step()
{
if (this->mode_reg & SWIM3_GO_STEP && this->step_count) { // are we still stepping?
// instruct the drive to perform single step in current direction
this->int_drive->command(MacSuperdrive::CommandAddr::Do_Step, 0);
if (--this->step_count == 0) {
if (this->step_timer_id) {
this->stop_stepping();
}
this->int_flags |= INT_STEP_DONE;
update_irq();
}
}
}
void Swim3Ctrl::start_stepping()
{
if (!this->step_count) {
LOG_F(WARNING, "SWIM3: step_count is zero while go_step is active!");
return;
}
if (this->mode_reg & SWIM3_GO_STEP || this->step_timer_id) {
LOG_F(ERROR, "SWIM3: another stepping action is running!");
return;
}
if (this->mode_reg & SWIM3_GO || this->access_timer_id) {
LOG_F(ERROR, "SWIM3: stepping attempt while disk access is in progress!");
return;
}
if ((((this->mode_reg & 0x20) >> 3) | (this->phase_lines & 3))
!= MacSuperdrive::CommandAddr::Do_Step) {
LOG_F(WARNING, "SWIM3: invalid command address on the phase lines!");
return;
}
this->mode_reg |= SWIM3_GO_STEP;
// step count > 1 requires periodic task
if (this->step_count > 1) {
this->step_timer_id = TimerManager::get_instance()->add_cyclic_timer(
USECS_TO_NSECS(80),
[this]() {
this->do_step();
}
);
}
// perform the first step immediately
do_step();
}
void Swim3Ctrl::stop_stepping()
{
// cancel stepping task
if (this->step_timer_id) {
TimerManager::get_instance()->cancel_timer(this->step_timer_id);
}
this->step_timer_id = 0;
this->step_count = 0; // not sure this one is required
}
void Swim3Ctrl::start_disk_access()
{
if (this->mode_reg & SWIM3_GO || this->access_timer_id) {
LOG_F(ERROR, "SWIM3: another disk access is running!");
return;
}
if (this->mode_reg & SWIM3_GO_STEP || this->step_timer_id) {
LOG_F(ERROR, "SWIM3: disk access attempt while stepping is in progress!");
return;
}
if (this->mode_reg & SWIM3_WR_MODE) {
LOG_F(ERROR, "SWIM3: writing not implemented yet");
return;
}
this->mode_reg |= SWIM3_GO;
LOG_F(9, "SWIM3: disk access started!");
this->target_sect = this->first_sec;
this->access_timer_id = TimerManager::get_instance()->add_oneshot_timer(
this->int_drive->sync_to_disk(),
[this]() {
this->cur_state = SWIM3_ADDR_MARK_SEARCH;
this->disk_access();
}
);
}
void Swim3Ctrl::disk_access()
{
MacSuperdrive::SectorHdr hdr;
uint64_t delay;
switch(this->cur_state) {
case SWIM3_ADDR_MARK_SEARCH:
hdr = this->int_drive->current_sector_header();
// update the corresponding SWIM3 registers
this->cur_track = ((hdr.side & 1) << 7) | (hdr.track & 0x7F);
this->cur_sector = 0x80 /* CRC/checksum valid */ | (hdr.sector & 0x7F);
this->format = hdr.format;
// generate ID_read interrupt
this->int_flags |= INT_ID_READ;
update_irq();
if ((this->cur_sector & 0x7F) == this->target_sect) {
// sector matches -> transfer its data
this->cur_state = SWIM3_DATA_XFER;
delay = this->int_drive->sector_data_delay();
} else {
// move to next address mark
this->cur_state = SWIM3_ADDR_MARK_SEARCH;
delay = this->int_drive->next_sector_delay();
}
break;
case SWIM3_DATA_XFER:
// transfer sector data over DMA
this->dma_ch->push_data(this->int_drive->get_sector_data_ptr(this->cur_sector & 0x7F), 512);
if (--this->xfer_cnt == 0) {
this->stop_disk_access();
// generate sector_done interrupt
this->int_flags |= INT_SECT_DONE;
update_irq();
return;
}
this->cur_state = SWIM3_ADDR_MARK_SEARCH;
delay = this->int_drive->next_addr_mark_delay(&this->target_sect);
break;
default:
LOG_F(ERROR, "SWIM3: unknown disk access phase 0x%X", this->cur_state);
return;
}
this->access_timer_id = TimerManager::get_instance()->add_oneshot_timer(
delay,
[this]() {
this->disk_access();
}
);
}
void Swim3Ctrl::stop_disk_access()
{
// cancel disk access timer
if (this->access_timer_id) {
TimerManager::get_instance()->cancel_timer(this->access_timer_id);
}
this->access_timer_id = 0;
}
void Swim3Ctrl::init_timer(const uint8_t start_val)
{
if (this->timer_val) {
LOG_F(WARNING, "SWIM3: attempt to re-arm the timer");
}
this->timer_val = start_val;
if (!this->timer_val) {
this->one_us_timer_start = 0;
return;
}
this->one_us_timer_start = TimerManager::get_instance()->current_time_ns();
this->one_us_timer_id = TimerManager::get_instance()->add_oneshot_timer(
this->timer_val * NS_PER_USEC,
[this]() {
this->timer_val = 0;
this->int_flags |= INT_TIMER_DONE;
update_irq();
}
);
}
uint8_t Swim3Ctrl::calc_timer_val()
{
if (!this->timer_val) {
return 0;
}
uint64_t time_now = TimerManager::get_instance()->current_time_ns();
uint64_t us_elapsed = (time_now - this->one_us_timer_start) / NS_PER_USEC;
if (us_elapsed > this->timer_val) {
return 0;
} else {
return (this->timer_val - us_elapsed) & 0xFFU;
}
}
// floppy disk formats properties for the cases
// where disk format needs to be specified manually
static const std::vector FloppyFormats = {
"", "GCR_400K", "GCR_800K", "MFM_720K", "MFM_1440K"
};
static const PropMap Swim3_Properties = {
{"fdd_img",
new StrProperty("")},
{"fdd_wr_prot",
new BinProperty(0)},
{"fdd_fmt",
new StrProperty("", FloppyFormats)},
};
static const DeviceDescription Swim3_Descriptor = {
Swim3Ctrl::create, {}, Swim3_Properties
};
REGISTER_DEVICE(Swim3, Swim3_Descriptor);