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313 lines
8.7 KiB
C++
313 lines
8.7 KiB
C++
//
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// i8272.cpp
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// Clock Signal
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//
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// Created by Thomas Harte on 05/08/2017.
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// Copyright © 2017 Thomas Harte. All rights reserved.
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//
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#include "i8272.hpp"
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#include <cstdio>
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using namespace Intel;
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namespace {
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const uint8_t StatusRQM = 0x80; // Set: ready to send or receive from processor.
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const uint8_t StatusDIO = 0x40; // Set: data is expected to be taken from the 8272 by the processor.
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const uint8_t StatusNDM = 0x20; // Set: the execution phase of a data transfer command is ongoing and DMA mode is disabled.
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const uint8_t StatusD3B = 0x08; // Set: drive 3 is seeking.
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const uint8_t StatusD2B = 0x04; // Set: drive 2 is seeking.
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const uint8_t StatusD1B = 0x02; // Set: drive 1 is seeking.
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const uint8_t StatusD0B = 0x01; // Set: drive 0 is seeking.
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}
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i8272::i8272(Cycles clock_rate, int clock_rate_multiplier, int revolutions_per_minute) :
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Storage::Disk::MFMController(clock_rate, clock_rate_multiplier, revolutions_per_minute),
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main_status_(StatusRQM),
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interesting_event_mask_((int)Event8272::CommandByte),
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resume_point_(0),
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delay_time_(0),
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status_{0, 0, 0, 0} {
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posit_event((int)Event8272::CommandByte);
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}
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void i8272::run_for(Cycles cycles) {
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Storage::Disk::MFMController::run_for(cycles);
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// check for an expired timer
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if(delay_time_ > 0) {
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if(cycles.as_int() >= delay_time_) {
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delay_time_ = 0;
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posit_event((int)Event8272::Timer);
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} else {
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delay_time_ -= cycles.as_int();
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}
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}
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// update seek status of any drives presently seeking
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for(int c = 0; c < 4; c++) {
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if(drives_[c].phase == Drive::Seeking) {
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drives_[c].step_rate_counter += cycles.as_int();
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int steps = drives_[c].step_rate_counter / (8000 * step_rate_time_);
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drives_[c].step_rate_counter %= (8000 * step_rate_time_);
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while(steps--) {
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if(
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(drives_[c].target_head_position == (int)drives_[c].head_position) ||
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(drives_[c].drive.get_is_track_zero() && drives_[c].target_head_position == -1)) {
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drives_[c].phase = Drive::CompletedSeeking;
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if(drives_[c].target_head_position == -1) drives_[c].head_position = 0;
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main_status_ &= ~(1 << c);
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} else {
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int direction = (drives_[c].target_head_position < drives_[c].head_position) ? -1 : 1;
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drives_[c].drive.step(direction);
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drives_[c].head_position += direction;
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}
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}
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}
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}
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}
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void i8272::set_register(int address, uint8_t value) {
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// don't consider attempted sets to the status register
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if(!address) return;
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// if not ready for commands, do nothing
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if(!(main_status_ & StatusRQM)) return;
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// accumulate latest byte in the command byte sequence
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command_.push_back(value);
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posit_event((int)Event8272::CommandByte);
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}
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uint8_t i8272::get_register(int address) {
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if(address) {
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printf("8272 get data\n");
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if(result_.empty()) return 0xff;
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uint8_t result = result_.back();
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result_.pop_back();
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if(result_.empty()) posit_event((int)Event8272::ResultEmpty);
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return result;
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} else {
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printf("8272 get main status\n");
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return main_status_;
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}
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}
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void i8272::set_disk(std::shared_ptr<Storage::Disk::Disk> disk, int drive) {
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if(drive < 4 && drive >= 0) {
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drives_[drive].drive.set_disk(disk);
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}
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}
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#define BEGIN_SECTION() switch(resume_point_) { default:
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#define END_SECTION() }
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#define WAIT_FOR_EVENT(mask) resume_point_ = __LINE__; interesting_event_mask_ = (int)mask; return; case __LINE__:
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#define FIND_HEADER() \
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{ \
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find_header: WAIT_FOR_EVENT(Event::Token); \
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if(get_latest_token().type != Token::ID) goto find_header; \
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}
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#define READ_HEADER() \
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distance_into_header_ = 0; \
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set_data_mode(Reading); \
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{ \
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read_header: WAIT_FOR_EVENT(Event::Token); \
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header_[distance_into_header_] = get_latest_token().byte_value; \
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distance_into_header_++; \
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if(distance_into_header_ != 7) goto read_header; \
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} \
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set_data_mode(Scanning);
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void i8272::posit_event(int type) {
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if(!(interesting_event_mask_ & type)) return;
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interesting_event_mask_ &= ~type;
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BEGIN_SECTION();
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wait_for_command:
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set_data_mode(Storage::Disk::MFMController::DataMode::Scanning);
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command_.clear();
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wait_for_complete_command_sequence:
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main_status_ |= StatusRQM;
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WAIT_FOR_EVENT(Event8272::CommandByte)
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main_status_ &= ~StatusRQM;
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switch(command_[0] & 0x1f) {
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case 0x06: // read data
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if(command_.size() < 9) goto wait_for_complete_command_sequence;
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goto read_data;
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case 0x0b: // read deleted data
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if(command_.size() < 9) goto wait_for_complete_command_sequence;
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goto read_deleted_data;
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case 0x05: // write data
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if(command_.size() < 9) goto wait_for_complete_command_sequence;
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goto write_data;
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case 0x09: // write deleted data
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if(command_.size() < 9) goto wait_for_complete_command_sequence;
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goto write_deleted_data;
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case 0x02: // read track
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if(command_.size() < 9) goto wait_for_complete_command_sequence;
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goto read_track;
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case 0x0a: // read ID
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if(command_.size() < 2) goto wait_for_complete_command_sequence;
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goto read_id;
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case 0x0d: // format track
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if(command_.size() < 6) goto wait_for_complete_command_sequence;
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goto format_track;
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case 0x11: // scan low
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if(command_.size() < 9) goto wait_for_complete_command_sequence;
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goto scan_low;
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case 0x19: // scan low or equal
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if(command_.size() < 9) goto wait_for_complete_command_sequence;
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goto scan_low_or_equal;
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case 0x1d: // scan high or equal
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if(command_.size() < 9) goto wait_for_complete_command_sequence;
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goto scan_high_or_equal;
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case 0x07: // recalibrate
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if(command_.size() < 2) goto wait_for_complete_command_sequence;
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goto recalibrate;
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case 0x08: // sense interrupt status
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goto sense_interrupt_status;
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case 0x03: // specify
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if(command_.size() < 3) goto wait_for_complete_command_sequence;
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goto specify;
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case 0x04: // sense drive status
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if(command_.size() < 2) goto wait_for_complete_command_sequence;
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goto sense_drive_status;
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case 0x0f: // seek
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if(command_.size() < 3) goto wait_for_complete_command_sequence;
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goto seek;
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default: // invalid
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goto invalid;
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}
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read_data:
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FIND_HEADER();
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READ_HEADER();
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printf("Read data unimplemented!!\n");
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goto wait_for_command;
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read_deleted_data:
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printf("Read deleted data unimplemented!!\n");
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goto wait_for_command;
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write_data:
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printf("Write data unimplemented!!\n");
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goto wait_for_command;
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write_deleted_data:
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printf("Write deleted data unimplemented!!\n");
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goto wait_for_command;
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read_track:
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printf("Read track unimplemented!!\n");
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goto wait_for_command;
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read_id:
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printf("Read ID unimplemented!!\n");
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goto wait_for_command;
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format_track:
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printf("Fromat track unimplemented!!\n");
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goto wait_for_command;
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scan_low:
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printf("Scan low unimplemented!!\n");
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goto wait_for_command;
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scan_low_or_equal:
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printf("Scan low or equal unimplemented!!\n");
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goto wait_for_command;
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scan_high_or_equal:
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printf("Scan high or equal unimplemented!!\n");
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goto wait_for_command;
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recalibrate:
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printf("Recalibrate\n");
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drives_[command_[1]&3].phase = Drive::Seeking;
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drives_[command_[1]&3].permitted_steps = 77;
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drives_[command_[1]&3].target_head_position = -1;
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drives_[command_[1]&3].step_rate_counter = 0;
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main_status_ |= (1 << command_[1]&3);
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goto wait_for_command;
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sense_interrupt_status:
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printf("Sense interrupt status\n");
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// Find the first drive that is in the CompletedSeeking state and return for that;
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// if none has done so then return a single 0x80.
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{
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int found_drive = -1;
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for(int c = 0; c < 4; c++) {
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if(drives_[c].phase == Drive::CompletedSeeking) {
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found_drive = c;
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break;
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}
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}
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if(found_drive != -1) {
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drives_[found_drive].phase = Drive::NotSeeking;
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result_.push_back(drives_[found_drive].head_position);
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status_[0] = (uint8_t)found_drive | 0x20;
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result_.push_back(status_[0]);
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} else {
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result_.push_back(0x80);
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}
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}
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goto post_result;
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specify:
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printf("Specify\n");
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step_rate_time_ = command_[1] &0xf0; // i.e. 16 to 240m
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head_unload_time_ = command_[1] & 0x0f; // i.e. 1 to 16ms
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head_load_time_ = command_[2] & ~1; // i.e. 2 to 254 ms in increments of 2ms
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dma_mode_ = !(command_[2] & 1);
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goto wait_for_command;
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sense_drive_status:
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printf("Sense drive status\n");
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result_.push_back(status_[3]);
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goto post_result;
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seek:
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printf("Seek\n");
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drives_[command_[1]&3].phase = Drive::Seeking;
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drives_[command_[1]&3].permitted_steps = -1;
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drives_[command_[1]&3].target_head_position = command_[2];
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drives_[command_[1]&3].step_rate_counter = 0;
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main_status_ |= (1 << command_[1]&3);
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goto wait_for_command;
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invalid:
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// A no-op, causing the FDC to go back into standby mode.
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goto wait_for_command;
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post_result:
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main_status_ |= StatusRQM | StatusDIO;
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WAIT_FOR_EVENT(Event8272::ResultEmpty);
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main_status_ &= ~StatusDIO;
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goto wait_for_command;
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END_SECTION()
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}
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