mirror of
https://github.com/whscullin/apple2js.git
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ba203498f4
* Clean up remaining Javascript * ProDOS to TypeScript. * NSC to TypeScript
471 lines
15 KiB
TypeScript
471 lines
15 KiB
TypeScript
import type { byte, Card, Restorable } from '../types';
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import { debug, toHex } from '../util';
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import { rom as readOnlyRom } from '../roms/cards/cffa';
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import { read2MGHeader } from '../formats/2mg';
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import { ProDOSVolume } from '../formats/prodos';
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import createBlockDisk from '../formats/block';
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import { dump } from '../formats/prodos/utils';
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import {
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BlockDisk,
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BlockFormat,
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ENCODING_BLOCK,
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MassStorage,
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} from 'js/formats/types';
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const rom = new Uint8Array(readOnlyRom);
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const COMMANDS = {
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ATACRead: 0x20,
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ATACWrite: 0x30,
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ATAIdentify: 0xEC
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};
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// CFFA Card Settings
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const SETTINGS = {
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Max32MBPartitionsDev0: 0x800,
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Max32MBPartitionsDev1: 0x801,
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DefaultBootDevice: 0x802,
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DefaultBootPartition: 0x803,
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Reserved: 0x804, // 4 bytes
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WriteProtectBits: 0x808,
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MenuSnagMask: 0x809,
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MenuSnagKey: 0x80A,
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BootTimeDelayTenths: 0x80B,
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BusResetSeconds: 0x80C,
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CheckDeviceTenths: 0x80D,
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ConfigOptionBits: 0x80E,
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BlockOffsetDev0: 0x80F, // 3 bytes
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BlockOffsetDev1: 0x812, // 3 bytes
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Unused: 0x815
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};
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// CFFA ATA Register Locations
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const LOC = {
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ATADataHigh: 0x80,
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SetCSMask: 0x81,
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ClearCSMask: 0x82,
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WriteEEPROM: 0x83,
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NoWriteEEPROM: 0x84,
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ATADevCtrl: 0x86,
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ATAAltStatus: 0x86,
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ATADataLow: 0x88,
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AError: 0x89,
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ASectorCnt: 0x8a,
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ASector: 0x8b,
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ATACylinder: 0x8c,
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ATACylinderH: 0x8d,
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ATAHead: 0x8e,
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ATACommand: 0x8f,
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ATAStatus: 0x8f
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};
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// ATA Status Bits
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const STATUS = {
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BSY: 0x80, // Busy
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DRDY: 0x40, // Drive ready. 1 when ready
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DWF: 0x20, // Drive write fault. 1 when fault
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DSC: 0x10, // Disk seek complete. 1 when not seeking
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DRQ: 0x08, // Data request. 1 when ready to write
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CORR: 0x04, // Correct data. 1 on correctable error
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IDX: 0x02, // 1 once per revolution
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ERR: 0x01 // Error. 1 on error
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};
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// ATA Identity Block Locations
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const IDENTITY = {
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SectorCountLow: 58,
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SectorCountHigh: 57
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};
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export interface CFFAState {
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disks: Array<BlockDisk | null>
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}
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export default class CFFA implements Card, MassStorage, Restorable<CFFAState> {
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// CFFA internal Flags
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private _disableSignalling = false;
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private _writeEEPROM = true;
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private _lba = true;
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// LBA/CHS registers
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private _sectorCnt = 1;
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private _sector = 0;
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private _cylinder = 0;
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private _cylinderH = 0;
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private _head = 0;
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private _drive = 0;
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// CFFA Data High register
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private _dataHigh = 0;
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// Current Sector
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private _curSector: Uint16Array | number[];
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private _curWord = 0;
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// ATA Status registers
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private _interruptsEnabled = false;
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private _altStatus = 0;
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private _error = 0;
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private _identity: number[][] = [[], []];
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// Disk data
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private _partitions: Array<ProDOSVolume|null> = [
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// Drive 1
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null,
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// Drive 2
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null
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];
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private _sectors: Uint16Array[][] = [
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// Drive 1
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[],
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// Drive 2
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[]
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];
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constructor() {
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debug('CFFA');
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for (let idx = 0; idx < 0x100; idx++) {
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this._identity[0][idx] = 0;
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this._identity[1][idx] = 0;
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}
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rom[SETTINGS.Max32MBPartitionsDev0] = 0x1;
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rom[SETTINGS.Max32MBPartitionsDev1] = 0x0;
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rom[SETTINGS.BootTimeDelayTenths] = 0x5; // 0.5 seconds
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rom[SETTINGS.CheckDeviceTenths] = 0x5; // 0.5 seconds
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}
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// Verbose debug method
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private _debug(..._args: any[]) {
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// debug.apply(this, arguments);
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}
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private _reset() {
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this._debug('reset');
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this._sectorCnt = 1;
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this._sector = 0;
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this._cylinder = 0;
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this._cylinderH = 0;
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this._head = 0;
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this._drive = 0;
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this._dataHigh = 0;
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}
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// Convert status register into readable string
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private _statusString(status: byte) {
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const statusArray = [];
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let flag: keyof typeof STATUS;
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for (flag in STATUS) {
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if(status & STATUS[flag]) {
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statusArray.push(flag);
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}
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}
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return statusArray.join('|');
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}
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// Dump sector as hex and ascii
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private _dumpSector(sector: number) {
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if (sector >= this._sectors[this._drive].length) {
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this._debug('dump sector out of range', sector);
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return;
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}
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for (let idx = 0; idx < 16; idx++) {
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const row = [];
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const charRow = [];
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for (let jdx = 0; jdx < 16; jdx++) {
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const val = this._sectors[this._drive][sector][idx * 16 + jdx];
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row.push(toHex(val, 4));
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const low = val & 0x7f;
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const hi = val >> 8 & 0x7f;
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charRow.push(low > 0x1f ? String.fromCharCode(low) : '.');
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charRow.push(hi > 0x1f ? String.fromCharCode(hi) : '.');
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}
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this._debug(row.join(' '), ' ', charRow.join(''));
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}
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}
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// Card I/O access
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private _access(off: byte, val: byte) {
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const readMode = val === undefined;
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let retVal;
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let sector;
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if (readMode) {
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retVal = 0;
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switch (off & 0x8f) {
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case LOC.ATADataHigh: // 0x00
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retVal = this._dataHigh;
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break;
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case LOC.SetCSMask: // 0x01
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this._disableSignalling = true;
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break;
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case LOC.ClearCSMask: // 0x02
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this._disableSignalling = false;
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break;
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case LOC.WriteEEPROM: // 0x03
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this._writeEEPROM = true;
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break;
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case LOC.NoWriteEEPROM: // 0x04
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this._writeEEPROM = false;
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break;
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case LOC.ATAAltStatus: // 0x06
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retVal = this._altStatus;
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break;
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case LOC.ATADataLow: // 0x08
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this._dataHigh = this._curSector[this._curWord] >> 8;
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retVal = this._curSector[this._curWord] & 0xff;
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if (!this._disableSignalling) {
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this._curWord++;
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}
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break;
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case LOC.AError: // 0x09
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retVal = this._error;
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break;
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case LOC.ASectorCnt: // 0x0A
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retVal = this._sectorCnt;
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break;
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case LOC.ASector: // 0x0B
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retVal = this._sector;
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break;
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case LOC.ATACylinder: // 0x0C
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retVal = this._cylinder;
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break;
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case LOC.ATACylinderH: // 0x0D
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retVal = this._cylinderH;
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break;
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case LOC.ATAHead: // 0x0E
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retVal = this._head | (this._lba ? 0x40 : 0) | (this._drive ? 0x10 : 0) | 0xA0;
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break;
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case LOC.ATAStatus: // 0x0F
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retVal = this._sectors[this._drive].length > 0 ? STATUS.DRDY | STATUS.DSC : 0;
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this._debug('returning status', this._statusString(retVal));
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break;
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default:
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debug('read unknown soft switch', toHex(off));
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}
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if (off & 0x7) { // Anything but data high/low
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this._debug('read soft switch', toHex(off), toHex(retVal));
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}
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} else {
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if (off & 0x7) { // Anything but data high/low
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this._debug('write soft switch', toHex(off), toHex(val));
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}
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switch (off & 0x8f) {
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case LOC.ATADataHigh: // 0x00
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this._dataHigh = val;
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break;
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case LOC.SetCSMask: // 0x01
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this._disableSignalling = true;
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break;
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case LOC.ClearCSMask: // 0x02
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this._disableSignalling = false;
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break;
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case LOC.WriteEEPROM: // 0x03
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this._writeEEPROM = true;
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break;
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case LOC.NoWriteEEPROM: // 0x04
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this._writeEEPROM = false;
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break;
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case LOC.ATADevCtrl: // 0x06
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this._debug('devCtrl:', toHex(val));
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this._interruptsEnabled = (val & 0x04) ? true : false;
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this._debug('Interrupts', this._interruptsEnabled ? 'enabled' : 'disabled');
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if (val & 0x02) {
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this._reset();
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}
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break;
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case LOC.ATADataLow: // 0x08
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this._curSector[this._curWord] = this._dataHigh << 8 | val;
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this._curWord++;
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break;
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case LOC.ASectorCnt: // 0x0a
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this._debug('setting sector count', val);
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this._sectorCnt = val;
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break;
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case LOC.ASector: // 0x0b
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this._debug('setting sector', toHex(val));
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this._sector = val;
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break;
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case LOC.ATACylinder: // 0x0c
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this._debug('setting cylinder', toHex(val));
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this._cylinder = val;
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break;
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case LOC.ATACylinderH: // 0x0d
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this._debug('setting cylinder high', toHex(val));
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this._cylinderH = val;
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break;
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case LOC.ATAHead:
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this._head = val & 0xf;
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this._lba = val & 0x40 ? true : false;
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this._drive = val & 0x10 ? 1 : 0;
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this._debug('setting head', toHex(val & 0xf), 'drive', this._drive);
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if (!this._lba) {
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console.error('CHS mode not supported');
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}
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break;
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case LOC.ATACommand: // 0x0f
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this._debug('command:', toHex(val));
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sector = this._head << 24 | this._cylinderH << 16 | this._cylinder << 8 | this._sector;
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this._dumpSector(sector);
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switch (val) {
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case COMMANDS.ATAIdentify:
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this._debug('ATA identify');
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this._curSector = this._identity[this._drive];
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this._curWord = 0;
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break;
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case COMMANDS.ATACRead:
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this._debug('ATA read sector', toHex(this._cylinderH), toHex(this._cylinder), toHex(this._sector), sector);
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this._curSector = this._sectors[this._drive][sector];
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this._curWord = 0;
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break;
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case COMMANDS.ATACWrite:
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this._debug('ATA write sector', toHex(this._cylinderH), toHex(this._cylinder), toHex(this._sector), sector);
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this._curSector = this._sectors[this._drive][sector];
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this._curWord = 0;
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break;
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default:
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debug('unknown command', toHex(val));
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}
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break;
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default:
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debug('write unknown soft switch', toHex(off), toHex(val));
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}
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}
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return retVal;
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}
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ioSwitch(off: byte, val: byte) {
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return this._access(off, val);
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}
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read(page: byte, off: byte) {
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return rom[(page - 0xc0) << 8 | off];
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}
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write(page: byte, off: byte, val: byte) {
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if (this._writeEEPROM) {
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this._debug('writing', toHex(page << 8 | off), toHex(val));
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rom[(page - 0xc0) << 8 | off] - val;
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}
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}
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getState() {
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return {
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disks: this._partitions.map(
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(partition) => {
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let result: BlockDisk | null = null;
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if (partition) {
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const disk: BlockDisk = partition.disk();
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result = {
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blocks: disk.blocks.map(
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(block) => new Uint8Array(block)
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),
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encoding: ENCODING_BLOCK,
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readOnly: disk.readOnly,
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name: disk.name,
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};
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}
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return result;
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}
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)
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};
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}
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setState(state: CFFAState) {
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state.disks.forEach(
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(disk, idx) => {
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if (disk) {
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this.setBlockVolume(idx + 1, disk);
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} else {
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this.resetBlockVolume(idx + 1);
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}
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}
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);
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}
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resetBlockVolume(drive: number) {
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drive = drive - 1;
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this._sectors[drive] = [];
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this._identity[drive][IDENTITY.SectorCountHigh] = 0;
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this._identity[drive][IDENTITY.SectorCountLow] = 0;
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if (drive) {
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rom[SETTINGS.Max32MBPartitionsDev1] = 0x0;
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} else {
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rom[SETTINGS.Max32MBPartitionsDev0] = 0x0;
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}
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}
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setBlockVolume(drive: number, disk: BlockDisk) {
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drive = drive - 1;
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// Convert 512 byte blocks into 256 word sectors
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this._sectors[drive] = disk.blocks.map(function(block) {
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return new Uint16Array(block.buffer);
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});
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this._identity[drive][IDENTITY.SectorCountHigh] = this._sectors[0].length & 0xffff;
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this._identity[drive][IDENTITY.SectorCountLow] = this._sectors[0].length >> 16;
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const prodos = new ProDOSVolume(disk);
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dump(prodos);
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this._partitions[drive] = prodos;
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if (drive) {
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rom[SETTINGS.Max32MBPartitionsDev1] = 0x1;
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} else {
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rom[SETTINGS.Max32MBPartitionsDev0] = 0x1;
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}
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return true;
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}
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// Assign a raw disk image to a drive. Must be 2mg or raw PO image.
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setBinary(drive: number, name: string, ext: BlockFormat, rawData: ArrayBuffer) {
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const volume = 254;
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const readOnly = false;
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if (ext === '2mg') {
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const { bytes, offset } = read2MGHeader(rawData);
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rawData = rawData.slice(offset, offset + bytes);
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}
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const options = {
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rawData,
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name,
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volume,
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readOnly
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};
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const disk = createBlockDisk(options);
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return this.setBlockVolume(drive, disk);
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}
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}
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