blob: d609599aa378c59d8472aa29c9c3b08de407bc91 [file] [log] [blame] [raw]
"use strict";
/**
* Constructor for emulator instances.
*
* Usage: `var emulator = new V86Starter(options);`
*
* Options can have the following properties (all optional, default in parenthesis):
*
* - `memory_size number` (16 * 1024 * 1024) - The memory size in bytes, should
* be a power of 2.
* - `vga_memory_size number` (8 * 1024 * 1024) - VGA memory size in bytes.
* - `autostart boolean` (false) - If emulation should be started when emulator
* is ready.
* - `disable_keyboard boolean` (false) - If the keyboard should be disabled.
* - `disable_mouse boolean` (false) - If the mouse should be disabled.
* - `network_relay_url string` (No network card) - The url of a server running
* websockproxy. See
* https://github.com/copy/v86/blob/master/docs/networking.md.
* - `bios Object` (No bios) - Either a url pointing to a bios or an
* ArrayBuffer, see below.
* - `vga_bios Object` (No VGA bios) - VGA bios, see below.
* - `hda Object` (No hard drive) - First hard disk, see below.
* - `fda Object` (No floppy disk) - First floppy disk, see below.
* - `cdrom Object` (No cd drive) - CD disk, see below.
* - `initial_state Object` (Normal boot) - An initial state to load, see
* [`restore_state`](#restore_statearraybuffer-state) and below.
* - `serial_container HTMLTextAreaElement` (No serial terminal) - A textarea
* that will receive and send data to the emulated serial terminal.
* Alternatively the serial terminal can also be accessed programatically,
* see https://github.com/copy/v86/blob/master/docs/samples/serial.html.
* - `screen_container HTMLElement` (No screen) - An HTMLElement. This should
* have a certain structure, see
* https://github.com/copy/v86/blob/master/docs/samples/basic.html.
*
* There are two ways to load images (`bios`, `vga_bios`, `cdrom`, `hda`, ...):
*
* - Pass an object that has a url: `options.bios = { url:
* "http://copy.sh/v86/bios/seabios.bin" }`. Optionally, `async: true` can be
* added to the object, so that sectors of the image are loaded on demand
* instead of being loaded before boot (slower, but strongly recommended for
* big files).
* - Pass an `ArrayBuffer` or `File` object, for instance `options.hda = {
* buffer: new ArrayBuffer(512 * 1024) }` to add an empty hard drive.
*
*
* @param {Object} options Options to initialize the emulator with.
* @constructor
*/
function V86Starter(options)
{
var bus = Bus.create();
var adapter_bus = this.bus = bus[0];
this.emulator_bus = bus[1];
var emulator = this.v86 = new v86(bus[1]);
var settings = {};
settings.load_devices = true;
settings.memory_size = options["memory_size"] || 64 * 1024 * 1024;
settings.vga_memory_size = options["vga_memory_size"] || 8 * 1024 * 1024;
settings.boot_order = options["boot_order"] || 0x213;
settings.fda = undefined;
settings.fdb = undefined;
if(options["network_relay_url"])
{
this.network_adapter = new NetworkAdapter(options["network_relay_url"], adapter_bus);
settings.enable_ne2k = true;
}
if(!options["disable_keyboard"])
{
this.keyboard_adapter = new KeyboardAdapter(adapter_bus);
}
if(!options["disable_mouse"])
{
this.mouse_adapter = new MouseAdapter(adapter_bus);
}
if(options["screen_container"])
{
this.screen_adapter = new ScreenAdapter(options["screen_container"], adapter_bus);
}
if(options["serial_container"])
{
this.serial_adapter = new SerialAdapter(options["serial_container"], adapter_bus);
}
//settings.serial_adapter = new ModemAdapter();
var files_to_load = [];
function add_file(file, handler)
{
if(!file)
{
return;
}
if(file.buffer)
{
console.assert(
file.buffer instanceof ArrayBuffer || file.buffer instanceof File,
"buffer should be ArrayBuffer or File"
);
handler(file.buffer);
}
else if(file.url)
{
if(file.async)
{
handler(file);
}
else
{
files_to_load.push({
url: file.url,
handler: handler,
size: file.size,
as_text: file.as_text,
});
}
}
}
function put_on_settings(name, buffer)
{
switch(name)
{
case "hda":
settings.hda = buffer;
break;
case "hdb":
settings.hdb = buffer;
break;
case "cdrom":
settings.cdrom = buffer;
break;
case "fda":
settings.fda = buffer;
break;
case "fdb":
settings.fdb = buffer;
break;
case "bios":
settings.bios = buffer;
break;
case "vga_bios":
settings.vga_bios = buffer;
break;
default:
dbg_assert(false, name);
}
}
function make_sync_buffer(name, buffer)
{
if(buffer instanceof ArrayBuffer)
{
var result = new SyncBuffer(buffer);
}
else if(buffer instanceof File)
{
// SyncFileBuffer:
// - loads the whole disk image into memory, impossible for large files (more than 1GB)
// - can later serve get/set operations fast and synchronously
// - takes some time for first load, neglectable for small files (up to 100Mb)
//
// AsyncFileBuffer:
// - loads slices of the file asynchronously as requested
// - slower get/set
var result;
// Heuristics: If file is smaller than 16M, use SyncFileBuffer
if(buffer.size < 16 * 1024 * 1024)
{
result = new v86util.SyncFileBuffer(buffer);
result.load();
}
else
{
result = new v86util.AsyncFileBuffer(buffer);
}
//settings[name] = new SyncFileBuffer(buffer);
}
else if(buffer.async)
{
var result = new v86util.AsyncXHRBuffer(buffer.url, 512, buffer.size);
}
else
{
console.assert(false);
}
put_on_settings(name, result);
}
add_file(options["bios"], put_on_settings.bind(this, "bios"));
add_file(options["vga_bios"], put_on_settings.bind(this, "vga_bios"));
add_file(options["cdrom"], make_sync_buffer.bind(this, "cdrom"));
add_file(options["hda"], make_sync_buffer.bind(this, "hda"));
add_file(options["hdb"], make_sync_buffer.bind(this, "hdb"));
add_file(options["fda"], make_sync_buffer.bind(this, "fda"));
add_file(options["fdb"], make_sync_buffer.bind(this, "fdb"));
if(options["filesystem"])
{
var fs9p = new FS(options["filesystem"].baseurl);
settings.fs9p = fs9p;
add_file({ url: options["filesystem"].basefs, as_text: true, }, function(text)
{
//fs9p.LoadFilesystem({
// basefsURL: options["filesystem"].basefs,
//});
fs9p.OnJSONLoaded(text);
});
}
var initial_state_buffer;
if(options["initial_state"])
{
add_file(options["initial_state"], function(buffer)
{
initial_state_buffer = buffer;
});
}
var starter = this;
cont(0);
function cont(index)
{
var total = files_to_load.length;
if(index < total)
{
var f = files_to_load[index];
v86util.load_file(f.url, {
done: function done(result)
{
f.handler(result);
cont(index + 1);
},
progress: function progress(e)
{
starter.emulator_bus.send("download-progress", {
file_index: index,
file_count: total,
lengthComputable: e.lengthComputable,
total: f.size || e.total,
loaded: e.loaded,
});
},
as_text: f.as_text,
});
}
else
{
emulator.init(settings);
if(initial_state_buffer)
{
emulator.restore_state(initial_state_buffer);
}
if(options["autostart"])
{
emulator.run();
}
}
}
}
/**
* Start emulation. Do nothing if emulator is running already. Can be
* asynchronous.
*/
V86Starter.prototype.run = function()
{
this.v86.run();
};
/**
* Stop emulation. Do nothing if emulator is not running. Can be asynchronous.
*/
V86Starter.prototype.stop = function()
{
this.v86.stop();
};
/**
* Restart (force a reboot).
*/
V86Starter.prototype.restart = function()
{
this.v86.restart();
};
/**
* Add an event listener (the emulator is an event emitter). A list of events
* can be found at https://github.com/copy/v86/blob/master/docs/events.md.
*
* The callback function gets a single argument which depends on the event.
*
* @param {string} event Name of the event.
* @param {function(*)} listener The callback function.
*/
V86Starter.prototype.add_listener = function(event, listener)
{
this.bus.register(event, listener, this);
};
/**
* Remove an event listener.
*
* @param {string} event
* @param {function(*)} listener
*/
V86Starter.prototype.remove_listener = function(event, listener)
{
this.bus.unregister(event, listener);
};
/**
* Restore the emulator state from the given state, which must be an
* ArrayBuffer returned by
* [`save_state`](#save_statefunctionobject-arraybuffer-callback).
*
* Note that the state can only be restored correctly if this constructor has
* been created with the same options as the original instance (e.g., same disk
* images, memory size, etc.).
*
* Different versions of the emulator might use a different format for the
* state buffer.
*
* @param {ArrayBuffer} state
*/
V86Starter.prototype.restore_state = function(state)
{
this.v86.restore_state(state);
};
/**
* Asynchronously save the current state of the emulator. The first argument to
* the callback is an Error object if something went wrong and is null
* otherwise.
*
* @param {function(Object, ArrayBuffer)} callback
*/
V86Starter.prototype.save_state = function(callback)
{
// Might become asynchronous at some point
var emulator = this;
setTimeout(function()
{
try
{
callback(null, emulator.v86.save_state());
}
catch(e)
{
callback(e, null);
}
}, 0);
};
/**
* Return an object with several statistics. Return value looks similar to
* (but can be subject to change in future versions or different
* configurations, so use defensively):
*
* ```
* {
* "cpu": {
* "instruction_counter": 2821610069
* },
* "hda": {
* "sectors_read": 95240,
* "sectors_written": 952,
* "bytes_read": 48762880,
* "bytes_written": 487424,
* "loading": false
* },
* "cdrom": {
* "sectors_read": 0,
* "sectors_written": 0,
* "bytes_read": 0,
* "bytes_written": 0,
* "loading": false
* },
* "mouse": {
* "enabled": true
* },
* "vga": {
* "is_graphical": true,
* "res_x": 800,
* "res_y": 600,
* "bpp": 32
* }
* }
* ```
*
* @return {Object}
*/
V86Starter.prototype.get_statistics = function()
{
var stats = {
cpu: {
instruction_counter: this.v86.cpu.timestamp_counter,
},
};
var devices = this.v86.cpu.devices;
if(devices.hda)
{
stats.hda = devices.hda.stats;
}
if(devices.cdrom)
{
stats.cdrom = devices.cdrom.stats;
}
if(devices.ps2)
{
stats.mouse = {
enabled: devices.ps2.use_mouse,
};
}
if(devices.vga)
{
stats.vga = devices.vga.stats;
}
return stats;
};
/**
* @return {boolean}
*/
V86Starter.prototype.is_running = function()
{
return this.v86.running;
};
/**
* Send a sequence of scan codes to the emulated PS2 controller. A list of
* codes can be found at http://stanislavs.org/helppc/make_codes.html.
* Do nothing if there is not keyboard controller.
*
* @param {Array.<number>} codes
*/
V86Starter.prototype.keyboard_send_scancodes = function(codes)
{
var ps2 = this.v86.cpu.devices.ps2;
for(var i = 0; i < codes.length; i++)
{
ps2.kbd_send_code(codes[i]);
}
};
/**
* Download a screenshot.
*
* @ignore
*/
V86Starter.prototype.screen_make_screenshot = function()
{
if(this.screen_adapter)
{
this.screen_adapter.make_screenshot();
}
};
/**
* Set the scaling level of the emulated screen.
*
* @param {number} sx
* @param {number} sy
*
* @ignore
*/
V86Starter.prototype.screen_set_scale = function(sx, sy)
{
if(this.screen_adapter)
{
this.screen_adapter.set_scale(sx, sy);
}
};
/**
* Go fullscreen.
*
* @ignore
*/
V86Starter.prototype.screen_go_fullscreen = function()
{
if(!this.screen_adapter)
{
return;
}
var elem = document.getElementById("screen_container");
if(!elem)
{
return;
}
// bracket notation because otherwise they get renamed by closure compiler
var fn = elem["requestFullScreen"] ||
elem["webkitRequestFullscreen"] ||
elem["mozRequestFullScreen"] ||
elem["msRequestFullScreen"];
if(fn)
{
fn.call(elem);
// This is necessary, because otherwise chromium keyboard doesn't work anymore.
// Might (but doesn't seem to) break something else
var focus_element = document.getElementsByClassName("phone_keyboard")[0];
focus_element && focus_element.focus();
}
//this.lock_mouse(elem);
this.lock_mouse();
};
/**
* Lock the mouse cursor: It becomes invisble and is not moved out of the
* browser window.
*
* @ignore
*/
V86Starter.prototype.lock_mouse = function()
{
var elem = document.body;
var fn = elem["requestPointerLock"] ||
elem["mozRequestPointerLock"] ||
elem["webkitRequestPointerLock"];
if(fn)
{
fn.call(elem);
}
};
/**
* Enable or disable sending mouse events to the emulated PS2 controller.
*
* @param {boolean} enabled
*/
V86Starter.prototype.mouse_set_status = function(enabled)
{
if(this.mouse_adapter)
{
this.mouse_adapter.emu_enabled = enabled;
}
};
/**
* Enable or disable sending keyboard events to the emulated PS2 controller.
*
* @param {boolean} enabled
*/
V86Starter.prototype.keyboard_set_status = function(enabled)
{
if(this.keyboard_adapter)
{
this.keyboard_adapter.emu_enabled = enabled;
}
};
/**
* Send a string to the first emulated serial terminal.
*
* @param {string} data
*/
V86Starter.prototype.serial0_send = function(data)
{
for(var i = 0; i < data.length; i++)
{
this.bus.send("serial0-input", data.charCodeAt(i));
}
};
// Closure Compiler's way of exporting
if(typeof window !== "undefined")
{
window["V86Starter"] = V86Starter;
V86Starter.prototype["run"] = V86Starter.prototype.run;
V86Starter.prototype["stop"] = V86Starter.prototype.stop;
V86Starter.prototype["restart"] = V86Starter.prototype.restart;
V86Starter.prototype["add_listener"] = V86Starter.prototype.add_listener;
V86Starter.prototype["remove_listener"] = V86Starter.prototype.remove_listener;
V86Starter.prototype["restore_state"] = V86Starter.prototype.restore_state;
V86Starter.prototype["save_state"] = V86Starter.prototype.save_state;
V86Starter.prototype["get_statistics"] = V86Starter.prototype.get_statistics;
V86Starter.prototype["is_running"] = V86Starter.prototype.is_running;
V86Starter.prototype["keyboard_send_scancodes"] = V86Starter.prototype.keyboard_send_scancodes;
V86Starter.prototype["screen_make_screenshot"] = V86Starter.prototype.screen_make_screenshot;
V86Starter.prototype["screen_set_scale"] = V86Starter.prototype.screen_set_scale;
V86Starter.prototype["screen_go_fullscreen"] = V86Starter.prototype.screen_go_fullscreen;
V86Starter.prototype["lock_mouse"] = V86Starter.prototype.lock_mouse;
V86Starter.prototype["mouse_set_status"] = V86Starter.prototype.mouse_set_status;
V86Starter.prototype["keyboard_set_status"] = V86Starter.prototype.keyboard_set_status;
V86Starter.prototype["serial0_send"] = V86Starter.prototype.serial0_send;
}