blob: 11bb294fb9b719d1f7fc1463d4d1f5efde76fb7a [file] [log] [blame] [raw]
package li.cil.oc.server.component
import java.io.{IOException, OutputStreamWriter, BufferedWriter, FileNotFoundException}
import java.net._
import java.nio.ByteBuffer
import java.nio.channels.SocketChannel
import java.util.regex.Matcher
import li.cil.oc.api
import li.cil.oc.api.Network
import li.cil.oc.api.network._
import li.cil.oc.util.ThreadPoolFactory
import li.cil.oc.{OpenComputers, Settings}
import li.cil.oc.util.ExtendedNBT._
import net.minecraft.nbt.NBTTagCompound
import net.minecraft.server.MinecraftServer
import scala.Array
import scala.collection.mutable
import scala.collection.convert.WrapAsScala._
class InternetCard(val owner: Context) extends ManagedComponent {
val node = Network.newNode(this, Visibility.Network).
withComponent("internet", Visibility.Neighbors).
create()
val romInternet = Option(api.FileSystem.asManagedEnvironment(api.FileSystem.
fromClass(OpenComputers.getClass, Settings.resourceDomain, "lua/component/internet"), "internet"))
protected val connections = mutable.Map.empty[Int, SocketChannel]
// For HTTP requests the state switches like so:
// Pre: request == None && queue == None
// request = value
// thread {
// queue = value
// request = None
// }
// while (request == None && queue contains elements) { signal(queue.pop()) }
// queue = None
// Post: request == None && queue == None
protected var request: Option[(String, Option[String])] = None
protected var queue: Option[(String, mutable.Queue[Array[Byte]])] = None
// ----------------------------------------------------------------------- //
@Callback(direct = true)
def isHttpEnabled(context: Context, args: Arguments): Array[AnyRef] = result(Settings.get.httpEnabled)
@Callback
def request(context: Context, args: Arguments): Array[AnyRef] = {
if (context.address != owner.address) {
throw new IllegalArgumentException("can only be used by the owning computer")
}
val address = args.checkString(0)
if (!Settings.get.httpEnabled) {
return result(false, "http requests are unavailable")
}
val post = if (args.isString(1)) Option(args.checkString(1)) else None
this.synchronized {
if (request.isDefined || queue.isDefined) {
return result(false, "already busy with another request")
}
scheduleRequest(address, post)
}
result(true)
}
protected def scheduleRequest(address: String, post: Option[String]) {
val url = checkAddress(address)
request = Some((address, post))
InternetCard.threadPool.submit(new Runnable {
def run() = try {
val proxy = Option(MinecraftServer.getServer.getServerProxy).getOrElse(java.net.Proxy.NO_PROXY)
url.openConnection(proxy) match {
case http: HttpURLConnection => try {
http.setDoInput(true)
if (post.isDefined) {
http.setRequestMethod("POST")
http.setDoOutput(true)
http.setReadTimeout(Settings.get.httpTimeout)
val out = new BufferedWriter(new OutputStreamWriter(http.getOutputStream))
out.write(post.get)
out.close()
}
else {
http.setRequestMethod("GET")
http.setDoOutput(false)
}
val input = http.getInputStream
val data = mutable.ArrayBuffer.empty[Byte]
val buffer = Array.fill[Byte](Settings.get.maxNetworkPacketSize)(0)
var count = 0
do {
count = input.read(buffer)
if (count > 0) {
data ++= buffer.take(count)
}
} while (count != -1)
input.close()
queue = Some(address -> (mutable.Queue(data.toArray.grouped(Settings.get.maxNetworkPacketSize).toSeq: _*) ++ Iterable(null)))
}
finally {
http.disconnect()
}
case other => owner.signal("http_response", address, Unit, "connection failed")
}
}
catch {
case e: FileNotFoundException =>
owner.signal("http_response", address, Unit, "not found: " + Option(e.getMessage).getOrElse(e.toString))
case _: SocketTimeoutException =>
owner.signal("http_response", address, Unit, "timeout")
case e: Throwable =>
owner.signal("http_response", address, Unit, Option(e.getMessage).getOrElse(e.toString))
}
finally {
InternetCard.this.synchronized {
if (request.isDefined) {
request = None
}
else {
// Got disconnected in the meantime.
queue = None
}
}
}
})
}
@Callback(direct = true)
def isTcpEnabled(context: Context, args: Arguments): Array[AnyRef] = result(Settings.get.httpEnabled)
@Callback
def connect(context: Context, args: Arguments): Array[AnyRef] = {
val address = args.checkString(0)
val port = if (args.count > 1) args.checkInteger(1) else -1
if (!Settings.get.tcpEnabled) return result(false, "tcp connections are unavailable")
if (connections.size >= Settings.get.maxConnections) {
throw new IOException("too many open connections")
}
val url = checkUri(address)
val socketAddress = new InetSocketAddress(url.getHost, if (url.getPort != -1) url.getPort else port)
val channel = SocketChannel.open()
channel.configureBlocking(false)
channel.connect(socketAddress)
val handle = Iterator.continually((Math.random() * Int.MaxValue).toInt + 1).filterNot(connections.contains).next()
connections += handle -> channel
result(handle)
}
@Callback
def close(context: Context, args: Arguments): Array[AnyRef] = {
val handle = args.checkInteger(0)
connections.remove(handle) match {
case Some(socket) => socket.close()
case _ => throw new IllegalArgumentException("bad connection descriptor")
}
null
}
@Callback
def write(context: Context, args: Arguments): Array[AnyRef] = {
val handle = args.checkInteger(0)
val value = args.checkByteArray(1)
connections.get(handle) match {
case Some(socket) =>
if (socket.finishConnect()) result(socket.write(ByteBuffer.wrap(value)))
else result(0)
case _ => throw new IOException("bad connection descriptor")
}
}
@Callback
def read(context: Context, args: Arguments): Array[AnyRef] = {
val handle = args.checkInteger(0)
val n = math.min(Settings.get.maxReadBuffer, math.max(0, args.checkInteger(1)))
connections.get(handle) match {
case Some(socket) =>
if (socket.finishConnect()) {
val buffer = ByteBuffer.allocate(n)
val read = socket.read(buffer)
if (read == -1) null
else result(buffer.array.view(0, read).toArray)
}
else result(Array.empty[Byte])
case _ => throw new IOException("bad connection descriptor")
}
}
// ----------------------------------------------------------------------- //
override val canUpdate = true
override def update() {
super.update()
this.synchronized {
if (request.isEmpty && queue.isDefined) {
val (address, packets) = queue.get
if (owner.signal("http_response", address, packets.front)) {
packets.dequeue()
}
if (packets.isEmpty) {
queue = None
}
}
}
}
// ----------------------------------------------------------------------- //
override def onConnect(node: Node) {
super.onConnect(node)
if (node == this.node) {
romInternet.foreach(rom => node.neighbors.head.connect(rom.node))
}
}
override def onDisconnect(node: Node) {
super.onDisconnect(node)
if (node == this.node) {
for ((_, socket) <- connections) {
socket.close()
}
connections.clear()
request = None
queue = None
romInternet.foreach(_.node.remove())
}
}
override def onMessage(message: Message) {
super.onMessage(message)
message.data match {
case Array() if (message.name == "computer.stopped" || message.name == "computer.started") && message.source.address == owner.address =>
connections.values.foreach(_.close())
connections.clear()
InternetCard.this.synchronized {
request = None
queue = None
}
case _ =>
}
}
// ----------------------------------------------------------------------- //
override def load(nbt: NBTTagCompound) {
super.load(nbt)
romInternet.foreach(_.load(nbt.getCompoundTag("romInternet")))
if (nbt.hasKey("url")) {
val address = nbt.getString("url")
val data = nbt.getByteArray("data")
queue = Some(address -> (mutable.Queue(data.grouped(Settings.get.maxNetworkPacketSize).toSeq: _*) ++ Iterable(null)))
}
if (nbt.hasKey("request")) {
val address = nbt.getString("request")
val post =
if (nbt.hasKey("postData")) Option(nbt.getString("postData"))
else None
// Restart request?
if (!queue.isDefined) {
scheduleRequest(address, post)
}
// Otherwise this should have been None anyway...
}
}
override def save(nbt: NBTTagCompound) {
super.save(nbt)
romInternet.foreach(rom => nbt.setNewCompoundTag("romInternet", rom.save))
this.synchronized {
request match {
case Some((address, data)) =>
nbt.setString("request", address)
data match {
case Some(value) => nbt.setString("postData", value)
case _ =>
}
case _ =>
}
queue match {
case Some((address, packets)) =>
nbt.setString("url", address)
val data = mutable.ArrayBuffer.empty[Byte]
packets.toIterable.dropRight(1).foreach(data.appendAll(_))
nbt.setByteArray("data", data.toArray)
case _ =>
}
}
}
// ----------------------------------------------------------------------- //
private def checkUri(address: String): URI = {
try {
val parsed = new URI(address)
if (parsed.getHost != null && parsed.getPort != -1) {
checkLists(Matcher.quoteReplacement(parsed.getHost))
return parsed
}
}
catch {
case _: Throwable =>
}
val simple = new URI("oc://" + address)
if (simple.getHost != null && simple.getPort != -1) {
checkLists(Matcher.quoteReplacement(simple.getHost))
return simple
}
throw new IllegalArgumentException("address could not be parsed")
}
private def checkAddress(address: String) = {
val url = try new URL(address)
catch {
case e: Throwable => throw new FileNotFoundException("invalid address")
}
val protocol = url.getProtocol
if (!protocol.matches("^https?$")) {
throw new FileNotFoundException("unsupported protocol")
}
checkLists(Matcher.quoteReplacement(url.getHost))
url
}
private def checkLists(host: String) {
if (Settings.get.httpHostWhitelist.length > 0 && !Settings.get.httpHostWhitelist.exists(host.matches)) {
throw new FileNotFoundException("domain is not whitelisted")
}
if (Settings.get.httpHostBlacklist.exists(host.matches)) {
throw new FileNotFoundException("domain is blacklisted")
}
}
}
object InternetCard {
private val threadPool = ThreadPoolFactory.create("HTTP", Settings.get.httpThreads)
}