/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ use dom::bindings::cell::DomRefCell; use dom::bindings::codegen::Bindings::BlobBinding::BlobMethods; use dom::bindings::codegen::Bindings::WebSocketBinding; use dom::bindings::codegen::Bindings::WebSocketBinding::{BinaryType, WebSocketMethods}; use dom::bindings::codegen::UnionTypes::StringOrStringSequence; use dom::bindings::conversions::ToJSValConvertible; use dom::bindings::error::{Error, ErrorResult, Fallible}; use dom::bindings::inheritance::Castable; use dom::bindings::refcounted::Trusted; use dom::bindings::reflector::{DomObject, reflect_dom_object}; use dom::bindings::root::DomRoot; use dom::bindings::str::{DOMString, USVString, is_token}; use dom::blob::{Blob, BlobImpl}; use dom::closeevent::CloseEvent; use dom::event::{Event, EventBubbles, EventCancelable}; use dom::eventtarget::EventTarget; use dom::globalscope::GlobalScope; use dom::messageevent::MessageEvent; use dom::urlhelper::UrlHelper; use dom_struct::dom_struct; use ipc_channel::ipc::{self, IpcReceiver, IpcSender}; use js::jsapi::JSAutoCompartment; use js::jsval::UndefinedValue; use js::typedarray::{ArrayBuffer, CreateWith}; use net_traits::{WebSocketCommunicate, WebSocketConnectData, WebSocketDomAction, WebSocketNetworkEvent}; use net_traits::CoreResourceMsg::WebsocketConnect; use net_traits::MessageData; use script_runtime::CommonScriptMsg; use script_runtime::ScriptThreadEventCategory::WebSocketEvent; use servo_url::ServoUrl; use std::ascii::AsciiExt; use std::borrow::ToOwned; use std::cell::Cell; use std::ptr; use std::thread; use task::{TaskOnce, TaskCanceller}; use task_source::TaskSource; use task_source::networking::NetworkingTaskSource; #[derive(Clone, Copy, Debug, HeapSizeOf, JSTraceable, PartialEq)] enum WebSocketRequestState { Connecting = 0, Open = 1, Closing = 2, Closed = 3, } // Close codes defined in https://tools.ietf.org/html/rfc6455#section-7.4.1 // Names are from https://github.com/mozilla/gecko-dev/blob/master/netwerk/protocol/websocket/nsIWebSocketChannel.idl #[allow(dead_code)] mod close_code { pub const NORMAL: u16 = 1000; pub const GOING_AWAY: u16 = 1001; pub const PROTOCOL_ERROR: u16 = 1002; pub const UNSUPPORTED_DATATYPE: u16 = 1003; pub const NO_STATUS: u16 = 1005; pub const ABNORMAL: u16 = 1006; pub const INVALID_PAYLOAD: u16 = 1007; pub const POLICY_VIOLATION: u16 = 1008; pub const TOO_LARGE: u16 = 1009; pub const EXTENSION_MISSING: u16 = 1010; pub const INTERNAL_ERROR: u16 = 1011; pub const TLS_FAILED: u16 = 1015; } pub fn close_the_websocket_connection( address: Trusted, task_source: &NetworkingTaskSource, canceller: &TaskCanceller, code: Option, reason: String, ) { let close_task = CloseTask { address: address, failed: false, code: code, reason: Some(reason), }; task_source.queue_with_canceller(close_task, &canceller).unwrap(); } pub fn fail_the_websocket_connection( address: Trusted, task_source: &NetworkingTaskSource, canceller: &TaskCanceller, ) { let close_task = CloseTask { address: address, failed: true, code: Some(close_code::ABNORMAL), reason: None, }; task_source.queue_with_canceller(close_task, &canceller).unwrap(); } #[dom_struct] pub struct WebSocket { eventtarget: EventTarget, url: ServoUrl, ready_state: Cell, buffered_amount: Cell, clearing_buffer: Cell, //Flag to tell if there is a running thread to clear buffered_amount #[ignore_heap_size_of = "Defined in std"] sender: DomRefCell>>, binary_type: Cell, protocol: DomRefCell, //Subprotocol selected by server } impl WebSocket { fn new_inherited(url: ServoUrl) -> WebSocket { WebSocket { eventtarget: EventTarget::new_inherited(), url: url, ready_state: Cell::new(WebSocketRequestState::Connecting), buffered_amount: Cell::new(0), clearing_buffer: Cell::new(false), sender: DomRefCell::new(None), binary_type: Cell::new(BinaryType::Blob), protocol: DomRefCell::new("".to_owned()), } } fn new(global: &GlobalScope, url: ServoUrl) -> DomRoot { reflect_dom_object(Box::new(WebSocket::new_inherited(url)), global, WebSocketBinding::Wrap) } /// https://html.spec.whatwg.org/multipage/#dom-websocket pub fn Constructor(global: &GlobalScope, url: DOMString, protocols: Option) -> Fallible> { // Steps 1-2. let url_record = ServoUrl::parse(&url).or(Err(Error::Syntax))?; // Step 3. match url_record.scheme() { "ws" | "wss" => {}, _ => return Err(Error::Syntax), } // Step 4. if url_record.fragment().is_some() { return Err(Error::Syntax); } // Step 5. let protocols = protocols.map_or(vec![], |p| { match p { StringOrStringSequence::String(string) => vec![string.into()], StringOrStringSequence::StringSequence(seq) => { seq.into_iter().map(String::from).collect() }, } }); // Step 6. for (i, protocol) in protocols.iter().enumerate() { // https://tools.ietf.org/html/rfc6455#section-4.1 // Handshake requirements, step 10 if protocols[i + 1..].iter().any(|p| p.eq_ignore_ascii_case(protocol)) { return Err(Error::Syntax); } // https://tools.ietf.org/html/rfc6455#section-4.1 if !is_token(protocol.as_bytes()) { return Err(Error::Syntax); } } let ws = WebSocket::new(global, url_record.clone()); let address = Trusted::new(&*ws); let connect_data = WebSocketConnectData { resource_url: url_record, origin: UrlHelper::Origin(&global.get_url()).0, protocols: protocols, }; // Create the interface for communication with the resource thread let (dom_action_sender, resource_action_receiver): (IpcSender, IpcReceiver) = ipc::channel().unwrap(); let (resource_event_sender, dom_event_receiver): (IpcSender, IpcReceiver) = ipc::channel().unwrap(); let connect = WebSocketCommunicate { event_sender: resource_event_sender, action_receiver: resource_action_receiver, }; // Step 8. let _ = global.core_resource_thread().send(WebsocketConnect(connect, connect_data)); *ws.sender.borrow_mut() = Some(dom_action_sender); let task_source = global.networking_task_source(); let canceller = global.task_canceller(); thread::spawn(move || { while let Ok(event) = dom_event_receiver.recv() { match event { WebSocketNetworkEvent::ConnectionEstablished { protocol_in_use } => { let open_thread = ConnectionEstablishedTask { address: address.clone(), protocol_in_use, }; task_source.queue_with_canceller(open_thread, &canceller).unwrap(); }, WebSocketNetworkEvent::MessageReceived(message) => { let message_thread = MessageReceivedTask { address: address.clone(), message: message, }; task_source.queue_with_canceller(message_thread, &canceller).unwrap(); }, WebSocketNetworkEvent::Fail => { fail_the_websocket_connection(address.clone(), &task_source, &canceller); }, WebSocketNetworkEvent::Close(code, reason) => { close_the_websocket_connection(address.clone(), &task_source, &canceller, code, reason); }, } } }); // Step 7. Ok(ws) } // https://html.spec.whatwg.org/multipage/#dom-websocket-send fn send_impl(&self, data_byte_len: u64) -> Fallible { let return_after_buffer = match self.ready_state.get() { WebSocketRequestState::Connecting => { return Err(Error::InvalidState); }, WebSocketRequestState::Open => false, WebSocketRequestState::Closing | WebSocketRequestState::Closed => true, }; let address = Trusted::new(self); match data_byte_len.checked_add(self.buffered_amount.get()) { None => panic!(), Some(new_amount) => self.buffered_amount.set(new_amount) }; if return_after_buffer { return Ok(false); } if !self.clearing_buffer.get() && self.ready_state.get() == WebSocketRequestState::Open { self.clearing_buffer.set(true); let task = Box::new(BufferedAmountTask { address: address, }); self.global() .script_chan() .send(CommonScriptMsg::Task(WebSocketEvent, task)) .unwrap(); } Ok(true) } } impl WebSocketMethods for WebSocket { // https://html.spec.whatwg.org/multipage/#handler-websocket-onopen event_handler!(open, GetOnopen, SetOnopen); // https://html.spec.whatwg.org/multipage/#handler-websocket-onclose event_handler!(close, GetOnclose, SetOnclose); // https://html.spec.whatwg.org/multipage/#handler-websocket-onerror event_handler!(error, GetOnerror, SetOnerror); // https://html.spec.whatwg.org/multipage/#handler-websocket-onmessage event_handler!(message, GetOnmessage, SetOnmessage); // https://html.spec.whatwg.org/multipage/#dom-websocket-url fn Url(&self) -> DOMString { DOMString::from(self.url.as_str()) } // https://html.spec.whatwg.org/multipage/#dom-websocket-readystate fn ReadyState(&self) -> u16 { self.ready_state.get() as u16 } // https://html.spec.whatwg.org/multipage/#dom-websocket-bufferedamount fn BufferedAmount(&self) -> u64 { self.buffered_amount.get() } // https://html.spec.whatwg.org/multipage/#dom-websocket-binarytype fn BinaryType(&self) -> BinaryType { self.binary_type.get() } // https://html.spec.whatwg.org/multipage/#dom-websocket-binarytype fn SetBinaryType(&self, btype: BinaryType) { self.binary_type.set(btype) } // https://html.spec.whatwg.org/multipage/#dom-websocket-protocol fn Protocol(&self) -> DOMString { DOMString::from(self.protocol.borrow().clone()) } // https://html.spec.whatwg.org/multipage/#dom-websocket-send fn Send(&self, data: USVString) -> ErrorResult { let data_byte_len = data.0.as_bytes().len() as u64; let send_data = self.send_impl(data_byte_len)?; if send_data { let mut other_sender = self.sender.borrow_mut(); let my_sender = other_sender.as_mut().unwrap(); let _ = my_sender.send(WebSocketDomAction::SendMessage(MessageData::Text(data.0))); } Ok(()) } // https://html.spec.whatwg.org/multipage/#dom-websocket-send fn Send_(&self, blob: &Blob) -> ErrorResult { /* As per https://html.spec.whatwg.org/multipage/#websocket the buffered amount needs to be clamped to u32, even though Blob.Size() is u64 If the buffer limit is reached in the first place, there are likely other major problems */ let data_byte_len = blob.Size(); let send_data = self.send_impl(data_byte_len)?; if send_data { let mut other_sender = self.sender.borrow_mut(); let my_sender = other_sender.as_mut().unwrap(); let bytes = blob.get_bytes().unwrap_or(vec![]); let _ = my_sender.send(WebSocketDomAction::SendMessage(MessageData::Binary(bytes))); } Ok(()) } // https://html.spec.whatwg.org/multipage/#dom-websocket-close fn Close(&self, code: Option, reason: Option) -> ErrorResult { if let Some(code) = code { //Fail if the supplied code isn't normal and isn't reserved for libraries, frameworks, and applications if code != close_code::NORMAL && (code < 3000 || code > 4999) { return Err(Error::InvalidAccess); } } if let Some(ref reason) = reason { if reason.0.as_bytes().len() > 123 { //reason cannot be larger than 123 bytes return Err(Error::Syntax); } } match self.ready_state.get() { WebSocketRequestState::Closing | WebSocketRequestState::Closed => {} //Do nothing WebSocketRequestState::Connecting => { //Connection is not yet established /*By setting the state to closing, the open function will abort connecting the websocket*/ self.ready_state.set(WebSocketRequestState::Closing); let address = Trusted::new(self); let task_source = self.global().networking_task_source(); fail_the_websocket_connection(address, &task_source, &self.global().task_canceller()); } WebSocketRequestState::Open => { self.ready_state.set(WebSocketRequestState::Closing); // Kick off _Start the WebSocket Closing Handshake_ // https://tools.ietf.org/html/rfc6455#section-7.1.2 let reason = reason.map(|reason| reason.0); let mut other_sender = self.sender.borrow_mut(); let my_sender = other_sender.as_mut().unwrap(); let _ = my_sender.send(WebSocketDomAction::Close(code, reason)); } } Ok(()) //Return Ok } } /// Task queued when *the WebSocket connection is established*. /// https://html.spec.whatwg.org/multipage/#feedback-from-the-protocol:concept-websocket-established struct ConnectionEstablishedTask { address: Trusted, protocol_in_use: Option, } impl TaskOnce for ConnectionEstablishedTask { /// https://html.spec.whatwg.org/multipage/#feedback-from-the-protocol:concept-websocket-established fn run_once(self) { let ws = self.address.root(); // Step 1. ws.ready_state.set(WebSocketRequestState::Open); // Step 2: Extensions. // TODO: Set extensions to extensions in use. // Step 3. if let Some(protocol_name) = self.protocol_in_use { *ws.protocol.borrow_mut() = protocol_name; }; // Step 4. ws.upcast().fire_event(atom!("open")); } } struct BufferedAmountTask { address: Trusted, } impl TaskOnce for BufferedAmountTask { // See https://html.spec.whatwg.org/multipage/#dom-websocket-bufferedamount // // To be compliant with standards, we need to reset bufferedAmount only when the event loop // reaches step 1. In our implementation, the bytes will already have been sent on a background // thread. fn run_once(self) { let ws = self.address.root(); ws.buffered_amount.set(0); ws.clearing_buffer.set(false); } } struct CloseTask { address: Trusted, failed: bool, code: Option, reason: Option, } impl TaskOnce for CloseTask { fn run_once(self) { let ws = self.address.root(); if ws.ready_state.get() == WebSocketRequestState::Closed { // Do nothing if already closed. return; } // Perform _the WebSocket connection is closed_ steps. // https://html.spec.whatwg.org/multipage/#closeWebSocket // Step 1. ws.ready_state.set(WebSocketRequestState::Closed); // Step 2. if self.failed { ws.upcast().fire_event(atom!("error")); } // Step 3. let clean_close = !self.failed; let code = self.code.unwrap_or(close_code::NO_STATUS); let reason = DOMString::from(self.reason.unwrap_or("".to_owned())); let close_event = CloseEvent::new(&ws.global(), atom!("close"), EventBubbles::DoesNotBubble, EventCancelable::NotCancelable, clean_close, code, reason); close_event.upcast::().fire(ws.upcast()); } } struct MessageReceivedTask { address: Trusted, message: MessageData, } impl TaskOnce for MessageReceivedTask { #[allow(unsafe_code)] fn run_once(self) { let ws = self.address.root(); debug!("MessageReceivedTask::handler({:p}): readyState={:?}", &*ws, ws.ready_state.get()); // Step 1. if ws.ready_state.get() != WebSocketRequestState::Open { return; } // Step 2-5. let global = ws.global(); // global.get_cx() returns a valid `JSContext` pointer, so this is safe. unsafe { let cx = global.get_cx(); let _ac = JSAutoCompartment::new(cx, ws.reflector().get_jsobject().get()); rooted!(in(cx) let mut message = UndefinedValue()); match self.message { MessageData::Text(text) => text.to_jsval(cx, message.handle_mut()), MessageData::Binary(data) => { match ws.binary_type.get() { BinaryType::Blob => { let blob = Blob::new(&global, BlobImpl::new_from_bytes(data), "".to_owned()); blob.to_jsval(cx, message.handle_mut()); } BinaryType::Arraybuffer => { rooted!(in(cx) let mut array_buffer = ptr::null_mut()); assert!(ArrayBuffer::create(cx, CreateWith::Slice(&data), array_buffer.handle_mut()) .is_ok()); (*array_buffer).to_jsval(cx, message.handle_mut()); } } }, } MessageEvent::dispatch_jsval(ws.upcast(), &global, message.handle()); } } }