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dca1446a71b22bc87c288533281ccc0ba551d8c8
tubestation/servo/components/script/dom/websocket.rs
Manish Goregaokar dca1446a71 servo: Merge #7224 - Integrate clippy into Servo; cleanup some of script (from Manishearth:clippy); r=Ms2ger 
The integration is off by default for now. You can try it out with `./mach build --features "script/plugins/clippy"`.

We're using a branch of clippy with some of the lints changed to Allow, either because they don't apply to us, or because they're noisy and dwarf other warnings (but still should be fixed)

After going through the rest of Servo's warnings I'll figure out which lints we should be keeping.

There's a cargo bug with optional deps that makes it hard for this to work with Cargo.lock -- so this PR contains no changes to lockfiles (and running the build with clippy on may dirty the lockfile, though it gets fixed later)

Source-Repo: https://github.com/servo/servo
Source-Revision: 50e1c967e4299c1515575f73d407f5f6b977d818
2015-08-18 08:15:51 -06:00

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/* 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::WebSocketBinding;
use dom::bindings::codegen::Bindings::WebSocketBinding::{BinaryType, WebSocketMethods};
use dom::bindings::codegen::Bindings::EventHandlerBinding::EventHandlerNonNull;
use dom::bindings::codegen::InheritTypes::EventTargetCast;
use dom::bindings::codegen::InheritTypes::EventCast;
use dom::bindings::conversions::ToJSValConvertible;
use dom::bindings::error::{Error, Fallible};
use dom::bindings::error::Error::{InvalidAccess, Syntax};
use dom::bindings::global::{GlobalField, GlobalRef};
use dom::bindings::js::Root;
use dom::bindings::refcounted::Trusted;
use dom::bindings::str::USVString;
use dom::bindings::trace::JSTraceable;
use dom::bindings::utils::{reflect_dom_object, Reflectable};
use dom::blob::Blob;
use dom::closeevent::CloseEvent;
use dom::event::{Event, EventBubbles, EventCancelable, EventHelpers};
use dom::eventtarget::{EventTarget, EventTargetHelpers, EventTargetTypeId};
use dom::messageevent::MessageEvent;
use script_task::{Runnable, CommonScriptMsg};
use net_traits::hosts::replace_hosts;
use util::str::DOMString;
use util::task::spawn_named;
use js::jsapi::{RootedValue, JSAutoRequest, JSAutoCompartment};
use js::jsapi::{JS_NewArrayBuffer, JS_GetArrayBufferData};
use js::jsval::UndefinedValue;
use hyper::header::Host;
use libc::{uint8_t, uint32_t};
use websocket::Message;
use websocket::ws::sender::Sender as Sender_Object;
use websocket::client::sender::Sender;
use websocket::client::receiver::Receiver;
use websocket::stream::WebSocketStream;
use websocket::client::request::Url;
use websocket::Client;
use websocket::header::Origin;
use websocket::result::WebSocketResult;
use websocket::ws::receiver::Receiver as WSReceiver;
use websocket::ws::util::url::parse_url;
use std::borrow::ToOwned;
use std::cell::{Cell, RefCell};
use std::ptr;
use std::sync::{Arc, Mutex};
#[derive(JSTraceable, PartialEq, Copy, Clone, Debug, HeapSizeOf)]
enum WebSocketRequestState {
Connecting = 0,
Open = 1,
Closing = 2,
Closed = 3,
}
no_jsmanaged_fields!(Sender<WebSocketStream>);
#[derive(HeapSizeOf)]
enum MessageData {
Text(String),
Binary(Vec<u8>),
}
#[dom_struct]
#[derive(HeapSizeOf)]
pub struct WebSocket {
eventtarget: EventTarget,
url: Url,
global: GlobalField,
ready_state: Cell<WebSocketRequestState>,
#[ignore_heap_size_of = "Defined in std"]
sender: RefCell<Option<Arc<Mutex<Sender<WebSocketStream>>>>>,
failed: Cell<bool>, //Flag to tell if websocket was closed due to failure
full: Cell<bool>, //Flag to tell if websocket queue is full
clean_close: Cell<bool>, //Flag to tell if the websocket closed cleanly (not due to full or fail)
code: Cell<u16>, //Closing code
reason: DOMRefCell<DOMString>, //Closing reason
data: DOMRefCell<DOMString>, //Data from send - TODO: Remove after buffer is added.
binary_type: Cell<BinaryType>,
}
/// *Establish a WebSocket Connection* as defined in RFC 6455.
fn establish_a_websocket_connection(resource_url: &Url, net_url: (Host, String, bool),
origin: String)
-> WebSocketResult<(Sender<WebSocketStream>, Receiver<WebSocketStream>)> {
// URL that we actually fetch from the network, after applying the replacements
// specified in the hosts file.
let host = Host {
hostname: resource_url.serialize_host().unwrap(),
port: resource_url.port_or_default()
};
let mut request = try!(Client::connect(net_url));
request.headers.set(Origin(origin));
request.headers.set(host);
let response = try!(request.send());
try!(response.validate());
Ok(response.begin().split())
}
impl WebSocket {
fn new_inherited(global: GlobalRef, url: Url) -> WebSocket {
WebSocket {
eventtarget: EventTarget::new_inherited(EventTargetTypeId::WebSocket),
url: url,
global: GlobalField::from_rooted(&global),
ready_state: Cell::new(WebSocketRequestState::Connecting),
failed: Cell::new(false),
sender: RefCell::new(None),
full: Cell::new(false),
clean_close: Cell::new(true),
code: Cell::new(0),
reason: DOMRefCell::new("".to_owned()),
data: DOMRefCell::new("".to_owned()),
binary_type: Cell::new(BinaryType::Blob),
}
}
fn new(global: GlobalRef, url: Url) -> Root<WebSocket> {
reflect_dom_object(box WebSocket::new_inherited(global, url),
global, WebSocketBinding::Wrap)
}
pub fn Constructor(global: GlobalRef,
url: DOMString,
protocols: Option<DOMString>)
-> Fallible<Root<WebSocket>> {
// Step 1.
let resource_url = try!(Url::parse(&url).map_err(|_| Error::Syntax));
let net_url = try!(parse_url(&replace_hosts(&resource_url)).map_err(|_| Error::Syntax));
// Step 2: Disallow https -> ws connections.
// Step 3: Potentially block access to some ports.
// Step 4.
let protocols = protocols.as_slice();
// Step 5.
for (i, protocol) in protocols.iter().enumerate() {
// https://tools.ietf.org/html/rfc6455#section-4.1
// Handshake requirements, step 10
if protocol.is_empty() {
return Err(Syntax);
}
if protocols[i + 1..].iter().any(|p| p == protocol) {
return Err(Syntax);
}
if protocol.chars().any(|c| c < '\u{0021}' || c > '\u{007E}') {
return Err(Syntax);
}
}
// Step 6: Origin.
// Step 7.
let ws = WebSocket::new(global, resource_url.clone());
let address = Trusted::new(global.get_cx(), ws.r(), global.script_chan());
let origin = global.get_url().serialize();
let sender = global.script_chan();
spawn_named(format!("WebSocket connection to {}", ws.Url()), move || {
// Step 8: Protocols.
// Step 9.
let channel = establish_a_websocket_connection(&resource_url, net_url, origin);
let (ws_sender, mut receiver) = match channel {
Ok(channel) => channel,
Err(e) => {
debug!("Failed to establish a WebSocket connection: {:?}", e);
let task = box CloseTask {
addr: address,
};
sender.send(CommonScriptMsg::RunnableMsg(task)).unwrap();
return;
}
};
let ws_sender = Arc::new(Mutex::new(ws_sender));
let open_task = box ConnectionEstablishedTask {
addr: address.clone(),
sender: ws_sender.clone(),
};
sender.send(CommonScriptMsg::RunnableMsg(open_task)).unwrap();
for message in receiver.incoming_messages() {
let message = match message {
Ok(Message::Text(text)) => MessageData::Text(text),
Ok(Message::Binary(data)) => MessageData::Binary(data),
Ok(Message::Ping(data)) => {
ws_sender.lock().unwrap().send_message(Message::Pong(data)).unwrap();
continue;
},
Ok(Message::Pong(_)) => continue,
Ok(Message::Close(data)) => {
ws_sender.lock().unwrap().send_message(Message::Close(data)).unwrap();
let task = box CloseTask {
addr: address,
};
sender.send(CommonScriptMsg::RunnableMsg(task)).unwrap();
break;
},
Err(_) => break,
};
let message_task = box MessageReceivedTask {
address: address.clone(),
message: message,
};
sender.send(CommonScriptMsg::RunnableMsg(message_task)).unwrap();
}
});
// Step 7.
Ok(ws)
}
}
impl<'a> WebSocketMethods for &'a WebSocket {
event_handler!(open, GetOnopen, SetOnopen);
event_handler!(close, GetOnclose, SetOnclose);
event_handler!(error, GetOnerror, SetOnerror);
event_handler!(message, GetOnmessage, SetOnmessage);
// https://html.spec.whatwg.org/multipage/#dom-websocket-url
fn Url(self) -> DOMString {
self.url.serialize()
}
// 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-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-send
fn Send(self, data: Option<USVString>) -> Fallible<()> {
match self.ready_state.get() {
WebSocketRequestState::Connecting => {
return Err(Error::InvalidState);
},
WebSocketRequestState::Open => (),
WebSocketRequestState::Closing | WebSocketRequestState::Closed => {
// TODO: Update bufferedAmount.
return Ok(());
}
}
/*TODO: This is not up to spec see http://html.spec.whatwg.org/multipage/comms.html search for
"If argument is a string"
TODO: Need to buffer data
TODO: bufferedAmount attribute returns the size of the buffer in bytes -
this is a required attribute defined in the websocket.webidl file
TODO: The send function needs to flag when full by using the following
self.full.set(true). This needs to be done when the buffer is full
*/
let mut other_sender = self.sender.borrow_mut();
let my_sender = other_sender.as_mut().unwrap();
let _ = my_sender.lock().unwrap().send_message(Message::Text(data.unwrap().0));
Ok(())
}
// https://html.spec.whatwg.org/multipage/#dom-websocket-close
fn Close(self, code: Option<u16>, reason: Option<USVString>) -> Fallible<()>{
fn send_close(this: &WebSocket) {
this.ready_state.set(WebSocketRequestState::Closing);
let mut sender = this.sender.borrow_mut();
//TODO: Also check if the buffer is full
if let Some(sender) = sender.as_mut() {
let _ = sender.lock().unwrap().send_message(Message::Close(None));
}
}
if let Some(code) = code {
//Check code is NOT 1000 NOR in the range of 3000-4999 (inclusive)
if code != 1000 && (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.failed.set(true);
send_close(self);
//Note: After sending the close message, the receive loop confirms a close message from the server and
// must fire a close event
}
WebSocketRequestState::Open => {
//Closing handshake not started - still in open
//Start the closing by setting the code and reason if they exist
if let Some(code) = code {
self.code.set(code);
}
if let Some(reason) = reason {
*self.reason.borrow_mut() = reason.0;
}
send_close(self);
//Note: After sending the close message, the receive loop confirms a close message from the server and
// must fire a close event
}
}
Ok(()) //Return Ok
}
}
/// Task queued when *the WebSocket connection is established*.
struct ConnectionEstablishedTask {
addr: Trusted<WebSocket>,
sender: Arc<Mutex<Sender<WebSocketStream>>>,
}
impl Runnable for ConnectionEstablishedTask {
fn handler(self: Box<Self>) {
let ws = self.addr.root();
*ws.r().sender.borrow_mut() = Some(self.sender);
// Step 1: Protocols.
// Step 2.
ws.ready_state.set(WebSocketRequestState::Open);
// Step 3: Extensions.
// Step 4: Protocols.
// Step 5: Cookies.
// Step 6.
let global = ws.global.root();
let event = Event::new(global.r(), "open".to_owned(),
EventBubbles::DoesNotBubble,
EventCancelable::NotCancelable);
event.fire(EventTargetCast::from_ref(ws.r()));
}
}
struct CloseTask {
addr: Trusted<WebSocket>,
}
impl Runnable for CloseTask {
fn handler(self: Box<Self>) {
let ws = self.addr.root();
let ws = ws.r();
let global = ws.global.root();
ws.ready_state.set(WebSocketRequestState::Closed);
//If failed or full, fire error event
if ws.failed.get() || ws.full.get() {
ws.failed.set(false);
ws.full.set(false);
//A Bad close
ws.clean_close.set(false);
let event = Event::new(global.r(),
"error".to_owned(),
EventBubbles::DoesNotBubble,
EventCancelable::Cancelable);
let target = EventTargetCast::from_ref(ws);
event.r().fire(target);
}
let rsn = ws.reason.borrow();
let rsn_clone = rsn.clone();
/*In addition, we also have to fire a close even if error event fired
https://html.spec.whatwg.org/multipage/#closeWebSocket
*/
let close_event = CloseEvent::new(global.r(),
"close".to_owned(),
EventBubbles::DoesNotBubble,
EventCancelable::NotCancelable,
ws.clean_close.get(),
ws.code.get(),
rsn_clone);
let target = EventTargetCast::from_ref(ws);
let event = EventCast::from_ref(close_event.r());
event.fire(target);
}
}
struct MessageReceivedTask {
address: Trusted<WebSocket>,
message: MessageData,
}
impl Runnable for MessageReceivedTask {
#[allow(unsafe_code)]
fn handler(self: Box<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.root();
let cx = global.r().get_cx();
let _ar = JSAutoRequest::new(cx);
let _ac = JSAutoCompartment::new(cx, ws.reflector().get_jsobject().get());
let mut message = RootedValue::new(cx, 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.r(), Some(data), "");
blob.to_jsval(cx, message.handle_mut());
}
BinaryType::Arraybuffer => {
unsafe {
let len = data.len() as uint32_t;
let buf = JS_NewArrayBuffer(cx, len);
let buf_data: *mut uint8_t = JS_GetArrayBufferData(buf, ptr::null());
ptr::copy_nonoverlapping(data.as_ptr(), buf_data, len as usize);
buf.to_jsval(cx, message.handle_mut());
}
}
}
},
}
let target = EventTargetCast::from_ref(ws.r());
MessageEvent::dispatch_jsval(target, global.r(), message.handle());
}
}
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