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|
/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set sw=2 ts=8 et tw=80 : */
/* 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/. */
#include <algorithm>
#include "WebSocketChannel.h"
#include "WebSocketConnectionBase.h"
#include "WebSocketFrame.h"
#include "WebSocketLog.h"
#include "mozilla/Atomics.h"
#include "mozilla/Attributes.h"
#include "mozilla/Base64.h"
#include "mozilla/EndianUtils.h"
#include "mozilla/MathAlgorithms.h"
#include "mozilla/ScopeExit.h"
#include "mozilla/StaticMutex.h"
#include "mozilla/StaticPrefs_privacy.h"
#include "mozilla/Telemetry.h"
#include "mozilla/TimeStamp.h"
#include "mozilla/Utf8.h"
#include "mozilla/net/WebSocketEventService.h"
#include "nsAlgorithm.h"
#include "nsCRT.h"
#include "nsCharSeparatedTokenizer.h"
#include "nsComponentManagerUtils.h"
#include "nsError.h"
#include "nsIAsyncVerifyRedirectCallback.h"
#include "nsICancelable.h"
#include "nsIChannel.h"
#include "nsIClassOfService.h"
#include "nsICryptoHash.h"
#include "nsIDNSRecord.h"
#include "nsIDNSService.h"
#include "nsIDashboardEventNotifier.h"
#include "nsIEventTarget.h"
#include "nsIHttpChannel.h"
#include "nsIIOService.h"
#include "nsINSSErrorsService.h"
#include "nsINetworkLinkService.h"
#include "nsINode.h"
#include "nsIObserverService.h"
#include "nsIPrefBranch.h"
#include "nsIProtocolHandler.h"
#include "nsIProtocolProxyService.h"
#include "nsIProxiedChannel.h"
#include "nsIProxyInfo.h"
#include "nsIRandomGenerator.h"
#include "nsIRunnable.h"
#include "nsISocketTransport.h"
#include "nsITLSSocketControl.h"
#include "nsITransportProvider.h"
#include "nsITransportSecurityInfo.h"
#include "nsIURI.h"
#include "nsIURIMutator.h"
#include "nsNetCID.h"
#include "nsNetUtil.h"
#include "nsProxyRelease.h"
#include "nsServiceManagerUtils.h"
#include "nsSocketTransportService2.h"
#include "nsStringStream.h"
#include "nsThreadUtils.h"
#include "plbase64.h"
#include "prmem.h"
#include "prnetdb.h"
#include "zlib.h"
// rather than slurp up all of nsIWebSocket.idl, which lives outside necko, just
// dupe one constant we need from it
#define CLOSE_GOING_AWAY 1001
using namespace mozilla;
using namespace mozilla::net;
namespace mozilla {
namespace net {
NS_IMPL_ISUPPORTS(WebSocketChannel, nsIWebSocketChannel, nsIHttpUpgradeListener,
nsIRequestObserver, nsIStreamListener, nsIProtocolHandler,
nsIInputStreamCallback, nsIOutputStreamCallback,
nsITimerCallback, nsIDNSListener, nsIProtocolProxyCallback,
nsIInterfaceRequestor, nsIChannelEventSink,
nsIThreadRetargetableRequest, nsIObserver, nsINamed)
// We implement RFC 6455, which uses Sec-WebSocket-Version: 13 on the wire.
#define SEC_WEBSOCKET_VERSION "13"
/*
* About SSL unsigned certificates
*
* wss will not work to a host using an unsigned certificate unless there
* is already an exception (i.e. it cannot popup a dialog asking for
* a security exception). This is similar to how an inlined img will
* fail without a dialog if fails for the same reason. This should not
* be a problem in practice as it is expected the websocket javascript
* is served from the same host as the websocket server (or of course,
* a valid cert could just be provided).
*
*/
// some helper classes
//-----------------------------------------------------------------------------
// FailDelayManager
//
// Stores entries (searchable by {host, port}) of connections that have recently
// failed, so we can do delay of reconnects per RFC 6455 Section 7.2.3
//-----------------------------------------------------------------------------
// Initial reconnect delay is randomly chosen between 200-400 ms.
// This is a gentler backoff than the 0-5 seconds the spec offhandedly suggests.
const uint32_t kWSReconnectInitialBaseDelay = 200;
const uint32_t kWSReconnectInitialRandomDelay = 200;
// Base lifetime (in ms) of a FailDelay: kept longer if more failures occur
const uint32_t kWSReconnectBaseLifeTime = 60 * 1000;
// Maximum reconnect delay (in ms)
const uint32_t kWSReconnectMaxDelay = 60 * 1000;
// hold record of failed connections, and calculates needed delay for reconnects
// to same host/port.
class FailDelay {
public:
FailDelay(nsCString address, int32_t port)
: mAddress(std::move(address)), mPort(port) {
mLastFailure = TimeStamp::Now();
mNextDelay = kWSReconnectInitialBaseDelay +
(rand() % kWSReconnectInitialRandomDelay);
}
// Called to update settings when connection fails again.
void FailedAgain() {
mLastFailure = TimeStamp::Now();
// We use a truncated exponential backoff as suggested by RFC 6455,
// but multiply by 1.5 instead of 2 to be more gradual.
mNextDelay = static_cast<uint32_t>(
std::min<double>(kWSReconnectMaxDelay, mNextDelay * 1.5));
LOG(
("WebSocket: FailedAgain: host=%s, port=%d: incremented delay to "
"%" PRIu32,
mAddress.get(), mPort, mNextDelay));
}
// returns 0 if there is no need to delay (i.e. delay interval is over)
uint32_t RemainingDelay(TimeStamp rightNow) {
TimeDuration dur = rightNow - mLastFailure;
uint32_t sinceFail = (uint32_t)dur.ToMilliseconds();
if (sinceFail > mNextDelay) return 0;
return mNextDelay - sinceFail;
}
bool IsExpired(TimeStamp rightNow) {
return (mLastFailure + TimeDuration::FromMilliseconds(
kWSReconnectBaseLifeTime + mNextDelay)) <=
rightNow;
}
nsCString mAddress; // IP address (or hostname if using proxy)
int32_t mPort;
private:
TimeStamp mLastFailure; // Time of last failed attempt
// mLastFailure + mNextDelay is the soonest we'll allow a reconnect
uint32_t mNextDelay; // milliseconds
};
class FailDelayManager {
public:
FailDelayManager() {
MOZ_COUNT_CTOR(FailDelayManager);
mDelaysDisabled = false;
nsCOMPtr<nsIPrefBranch> prefService =
do_GetService(NS_PREFSERVICE_CONTRACTID);
if (!prefService) {
return;
}
bool boolpref = true;
nsresult rv;
rv = prefService->GetBoolPref("network.websocket.delay-failed-reconnects",
&boolpref);
if (NS_SUCCEEDED(rv) && !boolpref) {
mDelaysDisabled = true;
}
}
~FailDelayManager() { MOZ_COUNT_DTOR(FailDelayManager); }
void Add(nsCString& address, int32_t port) {
if (mDelaysDisabled) return;
UniquePtr<FailDelay> record(new FailDelay(address, port));
mEntries.AppendElement(std::move(record));
}
// Element returned may not be valid after next main thread event: don't keep
// pointer to it around
FailDelay* Lookup(nsCString& address, int32_t port,
uint32_t* outIndex = nullptr) {
if (mDelaysDisabled) return nullptr;
FailDelay* result = nullptr;
TimeStamp rightNow = TimeStamp::Now();
// We also remove expired entries during search: iterate from end to make
// indexing simpler
for (int32_t i = mEntries.Length() - 1; i >= 0; --i) {
FailDelay* fail = mEntries[i].get();
if (fail->mAddress.Equals(address) && fail->mPort == port) {
if (outIndex) *outIndex = i;
result = fail;
// break here: removing more entries would mess up *outIndex.
// Any remaining expired entries will be deleted next time Lookup
// finds nothing, which is the most common case anyway.
break;
}
if (fail->IsExpired(rightNow)) {
mEntries.RemoveElementAt(i);
}
}
return result;
}
// returns true if channel connects immediately, or false if it's delayed
void DelayOrBegin(WebSocketChannel* ws) {
if (!mDelaysDisabled) {
uint32_t failIndex = 0;
FailDelay* fail = Lookup(ws->mAddress, ws->mPort, &failIndex);
if (fail) {
TimeStamp rightNow = TimeStamp::Now();
uint32_t remainingDelay = fail->RemainingDelay(rightNow);
if (remainingDelay) {
// reconnecting within delay interval: delay by remaining time
nsresult rv;
MutexAutoLock lock(ws->mMutex);
rv = NS_NewTimerWithCallback(getter_AddRefs(ws->mReconnectDelayTimer),
ws, remainingDelay,
nsITimer::TYPE_ONE_SHOT);
if (NS_SUCCEEDED(rv)) {
LOG(
("WebSocket: delaying websocket [this=%p] by %lu ms, changing"
" state to CONNECTING_DELAYED",
ws, (unsigned long)remainingDelay));
ws->mConnecting = CONNECTING_DELAYED;
return;
}
// if timer fails (which is very unlikely), drop down to BeginOpen
// call
} else if (fail->IsExpired(rightNow)) {
mEntries.RemoveElementAt(failIndex);
}
}
}
// Delays disabled, or no previous failure, or we're reconnecting after
// scheduled delay interval has passed: connect.
ws->BeginOpen(true);
}
// Remove() also deletes all expired entries as it iterates: better for
// battery life than using a periodic timer.
void Remove(nsCString& address, int32_t port) {
TimeStamp rightNow = TimeStamp::Now();
// iterate from end, to make deletion indexing easier
for (int32_t i = mEntries.Length() - 1; i >= 0; --i) {
FailDelay* entry = mEntries[i].get();
if ((entry->mAddress.Equals(address) && entry->mPort == port) ||
entry->IsExpired(rightNow)) {
mEntries.RemoveElementAt(i);
}
}
}
private:
nsTArray<UniquePtr<FailDelay>> mEntries;
bool mDelaysDisabled;
};
//-----------------------------------------------------------------------------
// nsWSAdmissionManager
//
// 1) Ensures that only one websocket at a time is CONNECTING to a given IP
// address (or hostname, if using proxy), per RFC 6455 Section 4.1.
// 2) Delays reconnects to IP/host after connection failure, per Section 7.2.3
//-----------------------------------------------------------------------------
class nsWSAdmissionManager {
public:
static void Init() {
StaticMutexAutoLock lock(sLock);
if (!sManager) {
sManager = new nsWSAdmissionManager();
}
}
static void Shutdown() {
StaticMutexAutoLock lock(sLock);
delete sManager;
sManager = nullptr;
}
// Determine if we will open connection immediately (returns true), or
// delay/queue the connection (returns false)
static void ConditionallyConnect(WebSocketChannel* ws) {
LOG(("Websocket: ConditionallyConnect: [this=%p]", ws));
MOZ_ASSERT(NS_IsMainThread(), "not main thread");
MOZ_ASSERT(ws->mConnecting == NOT_CONNECTING, "opening state");
StaticMutexAutoLock lock(sLock);
if (!sManager) {
return;
}
// If there is already another WS channel connecting to this IP address,
// defer BeginOpen and mark as waiting in queue.
bool found = (sManager->IndexOf(ws->mAddress, ws->mOriginSuffix) >= 0);
// Always add ourselves to queue, even if we'll connect immediately
UniquePtr<nsOpenConn> newdata(
new nsOpenConn(ws->mAddress, ws->mOriginSuffix, ws));
sManager->mQueue.AppendElement(std::move(newdata));
if (found) {
LOG(
("Websocket: some other channel is connecting, changing state to "
"CONNECTING_QUEUED"));
ws->mConnecting = CONNECTING_QUEUED;
} else {
sManager->mFailures.DelayOrBegin(ws);
}
}
static void OnConnected(WebSocketChannel* aChannel) {
LOG(("Websocket: OnConnected: [this=%p]", aChannel));
MOZ_ASSERT(NS_IsMainThread(), "not main thread");
MOZ_ASSERT(aChannel->mConnecting == CONNECTING_IN_PROGRESS,
"Channel completed connect, but not connecting?");
StaticMutexAutoLock lock(sLock);
if (!sManager) {
return;
}
LOG(("Websocket: changing state to NOT_CONNECTING"));
aChannel->mConnecting = NOT_CONNECTING;
// Remove from queue
sManager->RemoveFromQueue(aChannel);
// Connection succeeded, so stop keeping track of any previous failures
sManager->mFailures.Remove(aChannel->mAddress, aChannel->mPort);
// Check for queued connections to same host.
// Note: still need to check for failures, since next websocket with same
// host may have different port
sManager->ConnectNext(aChannel->mAddress, aChannel->mOriginSuffix);
}
// Called every time a websocket channel ends its session (including going
// away w/o ever successfully creating a connection)
static void OnStopSession(WebSocketChannel* aChannel, nsresult aReason) {
LOG(("Websocket: OnStopSession: [this=%p, reason=0x%08" PRIx32 "]",
aChannel, static_cast<uint32_t>(aReason)));
StaticMutexAutoLock lock(sLock);
if (!sManager) {
return;
}
if (NS_FAILED(aReason)) {
// Have we seen this failure before?
FailDelay* knownFailure =
sManager->mFailures.Lookup(aChannel->mAddress, aChannel->mPort);
if (knownFailure) {
if (aReason == NS_ERROR_NOT_CONNECTED) {
// Don't count close() before connection as a network error
LOG(
("Websocket close() before connection to %s, %d completed"
" [this=%p]",
aChannel->mAddress.get(), (int)aChannel->mPort, aChannel));
} else {
// repeated failure to connect: increase delay for next connection
knownFailure->FailedAgain();
}
} else {
// new connection failure: record it.
LOG(("WebSocket: connection to %s, %d failed: [this=%p]",
aChannel->mAddress.get(), (int)aChannel->mPort, aChannel));
sManager->mFailures.Add(aChannel->mAddress, aChannel->mPort);
}
}
if (NS_IsMainThread()) {
ContinueOnStopSession(aChannel, aReason);
} else {
NS_DispatchToMainThread(NS_NewRunnableFunction(
"nsWSAdmissionManager::ContinueOnStopSession",
[channel = RefPtr{aChannel}, reason = aReason]() {
StaticMutexAutoLock lock(sLock);
if (!sManager) {
return;
}
nsWSAdmissionManager::ContinueOnStopSession(channel, reason);
}));
}
}
static void ContinueOnStopSession(WebSocketChannel* aChannel,
nsresult aReason) {
sLock.AssertCurrentThreadOwns();
MOZ_ASSERT(NS_IsMainThread(), "not main thread");
if (!aChannel->mConnecting) {
return;
}
// Only way a connecting channel may get here w/o failing is if it
// was closed with GOING_AWAY (1001) because of navigation, tab
// close, etc.
#ifdef DEBUG
{
MutexAutoLock lock(aChannel->mMutex);
MOZ_ASSERT(
NS_FAILED(aReason) || aChannel->mScriptCloseCode == CLOSE_GOING_AWAY,
"websocket closed while connecting w/o failing?");
}
#endif
Unused << aReason;
sManager->RemoveFromQueue(aChannel);
bool wasNotQueued = (aChannel->mConnecting != CONNECTING_QUEUED);
LOG(("Websocket: changing state to NOT_CONNECTING"));
aChannel->mConnecting = NOT_CONNECTING;
if (wasNotQueued) {
sManager->ConnectNext(aChannel->mAddress, aChannel->mOriginSuffix);
}
}
static void IncrementSessionCount() {
StaticMutexAutoLock lock(sLock);
if (!sManager) {
return;
}
sManager->mSessionCount++;
}
static void DecrementSessionCount() {
StaticMutexAutoLock lock(sLock);
if (!sManager) {
return;
}
sManager->mSessionCount--;
}
static void GetSessionCount(int32_t& aSessionCount) {
StaticMutexAutoLock lock(sLock);
if (!sManager) {
return;
}
aSessionCount = sManager->mSessionCount;
}
private:
nsWSAdmissionManager() : mSessionCount(0) {
MOZ_COUNT_CTOR(nsWSAdmissionManager);
}
~nsWSAdmissionManager() { MOZ_COUNT_DTOR(nsWSAdmissionManager); }
class nsOpenConn {
public:
nsOpenConn(nsCString& addr, nsCString& originSuffix,
WebSocketChannel* channel)
: mAddress(addr), mOriginSuffix(originSuffix), mChannel(channel) {
MOZ_COUNT_CTOR(nsOpenConn);
}
MOZ_COUNTED_DTOR(nsOpenConn)
nsCString mAddress;
nsCString mOriginSuffix;
WebSocketChannel* mChannel;
};
void ConnectNext(nsCString& hostName, nsCString& originSuffix) {
MOZ_ASSERT(NS_IsMainThread(), "not main thread");
int32_t index = IndexOf(hostName, originSuffix);
if (index >= 0) {
WebSocketChannel* chan = mQueue[index]->mChannel;
MOZ_ASSERT(chan->mConnecting == CONNECTING_QUEUED,
"transaction not queued but in queue");
LOG(("WebSocket: ConnectNext: found channel [this=%p] in queue", chan));
mFailures.DelayOrBegin(chan);
}
}
void RemoveFromQueue(WebSocketChannel* aChannel) {
LOG(("Websocket: RemoveFromQueue: [this=%p]", aChannel));
int32_t index = IndexOf(aChannel);
MOZ_ASSERT(index >= 0, "connection to remove not in queue");
if (index >= 0) {
mQueue.RemoveElementAt(index);
}
}
int32_t IndexOf(nsCString& aAddress, nsCString& aOriginSuffix) {
for (uint32_t i = 0; i < mQueue.Length(); i++) {
bool isPartitioned =
(StaticPrefs::privacy_partition_network_state() ||
StaticPrefs::privacy_firstparty_isolate()) &&
StaticPrefs::privacy_partition_network_state_ws_connection_queue();
if (aAddress == (mQueue[i])->mAddress &&
(!isPartitioned || aOriginSuffix == (mQueue[i])->mOriginSuffix)) {
return i;
}
}
return -1;
}
int32_t IndexOf(WebSocketChannel* aChannel) {
for (uint32_t i = 0; i < mQueue.Length(); i++) {
if (aChannel == (mQueue[i])->mChannel) return i;
}
return -1;
}
// SessionCount might be decremented from the main or the socket
// thread, so manage it with atomic counters
Atomic<int32_t> mSessionCount;
// Queue for websockets that have not completed connecting yet.
// The first nsOpenConn with a given address will be either be
// CONNECTING_IN_PROGRESS or CONNECTING_DELAYED. Later ones with the same
// hostname must be CONNECTING_QUEUED.
//
// We could hash hostnames instead of using a single big vector here, but the
// dataset is expected to be small.
nsTArray<UniquePtr<nsOpenConn>> mQueue;
FailDelayManager mFailures;
static nsWSAdmissionManager* sManager MOZ_GUARDED_BY(sLock);
static StaticMutex sLock;
};
nsWSAdmissionManager* nsWSAdmissionManager::sManager;
StaticMutex nsWSAdmissionManager::sLock;
//-----------------------------------------------------------------------------
// CallOnMessageAvailable
//-----------------------------------------------------------------------------
class CallOnMessageAvailable final : public Runnable {
public:
CallOnMessageAvailable(WebSocketChannel* aChannel, nsACString& aData,
int32_t aLen)
: Runnable("net::CallOnMessageAvailable"),
mChannel(aChannel),
mListenerMT(aChannel->mListenerMT),
mData(aData),
mLen(aLen) {}
NS_IMETHOD Run() override {
MOZ_ASSERT(mChannel->IsOnTargetThread());
if (mListenerMT) {
nsresult rv;
if (mLen < 0) {
rv = mListenerMT->mListener->OnMessageAvailable(mListenerMT->mContext,
mData);
} else {
rv = mListenerMT->mListener->OnBinaryMessageAvailable(
mListenerMT->mContext, mData);
}
if (NS_FAILED(rv)) {
LOG(
("OnMessageAvailable or OnBinaryMessageAvailable "
"failed with 0x%08" PRIx32,
static_cast<uint32_t>(rv)));
}
}
return NS_OK;
}
private:
~CallOnMessageAvailable() = default;
RefPtr<WebSocketChannel> mChannel;
RefPtr<BaseWebSocketChannel::ListenerAndContextContainer> mListenerMT;
nsCString mData;
int32_t mLen;
};
//-----------------------------------------------------------------------------
// CallOnStop
//-----------------------------------------------------------------------------
class CallOnStop final : public Runnable {
public:
CallOnStop(WebSocketChannel* aChannel, nsresult aReason)
: Runnable("net::CallOnStop"),
mChannel(aChannel),
mListenerMT(mChannel->mListenerMT),
mReason(aReason) {}
NS_IMETHOD Run() override {
MOZ_ASSERT(mChannel->IsOnTargetThread());
if (mListenerMT) {
nsresult rv =
mListenerMT->mListener->OnStop(mListenerMT->mContext, mReason);
if (NS_FAILED(rv)) {
LOG(
("WebSocketChannel::CallOnStop "
"OnStop failed (%08" PRIx32 ")\n",
static_cast<uint32_t>(rv)));
}
mChannel->mListenerMT = nullptr;
}
return NS_OK;
}
private:
~CallOnStop() = default;
RefPtr<WebSocketChannel> mChannel;
RefPtr<BaseWebSocketChannel::ListenerAndContextContainer> mListenerMT;
nsresult mReason;
};
//-----------------------------------------------------------------------------
// CallOnServerClose
//-----------------------------------------------------------------------------
class CallOnServerClose final : public Runnable {
public:
CallOnServerClose(WebSocketChannel* aChannel, uint16_t aCode,
nsACString& aReason)
: Runnable("net::CallOnServerClose"),
mChannel(aChannel),
mListenerMT(mChannel->mListenerMT),
mCode(aCode),
mReason(aReason) {}
NS_IMETHOD Run() override {
MOZ_ASSERT(mChannel->IsOnTargetThread());
if (mListenerMT) {
nsresult rv = mListenerMT->mListener->OnServerClose(mListenerMT->mContext,
mCode, mReason);
if (NS_FAILED(rv)) {
LOG(
("WebSocketChannel::CallOnServerClose "
"OnServerClose failed (%08" PRIx32 ")\n",
static_cast<uint32_t>(rv)));
}
}
return NS_OK;
}
private:
~CallOnServerClose() = default;
RefPtr<WebSocketChannel> mChannel;
RefPtr<BaseWebSocketChannel::ListenerAndContextContainer> mListenerMT;
uint16_t mCode;
nsCString mReason;
};
//-----------------------------------------------------------------------------
// CallAcknowledge
//-----------------------------------------------------------------------------
class CallAcknowledge final : public Runnable {
public:
CallAcknowledge(WebSocketChannel* aChannel, uint32_t aSize)
: Runnable("net::CallAcknowledge"),
mChannel(aChannel),
mListenerMT(mChannel->mListenerMT),
mSize(aSize) {}
NS_IMETHOD Run() override {
MOZ_ASSERT(mChannel->IsOnTargetThread());
LOG(("WebSocketChannel::CallAcknowledge: Size %u\n", mSize));
if (mListenerMT) {
nsresult rv =
mListenerMT->mListener->OnAcknowledge(mListenerMT->mContext, mSize);
if (NS_FAILED(rv)) {
LOG(("WebSocketChannel::CallAcknowledge: Acknowledge failed (%08" PRIx32
")\n",
static_cast<uint32_t>(rv)));
}
}
return NS_OK;
}
private:
~CallAcknowledge() = default;
RefPtr<WebSocketChannel> mChannel;
RefPtr<BaseWebSocketChannel::ListenerAndContextContainer> mListenerMT;
uint32_t mSize;
};
//-----------------------------------------------------------------------------
// CallOnTransportAvailable
//-----------------------------------------------------------------------------
class CallOnTransportAvailable final : public Runnable {
public:
CallOnTransportAvailable(WebSocketChannel* aChannel,
nsISocketTransport* aTransport,
nsIAsyncInputStream* aSocketIn,
nsIAsyncOutputStream* aSocketOut)
: Runnable("net::CallOnTransportAvailble"),
mChannel(aChannel),
mTransport(aTransport),
mSocketIn(aSocketIn),
mSocketOut(aSocketOut) {}
NS_IMETHOD Run() override {
LOG(("WebSocketChannel::CallOnTransportAvailable %p\n", this));
return mChannel->OnTransportAvailable(mTransport, mSocketIn, mSocketOut);
}
private:
~CallOnTransportAvailable() = default;
RefPtr<WebSocketChannel> mChannel;
nsCOMPtr<nsISocketTransport> mTransport;
nsCOMPtr<nsIAsyncInputStream> mSocketIn;
nsCOMPtr<nsIAsyncOutputStream> mSocketOut;
};
//-----------------------------------------------------------------------------
// PMCECompression
//-----------------------------------------------------------------------------
class PMCECompression {
public:
PMCECompression(bool aNoContextTakeover, int32_t aLocalMaxWindowBits,
int32_t aRemoteMaxWindowBits)
: mActive(false),
mNoContextTakeover(aNoContextTakeover),
mResetDeflater(false),
mMessageDeflated(false) {
this->mDeflater.next_in = nullptr;
this->mDeflater.avail_in = 0;
this->mDeflater.total_in = 0;
this->mDeflater.next_out = nullptr;
this->mDeflater.avail_out = 0;
this->mDeflater.total_out = 0;
this->mDeflater.msg = nullptr;
this->mDeflater.state = nullptr;
this->mDeflater.data_type = 0;
this->mDeflater.adler = 0;
this->mDeflater.reserved = 0;
this->mInflater.next_in = nullptr;
this->mInflater.avail_in = 0;
this->mInflater.total_in = 0;
this->mInflater.next_out = nullptr;
this->mInflater.avail_out = 0;
this->mInflater.total_out = 0;
this->mInflater.msg = nullptr;
this->mInflater.state = nullptr;
this->mInflater.data_type = 0;
this->mInflater.adler = 0;
this->mInflater.reserved = 0;
MOZ_COUNT_CTOR(PMCECompression);
mDeflater.zalloc = mInflater.zalloc = Z_NULL;
mDeflater.zfree = mInflater.zfree = Z_NULL;
mDeflater.opaque = mInflater.opaque = Z_NULL;
if (deflateInit2(&mDeflater, Z_DEFAULT_COMPRESSION, Z_DEFLATED,
-aLocalMaxWindowBits, 8, Z_DEFAULT_STRATEGY) == Z_OK) {
if (inflateInit2(&mInflater, -aRemoteMaxWindowBits) == Z_OK) {
mActive = true;
} else {
deflateEnd(&mDeflater);
}
}
}
~PMCECompression() {
MOZ_COUNT_DTOR(PMCECompression);
if (mActive) {
inflateEnd(&mInflater);
deflateEnd(&mDeflater);
}
}
bool Active() { return mActive; }
void SetMessageDeflated() {
MOZ_ASSERT(!mMessageDeflated);
mMessageDeflated = true;
}
bool IsMessageDeflated() { return mMessageDeflated; }
bool UsingContextTakeover() { return !mNoContextTakeover; }
nsresult Deflate(uint8_t* data, uint32_t dataLen, nsACString& _retval) {
if (mResetDeflater || mNoContextTakeover) {
if (deflateReset(&mDeflater) != Z_OK) {
return NS_ERROR_UNEXPECTED;
}
mResetDeflater = false;
}
mDeflater.avail_out = kBufferLen;
mDeflater.next_out = mBuffer;
mDeflater.avail_in = dataLen;
mDeflater.next_in = data;
while (true) {
int zerr = deflate(&mDeflater, Z_SYNC_FLUSH);
if (zerr != Z_OK) {
mResetDeflater = true;
return NS_ERROR_UNEXPECTED;
}
uint32_t deflated = kBufferLen - mDeflater.avail_out;
if (deflated > 0) {
_retval.Append(reinterpret_cast<char*>(mBuffer), deflated);
}
mDeflater.avail_out = kBufferLen;
mDeflater.next_out = mBuffer;
if (mDeflater.avail_in > 0) {
continue; // There is still some data to deflate
}
if (deflated == kBufferLen) {
continue; // There was not enough space in the buffer
}
break;
}
if (_retval.Length() < 4) {
MOZ_ASSERT(false, "Expected trailing not found in deflated data!");
mResetDeflater = true;
return NS_ERROR_UNEXPECTED;
}
_retval.Truncate(_retval.Length() - 4);
return NS_OK;
}
nsresult Inflate(uint8_t* data, uint32_t dataLen, nsACString& _retval) {
mMessageDeflated = false;
Bytef trailingData[] = {0x00, 0x00, 0xFF, 0xFF};
bool trailingDataUsed = false;
mInflater.avail_out = kBufferLen;
mInflater.next_out = mBuffer;
mInflater.avail_in = dataLen;
mInflater.next_in = data;
while (true) {
int zerr = inflate(&mInflater, Z_NO_FLUSH);
if (zerr == Z_STREAM_END) {
Bytef* saveNextIn = mInflater.next_in;
uint32_t saveAvailIn = mInflater.avail_in;
Bytef* saveNextOut = mInflater.next_out;
uint32_t saveAvailOut = mInflater.avail_out;
inflateReset(&mInflater);
mInflater.next_in = saveNextIn;
mInflater.avail_in = saveAvailIn;
mInflater.next_out = saveNextOut;
mInflater.avail_out = saveAvailOut;
} else if (zerr != Z_OK && zerr != Z_BUF_ERROR) {
return NS_ERROR_INVALID_CONTENT_ENCODING;
}
uint32_t inflated = kBufferLen - mInflater.avail_out;
if (inflated > 0) {
if (!_retval.Append(reinterpret_cast<char*>(mBuffer), inflated,
fallible)) {
return NS_ERROR_OUT_OF_MEMORY;
}
}
mInflater.avail_out = kBufferLen;
mInflater.next_out = mBuffer;
if (mInflater.avail_in > 0) {
continue; // There is still some data to inflate
}
if (inflated == kBufferLen) {
continue; // There was not enough space in the buffer
}
if (!trailingDataUsed) {
trailingDataUsed = true;
mInflater.avail_in = sizeof(trailingData);
mInflater.next_in = trailingData;
continue;
}
return NS_OK;
}
}
private:
bool mActive;
bool mNoContextTakeover;
bool mResetDeflater;
bool mMessageDeflated;
z_stream mDeflater{};
z_stream mInflater{};
const static uint32_t kBufferLen = 4096;
uint8_t mBuffer[kBufferLen]{0};
};
//-----------------------------------------------------------------------------
// OutboundMessage
//-----------------------------------------------------------------------------
enum WsMsgType {
kMsgTypeString = 0,
kMsgTypeBinaryString,
kMsgTypeStream,
kMsgTypePing,
kMsgTypePong,
kMsgTypeFin
};
static const char* msgNames[] = {"text", "binaryString", "binaryStream",
"ping", "pong", "close"};
class OutboundMessage {
public:
OutboundMessage(WsMsgType type, const nsACString& str)
: mMsg(mozilla::AsVariant(pString(str))),
mMsgType(type),
mDeflated(false) {
MOZ_COUNT_CTOR(OutboundMessage);
}
OutboundMessage(nsIInputStream* stream, uint32_t length)
: mMsg(mozilla::AsVariant(StreamWithLength(stream, length))),
mMsgType(kMsgTypeStream),
mDeflated(false) {
MOZ_COUNT_CTOR(OutboundMessage);
}
~OutboundMessage() {
MOZ_COUNT_DTOR(OutboundMessage);
switch (mMsgType) {
case kMsgTypeString:
case kMsgTypeBinaryString:
case kMsgTypePing:
case kMsgTypePong:
break;
case kMsgTypeStream:
// for now this only gets hit if msg deleted w/o being sent
if (mMsg.as<StreamWithLength>().mStream) {
mMsg.as<StreamWithLength>().mStream->Close();
}
break;
case kMsgTypeFin:
break; // do-nothing: avoid compiler warning
}
}
WsMsgType GetMsgType() const { return mMsgType; }
int32_t Length() {
if (mMsg.is<pString>()) {
return mMsg.as<pString>().mValue.Length();
}
return mMsg.as<StreamWithLength>().mLength;
}
int32_t OrigLength() {
if (mMsg.is<pString>()) {
pString& ref = mMsg.as<pString>();
return mDeflated ? ref.mOrigValue.Length() : ref.mValue.Length();
}
return mMsg.as<StreamWithLength>().mLength;
}
uint8_t* BeginWriting() {
MOZ_ASSERT(mMsgType != kMsgTypeStream,
"Stream should have been converted to string by now");
if (!mMsg.as<pString>().mValue.IsVoid()) {
return (uint8_t*)mMsg.as<pString>().mValue.BeginWriting();
}
return nullptr;
}
uint8_t* BeginReading() {
MOZ_ASSERT(mMsgType != kMsgTypeStream,
"Stream should have been converted to string by now");
if (!mMsg.as<pString>().mValue.IsVoid()) {
return (uint8_t*)mMsg.as<pString>().mValue.BeginReading();
}
return nullptr;
}
uint8_t* BeginOrigReading() {
MOZ_ASSERT(mMsgType != kMsgTypeStream,
"Stream should have been converted to string by now");
if (!mDeflated) return BeginReading();
if (!mMsg.as<pString>().mOrigValue.IsVoid()) {
return (uint8_t*)mMsg.as<pString>().mOrigValue.BeginReading();
}
return nullptr;
}
nsresult ConvertStreamToString() {
MOZ_ASSERT(mMsgType == kMsgTypeStream, "Not a stream!");
nsAutoCString temp;
{
StreamWithLength& ref = mMsg.as<StreamWithLength>();
nsresult rv = NS_ReadInputStreamToString(ref.mStream, temp, ref.mLength);
NS_ENSURE_SUCCESS(rv, rv);
if (temp.Length() != ref.mLength) {
return NS_ERROR_UNEXPECTED;
}
ref.mStream->Close();
}
mMsg = mozilla::AsVariant(pString(temp));
mMsgType = kMsgTypeBinaryString;
return NS_OK;
}
bool DeflatePayload(PMCECompression* aCompressor) {
MOZ_ASSERT(mMsgType != kMsgTypeStream,
"Stream should have been converted to string by now");
MOZ_ASSERT(!mDeflated);
nsresult rv;
pString& ref = mMsg.as<pString>();
if (ref.mValue.Length() == 0) {
// Empty message
return false;
}
nsAutoCString temp;
rv = aCompressor->Deflate(BeginReading(), ref.mValue.Length(), temp);
if (NS_FAILED(rv)) {
LOG(
("WebSocketChannel::OutboundMessage: Deflating payload failed "
"[rv=0x%08" PRIx32 "]\n",
static_cast<uint32_t>(rv)));
return false;
}
if (!aCompressor->UsingContextTakeover() &&
temp.Length() > ref.mValue.Length()) {
// When "<local>_no_context_takeover" was negotiated, do not send deflated
// payload if it's larger that the original one. OTOH, it makes sense
// to send the larger deflated payload when the sliding window is not
// reset between messages because if we would skip some deflated block
// we would need to empty the sliding window which could affect the
// compression of the subsequent messages.
LOG(
("WebSocketChannel::OutboundMessage: Not deflating message since the "
"deflated payload is larger than the original one [deflated=%zd, "
"original=%zd]",
temp.Length(), ref.mValue.Length()));
return false;
}
mDeflated = true;
mMsg.as<pString>().mOrigValue = mMsg.as<pString>().mValue;
mMsg.as<pString>().mValue = temp;
return true;
}
private:
struct pString {
nsCString mValue;
nsCString mOrigValue;
explicit pString(const nsACString& value)
: mValue(value), mOrigValue(VoidCString()) {}
};
struct StreamWithLength {
nsCOMPtr<nsIInputStream> mStream;
uint32_t mLength;
explicit StreamWithLength(nsIInputStream* stream, uint32_t Length)
: mStream(stream), mLength(Length) {}
};
mozilla::Variant<pString, StreamWithLength> mMsg;
WsMsgType mMsgType;
bool mDeflated;
};
//-----------------------------------------------------------------------------
// OutboundEnqueuer
//-----------------------------------------------------------------------------
class OutboundEnqueuer final : public Runnable {
public:
OutboundEnqueuer(WebSocketChannel* aChannel, OutboundMessage* aMsg)
: Runnable("OutboundEnquerer"), mChannel(aChannel), mMessage(aMsg) {}
NS_IMETHOD Run() override {
mChannel->EnqueueOutgoingMessage(mChannel->mOutgoingMessages, mMessage);
return NS_OK;
}
private:
~OutboundEnqueuer() = default;
RefPtr<WebSocketChannel> mChannel;
OutboundMessage* mMessage;
};
//-----------------------------------------------------------------------------
// WebSocketChannel
//-----------------------------------------------------------------------------
WebSocketChannel::WebSocketChannel()
: mPort(0),
mCloseTimeout(20000),
mOpenTimeout(20000),
mConnecting(NOT_CONNECTING),
mMaxConcurrentConnections(200),
mInnerWindowID(0),
mGotUpgradeOK(0),
mRecvdHttpUpgradeTransport(0),
mAutoFollowRedirects(0),
mAllowPMCE(1),
mPingOutstanding(0),
mReleaseOnTransmit(0),
mDataStarted(false),
mRequestedClose(false),
mClientClosed(false),
mServerClosed(false),
mStopped(false),
mCalledOnStop(false),
mTCPClosed(false),
mOpenedHttpChannel(false),
mIncrementedSessionCount(false),
mDecrementedSessionCount(false),
mMaxMessageSize(INT32_MAX),
mStopOnClose(NS_OK),
mServerCloseCode(CLOSE_ABNORMAL),
mScriptCloseCode(0),
mFragmentOpcode(nsIWebSocketFrame::OPCODE_CONTINUATION),
mFragmentAccumulator(0),
mBuffered(0),
mBufferSize(kIncomingBufferInitialSize),
mCurrentOut(nullptr),
mCurrentOutSent(0),
mHdrOutToSend(0),
mHdrOut(nullptr),
mDynamicOutputSize(0),
mDynamicOutput(nullptr),
mPrivateBrowsing(false),
mConnectionLogService(nullptr),
mMutex("WebSocketChannel::mMutex") {
MOZ_ASSERT(NS_IsMainThread(), "not main thread");
LOG(("WebSocketChannel::WebSocketChannel() %p\n", this));
nsWSAdmissionManager::Init();
mFramePtr = mBuffer = static_cast<uint8_t*>(moz_xmalloc(mBufferSize));
nsresult rv;
mConnectionLogService =
do_GetService("@mozilla.org/network/dashboard;1", &rv);
if (NS_FAILED(rv)) LOG(("Failed to initiate dashboard service."));
mService = WebSocketEventService::GetOrCreate();
}
WebSocketChannel::~WebSocketChannel() {
LOG(("WebSocketChannel::~WebSocketChannel() %p\n", this));
if (mWasOpened) {
MOZ_ASSERT(mCalledOnStop, "WebSocket was opened but OnStop was not called");
MOZ_ASSERT(mStopped, "WebSocket was opened but never stopped");
}
MOZ_ASSERT(!mCancelable, "DNS/Proxy Request still alive at destruction");
MOZ_ASSERT(!mConnecting, "Should not be connecting in destructor");
free(mBuffer);
free(mDynamicOutput);
delete mCurrentOut;
while ((mCurrentOut = mOutgoingPingMessages.PopFront())) {
delete mCurrentOut;
}
while ((mCurrentOut = mOutgoingPongMessages.PopFront())) {
delete mCurrentOut;
}
while ((mCurrentOut = mOutgoingMessages.PopFront())) {
delete mCurrentOut;
}
mListenerMT = nullptr;
NS_ReleaseOnMainThread("WebSocketChannel::mService", mService.forget());
}
NS_IMETHODIMP
WebSocketChannel::Observe(nsISupports* subject, const char* topic,
const char16_t* data) {
LOG(("WebSocketChannel::Observe [topic=\"%s\"]\n", topic));
if (strcmp(topic, NS_NETWORK_LINK_TOPIC) == 0) {
nsCString converted = NS_ConvertUTF16toUTF8(data);
const char* state = converted.get();
if (strcmp(state, NS_NETWORK_LINK_DATA_CHANGED) == 0) {
LOG(("WebSocket: received network CHANGED event"));
if (!mIOThread) {
// there has not been an asyncopen yet on the object and then we need
// no ping.
LOG(("WebSocket: early object, no ping needed"));
} else {
mIOThread->Dispatch(
NewRunnableMethod("net::WebSocketChannel::OnNetworkChanged", this,
&WebSocketChannel::OnNetworkChanged),
NS_DISPATCH_NORMAL);
}
}
}
return NS_OK;
}
nsresult WebSocketChannel::OnNetworkChanged() {
if (!mDataStarted) {
LOG(("WebSocket: data not started yet, no ping needed"));
return NS_OK;
}
MOZ_ASSERT(mIOThread->IsOnCurrentThread(), "not on right thread");
LOG(("WebSocketChannel::OnNetworkChanged() - on socket thread %p", this));
if (mPingOutstanding) {
// If there's an outstanding ping that's expected to get a pong back
// we let that do its thing.
LOG(("WebSocket: pong already pending"));
return NS_OK;
}
if (mPingForced) {
// avoid more than one
LOG(("WebSocket: forced ping timer already fired"));
return NS_OK;
}
LOG(("nsWebSocketChannel:: Generating Ping as network changed\n"));
if (!mPingTimer) {
// The ping timer is only conditionally running already. If it wasn't
// already created do it here.
mPingTimer = NS_NewTimer();
if (!mPingTimer) {
LOG(("WebSocket: unable to create ping timer!"));
NS_WARNING("unable to create ping timer!");
return NS_ERROR_OUT_OF_MEMORY;
}
}
// Trigger the ping timeout asap to fire off a new ping. Wait just
// a little bit to better avoid multi-triggers.
mPingForced = true;
mPingTimer->InitWithCallback(this, 200, nsITimer::TYPE_ONE_SHOT);
return NS_OK;
}
void WebSocketChannel::Shutdown() { nsWSAdmissionManager::Shutdown(); }
void WebSocketChannel::GetEffectiveURL(nsAString& aEffectiveURL) const {
aEffectiveURL = mEffectiveURL;
}
bool WebSocketChannel::IsEncrypted() const { return mEncrypted; }
void WebSocketChannel::BeginOpen(bool aCalledFromAdmissionManager) {
MOZ_ASSERT(NS_IsMainThread(), "not main thread");
LOG(("WebSocketChannel::BeginOpen() %p\n", this));
// Important that we set CONNECTING_IN_PROGRESS before any call to
// AbortSession here: ensures that any remaining queued connection(s) are
// scheduled in OnStopSession
LOG(("Websocket: changing state to CONNECTING_IN_PROGRESS"));
mConnecting = CONNECTING_IN_PROGRESS;
if (aCalledFromAdmissionManager) {
// When called from nsWSAdmissionManager post an event to avoid potential
// re-entering of nsWSAdmissionManager and its lock.
NS_DispatchToMainThread(
NewRunnableMethod("net::WebSocketChannel::BeginOpenInternal", this,
&WebSocketChannel::BeginOpenInternal),
NS_DISPATCH_NORMAL);
} else {
BeginOpenInternal();
}
}
// MainThread
void WebSocketChannel::BeginOpenInternal() {
LOG(("WebSocketChannel::BeginOpenInternal() %p\n", this));
MOZ_ASSERT(NS_IsMainThread(), "not main thread");
nsresult rv;
if (mRedirectCallback) {
LOG(("WebSocketChannel::BeginOpenInternal: Resuming Redirect\n"));
rv = mRedirectCallback->OnRedirectVerifyCallback(NS_OK);
mRedirectCallback = nullptr;
return;
}
nsCOMPtr<nsIChannel> localChannel = do_QueryInterface(mChannel, &rv);
if (NS_FAILED(rv)) {
LOG(("WebSocketChannel::BeginOpenInternal: cannot async open\n"));
AbortSession(NS_ERROR_UNEXPECTED);
return;
}
rv = localChannel->AsyncOpen(this);
if (NS_FAILED(rv)) {
LOG(("WebSocketChannel::BeginOpenInternal: cannot async open\n"));
AbortSession(NS_ERROR_WEBSOCKET_CONNECTION_REFUSED);
return;
}
mOpenedHttpChannel = true;
rv = NS_NewTimerWithCallback(getter_AddRefs(mOpenTimer), this, mOpenTimeout,
nsITimer::TYPE_ONE_SHOT);
if (NS_FAILED(rv)) {
LOG(
("WebSocketChannel::BeginOpenInternal: cannot initialize open "
"timer\n"));
AbortSession(NS_ERROR_UNEXPECTED);
return;
}
}
bool WebSocketChannel::IsPersistentFramePtr() {
return (mFramePtr >= mBuffer && mFramePtr < mBuffer + mBufferSize);
}
// Extends the internal buffer by count and returns the total
// amount of data available for read
//
// Accumulated fragment size is passed in instead of using the member
// variable beacuse when transitioning from the stack to the persistent
// read buffer we want to explicitly include them in the buffer instead
// of as already existing data.
bool WebSocketChannel::UpdateReadBuffer(uint8_t* buffer, uint32_t count,
uint32_t accumulatedFragments,
uint32_t* available) {
LOG(("WebSocketChannel::UpdateReadBuffer() %p [%p %u]\n", this, buffer,
count));
if (!mBuffered) mFramePtr = mBuffer;
MOZ_ASSERT(IsPersistentFramePtr(), "update read buffer bad mFramePtr");
MOZ_ASSERT(mFramePtr - accumulatedFragments >= mBuffer,
"reserved FramePtr bad");
if (mBuffered + count <= mBufferSize) {
// append to existing buffer
LOG(("WebSocketChannel: update read buffer absorbed %u\n", count));
} else if (mBuffered + count - (mFramePtr - accumulatedFragments - mBuffer) <=
mBufferSize) {
// make room in existing buffer by shifting unused data to start
mBuffered -= (mFramePtr - mBuffer - accumulatedFragments);
LOG(("WebSocketChannel: update read buffer shifted %u\n", mBuffered));
::memmove(mBuffer, mFramePtr - accumulatedFragments, mBuffered);
mFramePtr = mBuffer + accumulatedFragments;
} else {
// existing buffer is not sufficient, extend it
mBufferSize += count + 8192 + mBufferSize / 3;
LOG(("WebSocketChannel: update read buffer extended to %u\n", mBufferSize));
uint8_t* old = mBuffer;
mBuffer = (uint8_t*)realloc(mBuffer, mBufferSize);
if (!mBuffer) {
mBuffer = old;
return false;
}
mFramePtr = mBuffer + (mFramePtr - old);
}
::memcpy(mBuffer + mBuffered, buffer, count);
mBuffered += count;
if (available) *available = mBuffered - (mFramePtr - mBuffer);
return true;
}
nsresult WebSocketChannel::ProcessInput(uint8_t* buffer, uint32_t count) {
LOG(("WebSocketChannel::ProcessInput %p [%d %d]\n", this, count, mBuffered));
MOZ_ASSERT(mIOThread->IsOnCurrentThread(), "not on right thread");
nsresult rv;
// The purpose of ping/pong is to actively probe the peer so that an
// unreachable peer is not mistaken for a period of idleness. This
// implementation accepts any application level read activity as a sign of
// life, it does not necessarily have to be a pong.
ResetPingTimer();
uint32_t avail;
if (!mBuffered) {
// Most of the time we can process right off the stack buffer without
// having to accumulate anything
mFramePtr = buffer;
avail = count;
} else {
if (!UpdateReadBuffer(buffer, count, mFragmentAccumulator, &avail)) {
return NS_ERROR_FILE_TOO_BIG;
}
}
uint8_t* payload;
uint32_t totalAvail = avail;
while (avail >= 2) {
int64_t payloadLength64 = mFramePtr[1] & kPayloadLengthBitsMask;
uint8_t finBit = mFramePtr[0] & kFinalFragBit;
uint8_t rsvBits = mFramePtr[0] & kRsvBitsMask;
uint8_t rsvBit1 = mFramePtr[0] & kRsv1Bit;
uint8_t rsvBit2 = mFramePtr[0] & kRsv2Bit;
uint8_t rsvBit3 = mFramePtr[0] & kRsv3Bit;
uint8_t opcode = mFramePtr[0] & kOpcodeBitsMask;
uint8_t maskBit = mFramePtr[1] & kMaskBit;
uint32_t mask = 0;
uint32_t framingLength = 2;
if (maskBit) framingLength += 4;
if (payloadLength64 < 126) {
if (avail < framingLength) break;
} else if (payloadLength64 == 126) {
// 16 bit length field
framingLength += 2;
if (avail < framingLength) break;
payloadLength64 = mFramePtr[2] << 8 | mFramePtr[3];
if (payloadLength64 < 126) {
// Section 5.2 says that the minimal number of bytes MUST
// be used to encode the length in all cases
LOG(("WebSocketChannel:: non-minimal-encoded payload length"));
return NS_ERROR_ILLEGAL_VALUE;
}
} else {
// 64 bit length
framingLength += 8;
if (avail < framingLength) break;
if (mFramePtr[2] & 0x80) {
// Section 4.2 says that the most significant bit MUST be
// 0. (i.e. this is really a 63 bit value)
LOG(("WebSocketChannel:: high bit of 64 bit length set"));
return NS_ERROR_ILLEGAL_VALUE;
}
// copy this in case it is unaligned
payloadLength64 = NetworkEndian::readInt64(mFramePtr + 2);
if (payloadLength64 <= 0xffff) {
// Section 5.2 says that the minimal number of bytes MUST
// be used to encode the length in all cases
LOG(("WebSocketChannel:: non-minimal-encoded payload length"));
return NS_ERROR_ILLEGAL_VALUE;
}
}
payload = mFramePtr + framingLength;
avail -= framingLength;
LOG(("WebSocketChannel::ProcessInput: payload %" PRId64 " avail %" PRIu32
"\n",
payloadLength64, avail));
CheckedInt<int64_t> payloadLengthChecked(payloadLength64);
payloadLengthChecked += mFragmentAccumulator;
if (!payloadLengthChecked.isValid() ||
payloadLengthChecked.value() > mMaxMessageSize) {
return NS_ERROR_FILE_TOO_BIG;
}
uint32_t payloadLength = static_cast<uint32_t>(payloadLength64);
if (avail < payloadLength) break;
LOG(("WebSocketChannel::ProcessInput: Frame accumulated - opcode %d\n",
opcode));
if (!maskBit && mIsServerSide) {
LOG(
("WebSocketChannel::ProcessInput: unmasked frame received "
"from client\n"));
return NS_ERROR_ILLEGAL_VALUE;
}
if (maskBit) {
if (!mIsServerSide) {
// The server should not be allowed to send masked frames to clients.
// But we've been allowing it for some time, so this should be
// deprecated with care.
LOG(("WebSocketChannel:: Client RECEIVING masked frame."));
}
mask = NetworkEndian::readUint32(payload - 4);
}
if (mask) {
ApplyMask(mask, payload, payloadLength);
} else if (mIsServerSide) {
LOG(
("WebSocketChannel::ProcessInput: masked frame with mask 0 received"
"from client\n"));
return NS_ERROR_ILLEGAL_VALUE;
}
// Control codes are required to have the fin bit set
if (!finBit && (opcode & kControlFrameMask)) {
LOG(("WebSocketChannel:: fragmented control frame code %d\n", opcode));
return NS_ERROR_ILLEGAL_VALUE;
}
if (rsvBits) {
// PMCE sets RSV1 bit in the first fragment when the non-control frame
// is deflated
if (mPMCECompressor && rsvBits == kRsv1Bit && mFragmentAccumulator == 0 &&
!(opcode & kControlFrameMask)) {
mPMCECompressor->SetMessageDeflated();
LOG(("WebSocketChannel::ProcessInput: received deflated frame\n"));
} else {
LOG(("WebSocketChannel::ProcessInput: unexpected reserved bits %x\n",
rsvBits));
return NS_ERROR_ILLEGAL_VALUE;
}
}
if (!finBit || opcode == nsIWebSocketFrame::OPCODE_CONTINUATION) {
// This is part of a fragment response
// Only the first frame has a non zero op code: Make sure we don't see a
// first frame while some old fragments are open
if ((mFragmentAccumulator != 0) &&
(opcode != nsIWebSocketFrame::OPCODE_CONTINUATION)) {
LOG(("WebSocketChannel:: nested fragments\n"));
return NS_ERROR_ILLEGAL_VALUE;
}
LOG(("WebSocketChannel:: Accumulating Fragment %" PRIu32 "\n",
payloadLength));
if (opcode == nsIWebSocketFrame::OPCODE_CONTINUATION) {
// Make sure this continuation fragment isn't the first fragment
if (mFragmentOpcode == nsIWebSocketFrame::OPCODE_CONTINUATION) {
LOG(("WebSocketHeandler:: continuation code in first fragment\n"));
return NS_ERROR_ILLEGAL_VALUE;
}
// For frag > 1 move the data body back on top of the headers
// so we have contiguous stream of data
MOZ_ASSERT(mFramePtr + framingLength == payload,
"payload offset from frameptr wrong");
::memmove(mFramePtr, payload, avail);
payload = mFramePtr;
if (mBuffered) mBuffered -= framingLength;
} else {
mFragmentOpcode = opcode;
}
if (finBit) {
LOG(("WebSocketChannel:: Finalizing Fragment\n"));
payload -= mFragmentAccumulator;
payloadLength += mFragmentAccumulator;
avail += mFragmentAccumulator;
mFragmentAccumulator = 0;
opcode = mFragmentOpcode;
// reset to detect if next message illegally starts with continuation
mFragmentOpcode = nsIWebSocketFrame::OPCODE_CONTINUATION;
} else {
opcode = nsIWebSocketFrame::OPCODE_CONTINUATION;
mFragmentAccumulator += payloadLength;
}
} else if (mFragmentAccumulator != 0 && !(opcode & kControlFrameMask)) {
// This frame is not part of a fragment sequence but we
// have an open fragment.. it must be a control code or else
// we have a problem
LOG(("WebSocketChannel:: illegal fragment sequence\n"));
return NS_ERROR_ILLEGAL_VALUE;
}
if (mServerClosed) {
LOG(("WebSocketChannel:: ignoring read frame code %d after close\n",
opcode));
// nop
} else if (mStopped) {
LOG(("WebSocketChannel:: ignoring read frame code %d after completion\n",
opcode));
} else if (opcode == nsIWebSocketFrame::OPCODE_TEXT) {
bool isDeflated = mPMCECompressor && mPMCECompressor->IsMessageDeflated();
LOG(("WebSocketChannel:: %stext frame received\n",
isDeflated ? "deflated " : ""));
if (mListenerMT) {
nsCString utf8Data;
if (isDeflated) {
rv = mPMCECompressor->Inflate(payload, payloadLength, utf8Data);
if (NS_FAILED(rv)) {
return rv;
}
LOG(
("WebSocketChannel:: message successfully inflated "
"[origLength=%d, newLength=%zd]\n",
payloadLength, utf8Data.Length()));
} else {
if (!utf8Data.Assign((const char*)payload, payloadLength,
mozilla::fallible)) {
return NS_ERROR_OUT_OF_MEMORY;
}
}
// Section 8.1 says to fail connection if invalid utf-8 in text message
if (!IsUtf8(utf8Data)) {
LOG(("WebSocketChannel:: text frame invalid utf-8\n"));
return NS_ERROR_CANNOT_CONVERT_DATA;
}
RefPtr<WebSocketFrame> frame = mService->CreateFrameIfNeeded(
finBit, rsvBit1, rsvBit2, rsvBit3, opcode, maskBit, mask, utf8Data);
if (frame) {
mService->FrameReceived(mSerial, mInnerWindowID, frame.forget());
}
if (nsCOMPtr<nsIEventTarget> target = GetTargetThread()) {
target->Dispatch(new CallOnMessageAvailable(this, utf8Data, -1),
NS_DISPATCH_NORMAL);
} else {
return NS_ERROR_UNEXPECTED;
}
if (mConnectionLogService && !mPrivateBrowsing) {
mConnectionLogService->NewMsgReceived(mHost, mSerial, count);
LOG(("Added new msg received for %s", mHost.get()));
}
}
} else if (opcode & kControlFrameMask) {
// control frames
if (payloadLength > 125) {
LOG(("WebSocketChannel:: bad control frame code %d length %d\n", opcode,
payloadLength));
return NS_ERROR_ILLEGAL_VALUE;
}
RefPtr<WebSocketFrame> frame = mService->CreateFrameIfNeeded(
finBit, rsvBit1, rsvBit2, rsvBit3, opcode, maskBit, mask, payload,
payloadLength);
if (opcode == nsIWebSocketFrame::OPCODE_CLOSE) {
LOG(("WebSocketChannel:: close received\n"));
mServerClosed = true;
mServerCloseCode = CLOSE_NO_STATUS;
if (payloadLength >= 2) {
mServerCloseCode = NetworkEndian::readUint16(payload);
LOG(("WebSocketChannel:: close recvd code %u\n", mServerCloseCode));
uint16_t msglen = static_cast<uint16_t>(payloadLength - 2);
if (msglen > 0) {
mServerCloseReason.SetLength(msglen);
memcpy(mServerCloseReason.BeginWriting(), (const char*)payload + 2,
msglen);
// section 8.1 says to replace received non utf-8 sequences
// (which are non-conformant to send) with u+fffd,
// but secteam feels that silently rewriting messages is
// inappropriate - so we will fail the connection instead.
if (!IsUtf8(mServerCloseReason)) {
LOG(("WebSocketChannel:: close frame invalid utf-8\n"));
return NS_ERROR_CANNOT_CONVERT_DATA;
}
LOG(("WebSocketChannel:: close msg %s\n",
mServerCloseReason.get()));
}
}
if (mCloseTimer) {
mCloseTimer->Cancel();
mCloseTimer = nullptr;
}
if (frame) {
// We send the frame immediately becuase we want to have it dispatched
// before the CallOnServerClose.
mService->FrameReceived(mSerial, mInnerWindowID, frame.forget());
frame = nullptr;
}
if (mListenerMT) {
if (nsCOMPtr<nsIEventTarget> target = GetTargetThread()) {
target->Dispatch(new CallOnServerClose(this, mServerCloseCode,
mServerCloseReason),
NS_DISPATCH_NORMAL);
} else {
return NS_ERROR_UNEXPECTED;
}
}
if (mClientClosed) ReleaseSession();
} else if (opcode == nsIWebSocketFrame::OPCODE_PING) {
LOG(("WebSocketChannel:: ping received\n"));
GeneratePong(payload, payloadLength);
} else if (opcode == nsIWebSocketFrame::OPCODE_PONG) {
// opcode OPCODE_PONG: the mere act of receiving the packet is all we
// need to do for the pong to trigger the activity timers
LOG(("WebSocketChannel:: pong received\n"));
} else {
/* unknown control frame opcode */
LOG(("WebSocketChannel:: unknown control op code %d\n", opcode));
return NS_ERROR_ILLEGAL_VALUE;
}
if (mFragmentAccumulator) {
// Remove the control frame from the stream so we have a contiguous
// data buffer of reassembled fragments
LOG(("WebSocketChannel:: Removing Control From Read buffer\n"));
MOZ_ASSERT(mFramePtr + framingLength == payload,
"payload offset from frameptr wrong");
::memmove(mFramePtr, payload + payloadLength, avail - payloadLength);
payload = mFramePtr;
avail -= payloadLength;
if (mBuffered) mBuffered -= framingLength + payloadLength;
payloadLength = 0;
}
if (frame) {
mService->FrameReceived(mSerial, mInnerWindowID, frame.forget());
}
} else if (opcode == nsIWebSocketFrame::OPCODE_BINARY) {
bool isDeflated = mPMCECompressor && mPMCECompressor->IsMessageDeflated();
LOG(("WebSocketChannel:: %sbinary frame received\n",
isDeflated ? "deflated " : ""));
if (mListenerMT) {
nsCString binaryData;
if (isDeflated) {
rv = mPMCECompressor->Inflate(payload, payloadLength, binaryData);
if (NS_FAILED(rv)) {
return rv;
}
LOG(
("WebSocketChannel:: message successfully inflated "
"[origLength=%d, newLength=%zd]\n",
payloadLength, binaryData.Length()));
} else {
if (!binaryData.Assign((const char*)payload, payloadLength,
mozilla::fallible)) {
return NS_ERROR_OUT_OF_MEMORY;
}
}
RefPtr<WebSocketFrame> frame =
mService->CreateFrameIfNeeded(finBit, rsvBit1, rsvBit2, rsvBit3,
opcode, maskBit, mask, binaryData);
if (frame) {
mService->FrameReceived(mSerial, mInnerWindowID, frame.forget());
}
if (nsCOMPtr<nsIEventTarget> target = GetTargetThread()) {
target->Dispatch(
new CallOnMessageAvailable(this, binaryData, binaryData.Length()),
NS_DISPATCH_NORMAL);
} else {
return NS_ERROR_UNEXPECTED;
}
// To add the header to 'Networking Dashboard' log
if (mConnectionLogService && !mPrivateBrowsing) {
mConnectionLogService->NewMsgReceived(mHost, mSerial, count);
LOG(("Added new received msg for %s", mHost.get()));
}
}
} else if (opcode != nsIWebSocketFrame::OPCODE_CONTINUATION) {
/* unknown opcode */
LOG(("WebSocketChannel:: unknown op code %d\n", opcode));
return NS_ERROR_ILLEGAL_VALUE;
}
mFramePtr = payload + payloadLength;
avail -= payloadLength;
totalAvail = avail;
}
// Adjust the stateful buffer. If we were operating off the stack and
// now have a partial message then transition to the buffer, or if
// we were working off the buffer but no longer have any active state
// then transition to the stack
if (!IsPersistentFramePtr()) {
mBuffered = 0;
if (mFragmentAccumulator) {
LOG(("WebSocketChannel:: Setup Buffer due to fragment"));
if (!UpdateReadBuffer(mFramePtr - mFragmentAccumulator,
totalAvail + mFragmentAccumulator, 0, nullptr)) {
return NS_ERROR_FILE_TOO_BIG;
}
// UpdateReadBuffer will reset the frameptr to the beginning
// of new saved state, so we need to skip past processed framgents
mFramePtr += mFragmentAccumulator;
} else if (totalAvail) {
LOG(("WebSocketChannel:: Setup Buffer due to partial frame"));
if (!UpdateReadBuffer(mFramePtr, totalAvail, 0, nullptr)) {
return NS_ERROR_FILE_TOO_BIG;
}
}
} else if (!mFragmentAccumulator && !totalAvail) {
// If we were working off a saved buffer state and there is no partial
// frame or fragment in process, then revert to stack behavior
LOG(("WebSocketChannel:: Internal buffering not needed anymore"));
mBuffered = 0;
// release memory if we've been processing a large message
if (mBufferSize > kIncomingBufferStableSize) {
mBufferSize = kIncomingBufferStableSize;
free(mBuffer);
mBuffer = (uint8_t*)moz_xmalloc(mBufferSize);
}
}
return NS_OK;
}
/* static */
void WebSocketChannel::ApplyMask(uint32_t mask, uint8_t* data, uint64_t len) {
if (!data || len == 0) return;
// Optimally we want to apply the mask 32 bits at a time,
// but the buffer might not be alligned. So we first deal with
// 0 to 3 bytes of preamble individually
while (len && (reinterpret_cast<uintptr_t>(data) & 3)) {
*data ^= mask >> 24;
mask = RotateLeft(mask, 8);
data++;
len--;
}
// perform mask on full words of data
uint32_t* iData = (uint32_t*)data;
uint32_t* end = iData + (len / 4);
NetworkEndian::writeUint32(&mask, mask);
for (; iData < end; iData++) *iData ^= mask;
mask = NetworkEndian::readUint32(&mask);
data = (uint8_t*)iData;
len = len % 4;
// There maybe up to 3 trailing bytes that need to be dealt with
// individually
while (len) {
*data ^= mask >> 24;
mask = RotateLeft(mask, 8);
data++;
len--;
}
}
void WebSocketChannel::GeneratePing() {
nsAutoCString buf;
buf.AssignLiteral("PING");
EnqueueOutgoingMessage(mOutgoingPingMessages,
new OutboundMessage(kMsgTypePing, buf));
}
void WebSocketChannel::GeneratePong(uint8_t* payload, uint32_t len) {
nsAutoCString buf;
buf.SetLength(len);
if (buf.Length() < len) {
LOG(("WebSocketChannel::GeneratePong Allocation Failure\n"));
return;
}
memcpy(buf.BeginWriting(), payload, len);
EnqueueOutgoingMessage(mOutgoingPongMessages,
new OutboundMessage(kMsgTypePong, buf));
}
void WebSocketChannel::EnqueueOutgoingMessage(nsDeque<OutboundMessage>& aQueue,
OutboundMessage* aMsg) {
MOZ_ASSERT(mIOThread->IsOnCurrentThread(), "not on right thread");
LOG(
("WebSocketChannel::EnqueueOutgoingMessage %p "
"queueing msg %p [type=%s len=%d]\n",
this, aMsg, msgNames[aMsg->GetMsgType()], aMsg->Length()));
aQueue.Push(aMsg);
if (mSocketOut) {
OnOutputStreamReady(mSocketOut);
} else {
DoEnqueueOutgoingMessage();
}
}
uint16_t WebSocketChannel::ResultToCloseCode(nsresult resultCode) {
if (NS_SUCCEEDED(resultCode)) return CLOSE_NORMAL;
switch (resultCode) {
case NS_ERROR_FILE_TOO_BIG:
case NS_ERROR_OUT_OF_MEMORY:
return CLOSE_TOO_LARGE;
case NS_ERROR_CANNOT_CONVERT_DATA:
return CLOSE_INVALID_PAYLOAD;
case NS_ERROR_UNEXPECTED:
return CLOSE_INTERNAL_ERROR;
default:
return CLOSE_PROTOCOL_ERROR;
}
}
void WebSocketChannel::PrimeNewOutgoingMessage() {
LOG(("WebSocketChannel::PrimeNewOutgoingMessage() %p\n", this));
MOZ_ASSERT(mIOThread->IsOnCurrentThread(), "not on right thread");
MOZ_ASSERT(!mCurrentOut, "Current message in progress");
nsresult rv = NS_OK;
mCurrentOut = mOutgoingPongMessages.PopFront();
if (mCurrentOut) {
MOZ_ASSERT(mCurrentOut->GetMsgType() == kMsgTypePong, "Not pong message!");
} else {
mCurrentOut = mOutgoingPingMessages.PopFront();
if (mCurrentOut) {
MOZ_ASSERT(mCurrentOut->GetMsgType() == kMsgTypePing,
"Not ping message!");
} else {
mCurrentOut = mOutgoingMessages.PopFront();
}
}
if (!mCurrentOut) return;
auto cleanupAfterFailure =
MakeScopeExit([&] { DeleteCurrentOutGoingMessage(); });
WsMsgType msgType = mCurrentOut->GetMsgType();
LOG(
("WebSocketChannel::PrimeNewOutgoingMessage "
"%p found queued msg %p [type=%s len=%d]\n",
this, mCurrentOut, msgNames[msgType], mCurrentOut->Length()));
mCurrentOutSent = 0;
mHdrOut = mOutHeader;
uint8_t maskBit = mIsServerSide ? 0 : kMaskBit;
uint8_t maskSize = mIsServerSide ? 0 : 4;
uint8_t* payload = nullptr;
if (msgType == kMsgTypeFin) {
// This is a demand to create a close message
if (mClientClosed) {
DeleteCurrentOutGoingMessage();
PrimeNewOutgoingMessage();
cleanupAfterFailure.release();
return;
}
mClientClosed = true;
mOutHeader[0] = kFinalFragBit | nsIWebSocketFrame::OPCODE_CLOSE;
mOutHeader[1] = maskBit;
// payload is offset 2 plus size of the mask
payload = mOutHeader + 2 + maskSize;
// The close reason code sits in the first 2 bytes of payload
// If the channel user provided a code and reason during Close()
// and there isn't an internal error, use that.
if (NS_SUCCEEDED(mStopOnClose)) {
MutexAutoLock lock(mMutex);
if (mScriptCloseCode) {
NetworkEndian::writeUint16(payload, mScriptCloseCode);
mOutHeader[1] += 2;
mHdrOutToSend = 4 + maskSize;
if (!mScriptCloseReason.IsEmpty()) {
MOZ_ASSERT(mScriptCloseReason.Length() <= 123,
"Close Reason Too Long");
mOutHeader[1] += mScriptCloseReason.Length();
mHdrOutToSend += mScriptCloseReason.Length();
memcpy(payload + 2, mScriptCloseReason.BeginReading(),
mScriptCloseReason.Length());
}
} else {
// No close code/reason, so payload length = 0. We must still send mask
// even though it's not used. Keep payload offset so we write mask
// below.
mHdrOutToSend = 2 + maskSize;
}
} else {
NetworkEndian::writeUint16(payload, ResultToCloseCode(mStopOnClose));
mOutHeader[1] += 2;
mHdrOutToSend = 4 + maskSize;
}
if (mServerClosed) {
/* bidi close complete */
mReleaseOnTransmit = 1;
} else if (NS_FAILED(mStopOnClose)) {
/* result of abort session - give up */
StopSession(mStopOnClose);
} else {
/* wait for reciprocal close from server */
rv = NS_NewTimerWithCallback(getter_AddRefs(mCloseTimer), this,
mCloseTimeout, nsITimer::TYPE_ONE_SHOT);
if (NS_FAILED(rv)) {
StopSession(rv);
}
}
} else {
switch (msgType) {
case kMsgTypePong:
mOutHeader[0] = kFinalFragBit | nsIWebSocketFrame::OPCODE_PONG;
break;
case kMsgTypePing:
mOutHeader[0] = kFinalFragBit | nsIWebSocketFrame::OPCODE_PING;
break;
case kMsgTypeString:
mOutHeader[0] = kFinalFragBit | nsIWebSocketFrame::OPCODE_TEXT;
break;
case kMsgTypeStream:
// HACK ALERT: read in entire stream into string.
// Will block socket transport thread if file is blocking.
// TODO: bug 704447: don't block socket thread!
rv = mCurrentOut->ConvertStreamToString();
if (NS_FAILED(rv)) {
AbortSession(NS_ERROR_FILE_TOO_BIG);
return;
}
// Now we're a binary string
msgType = kMsgTypeBinaryString;
// no break: fall down into binary string case
[[fallthrough]];
case kMsgTypeBinaryString:
mOutHeader[0] = kFinalFragBit | nsIWebSocketFrame::OPCODE_BINARY;
break;
case kMsgTypeFin:
MOZ_ASSERT(false, "unreachable"); // avoid compiler warning
break;
}
// deflate the payload if PMCE is negotiated
if (mPMCECompressor &&
(msgType == kMsgTypeString || msgType == kMsgTypeBinaryString)) {
if (mCurrentOut->DeflatePayload(mPMCECompressor.get())) {
// The payload was deflated successfully, set RSV1 bit
mOutHeader[0] |= kRsv1Bit;
LOG(
("WebSocketChannel::PrimeNewOutgoingMessage %p current msg %p was "
"deflated [origLength=%d, newLength=%d].\n",
this, mCurrentOut, mCurrentOut->OrigLength(),
mCurrentOut->Length()));
}
}
if (mCurrentOut->Length() < 126) {
mOutHeader[1] = mCurrentOut->Length() | maskBit;
mHdrOutToSend = 2 + maskSize;
} else if (mCurrentOut->Length() <= 0xffff) {
mOutHeader[1] = 126 | maskBit;
NetworkEndian::writeUint16(mOutHeader + sizeof(uint16_t),
mCurrentOut->Length());
mHdrOutToSend = 4 + maskSize;
} else {
mOutHeader[1] = 127 | maskBit;
NetworkEndian::writeUint64(mOutHeader + 2, mCurrentOut->Length());
mHdrOutToSend = 10 + maskSize;
}
payload = mOutHeader + mHdrOutToSend;
}
MOZ_ASSERT(payload, "payload offset not found");
uint32_t mask = 0;
if (!mIsServerSide) {
// Perform the sending mask. Never use a zero mask
do {
uint8_t* buffer;
static_assert(4 == sizeof(mask), "Size of the mask should be equal to 4");
nsresult rv =
mRandomGenerator->GenerateRandomBytes(sizeof(mask), &buffer);
if (NS_FAILED(rv)) {
LOG(
("WebSocketChannel::PrimeNewOutgoingMessage(): "
"GenerateRandomBytes failure %" PRIx32 "\n",
static_cast<uint32_t>(rv)));
AbortSession(rv);
return;
}
memcpy(&mask, buffer, sizeof(mask));
free(buffer);
} while (!mask);
NetworkEndian::writeUint32(payload - sizeof(uint32_t), mask);
}
LOG(("WebSocketChannel::PrimeNewOutgoingMessage() using mask %08x\n", mask));
// We don't mask the framing, but occasionally we stick a little payload
// data in the buffer used for the framing. Close frames are the current
// example. This data needs to be masked, but it is never more than a
// handful of bytes and might rotate the mask, so we can just do it locally.
// For real data frames we ship the bulk of the payload off to ApplyMask()
RefPtr<WebSocketFrame> frame = mService->CreateFrameIfNeeded(
mOutHeader[0] & WebSocketChannel::kFinalFragBit,
mOutHeader[0] & WebSocketChannel::kRsv1Bit,
mOutHeader[0] & WebSocketChannel::kRsv2Bit,
mOutHeader[0] & WebSocketChannel::kRsv3Bit,
mOutHeader[0] & WebSocketChannel::kOpcodeBitsMask,
mOutHeader[1] & WebSocketChannel::kMaskBit, mask, payload,
mHdrOutToSend - (payload - mOutHeader), mCurrentOut->BeginOrigReading(),
mCurrentOut->OrigLength());
if (frame) {
mService->FrameSent(mSerial, mInnerWindowID, frame.forget());
}
if (mask) {
while (payload < (mOutHeader + mHdrOutToSend)) {
*payload ^= mask >> 24;
mask = RotateLeft(mask, 8);
payload++;
}
// Mask the real message payloads
ApplyMask(mask, mCurrentOut->BeginWriting(), mCurrentOut->Length());
}
int32_t len = mCurrentOut->Length();
// for small frames, copy it all together for a contiguous write
if (len && len <= kCopyBreak) {
memcpy(mOutHeader + mHdrOutToSend, mCurrentOut->BeginWriting(), len);
mHdrOutToSend += len;
mCurrentOutSent = len;
}
// Transmitting begins - mHdrOutToSend bytes from mOutHeader and
// mCurrentOut->Length() bytes from mCurrentOut. The latter may be
// coaleseced into the former for small messages or as the result of the
// compression process.
cleanupAfterFailure.release();
}
void WebSocketChannel::DeleteCurrentOutGoingMessage() {
delete mCurrentOut;
mCurrentOut = nullptr;
mCurrentOutSent = 0;
}
void WebSocketChannel::EnsureHdrOut(uint32_t size) {
LOG(("WebSocketChannel::EnsureHdrOut() %p [%d]\n", this, size));
if (mDynamicOutputSize < size) {
mDynamicOutputSize = size;
mDynamicOutput = (uint8_t*)moz_xrealloc(mDynamicOutput, mDynamicOutputSize);
}
mHdrOut = mDynamicOutput;
}
namespace {
class RemoveObserverRunnable : public Runnable {
RefPtr<WebSocketChannel> mChannel;
public:
explicit RemoveObserverRunnable(WebSocketChannel* aChannel)
: Runnable("net::RemoveObserverRunnable"), mChannel(aChannel) {}
NS_IMETHOD Run() override {
nsCOMPtr<nsIObserverService> observerService =
mozilla::services::GetObserverService();
if (!observerService) {
NS_WARNING("failed to get observer service");
return NS_OK;
}
observerService->RemoveObserver(mChannel, NS_NETWORK_LINK_TOPIC);
return NS_OK;
}
};
} // namespace
void WebSocketChannel::CleanupConnection() {
// normally this should be called on socket thread, but it may be called
// on MainThread
LOG(("WebSocketChannel::CleanupConnection() %p", this));
// This needs to run on the IOThread so we don't need to lock a bunch of these
if (!mIOThread->IsOnCurrentThread()) {
mIOThread->Dispatch(
NewRunnableMethod("net::WebSocketChannel::CleanupConnection", this,
&WebSocketChannel::CleanupConnection),
NS_DISPATCH_NORMAL);
return;
}
if (mLingeringCloseTimer) {
mLingeringCloseTimer->Cancel();
mLingeringCloseTimer = nullptr;
}
if (mSocketIn) {
if (mDataStarted) {
mSocketIn->AsyncWait(nullptr, 0, 0, nullptr);
}
mSocketIn = nullptr;
}
if (mSocketOut) {
mSocketOut->AsyncWait(nullptr, 0, 0, nullptr);
mSocketOut = nullptr;
}
if (mTransport) {
mTransport->SetSecurityCallbacks(nullptr);
mTransport->SetEventSink(nullptr, nullptr);
mTransport->Close(NS_BASE_STREAM_CLOSED);
mTransport = nullptr;
}
if (mConnection) {
mConnection->Close();
mConnection = nullptr;
}
if (mConnectionLogService && !mPrivateBrowsing) {
mConnectionLogService->RemoveHost(mHost, mSerial);
}
// The observer has to be removed on the main-thread.
NS_DispatchToMainThread(new RemoveObserverRunnable(this));
DecrementSessionCount();
}
void WebSocketChannel::StopSession(nsresult reason) {
LOG(("WebSocketChannel::StopSession() %p [%" PRIx32 "]\n", this,
static_cast<uint32_t>(reason)));
{
MutexAutoLock lock(mMutex);
if (mStopped) {
return;
}
mStopped = true;
}
DoStopSession(reason);
}
void WebSocketChannel::DoStopSession(nsresult reason) {
LOG(("WebSocketChannel::DoStopSession() %p [%" PRIx32 "]\n", this,
static_cast<uint32_t>(reason)));
// normally this should be called on socket thread, but it is ok to call it
// from OnStartRequest before the socket thread machine has gotten underway.
// If mDataStarted is false, this is called on MainThread for Close().
// Otherwise it should be called on the IO thread
MOZ_ASSERT(mStopped);
MOZ_ASSERT(mIOThread->IsOnCurrentThread() || mTCPClosed || !mDataStarted);
if (!mOpenedHttpChannel) {
// The HTTP channel information will never be used in this case
NS_ReleaseOnMainThread("WebSocketChannel::mChannel", mChannel.forget());
NS_ReleaseOnMainThread("WebSocketChannel::mHttpChannel",
mHttpChannel.forget());
NS_ReleaseOnMainThread("WebSocketChannel::mLoadGroup", mLoadGroup.forget());
NS_ReleaseOnMainThread("WebSocketChannel::mCallbacks", mCallbacks.forget());
}
if (mCloseTimer) {
mCloseTimer->Cancel();
mCloseTimer = nullptr;
}
// mOpenTimer must be null if mDataStarted is true and we're not on MainThread
if (mOpenTimer) {
MOZ_ASSERT(NS_IsMainThread(), "not main thread");
mOpenTimer->Cancel();
mOpenTimer = nullptr;
}
{
MutexAutoLock lock(mMutex);
if (mReconnectDelayTimer) {
mReconnectDelayTimer->Cancel();
NS_ReleaseOnMainThread("WebSocketChannel::mMutex",
mReconnectDelayTimer.forget());
}
}
if (mPingTimer) {
mPingTimer->Cancel();
mPingTimer = nullptr;
}
if (!mTCPClosed && mDataStarted) {
if (mSocketIn) {
// Drain, within reason, this socket. if we leave any data
// unconsumed (including the tcp fin) a RST will be generated
// The right thing to do here is shutdown(SHUT_WR) and then wait
// a little while to see if any data comes in.. but there is no
// reason to delay things for that when the websocket handshake
// is supposed to guarantee a quiet connection except for that fin.
char buffer[512];
uint32_t count = 0;
uint32_t total = 0;
nsresult rv;
do {
total += count;
rv = mSocketIn->Read(buffer, 512, &count);
if (rv != NS_BASE_STREAM_WOULD_BLOCK && (NS_FAILED(rv) || count == 0)) {
mTCPClosed = true;
}
} while (NS_SUCCEEDED(rv) && count > 0 && total < 32000);
} else if (mConnection) {
mConnection->DrainSocketData();
}
}
int32_t sessionCount = kLingeringCloseThreshold;
nsWSAdmissionManager::GetSessionCount(sessionCount);
if (!mTCPClosed && (mTransport || mConnection) &&
sessionCount < kLingeringCloseThreshold) {
// 7.1.1 says that the client SHOULD wait for the server to close the TCP
// connection. This is so we can reuse port numbers before 2 MSL expires,
// which is not really as much of a concern for us as the amount of state
// that might be accrued by keeping this channel object around waiting for
// the server. We handle the SHOULD by waiting a short time in the common
// case, but not waiting in the case of high concurrency.
//
// Normally this will be taken care of in AbortSession() after mTCPClosed
// is set when the server close arrives without waiting for the timeout to
// expire.
LOG(("WebSocketChannel::DoStopSession: Wait for Server TCP close"));
nsresult rv;
rv = NS_NewTimerWithCallback(getter_AddRefs(mLingeringCloseTimer), this,
kLingeringCloseTimeout,
nsITimer::TYPE_ONE_SHOT);
if (NS_FAILED(rv)) CleanupConnection();
} else {
CleanupConnection();
}
{
MutexAutoLock lock(mMutex);
if (mCancelable) {
mCancelable->Cancel(NS_ERROR_UNEXPECTED);
mCancelable = nullptr;
}
}
mPMCECompressor = nullptr;
if (!mCalledOnStop) {
mCalledOnStop = true;
nsWSAdmissionManager::OnStopSession(this, reason);
RefPtr<CallOnStop> runnable = new CallOnStop(this, reason);
if (nsCOMPtr<nsIEventTarget> target = GetTargetThread()) {
target->Dispatch(runnable, NS_DISPATCH_NORMAL);
}
}
}
// Called from MainThread, and called from IOThread in
// PrimeNewOutgoingMessage
void WebSocketChannel::AbortSession(nsresult reason) {
LOG(("WebSocketChannel::AbortSession() %p [reason %" PRIx32
"] stopped = %d\n",
this, static_cast<uint32_t>(reason), !!mStopped));
MOZ_ASSERT(NS_FAILED(reason), "reason must be a failure!");
// normally this should be called on socket thread, but it is ok to call it
// from the main thread before StartWebsocketData() has completed
MOZ_ASSERT(mIOThread->IsOnCurrentThread() || !mDataStarted);
// When we are failing we need to close the TCP connection immediately
// as per 7.1.1
mTCPClosed = true;
if (mLingeringCloseTimer) {
MOZ_ASSERT(mStopped, "Lingering without Stop");
LOG(("WebSocketChannel:: Cleanup connection based on TCP Close"));
CleanupConnection();
return;
}
{
MutexAutoLock lock(mMutex);
if (mStopped) {
return;
}
if ((mTransport || mConnection) && reason != NS_BASE_STREAM_CLOSED &&
!mRequestedClose && !mClientClosed && !mServerClosed && mDataStarted) {
mRequestedClose = true;
mStopOnClose = reason;
mIOThread->Dispatch(
new OutboundEnqueuer(this,
new OutboundMessage(kMsgTypeFin, VoidCString())),
nsIEventTarget::DISPATCH_NORMAL);
return;
}
mStopped = true;
}
DoStopSession(reason);
}
// ReleaseSession is called on orderly shutdown
void WebSocketChannel::ReleaseSession() {
LOG(("WebSocketChannel::ReleaseSession() %p stopped = %d\n", this,
!!mStopped));
MOZ_ASSERT(mIOThread->IsOnCurrentThread(), "not on right thread");
StopSession(NS_OK);
}
void WebSocketChannel::IncrementSessionCount() {
if (!mIncrementedSessionCount) {
nsWSAdmissionManager::IncrementSessionCount();
mIncrementedSessionCount = true;
}
}
void WebSocketChannel::DecrementSessionCount() {
// Make sure we decrement session count only once, and only if we incremented
// it. This code is thread-safe: sWebSocketAdmissions->DecrementSessionCount
// is atomic, and mIncrementedSessionCount/mDecrementedSessionCount are set at
// times when they'll never be a race condition for checking/setting them.
if (mIncrementedSessionCount && !mDecrementedSessionCount) {
nsWSAdmissionManager::DecrementSessionCount();
mDecrementedSessionCount = true;
}
}
namespace {
enum ExtensionParseMode { eParseServerSide, eParseClientSide };
}
static nsresult ParseWebSocketExtension(const nsACString& aExtension,
ExtensionParseMode aMode,
bool& aClientNoContextTakeover,
bool& aServerNoContextTakeover,
int32_t& aClientMaxWindowBits,
int32_t& aServerMaxWindowBits) {
nsCCharSeparatedTokenizer tokens(aExtension, ';');
if (!tokens.hasMoreTokens() ||
!tokens.nextToken().EqualsLiteral("permessage-deflate")) {
LOG(
("WebSocketChannel::ParseWebSocketExtension: "
"HTTP Sec-WebSocket-Extensions negotiated unknown value %s\n",
PromiseFlatCString(aExtension).get()));
return NS_ERROR_ILLEGAL_VALUE;
}
aClientNoContextTakeover = aServerNoContextTakeover = false;
aClientMaxWindowBits = aServerMaxWindowBits = -1;
while (tokens.hasMoreTokens()) {
auto token = tokens.nextToken();
int32_t nameEnd, valueStart;
int32_t delimPos = token.FindChar('=');
if (delimPos == kNotFound) {
nameEnd = token.Length();
valueStart = token.Length();
} else {
nameEnd = delimPos;
valueStart = delimPos + 1;
}
auto paramName = Substring(token, 0, nameEnd);
auto paramValue = Substring(token, valueStart);
if (paramName.EqualsLiteral("client_no_context_takeover")) {
if (!paramValue.IsEmpty()) {
LOG(
("WebSocketChannel::ParseWebSocketExtension: parameter "
"client_no_context_takeover must not have value, found %s\n",
PromiseFlatCString(paramValue).get()));
return NS_ERROR_ILLEGAL_VALUE;
}
if (aClientNoContextTakeover) {
LOG(
("WebSocketChannel::ParseWebSocketExtension: found multiple "
"parameters client_no_context_takeover\n"));
return NS_ERROR_ILLEGAL_VALUE;
}
aClientNoContextTakeover = true;
} else if (paramName.EqualsLiteral("server_no_context_takeover")) {
if (!paramValue.IsEmpty()) {
LOG(
("WebSocketChannel::ParseWebSocketExtension: parameter "
"server_no_context_takeover must not have value, found %s\n",
PromiseFlatCString(paramValue).get()));
return NS_ERROR_ILLEGAL_VALUE;
}
if (aServerNoContextTakeover) {
LOG(
("WebSocketChannel::ParseWebSocketExtension: found multiple "
"parameters server_no_context_takeover\n"));
return NS_ERROR_ILLEGAL_VALUE;
}
aServerNoContextTakeover = true;
} else if (paramName.EqualsLiteral("client_max_window_bits")) {
if (aClientMaxWindowBits != -1) {
LOG(
("WebSocketChannel::ParseWebSocketExtension: found multiple "
"parameters client_max_window_bits\n"));
return NS_ERROR_ILLEGAL_VALUE;
}
if (aMode == eParseServerSide && paramValue.IsEmpty()) {
// Use -2 to indicate that "client_max_window_bits" has been parsed,
// but had no value.
aClientMaxWindowBits = -2;
} else {
nsresult errcode;
aClientMaxWindowBits =
PromiseFlatCString(paramValue).ToInteger(&errcode);
if (NS_FAILED(errcode) || aClientMaxWindowBits < 8 ||
aClientMaxWindowBits > 15) {
LOG(
("WebSocketChannel::ParseWebSocketExtension: found invalid "
"parameter client_max_window_bits %s\n",
PromiseFlatCString(paramValue).get()));
return NS_ERROR_ILLEGAL_VALUE;
}
}
} else if (paramName.EqualsLiteral("server_max_window_bits")) {
if (aServerMaxWindowBits != -1) {
LOG(
("WebSocketChannel::ParseWebSocketExtension: found multiple "
"parameters server_max_window_bits\n"));
return NS_ERROR_ILLEGAL_VALUE;
}
nsresult errcode;
aServerMaxWindowBits = PromiseFlatCString(paramValue).ToInteger(&errcode);
if (NS_FAILED(errcode) || aServerMaxWindowBits < 8 ||
aServerMaxWindowBits > 15) {
LOG(
("WebSocketChannel::ParseWebSocketExtension: found invalid "
"parameter server_max_window_bits %s\n",
PromiseFlatCString(paramValue).get()));
return NS_ERROR_ILLEGAL_VALUE;
}
} else {
LOG(
("WebSocketChannel::ParseWebSocketExtension: found unknown "
"parameter %s\n",
PromiseFlatCString(paramName).get()));
return NS_ERROR_ILLEGAL_VALUE;
}
}
if (aClientMaxWindowBits == -2) {
aClientMaxWindowBits = -1;
}
return NS_OK;
}
nsresult WebSocketChannel::HandleExtensions() {
LOG(("WebSocketChannel::HandleExtensions() %p\n", this));
nsresult rv;
nsAutoCString extensions;
MOZ_ASSERT(NS_IsMainThread(), "not main thread");
rv = mHttpChannel->GetResponseHeader("Sec-WebSocket-Extensions"_ns,
extensions);
extensions.CompressWhitespace();
if (extensions.IsEmpty()) {
return NS_OK;
}
LOG(
("WebSocketChannel::HandleExtensions: received "
"Sec-WebSocket-Extensions header: %s\n",
extensions.get()));
bool clientNoContextTakeover;
bool serverNoContextTakeover;
int32_t clientMaxWindowBits;
int32_t serverMaxWindowBits;
rv = ParseWebSocketExtension(extensions, eParseClientSide,
clientNoContextTakeover, serverNoContextTakeover,
clientMaxWindowBits, serverMaxWindowBits);
if (NS_FAILED(rv)) {
AbortSession(rv);
return rv;
}
if (!mAllowPMCE) {
LOG(
("WebSocketChannel::HandleExtensions: "
"Recvd permessage-deflate which wasn't offered\n"));
AbortSession(NS_ERROR_ILLEGAL_VALUE);
return NS_ERROR_ILLEGAL_VALUE;
}
if (clientMaxWindowBits == -1) {
clientMaxWindowBits = 15;
}
if (serverMaxWindowBits == -1) {
serverMaxWindowBits = 15;
}
mPMCECompressor = MakeUnique<PMCECompression>(
clientNoContextTakeover, clientMaxWindowBits, serverMaxWindowBits);
if (mPMCECompressor->Active()) {
LOG(
("WebSocketChannel::HandleExtensions: PMCE negotiated, %susing "
"context takeover, clientMaxWindowBits=%d, "
"serverMaxWindowBits=%d\n",
clientNoContextTakeover ? "NOT " : "", clientMaxWindowBits,
serverMaxWindowBits));
mNegotiatedExtensions = "permessage-deflate";
} else {
LOG(
("WebSocketChannel::HandleExtensions: Cannot init PMCE "
"compression object\n"));
mPMCECompressor = nullptr;
AbortSession(NS_ERROR_UNEXPECTED);
return NS_ERROR_UNEXPECTED;
}
return NS_OK;
}
void ProcessServerWebSocketExtensions(const nsACString& aExtensions,
nsACString& aNegotiatedExtensions) {
aNegotiatedExtensions.Truncate();
nsCOMPtr<nsIPrefBranch> prefService =
do_GetService(NS_PREFSERVICE_CONTRACTID);
if (prefService) {
bool boolpref;
nsresult rv = prefService->GetBoolPref(
"network.websocket.extensions.permessage-deflate", &boolpref);
if (NS_SUCCEEDED(rv) && !boolpref) {
return;
}
}
for (const auto& ext :
nsCCharSeparatedTokenizer(aExtensions, ',').ToRange()) {
bool clientNoContextTakeover;
bool serverNoContextTakeover;
int32_t clientMaxWindowBits;
int32_t serverMaxWindowBits;
nsresult rv = ParseWebSocketExtension(
ext, eParseServerSide, clientNoContextTakeover, serverNoContextTakeover,
clientMaxWindowBits, serverMaxWindowBits);
if (NS_FAILED(rv)) {
// Ignore extensions that we can't parse
continue;
}
aNegotiatedExtensions.AssignLiteral("permessage-deflate");
if (clientNoContextTakeover) {
aNegotiatedExtensions.AppendLiteral(";client_no_context_takeover");
}
if (serverNoContextTakeover) {
aNegotiatedExtensions.AppendLiteral(";server_no_context_takeover");
}
if (clientMaxWindowBits != -1) {
aNegotiatedExtensions.AppendLiteral(";client_max_window_bits=");
aNegotiatedExtensions.AppendInt(clientMaxWindowBits);
}
if (serverMaxWindowBits != -1) {
aNegotiatedExtensions.AppendLiteral(";server_max_window_bits=");
aNegotiatedExtensions.AppendInt(serverMaxWindowBits);
}
return;
}
}
nsresult CalculateWebSocketHashedSecret(const nsACString& aKey,
nsACString& aHash) {
nsresult rv;
nsCString key = aKey + "258EAFA5-E914-47DA-95CA-C5AB0DC85B11"_ns;
nsCOMPtr<nsICryptoHash> hasher =
do_CreateInstance(NS_CRYPTO_HASH_CONTRACTID, &rv);
NS_ENSURE_SUCCESS(rv, rv);
rv = hasher->Init(nsICryptoHash::SHA1);
NS_ENSURE_SUCCESS(rv, rv);
rv = hasher->Update((const uint8_t*)key.BeginWriting(), key.Length());
NS_ENSURE_SUCCESS(rv, rv);
return hasher->Finish(true, aHash);
}
nsresult WebSocketChannel::SetupRequest() {
LOG(("WebSocketChannel::SetupRequest() %p\n", this));
nsresult rv;
if (mLoadGroup) {
rv = mHttpChannel->SetLoadGroup(mLoadGroup);
NS_ENSURE_SUCCESS(rv, rv);
}
rv = mHttpChannel->SetLoadFlags(
nsIRequest::LOAD_BACKGROUND | nsIRequest::INHIBIT_CACHING |
nsIRequest::LOAD_BYPASS_CACHE | nsIChannel::LOAD_BYPASS_SERVICE_WORKER);
NS_ENSURE_SUCCESS(rv, rv);
// we never let websockets be blocked by head CSS/JS loads to avoid
// potential deadlock where server generation of CSS/JS requires
// an XHR signal.
nsCOMPtr<nsIClassOfService> cos(do_QueryInterface(mChannel));
if (cos) {
cos->AddClassFlags(nsIClassOfService::Unblocked);
}
// draft-ietf-hybi-thewebsocketprotocol-07 illustrates Upgrade: websocket
// in lower case, so go with that. It is technically case insensitive.
rv = mChannel->HTTPUpgrade("websocket"_ns, this);
NS_ENSURE_SUCCESS(rv, rv);
rv = mHttpChannel->SetRequestHeader("Sec-WebSocket-Version"_ns,
nsLiteralCString(SEC_WEBSOCKET_VERSION),
false);
MOZ_ASSERT(NS_SUCCEEDED(rv));
if (!mOrigin.IsEmpty()) {
rv = mHttpChannel->SetRequestHeader("Origin"_ns, mOrigin, false);
MOZ_ASSERT(NS_SUCCEEDED(rv));
}
if (!mProtocol.IsEmpty()) {
rv = mHttpChannel->SetRequestHeader("Sec-WebSocket-Protocol"_ns, mProtocol,
true);
MOZ_ASSERT(NS_SUCCEEDED(rv));
}
if (mAllowPMCE) {
rv = mHttpChannel->SetRequestHeader("Sec-WebSocket-Extensions"_ns,
"permessage-deflate"_ns, false);
MOZ_ASSERT(NS_SUCCEEDED(rv));
}
uint8_t* secKey;
nsAutoCString secKeyString;
rv = mRandomGenerator->GenerateRandomBytes(16, &secKey);
NS_ENSURE_SUCCESS(rv, rv);
rv = Base64Encode(reinterpret_cast<const char*>(secKey), 16, secKeyString);
free(secKey);
if (NS_FAILED(rv)) {
return rv;
}
rv = mHttpChannel->SetRequestHeader("Sec-WebSocket-Key"_ns, secKeyString,
false);
MOZ_ASSERT(NS_SUCCEEDED(rv));
LOG(("WebSocketChannel::SetupRequest: client key %s\n", secKeyString.get()));
// prepare the value we expect to see in
// the sec-websocket-accept response header
rv = CalculateWebSocketHashedSecret(secKeyString, mHashedSecret);
NS_ENSURE_SUCCESS(rv, rv);
LOG(("WebSocketChannel::SetupRequest: expected server key %s\n",
mHashedSecret.get()));
mHttpChannelId = mHttpChannel->ChannelId();
return NS_OK;
}
nsresult WebSocketChannel::DoAdmissionDNS() {
nsresult rv;
nsCString hostName;
rv = mURI->GetHost(hostName);
NS_ENSURE_SUCCESS(rv, rv);
mAddress = hostName;
rv = mURI->GetPort(&mPort);
NS_ENSURE_SUCCESS(rv, rv);
if (mPort == -1) mPort = (mEncrypted ? kDefaultWSSPort : kDefaultWSPort);
nsCOMPtr<nsIDNSService> dns = do_GetService(NS_DNSSERVICE_CONTRACTID, &rv);
NS_ENSURE_SUCCESS(rv, rv);
nsCOMPtr<nsIEventTarget> main = GetMainThreadEventTarget();
nsCOMPtr<nsICancelable> cancelable;
rv = dns->AsyncResolveNative(hostName, nsIDNSService::RESOLVE_TYPE_DEFAULT,
nsIDNSService::RESOLVE_DEFAULT_FLAGS, nullptr,
this, main, mLoadInfo->GetOriginAttributes(),
getter_AddRefs(cancelable));
if (NS_FAILED(rv)) {
return rv;
}
MutexAutoLock lock(mMutex);
MOZ_ASSERT(!mCancelable);
mCancelable = std::move(cancelable);
return rv;
}
nsresult WebSocketChannel::ApplyForAdmission() {
LOG(("WebSocketChannel::ApplyForAdmission() %p\n", this));
// Websockets has a policy of 1 session at a time being allowed in the
// CONNECTING state per server IP address (not hostname)
// Check to see if a proxy is being used before making DNS call
nsCOMPtr<nsIProtocolProxyService> pps =
do_GetService(NS_PROTOCOLPROXYSERVICE_CONTRACTID);
if (!pps) {
// go straight to DNS
// expect the callback in ::OnLookupComplete
LOG((
"WebSocketChannel::ApplyForAdmission: checking for concurrent open\n"));
return DoAdmissionDNS();
}
nsresult rv;
nsCOMPtr<nsICancelable> cancelable;
rv = pps->AsyncResolve(
mHttpChannel,
nsIProtocolProxyService::RESOLVE_PREFER_SOCKS_PROXY |
nsIProtocolProxyService::RESOLVE_PREFER_HTTPS_PROXY |
nsIProtocolProxyService::RESOLVE_ALWAYS_TUNNEL,
this, nullptr, getter_AddRefs(cancelable));
MutexAutoLock lock(mMutex);
MOZ_ASSERT(!mCancelable);
mCancelable = std::move(cancelable);
return rv;
}
// Called after both OnStartRequest and OnTransportAvailable have
// executed. This essentially ends the handshake and starts the websockets
// protocol state machine.
nsresult WebSocketChannel::CallStartWebsocketData() {
LOG(("WebSocketChannel::CallStartWebsocketData() %p", this));
MOZ_ASSERT(NS_IsMainThread(), "not main thread");
if (mOpenTimer) {
mOpenTimer->Cancel();
mOpenTimer = nullptr;
}
nsCOMPtr<nsIEventTarget> target = GetTargetThread();
if (target && !target->IsOnCurrentThread()) {
return target->Dispatch(
NewRunnableMethod("net::WebSocketChannel::StartWebsocketData", this,
&WebSocketChannel::StartWebsocketData),
NS_DISPATCH_NORMAL);
}
return StartWebsocketData();
}
nsresult WebSocketChannel::StartWebsocketData() {
{
MutexAutoLock lock(mMutex);
LOG(("WebSocketChannel::StartWebsocketData() %p", this));
MOZ_ASSERT(!mDataStarted, "StartWebsocketData twice");
if (mStopped) {
LOG(
("WebSocketChannel::StartWebsocketData channel already closed, not "
"starting data"));
return NS_ERROR_NOT_AVAILABLE;
}
}
RefPtr<WebSocketChannel> self = this;
mIOThread->Dispatch(NS_NewRunnableFunction(
"WebSocketChannel::StartWebsocketData", [self{std::move(self)}] {
LOG(("WebSocketChannel::DoStartWebsocketData() %p", self.get()));
NS_DispatchToMainThread(
NewRunnableMethod("net::WebSocketChannel::NotifyOnStart", self,
&WebSocketChannel::NotifyOnStart),
NS_DISPATCH_NORMAL);
nsresult rv = self->mConnection ? self->mConnection->StartReading()
: self->mSocketIn->AsyncWait(
self, 0, 0, self->mIOThread);
if (NS_FAILED(rv)) {
self->AbortSession(rv);
}
if (self->mPingInterval) {
rv = self->StartPinging();
if (NS_FAILED(rv)) {
LOG((
"WebSocketChannel::StartWebsocketData Could not start pinging, "
"rv=0x%08" PRIx32,
static_cast<uint32_t>(rv)));
self->AbortSession(rv);
}
}
}));
return NS_OK;
}
void WebSocketChannel::NotifyOnStart() {
LOG(("WebSocketChannel::NotifyOnStart Notifying Listener %p",
mListenerMT ? mListenerMT->mListener.get() : nullptr));
mDataStarted = true;
if (mListenerMT) {
nsresult rv = mListenerMT->mListener->OnStart(mListenerMT->mContext);
if (NS_FAILED(rv)) {
LOG(
("WebSocketChannel::NotifyOnStart "
"mListenerMT->mListener->OnStart() failed with error 0x%08" PRIx32,
static_cast<uint32_t>(rv)));
}
}
}
nsresult WebSocketChannel::StartPinging() {
LOG(("WebSocketChannel::StartPinging() %p", this));
MOZ_ASSERT(mIOThread->IsOnCurrentThread(), "not on right thread");
MOZ_ASSERT(mPingInterval);
MOZ_ASSERT(!mPingTimer);
nsresult rv;
rv = NS_NewTimerWithCallback(getter_AddRefs(mPingTimer), this, mPingInterval,
nsITimer::TYPE_ONE_SHOT);
if (NS_SUCCEEDED(rv)) {
LOG(("WebSocketChannel will generate ping after %d ms of receive silence\n",
(uint32_t)mPingInterval));
} else {
NS_WARNING("unable to create ping timer. Carrying on.");
}
return NS_OK;
}
void WebSocketChannel::ReportConnectionTelemetry(nsresult aStatusCode) {
// 3 bits are used. high bit is for wss, middle bit for failed,
// and low bit for proxy..
// 0 - 7 : ws-ok-plain, ws-ok-proxy, ws-failed-plain, ws-failed-proxy,
// wss-ok-plain, wss-ok-proxy, wss-failed-plain, wss-failed-proxy
bool didProxy = false;
nsCOMPtr<nsIProxyInfo> pi;
nsCOMPtr<nsIProxiedChannel> pc = do_QueryInterface(mChannel);
if (pc) pc->GetProxyInfo(getter_AddRefs(pi));
if (pi) {
nsAutoCString proxyType;
pi->GetType(proxyType);
if (!proxyType.IsEmpty() && !proxyType.EqualsLiteral("direct")) {
didProxy = true;
}
}
uint8_t value =
(mEncrypted ? (1 << 2) : 0) |
(!(mGotUpgradeOK && NS_SUCCEEDED(aStatusCode)) ? (1 << 1) : 0) |
(didProxy ? (1 << 0) : 0);
LOG(("WebSocketChannel::ReportConnectionTelemetry() %p %d", this, value));
Telemetry::Accumulate(Telemetry::WEBSOCKETS_HANDSHAKE_TYPE, value);
}
// nsIDNSListener
NS_IMETHODIMP
WebSocketChannel::OnLookupComplete(nsICancelable* aRequest,
nsIDNSRecord* aRecord, nsresult aStatus) {
LOG(("WebSocketChannel::OnLookupComplete() %p [%p %p %" PRIx32 "]\n", this,
aRequest, aRecord, static_cast<uint32_t>(aStatus)));
MOZ_ASSERT(NS_IsMainThread(), "not main thread");
{
MutexAutoLock lock(mMutex);
mCancelable = nullptr;
}
if (mStopped) {
LOG(("WebSocketChannel::OnLookupComplete: Request Already Stopped\n"));
return NS_OK;
}
// These failures are not fatal - we just use the hostname as the key
if (NS_FAILED(aStatus)) {
LOG(("WebSocketChannel::OnLookupComplete: No DNS Response\n"));
// set host in case we got here without calling DoAdmissionDNS()
mURI->GetHost(mAddress);
} else {
nsCOMPtr<nsIDNSAddrRecord> record = do_QueryInterface(aRecord);
MOZ_ASSERT(record);
nsresult rv = record->GetNextAddrAsString(mAddress);
if (NS_FAILED(rv)) {
LOG(("WebSocketChannel::OnLookupComplete: Failed GetNextAddr\n"));
}
}
LOG(("WebSocket OnLookupComplete: Proceeding to ConditionallyConnect\n"));
nsWSAdmissionManager::ConditionallyConnect(this);
return NS_OK;
}
// nsIProtocolProxyCallback
NS_IMETHODIMP
WebSocketChannel::OnProxyAvailable(nsICancelable* aRequest,
nsIChannel* aChannel, nsIProxyInfo* pi,
nsresult status) {
{
MutexAutoLock lock(mMutex);
MOZ_ASSERT(!mCancelable || (aRequest == mCancelable));
mCancelable = nullptr;
}
if (mStopped) {
LOG(("WebSocketChannel::OnProxyAvailable: [%p] Request Already Stopped\n",
this));
return NS_OK;
}
nsAutoCString type;
if (NS_SUCCEEDED(status) && pi && NS_SUCCEEDED(pi->GetType(type)) &&
!type.EqualsLiteral("direct")) {
LOG(("WebSocket OnProxyAvailable [%p] Proxy found skip DNS lookup\n",
this));
// call DNS callback directly without DNS resolver
OnLookupComplete(nullptr, nullptr, NS_ERROR_FAILURE);
} else {
LOG(("WebSocketChannel::OnProxyAvailable[%p] checking DNS resolution\n",
this));
nsresult rv = DoAdmissionDNS();
if (NS_FAILED(rv)) {
LOG(("WebSocket OnProxyAvailable [%p] DNS lookup failed\n", this));
// call DNS callback directly without DNS resolver
OnLookupComplete(nullptr, nullptr, NS_ERROR_FAILURE);
}
}
// notify listener of OnProxyAvailable
LOG(("WebSocketChannel::OnProxyAvailable Notifying Listener %p",
mListenerMT ? mListenerMT->mListener.get() : nullptr));
nsresult rv;
nsCOMPtr<nsIProtocolProxyCallback> ppc(
do_QueryInterface(mListenerMT->mListener, &rv));
if (NS_SUCCEEDED(rv)) {
rv = ppc->OnProxyAvailable(aRequest, aChannel, pi, status);
if (NS_FAILED(rv)) {
LOG(
("WebSocketChannel::OnProxyAvailable notify"
" failed with error 0x%08" PRIx32,
static_cast<uint32_t>(rv)));
}
}
return NS_OK;
}
// nsIInterfaceRequestor
NS_IMETHODIMP
WebSocketChannel::GetInterface(const nsIID& iid, void** result) {
LOG(("WebSocketChannel::GetInterface() %p\n", this));
if (iid.Equals(NS_GET_IID(nsIChannelEventSink))) {
return QueryInterface(iid, result);
}
if (mCallbacks) return mCallbacks->GetInterface(iid, result);
return NS_ERROR_NO_INTERFACE;
}
// nsIChannelEventSink
NS_IMETHODIMP
WebSocketChannel::AsyncOnChannelRedirect(
nsIChannel* oldChannel, nsIChannel* newChannel, uint32_t flags,
nsIAsyncVerifyRedirectCallback* callback) {
LOG(("WebSocketChannel::AsyncOnChannelRedirect() %p\n", this));
MOZ_ASSERT(NS_IsMainThread(), "not main thread");
nsresult rv;
nsCOMPtr<nsIURI> newuri;
rv = newChannel->GetURI(getter_AddRefs(newuri));
NS_ENSURE_SUCCESS(rv, rv);
// newuri is expected to be http or https
bool newuriIsHttps = newuri->SchemeIs("https");
if (!mAutoFollowRedirects) {
// Even if redirects configured off, still allow them for HTTP Strict
// Transport Security (from ws://FOO to https://FOO (mapped to wss://FOO)
if (!(flags & (nsIChannelEventSink::REDIRECT_INTERNAL |
nsIChannelEventSink::REDIRECT_STS_UPGRADE))) {
nsAutoCString newSpec;
rv = newuri->GetSpec(newSpec);
NS_ENSURE_SUCCESS(rv, rv);
LOG(("WebSocketChannel: Redirect to %s denied by configuration\n",
newSpec.get()));
return NS_ERROR_FAILURE;
}
}
if (mEncrypted && !newuriIsHttps) {
nsAutoCString spec;
if (NS_SUCCEEDED(newuri->GetSpec(spec))) {
LOG(("WebSocketChannel: Redirect to %s violates encryption rule\n",
spec.get()));
}
return NS_ERROR_FAILURE;
}
nsCOMPtr<nsIHttpChannel> newHttpChannel = do_QueryInterface(newChannel, &rv);
if (NS_FAILED(rv)) {
LOG(("WebSocketChannel: Redirect could not QI to HTTP\n"));
return rv;
}
nsCOMPtr<nsIHttpChannelInternal> newUpgradeChannel =
do_QueryInterface(newChannel, &rv);
if (NS_FAILED(rv)) {
LOG(("WebSocketChannel: Redirect could not QI to HTTP Upgrade\n"));
return rv;
}
// The redirect is likely OK
newChannel->SetNotificationCallbacks(this);
mEncrypted = newuriIsHttps;
rv = NS_MutateURI(newuri)
.SetScheme(mEncrypted ? "wss"_ns : "ws"_ns)
.Finalize(mURI);
if (NS_FAILED(rv)) {
LOG(("WebSocketChannel: Could not set the proper scheme\n"));
return rv;
}
mHttpChannel = newHttpChannel;
mChannel = newUpgradeChannel;
rv = SetupRequest();
if (NS_FAILED(rv)) {
LOG(("WebSocketChannel: Redirect could not SetupRequest()\n"));
return rv;
}
// Redirected-to URI may need to be delayed by 1-connecting-per-host and
// delay-after-fail algorithms. So hold off calling OnRedirectVerifyCallback
// until BeginOpen, when we know it's OK to proceed with new channel.
mRedirectCallback = callback;
// Mark old channel as successfully connected so we'll clear any FailDelay
// associated with the old URI. Note: no need to also call OnStopSession:
// it's a no-op for successful, already-connected channels.
nsWSAdmissionManager::OnConnected(this);
// ApplyForAdmission as if we were starting from fresh...
mAddress.Truncate();
mOpenedHttpChannel = false;
rv = ApplyForAdmission();
if (NS_FAILED(rv)) {
LOG(("WebSocketChannel: Redirect failed due to DNS failure\n"));
mRedirectCallback = nullptr;
return rv;
}
return NS_OK;
}
// nsITimerCallback
NS_IMETHODIMP
WebSocketChannel::Notify(nsITimer* timer) {
LOG(("WebSocketChannel::Notify() %p [%p]\n", this, timer));
if (timer == mCloseTimer) {
MOZ_ASSERT(mClientClosed, "Close Timeout without local close");
MOZ_ASSERT(mIOThread->IsOnCurrentThread(), "not on right thread");
mCloseTimer = nullptr;
if (mStopped || mServerClosed) { /* no longer relevant */
return NS_OK;
}
LOG(("WebSocketChannel:: Expecting Server Close - Timed Out\n"));
AbortSession(NS_ERROR_NET_TIMEOUT_EXTERNAL);
} else if (timer == mOpenTimer) {
MOZ_ASSERT(NS_IsMainThread(), "not main thread");
mOpenTimer = nullptr;
LOG(("WebSocketChannel:: Connection Timed Out\n"));
if (mStopped || mServerClosed) { /* no longer relevant */
return NS_OK;
}
AbortSession(NS_ERROR_NET_TIMEOUT_EXTERNAL);
MOZ_PUSH_IGNORE_THREAD_SAFETY
// mReconnectDelayTimer is only modified on MainThread, we can read it
// without a lock, but ONLY if we're on MainThread! And if we're not
// on MainThread, it can't be mReconnectDelayTimer
} else if (NS_IsMainThread() && timer == mReconnectDelayTimer) {
MOZ_POP_THREAD_SAFETY
MOZ_ASSERT(mConnecting == CONNECTING_DELAYED,
"woke up from delay w/o being delayed?");
{
MutexAutoLock lock(mMutex);
mReconnectDelayTimer = nullptr;
}
LOG(("WebSocketChannel: connecting [this=%p] after reconnect delay", this));
BeginOpen(false);
} else if (timer == mPingTimer) {
MOZ_ASSERT(mIOThread->IsOnCurrentThread(), "not on right thread");
if (mClientClosed || mServerClosed || mRequestedClose) {
// no point in worrying about ping now
mPingTimer = nullptr;
return NS_OK;
}
if (!mPingOutstanding) {
// Ping interval must be non-null or PING was forced by OnNetworkChanged()
MOZ_ASSERT(mPingInterval || mPingForced);
LOG(("nsWebSocketChannel:: Generating Ping\n"));
mPingOutstanding = 1;
mPingForced = false;
mPingTimer->InitWithCallback(this, mPingResponseTimeout,
nsITimer::TYPE_ONE_SHOT);
GeneratePing();
} else {
LOG(("nsWebSocketChannel:: Timed out Ping\n"));
mPingTimer = nullptr;
AbortSession(NS_ERROR_NET_TIMEOUT_EXTERNAL);
}
} else if (timer == mLingeringCloseTimer) {
LOG(("WebSocketChannel:: Lingering Close Timer"));
CleanupConnection();
} else {
MOZ_ASSERT(0, "Unknown Timer");
}
return NS_OK;
}
// nsINamed
NS_IMETHODIMP
WebSocketChannel::GetName(nsACString& aName) {
aName.AssignLiteral("WebSocketChannel");
return NS_OK;
}
// nsIWebSocketChannel
NS_IMETHODIMP
WebSocketChannel::GetSecurityInfo(nsITransportSecurityInfo** aSecurityInfo) {
LOG(("WebSocketChannel::GetSecurityInfo() %p\n", this));
MOZ_ASSERT(NS_IsMainThread(), "not main thread");
*aSecurityInfo = nullptr;
if (mConnection) {
nsresult rv = mConnection->GetSecurityInfo(aSecurityInfo);
if (NS_FAILED(rv)) {
return rv;
}
return NS_OK;
}
if (mTransport) {
nsCOMPtr<nsITLSSocketControl> tlsSocketControl;
nsresult rv =
mTransport->GetTlsSocketControl(getter_AddRefs(tlsSocketControl));
if (NS_FAILED(rv)) {
return rv;
}
nsCOMPtr<nsITransportSecurityInfo> securityInfo(
do_QueryInterface(tlsSocketControl));
if (securityInfo) {
securityInfo.forget(aSecurityInfo);
}
}
return NS_OK;
}
NS_IMETHODIMP
WebSocketChannel::AsyncOpen(nsIURI* aURI, const nsACString& aOrigin,
JS::Handle<JS::Value> aOriginAttributes,
uint64_t aInnerWindowID,
nsIWebSocketListener* aListener,
nsISupports* aContext, JSContext* aCx) {
OriginAttributes attrs;
if (!aOriginAttributes.isObject() || !attrs.Init(aCx, aOriginAttributes)) {
return NS_ERROR_INVALID_ARG;
}
return AsyncOpenNative(aURI, aOrigin, attrs, aInnerWindowID, aListener,
aContext);
}
NS_IMETHODIMP
WebSocketChannel::AsyncOpenNative(nsIURI* aURI, const nsACString& aOrigin,
const OriginAttributes& aOriginAttributes,
uint64_t aInnerWindowID,
nsIWebSocketListener* aListener,
nsISupports* aContext) {
LOG(("WebSocketChannel::AsyncOpen() %p\n", this));
aOriginAttributes.CreateSuffix(mOriginSuffix);
if (!NS_IsMainThread()) {
MOZ_ASSERT(false, "not main thread");
LOG(("WebSocketChannel::AsyncOpen() called off the main thread"));
return NS_ERROR_UNEXPECTED;
}
if ((!aURI && !mIsServerSide) || !aListener) {
LOG(("WebSocketChannel::AsyncOpen() Uri or Listener null"));
return NS_ERROR_UNEXPECTED;
}
if (mListenerMT || mWasOpened) return NS_ERROR_ALREADY_OPENED;
nsresult rv;
// Ensure target thread is set if RetargetDeliveryTo isn't called
{
auto lock = mTargetThread.Lock();
if (!lock.ref()) {
lock.ref() = GetMainThreadEventTarget();
}
}
mIOThread = do_GetService(NS_SOCKETTRANSPORTSERVICE_CONTRACTID, &rv);
if (NS_FAILED(rv)) {
NS_WARNING("unable to continue without socket transport service");
return rv;
}
nsCOMPtr<nsIPrefBranch> prefService;
prefService = do_GetService(NS_PREFSERVICE_CONTRACTID);
if (prefService) {
int32_t intpref;
bool boolpref;
rv =
prefService->GetIntPref("network.websocket.max-message-size", &intpref);
if (NS_SUCCEEDED(rv)) {
mMaxMessageSize = clamped(intpref, 1024, INT32_MAX);
}
rv = prefService->GetIntPref("network.websocket.timeout.close", &intpref);
if (NS_SUCCEEDED(rv)) {
mCloseTimeout = clamped(intpref, 1, 1800) * 1000;
}
rv = prefService->GetIntPref("network.websocket.timeout.open", &intpref);
if (NS_SUCCEEDED(rv)) {
mOpenTimeout = clamped(intpref, 1, 1800) * 1000;
}
rv = prefService->GetIntPref("network.websocket.timeout.ping.request",
&intpref);
if (NS_SUCCEEDED(rv) && !mClientSetPingInterval) {
mPingInterval = clamped(intpref, 0, 86400) * 1000;
}
rv = prefService->GetIntPref("network.websocket.timeout.ping.response",
&intpref);
if (NS_SUCCEEDED(rv) && !mClientSetPingTimeout) {
mPingResponseTimeout = clamped(intpref, 1, 3600) * 1000;
}
rv = prefService->GetBoolPref(
"network.websocket.extensions.permessage-deflate", &boolpref);
if (NS_SUCCEEDED(rv)) {
mAllowPMCE = boolpref ? 1 : 0;
}
rv = prefService->GetBoolPref(
"network.websocket.auto-follow-http-redirects", &boolpref);
if (NS_SUCCEEDED(rv)) {
mAutoFollowRedirects = boolpref ? 1 : 0;
}
rv = prefService->GetIntPref("network.websocket.max-connections", &intpref);
if (NS_SUCCEEDED(rv)) {
mMaxConcurrentConnections = clamped(intpref, 1, 0xffff);
}
}
int32_t sessionCount = -1;
nsWSAdmissionManager::GetSessionCount(sessionCount);
if (sessionCount >= 0) {
LOG(("WebSocketChannel::AsyncOpen %p sessionCount=%d max=%d\n", this,
sessionCount, mMaxConcurrentConnections));
}
if (sessionCount >= mMaxConcurrentConnections) {
LOG(("WebSocketChannel: max concurrency %d exceeded (%d)",
mMaxConcurrentConnections, sessionCount));
// WebSocket connections are expected to be long lived, so return
// an error here instead of queueing
return NS_ERROR_SOCKET_CREATE_FAILED;
}
mInnerWindowID = aInnerWindowID;
mOriginalURI = aURI;
mURI = mOriginalURI;
mOrigin = aOrigin;
if (mIsServerSide) {
// IncrementSessionCount();
mWasOpened = 1;
mListenerMT = new ListenerAndContextContainer(aListener, aContext);
rv = mServerTransportProvider->SetListener(this);
MOZ_ASSERT(NS_SUCCEEDED(rv));
mServerTransportProvider = nullptr;
return NS_OK;
}
mURI->GetHostPort(mHost);
mRandomGenerator =
do_GetService("@mozilla.org/security/random-generator;1", &rv);
if (NS_FAILED(rv)) {
NS_WARNING("unable to continue without random number generator");
return rv;
}
nsCOMPtr<nsIURI> localURI;
nsCOMPtr<nsIChannel> localChannel;
rv = NS_MutateURI(mURI)
.SetScheme(mEncrypted ? "https"_ns : "http"_ns)
.Finalize(localURI);
NS_ENSURE_SUCCESS(rv, rv);
nsCOMPtr<nsIIOService> ioService;
ioService = do_GetService(NS_IOSERVICE_CONTRACTID, &rv);
if (NS_FAILED(rv)) {
NS_WARNING("unable to continue without io service");
return rv;
}
// Ideally we'd call newChannelFromURIWithLoadInfo here, but that doesn't
// allow setting proxy uri/flags
rv = ioService->NewChannelFromURIWithProxyFlags(
localURI, mURI,
nsIProtocolProxyService::RESOLVE_PREFER_SOCKS_PROXY |
nsIProtocolProxyService::RESOLVE_PREFER_HTTPS_PROXY |
nsIProtocolProxyService::RESOLVE_ALWAYS_TUNNEL,
mLoadInfo->LoadingNode(), mLoadInfo->GetLoadingPrincipal(),
mLoadInfo->TriggeringPrincipal(), mLoadInfo->GetSecurityFlags(),
mLoadInfo->InternalContentPolicyType(), getter_AddRefs(localChannel));
NS_ENSURE_SUCCESS(rv, rv);
// Please note that we still call SetLoadInfo on the channel because
// we want the same instance of the loadInfo to be set on the channel.
rv = localChannel->SetLoadInfo(mLoadInfo);
NS_ENSURE_SUCCESS(rv, rv);
// Pass most GetInterface() requests through to our instantiator, but handle
// nsIChannelEventSink in this object in order to deal with redirects
localChannel->SetNotificationCallbacks(this);
class MOZ_STACK_CLASS CleanUpOnFailure {
public:
explicit CleanUpOnFailure(WebSocketChannel* aWebSocketChannel)
: mWebSocketChannel(aWebSocketChannel) {}
~CleanUpOnFailure() {
if (!mWebSocketChannel->mWasOpened) {
mWebSocketChannel->mChannel = nullptr;
mWebSocketChannel->mHttpChannel = nullptr;
}
}
WebSocketChannel* mWebSocketChannel;
};
CleanUpOnFailure cuof(this);
mChannel = do_QueryInterface(localChannel, &rv);
NS_ENSURE_SUCCESS(rv, rv);
mHttpChannel = do_QueryInterface(localChannel, &rv);
NS_ENSURE_SUCCESS(rv, rv);
rv = SetupRequest();
if (NS_FAILED(rv)) return rv;
mPrivateBrowsing = NS_UsePrivateBrowsing(localChannel);
if (mConnectionLogService && !mPrivateBrowsing) {
mConnectionLogService->AddHost(mHost, mSerial,
BaseWebSocketChannel::mEncrypted);
}
rv = ApplyForAdmission();
if (NS_FAILED(rv)) return rv;
// Register for prefs change notifications
nsCOMPtr<nsIObserverService> observerService =
mozilla::services::GetObserverService();
if (!observerService) {
NS_WARNING("failed to get observer service");
return NS_ERROR_FAILURE;
}
rv = observerService->AddObserver(this, NS_NETWORK_LINK_TOPIC, false);
if (NS_WARN_IF(NS_FAILED(rv))) {
return rv;
}
// Only set these if the open was successful:
//
mWasOpened = 1;
mListenerMT = new ListenerAndContextContainer(aListener, aContext);
IncrementSessionCount();
return rv;
}
NS_IMETHODIMP
WebSocketChannel::Close(uint16_t code, const nsACString& reason) {
LOG(("WebSocketChannel::Close() %p\n", this));
MOZ_ASSERT(NS_IsMainThread(), "not main thread");
{
MutexAutoLock lock(mMutex);
if (mRequestedClose) {
return NS_OK;
}
if (mStopped) {
return NS_ERROR_NOT_AVAILABLE;
}
// The API requires the UTF-8 string to be 123 or less bytes
if (reason.Length() > 123) return NS_ERROR_ILLEGAL_VALUE;
mRequestedClose = true;
mScriptCloseReason = reason;
mScriptCloseCode = code;
if (mDataStarted) {
return mIOThread->Dispatch(
new OutboundEnqueuer(this,
new OutboundMessage(kMsgTypeFin, VoidCString())),
nsIEventTarget::DISPATCH_NORMAL);
}
mStopped = true;
}
nsresult rv;
if (code == CLOSE_GOING_AWAY) {
// Not an error: for example, tab has closed or navigated away
LOG(("WebSocketChannel::Close() GOING_AWAY without transport."));
rv = NS_OK;
} else {
LOG(("WebSocketChannel::Close() without transport - error."));
rv = NS_ERROR_NOT_CONNECTED;
}
DoStopSession(rv);
return rv;
}
NS_IMETHODIMP
WebSocketChannel::SendMsg(const nsACString& aMsg) {
LOG(("WebSocketChannel::SendMsg() %p\n", this));
return SendMsgCommon(aMsg, false, aMsg.Length());
}
NS_IMETHODIMP
WebSocketChannel::SendBinaryMsg(const nsACString& aMsg) {
LOG(("WebSocketChannel::SendBinaryMsg() %p len=%zu\n", this, aMsg.Length()));
return SendMsgCommon(aMsg, true, aMsg.Length());
}
NS_IMETHODIMP
WebSocketChannel::SendBinaryStream(nsIInputStream* aStream, uint32_t aLength) {
LOG(("WebSocketChannel::SendBinaryStream() %p\n", this));
return SendMsgCommon(VoidCString(), true, aLength, aStream);
}
nsresult WebSocketChannel::SendMsgCommon(const nsACString& aMsg, bool aIsBinary,
uint32_t aLength,
nsIInputStream* aStream) {
MOZ_ASSERT(IsOnTargetThread(), "not target thread");
if (!mDataStarted) {
LOG(("WebSocketChannel:: Error: data not started yet\n"));
return NS_ERROR_UNEXPECTED;
}
if (mRequestedClose) {
LOG(("WebSocketChannel:: Error: send when closed\n"));
return NS_ERROR_UNEXPECTED;
}
if (mStopped) {
LOG(("WebSocketChannel:: Error: send when stopped\n"));
return NS_ERROR_NOT_CONNECTED;
}
MOZ_ASSERT(mMaxMessageSize >= 0, "max message size negative");
if (aLength > static_cast<uint32_t>(mMaxMessageSize)) {
LOG(("WebSocketChannel:: Error: message too big\n"));
return NS_ERROR_FILE_TOO_BIG;
}
if (mConnectionLogService && !mPrivateBrowsing) {
mConnectionLogService->NewMsgSent(mHost, mSerial, aLength);
LOG(("Added new msg sent for %s", mHost.get()));
}
return mIOThread->Dispatch(
aStream
? new OutboundEnqueuer(this, new OutboundMessage(aStream, aLength))
: new OutboundEnqueuer(
this,
new OutboundMessage(
aIsBinary ? kMsgTypeBinaryString : kMsgTypeString, aMsg)),
nsIEventTarget::DISPATCH_NORMAL);
}
// nsIHttpUpgradeListener
NS_IMETHODIMP
WebSocketChannel::OnTransportAvailable(nsISocketTransport* aTransport,
nsIAsyncInputStream* aSocketIn,
nsIAsyncOutputStream* aSocketOut) {
if (!NS_IsMainThread()) {
return NS_DispatchToMainThread(
new CallOnTransportAvailable(this, aTransport, aSocketIn, aSocketOut));
}
LOG(("WebSocketChannel::OnTransportAvailable %p [%p %p %p] rcvdonstart=%d\n",
this, aTransport, aSocketIn, aSocketOut, mGotUpgradeOK));
if (mStopped) {
LOG(("WebSocketChannel::OnTransportAvailable: Already stopped"));
return NS_OK;
}
MOZ_ASSERT(NS_IsMainThread(), "not main thread");
MOZ_ASSERT(!mRecvdHttpUpgradeTransport, "OTA duplicated");
MOZ_ASSERT(aSocketIn, "OTA with invalid socketIn");
mTransport = aTransport;
mSocketIn = aSocketIn;
mSocketOut = aSocketOut;
nsresult rv;
rv = mTransport->SetEventSink(nullptr, nullptr);
if (NS_FAILED(rv)) return rv;
rv = mTransport->SetSecurityCallbacks(this);
if (NS_FAILED(rv)) return rv;
return OnTransportAvailableInternal();
}
NS_IMETHODIMP
WebSocketChannel::OnWebSocketConnectionAvailable(
WebSocketConnectionBase* aConnection) {
if (!NS_IsMainThread()) {
RefPtr<WebSocketChannel> self = this;
RefPtr<WebSocketConnectionBase> connection = aConnection;
return NS_DispatchToMainThread(NS_NewRunnableFunction(
"WebSocketChannel::OnWebSocketConnectionAvailable",
[self, connection]() {
self->OnWebSocketConnectionAvailable(connection);
}));
}
LOG(
("WebSocketChannel::OnWebSocketConnectionAvailable %p [%p] "
"rcvdonstart=%d\n",
this, aConnection, mGotUpgradeOK));
MOZ_ASSERT(NS_IsMainThread(), "not main thread");
MOZ_ASSERT(!mRecvdHttpUpgradeTransport,
"OnWebSocketConnectionAvailable duplicated");
MOZ_ASSERT(aConnection);
if (mStopped) {
LOG(("WebSocketChannel::OnWebSocketConnectionAvailable: Already stopped"));
aConnection->Close();
return NS_OK;
}
nsresult rv = aConnection->Init(this);
if (NS_FAILED(rv)) {
return rv;
}
mConnection = aConnection;
// Note: mIOThread will be IPDL background thread.
mConnection->GetIoTarget(getter_AddRefs(mIOThread));
return OnTransportAvailableInternal();
}
nsresult WebSocketChannel::OnTransportAvailableInternal() {
MOZ_ASSERT(NS_IsMainThread(), "not main thread");
MOZ_ASSERT(!mRecvdHttpUpgradeTransport,
"OnWebSocketConnectionAvailable duplicated");
MOZ_ASSERT(mSocketIn || mConnection);
mRecvdHttpUpgradeTransport = 1;
if (mGotUpgradeOK) {
// We're now done CONNECTING, which means we can now open another,
// perhaps parallel, connection to the same host if one
// is pending
nsWSAdmissionManager::OnConnected(this);
return CallStartWebsocketData();
}
if (mIsServerSide) {
if (!mNegotiatedExtensions.IsEmpty()) {
bool clientNoContextTakeover;
bool serverNoContextTakeover;
int32_t clientMaxWindowBits;
int32_t serverMaxWindowBits;
nsresult rv = ParseWebSocketExtension(
mNegotiatedExtensions, eParseServerSide, clientNoContextTakeover,
serverNoContextTakeover, clientMaxWindowBits, serverMaxWindowBits);
MOZ_RELEASE_ASSERT(NS_SUCCEEDED(rv), "illegal value provided by server");
if (clientMaxWindowBits == -1) {
clientMaxWindowBits = 15;
}
if (serverMaxWindowBits == -1) {
serverMaxWindowBits = 15;
}
mPMCECompressor = MakeUnique<PMCECompression>(
serverNoContextTakeover, serverMaxWindowBits, clientMaxWindowBits);
if (mPMCECompressor->Active()) {
LOG(
("WebSocketChannel::OnTransportAvailable: PMCE negotiated, %susing "
"context takeover, serverMaxWindowBits=%d, "
"clientMaxWindowBits=%d\n",
serverNoContextTakeover ? "NOT " : "", serverMaxWindowBits,
clientMaxWindowBits));
mNegotiatedExtensions = "permessage-deflate";
} else {
LOG(
("WebSocketChannel::OnTransportAvailable: Cannot init PMCE "
"compression object\n"));
mPMCECompressor = nullptr;
AbortSession(NS_ERROR_UNEXPECTED);
return NS_ERROR_UNEXPECTED;
}
}
return CallStartWebsocketData();
}
return NS_OK;
}
NS_IMETHODIMP
WebSocketChannel::OnUpgradeFailed(nsresult aErrorCode) {
// When socket process is enabled, this could be called on background thread.
LOG(("WebSocketChannel::OnUpgradeFailed() %p [aErrorCode %" PRIx32 "]", this,
static_cast<uint32_t>(aErrorCode)));
if (mStopped) {
LOG(("WebSocketChannel::OnUpgradeFailed: Already stopped"));
return NS_OK;
}
MOZ_ASSERT(!mRecvdHttpUpgradeTransport, "OTA already called");
AbortSession(aErrorCode);
return NS_OK;
}
// nsIRequestObserver (from nsIStreamListener)
NS_IMETHODIMP
WebSocketChannel::OnStartRequest(nsIRequest* aRequest) {
LOG(("WebSocketChannel::OnStartRequest(): %p [%p %p] recvdhttpupgrade=%d\n",
this, aRequest, mHttpChannel.get(), mRecvdHttpUpgradeTransport));
MOZ_ASSERT(NS_IsMainThread(), "not main thread");
MOZ_ASSERT(!mGotUpgradeOK, "OTA duplicated");
if (mStopped) {
LOG(("WebSocketChannel::OnStartRequest: Channel Already Done\n"));
AbortSession(NS_ERROR_WEBSOCKET_CONNECTION_REFUSED);
return NS_ERROR_WEBSOCKET_CONNECTION_REFUSED;
}
nsresult rv;
uint32_t status;
char *val, *token;
rv = mHttpChannel->GetResponseStatus(&status);
if (NS_FAILED(rv)) {
nsresult httpStatus;
rv = NS_ERROR_WEBSOCKET_CONNECTION_REFUSED;
// If we failed to connect due to unsuccessful TLS handshake, we must
// propagate a specific error to mozilla::dom::WebSocketImpl so it can set
// status code to 1015. Otherwise return
// NS_ERROR_WEBSOCKET_CONNECTION_REFUSED.
if (NS_SUCCEEDED(mHttpChannel->GetStatus(&httpStatus))) {
uint32_t errorClass;
nsCOMPtr<nsINSSErrorsService> errSvc =
do_GetService("@mozilla.org/nss_errors_service;1");
// If GetErrorClass succeeds httpStatus is TLS related failure.
if (errSvc &&
NS_SUCCEEDED(errSvc->GetErrorClass(httpStatus, &errorClass))) {
rv = NS_ERROR_NET_INADEQUATE_SECURITY;
}
}
LOG(("WebSocketChannel::OnStartRequest: No HTTP Response\n"));
AbortSession(rv);
return rv;
}
LOG(("WebSocketChannel::OnStartRequest: HTTP status %d\n", status));
nsCOMPtr<nsIHttpChannelInternal> internalChannel =
do_QueryInterface(mHttpChannel);
uint32_t versionMajor, versionMinor;
rv = internalChannel->GetResponseVersion(&versionMajor, &versionMinor);
if (NS_FAILED(rv) ||
!((versionMajor == 1 && versionMinor != 0) || versionMajor == 2) ||
(versionMajor == 1 && status != 101) ||
(versionMajor == 2 && status != 200)) {
AbortSession(NS_ERROR_WEBSOCKET_CONNECTION_REFUSED);
return NS_ERROR_WEBSOCKET_CONNECTION_REFUSED;
}
if (versionMajor == 1) {
// These are only present on http/1.x websocket upgrades
nsAutoCString respUpgrade;
rv = mHttpChannel->GetResponseHeader("Upgrade"_ns, respUpgrade);
if (NS_SUCCEEDED(rv)) {
rv = NS_ERROR_ILLEGAL_VALUE;
if (!respUpgrade.IsEmpty()) {
val = respUpgrade.BeginWriting();
while ((token = nsCRT::strtok(val, ", \t", &val))) {
if (nsCRT::strcasecmp(token, "Websocket") == 0) {
rv = NS_OK;
break;
}
}
}
}
if (NS_FAILED(rv)) {
LOG(
("WebSocketChannel::OnStartRequest: "
"HTTP response header Upgrade: websocket not found\n"));
AbortSession(NS_ERROR_ILLEGAL_VALUE);
return rv;
}
nsAutoCString respConnection;
rv = mHttpChannel->GetResponseHeader("Connection"_ns, respConnection);
if (NS_SUCCEEDED(rv)) {
rv = NS_ERROR_ILLEGAL_VALUE;
if (!respConnection.IsEmpty()) {
val = respConnection.BeginWriting();
while ((token = nsCRT::strtok(val, ", \t", &val))) {
if (nsCRT::strcasecmp(token, "Upgrade") == 0) {
rv = NS_OK;
break;
}
}
}
}
if (NS_FAILED(rv)) {
LOG(
("WebSocketChannel::OnStartRequest: "
"HTTP response header 'Connection: Upgrade' not found\n"));
AbortSession(NS_ERROR_ILLEGAL_VALUE);
return rv;
}
nsAutoCString respAccept;
rv = mHttpChannel->GetResponseHeader("Sec-WebSocket-Accept"_ns, respAccept);
if (NS_FAILED(rv) || respAccept.IsEmpty() ||
!respAccept.Equals(mHashedSecret)) {
LOG(
("WebSocketChannel::OnStartRequest: "
"HTTP response header Sec-WebSocket-Accept check failed\n"));
LOG(("WebSocketChannel::OnStartRequest: Expected %s received %s\n",
mHashedSecret.get(), respAccept.get()));
#ifdef FUZZING
if (NS_FAILED(rv) || respAccept.IsEmpty()) {
#endif
AbortSession(NS_ERROR_ILLEGAL_VALUE);
return NS_ERROR_ILLEGAL_VALUE;
#ifdef FUZZING
}
#endif
}
}
// If we sent a sub protocol header, verify the response matches.
// If response contains protocol that was not in request, fail.
// If response contained no protocol header, set to "" so the protocol
// attribute of the WebSocket JS object reflects that
if (!mProtocol.IsEmpty()) {
nsAutoCString respProtocol;
rv = mHttpChannel->GetResponseHeader("Sec-WebSocket-Protocol"_ns,
respProtocol);
if (NS_SUCCEEDED(rv)) {
rv = NS_ERROR_ILLEGAL_VALUE;
val = mProtocol.BeginWriting();
while ((token = nsCRT::strtok(val, ", \t", &val))) {
if (strcmp(token, respProtocol.get()) == 0) {
rv = NS_OK;
break;
}
}
if (NS_SUCCEEDED(rv)) {
LOG(("WebsocketChannel::OnStartRequest: subprotocol %s confirmed",
respProtocol.get()));
mProtocol = respProtocol;
} else {
LOG(
("WebsocketChannel::OnStartRequest: "
"Server replied with non-matching subprotocol [%s]: aborting",
respProtocol.get()));
mProtocol.Truncate();
AbortSession(NS_ERROR_ILLEGAL_VALUE);
return NS_ERROR_ILLEGAL_VALUE;
}
} else {
LOG(
("WebsocketChannel::OnStartRequest "
"subprotocol [%s] not found - none returned",
mProtocol.get()));
mProtocol.Truncate();
}
}
rv = HandleExtensions();
if (NS_FAILED(rv)) return rv;
// Update mEffectiveURL for off main thread URI access.
nsCOMPtr<nsIURI> uri = mURI ? mURI : mOriginalURI;
nsAutoCString spec;
rv = uri->GetSpec(spec);
MOZ_ASSERT(NS_SUCCEEDED(rv));
CopyUTF8toUTF16(spec, mEffectiveURL);
mGotUpgradeOK = 1;
if (mRecvdHttpUpgradeTransport) {
// We're now done CONNECTING, which means we can now open another,
// perhaps parallel, connection to the same host if one
// is pending
nsWSAdmissionManager::OnConnected(this);
return CallStartWebsocketData();
}
return NS_OK;
}
NS_IMETHODIMP
WebSocketChannel::OnStopRequest(nsIRequest* aRequest, nsresult aStatusCode) {
LOG(("WebSocketChannel::OnStopRequest() %p [%p %p %" PRIx32 "]\n", this,
aRequest, mHttpChannel.get(), static_cast<uint32_t>(aStatusCode)));
MOZ_ASSERT(NS_IsMainThread(), "not main thread");
// OnTransportAvailable won't be called if the request is stopped with
// an error. Abort the session now instead of waiting for timeout.
if (NS_FAILED(aStatusCode) && !mRecvdHttpUpgradeTransport) {
AbortSession(aStatusCode);
}
ReportConnectionTelemetry(aStatusCode);
// This is the end of the HTTP upgrade transaction, the
// upgraded streams live on
mChannel = nullptr;
mHttpChannel = nullptr;
mLoadGroup = nullptr;
mCallbacks = nullptr;
return NS_OK;
}
// nsIInputStreamCallback
NS_IMETHODIMP
WebSocketChannel::OnInputStreamReady(nsIAsyncInputStream* aStream) {
LOG(("WebSocketChannel::OnInputStreamReady() %p\n", this));
MOZ_DIAGNOSTIC_ASSERT(mIOThread->IsOnCurrentThread(), "not on right thread");
if (!mSocketIn) { // did we we clean up the socket after scheduling
// InputReady?
return NS_OK;
}
// this is after the http upgrade - so we are speaking websockets
char buffer[2048];
uint32_t count;
nsresult rv;
do {
rv = mSocketIn->Read((char*)buffer, sizeof(buffer), &count);
LOG(("WebSocketChannel::OnInputStreamReady: read %u rv %" PRIx32 "\n",
count, static_cast<uint32_t>(rv)));
if (rv == NS_BASE_STREAM_WOULD_BLOCK) {
mSocketIn->AsyncWait(this, 0, 0, mIOThread);
return NS_OK;
}
if (NS_FAILED(rv)) {
AbortSession(rv);
return rv;
}
if (count == 0) {
AbortSession(NS_BASE_STREAM_CLOSED);
return NS_OK;
}
if (mStopped) {
continue;
}
rv = ProcessInput((uint8_t*)buffer, count);
if (NS_FAILED(rv)) {
AbortSession(rv);
return rv;
}
} while (NS_SUCCEEDED(rv) && mSocketIn);
return NS_OK;
}
// nsIOutputStreamCallback
NS_IMETHODIMP
WebSocketChannel::OnOutputStreamReady(nsIAsyncOutputStream* aStream) {
LOG(("WebSocketChannel::OnOutputStreamReady() %p\n", this));
MOZ_DIAGNOSTIC_ASSERT(mIOThread->IsOnCurrentThread(), "not on right thread");
nsresult rv;
if (!mCurrentOut) PrimeNewOutgoingMessage();
while (mCurrentOut && mSocketOut) {
const char* sndBuf;
uint32_t toSend;
uint32_t amtSent;
if (mHdrOut) {
sndBuf = (const char*)mHdrOut;
toSend = mHdrOutToSend;
LOG(
("WebSocketChannel::OnOutputStreamReady: "
"Try to send %u of hdr/copybreak\n",
toSend));
} else {
sndBuf = (char*)mCurrentOut->BeginReading() + mCurrentOutSent;
toSend = mCurrentOut->Length() - mCurrentOutSent;
if (toSend > 0) {
LOG(
("WebSocketChannel::OnOutputStreamReady [%p]: "
"Try to send %u of data\n",
this, toSend));
}
}
if (toSend == 0) {
amtSent = 0;
} else {
rv = mSocketOut->Write(sndBuf, toSend, &amtSent);
LOG(("WebSocketChannel::OnOutputStreamReady [%p]: write %u rv %" PRIx32
"\n",
this, amtSent, static_cast<uint32_t>(rv)));
if (rv == NS_BASE_STREAM_WOULD_BLOCK) {
mSocketOut->AsyncWait(this, 0, 0, mIOThread);
return NS_OK;
}
if (NS_FAILED(rv)) {
AbortSession(rv);
return NS_OK;
}
}
if (mHdrOut) {
if (amtSent == toSend) {
mHdrOut = nullptr;
mHdrOutToSend = 0;
} else {
mHdrOut += amtSent;
mHdrOutToSend -= amtSent;
mSocketOut->AsyncWait(this, 0, 0, mIOThread);
}
} else {
if (amtSent == toSend) {
if (!mStopped) {
if (nsCOMPtr<nsIEventTarget> target = GetTargetThread()) {
target->Dispatch(
new CallAcknowledge(this, mCurrentOut->OrigLength()),
NS_DISPATCH_NORMAL);
} else {
return NS_ERROR_UNEXPECTED;
}
}
DeleteCurrentOutGoingMessage();
PrimeNewOutgoingMessage();
} else {
mCurrentOutSent += amtSent;
mSocketOut->AsyncWait(this, 0, 0, mIOThread);
}
}
}
if (mReleaseOnTransmit) ReleaseSession();
return NS_OK;
}
// nsIStreamListener
NS_IMETHODIMP
WebSocketChannel::OnDataAvailable(nsIRequest* aRequest,
nsIInputStream* aInputStream,
uint64_t aOffset, uint32_t aCount) {
LOG(("WebSocketChannel::OnDataAvailable() %p [%p %p %p %" PRIu64 " %u]\n",
this, aRequest, mHttpChannel.get(), aInputStream, aOffset, aCount));
// This is the HTTP OnDataAvailable Method, which means this is http data in
// response to the upgrade request and there should be no http response body
// if the upgrade succeeded. This generally should be caught by a non 101
// response code in OnStartRequest().. so we can ignore the data here
LOG(("WebSocketChannel::OnDataAvailable: HTTP data unexpected len>=%u\n",
aCount));
return NS_OK;
}
void WebSocketChannel::DoEnqueueOutgoingMessage() {
LOG(("WebSocketChannel::DoEnqueueOutgoingMessage() %p\n", this));
MOZ_ASSERT(mIOThread->IsOnCurrentThread(), "not on right thread");
if (!mCurrentOut) {
PrimeNewOutgoingMessage();
}
while (mCurrentOut && mConnection) {
nsresult rv = NS_OK;
if (mCurrentOut->Length() - mCurrentOutSent == 0) {
LOG(
("WebSocketChannel::DoEnqueueOutgoingMessage: "
"Try to send %u of hdr/copybreak\n",
mHdrOutToSend));
rv = mConnection->WriteOutputData(mOutHeader, mHdrOutToSend, nullptr, 0);
} else {
LOG(
("WebSocketChannel::DoEnqueueOutgoingMessage: "
"Try to send %u of hdr and %u of data\n",
mHdrOutToSend, mCurrentOut->Length()));
rv = mConnection->WriteOutputData(mOutHeader, mHdrOutToSend,
(uint8_t*)mCurrentOut->BeginReading(),
mCurrentOut->Length());
}
LOG(("WebSocketChannel::DoEnqueueOutgoingMessage: rv %" PRIx32 "\n",
static_cast<uint32_t>(rv)));
if (NS_FAILED(rv)) {
AbortSession(rv);
return;
}
if (!mStopped) {
// TODO: Currently, we assume that data is completely written to the
// socket after sending it to socket process, but it's not true. The data
// could be queued in socket process and waiting for the socket to be able
// to write. We should implement flow control for this in bug 1726552.
if (nsCOMPtr<nsIEventTarget> target = GetTargetThread()) {
target->Dispatch(new CallAcknowledge(this, mCurrentOut->OrigLength()),
NS_DISPATCH_NORMAL);
} else {
AbortSession(NS_ERROR_UNEXPECTED);
return;
}
}
DeleteCurrentOutGoingMessage();
PrimeNewOutgoingMessage();
}
if (mReleaseOnTransmit) {
ReleaseSession();
}
}
void WebSocketChannel::OnError(nsresult aStatus) { AbortSession(aStatus); }
void WebSocketChannel::OnTCPClosed() { mTCPClosed = true; }
nsresult WebSocketChannel::OnDataReceived(uint8_t* aData, uint32_t aCount) {
return ProcessInput(aData, aCount);
}
} // namespace net
} // namespace mozilla
#undef CLOSE_GOING_AWAY
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