gecko-dev/netwerk/protocol/http/nsHttpConnection.h
Dragana Damjanovic dd.mozilla@gmail.com ef19d6d0f4 Bug 1296288 - Add telemetry for TLS early-data. r=mcmanus
--HG--
extra : rebase_source : 0d62e936d2af4de539802dff046a3b8453e4d9c6
2016-09-13 02:32:00 -04:00

379 lines
15 KiB
C++

/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/* 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/. */
#ifndef nsHttpConnection_h__
#define nsHttpConnection_h__
#include "nsHttpConnectionInfo.h"
#include "nsHttpResponseHead.h"
#include "nsAHttpTransaction.h"
#include "nsCOMPtr.h"
#include "nsAutoPtr.h"
#include "nsProxyRelease.h"
#include "prinrval.h"
#include "TunnelUtils.h"
#include "mozilla/Mutex.h"
#include "ARefBase.h"
#include "nsIAsyncInputStream.h"
#include "nsIAsyncOutputStream.h"
#include "nsIInterfaceRequestor.h"
#include "nsITimer.h"
class nsISocketTransport;
class nsISSLSocketControl;
namespace mozilla {
namespace net {
class nsHttpHandler;
class ASpdySession;
//-----------------------------------------------------------------------------
// nsHttpConnection - represents a connection to a HTTP server (or proxy)
//
// NOTE: this objects lives on the socket thread only. it should not be
// accessed from any other thread.
//-----------------------------------------------------------------------------
class nsHttpConnection final : public nsAHttpSegmentReader
, public nsAHttpSegmentWriter
, public nsIInputStreamCallback
, public nsIOutputStreamCallback
, public nsITransportEventSink
, public nsIInterfaceRequestor
, public NudgeTunnelCallback
, public ARefBase
{
virtual ~nsHttpConnection();
public:
NS_DECL_THREADSAFE_ISUPPORTS
NS_DECL_NSAHTTPSEGMENTREADER
NS_DECL_NSAHTTPSEGMENTWRITER
NS_DECL_NSIINPUTSTREAMCALLBACK
NS_DECL_NSIOUTPUTSTREAMCALLBACK
NS_DECL_NSITRANSPORTEVENTSINK
NS_DECL_NSIINTERFACEREQUESTOR
NS_DECL_NUDGETUNNELCALLBACK
nsHttpConnection();
// Initialize the connection:
// info - specifies the connection parameters.
// maxHangTime - limits the amount of time this connection can spend on a
// single transaction before it should no longer be kept
// alive. a value of 0xffff indicates no limit.
nsresult Init(nsHttpConnectionInfo *info, uint16_t maxHangTime,
nsISocketTransport *, nsIAsyncInputStream *,
nsIAsyncOutputStream *, bool connectedTransport,
nsIInterfaceRequestor *, PRIntervalTime);
// Activate causes the given transaction to be processed on this
// connection. It fails if there is already an existing transaction unless
// a multiplexing protocol such as SPDY is being used
nsresult Activate(nsAHttpTransaction *, uint32_t caps, int32_t pri);
// Close the underlying socket transport.
void Close(nsresult reason, bool aIsShutdown = false);
//-------------------------------------------------------------------------
// XXX document when these are ok to call
bool SupportsPipelining();
bool IsKeepAlive()
{
return mUsingSpdyVersion || (mKeepAliveMask && mKeepAlive);
}
bool CanReuse(); // can this connection be reused?
bool CanDirectlyActivate();
// Returns time in seconds for how long connection can be reused.
uint32_t TimeToLive();
void DontReuse();
bool IsProxyConnectInProgress()
{
return mProxyConnectInProgress;
}
bool LastTransactionExpectedNoContent()
{
return mLastTransactionExpectedNoContent;
}
void SetLastTransactionExpectedNoContent(bool val)
{
mLastTransactionExpectedNoContent = val;
}
bool NeedSpdyTunnel()
{
return mConnInfo->UsingHttpsProxy() && !mTLSFilter && mConnInfo->UsingConnect();
}
// A connection is forced into plaintext when it is intended to be used as a CONNECT
// tunnel but the setup fails. The plaintext only carries the CONNECT error.
void ForcePlainText()
{
mForcePlainText = true;
}
nsISocketTransport *Transport() { return mSocketTransport; }
nsAHttpTransaction *Transaction() { return mTransaction; }
nsHttpConnectionInfo *ConnectionInfo() { return mConnInfo; }
// nsAHttpConnection compatible methods (non-virtual):
nsresult OnHeadersAvailable(nsAHttpTransaction *, nsHttpRequestHead *, nsHttpResponseHead *, bool *reset);
void CloseTransaction(nsAHttpTransaction *, nsresult reason);
void GetConnectionInfo(nsHttpConnectionInfo **ci) { NS_IF_ADDREF(*ci = mConnInfo); }
nsresult TakeTransport(nsISocketTransport **,
nsIAsyncInputStream **,
nsIAsyncOutputStream **);
void GetSecurityInfo(nsISupports **);
bool IsPersistent() { return IsKeepAlive() && !mDontReuse; }
bool IsReused();
void SetIsReusedAfter(uint32_t afterMilliseconds);
nsresult PushBack(const char *data, uint32_t length);
nsresult ResumeSend();
nsresult ResumeRecv();
int64_t MaxBytesRead() {return mMaxBytesRead;}
uint8_t GetLastHttpResponseVersion() { return mLastHttpResponseVersion; }
friend class HttpConnectionForceIO;
nsresult ForceSend();
nsresult ForceRecv();
static nsresult ReadFromStream(nsIInputStream *, void *, const char *,
uint32_t, uint32_t, uint32_t *);
// When a persistent connection is in the connection manager idle
// connection pool, the nsHttpConnection still reads errors and hangups
// on the socket so that it can be proactively released if the server
// initiates a termination. Only call on socket thread.
void BeginIdleMonitoring();
void EndIdleMonitoring();
bool UsingSpdy() { return !!mUsingSpdyVersion; }
uint8_t GetSpdyVersion() { return mUsingSpdyVersion; }
bool EverUsedSpdy() { return mEverUsedSpdy; }
PRIntervalTime Rtt() { return mRtt; }
// true when connection SSL NPN phase is complete and we know
// authoritatively whether UsingSpdy() or not.
bool ReportedNPN() { return mReportedSpdy; }
// When the connection is active this is called up to once every 1 second
// return the interval (in seconds) that the connection next wants to
// have this invoked. It might happen sooner depending on the needs of
// other connections.
uint32_t ReadTimeoutTick(PRIntervalTime now);
// For Active and Idle connections, this will be called when
// mTCPKeepaliveTransitionTimer fires, to check if the TCP keepalive config
// should move from short-lived (fast-detect) to long-lived.
static void UpdateTCPKeepalive(nsITimer *aTimer, void *aClosure);
nsAHttpTransaction::Classifier Classification() { return mClassification; }
void Classify(nsAHttpTransaction::Classifier newclass)
{
mClassification = newclass;
}
// When the connection is active this is called every second
void ReadTimeoutTick();
int64_t BytesWritten() { return mTotalBytesWritten; } // includes TLS
int64_t ContentBytesWritten() { return mContentBytesWritten; }
void SetSecurityCallbacks(nsIInterfaceRequestor* aCallbacks);
void PrintDiagnostics(nsCString &log);
void SetTransactionCaps(uint32_t aCaps) { mTransactionCaps = aCaps; }
// IsExperienced() returns true when the connection has started at least one
// non null HTTP transaction of any version.
bool IsExperienced() { return mExperienced; }
static nsresult MakeConnectString(nsAHttpTransaction *trans,
nsHttpRequestHead *request,
nsACString &result);
void SetupSecondaryTLS();
void SetInSpdyTunnel(bool arg);
// Check active connections for traffic (or not). SPDY connections send a
// ping, ordinary HTTP connections get some time to get traffic to be
// considered alive.
void CheckForTraffic(bool check);
// NoTraffic() returns true if there's been no traffic on the (non-spdy)
// connection since CheckForTraffic() was called.
bool NoTraffic() {
return mTrafficStamp &&
(mTrafficCount == (mTotalBytesWritten + mTotalBytesRead));
}
// override of nsAHttpConnection
virtual uint32_t Version();
private:
// Value (set in mTCPKeepaliveConfig) indicates which set of prefs to use.
enum TCPKeepaliveConfig {
kTCPKeepaliveDisabled = 0,
kTCPKeepaliveShortLivedConfig,
kTCPKeepaliveLongLivedConfig
};
// called to cause the underlying socket to start speaking SSL
nsresult InitSSLParams(bool connectingToProxy, bool ProxyStartSSL);
nsresult SetupNPNList(nsISSLSocketControl *ssl, uint32_t caps);
nsresult OnTransactionDone(nsresult reason);
nsresult OnSocketWritable();
nsresult OnSocketReadable();
nsresult SetupProxyConnect();
PRIntervalTime IdleTime();
bool IsAlive();
bool SupportsPipelining(nsHttpResponseHead *);
// Makes certain the SSL handshake is complete and NPN negotiation
// has had a chance to happen
bool EnsureNPNComplete(nsresult &aOut0RTTWriteHandshakeValue,
uint32_t &aOut0RTTBytesWritten);
void SetupSSL();
// Start the Spdy transaction handler when NPN indicates spdy/*
void StartSpdy(uint8_t versionLevel);
// Directly Add a transaction to an active connection for SPDY
nsresult AddTransaction(nsAHttpTransaction *, int32_t);
// Used to set TCP keepalives for fast detection of dead connections during
// an initial period, and slower detection for long-lived connections.
nsresult StartShortLivedTCPKeepalives();
nsresult StartLongLivedTCPKeepalives();
nsresult DisableTCPKeepalives();
private:
nsCOMPtr<nsISocketTransport> mSocketTransport;
nsCOMPtr<nsIAsyncInputStream> mSocketIn;
nsCOMPtr<nsIAsyncOutputStream> mSocketOut;
nsresult mSocketInCondition;
nsresult mSocketOutCondition;
nsCOMPtr<nsIInputStream> mProxyConnectStream;
nsCOMPtr<nsIInputStream> mRequestStream;
// mTransaction only points to the HTTP Transaction callbacks if the
// transaction is open, otherwise it is null.
RefPtr<nsAHttpTransaction> mTransaction;
RefPtr<TLSFilterTransaction> mTLSFilter;
RefPtr<nsHttpHandler> mHttpHandler; // keep gHttpHandler alive
Mutex mCallbacksLock;
nsMainThreadPtrHandle<nsIInterfaceRequestor> mCallbacks;
RefPtr<nsHttpConnectionInfo> mConnInfo;
PRIntervalTime mLastReadTime;
PRIntervalTime mLastWriteTime;
PRIntervalTime mMaxHangTime; // max download time before dropping keep-alive status
PRIntervalTime mIdleTimeout; // value of keep-alive: timeout=
PRIntervalTime mConsiderReusedAfterInterval;
PRIntervalTime mConsiderReusedAfterEpoch;
int64_t mCurrentBytesRead; // data read per activation
int64_t mMaxBytesRead; // max read in 1 activation
int64_t mTotalBytesRead; // total data read
int64_t mTotalBytesWritten; // does not include CONNECT tunnel
int64_t mContentBytesWritten; // does not include CONNECT tunnel or TLS
RefPtr<nsIAsyncInputStream> mInputOverflow;
PRIntervalTime mRtt;
bool mConnectedTransport;
bool mKeepAlive;
bool mKeepAliveMask;
bool mDontReuse;
bool mSupportsPipelining;
bool mIsReused;
bool mCompletedProxyConnect;
bool mLastTransactionExpectedNoContent;
bool mIdleMonitoring;
bool mProxyConnectInProgress;
bool mExperienced;
bool mInSpdyTunnel;
bool mForcePlainText;
// A snapshot of current number of transfered bytes
int64_t mTrafficCount;
bool mTrafficStamp; // true then the above is set
// The number of <= HTTP/1.1 transactions performed on this connection. This
// excludes spdy transactions.
uint32_t mHttp1xTransactionCount;
// Keep-Alive: max="mRemainingConnectionUses" provides the number of future
// transactions (including the current one) that the server expects to allow
// on this persistent connection.
uint32_t mRemainingConnectionUses;
nsAHttpTransaction::Classifier mClassification;
// SPDY related
bool mNPNComplete;
bool mSetupSSLCalled;
// version level in use, 0 if unused
uint8_t mUsingSpdyVersion;
RefPtr<ASpdySession> mSpdySession;
int32_t mPriority;
bool mReportedSpdy;
// mUsingSpdyVersion is cleared when mSpdySession is freed, this is permanent
bool mEverUsedSpdy;
// mLastHttpResponseVersion stores the last response's http version seen.
uint8_t mLastHttpResponseVersion;
// The capabailities associated with the most recent transaction
uint32_t mTransactionCaps;
bool mResponseTimeoutEnabled;
// Flag to indicate connection is in inital keepalive period (fast detect).
uint32_t mTCPKeepaliveConfig;
nsCOMPtr<nsITimer> mTCPKeepaliveTransitionTimer;
private:
// For ForceSend()
static void ForceSendIO(nsITimer *aTimer, void *aClosure);
nsresult MaybeForceSendIO();
bool mForceSendPending;
nsCOMPtr<nsITimer> mForceSendTimer;
// Helper variable for 0RTT handshake;
bool m0RTTChecked; // Possible 0RTT has been
// checked.
bool mWaitingFor0RTTResponse; // We have are
// sending 0RTT
// data and we
// are waiting
// for the end of
// the handsake.
int64_t mContentBytesWritten0RTT;
bool mEarlyDataNegotiated; //Only used for telemetry
};
} // namespace net
} // namespace mozilla
#endif // nsHttpConnection_h__