/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* 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 mozilla_net_ASpdySession_h #define mozilla_net_ASpdySession_h #include "nsAHttpTransaction.h" #include "prinrval.h" #include "nsString.h" class nsISocketTransport; namespace mozilla { namespace net { class ASpdySession : public nsAHttpTransaction { public: ASpdySession(); virtual ~ASpdySession(); virtual bool AddStream(nsAHttpTransaction *, int32_t, bool, nsIInterfaceRequestor *) = 0; virtual bool CanReuse() = 0; virtual bool RoomForMoreStreams() = 0; virtual PRIntervalTime IdleTime() = 0; virtual uint32_t ReadTimeoutTick(PRIntervalTime now) = 0; virtual void DontReuse() = 0; static ASpdySession *NewSpdySession(uint32_t version, nsISocketTransport *); // MaybeReTunnel() is called by the connection manager when it cannot // dispatch a tunneled transaction. That might be because the tunnels it // expects to see are dead (and we may or may not be able to make more), // or it might just need to wait longer for one of them to become free. // // return true if the session takes back ownership of the transaction from // the connection manager. virtual bool MaybeReTunnel(nsAHttpTransaction *) = 0; virtual void PrintDiagnostics (nsCString &log) = 0; bool ResponseTimeoutEnabled() const override final { return true; } virtual void SendPing() = 0; const static uint32_t kSendingChunkSize = 4095; const static uint32_t kTCPSendBufferSize = 131072; // This is roughly the amount of data a suspended channel will have to // buffer before h2 flow control kicks in. const static uint32_t kInitialRwin = 12 * 1024 * 1024; // 12MB const static uint32_t kDefaultMaxConcurrent = 100; // soft errors are errors that terminate a stream without terminating the // connection. In general non-network errors are stream errors as well // as network specific items like cancels. bool SoftStreamError(nsresult code) { if (NS_SUCCEEDED(code) || code == NS_BASE_STREAM_WOULD_BLOCK) { return false; } // this could go either way, but because there are network instances of // it being a hard error we should consider it hard. if (code == NS_ERROR_FAILURE) { return false; } if (NS_ERROR_GET_MODULE(code) != NS_ERROR_MODULE_NETWORK) { return true; } // these are network specific soft errors return (code == NS_BASE_STREAM_CLOSED || code == NS_BINDING_FAILED || code == NS_BINDING_ABORTED || code == NS_BINDING_REDIRECTED || code == NS_ERROR_INVALID_CONTENT_ENCODING || code == NS_BINDING_RETARGETED || code == NS_ERROR_CORRUPTED_CONTENT); } }; typedef bool (*ALPNCallback) (nsISupports *); // nsISSLSocketControl is typical // this is essentially a single instantiation as a member of nsHttpHandler. // It could be all static except using static ctors of XPCOM objects is a // bad idea. class SpdyInformation { public: SpdyInformation(); ~SpdyInformation() {} static const uint32_t kCount = 2; // determine the index (0..kCount-1) of the spdy information that // correlates to the npn string. NS_FAILED() if no match is found. nsresult GetNPNIndex(const nsACString &npnString, uint32_t *result) const; // determine if a version of the protocol is enabled for index < kCount bool ProtocolEnabled(uint32_t index) const; uint8_t Version[kCount]; // telemetry enum e.g. SPDY_VERSION_31 nsCString VersionString[kCount]; // npn string e.g. "spdy/3.1" // the ALPNCallback function allows the protocol stack to decide whether or // not to offer a particular protocol based on the known TLS information // that we will offer in the client hello (such as version). There has // not been a Server Hello received yet, so not much else can be considered. // Stacks without restrictions can just use SpdySessionTrue() ALPNCallback ALPNCallbacks[kCount]; }; } // namespace net } // namespace mozilla #endif // mozilla_net_ASpdySession_h