gecko-dev/netwerk/protocol/http/nsAHttpConnection.h

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C++

/* 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 nsAHttpConnection_h__
#define nsAHttpConnection_h__
#include "nsISupports.h"
#include "nsAHttpTransaction.h"
class nsHttpRequestHead;
class nsHttpResponseHead;
class nsHttpConnectionInfo;
class nsHttpConnection;
class nsISocketTransport;
class nsIAsyncInputStream;
class nsIAsyncOutputStream;
//-----------------------------------------------------------------------------
// Abstract base class for a HTTP connection
//-----------------------------------------------------------------------------
class nsAHttpConnection : public nsISupports
{
public:
//-------------------------------------------------------------------------
// NOTE: these methods may only be called on the socket thread.
//-------------------------------------------------------------------------
//
// called by a transaction when the response headers have all been read.
// the connection can force the transaction to reset it's response headers,
// and prepare for a new set of response headers, by setting |*reset=TRUE|.
//
// @return failure code to close the transaction.
//
virtual nsresult OnHeadersAvailable(nsAHttpTransaction *,
nsHttpRequestHead *,
nsHttpResponseHead *,
bool *reset) = 0;
//
// called by a transaction to resume either sending or receiving data
// after a transaction returned NS_BASE_STREAM_WOULD_BLOCK from its
// ReadSegments/WriteSegments methods.
//
virtual nsresult ResumeSend() = 0;
virtual nsresult ResumeRecv() = 0;
// called by a transaction to force a "read from network" iteration
// even if not scheduled by socket associated with connection
virtual nsresult ForceRecv() = 0;
// After a connection has had ResumeSend() called by a transaction,
// and it is ready to write to the network it may need to know the
// transaction that has data to write. This is only an issue for
// multiplexed protocols like SPDY - plain HTTP or pipelined HTTP
// implicitly have this information in a 1:1 relationship with the
// transaction(s) they manage.
virtual void TransactionHasDataToWrite(nsAHttpTransaction *)
{
// by default do nothing - only multiplexed protocols need to overload
return;
}
//
// called by the connection manager to close a transaction being processed
// by this connection.
//
// @param transaction
// the transaction being closed.
// @param reason
// the reason for closing the transaction. NS_BASE_STREAM_CLOSED
// is equivalent to NS_OK.
//
virtual void CloseTransaction(nsAHttpTransaction *transaction,
nsresult reason) = 0;
// get a reference to the connection's connection info object.
virtual void GetConnectionInfo(nsHttpConnectionInfo **) = 0;
// get the transport level information for this connection. This may fail
// if it is in use.
virtual nsresult TakeTransport(nsISocketTransport **,
nsIAsyncInputStream **,
nsIAsyncOutputStream **) = 0;
// called by a transaction to get the security info from the socket.
virtual void GetSecurityInfo(nsISupports **) = 0;
// called by a transaction to determine whether or not the connection is
// persistent... important in determining the end of a response.
virtual bool IsPersistent() = 0;
// called to determine or set if a connection has been reused.
virtual bool IsReused() = 0;
virtual void DontReuse() = 0;
// called by a transaction when the transaction reads more from the socket
// than it should have (eg. containing part of the next pipelined response).
virtual nsresult PushBack(const char *data, uint32_t length) = 0;
// Used to determine if the connection wants read events even though
// it has not written out a transaction. Used when a connection has issued
// a preamble such as a proxy ssl CONNECT sequence.
virtual bool IsProxyConnectInProgress() = 0;
// Used by a transaction to manage the state of previous response bodies on
// the same connection and work around buggy servers.
virtual bool LastTransactionExpectedNoContent() = 0;
virtual void SetLastTransactionExpectedNoContent(bool) = 0;
// Transfer the base http connection object along with a
// reference to it to the caller.
virtual nsHttpConnection *TakeHttpConnection() = 0;
// Get the nsISocketTransport used by the connection without changing
// references or ownership.
virtual nsISocketTransport *Transport() = 0;
// Cancel and reschedule transactions deeper than the current response.
// Returns the number of canceled transactions.
virtual uint32_t CancelPipeline(nsresult originalReason) = 0;
// Read and write class of transaction that is carried on this connection
virtual nsAHttpTransaction::Classifier Classification() = 0;
virtual void Classify(nsAHttpTransaction::Classifier newclass) = 0;
// The number of transaction bytes written out on this HTTP Connection, does
// not count CONNECT tunnel setup
virtual int64_t BytesWritten() = 0;
// Update the callbacks used to provide security info. May be called on
// any thread.
virtual void SetSecurityCallbacks(nsIInterfaceRequestor* aCallbacks) = 0;
};
#define NS_DECL_NSAHTTPCONNECTION(fwdObject) \
nsresult OnHeadersAvailable(nsAHttpTransaction *, nsHttpRequestHead *, nsHttpResponseHead *, bool *reset); \
void CloseTransaction(nsAHttpTransaction *, nsresult); \
nsresult TakeTransport(nsISocketTransport **, \
nsIAsyncInputStream **, \
nsIAsyncOutputStream **); \
bool IsPersistent(); \
bool IsReused(); \
void DontReuse(); \
nsresult PushBack(const char *, uint32_t); \
nsHttpConnection *TakeHttpConnection(); \
uint32_t CancelPipeline(nsresult originalReason); \
nsAHttpTransaction::Classifier Classification(); \
/* \
Thes methods below have automatic definitions that just forward the \
function to a lower level connection object \
*/ \
void GetConnectionInfo(nsHttpConnectionInfo **result) \
{ \
if (!(fwdObject)) { \
*result = nullptr; \
return; \
} \
return (fwdObject)->GetConnectionInfo(result); \
} \
void GetSecurityInfo(nsISupports **result) \
{ \
if (!(fwdObject)) { \
*result = nullptr; \
return; \
} \
return (fwdObject)->GetSecurityInfo(result); \
} \
nsresult ResumeSend() \
{ \
if (!(fwdObject)) \
return NS_ERROR_FAILURE; \
return (fwdObject)->ResumeSend(); \
} \
nsresult ResumeRecv() \
{ \
if (!(fwdObject)) \
return NS_ERROR_FAILURE; \
return (fwdObject)->ResumeRecv(); \
} \
nsresult ForceRecv() \
{ \
if (!(fwdObject)) \
return NS_ERROR_FAILURE; \
return (fwdObject)->ForceRecv(); \
} \
nsISocketTransport *Transport() \
{ \
if (!(fwdObject)) \
return nullptr; \
return (fwdObject)->Transport(); \
} \
bool IsProxyConnectInProgress() \
{ \
return (fwdObject)->IsProxyConnectInProgress(); \
} \
bool LastTransactionExpectedNoContent() \
{ \
return (fwdObject)->LastTransactionExpectedNoContent(); \
} \
void SetLastTransactionExpectedNoContent(bool val) \
{ \
return (fwdObject)->SetLastTransactionExpectedNoContent(val); \
} \
void Classify(nsAHttpTransaction::Classifier newclass) \
{ \
if (fwdObject) \
return (fwdObject)->Classify(newclass); \
} \
int64_t BytesWritten() \
{ return fwdObject ? (fwdObject)->BytesWritten() : 0; } \
void SetSecurityCallbacks(nsIInterfaceRequestor* aCallbacks) \
{ \
if (fwdObject) \
(fwdObject)->SetSecurityCallbacks(aCallbacks); \
}
#endif // nsAHttpConnection_h__