/usr/include/repro/ResponseContext.hxx is in libresiprocate-1.9-dev 1.9.6-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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#define RESIP_RESPONSE_CONTEXT_HXX
#include <iosfwd>
#include <map>
#include <list>
#include "rutil/HashMap.hxx"
#include "resip/stack/NameAddr.hxx"
#include "resip/stack/SipMessage.hxx"
#include "resip/stack/Via.hxx"
#include "resip/stack/Uri.hxx"
#include "resip/stack/MessageDecorator.hxx"
#include "repro/Target.hxx"
#include "rutil/resipfaststreams.hxx"
namespace resip
{
class SipMessage;
class Transport;
}
namespace repro
{
class RequestContext;
class ResponseContext
{
public:
class CompareStatus : public std::binary_function<const resip::SipMessage&, const resip::SipMessage&, bool>
{
public:
bool operator()(const resip::SipMessage& lhs, const resip::SipMessage& rhs) const;
};
~ResponseContext();
/**
Adds this Target as a SimpleTarget to the collection of Targets.
@param target The NameAdder used to form the Target to add.
@param beginImmediately Whether to immediately start a transaction for this target.
@returns tid of the newly added target
@note Targets are not checked for duplicate uris until an attempt is made to begin them.
*/
resip::Data addTarget(const resip::NameAddr& target, bool beginImmediately=false);
/**
Adds this Target to the collection of Targets.
@param target The Target to add.
@param beginImmediately Whether to immediately start a transaction
for this target.
@returns If beginImmediately=false, true iff the Target was
successfully added (could happen if a final response has already
been forwarded). If beginImmediately=true, true iff a transaction
was successfully started for the Target (could fail due to the
presence of a duplicate contact, or when a final response has
already been forwarded.)
@note Targets are not checked for duplicate uris until an attempt
is made to start them.
*/
bool addTarget(std::auto_ptr<repro::Target> target, bool beginImmediately=false);
/**
Adds a batch of Targets.
@note RESPONSECONTEXT ASSUMES OWNERSHIP OF THE TARGETS POINTED
TO IN THIS LIST!
@param targets A list of (sorted) Target*. This list is consumed.
@param highPriority Whether or not the Target ProccessorChain should
prioritize this batch above other batches of the same type.
(This is primarily intended to let multiple recursive redirection
work properly, but can be used for other purposes.)
@returns true iff any Targets were added.
@note It is assumed that all of these Targets are
the same subclass of Target, and that they are already sorted in the
order of their priority. If these assumptions do not hold, things
will not break per se, but oddball target processing behavior might
result.
*/
bool addTargetBatch(TargetPtrList& targets, bool highPriority=false);
/**
Begins all Candidate client transactions.
@returns true iff any transactions were started
*/
bool beginClientTransactions();
/**
Begins a client transaction.
@param serial The transaction id to start.
@returns true iff the transaction was started (could fail if there was
a duplicate contact)
*/
bool beginClientTransaction(const resip::Data& serial);
/**
Cancels all active client transactions. Does not clear Candidate
transactions.
@returns true iff any transaction was placed in either the
WaitingToCancel or Cancelled state.
*/
bool cancelActiveClientTransactions();
/**
Cancels all active client transactions. Also clears Candidate
transactions (they are transitioned directly to Terminated)
@returns true iff any transaction was placed in either the
WaitingToCancel, Cancelled, or Terminated state.
*/
bool cancelAllClientTransactions();
/**
Removes all Candidate transactions.
@returns true iff at least one Candidate transaction was removed.
*/
bool clearCandidateTransactions();
/**
Cancels this client transaction if active, or Terminates it if
Candidate.
@returns true iff this transaction was placed in either the
WaitingToCancel, Cancelled, or Terminated state.
*/
bool cancelClientTransaction(const resip::Data& serial);
/**
Self-explanatory
*/
Target* getTarget(const resip::Data& serial) const;
//Keyed by transaction id
typedef std::map<resip::Data,repro::Target*> TransactionMap;
/**
Self-explanatory.
@note Can be used to decide which targets should be processed next,
although this assumes a great deal of interdependency btw
the various processor chains and homogeneity in how the Targets are
prioritized, and can be inefficient if there
are large numbers of Candidate Targets. A more structured approach
exists in the functions dealing with TransactionBatch.
*/
const TransactionMap& getCandidateTransactionMap() const;
/**
@returns true iff there are Candidate targets
*/
bool hasCandidateTransactions() const;
/**
@returns true iff there are active targets (in state Trying,
Proceeding, WaitingForCancel or Cancelled)
*/
bool hasActiveTransactions() const;
/**
@returns true iff there are Terminated targets.
*/
bool hasTerminatedTransactions() const;
bool hasTargets() const;
/**
@returns true iff this target is in state Candidate
*/
bool isCandidate(const resip::Data& tid) const;
/**
@returns true iff this target is active (Trying, Proceeding,
WaitingForCancel, or Cancelled)
*/
bool isActive(const resip::Data& tid) const;
/**
@returns true iff this target is in state Terminated
*/
bool isTerminated(const resip::Data& tid) const;
/**
@returns true iff all targets are in state Terminated
*/
bool areAllTransactionsTerminated() const;
int getPriority(const resip::SipMessage& msg);
//!bwc! This should probably not be private, since these two classes are
//tightly coupled.
RequestContext& mRequestContext;
std::list<std::list<resip::Data> > mTransactionQueueCollection;
resip::Data mCurrentResponseTid;
private:
// only constructed by RequestContext
ResponseContext(RequestContext& parent);
// These methods are really private. These are not intended to be used
// by anything other than RequestContext or ResponseContext.
// call this from RequestContext when a CANCEL comes in
void processCancel(const resip::SipMessage& request);
// call this from RequestContext after the lemur chain for any response
void processResponse(resip::SipMessage& response);
void processTimerC();
void beginClientTransaction(repro::Target* target);
void cancelClientTransaction(repro::Target* target);
void terminateClientTransaction(const resip::Data& tid);
void removeClientTransaction(const resip::Data& transactionId);
//There is no terminateClientTransaction(Target target) since terminating
//a branch is very simple. The guts can be found in the API functions.
void insertRecordRoute(resip::SipMessage& outgoing,
const resip::Transport* receivedTransport,
Target* target,
bool doPathInstead=false);
resip::Data getInboundFlowToken(bool doPathInstead);
bool outboundFlowTokenNeeded(Target* target);
bool needsFlowTokenToWork(const resip::NameAddr& contact) const;
bool sendingToSelf(Target* target);
void sendRequest(resip::SipMessage& request);
TransactionMap mCandidateTransactionMap; //Targets with status Candidate.
TransactionMap mActiveTransactionMap; //Targets with status Trying, Proceeding, or WaitingToCancel.
TransactionMap mTerminatedTransactionMap; //Targets with status Terminated.
//Maybe someday canonicalized Uris will go here, and checking for duplicates
//will be much faster
resip::ContactList mTargetList;
bool isDuplicate(const repro::Target* target) const;
resip::SipMessage mBestResponse;
int mBestPriority;
bool mSecure;
bool mIsClientBehindNAT; // Only set if InteropHelper::getClientNATDetectionEnabled() is true
void forwardBestResponse();
friend class RequestContext;
friend EncodeStream& operator<<(EncodeStream& strm, const repro::ResponseContext& rc);
};
EncodeStream&
operator<<(EncodeStream& strm, const repro::ResponseContext& rc);
}
#endif
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