/* * Copyright (C) 1996-2017 The Squid Software Foundation and contributors * * Squid software is distributed under GPLv2+ license and includes * contributions from numerous individuals and organizations. * Please see the COPYING and CONTRIBUTORS files for details. */ #ifndef SQUID_COMMCALLS_H #define SQUID_COMMCALLS_H #include "base/AsyncCall.h" #include "base/AsyncJobCalls.h" #include "comm/Flag.h" #include "comm/forward.h" #include "MasterXaction.h" /* CommCalls implement AsyncCall interface for comm_* callbacks. * The classes cover two call dialer kinds: * - A C-style call using a function pointer (depricated); * - A C++-style call to an AsyncJob child. * and several comm_* callback kinds: * - accept (IOACB) * - connect (CNCB) * - I/O (IOCB) * - timeout (CTCB) * - close (CLCB) * and a special callback kind for passing pipe FD, disk FD or fd_table index 'FD' to the handler: * - FD passing callback (FDECB) */ class CommAcceptCbParams; typedef void IOACB(const CommAcceptCbParams ¶ms); typedef void CNCB(const Comm::ConnectionPointer &conn, Comm::Flag status, int xerrno, void *data); typedef void IOCB(const Comm::ConnectionPointer &conn, char *, size_t size, Comm::Flag flag, int xerrno, void *data); class CommTimeoutCbParams; typedef void CTCB(const CommTimeoutCbParams ¶ms); class CommCloseCbParams; typedef void CLCB(const CommCloseCbParams ¶ms); class FdeCbParams; typedef void FDECB(const FdeCbParams ¶ms); /* * TODO: When there are no function-pointer-based callbacks left, all * this complexity can be removed. Jobs that need comm services will just * implement CommReader, CommWriter, etc. interfaces and receive calls * using general (not comm-specific) AsyncCall code. For now, we have to * allow the caller to create a callback that comm can modify to set * parameters, which is not trivial when the caller type/kind is not * known to comm and there are many kinds of parameters. */ /* Comm*CbParams classes below handle callback parameters */ // Maintains parameters common to all comm callbacks class CommCommonCbParams { public: CommCommonCbParams(void *aData); CommCommonCbParams(const CommCommonCbParams ¶ms); ~CommCommonCbParams(); /// adjust using the current Comm state; returns false to cancel the call // not virtual because callers know dialer type bool syncWithComm() { return true; } void print(std::ostream &os) const; public: void *data; // cbdata-protected /** The connection which this call pertains to. * - On accept() calls this is the new client connection. * - On connect() finished calls this is the newely opened connection. * - On write calls this is the connection just written to. * - On read calls this is the connection just read from. * - On close calls this describes the connection which is now closed. * - On timeouts this is the connection whose operation timed out. * + NP: timeouts might also return to the connect/read/write handler with Comm::TIMEOUT. */ Comm::ConnectionPointer conn; Comm::Flag flag; ///< comm layer result status. int xerrno; ///< The last errno to occur. non-zero if flag is Comm::COMM_ERROR. int fd; ///< FD which the call was about. Set by the async call creator. private: // should not be needed and not yet implemented CommCommonCbParams &operator =(const CommCommonCbParams ¶ms); }; // accept parameters class CommAcceptCbParams: public CommCommonCbParams { public: CommAcceptCbParams(void *aData); void print(std::ostream &os) const; /// Transaction which this call is part of. MasterXaction::Pointer xaction; }; // connect parameters class CommConnectCbParams: public CommCommonCbParams { public: CommConnectCbParams(void *aData); bool syncWithComm(); // see CommCommonCbParams::syncWithComm }; // read/write (I/O) parameters class CommIoCbParams: public CommCommonCbParams { public: CommIoCbParams(void *aData); void print(std::ostream &os) const; bool syncWithComm(); // see CommCommonCbParams::syncWithComm public: char *buf; size_t size; }; // close parameters class CommCloseCbParams: public CommCommonCbParams { public: CommCloseCbParams(void *aData); }; class CommTimeoutCbParams: public CommCommonCbParams { public: CommTimeoutCbParams(void *aData); }; /// Special Calls parameter, for direct use of an FD without a controlling Comm::Connection /// This is used for pipe() FD with helpers, and internally by Comm when handling some special FD actions. class FdeCbParams: public CommCommonCbParams { public: FdeCbParams(void *aData); // TODO make this a standalone object with FD value and pointer to fde table entry. // that requires all the existing Comm handlers to be updated first though }; // Interface to expose comm callback parameters of all comm dialers. // GetCommParams() uses this interface to access comm parameters. template class CommDialerParamsT { public: typedef Params_ Params; CommDialerParamsT(const Params &io): params(io) {} public: Params params; }; // Get comm params of an async comm call template Params &GetCommParams(AsyncCall::Pointer &call) { typedef CommDialerParamsT DialerParams; DialerParams *dp = dynamic_cast(call->getDialer()); assert(dp); return dp->params; } // All job dialers with comm parameters are merged into one since they // all have exactly one callback argument and differ in Params type only template class CommCbMemFunT: public JobDialer, public CommDialerParamsT { public: typedef Params_ Params; typedef void (C::*Method)(const Params &io); CommCbMemFunT(const CbcPointer &aJob, Method aMeth): JobDialer(aJob), CommDialerParamsT(aJob->toCbdata()), method(aMeth) {} virtual bool canDial(AsyncCall &c) { return JobDialer::canDial(c) && this->params.syncWithComm(); } virtual void print(std::ostream &os) const { os << '('; this->params.print(os); os << ')'; } public: Method method; protected: virtual void doDial() { ((&(*this->job))->*method)(this->params); } }; // accept (IOACB) dialer class CommAcceptCbPtrFun: public CallDialer, public CommDialerParamsT { public: typedef CommAcceptCbParams Params; typedef RefCount Pointer; CommAcceptCbPtrFun(IOACB *aHandler, const CommAcceptCbParams &aParams); CommAcceptCbPtrFun(const CommAcceptCbPtrFun &o); void dial(); virtual void print(std::ostream &os) const; public: IOACB *handler; }; // connect (CNCB) dialer class CommConnectCbPtrFun: public CallDialer, public CommDialerParamsT { public: typedef CommConnectCbParams Params; CommConnectCbPtrFun(CNCB *aHandler, const Params &aParams); void dial(); virtual void print(std::ostream &os) const; public: CNCB *handler; }; // read/write (IOCB) dialer class CommIoCbPtrFun: public CallDialer, public CommDialerParamsT { public: typedef CommIoCbParams Params; CommIoCbPtrFun(IOCB *aHandler, const Params &aParams); void dial(); virtual void print(std::ostream &os) const; public: IOCB *handler; }; // close (CLCB) dialer class CommCloseCbPtrFun: public CallDialer, public CommDialerParamsT { public: typedef CommCloseCbParams Params; CommCloseCbPtrFun(CLCB *aHandler, const Params &aParams); void dial(); virtual void print(std::ostream &os) const; public: CLCB *handler; }; class CommTimeoutCbPtrFun:public CallDialer, public CommDialerParamsT { public: typedef CommTimeoutCbParams Params; CommTimeoutCbPtrFun(CTCB *aHandler, const Params &aParams); void dial(); virtual void print(std::ostream &os) const; public: CTCB *handler; }; /// FD event (FDECB) dialer class FdeCbPtrFun: public CallDialer, public CommDialerParamsT { public: typedef FdeCbParams Params; FdeCbPtrFun(FDECB *aHandler, const Params &aParams); void dial(); virtual void print(std::ostream &os) const; public: FDECB *handler; }; // AsyncCall to comm handlers implemented as global functions. // The dialer is one of the Comm*CbPtrFunT above // TODO: Get rid of this class by moving canFire() to canDial() method // of dialers. template class CommCbFunPtrCallT: public AsyncCall { public: typedef RefCount > Pointer; typedef typename Dialer::Params Params; inline CommCbFunPtrCallT(int debugSection, int debugLevel, const char *callName, const Dialer &aDialer); inline CommCbFunPtrCallT(const CommCbFunPtrCallT &o) : AsyncCall(o.debugSection, o.debugLevel, o.name), dialer(o.dialer) {} ~CommCbFunPtrCallT() {} virtual CallDialer* getDialer() { return &dialer; } public: Dialer dialer; protected: inline virtual bool canFire(); inline virtual void fire(); private: CommCbFunPtrCallT & operator=(const CommCbFunPtrCallT &); // not defined. not permitted. }; // Conveninece wrapper: It is often easier to call a templated function than // to create a templated class. template inline CommCbFunPtrCallT *commCbCall(int debugSection, int debugLevel, const char *callName, const Dialer &dialer) { return new CommCbFunPtrCallT(debugSection, debugLevel, callName, dialer); } /* inlined implementation of templated methods */ /* CommCbFunPtrCallT */ template CommCbFunPtrCallT::CommCbFunPtrCallT(int aDebugSection, int aDebugLevel, const char *callName, const Dialer &aDialer): AsyncCall(aDebugSection, aDebugLevel, callName), dialer(aDialer) { } template bool CommCbFunPtrCallT::canFire() { if (!AsyncCall::canFire()) return false; if (!cbdataReferenceValid(dialer.params.data)) return cancel("callee gone"); if (!dialer.params.syncWithComm()) return cancel("out of sync w/comm"); if (!dialer.handler) return cancel("no callback requested"); return true; } template void CommCbFunPtrCallT::fire() { dialer.dial(); } #endif /* SQUID_COMMCALLS_H */