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Diffstat (limited to 'lib/cryptopp/wait.h')
-rw-r--r-- | lib/cryptopp/wait.h | 208 |
1 files changed, 208 insertions, 0 deletions
diff --git a/lib/cryptopp/wait.h b/lib/cryptopp/wait.h new file mode 100644 index 000000000..045afbc18 --- /dev/null +++ b/lib/cryptopp/wait.h @@ -0,0 +1,208 @@ +#ifndef CRYPTOPP_WAIT_H +#define CRYPTOPP_WAIT_H + +#include "config.h" + +#ifdef SOCKETS_AVAILABLE + +#include "misc.h" +#include "cryptlib.h" +#include <vector> + +#ifdef USE_WINDOWS_STYLE_SOCKETS +#include <winsock2.h> +#else +#include <sys/types.h> +#endif + +#include "hrtimer.h" + +NAMESPACE_BEGIN(CryptoPP) + +class Tracer +{ +public: + Tracer(unsigned int level) : m_level(level) {} + virtual ~Tracer() {} + +protected: + //! Override this in your most-derived tracer to do the actual tracing. + virtual void Trace(unsigned int n, std::string const& s) = 0; + + /*! By default, tracers will decide which trace messages to trace according to a trace level + mechanism. If your most-derived tracer uses a different mechanism, override this to + return false. If this method returns false, the default TraceXxxx(void) methods will all + return 0 and must be overridden explicitly by your tracer for trace messages you want. */ + virtual bool UsingDefaults() const { return true; } + +protected: + unsigned int m_level; + + void TraceIf(unsigned int n, std::string const&s) + { if (n) Trace(n, s); } + + /*! Returns nr if, according to the default log settings mechanism (using log levels), + the message should be traced. Returns 0 if the default trace level mechanism is not + in use, or if it is in use but the event should not be traced. Provided as a utility + method for easier and shorter coding of default TraceXxxx(void) implementations. */ + unsigned int Tracing(unsigned int nr, unsigned int minLevel) const + { return (UsingDefaults() && m_level >= minLevel) ? nr : 0; } +}; + +// Your Tracer-derived class should inherit as virtual public from Tracer or another +// Tracer-derived class, and should pass the log level in its constructor. You can use the +// following methods to begin and end your Tracer definition. + +// This constructor macro initializes Tracer directly even if not derived directly from it; +// this is intended, virtual base classes are always initialized by the most derived class. +#define CRYPTOPP_TRACER_CONSTRUCTOR(DERIVED) \ + public: DERIVED(unsigned int level = 0) : Tracer(level) {} + +#define CRYPTOPP_BEGIN_TRACER_CLASS_1(DERIVED, BASE1) \ + class DERIVED : virtual public BASE1 { CRYPTOPP_TRACER_CONSTRUCTOR(DERIVED) + +#define CRYPTOPP_BEGIN_TRACER_CLASS_2(DERIVED, BASE1, BASE2) \ + class DERIVED : virtual public BASE1, virtual public BASE2 { CRYPTOPP_TRACER_CONSTRUCTOR(DERIVED) + +#define CRYPTOPP_END_TRACER_CLASS }; + +// In your Tracer-derived class, you should define a globally unique event number for each +// new event defined. This can be done using the following macros. + +#define CRYPTOPP_BEGIN_TRACER_EVENTS(UNIQUENR) enum { EVENTBASE = UNIQUENR, +#define CRYPTOPP_TRACER_EVENT(EVENTNAME) EventNr_##EVENTNAME, +#define CRYPTOPP_END_TRACER_EVENTS }; + +// In your own Tracer-derived class, you must define two methods per new trace event type: +// - unsigned int TraceXxxx() const +// Your default implementation of this method should return the event number if according +// to the default trace level system the event should be traced, or 0 if it should not. +// - void TraceXxxx(string const& s) +// This method should call TraceIf(TraceXxxx(), s); to do the tracing. +// For your convenience, a macro to define these two types of methods are defined below. +// If you use this macro, you should also use the TRACER_EVENTS macros above to associate +// event names with numbers. + +#define CRYPTOPP_TRACER_EVENT_METHODS(EVENTNAME, LOGLEVEL) \ + virtual unsigned int Trace##EVENTNAME() const { return Tracing(EventNr_##EVENTNAME, LOGLEVEL); } \ + virtual void Trace##EVENTNAME(std::string const& s) { TraceIf(Trace##EVENTNAME(), s); } + + +/*! A simple unidirectional linked list with m_prev == 0 to indicate the final entry. + The aim of this implementation is to provide a very lightweight and practical + tracing mechanism with a low performance impact. Functions and methods supporting + this call-stack mechanism would take a parameter of the form "CallStack const& callStack", + and would pass this parameter to subsequent functions they call using the construct: + + SubFunc(arg1, arg2, CallStack("my func at place such and such", &callStack)); + + The advantage of this approach is that it is easy to use and should be very efficient, + involving no allocation from the heap, just a linked list of stack objects containing + pointers to static ASCIIZ strings (or possibly additional but simple data if derived). */ +class CallStack +{ +public: + CallStack(char const* i, CallStack const* p) : m_info(i), m_prev(p) {} + CallStack const* Prev() const { return m_prev; } + virtual std::string Format() const; + +protected: + char const* m_info; + CallStack const* m_prev; +}; + +/*! An extended CallStack entry type with an additional numeric parameter. */ +class CallStackWithNr : public CallStack +{ +public: + CallStackWithNr(char const* i, word32 n, CallStack const* p) : CallStack(i, p), m_nr(n) {} + std::string Format() const; + +protected: + word32 m_nr; +}; + +/*! An extended CallStack entry type with an additional string parameter. */ +class CallStackWithStr : public CallStack +{ +public: + CallStackWithStr(char const* i, char const* z, CallStack const* p) : CallStack(i, p), m_z(z) {} + std::string Format() const; + +protected: + char const* m_z; +}; + +CRYPTOPP_BEGIN_TRACER_CLASS_1(WaitObjectsTracer, Tracer) + CRYPTOPP_BEGIN_TRACER_EVENTS(0x48752841) + CRYPTOPP_TRACER_EVENT(NoWaitLoop) + CRYPTOPP_END_TRACER_EVENTS + CRYPTOPP_TRACER_EVENT_METHODS(NoWaitLoop, 1) +CRYPTOPP_END_TRACER_CLASS + +struct WaitingThreadData; + +//! container of wait objects +class WaitObjectContainer : public NotCopyable +{ +public: + //! exception thrown by WaitObjectContainer + class Err : public Exception + { + public: + Err(const std::string& s) : Exception(IO_ERROR, s) {} + }; + + static unsigned int MaxWaitObjects(); + + WaitObjectContainer(WaitObjectsTracer* tracer = 0); + + void Clear(); + void SetNoWait(CallStack const& callStack); + void ScheduleEvent(double milliseconds, CallStack const& callStack); + // returns false if timed out + bool Wait(unsigned long milliseconds); + +#ifdef USE_WINDOWS_STYLE_SOCKETS + ~WaitObjectContainer(); + void AddHandle(HANDLE handle, CallStack const& callStack); +#else + void AddReadFd(int fd, CallStack const& callStack); + void AddWriteFd(int fd, CallStack const& callStack); +#endif + +private: + WaitObjectsTracer* m_tracer; + +#ifdef USE_WINDOWS_STYLE_SOCKETS + void CreateThreads(unsigned int count); + std::vector<HANDLE> m_handles; + std::vector<WaitingThreadData *> m_threads; + HANDLE m_startWaiting; + HANDLE m_stopWaiting; +#else + fd_set m_readfds, m_writefds; + int m_maxFd; +#endif + bool m_noWait; + double m_firstEventTime; + Timer m_eventTimer; + +#ifdef USE_WINDOWS_STYLE_SOCKETS + typedef size_t LastResultType; +#else + typedef int LastResultType; +#endif + enum { LASTRESULT_NOWAIT = -1, LASTRESULT_SCHEDULED = -2, LASTRESULT_TIMEOUT = -3 }; + LastResultType m_lastResult; + unsigned int m_sameResultCount; + Timer m_noWaitTimer; + void SetLastResult(LastResultType result); + void DetectNoWait(LastResultType result, CallStack const& callStack); +}; + +NAMESPACE_END + +#endif + +#endif |