/* * Copyright 2008, Ingo Weinhold, ingo_weinhold@gmx.de. * Distributed under the terms of the MIT License. */ #ifndef _KERNEL_SCHEDULING_ANALYSIS_H #define _KERNEL_SCHEDULING_ANALYSIS_H #include #include class ConditionVariable; struct mutex; struct rw_lock; #if SCHEDULING_ANALYSIS_TRACING namespace SchedulingAnalysisTracing { class WaitObjectTraceEntry : public AbstractTraceEntry { public: virtual uint32 Type() const = 0; virtual void* Object() const = 0; virtual const char* Name() const = 0; virtual void* ReferencedObject() const { return NULL; } }; class CreateSemaphore : public WaitObjectTraceEntry { public: CreateSemaphore(sem_id id, const char* name) : fID(id), fName(alloc_tracing_buffer_strcpy(name, 128, false)) { Initialized(); } virtual void AddDump(TraceOutput& out) { out.Print("sem create \"%s\" -> %ld", fName, fID); } virtual uint32 Type() const { return THREAD_BLOCK_TYPE_SEMAPHORE; } virtual void* Object() const { return (void*)(addr_t)fID; } virtual const char* Name() const { return fName; } private: sem_id fID; const char* fName; }; class InitConditionVariable : public WaitObjectTraceEntry { public: InitConditionVariable(ConditionVariable* variable, const void* object, const char* objectType) : fVariable(variable), fObject(object), fObjectType(alloc_tracing_buffer_strcpy(objectType, 128, false)) { Initialized(); } virtual void AddDump(TraceOutput& out) { out.Print("cvar init variable %p: object: %p \"%s\"", fVariable, fObject, fObjectType); } virtual uint32 Type() const { return THREAD_BLOCK_TYPE_CONDITION_VARIABLE; } virtual void* Object() const { return fVariable; } virtual const char* Name() const { return fObjectType; } virtual void* ReferencedObject() const { return (void*)fObject; } private: ConditionVariable* fVariable; const void* fObject; const char* fObjectType; }; class InitMutex : public WaitObjectTraceEntry { public: InitMutex(mutex* lock, const char* name) : fMutex(lock), fName(alloc_tracing_buffer_strcpy(name, 128, false)) { Initialized(); } virtual void AddDump(TraceOutput& out) { out.Print("mutex init %p: name: \"%s\"", fMutex, fName); } virtual uint32 Type() const { return THREAD_BLOCK_TYPE_MUTEX; } virtual void* Object() const { return fMutex; } virtual const char* Name() const { return fName; } private: mutex* fMutex; const char* fName; }; class InitRWLock : public WaitObjectTraceEntry { public: InitRWLock(rw_lock* lock, const char* name) : fLock(lock), fName(alloc_tracing_buffer_strcpy(name, 128, false)) { Initialized(); } virtual void AddDump(TraceOutput& out) { out.Print("rwlock init %p: name: \"%s\"", fLock, fName); } virtual uint32 Type() const { return THREAD_BLOCK_TYPE_RW_LOCK; } virtual void* Object() const { return fLock; } virtual const char* Name() const { return fName; } private: rw_lock* fLock; const char* fName; }; } // namespace SchedulingAnalysisTracing # define T_SCHEDULING_ANALYSIS(x) \ new(std::nothrow) SchedulingAnalysisTracing::x; #else # define T_SCHEDULING_ANALYSIS(x) ; #endif // SCHEDULING_ANALYSIS_TRACING #endif // _KERNEL_SCHEDULING_ANALYSIS_H