safecode/tools/clang/include/clang/Analysis/Analyses/ThreadSafety.h - llvm-archive - Git at Google

 //===- ThreadSafety.h ------------------------------------------*- C++ --*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 //
 // A intra-procedural analysis for thread safety (e.g. deadlocks and race
 // conditions), based off of an annotation system.
 //
 // See http://clang.llvm.org/docs/LanguageExtensions.html#thread-safety-annotation-checking
 // for more information.
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_CLANG_ANALYSIS_ANALYSES_THREADSAFETY_H
 #define LLVM_CLANG_ANALYSIS_ANALYSES_THREADSAFETY_H

 #include "clang/Analysis/AnalysisContext.h"
 #include "clang/Basic/SourceLocation.h"
 #include "llvm/ADT/StringRef.h"

 namespace clang {
 namespace threadSafety {

 class BeforeSet;

 /// This enum distinguishes between different kinds of operations that may
 /// need to be protected by locks. We use this enum in error handling.
 enum ProtectedOperationKind {
   POK_VarDereference, ///< Dereferencing a variable (e.g. p in *p = 5;)
   POK_VarAccess, ///< Reading or writing a variable (e.g. x in x = 5;)
   POK_FunctionCall, ///< Making a function call (e.g. fool())
   POK_PassByRef, ///< Passing a guarded variable by reference.
   POK_PtPassByRef,  ///< Passing a pt-guarded variable by reference.
 };

 /// This enum distinguishes between different kinds of lock actions. For
 /// example, it is an error to write a variable protected by shared version of a
 /// mutex.
 enum LockKind {
   LK_Shared,    ///< Shared/reader lock of a mutex.
   LK_Exclusive, ///< Exclusive/writer lock of a mutex.
   LK_Generic    ///< Can be either Shared or Exclusive
 };

 /// This enum distinguishes between different ways to access (read or write) a
 /// variable.
 enum AccessKind {
   AK_Read, ///< Reading a variable.
   AK_Written ///< Writing a variable.
 };

 /// This enum distinguishes between different situations where we warn due to
 /// inconsistent locking.
 /// \enum SK_LockedSomeLoopIterations -- a mutex is locked for some but not all
 /// loop iterations.
 /// \enum SK_LockedSomePredecessors -- a mutex is locked in some but not all
 /// predecessors of a CFGBlock.
 /// \enum SK_LockedAtEndOfFunction -- a mutex is still locked at the end of a
 /// function.
 enum LockErrorKind {
   LEK_LockedSomeLoopIterations,
   LEK_LockedSomePredecessors,
   LEK_LockedAtEndOfFunction,
   LEK_NotLockedAtEndOfFunction
 };

 /// Handler class for thread safety warnings.
 class ThreadSafetyHandler {
 public:
   typedef StringRef Name;
   ThreadSafetyHandler() : IssueBetaWarnings(false) { }
   virtual ~ThreadSafetyHandler();

   /// Warn about lock expressions which fail to resolve to lockable objects.
   /// \param Kind -- the capability's name parameter (role, mutex, etc).
   /// \param Loc -- the SourceLocation of the unresolved expression.
   virtual void handleInvalidLockExp(StringRef Kind, SourceLocation Loc) {}

   /// Warn about unlock function calls that do not have a prior matching lock
   /// expression.
   /// \param Kind -- the capability's name parameter (role, mutex, etc).
   /// \param LockName -- A StringRef name for the lock expression, to be printed
   /// in the error message.
   /// \param Loc -- The SourceLocation of the Unlock
   virtual void handleUnmatchedUnlock(StringRef Kind, Name LockName,
                                      SourceLocation Loc) {}

   /// Warn about an unlock function call that attempts to unlock a lock with
   /// the incorrect lock kind. For instance, a shared lock being unlocked
   /// exclusively, or vice versa.
   /// \param LockName -- A StringRef name for the lock expression, to be printed
   /// in the error message.
   /// \param Kind -- the capability's name parameter (role, mutex, etc).
   /// \param Expected -- the kind of lock expected.
   /// \param Received -- the kind of lock received.
   /// \param Loc -- The SourceLocation of the Unlock.
   virtual void handleIncorrectUnlockKind(StringRef Kind, Name LockName,
                                          LockKind Expected, LockKind Received,
                                          SourceLocation Loc) {}

   /// Warn about lock function calls for locks which are already held.
   /// \param Kind -- the capability's name parameter (role, mutex, etc).
   /// \param LockName -- A StringRef name for the lock expression, to be printed
   /// in the error message.
   /// \param Loc -- The location of the second lock expression.
   virtual void handleDoubleLock(StringRef Kind, Name LockName,
                                 SourceLocation Loc) {}

   /// Warn about situations where a mutex is sometimes held and sometimes not.
   /// The three situations are:
   /// 1. a mutex is locked on an "if" branch but not the "else" branch,
   /// 2, or a mutex is only held at the start of some loop iterations,
   /// 3. or when a mutex is locked but not unlocked inside a function.
   /// \param Kind -- the capability's name parameter (role, mutex, etc).
   /// \param LockName -- A StringRef name for the lock expression, to be printed
   /// in the error message.
   /// \param LocLocked -- The location of the lock expression where the mutex is
   ///               locked
   /// \param LocEndOfScope -- The location of the end of the scope where the
   ///               mutex is no longer held
   /// \param LEK -- which of the three above cases we should warn for
   virtual void handleMutexHeldEndOfScope(StringRef Kind, Name LockName,
                                          SourceLocation LocLocked,
                                          SourceLocation LocEndOfScope,
                                          LockErrorKind LEK) {}

   /// Warn when a mutex is held exclusively and shared at the same point. For
   /// example, if a mutex is locked exclusively during an if branch and shared
   /// during the else branch.
   /// \param Kind -- the capability's name parameter (role, mutex, etc).
   /// \param LockName -- A StringRef name for the lock expression, to be printed
   /// in the error message.
   /// \param Loc1 -- The location of the first lock expression.
   /// \param Loc2 -- The location of the second lock expression.
   virtual void handleExclusiveAndShared(StringRef Kind, Name LockName,
                                         SourceLocation Loc1,
                                         SourceLocation Loc2) {}

   /// Warn when a protected operation occurs while no locks are held.
   /// \param Kind -- the capability's name parameter (role, mutex, etc).
   /// \param D -- The decl for the protected variable or function
   /// \param POK -- The kind of protected operation (e.g. variable access)
   /// \param AK -- The kind of access (i.e. read or write) that occurred
   /// \param Loc -- The location of the protected operation.
   virtual void handleNoMutexHeld(StringRef Kind, const NamedDecl *D,
                                  ProtectedOperationKind POK, AccessKind AK,
                                  SourceLocation Loc) {}

   /// Warn when a protected operation occurs while the specific mutex protecting
   /// the operation is not locked.
   /// \param Kind -- the capability's name parameter (role, mutex, etc).
   /// \param D -- The decl for the protected variable or function
   /// \param POK -- The kind of protected operation (e.g. variable access)
   /// \param LockName -- A StringRef name for the lock expression, to be printed
   /// in the error message.
   /// \param LK -- The kind of access (i.e. read or write) that occurred
   /// \param Loc -- The location of the protected operation.
   virtual void handleMutexNotHeld(StringRef Kind, const NamedDecl *D,
                                   ProtectedOperationKind POK, Name LockName,
                                   LockKind LK, SourceLocation Loc,
                                   Name *PossibleMatch = nullptr) {}

   /// Warn when acquiring a lock that the negative capability is not held.
   /// \param Kind -- the capability's name parameter (role, mutex, etc).
   /// \param LockName -- The name for the lock expression, to be printed in the
   /// diagnostic.
   /// \param Neg -- The name of the negative capability to be printed in the
   /// diagnostic.
   /// \param Loc -- The location of the protected operation.
   virtual void handleNegativeNotHeld(StringRef Kind, Name LockName, Name Neg,
                                      SourceLocation Loc) {}

   /// Warn when a function is called while an excluded mutex is locked. For
   /// example, the mutex may be locked inside the function.
   /// \param Kind -- the capability's name parameter (role, mutex, etc).
   /// \param FunName -- The name of the function
   /// \param LockName -- A StringRef name for the lock expression, to be printed
   /// in the error message.
   /// \param Loc -- The location of the function call.
   virtual void handleFunExcludesLock(StringRef Kind, Name FunName,
                                      Name LockName, SourceLocation Loc) {}


   /// Warn that L1 cannot be acquired before L2.
   virtual void handleLockAcquiredBefore(StringRef Kind, Name L1Name,
                                         Name L2Name, SourceLocation Loc) {}

   /// Warn that there is a cycle in acquired_before/after dependencies.
   virtual void handleBeforeAfterCycle(Name L1Name, SourceLocation Loc) {}

   /// Called by the analysis when starting analysis of a function.
   /// Used to issue suggestions for changes to annotations.
   virtual void enterFunction(const FunctionDecl *FD) {}

   /// Called by the analysis when finishing analysis of a function.
   virtual void leaveFunction(const FunctionDecl *FD) {}

   bool issueBetaWarnings() { return IssueBetaWarnings; }
   void setIssueBetaWarnings(bool b) { IssueBetaWarnings = b; }

 private:
   bool IssueBetaWarnings;
 };

 /// \brief Check a function's CFG for thread-safety violations.
 ///
 /// We traverse the blocks in the CFG, compute the set of mutexes that are held
 /// at the end of each block, and issue warnings for thread safety violations.
 /// Each block in the CFG is traversed exactly once.
 void runThreadSafetyAnalysis(AnalysisDeclContext &AC,
                              ThreadSafetyHandler &Handler,
                              BeforeSet **Bset);

 void threadSafetyCleanup(BeforeSet *Cache);

 /// \brief Helper function that returns a LockKind required for the given level
 /// of access.
 LockKind getLockKindFromAccessKind(AccessKind AK);

 }} // end namespace clang::threadSafety
 #endif
	//===- ThreadSafety.h ------------------------------------------- C++ ---===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	//
	// A intra-procedural analysis for thread safety (e.g. deadlocks and race
	// conditions), based off of an annotation system.
	//
	// See http://clang.llvm.org/docs/LanguageExtensions.html#thread-safety-annotation-checking
	// for more information.
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_CLANG_ANALYSIS_ANALYSES_THREADSAFETY_H
	#define LLVM_CLANG_ANALYSIS_ANALYSES_THREADSAFETY_H

	#include "clang/Analysis/AnalysisContext.h"
	#include "clang/Basic/SourceLocation.h"
	#include "llvm/ADT/StringRef.h"

	namespace clang {
	namespace threadSafety {

	class BeforeSet;

	/// This enum distinguishes between different kinds of operations that may
	/// need to be protected by locks. We use this enum in error handling.
	enum ProtectedOperationKind {
	POK_VarDereference, ///< Dereferencing a variable (e.g. p in *p = 5;)
	POK_VarAccess, ///< Reading or writing a variable (e.g. x in x = 5;)
	POK_FunctionCall, ///< Making a function call (e.g. fool())
	POK_PassByRef, ///< Passing a guarded variable by reference.
	POK_PtPassByRef, ///< Passing a pt-guarded variable by reference.
	};

	/// This enum distinguishes between different kinds of lock actions. For
	/// example, it is an error to write a variable protected by shared version of a
	/// mutex.
	enum LockKind {
	LK_Shared, ///< Shared/reader lock of a mutex.
	LK_Exclusive, ///< Exclusive/writer lock of a mutex.
	LK_Generic ///< Can be either Shared or Exclusive
	};

	/// This enum distinguishes between different ways to access (read or write) a
	/// variable.
	enum AccessKind {
	AK_Read, ///< Reading a variable.
	AK_Written ///< Writing a variable.
	};

	/// This enum distinguishes between different situations where we warn due to
	/// inconsistent locking.
	/// \enum SK_LockedSomeLoopIterations -- a mutex is locked for some but not all
	/// loop iterations.
	/// \enum SK_LockedSomePredecessors -- a mutex is locked in some but not all
	/// predecessors of a CFGBlock.
	/// \enum SK_LockedAtEndOfFunction -- a mutex is still locked at the end of a
	/// function.
	enum LockErrorKind {
	LEK_LockedSomeLoopIterations,
	LEK_LockedSomePredecessors,
	LEK_LockedAtEndOfFunction,
	LEK_NotLockedAtEndOfFunction
	};

	/// Handler class for thread safety warnings.
	class ThreadSafetyHandler {
	public:
	typedef StringRef Name;
	ThreadSafetyHandler() : IssueBetaWarnings(false) { }
	virtual ~ThreadSafetyHandler();

	/// Warn about lock expressions which fail to resolve to lockable objects.
	/// \param Kind -- the capability's name parameter (role, mutex, etc).
	/// \param Loc -- the SourceLocation of the unresolved expression.
	virtual void handleInvalidLockExp(StringRef Kind, SourceLocation Loc) {}

	/// Warn about unlock function calls that do not have a prior matching lock
	/// expression.
	/// \param Kind -- the capability's name parameter (role, mutex, etc).
	/// \param LockName -- A StringRef name for the lock expression, to be printed
	/// in the error message.
	/// \param Loc -- The SourceLocation of the Unlock
	virtual void handleUnmatchedUnlock(StringRef Kind, Name LockName,
	SourceLocation Loc) {}

	/// Warn about an unlock function call that attempts to unlock a lock with
	/// the incorrect lock kind. For instance, a shared lock being unlocked
	/// exclusively, or vice versa.
	/// \param LockName -- A StringRef name for the lock expression, to be printed
	/// in the error message.
	/// \param Kind -- the capability's name parameter (role, mutex, etc).
	/// \param Expected -- the kind of lock expected.
	/// \param Received -- the kind of lock received.
	/// \param Loc -- The SourceLocation of the Unlock.
	virtual void handleIncorrectUnlockKind(StringRef Kind, Name LockName,
	LockKind Expected, LockKind Received,
	SourceLocation Loc) {}

	/// Warn about lock function calls for locks which are already held.
	/// \param Kind -- the capability's name parameter (role, mutex, etc).
	/// \param LockName -- A StringRef name for the lock expression, to be printed
	/// in the error message.
	/// \param Loc -- The location of the second lock expression.
	virtual void handleDoubleLock(StringRef Kind, Name LockName,
	SourceLocation Loc) {}

	/// Warn about situations where a mutex is sometimes held and sometimes not.
	/// The three situations are:
	/// 1. a mutex is locked on an "if" branch but not the "else" branch,
	/// 2, or a mutex is only held at the start of some loop iterations,
	/// 3. or when a mutex is locked but not unlocked inside a function.
	/// \param Kind -- the capability's name parameter (role, mutex, etc).
	/// \param LockName -- A StringRef name for the lock expression, to be printed
	/// in the error message.
	/// \param LocLocked -- The location of the lock expression where the mutex is
	/// locked
	/// \param LocEndOfScope -- The location of the end of the scope where the
	/// mutex is no longer held
	/// \param LEK -- which of the three above cases we should warn for
	virtual void handleMutexHeldEndOfScope(StringRef Kind, Name LockName,
	SourceLocation LocLocked,
	SourceLocation LocEndOfScope,
	LockErrorKind LEK) {}

	/// Warn when a mutex is held exclusively and shared at the same point. For
	/// example, if a mutex is locked exclusively during an if branch and shared
	/// during the else branch.
	/// \param Kind -- the capability's name parameter (role, mutex, etc).
	/// \param LockName -- A StringRef name for the lock expression, to be printed
	/// in the error message.
	/// \param Loc1 -- The location of the first lock expression.
	/// \param Loc2 -- The location of the second lock expression.
	virtual void handleExclusiveAndShared(StringRef Kind, Name LockName,
	SourceLocation Loc1,
	SourceLocation Loc2) {}

	/// Warn when a protected operation occurs while no locks are held.
	/// \param Kind -- the capability's name parameter (role, mutex, etc).
	/// \param D -- The decl for the protected variable or function
	/// \param POK -- The kind of protected operation (e.g. variable access)
	/// \param AK -- The kind of access (i.e. read or write) that occurred
	/// \param Loc -- The location of the protected operation.
	virtual void handleNoMutexHeld(StringRef Kind, const NamedDecl *D,
	ProtectedOperationKind POK, AccessKind AK,
	SourceLocation Loc) {}

	/// Warn when a protected operation occurs while the specific mutex protecting
	/// the operation is not locked.
	/// \param Kind -- the capability's name parameter (role, mutex, etc).
	/// \param D -- The decl for the protected variable or function
	/// \param POK -- The kind of protected operation (e.g. variable access)
	/// \param LockName -- A StringRef name for the lock expression, to be printed
	/// in the error message.
	/// \param LK -- The kind of access (i.e. read or write) that occurred
	/// \param Loc -- The location of the protected operation.
	virtual void handleMutexNotHeld(StringRef Kind, const NamedDecl *D,
	ProtectedOperationKind POK, Name LockName,
	LockKind LK, SourceLocation Loc,
	Name *PossibleMatch = nullptr) {}

	/// Warn when acquiring a lock that the negative capability is not held.
	/// \param Kind -- the capability's name parameter (role, mutex, etc).
	/// \param LockName -- The name for the lock expression, to be printed in the
	/// diagnostic.
	/// \param Neg -- The name of the negative capability to be printed in the
	/// diagnostic.
	/// \param Loc -- The location of the protected operation.
	virtual void handleNegativeNotHeld(StringRef Kind, Name LockName, Name Neg,
	SourceLocation Loc) {}

	/// Warn when a function is called while an excluded mutex is locked. For
	/// example, the mutex may be locked inside the function.
	/// \param Kind -- the capability's name parameter (role, mutex, etc).
	/// \param FunName -- The name of the function
	/// \param LockName -- A StringRef name for the lock expression, to be printed
	/// in the error message.
	/// \param Loc -- The location of the function call.
	virtual void handleFunExcludesLock(StringRef Kind, Name FunName,
	Name LockName, SourceLocation Loc) {}


	/// Warn that L1 cannot be acquired before L2.
	virtual void handleLockAcquiredBefore(StringRef Kind, Name L1Name,
	Name L2Name, SourceLocation Loc) {}

	/// Warn that there is a cycle in acquired_before/after dependencies.
	virtual void handleBeforeAfterCycle(Name L1Name, SourceLocation Loc) {}

	/// Called by the analysis when starting analysis of a function.
	/// Used to issue suggestions for changes to annotations.
	virtual void enterFunction(const FunctionDecl *FD) {}

	/// Called by the analysis when finishing analysis of a function.
	virtual void leaveFunction(const FunctionDecl *FD) {}

	bool issueBetaWarnings() { return IssueBetaWarnings; }
	void setIssueBetaWarnings(bool b) { IssueBetaWarnings = b; }

	private:
	bool IssueBetaWarnings;
	};

	/// \brief Check a function's CFG for thread-safety violations.
	///
	/// We traverse the blocks in the CFG, compute the set of mutexes that are held
	/// at the end of each block, and issue warnings for thread safety violations.
	/// Each block in the CFG is traversed exactly once.
	void runThreadSafetyAnalysis(AnalysisDeclContext &AC,
	ThreadSafetyHandler &Handler,
	BeforeSet **Bset);

	void threadSafetyCleanup(BeforeSet *Cache);

	/// \brief Helper function that returns a LockKind required for the given level
	/// of access.
	LockKind getLockKindFromAccessKind(AccessKind AK);

	}} // end namespace clang::threadSafety
	#endif