aarch64/usr/include/clang/StaticAnalyzer/Core/PathSensitive/CallDescription.h - manifest_repos/toolchain - Git at Google

 //===- CallDescription.h - function/method call matching       --*- C++ -*-===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//
 //
 /// \file This file defines a generic mechanism for matching for function and
 /// method calls of C, C++, and Objective-C languages. Instances of these
 /// classes are frequently used together with the CallEvent classes.
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_CLANG_STATICANALYZER_CORE_PATHSENSITIVE_CALLDESCRIPTION_H
 #define LLVM_CLANG_STATICANALYZER_CORE_PATHSENSITIVE_CALLDESCRIPTION_H

 #include "clang/StaticAnalyzer/Core/PathSensitive/CallEvent.h"
 #include "llvm/ADT/ArrayRef.h"
 #include "llvm/ADT/Optional.h"
 #include "llvm/Support/Compiler.h"
 #include <vector>

 namespace clang {
 class IdentifierInfo;
 } // namespace clang

 namespace clang {
 namespace ento {

 enum CallDescriptionFlags : unsigned {
   CDF_None = 0,

   /// Describes a C standard function that is sometimes implemented as a macro
   /// that expands to a compiler builtin with some __builtin prefix.
   /// The builtin may as well have a few extra arguments on top of the requested
   /// number of arguments.
   CDF_MaybeBuiltin = 1 << 0,
 };

 /// This class represents a description of a function call using the number of
 /// arguments and the name of the function.
 class CallDescription {
   friend class CallEvent;
   using MaybeCount = Optional<unsigned>;

   mutable Optional<const IdentifierInfo *> II;
   // The list of the qualified names used to identify the specified CallEvent,
   // e.g. "{a, b}" represent the qualified names, like "a::b".
   std::vector<std::string> QualifiedName;
   MaybeCount RequiredArgs;
   MaybeCount RequiredParams;
   int Flags;

 public:
   /// Constructs a CallDescription object.
   ///
   /// @param QualifiedName The list of the name qualifiers of the function that
   /// will be matched. The user is allowed to skip any of the qualifiers.
   /// For example, {"std", "basic_string", "c_str"} would match both
   /// std::basic_string<...>::c_str() and std::__1::basic_string<...>::c_str().
   ///
   /// @param RequiredArgs The number of arguments that is expected to match a
   /// call. Omit this parameter to match every occurrence of call with a given
   /// name regardless the number of arguments.
   CallDescription(CallDescriptionFlags Flags,
                   ArrayRef<const char *> QualifiedName,
                   MaybeCount RequiredArgs = None,
                   MaybeCount RequiredParams = None);

   /// Construct a CallDescription with default flags.
   CallDescription(ArrayRef<const char *> QualifiedName,
                   MaybeCount RequiredArgs = None,
                   MaybeCount RequiredParams = None);

   CallDescription(std::nullptr_t) = delete;

   /// Get the name of the function that this object matches.
   StringRef getFunctionName() const { return QualifiedName.back(); }

   /// Get the qualified name parts in reversed order.
   /// E.g. { "std", "vector", "data" } -> "vector", "std"
   auto begin_qualified_name_parts() const {
     return std::next(QualifiedName.rbegin());
   }
   auto end_qualified_name_parts() const { return QualifiedName.rend(); }

   /// It's false, if and only if we expect a single identifier, such as
   /// `getenv`. It's true for `std::swap`, or `my::detail::container::data`.
   bool hasQualifiedNameParts() const { return QualifiedName.size() > 1; }

   /// @name Matching CallDescriptions against a CallEvent
   /// @{

   /// Returns true if the CallEvent is a call to a function that matches
   /// the CallDescription.
   ///
   /// \note This function is not intended to be used to match Obj-C method
   /// calls.
   bool matches(const CallEvent &Call) const;

   /// Returns true whether the CallEvent matches on any of the CallDescriptions
   /// supplied.
   ///
   /// \note This function is not intended to be used to match Obj-C method
   /// calls.
   friend bool matchesAny(const CallEvent &Call, const CallDescription &CD1) {
     return CD1.matches(Call);
   }

   /// \copydoc clang::ento::CallDescription::matchesAny(const CallEvent &, const CallDescription &)
   template <typename... Ts>
   friend bool matchesAny(const CallEvent &Call, const CallDescription &CD1,
                          const Ts &...CDs) {
     return CD1.matches(Call) || matchesAny(Call, CDs...);
   }
   /// @}

   /// @name Matching CallDescriptions against a CallExpr
   /// @{

   /// Returns true if the CallExpr is a call to a function that matches the
   /// CallDescription.
   ///
   /// When available, always prefer matching with a CallEvent! This function
   /// exists only when that is not available, for example, when _only_
   /// syntactic check is done on a piece of code.
   ///
   /// Also, StdLibraryFunctionsChecker::Signature is likely a better candicade
   /// for syntactic only matching if you are writing a new checker. This is
   /// handy if a CallDescriptionMap is already there.
   ///
   /// The function is imprecise because CallEvent may know path sensitive
   /// information, such as the precise argument count (see comments for
   /// CallEvent::getNumArgs), the called function if it was called through a
   /// function pointer, and other information not available syntactically.
   bool matchesAsWritten(const CallExpr &CE) const;

   /// Returns true whether the CallExpr matches on any of the CallDescriptions
   /// supplied.
   ///
   /// \note This function is not intended to be used to match Obj-C method
   /// calls.
   friend bool matchesAnyAsWritten(const CallExpr &CE,
                                   const CallDescription &CD1) {
     return CD1.matchesAsWritten(CE);
   }

   /// \copydoc clang::ento::CallDescription::matchesAnyAsWritten(const CallExpr &, const CallDescription &)
   template <typename... Ts>
   friend bool matchesAnyAsWritten(const CallExpr &CE,
                                   const CallDescription &CD1,
                                   const Ts &...CDs) {
     return CD1.matchesAsWritten(CE) || matchesAnyAsWritten(CE, CDs...);
   }
   /// @}

 private:
   bool matchesImpl(const FunctionDecl *Callee, size_t ArgCount,
                    size_t ParamCount) const;
 };

 /// An immutable map from CallDescriptions to arbitrary data. Provides a unified
 /// way for checkers to react on function calls.
 template <typename T> class CallDescriptionMap {
   friend class CallDescriptionSet;

   // Some call descriptions aren't easily hashable (eg., the ones with qualified
   // names in which some sections are omitted), so let's put them
   // in a simple vector and use linear lookup.
   // TODO: Implement an actual map for fast lookup for "hashable" call
   // descriptions (eg., the ones for C functions that just match the name).
   std::vector<std::pair<CallDescription, T>> LinearMap;

 public:
   CallDescriptionMap(
       std::initializer_list<std::pair<CallDescription, T>> &&List)
       : LinearMap(List) {}

   template <typename InputIt>
   CallDescriptionMap(InputIt First, InputIt Last) : LinearMap(First, Last) {}

   ~CallDescriptionMap() = default;

   // These maps are usually stored once per checker, so let's make sure
   // we don't do redundant copies.
   CallDescriptionMap(const CallDescriptionMap &) = delete;
   CallDescriptionMap &operator=(const CallDescription &) = delete;

   CallDescriptionMap(CallDescriptionMap &&) = default;
   CallDescriptionMap &operator=(CallDescriptionMap &&) = default;

   LLVM_NODISCARD const T *lookup(const CallEvent &Call) const {
     // Slow path: linear lookup.
     // TODO: Implement some sort of fast path.
     for (const std::pair<CallDescription, T> &I : LinearMap)
       if (I.first.matches(Call))
         return &I.second;

     return nullptr;
   }

   /// When available, always prefer lookup with a CallEvent! This function
   /// exists only when that is not available, for example, when _only_
   /// syntactic check is done on a piece of code.
   ///
   /// Also, StdLibraryFunctionsChecker::Signature is likely a better candicade
   /// for syntactic only matching if you are writing a new checker. This is
   /// handy if a CallDescriptionMap is already there.
   ///
   /// The function is imprecise because CallEvent may know path sensitive
   /// information, such as the precise argument count (see comments for
   /// CallEvent::getNumArgs), the called function if it was called through a
   /// function pointer, and other information not available syntactically.
   LLVM_NODISCARD const T *lookupAsWritten(const CallExpr &Call) const {
     // Slow path: linear lookup.
     // TODO: Implement some sort of fast path.
     for (const std::pair<CallDescription, T> &I : LinearMap)
       if (I.first.matchesAsWritten(Call))
         return &I.second;

     return nullptr;
   }
 };

 /// An immutable set of CallDescriptions.
 /// Checkers can efficiently decide if a given CallEvent matches any
 /// CallDescription in the set.
 class CallDescriptionSet {
   CallDescriptionMap<bool /*unused*/> Impl = {};

 public:
   CallDescriptionSet(std::initializer_list<CallDescription> &&List);

   CallDescriptionSet(const CallDescriptionSet &) = delete;
   CallDescriptionSet &operator=(const CallDescription &) = delete;

   LLVM_NODISCARD bool contains(const CallEvent &Call) const;

   /// When available, always prefer lookup with a CallEvent! This function
   /// exists only when that is not available, for example, when _only_
   /// syntactic check is done on a piece of code.
   ///
   /// Also, StdLibraryFunctionsChecker::Signature is likely a better candicade
   /// for syntactic only matching if you are writing a new checker. This is
   /// handy if a CallDescriptionMap is already there.
   ///
   /// The function is imprecise because CallEvent may know path sensitive
   /// information, such as the precise argument count (see comments for
   /// CallEvent::getNumArgs), the called function if it was called through a
   /// function pointer, and other information not available syntactically.
   LLVM_NODISCARD bool containsAsWritten(const CallExpr &CE) const;
 };

 } // namespace ento
 } // namespace clang

 #endif // LLVM_CLANG_STATICANALYZER_CORE_PATHSENSITIVE_CALLDESCRIPTION_H
	//===- CallDescription.h - function/method call matching --- C++ --===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//
	//
	/// \file This file defines a generic mechanism for matching for function and
	/// method calls of C, C++, and Objective-C languages. Instances of these
	/// classes are frequently used together with the CallEvent classes.
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_CLANG_STATICANALYZER_CORE_PATHSENSITIVE_CALLDESCRIPTION_H
	#define LLVM_CLANG_STATICANALYZER_CORE_PATHSENSITIVE_CALLDESCRIPTION_H

	#include "clang/StaticAnalyzer/Core/PathSensitive/CallEvent.h"
	#include "llvm/ADT/ArrayRef.h"
	#include "llvm/ADT/Optional.h"
	#include "llvm/Support/Compiler.h"
	#include <vector>

	namespace clang {
	class IdentifierInfo;
	} // namespace clang

	namespace clang {
	namespace ento {

	enum CallDescriptionFlags : unsigned {
	CDF_None = 0,

	/// Describes a C standard function that is sometimes implemented as a macro
	/// that expands to a compiler builtin with some __builtin prefix.
	/// The builtin may as well have a few extra arguments on top of the requested
	/// number of arguments.
	CDF_MaybeBuiltin = 1 << 0,
	};

	/// This class represents a description of a function call using the number of
	/// arguments and the name of the function.
	class CallDescription {
	friend class CallEvent;
	using MaybeCount = Optional<unsigned>;

	mutable Optional<const IdentifierInfo *> II;
	// The list of the qualified names used to identify the specified CallEvent,
	// e.g. "{a, b}" represent the qualified names, like "a::b".
	std::vector<std::string> QualifiedName;
	MaybeCount RequiredArgs;
	MaybeCount RequiredParams;
	int Flags;

	public:
	/// Constructs a CallDescription object.
	///
	/// @param QualifiedName The list of the name qualifiers of the function that
	/// will be matched. The user is allowed to skip any of the qualifiers.
	/// For example, {"std", "basic_string", "c_str"} would match both
	/// std::basic_string<...>::c_str() and std::__1::basic_string<...>::c_str().
	///
	/// @param RequiredArgs The number of arguments that is expected to match a
	/// call. Omit this parameter to match every occurrence of call with a given
	/// name regardless the number of arguments.
	CallDescription(CallDescriptionFlags Flags,
	ArrayRef<const char *> QualifiedName,
	MaybeCount RequiredArgs = None,
	MaybeCount RequiredParams = None);

	/// Construct a CallDescription with default flags.
	CallDescription(ArrayRef<const char *> QualifiedName,
	MaybeCount RequiredArgs = None,
	MaybeCount RequiredParams = None);

	CallDescription(std::nullptr_t) = delete;

	/// Get the name of the function that this object matches.
	StringRef getFunctionName() const { return QualifiedName.back(); }

	/// Get the qualified name parts in reversed order.
	/// E.g. { "std", "vector", "data" } -> "vector", "std"
	auto begin_qualified_name_parts() const {
	return std::next(QualifiedName.rbegin());
	}
	auto end_qualified_name_parts() const { return QualifiedName.rend(); }

	/// It's false, if and only if we expect a single identifier, such as
	/// `getenv`. It's true for `std::swap`, or `my::detail::container::data`.
	bool hasQualifiedNameParts() const { return QualifiedName.size() > 1; }

	/// @name Matching CallDescriptions against a CallEvent
	/// @{

	/// Returns true if the CallEvent is a call to a function that matches
	/// the CallDescription.
	///
	/// \note This function is not intended to be used to match Obj-C method
	/// calls.
	bool matches(const CallEvent &Call) const;

	/// Returns true whether the CallEvent matches on any of the CallDescriptions
	/// supplied.
	///
	/// \note This function is not intended to be used to match Obj-C method
	/// calls.
	friend bool matchesAny(const CallEvent &Call, const CallDescription &CD1) {
	return CD1.matches(Call);
	}

	/// \copydoc clang::ento::CallDescription::matchesAny(const CallEvent &, const CallDescription &)
	template <typename... Ts>
	friend bool matchesAny(const CallEvent &Call, const CallDescription &CD1,
	const Ts &...CDs) {
	return CD1.matches(Call) \|\| matchesAny(Call, CDs...);
	}
	/// @}

	/// @name Matching CallDescriptions against a CallExpr
	/// @{

	/// Returns true if the CallExpr is a call to a function that matches the
	/// CallDescription.
	///
	/// When available, always prefer matching with a CallEvent! This function
	/// exists only when that is not available, for example, when _only_
	/// syntactic check is done on a piece of code.
	///
	/// Also, StdLibraryFunctionsChecker::Signature is likely a better candicade
	/// for syntactic only matching if you are writing a new checker. This is
	/// handy if a CallDescriptionMap is already there.
	///
	/// The function is imprecise because CallEvent may know path sensitive
	/// information, such as the precise argument count (see comments for
	/// CallEvent::getNumArgs), the called function if it was called through a
	/// function pointer, and other information not available syntactically.
	bool matchesAsWritten(const CallExpr &CE) const;

	/// Returns true whether the CallExpr matches on any of the CallDescriptions
	/// supplied.
	///
	/// \note This function is not intended to be used to match Obj-C method
	/// calls.
	friend bool matchesAnyAsWritten(const CallExpr &CE,
	const CallDescription &CD1) {
	return CD1.matchesAsWritten(CE);
	}

	/// \copydoc clang::ento::CallDescription::matchesAnyAsWritten(const CallExpr &, const CallDescription &)
	template <typename... Ts>
	friend bool matchesAnyAsWritten(const CallExpr &CE,
	const CallDescription &CD1,
	const Ts &...CDs) {
	return CD1.matchesAsWritten(CE) \|\| matchesAnyAsWritten(CE, CDs...);
	}
	/// @}

	private:
	bool matchesImpl(const FunctionDecl *Callee, size_t ArgCount,
	size_t ParamCount) const;
	};

	/// An immutable map from CallDescriptions to arbitrary data. Provides a unified
	/// way for checkers to react on function calls.
	template <typename T> class CallDescriptionMap {
	friend class CallDescriptionSet;

	// Some call descriptions aren't easily hashable (eg., the ones with qualified
	// names in which some sections are omitted), so let's put them
	// in a simple vector and use linear lookup.
	// TODO: Implement an actual map for fast lookup for "hashable" call
	// descriptions (eg., the ones for C functions that just match the name).
	std::vector<std::pair<CallDescription, T>> LinearMap;

	public:
	CallDescriptionMap(
	std::initializer_list<std::pair<CallDescription, T>> &&List)
	: LinearMap(List) {}

	template <typename InputIt>
	CallDescriptionMap(InputIt First, InputIt Last) : LinearMap(First, Last) {}

	~CallDescriptionMap() = default;

	// These maps are usually stored once per checker, so let's make sure
	// we don't do redundant copies.
	CallDescriptionMap(const CallDescriptionMap &) = delete;
	CallDescriptionMap &operator=(const CallDescription &) = delete;

	CallDescriptionMap(CallDescriptionMap &&) = default;
	CallDescriptionMap &operator=(CallDescriptionMap &&) = default;

	LLVM_NODISCARD const T *lookup(const CallEvent &Call) const {
	// Slow path: linear lookup.
	// TODO: Implement some sort of fast path.
	for (const std::pair<CallDescription, T> &I : LinearMap)
	if (I.first.matches(Call))
	return &I.second;

	return nullptr;
	}

	/// When available, always prefer lookup with a CallEvent! This function
	/// exists only when that is not available, for example, when _only_
	/// syntactic check is done on a piece of code.
	///
	/// Also, StdLibraryFunctionsChecker::Signature is likely a better candicade
	/// for syntactic only matching if you are writing a new checker. This is
	/// handy if a CallDescriptionMap is already there.
	///
	/// The function is imprecise because CallEvent may know path sensitive
	/// information, such as the precise argument count (see comments for
	/// CallEvent::getNumArgs), the called function if it was called through a
	/// function pointer, and other information not available syntactically.
	LLVM_NODISCARD const T *lookupAsWritten(const CallExpr &Call) const {
	// Slow path: linear lookup.
	// TODO: Implement some sort of fast path.
	for (const std::pair<CallDescription, T> &I : LinearMap)
	if (I.first.matchesAsWritten(Call))
	return &I.second;

	return nullptr;
	}
	};

	/// An immutable set of CallDescriptions.
	/// Checkers can efficiently decide if a given CallEvent matches any
	/// CallDescription in the set.
	class CallDescriptionSet {
	CallDescriptionMap<bool /unused/> Impl = {};

	public:
	CallDescriptionSet(std::initializer_list<CallDescription> &&List);

	CallDescriptionSet(const CallDescriptionSet &) = delete;
	CallDescriptionSet &operator=(const CallDescription &) = delete;

	LLVM_NODISCARD bool contains(const CallEvent &Call) const;

	/// When available, always prefer lookup with a CallEvent! This function
	/// exists only when that is not available, for example, when _only_
	/// syntactic check is done on a piece of code.
	///
	/// Also, StdLibraryFunctionsChecker::Signature is likely a better candicade
	/// for syntactic only matching if you are writing a new checker. This is
	/// handy if a CallDescriptionMap is already there.
	///
	/// The function is imprecise because CallEvent may know path sensitive
	/// information, such as the precise argument count (see comments for
	/// CallEvent::getNumArgs), the called function if it was called through a
	/// function pointer, and other information not available syntactically.
	LLVM_NODISCARD bool containsAsWritten(const CallExpr &CE) const;
	};

	} // namespace ento
	} // namespace clang

	#endif // LLVM_CLANG_STATICANALYZER_CORE_PATHSENSITIVE_CALLDESCRIPTION_H