gecko-dev/mfbt/Attributes.h

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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set ts=8 sts=2 et sw=2 tw=80: */
/* This Source Code Form is subject to the terms of the Mozilla Public
2012-05-21 15:12:37 +04:00
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
/* Implementations of various class and method modifier attributes. */
#ifndef mozilla_Attributes_h
#define mozilla_Attributes_h
#include "mozilla/Compiler.h"
/*
* MOZ_ALWAYS_INLINE is a macro which expands to tell the compiler that the
* method decorated with it must be inlined, even if the compiler thinks
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* otherwise. This is only a (much) stronger version of the inline hint:
* compilers are not guaranteed to respect it (although they're much more likely
* to do so).
*
* The MOZ_ALWAYS_INLINE_EVEN_DEBUG macro is yet stronger. It tells the
* compiler to inline even in DEBUG builds. It should be used very rarely.
*/
#if defined(_MSC_VER)
# define MOZ_ALWAYS_INLINE_EVEN_DEBUG __forceinline
#elif defined(__GNUC__)
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# define MOZ_ALWAYS_INLINE_EVEN_DEBUG __attribute__((always_inline)) inline
#else
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# define MOZ_ALWAYS_INLINE_EVEN_DEBUG inline
#endif
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#if !defined(DEBUG)
# define MOZ_ALWAYS_INLINE MOZ_ALWAYS_INLINE_EVEN_DEBUG
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#elif defined(_MSC_VER) && !defined(__cplusplus)
# define MOZ_ALWAYS_INLINE __inline
#else
# define MOZ_ALWAYS_INLINE inline
#endif
#if defined(_MSC_VER)
/*
* g++ requires -std=c++0x or -std=gnu++0x to support C++11 functionality
* without warnings (functionality used by the macros below). These modes are
* detectable by checking whether __GXX_EXPERIMENTAL_CXX0X__ is defined or, more
* standardly, by checking whether __cplusplus has a C++11 or greater value.
* Current versions of g++ do not correctly set __cplusplus, so we check both
* for forward compatibility.
*/
# define MOZ_HAVE_NEVER_INLINE __declspec(noinline)
# define MOZ_HAVE_NORETURN __declspec(noreturn)
#elif defined(__clang__)
/*
* Per Clang documentation, "Note that marketing version numbers should not
* be used to check for language features, as different vendors use different
* numbering schemes. Instead, use the feature checking macros."
*/
# ifndef __has_extension
# define __has_extension __has_feature /* compatibility, for older versions of clang */
# endif
# if __has_attribute(noinline)
# define MOZ_HAVE_NEVER_INLINE __attribute__((noinline))
# endif
# if __has_attribute(noreturn)
# define MOZ_HAVE_NORETURN __attribute__((noreturn))
# endif
#elif defined(__GNUC__)
# define MOZ_HAVE_NEVER_INLINE __attribute__((noinline))
# define MOZ_HAVE_NORETURN __attribute__((noreturn))
# define MOZ_HAVE_NORETURN_PTR __attribute__((noreturn))
#endif
/*
* When built with clang analyzer (a.k.a scan-build), define MOZ_HAVE_NORETURN
* to mark some false positives
*/
#ifdef __clang_analyzer__
# if __has_extension(attribute_analyzer_noreturn)
# define MOZ_HAVE_ANALYZER_NORETURN __attribute__((analyzer_noreturn))
# endif
#endif
/*
* MOZ_NEVER_INLINE is a macro which expands to tell the compiler that the
* method decorated with it must never be inlined, even if the compiler would
* otherwise choose to inline the method. Compilers aren't absolutely
* guaranteed to support this, but most do.
*/
#if defined(MOZ_HAVE_NEVER_INLINE)
# define MOZ_NEVER_INLINE MOZ_HAVE_NEVER_INLINE
#else
# define MOZ_NEVER_INLINE /* no support */
#endif
/*
* MOZ_NORETURN, specified at the start of a function declaration, indicates
* that the given function does not return. (The function definition does not
* need to be annotated.)
*
* MOZ_NORETURN void abort(const char* msg);
*
* This modifier permits the compiler to optimize code assuming a call to such a
* function will never return. It also enables the compiler to avoid spurious
* warnings about not initializing variables, or about any other seemingly-dodgy
* operations performed after the function returns.
*
* There are two variants. The GCC version of NORETURN may be applied to a
* function pointer, while for MSVC it may not.
*
* This modifier does not affect the corresponding function's linking behavior.
*/
#if defined(MOZ_HAVE_NORETURN)
# define MOZ_NORETURN MOZ_HAVE_NORETURN
#else
# define MOZ_NORETURN /* no support */
#endif
#if defined(MOZ_HAVE_NORETURN_PTR)
# define MOZ_NORETURN_PTR MOZ_HAVE_NORETURN_PTR
#else
# define MOZ_NORETURN_PTR /* no support */
#endif
/**
* MOZ_COLD tells the compiler that a function is "cold", meaning infrequently
* executed. This may lead it to optimize for size more aggressively than speed,
* or to allocate the body of the function in a distant part of the text segment
* to help keep it from taking up unnecessary icache when it isn't in use.
*
* Place this attribute at the very beginning of a function definition. For
* example, write
*
* MOZ_COLD int foo();
*
* or
*
* MOZ_COLD int foo() { return 42; }
*/
#if defined(__GNUC__) || defined(__clang__)
# define MOZ_COLD __attribute__ ((cold))
#else
# define MOZ_COLD
#endif
/**
* MOZ_NONNULL tells the compiler that some of the arguments to a function are
* known to be non-null. The arguments are a list of 1-based argument indexes
* identifying arguments which are known to be non-null.
*
* Place this attribute at the very beginning of a function definition. For
* example, write
*
* MOZ_NONNULL(1, 2) int foo(char *p, char *q);
*/
#if defined(__GNUC__) || defined(__clang__)
# define MOZ_NONNULL(...) __attribute__ ((nonnull(__VA_ARGS__)))
#else
# define MOZ_NONNULL(...)
#endif
/**
* MOZ_NONNULL_RETURN tells the compiler that the function's return value is
* guaranteed to be a non-null pointer, which may enable the compiler to
* optimize better at call sites.
*
* Place this attribute at the end of a function declaration. For example,
*
* char* foo(char *p, char *q) MOZ_NONNULL_RETURN;
*/
#if defined(__GNUC__) || defined(__clang__)
# define MOZ_NONNULL_RETURN __attribute__ ((returns_nonnull))
#else
# define MOZ_NONNULL_RETURN
#endif
/*
* MOZ_PRETEND_NORETURN_FOR_STATIC_ANALYSIS, specified at the end of a function
* declaration, indicates that for the purposes of static analysis, this
* function does not return. (The function definition does not need to be
* annotated.)
*
* MOZ_ReportCrash(const char* s, const char* file, int ln)
* MOZ_PRETEND_NORETURN_FOR_STATIC_ANALYSIS
*
* Some static analyzers, like scan-build from clang, can use this information
* to eliminate false positives. From the upstream documentation of scan-build:
* "This attribute is useful for annotating assertion handlers that actually
* can return, but for the purpose of using the analyzer we want to pretend
* that such functions do not return."
*
*/
#if defined(MOZ_HAVE_ANALYZER_NORETURN)
# define MOZ_PRETEND_NORETURN_FOR_STATIC_ANALYSIS MOZ_HAVE_ANALYZER_NORETURN
#else
# define MOZ_PRETEND_NORETURN_FOR_STATIC_ANALYSIS /* no support */
#endif
/*
* MOZ_ASAN_BLACKLIST is a macro to tell AddressSanitizer (a compile-time
* instrumentation shipped with Clang and GCC) to not instrument the annotated
* function. Furthermore, it will prevent the compiler from inlining the
* function because inlining currently breaks the blacklisting mechanism of
* AddressSanitizer.
*/
#if defined(__has_feature)
# if __has_feature(address_sanitizer)
# define MOZ_HAVE_ASAN_BLACKLIST
# endif
#elif defined(__GNUC__)
# if defined(__SANITIZE_ADDRESS__)
# define MOZ_HAVE_ASAN_BLACKLIST
# endif
#endif
#if defined(MOZ_HAVE_ASAN_BLACKLIST)
# define MOZ_ASAN_BLACKLIST MOZ_NEVER_INLINE __attribute__((no_sanitize_address))
#else
# define MOZ_ASAN_BLACKLIST /* nothing */
#endif
/*
* MOZ_TSAN_BLACKLIST is a macro to tell ThreadSanitizer (a compile-time
* instrumentation shipped with Clang) to not instrument the annotated function.
* Furthermore, it will prevent the compiler from inlining the function because
* inlining currently breaks the blacklisting mechanism of ThreadSanitizer.
*/
#if defined(__has_feature)
# if __has_feature(thread_sanitizer)
# define MOZ_TSAN_BLACKLIST MOZ_NEVER_INLINE __attribute__((no_sanitize_thread))
# else
# define MOZ_TSAN_BLACKLIST /* nothing */
# endif
#else
# define MOZ_TSAN_BLACKLIST /* nothing */
#endif
Bug 1373256 - Changes to support -fsanitize=integer in the codebase. r=froydnj The -fsanitize=integer analysis from UBSan can be helpful to detect signed and unsigned integer overflows in the codebase. Unfortunately, those occur very frequently, making it impossible to test anything with it without the use of a huge blacklist. This patch includes a blacklist that is broad enough to silence everything that would drain performance too much. But even with this blacklist, neither tests nor fuzzing is "clean". We can however in the future combine this with static analysis to limit ourselves to interesting places to look at, or improve the dynamic analysis to omit typical benign overflows. It also adds another attribute that can be used on functions. It is not used right now because it was initially easier to add things to the compile-time blacklist to get started. Finally, it includes a runtime suppression list and patches various parts in the test harnesses to support that. It is currently empty and it should not be used on frequent overflows because it is expensive. However, it has the advantage that it can be used to differentiate between signed and unsigned overflows while the compile-time blacklist cannot do that. So it can be used to e.g. silence unsigned integer overflows on a file or function while still reporting signed issues. We can also use this suppression list for any other UBSan related suppressions, should we ever want to use other features from that sanitizer. MozReview-Commit-ID: C5ofhfJdpCS --HG-- extra : rebase_source : 952043a441b41b2f58ec4abc51ac15fa71fc142f
2017-04-09 13:59:26 +03:00
/*
* The MOZ_NO_SANITIZE_* family of macros is an annotation based on a more recently
* introduced Clang feature that allows disabling various sanitizer features for
* the particular function, including those from UndefinedBehaviorSanitizer.
*/
#if defined(__has_attribute)
# if __has_attribute(no_sanitize)
# define MOZ_HAVE_NO_SANITIZE_ATTR
# endif
#endif
#if defined(MOZ_HAVE_NO_SANITIZE_ATTR)
# define MOZ_NO_SANITIZE_UINT_OVERFLOW __attribute__((no_sanitize("unsigned-integer-overflow")))
# define MOZ_NO_SANITIZE_INT_OVERFLOW __attribute__((no_sanitize("signed-integer-overflow")))
#else
# define MOZ_NO_SANITIZE_UINT_OVERFLOW /* nothing */
# define MOZ_NO_SANITIZE_INT_OVERFLOW /* nothing */
#endif
#undef MOZ_HAVE_NO_SANITIZE_ATTR
/**
* MOZ_ALLOCATOR tells the compiler that the function it marks returns either a
* "fresh", "pointer-free" block of memory, or nullptr. "Fresh" means that the
* block is not pointed to by any other reachable pointer in the program.
* "Pointer-free" means that the block contains no pointers to any valid object
* in the program. It may be initialized with other (non-pointer) values.
*
* Placing this attribute on appropriate functions helps GCC analyze pointer
* aliasing more accurately in their callers.
*
* GCC warns if a caller ignores the value returned by a function marked with
* MOZ_ALLOCATOR: it is hard to imagine cases where dropping the value returned
* by a function that meets the criteria above would be intentional.
*
* Place this attribute after the argument list and 'this' qualifiers of a
* function definition. For example, write
*
* void *my_allocator(size_t) MOZ_ALLOCATOR;
*
* or
*
* void *my_allocator(size_t bytes) MOZ_ALLOCATOR { ... }
*/
#if defined(__GNUC__) || defined(__clang__)
# define MOZ_ALLOCATOR __attribute__ ((malloc, warn_unused_result))
#else
# define MOZ_ALLOCATOR
#endif
/**
* MOZ_MUST_USE tells the compiler to emit a warning if a function's
* return value is not used by the caller.
*
* Place this attribute at the very beginning of a function declaration. For
* example, write
*
* MOZ_MUST_USE int foo();
* or
* MOZ_MUST_USE int foo() { return 42; }
*
* MOZ_MUST_USE is most appropriate for functions where the return value is
* some kind of success/failure indicator -- often |nsresult|, |bool| or |int|
* -- because these functions are most commonly the ones that have missing
* checks. There are three cases of note.
*
* - Fallible functions whose return values should always be checked. For
* example, a function that opens a file should always be checked because any
* subsequent operations on the file will fail if opening it fails. Such
* functions should be given a MOZ_MUST_USE annotation.
*
* - Fallible functions whose return value need not always be checked. For
* example, a function that closes a file might not be checked because it's
* common that no further operations would be performed on the file. Such
* functions do not need a MOZ_MUST_USE annotation.
*
* - Infallible functions, i.e. ones that always return a value indicating
* success. These do not need a MOZ_MUST_USE annotation. Ideally, they would
* be converted to not return a success/failure indicator, though sometimes
* interface constraints prevent this.
*/
#if defined(__GNUC__) || defined(__clang__)
# define MOZ_MUST_USE __attribute__ ((warn_unused_result))
#else
# define MOZ_MUST_USE
#endif
/**
* MOZ_MAYBE_UNUSED suppresses compiler warnings about functions that are
* never called (in this build configuration, at least).
*
* Place this attribute at the very beginning of a function declaration. For
* example, write
*
* MOZ_MAYBE_UNUSED int foo();
*
* or
*
* MOZ_MAYBE_UNUSED int foo() { return 42; }
*/
#if defined(__GNUC__) || defined(__clang__)
# define MOZ_MAYBE_UNUSED __attribute__ ((__unused__))
#elif defined(_MSC_VER)
# define MOZ_MAYBE_UNUSED __pragma(warning(suppress:4505))
#else
# define MOZ_MAYBE_UNUSED
#endif
#ifdef __cplusplus
/**
* MOZ_FALLTHROUGH is an annotation to suppress compiler warnings about switch
* cases that fall through without a break or return statement. MOZ_FALLTHROUGH
* is only needed on cases that have code.
*
* MOZ_FALLTHROUGH_ASSERT is an annotation to suppress compiler warnings about
* switch cases that MOZ_ASSERT(false) (or its alias MOZ_ASSERT_UNREACHABLE) in
* debug builds, but intentionally fall through in release builds. See comment
* in Assertions.h for more details.
*
* switch (foo) {
* case 1: // These cases have no code. No fallthrough annotations are needed.
* case 2:
* case 3: // This case has code, so a fallthrough annotation is needed!
* foo++;
* MOZ_FALLTHROUGH;
* case 4:
* return foo;
*
* default:
* // This case asserts in debug builds, falls through in release.
* MOZ_FALLTHROUGH_ASSERT("Unexpected foo value?!");
* case 5:
* return 5;
* }
*/
#ifndef __has_cpp_attribute
# define __has_cpp_attribute(x) 0
#endif
#if __has_cpp_attribute(clang::fallthrough)
# define MOZ_FALLTHROUGH [[clang::fallthrough]]
#elif __has_cpp_attribute(gnu::fallthrough)
# define MOZ_FALLTHROUGH [[gnu::fallthrough]]
#elif defined(_MSC_VER)
/*
* MSVC's __fallthrough annotations are checked by /analyze (Code Analysis):
* https://msdn.microsoft.com/en-us/library/ms235402%28VS.80%29.aspx
*/
# include <sal.h>
# define MOZ_FALLTHROUGH __fallthrough
#else
# define MOZ_FALLTHROUGH /* FALLTHROUGH */
#endif
/*
* The following macros are attributes that support the static analysis plugin
* included with Mozilla, and will be implemented (when such support is enabled)
* as C++11 attributes. Since such attributes are legal pretty much everywhere
* and have subtly different semantics depending on their placement, the
* following is a guide on where to place the attributes.
*
* Attributes that apply to a struct or class precede the name of the class:
* (Note that this is different from the placement of final for classes!)
*
* class MOZ_CLASS_ATTRIBUTE SomeClass {};
*
* Attributes that apply to functions follow the parentheses and const
* qualifiers but precede final, override and the function body:
*
* void DeclaredFunction() MOZ_FUNCTION_ATTRIBUTE;
* void SomeFunction() MOZ_FUNCTION_ATTRIBUTE {}
* void PureFunction() const MOZ_FUNCTION_ATTRIBUTE = 0;
* void OverriddenFunction() MOZ_FUNCTION_ATTIRBUTE override;
*
* Attributes that apply to variables or parameters follow the variable's name:
*
* int variable MOZ_VARIABLE_ATTRIBUTE;
*
* Attributes that apply to types follow the type name:
*
* typedef int MOZ_TYPE_ATTRIBUTE MagicInt;
* int MOZ_TYPE_ATTRIBUTE someVariable;
* int* MOZ_TYPE_ATTRIBUTE magicPtrInt;
* int MOZ_TYPE_ATTRIBUTE* ptrToMagicInt;
*
* Attributes that apply to statements precede the statement:
*
* MOZ_IF_ATTRIBUTE if (x == 0)
* MOZ_DO_ATTRIBUTE do { } while (0);
*
* Attributes that apply to labels precede the label:
*
* MOZ_LABEL_ATTRIBUTE target:
* goto target;
* MOZ_CASE_ATTRIBUTE case 5:
* MOZ_DEFAULT_ATTRIBUTE default:
*
* The static analyses that are performed by the plugin are as follows:
*
* MOZ_CAN_RUN_SCRIPT: Applies to functions which can run script. Callers of
* this function must also be marked as MOZ_CAN_RUN_SCRIPT, and all refcounted
* arguments must be strongly held in the caller.
* MOZ_CAN_RUN_SCRIPT_BOUNDARY: Applies to functions which need to call
* MOZ_CAN_RUN_SCRIPT functions, but should not themselves be considered
* MOZ_CAN_RUN_SCRIPT. This is important for some bindings and low level code
* which need to opt out of the safety checks performed by MOZ_CAN_RUN_SCRIPT.
* MOZ_MUST_OVERRIDE: Applies to all C++ member functions. All immediate
* subclasses must provide an exact override of this method; if a subclass
* does not override this method, the compiler will emit an error. This
* attribute is not limited to virtual methods, so if it is applied to a
* nonvirtual method and the subclass does not provide an equivalent
* definition, the compiler will emit an error.
* MOZ_STACK_CLASS: Applies to all classes. Any class with this annotation is
* expected to live on the stack, so it is a compile-time error to use it, or
* an array of such objects, as a global or static variable, or as the type of
* a new expression (unless placement new is being used). If a member of
* another class uses this class, or if another class inherits from this
* class, then it is considered to be a stack class as well, although this
* attribute need not be provided in such cases.
* MOZ_NONHEAP_CLASS: Applies to all classes. Any class with this annotation is
* expected to live on the stack or in static storage, so it is a compile-time
* error to use it, or an array of such objects, as the type of a new
* expression. If a member of another class uses this class, or if another
* class inherits from this class, then it is considered to be a non-heap class
* as well, although this attribute need not be provided in such cases.
* MOZ_HEAP_CLASS: Applies to all classes. Any class with this annotation is
* expected to live on the heap, so it is a compile-time error to use it, or
* an array of such objects, as the type of a variable declaration, or as a
* temporary object. If a member of another class uses this class, or if
* another class inherits from this class, then it is considered to be a heap
* class as well, although this attribute need not be provided in such cases.
* MOZ_NON_TEMPORARY_CLASS: Applies to all classes. Any class with this
* annotation is expected not to live in a temporary. If a member of another
* class uses this class or if another class inherits from this class, then it
* is considered to be a non-temporary class as well, although this attribute
* need not be provided in such cases.
* MOZ_RAII: Applies to all classes. Any class with this annotation is assumed
* to be a RAII guard, which is expected to live on the stack in an automatic
* allocation. It is prohibited from being allocated in a temporary, static
* storage, or on the heap. This is a combination of MOZ_STACK_CLASS and
* MOZ_NON_TEMPORARY_CLASS.
* MOZ_ONLY_USED_TO_AVOID_STATIC_CONSTRUCTORS: Applies to all classes that are
* intended to prevent introducing static initializers. This attribute
* currently makes it a compile-time error to instantiate these classes
* anywhere other than at the global scope, or as a static member of a class.
* In non-debug mode, it also prohibits non-trivial constructors and
* destructors.
* MOZ_TRIVIAL_CTOR_DTOR: Applies to all classes that must have both a trivial
* or constexpr constructor and a trivial destructor. Setting this attribute
* on a class makes it a compile-time error for that class to get a
* non-trivial constructor or destructor for any reason.
* MOZ_HEAP_ALLOCATOR: Applies to any function. This indicates that the return
* value is allocated on the heap, and will as a result check such allocations
* during MOZ_STACK_CLASS and MOZ_NONHEAP_CLASS annotation checking.
* MOZ_IMPLICIT: Applies to constructors. Implicit conversion constructors
* are disallowed by default unless they are marked as MOZ_IMPLICIT. This
* attribute must be used for constructors which intend to provide implicit
* conversions.
* MOZ_IS_REFPTR: Applies to class declarations of ref pointer to mark them as
* such for use with static-analysis.
* A ref pointer is an object wrapping a pointer and automatically taking care
* of its refcounting upon construction/destruction/transfer of ownership.
* This annotation implies MOZ_IS_SMARTPTR_TO_REFCOUNTED.
* MOZ_IS_SMARTPTR_TO_REFCOUNTED: Applies to class declarations of smart
* pointers to ref counted classes to mark them as such for use with
* static-analysis.
* MOZ_NO_ARITHMETIC_EXPR_IN_ARGUMENT: Applies to functions. Makes it a compile
2014-12-19 21:40:30 +03:00
* time error to pass arithmetic expressions on variables to the function.
* MOZ_OWNING_REF: Applies to declarations of pointers to reference counted
* types. This attribute tells the compiler that the raw pointer is a strong
* reference, where ownership through methods such as AddRef and Release is
* managed manually. This can make the compiler ignore these pointers when
* validating the usage of pointers otherwise.
*
* Example uses include owned pointers inside of unions, and pointers stored
* in POD types where a using a smart pointer class would make the object
* non-POD.
* MOZ_NON_OWNING_REF: Applies to declarations of pointers to reference counted
* types. This attribute tells the compiler that the raw pointer is a weak
* reference, which is ensured to be valid by a guarantee that the reference
* will be nulled before the pointer becomes invalid. This can make the compiler
* ignore these pointers when validating the usage of pointers otherwise.
*
* Examples include an mOwner pointer, which is nulled by the owning class's
* destructor, and is null-checked before dereferencing.
* MOZ_UNSAFE_REF: Applies to declarations of pointers to reference counted types.
* Occasionally there are non-owning references which are valid, but do not take
* the form of a MOZ_NON_OWNING_REF. Their safety may be dependent on the behaviour
* of API consumers. The string argument passed to this macro documents the safety
* conditions. This can make the compiler ignore these pointers when validating
* the usage of pointers elsewhere.
*
* Examples include an nsAtom* member which is known at compile time to point to a
* static atom which is valid throughout the lifetime of the program, or an API which
* stores a pointer, but doesn't take ownership over it, instead requiring the API
* consumer to correctly null the value before it becomes invalid.
*
* Use of this annotation is discouraged when a strong reference or one of the above
* two annotations can be used instead.
* MOZ_NO_ADDREF_RELEASE_ON_RETURN: Applies to function declarations. Makes it
* a compile time error to call AddRef or Release on the return value of a
* function. This is intended to be used with operator->() of our smart
* pointer classes to ensure that the refcount of an object wrapped in a
* smart pointer is not manipulated directly.
* MOZ_MUST_USE_TYPE: Applies to type declarations. Makes it a compile time
* error to not use the return value of a function which has this type. This
* is intended to be used with types which it is an error to not use.
* MOZ_NEEDS_NO_VTABLE_TYPE: Applies to template class declarations. Makes it
* a compile time error to instantiate this template with a type parameter which
* has a VTable.
* MOZ_NON_MEMMOVABLE: Applies to class declarations for types that are not safe
* to be moved in memory using memmove().
* MOZ_NEEDS_MEMMOVABLE_TYPE: Applies to template class declarations where the
* template arguments are required to be safe to move in memory using
* memmove(). Passing MOZ_NON_MEMMOVABLE types to these templates is a
* compile time error.
* MOZ_NEEDS_MEMMOVABLE_MEMBERS: Applies to class declarations where each member
* must be safe to move in memory using memmove(). MOZ_NON_MEMMOVABLE types
* used in members of these classes are compile time errors.
* MOZ_NO_DANGLING_ON_TEMPORARIES: Applies to method declarations which return
* a pointer that is freed when the destructor of the class is called. This
* prevents these methods from being called on temporaries of the class,
* reducing risks of use-after-free.
* This attribute cannot be applied to && methods.
* In some cases, adding a deleted &&-qualified overload is too restrictive as
* this method should still be callable as a non-escaping argument to another
* function. This annotation can be used in those cases.
* MOZ_INHERIT_TYPE_ANNOTATIONS_FROM_TEMPLATE_ARGS: Applies to template class
* declarations where an instance of the template should be considered, for
* static analysis purposes, to inherit any type annotations (such as
* MOZ_MUST_USE_TYPE and MOZ_STACK_CLASS) from its template arguments.
* MOZ_INIT_OUTSIDE_CTOR: Applies to class member declarations. Occasionally
* there are class members that are not initialized in the constructor,
* but logic elsewhere in the class ensures they are initialized prior to use.
* Using this attribute on a member disables the check that this member must be
* initialized in constructors via list-initialization, in the constructor body,
* or via functions called from the constructor body.
* MOZ_IS_CLASS_INIT: Applies to class method declarations. Occasionally the
* constructor doesn't initialize all of the member variables and another function
* is used to initialize the rest. This marker is used to make the static analysis
* tool aware that the marked function is part of the initialization process
* and to include the marked function in the scan mechanism that determines witch
* member variables still remain uninitialized.
* MOZ_NON_PARAM: Applies to types. Makes it compile time error to use the type
* in parameter without pointer or reference.
* MOZ_NON_AUTOABLE: Applies to class declarations. Makes it a compile time error to
* use `auto` in place of this type in variable declarations. This is intended to
* be used with types which are intended to be implicitly constructed into other
* other types before being assigned to variables.
* MOZ_REQUIRED_BASE_METHOD: Applies to virtual class method declarations.
* Sometimes derived classes override methods that need to be called by their
* overridden counterparts. This marker indicates that the marked method must
* be called by the method that it overrides.
* MOZ_MUST_RETURN_FROM_CALLER: Applies to function or method declarations.
* Callers of the annotated function/method must return from that function
* within the calling block using an explicit `return` statement.
* Only calls to Constructors, references to local and member variables,
* and calls to functions or methods marked as MOZ_MAY_CALL_AFTER_MUST_RETURN
* may be made after the MUST_RETURN_FROM_CALLER call.
* MOZ_MAY_CALL_AFTER_MUST_RETURN: Applies to function or method declarations.
* Calls to these methods may be made in functions after calls a
* MOZ_MUST_RETURN_FROM_CALLER function or method.
*/
#ifdef MOZ_CLANG_PLUGIN
# define MOZ_CAN_RUN_SCRIPT __attribute__((annotate("moz_can_run_script")))
# define MOZ_CAN_RUN_SCRIPT_BOUNDARY __attribute__((annotate("moz_can_run_script_boundary")))
# define MOZ_MUST_OVERRIDE __attribute__((annotate("moz_must_override")))
# define MOZ_STACK_CLASS __attribute__((annotate("moz_stack_class")))
# define MOZ_NONHEAP_CLASS __attribute__((annotate("moz_nonheap_class")))
# define MOZ_HEAP_CLASS __attribute__((annotate("moz_heap_class")))
# define MOZ_NON_TEMPORARY_CLASS __attribute__((annotate("moz_non_temporary_class")))
# define MOZ_TRIVIAL_CTOR_DTOR __attribute__((annotate("moz_trivial_ctor_dtor")))
# ifdef DEBUG
/* in debug builds, these classes do have non-trivial constructors. */
# define MOZ_ONLY_USED_TO_AVOID_STATIC_CONSTRUCTORS __attribute__((annotate("moz_global_class")))
# else
# define MOZ_ONLY_USED_TO_AVOID_STATIC_CONSTRUCTORS __attribute__((annotate("moz_global_class"))) \
MOZ_TRIVIAL_CTOR_DTOR
# endif
# define MOZ_IMPLICIT __attribute__((annotate("moz_implicit")))
# define MOZ_IS_SMARTPTR_TO_REFCOUNTED __attribute__((annotate("moz_is_smartptr_to_refcounted")))
# define MOZ_IS_REFPTR __attribute__((annotate("moz_is_refptr"))) \
MOZ_IS_SMARTPTR_TO_REFCOUNTED
# define MOZ_NO_ARITHMETIC_EXPR_IN_ARGUMENT __attribute__((annotate("moz_no_arith_expr_in_arg")))
# define MOZ_OWNING_REF __attribute__((annotate("moz_strong_ref")))
# define MOZ_NON_OWNING_REF __attribute__((annotate("moz_weak_ref")))
# define MOZ_UNSAFE_REF(reason) __attribute__((annotate("moz_weak_ref")))
# define MOZ_NO_ADDREF_RELEASE_ON_RETURN __attribute__((annotate("moz_no_addref_release_on_return")))
# define MOZ_MUST_USE_TYPE __attribute__((annotate("moz_must_use_type")))
# define MOZ_NEEDS_NO_VTABLE_TYPE __attribute__((annotate("moz_needs_no_vtable_type")))
# define MOZ_NON_MEMMOVABLE __attribute__((annotate("moz_non_memmovable")))
# define MOZ_NEEDS_MEMMOVABLE_TYPE __attribute__((annotate("moz_needs_memmovable_type")))
# define MOZ_NEEDS_MEMMOVABLE_MEMBERS __attribute__((annotate("moz_needs_memmovable_members")))
# define MOZ_NO_DANGLING_ON_TEMPORARIES __attribute__((annotate("moz_no_dangling_on_temporaries")))
# define MOZ_INHERIT_TYPE_ANNOTATIONS_FROM_TEMPLATE_ARGS \
__attribute__((annotate("moz_inherit_type_annotations_from_template_args")))
# define MOZ_NON_AUTOABLE __attribute__((annotate("moz_non_autoable")))
# define MOZ_INIT_OUTSIDE_CTOR \
__attribute__((annotate("moz_ignore_ctor_initialization")))
# define MOZ_IS_CLASS_INIT \
__attribute__((annotate("moz_is_class_init")))
# define MOZ_NON_PARAM \
__attribute__((annotate("moz_non_param")))
# define MOZ_REQUIRED_BASE_METHOD \
__attribute__((annotate("moz_required_base_method")))
# define MOZ_MUST_RETURN_FROM_CALLER \
__attribute__((annotate("moz_must_return_from_caller")))
# define MOZ_MAY_CALL_AFTER_MUST_RETURN \
__attribute__((annotate("moz_may_call_after_must_return")))
/*
* It turns out that clang doesn't like void func() __attribute__ {} without a
* warning, so use pragmas to disable the warning. This code won't work on GCC
* anyways, so the warning is safe to ignore.
*/
# define MOZ_HEAP_ALLOCATOR \
_Pragma("clang diagnostic push") \
_Pragma("clang diagnostic ignored \"-Wgcc-compat\"") \
__attribute__((annotate("moz_heap_allocator"))) \
_Pragma("clang diagnostic pop")
#else
# define MOZ_CAN_RUN_SCRIPT /* nothing */
# define MOZ_CAN_RUN_SCRIPT_BOUNDARY /* nothing */
# define MOZ_MUST_OVERRIDE /* nothing */
# define MOZ_STACK_CLASS /* nothing */
# define MOZ_NONHEAP_CLASS /* nothing */
# define MOZ_HEAP_CLASS /* nothing */
# define MOZ_NON_TEMPORARY_CLASS /* nothing */
# define MOZ_TRIVIAL_CTOR_DTOR /* nothing */
# define MOZ_ONLY_USED_TO_AVOID_STATIC_CONSTRUCTORS /* nothing */
# define MOZ_IMPLICIT /* nothing */
# define MOZ_IS_SMARTPTR_TO_REFCOUNTED /* nothing */
# define MOZ_IS_REFPTR /* nothing */
# define MOZ_NO_ARITHMETIC_EXPR_IN_ARGUMENT /* nothing */
# define MOZ_HEAP_ALLOCATOR /* nothing */
# define MOZ_OWNING_REF /* nothing */
# define MOZ_NON_OWNING_REF /* nothing */
# define MOZ_UNSAFE_REF(reason) /* nothing */
# define MOZ_NO_ADDREF_RELEASE_ON_RETURN /* nothing */
# define MOZ_MUST_USE_TYPE /* nothing */
# define MOZ_NEEDS_NO_VTABLE_TYPE /* nothing */
# define MOZ_NON_MEMMOVABLE /* nothing */
# define MOZ_NEEDS_MEMMOVABLE_TYPE /* nothing */
# define MOZ_NEEDS_MEMMOVABLE_MEMBERS /* nothing */
# define MOZ_NO_DANGLING_ON_TEMPORARIES /* nothing */
# define MOZ_INHERIT_TYPE_ANNOTATIONS_FROM_TEMPLATE_ARGS /* nothing */
# define MOZ_INIT_OUTSIDE_CTOR /* nothing */
# define MOZ_IS_CLASS_INIT /* nothing */
# define MOZ_NON_PARAM /* nothing */
# define MOZ_NON_AUTOABLE /* nothing */
# define MOZ_REQUIRED_BASE_METHOD /* nothing */
# define MOZ_MUST_RETURN_FROM_CALLER /* nothing */
# define MOZ_MAY_CALL_AFTER_MUST_RETURN /* nothing */
#endif /* MOZ_CLANG_PLUGIN */
#define MOZ_RAII MOZ_NON_TEMPORARY_CLASS MOZ_STACK_CLASS
#endif /* __cplusplus */
/**
* Printf style formats. MOZ_FORMAT_PRINTF can be used to annotate a
* function or method that is "printf-like"; this will let (some)
* compilers check that the arguments match the template string.
*
* This macro takes two arguments. The first argument is the argument
* number of the template string. The second argument is the argument
* number of the '...' argument holding the arguments.
*
* Argument numbers start at 1. Note that the implicit "this"
* argument of a non-static member function counts as an argument.
*
* So, for a simple case like:
* void print_something (int whatever, const char *fmt, ...);
* The corresponding annotation would be
* MOZ_FORMAT_PRINTF(2, 3)
* However, if "print_something" were a non-static member function,
* then the annotation would be:
* MOZ_FORMAT_PRINTF(3, 4)
*
* The second argument should be 0 for vprintf-like functions; that
* is, those taking a va_list argument.
*
* Note that the checking is limited to standards-conforming
* printf-likes, and in particular this should not be used for
* PR_snprintf and friends, which are "printf-like" but which assign
* different meanings to the various formats.
*
* MinGW requires special handling due to different format specifiers
* on different platforms. The macro __MINGW_PRINTF_FORMAT maps to
* either gnu_printf or ms_printf depending on where we are compiling
* to avoid warnings on format specifiers that are legal.
*/
#ifdef __MINGW32__
#define MOZ_FORMAT_PRINTF(stringIndex, firstToCheck) \
__attribute__ ((format (__MINGW_PRINTF_FORMAT, stringIndex, firstToCheck)))
#elif __GNUC__
#define MOZ_FORMAT_PRINTF(stringIndex, firstToCheck) \
__attribute__ ((format (printf, stringIndex, firstToCheck)))
#else
#define MOZ_FORMAT_PRINTF(stringIndex, firstToCheck)
#endif
/**
* To manually declare an XPCOM ABI-compatible virtual function, the following
* macros can be used to handle the non-standard ABI used on Windows for COM
* compatibility. E.g.:
*
* virtual ReturnType MOZ_XPCOM_ABI foo();
*/
#if defined(XP_WIN)
# define MOZ_XPCOM_ABI __stdcall
#else
# define MOZ_XPCOM_ABI
#endif
#endif /* mozilla_Attributes_h */