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Standard-layout types can be used to communicate with code written in other programming languages, as the layout of the type is strictly specified. The C++ Standard, Clause 9 [class], paragraph 7 [ISO/IEC 14882-2014], defines standard-layout classes as ones that:

  • do Do not have virtual functions
  • have Have the same access control for all nonstatic data members
  • has Have no base classes of the same type as the first nonstatic data member
  • has Have nonstatic data members declared in only one class within the class hierarchy
  • recursivelyRecursively, do not have nonstatic data members of nonstandard-layout type

An execution boundary is the delimitation between code compiled by differing compilers, including different versions of a compiler produced by the same vendor. For instance, a function may be declared in a header file , but defined in a library that is loaded at runtime. The execution boundary is between the call site in the executable , and the function implementation in the library. Such boundaries are also called ABI boundaries, as (application binary interface) boundaries because they relate to the interoperability of application binaries.

Assumptions must not be made concerning the specific layout of objects with nonstandard-layout types. For objects compiled by one compiler that are referenced by code compiled by a different compiler, such assumptions cause correctness and portability concerns. The layout of the object generated by the first compiler is not guaranteed to be identical to the layout generated by the second compiler, even if both compilers are conforming C++ implementations. However, some implementations may document binary compatibility guarantees that can be relied on for passing nonstandard-layout objects between execution boundaries.

A special instance of this guidance involves non-C++ code compiled by a different compiler, such as C standard library implementations that are exposed via the C++ standard library. C standard library functions are exposed with C++ signatures, and the type system frequently assists in ensuring that types match appropriately. This process disallows passing a pointer to a C++ object to a function expecting a char * without additional work to suppress the type mismatch. However, some C standard library functions accept a void *, for which any C++ pointer type will suffice. Passing a pointer to a nonstandard-layout type in this situation results in indeterminate behavior , as because it depends on the behavior of the other language as well as on the layout of the given object.

Only pass Pass a nonstandard-layout type object across execution boundaries only when both sides of the execution boundary adhere to the same ABI. For ABI—for instance, if the same version of the compiler is used to compile both sides of the execution boundary, or if the compiler used to compile both sides of the execution boundary is ABI-compatible across multiple versions, or if the differing compilers used document that they adhere to the same ABI.

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If the library and the application conform to the same ABI, either explicitly through vendor documentation , or implicitly by virtue of using the same compiler version to compile both the library and the application, then the noncompliant code example is instead a compliant solution. However, if the library and application do not conform to the same ABI, the compliant solution requires modification of the library and application to work with a standard-layout type.

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In this noncompliant code example, std::memset() is used to clear the internal state of an object that is not of a standard-layout type. An implementation may store a vtable within the object instance, which is subsequently overwritten by the call to std::memset(), leading to undefined behavior when virtual method dispatch is required.

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Compliant Solution

In this compliant solution the solution, the data members of S are cleared explicitly instead of calling std::memset():

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In this noncompliant code example, a pointer to an object of nonstandard-layout type is passed to a function that has a "Fortran" language linkage. Language linkages other than "C" and "C++" are conditionally - supported with implementation-defined semantics [ISO/IEC 14882-2014]. If the the implementation does not support this language linkage, the code is ill-formed. Assuming that the language linkage is supported, any operations performed on the object passed may result in indeterminate behavior, which could have security implications.

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In this compliant solution, the nonstandard-layout type object is serialized into a local standard-layout type object, that which is then passed to the Fortran function:

Code Block
bgColor#ccccff
langcpp
struct B {
  int i, j;
};

struct D : B {
  float f;
};

void f(D *d) {
  struct {
    int i, j;
    float f;
  } temp;
 
  temp.i = d->i;
  temp.j = d->j;
  temp.f = d->f;

  extern "Fortran" void func(void *);
  func(&temp);
}

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The effects of passing objects of nonstandard-layout type across execution boundaries depends on what operations are performed on the object within the callee as well as what subsequent operations are performed on the object from the caller, and . The effects can range from correct or benign behavior to undefined behavior.

Rule

Severity

Likelihood

Remediation Cost

Priority

Level

EXP60-CPP

High

Probable

Medium

P12

L1

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Tool

Version

Checker

Description

Clang

Include Page
Clang_V
Clang_V
-Wdynamic-class-memaccessCatches instances where the vtable pointer will be overwritten

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[ISO/IEC 14882-2014]Clause 9, "Classes"
Subclause 7.5, "Linkage Specifications" 

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