Referring to objects of incomplete class type, also known as forward declarations, is a common practice. One such common usage is with the "pimpl idiom" [Sutter 00] whereby an opaque pointer is used to hide implementation details from a public-facing API. However, attempting to delete a pointer to an object of incomplete class type can lead to undefined behavior. The C++ Standard, [expr.delete], paragraph 5 [ISO/IEC 14882-2014], states the following:
If the object being deleted has incomplete class type at the point of deletion and the complete class has a non-trivial destructor or a deallocation function, the behavior is undefined.
Do not attempt to delete a pointer to an object of incomplete type. Although it is well-formed if the class has no nontrivial destructor and no associated deallocation function, it would become undefined behavior were a nontrivial destructor or deallocation function added later. It would be possible to check for a nontrivial destructor at compile time using a static_assert
and the std::is_trivially_destructible
type trait, but no such type trait exists to test for the presence of a deallocation function.
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reinterpret_cast
of a pointer type is defined by [expr.reinterpret.cast], paragraph 7, as being static_cast<cv T *>(static_cast<cv void *>(PtrValue))
, meaning that reinterpret_cast
is simply a sequence of static_cast
operations. C-style casts of a pointer to incomplete an incomplete object type are defined as using either static_cast
or reinterpret_cast
(it is unspecified which is picked is unspecified) in [expr.cast], paragraph 5.
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In this noncompliant code example, a class attempts to implement the pimpl idiom but deletes a pointer to an incomplete class type, resulting in undefined behavior if Body
has a nontrivial destructor:.
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class Handle { class Body *impl; // Declaration of a pointer to an incomplete class public: ~Handle() { delete impl; } // Deletion of pointer to an incomplete class // ... }; |
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In this compliant solution, the deletion of impl
is moved to a part of the code where Body
is defined:.
Code Block | ||||
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class Handle { class Body *impl; // Declaration of a pointer to an incomplete class public: ~Handle(); // ... }; // Elsewhere class Body { /* ... */ }; Handle::~Handle() { delete impl; } |
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In this compliant solution, a std::shared_ptr
is used to own the memory to impl
. Note that a A std::shared_ptr
is capable of referring to an incomplete type, but a std::unique_ptr
is not.
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Code Block | ||||
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// File1.h class B { protected: double d; public: B() : d(1.0) {} }; // File2.h void g(class D *); class B *get_d(); // Returns a pointer to a D object // File1.cpp #include "File1.h" #include "File2.h" void f() { B *v = get_d(); g(reinterpret_cast<class D *>(v)); } // File2.cpp #include "File2.h" #include "File1.h" #include <iostream> class Hah { protected: short s; public: Hah() : s(12) {} }; class D : public Hah, public B { float f; public: D() : Hah(), B(), f(1.2f) {} void do_something() { std::cout << "f: " << f << ", d: " << d << ", s: " << s << std::endl; } }; void g(D *d) { d->do_something(); } B *get_d() { return new D; } |
Implementation Details
When compiled with ClangBB. Definitions#clang3.8 and the function f()
is executed, the noncompliant code example prints the following:.
Code Block |
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f: 1.89367e-40, d: 5.27183e-315, s: 0 |
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This compliant solution assumes that the intent is to hide implementation details by using incomplete class types. Instead of requiring a D *
to be passed to g()
, it expects a B *
type:.
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// File1.h -- contents identical. // File2.h void g(class B *); // Accepts a B object, expects a D object class B *get_d(); // Returns a pointer to a D object // File1.cpp #include "File1.h" #include "File2.h" void f() { B *v = get_d(); g(v); } // File2.cpp // ... all contents are identical until ... void g(B *d) { D *t = dynamic_cast<D *>(d); if (t) { t->do_something(); } else { // Handle error } } B *get_d() { return new D; } |
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Casting pointers or references to incomplete classes can result in bad addresses. Deleting a pointer to an incomplete class results in undefined behavior if the class has a nontrivial destructor. Doing so can cause program termination, a runtime signal, or resource leaks.
Rule | Severity | Likelihood | Remediation Cost | Priority | Level |
---|---|---|---|---|---|
EXP57-CPP | Medium | Unlikely | Medium | P4 | L3 |
Automated Detection
Tool | Version | Checker | Description | ||||||
---|---|---|---|---|---|---|---|---|---|
Astrée |
| delete-with-incomplete-type | |||||||
Coverity | 6.5 | DELETE_VOID | Fully implemented | ||||||
Clang |
| -Wdelete-incomplete |
CodeSonar |
| LANG.CAST.PC.INC | Conversion: pointer to incomplete | ||||||
Helix QAC |
| C++3112 | |||||||
Klocwork |
| CERT.EXPR.DELETE_PTR.INCOMPLETE_TYPE | |||||||
LDRA tool suite |
| 169 S, 554 S | Enhanced Enforcement | ||||||
Parasoft C/C++test |
| CERT_CPP-EXP57-a | Do not delete objects with incomplete class at the point of deletion | |||||||
Parasoft Insure++ | Runtime detection | ||||||||
Polyspace Bug Finder |
| CERT C++: EXP57-CPP | Checks for conversion or deletion of incomplete class pointer | ||||||
RuleChecker |
| delete-with-incomplete-type |
Related Vulnerabilities
Search for vulnerabilities resulting from the violation of this rule on the CERT website.
Bibliography
[Dewhurst |
2002] | Gotcha #39, "Casting Incomplete Types" |
[ISO/IEC 14882-2014] | Subclause 4.10, "Pointer Conversions" |
[Sutter |
2000] | "Compiler Firewalls and the Pimpl Idiom" |
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