Using type definitions (typedef
) can often improve code readability. However, type definitions to pointer types can make it more difficult to write const
-correct code because the const
qualifier will be applied to the pointer type, not to the underlying declared type.
Noncompliant Code Example
The following type definition improves readability at the expense of introducing a const
-correctness issue. In this example, the const
qualifier applies to the typedef
instead of to the underlying object type. Consequently, func
does not take a pointer to a const struct obj
but instead takes a const
pointer to a struct obj
.
struct obj { int i; float f; }; typedef struct obj *ObjectPtr; void func(const ObjectPtr o) { /* Can actually modify o's contents, against expectations */ }
Compliant Solution
This compliant solution makes use of type definitions but does not declare a pointer type and so cannot be used in a const
-incorrect manner:
struct obj { int i; float f; }; typedef struct obj Object; void func(const Object *o) { /* Cannot modify o's contents */ }
Noncompliant Code Example (Windows)
The Win32 SDK headers make use of type definitions for most of the types involved in Win32 APIs, but this noncompliant code example demonstrates a const
-correctness bug:
#include <Windows.h> /* typedef char *LPSTR; */ void func(const LPSTR str) { /* Can mutate str's contents, against expectations */ }
Compliant Solution (Windows)
This compliant solution demonstrates a common naming convention found in the Win32 APIs, using the proper const
type:
#include <Windows.h> /* typedef const char *LPCSTR; */ void func(LPCSTR str) { /* Cannot modify str's contents */ }
Noncompliant Code Example (Windows)
Note that many structures in the Win32 API are declared with pointer type definitions but not pointer-to-const
type definitions (LPPOINT
, LPSIZE
, and others). In these cases, it is suggested that you create your own type definition from the base structure type.
#include <Windows.h> /* typedef struct tagPOINT { long x, y; } POINT, *LPPOINT; */ void func(const LPPOINT pt) { /* Can modify pt's contents, against expectations */ }
Compliant Solution (Windows)
#include <Windows.h> /* typedef struct tagPOINT { long x, y; } POINT, *LPPOINT; */ typedef const POINT *LPCPOINT; void func(LPCPOINT pt) { /* Cannot modify pt's contents */ }
Noncompliant Code Example
In this noncompliant code example, the declaration of the signal()
function is difficult to read and comprehend:
void (*signal(int, void (*)(int)))(int);
Compliant Solution
This compliant solution makes use of type definitions to specify the same type as in the noncompliant code example:
typedef void SighandlerType(int signum); extern SighandlerType *signal( int signum, SighandlerType *handler );
Exceptions
Function pointer types are an exception to this recommendation.
Risk Assessment
Code readability is important for discovering and eliminating vulnerabilities.
Recommendation | Severity | Likelihood | Remediation Cost | Priority | Level |
---|---|---|---|---|---|
DCL05-C | Low | Unlikely | Medium | P2 | L3 |
Automated Detection
Tool | Version | Checker | Description |
---|---|---|---|
CodeSonar | 8.1p0 | LANG.STRUCT.PIT | Pointer type inside typedef |
Compass/ROSE | |||
LDRA tool suite | 9.7.1 | 299 S | Partially implemented |
Parasoft C/C++test | 2023.1 | MISRA2004-16_7_b | Fully implemented |
PRQA QA-C | Unable to render {include} The included page could not be found. | 5004 | Fully implemented |
Related Vulnerabilities
Search for vulnerabilities resulting from the violation of this rule on the CERT website.
Related Guidelines
SEI CERT C Coding Standard | DCL12-C. Implement abstract data types using opaque types |
SEI CERT C++ Coding Standard | VOID DCL05-CPP. Use typedefs to improve code readability |