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Comment: Updated references from C11->C23

Wiki MarkupThe C99 standard \[The C Standard, 6.7.3.2, paragraph 20 [ISO/IEC 9899:1999|AA. Bibliography#ISO/IEC 9899-1999]\] introduces flexible array members into the language. While flexible array members are a useful addition, they need to be understood and used with care. 2024], says

As a special case, the last element of a structure with more than one named member may have an incomplete array type; this is called a flexible array member. In most situations, the flexible array member is ignored. In particular, the size of the structure is as if the flexible array member were omitted except that it may have more trailing padding than the omission would imply.

The following is an example of a structure that contains a flexible array member:

Code Block

struct flexArrayStructflex_array_struct {
  int num;
  int data[];
};

This definition means that , when allocating storagewhen computing the size of such a structure, only the first member, num, is considered. ConsequentlyUnless the appropriate size of the flexible array member has been explicitly added when allocating storage for an object of the struct, the result of accessing the member data of a variable of type struct flexArrayStruct nonpointer type struct flex_array_struct is undefined. Rule DCL38-C. Use the correct syntax when declaring a flexible array membersmember describes the correct way to declare a struct with a flexible array member.

To avoid the potential for undefined behavior, structures that contain a flexible array member should always be allocated and operated on dynamically. dynamically. Flexible array structures must

  • Have dynamic storage duration (be allocated via malloc() or another dynamic allocation function)
  • Be dynamically copied using memcpy() or a similar function and not by assignment
  • When used as an argument to a function, be passed by pointer and not copied by value

Noncompliant Code Example (Storage

...

Duration)

This noncompliant code example statically allocates uses automatic storage for a structure containing a flexible array member.:

Code Block
bgColor#FFcccc
langc
#include <stddef.h>
 
struct flexArrayStruct flexStruct;
flex_array_struct {
  size_t array_size;
num;
  int data[];
};
 
void func(void) {
  struct flex_array_struct flex_struct;
  size_t i;

/* Initialize array_size */= 4;

  /* Initialize structure */
flexStruct  flex_struct.num = 0array_size;

  for (size_t i = 0; i < array_size; i++i) {
    flexStructflex_struct.data[i] = 0;
  }
}

Because the memory for flex_struct is reserved on the stack, no space is reserved for the data member. Accessing the data member is undefined behavior Wiki MarkupThe problem with this code is that the {{flexArrayStruct}} does not actually reserve space for the integer array data; it can't because the size hasn't been specified. Consequently, while initializing the {{num}} member to zero is allowed, attempting to write even one value into data (that is, {{data\[0\]}}) is likely to overwrite memory outside of the object's bounds.

Compliant Solution (Storage

...

Duration)

This compliant solution dynamically allocates storage for struct flexArrayStruct. flex_array_struct:

Code Block
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langc
#include <stdlib.h>
 
struct flexArrayStruct *flexStruct;
flex_array_struct {
  size_t array_sizenum;
size_t i  int data[];
};

/* Initialize 
void func(void) {
  struct flex_array_struct *flex_struct;
  size_t array_size */= 4;

  /* Dynamically allocate memory for the structurestruct */
flexStruct  flex_struct = (struct flexArrayStructflex_array_struct *)malloc(
    sizeof(struct flexArrayStruct) flex_array_struct)
    + sizeof(int) * array_size
);
  if (flexStructflex_struct == NULL) {
    /* Handle malloc failureerror */
  }

  /* Initialize structure */
flexStruct  flex_struct->num = 0array_size;

  for (size_t i = 0; i < array_size; i++i) {
   flexStruct flex_struct->data[i] = 0;
}

...

 

...

 

...

}

...


}

Noncompliant Code Example (Copying)

This noncompliant code example attempts to copy an instance of a structure containing a flexible array member (struct flexArrayStruct flex_array_struct) by assignment.:

Code Block
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langc
#include <stddef.h>
 
struct flexArrayStruct *flexStructA;
struct flexArrayStruct *flexStructB;
flex_array_struct {
  size_t array_sizenum;
size_t i  int data[];
};
 
/* Initialize void func(struct flex_array_sizestruct */

/* Allocate memory for flexStructA */

/* Allocate memory for flexStructB */

/* Initialize flexStructA */

/* ... */

*flexStructB = *flexStructA;
struct_a,
          struct flex_array_struct *struct_b) {
  *struct_b = *struct_a;
}

When The problem with this noncompliant code example is that, when the structure is copied, the size of the flexible array member is not considered, and only the first member of the structure, num, is copied, leaving the array contents untouched.

Compliant Solution (Copying)

This compliant solution uses memcpy() to properly copy the content of flexStructA into flexStructB.of struct_a into struct_b:

Code Block
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langc
#include <string.h>
 
struct flexArrayStruct *flexStructA;
struct flexArrayStruct *flexStructB;
flex_array_struct {
  size_t array_sizenum;
size_t i  int data[];
};
 
/* Initialize void func(struct flex_array_sizestruct */

/* Allocate memory for flexStructA */

/* Allocate memory for flexStructB */

/* Initialize flexStructA */

/* ... */

memcpy(
  flexStructB, 
  flexStructA, 
  (sizeof(struct flexArrayStruct) + sizeof(int) * array_size)
);

...

struct_a,
          struct flex_array_struct *struct_b) {
  if (struct_a->num > struct_b->num) {
    /* Insufficient space; handle error */
    return;
  }
  memcpy(struct_b, struct_a,
         sizeof(struct flex_array_struct) + (sizeof(int)
           * struct_a->num));
}

Noncompliant Code Example (Function Arguments)

In this noncompliant code example, the flexible array structure is passed directly by value to a function that tries to print prints the array elements.:

Code Block
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langc

void print_array(struct flexArrayStruct structP) #include <stdio.h>
#include <stdlib.h>
 
struct flex_array_struct {
  size_t i num;
  int data[];
};
 
void print_array(struct flex_array_struct struct_p) {
  puts("Array is: ");
  for (size_t i = 0; i < structPstruct_p.num; i++i) {
    printf("%d ", structPstruct_p.data[i]);
  }
  putsputchar("'\n"');
}

void func(void) {
  struct flexArrayStructflex_array_struct *structPstruct_p;
  size_t array_size;
size_t i = 4;

/* initialize array_size */

/* spaceSpace is allocated for the struct */
structP  struct_p = (struct flexArrayStructflex_array_struct *)malloc(
    sizeof(struct flexArrayStruct) flex_array_struct)
    + sizeof(int) * array_size
);
  if (structPstruct_p == NULL) {
    /* Handle malloc failureerror */
  }

structP  struct_p->num = array_size;

  for (size_t i = 0; i < array_size; i++i) {
    structPstruct_p->data[i] = i;
  }

  print_array(*structPstruct_p);
}

Because C passes the argument is passed by value, the structure is copied onto the stack. The size of the flexible array member is not considered when the structure is copied, and only the first member of the structure, num, is copied.

Compliant Solution (Function Arguments)

In this compliant solution, the print_array() function accepts a pointer to the structure rather than the structure itself.the structure is passed by reference and not by value:

Code Block
bgColor#ccccff
langc

void print_array(struct flexArrayStruct *structP) #include <stdio.h>
#include <stdlib.h>
 
struct flex_array_struct {
  size_t i num;
  int data[];
};
 
void print_array(struct flex_array_struct *struct_p) {
  puts("Array is: ");
  for (size_t i = 0; i < structPstruct_p->num; i++i) {
    printf("%d ", structPstruct_p->data[i]);
  }
  putsputchar("'\n"');
}

void func(void) {
  struct flexArrayStructflex_array_struct *structPstruct_p;
  size_t array_size;
size_t i = 4;

/* initialize array_size */

/* spaceSpace is allocated for the struct */
structP = (struct flexArrayStruct *)malloc(
  sizeof(struct flexArrayStruct) + sizeof(int) * array_size
);
if (structP == NULL) {
  /* Handle malloc failure */
}

structP->num = array_size;

for (i = 0; i < array_size; i++) {
  structP->data[i] = i;
}

print_array(structP);
and initialized... */

  print_array(struct_p);
}

Risk Assessment

Failure to use structures with flexible array members correctly can result in undefined behavior. 

Rule

Severity

Likelihood

Remediation Cost

Priority

Level

MEM33-C

low

Low

unlikely

Unlikely

low

Low

P3

L3

Automated Detection

...

Flexible array structs should not be

  • declared on the stack; they should be on the heap.
  • copied via assignment; they should be copied using memcpy() or a similar function.
  • passed as raw arguments to functions; a pointer should be passed to flexArrayStruct intead.

Tool

Version

Checker

Description

Astrée
Include Page
Astrée_V
Astrée_V
flexible-array-member-assignment
flexible-array-member-declaration
Fully checked
Axivion Bauhaus Suite

Include Page
Axivion Bauhaus Suite_V
Axivion Bauhaus Suite_V

CertC-MEM33Fully implemented
CodeSonar
Include Page
CodeSonar_V
CodeSonar_V

LANG.STRUCT.DECL.FAM

Declaration of Flexible Array Member

Compass/ROSE



Can detect all of these

Cppcheck Premium

Include Page
Cppcheck Premium_V
Cppcheck Premium_V

premium-cert-mem33-cPartially  implemented
Helix QAC

Include Page
Helix QAC_V
Helix QAC_V

C1061, C1062, C1063, C1064
Klocwork
Include Page
Klocwork_V
Klocwork_V

MISRA.INCOMPLETE.STRUCT
MISRA.MEMB.FLEX_ARRAY.2012


LDRA tool suite
Include Page
LDRA_V
LDRA_V
649 S, 650 SFully implemented
Parasoft C/C++test

Include Page
Parasoft_V
Parasoft_V

CERT_C-MEM33-a
CERT_C-MEM33-b

Allocate structures containing a flexible array member dynamically
Do not copy instances of structures containing a flexible array member

Polyspace Bug Finder

Include Page
Polyspace Bug Finder_V
Polyspace Bug Finder_V

CERT C: Rule MEM33-CChecks for misuse of structure with flexible array member (rule fully covered)
RuleChecker

Include Page
RuleChecker_V
RuleChecker_V

flexible-array-member-assignment
flexible-array-member-declaration
Fully checked

Tool

Version

Checker

Description

Section

ROSE

 

 

Sectioncan detect all of these

Related Vulnerabilities

Search for vulnerabilities resulting from the violation of this rule on the CERT website.

Related Guidelines

Key here (explains table format and definitions)

Taxonomy

Taxonomy item

Relationship

CERT C Secure Coding StandardDCL38-C. Use the correct syntax when declaring a flexible array memberPrior to 2018-01-12: CERT: Unspecified Relationship

CERT-CWE Mapping Notes

Key here for mapping notes

CWE-401 and MEM33-CPP

There is no longer a C++ rule for MEM33-CPP. (In fact, all C++ rules from 30-50 are gone, because we changed the numbering system to be 50-99 for C++ rules.)

Bibliography

...

Bibliography

...

2024]Subclause 6.7.3.2, "Structure and Union Specifiers"
[JTC1/SC22/WG14

...

N791]

Solving the Struct Hack Problem


...

Image Added Image Added |http://www.open-std.org/jtc1/sc22/wg14/www/docs/n791.htm]\]MEM32-C. Detect and handle memory allocation errors      08. Memory Management (MEM)      Image Modified