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Comment: Added PC-lint Plus to Automated Detection Table

Errors during floating-point operations are often neglected by programmers who instead focus on validating operands before an operation. Errors occurring that occur during floating-point operations are admittedly difficult to determine and diagnose, but the benefits of doing so often outweigh the costs. This recommendation suggests ways to capture errors during floating-point operations.

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On most implementations, integer division by zero is a terminal error, commonly printing a diagnostic message and aborting the program.:

Code Block
double x = 0.0;
double dResult = 1 / x;

Floating-point division by zero also results in undefined behavior, although most implementations do not treat it as a terminal error. If additional precautions are not taken, it results in a silent error.

The most portable way of determining to determine if a floating-point exceptional condition has occurred is to use the floating-point exception facilities provided by C in fenv.h.

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  • Conversion from floating-point to integer may cause an "invalid" floating-point exception. If this occurs, the value of that integer is undefined and should not be used.
  • Most implementations fail to raise "invalid" for conversions from any negative or "large" positive floating-point values to unsigned integer types or to signed char. (See tflt2int.c.)
  • When a noninteger floating-point value is converted to an integer, the "inexact" floating-point exception is raised.

For information regarding floating-point number conversions, see FLP34-C. Ensure that floating-point conversions are within range of the new type.

The C standard does Standard does not require all implementations to support floating-point exceptions. Each exception macro in fenv.h is defined if, and only if, the corresponding exception is supported. Only implementations that use IEC 60559 (formerly IEEE-754) floating-point arithmetic are required to support all five exceptions defined by C (see the C Standard, Section subclause 7.6.2 [ISO/IEC 9899:2011]). Nevertheless, these functions are the most portable solution for handling floating-point exceptions.

A less portable but potentially more secure solution is to use the capabilities provided by the underlying implementation. If this approach is taken, the caveats of that system need to must be well understood. The following table provides a starting point for some common operating systems:

Operating System

How to Handle Floating-Point Errors

Linux
Solaris 10
AIX 5.3
HP-UX 11.31
Mac OS X 10.5

Use the C floating-point exception functions

.

Windows

Use either the C floating-point exception functions or structured exception handling through _fpieee_flt [MSDN]

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Noncompliant Code Example

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Code Block
bgColor#FFCCCC
langc
void fpOper_noErrorChecking(void) {
  /* ... */
  double a = 1e-40, b, c = 0.1;
  float x = 0, y;
  /* inexactInexact and underflows */
  y = a;
  /* divide Divide-by -zero operation */
  b = y / x;
  /* inexactInexact (loss of precision) */
  c = sin(30) * a;
  /* ... */
}

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This compliant solution uses C Standard functions to handle floating-point errors.:

Code Block
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langc
#include <fenv.h>
#pragma STDC FENV_ACCESS ON

void fpOper_fenv(void) {
  double a = 1e-40, b, c = 0.1;
  float x = 0, y;
  int fpeRaised;
  /* ... */

  feclearexcept(FE_ALL_EXCEPT);
  /* Store a into y is inexact and underflows: */
  y = a;
  fpeRaised = fetestexcept(FE_ALL_EXCEPT);
  /* fpeRaised  has FE_INEXACT and FE_UNDERFLOW */

  feclearexcept(FE_ALL_EXCEPT);

  /* divide Divide-by -zero operation */
  b = y / x;
  fpeRaised = fetestexcept(FE_ALL_EXCEPT);
  /* fpeRaised has FE_DIVBYZERO */

  feclearexcept(FE_ALL_EXCEPT);

  c = sin(30) * a;
  fpeRaised = fetestexcept(FE_ALL_EXCEPT);
  /* fpeRaised has FE_INEXACT */

  feclearexcept(FE_ALL_EXCEPT);
  /* ... */
}

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Microsoft Visual Studio 2008 and earlier versions do not support C functions to handle floating-point errors. Windows provides an alternative method for handling floating-point errors using _statusfp(), _statusfp2(), and _clearfp().

Code Block
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langc
void fpOper_usingStatus(void) {
  /* ... */
  double a = 1e-40, b, c;
  float x = 0, y;
  unsigned int rv = _clearfp();

  /* Store into y is inexact and underflows: */
  y = a;
  rv = _clearfp();  /* rv has _SW_INEXACT and _SW_UNDERFLOW */

  /* zeroZero-divide */
  b = y / x; rv = _clearfp(); /* rv has _SW_ZERODIVIDE */

  /* inexactInexact */
  c = sin(30) * a; rv = _clearfp(); /* rv has _SW_INEXACT */
  /* ... */
}

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Microsoft Visual Studio 2008 also uses structured exception handling (SEH) to handle floating-point operationoperations. SEH provides more information about the error and allows the programmer to change the results of the floating-point operation that caused the error condition.

Code Block
bgColor#ccccff
langc
void fp_usingSEH(void) {
  /* ... */
  double a = 1e-40, b, c = 0.1;
  float x = 0, y;
  unsigned int rv ;

  unmask_fpsr();

  _try {
    /* Store into y is inexact and underflows: */
    y = a;

    /* divide Divide-by -zero operation */
    b = y / x;

    /* inexactInexact */
    c = sin(30) * a;
  }

  _except (_fpieee_flt(
             GetExceptionCode(),
             GetExceptionInformation(),
             fpieee_handler)) {
  {
  printf ("fpieee_handler: EXCEPTION_EXECUTE_HANDLER");
  }

  /* ... */
}

void unmask_fpsr(void) {
  unsigned int u;
  unsigned int control_word;
  _controlfp_s(&control_word, 0, 0);
  u = control_word & ~(_EM_INVALID
                     | _EM_DENORMAL
                     | _EM_ZERODIVIDE
                     | _EM_OVERFLOW
                     | _EM_UNDERFLOW
                     | _EM_INEXACT);
  _controlfp_s( &control_word, u, _MCW_EM);
  return ;
}

int fpieee_handler(_FPIEEE_RECORD *ieee) {
  /* ... */

  switch (ieee->RoundingMode) {
    case _FpRoundNearest:
      /* ... */
      break;

      /*
       * Other RMs include _FpRoundMinusInfinity,
       * _FpRoundPlusInfinity, _FpRoundChopped.
       */

      /* ... */
    }

  switch (ieee->Precision) {
    case _FpPrecision24:
      /* ... */
      break;

      /* Other Ps include _FpPrecision53 */
      /* ... */
    }

   switch (ieee->Operation) {
     case _FpCodeAdd:
       /* ... */
       break;

       /* 
        * Other Ops include _FpCodeSubtract, _FpCodeMultiply,
        * _FpCodeDivide, _FpCodeSquareRoot, _FpCodeCompare,
        * _FpCodeConvert, _FpCodeConvertTrunc.
        */
       /* ... */
    }

  /* 
   * processProcess the bitmap ieee->Cause.
   * processProcess the bitmap ieee->Enable.
   * processProcess the bitmap ieee->Status.
   * processProcess the Operand ieee->Operand1, 
   * evaluate format and Value.
   * processProcess the Operand ieee->Operand2, 
   * evaluate format and Value.
   * processProcess the Result ieee->Result, 
   * evaluate format and Value .
   * The result should be set according to the operation 
   * specified in ieee->Cause and the result formatformatted as 
   * specified in ieee->Result.
   */

  /* ... */
}

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Undetected floating-point errors may result in lower program efficiency, inaccurate results, or software vulnerabilities. Most processors stall for a significant duration (sometimes up to a second or even more on 32-bit desktop processors) when an operation incurs a NaN (not a number) value.

Recommendation

Severity

Likelihood

Remediation Cost

Priority

Level

FLP03-C

low

Low

probable

Probable

high

High

P2

L3

Automated Detection

Tool

Version

Checker

Description

Astrée
Include Page
Astrée_V
Astrée_V
float-division-by-zeroPartially checked
Compass/ROSE

 

 



Could detect violations of this rule by ensuring that floating-point operations are surrounded by feclearexcept() and fetestexcept(). It would need to look for type conversions to float or double, divisions (by a number not known to be nonzero), and multiplication. It may be wisest to apply this to all floating-point operations in general

.PRQA QA-C Include PagePRQA_VPRQA_V

4123
4124
4125
4126
4127
4128

LDRA tool suite
Include Page
LDRA_V
LDRA_V
43 DPartially implemented
Parasoft C/C++test
Include Page
Parasoft_V
Parasoft_V

CERT_C-FLP03-a
CERT_C-FLP03-b
CERT_C-FLP03-c
CERT_C-FLP03-d

Avoid division by zero
Avoid implicit conversions from wider to narrower floating type
Avoid implicit conversions from narrower to wider floating type
Avoid implicit conversions of floating point numbers from wider to narrower floating type

Parasoft Insure++

Runtime analysis
PC-lint Plus

Include Page
PC-lint Plus_V
PC-lint Plus_V

736, 9120, 9227

Assistance provided

Polyspace Bug Finder

Include Page
Polyspace Bug Finder_V
Polyspace Bug Finder_V

CERT C: Rec. FLP03-C


Checks for:

  • Float conversion overflow
  • Float overflow
  • Float division by zero

Rec. partially covered

Partially implemented

.

Related Vulnerabilities

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

Related Guidelines

Bibliography


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