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Checker

Guideline

DCL31-C. Declare identifiers before using them
DCL37-C. Do not declare or define a reserved identifier
EXP32-C. Do not access a volatile object through a nonvolatile reference
EXP44-C. Do not rely on side effects in operands to sizeof, _Alignof, or _Generic
INT36-C. Converting a pointer to integer or integer to pointer
FLP30-C. Do not use floating-point variables as loop counters

C checkers

CERT C Secure Coding Standard

<>

STR34-C. Cast characters to unsigned char before converting to larger integer sizes

<unknown>

ARR01-C. Do not apply the sizeof operator to a pointer when taking the size of an array

<unknown>

ARR02-C. Explicitly specify array bounds, even if implicitly defined by an initializer

<unknown>

ARR30-C. Do not form or use out of bounds pointers or array subscripts

<unknown>

ARR33-C. Guarantee that copies are made into storage of sufficient size

<unknown>
ARR37-C. Do not add or subtract an integer to a pointer to a non-array object

<unknown>

CON33 ARR38-C. Avoid race conditions when using Guarantee that library functions do not form invalid pointers
MEM30

<unknown>

DCL00-C. Const-qualify immutable objects

<unknown>

DCL01-C. Do not reuse variable names in subscopes

<unknown>

DCL02-C. Use visually distinct identifiers

<unknown>

DCL03-C. Use a static assertion to test the value of a constant expression

<unknown>

DCL05-C. Use typedefs to improve code readability

<unknown>

DCL06-C. Use meaningful symbolic constants to represent literal values

<unknown>

DCL11-C. Understand the type issues associated with variadic functions

<unknown>

DCL13-C. Declare function parameters that are pointers to values not changed by the function as const

<unknown>

DCL30-C. Declare objects with appropriate storage durations

<unknown>

DCL31-C. Declare identifiers before using them

<unknown>

DCL32-C. Guarantee that mutually visible identifiers are unique

<unknown>

DCL37-C. Do not declare or define a reserved identifier

<unknown>

DCL38-C. Use the correct syntax when declaring flexible array members

<unknown>

ENV00-C. Do not store the pointer to the string returned by getenv()

<unknown>

ENV01-C. Do not make assumptions about the size of an environment variable

Do not access freed memory
MEM31-C. Free dynamically allocated memory when no longer needed
FIO30-C. Exclude user input from format strings
FIO34-C. Distinguish between characters read from a file and EOF or WEOF
FIO42-C. Close files when they are no longer needed
FIO46-C. Do not access a closed file
ENV31-C. Do not rely on an environment pointer following an operation that may invalidate it
ENV33-C. Do not call system()
ENV34-C. Do not store pointers returned by certain functions
MSC30-C. Do not use the rand() function for generating pseudorandom numbers
POS30-C. Use the readlink() function properly
POS34-C. Do not call putenv() with a pointer to an automatic variable as the argument
ARR02-C. Explicitly specify array bounds, even if implicitly defined by an initializer
DCL00-C. Const-qualify immutable objects
DCL01-C. Do not reuse variable names in subscopes
DCL02-C. Use visually distinct identifiers
DCL05-C. Use typedefs of non-pointer types only
ENV02-C. Beware of multiple

<unknown>

ENV02-C. Beware of multiple environment variables with the same effective name

<unknown>

ENV04 EXP05-C. Do not call system() if you do not need a command processorcast away a const qualification
EXP12

<unknown>

ENV30-C. Do not modify the object referenced by the return value of certain functions

<unknown>

ENV31-C. Do not rely on an environment pointer following an operation that may invalidate it

<unknown>

ENV32-C. All atexit handlers must return normally

<unknown>

ERR05-C. Application-independent code should provide error detection without dictating error handling

<unknown>

ERR06-C. Understand the termination behavior of assert() and abort()

<unknown>

ERR32-C. Do not rely on indeterminate values of errno

<unknown>

EXP01-C. Do not take the size of a pointer to determine the size of the pointed-to type

<unknown>

EXP02-C. Be aware of the short-circuit behavior of the logical AND and OR operators

<unknown>

EXP04-C. Do not perform byte-by-byte comparisons involving a structure

<unknown>

EXP05-C. Do not cast away a const qualification

<unknown>

EXP06-C. Operands to the sizeof operator should not contain side effects

<unknown>

EXP09-C. Use sizeof to determine the size of a type or variable

<unknown>

EXP10-C. Do not depend on the order of evaluation of subexpressions or the order in which side effects take place

<unknown>

EXP11-C. Do not apply operators expecting one type to data of an incompatible type

<unknown>

EXP12-C. Do not ignore values returned by functions

<unknown>

EXP14-C. Beware of integer promotion when performing bitwise operations on integer types smaller than int

<unknown>

EXP18-C. Do not perform assignments in selection statements

<unknown>

EXP30-C. Do not depend on order of evaluation between sequence points

<unknown>

EXP32-C. Do not access a volatile object through a non-volatile reference

<unknown>

EXP33-C. Do not reference uninitialized memory

<unknown>

EXP34-C. Do not dereference null pointers

<unknown>

EXP36-C. Do not convert pointers into more strictly aligned pointer types

<unknown>

EXP37-C. Call functions with the arguments intended by the API

<unknown>

FIO01-C. Be careful using functions that use file names for identification

<unknown>

FIO02-C. Canonicalize path names originating from untrusted sources

<unknown>

FIO04-C. Detect and handle input and output errors

<unknown>

FIO05-C. Identify files using multiple file attributes

<unknown>

FIO07-C. Prefer fseek() to rewind()

<unknown>

FIO08-C. Take care when calling remove() on an open file

<unknown>

FIO09-C. Be careful with binary data when transferring data across systems

<unknown>

FIO11-C. Take care when specifying the mode parameter of fopen()

<unknown>

FIO12-C. Prefer setvbuf() to setbuf()

ignore values returned by functions
EXP14-C. Beware of integer promotion when performing bitwise operations on integer types smaller than int
FIO08-C. Take care when calling remove() on an open file
FIO11-C. Take care when specifying the mode parameter of fopen()
FIO22-C. Close files before spawning processes
INT09-C. Ensure enumeration constants map to unique values
INT12-C. Do not make assumptions about the type of a plain int bit-field when used in an expression
MEM01-C. Store a new value in pointers immediately after free()
MEM07-C. Ensure that the arguments to calloc(), when multiplied, do not wrap
MSC17-C. Finish every set of statements associated with a case label with a break statement
MSC21-C. Use robust loop termination conditions
STR04-C. Use plain char for characters in the basic character set
STR05-C. Use pointers to const when referring to string literals
STR06-C. Do not assume that strtok() leaves the parse string unchanged
STR11-C. Do not specify the bound of a character array initialized with a string literal
Automatically detects simple violations of this rule, although it may return some false positives. It may not catch more complex violations, such as initialization within functions taking uninitialized variables as arguments. It does catch the second noncompliant code example, and can be extended to catch the first as well EXP33-C. Do not read uninitialized memory
A module written in Compass/ROSE can detect violations of this rule CON33-C. Avoid race conditions when using library functions
Can catch violations of this rule by scanning the printf() and scanf() family of functions. For each such function, any variable that corresponds to a %d qualifier (or any qualifier besides %j) and that is not one of the built-in types (char, short, int, long, long long) indicates a violation of this rule. To catch violations, ROSE would also have to recognize derived types in expressions, such as size_t INT15-C. Use intmax_t or uintmax_t for formatted IO on programmer-defined integer types
Can detect all of these MEM33-C. Allocate and copy structures containing a flexible array member dynamically
Can detect common violations of this rule. However, it cannot handle cases in which the value returned by fgetpos() is copied between several variables before being passed to fsetpos() FIO44-C. Only use values for fsetpos() that are returned from fgetpos()
Can detect simple violations of this recommendation. In particular, it warns when two calls to ungetc() on the same stream are not interspersed with a file-positioning or file-read function. It cannot handle cases where ungetc() is called from inside a loop <unknown> FIO13-C. Never push back anything other than one read character

<unknown>

FIO30-C. Exclude user input from format strings

Can detect simple violations of this rule STR30-C. Do not attempt to modify string literals
Can detect simple violations of this rule FIO38

<unknown>

FIO32-C. Do not perform operations on devices that are only appropriate for files

<unknown>

FIO33-C. Detect and handle input output errors resulting in undefined behavior

<unknown>

FIO34-C. Use int to capture the return value of character IO functions

<unknown>

FIO37-C. Do not assume that fgets() returns a nonempty string when successful

<unknown>

FIO38-C. Do not use a copy of a FILE object for input and output

<unknown>

FIO39-C. Do not alternately input and output from a stream without an intervening flush or positioning call

<unknown>

FIO42-C. Ensure files are properly closed when they are no longer needed

<unknown>

FIO43-C. Do not create temporary files in shared directories

<unknown>

FIO44-C. Only use values for fsetpos() that are returned from fgetpos()

<unknown>

FLP02-C. Avoid using floating point numbers when precise computation is needed

<unknown>

FLP03-C. Detect and handle floating point errors

<unknown>

FLP30-C. Do not use floating point variables as loop counters

<unknown>

FLP33-C. Convert integers to floating point for floating point operations

<unknown>

FLP34-C. Ensure that floating point conversions are within range of the new type

<unknown>

INT01-C. Use rsize_t or size_t for all integer values representing the size of an object

<unknown>

INT05-C. Do not use input functions to convert character data if they cannot handle all possible inputs

<unknown>

INT06-C. Use strtol() or a related function to convert a string token to an integer

<unknown>

INT07-C. Use only explicitly signed or unsigned char type for numeric values

<unknown>

INT08-C. Verify that all integer values are in range

<unknown>

INT09-C. Ensure enumeration constants map to unique values

<unknown>

INT11-C. Take care when converting from pointer to integer or integer to pointer

<unknown>

INT12-C. Do not make assumptions about the type of a plain int bit-field when used in an expression

<unknown>

INT13-C. Use bitwise operators only on unsigned operands

<unknown>

INT14-C. Avoid performing bitwise and arithmetic operations on the same data

<unknown>

INT15-C. Use intmax_t or uintmax_t for formatted IO on programmer-defined integer types

<unknown>

INT30-C. Ensure that unsigned integer operations do not wrap

<unknown>

INT31-C. Ensure that integer conversions do not result in lost or misinterpreted data

<unknown>

INT33-C. Ensure that division and modulo operations do not result in divide-by-zero errors

<unknown>

INT34-C. Do not shift a negative number of bits or more bits than exist in the operand

<unknown>

INT35-C. Evaluate integer expressions in a larger size before comparing or assigning to that size

<unknown>

MEM00-C. Allocate and free memory in the same module, at the same level of abstraction

<unknown>

MEM01-C. Store a new value in pointers immediately after free()

<unknown>

MEM02-C. Immediately cast the result of a memory allocation function call into a pointer to the allocated type

<unknown>

MEM03-C. Clear sensitive information stored in reusable resources

<unknown>

MEM04-C. Do not perform zero length allocations

<unknown>

MEM07-C. Ensure that the arguments to calloc(), when multiplied, can be represented as a size_t

<unknown>

MEM08-C. Use realloc() only to resize dynamically allocated arrays

<unknown>

MEM30-C. Do not access freed memory

<unknown>

MEM31-C. Free dynamically allocated memory exactly once

<unknown>

MEM32-C. Detect and handle memory allocation errors

<unknown>

MEM33-C. Allocate and copy structures containing flexible array members dynamically

<unknown>

MEM34-C. Only free memory allocated dynamically

<unknown>

MEM35-C. Allocate sufficient memory for an object

<unknown>

MSC01-C. Strive for logical completeness

<unknown>

MSC02-C. Avoid errors of omission

<unknown>

MSC03-C. Avoid errors of addition

<unknown>

MSC05-C. Do not manipulate time_t typed values directly

<unknown>

MSC17-C. Finish every set of statements associated with a case label with a break statement

<unknown>

MSC21-C. Use robust loop termination conditions

<unknown>

MSC30-C. Do not use the rand() function for generating pseudorandom numbers

<unknown>

MSC31-C. Ensure that return values are compared against the proper type

<unknown>

MSC32-C. Ensure your random number generator is properly seeded

<unknown>

POS01-C. Check for the existence of links when dealing with files

<unknown>

POS30-C. Use the readlink() function properly

<unknown>

POS33-C. Do not use vfork()

<unknown>

POS34-C. Do not call putenv() with a pointer to an automatic variable as the argument

<unknown>

POS35-C. Avoid race conditions while checking for the existence of a symbolic link

<unknown>

POS36-C. Observe correct revocation order while relinquishing privileges

<unknown>

SIG01-C. Understand implementation-specific details regarding signal handler persistence

<unknown>

SIG30-C. Call only asynchronous-safe functions within signal handlers

<unknown>

SIG31-C. Do not access or modify shared objects in signal handlers

<unknown>

SIG32-C. Do not call longjmp() from inside a signal handler

<unknown>

SIG33-C. Do not recursively invoke the raise() function

<unknown>

SIG34-C. Do not call signal() from within interruptible signal handlers

<unknown>

STR03-C. Do not inadvertently truncate a null-terminated byte string

<unknown>

STR04-C. Use plain char for characters in the basic character set

<unknown>

STR05-C. Use pointers to const when referring to string literals

<unknown>

STR06-C. Do not assume that strtok() leaves the parse string unchanged

<unknown>

STR30-C. Do not attempt to modify string literals

<unknown>

STR31-C. Guarantee that storage for strings has sufficient space for character data and the null terminator

<unknown>

STR32-C. Null-terminate byte strings as required

<unknown>

STR33-C. Size wide character strings correctly

<unknown>

STR35-C. Do not copy data from an unbounded source to a fixed-length array

<unknown>

STR36-C. Do not specify the bound of a character array initialized with a string literal

copy a FILE object
Can detect simple violations of this rule FIO39-C. Do not alternately input and output from a stream without an intervening flush or positioning call
Can detect simple violations of this rule. It needs to examine each expression and make sure that no variable is modified twice in the expression. It also must check that no variable is modified once, then read elsewhere, with the single exception that a variable may appear on both the left and right of an assignment operator EXP30-C. Do not depend on the order of evaluation for side effects
Can detect some violations of this recommendation when checking EXP36-C. Do not cast pointers into more strictly aligned pointer types MEM02-C. Immediately cast the result of a memory allocation function call into a pointer to the allocated type
Can detect some violations of this recommendation. In particular, it flags switch statements that do not have a default clause. ROSE should detect "fake switches" as well (that is, a chain of if statements each checking the value of the same variable). These if statements should always end in an else clause, or they should mathematically cover every possibility. For instance, consider the following: if (x > 0) { /* ... */ } else if (x < 0) { /* ... */ } else if (x == 0) { /* ... */ } MSC01-C. Strive for logical completeness
Can detect some violations of this recommendation. In particular, it warns when chown(), stat(), or chmod() are called on an open file FIO01-C. Be careful using functions that use file names for identification
Can detect some violations of this rule STR32-C. Do not pass a non-null-terminated character sequence to a library function that expects a string
Can detect some violations of this rule MEM34-C. Only free memory allocated dynamically
Can detect some violations of this rule (In particular, it ensures that all operations involving division or modulo are preceded by a check ensuring that the second operand is nonzero.) INT33-C. Ensure that division and remainder operations do not result in divide-by-zero errors
Can detect some violations of this rule but cannot flag violations involving universal names DCL23-C. Guarantee that mutually visible identifiers are unique
Can detect some violations of this rule. However, it can only detect violations involving abort() because assert() is implemented as a macro ERR06-C. Understand the termination behavior of assert() and abort()
Can detect some violations of this rule. However, it does not flag implicit casts, only explicit ones FLP34-C. Ensure that floating-point conversions are within range of the new type
Can detect some violations of this rule. In particular, it ensures that all calls to open() supply exactly two arguments if the second argument does not involve O_CREAT, and exactly three arguments if the second argument does involve O_CREAT EXP37-C. Call functions with the correct number and type of arguments
Can detect some violations of this rule. In particular, it ensures that calls to open() that are preceded by a call to lstat() are also followed by a call to fstat(). POS35-C. Avoid race conditions while checking for the existence of a symbolic link
Can detect some violations of this rule. In particular, it warns if the last element of a struct is an array with a small index (0 or 1) DCL38-C. Use the correct syntax when declaring a flexible array member
Can detect some violations of this rule. In particular, it warns when calls to setgid() are immediately preceded by a call to setuid() POS36-C. Observe correct revocation order while relinquishing privileges
Can detect some violations of this rule. In particular, it warns when the argument to malloc() is a variable that has not been compared against 0 or that is known at compile time to be 0 MEM04-C. Beware of zero-length allocations
Can detect violations of the recommendation but cannot distinguish between incomplete array declarations and pointer declarations ARR01-C. Do not apply the sizeof operator to a pointer when taking the size of an array
Can detect violations of the rule by using the same method as STR31-C. Guarantee that storage for strings has sufficient space for character data and the null terminator ENV01-C. Do not make assumptions about the size of an environment variable
Can detect violations of the rule for single-file programs SIG30-C. Call only asynchronous-safe functions within signal handlers
Can detect violations of the rule. However, it is unable to handle cases involving strcpy_s() or manual string copies such as the one in the first example STR31-C. Guarantee that storage for strings has sufficient space for character data and the null terminator
Can detect violations of this recommendation MSC05-C. Do not manipulate time_t typed values directly
Can detect violations of this recommendation by flagging invocations of the following functions:atoi()scanf(), fscanf(), sscanf()Others? ERR34-C. Detect errors when converting a string to a number
Can detect violations of this recommendation when checking for violations of EXP12-C. Do not ignore values returned by functions and EXP34-C. Do not dereference null pointers ERR33-C. Detect and handle standard library errors
Can detect violations of this recommendation when checking for violations of EXP12-C. Do not ignore values returned by functions and EXP34-C. Do not dereference null pointers POS54-C. Detect and handle POSIX library errors
Can detect violations of this recommendation while checking for violations of recommendation DCL00-C. Const-qualify immutable objects DCL13-C. Declare function parameters that are pointers to values not changed by the function as const
Can detect violations of this recommendation. However, it can detect only those violations where both bitwise and arithmetic operators are used in the same expression INT14-C. Avoid performing bitwise and arithmetic operations on the same data
Can detect violations of this recommendation. In particular, it catches comparisons and operations where one operand is of type size_t or rsize_t and the other is not INT01-C. Use rsize_t or size_t for all integer values representing the size of an object
Can detect violations of this recommendation. In particular, it checks to see if the arguments to an equality operator are of a floating-point type FLP02-C. Avoid using floating-point numbers when precise computation is needed
Can detect violations of this recommendation. In particular, it flags any instance of a variable of type char (without a signed or unsigned qualifier) that appears in an arithmetic expression INT07-C. Use only explicitly signed or unsigned char type for numeric values
Can detect violations of this recommendation. In particular, it looks for the size argument of malloc(), calloc(), or realloc() and flags when it does not find a sizeof operator in the argument expression. It does not flag if the return value is assigned to a char *; in this case a string is being allocated, and sizeof is unnecessary because sizeof(char) == 1 EXP09-C. Use sizeof to determine the size of a type or variable
Can detect violations of this recommendation. In particular, it notes uses of the scanf() family of functions where on the type specifier is a floating-point or integer type INT05-C. Do not use input functions to convert character data if they cannot handle all possible inputs
Can detect violations of this recommendation. Specifically, it reports violations ifA pointer to one object is type cast to the pointer of a different objectThe pointed-to object of the (type cast) pointer is then modified arithmetically EXP11-C. Do not make assumptions regarding the layout of structures with bit-fields
Can detect violations of this recommendation. Specifically, Rose reports use of tmpnam(), tmpnam_s(), tmpfile(), and mktemp() FIO21-C. Do not create temporary files in shared directories
Can detect violations of this rule by ensuring that operations are checked for overflow before being performed (Be mindful of exception INT30-EX2 because it excuses many operations from requiring validation, including all the operations that would validate a potentially dangerous operation. For instance, adding two unsigned ints together requires validation involving subtracting one of the numbers from UINT_MAX, which itself requires no validation because it cannot wrap.) INT30-C. Ensure that unsigned integer operations do not wrap
Can detect violations of this rule for single-file programs SIG31-C. Do not access shared objects in signal handlers
Can detect violations of this rule when checking for violations of INT07-C. Use only explicitly signed or unsigned char type for numeric values STR34-C. Cast characters to unsigned char before converting to larger integer sizes
Can detect violations of this rule. Any assignment operation where the type of the assigned-to value is float or double, but all the expressions to the right of the assignment are integral, is a violation of this rule FLP06-C. Convert integers to floating point for floating-point operations
Can detect violations of this rule. However, false positives may occur on systems with persistent handlers SIG34-C. Do not call signal() from within interruptible signal handlers
Can detect violations of this rule. However, false warnings may be raised if limits.h is included INT31-C. Ensure that integer conversions do not result in lost or misinterpreted data
Can detect violations of this rule. However, it does not flag explicit casts to void * and then back to another pointer type EXP36-C. Do not cast pointers into more strictly aligned pointer types
Can detect violations of this rule. In particular, it ensures that all functions registered with atexit() do not call functions such as exit() ENV32-C. All exit handlers must return normally
Can detect violations of this rule. In particular, it ensures that the result of getenv() is stored in a const variable ENV30-C. Do not modify the object referenced by the return value of certain functions
Can detect violations of this rule. In particular, it flags bitwise operations that involved variables not declared with unsigned type INT13-C. Use bitwise operators only on unsigned operands
Can detect violations of this rule. In particular, ROSE ensures that any pointer returned by malloc(), calloc(), or realloc() is first checked for NULL before being used (otherwise, it is free()-ed). ROSE does not handle cases where an allocation is assigned to an lvalue that is not a variable (such as a struct member or C++ function call returning a reference) EXP34-C. Do not dereference null pointers
Can detect violations of this rule. It automatically detects returning pointers to local variables. Detecting more general cases, such as examples where static pointers are set to local variables which then go out of scope, would be difficult DCL30-C. Declare objects with appropriate storage durations
Can detect violations of this rule. It should look for patterns of (a op1 b) op2 c wherec has a bigger type than a or bNeither a nor b is typecast to c's typeop2 is assignment or comparison INT18-C. Evaluate integer expressions in a larger size before comparing or assigning to that size
Can detect violations of this rule. Unsigned operands are detected when checking for INT13-C. Use bitwise operators only on unsigned operands INT34-C. Do not shift an expression by a negative number of bits or by greater than or equal to the number of bits that exist in the operand
Could be configured to catch violations of this rule. The way to catch the noncompliant code example is to first hunt for example code that follows this pattern: for (LPWSTR pwszTemp = pwszPath + 2; *pwszTemp != L'\\'; *pwszTemp++;) In particular, the iteration variable is a pointer, it gets incremented, and the loop condition does not set an upper bound on the pointer. Once this case is handled, ROSE can handle cases like the real noncompliant code example, which is effectively the same semantics, just different syntax ARR30-C. Do not form or use out-of-bounds pointers or array subscripts
Could catch violations of this rule by enforcing that any call to open() or fopen() is preceded by a canonicalization routine—that is, a call to realpath() or canonicalize_file_name(). This call will catch some false positives, as ROSE cannot tell when canonicalization is warranted. False positives can be reduced (but not eliminated) by only reporting instances of fopen() or open() where the file name string has some other processing done to it. This reflects the fact that canonicalization is only necessary for doing verification based on the file name string FIO02-C. Canonicalize path names originating from tainted sources
Could check violations of this rule by examining the size expression to malloc() or memcpy() functions. Specifically, the size argument should be bounded by 0, SIZE_MAX, and, unless it is a variable of type size_t or rsize_t, it should be bounds-checked before the malloc() call. If the argument is of the expression a*b, then an appropriate check is if (a < SIZE_MAX / b && a > 0) ... MEM35-C. Allocate sufficient memory for an object
Could detect possible violations by flagging any signal handler that calls signal() to (re)assert itself as the handler for its signal SIG01-C. Understand implementation-specific details regarding signal handler persistence
Could detect possible violations by reporting any function that has malloc() or free() but not both. This would catch some false positives, as there would be no way to tell if malloc() and free() are at the same level of abstraction if they are in different functions MEM00-C. Allocate and free memory in the same module, at the same level of abstraction
Could detect possible violations of this recommendation by reporting expressions with side effects, including function calls, that appear on the right-hand side of an && or || operator EXP02-C. Be aware of the short-circuit behavior of the logical AND and OR operators
Could detect possible violations of this rule by first flagging any usage of realloc(). Also, it could flag any usage of free that is not preceded by code to clear out the preceding memory, using memset. This heuristic is imperfect because it flags all possible data leaks, not just leaks of "sensitive" data, because ROSE cannot tell which data is sensitive MEM03-C. Clear sensitive information stored in reusable resources
Could detect some violations of this rule (In particular, it could detect the noncompliant code example by searching for fgets(), followed by strlen() - 1, which could be −1. The crux of this rule is that a string returned by fgets() could still be empty, because the first char is '\0'. There are probably other code examples that violate this guideline; they would need to be enumerated before ROSE could detect them.) FIO37-C. Do not assume that fgets() or fgetws() returns a nonempty string when successful
Could detect some violations of this rule. This rule applies only to untrusted file name strings, and ROSE cannot tell which strings are trusted and which are not. The best heuristic is to note if there is any verification of the file name before or after the fopen() call. If there is any verification, then the file opening should be preceded by an lstat() call and succeeded by an fstat() call. Although that does not enforce the rule completely, it does indicate that the coder is aware of the lstat-fopen-fstat idiom FIO32-C. Do not perform operations on devices that are only appropriate for files
Could detect the specific noncompliant code example. It could identify when the result of a % operation might be negative and flag usage of that result in an array index. It could conceivably flag usage of any such result without first checking that the result is positive, but it would likely introduce many false positives INT10-C. Do not assume a positive remainder when using the % operator
Could detect violations in the following manner: all calls to strncpy() and the other functions should be followed by an assignment of a terminating character to null-terminate the string STR03-C. Do not inadvertently truncate a string
Could detect violations of this recommendation by flagging any comparison expression involving addition that could potentially overflow. For example, instead of comparing a + b < c (where b and c are compile-time constants) and b > c, the code should compare a < c - b. (This assumes a, b, c are unsigned ints. Usually b is small and c is an upper bound such as INT_MAX.) INT08-C. Verify that all integer values are in range
Could detect violations of this recommendation by identifying any assignment expression as the top-level expression in an if or while statement EXP45-C. Do not perform assignments in selection statements
Could detect violations of this recommendation by searching for the following pattern:Any expression that calls two functions between the same sequence pointsThose two functions both modify the value of a static variableThat static variable's value is referenced by code following the expression EXP10-C. Do not depend on the order of evaluation of subexpressions or the order in which side effects take place
Could detect violations of this recommendation merely by searching for the use of "magic numbers" and magic strings in the code itself. That is, any number (except a few canonical numbers: −1, 0, 1, 2) that appears in the code anywhere besides where assigned to a variable is a magic number and should instead be assigned to a const integer, enum, or macro. Likewise, any string literal (except "" and individual characters) that appears in the code anywhere besides where assigned to a char* or char[] is a magic string DCL06-C. Use meaningful symbolic constants to represent literal values
Could detect violations of this rule by ensuring that each library function is accompanied by the proper treatment of errno ERR30-C. Take care when reading errno
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 FLP03-C. Detect and handle floating-point errors
Could detect violations of this rule by looking for signal handlers that themselves call signal(). A violation is reported if the call fails and the handler therefore checks errno. A violation also exists if the signal handler modifies errno without first copying its value elsewhere ERR32-C. Do not rely on indeterminate values of errno
Could detect violations of this rule by seeing if the argument to a character handling function (listed above) is not an unsigned char STR37-C. Arguments to character-handling functions must be representable as an unsigned char
Could detect violations of this rule merely by looking for calls to assert(), and if it can evaluate the assertion (due to all values being known at compile time), then the code should use static-assert instead; this assumes ROSE can recognize macro invocation DCL03-C. Use a static assertion to test the value of a constant expression
Could detect violations of this rule merely by reporting functions that call abort(), exit(), or _Exit() inside an if or switch statement.This would also catch many false positives, as ROSE could not distinguish a library function from an application function ERR05-C. Application-independent code should provide error detection without dictating error handling
Could flag possible violations of this rule by noting any pointer to struct that is passed to fread(), as the noncompliant code example demonstrates FIO09-C. Be careful with binary data when transferring data across systems
Could report possible violations of this rule by flagging calls to open() that do not have an O_NOFOLLOW flag and that are not preceded by a call to lstat() and succeeded by a call to fstat POS01-C. Check for the existence of links when dealing with files
Could report possible violations of this rule merely by reporting any open() or fopen() call that did not have a subsequent call to fstat() FIO05-C. Identify files using multiple file attributes
Does not currently detect violations of this recommendation. Although the recommendation in general cannot be automated, because of the difficulty in enforcing contracts between a variadic function and its invokers, it would be fairly easy to enforce type correctness on arguments to the printf() family of functions DCL11-C. Understand the type issues associated with variadic functions

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STR37-C. Arguments to character handling functions must be representable as an unsigned char