Page History

...

Checker	Guideline
(customization)	FIO44-C. Only use values for fsetpos() that are returned from fgetpos()
(customization)	ERR34-C. Detect errors when converting a string to a number
(customization)	POS34-C. Do not call putenv() with a pointer to an automatic variable as the argument
(customization)	DCL03-C. Use a static assertion to test the value of a constant expression
(customization)	FIO06-C. Create files with appropriate access permissions
(customization)	FIO08-C. Take care when calling remove() on an open file
(customization)	FIO10-C. Take care when using the rename() function
(customization)	FIO13-C. Never push back anything other than one read character
(customization)	FIO24-C. Do not open a file that is already open
(customization)	MEM03-C. Clear sensitive information stored in reusable resources
(customization)	MEM04-C. Beware of zero-length allocations
(customization)	MSC24-C. Do not use deprecated or obsolescent functions
(customization)	STR06-C. Do not assume that strtok() leaves the parse string unchanged
(customization)	WIN01-C. Do not forcibly terminate execution
(general)	FIO37-C. Do not assume that fgets() or fgetws() returns a nonempty string when successful
(general)	ENV01-C. Do not make assumptions about the size of an environment variable
(general)	INT04-C. Enforce limits on integer values originating from tainted sources
(general)	MEM11-C. Do not assume infinite heap space
ALLOC.DF	MEM00-C. Allocate and free memory in the same module, at the same level of abstraction
ALLOC.DF	MEM01-C. Store a new value in pointers immediately after free()
ALLOC.FNH	MEM34-C. Only free memory allocated dynamically
ALLOC.LEAK	MEM31-C. Free dynamically allocated memory when no longer needed
ALLOC.LEAK	FIO42-C. Close files when they are no longer needed
ALLOC.LEAK	MEM00-C. Allocate and free memory in the same module, at the same level of abstraction
ALLOC.LEAK	MEM11-C. Do not assume infinite heap space
ALLOC.SIZE.ADDOFLOW	INT30-C. Ensure that unsigned integer operations do not wrap
ALLOC.SIZE.ADDOFLOW	INT32-C. Ensure that operations on signed integers do not result in overflow
ALLOC.SIZE.ADDOFLOW	MEM35-C. Allocate sufficient memory for an object
ALLOC.SIZE.ADDOFLOW	INT08-C. Verify that all integer values are in range
ALLOC.SIZE.ADDOFLOW	INT18-C. Evaluate integer expressions in a larger size before comparing or assigning to that size
ALLOC.SIZE.IOFLOW	INT30-C. Ensure that unsigned integer operations do not wrap
ALLOC.SIZE.IOFLOW	INT32-C. Ensure that operations on signed integers do not result in overflow
ALLOC.SIZE.IOFLOW	MEM35-C. Allocate sufficient memory for an object
ALLOC.SIZE.IOFLOW	INT08-C. Verify that all integer values are in range
ALLOC.SIZE.IOFLOW	INT18-C. Evaluate integer expressions in a larger size before comparing or assigning to that size
ALLOC.SIZE.MULOFLOW	INT30-C. Ensure that unsigned integer operations do not wrap
ALLOC.SIZE.MULOFLOW	INT32-C. Ensure that operations on signed integers do not result in overflow
ALLOC.SIZE.MULOFLOW	MEM35-C. Allocate sufficient memory for an object
ALLOC.SIZE.MULOFLOW	INT08-C. Verify that all integer values are in range
ALLOC.SIZE.MULOFLOW	INT18-C. Evaluate integer expressions in a larger size before comparing or assigning to that size
ALLOC.SIZE.MULOFLOW	MEM07-C. Ensure that the arguments to calloc(), when multiplied, do not wrap
ALLOC.SIZE.SUBUFLOW	INT30-C. Ensure that unsigned integer operations do not wrap
ALLOC.SIZE.SUBUFLOW	INT32-C. Ensure that operations on signed integers do not result in overflow
ALLOC.SIZE.SUBUFLOW	MEM35-C. Allocate sufficient memory for an object
ALLOC.SIZE.SUBUFLOW	INT08-C. Verify that all integer values are in range
ALLOC.SIZE.SUBUFLOW	INT18-C. Evaluate integer expressions in a larger size before comparing or assigning to that size
ALLOC.SIZE.TRUNC	INT31-C. Ensure that integer conversions do not result in lost or misinterpreted data
ALLOC.SIZE.TRUNC	MEM35-C. Allocate sufficient memory for an object
ALLOC.SIZE.TRUNC	INT02-C. Understand integer conversion rules
ALLOC.SIZE.TRUNC	INT18-C. Evaluate integer expressions in a larger size before comparing or assigning to that size
ALLOC.TM	WIN30-C. Properly pair allocation and deallocation functions
ALLOC.TM	API07-C. Enforce type safety
ALLOC.UAF	MEM30-C. Do not access freed memory
ALLOC.UAF	MEM01-C. Store a new value in pointers immediately after free()
BADFUNC.*	MSC24-C. Do not use deprecated or obsolescent functions
BADFUNC.ATOF	ERR34-C. Detect errors when converting a string to a number
BADFUNC.ATOI	ERR34-C. Detect errors when converting a string to a number
BADFUNC.ATOL	ERR34-C. Detect errors when converting a string to a number
BADFUNC.ATOLL	ERR34-C. Detect errors when converting a string to a number
BADFUNC.BO.*	ARR30-C. Do not form or use out-of-bounds pointers or array subscripts
BADFUNC.BO.*	ARR38-C. Guarantee that library functions do not form invalid pointers
BADFUNC.BO.*	STR31-C. Guarantee that storage for strings has sufficient space for character data and the null terminator
BADFUNC.BO.*	API02-C. Functions that read or write to or from an array should take an argument to specify the source or target size
BADFUNC.BO.OEMTOCHAR	STR07-C. Use the bounds-checking interfaces for string manipulation
BADFUNC.BO.STRCAT	STR07-C. Use the bounds-checking interfaces for string manipulation
BADFUNC.BO.STRCATCHAINW	STR07-C. Use the bounds-checking interfaces for string manipulation
BADFUNC.BO.STRCMP	STR07-C. Use the bounds-checking interfaces for string manipulation
BADFUNC.BO.STRCPY	STR07-C. Use the bounds-checking interfaces for string manipulation
BADFUNC.BO.STRLEN	STR07-C. Use the bounds-checking interfaces for string manipulation
BADFUNC.BO.STRTRNS	STR07-C. Use the bounds-checking interfaces for string manipulation
BADFUNC.CHROOT	POS05-C. Limit access to files by creating a jail
BADFUNC.CREATEPROCESS	WIN02-C. Restrict privileges when spawning child processes
BADFUNC.CREATETHREAD	WIN02-C. Restrict privileges when spawning child processes
BADFUNC.LONGJMP	MSC22-C. Use the setjmp(), longjmp() facility securely
BADFUNC.MEMSET	MSC06-C. Beware of compiler optimizations
BADFUNC.PATH.*	FIO02-C. Canonicalize path names originating from tainted sources
BADFUNC.PATH.AFXLOADLIBRARY	WIN00-C. Be specific when dynamically loading libraries
BADFUNC.PATH.COLOADLIBRARY	WIN00-C. Be specific when dynamically loading libraries
BADFUNC.PATH.LOADLIBRARY	WIN00-C. Be specific when dynamically loading libraries
BADFUNC.PATH.SYSTEM	ENV33-C. Do not call system()
BADFUNC.RANDOM.RAND	CON33-C. Avoid race conditions when using library functions
BADFUNC.RANDOM.RAND	MSC30-C. Do not use the rand() function for generating pseudorandom numbers
BADFUNC.SETJMP	MSC22-C. Use the setjmp(), longjmp() facility securely
BADFUNC.SIGNAL	SIG34-C. Do not call signal() from within interruptible signal handlers
BADFUNC.SIGNAL	CON37-C. Do not call signal() in a multithreaded program
BADFUNC.SIGNAL	SIG00-C. Mask signals handled by noninterruptible signal handlers
BADFUNC.SIGNAL	SIG01-C. Understand implementation-specific details regarding signal handler persistence
BADFUNC.SIGNAL	SIG02-C. Avoid using signals to implement normal functionality
BADFUNC.TEMP.*	FIO01-C. Be careful using functions that use file names for identification
BADFUNC.TEMP.*	FIO21-C. Do not create temporary files in shared directories
BADFUNC.TEMP.TMPNAM	CON33-C. Avoid race conditions when using library functions
BADFUNC.TTYNAME	CON33-C. Avoid race conditions when using library functions
BADFUNC.VFORK	POS33-C. Do not use vfork()
BADMACRO.STDARG_H	EXP47-C. Do not call va_arg with an argument of the incorrect type
BUILD.WALL	MSC00-C. Compile cleanly at high warning levels
BUILD.WERROR	MSC00-C. Compile cleanly at high warning levels
CONCURRENCY.DATARACE	SIG31-C. Do not access shared objects in signal handlers
CONCURRENCY.DATARACE	CON32-C. Prevent data races when accessing bit-fields from multiple threads
CONCURRENCY.DATARACE	CON43-C. Do not allow data races in multithreaded code
CONCURRENCY.DATARACE	POS49-C. When data must be accessed by multiple threads, provide a mutex and guarantee no adjacent data is also accessed
CONCURRENCY.LOCK.NOLOCK	CON01-C. Acquire and release synchronization primitives in the same module, at the same level of abstraction
CONCURRENCY.LOCK.NOUNLOCK	CON01-C. Acquire and release synchronization primitives in the same module, at the same level of abstraction
CONCURRENCY.LOCK.ORDER	CON35-C. Avoid deadlock by locking in a predefined order
CONCURRENCY.LOCK.ORDER	POS51-C. Avoid deadlock with POSIX threads by locking in predefined order
CONCURRENCY.STARVE.BLOCKING	POS52-C. Do not perform operations that can block while holding a POSIX lock
CONCURRENCY.STARVE.BLOCKING	CON05-C. Do not perform operations that can block while holding a lock
DIAG.UNEX.*	MSC07-C. Detect and remove dead code
DIAG.UNEX.*	MSC12-C. Detect and remove code that has no effect or is never executed
HARDCODED.AUTH	MSC18-C. Be careful while handling sensitive data, such as passwords, in program code
HARDCODED.KEY	MSC18-C. Be careful while handling sensitive data, such as passwords, in program code
HARDCODED.SALT	MSC18-C. Be careful while handling sensitive data, such as passwords, in program code
IO.INJ.COMMAND	ENV33-C. Do not call system()
IO.INJ.COMMAND	STR02-C. Sanitize data passed to complex subsystems
IO.INJ.FMT	FIO30-C. Exclude user input from format strings
IO.INJ.FMT	FIO47-C. Use valid format strings
IO.INJ.FMT	STR02-C. Sanitize data passed to complex subsystems
IO.INJ.LDAP	STR02-C. Sanitize data passed to complex subsystems
IO.INJ.LIB	STR02-C. Sanitize data passed to complex subsystems
IO.INJ.SQL	STR02-C. Sanitize data passed to complex subsystems
IO.RACE	FIO45-C. Avoid TOCTOU race conditions while accessing files
IO.RACE	FIO01-C. Be careful using functions that use file names for identification
IO.RACE	FIO24-C. Do not open a file that is already open
IO.TAINT.ADDR	INT04-C. Enforce limits on integer values originating from tainted sources
IO.TAINT.FNAME	FIO01-C. Be careful using functions that use file names for identification
IO.TAINT.FNAME	FIO02-C. Canonicalize path names originating from tainted sources
IO.TAINT.SIZE	MEM35-C. Allocate sufficient memory for an object
IO.TAINT.SIZE	INT04-C. Enforce limits on integer values originating from tainted sources
IO.TAINT.SIZE	MEM05-C. Avoid large stack allocations
IO.TAINT.SIZE	MEM11-C. Do not assume infinite heap space
IO.UAC	FIO46-C. Do not access a closed file
IO.UT.HOST	INT04-C. Enforce limits on integer values originating from tainted sources
IO.UT.LIB	STR02-C. Sanitize data passed to complex subsystems
IO.UT.PORT	INT04-C. Enforce limits on integer values originating from tainted sources
IO.UT.PROC	STR02-C. Sanitize data passed to complex subsystems
LANG.ARITH.BIGSHIFT	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
LANG.ARITH.DIVZERO	INT33-C. Ensure that division and remainder operations do not result in divide-by-zero errors
LANG.ARITH.FDIVZERO	INT33-C. Ensure that division and remainder operations do not result in divide-by-zero errors
LANG.ARITH.NEGSHIFT	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
LANG.CAST.COERCE	INT31-C. Ensure that integer conversions do not result in lost or misinterpreted data
LANG.CAST.COERCE	FIO34-C. Distinguish between characters read from a file and EOF or WEOF
LANG.CAST.COERCE	API07-C. Enforce type safety
LANG.CAST.COERCE	INT02-C. Understand integer conversion rules
LANG.CAST.COERCE	INT18-C. Evaluate integer expressions in a larger size before comparing or assigning to that size
LANG.CAST.PC.AV	INT31-C. Ensure that integer conversions do not result in lost or misinterpreted data
LANG.CAST.PC.CONST2PTR	INT31-C. Ensure that integer conversions do not result in lost or misinterpreted data
LANG.CAST.PC.CONST2PTR	INT36-C. Converting a pointer to integer or integer to pointer
LANG.CAST.PC.CRCQ	DCL00-C. Const-qualify immutable objects
LANG.CAST.PC.CRCQ	EXP05-C. Do not cast away a const qualification
LANG.CAST.PC.INT	INT31-C. Ensure that integer conversions do not result in lost or misinterpreted data
LANG.CAST.PC.INT	INT36-C. Converting a pointer to integer or integer to pointer
LANG.CAST.RIP	EXP14-C. Beware of integer promotion when performing bitwise operations on integer types smaller than int
LANG.CAST.VALUE	INT31-C. Ensure that integer conversions do not result in lost or misinterpreted data
LANG.CAST.VALUE	API07-C. Enforce type safety
LANG.CAST.VALUE	INT02-C. Understand integer conversion rules
LANG.CAST.VALUE	INT18-C. Evaluate integer expressions in a larger size before comparing or assigning to that size
LANG.FUNCS.APM	EXP37-C. Call functions with the correct number and type of arguments
LANG.FUNCS.ASSERTS	MSC11-C. Incorporate diagnostic tests using assertions
LANG.FUNCS.IRV	ERR33-C. Detect and handle standard library errors
LANG.FUNCS.IRV	POS54-C. Detect and handle POSIX library errors
LANG.FUNCS.IRV	EXP12-C. Do not ignore values returned by functions
LANG.FUNCS.PROT	DCL07-C. Include the appropriate type information in function declarators
LANG.FUNCS.PROT	DCL20-C. Explicitly specify void when a function accepts no arguments
LANG.ID.AMBIG	DCL02-C. Use visually distinct identifiers
LANG.ID.ND.EXT	DCL23-C. Guarantee that mutually visible identifiers are unique
LANG.ID.ND.MM	DCL23-C. Guarantee that mutually visible identifiers are unique
LANG.ID.ND.MO	DCL23-C. Guarantee that mutually visible identifiers are unique
LANG.ID.ND.NEST	DCL01-C. Do not reuse variable names in subscopes
LANG.ID.ND.NEST	DCL23-C. Guarantee that mutually visible identifiers are unique
LANG.ID.ND.SS	DCL23-C. Guarantee that mutually visible identifiers are unique
LANG.ID.NU.EXT	DCL23-C. Guarantee that mutually visible identifiers are unique
LANG.ID.NU.INT	DCL23-C. Guarantee that mutually visible identifiers are unique
LANG.ID.NU.LIBFN	DCL23-C. Guarantee that mutually visible identifiers are unique
LANG.ID.NU.TAG	DCL23-C. Guarantee that mutually visible identifiers are unique
LANG.ID.NU.TYPE	DCL23-C. Guarantee that mutually visible identifiers are unique
LANG.MEM.BO	ARR30-C. Do not form or use out-of-bounds pointers or array subscripts
LANG.MEM.BO	ARR38-C. Guarantee that library functions do not form invalid pointers
LANG.MEM.BO	STR31-C. Guarantee that storage for strings has sufficient space for character data and the null terminator
LANG.MEM.BO	ENV01-C. Do not make assumptions about the size of an environment variable
LANG.MEM.BO	EXP08-C. Ensure pointer arithmetic is used correctly
LANG.MEM.BU	ARR30-C. Do not form or use out-of-bounds pointers or array subscripts
LANG.MEM.BU	ARR38-C. Guarantee that library functions do not form invalid pointers
LANG.MEM.BU	EXP08-C. Ensure pointer arithmetic is used correctly
LANG.MEM.NPD	EXP34-C. Do not dereference null pointers
LANG.MEM.TBA	INT31-C. Ensure that integer conversions do not result in lost or misinterpreted data
LANG.MEM.TBA	ARR30-C. Do not form or use out-of-bounds pointers or array subscripts
LANG.MEM.TBA	EXP08-C. Ensure pointer arithmetic is used correctly
LANG.MEM.TBA	INT04-C. Enforce limits on integer values originating from tainted sources
LANG.MEM.TO	ARR30-C. Do not form or use out-of-bounds pointers or array subscripts
LANG.MEM.TO	STR31-C. Guarantee that storage for strings has sufficient space for character data and the null terminator
LANG.MEM.TO	ENV01-C. Do not make assumptions about the size of an environment variable
LANG.MEM.TO	EXP08-C. Ensure pointer arithmetic is used correctly
LANG.MEM.TU	ARR30-C. Do not form or use out-of-bounds pointers or array subscripts
LANG.MEM.TU	EXP08-C. Ensure pointer arithmetic is used correctly
LANG.MEM.UVAR	EXP33-C. Do not read uninitialized memory
LANG.PREPROC.HASH	PRE05-C. Understand macro replacement when concatenating tokens or performing stringification
LANG.PREPROC.MACROARG	PRE32-C. Do not use preprocessor directives in invocations of function-like macros
LANG.PREPROC.MACROEND	PRE02-C. Macro replacement lists should be parenthesized
LANG.PREPROC.MACROEND	PRE11-C. Do not conclude macro definitions with a semicolon
LANG.PREPROC.MACROSTART	PRE02-C. Macro replacement lists should be parenthesized
LANG.PREPROC.PASTE	PRE30-C. Do not create a universal character name through concatenation
LANG.PREPROC.PASTE	PRE05-C. Understand macro replacement when concatenating tokens or performing stringification
LANG.PREPROC.PASTEHASH	PRE30-C. Do not create a universal character name through concatenation
LANG.STRUCT.CONDASSIG	EXP45-C. Do not perform assignments in selection statements
LANG.STRUCT.DECL.FAM	ARR02-C. Explicitly specify array bounds, even if implicitly defined by an initializer
LANG.STRUCT.DECL.IF	DCL40-C. Do not create incompatible declarations of the same function or object
LANG.STRUCT.DECL.IO	DCL40-C. Do not create incompatible declarations of the same function or object
LANG.STRUCT.DECL.MGT	DCL23-C. Guarantee that mutually visible identifiers are unique
LANG.STRUCT.DECL.ML	DCL04-C. Do not declare more than one variable per declaration
LANG.STRUCT.DECL.RESERVED	DCL37-C. Do not declare or define a reserved identifier
LANG.STRUCT.EBS	EXP15-C. Do not place a semicolon on the same line as an if, for, or while statement
LANG.STRUCT.EBS	MSC12-C. Detect and remove code that has no effect or is never executed
LANG.STRUCT.INIT.ENUM	INT09-C. Ensure enumeration constants map to unique values
LANG.STRUCT.LOOP.FPC	FLP30-C. Do not use floating-point variables as loop counters
LANG.STRUCT.LOOP.HR	MSC21-C. Use robust loop termination conditions
LANG.STRUCT.LOOP.UB	MSC21-C. Use robust loop termination conditions
LANG.STRUCT.MRS	MSC37-C. Ensure that control never reaches the end of a non-void function
LANG.STRUCT.NTAD	EXP34-C. Do not dereference null pointers
LANG.STRUCT.PARENS	EXP00-C. Use parentheses for precedence of operation
LANG.STRUCT.PARITH	EXP08-C. Ensure pointer arithmetic is used correctly
LANG.STRUCT.PBB	ARR30-C. Do not form or use out-of-bounds pointers or array subscripts
LANG.STRUCT.PBB	EXP08-C. Ensure pointer arithmetic is used correctly
LANG.STRUCT.PIT	DCL05-C. Use typedefs of non-pointer types only
LANG.STRUCT.PPE	ARR30-C. Do not form or use out-of-bounds pointers or array subscripts
LANG.STRUCT.PPE	EXP08-C. Ensure pointer arithmetic is used correctly
LANG.STRUCT.RC	MSC07-C. Detect and remove dead code
LANG.STRUCT.RC	MSC12-C. Detect and remove code that has no effect or is never executed
LANG.STRUCT.RPL	DCL30-C. Declare objects with appropriate storage durations
LANG.STRUCT.SCOPE.FILE	DCL15-C. Declare file-scope objects or functions that do not need external linkage as static
LANG.STRUCT.SCOPE.FILE	DCL19-C. Minimize the scope of variables and functions
LANG.STRUCT.SCOPE.LOCAL	DCL19-C. Minimize the scope of variables and functions
LANG.STRUCT.SE.COND	EXP45-C. Do not perform assignments in selection statements
LANG.STRUCT.SE.SIZEOF	EXP44-C. Do not rely on side effects in operands to sizeof, _Alignof, or _Generic
LANG.STRUCT.SW.MB	MSC17-C. Finish every set of statements associated with a case label with a break statement
LANG.STRUCT.SW.MPC	MSC20-C. Do not use a switch statement to transfer control into a complex block
LANG.STRUCT.UA	MSC12-C. Detect and remove code that has no effect or is never executed
LANG.STRUCT.UC	MSC07-C. Detect and remove dead code
LANG.STRUCT.UC	MSC12-C. Detect and remove code that has no effect or is never executed
LANG.STRUCT.UPD	EXP34-C. Do not dereference null pointers
LANG.STRUCT.UPD	API00-C. Functions should validate their parameters
LANG.STRUCT.USEASSIGN	EXP45-C. Do not perform assignments in selection statements
LANG.STRUCT.UULABEL	MSC12-C. Detect and remove code that has no effect or is never executed
LANG.STRUCT.UUMACRO	MSC12-C. Detect and remove code that has no effect or is never executed
LANG.STRUCT.UUPARAM	MSC12-C. Detect and remove code that has no effect or is never executed
LANG.STRUCT.UUTAG	MSC12-C. Detect and remove code that has no effect or is never executed
LANG.STRUCT.UUTYPE	MSC12-C. Detect and remove code that has no effect or is never executed
LANG.STRUCT.UUVAL	MSC13-C. Detect and remove unused values
LANG.STRUCT.UUVAR	MSC12-C. Detect and remove code that has no effect or is never executed
LANG.TYPE.AWID	INT18-C. Evaluate integer expressions in a larger size before comparing or assigning to that size
LANG.TYPE.BASIC	INT01-C. Use rsize_t or size_t for all integer values representing the size of an object
LANG.TYPE.BFSIGN	INT12-C. Do not make assumptions about the type of a plain int bit-field when used in an expression
LANG.TYPE.CSUF	DCL16-C. Use "L," not "l," to indicate a long value
LANG.TYPE.IAT	STR04-C. Use plain char for characters in the basic character set
LANG.TYPE.ICA	STR04-C. Use plain char for characters in the basic character set
LANG.TYPE.IOT	EXP46-C. Do not use a bitwise operator with a Boolean-like operand
LANG.TYPE.IOT	INT07-C. Use only explicitly signed or unsigned char type for numeric values
LANG.TYPE.IOT	INT13-C. Use bitwise operators only on unsigned operands
LANG.TYPE.IOT	STR04-C. Use plain char for characters in the basic character set
LANG.TYPE.MOT	FLP06-C. Convert integers to floating point for floating-point operations
LANG.TYPE.MOT	STR04-C. Use plain char for characters in the basic character set
LANG.TYPE.NCS	STR05-C. Use pointers to const when referring to string literals
LANG.TYPE.OC	DCL18-C. Do not begin integer constants with 0 when specifying a decimal value
LANG.TYPE.OWID	INT18-C. Evaluate integer expressions in a larger size before comparing or assigning to that size
LANG.TYPE.RESTRICT	EXP43-C. Avoid undefined behavior when using restrict-qualified pointers
MISC.CHROOT.NOCHDIR	POS05-C. Limit access to files by creating a jail
MISC.CRYPTO.NOPAD	MSC18-C. Be careful while handling sensitive data, such as passwords, in program code
MISC.FMT	FIO30-C. Exclude user input from format strings
MISC.FMT	FIO47-C. Use valid format strings
MISC.MEM.NTERM	STR31-C. Guarantee that storage for strings has sufficient space for character data and the null terminator
MISC.MEM.NTERM	STR03-C. Do not inadvertently truncate a string
MISC.MEM.SIZE.ADDOFLOW	INT30-C. Ensure that unsigned integer operations do not wrap
MISC.MEM.SIZE.ADDOFLOW	INT32-C. Ensure that operations on signed integers do not result in overflow
MISC.MEM.SIZE.ADDOFLOW	INT08-C. Verify that all integer values are in range
MISC.MEM.SIZE.ADDOFLOW	INT18-C. Evaluate integer expressions in a larger size before comparing or assigning to that size
MISC.MEM.SIZE.BAD	INT30-C. Ensure that unsigned integer operations do not wrap
MISC.MEM.SIZE.BAD	INT32-C. Ensure that operations on signed integers do not result in overflow
MISC.MEM.SIZE.BAD	MEM35-C. Allocate sufficient memory for an object
MISC.MEM.SIZE.BAD	INT08-C. Verify that all integer values are in range
MISC.MEM.SIZE.BAD	INT18-C. Evaluate integer expressions in a larger size before comparing or assigning to that size
MISC.MEM.SIZE.BAD	MEM05-C. Avoid large stack allocations
MISC.MEM.SIZE.BAD	MEM11-C. Do not assume infinite heap space
MISC.MEM.SIZE.MULOFLOW	INT30-C. Ensure that unsigned integer operations do not wrap
MISC.MEM.SIZE.MULOFLOW	INT32-C. Ensure that operations on signed integers do not result in overflow
MISC.MEM.SIZE.MULOFLOW	INT08-C. Verify that all integer values are in range
MISC.MEM.SIZE.MULOFLOW	INT18-C. Evaluate integer expressions in a larger size before comparing or assigning to that size
MISC.MEM.SIZE.SUBUFLOW	INT30-C. Ensure that unsigned integer operations do not wrap
MISC.MEM.SIZE.SUBUFLOW	INT32-C. Ensure that operations on signed integers do not result in overflow
MISC.MEM.SIZE.SUBUFLOW	INT08-C. Verify that all integer values are in range
MISC.MEM.SIZE.SUBUFLOW	INT18-C. Evaluate integer expressions in a larger size before comparing or assigning to that size
MISC.MEM.SIZE.TRUNC	INT31-C. Ensure that integer conversions do not result in lost or misinterpreted data
MISC.MEM.SIZE.TRUNC	INT02-C. Understand integer conversion rules
MISC.MEM.SIZE.TRUNC	INT18-C. Evaluate integer expressions in a larger size before comparing or assigning to that size
MISC.NEGCHAR	STR34-C. Cast characters to unsigned char before converting to larger integer sizes
MISC.NEGCHAR	STR37-C. Arguments to character-handling functions must be representable as an unsigned char
MISC.NEGCHAR	INT05-C. Do not use input functions to convert character data if they cannot handle all possible inputs
MISC.NEGCHAR	STR00-C. Represent characters using an appropriate type
MISC.NOEFFECT	MSC12-C. Detect and remove code that has no effect or is never executed
MISC.PWD.PLAIN	MSC18-C. Be careful while handling sensitive data, such as passwords, in program code

Space shortcuts

Page tree

Versions Compared

Old Version 35

New Version 36

Key