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If you had to choose your Favorite (clever) techniques for defensive coding, what would they be? Although my current languages are Java and Objective-C (with a background in C++), feel free to answer in any language. Emphasis here would be on clever defensive techniques other than those that 70%+ of us here already know about. So now it is time to dig deep into your bag of tricks.

In other words try to think of other than this uninteresting example:

  • if(5 == x) instead of if(x == 5): to avoid unintended assignment

Here are some examples of some intriguing best defensive programming practices (language-specific examples are in Java):

- Lock down your variables until you know that you need to change them

That is, you can declare all variables final until you know that you will need to change it, at which point you can remove the final. One commonly unknown fact is that this is also valid for method params:

public void foo(final int arg) { /* Stuff Here */ }

- When something bad happens, leave a trail of evidence behind

There are a number of things you can do when you have an exception: obviously logging it and performing some cleanup would be a few. But you can also leave a trail of evidence (e.g. setting variables to sentinel values like "UNABLE TO LOAD FILE" or 99999 would be useful in the debugger, in case you happen to blow past an exception catch-block).

- When it comes to consistency: the devil is in the details

Be as consistent with the other libraries that you are using. For example, in Java, if you are creating a method that extracts a range of values make the lower bound inclusive and the upper bound exclusive. This will make it consistent with methods like String.substring(start, end) which operates in the same way. You'll find all of these type of methods in the Sun JDK to behave this way as it makes various operations including iteration of elements consistent with arrays, where the indices are from Zero (inclusive) to the length of the array (exclusive).

So what are some favorite defensive practices of yours?

Update: If you haven't already, feel free to chime in. I am giving a chance for more responses to come in before I choose the official answer.

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closed as not constructive by Gilles, ssube, Pent Ploompuu, andrewsi, Pops Sep 13 '12 at 20:58

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67 Answers

Use a logging system that allows dynamic, run time log level adjustments. Often if you have to stop a program to enable logging, you'll lose whatever rare state the bug occurred in. You need to be able to turn on more logging information without stopping the process.

Also, 'strace -p [pid]' on linux will show you want system calls a process (or linux thread) is making. It may look strange at first, but once you get used to what system calls are generally made by what libc calls, you'll find this invaluable for in the field diagnosis.

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Always compile at the highest warning level, and treat warnings as errors (build breakers).

Even if the code is "right" fix the cause of the warning without disabling the warning if at all possible. For example, your C++ compiler might give you a warning for legal code like this:

while (ch = GetNextChar()) { ... }

It looks like you might have typed = instead of ==. Most compilers that offer this (useful) warning will shut up if you add an explicit check.

while ((ch = GetNextChar()) != 0) { ... }

Being slightly more explicit not only silences the warning but also helps the next programmer who has to understand the code.

If you MUST disable a warning, use a #pragma in the code, so you can (1) limit the span of code for which the warning is disabled and (2) use comments to explain why the warning must be disabled. Warnings disabled in command lines or makefiles are disasters waiting to happen.

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For C++ : automatically detecting size of arrays

char* mystrings[] = { "abc", "xyz" , "pqr" }

typically then for is written like

for (int i=0; i< 3; i++)
{
    str= mystrings[i]
    // somecode
}

However, Later you may add new more strings to 'mystrings'. In that case, the for loop above may introduce subtle bugs in the code.

solution that i use is

int mystringsize = sizeof(mystrings)/sizeof(char*)
for (int i=0; i< mystringsize; i++)
{
    str= mystrings[i]
    // somecode
}

Now if you add more strings to 'mystrings' array, for loop will be automatically adjusted.

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2  
consider using: int mystringsize = sizeof(mystrings)/sizeof(*mystrings) this will survive a type change. –  Ray Tayek Jan 29 '09 at 6:35
1  
also consider using a macro instead of a size variable, ie for(int i = 0; i < COUNT(mystrings); ++i) –  Christoph Jan 29 '09 at 9:26
1  
Won't this only work with arrays that have a known size at compile time? AFAIK, sizeof() is a compile-time keyword. –  scraimer Jan 29 '09 at 10:08
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My C++ guidelines, but I don't consider this to be clever:

  • Always lint, heck, make it part of your makefile. Better yet, use coverity if possible.
  • Don't use C++ exceptions.
  • Don't put too much stuff on C++ constructor. Use init() method instead. The only ways to signal an error in constructor is exceptions, which is PITA.
  • Don't overload operator unless it's necessary.
  • If your constructor has one argument, always use explicit keyword.
  • Avoid global objects. Their execution order is not guaranteed.
  • Define copy constructor when your class allocates a memory. But if you don't expect the class to be copied, and you're too lazy to define one, guard it from being called.

class NonCopied {
private:
    NonCopied(const NonCopied&);
    NonCopied& operator=(const NonCopied&);
}
  • Stop using sprintf(), strcpy(), strcat(). Use their replacement instead, eg. snprintf, strncpy(), etc.
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In Python, if I stub out (or change a method) and then don't have time to test it that day, I cram in an "assert False" so that the code will crash if the method is run, creating embarrassing errors I'll notice the next day. An intentional syntax error can be helpful as well.

Example:

def somefunction(*args,**kwargs):
    ''' <description of function and args> '''
    # finish this in the morning
    assert False, "Gregg finish this up"
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Use sentinel classes with certain interface based OOP patterns instead of null.

E.g. when using something like

public interface IFileReader {
  List<Record> Read(string file);
}

use a sentinel class like

public class NoReader : IFileReader {
  List<Record> Read(string file) {
    // Depending on your functional requirements in this case
    // you will use one or more of any of the following:
    // - log to your debug window, and/or
    // - throw meaningful exception, and/or
    return new List<Record>(); // - graceful fall back, and/or
    // - whatever makes sense to you here...
  }
}

and use it to initialize any IFileReader variable

IFileReader reader = new NoReader();

instead of just leaving them to null (either implicitly or explicitly)

IFileReader reader; /* or */
IFileReader reader = null;

to make sure you don't get unexpected null pointer exceptions.

Bonus: you don't really have to encase each and every IFileReader variable use with an if (var!=null) ... any more either because they won't be null.

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1  
Whether or not to fail hard is very application dependent. Hard fails may make for simpler debugging, but if you can recover without data loss, your users might thank you for failing more softly. –  Kim Reece Jan 29 '09 at 21:26
1  
@lbownik: See my other answer to this question! This is very specific for certain OOP situations. And you probably did see the "// - throw meaningful exception" in my above example as well? I'd rather have that than a generic null pointer exception any time... –  peSHIr Jan 30 '09 at 8:15
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In Perl, die() when subroutines aren't passed enough parameters. This prevents you from getting failures that you have to trace back up 10 levels through the stack.

sub foo {
    my $param0 = shift or confess "param0 is a required param";
    my $param1 = shift or confess "param1 is a required param";
    my $param2 = shift or confess "param2 is a required param";
    ...
}
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In C++

I spread out asserts all over my functions, especially at start and end of functions to catch any unexpected input/output. When I later add more functionality in a function the asserts will help me remember. It also helps other people to see the intention of the function and are only active in debug mode.

I avoid pointers as much as possible and instead use references, that way I don't need to put cluttering "if (NULL!=p)"-statements in my code.

I also use the word 'const' as often as I can both in declarations and as function/method arguments.

I also avoid using PODs and instead use STL/Boost as much as possible to avoid mem leaks and other nasty things. However I do avoid using too much custom defined templates as I find them hard to debug, especially for others who didn't write the code.

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Design your logging strategy so that when an error occurs in production, the appropriate support person or developer is emailed automatically. This allows you to proactively find bugs, rather than waiting for users to complain.

Note that this should be done with some caution. One example I had was that a developer had written some logging code inside a loop. After a few months an error in the system triggered this code. Unfortunately the application sat in that loop, logging the same error over and over again. We arrived in the office that morning to be informed that our mail server had crashed after our logging framework sent 40,000 emails between the hours of 4am and 8am!

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What happens when that person moves to another group or quits? Do you fix the application? –  EvilTeach Dec 19 '09 at 14:53
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Use a console, like in games;

Not completely "defensive" but I got this from seeing it in a lot games.

I like to have a full console for all my applications which allow me to:

  1. Define simple commands to be invoked from the console (like swiching to debug mode, setting some runtime variables, check internal configuration parameters and so on).
  2. Access a log everytime I want from the application while application is running.
  3. Save the log to a file if needed
  4. Log every unhandled exception to the console before raising it to the user (if appropiate). That way every exception is caught as some level. If you combine this cleverly with debug information or a map file you can get excelent results.

In C# if you mark the Console methods with the Conditional Attribute then they will be automatically stripped from the release version. In other languages the same can be achieved through preprocessor directives.

I've found it to be specially valuable during testing phase as it allows the developer to see what's happening and the tester to provide better feedback to the developer.

In addition:

  • Never catch an exception just for loggin.
  • Never catch general exceptions (exception E)
  • Never hide exceptions
  • Treat compiler warnings as if they were errors, only accept a warning with a very careful study.
  • Always check every input coming from outside the library.
  • Check the input coming from inside the library in "debug", don't check in release.
  • Never raise a generic exception. If an exception exists that describe the problem use it, if don't, create your own.
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Back to those days where RAM was not free, most computers were very limited and "NOT ENOUGH MEMORY !" was a pretty common error message...

Well, most application were then able to crash with 'elegance' : users (almost) never lost their works.

(Almost, I said ! ^^).

How was it done ? Very simple : when you app starts, allocate a balloon of RAM (say, a whopping 20 KB!). Then, when a call to malloc() fails :

  1. Say kindly that there is "NOT ENOUGH MEMORY" (this message was mandatory).
  2. Add "And you better save all your work. Now!"
  3. Release the whopping 20 KB balloon of RAM.
  4. Resume.

Et voilà. Your app is crashing slowly at the user, most of the time, can save it's work.

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In C++ assert() is a very handy tool. I do not only provide it with the condition to evaluate but also with a message stating what's wrong:

assert( isConditionValid && "ABC might have failed because XYZ is wrong." );

When there is no actual variable to check or you find yourself in a situation that should never have occured ('default' handler of switch()) this works too:

assert( 0 && "Invalid parameter" );

It not only asserts in debug mode but also tells you what went wrong at the same time.

I got this from the "C++ Coding Standards" if I remember correctly.

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Try not to build anything you design for a few weeks. Often other scenarios will come to you then before things get locked in.

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Remember that exceptions are a programmer's best friends - never eat them alive...

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If (some really bad condition) Then
Throw New Exception("particular bad thing happened")
End If

Usually this takes the form

Public SUb New (key As Guid)
Dim oReturn As returnpacket = Services.TableBackedObjectServices.GetData(key)
If oReturn.ds.tables(0).Rows.Count = 0 then Throw New Exception("TableBackedObject loaded from key was not found in the database.")
End If

Since that particular constructor is only supposed to be called when loading a particular object after selecting it from the results of a search procedure, not finding it is either a bug or a race condition (which would mean another user deleted the object by key).

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Some things I do in PHP (where mistakes are easy and often catastrophic):

  • Turn on all the syntax highlighting cues in Vim. There's a lot turned off by default (do :help php to see them). I'm thinking of adding a few error-highlighting things of my own...
  • Using a pre-commit hook in git to syntax-check (php -l) every changed file. It only prevents basic errors getting in, but it's better than nothing.
  • Writing wrappers around the database classes to make parameterised prepared statements brain-dead easy compared to typing out normal queries - $db->q1($sql, $param1, $param2) to fetch a single column of the first row, and so on.
  • Configuring it (via the Xdebug extension) to spit out gigantic HTML tables of debug info for even trivial warning messages, so it's impossible to ignore them. On the dev server, that is. On production they get silently logged instead.
  • Making things short, simple and obvious. I spend a lot of time just refactoring stuff for the sake of making smaller files.
  • Using the explicit control structure syntax to avoid having several "}"s in close proximity.
  • Proofreading code before it's checked in. I've got into a habit of maximising the window, then setting an absurdly large font size. If I can only make sense of it when I can see 132C x 50R on screen at once in a tiny font, it's too long to begin with.
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In C#: Instead of this:

if( str==null )

Do this:

if( String.IsNullOrEmpty(str) )
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WARNING! Do this if and only if in the relevant piece of code (str==null) can be considered exactly equivalent to (str==''). Otherwise you're simply hiding a problem which will bite you badly later. –  Craig Young Apr 23 '11 at 20:11
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In C#, use 'using' to make sure object is disposed when it goes out of scope. i.e.

        using(IDataReader results = DbManager.ExecuteQuery(dbCommand, transaction))
        {
            while (results.Read())
            {
                //do something
            }
        }

Also, check for null values after casting

        MyObject obj = this.bindingSource.Current as MyObject;
        if (MyObject != null)
        {
           // do something
        }

Also, I use enums whenever possible to avoid hardcoding, typos and to provide easy renaming if required, i.e.

    private enum MyTableColumns
{ 
	UserID,
	UserName
}

private enum StoredProcedures
{
	usp_getMyUser,
	usp_doSomething
}

public static MyUser GetMyUser(int userID)
{
	List<SqlParameter> spParameters = new List<SqlParameter>();

	spParameters.Add(new SqlParameter(MyTableColumns.UserID.ToString(), userID));


	return MyDB.GetEntity(StoredProcedures.usp_getMyUser.ToString(), spParameters, CommandType.StoredProcedure);
}
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Include high-level exception handling, as described in detail here

Top-level Exception Handling in Windows Forms Applications

My Program.cs would then look like this

    static class Program
    {
    [STAThread]
    static void Main()
    {
        Application.ThreadException += 
            new ThreadExceptionEventHandler(new ThreadExceptionHandler().ApplicationThreadException);

        Application.EnableVisualStyles();
        Application.SetCompatibleTextRenderingDefault(false);
        Application.Run(new MainForm());
    }

    public class ThreadExceptionHandler
    {
        public void ApplicationThreadException(object sender, ThreadExceptionEventArgs e)
        {
            MessageBox.Show(e.Exception.Message, "Error", MessageBoxButtons.OK, MessageBoxIcon.Error);
        }
    }
}
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Don't use single-character variables for loop indexes. For example:

for (int ii = 0 ; ii < someValue ; ii++)
    // loop body

This is a simple habit, but it's very helpful if you have to use a standard text editor for find references to the loop variable. Of course, indexed loops typically shouldn't be so long that you need to search for the index references ...

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Why would you ever have to use a standard text editor for editing code? –  Jorn Mar 10 '09 at 23:15
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C++:

Avoid raw pointers, always use the Boost smart pointer package (e.g., shared_ptr).

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Of course tr1::shared_ptr for c++03 and std::unique_ptr and std::shared_ptr for c++11 are also good alternatives –  Grizzly Aug 30 '12 at 22:43
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JavaScript:

We should use "==" and "===" appropriately.

== : type-converting equality comparison

=== : strict equality comparison

For example, '1'==1 is true, but '1'===1 is false.

Many people use "==" instead of "===" unconsciously.

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Crash-Only software, in short instead of requiring some shutdown procedure along with some seldomly used (and hence probably buggy) recovery code, always stop the program by "crashing it" and thus always run the recovery code when starting.

This is not applicable to everything, but in some cases it's a very neat idea.

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  • Tiny understandable classes. Many of them.
  • Tiny understandable Methods.
  • Immutable wherever possible.
  • Minimize scope--nothing public that can be package, nothing package that can be private.
  • never any excuse for a public mutable variable.

Also, when your classes are tiny and generally final, being defensive is really cheap--might as well throw it in regardless of if you believe in it or not. Test the values being passed to your constructors and (if you really MUST have them) setters.

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Don't pass around naked collections, even generics. They cannot be protected and they cannot have logic attached to them.

A good parallel would be having a public variable instead of setter/getter. the setter/getter allows you to change your underlying implementation without effecting the outside world.

How do you change your data structure without effecting the outside world if you are passing around a collection? All the access for your collection is distributed throughout all your code!!

Instead, wrap it and give yourself a place to put a little business logic. You'll find some nice refactors once you've done so.

Often you'll find it makes sense to add some variables and maybe a second collection--then you'll realize this class has been missing all along!

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When doing multi-threaded C/C++ programming, create a series of macros that assert your function is being called on the thread you think its being called on. Then use them liberally.

  • ASSERT_ON_UI_THREAD
  • ASSERT_ON_WORKER_THREAD
  • ASSERT_ON_THREADPOOL_THREAD
  • ASSERT_ON_DOWNLOAD_THREAD
  • etc.

Use GetCurrentThreadId() on Windows or pthread_self() on Posix when the thread is initialized, then store in globals. The asserts compare against the stored value.

Has saved me LOTS of painful debugging, especially when someone else refactors existing multi-threaded code.

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If there's a value type that has certain constraints on its value, make a class where those constraints are enforced by code. Some examples:

public class SanitizedHtmlString
{
private string val;

public SanitizedHtmlString(string val)
{
  this.val = Sanitize(val);
}

public string Val
{
  get { return val; }
}

//TODO write Sanitize method...
}


public class CarSpeed
{
private int speedInMilesPerHour; 

public CarSpeed(int speedInMilesPerHour)
{
  if (speedInMilesPerHour > 1000 || speedInMilesPerHour < 0)
  {
    throw new ArgumentException("Invalid speed.");
  }
  this.speedInMilesPerHour = speedInMilesPerHour; 
}

public int SpeedInMilesPerHour
{
  get { return speedInMilesPerHour; }
}
}
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So, who among us hasn't accidentally locked up Visual Studio for a while when writing a recursive method?

  int DoSomething(int value)  // stupid example for illustrative purposes
  {
      if (value < 0)
          return value;
      value++;  // oops
      return DoSomething(value);
  }

To avoid the annoyance of having to wait, and sometimes potentially having to kill off your IDE with task manager, include this in your recursive method while you're debugging it:

  int DoSomething(int value)
  {
>>    if (new StackTrace().FrameCount > 1000)  // some appropriately large number
>>        Debug.Fail("Stack overflow headed your way.");

      if (value < 0)
          // some buggy code that never fires
      return DoSomething(value);
  }

This may seem like it would be slow, but in practice checking the FrameCount is quite fast (less than a second on my PC). You can take this failsafe out (or maybe just comment it out, but leave it for later debugging) after you're sure the method is working properly.

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Language agnostic: Do never rely on compilers, virtual machines, etc. regarding initialisation. Always initialise your variables explicitly to helpful values.

Assertions are your best friend, although unit testing could fit better in some cases.

C/C++: Use stack based objects whenever possible.

In conditionals, check explicitly for the value that you expect or don't expect. For example if you have a boolean variable called activated instead of writing if (activated) write if (true == activated). The reason is that activated might contain garbage good enough to make the conditional succeed.

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In c# usage of TryParse instead of Parse for value types to avoid exceptions like FormatException, OverflowException etc, of course to avoid writing the try block for the same.

Bad code

string numberText = "123"; // or any other invalid value

public int GetNumber(string numberText)
  {
  try
  {
     int myInt = int.Parse(numberText);
     return myInt;
  }
  catch (FormatException)
  {
    //log the error if required
     return 0;
   }
  catch (OverflowException)
  {
     return 0;
  }
}

Good code (if you don't want to handle errors)

string numberText = "123"; // or any other invalid value
public int GetNumber(string numberText, int defaultReturnValue)
  {
    int myInt;
    return ( int.TryParse(numberText, out myInt) ) ?  myInt : defaultReturnValue;
}

You can do the same for almost all the value types e.g: Boolean.TryParse, Int16.TryParse, decimal.TryParse etc

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