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I have a question that is related to, but not answered by, this question:

Example for boost shared_mutex (multiple reads/one write)?

I understand how the exclusive locks work when the operations are scoped within the member function. My question is, what about return-by-reference functions? Consider the following (psuedo-code):

class A {
    shared_mutex _mutex;
    std::string _name;

    const std::string& name() const {shared_lock(_mutex); return _name;}

Then assume I do something like this in code:

A obj;
if (obj.name().length() >0) { ... };

My gut tells me this may not be thread safe, since the mutex will already have gone out of scope by the time the length() function is called, but I don't know.

I guess I'm also asking in the big picture, if I'm trying to make the object thread-safe, should I avoid returning by reference altogether? Wouldn't it enable someone to do something like this:

A obj;
std::string& s = obj.name();
(at this point lock is out of scope)
s = "foo";  // does this change the original object's member since it is a reference?
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It's not thread safe, because of the suspicions you mention. Returning a copy instead of a reference would be a workable solution. –  Drew Dormann Mar 25 '13 at 20:26
@Drew Dormann, does simply removing the reference operator from the return value force it to return a copy, or is it still possible for the compiler to optimize it as a reference? –  amnesia Mar 25 '13 at 20:36

3 Answers 3

up vote 2 down vote accepted

It is not threadsafe as the mutex would be released after name() has returned and another thread could begin modification of _name before or during the call to std::string::length() or after and the state of _name would have changed before entering the {...} true branch of the if.

To make the object threadsafe, ensure that all accesses to the _name occur when the mutex is locked. This means ensuring that a reference to _name is not returned to a caller or is not passed to a callback provided to (an imaginary member function not posted in the original code) a member function of A as this callback could cache the address of _name for future, unsynchronized, use.

Instead, return, or pass, by value (and create a copy of _name when the mutex is locked):

// Must be mutable to be modifiable
// in a const member function.
mutable shared_mutex _mutex;

std::string name() const
    // Must not create a temporary shared_lock,
    // otherwise the lock will be released immediately.
    // So give the shared_lock a name.
    shared_lock lk(_mutex);
    return _name;
share|improve this answer
So to ensure return by value, is it enough to just remove the reference operator from the return or do I actually need to make a local copy in the function and return it? –  amnesia Mar 25 '13 at 20:41
@amnesia, just updated answer. –  hmjd Mar 25 '13 at 20:43
Excellent, thanks! –  amnesia Mar 25 '13 at 20:43

Just change this function delaration:

const std::string& name() const ...

To this.

std::string name() const ...

You'll then be returning a copy of the string. (And since it's a copy, it doesn't need to be const).

That code will be thread-safe, and any compiler optimizations would preserve that safety.

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Presumably you are using a shared_mutex (instead of a plain mutex) for performance reasons, but copying the string is going to be expensive. Also presumably the code inside the braces of if (obj.name().length() >0) { ... } is going to further manipulate the string. If this is the case then you need to acquire the mutex for the entire operation, otherwise you will run into race conditions. (For example, you copy name, take its length, then in the meantime someone else shortens name to have length 0. The code in the braces will now be making an incorrect assumption about the length of name.)

If possible, you might consider making the code that is going to manipulate the string a member function of class A.

class A {
  shared_mutex _mutex;
  std::string _name;

   rettype my_operation() {
     shared_lock lk(_mutex);
     if (_name.length() >0) { ... };

There are other options, but they all involve holding the shared lock for the entire period of time that you are depending on your invariant holding.

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