OVERLAPPED structure must exist from when a successful I/O operation (or manual PostQueuedCompletionStatus()) executes until the
OVERLAPPED emerges from a call to GetQueuedCompletionStatus().
You are responsible for the lifetime of the structure.
You'll see from the MSDN docs that
GetQueuedCompletionStatus() actually takes "a pointer to a variable that receives the address of the
OVERLAPPED structure that was specified when the completed I/O operation was started.". What you actually get out of that call is a pointer to the original
OVERLAPPED that you passed when you made the
PostQueuedCompletionStatus() call (or initiated an overlapped I/O operation).
This is all actually very useful as the "normal" way to use the
OVERLAPPED structure is to place it inside a larger structure which holds all of the 'per operation' information that you might need - so it's the ideal way to navigate directly from the limited information that you're given when you call
GetQueuedCompletionStatus() to, for example, the data buffer that you used in your overlapped read call...
I find the best way to deal with
OVERLAPPED structures is to a) embed them in the buffer you're using for read/write b) reference count them and c) return them to a pool for reuse when the ref count drops to 0.
I have some source code that you could download (here) which may make this a little easier to understand (it's a full IOCP server example so it's a little complex, but it works and shows how these things can be used).