Yes, you should add some kind of protection to your code. You don't need anything exotic, you want to access a resource (your stream) while it may be in use by something else. Two types of synchronization objects perform well with this task: Critical Sections and Mutex. For more details about locks you may start reading this article on Wikipedia. Mutex usually are slower but can be shared across processes, this is not your case so you may use a simple Critical Section to synchronize your threads.
Few tips if you do not plan to use a 3rd part library (like the great Boost).
When EnterCriticalSection function to acquire the lock. If the resource is locked by someone else your thread will be suspended and reactivated when the resource will be released by its owner (moreover your locked thread may have a boost of its priority). For short living locks this may not be an optimal solution because to suspend/resume a thread is time and resource consuming. For this reason you can set a spin; before suspending your thread the OS will consume a little bit of time doing nothing on that thread, it may give the time to lock owner to complete its job and release the thred. To use this you have to initialize your Critical Section with InitializeCriticalSectionAndSpinCount instead of the InitializeCriticalSection.
If you plan to use a Critical Section you may consider to wrap everything needed in a class, you'll use variables scope to do everything and your code will be more clear (this is just an example, a true implementation cannot be so naive):
// Here you may use InitializeCriticalSectionAndSpinCount
// You may not need this behavior, anyway here when you create
// the object you acquire the lock too
Under Unix/Linux (or you want to be portable) you should use the
pthread.h functions for Mutex.
Lock may not be enough
This is just the first step, if your application logs a lot you may slow down all threads waiting for log (don't do anything a priori, check and profile). If this is the case you should create a queue, your
logText() function simply push a new (pre-formatted) item in the queue and calls PulseEvent to signal an event (created with CreateEvent). You'll have a second thread waiting for that event with WaitForSingleObject, your thread will wake-up and it'll pop an item from the queue. You may still need some locking mechanism (or you may write your own non-blocking concurrent queue to avoid any lock. This solution is faster and it doesn't use locks of any sort but I think you should do something like that only if you want to study the topic (threads), usually for a simple log requirement you do not need to add such complexity.