1

For example, if a process is generating an image, and other parallel process is accessing this image through a get method, my intuition tells me that it may be dangerous to access that image while it is being written.

In C++ I have to use mutexes to make sure the image isn't accessed while it is being written, otherwise I'm experiencing random segfaults. but since python has some data protection mechanisms that I don't fully know, I'm not sure if I need to do this.

PSEUDO-CODE:

Class Camera(object):

    def __init__(self):
        self._capture = camera_handler() #camera_handler is a object that loads the driver and lets you control the camera.
        self.new_image = None
        self._is_to_run = False

    def start(self):
        self._is_to_run = True
        self._thread = thread_object(target=self.run)                
        self._thread.start()            

    def run(self):
        while(self._is_to_run):
            self.new_image = self._capture.update()


cam = Camera()
cam.start()

while True:
    image = cam.new_image
    result = do_some_process_image(image)

Is this safe?

12
  • 2
    Protect from what?
    – Peter Wood
    Feb 27 '17 at 19:47
  • Welcome to StackOverflow. Please see How to Ask. Could you give us the code that you have, what you're expecting, and what you're seeing instead?
    – Alex
    Feb 27 '17 at 19:48
  • I thought the question was clear. There is no need for code. Feb 27 '17 at 19:52
  • 1
    The question is far from clear. What threat are you imagining? What environment are you operating in? What requirements do you have for reliability and security?
    – Peter Wood
    Feb 27 '17 at 19:56
  • 1
    Hope it is clear now. Feb 27 '17 at 20:22
1

First of al, the threading module uses threads, not different processes!

The crucial difference between threads and processes is that the former share an address space (memory), while the latter don't.

The "standard" python implementation (CPython) uses a Global Interpreter Lock to ensure that only one thread at a time can be executing Python bytecode. So for data that can be updated with one one bytecode instruction (like store_fast) you might not need mutexes. When a thread that is modifying such a variable is interrupted, either the store has been done or it hasn't.

But in general you definitely need to protect data structures from reading and modification by multiple threads. If a thread is interrupted while it is in the proces of modifying say a large dictionary and execution is passed to another thread that tries to read from the dictionary, it might find the data in an inconsistant state.

1
  • Yes, when I say processes, I do not mean actual processes with different ID's in the system, but different routines. I admit that it may lead to confusion. Good answer. Feb 27 '17 at 21:27
1

Python shouldn't segfault in situations like this - the global intepreter lock is your friend. However, even in your example there's every chance that a camera interface is going to go into some random C library that doesn't necessarily behave itself. Even then, it doesn't prevent all race conditions in your code and you could easily find inconsistent data because of that.

Python does have Lock which is very low-level and doesn't provide much functionality. Condition is a higher-level type that is better for implementing a mutex-like lock:

# Consume one item
with cv:
    while not an_item_is_available():
        cv.wait()
    get_an_available_item()

# Produce one item
with cv:
    make_an_item_available()
    cv.notify()

Incidentally, there was a mutex in Python 2, which was deprecated in 2.6 and removed in Python 3.

0

I think what you are looking for is is the lock Object -> https://docs.python.org/2/library/threading.html#lock-objects

A primitive lock is a synchronization primitive that is not owned by a particular thread when locked. In Python, it is currently the lowest level synchronization primitive available, implemented directly by the thread extension module.

In your example, I would encapsulate the access to the image in a function like this

def image_access(self, image_Data = None):
    lock = Lock()
    lock.acquire()
    temp = self.new_image
    try:
        if image_Data not None:
            self.new_image = image_Data
    finally:
        lock.release()
    if image_Data is None:
        return temp

For more on Thread synchronization, see -> http://effbot.org/zone/thread-synchronization.htm

Edit:

Here are the cahnges to the ohter functions

def run(self):
    while(self._is_to_run):
        self.image_access(self._capture.update())

...

while True:
    result = do_some_process_image(cam.image_access())

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