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I have the need to create a UDP buffer, I have chosen a std::deque to push and pop udp packets so that they can be stored. The deque takes the form:

std::deque<unsigned char *> packetStack;

Now each time a udp packet is called I do the following:

packetStack.push_back(new unsigned char[buffersize])
(nbytes = recvfrom(fdUdp, (void*)packetStack.back(), buffersize, 0, (struct sockaddr *) &addr, &addrlen)) < 0)
if (nbytes <= 0)
{
     delete[] packetStack.back(); // Not sure if this one actually gets c
                                   // called but I dont think so. I assume 
                                   // it would fail in the same way as the one
                                   // below that i am about to explain.
     packetStack.pop_back();
}

Which i am pretty sure should work. I am providing the memory address of a buffer with buffersize reserved.

When i go to use these packets i do the following:

if (packetStack.empty() == false)
{
    function(packetStack.front());
    delete[] packetStack.front(); //segfaults here
    packetStack.pop_front();
}

So i get a segfault. I am not enjoying memory management in c++ so at this point i would like to ask is there a better way to use socket calls than with unsigned char *?

But I am not sure why this isn't working? I thought maybe it was the temporary assignment of the memory out of scope but then i tried this simple example:

#include <iostream>
#include <deque>


std::deque<unsigned char *> get(void)
{
    std::deque<unsigned char *> stuff;
    stuff.push_back(new unsigned char[20]);
    stuff.push_back(new unsigned char[20]);
    stuff.push_back(new unsigned char[20]);
    stuff.push_back(new unsigned char[20]);
    return stuff;
}

int main()
{
    std::deque<unsigned char *> stuff = get();
    delete[] stuff.back();
    stuff.pop_back();
    delete[] stuff.back();
    delete[] stuff.front();
}

And that all works just fine. Unless i am missing something that will cause UB?

The only other things that i can think of are that the recvfrom call is messing with the pointer address? Seems pretty unlikely.

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    I'm not offering an answer, just commentary. This is bad code. Instead of working with raw pointers like this, you should wrap each buffer in something: perhaps a unique_ptr, perhaps a custom object. Then the std::deque becomes a container of objects and their destructors do the cleanup for you. Jun 13, 2014 at 4:45
  • @StevenSudit Yep, i am actually implementing that now cause i realized the same thing. I am still interested though in why this fails. Jun 13, 2014 at 4:46
  • Like I said, I wasn't offering an answer. When something is this messy, it's easy to make some small, fatal mistake, and hard to figure out exactly what it is. Jun 13, 2014 at 4:47
  • 2
    @ben Regarding your question about the cast to void. In short, it won't. You'd be better off using something like std::deque<std::vector<unsigned char>> for your queue, reading your data into a local std::vector<unsigned char> sized appropriately, and q.emplace_back(std::move(localvar)) to push your data on to your queue. I agree with Jan that the likely culprit is a copy of the deque, or a threading issue, but if it were the latter you would likely have mentioned it.
    – WhozCraig
    Jun 13, 2014 at 5:37
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    The conversion from unsigned char* to void* is implicit, no need to cast, let alone a C-style cast which you should avoid. BTW: One big issue is that your container contains pointers, which means that copying it will give you two containers with identical pointer values! If one of them deletes an element, the according one in the other becomes unusable. My suggestion: Use a struct udp_buffer{char buffer[SIZE];} as element, this avoids the issues with low-level memory management and should work sufficiently. Jun 13, 2014 at 6:09

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