Hi List, Recently I got into the problem that I think relates to the small size of kernel stack. I had a function of the following form: void func() { ... //Block1 { struct huge_var x; .... .... } .... //Block2 { struct huge_var y; .... .... } .... } The above code resulted in stack overflow. I had an understanding that since the scope of variables x & y are limited to their blocks only, the space for them will be allocated and released when the block is entered and exited respectively. And hence the kernel stack will not overflow since both x and y will not occupy memory simultaneously (one instance of the variable can easily fit in the kernel stack). I solved this problem by having a single instance of struct huge_var declared immediately at function begining and reusing it in both blocks. But my question is when (and where) are the block scope variable allocated? In my previous case, were the two variables occupying two sperate memory areas simultaneously? Ah, I understand that I should use kernel stack sparingly ... and will do so. Thanks, Rajat -- To unsubscribe from this list: send an email with "unsubscribe kernelnewbies" to ecartis@xxxxxxxxxxxx Please read the FAQ at http://kernelnewbies.org/FAQ