而且,在此只有提到了堆叠溢位是如何产生的实质细节。
We also only hinted at the nitty-gritty details of how stack overflows work.
堆积溢位的利用通常比堆叠溢位更困难(虽然存在一些成功的堆溢位攻击)。
Heap overflows are generally much harder to exploit than stack overflows (although successful heap overflow attacks do exist).
缓冲区溢位导致安全性问题的另一个方法是透过摧毁堆叠。
Another way in which buffer overflows cause security problems is through stack-smashing attacks.
有创造力的攻击者会透过摧毁堆叠利用缓冲区溢位的弱点,然后执行任何程序码。
A creative attacker can take advantage of a buffer overflow vulnerability through stack-smashing and then run arbitrary code (anything at all).
我们将在缓冲区溢位的第三和第四专栏中详细讨论堆叠的摧毁。
We'll go into the details of stack smashing in our third and fourth columns on buffer overflows.
最惊人的缓冲区溢位是堆叠的摧毁,它会在超级使用者或root、shell 中造成后果。
The most spectacular buffer overflows are stack smashes that result in a superuser, or root, shell.
最惊人的缓冲区溢位是堆叠的摧毁,它会在超级使用者或root、shell 中造成后果。
The most spectacular buffer overflows are stack smashes that result in a superuser, or root, shell.
应用推荐