This is a simplified version of a question I am looking at, but embarrassingly I can't do this one anyway. 

Let's assume f(x) is a decreasing positive function, f(0) is infinite and, moreover, f(x) is comparable to 1/x near x=0. We look only at positive x's.

Assume we know that the limit
$$
\lim_{a\to 0^+}\int\limits_{a}^{2a} f(t)dt
$$
exists as a positive finite number. Does it imply that
$$
\lim_{n\to\infty} f(2^{-n})\cdot 2^{-n}
$$
exists? 

Note: it definitely does not imply that the limit of xf(x) exists.