Let $\chi$ be be quadrtic charachetr mod $q$. I am interested in finding the best result for how large $N$  should be such that it is guaranteed that 

$$\sum_{p=1}^{N} \chi(p) \log p= o(N).$$

I am aware of Heath-Brown's unpublished note, which, assuming the Burgess bound is optimal, proves that:$$\chi(p)=-1 \hspace{5 mm} \text{ for      } \hspace{5 mm} q^{1/4\sqrt{e}}< p< q^{1/4},$$
$$\chi(p)=1 \hspace{6 mm} \text{ for       } \hspace{5 mm} q^{1/4}< p< q^{1/2\sqrt{e}}.$$

But it is not clear to me how large the character sum over primes should be to guarantee cancellation. We may asssume there are no Siegl zeros.