Let $X,Y$ be varieties (separated of finite type schemes) over base field $k$, $\mathcal{F}$ be constructible sheaf on $Y_{et}$ and assume that we have a finite morphism $f: X \to Y$, which garantees (see e.g. [these notes](http://math.stanford.edu/~conrad/Weil2seminar/Notes/etnotes.pdf) on p54) there exist a welldefined "trace map"

$$\text{tr}: f_{!}f^*\mathcal{F} \to \mathcal{F}$$

As finite morphisms are proper we have $f_*=f_{!}$ and so we can precompose with counit map obtaining the composition which transfers into derived world - we work here with derived category $D_c^b(X)$  of constructible sheaves on $X_{et}$ (...or, if we additionally require $\mathcal{F}$ to be $l$-adic sheaf (for $\ell$ prime in $k$) in derived cat $D_c^b(X, \ell)$ constructible $\ell$-adic sheaves):

$$\mathcal{F} \to  Rf_*f^* \mathcal{F}=Rf_{!}f^*\mathcal{F} \to \mathcal{F}$$

**Question:** In which situations this map splits in sense of that $\mathcal{F} $ becomes direct summand of $Rf_{!}f^*\mathcal{F}$?

It is well known that this composition coincides with multiplication by degree of $f$, and Im wondering which we actually have that $\mathcal{F}$ appears as direct summand of middle object.  
An idea: can we recognize this composition as part of an valid exact triangle with one zero map, compare with [this question](https://mathoverflow.net/users/108274/user267839)