Find the roots of all cubics $f(x)$ given $f(2)=1$ and all roots are integral

Question

Find the roots of all monic cubics $f(x)$ given $f(2)=1$ and all roots are integral
I start with $f(x)=x^3-ax^2+bx-c$,
$$8-4a+2b-c=1$$
$$-4a+2b-c=-7$$
At this point it seems really difficult like I do not have enough information (I do) and I'm not sure if I've already taken a bad route or if there is a good move from here.
How can I progress with this question? The answer is to be given in 3-tuples of roots.

Shubhrajit Bhattacharya · Answer

Since $f$ is monic and all roots are integral, we have $$f(x)=(x-p)(x-q)(x-r)$$ for some integers $p,q,r$. Then $$(2-p)(2-q)(2-r)=f(2)=1$$ Since $(2-p),(2-q),(2-r)inmathbb{Z}$, there are only few possibilities for $p,q,r$, namely $p,q,rin{1,3}$.
Without loss of generality, let $pleq qleq r$. Product of three integers is $1$ only when either (1) all of them are $1$ or (2) one of them is $1$ and the other two are $-1$. Hence we have the following two cases respectively,
$$p=q=r=1tag{1}$$ $$p=1, q=r=3tag{2}$$
Hence there are only two possible monic cubic polynomials
$$f(x)=(x-1)^3tag{$1'$}$$ $$f(x)=(x-1)(x-3)^2tag{$2'$}$$

Find the roots of all cubics $f(x)$ given $f(2)=1$ and all roots are integral

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