I think the question is badly posed. In C++ we only have the concepts of translation units and linkage, the latter simply meaning under which circumstances names declared in different TUs refer to the same entity or not.
Nothing is virtually said about the linking process as such, the correctness of which must be guaranteed by the compiler/linker anyway; even if the code snippets above were purely C++ sources (with malloc replaced with a nice new int) the result would be still implementation defined ( eg. consider object files compiled with incompatible compiler options/ABIs/runtimes ).
So, either we talk in full generality and conclude that any program made of more than one TU is potentially wrong or we must take for granted that the linking process is 'valid' ( only the implementation knows ) and hence take for granted that if a function from some source language ( in this case C ) primises to return a 'pointer to an existing int' then the the same function in the destination language (C++) must still be a 'pointer to an existing int' (otherwise, following [dcl.link], we could't say that the linkage has been 'achieved', returning to the no man's land).
So, in my opinion, the real problem is assessing what an 'existing' int is in C and C++, comparatively. As I read the correponding standards, in both languages an int lifetime basically begins when its storage is reserved for it: in the OP case of an allocated(in C)/dynamic(in c++) storage duration object, this occurs (on C side) when the effective type of the lvalue *pointer_to_int becomes int (eg. when it's assigned a value; until then, the not-yet-an-int may trap(*)).
This does not happen in the OP case, the malloc result has no effective type yet. So, that int does not exist neither in C nor in C++, it's just a reinterpreted pointer.
That said, the c++ part of the OP code assigns just after returning from foo(); if this was intended, then we could say that given that malloc() in C++ is required having C semantics, a placement new on the c++ side would suffice to make it valid (as the provided links show).
So, summarizing, either the C code should be fixed to return a pointer to an existing int (by assigning to it) or the c++ code should be fixed by adding placement new. (sorry for the lengthy arguing ... :))
(*) here I'm not claiming that the only
issue is the existence of trap representation; if it were, one could argue that the result of foo() is an indeterminate value on C++ side, hence something that you can safely assign to. Clearly this is not the case because there are also aliasing rules to take into account ...