Yes, this is a designed behavior. When you link a program into a binary, all the references to named external (non-static) functions are resolved to point into the symbol table for the binary. Any shared libraries that are linked against are specified as
Then, when you run the binary, the dynamic linker loads each required shared library to a suitable address and resolves each symbol to an address. Sometimes this is done lazily, and sometimes it is done once at first startup. If there are multiple symbols with the same name, one of them will be chosen by the linker, and your program will likely crash since you may not end up with the right one.
Note that this is the behavior on Linux, which has all symbols as a flat namespace. Windows resolves symbols differently, using a tree topology, which has both advantages (fewer conflicts) and disadvantages (the inability to allocate memory in one library and free it in another).
The Linux behavior is very important if you want things like
LD_PRELOAD to work. This allows you to use debugging tools like Electric Fence and CPU profiling tools like the Google performance tools, or replace a memory allocator at runtime. None of these things would work if symbols were preferentially resolved to their binary or shared library.
The GNU dynamic linker does support symbol versions, however, so that it's possible to load multiple versions of a shared library into the same program. Oftentimes distros like Debian will do this with libraries they expect to change frequently, like OpenSSL. If the program uses liba which uses OpenSSL 1.0 and libb which uses OpenSSL 1.1, then the program should still function in such a case since OpenSSL has versioned symbols, and each library will use the appropriate version of the relevant symbol.