Let's lay out the full facts.
Shaders need input. Without input that changes, every shader invocation will produce exactly the same values. That's how shaders work. When you issue a draw call, a number of shader invocations are launched. The only variables that will change from invocation to invocation within this draw call are
in variables. So unless you use some sort of input, every shader will produce the same outputs.
However, that doesn't mean you absolutely need a VAO that actually contains things. It is perfectly legal (though there are some drivers that don't support it) to render with a VAO that doesn't have any attributes enabled (though you have to use array rendering, not indexed rendering). In which case, all user-defined inputs to the vertex shader (if any) will be filled in with context state, which will be constant.
The vertex shader does have some other, built-in per-vertex inputs generated by the system. Namely gl_VertexID. This is the index used by OpenGL to uniquely identify this particular vertex. It will be different for every vertex.
So you could, for example, fetch geometry data yourself based on this index through uniform buffers, buffer textures, or some other mechanism. Or you can procedurally generate vertex data based on the index. Or something else. You could pass that data along to tessellation shaders for them to tessellate the generated data. Or to geometry shaders to do whatever it is you want with those. However you want to turn that index into real data is up to you.
Here's an example from my tutorial series that generates vertex data from nothing more than an index.