When you put together the two halves of the junction together you allow electrons and holes from either side to flow to the other by diffusion, which causes a current. The steady state of the system is one in which there is no external source of energy so we can be sure that in the steady state there can be no current which means something has to balance out the diffusion.

The something that balances it out is the buildup of an electric field which drives the charge carriers in the opposite direction of their diffusion, this electric field is the result of the nuclei of the dopants being left electrically imbalanced because of the diffusion, and thus the dopants are ions, at the N side you are left with positively charged dopants and on the P side you have negatively charged ones.

When we talk about the depletion region having charge, it is usually in reference to the charge of the ionised dopants. Although there are still charge carriers in this region it is common to disregard them in most cases since their concentration is so low compared to other regions.

As for why holes are positive, take a look at this lattice comprised of Silicon atoms doped with Boron: https://userscontent2.emaze.com/images/e0864643-cfba-4772-8c39-a9e71fad1094/897109c8-8679-4c91-a99b-fa4dc68c5d9dimage6.png

If the Bororn was instead Silicon, it would be able to share it’s 4 electrons with nearby atoms, but because it has one less electron in it’s final shell, it can’t form this bond and nearby electrons from the silicon can rush in and fill up the “hole” in the lattice, but because that electron left a silicon atom, that atom is now also left with a hole which is then filled and so on and so on.
If you think about it you can see that the electrons are moving towards the boron atom which initially had the missing electron and this is in essence the same as saying a positive charged hole propogated away from the boron atom.

I feel like this is super long so I’ll try to summarize.

1. It has a charge due to ionised dopants left without charge carriers to balance them

2. Holes are absences of electrons moving opposite in direction from them

3. The barrier potential is balanced by the diffusion of charge carriers (the opposite actually)

4. The need to limit diffusion is what creates the potential barrier