W.r.t. locations, you may place the bootloader at the top of the address space and load a program at the beginning of the address space.
You can also include the location and size of the program in the protocol so the bootloader would be able to check whether the pair of values is compatible with the bootloader location and size (IOW, whether or not the program would overwrite the bootloader if loaded).
Another option is to include relocation information in the program and a simple relocator in the bootloader. That way you'd be able to load the program at any location if there's enough free memory. This is what many OSes do when they load programs.
As for the interrupts, I don't see a problem. Who or what is there not to allow the program to use interrupts? Or do you want the bootloader to say resident and either continue to do something in the background or be able to return to it from the program? If you don't need any of these, just let the program use the interrupts (you probably don't even need to do anything to allow that).
If, OTOH, you do want the bootloader to remain functional you can introduce an extra layer of indirection by maintaining an additional interrupt vector table. The primary ISRs would extract the secondary ISRs from this interrupt vector table and jump there. Your bootloader and program would then need to do this in order to add a new or override an existing ISR:
- disable interrupts
- get the old ISR address from the additional interrupt vector table
- put the new ISR address into the table
- enable interrupts
Removing an ISR is obvious and similar to the above.
The new ISR can then:
- before doing its work call the old ISR (the address is preserved at step 2 above)
- after doing its work call the old ISR
- just do its work without calling the old ISR
You need to require that the programs and bootloader use this table and restore it when they no longer need to have their own ISRs in it.
I don't know what issues you may need to solve if you chain ISRs by executing the old ones before/after the new ones. But in some systems that's a possible design. Many x86 PC programs and drivers did that in MSDOS.