The way the hardware does it is it inverts the second operand, and performs an add with the carry in on the least significant bit lane to 1. So an add is an add with the carry in being zero and a sub is an add with the operand notted and the carry in set.
You can do it pencil and paper style, where you borrow from the number next to it, but it feels a little goofy compared to decimal numbers. With decimal numbers say 1000 minus 1 the zero on the right becomes a 10, because this is base 10, then the 0 next to it has to borrow as well making it a 10 but then loaning one to the right making it a 9, this continues until your top row is 9 9 10 and you subtract 0 0 1 and get 999. With base 2 0b1000 (which is eight decimal) minus 0b0001, the same thing happens the zero on the right borrows from the left becoming 2 or 0b10 because this is base 2, the zero next to it has to borrow as well becoming a 0b10 then loaning a one to the right making it a 1 and so on so your top row is 1 1 0b10 and the bottom row is 0 0 1 subtract the columns and you get 0b111 or 7 decimal.
So all zeros minus all ones, the top row is 1 1 1 1 1 1 1 0b10 after the first borrow, the bottom row stays as 0 0 0 0 0 0 0 0, subtract the columns and you get 0 0 0 0 0 0 0 1.