You have a base PRODUCTS table. In that table you can have the product's base price.
You have a base ATTRIBUTES table. Just a list of possible attributes that can be applied to your products. Usually this is more complex than than a simple list, i.e. it is is usually keyed to product-type as well. In other words, not all attributes are applicable to all products. So some systems would also have a PRODUCTTYPE table and a PRODUCTTYPEATTRIBUTES table. And some attributes are applicable only if other attributes are in effect. See chair example below. There it can get very complex.
You have a linking table where PRODUCT is connected to one or more ATTRIBUTES. In that table the attribute add-on price is kept.
Cost of a product is its base price plus the sum of the prices of its attribute(s). Chair = 100. Leather = 75 upgrade. Brass tacks = 25 upgrade. Leather chair with brass tacks = 200. But you wouldn't need brass tacks if you don't have the leather upgrade. So chair + brass tacks is not a real-world option. Some databases enforce such rules in their structure. Others do it in the front-end. It can become quite complicated.
But this three-table structure allows you to have multiple attributes per product. The customer can order the base product, or the base product with one or more of the attributes linked to the product in your PRODUCTATTRIBUTES table.
Unique composite indexes in the PRODUCTATTRIBUTES table on (productid, attributeid) would prevent the user from applying an attribute more than once: Chair + leather + leather + brass tacks would not be possible, and so you're also preventing the user from saying that leather upgrade costs 100 in one row and 125 in another, for the same product.