SQL Server views can be updated just as if they were a single table, as long as they conform to certain conditions.
From the documentation:
You can modify the data of an underlying base table through a view, as
long as the following conditions are true:
Any modifications, including UPDATE, INSERT, and DELETE statements,
must reference columns from only one base table.
The columns being modified in the view must directly reference the
underlying data in the table columns. The columns cannot be derived in
any other way, such as through the following:
An aggregate function: AVG, COUNT, SUM, MIN, MAX, GROUPING, STDEV,
STDEVP, VAR, and VARP.
A computation. The column cannot be computed from an expression that
uses other columns. Columns that are formed by using the set operators
UNION, UNION ALL, CROSSJOIN, EXCEPT, and INTERSECT amount to a
computation and are also not updatable.
The columns being modified are not affected by GROUP BY, HAVING, or
TOP is not used anywhere in the select_statement of the view together
with the WITH CHECK OPTION clause.
The previous restrictions apply to any subqueries in the FROM clause
of the view, just as they apply to the view itself. Generally, the
Database Engine must be able to unambiguously trace modifications from
the view definition to one base table. For more information, see
Modify Data Through a View.
I don't believe SSMS is doing anything special - editing the contents of a view offers exactly the same functionality as editing the contents of a table. If the user attempts to make a change that does not conform to the above conditions, SSMS will likely display an error.
How does SSMS infer which primary key to use, even if the key is not in the view?
It doesn't. SQL Server does since only one underlying table can be edited at a time.
How does SSMS determine which column inside a view can or can not be edited / inserted / deleted etc.?
Again, it's SQL Server that determines this, not SSMS.
What would be my best option to replicate this inside a .NET application?
As long as all your views conform to the above conditions, simply do the same as you're doing for tables, but be ready to handle the errors from users doing something they can't (this implies some user training will be required, just as it would be if they were using SSMS directly).