The simple approach would be to do some kind of simple nested clause. So say you have a table with posts and the posters id, and a friends table, the first layer would be
SELECT post FROM posts JOIN friends
on post.userid = friends.friend_id
WHERE friend.id = 1 (user ID)
then to get a friends of friends
SELECT post FROM posts JOIN
(SELECT DISTINCT friends_2.friend_id FROM friends AS friends_1
JOIN friends as friends_2
on friends_1.friend_id = friends_2.id where friends_1.id = 1)
wHERE post.userid = friends.friend_id AND mainid = 1 (user ID)
You can repeat this nesting each time you want to add another layer of friend abstraction. The problem with this approach is that it would take a very long time to execute. For every time you add a layer of friend abstraction you are increasing the complexity by a power of n (where n is the number of rows in your table).
It is more likely that they are saving the viewable friends in a table somewhere, so lets make a new tabled called friends_web
user_id, friend_id, level
when a user friends someone, it adds that new friend into friends_web at a level of 0(since that friend is no people away) then adds that friends friends at a level of 1 (since its 1 friend away). In order to keep the table integrity you would also want to add the inverted record. To clarify if A adds B as a friend and C is a friend of B, the following two records would get added to our new table
A, C, 1
C, A, 1
since now A can see C and C can see A.
now when we want a query we just do
SELECT post FROM posts
JOIN friends_web ON post.user_id = friends_web.friend_id
WHERE friends_web.user_id = user_id AND friends_web.level < 2 (or however deep you want to look)
by doing that you minimized your query complexity when doing post lookups while being able to look more then 1 layer deep into a friend web.
Sorry for the long winded response.