The optimizer that decides on the execution plan, including which partitions it doesn't need, runs before the actual data is read from the table.
Your first query restricts your subquery to a specific range for
ip_start between the constant values
134744072, so it is clear which partition the data is in. (Btw.: you have to make sure that subquery returns max. one row, otherwise it will result in an error).
For your second query, the optimizer cannot know the required range before it starts. It will depend on the data it finds when it reads the
event table. That is why the
select_type for this query is a
dependent subquery, while for the first query, it's a
subquery (so a fixed resultset independent of the
event table). So the optimizer cannot exclude a partition yet, so it will list them all. When the query is executed, it will read the first row, now knows that the value for
134744072, and therefore the
ip_start-range and the partition the data is in, and so MySQL will now look it up in the correct partition.
Both queries will actually only read from that one partition, but for the the first one, MySQL knows that before it starts, for the second one, it doesn't.
And finally a warning: it looks like you are trying to use partitions to speed up your query. This is not what partitions are used for! Indexes are used for that. For
limit 1, it will not make a difference, but if you query more rows, each partition will act like an independent table (which it basically is), so instead of looking up data in 1 index (of a larger table, but the size basically does not matter when you have an index), MySQL has to look up data in 30, 40 different partitions (=tables), all having their own indexes, files and structures. This will usually be slower (and almost never faster) than not using partitions. 600k rows might already be enough to see at least a small effect of that, so do a test without partitioning.