Short answer: yes, it does.
Long answer: it's not necessary.
To understand why it's not necessary, we need to look at the strings being compared:
That's 5 different hashes of the same password. The format is:
Now, to a remote attacker (one who would be running timing attacks), the salt is a secret. And the salt is the same when we re-hash their try. For example:
stored password "test":
hash = $2y$10$9JxHB8U1QKsLS/ynplKzm.iIO7f6gtTKYA61ppVuANYxWNCA5DW1S
If the attacker tries the password "abc", internally
password_verify() will call
crypt("abc", hash). Which will result in:
Now, let's look at those two hashes, side by side:
Notice the salt is the same? Notice that everything up until the first
. is the same. Also notice that the attacker has no idea what the salt is.
If the attacker was able to timing attack the comparison, it would do no good. Because they don't know the salt (and hence deducing what the hash is simply wastes time since without the salt they can't determine the password).
So timing safety isn't strictly necessary.
Why is it included then? Because everyone makes mistakes. Because defense-in-depth is a good idea. Because this analysis assumes that nothing about the hash is useful without the salt (ex: what if a flaw in bcrypt biased the hashes based on the password, so without knowing the salt the keyspace is reduced from 72^255).
In short, it's a good thing to have, but it's not strictly necessary...