ruby-net-ldap/test/test_filter.rb

112 lines
4.4 KiB
Ruby

require 'common'
class TestFilter < Test::Unit::TestCase
Filter = Net::LDAP::Filter
def test_bug_7534_rfc2254
assert_equal("(cn=Tim Wizard)",
Filter.from_rfc2254("(cn=Tim Wizard)").to_rfc2254)
end
def test_invalid_filter_string
assert_raises(Net::LDAP::LdapError) { Filter.from_rfc2254("") }
end
def test_invalid_filter
assert_raises(Net::LDAP::LdapError) {
# This test exists to prove that our constructor blocks unknown filter
# types. All filters must be constructed using helpers.
Filter.__send__(:new, :xx, nil, nil)
}
end
def test_to_s
assert_equal("(uid=george *)", Filter.eq("uid", "george *").to_s)
end
def test_c2
assert_equal("(uid=george *)",
Filter.from_rfc2254("uid=george *").to_rfc2254)
assert_equal("(uid:=george *)",
Filter.from_rfc2254("uid:=george *").to_rfc2254)
assert_equal("(uid=george*)",
Filter.from_rfc2254(" ( uid = george* ) ").to_rfc2254)
assert_equal("(!(uid=george*))",
Filter.from_rfc2254("uid!=george*").to_rfc2254)
assert_equal("(uid<=george*)",
Filter.from_rfc2254("uid <= george*").to_rfc2254)
assert_equal("(uid>=george*)",
Filter.from_rfc2254("uid>=george*").to_rfc2254)
assert_equal("(&(uid=george*)(mail=*))",
Filter.from_rfc2254("(& (uid=george* ) (mail=*))").to_rfc2254)
assert_equal("(|(uid=george*)(mail=*))",
Filter.from_rfc2254("(| (uid=george* ) (mail=*))").to_rfc2254)
assert_equal("(!(mail=*))",
Filter.from_rfc2254("(! (mail=*))").to_rfc2254)
end
def test_filters_from_ber
[
Net::LDAP::Filter.eq("objectclass", "*"),
Net::LDAP::Filter.pres("objectclass"),
Net::LDAP::Filter.eq("objectclass", "ou"),
Net::LDAP::Filter.ge("uid", "500"),
Net::LDAP::Filter.le("uid", "500"),
(~ Net::LDAP::Filter.pres("objectclass")),
(Net::LDAP::Filter.pres("objectclass") & Net::LDAP::Filter.pres("ou")),
(Net::LDAP::Filter.pres("objectclass") & Net::LDAP::Filter.pres("ou") & Net::LDAP::Filter.pres("sn")),
(Net::LDAP::Filter.pres("objectclass") | Net::LDAP::Filter.pres("ou") | Net::LDAP::Filter.pres("sn")),
Net::LDAP::Filter.eq("objectclass", "*aaa"),
Net::LDAP::Filter.eq("objectclass", "*aaa*bbb"),
Net::LDAP::Filter.eq("objectclass", "*aaa*bbb*ccc"),
Net::LDAP::Filter.eq("objectclass", "aaa*bbb"),
Net::LDAP::Filter.eq("objectclass", "aaa*bbb*ccc"),
Net::LDAP::Filter.eq("objectclass", "abc*def*1111*22*g"),
Net::LDAP::Filter.eq("objectclass", "*aaa*"),
Net::LDAP::Filter.eq("objectclass", "*aaa*bbb*"),
Net::LDAP::Filter.eq("objectclass", "*aaa*bbb*ccc*"),
Net::LDAP::Filter.eq("objectclass", "aaa*"),
Net::LDAP::Filter.eq("objectclass", "aaa*bbb*"),
Net::LDAP::Filter.eq("objectclass", "aaa*bbb*ccc*"),
].each {|ber|
f = Net::LDAP::Filter.parse_ber(ber.to_ber.read_ber(Net::LDAP::AsnSyntax))
assert(f == ber)
assert_equal(f.to_ber, ber.to_ber)
}
end
def test_ber_from_rfc2254_filter
[
Net::LDAP::Filter.construct("objectclass=*"),
Net::LDAP::Filter.construct("objectclass=ou"),
Net::LDAP::Filter.construct("uid >= 500"),
Net::LDAP::Filter.construct("uid <= 500"),
Net::LDAP::Filter.construct("(!(uid=*))"),
Net::LDAP::Filter.construct("(&(uid=*)(objectclass=*))"),
Net::LDAP::Filter.construct("(&(uid=*)(objectclass=*)(sn=*))"),
Net::LDAP::Filter.construct("(|(uid=*)(objectclass=*))"),
Net::LDAP::Filter.construct("(|(uid=*)(objectclass=*)(sn=*))"),
Net::LDAP::Filter.construct("objectclass=*aaa"),
Net::LDAP::Filter.construct("objectclass=*aaa*bbb"),
Net::LDAP::Filter.construct("objectclass=*aaa bbb"),
Net::LDAP::Filter.construct("objectclass=*aaa bbb"),
Net::LDAP::Filter.construct("objectclass=*aaa*bbb*ccc"),
Net::LDAP::Filter.construct("objectclass=aaa*bbb"),
Net::LDAP::Filter.construct("objectclass=aaa*bbb*ccc"),
Net::LDAP::Filter.construct("objectclass=abc*def*1111*22*g"),
Net::LDAP::Filter.construct("objectclass=*aaa*"),
Net::LDAP::Filter.construct("objectclass=*aaa*bbb*"),
Net::LDAP::Filter.construct("objectclass=*aaa*bbb*ccc*"),
Net::LDAP::Filter.construct("objectclass=aaa*"),
Net::LDAP::Filter.construct("objectclass=aaa*bbb*"),
Net::LDAP::Filter.construct("objectclass=aaa*bbb*ccc*"),
].each {|ber|
f = Net::LDAP::Filter.parse_ber(ber.to_ber.read_ber(Net::LDAP::AsnSyntax))
assert(f == ber)
assert_equal(f.to_ber, ber.to_ber)
}
end
end