+test_combine_all1 :: TestTree
+test_combine_all1 =
+ testCase desc $ actual @?= expected
+ where
+ desc = "10.0.0.0/24 is adjacent to 10.0.1.0/24 "
+ ++ "and 10.0.3.0/23 contains 10.0.2.0/24"
+ cidr1 = read "10.0.0.0/24" :: Cidr
+ cidr2 = read "10.0.1.0/24" :: Cidr
+ cidr3 = read "10.0.2.0/24" :: Cidr
+ cidr4 = read "10.0.3.0/23" :: Cidr
+ cidr5 = read "10.0.0.0/23" :: Cidr
+ test_cidrs = [cidr1, cidr2, cidr3, cidr4, cidr5]
+ expected = [read "10.0.0.0/22" :: Cidr]
+ actual = combine_all test_cidrs
+
+
+test_combine_all2 :: TestTree
+test_combine_all2 =
+ testCase desc $ actual @?= expected
+ where
+ desc = "127.0.0.1/32 combines with itself recursively"
+ cidr1 = read "127.0.0.1/32" :: Cidr
+ test_cidrs = [cidr1, cidr1, cidr1, cidr1, cidr1]
+ expected = [cidr1]
+ actual = combine_all test_cidrs
+
+
+test_combine_all3 :: TestTree
+test_combine_all3 =
+ testCase desc $ actual @?= expected
+ where
+ desc = "10.0.0.16, 10.0.0.17, 10.0.0.18, and "
+ ++ "10.0.0.19 get combined into 10.0.0.16/30"
+ cidr1 = read "10.0.0.16/32" :: Cidr
+ cidr2 = read "10.0.0.17/32" :: Cidr
+ cidr3 = read "10.0.0.18/32" :: Cidr
+ cidr4 = read "10.0.0.19/32" :: Cidr
+ test_cidrs = [cidr1, cidr2, cidr3, cidr4]
+ expected = [read "10.0.0.16/30" :: Cidr]
+ actual = combine_all test_cidrs
+
+test_normalize1 :: TestTree
+test_normalize1 =
+ testCase desc $ actual @?= expected
+ where
+ desc = "127.0.0.1/8 normalized is 127.0.0.0/8"
+ expected = read "127.0.0.0/8" :: Cidr
+ actual = normalize (read "127.0.0.1/8" :: Cidr)
+
+
+test_normalize2 :: TestTree
+test_normalize2 =
+ testCase desc $ actual @?= expected
+ where
+ desc = "192.168.1.101/24 normalized is 192.168.1.0/24"
+ expected = read "192.168.1.0/24" :: Cidr
+ actual = normalize (read "192.168.1.101/24" :: Cidr)
+
+test_normalize3 :: TestTree
+test_normalize3 =
+ testCase desc $ actual @?= expected
+ where
+ desc = "10.10.10.10/22 normalized is 10.10.8.0/22"
+ expected = read "10.10.8.0/22" :: Cidr
+ actual = normalize (read "10.10.10.10/22" :: Cidr)
+
+-- | Test a stated property of the Ord instance, namely that the big
+-- network 127.0.0.1/8 comes before the small network 127.0.0.1/32.
+test_big_networks_come_first :: TestTree
+test_big_networks_come_first =
+ testCase desc $ actual @?= expected
+ where
+ desc = "127.0.0.1/8 comes before 127.0.0.1/32"
+ big = read "127.0.0.1/8" :: Cidr
+ small = read "127.0.0.1/32" :: Cidr
+ expected = True
+ actual = big <= small -- not a typo
+
+-- QuickCheck Tests
+prop_all_cidrs_contain_themselves :: TestTree
+prop_all_cidrs_contain_themselves =
+ testProperty "All CIDRs contain themselves" prop
+ where
+ prop :: Cidr -> Bool
+ prop cidr1 = cidr1 `contains` cidr1
+
+
+-- If cidr1 properly contains cidr2, then by definition cidr2
+-- does not properly contain cidr1.
+prop_contains_proper_antisymmetric :: TestTree
+prop_contains_proper_antisymmetric =
+ testProperty "CIDR proper containment is an antisymmetric relation" prop
+ where
+ prop :: Cidr -> Cidr -> Property
+ prop cidr1 cidr2 =
+ (cidr1 `contains_proper` cidr2) ==>
+ (not (cidr2 `contains_proper` cidr1))
+
+
+-- Running "normalize" a second time shouldn't do anything.
+prop_normalize_idempotent :: TestTree
+prop_normalize_idempotent =
+ testProperty "The CIDR \"normalize\" function is idempotent" prop
+ where
+ prop :: Cidr -> Bool
+ prop cidr = (normalize cidr) == (normalize (normalize cidr))
+
+-- Normalization should not affect equality of two CIDRs.
+prop_normalize_preserves_equality :: TestTree
+prop_normalize_preserves_equality =
+ testProperty "The CIDR \"normalize\" function preserves equality" prop
+ where
+ prop :: Cidr -> Cidr -> Bool
+ prop cidr1 cidr2 = (cidr1 == cidr2) == (normalize cidr1 == normalize cidr2)
+
+
+prop_ord_instance_reflexive :: TestTree
+prop_ord_instance_reflexive =
+ testProperty "The CIDR order is reflexive" prop
+ where
+ prop :: Cidr -> Bool
+ prop cidr = cidr <= cidr
+
+
+prop_ord_instance_transitive :: TestTree
+prop_ord_instance_transitive =
+ testProperty "The CIDR order is transitive" prop
+ where
+ prop :: Cidr -> Cidr -> Cidr -> Property
+ prop cidr1 cidr2 cidr3 =
+ (cidr1 <= cidr2 && cidr2 <= cidr3) ==> cidr1 <= cidr3
+
+-- This is how Eq is currently implemented, but it is useful to have
+-- around in case that changes. Try fewer instances of this than usual
+-- because it's a rare condition.
+prop_ord_instance_antisymmetric :: TestTree
+prop_ord_instance_antisymmetric =
+ localOption (QuickCheckTests 500) $
+ testProperty "The CIDR order is antisymmetric" prop
+ where
+ prop :: Cidr -> Cidr -> Property
+ prop cidr1 cidr2 =
+ (cidr1 <= cidr2 && cidr2 <= cidr1) ==> cidr1 == cidr2
+
+
+-- When comparing two CIDRs with the same mask, the comparison
+-- should be numeric (i.e. whatever the IPv4Address does).
+-- Of course, we have to normalize first.
+prop_ord_uses_addr_when_masks_equal :: TestTree
+prop_ord_uses_addr_when_masks_equal =
+ testProperty "The CIDR order is the IPv4Address order for equal masks" prop
+ where
+ prop :: Cidr -> Cidr -> Property
+ prop cidr1 cidr2 =
+ (mask1 == mask2) ==> (cidr1 <= cidr2) == (addr1 <= addr2)
+ where
+ (Cidr addr1 mask1) = normalize cidr1
+ (Cidr addr2 mask2) = normalize cidr2
+
+
+-- If we have two CIDRs whose normalized addresses agree, then we want
+-- to use the mask order, i.e. that big networks come before small
+-- networks. This disagrees with containment order.
+prop_ord_uses_mask_when_addrs_equal :: TestTree
+prop_ord_uses_mask_when_addrs_equal =
+ localOption (QuickCheckTests 500) $
+ testProperty "The CIDR order is by mask when the addresses agree" prop
+ where
+ prop :: Cidr -> Cidr -> Property
+ prop cidr1 cidr2 =
+ (addr1 == addr2) ==> (cidr1 <= cidr2) == (mask1 <= mask2)
+ where
+ (Cidr addr1 mask1) = normalize cidr1
+ (Cidr addr2 mask2) = normalize cidr2
+
+
+-- Big networks come first.
+prop_ord_and_contains_disagree :: TestTree
+prop_ord_and_contains_disagree =
+ testProperty "The CIDR order disagrees with containment" prop
+ where
+ prop :: Cidr -> Cidr -> Property
+ prop cidr1 cidr2 = (cidr1 `contains` cidr2) ==> (cidr1 <= cidr2)
+
+
+-- The biggest network always comes first.
+prop_ord_minimum :: TestTree
+prop_ord_minimum =
+ testProperty "The CIDR order has 0.0.0.0/0 as a minimum" prop
+ where
+ min_cidr = read "0.0.0.0/0" :: Cidr
+ prop :: Cidr -> Bool
+ prop cidr = min_cidr <= cidr
+
+
+-- The CIDR order also has a maximum.
+prop_ord_maximum :: TestTree
+prop_ord_maximum =
+ testProperty "The CIDR order has 255.255.255.255/32 as a maximum" prop
+ where
+ max_cidr = read "255.255.255.255/32" :: Cidr
+ prop :: Cidr -> Bool
+ prop cidr = max_cidr >= cidr