X-Git-Url: http://gitweb.michael.orlitzky.com/?a=blobdiff_plain;f=src%2FCidr.hs;h=d071586036a17cd90bb32c2da6b0eccc14129869;hb=582a8e61648d2e1b88fc61ab19654c9f2d40a5c8;hp=5c05ed15fb5aacffccd2a1c8c433e9a85ed22495;hpb=13b975060857b8acd64b7231074dc4a0c0a2915a;p=hath.git diff --git a/src/Cidr.hs b/src/Cidr.hs index 5c05ed1..d071586 100644 --- a/src/Cidr.hs +++ b/src/Cidr.hs @@ -16,16 +16,17 @@ module Cidr min_octet2, min_octet3, min_octet4, + normalize ) where -import Data.List (nubBy) +import Data.List (nub) import Data.List.Split (splitOneOf) import Data.Maybe (catMaybes, mapMaybe) import Test.Tasty ( TestTree, testGroup ) import Test.Tasty.HUnit ( (@?=), testCase ) import Test.Tasty.QuickCheck ( - Arbitrary(..), + Arbitrary( arbitrary ), Gen, Property, (==>), @@ -33,10 +34,12 @@ import Test.Tasty.QuickCheck ( import Text.Read (readMaybe) import qualified Bit as B (Bit(..)) -import IPv4Address (IPv4Address(..), most_sig_bit_different) -import Maskable (Maskable(..)) -import Maskbits (Maskbits(..)) -import Octet (Octet(..)) +import IPv4Address ( + IPv4Address( IPv4Address, octet1, octet2, octet3, octet4 ), + most_sig_bit_different ) +import Maskable (Maskable(apply_mask)) +import Maskbits ( Maskbits(Zero) ) +import Octet (Octet()) data Cidr = Cidr { ipv4address :: IPv4Address, @@ -55,14 +58,14 @@ instance Arbitrary Cidr where instance Eq Cidr where - cidr1 == cidr2 = (cidr1 `equivalent` cidr2) - + -- | Two CIDRs are equal if they have the same network bits and if + -- their masks are the same. In other words, if they are the same + -- after normalization. + cidr1 == cidr2 = addr1 == addr2 && mask1 == mask2 + where + Cidr addr1 mask1 = normalize cidr1 + Cidr addr2 mask2 = normalize cidr2 --- | Two CIDR ranges are equivalent if they have the same network bits --- and the masks are the same. -equivalent :: Cidr -> Cidr -> Bool -equivalent (Cidr addr1 mbits1) (Cidr addr2 mbits2) = - (mbits1 == mbits2) && ((apply_mask addr1 mbits1 B.Zero) == (apply_mask addr2 mbits2 B.Zero)) -- | Returns the mask portion of a CIDR address. That is, everything -- after the trailing slash. @@ -217,7 +220,7 @@ combine_all cidrs | cidrs == (combine_contained unique_cidrs) = cidrs | otherwise = combine_all (combine_contained unique_cidrs) where - unique_cidrs = nubBy equivalent cidr_combinations + unique_cidrs = nub cidr_combinations cidr_combinations = cidrs ++ (catMaybes [ (combine_adjacent x y) | x <- cidrs, y <- cidrs ]) @@ -259,6 +262,14 @@ adjacent cidr1 cidr2 enumerate :: Cidr -> [IPv4Address] enumerate cidr = [(min_host cidr)..(max_host cidr)] + +-- | Replace any masked bits in this CIDR's IPv4Address with zeros. +normalize :: Cidr -> Cidr +normalize (Cidr addr mask) = + Cidr nrml_addr mask + where + nrml_addr = apply_mask addr mask B.Zero + -- Test lists. cidr_tests :: TestTree cidr_tests = @@ -279,13 +290,17 @@ cidr_tests = test_combine_contained2, test_combine_all1, test_combine_all2, - test_combine_all3 ] + test_combine_all3, + test_normalize1, + test_normalize2, + test_normalize3 ] cidr_properties :: TestTree cidr_properties = testGroup "CIDR Properties" [ prop_all_cidrs_contain_themselves, - prop_contains_proper_antisymmetric ] + prop_contains_proper_antisymmetric, + prop_normalize_idempotent ] -- HUnit Tests @@ -481,6 +496,31 @@ test_combine_all3 = 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) + -- QuickCheck Tests prop_all_cidrs_contain_themselves :: TestTree prop_all_cidrs_contain_themselves = @@ -500,3 +540,12 @@ prop_contains_proper_antisymmetric = 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))