2 ( ipv4address_from_octets,
5 most_sig_bit_different,
13 import Test.QuickCheck
19 data IPv4Address = None | IPv4Address { octet1 :: Octet,
26 instance Show IPv4Address where
27 show IPv4Address.None = "None"
28 show addr = concat [(show oct1) ++ ".",
39 instance Arbitrary IPv4Address where
41 oct1 <- arbitrary :: Gen Octet
42 oct2 <- arbitrary :: Gen Octet
43 oct3 <- arbitrary :: Gen Octet
44 oct4 <- arbitrary :: Gen Octet
45 return (IPv4Address oct1 oct2 oct3 oct4)
47 coarbitrary _ = variant 0
51 instance Maskable IPv4Address where
52 apply_mask _ Maskbits.None = IPv4Address.None
54 | mask == ThirtyTwo = ipv4address_from_octets oct1 oct2 oct3 oct4
55 | mask == ThirtyOne = ipv4address_from_octets oct1 oct2 oct3 (apply_mask oct4 Seven)
56 | mask == Thirty = ipv4address_from_octets oct1 oct2 oct3 (apply_mask oct4 Six)
57 | mask == TwentyNine = ipv4address_from_octets oct1 oct2 oct3 (apply_mask oct4 Five)
58 | mask == TwentyEight = ipv4address_from_octets oct1 oct2 oct3 (apply_mask oct4 Four)
59 | mask == TwentySeven = ipv4address_from_octets oct1 oct2 oct3 (apply_mask oct4 Three)
60 | mask == TwentySix = ipv4address_from_octets oct1 oct2 oct3 (apply_mask oct4 Two)
61 | mask == TwentyFive = ipv4address_from_octets oct1 oct2 oct3 (apply_mask oct4 One)
62 | mask == TwentyFour = ipv4address_from_octets oct1 oct2 oct3 (min_octet)
63 | mask == TwentyThree = ipv4address_from_octets oct1 oct2 (apply_mask oct3 Seven) (min_octet)
64 | mask == TwentyTwo = ipv4address_from_octets oct1 oct2 (apply_mask oct3 Six) (min_octet)
65 | mask == TwentyOne = ipv4address_from_octets oct1 oct2 (apply_mask oct3 Five) (min_octet)
66 | mask == Twenty = ipv4address_from_octets oct1 oct2 (apply_mask oct3 Four) (min_octet)
67 | mask == Nineteen = ipv4address_from_octets oct1 oct2 (apply_mask oct3 Three) (min_octet)
68 | mask == Eighteen = ipv4address_from_octets oct1 oct2 (apply_mask oct3 Two) (min_octet)
69 | mask == Seventeen = ipv4address_from_octets oct1 oct2 (apply_mask oct3 One) (min_octet)
70 | mask == Sixteen = ipv4address_from_octets oct1 oct2 (min_octet) (min_octet)
71 | mask == Fifteen = ipv4address_from_octets oct1 (apply_mask oct2 Seven) (min_octet) (min_octet)
72 | mask == Fourteen = ipv4address_from_octets oct1 (apply_mask oct2 Six) (min_octet) (min_octet)
73 | mask == Thirteen = ipv4address_from_octets oct1 (apply_mask oct2 Five) (min_octet) (min_octet)
74 | mask == Twelve = ipv4address_from_octets oct1 (apply_mask oct2 Four) (min_octet) (min_octet)
75 | mask == Eleven = ipv4address_from_octets oct1 (apply_mask oct2 Three) (min_octet) (min_octet)
76 | mask == Ten = ipv4address_from_octets oct1 (apply_mask oct2 Two) (min_octet) (min_octet)
77 | mask == Nine = ipv4address_from_octets oct1 (apply_mask oct2 One) (min_octet) (min_octet)
78 | mask == Eight = ipv4address_from_octets oct1 (min_octet) (min_octet) (min_octet)
79 | mask == Seven = ipv4address_from_octets (apply_mask oct1 Seven) (min_octet) (min_octet) (min_octet)
80 | mask == Six = ipv4address_from_octets (apply_mask oct1 Six) (min_octet) (min_octet) (min_octet)
81 | mask == Five = ipv4address_from_octets (apply_mask oct1 Five) (min_octet) (min_octet) (min_octet)
82 | mask == Four = ipv4address_from_octets (apply_mask oct1 Four) (min_octet) (min_octet) (min_octet)
83 | mask == Three = ipv4address_from_octets (apply_mask oct1 Three) (min_octet) (min_octet) (min_octet)
84 | mask == Two = ipv4address_from_octets (apply_mask oct1 Two) (min_octet) (min_octet) (min_octet)
85 | mask == One = ipv4address_from_octets (apply_mask oct1 One) (min_octet) (min_octet) (min_octet)
86 | mask == Zero = ipv4address_from_octets (min_octet) (min_octet) (min_octet) (min_octet)
87 | otherwise = IPv4Address.None
95 -- We don't export our constructor so this function is the only
96 -- way to construct an address from octets. As a result, we can
97 -- return IPv4Address.None in response to being passed one of more
99 ipv4address_from_octets :: Octet -> Octet -> Octet -> Octet -> IPv4Address
100 ipv4address_from_octets oct1 oct2 oct3 oct4
101 | or [oct1 == Octet.None,
104 oct4 == Octet.None] = IPv4Address.None
105 | otherwise = IPv4Address oct1 oct2 oct3 oct4
108 -- Given two addresses, find the number of the most significant bit
109 -- where they differ. If the addresses are the same, return
111 most_sig_bit_different :: IPv4Address -> IPv4Address -> Maskbits
112 most_sig_bit_different addr1 addr2
113 | addr1 == addr2 = Maskbits.Zero
114 | m1 /= n1 = Maskbits.One
124 | m11 /= n11 = Eleven
125 | m12 /= n12 = Twelve
126 | m13 /= n13 = Thirteen
127 | m14 /= n14 = Fourteen
128 | m15 /= n15 = Fifteen
129 | m16 /= n16 = Sixteen
130 | m17 /= n17 = Seventeen
131 | m18 /= n18 = Eighteen
132 | m19 /= n19 = Nineteen
133 | m20 /= n20 = Twenty
134 | m21 /= n21 = TwentyOne
135 | m22 /= n22 = TwentyTwo
136 | m23 /= n23 = TwentyThree
137 | m24 /= n24 = TwentyFour
138 | m25 /= n25 = TwentyFive
139 | m26 /= n26 = TwentySix
140 | m27 /= n27 = TwentySeven
141 | m28 /= n28 = TwentyEight
142 | m29 /= n29 = TwentyNine
143 | m30 /= n30 = Thirty
144 | m31 /= n31 = ThirtyOne
145 | m32 /= n32 = ThirtyTwo
146 | otherwise = Maskbits.Zero
180 oct1a = (octet1 addr1)
181 oct2a = (octet2 addr1)
182 oct3a = (octet3 addr1)
183 oct4a = (octet4 addr1)
216 oct1b = (octet1 addr2)
217 oct2b = (octet2 addr2)
218 oct3b = (octet3 addr2)
219 oct4b = (octet4 addr2)
224 mk_testaddr :: Int -> Int -> Int -> Int -> IPv4Address
225 mk_testaddr a b c d =
226 IPv4Address oct1 oct2 oct3 oct4
228 oct1 = octet_from_int a
229 oct2 = octet_from_int b
230 oct3 = octet_from_int c
231 oct4 = octet_from_int d
234 test_most_sig_bit_different1 :: Test
235 test_most_sig_bit_different1 =
236 TestCase $ assertEqual "10.1.1.0 and 10.1.0.0 differ in bit 24" TwentyFour (most_sig_bit_different (mk_testaddr 10 1 1 0) (mk_testaddr 10 1 0 0))
239 test_most_sig_bit_different2 :: Test
240 test_most_sig_bit_different2 =
241 TestCase $ assertEqual "10.1.2.0 and 10.1.1.0 differ in bit 23" TwentyThree (most_sig_bit_different (mk_testaddr 10 1 2 0) (mk_testaddr 10 1 1 0))
244 ipv4address_tests :: [Test]
245 ipv4address_tests = [ test_most_sig_bit_different1,
246 test_most_sig_bit_different2 ]