+module Main
+where
+
import Control.Concurrent.ParallelIO.Global (
parallel,
stopGlobalPool )
import Data.String.Utils (splitWs)
import System.Exit (ExitCode(..), exitSuccess, exitWith)
import System.IO (stderr, hPutStrLn)
-
-import Cidr (Cidr(..),
- cidr_from_string,
- combine_all,
- enumerate,
- max_octet1,
- max_octet2,
- max_octet3,
- max_octet4,
- min_octet1,
- min_octet2,
- min_octet3,
- min_octet4 )
-
-import CommandLine (help_set,
- help_text,
- input_function,
- Mode(..),
- parse_errors,
- parse_mode)
-
+import Text.Read (readMaybe)
+
+import Cidr (
+ Cidr(..),
+ combine_all,
+ enumerate,
+ max_octet1,
+ max_octet2,
+ max_octet3,
+ max_octet4,
+ min_octet1,
+ min_octet2,
+ min_octet3,
+ min_octet4 )
+import CommandLine (
+ help_set,
+ help_text,
+ input_function,
+ Mode(..),
+ parse_errors,
+ parse_mode )
import DNS (Domain, lookup_ptrs)
-import ExitCodes
-import Octet
+import ExitCodes ( exit_args_parse_failed, exit_invalid_cidr )
+import Octet ()
-- | A regular expression that matches a non-address character.
range2 = numeric_range min2 max2
range3 = numeric_range min3 max3
range4 = numeric_range min4 max4
- min1 = octet_to_int (min_octet1 cidr)
- min2 = octet_to_int (min_octet2 cidr)
- min3 = octet_to_int (min_octet3 cidr)
- min4 = octet_to_int (min_octet4 cidr)
- max1 = octet_to_int (max_octet1 cidr)
- max2 = octet_to_int (max_octet2 cidr)
- max3 = octet_to_int (max_octet3 cidr)
- max4 = octet_to_int (max_octet4 cidr)
+ min1 = fromEnum (min_octet1 cidr)
+ min2 = fromEnum (min_octet2 cidr)
+ min3 = fromEnum (min_octet3 cidr)
+ min4 = fromEnum (min_octet4 cidr)
+ max1 = fromEnum (max_octet1 cidr)
+ max2 = fromEnum (max_octet2 cidr)
+ max3 = fromEnum (max_octet3 cidr)
+ max4 = fromEnum (max_octet4 cidr)
input <- inputfunc
let cidr_strings = splitWs input
- let cidrs = map cidr_from_string cidr_strings
+ let cidrs = map readMaybe cidr_strings
when (any isNothing cidrs) $ do
putStrLn "Error: not valid CIDR notation."