assertFalse( IP::isIPAddress( $val ), $desc ); } /** * Provide a list of things that aren't IP addresses */ public function provideInvalidIPs() { return [ [ false, 'Boolean false is not an IP' ], [ true, 'Boolean true is not an IP' ], [ '', 'Empty string is not an IP' ], [ 'abc', 'Garbage IP string' ], [ ':', 'Single ":" is not an IP' ], [ '2001:0DB8::A:1::1', 'IPv6 with a double :: occurrence' ], [ '2001:0DB8::A:1::', 'IPv6 with a double :: occurrence, last at end' ], [ '::2001:0DB8::5:1', 'IPv6 with a double :: occurrence, firt at beginning' ], [ '124.24.52', 'IPv4 not enough quads' ], [ '24.324.52.13', 'IPv4 out of range' ], [ '.24.52.13', 'IPv4 starts with period' ], [ 'fc:100:300', 'IPv6 with only 3 words' ], ]; } /** * @covers IP::isIPAddress */ public function testisIPAddress() { $this->assertTrue( IP::isIPAddress( '::' ), 'RFC 4291 IPv6 Unspecified Address' ); $this->assertTrue( IP::isIPAddress( '::1' ), 'RFC 4291 IPv6 Loopback Address' ); $this->assertTrue( IP::isIPAddress( '74.24.52.13/20' ), 'IPv4 range' ); $this->assertTrue( IP::isIPAddress( 'fc:100:a:d:1:e:ac:0/24' ), 'IPv6 range' ); $this->assertTrue( IP::isIPAddress( 'fc::100:a:d:1:e:ac/96' ), 'IPv6 range with "::"' ); $validIPs = [ 'fc:100::', 'fc:100:a:d:1:e:ac::', 'fc::100', '::fc:100:a:d:1:e:ac', '::fc', 'fc::100:a:d:1:e:ac', 'fc:100:a:d:1:e:ac:0', '124.24.52.13', '1.24.52.13' ]; foreach ( $validIPs as $ip ) { $this->assertTrue( IP::isIPAddress( $ip ), "$ip is a valid IP address" ); } } /** * @covers IP::isIPv6 */ public function testisIPv6() { $this->assertFalse( IP::isIPv6( ':fc:100::' ), 'IPv6 starting with lone ":"' ); $this->assertFalse( IP::isIPv6( 'fc:100:::' ), 'IPv6 ending with a ":::"' ); $this->assertFalse( IP::isIPv6( 'fc:300' ), 'IPv6 with only 2 words' ); $this->assertFalse( IP::isIPv6( 'fc:100:300' ), 'IPv6 with only 3 words' ); $this->assertTrue( IP::isIPv6( 'fc:100::' ) ); $this->assertTrue( IP::isIPv6( 'fc:100:a::' ) ); $this->assertTrue( IP::isIPv6( 'fc:100:a:d::' ) ); $this->assertTrue( IP::isIPv6( 'fc:100:a:d:1::' ) ); $this->assertTrue( IP::isIPv6( 'fc:100:a:d:1:e::' ) ); $this->assertTrue( IP::isIPv6( 'fc:100:a:d:1:e:ac::' ) ); $this->assertFalse( IP::isIPv6( 'fc:100:a:d:1:e:ac:0::' ), 'IPv6 with 8 words ending with "::"' ); $this->assertFalse( IP::isIPv6( 'fc:100:a:d:1:e:ac:0:1::' ), 'IPv6 with 9 words ending with "::"' ); $this->assertFalse( IP::isIPv6( ':::' ) ); $this->assertFalse( IP::isIPv6( '::0:' ), 'IPv6 ending in a lone ":"' ); $this->assertTrue( IP::isIPv6( '::' ), 'IPv6 zero address' ); $this->assertTrue( IP::isIPv6( '::0' ) ); $this->assertTrue( IP::isIPv6( '::fc' ) ); $this->assertTrue( IP::isIPv6( '::fc:100' ) ); $this->assertTrue( IP::isIPv6( '::fc:100:a' ) ); $this->assertTrue( IP::isIPv6( '::fc:100:a:d' ) ); $this->assertTrue( IP::isIPv6( '::fc:100:a:d:1' ) ); $this->assertTrue( IP::isIPv6( '::fc:100:a:d:1:e' ) ); $this->assertTrue( IP::isIPv6( '::fc:100:a:d:1:e:ac' ) ); $this->assertFalse( IP::isIPv6( '::fc:100:a:d:1:e:ac:0' ), 'IPv6 with "::" and 8 words' ); $this->assertFalse( IP::isIPv6( '::fc:100:a:d:1:e:ac:0:1' ), 'IPv6 with 9 words' ); $this->assertFalse( IP::isIPv6( ':fc::100' ), 'IPv6 starting with lone ":"' ); $this->assertFalse( IP::isIPv6( 'fc::100:' ), 'IPv6 ending with lone ":"' ); $this->assertFalse( IP::isIPv6( 'fc:::100' ), 'IPv6 with ":::" in the middle' ); $this->assertTrue( IP::isIPv6( 'fc::100' ), 'IPv6 with "::" and 2 words' ); $this->assertTrue( IP::isIPv6( 'fc::100:a' ), 'IPv6 with "::" and 3 words' ); $this->assertTrue( IP::isIPv6( 'fc::100:a:d' ), 'IPv6 with "::" and 4 words' ); $this->assertTrue( IP::isIPv6( 'fc::100:a:d:1' ), 'IPv6 with "::" and 5 words' ); $this->assertTrue( IP::isIPv6( 'fc::100:a:d:1:e' ), 'IPv6 with "::" and 6 words' ); $this->assertTrue( IP::isIPv6( 'fc::100:a:d:1:e:ac' ), 'IPv6 with "::" and 7 words' ); $this->assertTrue( IP::isIPv6( '2001::df' ), 'IPv6 with "::" and 2 words' ); $this->assertTrue( IP::isIPv6( '2001:5c0:1400:a::df' ), 'IPv6 with "::" and 5 words' ); $this->assertTrue( IP::isIPv6( '2001:5c0:1400:a::df:2' ), 'IPv6 with "::" and 6 words' ); $this->assertFalse( IP::isIPv6( 'fc::100:a:d:1:e:ac:0' ), 'IPv6 with "::" and 8 words' ); $this->assertFalse( IP::isIPv6( 'fc::100:a:d:1:e:ac:0:1' ), 'IPv6 with 9 words' ); $this->assertTrue( IP::isIPv6( 'fc:100:a:d:1:e:ac:0' ) ); } /** * @covers IP::isIPv4 * @dataProvider provideInvalidIPv4Addresses */ public function testisNotIPv4( $bogusIP, $desc ) { $this->assertFalse( IP::isIPv4( $bogusIP ), $desc ); } public function provideInvalidIPv4Addresses() { return [ [ false, 'Boolean false is not an IP' ], [ true, 'Boolean true is not an IP' ], [ '', 'Empty string is not an IP' ], [ 'abc', 'Letters are not an IP' ], [ ':', 'A colon is not an IP' ], [ '124.24.52', 'IPv4 not enough quads' ], [ '24.324.52.13', 'IPv4 out of range' ], [ '.24.52.13', 'IPv4 starts with period' ], ]; } /** * @covers IP::isIPv4 * @dataProvider provideValidIPv4Address */ public function testIsIPv4( $ip, $desc ) { $this->assertTrue( IP::isIPv4( $ip ), $desc ); } /** * Provide some IPv4 addresses and ranges */ public function provideValidIPv4Address() { return [ [ '124.24.52.13', 'Valid IPv4 address' ], [ '1.24.52.13', 'Another valid IPv4 address' ], [ '74.24.52.13/20', 'An IPv4 range' ], ]; } /** * @covers IP::isValid */ public function testValidIPs() { foreach ( range( 0, 255 ) as $i ) { $a = sprintf( "%03d", $i ); $b = sprintf( "%02d", $i ); $c = sprintf( "%01d", $i ); foreach ( array_unique( [ $a, $b, $c ] ) as $f ) { $ip = "$f.$f.$f.$f"; $this->assertTrue( IP::isValid( $ip ), "$ip is a valid IPv4 address" ); } } foreach ( range( 0x0, 0xFFFF, 0xF ) as $i ) { $a = sprintf( "%04x", $i ); $b = sprintf( "%03x", $i ); $c = sprintf( "%02x", $i ); foreach ( array_unique( [ $a, $b, $c ] ) as $f ) { $ip = "$f:$f:$f:$f:$f:$f:$f:$f"; $this->assertTrue( IP::isValid( $ip ), "$ip is a valid IPv6 address" ); } } // test with some abbreviations $this->assertFalse( IP::isValid( ':fc:100::' ), 'IPv6 starting with lone ":"' ); $this->assertFalse( IP::isValid( 'fc:100:::' ), 'IPv6 ending with a ":::"' ); $this->assertFalse( IP::isValid( 'fc:300' ), 'IPv6 with only 2 words' ); $this->assertFalse( IP::isValid( 'fc:100:300' ), 'IPv6 with only 3 words' ); $this->assertTrue( IP::isValid( 'fc:100::' ) ); $this->assertTrue( IP::isValid( 'fc:100:a:d:1:e::' ) ); $this->assertTrue( IP::isValid( 'fc:100:a:d:1:e:ac::' ) ); $this->assertTrue( IP::isValid( 'fc::100' ), 'IPv6 with "::" and 2 words' ); $this->assertTrue( IP::isValid( 'fc::100:a' ), 'IPv6 with "::" and 3 words' ); $this->assertTrue( IP::isValid( '2001::df' ), 'IPv6 with "::" and 2 words' ); $this->assertTrue( IP::isValid( '2001:5c0:1400:a::df' ), 'IPv6 with "::" and 5 words' ); $this->assertTrue( IP::isValid( '2001:5c0:1400:a::df:2' ), 'IPv6 with "::" and 6 words' ); $this->assertTrue( IP::isValid( 'fc::100:a:d:1' ), 'IPv6 with "::" and 5 words' ); $this->assertTrue( IP::isValid( 'fc::100:a:d:1:e:ac' ), 'IPv6 with "::" and 7 words' ); $this->assertFalse( IP::isValid( 'fc:100:a:d:1:e:ac:0::' ), 'IPv6 with 8 words ending with "::"' ); $this->assertFalse( IP::isValid( 'fc:100:a:d:1:e:ac:0:1::' ), 'IPv6 with 9 words ending with "::"' ); } /** * @covers IP::isValid */ public function testInvalidIPs() { // Out of range... foreach ( range( 256, 999 ) as $i ) { $a = sprintf( "%03d", $i ); $b = sprintf( "%02d", $i ); $c = sprintf( "%01d", $i ); foreach ( array_unique( [ $a, $b, $c ] ) as $f ) { $ip = "$f.$f.$f.$f"; $this->assertFalse( IP::isValid( $ip ), "$ip is not a valid IPv4 address" ); } } foreach ( range( 'g', 'z' ) as $i ) { $a = sprintf( "%04s", $i ); $b = sprintf( "%03s", $i ); $c = sprintf( "%02s", $i ); foreach ( array_unique( [ $a, $b, $c ] ) as $f ) { $ip = "$f:$f:$f:$f:$f:$f:$f:$f"; $this->assertFalse( IP::isValid( $ip ), "$ip is not a valid IPv6 address" ); } } // Have CIDR $ipCIDRs = [ '212.35.31.121/32', '212.35.31.121/18', '212.35.31.121/24', '::ff:d:321:5/96', 'ff::d3:321:5/116', 'c:ff:12:1:ea:d:321:5/120', ]; foreach ( $ipCIDRs as $i ) { $this->assertFalse( IP::isValid( $i ), "$i is an invalid IP address because it is a block" ); } // Incomplete/garbage $invalid = [ 'www.xn--var-xla.net', '216.17.184.G', '216.17.184.1.', '216.17.184', '216.17.184.', '256.17.184.1' ]; foreach ( $invalid as $i ) { $this->assertFalse( IP::isValid( $i ), "$i is an invalid IP address" ); } } /** * Provide some valid IP blocks */ public function provideValidBlocks() { return [ [ '116.17.184.5/32' ], [ '0.17.184.5/30' ], [ '16.17.184.1/24' ], [ '30.242.52.14/1' ], [ '10.232.52.13/8' ], [ '30.242.52.14/0' ], [ '::e:f:2001/96' ], [ '::c:f:2001/128' ], [ '::10:f:2001/70' ], [ '::fe:f:2001/1' ], [ '::6d:f:2001/8' ], [ '::fe:f:2001/0' ], ]; } /** * @covers IP::isValidBlock * @dataProvider provideValidBlocks */ public function testValidBlocks( $block ) { $this->assertTrue( IP::isValidBlock( $block ), "$block is a valid IP block" ); } /** * @covers IP::isValidBlock * @dataProvider provideInvalidBlocks */ public function testInvalidBlocks( $invalid ) { $this->assertFalse( IP::isValidBlock( $invalid ), "$invalid is not a valid IP block" ); } public function provideInvalidBlocks() { return [ [ '116.17.184.5/33' ], [ '0.17.184.5/130' ], [ '16.17.184.1/-1' ], [ '10.232.52.13/*' ], [ '7.232.52.13/ab' ], [ '11.232.52.13/' ], [ '::e:f:2001/129' ], [ '::c:f:2001/228' ], [ '::10:f:2001/-1' ], [ '::6d:f:2001/*' ], [ '::86:f:2001/ab' ], [ '::23:f:2001/' ], ]; } /** * @covers IP::sanitizeIP * @dataProvider provideSanitizeIP */ public function testSanitizeIP( $expected, $input ) { $result = IP::sanitizeIP( $input ); $this->assertEquals( $expected, $result ); } /** * Provider for IP::testSanitizeIP() */ public static function provideSanitizeIP() { return [ [ '0.0.0.0', '0.0.0.0' ], [ '0.0.0.0', '00.00.00.00' ], [ '0.0.0.0', '000.000.000.000' ], [ '141.0.11.253', '141.000.011.253' ], [ '1.2.4.5', '1.2.4.5' ], [ '1.2.4.5', '01.02.04.05' ], [ '1.2.4.5', '001.002.004.005' ], [ '10.0.0.1', '010.0.000.1' ], [ '80.72.250.4', '080.072.250.04' ], [ 'Foo.1000.00', 'Foo.1000.00' ], [ 'Bar.01', 'Bar.01' ], [ 'Bar.010', 'Bar.010' ], [ null, '' ], [ null, ' ' ] ]; } /** * @covers IP::toHex * @dataProvider provideToHex */ public function testToHex( $expected, $input ) { $result = IP::toHex( $input ); $this->assertTrue( $result === false || is_string( $result ) ); $this->assertEquals( $expected, $result ); } /** * Provider for IP::testToHex() */ public static function provideToHex() { return [ [ '00000001', '0.0.0.1' ], [ '01020304', '1.2.3.4' ], [ '7F000001', '127.0.0.1' ], [ '80000000', '128.0.0.0' ], [ 'DEADCAFE', '222.173.202.254' ], [ 'FFFFFFFF', '255.255.255.255' ], [ '8D000BFD', '141.000.11.253' ], [ false, 'IN.VA.LI.D' ], [ 'v6-00000000000000000000000000000001', '::1' ], [ 'v6-20010DB885A3000000008A2E03707334', '2001:0db8:85a3:0000:0000:8a2e:0370:7334' ], [ 'v6-20010DB885A3000000008A2E03707334', '2001:db8:85a3::8a2e:0370:7334' ], [ false, 'IN:VA::LI:D' ], [ false, ':::1' ] ]; } /** * @covers IP::isPublic * @dataProvider provideIsPublic */ public function testIsPublic( $expected, $input ) { $result = IP::isPublic( $input ); $this->assertEquals( $expected, $result ); } /** * Provider for IP::testIsPublic() */ public static function provideIsPublic() { return [ [ false, 'fc00::3' ], # RFC 4193 (local) [ false, 'fc00::ff' ], # RFC 4193 (local) [ false, '127.1.2.3' ], # loopback [ false, '::1' ], # loopback [ false, 'fe80::1' ], # link-local [ false, '169.254.1.1' ], # link-local [ false, '10.0.0.1' ], # RFC 1918 (private) [ false, '172.16.0.1' ], # RFC 1918 (private) [ false, '192.168.0.1' ], # RFC 1918 (private) [ true, '2001:5c0:1000:a::133' ], # public [ true, 'fc::3' ], # public [ true, '00FC::' ] # public ]; } // Private wrapper used to test CIDR Parsing. private function assertFalseCIDR( $CIDR, $msg = '' ) { $ff = [ false, false ]; $this->assertEquals( $ff, IP::parseCIDR( $CIDR ), $msg ); } // Private wrapper to test network shifting using only dot notation private function assertNet( $expected, $CIDR ) { $parse = IP::parseCIDR( $CIDR ); $this->assertEquals( $expected, long2ip( $parse[0] ), "network shifting $CIDR" ); } /** * @covers IP::hexToQuad * @dataProvider provideIPsAndHexes */ public function testHexToQuad( $ip, $hex ) { $this->assertEquals( $ip, IP::hexToQuad( $hex ) ); } /** * Provide some IP addresses and their equivalent hex representations */ public function provideIPsandHexes() { return [ [ '0.0.0.1', '00000001' ], [ '255.0.0.0', 'FF000000' ], [ '255.255.255.255', 'FFFFFFFF' ], [ '10.188.222.255', '0ABCDEFF' ], // hex not left-padded... [ '0.0.0.0', '0' ], [ '0.0.0.1', '1' ], [ '0.0.0.255', 'FF' ], [ '0.0.255.0', 'FF00' ], ]; } /** * @covers IP::hexToOctet * @dataProvider provideOctetsAndHexes */ public function testHexToOctet( $octet, $hex ) { $this->assertEquals( $octet, IP::hexToOctet( $hex ) ); } /** * Provide some hex and octet representations of the same IPs */ public function provideOctetsAndHexes() { return [ [ '0:0:0:0:0:0:0:1', '00000000000000000000000000000001' ], [ '0:0:0:0:0:0:FF:3', '00000000000000000000000000FF0003' ], [ '0:0:0:0:0:0:FF00:6', '000000000000000000000000FF000006' ], [ '0:0:0:0:0:0:FCCF:FAFF', '000000000000000000000000FCCFFAFF' ], [ 'FFFF:FFFF:FFFF:FFFF:FFFF:FFFF:FFFF:FFFF', 'FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF' ], // hex not left-padded... [ '0:0:0:0:0:0:0:0', '0' ], [ '0:0:0:0:0:0:0:1', '1' ], [ '0:0:0:0:0:0:0:FF', 'FF' ], [ '0:0:0:0:0:0:0:FFD0', 'FFD0' ], [ '0:0:0:0:0:0:FA00:0', 'FA000000' ], [ '0:0:0:0:0:0:FCCF:FAFF', 'FCCFFAFF' ], ]; } /** * IP::parseCIDR() returns an array containing a signed IP address * representing the network mask and the bit mask. * @covers IP::parseCIDR */ public function testCIDRParsing() { $this->assertFalseCIDR( '192.0.2.0', "missing mask" ); $this->assertFalseCIDR( '192.0.2.0/', "missing bitmask" ); // Verify if statement $this->assertFalseCIDR( '256.0.0.0/32', "invalid net" ); $this->assertFalseCIDR( '192.0.2.0/AA', "mask not numeric" ); $this->assertFalseCIDR( '192.0.2.0/-1', "mask < 0" ); $this->assertFalseCIDR( '192.0.2.0/33', "mask > 32" ); // Check internal logic # 0 mask always result in array(0,0) $this->assertEquals( [ 0, 0 ], IP::parseCIDR( '192.0.0.2/0' ) ); $this->assertEquals( [ 0, 0 ], IP::parseCIDR( '0.0.0.0/0' ) ); $this->assertEquals( [ 0, 0 ], IP::parseCIDR( '255.255.255.255/0' ) ); // @todo FIXME: Add more tests. # This part test network shifting $this->assertNet( '192.0.0.0', '192.0.0.2/24' ); $this->assertNet( '192.168.5.0', '192.168.5.13/24' ); $this->assertNet( '10.0.0.160', '10.0.0.161/28' ); $this->assertNet( '10.0.0.0', '10.0.0.3/28' ); $this->assertNet( '10.0.0.0', '10.0.0.3/30' ); $this->assertNet( '10.0.0.4', '10.0.0.4/30' ); $this->assertNet( '172.17.32.0', '172.17.35.48/21' ); $this->assertNet( '10.128.0.0', '10.135.0.0/9' ); $this->assertNet( '134.0.0.0', '134.0.5.1/8' ); } /** * @covers IP::canonicalize */ public function testIPCanonicalizeOnValidIp() { $this->assertEquals( '192.0.2.152', IP::canonicalize( '192.0.2.152' ), 'Canonicalization of a valid IP returns it unchanged' ); } /** * @covers IP::canonicalize */ public function testIPCanonicalizeMappedAddress() { $this->assertEquals( '192.0.2.152', IP::canonicalize( '::ffff:192.0.2.152' ) ); $this->assertEquals( '192.0.2.152', IP::canonicalize( '::192.0.2.152' ) ); } /** * Issues there are most probably from IP::toHex() or IP::parseRange() * @covers IP::isInRange * @dataProvider provideIPsAndRanges */ public function testIPIsInRange( $expected, $addr, $range, $message = '' ) { $this->assertEquals( $expected, IP::isInRange( $addr, $range ), $message ); } /** Provider for testIPIsInRange() */ public static function provideIPsAndRanges() { # Format: (expected boolean, address, range, optional message) return [ # IPv4 [ true, '192.0.2.0', '192.0.2.0/24', 'Network address' ], [ true, '192.0.2.77', '192.0.2.0/24', 'Simple address' ], [ true, '192.0.2.255', '192.0.2.0/24', 'Broadcast address' ], [ false, '0.0.0.0', '192.0.2.0/24' ], [ false, '255.255.255', '192.0.2.0/24' ], # IPv6 [ false, '::1', '2001:DB8::/32' ], [ false, '::', '2001:DB8::/32' ], [ false, 'FE80::1', '2001:DB8::/32' ], [ true, '2001:DB8::', '2001:DB8::/32' ], [ true, '2001:0DB8::', '2001:DB8::/32' ], [ true, '2001:DB8::1', '2001:DB8::/32' ], [ true, '2001:0DB8::1', '2001:DB8::/32' ], [ true, '2001:0DB8:FFFF:FFFF:FFFF:FFFF:FFFF:FFFF', '2001:DB8::/32' ], [ false, '2001:0DB8:F::', '2001:DB8::/96' ], ]; } /** * Test for IP::splitHostAndPort(). * @dataProvider provideSplitHostAndPort */ public function testSplitHostAndPort( $expected, $input, $description ) { $this->assertEquals( $expected, IP::splitHostAndPort( $input ), $description ); } /** * Provider for IP::splitHostAndPort() */ public static function provideSplitHostAndPort() { return [ [ false, '[', 'Unclosed square bracket' ], [ false, '[::', 'Unclosed square bracket 2' ], [ [ '::', false ], '::', 'Bare IPv6 0' ], [ [ '::1', false ], '::1', 'Bare IPv6 1' ], [ [ '::', false ], '[::]', 'Bracketed IPv6 0' ], [ [ '::1', false ], '[::1]', 'Bracketed IPv6 1' ], [ [ '::1', 80 ], '[::1]:80', 'Bracketed IPv6 with port' ], [ false, '::x', 'Double colon but no IPv6' ], [ [ 'x', 80 ], 'x:80', 'Hostname and port' ], [ false, 'x:x', 'Hostname and invalid port' ], [ [ 'x', false ], 'x', 'Plain hostname' ] ]; } /** * Test for IP::combineHostAndPort() * @dataProvider provideCombineHostAndPort */ public function testCombineHostAndPort( $expected, $input, $description ) { list( $host, $port, $defaultPort ) = $input; $this->assertEquals( $expected, IP::combineHostAndPort( $host, $port, $defaultPort ), $description ); } /** * Provider for IP::combineHostAndPort() */ public static function provideCombineHostAndPort() { return [ [ '[::1]', [ '::1', 2, 2 ], 'IPv6 default port' ], [ '[::1]:2', [ '::1', 2, 3 ], 'IPv6 non-default port' ], [ 'x', [ 'x', 2, 2 ], 'Normal default port' ], [ 'x:2', [ 'x', 2, 3 ], 'Normal non-default port' ], ]; } /** * Test for IP::sanitizeRange() * @dataProvider provideIPCIDRs */ public function testSanitizeRange( $input, $expected, $description ) { $this->assertEquals( $expected, IP::sanitizeRange( $input ), $description ); } /** * Provider for IP::testSanitizeRange() */ public static function provideIPCIDRs() { return [ [ '35.56.31.252/16', '35.56.0.0/16', 'IPv4 range' ], [ '135.16.21.252/24', '135.16.21.0/24', 'IPv4 range' ], [ '5.36.71.252/32', '5.36.71.252/32', 'IPv4 silly range' ], [ '5.36.71.252', '5.36.71.252', 'IPv4 non-range' ], [ '0:1:2:3:4:c5:f6:7/96', '0:1:2:3:4:C5:0:0/96', 'IPv6 range' ], [ '0:1:2:3:4:5:6:7/120', '0:1:2:3:4:5:6:0/120', 'IPv6 range' ], [ '0:e1:2:3:4:5:e6:7/128', '0:E1:2:3:4:5:E6:7/128', 'IPv6 silly range' ], [ '0:c1:A2:3:4:5:c6:7', '0:C1:A2:3:4:5:C6:7', 'IPv6 non range' ], ]; } /** * Test for IP::prettifyIP() * @dataProvider provideIPsToPrettify */ public function testPrettifyIP( $ip, $prettified ) { $this->assertEquals( $prettified, IP::prettifyIP( $ip ), "Prettify of $ip" ); } /** * Provider for IP::testPrettifyIP() */ public static function provideIPsToPrettify() { return [ [ '0:0:0:0:0:0:0:0', '::' ], [ '0:0:0::0:0:0', '::' ], [ '0:0:0:1:0:0:0:0', '0:0:0:1::' ], [ '0:0::f', '::f' ], [ '0::0:0:0:33:fef:b', '::33:fef:b' ], [ '3f:535:0:0:0:0:e:fbb', '3f:535::e:fbb' ], [ '0:0:fef:0:0:0:e:fbb', '0:0:fef::e:fbb' ], [ 'abbc:2004::0:0:0:0', 'abbc:2004::' ], [ 'cebc:2004:f:0:0:0:0:0', 'cebc:2004:f::' ], [ '0:0:0:0:0:0:0:0/16', '::/16' ], [ '0:0:0::0:0:0/64', '::/64' ], [ '0:0::f/52', '::f/52' ], [ '::0:0:33:fef:b/52', '::33:fef:b/52' ], [ '3f:535:0:0:0:0:e:fbb/48', '3f:535::e:fbb/48' ], [ '0:0:fef:0:0:0:e:fbb/96', '0:0:fef::e:fbb/96' ], [ 'abbc:2004:0:0::0:0/40', 'abbc:2004::/40' ], [ 'aebc:2004:f:0:0:0:0:0/80', 'aebc:2004:f::/80' ], ]; } }