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author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-28 14:29:10 +0000 |
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committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-28 14:29:10 +0000 |
commit | 2aa4a82499d4becd2284cdb482213d541b8804dd (patch) | |
tree | b80bf8bf13c3766139fbacc530efd0dd9d54394c /testing/xpcshell/node-ip/test/api-test.js | |
parent | Initial commit. (diff) | |
download | firefox-upstream.tar.xz firefox-upstream.zip |
Adding upstream version 86.0.1.upstream/86.0.1upstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'testing/xpcshell/node-ip/test/api-test.js')
-rw-r--r-- | testing/xpcshell/node-ip/test/api-test.js | 407 |
1 files changed, 407 insertions, 0 deletions
diff --git a/testing/xpcshell/node-ip/test/api-test.js b/testing/xpcshell/node-ip/test/api-test.js new file mode 100644 index 0000000000..1af09a4f6f --- /dev/null +++ b/testing/xpcshell/node-ip/test/api-test.js @@ -0,0 +1,407 @@ +'use strict'; + +var ip = require('..'); +var assert = require('assert'); +var net = require('net'); +var os = require('os'); + +describe('IP library for node.js', function() { + describe('toBuffer()/toString() methods', function() { + it('should convert to buffer IPv4 address', function() { + var buf = ip.toBuffer('127.0.0.1'); + assert.equal(buf.toString('hex'), '7f000001'); + assert.equal(ip.toString(buf), '127.0.0.1'); + }); + + it('should convert to buffer IPv4 address in-place', function() { + var buf = Buffer.alloc(128); + var offset = 64; + ip.toBuffer('127.0.0.1', buf, offset); + assert.equal(buf.toString('hex', offset, offset + 4), '7f000001'); + assert.equal(ip.toString(buf, offset, 4), '127.0.0.1'); + }); + + it('should convert to buffer IPv6 address', function() { + var buf = ip.toBuffer('::1'); + assert(/(00){15,15}01/.test(buf.toString('hex'))); + assert.equal(ip.toString(buf), '::1'); + assert.equal(ip.toString(ip.toBuffer('1::')), '1::'); + assert.equal(ip.toString(ip.toBuffer('abcd::dcba')), 'abcd::dcba'); + }); + + it('should convert to buffer IPv6 address in-place', function() { + var buf = Buffer.alloc(128); + var offset = 64; + ip.toBuffer('::1', buf, offset); + assert(/(00){15,15}01/.test(buf.toString('hex', offset, offset + 16))); + assert.equal(ip.toString(buf, offset, 16), '::1'); + assert.equal(ip.toString(ip.toBuffer('1::', buf, offset), + offset, 16), '1::'); + assert.equal(ip.toString(ip.toBuffer('abcd::dcba', buf, offset), + offset, 16), 'abcd::dcba'); + }); + + it('should convert to buffer IPv6 mapped IPv4 address', function() { + var buf = ip.toBuffer('::ffff:127.0.0.1'); + assert.equal(buf.toString('hex'), '00000000000000000000ffff7f000001'); + assert.equal(ip.toString(buf), '::ffff:7f00:1'); + + buf = ip.toBuffer('ffff::127.0.0.1'); + assert.equal(buf.toString('hex'), 'ffff000000000000000000007f000001'); + assert.equal(ip.toString(buf), 'ffff::7f00:1'); + + buf = ip.toBuffer('0:0:0:0:0:ffff:127.0.0.1'); + assert.equal(buf.toString('hex'), '00000000000000000000ffff7f000001'); + assert.equal(ip.toString(buf), '::ffff:7f00:1'); + }); + }); + + describe('fromPrefixLen() method', function() { + it('should create IPv4 mask', function() { + assert.equal(ip.fromPrefixLen(24), '255.255.255.0'); + }); + it('should create IPv6 mask', function() { + assert.equal(ip.fromPrefixLen(64), 'ffff:ffff:ffff:ffff::'); + }); + it('should create IPv6 mask explicitly', function() { + assert.equal(ip.fromPrefixLen(24, 'IPV6'), 'ffff:ff00::'); + }); + }); + + describe('not() method', function() { + it('should reverse bits in address', function() { + assert.equal(ip.not('255.255.255.0'), '0.0.0.255'); + }); + }); + + describe('or() method', function() { + it('should or bits in ipv4 addresses', function() { + assert.equal(ip.or('0.0.0.255', '192.168.1.10'), '192.168.1.255'); + }); + it('should or bits in ipv6 addresses', function() { + assert.equal(ip.or('::ff', '::abcd:dcba:abcd:dcba'), + '::abcd:dcba:abcd:dcff'); + }); + it('should or bits in mixed addresses', function() { + assert.equal(ip.or('0.0.0.255', '::abcd:dcba:abcd:dcba'), + '::abcd:dcba:abcd:dcff'); + }); + }); + + describe('mask() method', function() { + it('should mask bits in address', function() { + assert.equal(ip.mask('192.168.1.134', '255.255.255.0'), '192.168.1.0'); + assert.equal(ip.mask('192.168.1.134', '::ffff:ff00'), '::ffff:c0a8:100'); + }); + + it('should not leak data', function() { + for (var i = 0; i < 10; i++) + assert.equal(ip.mask('::1', '0.0.0.0'), '::'); + }); + }); + + describe('subnet() method', function() { + // Test cases calculated with http://www.subnet-calculator.com/ + var ipv4Subnet = ip.subnet('192.168.1.134', '255.255.255.192'); + + it('should compute ipv4 network address', function() { + assert.equal(ipv4Subnet.networkAddress, '192.168.1.128'); + }); + + it('should compute ipv4 network\'s first address', function() { + assert.equal(ipv4Subnet.firstAddress, '192.168.1.129'); + }); + + it('should compute ipv4 network\'s last address', function() { + assert.equal(ipv4Subnet.lastAddress, '192.168.1.190'); + }); + + it('should compute ipv4 broadcast address', function() { + assert.equal(ipv4Subnet.broadcastAddress, '192.168.1.191'); + }); + + it('should compute ipv4 subnet number of addresses', function() { + assert.equal(ipv4Subnet.length, 64); + }); + + it('should compute ipv4 subnet number of addressable hosts', function() { + assert.equal(ipv4Subnet.numHosts, 62); + }); + + it('should compute ipv4 subnet mask', function() { + assert.equal(ipv4Subnet.subnetMask, '255.255.255.192'); + }); + + it('should compute ipv4 subnet mask\'s length', function() { + assert.equal(ipv4Subnet.subnetMaskLength, 26); + }); + + it('should know whether a subnet contains an address', function() { + assert.equal(ipv4Subnet.contains('192.168.1.180'), true); + }); + + it('should know whether a subnet does not contain an address', function() { + assert.equal(ipv4Subnet.contains('192.168.1.195'), false); + }); + }); + + describe('subnet() method with mask length 32', function() { + // Test cases calculated with http://www.subnet-calculator.com/ + var ipv4Subnet = ip.subnet('192.168.1.134', '255.255.255.255'); + it('should compute ipv4 network\'s first address', function() { + assert.equal(ipv4Subnet.firstAddress, '192.168.1.134'); + }); + + it('should compute ipv4 network\'s last address', function() { + assert.equal(ipv4Subnet.lastAddress, '192.168.1.134'); + }); + + it('should compute ipv4 subnet number of addressable hosts', function() { + assert.equal(ipv4Subnet.numHosts, 1); + }); + }); + + describe('subnet() method with mask length 31', function() { + // Test cases calculated with http://www.subnet-calculator.com/ + var ipv4Subnet = ip.subnet('192.168.1.134', '255.255.255.254'); + it('should compute ipv4 network\'s first address', function() { + assert.equal(ipv4Subnet.firstAddress, '192.168.1.134'); + }); + + it('should compute ipv4 network\'s last address', function() { + assert.equal(ipv4Subnet.lastAddress, '192.168.1.135'); + }); + + it('should compute ipv4 subnet number of addressable hosts', function() { + assert.equal(ipv4Subnet.numHosts, 2); + }); + }); + + describe('cidrSubnet() method', function() { + // Test cases calculated with http://www.subnet-calculator.com/ + var ipv4Subnet = ip.cidrSubnet('192.168.1.134/26'); + + it('should compute an ipv4 network address', function() { + assert.equal(ipv4Subnet.networkAddress, '192.168.1.128'); + }); + + it('should compute an ipv4 network\'s first address', function() { + assert.equal(ipv4Subnet.firstAddress, '192.168.1.129'); + }); + + it('should compute an ipv4 network\'s last address', function() { + assert.equal(ipv4Subnet.lastAddress, '192.168.1.190'); + }); + + it('should compute an ipv4 broadcast address', function() { + assert.equal(ipv4Subnet.broadcastAddress, '192.168.1.191'); + }); + + it('should compute an ipv4 subnet number of addresses', function() { + assert.equal(ipv4Subnet.length, 64); + }); + + it('should compute an ipv4 subnet number of addressable hosts', function() { + assert.equal(ipv4Subnet.numHosts, 62); + }); + + it('should compute an ipv4 subnet mask', function() { + assert.equal(ipv4Subnet.subnetMask, '255.255.255.192'); + }); + + it('should compute an ipv4 subnet mask\'s length', function() { + assert.equal(ipv4Subnet.subnetMaskLength, 26); + }); + + it('should know whether a subnet contains an address', function() { + assert.equal(ipv4Subnet.contains('192.168.1.180'), true); + }); + + it('should know whether a subnet contains an address', function() { + assert.equal(ipv4Subnet.contains('192.168.1.195'), false); + }); + + }); + + describe('cidr() method', function() { + it('should mask address in CIDR notation', function() { + assert.equal(ip.cidr('192.168.1.134/26'), '192.168.1.128'); + assert.equal(ip.cidr('2607:f0d0:1002:51::4/56'), '2607:f0d0:1002::'); + }); + }); + + describe('isEqual() method', function() { + it('should check if addresses are equal', function() { + assert(ip.isEqual('127.0.0.1', '::7f00:1')); + assert(!ip.isEqual('127.0.0.1', '::7f00:2')); + assert(ip.isEqual('127.0.0.1', '::ffff:7f00:1')); + assert(!ip.isEqual('127.0.0.1', '::ffaf:7f00:1')); + assert(ip.isEqual('::ffff:127.0.0.1', '::ffff:127.0.0.1')); + assert(ip.isEqual('::ffff:127.0.0.1', '127.0.0.1')); + }); + }); + + + describe('isPrivate() method', function() { + it('should check if an address is localhost', function() { + assert.equal(ip.isPrivate('127.0.0.1'), true); + }); + + it('should check if an address is from a 192.168.x.x network', function() { + assert.equal(ip.isPrivate('192.168.0.123'), true); + assert.equal(ip.isPrivate('192.168.122.123'), true); + assert.equal(ip.isPrivate('192.162.1.2'), false); + }); + + it('should check if an address is from a 172.16.x.x network', function() { + assert.equal(ip.isPrivate('172.16.0.5'), true); + assert.equal(ip.isPrivate('172.16.123.254'), true); + assert.equal(ip.isPrivate('171.16.0.5'), false); + assert.equal(ip.isPrivate('172.25.232.15'), true); + assert.equal(ip.isPrivate('172.15.0.5'), false); + assert.equal(ip.isPrivate('172.32.0.5'), false); + }); + + it('should check if an address is from a 169.254.x.x network', function() { + assert.equal(ip.isPrivate('169.254.2.3'), true); + assert.equal(ip.isPrivate('169.254.221.9'), true); + assert.equal(ip.isPrivate('168.254.2.3'), false); + }); + + it('should check if an address is from a 10.x.x.x network', function() { + assert.equal(ip.isPrivate('10.0.2.3'), true); + assert.equal(ip.isPrivate('10.1.23.45'), true); + assert.equal(ip.isPrivate('12.1.2.3'), false); + }); + + it('should check if an address is from a private IPv6 network', function() { + assert.equal(ip.isPrivate('fd12:3456:789a:1::1'), true); + assert.equal(ip.isPrivate('fe80::f2de:f1ff:fe3f:307e'), true); + assert.equal(ip.isPrivate('::ffff:10.100.1.42'), true); + assert.equal(ip.isPrivate('::FFFF:172.16.200.1'), true); + assert.equal(ip.isPrivate('::ffff:192.168.0.1'), true); + }); + + it('should check if an address is from the internet', function() { + assert.equal(ip.isPrivate('165.225.132.33'), false); // joyent.com + }); + + it('should check if an address is a loopback IPv6 address', function() { + assert.equal(ip.isPrivate('::'), true); + assert.equal(ip.isPrivate('::1'), true); + assert.equal(ip.isPrivate('fe80::1'), true); + }); + }); + + describe('loopback() method', function() { + describe('undefined', function() { + it('should respond with 127.0.0.1', function() { + assert.equal(ip.loopback(), '127.0.0.1') + }); + }); + + describe('ipv4', function() { + it('should respond with 127.0.0.1', function() { + assert.equal(ip.loopback('ipv4'), '127.0.0.1') + }); + }); + + describe('ipv6', function() { + it('should respond with fe80::1', function() { + assert.equal(ip.loopback('ipv6'), 'fe80::1') + }); + }); + }); + + describe('isLoopback() method', function() { + describe('127.0.0.1', function() { + it('should respond with true', function() { + assert.ok(ip.isLoopback('127.0.0.1')) + }); + }); + + describe('127.8.8.8', function () { + it('should respond with true', function () { + assert.ok(ip.isLoopback('127.8.8.8')) + }); + }); + + describe('8.8.8.8', function () { + it('should respond with false', function () { + assert.equal(ip.isLoopback('8.8.8.8'), false); + }); + }); + + describe('fe80::1', function() { + it('should respond with true', function() { + assert.ok(ip.isLoopback('fe80::1')) + }); + }); + + describe('::1', function() { + it('should respond with true', function() { + assert.ok(ip.isLoopback('::1')) + }); + }); + + describe('::', function() { + it('should respond with true', function() { + assert.ok(ip.isLoopback('::')) + }); + }); + }); + + describe('address() method', function() { + describe('undefined', function() { + it('should respond with a private ip', function() { + assert.ok(ip.isPrivate(ip.address())); + }); + }); + + describe('private', function() { + [ undefined, 'ipv4', 'ipv6' ].forEach(function(family) { + describe(family, function() { + it('should respond with a private ip', function() { + assert.ok(ip.isPrivate(ip.address('private', family))); + }); + }); + }); + }); + + var interfaces = os.networkInterfaces(); + + Object.keys(interfaces).forEach(function(nic) { + describe(nic, function() { + [ undefined, 'ipv4' ].forEach(function(family) { + describe(family, function() { + it('should respond with an ipv4 address', function() { + var addr = ip.address(nic, family); + assert.ok(!addr || net.isIPv4(addr)); + }); + }); + }); + + describe('ipv6', function() { + it('should respond with an ipv6 address', function() { + var addr = ip.address(nic, 'ipv6'); + assert.ok(!addr || net.isIPv6(addr)); + }); + }) + }); + }); + }); + + describe('toLong() method', function() { + it('should respond with a int', function() { + assert.equal(ip.toLong('127.0.0.1'), 2130706433); + assert.equal(ip.toLong('255.255.255.255'), 4294967295); + }); + }); + + describe('fromLong() method', function() { + it('should repond with ipv4 address', function() { + assert.equal(ip.fromLong(2130706433), '127.0.0.1'); + assert.equal(ip.fromLong(4294967295), '255.255.255.255'); + }); + }) +}); |