def testInvalidSegmentRangeIpAddress2(): ipAddress = "192.168.11.-1" actualResult = question._isIp(ipAddress) expectMessage = ( "Ip segment is out of range 0-255: '-1' in ip string: '192.168.11.-1'") assert not actualResult[0] assert expectMessage == actualResult[1]
def testInvalidSegmentsIpAddress(): ipAddress = "192.168.11.s" actualResult = question._isIp(ipAddress) expectMessage = "Ip segment is not a number: 's' in ip string: '192.168.11.s'" assert not actualResult[0] assert expectMessage == actualResult[1]
def testValidIpAddressWithIndicator(): ip = "INVALID_IP(100l)" actualResult = question._isIp(ip) assert actualResult[0] assert actualResult[1] is None
def testInvalidIpAddressWithIndicator(): ip = "INVALID_IP(100)" actualResult = question._isIp(ip) expectMessage = "Invalid ip string: '{}'".format(ip) assert not actualResult[0] assert expectMessage == actualResult[1]
def testInvalidIp(): ip = "192.168.11" actualResult = question._isIp(ip) expectMessage = "Invalid ip string: '{}'".format(ip) assert not actualResult[0] assert expectMessage == actualResult[1]
def testValidIpAddress(): ipAddress = "192.168.1.1" actualResult = question._isIp(ipAddress) assert actualResult[0] assert actualResult[1] is None
def testInvalidSegmentRangeIpAddress(): ipAddress = '192.168.11.256' actualResult = question._isIp(ipAddress) expectMessage = "Ip segment is out of range 0-255: '256' in ip string: '192.168.11.256'" assert not actualResult[0] assert expectMessage == actualResult[1]