def test_verify_variables_multiple(self): test_subnet = Subnet() test_subnet.network_address = 'THIS IS A TEST' test_subnet.ip_range = 'THIS IS A TEST' self.assertFalse(test_subnet.verify_variables()) test_subnet.network_address = '152.2.136.0' test_subnet.ip_range = 'THIS IS A TEST' self.assertFalse(test_subnet.verify_variables()) test_subnet.network_address = '152.2.136.0' test_subnet.ip_range = '152.2.136.1-152.2.136.62' self.assertTrue(test_subnet.verify_variables())
def test_verify_variables_total_host_count(self): test_subnet = Subnet() test_subnet.total_host_count = 'THIS IS A TEST' self.assertFalse(test_subnet.verify_total_host_count()) self.assertFalse(test_subnet.verify_variables()) test_subnet.total_host_count = '123' self.assertFalse(test_subnet.verify_total_host_count()) self.assertFalse(test_subnet.verify_variables()) test_subnet.total_host_count = '64' self.assertTrue(test_subnet.verify_total_host_count()) self.assertTrue(test_subnet.verify_variables())
def test_verify_variables_assignable_host_count(self): test_subnet = Subnet() test_subnet.assignable_host_count = 'THIS IS A TEST' self.assertFalse(test_subnet.verify_assignable_host_count()) self.assertFalse(test_subnet.verify_variables()) test_subnet.assignable_host_count = '123' self.assertFalse(test_subnet.verify_assignable_host_count()) self.assertFalse(test_subnet.verify_variables()) test_subnet.assignable_host_count = '62' self.assertTrue(test_subnet.verify_assignable_host_count()) self.assertTrue(test_subnet.verify_variables())
def test_verify_variables_broadcast(self): test_subnet = Subnet() test_subnet.broadcast_address = 0 self.assertFalse(test_subnet.verify_broadcast()) self.assertFalse(test_subnet.verify_variables()) test_subnet.broadcast_address = 'THIS IS A TEST' self.assertFalse(test_subnet.verify_broadcast()) self.assertFalse(test_subnet.verify_variables()) test_subnet.broadcast_address = '152.2.136.0/26' self.assertFalse(test_subnet.verify_broadcast()) self.assertFalse(test_subnet.verify_variables()) test_subnet.broadcast_address = '152.2.136.63' self.assertTrue(test_subnet.verify_broadcast()) self.assertTrue(test_subnet.verify_variables())
def test_verify_variables_ip_range(self): test_subnet = Subnet() test_subnet.ip_range = 0 self.assertFalse(test_subnet.verify_ip_range()) self.assertFalse(test_subnet.verify_variables()) test_subnet.ip_range = 'THIS IS A TEST' self.assertFalse(test_subnet.verify_ip_range()) self.assertFalse(test_subnet.verify_variables()) test_subnet.ip_range = '152.2.136.0/26' self.assertFalse(test_subnet.verify_ip_range()) self.assertFalse(test_subnet.verify_variables()) test_subnet.ip_range = '152.2.136.63' self.assertFalse(test_subnet.verify_ip_range()) self.assertFalse(test_subnet.verify_variables()) test_subnet.ip_range = '152.2.136.0-' self.assertFalse(test_subnet.verify_ip_range()) self.assertFalse(test_subnet.verify_variables()) test_subnet.ip_range = '152.2.136.0-152.2.136.0' self.assertFalse(test_subnet.verify_ip_range()) self.assertFalse(test_subnet.verify_variables()) test_subnet.ip_range = '152.2.136.62-152.2.136.1' self.assertFalse(test_subnet.verify_ip_range()) self.assertFalse(test_subnet.verify_variables()) test_subnet.ip_range = '152.2.136.1-152.2.136.62' self.assertTrue(test_subnet.verify_ip_range()) self.assertTrue(test_subnet.verify_variables())
def test_verify_variables_network_address(self): test_subnet = Subnet() test_subnet.network_address = 0 self.assertFalse(test_subnet.verify_network_address()) self.assertFalse(test_subnet.verify_variables()) test_subnet.network_address = 'THIS IS A TEST' self.assertFalse(test_subnet.verify_network_address()) self.assertFalse(test_subnet.verify_variables()) test_subnet.network_address = '152.2.136.0/26' self.assertFalse(test_subnet.verify_network_address()) self.assertFalse(test_subnet.verify_variables()) test_subnet.network_address = '152.2.136.0' self.assertTrue(test_subnet.verify_network_address()) self.assertTrue(test_subnet.verify_variables())
def test_verify_variables_netmask(self): test_subnet = Subnet() test_subnet.netmask = 0 self.assertFalse(test_subnet.verify_netmask()) self.assertFalse(test_subnet.verify_variables()) test_subnet.netmask = 'THIS IS A TEST' self.assertFalse(test_subnet.verify_netmask()) self.assertFalse(test_subnet.verify_variables()) test_subnet.netmask = '152.2.136.0' self.assertFalse(test_subnet.verify_netmask()) self.assertFalse(test_subnet.verify_variables()) test_subnet.netmask = '255.255.255.192' self.assertTrue(test_subnet.verify_netmask()) self.assertTrue(test_subnet.verify_variables())
def test_verify_variables_cidr(self): test_subnet = Subnet() test_subnet.cidr_address = 0 self.assertFalse(test_subnet.verify_cidr_address()) self.assertFalse(test_subnet.verify_variables()) test_subnet.cidr_address = 'THIS IS A TEST' self.assertFalse(test_subnet.verify_cidr_address()) self.assertFalse(test_subnet.verify_variables()) test_subnet.cidr_address = '152.2.136.0' self.assertFalse(test_subnet.verify_cidr_address()) self.assertFalse(test_subnet.verify_variables()) test_subnet.cidr_address = '152.2.136.0/' self.assertFalse(test_subnet.verify_cidr_address()) self.assertFalse(test_subnet.verify_variables()) test_subnet.cidr_address = '152.2.136.0//' self.assertFalse(test_subnet.verify_cidr_address()) self.assertFalse(test_subnet.verify_variables()) test_subnet.cidr_address = '152.2.136.0/Test' self.assertFalse(test_subnet.verify_cidr_address()) self.assertFalse(test_subnet.verify_variables()) test_subnet.cidr_address = '152.2.136.0/26/' self.assertFalse(test_subnet.verify_cidr_address()) self.assertFalse(test_subnet.verify_variables()) test_subnet.cidr_address = '152.2.136.0/26' self.assertTrue(test_subnet.verify_cidr_address()) self.assertTrue(test_subnet.verify_variables())
def test_verify_variables_none(self): test_subnet = Subnet() self.assertFalse(test_subnet.verify_variable_use()) self.assertFalse(test_subnet.verify_variables())
class CIDRCalcGUI: def __init__(self): self.subnet = Subnet() self.cidr = Tk() self.cidr.wm_title('CIDR Calculator') self.cidr_from_netmask = LabelFrame( self.cidr, text='CIDR: Network Address & Netmask') self.net_address_label = Label(self.cidr_from_netmask, text='Network Address:') self.netmask_label = Label(self.cidr_from_netmask, text='Netmask:') self.net_address_entry = Entry(self.cidr_from_netmask, width=25) self.netmask_entry = Entry(self.cidr_from_netmask, width=25) self.cidr_from_ip_range = LabelFrame( self.cidr, text='CIDR: Network Address & Assignable IP Range') self.net_address_label2 = Label(self.cidr_from_ip_range, text='Network Address:') self.ip_range_label = Label(self.cidr_from_ip_range, text='Assignable IP Range:') self.net_address_entry2 = Entry(self.cidr_from_ip_range, width=25) self.ip_range_entry = Entry(self.cidr_from_ip_range, width=25) self.learning_steps = LabelFrame(self.cidr, text='Learning Steps') self.calculate = Button(self.cidr_from_netmask, text='Calculate', command=lambda: self.get_cidr_from_netmask()) self.calculate2 = Button(self.cidr_from_ip_range, text='Calculate', command=lambda: self.get_cidr_from_ip_range()) self.cidr_from_netmask.grid(row=0) self.cidr_from_ip_range.grid(row=1) self.learning_steps.grid(row=2, sticky='W') self.net_address_label.grid(row=0, column=0, sticky='W') self.net_address_entry.grid(row=1, column=0) self.netmask_label.grid(row=0, column=1, sticky='W') self.netmask_entry.grid(row=1, column=1) self.calculate.grid(row=1, column=2) self.net_address_label2.grid(row=0, column=0, sticky='W') self.net_address_entry2.grid(row=1, column=0) self.ip_range_label.grid(row=0, column=1, sticky='W') self.ip_range_entry.grid(row=1, column=1) self.calculate2.grid(row=1, column=2) # self.cidr.mainloop() def get_cidr_from_netmask(self): if self.subnet.cidr_address != '': self.clear_and_reset() else: self.subnet.network_address = self.net_address_entry.get() self.subnet.netmask = self.netmask_entry.get() if self.subnet.network_address != '' and self.subnet.netmask != '' and self.subnet.verify_variables( ): self.subnet.calculate_cidr_from_netmask() steps = self.subnet.cidr_address_steps step1 = Label(self.learning_steps, text='Step 1:') network = Label(self.learning_steps, text='Network Address: {}'.format( self.subnet.network_address)) netmask = Label(self.learning_steps, text='NetMask: {}'.format(self.subnet.netmask)) step2 = Label(self.learning_steps, text='Step 2:') binary = Label(self.learning_steps, text='Netmask Binary: {}'.format( steps[0]['Netmask Binary'])) step3 = Label(self.learning_steps, text='Step 3:') count = Label(self.learning_steps, text="(Count 0's from Step 2)") cidr = Label(self.learning_steps, text='CIDR: {}'.format(steps[1]['CIDR'])) step4 = Label(self.learning_steps, text='Step 4:') cidr_address = Label(self.learning_steps, text='CIDR Address: {}'.format( self.subnet.cidr_address)) step1.grid(row=0, column=0, sticky='W') network.grid(row=0, column=1, sticky='W') netmask.grid(row=0, column=2, sticky='W') step2.grid(row=1, column=0, sticky='W') binary.grid(row=1, column=1, columnspan=2, sticky='W') step3.grid(row=2, column=0, sticky='W') count.grid(row=2, column=1, sticky='W') cidr.grid(row=2, column=2, sticky='W') step4.grid(row=3, column=0, sticky='W') cidr_address.grid(row=3, column=1, sticky='W') else: self.clear_and_reset() HelpGUI() def get_cidr_from_ip_range(self): if self.subnet.cidr_address != '': self.clear_and_reset() else: self.subnet.network_address = self.net_address_entry2.get() self.subnet.ip_range = self.ip_range_entry.get() if self.subnet.network_address != '' and self.subnet.ip_range != '' and self.subnet.verify_variables( ): self.subnet.calculate_cidr_from_ip_range() steps = self.subnet.cidr_address_steps step1 = Label(self.learning_steps, text='Step 1:') network = Label(self.learning_steps, text='Network Address: {}'.format( self.subnet.network_address)) ip_range = Label(self.learning_steps, text='Assignable IP Range: {}'.format( self.subnet.ip_range)) step2 = Label(self.learning_steps, text='Step 2:') front = Label(self.learning_steps, text='Front: {}'.format(steps[0]['Front'])) back = Label(self.learning_steps, text=' Back: {}'.format(steps[0]['Back'])) step3 = Label(self.learning_steps, text='Step 3:') comparison = Label(self.learning_steps, text='Comparison: {}'.format( steps[1]['Comparison'])) step4 = Label(self.learning_steps, text='Step 4:') cidr = Label(self.learning_steps, text='CIDR: {}'.format(steps[2]['CIDR'])) step5 = Label(self.learning_steps, text='Step 5:') cidr_address = Label(self.learning_steps, text='CIDR Address: {}'.format( self.subnet.cidr_address)) step1.grid(row=0, column=0, sticky='W') network.grid(row=0, column=1, sticky='W') ip_range.grid(row=1, column=1, sticky='W') step2.grid(row=2, column=0, sticky='W') front.grid(row=2, column=1, sticky='W') back.grid(row=3, column=1, sticky='W') step3.grid(row=4, column=0, sticky='W') comparison.grid(row=4, column=1, columnspan=2, sticky='W') step4.grid(row=5, column=0, sticky='W') cidr.grid(row=5, column=1, sticky='W') step5.grid(row=6, column=0, sticky='W') cidr_address.grid(row=6, column=1, sticky='W') else: self.clear_and_reset() HelpGUI() def clear_and_reset(self): self.net_address_entry.delete(0, 'end') self.netmask_entry.delete(0, 'end') self.net_address_entry2.delete(0, 'end') self.ip_range_entry.delete(0, 'end') self.subnet.reset_variables() for child in self.learning_steps.winfo_children(): child.destroy() def generate_main(self): self.cidr.mainloop()