def test_setup_bandwidth(self): model = PerformanceModel() model.rsvp_lsp_objects = set([]) model.demand_objects = set([]) int_list = [{ 'name': 'E-to-A', 'cost': 10, 'capacity': 300, 'node': 'E', 'remote_node': 'A', 'circuit_id': 1, 'failed': False }, { 'name': 'C-to-D', 'cost': 30, 'capacity': 150, 'node': 'C', 'remote_node': 'D', 'circuit_id': 5, 'failed': False }, { 'name': 'D-to-C', 'cost': 30, 'capacity': 150, 'node': 'D', 'remote_node': 'C', 'circuit_id': 5, 'failed': False }, { 'name': 'A-to-E', 'cost': 10, 'capacity': 300, 'node': 'A', 'remote_node': 'E', 'circuit_id': 1, 'failed': False }, { 'name': 'A-to-D', 'cost': 40, 'capacity': 20, 'node': 'A', 'remote_node': 'D', 'circuit_id': 2, 'failed': False }, { 'name': 'D-to-A', 'cost': 40, 'capacity': 20, 'node': 'D', 'remote_node': 'A', 'circuit_id': 2, 'failed': False }, { 'name': 'G-to-D', 'cost': 10, 'capacity': 100, 'node': 'G', 'remote_node': 'D', 'circuit_id': 7, 'failed': False }, { 'name': 'C-to-A', 'cost': 30, 'capacity': 150, 'node': 'C', 'remote_node': 'A', 'circuit_id': 3, 'failed': False }, { 'name': 'D-to-F', 'cost': 10, 'capacity': 300, 'node': 'D', 'remote_node': 'F', 'circuit_id': 6, 'failed': False }, { 'name': 'F-to-D', 'cost': 10, 'capacity': 300, 'node': 'F', 'remote_node': 'D', 'circuit_id': 6, 'failed': False }, { 'name': 'D-to-G', 'cost': 10, 'capacity': 100, 'node': 'D', 'remote_node': 'G', 'circuit_id': 7, 'failed': False }, { 'name': 'B-to-A', 'cost': 20, 'capacity': 125, 'node': 'B', 'remote_node': 'A', 'circuit_id': 4, 'failed': False }, { 'name': 'D-to-B', 'cost': 20, 'capacity': 125, 'node': 'D', 'remote_node': 'B', 'circuit_id': 8, 'failed': False }, { 'name': 'B-to-G', 'cost': 10, 'capacity': 100, 'node': 'B', 'remote_node': 'G', 'circuit_id': 9, 'failed': False }, { 'name': 'A-to-C', 'cost': 30, 'capacity': 150, 'node': 'A', 'remote_node': 'C', 'circuit_id': 3, 'failed': False }, { 'name': 'B-to-D', 'cost': 20, 'capacity': 125, 'node': 'B', 'remote_node': 'D', 'circuit_id': 8, 'failed': False }, { 'name': 'G-to-B', 'cost': 10, 'capacity': 100, 'node': 'G', 'remote_node': 'B', 'circuit_id': 9, 'failed': False }, { 'name': 'A-to-B', 'cost': 20, 'capacity': 125, 'node': 'A', 'remote_node': 'B', 'circuit_id': 4, 'failed': False }] model.add_network_interfaces_from_list(int_list) model.add_rsvp_lsp('A', 'D', 'lsp_a_d_1') model.add_rsvp_lsp('A', 'D', 'lsp_a_d_2') demands = [ { 'source': 'A', 'dest': 'D', 'traffic': 100, 'name': 'dmd_a_d_3' }, { 'source': 'A', 'dest': 'D', 'traffic': 70, 'name': 'dmd_a_d_2' }, { 'source': 'A', 'dest': 'D', 'traffic': 80, 'name': 'dmd_a_d_1' }, { 'source': 'F', 'dest': 'E', 'traffic': 400, 'name': 'dmd_f_e_1' }, { 'source': 'A', 'dest': 'F', 'traffic': 40, 'name': 'dmd_a_f_1' }, ] for demand in demands: model.add_demand(demand['source'], demand['dest'], demand['traffic'], demand['name']) lsp_a_d_1 = model.get_rsvp_lsp('A', 'D', 'lsp_a_d_1') lsp_a_d_2 = model.get_rsvp_lsp('A', 'D', 'lsp_a_d_2') model.update_simulation() self.assertEqual(lsp_a_d_1.setup_bandwidth, 125.0) self.assertEqual(lsp_a_d_2.setup_bandwidth, 125.0)
def test_setup_bandwidth(self): model = PerformanceModel() model.rsvp_lsp_objects = set([]) model.demand_objects = set([]) int_list = [ { "name": "E-to-A", "cost": 10, "capacity": 300, "node": "E", "remote_node": "A", "circuit_id": 1, "failed": False, }, { "name": "C-to-D", "cost": 30, "capacity": 150, "node": "C", "remote_node": "D", "circuit_id": 5, "failed": False, }, { "name": "D-to-C", "cost": 30, "capacity": 150, "node": "D", "remote_node": "C", "circuit_id": 5, "failed": False, }, { "name": "A-to-E", "cost": 10, "capacity": 300, "node": "A", "remote_node": "E", "circuit_id": 1, "failed": False, }, { "name": "A-to-D", "cost": 40, "capacity": 20, "node": "A", "remote_node": "D", "circuit_id": 2, "failed": False, }, { "name": "D-to-A", "cost": 40, "capacity": 20, "node": "D", "remote_node": "A", "circuit_id": 2, "failed": False, }, { "name": "G-to-D", "cost": 10, "capacity": 100, "node": "G", "remote_node": "D", "circuit_id": 7, "failed": False, }, { "name": "C-to-A", "cost": 30, "capacity": 150, "node": "C", "remote_node": "A", "circuit_id": 3, "failed": False, }, { "name": "D-to-F", "cost": 10, "capacity": 300, "node": "D", "remote_node": "F", "circuit_id": 6, "failed": False, }, { "name": "F-to-D", "cost": 10, "capacity": 300, "node": "F", "remote_node": "D", "circuit_id": 6, "failed": False, }, { "name": "D-to-G", "cost": 10, "capacity": 100, "node": "D", "remote_node": "G", "circuit_id": 7, "failed": False, }, { "name": "B-to-A", "cost": 20, "capacity": 125, "node": "B", "remote_node": "A", "circuit_id": 4, "failed": False, }, { "name": "D-to-B", "cost": 20, "capacity": 125, "node": "D", "remote_node": "B", "circuit_id": 8, "failed": False, }, { "name": "B-to-G", "cost": 10, "capacity": 100, "node": "B", "remote_node": "G", "circuit_id": 9, "failed": False, }, { "name": "A-to-C", "cost": 30, "capacity": 150, "node": "A", "remote_node": "C", "circuit_id": 3, "failed": False, }, { "name": "B-to-D", "cost": 20, "capacity": 125, "node": "B", "remote_node": "D", "circuit_id": 8, "failed": False, }, { "name": "G-to-B", "cost": 10, "capacity": 100, "node": "G", "remote_node": "B", "circuit_id": 9, "failed": False, }, { "name": "A-to-B", "cost": 20, "capacity": 125, "node": "A", "remote_node": "B", "circuit_id": 4, "failed": False, }, ] model.add_network_interfaces_from_list(int_list) model.add_rsvp_lsp("A", "D", "lsp_a_d_1") model.add_rsvp_lsp("A", "D", "lsp_a_d_2") demands = [ {"source": "A", "dest": "D", "traffic": 100, "name": "dmd_a_d_3"}, {"source": "A", "dest": "D", "traffic": 70, "name": "dmd_a_d_2"}, {"source": "A", "dest": "D", "traffic": 80, "name": "dmd_a_d_1"}, {"source": "F", "dest": "E", "traffic": 400, "name": "dmd_f_e_1"}, {"source": "A", "dest": "F", "traffic": 40, "name": "dmd_a_f_1"}, ] for demand in demands: model.add_demand( demand["source"], demand["dest"], demand["traffic"], demand["name"] ) lsp_a_d_1 = model.get_rsvp_lsp("A", "D", "lsp_a_d_1") lsp_a_d_2 = model.get_rsvp_lsp("A", "D", "lsp_a_d_2") model.update_simulation() self.assertEqual(lsp_a_d_1.setup_bandwidth, 125.0) self.assertEqual(lsp_a_d_2.setup_bandwidth, 125.0)