import cbor import json import sys import os import socket, struct import datetime class Command: num = -1 def addr_to_str(self, addr): return '.'.join(str(c) for c in addr.value) def prefix_to_str(self, addr): str_addr = '.'.join(str(c) for c in addr.value[1]) str_addr = str_addr + "/" +addr.value[0] return str_addr def print_answer(self, answer): print(answer) class Memory(Command): num = 1 def nums_to_str(self, answer, key): e = answer["show_memory:message"]["body"][key]["effective"] o = answer["show_memory:message"]["body"][key]["overhead"] j_e = " B" j_o = " B" if e > 9999: e = e/1000 j_e = "kB" if o > 9999: o = o/1000 j_o = "kB" return f"{e:>7} {j_e} {o:>7} {j_o}" def print_answer(self, answer): print() print("BIRD memory usage") keys = answer["show_memory:message"]["body"].keys() first_column_width = len("route attributes ") print(" " * (first_column_width+4), "Effective ", "Overhead") for key in keys: name = key.replace("_", " ") print(name,":", " "*(first_column_width - len(name)), self.nums_to_str(answer, key)) class Status(Command): num = 0 def print_answer(self, answer): print(answer) print() print("BIRD", answer["show_status:message"]["version"]) for key in answer["show_status:message"]["body"].keys(): name = key.replace("_", " ") if key == "router_id": print(name, self.addr_to_str( answer["show_status:message"]["body"][key])) elif key in "server_time last_reboot last_reconfiguration": print(name, datetime.datetime.fromtimestamp(answer["show_status:message"]["body"][key])) else: print(name, answer["show_status:message"]["body"][key]) print(answer["show_status:message"]["state"]) class Symbols(Command): num = 2 def print_answer(self, answer): print() for item in answer["show_symbols:message"]["table"]: print(f"{item['name']:<15} {item['type']}") class Ospf(Command): num = 3 def print_lsa_router(self, area): print ("\trouter", self.addr_to_str(area['router'])) print("\t\tdistance", area['distance']) if ('vlink' in area.keys()): for vlink in area['vlink']: print(f"\t\tvlink {self.addr_to_str( vlink['vlink'])} metric {vlink['metric']}") if ('router_metric' in area.keys()): for router in area['router_metric']: print(f"\t\trouter {self.addr_to_str( router['router'])} metric {router['metric']}") for network in area['network']: addr = self.addr_to_str(network['network']) if('nif' in network): print(f"\t\tnetwork [{addr}-{network['nif']}] metric {network['metric']}") elif('len' in area.keys()): print(f"\t\tnetwork {addr}/{network['len']} metric {network['metric']}") else: print(f"\t\tnetwork [{addr}] metric {network['metric']}") if ('stubnet' in area.keys()): for stubnet in area['stubnet']: print(f"\t\tstubnet {self.addr_to_str(stubnet['stubnet'])}/{stubnet['len']} metric {stubnet['metric']}") def print_lsa_network(self, area): if ('ospf2' in area.keys()): print(f"\tnetwork {self.addr_to_str(area['ospf2']['network'])}/{area['ospf2']['optx']}") print(f"\t\tdr {self.addr_to_str(area['ospf2']['dr'])}") elif ('ospf' in area.keys()): print(f"\tnetwork [{self.addr_to_str(area['ospf']['network'])}-{area['ospf']['lsa_id']}]") print("\t\tdistance", area['distance']) for router in area['routers']: print(f"\t\trouter {self.addr_to_str(router['router'])}") def print_lsa_sum_net(self, area): print(f"\t\txnetwork {self.prefix_to_str(area['net'])} metric {area['metric']}") def print_lsa_sum_rt(self, area): print(f"\t\txrouter {self.addr_to_str(area['router'])} metric {area['metric']}") def print_lsa_external(self, area): if('lsa_type_num' in area.keys()): print(f"\t\t{area['lsa_type']} {self.prefix_to_str(area['rt_net'])} metric{area[lsa_type_num]} {area['metric']}%s%s") else: print(f"\t\t{area['lsa_type']} {self.prefix_to_str(area['rt_net'])} metric {area['metric']}{area['via']}{area['tag']}") def print_lsa_prefix(self, area): for prefix in area['prefixes']: if 'metric' in prefix.keys(): print(f"\t\tstubnet {self.prefix_to_str(prefix['stubnet'])} metric {prefix['metric']}") else: print(f"\t\taddress {self.prefix_to_str(prefix['address'])}") def print_answer(self, answer): print() if ("error" in answer["show_ospf:message"].keys()): print("error: ", answer["show_ospf:message"]["error"]) return if ("not_implemented" in answer["show_ospf:message"].keys()): print("not implemented: ", answer["show_ospf:message"]["not_implemented"]) return for area in answer["show_ospf:message"]["areas"]: if 'area' in area.keys(): print ("area", self.addr_to_str(area['area'])) print() if 'lsa_router' in area.keys(): self.print_lsa_router(area['lsa_router']) elif 'lsa_network' in area.keys(): self.print_lsa_network(area['lsa_network']) elif 'lsa_sum_net' in area.keys(): self.print_lsa_sum_net(area['lsa_sum_net']) elif 'lsa_sum_rt' in area.keys(): self.print_lsa_sum_rt(area['lsa_sum_rt']) elif 'lsa_external' in area.keys(): self.print_lsa_external(area['lsa_external']) elif 'lsa_prefix' in area.keys(): self.print_lsa_prefix(area['lsa_prefix']) if('asbrs' in area.keys()): for asbr in area['asbrs']: if('other_ABSRs' in asbr.keys()): print("other ASBRs") print(f"\trouter {self.addr_to_str(asbr['router'])}") command_dictionary = {"status":0, "memory":1, "symbols":2, "ospf":3} def get_command_class(string): if string == "status": return Status() if string == "memory": return Memory() if string == "symbols": return Symbols() if string == "ospf": return Ospf() raise Exception(f"Command {string} not known. Expected status, memory, symbols or ospf") def run_on_machine(dev, cmd): ws = os.system(f"ip netns exec {dev} {cmd}") if os.WIFEXITED(ws): ec = os.WEXITSTATUS(ws) else: ec = False if ec != 0: raise Exception(f"Command {cmd} exited with exit code {ws}") arguments = sys.argv if (len(sys.argv) <= 2): raise Exception("Expected command, no argunents given.") if (len(sys.argv) == 3): raise Exception(f"only one ({sys.argv[2]}) command given, that is not implemented") if(sys.argv[2] != "show"): raise Exception(f"Expected 'dev show status/memory/symbols/ospf', unknown {sys.argv[2]}.") comm = get_command_class(sys.argv[3]) command = {"command:do":{"command":comm.num, "args":[]}} for i in range (4, len(sys.argv)): command["command:do"]["args"].append({"arg": sys.argv[i]}) print(command) with open(os.getcwd()+"/command.cbor", "wb") as of: cbor.dump(command, of) run_on_machine(sys.argv[1], f"cat command.cbor | sudo socat UNIX-CONNECT:{os.getcwd()}/bird-yang.ctl STDIO > answer.cbor") with open("answer.cbor", "br") as cbor_file: answer = cbor.load(cbor_file) comm.print_answer(answer)