t = Test3(traces, args.pid) elif args.test == 4: t = Test4(traces, args.pid) elif args.test == 5: t = Test5(traces, args.pid) elif args.test == 6: t = Test6(traces, args.pid) elif args.test == 7: t = Test7(traces, args.pid) elif args.test == 8: t = Test8(traces, args.pid) elif args.test == 9: t = Test9(traces, args.pid) elif args.test == 10: # stress test, nothing reliable to check ret = 0 elif args.test == 11: # stress test, nothing reliable to check ret = 0 else: print("Invalid test case") sys.exit(1) if t is not None: ret = t.parse() for h in handle.values(): traces.remove_trace(h) sys.exit(ret)
print('Invalid MongoDB address format: ', args.mongo) print('Expected format: IPV4:PORT') sys.exit(1) except socket.error: print('Invalid MongoDB ip ', args.mongo_host) sys.exit(1) if args.graphite: try: (args.graphite_host, args.graphite_port) = args.graphite.split(':') socket.inet_aton(args.graphite_host) args.graphite_port = int(args.graphite_port) except ValueError: print('Invalid graphite address format: ', args.graphite) print('Expected format: IPV4:PORT') sys.exit(1) except socket.error: print('Invalid graphite ip ', args.graphite_host) sys.exit(1) if args.pidlatencies: args.pid_latency_list = args.pidlatencies.split(",") else: args.pid_latency_list = None analyser = FDInfo(args, traces, output_enabled, err_number) analyser.run() traces.remove_trace(handle)
def reset_total(self, start_ts): for tid in self.state.tids.keys(): self.state.tids[tid].allocated_pages = 0 self.state.tids[tid].freed_pages = 0 self.state.mm["allocated_pages"] = 0 self.state.mm["freed_pages"] = 0 if __name__ == "__main__": parser = argparse.ArgumentParser(description='Memory usage analysis') parser.add_argument('path', metavar="<path/to/trace>", help='Trace path') parser.add_argument('-r', '--refresh', type=int, help='Refresh period in seconds', default=0) parser.add_argument('--top', type=int, default=10, help='Limit to top X TIDs (default = 10)') parser.add_argument('--no-progress', action="store_true", help='Don\'t display the progress bar') args = parser.parse_args() traces = TraceCollection() handle = traces.add_traces_recursive(args.path, "ctf") if handle is None: sys.exit(1) c = MemTop(traces) c.run(args) for h in handle.values(): traces.remove_trace(h)