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Direktori : /sbin/ |
Current File : //sbin/netqtop-bpfcc |
#! /usr/bin/python3 from __future__ import print_function from bcc import BPF from ctypes import * import argparse import os from time import sleep,time,localtime,asctime # pre defines ------------------------------- ROOT_PATH = "/sys/class/net" IFNAMSIZ = 16 COL_WIDTH = 10 MAX_QUEUE_NUM = 1024 EBPF_FILE = "/usr/share/bpfcc-tools/netqtop.c" # structure for network interface name array class Devname(Structure): _fields_=[ ('name', c_char*IFNAMSIZ) ] ################## printer for results ################### def to_str(num): s = "" if num > 1000000: return str(round(num/(1024*1024.0), 2)) + 'M' elif num > 1000: return str(round(num/1024.0, 2)) + 'K' else: if isinstance(num, float): return str(round(num, 2)) else: return str(num) def print_table(table, qnum): global print_interval # ---- print headers ---------------- headers = [ "QueueID", "avg_size", "[0, 64)", "[64, 512)", "[512, 2K)", "[2K, 16K)", "[16K, 64K)" ] if args.throughput: headers.append("BPS") headers.append("PPS") print(" ", end="") for hd in headers: print( "%-11s" % hd, end="") print() # ------- calculates -------------- qids=[] tBPS = 0 tPPS = 0 tAVG = 0 tGroup = [0,0,0,0,0] tpkt = 0 tlen = 0 for k, v in (table.items_lookup_batch() if htab_batch_ops else table.items()): qids += [k.value] tlen += v.total_pkt_len tpkt += v.num_pkt tGroup[0] += v.size_64B tGroup[1] += v.size_512B tGroup[2] += v.size_2K tGroup[3] += v.size_16K tGroup[4] += v.size_64K tBPS = tlen / print_interval tPPS = tpkt / print_interval if tpkt != 0: tAVG = tlen / tpkt # -------- print table -------------- for k in range(qnum): if k in qids: item = table[c_ushort(k)] data = [ k, item.total_pkt_len, item.num_pkt, item.size_64B, item.size_512B, item.size_2K, item.size_16K, item.size_64K ] else: data = [k,0,0,0,0,0,0,0] # print a line per queue avg = 0 if data[2] != 0: avg = data[1] / data[2] print(" %-11d%-11s%-11s%-11s%-11s%-11s%-11s" % ( data[0], to_str(avg), to_str(data[3]), to_str(data[4]), to_str(data[5]), to_str(data[6]), to_str(data[7]) ), end="") if args.throughput: BPS = data[1] / print_interval PPS = data[2] / print_interval print("%-11s%-11s" % ( to_str(BPS), to_str(PPS) )) else: print() # ------- print total -------------- print(" Total %-11s%-11s%-11s%-11s%-11s%-11s" % ( to_str(tAVG), to_str(tGroup[0]), to_str(tGroup[1]), to_str(tGroup[2]), to_str(tGroup[3]), to_str(tGroup[4]) ), end="") if args.throughput: print("%-11s%-11s" % ( to_str(tBPS), to_str(tPPS) )) else: print() def print_result(b): # --------- print tx queues --------------- print(asctime(localtime(time()))) print("TX") table = b['tx_q'] print_table(table, tx_num) if htab_batch_ops: b['tx_q'].items_delete_batch() else: b['tx_q'].clear() # --------- print rx queues --------------- print("") print("RX") table = b['rx_q'] print_table(table, rx_num) if htab_batch_ops: b['rx_q'].items_delete_batch() else: b['rx_q'].clear() if args.throughput: print("-"*95) else: print("-"*77) ############## specify network interface ################# parser = argparse.ArgumentParser(description="") parser.add_argument("--name", "-n", type=str, default="") parser.add_argument("--interval", "-i", type=float, default=1) parser.add_argument("--throughput", "-t", action="store_true") parser.add_argument("--ebpf", action="store_true", help=argparse.SUPPRESS) args = parser.parse_args() if args.ebpf: with open(EBPF_FILE) as fileobj: progtxt = fileobj.read() print(progtxt) exit() if args.name == "": print ("Please specify a network interface.") exit() else: dev_name = args.name if len(dev_name) > IFNAMSIZ-1: print ("NIC name too long") exit() print_interval = args.interval + 0.0 if print_interval == 0: print ("print interval must be non-zero") exit() ################ get number of queues ##################### tx_num = 0 rx_num = 0 path = ROOT_PATH + "/" + dev_name + "/queues" if not os.path.exists(path): print ("Net interface", dev_name, "does not exits.") exit() list = os.listdir(path) for s in list: if s[0] == 'r': rx_num += 1 if s[0] == 't': tx_num += 1 if tx_num > MAX_QUEUE_NUM or rx_num > MAX_QUEUE_NUM: print ("number of queues over 1024 is not supported.") exit() ################## start tracing ################## b = BPF(src_file = EBPF_FILE) # --- check whether hash table batch ops is supported --- htab_batch_ops = True if BPF.kernel_struct_has_field(b'bpf_map_ops', b'map_lookup_and_delete_batch') == 1 else False # --------- set hash array -------- devname_map = b['name_map'] _name = Devname() _name.name = dev_name.encode() devname_map[0] = _name while 1: try: sleep(print_interval) print_result(b) except KeyboardInterrupt: exit()