src/tools/perf/scripts/python/netdev-times.py - platform/external/linux-tools-perf - Git at Google

 # Display a process of packets and processed time.
 # It helps us to investigate networking or network device.
 #
 # options
 # tx: show only tx chart
 # rx: show only rx chart
 # dev=: show only thing related to specified device
 # debug: work with debug mode. It shows buffer status.

 import os
 import sys

 sys.path.append(os.environ['PERF_EXEC_PATH'] + \
 	'/scripts/python/Perf-Trace-Util/lib/Perf/Trace')

 from perf_trace_context import *
 from Core import *
 from Util import *

 all_event_list = []; # insert all tracepoint event related with this script
 irq_dic = {}; # key is cpu and value is a list which stacks irqs
               # which raise NET_RX softirq
 net_rx_dic = {}; # key is cpu and value include time of NET_RX softirq-entry
 		 # and a list which stacks receive
 receive_hunk_list = []; # a list which include a sequence of receive events
 rx_skb_list = []; # received packet list for matching
 		       # skb_copy_datagram_iovec

 buffer_budget = 65536; # the budget of rx_skb_list, tx_queue_list and
 		       # tx_xmit_list
 of_count_rx_skb_list = 0; # overflow count

 tx_queue_list = []; # list of packets which pass through dev_queue_xmit
 of_count_tx_queue_list = 0; # overflow count

 tx_xmit_list = [];  # list of packets which pass through dev_hard_start_xmit
 of_count_tx_xmit_list = 0; # overflow count

 tx_free_list = [];  # list of packets which is freed

 # options
 show_tx = 0;
 show_rx = 0;
 dev = 0; # store a name of device specified by option "dev="
 debug = 0;

 # indices of event_info tuple
 EINFO_IDX_NAME=   0
 EINFO_IDX_CONTEXT=1
 EINFO_IDX_CPU=    2
 EINFO_IDX_TIME=   3
 EINFO_IDX_PID=    4
 EINFO_IDX_COMM=   5

 # Calculate a time interval(msec) from src(nsec) to dst(nsec)
 def diff_msec(src, dst):
 	return (dst - src) / 1000000.0

 # Display a process of transmitting a packet
 def print_transmit(hunk):
 	if dev != 0 and hunk['dev'].find(dev) < 0:
 		return
 	print "%7s %5d %6d.%06dsec %12.3fmsec      %12.3fmsec" % \
 		(hunk['dev'], hunk['len'],
 		nsecs_secs(hunk['queue_t']),
 		nsecs_nsecs(hunk['queue_t'])/1000,
 		diff_msec(hunk['queue_t'], hunk['xmit_t']),
 		diff_msec(hunk['xmit_t'], hunk['free_t']))

 # Format for displaying rx packet processing
 PF_IRQ_ENTRY= "  irq_entry(+%.3fmsec irq=%d:%s)"
 PF_SOFT_ENTRY="  softirq_entry(+%.3fmsec)"
 PF_NAPI_POLL= "  napi_poll_exit(+%.3fmsec %s)"
 PF_JOINT=     "         |"
 PF_WJOINT=    "         |            |"
 PF_NET_RECV=  "         |---netif_receive_skb(+%.3fmsec skb=%x len=%d)"
 PF_NET_RX=    "         |---netif_rx(+%.3fmsec skb=%x)"
 PF_CPY_DGRAM= "         |      skb_copy_datagram_iovec(+%.3fmsec %d:%s)"
 PF_KFREE_SKB= "         |      kfree_skb(+%.3fmsec location=%x)"
 PF_CONS_SKB=  "         |      consume_skb(+%.3fmsec)"

 # Display a process of received packets and interrputs associated with
 # a NET_RX softirq
 def print_receive(hunk):
 	show_hunk = 0
 	irq_list = hunk['irq_list']
 	cpu = irq_list[0]['cpu']
 	base_t = irq_list[0]['irq_ent_t']
 	# check if this hunk should be showed
 	if dev != 0:
 		for i in range(len(irq_list)):
 			if irq_list[i]['name'].find(dev) >= 0:
 				show_hunk = 1
 				break
 	else:
 		show_hunk = 1
 	if show_hunk == 0:
 		return

 	print "%d.%06dsec cpu=%d" % \
 		(nsecs_secs(base_t), nsecs_nsecs(base_t)/1000, cpu)
 	for i in range(len(irq_list)):
 		print PF_IRQ_ENTRY % \
 			(diff_msec(base_t, irq_list[i]['irq_ent_t']),
 			irq_list[i]['irq'], irq_list[i]['name'])
 		print PF_JOINT
 		irq_event_list = irq_list[i]['event_list']
 		for j in range(len(irq_event_list)):
 			irq_event = irq_event_list[j]
 			if irq_event['event'] == 'netif_rx':
 				print PF_NET_RX % \
 					(diff_msec(base_t, irq_event['time']),
 					irq_event['skbaddr'])
 				print PF_JOINT
 	print PF_SOFT_ENTRY % \
 		diff_msec(base_t, hunk['sirq_ent_t'])
 	print PF_JOINT
 	event_list = hunk['event_list']
 	for i in range(len(event_list)):
 		event = event_list[i]
 		if event['event_name'] == 'napi_poll':
 			print PF_NAPI_POLL % \
 			    (diff_msec(base_t, event['event_t']), event['dev'])
 			if i == len(event_list) - 1:
 				print ""
 			else:
 				print PF_JOINT
 		else:
 			print PF_NET_RECV % \
 			    (diff_msec(base_t, event['event_t']), event['skbaddr'],
 				event['len'])
 			if 'comm' in event.keys():
 				print PF_WJOINT
 				print PF_CPY_DGRAM % \
 					(diff_msec(base_t, event['comm_t']),
 					event['pid'], event['comm'])
 			elif 'handle' in event.keys():
 				print PF_WJOINT
 				if event['handle'] == "kfree_skb":
 					print PF_KFREE_SKB % \
 						(diff_msec(base_t,
 						event['comm_t']),
 						event['location'])
 				elif event['handle'] == "consume_skb":
 					print PF_CONS_SKB % \
 						diff_msec(base_t,
 							event['comm_t'])
 			print PF_JOINT

 def trace_begin():
 	global show_tx
 	global show_rx
 	global dev
 	global debug

 	for i in range(len(sys.argv)):
 		if i == 0:
 			continue
 		arg = sys.argv[i]
 		if arg == 'tx':
 			show_tx = 1
 		elif arg =='rx':
 			show_rx = 1
 		elif arg.find('dev=',0, 4) >= 0:
 			dev = arg[4:]
 		elif arg == 'debug':
 			debug = 1
 	if show_tx == 0  and show_rx == 0:
 		show_tx = 1
 		show_rx = 1

 def trace_end():
 	# order all events in time
 	all_event_list.sort(lambda a,b :cmp(a[EINFO_IDX_TIME],
 					    b[EINFO_IDX_TIME]))
 	# process all events
 	for i in range(len(all_event_list)):
 		event_info = all_event_list[i]
 		name = event_info[EINFO_IDX_NAME]
 		if name == 'irq__softirq_exit':
 			handle_irq_softirq_exit(event_info)
 		elif name == 'irq__softirq_entry':
 			handle_irq_softirq_entry(event_info)
 		elif name == 'irq__softirq_raise':
 			handle_irq_softirq_raise(event_info)
 		elif name == 'irq__irq_handler_entry':
 			handle_irq_handler_entry(event_info)
 		elif name == 'irq__irq_handler_exit':
 			handle_irq_handler_exit(event_info)
 		elif name == 'napi__napi_poll':
 			handle_napi_poll(event_info)
 		elif name == 'net__netif_receive_skb':
 			handle_netif_receive_skb(event_info)
 		elif name == 'net__netif_rx':
 			handle_netif_rx(event_info)
 		elif name == 'skb__skb_copy_datagram_iovec':
 			handle_skb_copy_datagram_iovec(event_info)
 		elif name == 'net__net_dev_queue':
 			handle_net_dev_queue(event_info)
 		elif name == 'net__net_dev_xmit':
 			handle_net_dev_xmit(event_info)
 		elif name == 'skb__kfree_skb':
 			handle_kfree_skb(event_info)
 		elif name == 'skb__consume_skb':
 			handle_consume_skb(event_info)
 	# display receive hunks
 	if show_rx:
 		for i in range(len(receive_hunk_list)):
 			print_receive(receive_hunk_list[i])
 	# display transmit hunks
 	if show_tx:
 		print "   dev    len      Qdisc        " \
 			"       netdevice             free"
 		for i in range(len(tx_free_list)):
 			print_transmit(tx_free_list[i])
 	if debug:
 		print "debug buffer status"
 		print "----------------------------"
 		print "xmit Qdisc:remain:%d overflow:%d" % \
 			(len(tx_queue_list), of_count_tx_queue_list)
 		print "xmit netdevice:remain:%d overflow:%d" % \
 			(len(tx_xmit_list), of_count_tx_xmit_list)
 		print "receive:remain:%d overflow:%d" % \
 			(len(rx_skb_list), of_count_rx_skb_list)

 # called from perf, when it finds a correspoinding event
 def irq__softirq_entry(name, context, cpu, sec, nsec, pid, comm, vec):
 	if symbol_str("irq__softirq_entry", "vec", vec) != "NET_RX":
 		return
 	event_info = (name, context, cpu, nsecs(sec, nsec), pid, comm, vec)
 	all_event_list.append(event_info)

 def irq__softirq_exit(name, context, cpu, sec, nsec, pid, comm, vec):
 	if symbol_str("irq__softirq_entry", "vec", vec) != "NET_RX":
 		return
 	event_info = (name, context, cpu, nsecs(sec, nsec), pid, comm, vec)
 	all_event_list.append(event_info)

 def irq__softirq_raise(name, context, cpu, sec, nsec, pid, comm, vec):
 	if symbol_str("irq__softirq_entry", "vec", vec) != "NET_RX":
 		return
 	event_info = (name, context, cpu, nsecs(sec, nsec), pid, comm, vec)
 	all_event_list.append(event_info)

 def irq__irq_handler_entry(name, context, cpu, sec, nsec, pid, comm,
 			irq, irq_name):
 	event_info = (name, context, cpu, nsecs(sec, nsec), pid, comm,
 			irq, irq_name)
 	all_event_list.append(event_info)

 def irq__irq_handler_exit(name, context, cpu, sec, nsec, pid, comm, irq, ret):
 	event_info = (name, context, cpu, nsecs(sec, nsec), pid, comm, irq, ret)
 	all_event_list.append(event_info)

 def napi__napi_poll(name, context, cpu, sec, nsec, pid, comm, napi, dev_name):
 	event_info = (name, context, cpu, nsecs(sec, nsec), pid, comm,
 			napi, dev_name)
 	all_event_list.append(event_info)

 def net__netif_receive_skb(name, context, cpu, sec, nsec, pid, comm, skbaddr,
 			skblen, dev_name):
 	event_info = (name, context, cpu, nsecs(sec, nsec), pid, comm,
 			skbaddr, skblen, dev_name)
 	all_event_list.append(event_info)

 def net__netif_rx(name, context, cpu, sec, nsec, pid, comm, skbaddr,
 			skblen, dev_name):
 	event_info = (name, context, cpu, nsecs(sec, nsec), pid, comm,
 			skbaddr, skblen, dev_name)
 	all_event_list.append(event_info)

 def net__net_dev_queue(name, context, cpu, sec, nsec, pid, comm,
 			skbaddr, skblen, dev_name):
 	event_info = (name, context, cpu, nsecs(sec, nsec), pid, comm,
 			skbaddr, skblen, dev_name)
 	all_event_list.append(event_info)

 def net__net_dev_xmit(name, context, cpu, sec, nsec, pid, comm,
 			skbaddr, skblen, rc, dev_name):
 	event_info = (name, context, cpu, nsecs(sec, nsec), pid, comm,
 			skbaddr, skblen, rc ,dev_name)
 	all_event_list.append(event_info)

 def skb__kfree_skb(name, context, cpu, sec, nsec, pid, comm,
 			skbaddr, protocol, location):
 	event_info = (name, context, cpu, nsecs(sec, nsec), pid, comm,
 			skbaddr, protocol, location)
 	all_event_list.append(event_info)

 def skb__consume_skb(name, context, cpu, sec, nsec, pid, comm, skbaddr):
 	event_info = (name, context, cpu, nsecs(sec, nsec), pid, comm,
 			skbaddr)
 	all_event_list.append(event_info)

 def skb__skb_copy_datagram_iovec(name, context, cpu, sec, nsec, pid, comm,
 	skbaddr, skblen):
 	event_info = (name, context, cpu, nsecs(sec, nsec), pid, comm,
 			skbaddr, skblen)
 	all_event_list.append(event_info)

 def handle_irq_handler_entry(event_info):
 	(name, context, cpu, time, pid, comm, irq, irq_name) = event_info
 	if cpu not in irq_dic.keys():
 		irq_dic[cpu] = []
 	irq_record = {'irq':irq, 'name':irq_name, 'cpu':cpu, 'irq_ent_t':time}
 	irq_dic[cpu].append(irq_record)

 def handle_irq_handler_exit(event_info):
 	(name, context, cpu, time, pid, comm, irq, ret) = event_info
 	if cpu not in irq_dic.keys():
 		return
 	irq_record = irq_dic[cpu].pop()
 	if irq != irq_record['irq']:
 		return
 	irq_record.update({'irq_ext_t':time})
 	# if an irq doesn't include NET_RX softirq, drop.
 	if 'event_list' in irq_record.keys():
 		irq_dic[cpu].append(irq_record)

 def handle_irq_softirq_raise(event_info):
 	(name, context, cpu, time, pid, comm, vec) = event_info
 	if cpu not in irq_dic.keys() \
 	or len(irq_dic[cpu]) == 0:
 		return
 	irq_record = irq_dic[cpu].pop()
 	if 'event_list' in irq_record.keys():
 		irq_event_list = irq_record['event_list']
 	else:
 		irq_event_list = []
 	irq_event_list.append({'time':time, 'event':'sirq_raise'})
 	irq_record.update({'event_list':irq_event_list})
 	irq_dic[cpu].append(irq_record)

 def handle_irq_softirq_entry(event_info):
 	(name, context, cpu, time, pid, comm, vec) = event_info
 	net_rx_dic[cpu] = {'sirq_ent_t':time, 'event_list':[]}

 def handle_irq_softirq_exit(event_info):
 	(name, context, cpu, time, pid, comm, vec) = event_info
 	irq_list = []
 	event_list = 0
 	if cpu in irq_dic.keys():
 		irq_list = irq_dic[cpu]
 		del irq_dic[cpu]
 	if cpu in net_rx_dic.keys():
 		sirq_ent_t = net_rx_dic[cpu]['sirq_ent_t']
 		event_list = net_rx_dic[cpu]['event_list']
 		del net_rx_dic[cpu]
 	if irq_list == [] or event_list == 0:
 		return
 	rec_data = {'sirq_ent_t':sirq_ent_t, 'sirq_ext_t':time,
 		    'irq_list':irq_list, 'event_list':event_list}
 	# merge information realted to a NET_RX softirq
 	receive_hunk_list.append(rec_data)

 def handle_napi_poll(event_info):
 	(name, context, cpu, time, pid, comm, napi, dev_name) = event_info
 	if cpu in net_rx_dic.keys():
 		event_list = net_rx_dic[cpu]['event_list']
 		rec_data = {'event_name':'napi_poll',
 				'dev':dev_name, 'event_t':time}
 		event_list.append(rec_data)

 def handle_netif_rx(event_info):
 	(name, context, cpu, time, pid, comm,
 		skbaddr, skblen, dev_name) = event_info
 	if cpu not in irq_dic.keys() \
 	or len(irq_dic[cpu]) == 0:
 		return
 	irq_record = irq_dic[cpu].pop()
 	if 'event_list' in irq_record.keys():
 		irq_event_list = irq_record['event_list']
 	else:
 		irq_event_list = []
 	irq_event_list.append({'time':time, 'event':'netif_rx',
 		'skbaddr':skbaddr, 'skblen':skblen, 'dev_name':dev_name})
 	irq_record.update({'event_list':irq_event_list})
 	irq_dic[cpu].append(irq_record)

 def handle_netif_receive_skb(event_info):
 	global of_count_rx_skb_list

 	(name, context, cpu, time, pid, comm,
 		skbaddr, skblen, dev_name) = event_info
 	if cpu in net_rx_dic.keys():
 		rec_data = {'event_name':'netif_receive_skb',
 			    'event_t':time, 'skbaddr':skbaddr, 'len':skblen}
 		event_list = net_rx_dic[cpu]['event_list']
 		event_list.append(rec_data)
 		rx_skb_list.insert(0, rec_data)
 		if len(rx_skb_list) > buffer_budget:
 			rx_skb_list.pop()
 			of_count_rx_skb_list += 1

 def handle_net_dev_queue(event_info):
 	global of_count_tx_queue_list

 	(name, context, cpu, time, pid, comm,
 		skbaddr, skblen, dev_name) = event_info
 	skb = {'dev':dev_name, 'skbaddr':skbaddr, 'len':skblen, 'queue_t':time}
 	tx_queue_list.insert(0, skb)
 	if len(tx_queue_list) > buffer_budget:
 		tx_queue_list.pop()
 		of_count_tx_queue_list += 1

 def handle_net_dev_xmit(event_info):
 	global of_count_tx_xmit_list

 	(name, context, cpu, time, pid, comm,
 		skbaddr, skblen, rc, dev_name) = event_info
 	if rc == 0: # NETDEV_TX_OK
 		for i in range(len(tx_queue_list)):
 			skb = tx_queue_list[i]
 			if skb['skbaddr'] == skbaddr:
 				skb['xmit_t'] = time
 				tx_xmit_list.insert(0, skb)
 				del tx_queue_list[i]
 				if len(tx_xmit_list) > buffer_budget:
 					tx_xmit_list.pop()
 					of_count_tx_xmit_list += 1
 				return

 def handle_kfree_skb(event_info):
 	(name, context, cpu, time, pid, comm,
 		skbaddr, protocol, location) = event_info
 	for i in range(len(tx_queue_list)):
 		skb = tx_queue_list[i]
 		if skb['skbaddr'] == skbaddr:
 			del tx_queue_list[i]
 			return
 	for i in range(len(tx_xmit_list)):
 		skb = tx_xmit_list[i]
 		if skb['skbaddr'] == skbaddr:
 			skb['free_t'] = time
 			tx_free_list.append(skb)
 			del tx_xmit_list[i]
 			return
 	for i in range(len(rx_skb_list)):
 		rec_data = rx_skb_list[i]
 		if rec_data['skbaddr'] == skbaddr:
 			rec_data.update({'handle':"kfree_skb",
 					'comm':comm, 'pid':pid, 'comm_t':time})
 			del rx_skb_list[i]
 			return

 def handle_consume_skb(event_info):
 	(name, context, cpu, time, pid, comm, skbaddr) = event_info
 	for i in range(len(tx_xmit_list)):
 		skb = tx_xmit_list[i]
 		if skb['skbaddr'] == skbaddr:
 			skb['free_t'] = time
 			tx_free_list.append(skb)
 			del tx_xmit_list[i]
 			return

 def handle_skb_copy_datagram_iovec(event_info):
 	(name, context, cpu, time, pid, comm, skbaddr, skblen) = event_info
 	for i in range(len(rx_skb_list)):
 		rec_data = rx_skb_list[i]
 		if skbaddr == rec_data['skbaddr']:
 			rec_data.update({'handle':"skb_copy_datagram_iovec",
 					'comm':comm, 'pid':pid, 'comm_t':time})
 			del rx_skb_list[i]
 			return
	# Display a process of packets and processed time.
	# It helps us to investigate networking or network device.
	#
	# options
	# tx: show only tx chart
	# rx: show only rx chart
	# dev=: show only thing related to specified device
	# debug: work with debug mode. It shows buffer status.

	import os
	import sys

	sys.path.append(os.environ['PERF_EXEC_PATH'] + \
	'/scripts/python/Perf-Trace-Util/lib/Perf/Trace')

	from perf_trace_context import *
	from Core import *
	from Util import *

	all_event_list = []; # insert all tracepoint event related with this script
	irq_dic = {}; # key is cpu and value is a list which stacks irqs
	# which raise NET_RX softirq
	net_rx_dic = {}; # key is cpu and value include time of NET_RX softirq-entry
	# and a list which stacks receive
	receive_hunk_list = []; # a list which include a sequence of receive events
	rx_skb_list = []; # received packet list for matching
	# skb_copy_datagram_iovec

	buffer_budget = 65536; # the budget of rx_skb_list, tx_queue_list and
	# tx_xmit_list
	of_count_rx_skb_list = 0; # overflow count

	tx_queue_list = []; # list of packets which pass through dev_queue_xmit
	of_count_tx_queue_list = 0; # overflow count

	tx_xmit_list = []; # list of packets which pass through dev_hard_start_xmit
	of_count_tx_xmit_list = 0; # overflow count

	tx_free_list = []; # list of packets which is freed

	# options
	show_tx = 0;
	show_rx = 0;
	dev = 0; # store a name of device specified by option "dev="
	debug = 0;

	# indices of event_info tuple
	EINFO_IDX_NAME= 0
	EINFO_IDX_CONTEXT=1
	EINFO_IDX_CPU= 2
	EINFO_IDX_TIME= 3
	EINFO_IDX_PID= 4
	EINFO_IDX_COMM= 5

	# Calculate a time interval(msec) from src(nsec) to dst(nsec)
	def diff_msec(src, dst):
	return (dst - src) / 1000000.0

	# Display a process of transmitting a packet
	def print_transmit(hunk):
	if dev != 0 and hunk['dev'].find(dev) < 0:
	return
	print "%7s %5d %6d.%06dsec %12.3fmsec %12.3fmsec" % \
	(hunk['dev'], hunk['len'],
	nsecs_secs(hunk['queue_t']),
	nsecs_nsecs(hunk['queue_t'])/1000,
	diff_msec(hunk['queue_t'], hunk['xmit_t']),
	diff_msec(hunk['xmit_t'], hunk['free_t']))

	# Format for displaying rx packet processing
	PF_IRQ_ENTRY= " irq_entry(+%.3fmsec irq=%d:%s)"
	PF_SOFT_ENTRY=" softirq_entry(+%.3fmsec)"
	PF_NAPI_POLL= " napi_poll_exit(+%.3fmsec %s)"
	PF_JOINT= " \|"
	PF_WJOINT= " \| \|"
	PF_NET_RECV= " \|---netif_receive_skb(+%.3fmsec skb=%x len=%d)"
	PF_NET_RX= " \|---netif_rx(+%.3fmsec skb=%x)"
	PF_CPY_DGRAM= " \| skb_copy_datagram_iovec(+%.3fmsec %d:%s)"
	PF_KFREE_SKB= " \| kfree_skb(+%.3fmsec location=%x)"
	PF_CONS_SKB= " \| consume_skb(+%.3fmsec)"

	# Display a process of received packets and interrputs associated with
	# a NET_RX softirq
	def print_receive(hunk):
	show_hunk = 0
	irq_list = hunk['irq_list']
	cpu = irq_list[0]['cpu']
	base_t = irq_list[0]['irq_ent_t']
	# check if this hunk should be showed
	if dev != 0:
	for i in range(len(irq_list)):
	if irq_list[i]['name'].find(dev) >= 0:
	show_hunk = 1
	break
	else:
	show_hunk = 1
	if show_hunk == 0:
	return

	print "%d.%06dsec cpu=%d" % \
	(nsecs_secs(base_t), nsecs_nsecs(base_t)/1000, cpu)
	for i in range(len(irq_list)):
	print PF_IRQ_ENTRY % \
	(diff_msec(base_t, irq_list[i]['irq_ent_t']),
	irq_list[i]['irq'], irq_list[i]['name'])
	print PF_JOINT
	irq_event_list = irq_list[i]['event_list']
	for j in range(len(irq_event_list)):
	irq_event = irq_event_list[j]
	if irq_event['event'] == 'netif_rx':
	print PF_NET_RX % \
	(diff_msec(base_t, irq_event['time']),
	irq_event['skbaddr'])
	print PF_JOINT
	print PF_SOFT_ENTRY % \
	diff_msec(base_t, hunk['sirq_ent_t'])
	print PF_JOINT
	event_list = hunk['event_list']
	for i in range(len(event_list)):
	event = event_list[i]
	if event['event_name'] == 'napi_poll':
	print PF_NAPI_POLL % \
	(diff_msec(base_t, event['event_t']), event['dev'])
	if i == len(event_list) - 1:
	print ""
	else:
	print PF_JOINT
	else:
	print PF_NET_RECV % \
	(diff_msec(base_t, event['event_t']), event['skbaddr'],
	event['len'])
	if 'comm' in event.keys():
	print PF_WJOINT
	print PF_CPY_DGRAM % \
	(diff_msec(base_t, event['comm_t']),
	event['pid'], event['comm'])
	elif 'handle' in event.keys():
	print PF_WJOINT
	if event['handle'] == "kfree_skb":
	print PF_KFREE_SKB % \
	(diff_msec(base_t,
	event['comm_t']),
	event['location'])
	elif event['handle'] == "consume_skb":
	print PF_CONS_SKB % \
	diff_msec(base_t,
	event['comm_t'])
	print PF_JOINT

	def trace_begin():
	global show_tx
	global show_rx
	global dev
	global debug

	for i in range(len(sys.argv)):
	if i == 0:
	continue
	arg = sys.argv[i]
	if arg == 'tx':
	show_tx = 1
	elif arg =='rx':
	show_rx = 1
	elif arg.find('dev=',0, 4) >= 0:
	dev = arg[4:]
	elif arg == 'debug':
	debug = 1
	if show_tx == 0 and show_rx == 0:
	show_tx = 1
	show_rx = 1

	def trace_end():
	# order all events in time
	all_event_list.sort(lambda a,b :cmp(a[EINFO_IDX_TIME],
	b[EINFO_IDX_TIME]))
	# process all events
	for i in range(len(all_event_list)):
	event_info = all_event_list[i]
	name = event_info[EINFO_IDX_NAME]
	if name == 'irq__softirq_exit':
	handle_irq_softirq_exit(event_info)
	elif name == 'irq__softirq_entry':
	handle_irq_softirq_entry(event_info)
	elif name == 'irq__softirq_raise':
	handle_irq_softirq_raise(event_info)
	elif name == 'irq__irq_handler_entry':
	handle_irq_handler_entry(event_info)
	elif name == 'irq__irq_handler_exit':
	handle_irq_handler_exit(event_info)
	elif name == 'napi__napi_poll':
	handle_napi_poll(event_info)
	elif name == 'net__netif_receive_skb':
	handle_netif_receive_skb(event_info)
	elif name == 'net__netif_rx':
	handle_netif_rx(event_info)
	elif name == 'skb__skb_copy_datagram_iovec':
	handle_skb_copy_datagram_iovec(event_info)
	elif name == 'net__net_dev_queue':
	handle_net_dev_queue(event_info)
	elif name == 'net__net_dev_xmit':
	handle_net_dev_xmit(event_info)
	elif name == 'skb__kfree_skb':
	handle_kfree_skb(event_info)
	elif name == 'skb__consume_skb':
	handle_consume_skb(event_info)
	# display receive hunks
	if show_rx:
	for i in range(len(receive_hunk_list)):
	print_receive(receive_hunk_list[i])
	# display transmit hunks
	if show_tx:
	print " dev len Qdisc " \
	" netdevice free"
	for i in range(len(tx_free_list)):
	print_transmit(tx_free_list[i])
	if debug:
	print "debug buffer status"
	print "----------------------------"
	print "xmit Qdisc:remain:%d overflow:%d" % \
	(len(tx_queue_list), of_count_tx_queue_list)
	print "xmit netdevice:remain:%d overflow:%d" % \
	(len(tx_xmit_list), of_count_tx_xmit_list)
	print "receive:remain:%d overflow:%d" % \
	(len(rx_skb_list), of_count_rx_skb_list)

	# called from perf, when it finds a correspoinding event
	def irq__softirq_entry(name, context, cpu, sec, nsec, pid, comm, vec):
	if symbol_str("irq__softirq_entry", "vec", vec) != "NET_RX":
	return
	event_info = (name, context, cpu, nsecs(sec, nsec), pid, comm, vec)
	all_event_list.append(event_info)

	def irq__softirq_exit(name, context, cpu, sec, nsec, pid, comm, vec):
	if symbol_str("irq__softirq_entry", "vec", vec) != "NET_RX":
	return
	event_info = (name, context, cpu, nsecs(sec, nsec), pid, comm, vec)
	all_event_list.append(event_info)

	def irq__softirq_raise(name, context, cpu, sec, nsec, pid, comm, vec):
	if symbol_str("irq__softirq_entry", "vec", vec) != "NET_RX":
	return
	event_info = (name, context, cpu, nsecs(sec, nsec), pid, comm, vec)
	all_event_list.append(event_info)

	def irq__irq_handler_entry(name, context, cpu, sec, nsec, pid, comm,
	irq, irq_name):
	event_info = (name, context, cpu, nsecs(sec, nsec), pid, comm,
	irq, irq_name)
	all_event_list.append(event_info)

	def irq__irq_handler_exit(name, context, cpu, sec, nsec, pid, comm, irq, ret):
	event_info = (name, context, cpu, nsecs(sec, nsec), pid, comm, irq, ret)
	all_event_list.append(event_info)

	def napi__napi_poll(name, context, cpu, sec, nsec, pid, comm, napi, dev_name):
	event_info = (name, context, cpu, nsecs(sec, nsec), pid, comm,
	napi, dev_name)
	all_event_list.append(event_info)

	def net__netif_receive_skb(name, context, cpu, sec, nsec, pid, comm, skbaddr,
	skblen, dev_name):
	event_info = (name, context, cpu, nsecs(sec, nsec), pid, comm,
	skbaddr, skblen, dev_name)
	all_event_list.append(event_info)

	def net__netif_rx(name, context, cpu, sec, nsec, pid, comm, skbaddr,
	skblen, dev_name):
	event_info = (name, context, cpu, nsecs(sec, nsec), pid, comm,
	skbaddr, skblen, dev_name)
	all_event_list.append(event_info)

	def net__net_dev_queue(name, context, cpu, sec, nsec, pid, comm,
	skbaddr, skblen, dev_name):
	event_info = (name, context, cpu, nsecs(sec, nsec), pid, comm,
	skbaddr, skblen, dev_name)
	all_event_list.append(event_info)

	def net__net_dev_xmit(name, context, cpu, sec, nsec, pid, comm,
	skbaddr, skblen, rc, dev_name):
	event_info = (name, context, cpu, nsecs(sec, nsec), pid, comm,
	skbaddr, skblen, rc ,dev_name)
	all_event_list.append(event_info)

	def skb__kfree_skb(name, context, cpu, sec, nsec, pid, comm,
	skbaddr, protocol, location):
	event_info = (name, context, cpu, nsecs(sec, nsec), pid, comm,
	skbaddr, protocol, location)
	all_event_list.append(event_info)

	def skb__consume_skb(name, context, cpu, sec, nsec, pid, comm, skbaddr):
	event_info = (name, context, cpu, nsecs(sec, nsec), pid, comm,
	skbaddr)
	all_event_list.append(event_info)

	def skb__skb_copy_datagram_iovec(name, context, cpu, sec, nsec, pid, comm,
	skbaddr, skblen):
	event_info = (name, context, cpu, nsecs(sec, nsec), pid, comm,
	skbaddr, skblen)
	all_event_list.append(event_info)

	def handle_irq_handler_entry(event_info):
	(name, context, cpu, time, pid, comm, irq, irq_name) = event_info
	if cpu not in irq_dic.keys():
	irq_dic[cpu] = []
	irq_record = {'irq':irq, 'name':irq_name, 'cpu':cpu, 'irq_ent_t':time}
	irq_dic[cpu].append(irq_record)

	def handle_irq_handler_exit(event_info):
	(name, context, cpu, time, pid, comm, irq, ret) = event_info
	if cpu not in irq_dic.keys():
	return
	irq_record = irq_dic[cpu].pop()
	if irq != irq_record['irq']:
	return
	irq_record.update({'irq_ext_t':time})
	# if an irq doesn't include NET_RX softirq, drop.
	if 'event_list' in irq_record.keys():
	irq_dic[cpu].append(irq_record)

	def handle_irq_softirq_raise(event_info):
	(name, context, cpu, time, pid, comm, vec) = event_info
	if cpu not in irq_dic.keys() \
	or len(irq_dic[cpu]) == 0:
	return
	irq_record = irq_dic[cpu].pop()
	if 'event_list' in irq_record.keys():
	irq_event_list = irq_record['event_list']
	else:
	irq_event_list = []
	irq_event_list.append({'time':time, 'event':'sirq_raise'})
	irq_record.update({'event_list':irq_event_list})
	irq_dic[cpu].append(irq_record)

	def handle_irq_softirq_entry(event_info):
	(name, context, cpu, time, pid, comm, vec) = event_info
	net_rx_dic[cpu] = {'sirq_ent_t':time, 'event_list':[]}

	def handle_irq_softirq_exit(event_info):
	(name, context, cpu, time, pid, comm, vec) = event_info
	irq_list = []
	event_list = 0
	if cpu in irq_dic.keys():
	irq_list = irq_dic[cpu]
	del irq_dic[cpu]
	if cpu in net_rx_dic.keys():
	sirq_ent_t = net_rx_dic[cpu]['sirq_ent_t']
	event_list = net_rx_dic[cpu]['event_list']
	del net_rx_dic[cpu]
	if irq_list == [] or event_list == 0:
	return
	rec_data = {'sirq_ent_t':sirq_ent_t, 'sirq_ext_t':time,
	'irq_list':irq_list, 'event_list':event_list}
	# merge information realted to a NET_RX softirq
	receive_hunk_list.append(rec_data)

	def handle_napi_poll(event_info):
	(name, context, cpu, time, pid, comm, napi, dev_name) = event_info
	if cpu in net_rx_dic.keys():
	event_list = net_rx_dic[cpu]['event_list']
	rec_data = {'event_name':'napi_poll',
	'dev':dev_name, 'event_t':time}
	event_list.append(rec_data)

	def handle_netif_rx(event_info):
	(name, context, cpu, time, pid, comm,
	skbaddr, skblen, dev_name) = event_info
	if cpu not in irq_dic.keys() \
	or len(irq_dic[cpu]) == 0:
	return
	irq_record = irq_dic[cpu].pop()
	if 'event_list' in irq_record.keys():
	irq_event_list = irq_record['event_list']
	else:
	irq_event_list = []
	irq_event_list.append({'time':time, 'event':'netif_rx',
	'skbaddr':skbaddr, 'skblen':skblen, 'dev_name':dev_name})
	irq_record.update({'event_list':irq_event_list})
	irq_dic[cpu].append(irq_record)

	def handle_netif_receive_skb(event_info):
	global of_count_rx_skb_list

	(name, context, cpu, time, pid, comm,
	skbaddr, skblen, dev_name) = event_info
	if cpu in net_rx_dic.keys():
	rec_data = {'event_name':'netif_receive_skb',
	'event_t':time, 'skbaddr':skbaddr, 'len':skblen}
	event_list = net_rx_dic[cpu]['event_list']
	event_list.append(rec_data)
	rx_skb_list.insert(0, rec_data)
	if len(rx_skb_list) > buffer_budget:
	rx_skb_list.pop()
	of_count_rx_skb_list += 1

	def handle_net_dev_queue(event_info):
	global of_count_tx_queue_list

	(name, context, cpu, time, pid, comm,
	skbaddr, skblen, dev_name) = event_info
	skb = {'dev':dev_name, 'skbaddr':skbaddr, 'len':skblen, 'queue_t':time}
	tx_queue_list.insert(0, skb)
	if len(tx_queue_list) > buffer_budget:
	tx_queue_list.pop()
	of_count_tx_queue_list += 1

	def handle_net_dev_xmit(event_info):
	global of_count_tx_xmit_list

	(name, context, cpu, time, pid, comm,
	skbaddr, skblen, rc, dev_name) = event_info
	if rc == 0: # NETDEV_TX_OK
	for i in range(len(tx_queue_list)):
	skb = tx_queue_list[i]
	if skb['skbaddr'] == skbaddr:
	skb['xmit_t'] = time
	tx_xmit_list.insert(0, skb)
	del tx_queue_list[i]
	if len(tx_xmit_list) > buffer_budget:
	tx_xmit_list.pop()
	of_count_tx_xmit_list += 1
	return

	def handle_kfree_skb(event_info):
	(name, context, cpu, time, pid, comm,
	skbaddr, protocol, location) = event_info
	for i in range(len(tx_queue_list)):
	skb = tx_queue_list[i]
	if skb['skbaddr'] == skbaddr:
	del tx_queue_list[i]
	return
	for i in range(len(tx_xmit_list)):
	skb = tx_xmit_list[i]
	if skb['skbaddr'] == skbaddr:
	skb['free_t'] = time
	tx_free_list.append(skb)
	del tx_xmit_list[i]
	return
	for i in range(len(rx_skb_list)):
	rec_data = rx_skb_list[i]
	if rec_data['skbaddr'] == skbaddr:
	rec_data.update({'handle':"kfree_skb",
	'comm':comm, 'pid':pid, 'comm_t':time})
	del rx_skb_list[i]
	return

	def handle_consume_skb(event_info):
	(name, context, cpu, time, pid, comm, skbaddr) = event_info
	for i in range(len(tx_xmit_list)):
	skb = tx_xmit_list[i]
	if skb['skbaddr'] == skbaddr:
	skb['free_t'] = time
	tx_free_list.append(skb)
	del tx_xmit_list[i]
	return

	def handle_skb_copy_datagram_iovec(event_info):
	(name, context, cpu, time, pid, comm, skbaddr, skblen) = event_info
	for i in range(len(rx_skb_list)):
	rec_data = rx_skb_list[i]
	if skbaddr == rec_data['skbaddr']:
	rec_data.update({'handle':"skb_copy_datagram_iovec",
	'comm':comm, 'pid':pid, 'comm_t':time})
	del rx_skb_list[i]
	return