Donate to e Foundation | Murena handsets with /e/OS | Own a part of Murena! Learn more

Commit 359d5106 authored by Koki Sanagi's avatar Koki Sanagi Committed by Frederic Weisbecker
Browse files

perf: Add a script to show packets processing 



Add a perf script which shows packets processing and processed
time. It helps us to investigate networking or network devices.

If you want to use it, install perf and record perf.data like
following.

If you set script, perf gathers records until it ends.
If not, you must Ctrl-C to stop recording.

And if you want a report from record,

If you use some options, you can limit the output.
Option is below.

tx: show only tx packets processing
rx: show only rx packets processing
dev=: show processing on this device
debug: work with debug mode. It shows buffer status.

For example, if you want to show received packets processing
associated with eth4,

106133.171439sec cpu=0
  irq_entry(+0.000msec irq=24:eth4)
         |
  softirq_entry(+0.006msec)
         |
         |---netif_receive_skb(+0.010msec skb=f2d15900 len=100)
         |            |
         |      skb_copy_datagram_iovec(+0.039msec 10291::10291)
         |
  napi_poll_exit(+0.022msec eth4)

This perf script helps us to analyze the processing time of a
transmit/receive sequence.

Signed-off-by: default avatarKoki Sanagi <sanagi.koki@jp.fujitsu.com>
Acked-by: default avatarDavid S. Miller <davem@davemloft.net>
Cc: Neil Horman <nhorman@tuxdriver.com>
Cc: Mathieu Desnoyers <mathieu.desnoyers@efficios.com>
Cc: Kaneshige Kenji <kaneshige.kenji@jp.fujitsu.com>
Cc: Izumo Taku <izumi.taku@jp.fujitsu.com>
Cc: Kosaki Motohiro <kosaki.motohiro@jp.fujitsu.com>
Cc: Lai Jiangshan <laijs@cn.fujitsu.com>
Cc: Scott Mcmillan <scott.a.mcmillan@intel.com>
Cc: Steven Rostedt <rostedt@goodmis.org>
Cc: Eric Dumazet <eric.dumazet@gmail.com>
Cc: Tom Zanussi <tzanussi@gmail.com>
LKML-Reference: <4C72439D.3040001@jp.fujitsu.com>
Signed-off-by: default avatarFrederic Weisbecker <fweisbec@gmail.com>
parent 07dc22e7

tools/perf/scripts/python/bin/netdev-times-record

0 → 100644
+8 −0
Original line number Diff line number Diff line 
#!/bin/bash

perf record -a -e net:net_dev_xmit -e net:net_dev_queue		\

		-e net:netif_receive_skb -e net:netif_rx		\

		-e skb:consume_skb -e skb:kfree_skb			\

		-e skb:skb_copy_datagram_iovec -e napi:napi_poll	\

		-e irq:irq_handler_entry -e irq:irq_handler_exit	\

		-e irq:softirq_entry -e irq:softirq_exit		\

		-e irq:softirq_raise $@

tools/perf/scripts/python/bin/netdev-times-report

0 → 100644
+5 −0
Original line number Diff line number Diff line 
#!/bin/bash

# description: display a process of packet and processing time

# args: [tx] [rx] [dev=] [debug]



perf trace -s ~/libexec/perf-core/scripts/python/netdev-times.py $@

tools/perf/scripts/python/netdev-times.py

0 → 100644
+464 −0
Original line number Diff line number Diff line 
# 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