perf script python: Add Python3 support to event_analyzing_sample.py

Support both Python2 and Python3 in the event_analyzing_sample.py script

There may be differences in the ordering of output lines due to
differences in dictionary ordering etc.  However the format within lines
should be unchanged.

The use of 'from __future__' implies the minimum supported Python2 version
is now v2.6

Signed-off-by: Tony Jones <tonyj@suse.de>
Cc: Feng Tang <feng.tang@intel.com>
Link: http://lkml.kernel.org/r/20190302011903.2416-5-tonyj@suse.de
Signed-off-by: Seeteena Thoufeek <s1seetee@linux.vnet.ibm.com>
Signed-off-by: Arnaldo Carvalho de Melo <acme@redhat.com>
This commit is contained in:
Tony Jones 2019-03-01 17:19:00 -08:00 committed by Arnaldo Carvalho de Melo
parent 57e604b163
commit c253c72e9d
1 changed files with 25 additions and 23 deletions

View File

@ -15,6 +15,8 @@
# for a x86 HW PMU event: PEBS with load latency data. # for a x86 HW PMU event: PEBS with load latency data.
# #
from __future__ import print_function
import os import os
import sys import sys
import math import math
@ -37,7 +39,7 @@ con = sqlite3.connect("/dev/shm/perf.db")
con.isolation_level = None con.isolation_level = None
def trace_begin(): def trace_begin():
print "In trace_begin:\n" print("In trace_begin:\n")
# #
# Will create several tables at the start, pebs_ll is for PEBS data with # Will create several tables at the start, pebs_ll is for PEBS data with
@ -76,12 +78,12 @@ def process_event(param_dict):
name = param_dict["ev_name"] name = param_dict["ev_name"]
# Symbol and dso info are not always resolved # Symbol and dso info are not always resolved
if (param_dict.has_key("dso")): if ("dso" in param_dict):
dso = param_dict["dso"] dso = param_dict["dso"]
else: else:
dso = "Unknown_dso" dso = "Unknown_dso"
if (param_dict.has_key("symbol")): if ("symbol" in param_dict):
symbol = param_dict["symbol"] symbol = param_dict["symbol"]
else: else:
symbol = "Unknown_symbol" symbol = "Unknown_symbol"
@ -102,7 +104,7 @@ def insert_db(event):
event.ip, event.status, event.dse, event.dla, event.lat)) event.ip, event.status, event.dse, event.dla, event.lat))
def trace_end(): def trace_end():
print "In trace_end:\n" print("In trace_end:\n")
# We show the basic info for the 2 type of event classes # We show the basic info for the 2 type of event classes
show_general_events() show_general_events()
show_pebs_ll() show_pebs_ll()
@ -123,29 +125,29 @@ def show_general_events():
# Check the total record number in the table # Check the total record number in the table
count = con.execute("select count(*) from gen_events") count = con.execute("select count(*) from gen_events")
for t in count: for t in count:
print "There is %d records in gen_events table" % t[0] print("There is %d records in gen_events table" % t[0])
if t[0] == 0: if t[0] == 0:
return return
print "Statistics about the general events grouped by thread/symbol/dso: \n" print("Statistics about the general events grouped by thread/symbol/dso: \n")
# Group by thread # Group by thread
commq = con.execute("select comm, count(comm) from gen_events group by comm order by -count(comm)") commq = con.execute("select comm, count(comm) from gen_events group by comm order by -count(comm)")
print "\n%16s %8s %16s\n%s" % ("comm", "number", "histogram", "="*42) print("\n%16s %8s %16s\n%s" % ("comm", "number", "histogram", "="*42))
for row in commq: for row in commq:
print "%16s %8d %s" % (row[0], row[1], num2sym(row[1])) print("%16s %8d %s" % (row[0], row[1], num2sym(row[1])))
# Group by symbol # Group by symbol
print "\n%32s %8s %16s\n%s" % ("symbol", "number", "histogram", "="*58) print("\n%32s %8s %16s\n%s" % ("symbol", "number", "histogram", "="*58))
symbolq = con.execute("select symbol, count(symbol) from gen_events group by symbol order by -count(symbol)") symbolq = con.execute("select symbol, count(symbol) from gen_events group by symbol order by -count(symbol)")
for row in symbolq: for row in symbolq:
print "%32s %8d %s" % (row[0], row[1], num2sym(row[1])) print("%32s %8d %s" % (row[0], row[1], num2sym(row[1])))
# Group by dso # Group by dso
print "\n%40s %8s %16s\n%s" % ("dso", "number", "histogram", "="*74) print("\n%40s %8s %16s\n%s" % ("dso", "number", "histogram", "="*74))
dsoq = con.execute("select dso, count(dso) from gen_events group by dso order by -count(dso)") dsoq = con.execute("select dso, count(dso) from gen_events group by dso order by -count(dso)")
for row in dsoq: for row in dsoq:
print "%40s %8d %s" % (row[0], row[1], num2sym(row[1])) print("%40s %8d %s" % (row[0], row[1], num2sym(row[1])))
# #
# This function just shows the basic info, and we could do more with the # This function just shows the basic info, and we could do more with the
@ -156,35 +158,35 @@ def show_pebs_ll():
count = con.execute("select count(*) from pebs_ll") count = con.execute("select count(*) from pebs_ll")
for t in count: for t in count:
print "There is %d records in pebs_ll table" % t[0] print("There is %d records in pebs_ll table" % t[0])
if t[0] == 0: if t[0] == 0:
return return
print "Statistics about the PEBS Load Latency events grouped by thread/symbol/dse/latency: \n" print("Statistics about the PEBS Load Latency events grouped by thread/symbol/dse/latency: \n")
# Group by thread # Group by thread
commq = con.execute("select comm, count(comm) from pebs_ll group by comm order by -count(comm)") commq = con.execute("select comm, count(comm) from pebs_ll group by comm order by -count(comm)")
print "\n%16s %8s %16s\n%s" % ("comm", "number", "histogram", "="*42) print("\n%16s %8s %16s\n%s" % ("comm", "number", "histogram", "="*42))
for row in commq: for row in commq:
print "%16s %8d %s" % (row[0], row[1], num2sym(row[1])) print("%16s %8d %s" % (row[0], row[1], num2sym(row[1])))
# Group by symbol # Group by symbol
print "\n%32s %8s %16s\n%s" % ("symbol", "number", "histogram", "="*58) print("\n%32s %8s %16s\n%s" % ("symbol", "number", "histogram", "="*58))
symbolq = con.execute("select symbol, count(symbol) from pebs_ll group by symbol order by -count(symbol)") symbolq = con.execute("select symbol, count(symbol) from pebs_ll group by symbol order by -count(symbol)")
for row in symbolq: for row in symbolq:
print "%32s %8d %s" % (row[0], row[1], num2sym(row[1])) print("%32s %8d %s" % (row[0], row[1], num2sym(row[1])))
# Group by dse # Group by dse
dseq = con.execute("select dse, count(dse) from pebs_ll group by dse order by -count(dse)") dseq = con.execute("select dse, count(dse) from pebs_ll group by dse order by -count(dse)")
print "\n%32s %8s %16s\n%s" % ("dse", "number", "histogram", "="*58) print("\n%32s %8s %16s\n%s" % ("dse", "number", "histogram", "="*58))
for row in dseq: for row in dseq:
print "%32s %8d %s" % (row[0], row[1], num2sym(row[1])) print("%32s %8d %s" % (row[0], row[1], num2sym(row[1])))
# Group by latency # Group by latency
latq = con.execute("select lat, count(lat) from pebs_ll group by lat order by lat") latq = con.execute("select lat, count(lat) from pebs_ll group by lat order by lat")
print "\n%32s %8s %16s\n%s" % ("latency", "number", "histogram", "="*58) print("\n%32s %8s %16s\n%s" % ("latency", "number", "histogram", "="*58))
for row in latq: for row in latq:
print "%32s %8d %s" % (row[0], row[1], num2sym(row[1])) print("%32s %8d %s" % (row[0], row[1], num2sym(row[1])))
def trace_unhandled(event_name, context, event_fields_dict): def trace_unhandled(event_name, context, event_fields_dict):
print ' '.join(['%s=%s'%(k,str(v))for k,v in sorted(event_fields_dict.items())]) print (' '.join(['%s=%s'%(k,str(v))for k,v in sorted(event_fields_dict.items())]))