v8/tools/tickprocessor.py

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# Copyright 2008 the V8 project authors. All rights reserved.
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions are
# met:
#
# * Redistributions of source code must retain the above copyright
# notice, this list of conditions and the following disclaimer.
# * Redistributions in binary form must reproduce the above
# copyright notice, this list of conditions and the following
# disclaimer in the documentation and/or other materials provided
# with the distribution.
# * Neither the name of Google Inc. nor the names of its
# contributors may be used to endorse or promote products derived
# from this software without specific prior written permission.
#
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
import csv, splaytree, sys, re
from operator import itemgetter
import getopt, os, string
class CodeEntry(object):
def __init__(self, start_addr, name):
self.start_addr = start_addr
self.tick_count = 0
self.name = name
self.stacks = {}
def Tick(self, pc, stack):
self.tick_count += 1
if len(stack) > 0:
stack.insert(0, self.ToString())
stack_key = tuple(stack)
self.stacks[stack_key] = self.stacks.setdefault(stack_key, 0) + 1
def RegionTicks(self):
return None
def SetStartAddress(self, start_addr):
self.start_addr = start_addr
def ToString(self):
return self.name
def IsSharedLibraryEntry(self):
return False
def IsICEntry(self):
return False
class SharedLibraryEntry(CodeEntry):
def __init__(self, start_addr, name):
CodeEntry.__init__(self, start_addr, name)
def IsSharedLibraryEntry(self):
return True
class JSCodeEntry(CodeEntry):
def __init__(self, start_addr, name, type, size, assembler):
CodeEntry.__init__(self, start_addr, name)
self.type = type
self.size = size
self.assembler = assembler
self.region_ticks = None
self.builtin_ic_re = re.compile('^(Keyed)?(Call|Load|Store)IC_')
def Tick(self, pc, stack):
super(JSCodeEntry, self).Tick(pc, stack)
if not pc is None:
offset = pc - self.start_addr
seen = []
narrowest = None
narrowest_width = None
for region in self.Regions():
if region.Contains(offset):
if (not region.name in seen):
seen.append(region.name)
if narrowest is None or region.Width() < narrowest.Width():
narrowest = region
if len(seen) == 0:
return
if self.region_ticks is None:
self.region_ticks = {}
for name in seen:
if not name in self.region_ticks:
self.region_ticks[name] = [0, 0]
self.region_ticks[name][0] += 1
if name == narrowest.name:
self.region_ticks[name][1] += 1
def RegionTicks(self):
return self.region_ticks
def Regions(self):
if self.assembler:
return self.assembler.regions
else:
return []
def ToString(self):
name = self.name
if name == '':
name = '<anonymous>'
elif name.startswith(' '):
name = '<anonymous>' + name
return self.type + ': ' + name
def IsICEntry(self):
return self.type in ('CallIC', 'LoadIC', 'StoreIC') or \
(self.type == 'Builtin' and self.builtin_ic_re.match(self.name))
class CodeRegion(object):
def __init__(self, start_offset, name):
self.start_offset = start_offset
self.name = name
self.end_offset = None
def Contains(self, pc):
return (self.start_offset <= pc) and (pc <= self.end_offset)
def Width(self):
return self.end_offset - self.start_offset
class Assembler(object):
def __init__(self):
# Mapping from region ids to open regions
self.pending_regions = {}
self.regions = []
class FunctionEnumerator(object):
def __init__(self):
self.known_funcs = {}
self.next_func_id = 0
def GetFunctionId(self, name):
if not self.known_funcs.has_key(name):
self.known_funcs[name] = self.next_func_id
self.next_func_id += 1
return self.known_funcs[name]
def GetKnownFunctions(self):
known_funcs_items = self.known_funcs.items();
known_funcs_items.sort(key = itemgetter(1))
result = []
for func, id_not_used in known_funcs_items:
result.append(func)
return result
VMStates = { 'JS': 0, 'GC': 1, 'COMPILER': 2, 'OTHER': 3, 'EXTERNAL' : 4 }
class TickProcessor(object):
def __init__(self):
self.log_file = ''
self.deleted_code = []
self.vm_extent = {}
# Map from assembler ids to the pending assembler objects
self.pending_assemblers = {}
# Map from code addresses the have been allocated but not yet officially
# created to their assemblers.
self.assemblers = {}
self.js_entries = splaytree.SplayTree()
self.cpp_entries = splaytree.SplayTree()
self.total_number_of_ticks = 0
self.number_of_library_ticks = 0
self.unaccounted_number_of_ticks = 0
self.excluded_number_of_ticks = 0
self.number_of_gc_ticks = 0
# Flag indicating whether to ignore unaccounted ticks in the report
self.ignore_unknown = False
self.func_enum = FunctionEnumerator()
self.packed_stacks = []
def ProcessLogfile(self, filename, included_state = None, ignore_unknown = False, separate_ic = False, call_graph_json = False):
self.log_file = filename
self.included_state = included_state
self.ignore_unknown = ignore_unknown
self.separate_ic = separate_ic
self.call_graph_json = call_graph_json
try:
logfile = open(filename, 'rb')
except IOError:
sys.exit("Could not open logfile: " + filename)
try:
try:
logreader = csv.reader(logfile)
row_num = 1
for row in logreader:
row_num += 1
if row[0] == 'tick':
self.ProcessTick(int(row[1], 16), int(row[2], 16), int(row[3]), self.PreprocessStack(row[4:]))
elif row[0] == 'code-creation':
self.ProcessCodeCreation(row[1], int(row[2], 16), int(row[3]), row[4])
elif row[0] == 'code-move':
self.ProcessCodeMove(int(row[1], 16), int(row[2], 16))
elif row[0] == 'code-delete':
self.ProcessCodeDelete(int(row[1], 16))
elif row[0] == 'shared-library':
self.AddSharedLibraryEntry(row[1], int(row[2], 16), int(row[3], 16))
self.ParseVMSymbols(row[1], int(row[2], 16), int(row[3], 16))
elif row[0] == 'begin-code-region':
self.ProcessBeginCodeRegion(int(row[1], 16), int(row[2], 16), int(row[3], 16), row[4])
elif row[0] == 'end-code-region':
self.ProcessEndCodeRegion(int(row[1], 16), int(row[2], 16), int(row[3], 16))
elif row[0] == 'code-allocate':
self.ProcessCodeAllocate(int(row[1], 16), int(row[2], 16))
except csv.Error:
print("parse error in line " + str(row_num))
raise
finally:
logfile.close()
def AddSharedLibraryEntry(self, filename, start, end):
# Mark the pages used by this library.
i = start
while i < end:
page = i >> 12
self.vm_extent[page] = 1
i += 4096
# Add the library to the entries so that ticks for which we do not
# have symbol information is reported as belonging to the library.
self.cpp_entries.Insert(start, SharedLibraryEntry(start, filename))
def ParseVMSymbols(self, filename, start, end):
return
def ProcessCodeAllocate(self, addr, assem):
if assem in self.pending_assemblers:
assembler = self.pending_assemblers.pop(assem)
self.assemblers[addr] = assembler
def ProcessCodeCreation(self, type, addr, size, name):
if addr in self.assemblers:
assembler = self.assemblers.pop(addr)
else:
assembler = None
self.js_entries.Insert(addr, JSCodeEntry(addr, name, type, size, assembler))
def ProcessCodeMove(self, from_addr, to_addr):
try:
removed_node = self.js_entries.Remove(from_addr)
removed_node.value.SetStartAddress(to_addr);
self.js_entries.Insert(to_addr, removed_node.value)
except splaytree.KeyNotFoundError:
print('Code move event for unknown code: 0x%x' % from_addr)
def ProcessCodeDelete(self, from_addr):
try:
removed_node = self.js_entries.Remove(from_addr)
self.deleted_code.append(removed_node.value)
except splaytree.KeyNotFoundError:
print('Code delete event for unknown code: 0x%x' % from_addr)
def ProcessBeginCodeRegion(self, id, assm, start, name):
if not assm in self.pending_assemblers:
self.pending_assemblers[assm] = Assembler()
assembler = self.pending_assemblers[assm]
assembler.pending_regions[id] = CodeRegion(start, name)
def ProcessEndCodeRegion(self, id, assm, end):
assm = self.pending_assemblers[assm]
region = assm.pending_regions.pop(id)
region.end_offset = end
assm.regions.append(region)
def IncludeTick(self, pc, sp, state):
return (self.included_state is None) or (self.included_state == state)
def FindEntry(self, pc):
page = pc >> 12
if page in self.vm_extent:
entry = self.cpp_entries.FindGreatestsLessThan(pc)
if entry != None:
return entry.value
else:
return entry
max = self.js_entries.FindMax()
min = self.js_entries.FindMin()
if max != None and pc < (max.key + max.value.size) and pc > min.key:
return self.js_entries.FindGreatestsLessThan(pc).value
return None
def PreprocessStack(self, stack):
# remove all non-addresses (e.g. 'overflow') and convert to int
result = []
for frame in stack:
if frame.startswith('0x'):
result.append(int(frame, 16))
return result
def ProcessStack(self, stack):
result = []
for frame in stack:
entry = self.FindEntry(frame)
if entry != None:
result.append(entry.ToString())
return result
def ProcessTick(self, pc, sp, state, stack):
if state == VMStates['GC']:
self.number_of_gc_ticks += 1
if not self.IncludeTick(pc, sp, state):
self.excluded_number_of_ticks += 1;
return
self.total_number_of_ticks += 1
entry = self.FindEntry(pc)
if entry == None:
self.unaccounted_number_of_ticks += 1
return
if entry.IsSharedLibraryEntry():
self.number_of_library_ticks += 1
if entry.IsICEntry() and not self.separate_ic:
if len(stack) > 0:
caller_pc = stack.pop(0)
self.total_number_of_ticks -= 1
self.ProcessTick(caller_pc, sp, state, stack)
else:
self.unaccounted_number_of_ticks += 1
else:
entry.Tick(pc, self.ProcessStack(stack))
if self.call_graph_json:
self.AddToPackedStacks(pc, stack)
def AddToPackedStacks(self, pc, stack):
full_stack = stack
full_stack.insert(0, pc)
func_names = self.ProcessStack(full_stack)
func_ids = []
for func in func_names:
func_ids.append(self.func_enum.GetFunctionId(func))
self.packed_stacks.append(func_ids)
def PrintResults(self):
if not self.call_graph_json:
self.PrintStatistics()
else:
self.PrintCallGraphJSON()
def PrintStatistics(self):
print('Statistical profiling result from %s, (%d ticks, %d unaccounted, %d excluded).' %
(self.log_file,
self.total_number_of_ticks,
self.unaccounted_number_of_ticks,
self.excluded_number_of_ticks))
if self.total_number_of_ticks > 0:
js_entries = self.js_entries.ExportValueList()
js_entries.extend(self.deleted_code)
cpp_entries = self.cpp_entries.ExportValueList()
# Print the unknown ticks percentage if they are not ignored.
if not self.ignore_unknown and self.unaccounted_number_of_ticks > 0:
self.PrintHeader('Unknown')
self.PrintCounter(self.unaccounted_number_of_ticks)
# Print the library ticks.
self.PrintHeader('Shared libraries')
self.PrintEntries(cpp_entries, lambda e:e.IsSharedLibraryEntry())
# Print the JavaScript ticks.
self.PrintHeader('JavaScript')
self.PrintEntries(js_entries, lambda e:not e.IsSharedLibraryEntry())
# Print the C++ ticks.
self.PrintHeader('C++')
self.PrintEntries(cpp_entries, lambda e:not e.IsSharedLibraryEntry())
# Print the GC ticks.
self.PrintHeader('GC')
self.PrintCounter(self.number_of_gc_ticks)
# Print call profile.
print('\n [Call profile]:')
print(' total call path')
js_entries.extend(cpp_entries)
self.PrintCallProfile(js_entries)
def PrintHeader(self, header_title):
print('\n [%s]:' % header_title)
print(' ticks total nonlib name')
def PrintCounter(self, ticks_count):
percentage = ticks_count * 100.0 / self.total_number_of_ticks
print(' %(ticks)5d %(total)5.1f%%' % {
'ticks' : ticks_count,
'total' : percentage,
})
def PrintEntries(self, entries, condition):
# If ignoring unaccounted ticks don't include these in percentage
# calculations
number_of_accounted_ticks = self.total_number_of_ticks
if self.ignore_unknown:
number_of_accounted_ticks -= self.unaccounted_number_of_ticks
number_of_non_library_ticks = number_of_accounted_ticks - self.number_of_library_ticks
entries.sort(key=lambda e: (e.tick_count, e.ToString()), reverse=True)
for entry in entries:
if entry.tick_count > 0 and condition(entry):
total_percentage = entry.tick_count * 100.0 / number_of_accounted_ticks
if entry.IsSharedLibraryEntry():
non_library_percentage = 0
else:
non_library_percentage = entry.tick_count * 100.0 / number_of_non_library_ticks
print(' %(ticks)5d %(total)5.1f%% %(nonlib)6.1f%% %(name)s' % {
'ticks' : entry.tick_count,
'total' : total_percentage,
'nonlib' : non_library_percentage,
'name' : entry.ToString()
})
region_ticks = entry.RegionTicks()
if not region_ticks is None:
items = region_ticks.items()
items.sort(key=lambda e: e[1][1], reverse=True)
for (name, ticks) in items:
print(' flat cum')
print(' %(flat)5.1f%% %(accum)5.1f%% %(name)s' % {
'flat' : ticks[1] * 100.0 / entry.tick_count,
'accum' : ticks[0] * 100.0 / entry.tick_count,
'name': name
})
def PrintCallProfile(self, entries):
all_stacks = {}
total_stacks = 0
for entry in entries:
all_stacks.update(entry.stacks)
for count in entry.stacks.itervalues():
total_stacks += count
all_stacks_items = all_stacks.items();
all_stacks_items.sort(key = itemgetter(1), reverse=True)
missing_percentage = (self.total_number_of_ticks - total_stacks) * 100.0 / self.total_number_of_ticks
print(' %(ticks)5d %(total)5.1f%% <no call path information>' % {
'ticks' : self.total_number_of_ticks - total_stacks,
'total' : missing_percentage
})
for stack, count in all_stacks_items:
total_percentage = count * 100.0 / self.total_number_of_ticks
print(' %(ticks)5d %(total)5.1f%% %(call_path)s' % {
'ticks' : count,
'total' : total_percentage,
'call_path' : stack[0] + ' <- ' + stack[1]
})
def PrintCallGraphJSON(self):
print('\nvar __profile_funcs = ["' +
'",\n"'.join(self.func_enum.GetKnownFunctions()) +
'"];')
print('var __profile_ticks = [')
str_packed_stacks = []
for stack in self.packed_stacks:
str_packed_stacks.append('[' + ','.join(map(str, stack)) + ']')
print(',\n'.join(str_packed_stacks))
print('];')
class CmdLineProcessor(object):
def __init__(self):
self.options = ["js",
"gc",
"compiler",
"other",
"external",
"ignore-unknown",
"separate-ic",
"call-graph-json"]
# default values
self.state = None
self.ignore_unknown = False
self.log_file = None
self.separate_ic = False
self.call_graph_json = False
def ProcessArguments(self):
try:
opts, args = getopt.getopt(sys.argv[1:], "jgcoe", self.options)
except getopt.GetoptError:
self.PrintUsageAndExit()
for key, value in opts:
if key in ("-j", "--js"):
self.state = VMStates['JS']
if key in ("-g", "--gc"):
self.state = VMStates['GC']
if key in ("-c", "--compiler"):
self.state = VMStates['COMPILER']
if key in ("-o", "--other"):
self.state = VMStates['OTHER']
if key in ("-e", "--external"):
self.state = VMStates['EXTERNAL']
if key in ("--ignore-unknown"):
self.ignore_unknown = True
if key in ("--separate-ic"):
self.separate_ic = True
if key in ("--call-graph-json"):
self.call_graph_json = True
self.ProcessRequiredArgs(args)
def ProcessRequiredArgs(self, args):
return
def GetRequiredArgsNames(self):
return
def PrintUsageAndExit(self):
print('Usage: %(script_name)s --{%(opts)s} %(req_opts)s' % {
'script_name': os.path.basename(sys.argv[0]),
'opts': string.join(self.options, ','),
'req_opts': self.GetRequiredArgsNames()
})
sys.exit(2)
def RunLogfileProcessing(self, tick_processor):
tick_processor.ProcessLogfile(self.log_file, self.state, self.ignore_unknown,
self.separate_ic, self.call_graph_json)
if __name__ == '__main__':
sys.exit('You probably want to run windows-tick-processor.py or linux-tick-processor.py.')