tools/stream-trace-converter.py - platform/art - Git at Google

 #!/usr/bin/env python
 #
 # Copyright (C) 2014 The Android Open Source Project
 #
 # Licensed under the Apache License, Version 2.0 (the "License");
 # you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at
 #
 #      http://www.apache.org/licenses/LICENSE-2.0
 #
 # Unless required by applicable law or agreed to in writing, software
 # distributed under the License is distributed on an "AS IS" BASIS,
 # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and
 # limitations under the License.

 """Script that parses a trace filed produced in streaming mode. The file is broken up into
    a header and body part, which, when concatenated, make up a non-streaming trace file that
    can be used with traceview."""

 import sys

 class MyException(Exception):
   pass

 class BufferUnderrun(Exception):
   pass

 def ReadShortLE(f):
   byte1 = f.read(1)
   if not byte1:
     raise BufferUnderrun()
   byte2 = f.read(1)
   if not byte2:
     raise BufferUnderrun()
   return ord(byte1) + (ord(byte2) << 8);

 def WriteShortLE(f, val):
   bytes = [ (val & 0xFF), ((val >> 8) & 0xFF) ]
   asbytearray = bytearray(bytes)
   f.write(asbytearray)

 def ReadIntLE(f):
   byte1 = f.read(1)
   if not byte1:
     raise BufferUnderrun()
   byte2 = f.read(1)
   if not byte2:
     raise BufferUnderrun()
   byte3 = f.read(1)
   if not byte3:
     raise BufferUnderrun()
   byte4 = f.read(1)
   if not byte4:
     raise BufferUnderrun()
   return ord(byte1) + (ord(byte2) << 8) + (ord(byte3) << 16) + (ord(byte4) << 24);

 def WriteIntLE(f, val):
   bytes = [ (val & 0xFF), ((val >> 8) & 0xFF), ((val >> 16) & 0xFF), ((val >> 24) & 0xFF) ]
   asbytearray = bytearray(bytes)
   f.write(asbytearray)

 def Copy(input, output, length):
   buf = input.read(length)
   if len(buf) != length:
     raise BufferUnderrun()
   output.write(buf)

 class Rewriter:

   def PrintHeader(self, header):
     header.write('*version\n');
     header.write('3\n');
     header.write('data-file-overflow=false\n');
     header.write('clock=dual\n');
     header.write('vm=art\n');

   def ProcessDataHeader(self, input, body):
     magic = ReadIntLE(input)
     if magic != 0x574f4c53:
       raise MyException("Magic wrong")

     WriteIntLE(body, magic)

     version = ReadShortLE(input)
     if (version & 0xf0) != 0xf0:
       raise MyException("Does not seem to be a streaming trace: %d." % version)
     version = version ^ 0xf0

     if version != 3:
       raise MyException("Only support version 3")

     WriteShortLE(body, version)

     # read offset
     offsetToData = ReadShortLE(input) - 16
     WriteShortLE(body, offsetToData + 16)

     # copy startWhen
     Copy(input, body, 8)

     if version == 1:
       self._mRecordSize = 9;
     elif version == 2:
       self._mRecordSize = 10;
     else:
       self._mRecordSize = ReadShortLE(input)
       WriteShortLE(body, self._mRecordSize)
       offsetToData -= 2;

     # Skip over offsetToData bytes
     Copy(input, body, offsetToData)

   def ProcessMethod(self, input):
     stringLength = ReadShortLE(input)
     str = input.read(stringLength)
     self._methods.append(str)
     print 'New method: %s' % str

   def ProcessThread(self, input):
     tid = ReadShortLE(input)
     stringLength = ReadShortLE(input)
     str = input.read(stringLength)
     self._threads.append('%d\t%s\n' % (tid, str))
     print 'New thread: %d/%s' % (tid, str)

   def ProcessTraceSummary(self, input):
     summaryLength = ReadIntLE(input)
     str = input.read(summaryLength)
     self._summary = str
     print 'Summary: \"%s\"' % str

   def ProcessSpecial(self, input):
     code = ord(input.read(1))
     if code == 1:
       self.ProcessMethod(input)
     elif code == 2:
       self.ProcessThread(input)
     elif code == 3:
       self.ProcessTraceSummary(input)
     else:
       raise MyException("Unknown special!")

   def Process(self, input, body):
     try:
       while True:
         threadId = ReadShortLE(input)
         if threadId == 0:
           self.ProcessSpecial(input)
         else:
           # Regular package, just copy
           WriteShortLE(body, threadId)
           Copy(input, body, self._mRecordSize - 2)
     except BufferUnderrun:
       print 'Buffer underrun, file was probably truncated. Results should still be usable.'

   def Finalize(self, header):
     # If the summary is present in the input file, use it as the header except
     # for the methods section which is emtpy in the input file. If not present,
     # apppend header with the threads that are recorded in the input stream.
     if (self._summary):
       # Erase the contents that's already written earlier by PrintHeader.
       header.seek(0)
       header.truncate()
       # Copy the lines from the input summary to the output header until
       # the methods section is seen.
       for line in self._summary.splitlines(True):
         if line == "*methods\n":
           break
         else:
           header.write(line)
     else:
       header.write('*threads\n')
       for t in self._threads:
         header.write(t)
     header.write('*methods\n')
     for m in self._methods:
       header.write(m)
     header.write('*end\n')

   def ProcessFile(self, filename):
     input = open(filename, 'rb')                     # Input file
     header = open(filename + '.header', 'w')         # Header part
     body = open(filename + '.body', 'wb')            # Body part

     self.PrintHeader(header)

     self.ProcessDataHeader(input, body)

     self._methods = []
     self._threads = []
     self._summary = None
     self.Process(input, body)

     self.Finalize(header)

     input.close()
     header.close()
     body.close()

 def main():
   Rewriter().ProcessFile(sys.argv[1])
   header_name = sys.argv[1] + '.header'
   body_name = sys.argv[1] + '.body'
   print 'Results have been written to %s and %s.' % (header_name, body_name)
   print 'Concatenate the files to get a result usable with traceview.'
   sys.exit(0)

 if __name__ == '__main__':
   main()
	#!/usr/bin/env python
	#
	# Copyright (C) 2014 The Android Open Source Project
	#
	# Licensed under the Apache License, Version 2.0 (the "License");
	# you may not use this file except in compliance with the License.
	# You may obtain a copy of the License at
	#
	# http://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.

	"""Script that parses a trace filed produced in streaming mode. The file is broken up into
	a header and body part, which, when concatenated, make up a non-streaming trace file that
	can be used with traceview."""

	import sys

	class MyException(Exception):
	pass

	class BufferUnderrun(Exception):
	pass

	def ReadShortLE(f):
	byte1 = f.read(1)
	if not byte1:
	raise BufferUnderrun()
	byte2 = f.read(1)
	if not byte2:
	raise BufferUnderrun()
	return ord(byte1) + (ord(byte2) << 8);

	def WriteShortLE(f, val):
	bytes = [ (val & 0xFF), ((val >> 8) & 0xFF) ]
	asbytearray = bytearray(bytes)
	f.write(asbytearray)

	def ReadIntLE(f):
	byte1 = f.read(1)
	if not byte1:
	raise BufferUnderrun()
	byte2 = f.read(1)
	if not byte2:
	raise BufferUnderrun()
	byte3 = f.read(1)
	if not byte3:
	raise BufferUnderrun()
	byte4 = f.read(1)
	if not byte4:
	raise BufferUnderrun()
	return ord(byte1) + (ord(byte2) << 8) + (ord(byte3) << 16) + (ord(byte4) << 24);

	def WriteIntLE(f, val):
	bytes = [ (val & 0xFF), ((val >> 8) & 0xFF), ((val >> 16) & 0xFF), ((val >> 24) & 0xFF) ]
	asbytearray = bytearray(bytes)
	f.write(asbytearray)

	def Copy(input, output, length):
	buf = input.read(length)
	if len(buf) != length:
	raise BufferUnderrun()
	output.write(buf)

	class Rewriter:

	def PrintHeader(self, header):
	header.write('*version\n');
	header.write('3\n');
	header.write('data-file-overflow=false\n');
	header.write('clock=dual\n');
	header.write('vm=art\n');

	def ProcessDataHeader(self, input, body):
	magic = ReadIntLE(input)
	if magic != 0x574f4c53:
	raise MyException("Magic wrong")

	WriteIntLE(body, magic)

	version = ReadShortLE(input)
	if (version & 0xf0) != 0xf0:
	raise MyException("Does not seem to be a streaming trace: %d." % version)
	version = version ^ 0xf0

	if version != 3:
	raise MyException("Only support version 3")

	WriteShortLE(body, version)

	# read offset
	offsetToData = ReadShortLE(input) - 16
	WriteShortLE(body, offsetToData + 16)

	# copy startWhen
	Copy(input, body, 8)

	if version == 1:
	self._mRecordSize = 9;
	elif version == 2:
	self._mRecordSize = 10;
	else:
	self._mRecordSize = ReadShortLE(input)
	WriteShortLE(body, self._mRecordSize)
	offsetToData -= 2;

	# Skip over offsetToData bytes
	Copy(input, body, offsetToData)

	def ProcessMethod(self, input):
	stringLength = ReadShortLE(input)
	str = input.read(stringLength)
	self._methods.append(str)
	print 'New method: %s' % str

	def ProcessThread(self, input):
	tid = ReadShortLE(input)
	stringLength = ReadShortLE(input)
	str = input.read(stringLength)
	self._threads.append('%d\t%s\n' % (tid, str))
	print 'New thread: %d/%s' % (tid, str)

	def ProcessTraceSummary(self, input):
	summaryLength = ReadIntLE(input)
	str = input.read(summaryLength)
	self._summary = str
	print 'Summary: \"%s\"' % str

	def ProcessSpecial(self, input):
	code = ord(input.read(1))
	if code == 1:
	self.ProcessMethod(input)
	elif code == 2:
	self.ProcessThread(input)
	elif code == 3:
	self.ProcessTraceSummary(input)
	else:
	raise MyException("Unknown special!")

	def Process(self, input, body):
	try:
	while True:
	threadId = ReadShortLE(input)
	if threadId == 0:
	self.ProcessSpecial(input)
	else:
	# Regular package, just copy
	WriteShortLE(body, threadId)
	Copy(input, body, self._mRecordSize - 2)
	except BufferUnderrun:
	print 'Buffer underrun, file was probably truncated. Results should still be usable.'

	def Finalize(self, header):
	# If the summary is present in the input file, use it as the header except
	# for the methods section which is emtpy in the input file. If not present,
	# apppend header with the threads that are recorded in the input stream.
	if (self._summary):
	# Erase the contents that's already written earlier by PrintHeader.
	header.seek(0)
	header.truncate()
	# Copy the lines from the input summary to the output header until
	# the methods section is seen.
	for line in self._summary.splitlines(True):
	if line == "*methods\n":
	break
	else:
	header.write(line)
	else:
	header.write('*threads\n')
	for t in self._threads:
	header.write(t)
	header.write('*methods\n')
	for m in self._methods:
	header.write(m)
	header.write('*end\n')

	def ProcessFile(self, filename):
	input = open(filename, 'rb') # Input file
	header = open(filename + '.header', 'w') # Header part
	body = open(filename + '.body', 'wb') # Body part

	self.PrintHeader(header)

	self.ProcessDataHeader(input, body)

	self._methods = []
	self._threads = []
	self._summary = None
	self.Process(input, body)

	self.Finalize(header)

	input.close()
	header.close()
	body.close()

	def main():
	Rewriter().ProcessFile(sys.argv[1])
	header_name = sys.argv[1] + '.header'
	body_name = sys.argv[1] + '.body'
	print 'Results have been written to %s and %s.' % (header_name, body_name)
	print 'Concatenate the files to get a result usable with traceview.'
	sys.exit(0)

	if __name__ == '__main__':
	main()