opimport_pull - platform/external/oprofile - Git at Google

 #!/usr/bin/python2.4 -E

 import os
 import re
 import sys

 def PrintUsage():
     print "Usage:" + sys.argv[0] + " [-s serial_number] [-r] dir"
     print "    serial_number: the device being profiled"
     print "    -r : reuse the directory if it already exists"
     print "    dir: directory on the host to store profile results"

 if (len(sys.argv) <= 1 or len(sys.argv) > 5):
     PrintUsage()
     sys.exit(1)

 # find prebuilt event data
 try:
     oprofile_event_dir = os.environ['OPROFILE_EVENTS_DIR']
 except:
     # TODO: We can remove this in the future since we pull the abi data
     # off the device so we don't need it to be in the prebuilts directory.
     print "OPROFILE_EVENTS_DIR not set. Run \". envsetup.sh\" first"
     sys.exit(1)

 # find binaries
 try:
     oprofile_bin_dir = os.environ['OPROFILE_BIN_DIR']
 except:
     # TODO: This assumes that the bin dir is prebuilt.
     # When the host libbfd dependency is resolved and we can compile oprofile
     # on the host, we should use those binaries instead.
     oprofile_bin_dir = oprofile_event_dir + '/bin'

 argv_next = 1
 if sys.argv[1] == "-s":
   if len(sys.argv) < 4:
     PrintUsage()
     sys.exit(1)
   device = " -s %s" % sys.argv[2]
   argv_next = argv_next + 2
 else:
   device = ""

 if sys.argv[argv_next] == "-r" :
     replace_dir = 1
     output_dir = sys.argv[argv_next+1]
 else:
     replace_dir = 0
     output_dir = sys.argv[argv_next]

 if (os.path.exists(output_dir) and (replace_dir == 1)):
     os.system("rm -fr " + output_dir)

 try:
     os.makedirs(output_dir)
 except:
     if os.path.exists(output_dir):
         print "Directory already exists:", output_dir
         print "Try \"" + sys.argv[0] + " -r " + output_dir + "\""
     else:
         print "Cannot create", output_dir
     sys.exit(1)

 # get the samples off the phone
 result = os.system("adb%s pull /data/oprofile/samples %s/raw_samples "
                    "> /dev/null 2>&1" % (device, output_dir))
 if result != 0:
     print "adb%s pull failure, exiting" % device
     sys.exit(1)

 # get the ABI information off the phone
 result = os.system("adb%s pull /data/oprofile/abi %s/abi "
                    "> /dev/null 2>&1" % (device, output_dir))
 if result != 0:
     print "adb%s pull failure, exiting" % device
     sys.exit(1)

 # enter the destination directory
 os.chdir(output_dir)

 # We need to replace the " (deleted)" part in the directory names if
 # the region is allocated through ashmem. The post-processing tool doesn't like
 # space and parentheses.
 # Rename each individual directory from the longest first
 # For example, first rename
 # raw_samples/current/{root}/dev/ashmem/dalvik-jit-code-cache (deleted)/{dep}/{root}/dev/ashmem/dalvik-jit-code-cache (deleted)
 # to
 # raw_samples/current/{root}/dev/ashmem/dalvik-jit-code-cache (deleted)/{dep}/{root}/dev/ashmem/dalvik-jit-code-cache
 # then to
 # raw_samples/current/{root}/dev/ashmem/dalvik-jit-code-cache/{dep}/{root}/dev/ashmem/dalvik-jit-code-cache
 deleted_pattern = re.compile(" \(deleted\)$");
 stream = os.popen("find raw_samples -type d -name \*\ \(deleted\)\* | sort -r")
 for line in stream:
     line = line.rstrip()
     new_dir = deleted_pattern.sub("", line)
     cmd = "mv " + "\"" + line + "\" \"" + new_dir + "\""
     os.system(cmd)

 # now all the sample files are on the host, we need to invoke opimport one at a
 # time to convert the content from the ARM abi to x86 ABI

 # break the full filename into:
 # 1: leading dir: "raw_samples"
 # 2: intermediate dirs: "/blah/blah/blah"
 # 3: filename: e.g. "CPU_CYCLES.150000.0.all.all.all"
 pattern = re.compile("(^raw_samples)(.*)/(.*)$")

 stream = os.popen("find raw_samples -type f -name \*all")
 for line in stream:
     match = pattern.search(line)
     leading_dir = match.group(1)
     middle_part = match.group(2)
     file_name = match.group(3)

     dir = "samples" + middle_part

     # if multiple events are collected the directory could have been setup
     if not os.path.exists(dir):
         os.makedirs(dir)

     cmd = oprofile_bin_dir + "/opimport -a abi " \
           + " -o samples" + middle_part + "/" + file_name + " " + line
     os.system(cmd)

 stream.close()

 # short summary of profiling results
 os.system(oprofile_bin_dir + "/opreport --session-dir=.")
	#!/usr/bin/python2.4 -E

	import os
	import re
	import sys

	def PrintUsage():
	print "Usage:" + sys.argv[0] + " [-s serial_number] [-r] dir"
	print " serial_number: the device being profiled"
	print " -r : reuse the directory if it already exists"
	print " dir: directory on the host to store profile results"

	if (len(sys.argv) <= 1 or len(sys.argv) > 5):
	PrintUsage()
	sys.exit(1)

	# find prebuilt event data
	try:
	oprofile_event_dir = os.environ['OPROFILE_EVENTS_DIR']
	except:
	# TODO: We can remove this in the future since we pull the abi data
	# off the device so we don't need it to be in the prebuilts directory.
	print "OPROFILE_EVENTS_DIR not set. Run \". envsetup.sh\" first"
	sys.exit(1)

	# find binaries
	try:
	oprofile_bin_dir = os.environ['OPROFILE_BIN_DIR']
	except:
	# TODO: This assumes that the bin dir is prebuilt.
	# When the host libbfd dependency is resolved and we can compile oprofile
	# on the host, we should use those binaries instead.
	oprofile_bin_dir = oprofile_event_dir + '/bin'

	argv_next = 1
	if sys.argv[1] == "-s":
	if len(sys.argv) < 4:
	PrintUsage()
	sys.exit(1)
	device = " -s %s" % sys.argv[2]
	argv_next = argv_next + 2
	else:
	device = ""

	if sys.argv[argv_next] == "-r" :
	replace_dir = 1
	output_dir = sys.argv[argv_next+1]
	else:
	replace_dir = 0
	output_dir = sys.argv[argv_next]

	if (os.path.exists(output_dir) and (replace_dir == 1)):
	os.system("rm -fr " + output_dir)

	try:
	os.makedirs(output_dir)
	except:
	if os.path.exists(output_dir):
	print "Directory already exists:", output_dir
	print "Try \"" + sys.argv[0] + " -r " + output_dir + "\""
	else:
	print "Cannot create", output_dir
	sys.exit(1)

	# get the samples off the phone
	result = os.system("adb%s pull /data/oprofile/samples %s/raw_samples "
	"> /dev/null 2>&1" % (device, output_dir))
	if result != 0:
	print "adb%s pull failure, exiting" % device
	sys.exit(1)

	# get the ABI information off the phone
	result = os.system("adb%s pull /data/oprofile/abi %s/abi "
	"> /dev/null 2>&1" % (device, output_dir))
	if result != 0:
	print "adb%s pull failure, exiting" % device
	sys.exit(1)

	# enter the destination directory
	os.chdir(output_dir)

	# We need to replace the " (deleted)" part in the directory names if
	# the region is allocated through ashmem. The post-processing tool doesn't like
	# space and parentheses.
	# Rename each individual directory from the longest first
	# For example, first rename
	# raw_samples/current/{root}/dev/ashmem/dalvik-jit-code-cache (deleted)/{dep}/{root}/dev/ashmem/dalvik-jit-code-cache (deleted)
	# to
	# raw_samples/current/{root}/dev/ashmem/dalvik-jit-code-cache (deleted)/{dep}/{root}/dev/ashmem/dalvik-jit-code-cache
	# then to
	# raw_samples/current/{root}/dev/ashmem/dalvik-jit-code-cache/{dep}/{root}/dev/ashmem/dalvik-jit-code-cache
	deleted_pattern = re.compile(" \(deleted\)$");
	stream = os.popen("find raw_samples -type d -name \\ \(deleted\)\ \| sort -r")
	for line in stream:
	line = line.rstrip()
	new_dir = deleted_pattern.sub("", line)
	cmd = "mv " + "\"" + line + "\" \"" + new_dir + "\""
	os.system(cmd)

	# now all the sample files are on the host, we need to invoke opimport one at a
	# time to convert the content from the ARM abi to x86 ABI

	# break the full filename into:
	# 1: leading dir: "raw_samples"
	# 2: intermediate dirs: "/blah/blah/blah"
	# 3: filename: e.g. "CPU_CYCLES.150000.0.all.all.all"
	pattern = re.compile("(^raw_samples)(.)/(.)$")

	stream = os.popen("find raw_samples -type f -name \*all")
	for line in stream:
	match = pattern.search(line)
	leading_dir = match.group(1)
	middle_part = match.group(2)
	file_name = match.group(3)

	dir = "samples" + middle_part

	# if multiple events are collected the directory could have been setup
	if not os.path.exists(dir):
	os.makedirs(dir)

	cmd = oprofile_bin_dir + "/opimport -a abi " \
	+ " -o samples" + middle_part + "/" + file_name + " " + line
	os.system(cmd)

	stream.close()

	# short summary of profiling results
	os.system(oprofile_bin_dir + "/opreport --session-dir=.")