support/scripts/size-stats - buildroot - Git at Google

 #!/usr/bin/env python

 # Copyright (C) 2014 by Thomas Petazzoni <thomas.petazzoni@free-electrons.com>

 # This program is free software; you can redistribute it and/or modify
 # it under the terms of the GNU General Public License as published by
 # the Free Software Foundation; either version 2 of the License, or
 # (at your option) any later version.
 #
 # This program is distributed in the hope that it will be useful,
 # but WITHOUT ANY WARRANTY; without even the implied warranty of
 # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
 # General Public License for more details.
 #
 # You should have received a copy of the GNU General Public License
 # along with this program; if not, write to the Free Software
 # Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA

 import sys
 import os
 import os.path
 import argparse
 import csv
 import collections
 import math

 try:
     import matplotlib
     matplotlib.use('Agg')
     import matplotlib.font_manager as fm
     import matplotlib.pyplot as plt
 except ImportError:
     sys.stderr.write("You need python-matplotlib to generate the size graph\n")
     exit(1)


 class Config:
     biggest_first = False
     iec = False
     size_limit = 0.01
     colors = ['#e60004', '#f28e00', '#ffed00', '#940084',
               '#2e1d86', '#0068b5', '#009836', '#97c000']


 #
 # This function adds a new file to 'filesdict', after checking its
 # size. The 'filesdict' contain the relative path of the file as the
 # key, and as the value a tuple containing the name of the package to
 # which the file belongs and the size of the file.
 #
 # filesdict: the dict to which  the file is added
 # relpath: relative path of the file
 # fullpath: absolute path to the file
 # pkg: package to which the file belongs
 #
 def add_file(filesdict, relpath, abspath, pkg):
     if not os.path.exists(abspath):
         return
     if os.path.islink(abspath):
         return
     sz = os.stat(abspath).st_size
     filesdict[relpath] = (pkg, sz)


 #
 # This function returns a dict where each key is the path of a file in
 # the root filesystem, and the value is a tuple containing two
 # elements: the name of the package to which this file belongs and the
 # size of the file.
 #
 # builddir: path to the Buildroot output directory
 #
 def build_package_dict(builddir):
     filesdict = {}
     with open(os.path.join(builddir, "build", "packages-file-list.txt")) as f:
         for l in f.readlines():
             pkg, fpath = l.split(",", 1)
             # remove the initial './' in each file path
             fpath = fpath.strip()[2:]
             fullpath = os.path.join(builddir, "target", fpath)
             add_file(filesdict, fpath, fullpath, pkg)
     return filesdict


 #
 # This function builds a dictionary that contains the name of a
 # package as key, and the size of the files installed by this package
 # as the value.
 #
 # filesdict: dictionary with the name of the files as key, and as
 # value a tuple containing the name of the package to which the files
 # belongs, and the size of the file. As returned by
 # build_package_dict.
 #
 # builddir: path to the Buildroot output directory
 #
 def build_package_size(filesdict, builddir):
     pkgsize = collections.defaultdict(int)

     seeninodes = set()
     for root, _, files in os.walk(os.path.join(builddir, "target")):
         for f in files:
             fpath = os.path.join(root, f)
             if os.path.islink(fpath):
                 continue

             st = os.stat(fpath)
             if st.st_ino in seeninodes:
                 # hard link
                 continue
             else:
                 seeninodes.add(st.st_ino)

             frelpath = os.path.relpath(fpath, os.path.join(builddir, "target"))
             if frelpath not in filesdict:
                 print("WARNING: %s is not part of any package" % frelpath)
                 pkg = "unknown"
             else:
                 pkg = filesdict[frelpath][0]

             pkgsize[pkg] += st.st_size

     return pkgsize


 #
 # Given a dict returned by build_package_size(), this function
 # generates a pie chart of the size installed by each package.
 #
 # pkgsize: dictionary with the name of the package as a key, and the
 # size as the value, as returned by build_package_size.
 #
 # outputf: output file for the graph
 #
 def draw_graph(pkgsize, outputf):
     def size2string(sz):
         if Config.iec:
             divider = 1024.0
             prefixes = ['', 'Ki', 'Mi', 'Gi', 'Ti']
         else:
             divider = 1000.0
             prefixes = ['', 'k', 'M', 'G', 'T']
         while sz > divider and len(prefixes) > 1:
             prefixes = prefixes[1:]
             sz = sz/divider
         # precision is made so that there are always at least three meaningful
         # digits displayed (e.g. '3.14' and '10.4', not just '3' and '10')
         precision = int(2-math.floor(math.log10(sz))) if sz < 1000 else 0
         return '{:.{prec}f} {}B'.format(sz, prefixes[0], prec=precision)

     total = sum(pkgsize.values())
     labels = []
     values = []
     other_value = 0
     unknown_value = 0
     for (p, sz) in sorted(pkgsize.items(), key=lambda x: x[1],
                           reverse=Config.biggest_first):
         if sz < (total * Config.size_limit):
             other_value += sz
         elif p == "unknown":
             unknown_value = sz
         else:
             labels.append("%s (%s)" % (p, size2string(sz)))
             values.append(sz)
     if unknown_value != 0:
         labels.append("Unknown (%s)" % (size2string(unknown_value)))
         values.append(unknown_value)
     if other_value != 0:
         labels.append("Other (%s)" % (size2string(other_value)))
         values.append(other_value)

     plt.figure()
     patches, texts, autotexts = plt.pie(values, labels=labels,
                                         autopct='%1.1f%%', shadow=True,
                                         colors=Config.colors)
     # Reduce text size
     proptease = fm.FontProperties()
     proptease.set_size('xx-small')
     plt.setp(autotexts, fontproperties=proptease)
     plt.setp(texts, fontproperties=proptease)

     plt.suptitle("Filesystem size per package", fontsize=18, y=.97)
     plt.title("Total filesystem size: %s" % (size2string(total)), fontsize=10,
               y=.96)
     plt.savefig(outputf)


 #
 # Generate a CSV file with statistics about the size of each file, its
 # size contribution to the package and to the overall system.
 #
 # filesdict: dictionary with the name of the files as key, and as
 # value a tuple containing the name of the package to which the files
 # belongs, and the size of the file. As returned by
 # build_package_dict.
 #
 # pkgsize: dictionary with the name of the package as a key, and the
 # size as the value, as returned by build_package_size.
 #
 # outputf: output CSV file
 #
 def gen_files_csv(filesdict, pkgsizes, outputf):
     total = 0
     for (p, sz) in pkgsizes.items():
         total += sz
     with open(outputf, 'w') as csvfile:
         wr = csv.writer(csvfile, delimiter=',', quoting=csv.QUOTE_MINIMAL)
         wr.writerow(["File name",
                      "Package name",
                      "File size",
                      "Package size",
                      "File size in package (%)",
                      "File size in system (%)"])
         for f, (pkgname, filesize) in filesdict.items():
             pkgsize = pkgsizes[pkgname]

             if pkgsize == 0:
                 percent_pkg = 0
             else:
                 percent_pkg = float(filesize) / pkgsize * 100

             percent_total = float(filesize) / total * 100

             wr.writerow([f, pkgname, filesize, pkgsize,
                          "%.1f" % percent_pkg,
                          "%.1f" % percent_total])


 #
 # Generate a CSV file with statistics about the size of each package,
 # and their size contribution to the overall system.
 #
 # pkgsize: dictionary with the name of the package as a key, and the
 # size as the value, as returned by build_package_size.
 #
 # outputf: output CSV file
 #
 def gen_packages_csv(pkgsizes, outputf):
     total = sum(pkgsizes.values())
     with open(outputf, 'w') as csvfile:
         wr = csv.writer(csvfile, delimiter=',', quoting=csv.QUOTE_MINIMAL)
         wr.writerow(["Package name", "Package size",
                      "Package size in system (%)"])
         for (pkg, size) in pkgsizes.items():
             wr.writerow([pkg, size, "%.1f" % (float(size) / total * 100)])


 #
 # Our special action for --iec, --binary, --si, --decimal
 #
 class PrefixAction(argparse.Action):
     def __init__(self, option_strings, dest, **kwargs):
         for key in ["type", "nargs"]:
             if key in kwargs:
                 raise ValueError('"{}" not allowed'.format(key))
         super(PrefixAction, self).__init__(option_strings, dest, nargs=0,
                                            type=bool, **kwargs)

     def __call__(self, parser, namespace, values, option_string=None):
         setattr(namespace, self.dest, option_string in ["--iec", "--binary"])


 def main():
     parser = argparse.ArgumentParser(description='Draw size statistics graphs')

     parser.add_argument("--builddir", '-i', metavar="BUILDDIR", required=True,
                         help="Buildroot output directory")
     parser.add_argument("--graph", '-g', metavar="GRAPH",
                         help="Graph output file (.pdf or .png extension)")
     parser.add_argument("--file-size-csv", '-f', metavar="FILE_SIZE_CSV",
                         help="CSV output file with file size statistics")
     parser.add_argument("--package-size-csv", '-p', metavar="PKG_SIZE_CSV",
                         help="CSV output file with package size statistics")
     parser.add_argument("--biggest-first", action='store_true',
                         help="Sort packages in decreasing size order, " +
                              "rather than in increasing size order")
     parser.add_argument("--iec", "--binary", "--si", "--decimal",
                         action=PrefixAction,
                         help="Use IEC (binary, powers of 1024) or SI (decimal, "
                              "powers of 1000, the default) prefixes")
     parser.add_argument("--size-limit", "-l", type=float,
                         help='Under this size ratio, files are accounted to ' +
                              'the generic "Other" package. Default: 0.01 (1%%)')
     args = parser.parse_args()

     Config.biggest_first = args.biggest_first
     Config.iec = args.iec
     if args.size_limit is not None:
         if args.size_limit < 0.0 or args.size_limit > 1.0:
             parser.error("--size-limit must be in [0.0..1.0]")
         Config.size_limit = args.size_limit

     # Find out which package installed what files
     pkgdict = build_package_dict(args.builddir)

     # Collect the size installed by each package
     pkgsize = build_package_size(pkgdict, args.builddir)

     if args.graph:
         draw_graph(pkgsize, args.graph)
     if args.file_size_csv:
         gen_files_csv(pkgdict, pkgsize, args.file_size_csv)
     if args.package_size_csv:
         gen_packages_csv(pkgsize, args.package_size_csv)


 if __name__ == "__main__":
     main()
	#!/usr/bin/env python

	# Copyright (C) 2014 by Thomas Petazzoni <thomas.petazzoni@free-electrons.com>

	# This program is free software; you can redistribute it and/or modify
	# it under the terms of the GNU General Public License as published by
	# the Free Software Foundation; either version 2 of the License, or
	# (at your option) any later version.
	#
	# This program is distributed in the hope that it will be useful,
	# but WITHOUT ANY WARRANTY; without even the implied warranty of
	# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	# General Public License for more details.
	#
	# You should have received a copy of the GNU General Public License
	# along with this program; if not, write to the Free Software
	# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA

	import sys
	import os
	import os.path
	import argparse
	import csv
	import collections
	import math

	try:
	import matplotlib
	matplotlib.use('Agg')
	import matplotlib.font_manager as fm
	import matplotlib.pyplot as plt
	except ImportError:
	sys.stderr.write("You need python-matplotlib to generate the size graph\n")
	exit(1)


	class Config:
	biggest_first = False
	iec = False
	size_limit = 0.01
	colors = ['#e60004', '#f28e00', '#ffed00', '#940084',
	'#2e1d86', '#0068b5', '#009836', '#97c000']


	#
	# This function adds a new file to 'filesdict', after checking its
	# size. The 'filesdict' contain the relative path of the file as the
	# key, and as the value a tuple containing the name of the package to
	# which the file belongs and the size of the file.
	#
	# filesdict: the dict to which the file is added
	# relpath: relative path of the file
	# fullpath: absolute path to the file
	# pkg: package to which the file belongs
	#
	def add_file(filesdict, relpath, abspath, pkg):
	if not os.path.exists(abspath):
	return
	if os.path.islink(abspath):
	return
	sz = os.stat(abspath).st_size
	filesdict[relpath] = (pkg, sz)


	#
	# This function returns a dict where each key is the path of a file in
	# the root filesystem, and the value is a tuple containing two
	# elements: the name of the package to which this file belongs and the
	# size of the file.
	#
	# builddir: path to the Buildroot output directory
	#
	def build_package_dict(builddir):
	filesdict = {}
	with open(os.path.join(builddir, "build", "packages-file-list.txt")) as f:
	for l in f.readlines():
	pkg, fpath = l.split(",", 1)
	# remove the initial './' in each file path
	fpath = fpath.strip()[2:]
	fullpath = os.path.join(builddir, "target", fpath)
	add_file(filesdict, fpath, fullpath, pkg)
	return filesdict


	#
	# This function builds a dictionary that contains the name of a
	# package as key, and the size of the files installed by this package
	# as the value.
	#
	# filesdict: dictionary with the name of the files as key, and as
	# value a tuple containing the name of the package to which the files
	# belongs, and the size of the file. As returned by
	# build_package_dict.
	#
	# builddir: path to the Buildroot output directory
	#
	def build_package_size(filesdict, builddir):
	pkgsize = collections.defaultdict(int)

	seeninodes = set()
	for root, _, files in os.walk(os.path.join(builddir, "target")):
	for f in files:
	fpath = os.path.join(root, f)
	if os.path.islink(fpath):
	continue

	st = os.stat(fpath)
	if st.st_ino in seeninodes:
	# hard link
	continue
	else:
	seeninodes.add(st.st_ino)

	frelpath = os.path.relpath(fpath, os.path.join(builddir, "target"))
	if frelpath not in filesdict:
	print("WARNING: %s is not part of any package" % frelpath)
	pkg = "unknown"
	else:
	pkg = filesdict[frelpath][0]

	pkgsize[pkg] += st.st_size

	return pkgsize


	#
	# Given a dict returned by build_package_size(), this function
	# generates a pie chart of the size installed by each package.
	#
	# pkgsize: dictionary with the name of the package as a key, and the
	# size as the value, as returned by build_package_size.
	#
	# outputf: output file for the graph
	#
	def draw_graph(pkgsize, outputf):
	def size2string(sz):
	if Config.iec:
	divider = 1024.0
	prefixes = ['', 'Ki', 'Mi', 'Gi', 'Ti']
	else:
	divider = 1000.0
	prefixes = ['', 'k', 'M', 'G', 'T']
	while sz > divider and len(prefixes) > 1:
	prefixes = prefixes[1:]
	sz = sz/divider
	# precision is made so that there are always at least three meaningful
	# digits displayed (e.g. '3.14' and '10.4', not just '3' and '10')
	precision = int(2-math.floor(math.log10(sz))) if sz < 1000 else 0
	return '{:.{prec}f} {}B'.format(sz, prefixes[0], prec=precision)

	total = sum(pkgsize.values())
	labels = []
	values = []
	other_value = 0
	unknown_value = 0
	for (p, sz) in sorted(pkgsize.items(), key=lambda x: x[1],
	reverse=Config.biggest_first):
	if sz < (total * Config.size_limit):
	other_value += sz
	elif p == "unknown":
	unknown_value = sz
	else:
	labels.append("%s (%s)" % (p, size2string(sz)))
	values.append(sz)
	if unknown_value != 0:
	labels.append("Unknown (%s)" % (size2string(unknown_value)))
	values.append(unknown_value)
	if other_value != 0:
	labels.append("Other (%s)" % (size2string(other_value)))
	values.append(other_value)

	plt.figure()
	patches, texts, autotexts = plt.pie(values, labels=labels,
	autopct='%1.1f%%', shadow=True,
	colors=Config.colors)
	# Reduce text size
	proptease = fm.FontProperties()
	proptease.set_size('xx-small')
	plt.setp(autotexts, fontproperties=proptease)
	plt.setp(texts, fontproperties=proptease)

	plt.suptitle("Filesystem size per package", fontsize=18, y=.97)
	plt.title("Total filesystem size: %s" % (size2string(total)), fontsize=10,
	y=.96)
	plt.savefig(outputf)


	#
	# Generate a CSV file with statistics about the size of each file, its
	# size contribution to the package and to the overall system.
	#
	# filesdict: dictionary with the name of the files as key, and as
	# value a tuple containing the name of the package to which the files
	# belongs, and the size of the file. As returned by
	# build_package_dict.
	#
	# pkgsize: dictionary with the name of the package as a key, and the
	# size as the value, as returned by build_package_size.
	#
	# outputf: output CSV file
	#
	def gen_files_csv(filesdict, pkgsizes, outputf):
	total = 0
	for (p, sz) in pkgsizes.items():
	total += sz
	with open(outputf, 'w') as csvfile:
	wr = csv.writer(csvfile, delimiter=',', quoting=csv.QUOTE_MINIMAL)
	wr.writerow(["File name",
	"Package name",
	"File size",
	"Package size",
	"File size in package (%)",
	"File size in system (%)"])
	for f, (pkgname, filesize) in filesdict.items():
	pkgsize = pkgsizes[pkgname]

	if pkgsize == 0:
	percent_pkg = 0
	else:
	percent_pkg = float(filesize) / pkgsize * 100

	percent_total = float(filesize) / total * 100

	wr.writerow([f, pkgname, filesize, pkgsize,
	"%.1f" % percent_pkg,
	"%.1f" % percent_total])


	#
	# Generate a CSV file with statistics about the size of each package,
	# and their size contribution to the overall system.
	#
	# pkgsize: dictionary with the name of the package as a key, and the
	# size as the value, as returned by build_package_size.
	#
	# outputf: output CSV file
	#
	def gen_packages_csv(pkgsizes, outputf):
	total = sum(pkgsizes.values())
	with open(outputf, 'w') as csvfile:
	wr = csv.writer(csvfile, delimiter=',', quoting=csv.QUOTE_MINIMAL)
	wr.writerow(["Package name", "Package size",
	"Package size in system (%)"])
	for (pkg, size) in pkgsizes.items():
	wr.writerow([pkg, size, "%.1f" % (float(size) / total * 100)])


	#
	# Our special action for --iec, --binary, --si, --decimal
	#
	class PrefixAction(argparse.Action):
	def __init__(self, option_strings, dest, **kwargs):
	for key in ["type", "nargs"]:
	if key in kwargs:
	raise ValueError('"{}" not allowed'.format(key))
	super(PrefixAction, self).__init__(option_strings, dest, nargs=0,
	type=bool, **kwargs)

	def __call__(self, parser, namespace, values, option_string=None):
	setattr(namespace, self.dest, option_string in ["--iec", "--binary"])


	def main():
	parser = argparse.ArgumentParser(description='Draw size statistics graphs')

	parser.add_argument("--builddir", '-i', metavar="BUILDDIR", required=True,
	help="Buildroot output directory")
	parser.add_argument("--graph", '-g', metavar="GRAPH",
	help="Graph output file (.pdf or .png extension)")
	parser.add_argument("--file-size-csv", '-f', metavar="FILE_SIZE_CSV",
	help="CSV output file with file size statistics")
	parser.add_argument("--package-size-csv", '-p', metavar="PKG_SIZE_CSV",
	help="CSV output file with package size statistics")
	parser.add_argument("--biggest-first", action='store_true',
	help="Sort packages in decreasing size order, " +
	"rather than in increasing size order")
	parser.add_argument("--iec", "--binary", "--si", "--decimal",
	action=PrefixAction,
	help="Use IEC (binary, powers of 1024) or SI (decimal, "
	"powers of 1000, the default) prefixes")
	parser.add_argument("--size-limit", "-l", type=float,
	help='Under this size ratio, files are accounted to ' +
	'the generic "Other" package. Default: 0.01 (1%%)')
	args = parser.parse_args()

	Config.biggest_first = args.biggest_first
	Config.iec = args.iec
	if args.size_limit is not None:
	if args.size_limit < 0.0 or args.size_limit > 1.0:
	parser.error("--size-limit must be in [0.0..1.0]")
	Config.size_limit = args.size_limit

	# Find out which package installed what files
	pkgdict = build_package_dict(args.builddir)

	# Collect the size installed by each package
	pkgsize = build_package_size(pkgdict, args.builddir)

	if args.graph:
	draw_graph(pkgsize, args.graph)
	if args.file_size_csv:
	gen_files_csv(pkgdict, pkgsize, args.file_size_csv)
	if args.package_size_csv:
	gen_packages_csv(pkgsize, args.package_size_csv)


	if __name__ == "__main__":
	main()