blob: f69b255b8bc23bf8bef914622cfcf9693de4e397 [file] [log] [blame]
#!/usr/bin/env python
# Copyright 2018 The ANGLE Project Authors. All rights reserved.
# Use of this source code is governed by a BSD-style license that can be
# found in the LICENSE file.
# Generate library file with compressed symbols per Android build
# process.
# https://www.ece.villanova.edu/VECR/doc/gdb/MiniDebugInfo.html
import argparse
import subprocess
import sys
def main():
parser = argparse.ArgumentParser(description=__doc__)
parser.add_argument(
'--objcopy', required=True, help='The objcopy binary to run', metavar='PATH')
parser.add_argument('--nm', required=True, help='The nm binary to run', metavar='PATH')
parser.add_argument('--strip', required=True, help='The strip binary to run', metavar='PATH')
parser.add_argument(
'--output', required=True, help='Final output shared object file', metavar='FILE')
parser.add_argument(
'--unstrippedsofile',
required=True,
help='Unstripped shared object file produced by linking command',
metavar='FILE')
args = parser.parse_args()
copy_cmd = ["cp", args.unstrippedsofile, args.output]
result = subprocess.call(copy_cmd)
nm_cmd = subprocess.Popen([args.nm, '-D', args.output, '--format=posix', '--defined-only'],
stdout=subprocess.PIPE)
awk_cmd = subprocess.Popen(['awk', '{ print $1}'], stdin=nm_cmd.stdout, stdout=subprocess.PIPE)
dynsym_out = open(args.output + '.dynsyms', 'w')
sort_cmd = subprocess.Popen(['sort'], stdin=awk_cmd.stdout, stdout=dynsym_out)
sort_cmd.wait()
dynsym_out.close()
funcsyms_out = open(args.output + '.funcsyms', 'w')
nm_cmd = subprocess.Popen([args.nm, args.output, '--format=posix', '--defined-only'],
stdout=subprocess.PIPE)
awk_cmd = subprocess.Popen(['awk', '{ if ($2 == "T" || $2 == "t" || $2 == "D") print $1 }'],
stdin=nm_cmd.stdout,
stdout=subprocess.PIPE)
sort_cmd = subprocess.Popen(['sort'], stdin=awk_cmd.stdout, stdout=funcsyms_out)
sort_cmd.wait()
funcsyms_out.close()
keep_symbols = open(args.output + '.keep_symbols', 'w')
comm_cmd = subprocess.Popen(
['comm', '-13', args.output + '.dynsyms', args.output + '.funcsyms'], stdout=keep_symbols)
comm_cmd.wait()
# Ensure that the keep_symbols file is not empty.
keep_symbols.write("\n")
keep_symbols.close()
objcopy_cmd = [args.objcopy, '--only-keep-debug', args.output, args.output + '.debug']
subprocess.check_call(objcopy_cmd)
objcopy_cmd = [
args.objcopy, '-S', '--remove-section', '.gdb_index', '--remove-section', '.comment',
'--keep-symbols', args.output + '.keep_symbols', args.output + '.debug',
args.output + '.mini_debuginfo'
]
subprocess.check_call(objcopy_cmd)
strip_cmd = [args.strip, '--strip-all', '-R', '.comment', args.output]
subprocess.check_call(strip_cmd)
xz_cmd = ['xz', '-f', args.output + '.mini_debuginfo']
subprocess.check_call(xz_cmd)
objcopy_cmd = [
args.objcopy, '--add-section', '.gnu_debugdata=' + args.output + '.mini_debuginfo.xz',
args.output
]
subprocess.check_call(objcopy_cmd)
# Clean out scratch files
rm_cmd = [
'rm', '-f', args.output + '.dynsyms', args.output + '.funcsyms',
args.output + '.keep_symbols', args.output + '.debug', args.output + '.mini_debuginfo',
args.output + '.mini_debuginfo.xz'
]
result = subprocess.call(rm_cmd)
return result
if __name__ == "__main__":
sys.exit(main())