benchmarks/linker_relocation/regen/gen_bench.py - third_party/android.googlesource.com/platform/bionic - Git at Google

 #!/usr/bin/env python3
 #
 # Copyright (C) 2019 The Android Open Source Project
 # 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.
 #
 # 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.

 # Generate a benchmark using a JSON dump of ELF file symbols and relocations.

 import argparse
 import codecs
 import json
 import math
 import os
 import re
 import shlex
 import shutil
 import subprocess
 import sys
 import tempfile
 import textwrap
 import typing
 from enum import Enum
 from typing import Dict, List, Optional, Set
 from subprocess import PIPE, DEVNULL
 from pathlib import Path

 from common_types import LoadedLibrary, SymbolRef, SymKind, bfs_walk, json_to_elf_tree


 g_obfuscate = True
 g_benchmark_name = 'linker_reloc_bench'


 kBionicSonames: Set[str] = set([
     'libc.so',
     'libdl.so',
     'libdl_android.so',
     'libm.so',
     'ld-android.so',
 ])

 # Skip these symbols so the benchmark runs on multiple C libraries (glibc, Bionic, musl).
 kBionicIgnoredSymbols: Set[str] = set([
     '__FD_ISSET_chk',
     '__FD_SET_chk',
     '__assert',
     '__assert2',
     '__b64_ntop',
     '__cmsg_nxthdr',
     '__cxa_thread_atexit_impl',
     '__errno',
     '__gnu_basename',
     '__gnu_strerror_r',
     '__memcpy_chk',
     '__memmove_chk',
     '__memset_chk',
     '__open_2',
     '__openat_2',
     '__pread64_chk',
     '__pread_chk',
     '__read_chk',
     '__readlink_chk',
     '__register_atfork',
     '__sF',
     '__strcat_chk',
     '__strchr_chk',
     '__strcpy_chk',
     '__strlcat_chk',
     '__strlcpy_chk',
     '__strlen_chk',
     '__strncat_chk',
     '__strncpy_chk',
     '__strncpy_chk2',
     '__strrchr_chk',
     '__system_property_area_serial',
     '__system_property_find',
     '__system_property_foreach',
     '__system_property_get',
     '__system_property_read',
     '__system_property_serial',
     '__system_property_set',
     '__umask_chk',
     '__vsnprintf_chk',
     '__vsprintf_chk',
     'android_dlopen_ext',
     'android_set_abort_message',
     'arc4random_buf',
     'dl_unwind_find_exidx',
     'fts_close',
     'fts_open',
     'fts_read',
     'fts_set',
     'getprogname',
     'gettid',
     'isnanf',
     'mallinfo',
     'malloc_info',
     'pthread_gettid_np',
     'res_mkquery',
     'strlcpy',
     'strtoll_l',
     'strtoull_l',
     'tgkill',
 ])


 Definitions = Dict[str, LoadedLibrary]

 def build_symbol_index(lib: LoadedLibrary) -> Definitions:
     defs: Dict[str, LoadedLibrary] = {}
     for lib in bfs_walk(lib):
         for sym in lib.syms.values():
             if not sym.defined: continue
             defs.setdefault(sym.name, lib)
     return defs


 def check_rels(root: LoadedLibrary, defs: Definitions) -> None:
     # Find every symbol for every relocation in the load group.
     has_missing = False
     for lib in bfs_walk(root):
         rels = lib.rels
         for sym in rels.got + rels.jump_slots + [sym for off, sym in rels.symbolic]:
             if sym.name not in defs:
                 if sym.is_weak:
                     pass # print('info: weak undefined', lib.soname, r)
                 else:
                     print(f'error: {lib.soname}: unresolved relocation to {sym.name}')
                     has_missing = True
     if has_missing: sys.exit('error: had unresolved relocations')


 # Obscure names to avoid polluting Android code search.
 def rot13(text: str) -> str:
     if g_obfuscate:
         result = codecs.getencoder("rot-13")(text)[0]
         assert isinstance(result, str)
         return result
     else:
         return text


 def make_asm_file(lib: LoadedLibrary, is_main: bool, out_filename: Path, map_out_filename: Path,
                   defs: Definitions) -> bool:

     def trans_sym(name: str, ver: Optional[str]) -> Optional[str]:
         nonlocal defs
         d = defs.get(name)
         if d is not None and d.soname in kBionicSonames:
             if name in kBionicIgnoredSymbols: return None
             # Discard relocations to newer Bionic symbols, because there aren't many of them, and
             # they would limit where the benchmark can run.
             if ver == 'LIBC': return name
             return None
         return 'b_' + rot13(name)

     versions: Dict[Optional[str], List[str]] = {}

     with open(out_filename, 'w') as out:
         out.write(f'// AUTO-GENERATED BY {os.path.basename(__file__)} -- do not edit manually\n')
         out.write(f'#include "{g_benchmark_name}_asm.h"\n')
         out.write('.data\n')
         out.write('.p2align 4\n')

         if is_main:
             out.write('.text\n' 'MAIN\n')

         for d in lib.syms.values():
             if not d.defined: continue
             sym = trans_sym(d.name, None)
             if sym is None: continue
             if d.kind == SymKind.Func:
                 out.write('.text\n'
                           f'.globl {sym}\n'
                           f'.type {sym},%function\n'
                           f'{sym}:\n'
                           'nop\n')
             else: # SymKind.Var
                 out.write('.data\n'
                           f'.globl {sym}\n'
                           f'.type {sym},%object\n'
                           f'{sym}:\n'
                           f'.space __SIZEOF_POINTER__\n')
             versions.setdefault(d.ver_name, []).append(sym)

         out.write('.text\n')
         for r in lib.rels.jump_slots:
             sym = trans_sym(r.name, r.ver)
             if sym is None: continue
             if r.is_weak: out.write(f'.weak {sym}\n')
             out.write(f'CALL({sym})\n')
         out.write('.text\n')
         for r in lib.rels.got:
             sym = trans_sym(r.name, r.ver)
             if sym is None: continue
             if r.is_weak: out.write(f'.weak {sym}\n')
             out.write(f'GOT_RELOC({sym})\n')

         out.write('.data\n')
         out.write('local_label:\n')

         image = []
         for off in lib.rels.relative:
             image.append((off, f'DATA_WORD(local_label)\n'))
         for off, r in lib.rels.symbolic:
             sym = trans_sym(r.name, r.ver)
             if sym is None: continue
             text = f'DATA_WORD({sym})\n'
             if r.is_weak: text += f'.weak {sym}\n'
             image.append((off, text))
         image.sort()

         cur_off = 0
         for off, text in image:
             if cur_off < off:
                 out.write(f'.space (__SIZEOF_POINTER__ * {off - cur_off})\n')
                 cur_off = off
             out.write(text)
             cur_off += 1

     has_map_file = False
     if len(versions) > 0 and list(versions.keys()) != [None]:
         has_map_file = True
         with open(map_out_filename, 'w') as out:
             if None in versions:
                 print(f'error: {out_filename} has both unversioned and versioned symbols')
                 print(versions.keys())
                 sys.exit(1)
             for ver in sorted(versions.keys()):
                 assert ver is not None
                 out.write(f'{rot13(ver)} {{\n')
                 if len(versions[ver]) > 0:
                     out.write('  global:\n')
                     out.write(''.join(f'    {x};\n' for x in versions[ver]))
                 out.write(f'}};\n')

     return has_map_file


 class LibNames:
     def __init__(self, root: LoadedLibrary):
         self._root = root
         self._names: Dict[LoadedLibrary, str] = {}
         all_libs = [x for x in bfs_walk(root) if x is not root and x.soname not in kBionicSonames]
         num_digits = math.ceil(math.log10(len(all_libs) + 1))
         if g_obfuscate:
             self._names = {x : f'{i:0{num_digits}}' for i, x in enumerate(all_libs)}
         else:
             self._names = {x : re.sub(r'\.so$', '', x.soname) for x in all_libs}

     def name(self, lib: LoadedLibrary) -> str:
         if lib is self._root:
             return f'{g_benchmark_name}_main'
         else:
             return f'lib{g_benchmark_name}_{self._names[lib]}'


 # Generate a ninja file directly that builds the benchmark using a C compiler driver and ninja.
 # Using a driver directly can be faster than building with Soong, and it allows testing
 # configurations that Soong can't target, like musl.
 def make_ninja_benchmark(root: LoadedLibrary, defs: Definitions, cc: str, out: Path) -> None:

     lib_names = LibNames(root)

     def lib_dso_name(lib: LoadedLibrary) -> str:
         return lib_names.name(lib) + '.so'

     ninja = open(out / 'build.ninja', 'w')
     include_path = os.path.relpath(os.path.dirname(__file__) + '/../include', out)
     common_flags = f"-Wl,-rpath-link,. -lm -I{include_path}"
     ninja.write(textwrap.dedent(f'''\
         rule exe
             command = {cc} -fpie -pie $in -o $out {common_flags} $extra_args
         rule dso
             command = {cc} -fpic -shared $in -o $out -Wl,-soname,$out {common_flags} $extra_args
     '''))

     for lib in bfs_walk(root):
         if lib.soname in kBionicSonames: continue

         lib_base_name = lib_names.name(lib)
         asm_name = lib_base_name + '.S'
         map_name = lib_base_name + '.map'
         asm_path = out / asm_name
         map_path = out / map_name

         has_map_file = make_asm_file(lib, lib is root, asm_path, map_path, defs)
         needed = ' '.join([lib_dso_name(x) for x in lib.needed if x.soname not in kBionicSonames])

         if lib is root:
             ninja.write(f'build {lib_base_name}: exe {asm_name} {needed}\n')
         else:
             ninja.write(f'build {lib_dso_name(lib)}: dso {asm_name} {needed}\n')
         if has_map_file:
             ninja.write(f'    extra_args = -Wl,--version-script={map_name}\n')

     ninja.close()

     subprocess.run(['ninja', '-C', str(out), lib_names.name(root)], check=True)


 def make_soong_benchmark(root: LoadedLibrary, defs: Definitions, out: Path) -> None:

     lib_names = LibNames(root)

     bp = open(out / 'Android.bp', 'w')
     bp.write(f'// AUTO-GENERATED BY {os.path.basename(__file__)} -- do not edit\n')

     bp.write(f'package {{ default_applicable_licenses: ["bionic_benchmarks_license"], }}\n')
     bp.write(f'cc_defaults {{\n')
     bp.write(f'    name: "{g_benchmark_name}_all_libs",\n')
     bp.write(f'    runtime_libs: [\n')
     for lib in bfs_walk(root):
         if lib.soname in kBionicSonames: continue
         if lib is root: continue
         bp.write(f'        "{lib_names.name(lib)}",\n')
     bp.write(f'    ],\n')
     bp.write(f'}}\n')

     for lib in bfs_walk(root):
         if lib.soname in kBionicSonames: continue

         lib_base_name = lib_names.name(lib)
         asm_name = lib_base_name + '.S'
         map_name = lib_base_name + '.map'
         asm_path = out / asm_name
         map_path = out / map_name

         has_map_file = make_asm_file(lib, lib is root, asm_path, map_path, defs)

         if lib is root:
             bp.write(f'cc_binary {{\n')
             bp.write(f'    defaults: ["{g_benchmark_name}_binary"],\n')
         else:
             bp.write(f'cc_test_library {{\n')
             bp.write(f'    defaults: ["{g_benchmark_name}_library"],\n')
         bp.write(f'    name: "{lib_base_name}",\n')
         bp.write(f'    srcs: ["{asm_name}"],\n')
         bp.write(f'    shared_libs: [\n')
         for need in lib.needed:
             if need.soname in kBionicSonames: continue
             bp.write(f'        "{lib_names.name(need)}",\n')
         bp.write(f'    ],\n')
         if has_map_file:
             bp.write(f'    version_script: "{map_name}",\n')
         bp.write('}\n')

     bp.close()


 def main() -> None:
     parser = argparse.ArgumentParser()
     parser.add_argument('input', type=str)
     parser.add_argument('out_dir', type=str)
     parser.add_argument('--ninja', action='store_true',
                         help='Generate a benchmark using a compiler and ninja rather than Soong')
     parser.add_argument('--cc',
                         help='For --ninja, a target-specific C clang driver and flags (e.g. "'
                              '$NDK/toolchains/llvm/prebuilt/linux-x86_64/bin/aarch64-linux-android29-clang'
                              ' -fuse-ld=lld")')

     args = parser.parse_args()

     if args.ninja:
         if args.cc is None: sys.exit('error: --cc required with --ninja')

     out = Path(args.out_dir)
     with open(Path(args.input)) as f:
         root = json_to_elf_tree(json.load(f))
     defs = build_symbol_index(root)
     check_rels(root, defs)

     if out.exists(): shutil.rmtree(out)
     os.makedirs(str(out))

     if args.ninja:
         make_ninja_benchmark(root, defs, args.cc, out)
     else:
         make_soong_benchmark(root, defs, out)


 if __name__ == '__main__':
     main()
	#!/usr/bin/env python3
	#
	# Copyright (C) 2019 The Android Open Source Project
	# 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.
	#
	# 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.

	# Generate a benchmark using a JSON dump of ELF file symbols and relocations.

	import argparse
	import codecs
	import json
	import math
	import os
	import re
	import shlex
	import shutil
	import subprocess
	import sys
	import tempfile
	import textwrap
	import typing
	from enum import Enum
	from typing import Dict, List, Optional, Set
	from subprocess import PIPE, DEVNULL
	from pathlib import Path

	from common_types import LoadedLibrary, SymbolRef, SymKind, bfs_walk, json_to_elf_tree


	g_obfuscate = True
	g_benchmark_name = 'linker_reloc_bench'


	kBionicSonames: Set[str] = set([
	'libc.so',
	'libdl.so',
	'libdl_android.so',
	'libm.so',
	'ld-android.so',
	])

	# Skip these symbols so the benchmark runs on multiple C libraries (glibc, Bionic, musl).
	kBionicIgnoredSymbols: Set[str] = set([
	'__FD_ISSET_chk',
	'__FD_SET_chk',
	'__assert',
	'__assert2',
	'__b64_ntop',
	'__cmsg_nxthdr',
	'__cxa_thread_atexit_impl',
	'__errno',
	'__gnu_basename',
	'__gnu_strerror_r',
	'__memcpy_chk',
	'__memmove_chk',
	'__memset_chk',
	'__open_2',
	'__openat_2',
	'__pread64_chk',
	'__pread_chk',
	'__read_chk',
	'__readlink_chk',
	'__register_atfork',
	'__sF',
	'__strcat_chk',
	'__strchr_chk',
	'__strcpy_chk',
	'__strlcat_chk',
	'__strlcpy_chk',
	'__strlen_chk',
	'__strncat_chk',
	'__strncpy_chk',
	'__strncpy_chk2',
	'__strrchr_chk',
	'__system_property_area_serial',
	'__system_property_find',
	'__system_property_foreach',
	'__system_property_get',
	'__system_property_read',
	'__system_property_serial',
	'__system_property_set',
	'__umask_chk',
	'__vsnprintf_chk',
	'__vsprintf_chk',
	'android_dlopen_ext',
	'android_set_abort_message',
	'arc4random_buf',
	'dl_unwind_find_exidx',
	'fts_close',
	'fts_open',
	'fts_read',
	'fts_set',
	'getprogname',
	'gettid',
	'isnanf',
	'mallinfo',
	'malloc_info',
	'pthread_gettid_np',
	'res_mkquery',
	'strlcpy',
	'strtoll_l',
	'strtoull_l',
	'tgkill',
	])


	Definitions = Dict[str, LoadedLibrary]

	def build_symbol_index(lib: LoadedLibrary) -> Definitions:
	defs: Dict[str, LoadedLibrary] = {}
	for lib in bfs_walk(lib):
	for sym in lib.syms.values():
	if not sym.defined: continue
	defs.setdefault(sym.name, lib)
	return defs


	def check_rels(root: LoadedLibrary, defs: Definitions) -> None:
	# Find every symbol for every relocation in the load group.
	has_missing = False
	for lib in bfs_walk(root):
	rels = lib.rels
	for sym in rels.got + rels.jump_slots + [sym for off, sym in rels.symbolic]:
	if sym.name not in defs:
	if sym.is_weak:
	pass # print('info: weak undefined', lib.soname, r)
	else:
	print(f'error: {lib.soname}: unresolved relocation to {sym.name}')
	has_missing = True
	if has_missing: sys.exit('error: had unresolved relocations')


	# Obscure names to avoid polluting Android code search.
	def rot13(text: str) -> str:
	if g_obfuscate:
	result = codecs.getencoder("rot-13")(text)[0]
	assert isinstance(result, str)
	return result
	else:
	return text


	def make_asm_file(lib: LoadedLibrary, is_main: bool, out_filename: Path, map_out_filename: Path,
	defs: Definitions) -> bool:

	def trans_sym(name: str, ver: Optional[str]) -> Optional[str]:
	nonlocal defs
	d = defs.get(name)
	if d is not None and d.soname in kBionicSonames:
	if name in kBionicIgnoredSymbols: return None
	# Discard relocations to newer Bionic symbols, because there aren't many of them, and
	# they would limit where the benchmark can run.
	if ver == 'LIBC': return name
	return None
	return 'b_' + rot13(name)

	versions: Dict[Optional[str], List[str]] = {}

	with open(out_filename, 'w') as out:
	out.write(f'// AUTO-GENERATED BY {os.path.basename(__file__)} -- do not edit manually\n')
	out.write(f'#include "{g_benchmark_name}_asm.h"\n')
	out.write('.data\n')
	out.write('.p2align 4\n')

	if is_main:
	out.write('.text\n' 'MAIN\n')

	for d in lib.syms.values():
	if not d.defined: continue
	sym = trans_sym(d.name, None)
	if sym is None: continue
	if d.kind == SymKind.Func:
	out.write('.text\n'
	f'.globl {sym}\n'
	f'.type {sym},%function\n'
	f'{sym}:\n'
	'nop\n')
	else: # SymKind.Var
	out.write('.data\n'
	f'.globl {sym}\n'
	f'.type {sym},%object\n'
	f'{sym}:\n'
	f'.space __SIZEOF_POINTER__\n')
	versions.setdefault(d.ver_name, []).append(sym)

	out.write('.text\n')
	for r in lib.rels.jump_slots:
	sym = trans_sym(r.name, r.ver)
	if sym is None: continue
	if r.is_weak: out.write(f'.weak {sym}\n')
	out.write(f'CALL({sym})\n')
	out.write('.text\n')
	for r in lib.rels.got:
	sym = trans_sym(r.name, r.ver)
	if sym is None: continue
	if r.is_weak: out.write(f'.weak {sym}\n')
	out.write(f'GOT_RELOC({sym})\n')

	out.write('.data\n')
	out.write('local_label:\n')

	image = []
	for off in lib.rels.relative:
	image.append((off, f'DATA_WORD(local_label)\n'))
	for off, r in lib.rels.symbolic:
	sym = trans_sym(r.name, r.ver)
	if sym is None: continue
	text = f'DATA_WORD({sym})\n'
	if r.is_weak: text += f'.weak {sym}\n'
	image.append((off, text))
	image.sort()

	cur_off = 0
	for off, text in image:
	if cur_off < off:
	out.write(f'.space (__SIZEOF_POINTER__ * {off - cur_off})\n')
	cur_off = off
	out.write(text)
	cur_off += 1

	has_map_file = False
	if len(versions) > 0 and list(versions.keys()) != [None]:
	has_map_file = True
	with open(map_out_filename, 'w') as out:
	if None in versions:
	print(f'error: {out_filename} has both unversioned and versioned symbols')
	print(versions.keys())
	sys.exit(1)
	for ver in sorted(versions.keys()):
	assert ver is not None
	out.write(f'{rot13(ver)} {{\n')
	if len(versions[ver]) > 0:
	out.write(' global:\n')
	out.write(''.join(f' {x};\n' for x in versions[ver]))
	out.write(f'}};\n')

	return has_map_file


	class LibNames:
	def __init__(self, root: LoadedLibrary):
	self._root = root
	self._names: Dict[LoadedLibrary, str] = {}
	all_libs = [x for x in bfs_walk(root) if x is not root and x.soname not in kBionicSonames]
	num_digits = math.ceil(math.log10(len(all_libs) + 1))
	if g_obfuscate:
	self._names = {x : f'{i:0{num_digits}}' for i, x in enumerate(all_libs)}
	else:
	self._names = {x : re.sub(r'\.so$', '', x.soname) for x in all_libs}

	def name(self, lib: LoadedLibrary) -> str:
	if lib is self._root:
	return f'{g_benchmark_name}_main'
	else:
	return f'lib{g_benchmark_name}_{self._names[lib]}'


	# Generate a ninja file directly that builds the benchmark using a C compiler driver and ninja.
	# Using a driver directly can be faster than building with Soong, and it allows testing
	# configurations that Soong can't target, like musl.
	def make_ninja_benchmark(root: LoadedLibrary, defs: Definitions, cc: str, out: Path) -> None:

	lib_names = LibNames(root)

	def lib_dso_name(lib: LoadedLibrary) -> str:
	return lib_names.name(lib) + '.so'

	ninja = open(out / 'build.ninja', 'w')
	include_path = os.path.relpath(os.path.dirname(__file__) + '/../include', out)
	common_flags = f"-Wl,-rpath-link,. -lm -I{include_path}"
	ninja.write(textwrap.dedent(f'''\
	rule exe
	command = {cc} -fpie -pie $in -o $out {common_flags} $extra_args
	rule dso
	command = {cc} -fpic -shared $in -o $out -Wl,-soname,$out {common_flags} $extra_args
	'''))

	for lib in bfs_walk(root):
	if lib.soname in kBionicSonames: continue

	lib_base_name = lib_names.name(lib)
	asm_name = lib_base_name + '.S'
	map_name = lib_base_name + '.map'
	asm_path = out / asm_name
	map_path = out / map_name

	has_map_file = make_asm_file(lib, lib is root, asm_path, map_path, defs)
	needed = ' '.join([lib_dso_name(x) for x in lib.needed if x.soname not in kBionicSonames])

	if lib is root:
	ninja.write(f'build {lib_base_name}: exe {asm_name} {needed}\n')
	else:
	ninja.write(f'build {lib_dso_name(lib)}: dso {asm_name} {needed}\n')
	if has_map_file:
	ninja.write(f' extra_args = -Wl,--version-script={map_name}\n')

	ninja.close()

	subprocess.run(['ninja', '-C', str(out), lib_names.name(root)], check=True)


	def make_soong_benchmark(root: LoadedLibrary, defs: Definitions, out: Path) -> None:

	lib_names = LibNames(root)

	bp = open(out / 'Android.bp', 'w')
	bp.write(f'// AUTO-GENERATED BY {os.path.basename(__file__)} -- do not edit\n')

	bp.write(f'package {{ default_applicable_licenses: ["bionic_benchmarks_license"], }}\n')
	bp.write(f'cc_defaults {{\n')
	bp.write(f' name: "{g_benchmark_name}_all_libs",\n')
	bp.write(f' runtime_libs: [\n')
	for lib in bfs_walk(root):
	if lib.soname in kBionicSonames: continue
	if lib is root: continue
	bp.write(f' "{lib_names.name(lib)}",\n')
	bp.write(f' ],\n')
	bp.write(f'}}\n')

	for lib in bfs_walk(root):
	if lib.soname in kBionicSonames: continue

	lib_base_name = lib_names.name(lib)
	asm_name = lib_base_name + '.S'
	map_name = lib_base_name + '.map'
	asm_path = out / asm_name
	map_path = out / map_name

	has_map_file = make_asm_file(lib, lib is root, asm_path, map_path, defs)

	if lib is root:
	bp.write(f'cc_binary {{\n')
	bp.write(f' defaults: ["{g_benchmark_name}_binary"],\n')
	else:
	bp.write(f'cc_test_library {{\n')
	bp.write(f' defaults: ["{g_benchmark_name}_library"],\n')
	bp.write(f' name: "{lib_base_name}",\n')
	bp.write(f' srcs: ["{asm_name}"],\n')
	bp.write(f' shared_libs: [\n')
	for need in lib.needed:
	if need.soname in kBionicSonames: continue
	bp.write(f' "{lib_names.name(need)}",\n')
	bp.write(f' ],\n')
	if has_map_file:
	bp.write(f' version_script: "{map_name}",\n')
	bp.write('}\n')

	bp.close()


	def main() -> None:
	parser = argparse.ArgumentParser()
	parser.add_argument('input', type=str)
	parser.add_argument('out_dir', type=str)
	parser.add_argument('--ninja', action='store_true',
	help='Generate a benchmark using a compiler and ninja rather than Soong')
	parser.add_argument('--cc',
	help='For --ninja, a target-specific C clang driver and flags (e.g. "'
	'$NDK/toolchains/llvm/prebuilt/linux-x86_64/bin/aarch64-linux-android29-clang'
	' -fuse-ld=lld")')

	args = parser.parse_args()

	if args.ninja:
	if args.cc is None: sys.exit('error: --cc required with --ninja')

	out = Path(args.out_dir)
	with open(Path(args.input)) as f:
	root = json_to_elf_tree(json.load(f))
	defs = build_symbol_index(root)
	check_rels(root, defs)

	if out.exists(): shutil.rmtree(out)
	os.makedirs(str(out))

	if args.ninja:
	make_ninja_benchmark(root, defs, args.cc, out)
	else:
	make_soong_benchmark(root, defs, out)


	if __name__ == '__main__':
	main()