blob: faa3823f31ea0e7514d88c6a52e710a318d9a293 [file] [log] [blame]
#
# Copyright (C) 2016 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.
#
"""Parser for Android's version script information."""
import logging
import re
ALL_ARCHITECTURES = (
'arm',
'arm64',
'x86',
'x86_64',
)
# Arbitrary magic number. We use the same one in api-level.h for this purpose.
FUTURE_API_LEVEL = 10000
def logger():
"""Return the main logger for this module."""
return logging.getLogger(__name__)
def get_tags(line):
"""Returns a list of all tags on this line."""
_, _, all_tags = line.strip().partition('#')
return [e for e in re.split(r'\s+', all_tags) if e.strip()]
def is_api_level_tag(tag):
"""Returns true if this tag has an API level that may need decoding."""
if tag.startswith('introduced='):
return True
if tag.startswith('introduced-'):
return True
if tag.startswith('versioned='):
return True
return False
def decode_api_level(api, api_map):
"""Decodes the API level argument into the API level number.
For the average case, this just decodes the integer value from the string,
but for unreleased APIs we need to translate from the API codename (like
"O") to the future API level for that codename.
"""
try:
return int(api)
except ValueError:
pass
if api == "current":
return FUTURE_API_LEVEL
return api_map[api]
def decode_api_level_tags(tags, api_map):
"""Decodes API level code names in a list of tags.
Raises:
ParseError: An unknown version name was found in a tag.
"""
for idx, tag in enumerate(tags):
if not is_api_level_tag(tag):
continue
name, value = split_tag(tag)
try:
decoded = str(decode_api_level(value, api_map))
tags[idx] = '='.join([name, decoded])
except KeyError:
raise ParseError('Unknown version name in tag: {}'.format(tag))
return tags
def split_tag(tag):
"""Returns a key/value tuple of the tag.
Raises:
ValueError: Tag is not a key/value type tag.
Returns: Tuple of (key, value) of the tag. Both components are strings.
"""
if '=' not in tag:
raise ValueError('Not a key/value tag: ' + tag)
key, _, value = tag.partition('=')
return key, value
def get_tag_value(tag):
"""Returns the value of a key/value tag.
Raises:
ValueError: Tag is not a key/value type tag.
Returns: Value part of tag as a string.
"""
return split_tag(tag)[1]
def version_is_private(version):
"""Returns True if the version name should be treated as private."""
return version.endswith('_PRIVATE') or version.endswith('_PLATFORM')
def should_omit_version(version, arch, api, llndk, apex):
"""Returns True if the version section should be ommitted.
We want to omit any sections that do not have any symbols we'll have in the
stub library. Sections that contain entirely future symbols or only symbols
for certain architectures.
"""
if version_is_private(version.name):
return True
if 'platform-only' in version.tags:
return True
no_llndk_no_apex = ('llndk' not in version.tags
and 'apex' not in version.tags)
keep = no_llndk_no_apex or \
('llndk' in version.tags and llndk) or \
('apex' in version.tags and apex)
if not keep:
return True
if not symbol_in_arch(version.tags, arch):
return True
if not symbol_in_api(version.tags, arch, api):
return True
return False
def should_omit_symbol(symbol, arch, api, llndk, apex):
"""Returns True if the symbol should be omitted."""
no_llndk_no_apex = 'llndk' not in symbol.tags and 'apex' not in symbol.tags
keep = no_llndk_no_apex or \
('llndk' in symbol.tags and llndk) or \
('apex' in symbol.tags and apex)
if not keep:
return True
if not symbol_in_arch(symbol.tags, arch):
return True
if not symbol_in_api(symbol.tags, arch, api):
return True
return False
def symbol_in_arch(tags, arch):
"""Returns true if the symbol is present for the given architecture."""
has_arch_tags = False
for tag in tags:
if tag == arch:
return True
if tag in ALL_ARCHITECTURES:
has_arch_tags = True
# If there were no arch tags, the symbol is available for all
# architectures. If there were any arch tags, the symbol is only available
# for the tagged architectures.
return not has_arch_tags
def symbol_in_api(tags, arch, api):
"""Returns true if the symbol is present for the given API level."""
introduced_tag = None
arch_specific = False
for tag in tags:
# If there is an arch-specific tag, it should override the common one.
if tag.startswith('introduced=') and not arch_specific:
introduced_tag = tag
elif tag.startswith('introduced-' + arch + '='):
introduced_tag = tag
arch_specific = True
elif tag == 'future':
return api == FUTURE_API_LEVEL
if introduced_tag is None:
# We found no "introduced" tags, so the symbol has always been
# available.
return True
return api >= int(get_tag_value(introduced_tag))
def symbol_versioned_in_api(tags, api):
"""Returns true if the symbol should be versioned for the given API.
This models the `versioned=API` tag. This should be a very uncommonly
needed tag, and is really only needed to fix versioning mistakes that are
already out in the wild.
For example, some of libc's __aeabi_* functions were originally placed in
the private version, but that was incorrect. They are now in LIBC_N, but
when building against any version prior to N we need the symbol to be
unversioned (otherwise it won't resolve on M where it is private).
"""
for tag in tags:
if tag.startswith('versioned='):
return api >= int(get_tag_value(tag))
# If there is no "versioned" tag, the tag has been versioned for as long as
# it was introduced.
return True
class ParseError(RuntimeError):
"""An error that occurred while parsing a symbol file."""
class MultiplyDefinedSymbolError(RuntimeError):
"""A symbol name was multiply defined."""
def __init__(self, multiply_defined_symbols):
super(MultiplyDefinedSymbolError, self).__init__(
'Version script contains multiple definitions for: {}'.format(
', '.join(multiply_defined_symbols)))
self.multiply_defined_symbols = multiply_defined_symbols
class Version:
"""A version block of a symbol file."""
def __init__(self, name, base, tags, symbols):
self.name = name
self.base = base
self.tags = tags
self.symbols = symbols
def __eq__(self, other):
if self.name != other.name:
return False
if self.base != other.base:
return False
if self.tags != other.tags:
return False
if self.symbols != other.symbols:
return False
return True
class Symbol:
"""A symbol definition from a symbol file."""
def __init__(self, name, tags):
self.name = name
self.tags = tags
def __eq__(self, other):
return self.name == other.name and set(self.tags) == set(other.tags)
class SymbolFileParser:
"""Parses NDK symbol files."""
def __init__(self, input_file, api_map, arch, api, llndk, apex):
self.input_file = input_file
self.api_map = api_map
self.arch = arch
self.api = api
self.llndk = llndk
self.apex = apex
self.current_line = None
def parse(self):
"""Parses the symbol file and returns a list of Version objects."""
versions = []
while self.next_line() != '':
if '{' in self.current_line:
versions.append(self.parse_version())
else:
raise ParseError(
'Unexpected contents at top level: ' + self.current_line)
self.check_no_duplicate_symbols(versions)
return versions
def check_no_duplicate_symbols(self, versions):
"""Raises errors for multiply defined symbols.
This situation is the normal case when symbol versioning is actually
used, but this script doesn't currently handle that. The error message
will be a not necessarily obvious "error: redefition of 'foo'" from
stub.c, so it's better for us to catch this situation and raise a
better error.
"""
symbol_names = set()
multiply_defined_symbols = set()
for version in versions:
if should_omit_version(version, self.arch, self.api, self.llndk,
self.apex):
continue
for symbol in version.symbols:
if should_omit_symbol(symbol, self.arch, self.api, self.llndk,
self.apex):
continue
if symbol.name in symbol_names:
multiply_defined_symbols.add(symbol.name)
symbol_names.add(symbol.name)
if multiply_defined_symbols:
raise MultiplyDefinedSymbolError(
sorted(list(multiply_defined_symbols)))
def parse_version(self):
"""Parses a single version section and returns a Version object."""
name = self.current_line.split('{')[0].strip()
tags = get_tags(self.current_line)
tags = decode_api_level_tags(tags, self.api_map)
symbols = []
global_scope = True
cpp_symbols = False
while self.next_line() != '':
if '}' in self.current_line:
# Line is something like '} BASE; # tags'. Both base and tags
# are optional here.
base = self.current_line.partition('}')[2]
base = base.partition('#')[0].strip()
if not base.endswith(';'):
raise ParseError(
'Unterminated version/export "C++" block (expected ;).')
if cpp_symbols:
cpp_symbols = False
else:
base = base.rstrip(';').rstrip()
if base == '':
base = None
return Version(name, base, tags, symbols)
elif 'extern "C++" {' in self.current_line:
cpp_symbols = True
elif not cpp_symbols and ':' in self.current_line:
visibility = self.current_line.split(':')[0].strip()
if visibility == 'local':
global_scope = False
elif visibility == 'global':
global_scope = True
else:
raise ParseError('Unknown visiblity label: ' + visibility)
elif global_scope and not cpp_symbols:
symbols.append(self.parse_symbol())
else:
# We're in a hidden scope or in 'extern "C++"' block. Ignore
# everything.
pass
raise ParseError('Unexpected EOF in version block.')
def parse_symbol(self):
"""Parses a single symbol line and returns a Symbol object."""
if ';' not in self.current_line:
raise ParseError(
'Expected ; to terminate symbol: ' + self.current_line)
if '*' in self.current_line:
raise ParseError(
'Wildcard global symbols are not permitted.')
# Line is now in the format "<symbol-name>; # tags"
name, _, _ = self.current_line.strip().partition(';')
tags = get_tags(self.current_line)
tags = decode_api_level_tags(tags, self.api_map)
return Symbol(name, tags)
def next_line(self):
"""Returns the next non-empty non-comment line.
A return value of '' indicates EOF.
"""
line = self.input_file.readline()
while line.strip() == '' or line.strip().startswith('#'):
line = self.input_file.readline()
# We want to skip empty lines, but '' indicates EOF.
if line == '':
break
self.current_line = line
return self.current_line