#!/usr/bin/env python3 # Generates a version script for an architecture so that it can be incorporated # into gcc_s.ver. from collections import defaultdict from itertools import chain import argparse, subprocess, sys, os def split_suffix(symbol): """ Splits a symbol such as `__gttf2@GCC_3.0` into a triple representing its function name (__gttf2), version name (GCC_3.0), and version number (300). The version number acts as a priority. Since earlier versions are more accessible and are likely to be used more, the lower the number is, the higher its priortiy. A symbol that has a '@@' instead of '@' has been designated by the linker as the default symbol, and is awarded a priority of -1. """ if "@" not in symbol: return None data = [i for i in filter(lambda s: s, symbol.split("@"))] _, version = data[-1].split("_") version = version.replace(".", "") priority = -1 if "@@" in symbol else int(version + "0" * (3 - len(version))) return data[0], data[1], priority def invert_mapping(symbol_map): """Transforms a map from Key->Value to Value->Key.""" store = defaultdict(list) for symbol, (version, _) in symbol_map.items(): store[version].append(symbol) result = [] for k, v in store.items(): v.sort() result.append((k, v)) result.sort(key=lambda x: x[0]) return result def intersection(llvm, gcc): """ Finds the intersection between the symbols extracted from compiler-rt.a/libunwind.a and libgcc_s.so.1. """ common_symbols = {} for i in gcc: suffix_triple = split_suffix(i) if not suffix_triple: continue symbol, version_name, version_number = suffix_triple if symbol in llvm: if symbol not in common_symbols: common_symbols[symbol] = (version_name, version_number) continue if version_number < common_symbols[symbol][1]: common_symbols[symbol] = (version_name, version_number) return invert_mapping(common_symbols) def find_function_names(path): """ Runs readelf on a binary and reduces to only defined functions. Equivalent to `llvm-readelf --wide ${path} | grep 'FUNC' | grep -v 'UND' | awk '{print $8}'`. """ result = subprocess.run(args=["llvm-readelf", "-su", path], capture_output=True) if result.returncode != 0: print(result.stderr.decode("utf-8"), file=sys.stderr) sys.exit(1) stdout = result.stdout.decode("utf-8") stdout = filter(lambda x: "FUNC" in x and "UND" not in x, stdout.split("\n")) stdout = chain(map(lambda x: filter(None, x), (i.split(" ") for i in stdout))) return [list(i)[7] for i in stdout] def to_file(versioned_symbols): path = f"{os.path.dirname(os.path.realpath(__file__))}/new-gcc_s-symbols" with open(path, "w") as f: f.write( "Do not check this version script in: you should instead work " "out which symbols are missing in `lib/gcc_s.ver` and then " "integrate them into `lib/gcc_s.ver`. For more information, " "please see `doc/LLVMLibgcc.rst`.\n" ) for version, symbols in versioned_symbols: f.write(f"{version} {{\n") for i in symbols: f.write(f" {i};\n") f.write("};\n\n") def read_args(): parser = argparse.ArgumentParser() parser.add_argument( "--compiler_rt", type=str, help="Path to `libclang_rt.builtins-${ARCH}.a`.", required=True, ) parser.add_argument( "--libunwind", type=str, help="Path to `libunwind.a`.", required=True ) parser.add_argument( "--libgcc_s", type=str, help="Path to `libgcc_s.so.1`. Note that unlike the other two arguments, this is a dynamic library.", required=True, ) return parser.parse_args() def main(): args = read_args() llvm = find_function_names(args.compiler_rt) + find_function_names(args.libunwind) gcc = find_function_names(args.libgcc_s) versioned_symbols = intersection(llvm, gcc) # TODO(cjdb): work out a way to integrate new symbols in with the existing # ones to_file(versioned_symbols) if __name__ == "__main__": main()