#!/usr/bin/python3 # This Source Code Form is subject to the terms of the Mozilla Public # License, v. 2.0. If a copy of the MPL was not distributed with this # file, You can obtain one at http://mozilla.org/MPL/2.0/. # Only necessary for flake8 to be happy... from __future__ import print_function import os import os.path import shutil import subprocess import platform import json import argparse import fnmatch import glob import errno import re import sys import tarfile from contextlib import contextmanager from distutils.dir_util import copy_tree from shutil import which import zstandard def symlink(source, link_name): os_symlink = getattr(os, "symlink", None) if callable(os_symlink): os_symlink(source, link_name) else: if os.path.isdir(source): # Fall back to copying the directory :( copy_tree(source, link_name) def check_run(args): print(" ".join(args), file=sys.stderr, flush=True) if args[0] == "cmake": # CMake `message(STATUS)` messages, as appearing in failed source code # compiles, appear on stdout, so we only capture that. p = subprocess.Popen(args, stdout=subprocess.PIPE) lines = [] for line in p.stdout: lines.append(line) sys.stdout.write(line.decode()) sys.stdout.flush() r = p.wait() if r != 0: cmake_output_re = re.compile(b'See also "(.*/CMakeOutput.log)"') cmake_error_re = re.compile(b'See also "(.*/CMakeError.log)"') def find_first_match(re): for l in lines: match = re.search(l) if match: return match output_match = find_first_match(cmake_output_re) error_match = find_first_match(cmake_error_re) def dump_file(log): with open(log, "rb") as f: print("\nContents of", log, "follow\n", file=sys.stderr) print(f.read(), file=sys.stderr) if output_match: dump_file(output_match.group(1)) if error_match: dump_file(error_match.group(1)) else: r = subprocess.call(args) assert r == 0 def run_in(path, args): with chdir(path): check_run(args) @contextmanager def chdir(path): d = os.getcwd() print('cd "%s"' % path, file=sys.stderr) os.chdir(path) try: yield finally: print('cd "%s"' % d, file=sys.stderr) os.chdir(d) def patch(patch, srcdir): patch = os.path.realpath(patch) check_run(["patch", "-d", srcdir, "-p1", "-i", patch, "--fuzz=0", "-s"]) def import_clang_tidy(source_dir, build_clang_tidy_alpha, build_clang_tidy_external): clang_plugin_path = os.path.join(os.path.dirname(sys.argv[0]), "..", "clang-plugin") clang_tidy_path = os.path.join(source_dir, "clang-tools-extra/clang-tidy") sys.path.append(clang_plugin_path) from import_mozilla_checks import do_import import_options = { "alpha": build_clang_tidy_alpha, "external": build_clang_tidy_external, } do_import(clang_plugin_path, clang_tidy_path, import_options) def build_package(package_build_dir, cmake_args): if not os.path.exists(package_build_dir): os.mkdir(package_build_dir) # If CMake has already been run, it may have been run with different # arguments, so we need to re-run it. Make sure the cached copy of the # previous CMake run is cleared before running it again. if os.path.exists(package_build_dir + "/CMakeCache.txt"): os.remove(package_build_dir + "/CMakeCache.txt") if os.path.exists(package_build_dir + "/CMakeFiles"): shutil.rmtree(package_build_dir + "/CMakeFiles") run_in(package_build_dir, ["cmake"] + cmake_args) run_in(package_build_dir, ["ninja", "install", "-v"]) @contextmanager def updated_env(env): old_env = os.environ.copy() os.environ.update(env) yield os.environ.clear() os.environ.update(old_env) def build_tar_package(name, base, directory): name = os.path.realpath(name) print("tarring {} from {}/{}".format(name, base, directory), file=sys.stderr) assert name.endswith(".tar.zst") cctx = zstandard.ZstdCompressor() with open(name, "wb") as f, cctx.stream_writer(f) as z: with tarfile.open(mode="w|", fileobj=z) as tf: with chdir(base): tf.add(directory) def mkdir_p(path): try: os.makedirs(path) except OSError as e: if e.errno != errno.EEXIST or not os.path.isdir(path): raise def delete(path): if os.path.isdir(path): shutil.rmtree(path) else: try: os.unlink(path) except Exception: pass def install_libgcc(gcc_dir, clang_dir, is_final_stage): gcc_bin_dir = os.path.join(gcc_dir, "bin") # Copy over gcc toolchain bits that clang looks for, to ensure that # clang is using a consistent version of ld, since the system ld may # be incompatible with the output clang produces. But copy it to a # target-specific directory so a cross-compiler to Mac doesn't pick # up the (Linux-specific) ld with disastrous results. # # Only install this for the bootstrap process; we expect any consumers of # the newly-built toolchain to provide an appropriate ld themselves. if not is_final_stage: x64_bin_dir = os.path.join(clang_dir, "x86_64-unknown-linux-gnu", "bin") mkdir_p(x64_bin_dir) shutil.copy2(os.path.join(gcc_bin_dir, "ld"), x64_bin_dir) out = subprocess.check_output( [os.path.join(gcc_bin_dir, "gcc"), "-print-libgcc-file-name"] ) libgcc_dir = os.path.dirname(out.decode().rstrip()) clang_lib_dir = os.path.join( clang_dir, "lib", "gcc", "x86_64-unknown-linux-gnu", os.path.basename(libgcc_dir), ) mkdir_p(clang_lib_dir) copy_tree(libgcc_dir, clang_lib_dir, preserve_symlinks=True) libgcc_dir = os.path.join(gcc_dir, "lib64") clang_lib_dir = os.path.join(clang_dir, "lib") copy_tree(libgcc_dir, clang_lib_dir, preserve_symlinks=True) libgcc_dir = os.path.join(gcc_dir, "lib32") clang_lib_dir = os.path.join(clang_dir, "lib32") copy_tree(libgcc_dir, clang_lib_dir, preserve_symlinks=True) include_dir = os.path.join(gcc_dir, "include") clang_include_dir = os.path.join(clang_dir, "include") copy_tree(include_dir, clang_include_dir, preserve_symlinks=True) def install_import_library(build_dir, clang_dir): shutil.copy2( os.path.join(build_dir, "lib", "clang.lib"), os.path.join(clang_dir, "lib") ) def install_asan_symbols(build_dir, clang_dir): lib_path_pattern = os.path.join("lib", "clang", "*.*.*", "lib", "windows") src_path = glob.glob( os.path.join(build_dir, lib_path_pattern, "clang_rt.asan_dynamic-*.pdb") ) dst_path = glob.glob(os.path.join(clang_dir, lib_path_pattern)) if len(src_path) != 1: raise Exception("Source path pattern did not resolve uniquely") if len(src_path) != 1: raise Exception("Destination path pattern did not resolve uniquely") shutil.copy2(src_path[0], dst_path[0]) def is_darwin(): return platform.system() == "Darwin" def is_linux(): return platform.system() == "Linux" def is_windows(): return platform.system() == "Windows" def build_one_stage( cc, cxx, asm, ld, ar, ranlib, libtool, src_dir, stage_dir, package_name, build_libcxx, osx_cross_compile, build_type, assertions, python_path, gcc_dir, libcxx_include_dir, build_wasm, compiler_rt_source_dir=None, runtimes_source_link=None, compiler_rt_source_link=None, is_final_stage=False, android_targets=None, extra_targets=None, pgo_phase=None, ): if is_final_stage and (android_targets or extra_targets): # Linking compiler-rt under "runtimes" activates LLVM_RUNTIME_TARGETS # and related arguments. symlink(compiler_rt_source_dir, runtimes_source_link) try: os.unlink(compiler_rt_source_link) except Exception: pass if not os.path.exists(stage_dir): os.mkdir(stage_dir) build_dir = stage_dir + "/build" inst_dir = stage_dir + "/" + package_name # cmake doesn't deal well with backslashes in paths. def slashify_path(path): return path.replace("\\", "/") def cmake_base_args(cc, cxx, asm, ld, ar, ranlib, libtool, inst_dir): machine_targets = "X86;ARM;AArch64" if is_final_stage else "X86" cmake_args = [ "-GNinja", "-DCMAKE_C_COMPILER=%s" % slashify_path(cc[0]), "-DCMAKE_CXX_COMPILER=%s" % slashify_path(cxx[0]), "-DCMAKE_ASM_COMPILER=%s" % slashify_path(asm[0]), "-DCMAKE_LINKER=%s" % slashify_path(ld[0]), "-DCMAKE_AR=%s" % slashify_path(ar), "-DCMAKE_C_FLAGS=%s" % " ".join(cc[1:]), "-DCMAKE_CXX_FLAGS=%s" % " ".join(cxx[1:]), "-DCMAKE_ASM_FLAGS=%s" % " ".join(asm[1:]), "-DCMAKE_EXE_LINKER_FLAGS=%s" % " ".join(ld[1:]), "-DCMAKE_SHARED_LINKER_FLAGS=%s" % " ".join(ld[1:]), "-DCMAKE_BUILD_TYPE=%s" % build_type, "-DCMAKE_INSTALL_PREFIX=%s" % inst_dir, "-DLLVM_TARGETS_TO_BUILD=%s" % machine_targets, "-DLLVM_ENABLE_ASSERTIONS=%s" % ("ON" if assertions else "OFF"), "-DPYTHON_EXECUTABLE=%s" % slashify_path(python_path), "-DLLVM_TOOL_LIBCXX_BUILD=%s" % ("ON" if build_libcxx else "OFF"), "-DLLVM_ENABLE_BINDINGS=OFF", ] if "TASK_ID" in os.environ: cmake_args += [ "-DCLANG_REPOSITORY_STRING=taskcluster-%s" % os.environ["TASK_ID"], ] if not is_final_stage: cmake_args += ["-DLLVM_ENABLE_PROJECTS=clang;compiler-rt"] if build_wasm: cmake_args += ["-DLLVM_EXPERIMENTAL_TARGETS_TO_BUILD=WebAssembly"] if is_linux(): cmake_args += ["-DLLVM_BINUTILS_INCDIR=%s/include" % gcc_dir] cmake_args += ["-DLLVM_ENABLE_LIBXML2=FORCE_ON"] if is_windows(): cmake_args.insert(-1, "-DLLVM_EXPORT_SYMBOLS_FOR_PLUGINS=ON") cmake_args.insert(-1, "-DLLVM_USE_CRT_RELEASE=MT") else: # libllvm as a shared library is not supported on Windows cmake_args += ["-DLLVM_LINK_LLVM_DYLIB=ON"] if ranlib is not None: cmake_args += ["-DCMAKE_RANLIB=%s" % slashify_path(ranlib)] if libtool is not None: cmake_args += ["-DCMAKE_LIBTOOL=%s" % slashify_path(libtool)] if osx_cross_compile: cmake_args += [ "-DCMAKE_SYSTEM_NAME=Darwin", "-DCMAKE_SYSTEM_VERSION=10.10", # Xray requires a OSX 10.12 SDK (https://bugs.llvm.org/show_bug.cgi?id=38959) "-DCOMPILER_RT_BUILD_XRAY=OFF", "-DLIBCXXABI_LIBCXX_INCLUDES=%s" % libcxx_include_dir, "-DCMAKE_OSX_SYSROOT=%s" % slashify_path(os.getenv("CROSS_SYSROOT")), "-DCMAKE_FIND_ROOT_PATH=%s" % slashify_path(os.getenv("CROSS_SYSROOT")), "-DCMAKE_FIND_ROOT_PATH_MODE_PROGRAM=NEVER", "-DCMAKE_FIND_ROOT_PATH_MODE_LIBRARY=ONLY", "-DCMAKE_FIND_ROOT_PATH_MODE_INCLUDE=ONLY", "-DCMAKE_MACOSX_RPATH=ON", "-DCMAKE_OSX_ARCHITECTURES=x86_64", "-DDARWIN_osx_ARCHS=x86_64", "-DDARWIN_osx_SYSROOT=%s" % slashify_path(os.getenv("CROSS_SYSROOT")), "-DLLVM_DEFAULT_TARGET_TRIPLE=x86_64-apple-darwin", ] # Starting in LLVM 11 (which requires SDK 10.12) the build tries to # detect the SDK version by calling xcrun. Cross-compiles don't have # an xcrun, so we have to set the version explicitly. if "MacOSX10.12.sdk" in os.getenv("CROSS_SYSROOT"): cmake_args += [ "-DDARWIN_macosx_OVERRIDE_SDK_VERSION=10.12", ] if pgo_phase == "gen": # Per https://releases.llvm.org/10.0.0/docs/HowToBuildWithPGO.html cmake_args += [ "-DLLVM_BUILD_INSTRUMENTED=IR", "-DLLVM_BUILD_RUNTIME=No", ] if pgo_phase == "use": cmake_args += [ "-DLLVM_PROFDATA_FILE=%s/merged.profdata" % stage_dir, ] return cmake_args cmake_args = [] runtime_targets = [] if is_final_stage: if android_targets: runtime_targets = list(sorted(android_targets.keys())) if extra_targets: runtime_targets.extend(sorted(extra_targets)) if runtime_targets: cmake_args += [ "-DLLVM_BUILTIN_TARGETS=%s" % ";".join(runtime_targets), "-DLLVM_RUNTIME_TARGETS=%s" % ";".join(runtime_targets), ] for target in runtime_targets: cmake_args += [ "-DRUNTIMES_%s_COMPILER_RT_BUILD_PROFILE=ON" % target, "-DRUNTIMES_%s_COMPILER_RT_BUILD_SANITIZERS=ON" % target, "-DRUNTIMES_%s_COMPILER_RT_BUILD_XRAY=OFF" % target, "-DRUNTIMES_%s_SANITIZER_ALLOW_CXXABI=OFF" % target, "-DRUNTIMES_%s_COMPILER_RT_BUILD_LIBFUZZER=OFF" % target, "-DRUNTIMES_%s_COMPILER_RT_INCLUDE_TESTS=OFF" % target, "-DRUNTIMES_%s_LLVM_ENABLE_PER_TARGET_RUNTIME_DIR=OFF" % target, "-DRUNTIMES_%s_LLVM_INCLUDE_TESTS=OFF" % target, ] # The above code flipped switches to build various runtime libraries on # Android; we now have to provide all the necessary compiler switches to # make that work. if is_final_stage and android_targets: cmake_args += [ "-DLLVM_LIBDIR_SUFFIX=64", ] android_link_flags = "-fuse-ld=lld" for target, cfg in android_targets.items(): sysroot_dir = cfg["ndk_sysroot"].format(**os.environ) android_gcc_dir = cfg["ndk_toolchain"].format(**os.environ) android_include_dirs = cfg["ndk_includes"] api_level = cfg["api_level"] android_flags = [ "-isystem %s" % d.format(**os.environ) for d in android_include_dirs ] android_flags += ["--gcc-toolchain=%s" % android_gcc_dir] android_flags += ["-D__ANDROID_API__=%s" % api_level] # Our flags go last to override any --gcc-toolchain that may have # been set earlier. rt_c_flags = " ".join(cc[1:] + android_flags) rt_cxx_flags = " ".join(cxx[1:] + android_flags) rt_asm_flags = " ".join(asm[1:] + android_flags) for kind in ("BUILTINS", "RUNTIMES"): for var, arg in ( ("ANDROID", "1"), ("CMAKE_ASM_FLAGS", rt_asm_flags), ("CMAKE_CXX_FLAGS", rt_cxx_flags), ("CMAKE_C_FLAGS", rt_c_flags), ("CMAKE_EXE_LINKER_FLAGS", android_link_flags), ("CMAKE_SHARED_LINKER_FLAGS", android_link_flags), ("CMAKE_SYSROOT", sysroot_dir), ("ANDROID_NATIVE_API_LEVEL", api_level), ): cmake_args += ["-D%s_%s_%s=%s" % (kind, target, var, arg)] cmake_args += cmake_base_args(cc, cxx, asm, ld, ar, ranlib, libtool, inst_dir) cmake_args += [src_dir] build_package(build_dir, cmake_args) if is_linux(): install_libgcc(gcc_dir, inst_dir, is_final_stage) # For some reasons the import library clang.lib of clang.exe is not # installed, so we copy it by ourselves. if is_windows(): # The compiler-rt cmake scripts don't allow to build it for multiple # targets at once on Windows, so manually build the 32-bits compiler-rt # during the final stage. build_32_bit = False if is_final_stage: # Only build the 32-bits compiler-rt when we originally built for # 64-bits, which we detect through the contents of the LIB # environment variable, which we also adjust for a 32-bits build # at the same time. old_lib = os.environ["LIB"] new_lib = [] for l in old_lib.split(os.pathsep): if l.endswith("x64"): l = l[:-3] + "x86" build_32_bit = True elif l.endswith("amd64"): l = l[:-5] build_32_bit = True new_lib.append(l) if build_32_bit: os.environ["LIB"] = os.pathsep.join(new_lib) compiler_rt_build_dir = stage_dir + "/compiler-rt" compiler_rt_inst_dir = inst_dir + "/lib/clang/" subdirs = os.listdir(compiler_rt_inst_dir) assert len(subdirs) == 1 compiler_rt_inst_dir += subdirs[0] cmake_args = cmake_base_args( [os.path.join(inst_dir, "bin", "clang-cl.exe"), "-m32"] + cc[1:], [os.path.join(inst_dir, "bin", "clang-cl.exe"), "-m32"] + cxx[1:], [os.path.join(inst_dir, "bin", "clang-cl.exe"), "-m32"] + asm[1:], ld, ar, ranlib, libtool, compiler_rt_inst_dir, ) cmake_args += [ "-DLLVM_CONFIG_PATH=%s" % slashify_path(os.path.join(inst_dir, "bin", "llvm-config")), os.path.join(src_dir, "projects", "compiler-rt"), ] build_package(compiler_rt_build_dir, cmake_args) os.environ["LIB"] = old_lib if is_final_stage: install_import_library(build_dir, inst_dir) install_asan_symbols(build_dir, inst_dir) # Return the absolute path of a build tool. We first look to see if the # variable is defined in the config file, and if so we make sure it's an # absolute path to an existing tool, otherwise we look for a program in # $PATH named "key". # # This expects the name of the key in the config file to match the name of # the tool in the default toolchain on the system (for example, "ld" on Unix # and "link" on Windows). def get_tool(config, key): f = None if key in config: f = config[key].format(**os.environ) if os.path.isabs(f): if not os.path.exists(f): raise ValueError("%s must point to an existing path" % key) return f # Assume that we have the name of some program that should be on PATH. tool = which(f) if f else which(key) if not tool: raise ValueError("%s not found on PATH" % (f or key)) return tool # This function is intended to be called on the final build directory when # building clang-tidy. Also clang-format binaries are included that can be used # in conjunction with clang-tidy. # As a separate binary we also ship clangd for the language server protocol that # can be used as a plugin in `vscode`. # Its job is to remove all of the files which won't be used for clang-tidy or # clang-format to reduce the download size. Currently when this function # finishes its job, it will leave final_dir with a layout like this: # # clang/ # bin/ # clang-apply-replacements # clang-format # clang-tidy # clangd # include/ # * (nothing will be deleted here) # lib/ # clang/ # 4.0.0/ # include/ # * (nothing will be deleted here) # share/ # clang/ # clang-format-diff.py # clang-tidy-diff.py # run-clang-tidy.py def prune_final_dir_for_clang_tidy(final_dir, osx_cross_compile): # Make sure we only have what we expect. dirs = [ "bin", "include", "lib", "lib32", "libexec", "msbuild-bin", "share", "tools", ] if is_linux(): dirs.append("x86_64-unknown-linux-gnu") for f in glob.glob("%s/*" % final_dir): if os.path.basename(f) not in dirs: raise Exception("Found unknown file %s in the final directory" % f) if not os.path.isdir(f): raise Exception("Expected %s to be a directory" % f) kept_binaries = ["clang-apply-replacements", "clang-format", "clang-tidy", "clangd"] re_clang_tidy = re.compile(r"^(" + "|".join(kept_binaries) + r")(\.exe)?$", re.I) for f in glob.glob("%s/bin/*" % final_dir): if re_clang_tidy.search(os.path.basename(f)) is None: delete(f) # Keep include/ intact. # Remove the target-specific files. if is_linux(): if os.path.exists(os.path.join(final_dir, "x86_64-unknown-linux-gnu")): shutil.rmtree(os.path.join(final_dir, "x86_64-unknown-linux-gnu")) # In lib/, only keep lib/clang/N.M.O/include and the LLVM shared library. re_ver_num = re.compile(r"^\d+\.\d+\.\d+$", re.I) for f in glob.glob("%s/lib/*" % final_dir): name = os.path.basename(f) if name == "clang": continue if osx_cross_compile and name in ["libLLVM.dylib", "libclang-cpp.dylib"]: continue if is_linux() and ( fnmatch.fnmatch(name, "libLLVM*.so") or fnmatch.fnmatch(name, "libclang-cpp.so*") ): continue delete(f) for f in glob.glob("%s/lib/clang/*" % final_dir): if re_ver_num.search(os.path.basename(f)) is None: delete(f) for f in glob.glob("%s/lib/clang/*/*" % final_dir): if os.path.basename(f) != "include": delete(f) # Completely remove libexec/, msbuild-bin and tools, if it exists. shutil.rmtree(os.path.join(final_dir, "libexec")) for d in ("msbuild-bin", "tools"): d = os.path.join(final_dir, d) if os.path.exists(d): shutil.rmtree(d) # In share/, only keep share/clang/*tidy* re_clang_tidy = re.compile(r"format|tidy", re.I) for f in glob.glob("%s/share/*" % final_dir): if os.path.basename(f) != "clang": delete(f) for f in glob.glob("%s/share/clang/*" % final_dir): if re_clang_tidy.search(os.path.basename(f)) is None: delete(f) if __name__ == "__main__": parser = argparse.ArgumentParser() parser.add_argument( "-c", "--config", required=True, type=argparse.FileType("r"), help="Clang configuration file", ) parser.add_argument( "--clean", required=False, action="store_true", help="Clean the build directory" ) parser.add_argument( "--skip-tar", required=False, action="store_true", help="Skip tar packaging stage", ) parser.add_argument( "--skip-checkout", required=False, action="store_true", help="Do not checkout/revert source", ) args = parser.parse_args() if not os.path.exists("llvm/README.txt"): raise Exception( "The script must be run from the root directory of the llvm-project tree" ) source_dir = os.getcwd() build_dir = source_dir + "/build" if args.clean: shutil.rmtree(build_dir) os.sys.exit(0) llvm_source_dir = source_dir + "/llvm" extra_source_dir = source_dir + "/clang-tools-extra" clang_source_dir = source_dir + "/clang" lld_source_dir = source_dir + "/lld" compiler_rt_source_dir = source_dir + "/compiler-rt" libcxx_source_dir = source_dir + "/libcxx" libcxxabi_source_dir = source_dir + "/libcxxabi" exe_ext = "" if is_windows(): exe_ext = ".exe" cc_name = "clang" cxx_name = "clang++" if is_windows(): cc_name = "clang-cl" cxx_name = "clang-cl" config_dir = os.path.dirname(args.config.name) config = json.load(args.config) stages = 3 if "stages" in config: stages = int(config["stages"]) if stages not in (1, 2, 3, 4): raise ValueError("We only know how to build 1, 2, 3, or 4 stages.") pgo = False if "pgo" in config: pgo = config["pgo"] if pgo not in (True, False): raise ValueError("Only boolean values are accepted for pgo.") if pgo and stages != 4: raise ValueError("PGO is only supported in 4-stage builds.") build_type = "Release" if "build_type" in config: build_type = config["build_type"] if build_type not in ("Release", "Debug", "RelWithDebInfo", "MinSizeRel"): raise ValueError( "We only know how to do Release, Debug, RelWithDebInfo or " "MinSizeRel builds" ) build_libcxx = False if "build_libcxx" in config: build_libcxx = config["build_libcxx"] if build_libcxx not in (True, False): raise ValueError("Only boolean values are accepted for build_libcxx.") build_wasm = False if "build_wasm" in config: build_wasm = config["build_wasm"] if build_wasm not in (True, False): raise ValueError("Only boolean values are accepted for build_wasm.") build_clang_tidy = False if "build_clang_tidy" in config: build_clang_tidy = config["build_clang_tidy"] if build_clang_tidy not in (True, False): raise ValueError("Only boolean values are accepted for build_clang_tidy.") build_clang_tidy_alpha = False # check for build_clang_tidy_alpha only if build_clang_tidy is true if build_clang_tidy and "build_clang_tidy_alpha" in config: build_clang_tidy_alpha = config["build_clang_tidy_alpha"] if build_clang_tidy_alpha not in (True, False): raise ValueError( "Only boolean values are accepted for build_clang_tidy_alpha." ) build_clang_tidy_external = False # check for build_clang_tidy_external only if build_clang_tidy is true if build_clang_tidy and "build_clang_tidy_external" in config: build_clang_tidy_external = config["build_clang_tidy_external"] if build_clang_tidy_external not in (True, False): raise ValueError( "Only boolean values are accepted for build_clang_tidy_external." ) osx_cross_compile = False if "osx_cross_compile" in config: osx_cross_compile = config["osx_cross_compile"] if osx_cross_compile not in (True, False): raise ValueError("Only boolean values are accepted for osx_cross_compile.") if osx_cross_compile and not is_linux(): raise ValueError("osx_cross_compile can only be used on Linux.") assertions = False if "assertions" in config: assertions = config["assertions"] if assertions not in (True, False): raise ValueError("Only boolean values are accepted for assertions.") python_path = None if "python_path" not in config: raise ValueError("Config file needs to set python_path") python_path = config["python_path"] gcc_dir = None if "gcc_dir" in config: gcc_dir = config["gcc_dir"].format(**os.environ) if not os.path.exists(gcc_dir): raise ValueError("gcc_dir must point to an existing path") ndk_dir = None android_targets = None if "android_targets" in config: android_targets = config["android_targets"] for attr in ("ndk_toolchain", "ndk_sysroot", "ndk_includes", "api_level"): for target, cfg in android_targets.items(): if attr not in cfg: raise ValueError( "must specify '%s' as a key for android target: %s" % (attr, target) ) extra_targets = None if "extra_targets" in config: extra_targets = config["extra_targets"] if not isinstance(extra_targets, list): raise ValueError("extra_targets must be a list") if not all(isinstance(t, str) for t in extra_targets): raise ValueError("members of extra_targets should be strings") if is_linux() and gcc_dir is None: raise ValueError("Config file needs to set gcc_dir") if is_darwin() or osx_cross_compile: os.environ["MACOSX_DEPLOYMENT_TARGET"] = "10.12" cc = get_tool(config, "cc") cxx = get_tool(config, "cxx") asm = get_tool(config, "ml" if is_windows() else "as") ld = get_tool(config, "link" if is_windows() else "ld") ar = get_tool(config, "lib" if is_windows() else "ar") ranlib = None if is_windows() else get_tool(config, "ranlib") libtool = None if "libtool" in config: libtool = get_tool(config, "libtool") if not os.path.exists(source_dir): os.makedirs(source_dir) for p in config.get("patches", []): patch(os.path.join(config_dir, p), source_dir) compiler_rt_source_link = llvm_source_dir + "/projects/compiler-rt" symlinks = [ (clang_source_dir, llvm_source_dir + "/tools/clang"), (extra_source_dir, llvm_source_dir + "/tools/clang/tools/extra"), (lld_source_dir, llvm_source_dir + "/tools/lld"), (compiler_rt_source_dir, compiler_rt_source_link), (libcxx_source_dir, llvm_source_dir + "/projects/libcxx"), (libcxxabi_source_dir, llvm_source_dir + "/projects/libcxxabi"), ] for l in symlinks: # On Windows, we have to re-copy the whole directory every time. if not is_windows() and os.path.islink(l[1]): continue delete(l[1]) if os.path.exists(l[0]): symlink(l[0], l[1]) package_name = "clang" if build_clang_tidy: package_name = "clang-tidy" import_clang_tidy(source_dir, build_clang_tidy_alpha, build_clang_tidy_external) if not os.path.exists(build_dir): os.makedirs(build_dir) libcxx_include_dir = os.path.join(llvm_source_dir, "projects", "libcxx", "include") stage1_dir = build_dir + "/stage1" stage1_inst_dir = stage1_dir + "/" + package_name final_stage_dir = stage1_dir final_inst_dir = stage1_inst_dir if is_darwin(): extra_cflags = [] extra_cxxflags = ["-stdlib=libc++"] extra_cflags2 = [] extra_cxxflags2 = ["-stdlib=libc++"] extra_asmflags = [] extra_ldflags = [] elif is_linux(): extra_cflags = [] extra_cxxflags = [] # When building stage2 and stage3, we want the newly-built clang to pick # up whatever headers were installed from the gcc we used to build stage1, # always, rather than the system headers. Providing -gcc-toolchain # encourages clang to do that. extra_cflags2 = ["-fPIC", "-gcc-toolchain", stage1_inst_dir] # Silence clang's warnings about arguments not being used in compilation. extra_cxxflags2 = [ "-fPIC", "-Qunused-arguments", "-gcc-toolchain", stage1_inst_dir, ] extra_asmflags = [] # Avoid libLLVM internal function calls going through the PLT. extra_ldflags = ["-Wl,-Bsymbolic-functions"] # For whatever reason, LLVM's build system will set things up to turn # on -ffunction-sections and -fdata-sections, but won't turn on the # corresponding option to strip unused sections. We do it explicitly # here. LLVM's build system is also picky about turning on ICF, so # we do that explicitly here, too. extra_ldflags += ["-fuse-ld=gold", "-Wl,--gc-sections", "-Wl,--icf=safe"] if "LD_LIBRARY_PATH" in os.environ: os.environ["LD_LIBRARY_PATH"] = "%s/lib64/:%s" % ( gcc_dir, os.environ["LD_LIBRARY_PATH"], ) else: os.environ["LD_LIBRARY_PATH"] = "%s/lib64/" % gcc_dir elif is_windows(): extra_cflags = [] extra_cxxflags = [] # clang-cl would like to figure out what it's supposed to be emulating # by looking at an MSVC install, but we don't really have that here. # Force things on. extra_cflags2 = [] extra_cxxflags2 = [ "-fms-compatibility-version=19.15.26726", "-Xclang", "-std=c++14", ] extra_asmflags = [] extra_ldflags = [] if osx_cross_compile: # undo the damage done in the is_linux() block above, and also simulate # the is_darwin() block above. extra_cflags = [] extra_cxxflags = ["-stdlib=libc++"] extra_cxxflags2 = ["-stdlib=libc++"] extra_flags = [ "-target", "x86_64-apple-darwin", "-mlinker-version=137", "-B", "%s/bin" % os.getenv("CROSS_CCTOOLS_PATH"), "-isysroot", os.getenv("CROSS_SYSROOT"), # technically the sysroot flag there should be enough to deduce this, # but clang needs some help to figure this out. "-I%s/usr/include" % os.getenv("CROSS_SYSROOT"), "-iframework", "%s/System/Library/Frameworks" % os.getenv("CROSS_SYSROOT"), ] extra_cflags += extra_flags extra_cxxflags += extra_flags extra_cflags2 += extra_flags extra_cxxflags2 += extra_flags extra_asmflags += extra_flags extra_ldflags = [ "-Wl,-syslibroot,%s" % os.getenv("CROSS_SYSROOT"), "-Wl,-dead_strip", ] upload_dir = os.getenv("UPLOAD_DIR") if assertions and upload_dir: extra_cflags2 += ["-fcrash-diagnostics-dir=%s" % upload_dir] extra_cxxflags2 += ["-fcrash-diagnostics-dir=%s" % upload_dir] build_one_stage( [cc] + extra_cflags, [cxx] + extra_cxxflags, [asm] + extra_asmflags, [ld] + extra_ldflags, ar, ranlib, libtool, llvm_source_dir, stage1_dir, package_name, build_libcxx, osx_cross_compile, build_type, assertions, python_path, gcc_dir, libcxx_include_dir, build_wasm, is_final_stage=(stages == 1), ) runtimes_source_link = llvm_source_dir + "/runtimes/compiler-rt" if stages >= 2: stage2_dir = build_dir + "/stage2" stage2_inst_dir = stage2_dir + "/" + package_name final_stage_dir = stage2_dir final_inst_dir = stage2_inst_dir pgo_phase = "gen" if pgo else None build_one_stage( [stage1_inst_dir + "/bin/%s%s" % (cc_name, exe_ext)] + extra_cflags2, [stage1_inst_dir + "/bin/%s%s" % (cxx_name, exe_ext)] + extra_cxxflags2, [stage1_inst_dir + "/bin/%s%s" % (cc_name, exe_ext)] + extra_asmflags, [ld] + extra_ldflags, ar, ranlib, libtool, llvm_source_dir, stage2_dir, package_name, build_libcxx, osx_cross_compile, build_type, assertions, python_path, gcc_dir, libcxx_include_dir, build_wasm, compiler_rt_source_dir, runtimes_source_link, compiler_rt_source_link, is_final_stage=(stages == 2), android_targets=android_targets, extra_targets=extra_targets, pgo_phase=pgo_phase, ) if stages >= 3: stage3_dir = build_dir + "/stage3" stage3_inst_dir = stage3_dir + "/" + package_name final_stage_dir = stage3_dir final_inst_dir = stage3_inst_dir build_one_stage( [stage2_inst_dir + "/bin/%s%s" % (cc_name, exe_ext)] + extra_cflags2, [stage2_inst_dir + "/bin/%s%s" % (cxx_name, exe_ext)] + extra_cxxflags2, [stage2_inst_dir + "/bin/%s%s" % (cc_name, exe_ext)] + extra_asmflags, [ld] + extra_ldflags, ar, ranlib, libtool, llvm_source_dir, stage3_dir, package_name, build_libcxx, osx_cross_compile, build_type, assertions, python_path, gcc_dir, libcxx_include_dir, build_wasm, compiler_rt_source_dir, runtimes_source_link, compiler_rt_source_link, (stages == 3), extra_targets=extra_targets, ) if stages >= 4: stage4_dir = build_dir + "/stage4" stage4_inst_dir = stage4_dir + "/" + package_name final_stage_dir = stage4_dir final_inst_dir = stage4_inst_dir pgo_phase = None if pgo: pgo_phase = "use" llvm_profdata = stage3_inst_dir + "/bin/llvm-profdata%s" % exe_ext merge_cmd = [llvm_profdata, "merge", "-o", "merged.profdata"] profraw_files = glob.glob( os.path.join(stage2_dir, "build", "profiles", "*.profraw") ) if not os.path.exists(stage4_dir): os.mkdir(stage4_dir) run_in(stage4_dir, merge_cmd + profraw_files) build_one_stage( [stage3_inst_dir + "/bin/%s%s" % (cc_name, exe_ext)] + extra_cflags2, [stage3_inst_dir + "/bin/%s%s" % (cxx_name, exe_ext)] + extra_cxxflags2, [stage3_inst_dir + "/bin/%s%s" % (cc_name, exe_ext)] + extra_asmflags, [ld] + extra_ldflags, ar, ranlib, libtool, llvm_source_dir, stage4_dir, package_name, build_libcxx, osx_cross_compile, build_type, assertions, python_path, gcc_dir, libcxx_include_dir, build_wasm, compiler_rt_source_dir, runtimes_source_link, compiler_rt_source_link, (stages == 4), extra_targets=extra_targets, pgo_phase=pgo_phase, ) if build_clang_tidy: prune_final_dir_for_clang_tidy( os.path.join(final_stage_dir, package_name), osx_cross_compile ) # Copy the wasm32 builtins to the final_inst_dir if the archive is present. if "wasi-sysroot" in config: sysroot = config["wasi-sysroot"].format(**os.environ) if os.path.isdir(sysroot): for srcdir in glob.glob( os.path.join(sysroot, "lib", "clang", "*", "lib", "wasi") ): print("Copying from wasi-sysroot srcdir %s" % srcdir) # Copy the contents of the "lib/wasi" subdirectory to the # appropriate location in final_inst_dir. version = os.path.basename(os.path.dirname(os.path.dirname(srcdir))) destdir = os.path.join( final_inst_dir, "lib", "clang", version, "lib", "wasi" ) mkdir_p(destdir) copy_tree(srcdir, destdir) if not args.skip_tar: build_tar_package("%s.tar.zst" % package_name, final_stage_dir, package_name)