from __future__ import absolute_import, division, print_function import argparse import contextlib import datetime import hashlib import os import re import shutil import subprocess import sys import tarfile import tempfile from time import time def get(url, path, verbose=False): suffix = '.sha256' sha_url = url + suffix with tempfile.NamedTemporaryFile(delete=False) as temp_file: temp_path = temp_file.name with tempfile.NamedTemporaryFile(suffix=suffix, delete=False) as sha_file: sha_path = sha_file.name try: download(sha_path, sha_url, False, verbose) if os.path.exists(path): if verify(path, sha_path, False): if verbose: print("using already-download file", path) return else: if verbose: print("ignoring already-download file", path, "due to failed verification") os.unlink(path) download(temp_path, url, True, verbose) if not verify(temp_path, sha_path, verbose): raise RuntimeError("failed verification") if verbose: print("moving {} to {}".format(temp_path, path)) shutil.move(temp_path, path) finally: delete_if_present(sha_path, verbose) delete_if_present(temp_path, verbose) def delete_if_present(path, verbose): """Remove the given file if present""" if os.path.isfile(path): if verbose: print("removing", path) os.unlink(path) def download(path, url, probably_big, verbose): for _ in range(0, 4): try: _download(path, url, probably_big, verbose, True) return except RuntimeError: print("\nspurious failure, trying again") _download(path, url, probably_big, verbose, False) def _download(path, url, probably_big, verbose, exception): if probably_big or verbose: print("downloading {}".format(url)) # see http://serverfault.com/questions/301128/how-to-download if sys.platform == 'win32': run(["PowerShell.exe", "/nologo", "-Command", "[Net.ServicePointManager]::SecurityProtocol = [Net.SecurityProtocolType]::Tls12;", "(New-Object System.Net.WebClient).DownloadFile('{}', '{}')".format(url, path)], verbose=verbose, exception=exception) else: if probably_big or verbose: option = "-#" else: option = "-s" run(["curl", option, "-y", "30", "-Y", "10", # timeout if speed is < 10 bytes/sec for > 30 seconds "--connect-timeout", "30", # timeout if cannot connect within 30 seconds "--retry", "3", "-Sf", "-o", path, url], verbose=verbose, exception=exception) def verify(path, sha_path, verbose): """Check if the sha256 sum of the given path is valid""" if verbose: print("verifying", path) with open(path, "rb") as source: found = hashlib.sha256(source.read()).hexdigest() with open(sha_path, "r") as sha256sum: expected = sha256sum.readline().split()[0] verified = found == expected if not verified: print("invalid checksum:\n" " found: {}\n" " expected: {}".format(found, expected)) return verified def unpack(tarball, dst, verbose=False, match=None): """Unpack the given tarball file""" print("extracting", tarball) fname = os.path.basename(tarball).replace(".tar.gz", "") with contextlib.closing(tarfile.open(tarball)) as tar: for member in tar.getnames(): if "/" not in member: continue name = member.replace(fname + "/", "", 1) if match is not None and not name.startswith(match): continue name = name[len(match) + 1:] dst_path = os.path.join(dst, name) if verbose: print(" extracting", member) tar.extract(member, dst) src_path = os.path.join(dst, member) if os.path.isdir(src_path) and os.path.exists(dst_path): continue shutil.move(src_path, dst_path) shutil.rmtree(os.path.join(dst, fname)) def run(args, verbose=False, exception=False, **kwargs): """Run a child program in a new process""" if verbose: print("running: " + ' '.join(args)) sys.stdout.flush() # Use Popen here instead of call() as it apparently allows powershell on # Windows to not lock up waiting for input presumably. ret = subprocess.Popen(args, **kwargs) code = ret.wait() if code != 0: err = "failed to run: " + ' '.join(args) if verbose or exception: raise RuntimeError(err) sys.exit(err) def stage0_data(rust_root): """Build a dictionary from stage0.txt""" nightlies = os.path.join(rust_root, "src/stage0.txt") with open(nightlies, 'r') as nightlies: lines = [line.rstrip() for line in nightlies if not line.startswith("#")] return dict([line.split(": ", 1) for line in lines if line]) def format_build_time(duration): """Return a nicer format for build time >>> format_build_time('300') '0:05:00' """ return str(datetime.timedelta(seconds=int(duration))) def default_build_triple(): """Build triple as in LLVM""" default_encoding = sys.getdefaultencoding() try: ostype = subprocess.check_output( ['uname', '-s']).strip().decode(default_encoding) cputype = subprocess.check_output( ['uname', '-m']).strip().decode(default_encoding) except (subprocess.CalledProcessError, OSError): if sys.platform == 'win32': return 'x86_64-pc-windows-msvc' err = "uname not found" sys.exit(err) # The goal here is to come up with the same triple as LLVM would, # at least for the subset of platforms we're willing to target. ostype_mapper = { 'Bitrig': 'unknown-bitrig', 'Darwin': 'apple-darwin', 'DragonFly': 'unknown-dragonfly', 'FreeBSD': 'unknown-freebsd', 'Haiku': 'unknown-haiku', 'NetBSD': 'unknown-netbsd', 'OpenBSD': 'unknown-openbsd' } # Consider the direct transformation first and then the special cases if ostype in ostype_mapper: ostype = ostype_mapper[ostype] elif ostype == 'Linux': os_from_sp = subprocess.check_output( ['uname', '-o']).strip().decode(default_encoding) if os_from_sp == 'Android': ostype = 'linux-android' else: ostype = 'unknown-linux-gnu' elif ostype == 'SunOS': ostype = 'sun-solaris' # On Solaris, uname -m will return a machine classification instead # of a cpu type, so uname -p is recommended instead. However, the # output from that option is too generic for our purposes (it will # always emit 'i386' on x86/amd64 systems). As such, isainfo -k # must be used instead. try: cputype = subprocess.check_output( ['isainfo', '-k']).strip().decode(default_encoding) except (subprocess.CalledProcessError, OSError): err = "isainfo not found" sys.exit(err) elif ostype.startswith('MINGW'): # msys' `uname` does not print gcc configuration, but prints msys # configuration. so we cannot believe `uname -m`: # msys1 is always i686 and msys2 is always x86_64. # instead, msys defines $MSYSTEM which is MINGW32 on i686 and # MINGW64 on x86_64. ostype = 'pc-windows-gnu' cputype = 'i686' if os.environ.get('MSYSTEM') == 'MINGW64': cputype = 'x86_64' elif ostype.startswith('MSYS'): ostype = 'pc-windows-gnu' elif ostype.startswith('CYGWIN_NT'): cputype = 'i686' if ostype.endswith('WOW64'): cputype = 'x86_64' ostype = 'pc-windows-gnu' else: err = "unknown OS type: {}".format(ostype) sys.exit(err) if cputype == 'powerpc' and ostype == 'unknown-freebsd': cputype = subprocess.check_output( ['uname', '-p']).strip().decode(default_encoding) cputype_mapper = { 'BePC': 'i686', 'aarch64': 'aarch64', 'amd64': 'x86_64', 'arm64': 'aarch64', 'i386': 'i686', 'i486': 'i686', 'i686': 'i686', 'i786': 'i686', 'powerpc': 'powerpc', 'powerpc64': 'powerpc64', 'powerpc64le': 'powerpc64le', 'ppc': 'powerpc', 'ppc64': 'powerpc64', 'ppc64le': 'powerpc64le', 's390x': 's390x', 'x64': 'x86_64', 'x86': 'i686', 'x86-64': 'x86_64', 'x86_64': 'x86_64' } # Consider the direct transformation first and then the special cases if cputype in cputype_mapper: cputype = cputype_mapper[cputype] elif cputype in {'xscale', 'arm'}: cputype = 'arm' if ostype == 'linux-android': ostype = 'linux-androideabi' elif cputype == 'armv6l': cputype = 'arm' if ostype == 'linux-android': ostype = 'linux-androideabi' else: ostype += 'eabihf' elif cputype in {'armv7l', 'armv8l'}: cputype = 'armv7' if ostype == 'linux-android': ostype = 'linux-androideabi' else: ostype += 'eabihf' elif cputype == 'mips': if sys.byteorder == 'big': cputype = 'mips' elif sys.byteorder == 'little': cputype = 'mipsel' else: raise ValueError("unknown byteorder: {}".format(sys.byteorder)) elif cputype == 'mips64': if sys.byteorder == 'big': cputype = 'mips64' elif sys.byteorder == 'little': cputype = 'mips64el' else: raise ValueError('unknown byteorder: {}'.format(sys.byteorder)) # only the n64 ABI is supported, indicate it ostype += 'abi64' elif cputype == 'sparc' or cputype == 'sparcv9' or cputype == 'sparc64': pass else: err = "unknown cpu type: {}".format(cputype) sys.exit(err) return "{}-{}".format(cputype, ostype) @contextlib.contextmanager def output(filepath): tmp = filepath + '.tmp' with open(tmp, 'w') as f: yield f try: os.remove(filepath) # PermissionError/OSError on Win32 if in use os.rename(tmp, filepath) except OSError: shutil.copy2(tmp, filepath) os.remove(tmp) class RustBuild(object): """Provide all the methods required to build Rust""" def __init__(self): self.cargo_channel = '' self.date = '' self._download_url = 'https://static.rust-lang.org' self.rustc_channel = '' self.build = '' self.build_dir = os.path.join(os.getcwd(), "build") self.clean = False self.config_toml = '' self.rust_root = '' self.use_locked_deps = '' self.use_vendored_sources = '' self.verbose = False def download_stage0(self): """Fetch the build system for Rust, written in Rust This method will build a cache directory, then it will fetch the tarball which has the stage0 compiler used to then bootstrap the Rust compiler itself. Each downloaded tarball is extracted, after that, the script will move all the content to the right place. """ rustc_channel = self.rustc_channel cargo_channel = self.cargo_channel if self.rustc().startswith(self.bin_root()) and \ (not os.path.exists(self.rustc()) or self.program_out_of_date(self.rustc_stamp())): if os.path.exists(self.bin_root()): shutil.rmtree(self.bin_root()) filename = "rust-std-{}-{}.tar.gz".format( rustc_channel, self.build) pattern = "rust-std-{}".format(self.build) self._download_stage0_helper(filename, pattern) filename = "rustc-{}-{}.tar.gz".format(rustc_channel, self.build) self._download_stage0_helper(filename, "rustc") self.fix_executable("{}/bin/rustc".format(self.bin_root())) self.fix_executable("{}/bin/rustdoc".format(self.bin_root())) with output(self.rustc_stamp()) as rust_stamp: rust_stamp.write(self.date) # This is required so that we don't mix incompatible MinGW # libraries/binaries that are included in rust-std with # the system MinGW ones. if "pc-windows-gnu" in self.build: filename = "rust-mingw-{}-{}.tar.gz".format( rustc_channel, self.build) self._download_stage0_helper(filename, "rust-mingw") if self.cargo().startswith(self.bin_root()) and \ (not os.path.exists(self.cargo()) or self.program_out_of_date(self.cargo_stamp())): filename = "cargo-{}-{}.tar.gz".format(cargo_channel, self.build) self._download_stage0_helper(filename, "cargo") self.fix_executable("{}/bin/cargo".format(self.bin_root())) with output(self.cargo_stamp()) as cargo_stamp: cargo_stamp.write(self.date) def _download_stage0_helper(self, filename, pattern): cache_dst = os.path.join(self.build_dir, "cache") rustc_cache = os.path.join(cache_dst, self.date) if not os.path.exists(rustc_cache): os.makedirs(rustc_cache) url = "{}/dist/{}".format(self._download_url, self.date) tarball = os.path.join(rustc_cache, filename) if not os.path.exists(tarball): get("{}/{}".format(url, filename), tarball, verbose=self.verbose) unpack(tarball, self.bin_root(), match=pattern, verbose=self.verbose) @staticmethod def fix_executable(fname): """Modifies the interpreter section of 'fname' to fix the dynamic linker This method is only required on NixOS and uses the PatchELF utility to change the dynamic linker of ELF executables. Please see https://nixos.org/patchelf.html for more information """ default_encoding = sys.getdefaultencoding() try: ostype = subprocess.check_output( ['uname', '-s']).strip().decode(default_encoding) except subprocess.CalledProcessError: return except OSError as reason: if getattr(reason, 'winerror', None) is not None: return raise reason if ostype != "Linux": return if not os.path.exists("/etc/NIXOS"): return if os.path.exists("/lib"): return # At this point we're pretty sure the user is running NixOS nix_os_msg = "info: you seem to be running NixOS. Attempting to patch" print(nix_os_msg, fname) try: interpreter = subprocess.check_output( ["patchelf", "--print-interpreter", fname]) interpreter = interpreter.strip().decode(default_encoding) except subprocess.CalledProcessError as reason: print("warning: failed to call patchelf:", reason) return loader = interpreter.split("/")[-1] try: ldd_output = subprocess.check_output( ['ldd', '/run/current-system/sw/bin/sh']) ldd_output = ldd_output.strip().decode(default_encoding) except subprocess.CalledProcessError as reason: print("warning: unable to call ldd:", reason) return for line in ldd_output.splitlines(): libname = line.split()[0] if libname.endswith(loader): loader_path = libname[:len(libname) - len(loader)] break else: print("warning: unable to find the path to the dynamic linker") return correct_interpreter = loader_path + loader try: subprocess.check_output( ["patchelf", "--set-interpreter", correct_interpreter, fname]) except subprocess.CalledProcessError as reason: print("warning: failed to call patchelf:", reason) return def rustc_stamp(self): """Return the path for .rustc-stamp >>> rb = RustBuild() >>> rb.build_dir = "build" >>> rb.rustc_stamp() == os.path.join("build", "stage0", ".rustc-stamp") True """ return os.path.join(self.bin_root(), '.rustc-stamp') def cargo_stamp(self): """Return the path for .cargo-stamp >>> rb = RustBuild() >>> rb.build_dir = "build" >>> rb.cargo_stamp() == os.path.join("build", "stage0", ".cargo-stamp") True """ return os.path.join(self.bin_root(), '.cargo-stamp') def program_out_of_date(self, stamp_path): """Check if the given program stamp is out of date""" if not os.path.exists(stamp_path) or self.clean: return True with open(stamp_path, 'r') as stamp: return self.date != stamp.read() def bin_root(self): """Return the binary root directory >>> rb = RustBuild() >>> rb.build_dir = "build" >>> rb.bin_root() == os.path.join("build", "stage0") True When the 'build' property is given should be a nested directory: >>> rb.build = "devel" >>> rb.bin_root() == os.path.join("build", "devel", "stage0") True """ return os.path.join(self.build_dir, self.build, "stage0") def get_toml(self, key, section=None): """Returns the value of the given key in config.toml, otherwise returns None >>> rb = RustBuild() >>> rb.config_toml = 'key1 = "value1"\\nkey2 = "value2"' >>> rb.get_toml("key2") 'value2' If the key does not exists, the result is None: >>> rb.get_toml("key3") is None True Optionally also matches the section the key appears in >>> rb.config_toml = '[a]\\nkey = "value1"\\n[b]\\nkey = "value2"' >>> rb.get_toml('key', 'a') 'value1' >>> rb.get_toml('key', 'b') 'value2' >>> rb.get_toml('key', 'c') is None True """ cur_section = None for line in self.config_toml.splitlines(): section_match = re.match(r'^\s*\[(.*)\]\s*$', line) if section_match is not None: cur_section = section_match.group(1) match = re.match(r'^{}\s*=(.*)$'.format(key), line) if match is not None: value = match.group(1) if section is None or section == cur_section: return self.get_string(value) or value.strip() return None def cargo(self): """Return config path for cargo""" return self.program_config('cargo') def rustc(self): """Return config path for rustc""" return self.program_config('rustc') def program_config(self, program): """Return config path for the given program >>> rb = RustBuild() >>> rb.config_toml = 'rustc = "rustc"\\n' >>> rb.program_config('rustc') 'rustc' >>> rb.config_toml = '' >>> cargo_path = rb.program_config('cargo') >>> cargo_path.rstrip(".exe") == os.path.join(rb.bin_root(), ... "bin", "cargo") True """ config = self.get_toml(program) if config: return os.path.expanduser(config) return os.path.join(self.bin_root(), "bin", "{}{}".format( program, self.exe_suffix())) @staticmethod def get_string(line): """Return the value between double quotes >>> RustBuild.get_string(' "devel" ') 'devel' """ start = line.find('"') if start != -1: end = start + 1 + line[start + 1:].find('"') return line[start + 1:end] start = line.find('\'') if start != -1: end = start + 1 + line[start + 1:].find('\'') return line[start + 1:end] return None @staticmethod def exe_suffix(): """Return a suffix for executables""" if sys.platform == 'win32': return '.exe' return '' def bootstrap_binary(self): """Return the path of the bootstrap binary >>> rb = RustBuild() >>> rb.build_dir = "build" >>> rb.bootstrap_binary() == os.path.join("build", "bootstrap", ... "debug", "bootstrap") True """ return os.path.join(self.build_dir, "bootstrap", "debug", "bootstrap") def build_bootstrap(self): """Build bootstrap""" build_dir = os.path.join(self.build_dir, "bootstrap") if self.clean and os.path.exists(build_dir): shutil.rmtree(build_dir) env = os.environ.copy() env["RUSTC_BOOTSTRAP"] = '1' env["CARGO_TARGET_DIR"] = build_dir env["RUSTC"] = self.rustc() env["LD_LIBRARY_PATH"] = os.path.join(self.bin_root(), "lib") + \ (os.pathsep + env["LD_LIBRARY_PATH"]) \ if "LD_LIBRARY_PATH" in env else "" env["DYLD_LIBRARY_PATH"] = os.path.join(self.bin_root(), "lib") + \ (os.pathsep + env["DYLD_LIBRARY_PATH"]) \ if "DYLD_LIBRARY_PATH" in env else "" env["LIBRARY_PATH"] = os.path.join(self.bin_root(), "lib") + \ (os.pathsep + env["LIBRARY_PATH"]) \ if "LIBRARY_PATH" in env else "" env["RUSTFLAGS"] = "-Cdebuginfo=2 " build_section = "target.{}".format(self.build_triple()) target_features = [] if self.get_toml("crt-static", build_section) == "true": target_features += ["+crt-static"] elif self.get_toml("crt-static", build_section) == "false": target_features += ["-crt-static"] if target_features: env["RUSTFLAGS"] += "-C target-feature=" + (",".join(target_features)) + " " target_linker = self.get_toml("linker", build_section) if target_linker is not None: env["RUSTFLAGS"] += "-C linker=" + target_linker + " " env["PATH"] = os.path.join(self.bin_root(), "bin") + \ os.pathsep + env["PATH"] if not os.path.isfile(self.cargo()): raise Exception("no cargo executable found at `{}`".format( self.cargo())) args = [self.cargo(), "build", "--manifest-path", os.path.join(self.rust_root, "src/bootstrap/Cargo.toml")] for _ in range(1, self.verbose): args.append("--verbose") if self.use_locked_deps: args.append("--locked") if self.use_vendored_sources: args.append("--frozen") run(args, env=env, verbose=self.verbose) def build_triple(self): """Build triple as in LLVM""" config = self.get_toml('build') if config: return config return default_build_triple() def check_submodule(self, module, slow_submodules): if not slow_submodules: checked_out = subprocess.Popen(["git", "rev-parse", "HEAD"], cwd=os.path.join(self.rust_root, module), stdout=subprocess.PIPE) return checked_out else: return None def update_submodule(self, module, checked_out, recorded_submodules): module_path = os.path.join(self.rust_root, module) if checked_out != None: default_encoding = sys.getdefaultencoding() checked_out = checked_out.communicate()[0].decode(default_encoding).strip() if recorded_submodules[module] == checked_out: return print("Updating submodule", module) run(["git", "submodule", "-q", "sync", module], cwd=self.rust_root, verbose=self.verbose) run(["git", "submodule", "update", "--init", "--recursive", "--progress", module], cwd=self.rust_root, verbose=self.verbose) run(["git", "reset", "-q", "--hard"], cwd=module_path, verbose=self.verbose) run(["git", "clean", "-qdfx"], cwd=module_path, verbose=self.verbose) def update_submodules(self): """Update submodules""" if (not os.path.exists(os.path.join(self.rust_root, ".git"))) or \ self.get_toml('submodules') == "false": return slow_submodules = self.get_toml('fast-submodules') == "false" start_time = time() if slow_submodules: print('Unconditionally updating all submodules') else: print('Updating only changed submodules') default_encoding = sys.getdefaultencoding() submodules = [s.split(' ', 1)[1] for s in subprocess.check_output( ["git", "config", "--file", os.path.join(self.rust_root, ".gitmodules"), "--get-regexp", "path"] ).decode(default_encoding).splitlines()] filtered_submodules = [] submodules_names = [] for module in submodules: if module.endswith("llvm-project"): if self.get_toml('llvm-config') and self.get_toml('lld') != 'true': continue if module.endswith("llvm-emscripten"): backends = self.get_toml('codegen-backends') if backends is None or not 'emscripten' in backends: continue check = self.check_submodule(module, slow_submodules) filtered_submodules.append((module, check)) submodules_names.append(module) recorded = subprocess.Popen(["git", "ls-tree", "HEAD"] + submodules_names, cwd=self.rust_root, stdout=subprocess.PIPE) recorded = recorded.communicate()[0].decode(default_encoding).strip().splitlines() recorded_submodules = {} for data in recorded: data = data.split() recorded_submodules[data[3]] = data[2] for module in filtered_submodules: self.update_submodule(module[0], module[1], recorded_submodules) print("Submodules updated in %.2f seconds" % (time() - start_time)) def set_dev_environment(self): """Set download URL for development environment""" self._download_url = 'https://dev-static.rust-lang.org' def bootstrap(help_triggered): """Configure, fetch, build and run the initial bootstrap""" # If the user is asking for help, let them know that the whole download-and-build # process has to happen before anything is printed out. if help_triggered: print("info: Downloading and building bootstrap before processing --help") print(" command. See src/bootstrap/README.md for help with common") print(" commands.") parser = argparse.ArgumentParser(description='Build rust') parser.add_argument('--config') parser.add_argument('--build') parser.add_argument('--src') parser.add_argument('--clean', action='store_true') parser.add_argument('-v', '--verbose', action='count', default=0) args = [a for a in sys.argv if a != '-h' and a != '--help'] args, _ = parser.parse_known_args(args) # Configure initial bootstrap build = RustBuild() build.rust_root = args.src or os.path.abspath(os.path.join(__file__, '../../..')) build.verbose = args.verbose build.clean = args.clean try: with open(args.config or 'config.toml') as config: build.config_toml = config.read() except (OSError, IOError): pass match = re.search(r'\nverbose = (\d+)', build.config_toml) if match is not None: build.verbose = max(build.verbose, int(match.group(1))) build.use_vendored_sources = '\nvendor = true' in build.config_toml build.use_locked_deps = '\nlocked-deps = true' in build.config_toml if 'SUDO_USER' in os.environ and not build.use_vendored_sources: if os.environ.get('USER') != os.environ['SUDO_USER']: build.use_vendored_sources = True print('info: looks like you are running this command under `sudo`') print(' and so in order to preserve your $HOME this will now') print(' use vendored sources by default. Note that if this') print(' does not work you should run a normal build first') print(' before running a command like `sudo ./x.py install`') if build.use_vendored_sources: if not os.path.exists('.cargo'): os.makedirs('.cargo') with output('.cargo/config') as cargo_config: cargo_config.write(""" [source.crates-io] replace-with = 'vendored-sources' registry = 'https://example.com' [source.vendored-sources] directory = '{}/vendor' """.format(build.rust_root)) else: if os.path.exists('.cargo'): shutil.rmtree('.cargo') data = stage0_data(build.rust_root) build.date = data['date'] build.rustc_channel = data['rustc'] build.cargo_channel = data['cargo'] if 'dev' in data: build.set_dev_environment() build.update_submodules() # Fetch/build the bootstrap build.build = args.build or build.build_triple() build.download_stage0() sys.stdout.flush() build.build_bootstrap() sys.stdout.flush() # Run the bootstrap args = [build.bootstrap_binary()] args.extend(sys.argv[1:]) env = os.environ.copy() env["BUILD"] = build.build env["SRC"] = build.rust_root env["BOOTSTRAP_PARENT_ID"] = str(os.getpid()) env["BOOTSTRAP_PYTHON"] = sys.executable env["BUILD_DIR"] = build.build_dir env["RUSTC_BOOTSTRAP"] = '1' env["CARGO"] = build.cargo() env["RUSTC"] = build.rustc() run(args, env=env, verbose=build.verbose) def main(): """Entry point for the bootstrap process""" start_time = time() # x.py help ... if len(sys.argv) > 1 and sys.argv[1] == 'help': sys.argv = sys.argv[:1] + [sys.argv[2], '-h'] + sys.argv[3:] help_triggered = ( '-h' in sys.argv) or ('--help' in sys.argv) or (len(sys.argv) == 1) try: bootstrap(help_triggered) if not help_triggered: print("Build completed successfully in {}".format( format_build_time(time() - start_time))) except (SystemExit, KeyboardInterrupt) as error: if hasattr(error, 'code') and isinstance(error.code, int): exit_code = error.code else: exit_code = 1 print(error) if not help_triggered: print("Build completed unsuccessfully in {}".format( format_build_time(time() - start_time))) sys.exit(exit_code) if __name__ == '__main__': main()