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bootstrap.py
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bootstrap.py
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from __future__ import absolute_import, division, print_function
import argparse
import contextlib
import datetime
import hashlib
import json
import os
import re
import shutil
import subprocess
import sys
import tarfile
import tempfile
from time import time
try:
import lzma
except ImportError:
lzma = None
if sys.platform == 'win32':
EXE_SUFFIX = ".exe"
else:
EXE_SUFFIX = ""
def get(base, url, path, checksums, verbose=False):
with tempfile.NamedTemporaryFile(delete=False) as temp_file:
temp_path = temp_file.name
try:
if url not in checksums:
raise RuntimeError(("src/stage0.json doesn't contain a checksum for {}. "
"Pre-built artifacts might not be available for this "
"target at this time, see https://doc.rust-lang.org/nightly"
"/rustc/platform-support.html for more information.")
.format(url))
sha256 = checksums[url]
if os.path.exists(path):
if verify(path, sha256, 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, "{}/{}".format(base, url), True, verbose)
if not verify(temp_path, sha256, verbose):
raise RuntimeError("failed verification")
if verbose:
print("moving {} to {}".format(temp_path, path))
shutil.move(temp_path, path)
finally:
if os.path.isfile(temp_path):
if verbose:
print("removing", temp_path)
os.unlink(temp_path)
def download(path, url, probably_big, verbose):
for _ in range(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):
# Try to use curl (potentially available on win32
# https://devblogs.microsoft.com/commandline/tar-and-curl-come-to-windows/)
# If an error occurs:
# - If we are on win32 fallback to powershell
# - Otherwise raise the error if appropriate
if probably_big or verbose:
print("downloading {}".format(url))
platform_is_win32 = sys.platform == 'win32'
try:
if probably_big or verbose:
option = "-#"
else:
option = "-s"
# If curl is not present on Win32, we should not sys.exit
# but raise `CalledProcessError` or `OSError` instead
require(["curl", "--version"], exception=platform_is_win32)
with open(path, "wb") as outfile:
run(["curl", option,
"-L", # Follow redirect.
"-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", url],
stdout=outfile, #Implements cli redirect operator '>'
verbose=verbose,
exception=True, # Will raise RuntimeError on failure
)
except (subprocess.CalledProcessError, OSError, RuntimeError):
# see http://serverfault.com/questions/301128/how-to-download
if platform_is_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)
# Check if the RuntimeError raised by run(curl) should be silenced
elif verbose or exception:
raise
def verify(path, expected, 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()
verified = found == expected
if not verified:
print("invalid checksum:\n"
" found: {}\n"
" expected: {}".format(found, expected))
return verified
def unpack(tarball, tarball_suffix, dst, verbose=False, match=None):
"""Unpack the given tarball file"""
print("extracting", tarball)
fname = os.path.basename(tarball).replace(tarball_suffix, "")
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, is_bootstrap=False, **kwargs):
"""Run a child program in a new process"""
if verbose:
print("running: " + ' '.join(args))
sys.stdout.flush()
# Ensure that the .exe is used on Windows just in case a Linux ELF has been
# compiled in the same directory.
if os.name == 'nt' and not args[0].endswith('.exe'):
args[0] += '.exe'
# 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)
# For most failures, we definitely do want to print this error, or the user will have no
# idea what went wrong. But when we've successfully built bootstrap and it failed, it will
# have already printed an error above, so there's no need to print the exact command we're
# running.
if is_bootstrap:
sys.exit(1)
else:
sys.exit(err)
def require(cmd, exit=True, exception=False):
'''Run a command, returning its output.
On error,
If `exception` is `True`, raise the error
Otherwise If `exit` is `True`, exit the process
Else return None.'''
try:
return subprocess.check_output(cmd).strip()
except (subprocess.CalledProcessError, OSError) as exc:
if exception:
raise
elif exit:
print("error: unable to run `{}`: {}".format(' '.join(cmd), exc))
print("Please make sure it's installed and in the path.")
sys.exit(1)
return None
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(verbose):
"""Build triple as in LLVM"""
# If the user already has a host build triple with an existing `rustc`
# install, use their preference. This fixes most issues with Windows builds
# being detected as GNU instead of MSVC.
default_encoding = sys.getdefaultencoding()
try:
version = subprocess.check_output(["rustc", "--version", "--verbose"],
stderr=subprocess.DEVNULL)
version = version.decode(default_encoding)
host = next(x for x in version.split('\n') if x.startswith("host: "))
triple = host.split("host: ")[1]
if verbose:
print("detected default triple {} from pre-installed rustc".format(triple))
return triple
except Exception as e:
if verbose:
print("pre-installed rustc not detected: {}".format(e))
print("falling back to auto-detect")
required = sys.platform != 'win32'
ostype = require(["uname", "-s"], exit=required)
cputype = require(['uname', '-m'], exit=required)
# If we do not have `uname`, assume Windows.
if ostype is None or cputype is None:
return 'x86_64-pc-windows-msvc'
ostype = ostype.decode(default_encoding)
cputype = cputype.decode(default_encoding)
# 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 = {
'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 = 'pc-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.
cputype = require(['isainfo', '-k']).decode(default_encoding)
# sparc cpus have sun as a target vendor
if 'sparc' in cputype:
ostype = 'sun-solaris'
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'
elif sys.platform == 'win32':
# Some Windows platforms might have a `uname` command that returns a
# non-standard string (e.g. gnuwin32 tools returns `windows32`). In
# these cases, fall back to using sys.platform.
return 'x86_64-pc-windows-msvc'
else:
err = "unknown OS type: {}".format(ostype)
sys.exit(err)
if cputype in ['powerpc', 'riscv'] 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',
'm68k': 'm68k',
'powerpc': 'powerpc',
'powerpc64': 'powerpc64',
'powerpc64le': 'powerpc64le',
'ppc': 'powerpc',
'ppc64': 'powerpc64',
'ppc64le': 'powerpc64le',
'riscv64': 'riscv64gc',
'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 ostype == 'unknown-freebsd':
cputype = subprocess.check_output(
['uname', '-p']).strip().decode(default_encoding)
ostype = 'unknown-freebsd'
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:
if os.path.exists(filepath):
os.remove(filepath) # PermissionError/OSError on Win32 if in use
except OSError:
shutil.copy2(tmp, filepath)
os.remove(tmp)
return
os.rename(tmp, filepath)
class Stage0Toolchain:
def __init__(self, stage0_payload):
self.date = stage0_payload["date"]
self.version = stage0_payload["version"]
def channel(self):
return self.version + "-" + self.date
class RustBuild(object):
"""Provide all the methods required to build Rust"""
def __init__(self):
self.checksums_sha256 = {}
self.stage0_compiler = None
self.download_url = ''
self.build = ''
self.build_dir = ''
self.clean = False
self.config_toml = ''
self.rust_root = ''
self.use_locked_deps = False
self.use_vendored_sources = False
self.verbose = False
self.git_version = None
self.nix_deps_dir = None
self._should_fix_bins_and_dylibs = None
def download_toolchain(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.stage0_compiler.version
bin_root = self.bin_root()
key = self.stage0_compiler.date
if self.rustc().startswith(bin_root) and \
(not os.path.exists(self.rustc()) or
self.program_out_of_date(self.rustc_stamp(), key)):
if os.path.exists(bin_root):
shutil.rmtree(bin_root)
tarball_suffix = '.tar.gz' if lzma is None else '.tar.xz'
filename = "rust-std-{}-{}{}".format(
rustc_channel, self.build, tarball_suffix)
pattern = "rust-std-{}".format(self.build)
self._download_component_helper(filename, pattern, tarball_suffix)
filename = "rustc-{}-{}{}".format(rustc_channel, self.build,
tarball_suffix)
self._download_component_helper(filename, "rustc", tarball_suffix)
filename = "cargo-{}-{}{}".format(rustc_channel, self.build,
tarball_suffix)
self._download_component_helper(filename, "cargo", tarball_suffix)
if self.should_fix_bins_and_dylibs():
self.fix_bin_or_dylib("{}/bin/cargo".format(bin_root))
self.fix_bin_or_dylib("{}/bin/rustc".format(bin_root))
self.fix_bin_or_dylib("{}/bin/rustdoc".format(bin_root))
self.fix_bin_or_dylib("{}/libexec/rust-analyzer-proc-macro-srv".format(bin_root))
lib_dir = "{}/lib".format(bin_root)
for lib in os.listdir(lib_dir):
if lib.endswith(".so"):
self.fix_bin_or_dylib(os.path.join(lib_dir, lib))
with output(self.rustc_stamp()) as rust_stamp:
rust_stamp.write(key)
def _download_component_helper(
self, filename, pattern, tarball_suffix,
):
key = self.stage0_compiler.date
cache_dst = os.path.join(self.build_dir, "cache")
rustc_cache = os.path.join(cache_dst, key)
if not os.path.exists(rustc_cache):
os.makedirs(rustc_cache)
tarball = os.path.join(rustc_cache, filename)
if not os.path.exists(tarball):
get(
self.download_url,
"dist/{}/{}".format(key, filename),
tarball,
self.checksums_sha256,
verbose=self.verbose,
)
unpack(tarball, tarball_suffix, self.bin_root(), match=pattern, verbose=self.verbose)
def should_fix_bins_and_dylibs(self):
"""Whether or not `fix_bin_or_dylib` needs to be run; can only be True
on NixOS.
"""
if self._should_fix_bins_and_dylibs is not None:
return self._should_fix_bins_and_dylibs
def get_answer():
default_encoding = sys.getdefaultencoding()
try:
ostype = subprocess.check_output(
['uname', '-s']).strip().decode(default_encoding)
except subprocess.CalledProcessError:
return False
except OSError as reason:
if getattr(reason, 'winerror', None) is not None:
return False
raise reason
if ostype != "Linux":
return False
# If the user has asked binaries to be patched for Nix, then
# don't check for NixOS or `/lib`.
if self.get_toml("patch-binaries-for-nix", "build") == "true":
return True
# Use `/etc/os-release` instead of `/etc/NIXOS`.
# The latter one does not exist on NixOS when using tmpfs as root.
try:
with open("/etc/os-release", "r") as f:
if not any(l.strip() in ("ID=nixos", "ID='nixos'", 'ID="nixos"') for l in f):
return False
except FileNotFoundError:
return False
if os.path.exists("/lib"):
return False
return True
answer = self._should_fix_bins_and_dylibs = get_answer()
if answer:
print("info: You seem to be using Nix.")
return answer
def fix_bin_or_dylib(self, fname):
"""Modifies the interpreter section of 'fname' to fix the dynamic linker,
or the RPATH section, to fix the dynamic library search path
This method is only required on NixOS and uses the PatchELF utility to
change the interpreter/RPATH of ELF executables.
Please see https://nixos.org/patchelf.html for more information
"""
assert self._should_fix_bins_and_dylibs is True
print("attempting to patch", fname)
# Only build `.nix-deps` once.
nix_deps_dir = self.nix_deps_dir
if not nix_deps_dir:
# Run `nix-build` to "build" each dependency (which will likely reuse
# the existing `/nix/store` copy, or at most download a pre-built copy).
#
# Importantly, we create a gc-root called `.nix-deps` in the `build/`
# directory, but still reference the actual `/nix/store` path in the rpath
# as it makes it significantly more robust against changes to the location of
# the `.nix-deps` location.
#
# bintools: Needed for the path of `ld-linux.so` (via `nix-support/dynamic-linker`).
# zlib: Needed as a system dependency of `libLLVM-*.so`.
# patchelf: Needed for patching ELF binaries (see doc comment above).
nix_deps_dir = "{}/{}".format(self.build_dir, ".nix-deps")
nix_expr = '''
with (import <nixpkgs> {});
symlinkJoin {
name = "rust-stage0-dependencies";
paths = [
zlib
patchelf
stdenv.cc.bintools
];
}
'''
try:
subprocess.check_output([
"nix-build", "-E", nix_expr, "-o", nix_deps_dir,
])
except subprocess.CalledProcessError as reason:
print("warning: failed to call nix-build:", reason)
return
self.nix_deps_dir = nix_deps_dir
patchelf = "{}/bin/patchelf".format(nix_deps_dir)
rpath_entries = [
# Relative default, all binary and dynamic libraries we ship
# appear to have this (even when `../lib` is redundant).
"$ORIGIN/../lib",
os.path.join(os.path.realpath(nix_deps_dir), "lib")
]
patchelf_args = ["--set-rpath", ":".join(rpath_entries)]
if not fname.endswith(".so"):
# Finally, set the corret .interp for binaries
with open("{}/nix-support/dynamic-linker".format(nix_deps_dir)) as dynamic_linker:
patchelf_args += ["--set-interpreter", dynamic_linker.read().rstrip()]
try:
subprocess.check_output([patchelf] + patchelf_args + [fname])
except subprocess.CalledProcessError as reason:
print("warning: failed to call patchelf:", reason)
return
def rustc_stamp(self):
"""Return the path for .rustc-stamp at the given stage
>>> 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 program_out_of_date(self, stamp_path, key):
"""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 key != stamp.read()
def bin_root(self):
"""Return the binary root directory for the given stage
>>> 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
"""
subdir = "stage0"
return os.path.join(self.build_dir, self.build, subdir)
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 exist, 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
>>> rb.config_toml = 'key1 = true'
>>> rb.get_toml("key1")
'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 at the given stage
>>> 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, EXE_SUFFIX))
@staticmethod
def get_string(line):
"""Return the value between double quotes
>>> RustBuild.get_string(' "devel" ')
'devel'
>>> RustBuild.get_string(" 'devel' ")
'devel'
>>> RustBuild.get_string('devel') is None
True
>>> RustBuild.get_string(' "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
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, color, verbose_count):
"""Build bootstrap"""
print("Building 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()
# `CARGO_BUILD_TARGET` breaks bootstrap build.
# See also: <https://github.com/rust-lang/rust/issues/70208>.
if "CARGO_BUILD_TARGET" in env:
del env["CARGO_BUILD_TARGET"]
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["LIBPATH"] = os.path.join(self.bin_root(), "lib") + \
(os.pathsep + env["LIBPATH"]) \
if "LIBPATH" in env else ""
# Export Stage0 snapshot compiler related env variables
build_section = "target.{}".format(self.build)
host_triple_sanitized = self.build.replace("-", "_")
var_data = {
"CC": "cc", "CXX": "cxx", "LD": "linker", "AR": "ar", "RANLIB": "ranlib"
}
for var_name, toml_key in var_data.items():
toml_val = self.get_toml(toml_key, build_section)
if toml_val != None:
env["{}_{}".format(var_name, host_triple_sanitized)] = toml_val
# preserve existing RUSTFLAGS
env.setdefault("RUSTFLAGS", "")
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["RUSTFLAGS"] += " -Wrust_2018_idioms -Wunused_lifetimes"
if self.get_toml("deny-warnings", "rust") != "false":
env["RUSTFLAGS"] += " -Dwarnings"
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")]
args.extend("--verbose" for _ in range(verbose_count))
if self.use_locked_deps:
args.append("--locked")
if self.use_vendored_sources:
args.append("--frozen")
if self.get_toml("metrics", "build"):
args.append("--features")
args.append("build-metrics")
if self.json_output:
args.append("--message-format=json")
if color == "always":
args.append("--color=always")
elif color == "never":
args.append("--color=never")
# Run this from the source directory so cargo finds .cargo/config
run(args, env=env, verbose=self.verbose, cwd=self.rust_root)
def build_triple(self):
"""Build triple as in LLVM
Note that `default_build_triple` is moderately expensive,
so use `self.build` where possible.
"""
config = self.get_toml('build')
return config or default_build_triple(self.verbose)
def check_vendored_status(self):
"""Check that vendoring is configured properly"""
# keep this consistent with the equivalent check in rustbuild:
# https://github.com/rust-lang/rust/blob/a8a33cf27166d3eabaffc58ed3799e054af3b0c6/src/bootstrap/lib.rs#L399-L405
if 'SUDO_USER' in os.environ and not self.use_vendored_sources:
if os.getuid() == 0:
self.use_vendored_sources = True
print('info: looks like you\'re trying to run this command as root')
print(' and so in order to preserve your $HOME this will now')
print(' use vendored sources by default.')
cargo_dir = os.path.join(self.rust_root, '.cargo')
if self.use_vendored_sources:
vendor_dir = os.path.join(self.rust_root, 'vendor')
if not os.path.exists(vendor_dir):
sync_dirs = "--sync ./src/tools/rust-analyzer/Cargo.toml " \
"--sync ./compiler/rustc_codegen_cranelift/Cargo.toml " \
"--sync ./src/bootstrap/Cargo.toml "
print('error: vendoring required, but vendor directory does not exist.')
print(' Run `cargo vendor {}` to initialize the '
'vendor directory.'.format(sync_dirs))
print('Alternatively, use the pre-vendored `rustc-src` dist component.')
raise Exception("{} not found".format(vendor_dir))
if not os.path.exists(cargo_dir):
print('error: vendoring required, but .cargo/config does not exist.')
raise Exception("{} not found".format(cargo_dir))
else:
if os.path.exists(cargo_dir):
shutil.rmtree(cargo_dir)
def parse_args():
"""Parse the command line arguments that the python script needs."""
parser = argparse.ArgumentParser(add_help=False)
parser.add_argument('-h', '--help', action='store_true')
parser.add_argument('--config')
parser.add_argument('--build-dir')
parser.add_argument('--build')
parser.add_argument('--color', choices=['always', 'never', 'auto'])
parser.add_argument('--clean', action='store_true')
parser.add_argument('--json-output', action='store_true')
parser.add_argument('-v', '--verbose', action='count', default=0)
return parser.parse_known_args(sys.argv)[0]
def bootstrap(args):
"""Configure, fetch, build and run the initial bootstrap"""
# Configure initial bootstrap
build = RustBuild()
build.rust_root = os.path.abspath(os.path.join(__file__, '../../..'))
build.verbose = args.verbose != 0
build.clean = args.clean
build.json_output = args.json_output
# Read from `--config`, then `RUST_BOOTSTRAP_CONFIG`, then `./config.toml`,
# then `config.toml` in the root directory.
toml_path = args.config or os.getenv('RUST_BOOTSTRAP_CONFIG')
using_default_path = toml_path is None
if using_default_path:
toml_path = 'config.toml'
if not os.path.exists(toml_path):
toml_path = os.path.join(build.rust_root, toml_path)
# Give a hard error if `--config` or `RUST_BOOTSTRAP_CONFIG` are set to a missing path,
# but not if `config.toml` hasn't been created.
if not using_default_path or os.path.exists(toml_path):
with open(toml_path) as config:
build.config_toml = config.read()
profile = build.get_toml('profile')
if profile is not None:
include_file = 'config.{}.toml'.format(profile)
include_dir = os.path.join(build.rust_root, 'src', 'bootstrap', 'defaults')
include_path = os.path.join(include_dir, include_file)
# HACK: This works because `build.get_toml()` returns the first match it finds for a
# specific key, so appending our defaults at the end allows the user to override them
with open(include_path) as included_toml:
build.config_toml += os.linesep + included_toml.read()
verbose_count = args.verbose
config_verbose_count = build.get_toml('verbose', 'build')
if config_verbose_count is not None:
verbose_count = max(args.verbose, int(config_verbose_count))
build.use_vendored_sources = build.get_toml('vendor', 'build') == 'true'
build.use_locked_deps = build.get_toml('locked-deps', 'build') == 'true'
build.check_vendored_status()
build_dir = args.build_dir or build.get_toml('build-dir', 'build') or 'build'
build.build_dir = os.path.abspath(build_dir)
with open(os.path.join(build.rust_root, "src", "stage0.json")) as f:
data = json.load(f)
build.checksums_sha256 = data["checksums_sha256"]
build.stage0_compiler = Stage0Toolchain(data["compiler"])
build.download_url = os.getenv("RUSTUP_DIST_SERVER") or data["config"]["dist_server"]
build.build = args.build or build.build_triple()
if not os.path.exists(build.build_dir):
os.makedirs(build.build_dir)
# Fetch/build the bootstrap
build.download_toolchain()
sys.stdout.flush()
build.build_bootstrap(args.color, verbose_count)
sys.stdout.flush()
# Run the bootstrap
args = [build.bootstrap_binary()]
args.extend(sys.argv[1:])
env = os.environ.copy()
env["BOOTSTRAP_PARENT_ID"] = str(os.getpid())
env["BOOTSTRAP_PYTHON"] = sys.executable
run(args, env=env, verbose=build.verbose, is_bootstrap=True)
def main():
"""Entry point for the bootstrap process"""
start_time = time()
# x.py help <cmd> ...
if len(sys.argv) > 1 and sys.argv[1] == 'help':
sys.argv[1] = '-h'
args = parse_args()
help_triggered = args.help or len(sys.argv) == 1
# 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 command.\n"
" See src/bootstrap/README.md for help with common commands."
)
exit_code = 0
success_word = "successfully"
try:
bootstrap(args)
except (SystemExit, KeyboardInterrupt) as error:
if hasattr(error, 'code') and isinstance(error.code, int):
exit_code = error.code
else:
exit_code = 1
print(error)
success_word = "unsuccessfully"
if not help_triggered:
print("Build completed", success_word, "in", format_build_time(time() - start_time))
sys.exit(exit_code)
if __name__ == '__main__':
main()