# -*- Mode: python; indent-tabs-mode: nil; tab-width: 40 -*- # vim: set filetype=python: # 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/. # Rust is required by `rust_compiler` below. We allow_missing here # to propagate failures to the better error message there. option(env="RUSTC", nargs=1, help="Path to the rust compiler") option(env="CARGO", nargs=1, help="Path to the Cargo package manager") rustc = check_prog( "_RUSTC", ["rustc"], what="rustc", paths=rust_search_path, input="RUSTC", allow_missing=True, ) cargo = check_prog( "_CARGO", ["cargo"], what="cargo", paths=rust_search_path, input="CARGO", allow_missing=True, ) @template def unwrap_rustup(prog, name): # rustc and cargo can either be rustup wrappers, or they can be the actual, # plain executables. For cargo, on OSX, rustup sets DYLD_LIBRARY_PATH (at # least until https://github.com/rust-lang/rustup.rs/pull/1752 is merged # and shipped) and that can wreak havoc (see bug 1536486). Similarly, for # rustc, rustup silently honors toolchain overrides set by vendored crates # (see bug 1547196). # # In either case, we need to find the plain executables. # # To achieve that, try to run `PROG +stable`. When the rustup wrapper is in # use, it either prints PROG's help and exits with status 0, or prints # an error message (error: toolchain 'stable' is not installed) and exits # with status 1. In the cargo case, when plain cargo is in use, it exits # with a different error message (e.g. "error: no such subcommand: # `+stable`"), and exits with status 101. # # Unfortunately, in the rustc case, when plain rustc is in use, # `rustc +stable` will exit with status 1, complaining about a missing # "+stable" file. We'll examine the error output to try and distinguish # between failing rustup and failing rustc. @depends(prog, dependable(name)) @imports(_from="__builtin__", _import="open") @imports("os") def unwrap(prog, name): if not prog: return def from_rustup_which(): out = check_cmd_output("rustup", "which", name, executable=prog).rstrip() # If for some reason the above failed to return something, keep the # PROG we found originally. if out: log.info("Actually using '%s'", out) return out log.info("No `rustup which` output, using '%s'", prog) return prog (retcode, stdout, stderr) = get_cmd_output(prog, "+stable") if name == "cargo" and retcode != 101: prog = from_rustup_which() elif name == "rustc": if retcode == 0: prog = from_rustup_which() elif "+stable" in stderr: # PROG looks like plain `rustc`. pass else: # Assume PROG looks like `rustup`. This case is a little weird, # insofar as the user doesn't have the "stable" toolchain # installed, but go ahead and unwrap anyway: the user might # have only certain versions, beta, or nightly installed, and # we'll catch invalid versions later. prog = from_rustup_which() return prog return unwrap rustc = unwrap_rustup(rustc, "rustc") cargo = unwrap_rustup(cargo, "cargo") set_config("CARGO", cargo) set_config("RUSTC", rustc) @depends_if(rustc) @checking("rustc version", lambda info: info.version) def rustc_info(rustc): if not rustc: return out = check_cmd_output(rustc, "--version", "--verbose").splitlines() info = dict((s.strip() for s in line.split(":", 1)) for line in out[1:]) return namespace( version=Version(info.get("release", "0")), commit=info.get("commit-hash", "unknown"), host=info["host"], llvm_version=Version(info.get("LLVM version", "0")), ) set_config( "RUSTC_VERSION", depends(rustc_info)(lambda info: str(info.version) if info else None), ) @depends_if(cargo) @checking("cargo version", lambda info: info.version) @imports("re") def cargo_info(cargo): if not cargo: return out = check_cmd_output(cargo, "--version", "--verbose").splitlines() info = dict((s.strip() for s in line.split(":", 1)) for line in out[1:]) version = info.get("release") # Older versions of cargo didn't support --verbose, in which case, they # only output a not-really-pleasant-to-parse output. Fortunately, they # don't error out, so we can just try some regexp matching on the output # we already got. if version is None: VERSION_FORMAT = r"^cargo (\d\.\d+\.\d+).*" m = re.search(VERSION_FORMAT, out[0]) # Fail fast if cargo changes its output on us. if not m: die("Could not determine cargo version from output: %s", out) version = m.group(1) return namespace( version=Version(version), ) @depends(rustc_info, cargo_info, build_project) @imports(_from="mozboot.util", _import="MINIMUM_RUST_VERSION") @imports(_from="textwrap", _import="dedent") def rust_compiler(rustc_info, cargo_info, build_project): if not rustc_info: die( dedent( """\ Rust compiler not found. To compile rust language sources, you must have 'rustc' in your path. See https://www.rust-lang.org/ for more information. You can install rust by running './mach bootstrap' or by directly running the installer from https://rustup.rs/ """ ) ) if build_project == "tools/crashreporter": rustc_min_version = Version("1.47.0") else: rustc_min_version = Version(MINIMUM_RUST_VERSION) cargo_min_version = rustc_min_version version = rustc_info.version is_nightly = "nightly" in version.version is_version_number_match = ( version.major == rustc_min_version.major and version.minor == rustc_min_version.minor and version.patch == rustc_min_version.patch ) if version < rustc_min_version or (is_version_number_match and is_nightly): die( dedent( """\ Rust compiler {} is too old. To compile Rust language sources please install at least version {} of the 'rustc' toolchain (or, if using nightly, at least one version newer than {}) and make sure it is first in your path. You can verify this by typing 'rustc --version'. If you have the 'rustup' tool installed you can upgrade to the latest release by typing 'rustup update'. The installer is available from https://rustup.rs/ """.format( version, rustc_min_version, rustc_min_version ) ) ) if not cargo_info: die( dedent( """\ Cargo package manager not found. To compile Rust language sources, you must have 'cargo' in your path. See https://www.rust-lang.org/ for more information. You can install cargo by running './mach bootstrap' or by directly running the installer from https://rustup.rs/ """ ) ) version = cargo_info.version if version < cargo_min_version: die( dedent( """\ Cargo package manager {} is too old. To compile Rust language sources please install at least version {} of 'cargo' and make sure it is first in your path. You can verify this by typing 'cargo --version'. """ ).format(version, cargo_min_version) ) return True @depends(rustc, when=rust_compiler) @imports(_from="__builtin__", _import="ValueError") def rust_supported_targets(rustc): out = check_cmd_output(rustc, "--print", "target-list").splitlines() data = {} for t in out: try: info = split_triplet(t) except ValueError: if t.startswith("thumb"): cpu, rest = t.split("-", 1) retry = "-".join(("arm", rest)) elif t.endswith("-windows-msvc"): retry = t[: -len("windows-msvc")] + "mingw32" elif t.endswith("-windows-gnu"): retry = t[: -len("windows-gnu")] + "mingw32" else: continue try: info = split_triplet(retry) except ValueError: continue key = (info.cpu, info.endianness, info.os) data.setdefault(key, []).append(namespace(rust_target=t, target=info)) return data def detect_rustc_target( host_or_target, compiler_info, arm_target, rust_supported_targets ): # Rust's --target options are similar to, but not exactly the same # as, the autoconf-derived targets we use. An example would be that # Rust uses distinct target triples for targetting the GNU C++ ABI # and the MSVC C++ ABI on Win32, whereas autoconf has a single # triple and relies on the user to ensure that everything is # compiled for the appropriate ABI. We need to perform appropriate # munging to get the correct option to rustc. # We correlate the autoconf-derived targets with the list of targets # rustc gives us with --print target-list. candidates = rust_supported_targets.get( (host_or_target.cpu, host_or_target.endianness, host_or_target.os), [] ) def find_candidate(candidates): if len(candidates) == 1: return candidates[0].rust_target elif not candidates: return None # We have multiple candidates. There are two cases where we can try to # narrow further down using extra information from the build system. # - For windows targets, correlate with the C compiler type if host_or_target.kernel == "WINNT": if compiler_info.type in ("gcc", "clang"): suffix = "windows-gnu" else: suffix = "windows-msvc" narrowed = [ c for c in candidates if c.rust_target.endswith("-{}".format(suffix)) ] if len(narrowed) == 1: return narrowed[0].rust_target elif narrowed: candidates = narrowed vendor_aliases = {"pc": ("w64", "windows")} narrowed = [ c for c in candidates if host_or_target.vendor in vendor_aliases.get(c.target.vendor, ()) ] if len(narrowed) == 1: return narrowed[0].rust_target # - For arm targets, correlate with arm_target # we could be more thorough with the supported rust targets, but they # don't support OSes that are supported to build Gecko anyways. # Also, sadly, the only interface to check the rust target cpu features # is --print target-spec-json, and it's unstable, so we have to rely on # our own knowledge of what each arm target means. if host_or_target.cpu == "arm" and host_or_target.endianness == "little": prefixes = [] if arm_target.arm_arch >= 7: if arm_target.thumb2 and arm_target.fpu == "neon": prefixes.append("thumbv7neon") if arm_target.thumb2: prefixes.append("thumbv7a") prefixes.append("armv7") if arm_target.arm_arch >= 6: prefixes.append("armv6") if host_or_target.os != "Android": # arm-* rust targets are armv6... except arm-linux-androideabi prefixes.append("arm") if arm_target.arm_arch >= 5: prefixes.append("armv5te") if host_or_target.os == "Android": # arm-* rust targets are armv6... except arm-linux-androideabi prefixes.append("arm") if arm_target.arm_arch >= 4: prefixes.append("armv4t") # rust freebsd targets are the only ones that don't have a 'hf' suffix # for hard-float. Technically, that means if the float abi ever is not # hard-float, this will pick a wrong target, but since rust only # supports hard-float, let's assume that means freebsd only support # hard-float. if arm_target.float_abi == "hard" and host_or_target.os != "FreeBSD": suffix = "hf" else: suffix = "" for p in prefixes: for c in candidates: if c.rust_target.startswith( "{}-".format(p) ) and c.rust_target.endswith(suffix): return c.rust_target # See if we can narrow down on the exact alias narrowed = [c for c in candidates if c.target.alias == host_or_target.alias] if len(narrowed) == 1: return narrowed[0].rust_target elif narrowed: candidates = narrowed # See if we can narrow down with the raw OS narrowed = [c for c in candidates if c.target.raw_os == host_or_target.raw_os] if len(narrowed) == 1: return narrowed[0].rust_target elif narrowed: candidates = narrowed # See if we can narrow down with the raw OS and raw CPU narrowed = [ c for c in candidates if c.target.raw_os == host_or_target.raw_os and c.target.raw_cpu == host_or_target.raw_cpu ] if len(narrowed) == 1: return narrowed[0].rust_target # Finally, see if the vendor can be used to disambiguate. narrowed = [c for c in candidates if c.target.vendor == host_or_target.vendor] if len(narrowed) == 1: return narrowed[0].rust_target return None rustc_target = find_candidate(candidates) if rustc_target is None: die("Don't know how to translate {} for rustc".format(host_or_target.alias)) return rustc_target @imports("os") @imports(_from="six", _import="ensure_binary") @imports(_from="tempfile", _import="mkstemp") @imports(_from="textwrap", _import="dedent") @imports(_from="mozbuild.configure.util", _import="LineIO") def assert_rust_compile(host_or_target, rustc_target, rustc): # Check to see whether our rustc has a reasonably functional stdlib # for our chosen target. target_arg = "--target=" + rustc_target in_fd, in_path = mkstemp(prefix="conftest", suffix=".rs", text=True) out_fd, out_path = mkstemp(prefix="conftest", suffix=".rlib") os.close(out_fd) try: source = 'pub extern fn hello() { println!("Hello world"); }' log.debug("Creating `%s` with content:", in_path) with LineIO(lambda l: log.debug("| %s", l)) as out: out.write(source) os.write(in_fd, ensure_binary(source)) os.close(in_fd) cmd = [ rustc, "--crate-type", "staticlib", target_arg, "-o", out_path, in_path, ] def failed(): die( dedent( """\ Cannot compile for {} with {} The target may be unsupported, or you may not have a rust std library for that target installed. Try: rustup target add {} """.format( host_or_target.alias, rustc, rustc_target ) ) ) check_cmd_output(*cmd, onerror=failed) if not os.path.exists(out_path) or os.path.getsize(out_path) == 0: failed() finally: os.remove(in_path) os.remove(out_path) @depends( rustc, host, host_c_compiler, rustc_info.host, rust_supported_targets, arm_target, when=rust_compiler, ) @checking("for rust host triplet") @imports(_from="textwrap", _import="dedent") def rust_host_triple( rustc, host, compiler_info, rustc_host, rust_supported_targets, arm_target ): rustc_target = detect_rustc_target( host, compiler_info, arm_target, rust_supported_targets ) if rustc_target != rustc_host: if host.alias == rustc_target: configure_host = host.alias else: configure_host = "{}/{}".format(host.alias, rustc_target) die( dedent( """\ The rust compiler host ({rustc}) is not suitable for the configure host ({configure}). You can solve this by: * Set your configure host to match the rust compiler host by editing your mozconfig and adding "ac_add_options --host={rustc}". * Or, install the rust toolchain for {configure}, if supported, by running "rustup default stable-{rustc_target}" """.format( rustc=rustc_host, configure=configure_host, rustc_target=rustc_target, ) ) ) assert_rust_compile(host, rustc_target, rustc) return rustc_target @depends( rustc, target, c_compiler, rust_supported_targets, arm_target, when=rust_compiler ) @checking("for rust target triplet") def rust_target_triple( rustc, target, compiler_info, rust_supported_targets, arm_target ): rustc_target = detect_rustc_target( target, compiler_info, arm_target, rust_supported_targets ) assert_rust_compile(target, rustc_target, rustc) return rustc_target set_config("RUST_TARGET", rust_target_triple) set_config("RUST_HOST_TARGET", rust_host_triple) # This is used for putting source info into symbol files. set_config("RUSTC_COMMIT", depends(rustc_info)(lambda i: i.commit)) # Rustdoc is required by Rust tests below. option(env="RUSTDOC", nargs=1, help="Path to the rustdoc program") rustdoc = check_prog( "RUSTDOC", ["rustdoc"], paths=rust_search_path, input="RUSTDOC", allow_missing=True, ) # This option is separate from --enable-tests because Rust tests are particularly # expensive in terms of compile time (especially for code in libxul). option( "--enable-rust-tests", help="Enable building and running of Rust tests during `make check`", ) @depends("--enable-rust-tests", rustdoc) def rust_tests(enable_rust_tests, rustdoc): if enable_rust_tests and not rustdoc: die("--enable-rust-tests requires rustdoc") return bool(enable_rust_tests) set_config("MOZ_RUST_TESTS", rust_tests) @depends(target, c_compiler, rustc) @imports("os") def rustc_natvis_ldflags(target, compiler_info, rustc): if target.kernel == "WINNT" and compiler_info.type == "clang-cl": sysroot = check_cmd_output(rustc, "--print", "sysroot").strip() etc = os.path.join(sysroot, "lib/rustlib/etc") ldflags = [] if os.path.isdir(etc): for f in os.listdir(etc): if f.endswith(".natvis"): ldflags.append("-NATVIS:" + normsep(os.path.join(etc, f))) return ldflags set_config("RUSTC_NATVIS_LDFLAGS", rustc_natvis_ldflags)