blob: ea1ffb3872c3a8177f1b9b4b25d39b045d1db44b [file] [log] [blame]
# pylint: disable=g-bad-file-header
# Copyright 2016 The Bazel Authors. All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""Configuring the C++ toolchain on Windows."""
load(
"@bazel_tools//tools/cpp:lib_cc_configure.bzl",
"auto_configure_fail",
"auto_configure_warning",
"auto_configure_warning_maybe",
"escape_string",
"execute",
"resolve_labels",
"write_builtin_include_directory_paths",
)
_targets_archs = {"x64": "amd64", "x86": "amd64_x86", "arm": "amd64_arm", "arm64": "amd64_arm64"}
_targets_lib_folder = {"x86": "", "arm": "arm", "arm64": "arm64"}
def _lookup_env_var(env, name, default = None):
"""Lookup environment variable case-insensitve.
If a matching (case-insensitive) entry is found in the env dict both
the key and the value are returned. The returned key might differ from
name in casing.
If a matching key was found its value is returned otherwise
the default is returned.
Return a (key, value) tuple"""
for key, value in env.items():
if name.lower() == key.lower():
return (key, value)
return (name, default)
def _get_env_var(repository_ctx, name, default = None):
"""Returns a value from an environment variable."""
return _lookup_env_var(repository_ctx.os.environ, name, default)[1]
def _get_path_env_var(repository_ctx, name):
"""Returns a path from an environment variable.
Removes quotes, replaces '/' with '\', and strips trailing '\'s."""
value = _get_env_var(repository_ctx, name)
if value != None:
if value[0] == "\"":
if len(value) == 1 or value[-1] != "\"":
auto_configure_fail("'%s' environment variable has no trailing quote" % name)
value = value[1:-1]
if "/" in value:
value = value.replace("/", "\\")
if value[-1] == "\\":
value = value.rstrip("\\")
return value
def _get_temp_env(repository_ctx):
"""Returns the value of TMP, or TEMP, or if both undefined then C:\\Windows."""
tmp = _get_path_env_var(repository_ctx, "TMP")
if not tmp:
tmp = _get_path_env_var(repository_ctx, "TEMP")
if not tmp:
tmp = "C:\\Windows\\Temp"
auto_configure_warning(
"neither 'TMP' nor 'TEMP' environment variables are set, using '%s' as default" % tmp,
)
return tmp
def _get_escaped_windows_msys_starlark_content(repository_ctx, use_mingw = False):
"""Return the content of msys cc toolchain rule."""
msys_root = ""
bazel_sh = _get_path_env_var(repository_ctx, "BAZEL_SH")
if bazel_sh:
bazel_sh = bazel_sh.replace("\\", "/").lower()
tokens = bazel_sh.rsplit("/", 1)
if tokens[0].endswith("/usr/bin"):
msys_root = tokens[0][:len(tokens[0]) - len("usr/bin")]
elif tokens[0].endswith("/bin"):
msys_root = tokens[0][:len(tokens[0]) - len("bin")]
prefix = "mingw64" if use_mingw else "usr"
tool_path_prefix = escape_string(msys_root) + prefix
tool_bin_path = tool_path_prefix + "/bin"
tool_path = {}
for tool in ["ar", "cpp", "dwp", "gcc", "gcov", "ld", "nm", "objcopy", "objdump", "strip"]:
if msys_root:
tool_path[tool] = tool_bin_path + "/" + tool
else:
tool_path[tool] = "msys_gcc_installation_error.bat"
tool_paths = ",\n ".join(['"%s": "%s"' % (k, v) for k, v in tool_path.items()])
include_directories = (' "%s/",\n ' % tool_path_prefix) if msys_root else ""
return tool_paths, tool_bin_path, include_directories
def _get_system_root(repository_ctx):
"""Get System root path on Windows, default is C:\\Windows. Doesn't %-escape the result."""
systemroot = _get_path_env_var(repository_ctx, "SYSTEMROOT")
if not systemroot:
systemroot = "C:\\Windows"
auto_configure_warning_maybe(
repository_ctx,
"SYSTEMROOT is not set, using default SYSTEMROOT=C:\\Windows",
)
return escape_string(systemroot)
def _add_system_root(repository_ctx, env):
"""Running VCVARSALL.BAT and VCVARSQUERYREGISTRY.BAT need %SYSTEMROOT%\\\\system32 in PATH."""
env_key, env_value = _lookup_env_var(env, "PATH", default = "")
env[env_key] = env_value + ";" + _get_system_root(repository_ctx) + "\\system32"
return env
def find_vc_path(repository_ctx):
"""Find Visual C++ build tools install path. Doesn't %-escape the result."""
# 1. Check if BAZEL_VC or BAZEL_VS is already set by user.
bazel_vc = _get_path_env_var(repository_ctx, "BAZEL_VC")
if bazel_vc:
if repository_ctx.path(bazel_vc).exists:
return bazel_vc
else:
auto_configure_warning_maybe(
repository_ctx,
"%BAZEL_VC% is set to non-existent path, ignoring.",
)
bazel_vs = _get_path_env_var(repository_ctx, "BAZEL_VS")
if bazel_vs:
if repository_ctx.path(bazel_vs).exists:
bazel_vc = bazel_vs + "\\VC"
if repository_ctx.path(bazel_vc).exists:
return bazel_vc
else:
auto_configure_warning_maybe(
repository_ctx,
"No 'VC' directory found under %BAZEL_VS%, ignoring.",
)
else:
auto_configure_warning_maybe(
repository_ctx,
"%BAZEL_VS% is set to non-existent path, ignoring.",
)
auto_configure_warning_maybe(
repository_ctx,
"Neither %BAZEL_VC% nor %BAZEL_VS% are set, start looking for the latest Visual C++" +
" installed.",
)
# 2. Use vswhere to locate all Visual Studio installations
program_files_dir = _get_path_env_var(repository_ctx, "PROGRAMFILES(X86)")
if not program_files_dir:
program_files_dir = "C:\\Program Files (x86)"
auto_configure_warning_maybe(
repository_ctx,
"'PROGRAMFILES(X86)' environment variable is not set, using '%s' as default" % program_files_dir,
)
vswhere_binary = program_files_dir + "\\Microsoft Visual Studio\\Installer\\vswhere.exe"
if repository_ctx.path(vswhere_binary).exists:
result = repository_ctx.execute([vswhere_binary, "-requires", "Microsoft.VisualStudio.Component.VC.Tools.x86.x64", "-property", "installationPath", "-latest"])
auto_configure_warning_maybe(repository_ctx, "vswhere query result:\n\nSTDOUT(start)\n%s\nSTDOUT(end)\nSTDERR(start):\n%s\nSTDERR(end)\n" %
(result.stdout, result.stderr))
installation_path = result.stdout.strip()
if not result.stderr and installation_path:
vc_dir = installation_path + "\\VC"
auto_configure_warning_maybe(repository_ctx, "Visual C++ build tools found at %s" % vc_dir)
return vc_dir
# 3. Check if VS%VS_VERSION%COMNTOOLS is set, if true then try to find and use
# vcvarsqueryregistry.bat / VsDevCmd.bat to detect VC++.
auto_configure_warning_maybe(repository_ctx, "Looking for VS%VERSION%COMNTOOLS environment variables, " +
"eg. VS140COMNTOOLS")
for vscommontools_env, script in [
("VS160COMNTOOLS", "VsDevCmd.bat"),
("VS150COMNTOOLS", "VsDevCmd.bat"),
("VS140COMNTOOLS", "vcvarsqueryregistry.bat"),
("VS120COMNTOOLS", "vcvarsqueryregistry.bat"),
("VS110COMNTOOLS", "vcvarsqueryregistry.bat"),
("VS100COMNTOOLS", "vcvarsqueryregistry.bat"),
("VS90COMNTOOLS", "vcvarsqueryregistry.bat"),
]:
path = _get_path_env_var(repository_ctx, vscommontools_env)
if path == None:
continue
script = path + "\\" + script
if not repository_ctx.path(script).exists:
continue
repository_ctx.file(
"get_vc_dir.bat",
"@echo off\n" +
"call \"" + script + "\" > NUL\n" +
"echo %VCINSTALLDIR%",
True,
)
env = _add_system_root(repository_ctx, repository_ctx.os.environ)
vc_dir = execute(repository_ctx, ["./get_vc_dir.bat"], environment = env)
auto_configure_warning_maybe(repository_ctx, "Visual C++ build tools found at %s" % vc_dir)
return vc_dir
# 4. User might have purged all environment variables. If so, look for Visual C++ in registry.
# Works for Visual Studio 2017 and older. (Does not work for Visual Studio 2019 Preview.)
auto_configure_warning_maybe(repository_ctx, "Looking for Visual C++ through registry")
reg_binary = _get_system_root(repository_ctx) + "\\system32\\reg.exe"
vc_dir = None
for key, suffix in (("VC7", ""), ("VS7", "\\VC")):
for version in ["15.0", "14.0", "12.0", "11.0", "10.0", "9.0", "8.0"]:
if vc_dir:
break
result = repository_ctx.execute([reg_binary, "query", "HKEY_LOCAL_MACHINE\\SOFTWARE\\Wow6432Node\\Microsoft\\VisualStudio\\SxS\\" + key, "/v", version])
auto_configure_warning_maybe(repository_ctx, "registry query result for VC %s:\n\nSTDOUT(start)\n%s\nSTDOUT(end)\nSTDERR(start):\n%s\nSTDERR(end)\n" %
(version, result.stdout, result.stderr))
if not result.stderr:
for line in result.stdout.split("\n"):
line = line.strip()
if line.startswith(version) and line.find("REG_SZ") != -1:
vc_dir = line[line.find("REG_SZ") + len("REG_SZ"):].strip() + suffix
if vc_dir:
auto_configure_warning_maybe(repository_ctx, "Visual C++ build tools found at %s" % vc_dir)
return vc_dir
# 5. Check default directories for VC installation
auto_configure_warning_maybe(repository_ctx, "Looking for default Visual C++ installation directory")
for path in [
"Microsoft Visual Studio\\%s\\%s\\VC" % (year, edition)
for year in (2022, 2019, 2017)
for edition in ("Preview", "BuildTools", "Community", "Professional", "Enterprise")
] + [
"Microsoft Visual Studio 14.0\\VC",
]:
path = program_files_dir + "\\" + path
if repository_ctx.path(path).exists:
vc_dir = path
break
if not vc_dir:
auto_configure_warning_maybe(repository_ctx, "Visual C++ build tools not found.")
return None
auto_configure_warning_maybe(repository_ctx, "Visual C++ build tools found at %s" % vc_dir)
return vc_dir
def _is_vs_2017_or_newer(repository_ctx, vc_path):
"""Check if the installed VS version is Visual Studio 2017 or newer."""
# For VS 2017 and later, a `Tools` directory should exist under `BAZEL_VC`
return repository_ctx.path(vc_path).get_child("Tools").exists
def _is_msbuildtools(vc_path):
"""Check if the installed VC version is from MSBuildTools."""
# In MSBuildTools (usually container setup), the location of VC is like:
# C:\BuildTools\MSBuild\Microsoft\VC
return vc_path.find("BuildTools") != -1 and vc_path.find("MSBuild") != -1
def _find_vcvars_bat_script(repository_ctx, vc_path):
"""Find batch script to set up environment variables for VC. Doesn't %-escape the result."""
if _is_vs_2017_or_newer(repository_ctx, vc_path):
vcvars_script = vc_path + "\\Auxiliary\\Build\\VCVARSALL.BAT"
else:
vcvars_script = vc_path + "\\VCVARSALL.BAT"
if not repository_ctx.path(vcvars_script).exists:
return None
return vcvars_script
def _is_support_vcvars_ver(vc_full_version):
"""-vcvars_ver option is supported from version 14.11.25503 (VS 2017 version 15.3)."""
version = [int(i) for i in vc_full_version.split(".")]
min_version = [14, 11, 25503]
return version >= min_version
def _is_support_winsdk_selection(repository_ctx, vc_path):
"""Windows SDK selection is supported with VC 2017 / 2019 or with full VS 2015 installation."""
if _is_vs_2017_or_newer(repository_ctx, vc_path):
return True
# By checking the source code of VCVARSALL.BAT in VC 2015, we know that
# when devenv.exe or wdexpress.exe exists, VCVARSALL.BAT supports Windows SDK selection.
vc_common_ide = repository_ctx.path(vc_path).dirname.get_child("Common7", "IDE")
for tool in ["devenv.exe", "wdexpress.exe"]:
if vc_common_ide.get_child(tool).exists:
return True
return False
def _get_vc_env_vars(repository_ctx, vc_path, msvc_vars_x64, target_arch):
"""Derive the environment variables set of a given target architecture from the environment variables of the x64 target.
This is done to avoid running VCVARSALL.BAT script for every target architecture.
Args:
repository_ctx: the repository_ctx object
vc_path: Visual C++ root directory
msvc_vars_x64: values of MSVC toolchain including the environment variables for x64 target architecture
target_arch: the target architecture to get its environment variables
Returns:
dictionary of envvars
"""
env = {}
if _is_vs_2017_or_newer(repository_ctx, vc_path):
lib = msvc_vars_x64["%{msvc_env_lib_x64}"]
full_version = _get_vc_full_version(repository_ctx, vc_path)
tools_path = "%s\\Tools\\MSVC\\%s\\bin\\HostX64\\%s" % (vc_path, full_version, target_arch)
# For native windows(10) on arm64 builds host toolchain runs in an emulated x86 environment
if not repository_ctx.path(tools_path).exists:
tools_path = "%s\\Tools\\MSVC\\%s\\bin\\HostX86\\%s" % (vc_path, full_version, target_arch)
else:
lib = msvc_vars_x64["%{msvc_env_lib_x64}"].replace("amd64", _targets_lib_folder[target_arch])
tools_path = vc_path + "\\bin\\" + _targets_archs[target_arch]
env["INCLUDE"] = msvc_vars_x64["%{msvc_env_include_x64}"]
env["LIB"] = lib.replace("x64", target_arch)
env["PATH"] = escape_string(tools_path.replace("\\", "\\\\")) + ";" + msvc_vars_x64["%{msvc_env_path_x64}"]
return env
def setup_vc_env_vars(repository_ctx, vc_path, envvars = [], allow_empty = False, escape = True):
"""Get environment variables set by VCVARSALL.BAT script. Doesn't %-escape the result!
Args:
repository_ctx: the repository_ctx object
vc_path: Visual C++ root directory
envvars: list of envvars to retrieve; default is ["PATH", "INCLUDE", "LIB", "WINDOWSSDKDIR"]
allow_empty: allow unset envvars; if False then report errors for those
escape: if True, escape "\" as "\\" and "%" as "%%" in the envvar values
Returns:
dictionary of the envvars
"""
if not envvars:
envvars = ["PATH", "INCLUDE", "LIB", "WINDOWSSDKDIR"]
vcvars_script = _find_vcvars_bat_script(repository_ctx, vc_path)
if not vcvars_script:
auto_configure_fail("Cannot find VCVARSALL.BAT script under %s" % vc_path)
# Getting Windows SDK version set by user.
# Only supports VC 2017 & 2019 and VC 2015 with full VS installation.
winsdk_version = _get_winsdk_full_version(repository_ctx)
if winsdk_version and not _is_support_winsdk_selection(repository_ctx, vc_path):
auto_configure_warning(("BAZEL_WINSDK_FULL_VERSION=%s is ignored, " +
"because standalone Visual C++ Build Tools 2015 doesn't support specifying Windows " +
"SDK version, please install the full VS 2015 or use VC 2017/2019.") % winsdk_version)
winsdk_version = ""
# Get VC version set by user. Only supports VC 2017 & 2019.
vcvars_ver = ""
if _is_vs_2017_or_newer(repository_ctx, vc_path):
full_version = _get_vc_full_version(repository_ctx, vc_path)
# Because VCVARSALL.BAT is from the latest VC installed, so we check if the latest
# version supports -vcvars_ver or not.
if _is_support_vcvars_ver(_get_latest_subversion(repository_ctx, vc_path)):
vcvars_ver = "-vcvars_ver=" + full_version
cmd = "\"%s\" amd64 %s %s" % (vcvars_script, winsdk_version, vcvars_ver)
print_envvars = ",".join(["{k}=%{k}%".format(k = k) for k in envvars])
repository_ctx.file(
"get_env.bat",
"@echo off\n" +
("call %s > NUL \n" % cmd) + ("echo %s \n" % print_envvars),
True,
)
env = _add_system_root(repository_ctx, {k: "" for k in envvars})
envs = execute(repository_ctx, ["./get_env.bat"], environment = env).split(",")
env_map = {}
for env in envs:
key, value = env.split("=", 1)
env_map[key] = escape_string(value.replace("\\", "\\\\")) if escape else value
if not allow_empty:
_check_env_vars(env_map, cmd, expected = envvars)
return env_map
def _check_env_vars(env_map, cmd, expected):
for env in expected:
if not env_map.get(env):
auto_configure_fail(
"Setting up VC environment variables failed, %s is not set by the following command:\n %s" % (env, cmd),
)
def _get_latest_subversion(repository_ctx, vc_path):
"""Get the latest subversion of a VS 2017/2019 installation.
For VS 2017 & 2019, there could be multiple versions of VC build tools.
The directories are like:
<vc_path>\\Tools\\MSVC\\14.10.24930\\bin\\HostX64\\x64
<vc_path>\\Tools\\MSVC\\14.16.27023\\bin\\HostX64\\x64
This function should return 14.16.27023 in this case."""
versions = [path.basename for path in repository_ctx.path(vc_path + "\\Tools\\MSVC").readdir()]
if len(versions) < 1:
auto_configure_warning_maybe(repository_ctx, "Cannot find any VC installation under BAZEL_VC(%s)" % vc_path)
return None
# Parse the version string into integers, then sort the integers to prevent textual sorting.
version_list = []
for version in versions:
parts = [int(i) for i in version.split(".")]
version_list.append((parts, version))
version_list = sorted(version_list)
latest_version = version_list[-1][1]
auto_configure_warning_maybe(repository_ctx, "Found the following VC versions:\n%s\n\nChoosing the latest version = %s" % ("\n".join(versions), latest_version))
return latest_version
def _get_vc_full_version(repository_ctx, vc_path):
"""Return the value of BAZEL_VC_FULL_VERSION if defined, otherwise the latest version."""
version = _get_env_var(repository_ctx, "BAZEL_VC_FULL_VERSION")
if version != None:
return version
return _get_latest_subversion(repository_ctx, vc_path)
def _get_winsdk_full_version(repository_ctx):
"""Return the value of BAZEL_WINSDK_FULL_VERSION if defined, otherwise an empty string."""
return _get_env_var(repository_ctx, "BAZEL_WINSDK_FULL_VERSION", default = "")
def _find_msvc_tools(repository_ctx, vc_path, target_arch = "x64"):
"""Find the exact paths of the build tools in MSVC for the given target. Doesn't %-escape the result."""
build_tools_paths = {}
tools = _get_target_tools(target_arch)
for tool_name in tools:
build_tools_paths[tool_name] = find_msvc_tool(repository_ctx, vc_path, tools[tool_name], target_arch)
return build_tools_paths
def find_msvc_tool(repository_ctx, vc_path, tool, target_arch = "x64"):
"""Find the exact path of a specific build tool in MSVC. Doesn't %-escape the result."""
tool_path = None
if _is_vs_2017_or_newer(repository_ctx, vc_path) or _is_msbuildtools(vc_path):
full_version = _get_vc_full_version(repository_ctx, vc_path)
if full_version:
tool_path = "%s\\Tools\\MSVC\\%s\\bin\\HostX64\\%s\\%s" % (vc_path, full_version, target_arch, tool)
# For native windows(10) on arm64 builds host toolchain runs in an emulated x86 environment
if not repository_ctx.path(tool_path).exists:
tool_path = "%s\\Tools\\MSVC\\%s\\bin\\HostX86\\%s\\%s" % (vc_path, full_version, target_arch, tool)
else:
# For VS 2015 and older version, the tools are under:
# C:\Program Files (x86)\Microsoft Visual Studio 14.0\VC\bin\amd64
tool_path = vc_path + "\\bin\\" + _targets_archs[target_arch] + "\\" + tool
if not tool_path or not repository_ctx.path(tool_path).exists:
return None
return tool_path.replace("\\", "/")
def _find_missing_vc_tools(repository_ctx, vc_path, target_arch = "x64"):
"""Check if any required tool for the given target architecture is missing under given VC path."""
missing_tools = []
if not _find_vcvars_bat_script(repository_ctx, vc_path):
missing_tools.append("VCVARSALL.BAT")
tools = _get_target_tools(target_arch)
for tool_name in tools:
if not find_msvc_tool(repository_ctx, vc_path, tools[tool_name], target_arch):
missing_tools.append(tools[tool_name])
return missing_tools
def _get_target_tools(target):
"""Return a list of required tools names and their filenames for a certain target."""
tools = {
"x64": {"CL": "cl.exe", "LINK": "link.exe", "LIB": "lib.exe", "DUMPBIN": "dumpbin.exe", "ML": "ml64.exe"},
"x86": {"CL": "cl.exe", "LINK": "link.exe", "LIB": "lib.exe", "DUMPBIN": "dumpbin.exe", "ML": "ml.exe"},
"arm": {"CL": "cl.exe", "LINK": "link.exe", "LIB": "lib.exe", "DUMPBIN": "dumpbin.exe"},
"arm64": {"CL": "cl.exe", "LINK": "link.exe", "LIB": "lib.exe", "DUMPBIN": "dumpbin.exe"},
}
if tools.get(target) == None:
auto_configure_fail("Target architecture %s is not recognized" % target)
return tools.get(target)
def _is_support_debug_fastlink(repository_ctx, linker):
"""Run linker alone to see if it supports /DEBUG:FASTLINK."""
if _use_clang_cl(repository_ctx):
# LLVM's lld-link.exe doesn't support /DEBUG:FASTLINK.
return False
result = execute(repository_ctx, [linker], expect_failure = True)
return result.find("/DEBUG[:{FASTLINK|FULL|NONE}]") != -1
def _is_support_parse_showincludes(repository_ctx, cl, env):
repository_ctx.file(
"main.cpp",
"#include \"bazel_showincludes.h\"\nint main(){}\n",
)
repository_ctx.file(
"bazel_showincludes.h",
"\n",
)
result = execute(
repository_ctx,
[cl, "/nologo", "/showIncludes", "/c", "main.cpp", "/out", "main.exe", "/Fo", "main.obj"],
# Attempt to force English language. This may fail if the language pack isn't installed.
environment = env | {"VSLANG": "1033"},
)
for file in ["main.cpp", "bazel_showincludes.h", "main.exe", "main.obj"]:
execute(repository_ctx, ["cmd", "/C", "del", file], expect_empty_output = True)
return any([
line.startswith("Note: including file:") and line.endswith("bazel_showincludes.h")
for line in result.split("\n")
])
def find_llvm_path(repository_ctx):
"""Find LLVM install path."""
# 1. Check if BAZEL_LLVM is already set by user.
bazel_llvm = _get_path_env_var(repository_ctx, "BAZEL_LLVM")
if bazel_llvm:
return bazel_llvm
auto_configure_warning_maybe(repository_ctx, "'BAZEL_LLVM' is not set, " +
"start looking for LLVM installation on machine.")
# 2. Look for LLVM installation through registry.
auto_configure_warning_maybe(repository_ctx, "Looking for LLVM installation through registry")
reg_binary = _get_system_root(repository_ctx) + "\\system32\\reg.exe"
llvm_dir = None
result = repository_ctx.execute([reg_binary, "query", "HKEY_LOCAL_MACHINE\\SOFTWARE\\WOW6432Node\\LLVM\\LLVM"])
auto_configure_warning_maybe(repository_ctx, "registry query result for LLVM:\n\nSTDOUT(start)\n%s\nSTDOUT(end)\nSTDERR(start):\n%s\nSTDERR(end)\n" %
(result.stdout, result.stderr))
if not result.stderr:
for line in result.stdout.split("\n"):
line = line.strip()
if line.startswith("(Default)") and line.find("REG_SZ") != -1:
llvm_dir = line[line.find("REG_SZ") + len("REG_SZ"):].strip()
if llvm_dir:
auto_configure_warning_maybe(repository_ctx, "LLVM installation found at %s" % llvm_dir)
return llvm_dir
# 3. Check default directories for LLVM installation
auto_configure_warning_maybe(repository_ctx, "Looking for default LLVM installation directory")
program_files_dir = _get_path_env_var(repository_ctx, "PROGRAMFILES")
if not program_files_dir:
program_files_dir = "C:\\Program Files"
auto_configure_warning_maybe(
repository_ctx,
"'PROGRAMFILES' environment variable is not set, using '%s' as default" % program_files_dir,
)
path = program_files_dir + "\\LLVM"
if repository_ctx.path(path).exists:
llvm_dir = path
if not llvm_dir:
auto_configure_warning_maybe(repository_ctx, "LLVM installation not found.")
return None
auto_configure_warning_maybe(repository_ctx, "LLVM installation found at %s" % llvm_dir)
return llvm_dir
def find_llvm_tool(repository_ctx, llvm_path, tool):
"""Find the exact path of a specific build tool in LLVM. Doesn't %-escape the result."""
tool_path = llvm_path + "\\bin\\" + tool
if not repository_ctx.path(tool_path).exists:
return None
return tool_path.replace("\\", "/")
def _use_clang_cl(repository_ctx):
"""Returns True if USE_CLANG_CL is set to 1."""
return _get_env_var(repository_ctx, "USE_CLANG_CL", default = "0") == "1"
def _find_missing_llvm_tools(repository_ctx, llvm_path):
"""Check if any required tool is missing under given LLVM path."""
missing_tools = []
for tool in ["clang-cl.exe", "lld-link.exe", "llvm-lib.exe"]:
if not find_llvm_tool(repository_ctx, llvm_path, tool):
missing_tools.append(tool)
return missing_tools
def _get_clang_version(repository_ctx, clang_cl):
result = repository_ctx.execute([clang_cl, "-v"])
first_line = result.stderr.strip().splitlines()[0].strip()
# The first line of stderr should look like "[vendor ]clang version X.X.X"
if result.return_code != 0 or first_line.find("clang version ") == -1:
auto_configure_fail("Failed to get clang version by running \"%s -v\"" % clang_cl)
return first_line.split(" ")[-1]
def _get_clang_dir(repository_ctx, llvm_path, clang_version):
"""Get the clang installation directory."""
# The clang_version string format is "X.X.X"
clang_dir = llvm_path + "\\lib\\clang\\" + clang_version
if repository_ctx.path(clang_dir).exists:
return clang_dir
# Clang 16 changed the install path to use just the major number.
clang_major_version = clang_version.split(".")[0]
return llvm_path + "\\lib\\clang\\" + clang_major_version
def _get_msys_mingw_vars(repository_ctx):
"""Get the variables we need to populate the msys/mingw toolchains."""
tool_paths, tool_bin_path, inc_dir_msys = _get_escaped_windows_msys_starlark_content(repository_ctx)
tool_paths_mingw, tool_bin_path_mingw, inc_dir_mingw = _get_escaped_windows_msys_starlark_content(repository_ctx, use_mingw = True)
write_builtin_include_directory_paths(repository_ctx, "mingw", [inc_dir_mingw], file_suffix = "_mingw")
msys_mingw_vars = {
"%{cxx_builtin_include_directories}": inc_dir_msys,
"%{mingw_cxx_builtin_include_directories}": inc_dir_mingw,
"%{tool_paths}": tool_paths,
"%{mingw_tool_paths}": tool_paths_mingw,
"%{tool_bin_path}": tool_bin_path,
"%{mingw_tool_bin_path}": tool_bin_path_mingw,
}
return msys_mingw_vars
def _get_msvc_vars(repository_ctx, paths, target_arch = "x64", msvc_vars_x64 = None):
"""Get the variables we need to populate the MSVC toolchains."""
msvc_vars = dict()
vc_path = find_vc_path(repository_ctx)
missing_tools = None
if not vc_path:
repository_ctx.template(
"vc_installation_error_" + target_arch + ".bat",
paths["@bazel_tools//tools/cpp:vc_installation_error.bat.tpl"],
{"%{vc_error_message}": ""},
)
else:
missing_tools = _find_missing_vc_tools(repository_ctx, vc_path, target_arch)
if missing_tools:
message = "\r\n".join([
"echo. 1>&2",
"echo Visual C++ build tools seems to be installed at %s 1>&2" % vc_path,
"echo But Bazel can't find the following tools: 1>&2",
"echo %s 1>&2" % ", ".join(missing_tools),
"echo for %s target architecture 1>&2" % target_arch,
"echo. 1>&2",
])
repository_ctx.template(
"vc_installation_error_" + target_arch + ".bat",
paths["@bazel_tools//tools/cpp:vc_installation_error.bat.tpl"],
{"%{vc_error_message}": message},
)
if not vc_path or missing_tools:
write_builtin_include_directory_paths(repository_ctx, "msvc", [], file_suffix = "_msvc")
msvc_vars = {
"%{msvc_env_tmp_" + target_arch + "}": "msvc_not_found",
"%{msvc_env_include_" + target_arch + "}": "msvc_not_found",
"%{msvc_cxx_builtin_include_directories_" + target_arch + "}": "",
"%{msvc_env_path_" + target_arch + "}": "msvc_not_found",
"%{msvc_env_lib_" + target_arch + "}": "msvc_not_found",
"%{msvc_cl_path_" + target_arch + "}": "vc_installation_error_" + target_arch + ".bat",
"%{msvc_ml_path_" + target_arch + "}": "vc_installation_error_" + target_arch + ".bat",
"%{msvc_link_path_" + target_arch + "}": "vc_installation_error_" + target_arch + ".bat",
"%{msvc_lib_path_" + target_arch + "}": "vc_installation_error_" + target_arch + ".bat",
"%{dbg_mode_debug_flag_" + target_arch + "}": "/DEBUG",
"%{fastbuild_mode_debug_flag_" + target_arch + "}": "/DEBUG",
"%{msvc_parse_showincludes_" + target_arch + "}": repr(False),
}
return msvc_vars
if msvc_vars_x64:
env = _get_vc_env_vars(repository_ctx, vc_path, msvc_vars_x64, target_arch)
else:
env = setup_vc_env_vars(repository_ctx, vc_path)
escaped_tmp_dir = escape_string(_get_temp_env(repository_ctx).replace("\\", "\\\\"))
escaped_include_paths = escape_string(env["INCLUDE"])
build_tools = {}
llvm_path = ""
if _use_clang_cl(repository_ctx):
llvm_path = find_llvm_path(repository_ctx)
if not llvm_path:
auto_configure_fail("\nUSE_CLANG_CL is set to 1, but Bazel cannot find Clang installation on your system.\n" +
"Please install Clang via http://releases.llvm.org/download.html\n")
build_tools["CL"] = find_llvm_tool(repository_ctx, llvm_path, "clang-cl.exe")
build_tools["ML"] = find_msvc_tool(repository_ctx, vc_path, "ml64.exe", "x64")
build_tools["LINK"] = find_llvm_tool(repository_ctx, llvm_path, "lld-link.exe")
if not build_tools["LINK"]:
build_tools["LINK"] = find_msvc_tool(repository_ctx, vc_path, "link.exe", "x64")
build_tools["LIB"] = find_llvm_tool(repository_ctx, llvm_path, "llvm-lib.exe")
if not build_tools["LIB"]:
build_tools["LIB"] = find_msvc_tool(repository_ctx, vc_path, "lib.exe", "x64")
else:
build_tools = _find_msvc_tools(repository_ctx, vc_path, target_arch)
escaped_cxx_include_directories = []
for path in escaped_include_paths.split(";"):
if path:
escaped_cxx_include_directories.append("\"%s\"" % path)
if llvm_path:
clang_version = _get_clang_version(repository_ctx, build_tools["CL"])
clang_dir = _get_clang_dir(repository_ctx, llvm_path, clang_version)
clang_include_path = (clang_dir + "\\include").replace("\\", "\\\\")
escaped_cxx_include_directories.append("\"%s\"" % clang_include_path)
clang_lib_path = (clang_dir + "\\lib\\windows").replace("\\", "\\\\")
env["LIB"] = escape_string(env["LIB"]) + ";" + clang_lib_path
support_debug_fastlink = _is_support_debug_fastlink(repository_ctx, build_tools["LINK"])
write_builtin_include_directory_paths(repository_ctx, "msvc", escaped_cxx_include_directories, file_suffix = "_msvc")
support_parse_showincludes = _is_support_parse_showincludes(repository_ctx, build_tools["CL"], env)
if not support_parse_showincludes:
auto_configure_warning("""
Header pruning has been disabled since Bazel failed to recognize the output of /showIncludes.
This can result in unnecessary recompilation.
Fix this by installing the English language pack for the Visual Studio installation at {} and run 'bazel sync --configure'.""".format(vc_path))
msvc_vars = {
"%{msvc_env_tmp_" + target_arch + "}": escaped_tmp_dir,
"%{msvc_env_include_" + target_arch + "}": escaped_include_paths,
"%{msvc_cxx_builtin_include_directories_" + target_arch + "}": " " + ",\n ".join(escaped_cxx_include_directories),
"%{msvc_env_path_" + target_arch + "}": escape_string(env["PATH"]),
"%{msvc_env_lib_" + target_arch + "}": escape_string(env["LIB"]),
"%{msvc_cl_path_" + target_arch + "}": build_tools["CL"],
"%{msvc_ml_path_" + target_arch + "}": build_tools.get("ML", "msvc_arm_toolchain_does_not_support_ml"),
"%{msvc_link_path_" + target_arch + "}": build_tools["LINK"],
"%{msvc_lib_path_" + target_arch + "}": build_tools["LIB"],
"%{msvc_dumpbin_path_" + target_arch + "}": build_tools["DUMPBIN"],
"%{msvc_parse_showincludes_" + target_arch + "}": repr(support_parse_showincludes),
"%{dbg_mode_debug_flag_" + target_arch + "}": "/DEBUG:FULL" if support_debug_fastlink else "/DEBUG",
"%{fastbuild_mode_debug_flag_" + target_arch + "}": "/DEBUG:FASTLINK" if support_debug_fastlink else "/DEBUG",
}
return msvc_vars
def _get_clang_cl_vars(repository_ctx, paths, msvc_vars, target_arch):
"""Get the variables we need to populate the clang-cl toolchains."""
llvm_path = find_llvm_path(repository_ctx)
error_script = None
if msvc_vars["%{msvc_cl_path_" + target_arch + "}"] == "vc_installation_error_{}.bat".format(target_arch):
error_script = "vc_installation_error_{}.bat".format(target_arch)
elif not llvm_path:
repository_ctx.template(
"clang_installation_error.bat",
paths["@bazel_tools//tools/cpp:clang_installation_error.bat.tpl"],
{"%{clang_error_message}": ""},
)
error_script = "clang_installation_error.bat"
else:
missing_tools = _find_missing_llvm_tools(repository_ctx, llvm_path)
if missing_tools:
message = "\r\n".join([
"echo. 1>&2",
"echo LLVM/Clang seems to be installed at %s 1>&2" % llvm_path,
"echo But Bazel can't find the following tools: 1>&2",
"echo %s 1>&2" % ", ".join(missing_tools),
"echo. 1>&2",
])
repository_ctx.template(
"clang_installation_error.bat",
paths["@bazel_tools//tools/cpp:clang_installation_error.bat.tpl"],
{"%{clang_error_message}": message},
)
error_script = "clang_installation_error.bat"
if error_script:
write_builtin_include_directory_paths(repository_ctx, "clang-cl", [], file_suffix = "_clangcl")
clang_cl_vars = {
"%{clang_cl_env_tmp_" + target_arch + "}": "clang_cl_not_found",
"%{clang_cl_env_path_" + target_arch + "}": "clang_cl_not_found",
"%{clang_cl_env_include_" + target_arch + "}": "clang_cl_not_found",
"%{clang_cl_env_lib_" + target_arch + "}": "clang_cl_not_found",
"%{clang_cl_cl_path_" + target_arch + "}": error_script,
"%{clang_cl_link_path_" + target_arch + "}": error_script,
"%{clang_cl_lib_path_" + target_arch + "}": error_script,
"%{clang_cl_ml_path_" + target_arch + "}": error_script,
"%{clang_cl_dbg_mode_debug_flag_" + target_arch + "}": "/DEBUG",
"%{clang_cl_fastbuild_mode_debug_flag_" + target_arch + "}": "/DEBUG",
"%{clang_cl_cxx_builtin_include_directories_" + target_arch + "}": "",
"%{clang_cl_parse_showincludes_" + target_arch + "}": repr(False),
}
return clang_cl_vars
clang_cl_path = find_llvm_tool(repository_ctx, llvm_path, "clang-cl.exe")
lld_link_path = find_llvm_tool(repository_ctx, llvm_path, "lld-link.exe")
llvm_lib_path = find_llvm_tool(repository_ctx, llvm_path, "llvm-lib.exe")
clang_version = _get_clang_version(repository_ctx, clang_cl_path)
clang_dir = _get_clang_dir(repository_ctx, llvm_path, clang_version)
clang_include_path = (clang_dir + "\\include").replace("\\", "\\\\")
clang_lib_path = (clang_dir + "\\lib\\windows").replace("\\", "\\\\")
clang_cl_include_directories = msvc_vars["%{msvc_cxx_builtin_include_directories_" + target_arch + "}"] + (",\n \"%s\"" % clang_include_path)
write_builtin_include_directory_paths(repository_ctx, "clang-cl", [clang_cl_include_directories], file_suffix = "_clangcl")
clang_cl_vars = {
"%{clang_cl_env_tmp_" + target_arch + "}": msvc_vars["%{msvc_env_tmp_" + target_arch + "}"],
"%{clang_cl_env_path_" + target_arch + "}": msvc_vars["%{msvc_env_path_" + target_arch + "}"],
"%{clang_cl_env_include_" + target_arch + "}": msvc_vars["%{msvc_env_include_" + target_arch + "}"] + ";" + clang_include_path,
"%{clang_cl_env_lib_" + target_arch + "}": msvc_vars["%{msvc_env_lib_" + target_arch + "}"] + ";" + clang_lib_path,
"%{clang_cl_cxx_builtin_include_directories_" + target_arch + "}": clang_cl_include_directories,
"%{clang_cl_cl_path_" + target_arch + "}": clang_cl_path,
"%{clang_cl_link_path_" + target_arch + "}": lld_link_path,
"%{clang_cl_lib_path_" + target_arch + "}": llvm_lib_path,
"%{clang_cl_ml_path_" + target_arch + "}": clang_cl_path,
# LLVM's lld-link.exe doesn't support /DEBUG:FASTLINK.
"%{clang_cl_dbg_mode_debug_flag_" + target_arch + "}": "/DEBUG",
"%{clang_cl_fastbuild_mode_debug_flag_" + target_arch + "}": "/DEBUG",
# clang-cl always emits the English language version of the /showIncludes prefix.
"%{clang_cl_parse_showincludes_" + target_arch + "}": repr(True),
}
return clang_cl_vars
def configure_windows_toolchain(repository_ctx):
"""Configure C++ toolchain on Windows."""
paths = resolve_labels(repository_ctx, [
"@bazel_tools//tools/cpp:BUILD.windows.tpl",
"@bazel_tools//tools/cpp:windows_cc_toolchain_config.bzl",
"@bazel_tools//tools/cpp:armeabi_cc_toolchain_config.bzl",
"@bazel_tools//tools/cpp:vc_installation_error.bat.tpl",
"@bazel_tools//tools/cpp:msys_gcc_installation_error.bat",
"@bazel_tools//tools/cpp:clang_installation_error.bat.tpl",
])
repository_ctx.symlink(
paths["@bazel_tools//tools/cpp:windows_cc_toolchain_config.bzl"],
"windows_cc_toolchain_config.bzl",
)
repository_ctx.symlink(
paths["@bazel_tools//tools/cpp:armeabi_cc_toolchain_config.bzl"],
"armeabi_cc_toolchain_config.bzl",
)
repository_ctx.symlink(
paths["@bazel_tools//tools/cpp:msys_gcc_installation_error.bat"],
"msys_gcc_installation_error.bat",
)
template_vars = dict()
msvc_vars_x64 = _get_msvc_vars(repository_ctx, paths, "x64")
template_vars.update(msvc_vars_x64)
template_vars.update(_get_clang_cl_vars(repository_ctx, paths, msvc_vars_x64, "x64"))
template_vars.update(_get_msys_mingw_vars(repository_ctx))
template_vars.update(_get_msvc_vars(repository_ctx, paths, "x86", msvc_vars_x64))
template_vars.update(_get_msvc_vars(repository_ctx, paths, "arm", msvc_vars_x64))
msvc_vars_arm64 = _get_msvc_vars(repository_ctx, paths, "arm64", msvc_vars_x64)
template_vars.update(msvc_vars_arm64)
template_vars.update(_get_clang_cl_vars(repository_ctx, paths, msvc_vars_arm64, "arm64"))
repository_ctx.template(
"BUILD",
paths["@bazel_tools//tools/cpp:BUILD.windows.tpl"],
template_vars,
)