blob: 2691c7e074e78ea5543070d1d0ccc2b29f803e23 [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-insesitive) 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\\2019\\Preview\\VC",
"Microsoft Visual Studio\\2019\\BuildTools\\VC",
"Microsoft Visual Studio\\2019\\Community\\VC",
"Microsoft Visual Studio\\2019\\Professional\\VC",
"Microsoft Visual Studio\\2019\\Enterprise\\VC",
"Microsoft Visual Studio\\2017\\BuildTools\\VC",
"Microsoft Visual Studio\\2017\\Community\\VC",
"Microsoft Visual Studio\\2017\\Professional\\VC",
"Microsoft Visual Studio\\2017\\Enterprise\\VC",
"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_2019(repository_ctx, vc_path):
"""Check if the installed VS version is Visual Studio 2017 or 2019."""
# The layout of VC folder in VS 2017 and 2019 is different from that in VS 2015 and older versions.
# In VS 2017 and 2019, it contains only three directories:
# "Auxiliary", "Redist", "Tools"
vc_2017_or_2019_contents = ["auxiliary", "redist", "tools"]
vc_path_contents = [d.basename.lower() for d in repository_ctx.path(vc_path).readdir()]
vc_path_contents = sorted(vc_path_contents)
return vc_path_contents == vc_2017_or_2019_contents
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_2019(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_2019(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_2019(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_2019(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 verisons:\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_2019(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", "ML": "ml64.exe"},
"x86": {"CL": "cl.exe", "LINK": "link.exe", "LIB": "lib.exe", "ML": "ml.exe"},
"arm": {"CL": "cl.exe", "LINK": "link.exe", "LIB": "lib.exe"},
"arm64": {"CL": "cl.exe", "LINK": "link.exe", "LIB": "lib.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 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_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",
}
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 = llvm_path + "\\lib\\clang\\" + 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")
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"],
"%{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 + "}": "",
}
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 = llvm_path + "\\lib\\clang\\" + 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",
}
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,
)