# Copyright (c) 2013 The Chromium Authors. All rights reserved. # Use of this source code is governed by a BSD-style license that can be # found in the LICENSE file. import("//build/config/chrome_build.gni") import("//build/config/c++/c++.gni") import("//build/config/clang/clang.gni") import("//build/config/compiler/compiler.gni") import("//build/config/sanitizers/sanitizers.gni") import("//build/config/win/visual_studio_version.gni") import("//build/timestamp.gni") import("//build/toolchain/goma.gni") import("//build/toolchain/toolchain.gni") assert(is_win) declare_args() { # Set this to true to enable static analysis through Visual Studio's # /analyze. This dramatically slows compiles and reports thousands of # warnings, so normally this is done on a build machine and only the new # warnings are examined. use_vs_code_analysis = false # Turn this on to have the linker output extra timing information. win_linker_timing = false # possible values for target_winuwp_version: # "10" - Windows UWP 10 # "8.1" - Windows RT 8.1 # "8.0" - Windows RT 8.0 target_winuwp_version = "10" # possible values: # "app" - Windows Store Applications # "phone" - Windows Phone Applications # "system" - Windows Drivers and Tools # "server" - Windows Server Applications # "desktop" - Windows Desktop Applications target_winuwp_family = "app" # Set this to use clang style diagnostics format. Available only on clang. # Tune this on for the editor integrations like Emacs compilation mode that # match clang style error messages. # E.g.: # Without this, clang emits a diagnostic message like this: # foo/bar.cc(12,34): error: something went wrong # and with this switch, clang emits it like this: # foo/bar.cc:12:34: error: something went wrong use_clang_diagnostics_format = false } # This is included by reference in the //build/config/compiler config that # is applied to all targets. It is here to separate out the logic that is # Windows-only. config("compiler") { if (current_cpu == "x86") { asmflags = [ # When /safeseh is specified, the linker will only produce an image if it # can also produce a table of the image's safe exception handlers. This # table specifies for the operating system which exception handlers are # valid for the image. Note that /SAFESEH isn't accepted on the command # line, only /safeseh. This is only accepted by ml.exe, not ml64.exe. "/safeseh", ] } cflags = [ "/Gy", # Enable function-level linking. "/FS", # Preserve previous PDB behavior. "/bigobj", # Some of our files are bigger than the regular limits. ] # Force C/C++ mode for the given GN detected file type. This is necessary # for precompiled headers where the same source file is compiled in both # modes. cflags_c = [ "/TC" ] cflags_cc = [ "/TP" ] cflags += [ # Tell the compiler to crash on failures. This is undocumented # and unsupported but very handy. "/d2FastFail", # Work around crbug.com/526851, bug in VS 2015 RTM compiler. "/Zc:sizedDealloc-", ] if (is_clang) { cflags += [ "-fmsc-version=1911" ] if (current_cpu == "x86") { cflags += [ "-m32" ] } else { cflags += [ "-m64" ] } if (exec_script("//build/win/use_ansi_codes.py", [], "trim string") == "True") { cflags += [ # cmd.exe doesn't understand ANSI escape codes by default, # so only enable them if something emulating them is around. "-fansi-escape-codes", ] } if (is_clang && use_clang_diagnostics_format) { cflags += [ "-Xclang", "-fdiagnostics-format", "-Xclang", "clang", ] } # Clang runtime libraries, such as the sanitizer runtimes, live here. lib_dirs = [ "$clang_base_path/lib/clang/$clang_version/lib/windows" ] } if (use_lld && !use_thin_lto && (is_clang || !use_goma)) { # /Brepro lets the compiler not write the mtime field in the .obj output. # link.exe /incremental relies on this field to work correctly, but lld # never looks at this timestamp, so it's safe to pass this flag with # lld and get more deterministic compiler output in return. # In LTO builds, the compiler doesn't write .obj files containing mtimes, # so /Brepro is ignored there. cflags += [ "/Brepro" ] } ldflags = [] if (use_lld) { # lld defaults to writing the current time in the pe/coff header. # For build reproducibility, pass an explicit timestamp. See # build/compute_build_timestamp.py for how the timestamp is chosen. # (link.exe also writes the current time, but it doesn't have a flag to # override that behavior.) ldflags += [ "/TIMESTAMP:" + build_timestamp ] } if (!is_debug && !is_component_build) { # Enable standard linker optimizations like GC (/OPT:REF) and ICF in static # release builds. These are implied by /PROFILE below, but /PROFILE is # incompatible with /debug:fastlink and LLD ignores it as of this writing. # Release builds always want these optimizations, so enable them explicitly. ldflags += [ "/OPT:REF", "/OPT:ICF", "/INCREMENTAL:NO", "/FIXED:NO", ] if (use_lld) { # String tail merging leads to smaller binaries, but they don't compress # as well, leading to increased mini_installer size (crbug.com/838449). ldflags += [ "/OPT:NOLLDTAILMERGE" ] } # TODO(siggi): Is this of any use anymore? # /PROFILE ensures that the PDB file contains FIXUP information (growing the # PDB file by about 5%) but does not otherwise alter the output binary. It # is enabled opportunistically for builds where it is not prohibited (not # supported when incrementally linking, or using /debug:fastlink). if (!is_win_fastlink) { ldflags += [ "/PROFILE" ] } } # arflags apply only to static_libraries. The normal linker configs are only # set for executable and shared library targets so arflags must be set # elsewhere. Since this is relatively contained, we just apply them in this # more general config and they will only have an effect on static libraries. arflags = [ # "No public symbols found; archive member will be inaccessible." This # means that one or more object files in the library can never be # pulled in to targets that link to this library. It's just a warning that # the source file is a no-op. "/ignore:4221", ] } config("vs_code_analysis") { if (use_vs_code_analysis && !is_clang) { # When use_vs_code_analysis is specified add the /analyze switch to enable # static analysis. Specifying /analyze:WX- says that /analyze warnings # should not be treated as errors. cflags = [ "/analyze:WX-" ] # Also, disable various noisy warnings that have low value. cflags += [ "/wd6011", # Dereferencing NULL pointer # C6285 is ~16% of raw warnings and has low value "/wd6285", # non-zero constant || non-zero constant "/wd6308", # realloc might return null pointer # Possible infinite loop: use of the constant # EXCEPTION_CONTINUE_EXECUTION in the exception-filter "/wd6312", "/wd6322", # Empty _except block "/wd6330", # 'char' used instead of 'unsigned char' for istype() call # C6334 is ~80% of raw warnings and has low value "/wd6334", # sizeof applied to an expression with an operator "/wd6326", # Potential comparison of constant with constant "/wd6340", # Sign mismatch in function parameter "/wd28159", # Consider using 'GetTickCount64' "/wd28196", # The precondition is not satisfied "/wd28204", # Inconsistent SAL annotations "/wd28251", # Inconsistent SAL annotations "/wd28252", # Inconsistent SAL annotations "/wd28253", # Inconsistent SAL annotations "/wd28278", # Function appears with no prototype in scope "/wd28285", # syntax error in SAL annotation (in algorithm) "/wd28301", # Inconsistent SAL annotations "/wd28182", # Dereferencing NULL pointer ] } } # This is included by reference in the //build/config/compiler:runtime_library # config that is applied to all targets. It is here to separate out the logic # that is Windows-only. Please see that target for advice on what should go in # :runtime_library vs. :compiler. config("runtime_library") { cflags = [] cflags_cc = [] # Defines that set up the CRT. defines = [ "__STD_C", "_CRT_RAND_S", "_CRT_SECURE_NO_DEPRECATE", "_SCL_SECURE_NO_DEPRECATE", ] # Defines that set up the Windows SDK. defines += [ "_ATL_NO_OPENGL", "_WINDOWS", "CERT_CHAIN_PARA_HAS_EXTRA_FIELDS", "PSAPI_VERSION=1", "WIN32", "_SECURE_ATL", ] if (!use_vs_code_analysis) { # This is required for ATL to use XP-safe versions of its functions. # However it is prohibited when using /analyze defines += [ "_USING_V110_SDK71_" ] } if (use_custom_libcxx) { cflags_cc += [ "-I" + rebase_path("$libcxx_prefix/include", root_build_dir) ] if (!is_component_build) { defines += [ "_LIBCPP_DISABLE_VISIBILITY_ANNOTATIONS" ] } # Prevent libc++ from embedding linker flags to try to automatically link # against its runtime library. This is unnecessary with our build system, # and can also result in build failures if libc++'s name for a library does # not match ours. defines += [ "_LIBCPP_NO_AUTO_LINK" ] } if (current_os == "winuwp") { # When targeting Windows Runtime, certain compiler/linker flags are # necessary. defines += [ "WINUWP", "__WRL_NO_DEFAULT_LIB__", ] if (target_winuwp_family == "app") { defines += [ "WINAPI_FAMILY=WINAPI_FAMILY_PC_APP" ] } else if (target_winuwp_family == "phone") { defines += [ "WINAPI_FAMILY=WINAPI_FAMILY_PHONE_APP" ] } else if (target_winuwp_family == "system") { defines += [ "WINAPI_FAMILY=WINAPI_FAMILY_SYSTEM" ] } else if (target_winuwp_family == "server") { defines += [ "WINAPI_FAMILY=WINAPI_FAMILY_SERVER" ] } else { defines += [ "WINAPI_FAMILY=WINAPI_FAMILY_DESKTOP_APP" ] } cflags_cc += [ "/ZW", "/EHsc", ] # This warning is given because the linker cannot tell the difference # between consuming WinRT APIs versus authoring WinRT within static # libraries as such this warning is always given by the linker. Since # consuming WinRT APIs within a library is legitimate but authoring # WinRT APis is not allowed, this warning is disabled to ignore the # legitimate consumption of WinRT APIs within static library builds. arflags = [ "/IGNORE:4264" ] if (target_winuwp_version == "10") { defines += [ "WIN10=_WIN32_WINNT_WIN10" ] } else if (target_winuwp_version == "8.1") { defines += [ "WIN8_1=_WIN32_WINNT_WINBLUE" ] } else if (target_winuwp_version == "8.0") { defines += [ "WIN8=_WIN32_WINNT_WIN8" ] } } else { # When not targeting Windows Runtime, make sure the WINAPI family is set # to desktop. defines += [ "WINAPI_FAMILY=WINAPI_FAMILY_DESKTOP_APP" ] } } # Sets the default Windows build version. This is separated because some # targets need to manually override it for their compiles. config("winver") { defines = [ "NTDDI_VERSION=0x0A000002", "_WIN32_WINNT=0x0A00", "WINVER=0x0A00", ] } # Linker flags for Windows SDK setup, this is applied only to EXEs and DLLs. config("sdk_link") { assert(current_cpu == "x64" || current_cpu == "x86" || current_cpu == "arm" || current_cpu == "arm64", "Only supports x64, x86, arm and arm64 CPUs") if (current_cpu == "x64") { ldflags = [ "/MACHINE:X64" ] } else if (current_cpu == "x86") { ldflags = [ "/MACHINE:X86", "/SAFESEH", # Not compatible with x64 so use only for x86. "/largeaddressaware", ] } else if (current_cpu == "arm") { ldflags = [ "/MACHINE:ARM" ] } else if (current_cpu == "arm64") { ldflags = [ "/MACHINE:ARM64" ] } vcvars_toolchain_data = exec_script("../../toolchain/win/setup_toolchain.py", [ visual_studio_path, windows_sdk_path, visual_studio_runtime_dirs, current_os, current_cpu, "none", ], "scope") vc_lib_path = vcvars_toolchain_data.vc_lib_path if (defined(vcvars_toolchain_data.vc_lib_atlmfc_path)) { vc_lib_atlmfc_path = vcvars_toolchain_data.vc_lib_atlmfc_path } vc_lib_um_path = vcvars_toolchain_data.vc_lib_um_path lib_dirs = [ "$vc_lib_um_path", "$vc_lib_path", ] if (defined(vc_lib_atlmfc_path)) { lib_dirs += [ "$vc_lib_atlmfc_path" ] } } # This default linker setup is provided separately from the SDK setup so # targets who want different library configurations can remove this and specify # their own. config("common_linker_setup") { ldflags = [ "/fastfail", "/FIXED:NO", "/ignore:4199", "/ignore:4221", "/NXCOMPAT", "/DYNAMICBASE", ] if (win_linker_timing) { ldflags += [ "/time", "/verbose:incr", ] } } config("cfi_linker") { # Control Flow Guard (CFG) # https://msdn.microsoft.com/en-us/library/windows/desktop/mt637065.aspx # /DYNAMICBASE (ASLR) is turned off in debug builds, therefore CFG can’t be # turned on either. # CFG seems to lead to random corruption with incremental linking so turn off # CFG in component builds. https://crbug.com/812421 # ASan and CFG leads to slow process startup. Chromium's test runner uses # lots of child processes, so this means things are really slow. Disable CFG # for now. https://crbug.com/846966 if (!is_debug && !is_component_build && !is_asan) { # Turn on CFG in msvc linker, regardless of compiler used. Turn off CFG for # longjmp (new in VS 2017) because it relies on compiler support which we do # not have enabled. ldflags = [ "/guard:cf,nolongjmp" ] } } # CRT -------------------------------------------------------------------------- # Configures how the runtime library (CRT) is going to be used. # See https://msdn.microsoft.com/en-us/library/2kzt1wy3.aspx for a reference of # what each value does. config("default_crt") { if (is_component_build) { # Component mode: dynamic CRT. Since the library is shared, it requires # exceptions or will give errors about things not matching, so keep # exceptions on. configs = [ ":dynamic_crt" ] } else { if (current_os == "winuwp") { # https://blogs.msdn.microsoft.com/vcblog/2014/06/10/the-great-c-runtime-crt-refactoring/ # contains a details explanation of what is happening with the Windows # CRT in Visual Studio releases related to Windows store applications. configs = [ ":dynamic_crt" ] } else { # Desktop Windows: static CRT. configs = [ ":static_crt" ] } } } # Use this to force the debug CRT for when building perf-critical build tools # that need to be fully optimized even in debug builds, for those times when the # debug CRT is part of the bottleneck. This also avoids *implicitly* defining # _DEBUG. config("release_crt") { if (is_component_build) { cflags = [ "/MD" ] } else { cflags = [ "/MT" ] } } config("dynamic_crt") { if (is_debug) { # This pulls in the DLL debug CRT and defines _DEBUG cflags = [ "/MDd" ] } else { cflags = [ "/MD" ] } } config("static_crt") { if (is_debug) { # This pulls in the static debug CRT and defines _DEBUG cflags = [ "/MTd" ] } else { cflags = [ "/MT" ] } } # Subsystem -------------------------------------------------------------------- # This is appended to the subsystem to specify a minimum version. if (current_cpu == "x64") { # The number after the comma is the minimum required OS version. # 5.02 = Windows Server 2003. subsystem_version_suffix = ",5.02" } else { # 5.01 = Windows XP. subsystem_version_suffix = ",5.01" } config("console") { ldflags = [ "/SUBSYSTEM:CONSOLE$subsystem_version_suffix" ] } config("windowed") { ldflags = [ "/SUBSYSTEM:WINDOWS$subsystem_version_suffix" ] } # Incremental linking ---------------------------------------------------------- incremental_linking_on_switch = [ "/INCREMENTAL" ] if ((!is_debug && !is_component_build) || !use_lld) { incremental_linking_off_switch = [ "/INCREMENTAL:NO" ] } if (use_lld) { incremental_linking_on_switch += [ "/OPT:NOREF" ] } # Enable incremental linking for debug builds and all component builds - any # builds where performance is not job one. if (is_debug || is_component_build) { default_incremental_linking_switch = incremental_linking_on_switch } else { default_incremental_linking_switch = incremental_linking_off_switch } # Applies incremental linking or not depending on the current configuration. config("default_incremental_linking") { ldflags = default_incremental_linking_switch } # Explicitly on or off incremental linking config("incremental_linking") { ldflags = incremental_linking_on_switch } config("no_incremental_linking") { # Projects disable incremental linking to work around ilk file issues with # link.exe. lld doesn't use ilk files and doesn't really have an incremental # link mode; the only effect of the flag is that the .lib file timestamp isn't # updated if the .lib doesn't change. if (!use_lld) { ldflags = incremental_linking_off_switch } } # Some large modules can't handle incremental linking in some situations. This # config should be applied to large modules to turn off incremental linking # when it won't work. config("default_large_module_incremental_linking") { if (use_lld || symbol_level == 0 || (current_cpu == "x86" && is_component_build)) { # In these configurations, ilk file sizes stay low enough that we can # link incrementally. ldflags = default_incremental_linking_switch } else { ldflags = incremental_linking_off_switch } } # Character set ---------------------------------------------------------------- # Not including this config means "ansi" (8-bit system codepage). config("unicode") { defines = [ "_UNICODE", "UNICODE", ] } # Lean and mean ---------------------------------------------------------------- # Some third party code might not compile with WIN32_LEAN_AND_MEAN so we have # to have a separate config for it. Remove this config from your target to # get the "bloaty and accommodating" version of windows.h. config("lean_and_mean") { defines = [ "WIN32_LEAN_AND_MEAN" ] } # Nominmax -------------------------------------------------------------------- # Some third party code defines NOMINMAX before including windows.h, which # then causes warnings when it's been previously defined on the command line. # For such targets, this config can be removed. config("nominmax") { defines = [ "NOMINMAX" ] } # Generating order files ------------------------------------------------------- config("default_cygprofile_instrumentation") { if (generate_order_files) { assert(is_clang, "cygprofile instrumentation only works with clang") assert(is_official_build, "order files should be made w/ official builds") assert(!is_chrome_branded, "order files could leak internal symbol names") configs = [ ":cygprofile_instrumentation" ] } } config("cygprofile_instrumentation") { cflags = [ "-Xclang", "-finstrument-functions-after-inlining", ] }