# 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/android/config.gni") import("//build/config/chrome_build.gni") import("//build/config/compiler/compiler.gni") import("//build/config/nacl/config.gni") import("//build/toolchain/cc_wrapper.gni") import("//build/toolchain/toolchain.gni") import("//build_overrides/build.gni") if (current_cpu == "arm" || current_cpu == "arm64") { import("//build/config/arm.gni") } if (current_cpu == "mipsel" || current_cpu == "mips64el") { import("//build/config/mips.gni") } if (is_mac) { import("//build/config/mac/symbols.gni") } declare_args() { # Default to warnings as errors for default workflow, where we catch # warnings with known toolchains. Allow overriding this e.g. for Chromium # builds on Linux that could use a different version of the compiler. # With GCC, warnings in no-Chromium code are always not treated as errors. treat_warnings_as_errors = true # Normally, Android builds are lightly optimized, even for debug builds, to # keep binary size down. Setting this flag to true disables such optimization android_full_debug = false # Whether to use the binary binutils checked into third_party/binutils. # These are not multi-arch so cannot be used except on x86 and x86-64 (the # only two architectures that are currently checked in). Turn this off when # you are using a custom toolchain and need to control -B in cflags. linux_use_bundled_binutils = linux_use_bundled_binutils_override && is_linux && (current_cpu == "x64" || current_cpu == "x86") binutils_path = rebase_path("//third_party/binutils/Linux_x64/Release/bin", root_build_dir) # Compile in such a way as to make it possible for the profiler to unwind full # stack frames. Setting this flag has a large effect on the performance of the # generated code than just setting profiling, but gives the profiler more # information to analyze. # Requires profiling to be set to true. enable_full_stack_frames_for_profiling = false # When we are going to use gold we need to find it. # This is initialized below, after use_gold might have been overridden. gold_path = false if (is_win) { # Whether the VS xtree header has been patched to disable warning 4702. If # it has, then we don't need to disable 4702 (unreachable code warning). # The patch is preapplied to the internal toolchain and hence all bots. msvs_xtree_patched = false } # Omit unwind support in official builds to save space. # We can use breakpad for these builds. exclude_unwind_tables = is_chrome_branded && is_official_build # If true, gold linker will save symbol table inside object files. # This speeds up gdb startup by 60% gdb_index = false # If true, optimize for size. Does not affect windows builds. # Linux & Mac favor speed over size. # TODO(brettw) it's weird that Mac and desktop Linux are different. We should # explore favoring size over speed in this case as well. optimize_for_size = is_android || is_ios # Enable fatal linker warnings. Building Chromium with certain versions # of binutils can cause linker warning. # See: https://bugs.chromium.org/p/chromium/issues/detail?id=457359 fatal_linker_warnings = true # AFDO (Automatic Feedback Directed Optimizer) is a form of profile-guided # optimization that GCC supports. It used by ChromeOS in their official # builds. To use it, set auto_profile_path to the path to a file containing # the needed gcov profiling data. auto_profile_path = "" # Optimize for coverage guided fuzzing (balance between speed and number of # branches) optimize_for_fuzzing = false # Enable this to turn off the delete-null-pointer-checks optimization in GCC 6+ no_delete_null_pointer_checks = false # Use stdlib=libc++ use_libcxx = is_mac } if (is_clang && !is_nacl) { update_args = [ "--print-revision" ] if (llvm_force_head_revision) { update_args += [ "--llvm-force-head-revision" ] } clang_revision = exec_script("//tools/clang/scripts/update.py", update_args, "trim string") } # Apply the default logic for these values if they were not set explicitly. if (gold_path == false) { if (use_gold) { gold_path = rebase_path("//third_party/binutils/Linux_x64/Release/bin", root_build_dir) } else { gold_path = "" } } if (use_debug_fission == "default") { use_debug_fission = is_debug && !is_win && use_gold && linux_use_bundled_binutils && cc_wrapper == "" } # default_include_dirs --------------------------------------------------------- # # This is a separate config so that third_party code (which would not use the # source root and might have conflicting versions of some headers) can remove # this and specify their own include paths. config("default_include_dirs") { include_dirs = [ root_gen_dir, "//", ] } # compiler --------------------------------------------------------------------- # # Base compiler configuration. # # See also "runtime_library" below for related stuff and a discussion about # where stuff should go. Put warning related stuff in the "warnings" config. config("compiler") { asmflags = [] cflags = [] cflags_c = [] cflags_cc = [] cflags_objc = [] cflags_objcc = [] ldflags = [] defines = [] configs = [] # System-specific flags. If your compiler flags apply to one of the # categories here, add it to the associated file to keep this shared config # smaller. if (is_win) { configs += [ "//build/config/win:compiler" ] } else if (is_android) { configs += [ "//build/config/android:compiler" ] } else if (is_linux) { configs += [ "//build/config/linux:compiler" ] } else if (is_nacl) { configs += [ "//build/config/nacl:compiler" ] } else if (is_ios || is_mac) { configs += [ "//build/config/mac:compiler" ] } # Applies to all Posix systems. if (is_posix) { configs += [ "//build/config/posix:compiler" ] } # See the definitions below. configs += [ ":compiler_cpu_abi", ":compiler_codegen", ] # In general, Windows is totally different, but all the other builds share # some common GCC configuration. if (!is_win) { # Common GCC compiler flags setup. # -------------------------------- cflags += [ "-fno-strict-aliasing" ] # See http://crbug.com/32204 cflags_cc += [ # If this is removed then remove the corresponding /Zc:threadSafeInit- for # Windows. "-fno-threadsafe-statics", # Not exporting C++ inline functions can generally be applied anywhere # so we do so here. Normal function visibility is controlled by # //build/config/gcc:symbol_visibility_hidden. "-fvisibility-inlines-hidden", ] # Stack protection. if (is_mac) { # The strong variant of the stack protector significantly increases # binary size, so only enable it in debug mode. if (is_debug) { cflags += [ "-fstack-protector-strong" ] } else { cflags += [ "-fstack-protector" ] } } else if (is_posix && !is_chromeos && !is_nacl) { # TODO(phajdan.jr): Use -fstack-protector-strong when our gcc supports it. # See also https://crbug.com/533294 cflags += [ "--param=ssp-buffer-size=4" ] # The x86 toolchain currently has problems with stack-protector. if (is_android && current_cpu == "x86") { cflags += [ "-fno-stack-protector" ] } else { cflags += [ "-fstack-protector" ] } } # Linker warnings. if (fatal_linker_warnings && !(is_chromeos && current_cpu == "arm") && !(is_android && use_order_profiling) && !is_mac && !is_ios) { # TODO(jochen): Enable this on chromeos on arm. http://crbug.com/356580 # TODO(lizeb,pasko): Fix link errors when linking with order_profiling=1 # crbug.com/485542 ldflags += [ "-Wl,--fatal-warnings" ] } } if (use_qt && is_clang) { cflags += [ "-Wno-unknown-attributes", "-Wno-unknown-warning-option" ] } if (is_clang && is_debug) { # Allow comparing the address of references and 'this' against 0 # in debug builds. Technically, these can never be null in # well-defined C/C++ and Clang can optimize such checks away in # release builds, but they may be used in asserts in debug builds. cflags_cc += [ "-Wno-undefined-bool-conversion", "-Wno-tautological-undefined-compare", ] } if (is_clang && !is_nacl) { # This is here so that all files get recompiled after a clang roll and # when turning clang on or off. (defines are passed via the command line, # and build system rebuild things when their commandline changes). Nothing # should ever read this define. defines += [ "CR_CLANG_REVISION=$clang_revision" ] } # Non-Mac Posix compiler flags setup. # ----------------------------------- if (is_posix && !(is_mac || is_ios)) { if (enable_profiling) { if (!is_debug) { cflags += [ "-g" ] if (enable_full_stack_frames_for_profiling) { cflags += [ "-fno-inline", "-fno-optimize-sibling-calls", ] } } } defines += [ "_FILE_OFFSET_BITS=64" ] if (!is_android) { defines += [ "_LARGEFILE_SOURCE", "_LARGEFILE64_SOURCE", ] } if (!is_nacl) { if (exclude_unwind_tables) { cflags += [ "-fno-unwind-tables", "-fno-asynchronous-unwind-tables", ] defines += [ "NO_UNWIND_TABLES" ] } else { cflags += [ "-funwind-tables" ] } } } # Linux/Android common flags setup. # --------------------------------- if (is_linux || is_android) { cflags += [ "-fPIC", "-pipe", # Use pipes for communicating between sub-processes. Faster. ] ldflags += [ "-fPIC", "-Wl,-z,noexecstack", "-Wl,-z,now", "-Wl,-z,relro", ] if (!using_sanitizer) { if (!use_cfi_diag) { ldflags += [ "-Wl,-z,defs" ] } # Functions interposed by the sanitizers can make ld think # that some libraries aren't needed when they actually are, # http://crbug.com/234010. As workaround, disable --as-needed. if (!is_nacl && !is_android) { # TODO(pcc): Fix linker bug which requires us to link pthread # unconditionally here (crbug.com/623236). ldflags += [ "-Wl,--no-as-needed", "-lpthread", ] } ldflags += [ "-Wl,--as-needed" ] } } # Linux-specific compiler flags setup. # ------------------------------------ if (is_android && is_clang) { _rebased_android_toolchain_root = rebase_path(android_toolchain_root, root_build_dir) # Let clang find the linker in the NDK. ldflags += [ "--gcc-toolchain=$_rebased_android_toolchain_root" ] } if (is_posix && use_lld && !is_nacl) { ldflags += [ "-fuse-ld=lld" ] } else if (use_gold) { ldflags += [ "-fuse-ld=gold" ] if (is_android) { # Use -mstackrealign due to a bug on ia32 Jelly Bean. # See crbug.com/521527 if (current_cpu == "x86") { cflags += [ "-mstackrealign" ] } } else { # On Android, this isn't needed. gcc in the NDK knows to look next to # it with -fuse-ld=gold, and clang gets a --gcc-toolchain flag passed # above. ldflags += [ "-B$gold_path" ] if (linux_use_bundled_binutils) { ldflags += [ # Experimentation found that using four linking threads # saved ~20% of link time. # https://groups.google.com/a/chromium.org/group/chromium-dev/browse_thread/thread/281527606915bb36 # Only apply this to the target linker, since the host # linker might not be gold, but isn't used much anyway. "-Wl,--threads", "-Wl,--thread-count=4", ] } } if (gdb_index) { ldflags += [ "-Wl,--gdb-index" ] } # TODO(thestig): Make this flag work with GN. #if (!is_official_build && !is_chromeos && !(is_asan || is_lsan || is_tsan || is_msan)) { # ldflags += [ # "-Wl,--detect-odr-violations", # ] #} } else if (linux_use_bundled_binutils) { # Gold is the default linker for the bundled binutils so we explicitly # enable the bfd linker when use_gold is not set. ldflags += [ "-fuse-ld=bfd" ] } if (is_posix && (use_gold || (use_lld && !is_nacl)) && !using_sanitizer && !(is_android && use_order_profiling)) { # TODO(crbug.com/576197) - gcc on x86 platforms + gold + icf=all # doesn't currently work on non-chromeos platforms. # Additionally, on Android x86 --icf=safe seems to cause issues as well. # Additionally, on cast Android x86, --icf=all causes issues. if (is_android && current_cpu == "x86") { ldflags += [ "-Wl,--icf=none" ] } else if (is_clang || is_chromeos || (current_cpu != "x86" && current_cpu != "x64")) { ldflags += [ "-Wl,--icf=all" ] } else if (!is_android) { ldflags += [ "-Wl,--icf=safe" ] } } if (linux_use_bundled_binutils) { cflags += [ "-B$binutils_path" ] } # Clang-specific compiler flags setup. # ------------------------------------ if (is_clang) { cflags += [ "-fcolor-diagnostics" ] } # Print absolute paths in diagnostics. There is no precedent for doing this # on Linux/Mac (GCC doesn't support it), but MSVC does this with /FC and # Windows developers rely on it (crbug.com/636109) so only do this on Windows. if (is_clang && is_win) { cflags += [ "-fdiagnostics-absolute-paths" ] } # Makes builds independent of absolute file path. # clang-cl (used if is_win) doesn't expose this flag. # Currently disabled for nacl since its toolchain lacks this flag (too old). # TODO(zforman): Once nacl's toolchain is updated, remove check. if (is_clang && is_linux) { absolute_path = rebase_path("//.") cflags += [ "-fdebug-prefix-map=$absolute_path=." ] } # C++11 compiler flags setup. # --------------------------- if (is_linux || is_android || (is_nacl && is_clang)) { # gnu++11 instead of c++11 is needed because some code uses typeof() (a # GNU extension). # TODO(thakis): Eventually switch this to c++11 instead, # http://crbug.com/427584 cflags_cc += [ "-std=gnu++11" ] } else if (!is_win && !is_nacl) { # TODO(mcgrathr) - the NaCl GCC toolchain doesn't support either gnu++11 # or c++11; we technically don't need this toolchain any more, but there # are still a few buildbots using it, so until those are turned off # we need the !is_nacl clause and the (is_nacl && is_clang) clause, above. cflags_cc += [ "-std=c++11" ] } if (use_libcxx) { cflags_cc += [ "-stdlib=libc++" ] ldflags += [ "-stdlib=libc++" ] } if (no_delete_null_pointer_checks) { cflags_cc += [ "-fno-delete-null-pointer-checks" ] } # Add flags for link-time optimization. These flags enable # optimizations/transformations that require whole-program visibility at link # time, so they need to be applied to all translation units, and we may end up # with miscompiles if only part of the program is compiled with LTO flags. For # that reason, we cannot allow targets to enable or disable these flags, for # example by disabling the optimize configuration. # TODO(pcc): Make this conditional on is_official_build rather than on gn # flags for specific features. if (!is_debug && (allow_posix_link_time_opt || is_cfi) && !is_nacl) { if (use_thin_lto) { cflags += [ "-flto=thin" ] ldflags += [ "-flto=thin", # Limit the parallelism to the sweet spot on most of the machines. # As of now, ThinLTO does not scale beyond 16 cores anyway. "-Wl,-plugin-opt,jobs=16", ] } else { # Note: ThinLTO does not currently have this feature implemented # For Full LTO, it provides a measurable runtime speedup of Chrome. cflags += [ "-flto", "-fwhole-program-vtables", ] ldflags += [ "-flto", "-fwhole-program-vtables", ] # Apply a lower LTO optimization level as the default is too slow. if (is_linux) { if (use_lld) { ldflags += [ "-Wl,--lto-O1" ] } else { ldflags += [ "-Wl,-plugin-opt,O1" ] } } else if (is_mac) { ldflags += [ "-Wl,-mllvm,-O1" ] } } # Work-around for http://openradar.appspot.com/20356002 if (is_mac) { ldflags += [ "-Wl,-all_load" ] } # Allows the linker to apply ICF to the LTO object file. Also, when # targeting ARM, without this flag, LTO produces a .text section that is # larger than the maximum call displacement, preventing the linker from # relocating calls (http://llvm.org/PR22999). if (is_linux) { ldflags += [ "-Wl,-plugin-opt,-function-sections" ] } } # Pass the same C/C++ flags to the objective C/C++ compiler. cflags_objc += cflags_c cflags_objcc += cflags_cc # Assign any flags set for the C compiler to asmflags so that they are sent # to the assembler. The Windows assembler takes different types of flags # so only do so for posix platforms. if (is_posix) { asmflags += cflags asmflags += cflags_c } } # This provides the basic options to select the target CPU and ABI. # It is factored out of "compiler" so that special cases can use this # without using everything that "compiler" brings in. Options that # tweak code generation for a particular CPU do not belong here! # See "compiler_codegen", below. config("compiler_cpu_abi") { cflags = [] ldflags = [] if (is_posix && !(is_mac || is_ios)) { # CPU architecture. We may or may not be doing a cross compile now, so for # simplicity we always explicitly set the architecture. if (current_cpu == "x64") { cflags += [ "-m64", ] ldflags += [ "-m64" ] } else if (current_cpu == "x86") { cflags += [ "-m32" ] ldflags += [ "-m32" ] if (!is_nacl) { cflags += [ "-msse2", "-mfpmath=sse", "-mmmx", ] } } else if (current_cpu == "arm") { if (is_clang && !is_android && !is_nacl) { cflags += [ "--target=arm-linux-gnueabihf" ] ldflags += [ "--target=arm-linux-gnueabihf" ] } if (!is_nacl) { cflags += [ "-march=$arm_arch", "-mfloat-abi=$arm_float_abi", ] } if (arm_tune != "") { cflags += [ "-mtune=$arm_tune" ] } } else if (current_cpu == "arm64") { if (is_clang && !is_android && !is_nacl) { cflags += [ "--target=aarch64-linux-gnu" ] ldflags += [ "--target=aarch64-linux-gnu" ] } } else if (current_cpu == "mipsel" && !is_nacl) { if (is_clang) { # Temporarily needed due to unsupported MIPS macro instructions # in inline asm code in third_party projects (libwebp and webrtc). # TODO(lmilko) Enable integrated-as. cflags += [ "-fno-integrated-as" ] } if (mips_arch_variant == "r6") { if (is_clang) { cflags += [ "--target=mipsel-linux-gnu", "-march=mips32r6", ] ldflags += [ "--target=mipsel-linux-gnu" ] } else { cflags += [ "-mips32r6", "-Wa,-mips32r6", ] if (is_android) { ldflags += [ "-mips32r6", "-Wl,-melf32ltsmip", ] } } if (mips_use_msa == true) { cflags += [ "-mmsa", "-mfp64", ] } } else if (mips_arch_variant == "r2") { if (is_clang) { if (is_android) { cflags += [ "--target=mipsel-linux-android", "-march=mipsel", "-mcpu=mips32r2", ] ldflags += [ "--target=mipsel-linux-android" ] } else { cflags += [ "--target=mipsel-linux-gnu", "-march=mipsel", "-mcpu=mips32r2", ] ldflags += [ "--target=mipsel-linux-gnu" ] } } else { cflags += [ "-mips32r2", "-Wa,-mips32r2", ] if (mips_float_abi == "hard" && mips_fpu_mode != "") { cflags += [ "-m$mips_fpu_mode" ] } } } else if (mips_arch_variant == "r1") { if (is_clang) { if (is_android) { cflags += [ "--target=mipsel-linux-android", "-march=mipsel", "-mcpu=mips32", ] ldflags += [ "--target=mipsel-linux-android" ] } else { cflags += [ "--target=mipsel-linux-gnu", "-march=mipsel", "-mcpu=mips32", ] ldflags += [ "--target=mipsel-linux-gnu" ] } } else { cflags += [ "-mips32", "-Wa,-mips32", ] } } if (mips_dsp_rev == 1) { cflags += [ "-mdsp" ] } else if (mips_dsp_rev == 2) { cflags += [ "-mdspr2" ] } cflags += [ "-m${mips_float_abi}-float" ] } else if (current_cpu == "mips64el") { if (mips_arch_variant == "r6") { if (is_clang) { if (is_android) { cflags += [ "--target=mips64el-linux-android", "-march=mips64el", "-mcpu=mips64r6", ] ldflags += [ "--target=mips64el-linux-android" ] } } else { cflags += [ "-mips64r6", "-Wa,-mips64r6", ] ldflags += [ "-mips64r6" ] } if (mips_use_msa == true) { cflags += [ "-mmsa", "-mfp64", ] } } else if (mips_arch_variant == "r2") { cflags += [ "-mips64r2", "-Wa,-mips64r2", ] ldflags += [ "-mips64r2" ] } } else if (current_cpu == "pnacl" && is_nacl_nonsfi) { if (target_cpu == "x86" || target_cpu == "x64") { cflags += [ "-arch", "x86-32-nonsfi", "--pnacl-bias=x86-32-nonsfi", "--target=i686-unknown-nacl", ] ldflags += [ "-arch", "x86-32-nonsfi", "--target=i686-unknown-nacl", ] } else if (target_cpu == "arm") { cflags += [ "-arch", "arm-nonsfi", "-mfloat-abi=hard", "--pnacl-bias=arm-nonsfi", "--target=armv7-unknown-nacl-gnueabihf", ] ldflags += [ "-arch", "arm-nonsfi", "--target=armv7-unknown-nacl-gnueabihf", ] } } } asmflags = cflags } # This provides options to tweak code generation that are necessary # for particular Chromium code or for working around particular # compiler bugs (or the combination of the two). config("compiler_codegen") { configs = [] cflags = [] if (is_nacl) { configs += [ "//build/config/nacl:compiler_codegen" ] } else if (is_posix && !is_mac && !is_ios) { if (current_cpu == "x86") { if (is_clang) { cflags += [ # Else building libyuv gives clang's register allocator issues, # see llvm.org/PR15798 / crbug.com/233709 "-momit-leaf-frame-pointer", ] } } else if (current_cpu == "arm") { if (is_android && !is_clang) { # Clang doesn't support these flags. cflags += [ # The tree-sra optimization (scalar replacement for # aggregates enabling subsequent optimizations) leads to # invalid code generation when using the Android NDK's # compiler (r5-r7). This can be verified using # webkit_unit_tests' WTF.Checked_int8_t test. "-fno-tree-sra", # The following option is disabled to improve binary # size and performance in gcc 4.9. "-fno-caller-saves", ] } } } asmflags = cflags } # This is separate from :compiler_codegen (and not even a sub-config there) # so that some targets can remove it from the list with: # configs -= [ "//build/config/compiler:clang_stackrealign" ] # See https://crbug.com/556393 for details of where it must be avoided. config("clang_stackrealign") { if (is_clang && current_cpu == "x86" && is_linux) { cflags = [ # Align the stack on 16-byte boundaries, http://crbug.com/418554. "-mstack-alignment=16", "-mstackrealign", ] } } config("compiler_arm_fpu") { if (current_cpu == "arm" && !is_ios && !is_nacl) { cflags = [ "-mfpu=$arm_fpu" ] asmflags = cflags } } config("compiler_arm_thumb") { if (current_cpu == "arm" && arm_use_thumb && is_posix && !(is_mac || is_ios || is_nacl)) { cflags = [ "-mthumb" ] if (is_android && !is_clang) { # Clang doesn't support this option. cflags += [ "-mthumb-interwork" ] } } } # runtime_library ------------------------------------------------------------- # # Sets the runtime library and associated options. # # How do you determine what should go in here vs. "compiler" above? Consider if # a target might choose to use a different runtime library (ignore for a moment # if this is possible or reasonable on your system). If such a target would want # to change or remove your option, put it in the runtime_library config. If a # target wants the option regardless, put it in the compiler config. config("runtime_library") { defines = [] configs = [] # System-specific flags. If your compiler flags apply to one of the # categories here, add it to the associated file to keep this shared config # smaller. if (is_win) { configs += [ "//build/config/win:runtime_library" ] } else if (is_linux) { configs += [ "//build/config/linux:runtime_library" ] } else if (is_ios) { configs += [ "//build/config/ios:runtime_library" ] } else if (is_mac) { configs += [ "//build/config/mac:runtime_library" ] } else if (is_android) { configs += [ "//build/config/android:runtime_library" ] } if (is_posix) { configs += [ "//build/config/posix:runtime_library" ] } if (is_component_build) { defines += [ "COMPONENT_BUILD" ] } } # default_warnings ------------------------------------------------------------ # # Collects all warning flags that are used by default. This is used as a # subconfig of both chromium_code and no_chromium_code. This way these # flags are guaranteed to appear on the compile command line after -Wall. config("default_warnings") { cflags = [] cflags_cc = [] if (is_win) { if (treat_warnings_as_errors) { cflags += [ "/WX" ] } cflags += [ # Warnings permanently disabled: # C4091: 'typedef ': ignored on left of 'X' when no variable is # declared. # This happens in a number of Windows headers. Dumb. "/wd4091", # C4127: conditional expression is constant # This warning can in theory catch dead code and other problems, but # triggers in far too many desirable cases where the conditional # expression is either set by macros or corresponds some legitimate # compile-time constant expression (due to constant template args, # conditionals comparing the sizes of different types, etc.). Some of # these can be worked around, but it's not worth it. "/wd4127", # C4251: 'identifier' : class 'type' needs to have dll-interface to be # used by clients of class 'type2' # This is necessary for the shared library build. "/wd4251", # C4351: new behavior: elements of array 'array' will be default # initialized # This is a silly "warning" that basically just alerts you that the # compiler is going to actually follow the language spec like it's # supposed to, instead of not following it like old buggy versions did. # There's absolutely no reason to turn this on. "/wd4351", # C4355: 'this': used in base member initializer list # It's commonly useful to pass |this| to objects in a class' initializer # list. While this warning can catch real bugs, most of the time the # constructors in question don't attempt to call methods on the passed-in # pointer (until later), and annotating every legit usage of this is # simply more hassle than the warning is worth. "/wd4355", # C4503: 'identifier': decorated name length exceeded, name was # truncated # This only means that some long error messages might have truncated # identifiers in the presence of lots of templates. It has no effect on # program correctness and there's no real reason to waste time trying to # prevent it. "/wd4503", # Warning C4589 says: "Constructor of abstract class ignores # initializer for virtual base class." Disable this warning because it # is flaky in VS 2015 RTM. It triggers on compiler generated # copy-constructors in some cases. "/wd4589", # C4611: interaction between 'function' and C++ object destruction is # non-portable # This warning is unavoidable when using e.g. setjmp/longjmp. MSDN # suggests using exceptions instead of setjmp/longjmp for C++, but # Chromium code compiles without exception support. We therefore have to # use setjmp/longjmp for e.g. JPEG decode error handling, which means we # have to turn off this warning (and be careful about how object # destruction happens in such cases). "/wd4611", # Warnings to evaluate and possibly fix/reenable later: "/wd4100", # Unreferenced formal function parameter. "/wd4121", # Alignment of a member was sensitive to packing. "/wd4244", # Conversion: possible loss of data. "/wd4505", # Unreferenced local function has been removed. "/wd4510", # Default constructor could not be generated. "/wd4512", # Assignment operator could not be generated. "/wd4610", # Class can never be instantiated, constructor required. "/wd4838", # Narrowing conversion. Doesn't seem to be very useful. "/wd4995", # 'X': name was marked as #pragma deprecated "/wd4996", # Deprecated function warning. # These are variable shadowing warnings that are new in VS2015. We # should work through these at some point -- they may be removed from # the RTM release in the /W4 set. "/wd4456", "/wd4457", "/wd4458", "/wd4459", ] cflags += [ # C4312 is a VS 2015 64-bit warning for integer to larger pointer. # TODO(brucedawson): fix warnings, crbug.com/554200 "/wd4312", ] if (current_cpu == "x86") { cflags += [ # VC++ 2015 changes 32-bit size_t truncation warnings from 4244 to # 4267. Example: short TruncTest(size_t x) { return x; } # Since we disable 4244 we need to disable 4267 during migration. # TODO(jschuh): crbug.com/167187 fix size_t to int truncations. "/wd4267", ] } # VS xtree header file needs to be patched or 4702 (unreachable code # warning) is reported if _HAS_EXCEPTIONS=0. Disable the warning if xtree is # not patched. if (!msvs_xtree_patched && exec_script("../../win_is_xtree_patched.py", [], "value") == 0) { cflags += [ "/wd4702" ] # Unreachable code. } # Building with Clang on Windows is a work in progress and very # experimental. See crbug.com/82385. if (is_clang) { cflags += [ # TODO(hans): Make this list shorter eventually, http://crbug.com/504657 "-Wno-microsoft-enum-value", # http://crbug.com/505296 "-Wno-unknown-pragmas", # http://crbug.com/505314 "-Wno-microsoft-cast", # http://crbug.com/550065 ] } } else { if (is_mac && !is_nacl) { # When compiling Objective-C, warns if a method is used whose # availability is newer than the deployment target. This is not # required when compiling Chrome for iOS. cflags += [ "-Wpartial-availability" ] } # Suppress warnings about ABI changes on ARM (Clang doesn't give this # warning). if (current_cpu == "arm" && !is_clang) { cflags += [ "-Wno-psabi" ] } if (!is_clang) { cflags_cc += [ # See comment for -Wno-c++11-narrowing. "-Wno-narrowing", ] # Don't warn about the "typedef 'foo' locally defined but not used" # for gcc 4.8. # TODO: remove this flag once all builds work. See crbug.com/227506 cflags += [ "-Wno-unused-local-typedefs" ] # Don't warn about "maybe" uninitialized. Clang doesn't include this # in -Wall but gcc does, and it gives false positives. cflags += [ "-Wno-maybe-uninitialized" ] } } # Common Clang and GCC warning setup. if (!is_win || is_clang) { cflags += [ # Disables. "-Wno-missing-field-initializers", # "struct foo f = {0};" "-Wno-unused-parameter", # Unused function parameters. ] } if (is_chromeos) { # TODO(thakis): Remove, http://crbug.com/263960 if (is_clang) { cflags_cc += [ "-Wno-reserved-user-defined-literal" ] } else { cflags_cc += [ "-Wno-literal-suffix" ] } } if (is_clang) { cflags += [ # TODO(thakis): Consider -Wloop-analysis (turns on # -Wrange-loop-analysis too). # This warns on using ints as initializers for floats in # initializer lists (e.g. |int a = f(); CGSize s = { a, a };|), # which happens in several places in chrome code. Not sure if # this is worth fixing. "-Wno-c++11-narrowing", # Warns on switches on enums that cover all enum values but # also contain a default: branch. Chrome is full of that. "-Wno-covered-switch-default", # Clang considers the `register` keyword as deprecated, but e.g. # code generated by flex (used in angle) contains that keyword. # http://crbug.com/255186 "-Wno-deprecated-register", # TODO(thakis): This used to be implied by -Wno-unused-function, # which we no longer use. Check if it makes sense to remove # this as well. http://crbug.com/316352 "-Wno-unneeded-internal-declaration", # TODO(hans): Get this cleaned up, http://crbug.com/428099 "-Wno-inconsistent-missing-override", ] # Chrome's hermetic Clang compiler, NaCl's Clang compiler and Xcode's Clang # compiler will almost always have different versions. Certain flags may not # be recognized by one version or the other. if (!is_nacl) { # Flags NaCl (Clang 3.7) does not recognize. cflags += [ # TODO(thakis): Enable this, crbug.com/507717 "-Wno-shift-negative-value", ] } if (!is_nacl && !use_xcode_clang) { # Flags NaCl (Clang 3.7) and Xcode 7.3 (Clang clang-703.0.31) do not # recognize. cflags += [ # TODO(thakis): https://crbug.com/604888 "-Wno-undefined-var-template", # TODO(thakis): https://crbug.com/617318 "-Wno-nonportable-include-path", # TODO(hans): https://crbug.com/637306 "-Wno-address-of-packed-member", ] } } } # chromium_code --------------------------------------------------------------- # # Toggles between higher and lower warnings for code that is (or isn't) # part of Chromium. config("chromium_code") { if (is_win) { cflags = [ "/W4" ] # Warning level 4. } else { cflags = [ "-Wall" ] if (treat_warnings_as_errors) { cflags += [ "-Werror" ] } if (is_clang) { # Enable -Wextra for chromium_code when we control the compiler. cflags += [ "-Wextra" ] } # In Chromium code, we define __STDC_foo_MACROS in order to get the # C99 macros on Mac and Linux. defines = [ "__STDC_CONSTANT_MACROS", "__STDC_FORMAT_MACROS", ] if (!is_debug && !using_sanitizer && (!is_linux || !is_clang || is_official_build)) { # _FORTIFY_SOURCE isn't really supported by Clang now, see # http://llvm.org/bugs/show_bug.cgi?id=16821. # It seems to work fine with Ubuntu 12 headers though, so use it in # official builds. # # Non-chromium code is not guaranteed to compile cleanly with # _FORTIFY_SOURCE. Also, fortified build may fail when optimizations are # disabled, so only do that for Release build. cflags += [ "-U_FORTIFY_SOURCE", "-D_FORTIFY_SOURCE=2" ] } if (is_mac || is_ios) { cflags_objc = [ "-Wobjc-missing-property-synthesis" ] cflags_objcc = [ "-Wobjc-missing-property-synthesis" ] } } configs = [ ":default_warnings" ] } config("no_chromium_code") { cflags = [] cflags_cc = [] defines = [] if (is_win) { cflags += [ "/W3", # Warning level 3. "/wd4800", # Disable warning when forcing value to bool. "/wd4267", # TODO(jschuh): size_t to int. "/wd4996", # Deprecated function warning. ] defines += [ "_CRT_NONSTDC_NO_WARNINGS", "_CRT_NONSTDC_NO_DEPRECATE", ] } else { # GCC may emit unsuppressible warnings so don't add -Werror for no chromium # code. crbug.com/589724 if (treat_warnings_as_errors && is_clang) { cflags += [ "-Werror" ] } if (is_clang && !is_nacl) { # TODO(thakis): Remove !is_nacl once # https://codereview.webrtc.org/1552863002/ made its way into chromium. cflags += [ "-Wall" ] } } if (is_clang) { cflags += [ # Lots of third-party libraries have unused variables. Instead of # suppressing them individually, we just blanket suppress them here. "-Wno-unused-variable", ] } if (is_linux || is_android) { cflags_cc += [ # Don't warn about hash_map in third-party code. "-Wno-deprecated", ] } configs = [ ":default_warnings" ] } # rtti ------------------------------------------------------------------------ # # Allows turning Run-Time Type Identification on or off. config("rtti") { if (is_win) { cflags_cc = [ "/GR" ] } else { cflags_cc = [ "-frtti" ] } } config("no_rtti") { # CFI diagnostics and UBsan vptr require RTTI. if (!use_cfi_diag && !is_ubsan_vptr && !is_ubsan_security) { if (is_win) { cflags_cc = [ "/GR-" ] } else { cflags_cc = [ "-fno-rtti" ] cflags_objcc = cflags_cc } } } # Warnings --------------------------------------------------------------------- # This will generate warnings when using Clang if code generates exit-time # destructors, which will slow down closing the program. # TODO(thakis): Make this a blacklist instead, http://crbug.com/101600 config("wexit_time_destructors") { # TODO: Enable on Windows too, http://crbug.com/404525 if (is_clang && !is_win) { cflags = [ "-Wexit-time-destructors" ] } } # On Windows compiling on x64, VC will issue a warning when converting # size_t to int because it will truncate the value. Our code should not have # these warnings and one should use a static_cast or a checked_cast for the # conversion depending on the case. However, a lot of code still needs to be # fixed. Apply this config to such targets to disable the warning. # # Note that this can be applied regardless of platform and architecture to # clean up the call sites. This will only apply the flag when necessary. # # TODO(jschuh): crbug.com/167187 fix this and delete this config. config("no_size_t_to_int_warning") { if (is_win && current_cpu == "x64") { cflags = [ "/wd4267" ] } } # Some code presumes that pointers to structures/objects are compatible # regardless of whether what they point to is already known to be valid. # gcc 4.9 and earlier had no way of suppressing this warning without # supressing the rest of them. Here we centralize the identification of # the gcc 4.9 toolchains. config("no_incompatible_pointer_warnings") { cflags = [] if (is_clang) { cflags += [ "-Wno-incompatible-pointer-types" ] } else if (current_cpu == "mipsel") { cflags += [ "-w" ] } else if (is_chromeos && current_cpu == "arm") { cflags += [ "-w" ] } } # Optimization ----------------------------------------------------------------- # # The BUILDCONFIG file sets the "default_optimization" config on targets by # default. It will be equivalent to either "optimize" (release) or # "no_optimize" (debug) optimization configs. # # You can override the optimization level on a per-target basis by removing the # default config and then adding the named one you want: # # configs -= [ "//build/config/compiler:default_optimization" ] # configs += [ "//build/config/compiler:optimize_max" ] # Shared settings for both "optimize" and "optimize_max" configs. # IMPORTANT: On Windows "/O1" and "/O2" must go before the common flags. if (is_win) { common_optimize_on_cflags = [ "/Ob2", # Both explicit and auto inlining. "/Oy-", # Disable omitting frame pointers, must be after /O2. "/d2Zi+", # Improve debugging of optimized code. "/Zc:inline", # Remove unreferenced COMDAT (faster links). ] if (!is_asan) { common_optimize_on_cflags += [ # Put data in separate COMDATs. This allows the linker # to put bit-identical constants at the same address even if # they're unrelated constants, which saves binary size. # This optimization can't be used when ASan is enabled because # it is not compatible with the ASan ODR checker. "/Gw", ] } common_optimize_on_ldflags = [] if (!is_component_build) { common_optimize_on_ldflags += [ "/OPT:ICF" ] # Redundant COMDAT folding. } if (is_official_build) { common_optimize_on_ldflags += [ "/OPT:REF" ] # Remove unreferenced data. if (!use_lld) { common_optimize_on_ldflags += [ # Set the number of LTCG code-gen threads to eight. The default is four. # This gives a 5-10% link speedup. "/cgthreads:8", ] if (use_incremental_wpo) { # Incremental Link-time code generation. common_optimize_on_ldflags += [ "/LTCG:INCREMENTAL" ] } else { common_optimize_on_ldflags += [ "/LTCG" ] # Link-time code generation. } } if (full_wpo_on_official) { if (use_incremental_wpo) { arflags = [ "/LTCG:INCREMENTAL" ] } else { arflags = [ "/LTCG" ] } } } } else { common_optimize_on_cflags = [] common_optimize_on_ldflags = [] if (is_android) { # TODO(jdduke) Re-enable on mips after resolving linking # issues with libc++ (crbug.com/456380). if (current_cpu != "mipsel" && current_cpu != "mips64el") { common_optimize_on_ldflags += [ # Warn in case of text relocations. "-Wl,--warn-shared-textrel", ] } } if (is_mac || is_ios) { if (symbol_level == 2) { # Mac dead code stripping requires symbols. common_optimize_on_ldflags += [ "-Wl,-dead_strip" ] } } else { # Non-Mac Posix flags. common_optimize_on_cflags += [ # Don't emit the GCC version ident directives, they just end up in the # .comment section taking up binary size. "-fno-ident", # Put data and code in their own sections, so that unused symbols # can be removed at link time with --gc-sections. "-fdata-sections", "-ffunction-sections", ] common_optimize_on_ldflags += [ # Specifically tell the linker to perform optimizations. # See http://lwn.net/Articles/192624/ . "-Wl,-O1", "-Wl,--gc-sections", ] } } config("default_stack_frames") { if (is_posix && !(is_mac || is_ios)) { if (using_sanitizer || enable_profiling || is_debug || current_cpu == "arm64") { # Explicitly ask for frame pointers, otherwise: # * Stacks may be missing for sanitizer and profiling builds. # * Debug tcmalloc can crash (crbug.com/636489). # * Stacks may be missing for arm64 crash dumps (crbug.com/391706). cflags = [ "-fno-omit-frame-pointer" ] } else if (is_android) { cflags = [ "-fomit-frame-pointer" ] } } } # Default "optimization on" config. config("optimize") { if (is_win) { # TODO(thakis): Remove is_clang here, https://crbug.com/598772 if (is_official_build && full_wpo_on_official && !is_clang) { common_optimize_on_cflags += [ "/GL", # Whole program optimization. # Disable Warning 4702 ("Unreachable code") for the WPO/PGO builds. # Probably anything that this would catch that wouldn't be caught in a # normal build isn't going to actually be a bug, so the incremental # value of C4702 for PGO builds is likely very small. "/wd4702", ] } # Favor size over speed, /O1 must be before the common flags. The GYP # build also specifies /Os and /GF but these are implied by /O1. cflags = [ "/O1" ] + common_optimize_on_cflags + [ "/Oi" ] } else if (optimize_for_size) { # Favor size over speed. cflags = [ "-Os" ] + common_optimize_on_cflags } else { cflags = [ "-O2" ] + common_optimize_on_cflags } ldflags = common_optimize_on_ldflags } # Same config as 'optimize' but without the WPO flag. config("optimize_no_wpo") { if (is_win) { # Favor size over speed, /O1 must be before the common flags. The GYP # build also specifies /Os and /GF but these are implied by /O1. cflags = [ "/O1" ] + common_optimize_on_cflags + [ "/Oi" ] } else if (optimize_for_size) { # Favor size over speed. cflags = [ "-Os" ] + common_optimize_on_cflags } else if (optimize_for_fuzzing) { cflags = [ "-O1" ] + common_optimize_on_cflags } else { cflags = [ "-O2" ] + common_optimize_on_cflags } ldflags = common_optimize_on_ldflags } # Turn off optimizations. config("no_optimize") { if (is_win) { cflags = [ "/Od", # Disable optimization. "/Ob0", # Disable all inlining (on by default). ] } else if (is_android && !android_full_debug) { # On Android we kind of optimize some things that don't affect debugging # much even when optimization is disabled to get the binary size down. cflags = [ "-Os" ] } else { cflags = [ "-O0" ] ldflags = [] } } config("optimize_size_only") { if (is_win) { cflags = [ "/O1" ] } else { cflags = [ "-Os" ] } } # Turns up the optimization level. On Windows, this implies whole program # optimization and link-time code generation which is very expensive and should # be used sparingly. config("optimize_max") { if (is_nacl_irt) { # The NaCl IRT is a special case and always wants its own config. # Various components do: # if (!is_debug) { # configs -= [ "//build/config/compiler:default_optimization" ] # configs += [ "//build/config/compiler:optimize_max" ] # } # So this config has to have the selection logic just like # "default_optimization", below. configs = [ "//build/config/nacl:irt_optimize" ] } else { ldflags = common_optimize_on_ldflags if (is_win) { # Favor speed over size, /O2 must be before the common flags. The GYP # build also specifies /Ot, /Oi, and /GF, but these are implied by /O2. cflags = [ "/O2" ] + common_optimize_on_cflags if (is_official_build) { if (!is_clang) { cflags += [ "/GL", # Whole program optimization. # Disable Warning 4702 ("Unreachable code") for the WPO/PGO builds. # Probably anything that this would catch that wouldn't be caught # in a normal build isn't going to actually be a bug, so the # incremental value of C4702 for PGO builds is likely very small. "/wd4702", ] } else if (is_clang && use_lld) { cflags += [ "-flto" ] # Link-time optimization (whole program optimization). } } } else if (optimize_for_fuzzing) { cflags = [ "-O1" ] + common_optimize_on_cflags } else { cflags = [ "-O2" ] + common_optimize_on_cflags } } } # This config can be used to override the default settings for per-component # and whole-program optimization, optimizing the particular target for speed # instead of code size. This config is exactly the same as "optimize_max" # except that we use -O3 instead of -O2 on non-win, non-IRT platforms. # # TODO(crbug.com/621335) - rework how all of these configs are related # so that we don't need this disclaimer. config("optimize_speed") { if (is_nacl_irt) { # The NaCl IRT is a special case and always wants its own config. # Various components do: # if (!is_debug) { # configs -= [ "//build/config/compiler:default_optimization" ] # configs += [ "//build/config/compiler:optimize_max" ] # } # So this config has to have the selection logic just like # "default_optimization", below. configs = [ "//build/config/nacl:irt_optimize" ] } else { ldflags = common_optimize_on_ldflags if (is_win) { # Favor speed over size, /O2 must be before the common flags. The GYP # build also specifies /Ot, /Oi, and /GF, but these are implied by /O2. cflags = [ "/O2" ] + common_optimize_on_cflags # TODO(thakis): Remove is_clang here, https://crbug.com/598772 if (is_official_build && !is_clang) { cflags += [ "/GL", # Whole program optimization. # Disable Warning 4702 ("Unreachable code") for the WPO/PGO builds. # Probably anything that this would catch that wouldn't be caught in a # normal build isn't going to actually be a bug, so the incremental # value of C4702 for PGO builds is likely very small. "/wd4702", ] } } else if (optimize_for_fuzzing) { cflags = [ "-O1" ] + common_optimize_on_cflags } else { cflags = [ "-O3" ] + common_optimize_on_cflags } } } config("optimize_fuzzing") { cflags = [ "-O1" ] + common_optimize_on_cflags ldflags = common_optimize_on_ldflags visibility = [ ":default_optimization" ] } # The default optimization applied to all targets. This will be equivalent to # either "optimize" or "no_optimize", depending on the build flags. config("default_optimization") { if (is_nacl_irt) { # The NaCl IRT is a special case and always wants its own config. # It gets optimized the same way regardless of the type of build. configs = [ "//build/config/nacl:irt_optimize" ] } else if (is_debug) { configs = [ ":no_optimize" ] } else if (optimize_for_fuzzing) { assert(!is_win, "Fuzzing optimize level not supported on Windows") configs = [ ":optimize_fuzzing" ] } else { configs = [ ":optimize" ] } } # GCC supports a form of profile-guided optimization called AFDO, which # is used by ChromeOS in their official builds. However, # //base/allocator:tcmalloc currently doesn't work correctly with AFDO # so we provide separate config so that the flag can be disabled per-target. # TODO(crbug.com/633719): Remove this config once tcmalloc works with AFDO # or we remove tcmalloc or we stop using AFDO. config("afdo") { if (auto_profile_path != "" && current_toolchain == default_toolchain) { cflags = [ "-fauto-profile=${auto_profile_path}" ] } } # Symbols ---------------------------------------------------------------------- # The BUILDCONFIG file sets the "default_symbols" config on targets by # default. It will be equivalent to one the three specific symbol levels. # # You can override the symbol level on a per-target basis by removing the # default config and then adding the named one you want: # # configs -= [ "//build/config/compiler:default_symbols" ] # configs += [ "//build/config/compiler:symbols" ] # Full symbols. config("symbols") { if (is_win) { import("//build/toolchain/goma.gni") cflags = [ "/Zi" ] # Produce PDB file, no edit and continue. if (is_win_fastlink) { # Tell VS 2015+ to create a PDB that references debug # information in .obj and .lib files instead of copying # it all. This flag is incompatible with /PROFILE ldflags = [ "/DEBUG:FASTLINK" ] } else { ldflags = [ "/DEBUG" ] } } else { if (is_mac || is_ios) { cflags = [ "-gdwarf-2" ] if (is_mac && enable_dsyms) { # If generating dSYMs, specify -fno-standalone-debug. This was # originally specified for https://crbug.com/479841 because dsymutil # could not handle a 4GB dSYM file. But dsymutil from Xcodes prior to # version 7 also produces debug data that is incompatible with Breakpad # dump_syms, so this is still required (https://crbug.com/622406). cflags += [ "-fno-standalone-debug" ] } } else if (is_android) { # Breakpad can't handle DWARF 4 symbols properly yet, so use DWARF 3 # explicitly on android where we are hitting https://crbug.com/638485. # The arguments MUST be in this order because of a gcc arg parsing bug. cflags = [ "-gdwarf-3", "-g2", ] } else { cflags = [ "-g2" ] } if (use_debug_fission) { cflags += [ "-gsplit-dwarf" ] } asmflags = cflags ldflags = [] } } # Minimal symbols. config("minimal_symbols") { if (is_win) { # Linker symbols for backtraces only. cflags = [] ldflags = [ "/DEBUG" ] } else { if (is_android) { # Breakpad can't handle DWARF 4 symbols properly yet, so use DWARF 3 # explicitly on android where we are hitting https://crbug.com/638485. # The arguments MUST be in this order because of a gcc arg parsing bug. cflags = [ "-gdwarf-3", "-g1", ] } else { cflags = [ "-g1" ] } if (use_debug_fission) { cflags += [ "-gsplit-dwarf" ] } asmflags = cflags ldflags = [] } } # No symbols. config("no_symbols") { if (!is_win) { cflags = [ "-g0" ] asmflags = cflags } } # Default symbols. config("default_symbols") { if (symbol_level == 0) { configs = [ ":no_symbols" ] } else if (symbol_level == 1) { configs = [ ":minimal_symbols" ] } else if (symbol_level == 2) { configs = [ ":symbols" ] } else { assert(false) } } if (is_ios || is_mac) { # On Mac and iOS, this enables support for ARC (automatic ref-counting). # See http://clang.llvm.org/docs/AutomaticReferenceCounting.html. config("enable_arc") { common_flags = [ "-fobjc-arc" ] cflags_objc = common_flags cflags_objcc = common_flags } }