| // 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. |
| |
| #include "gn/args.h" |
| |
| #include "gn/settings.h" |
| #include "gn/source_file.h" |
| #include "gn/string_utils.h" |
| #include "gn/variables.h" |
| #include "util/build_config.h" |
| #include "util/sys_info.h" |
| |
| const char kBuildArgs_Help[] = |
| R"(Build Arguments Overview |
| |
| Build arguments are variables passed in from outside of the build that build |
| files can query to determine how the build works. |
| |
| How build arguments are set |
| |
| First, system default arguments are set based on the current system. The |
| built-in arguments are: |
| - host_cpu |
| - host_os |
| - current_cpu |
| - current_os |
| - target_cpu |
| - target_os |
| |
| Next, project-specific overrides are applied. These are specified inside |
| the default_args variable of //.gn. See "gn help dotfile" for more. |
| |
| If specified, arguments from the --args command line flag are used. If that |
| flag is not specified, args from previous builds in the build directory will |
| be used (this is in the file args.gn in the build directory). |
| |
| Last, for targets being compiled with a non-default toolchain, the toolchain |
| overrides are applied. These are specified in the toolchain_args section of a |
| toolchain definition. The use-case for this is that a toolchain may be |
| building code for a different platform, and that it may want to always |
| specify Posix, for example. See "gn help toolchain" for more. |
| |
| If you specify an override for a build argument that never appears in a |
| "declare_args" call, a nonfatal error will be displayed. |
| |
| Examples |
| |
| gn args out/FooBar |
| Create the directory out/FooBar and open an editor. You would type |
| something like this into that file: |
| enable_doom_melon=false |
| os="android" |
| |
| gn gen out/FooBar --args="enable_doom_melon=true os=\"android\"" |
| This will overwrite the build directory with the given arguments. (Note |
| that the quotes inside the args command will usually need to be escaped |
| for your shell to pass through strings values.) |
| |
| How build arguments are used |
| |
| If you want to use an argument, you use declare_args() and specify default |
| values. These default values will apply if none of the steps listed in the |
| "How build arguments are set" section above apply to the given argument, but |
| the defaults will not override any of these. |
| |
| Often, the root build config file will declare global arguments that will be |
| passed to all buildfiles. Individual build files can also specify arguments |
| that apply only to those files. It is also useful to specify build args in an |
| "import"-ed file if you want such arguments to apply to multiple buildfiles. |
| )"; |
| |
| namespace { |
| |
| // Removes all entries in |overrides| that are in |declared_overrides|. |
| void RemoveDeclaredOverrides(const Scope::KeyValueMap& declared_arguments, |
| Scope::KeyValueMap* overrides) { |
| for (Scope::KeyValueMap::iterator override = overrides->begin(); |
| override != overrides->end();) { |
| if (declared_arguments.find(override->first) == declared_arguments.end()) |
| ++override; |
| else |
| overrides->erase(override++); |
| } |
| } |
| |
| } // namespace |
| |
| Args::ValueWithOverride::ValueWithOverride() |
| : default_value(), has_override(false), override_value() {} |
| |
| Args::ValueWithOverride::ValueWithOverride(const Value& def_val) |
| : default_value(def_val), has_override(false), override_value() {} |
| |
| Args::ValueWithOverride::~ValueWithOverride() = default; |
| |
| Args::Args() = default; |
| |
| Args::Args(const Args& other) |
| : overrides_(other.overrides_), |
| all_overrides_(other.all_overrides_), |
| declared_arguments_per_toolchain_( |
| other.declared_arguments_per_toolchain_), |
| toolchain_overrides_(other.toolchain_overrides_) {} |
| |
| Args::~Args() = default; |
| |
| void Args::AddArgOverride(const char* name, const Value& value) { |
| std::lock_guard<std::mutex> lock(lock_); |
| |
| overrides_[std::string_view(name)] = value; |
| all_overrides_[std::string_view(name)] = value; |
| } |
| |
| void Args::AddArgOverrides(const Scope::KeyValueMap& overrides) { |
| std::lock_guard<std::mutex> lock(lock_); |
| |
| for (const auto& cur_override : overrides) { |
| overrides_[cur_override.first] = cur_override.second; |
| all_overrides_[cur_override.first] = cur_override.second; |
| } |
| } |
| |
| void Args::AddDefaultArgOverrides(const Scope::KeyValueMap& overrides) { |
| std::lock_guard<std::mutex> lock(lock_); |
| for (const auto& cur_override : overrides) |
| overrides_[cur_override.first] = cur_override.second; |
| } |
| |
| const Value* Args::GetArgOverride(const char* name) const { |
| std::lock_guard<std::mutex> lock(lock_); |
| |
| Scope::KeyValueMap::const_iterator found = |
| all_overrides_.find(std::string_view(name)); |
| if (found == all_overrides_.end()) |
| return nullptr; |
| return &found->second; |
| } |
| |
| void Args::SetupRootScope(Scope* dest, |
| const Scope::KeyValueMap& toolchain_overrides) const { |
| std::lock_guard<std::mutex> lock(lock_); |
| |
| SetSystemVarsLocked(dest); |
| |
| // Apply overrides for already declared args. |
| // (i.e. the system vars we set above) |
| ApplyOverridesLocked(overrides_, dest); |
| ApplyOverridesLocked(toolchain_overrides, dest); |
| |
| OverridesForToolchainLocked(dest) = toolchain_overrides; |
| |
| SaveOverrideRecordLocked(toolchain_overrides); |
| } |
| |
| bool Args::DeclareArgs(const Scope::KeyValueMap& args, |
| Scope* scope_to_set, |
| Err* err) const { |
| std::lock_guard<std::mutex> lock(lock_); |
| |
| Scope::KeyValueMap& declared_arguments( |
| DeclaredArgumentsForToolchainLocked(scope_to_set)); |
| |
| const Scope::KeyValueMap& toolchain_overrides( |
| OverridesForToolchainLocked(scope_to_set)); |
| |
| for (const auto& arg : args) { |
| // Verify that the value hasn't already been declared. We want each value |
| // to be declared only once. |
| // |
| // The tricky part is that a buildfile can be interpreted multiple times |
| // when used from different toolchains, so we can't just check that we've |
| // seen it before. Instead, we check that the location matches. |
| Scope::KeyValueMap::iterator previously_declared = |
| declared_arguments.find(arg.first); |
| if (previously_declared != declared_arguments.end()) { |
| if (previously_declared->second.origin() != arg.second.origin()) { |
| // Declaration location mismatch. |
| *err = Err( |
| arg.second.origin(), "Duplicate build argument declaration.", |
| "Here you're declaring an argument that was already declared " |
| "elsewhere.\nYou can only declare each argument once in the entire " |
| "build so there is one\ncanonical place for documentation and the " |
| "default value. Either move this\nargument to the build config " |
| "file (for visibility everywhere) or to a .gni file\nthat you " |
| "\"import\" from the files where you need it (preferred)."); |
| err->AppendSubErr(Err(previously_declared->second.origin(), |
| "Previous declaration.", |
| "See also \"gn help buildargs\" for more on how " |
| "build arguments work.")); |
| return false; |
| } |
| } else { |
| declared_arguments.insert(arg); |
| } |
| |
| // In all the cases below, mark the variable used. If a variable is set |
| // that's only used in one toolchain, we don't want to report unused |
| // variable errors in other toolchains. Also, in some cases it's reasonable |
| // for the build file to overwrite the value with a different value based |
| // on some other condition without dereferencing the value first. |
| |
| // Check whether this argument has been overridden on the toolchain level |
| // and use the override instead. |
| Scope::KeyValueMap::const_iterator toolchain_override = |
| toolchain_overrides.find(arg.first); |
| if (toolchain_override != toolchain_overrides.end()) { |
| scope_to_set->SetValue(toolchain_override->first, |
| toolchain_override->second, |
| toolchain_override->second.origin()); |
| scope_to_set->MarkUsed(arg.first); |
| continue; |
| } |
| |
| // Check whether this argument has been overridden and use the override |
| // instead. |
| Scope::KeyValueMap::const_iterator override = overrides_.find(arg.first); |
| if (override != overrides_.end()) { |
| scope_to_set->SetValue(override->first, override->second, |
| override->second.origin()); |
| scope_to_set->MarkUsed(override->first); |
| continue; |
| } |
| |
| scope_to_set->SetValue(arg.first, arg.second, arg.second.origin()); |
| scope_to_set->MarkUsed(arg.first); |
| } |
| |
| return true; |
| } |
| |
| bool Args::VerifyAllOverridesUsed(Err* err) const { |
| std::lock_guard<std::mutex> lock(lock_); |
| Scope::KeyValueMap unused_overrides(all_overrides_); |
| for (const auto& map_pair : declared_arguments_per_toolchain_) |
| RemoveDeclaredOverrides(map_pair.second, &unused_overrides); |
| |
| if (unused_overrides.empty()) |
| return true; |
| |
| // Some assignments in args.gn had no effect. Show an error for the first |
| // unused assignment. |
| std::string_view name = unused_overrides.begin()->first; |
| const Value& value = unused_overrides.begin()->second; |
| |
| std::string err_help( |
| "The variable \"" + name + |
| "\" was set as a build argument\n" |
| "but never appeared in a declare_args() block in any buildfile.\n\n" |
| "To view all possible args, run \"gn args --list <out_dir>\""); |
| |
| // Use all declare_args for a spelling suggestion. |
| std::vector<std::string_view> candidates; |
| for (const auto& map_pair : declared_arguments_per_toolchain_) { |
| for (const auto& declared_arg : map_pair.second) |
| candidates.push_back(declared_arg.first); |
| } |
| std::string_view suggestion = SpellcheckString(name, candidates); |
| if (!suggestion.empty()) |
| err_help = "Did you mean \"" + suggestion + "\"?\n\n" + err_help; |
| |
| *err = Err(value.origin(), "Build argument has no effect.", err_help); |
| return false; |
| } |
| |
| Args::ValueWithOverrideMap Args::GetAllArguments() const { |
| ValueWithOverrideMap result; |
| |
| std::lock_guard<std::mutex> lock(lock_); |
| |
| // Sort the keys from declared_arguments_per_toolchain_ so |
| // the return value will be deterministic. |
| std::vector<const Settings*> keys; |
| keys.reserve(declared_arguments_per_toolchain_.size()); |
| for (const auto& map_pair : declared_arguments_per_toolchain_) { |
| keys.push_back(map_pair.first); |
| } |
| std::sort(keys.begin(), keys.end(), |
| [](const Settings* a, const Settings* b) -> bool { |
| return a->toolchain_label() < b->toolchain_label(); |
| }); |
| |
| // Default values. |
| for (const auto& key : keys) { |
| const auto& value = declared_arguments_per_toolchain_[key]; |
| for (const auto& arg : value) |
| result.insert(std::make_pair(arg.first, ValueWithOverride(arg.second))); |
| } |
| |
| // Merge in overrides. |
| for (const auto& over : overrides_) { |
| auto found = result.find(over.first); |
| if (found != result.end()) { |
| found->second.has_override = true; |
| found->second.override_value = over.second; |
| } |
| } |
| |
| return result; |
| } |
| |
| void Args::SetSystemVarsLocked(Scope* dest) const { |
| // Host OS. |
| const char* os = nullptr; |
| #if defined(OS_WIN) || defined(OS_MSYS) |
| os = "win"; |
| #elif defined(OS_MACOSX) |
| os = "mac"; |
| #elif defined(OS_LINUX) |
| os = "linux"; |
| #elif defined(OS_FREEBSD) |
| os = "freebsd"; |
| #elif defined(OS_AIX) |
| os = "aix"; |
| #elif defined(OS_OPENBSD) |
| os = "openbsd"; |
| #elif defined(OS_HAIKU) |
| os = "haiku"; |
| #elif defined(OS_SOLARIS) |
| os = "solaris"; |
| #elif defined(OS_NETBSD) |
| os = "netbsd"; |
| #else |
| #error Unknown OS type. |
| #endif |
| // NOTE: Adding a new port? Please follow |
| // https://chromium.googlesource.com/chromium/src/+/master/docs/new_port_policy.md |
| |
| // Host architecture. |
| static const char kX86[] = "x86"; |
| static const char kX64[] = "x64"; |
| static const char kArm[] = "arm"; |
| static const char kArm64[] = "arm64"; |
| static const char kMips[] = "mipsel"; |
| static const char kMips64[] = "mips64el"; |
| static const char kS390X[] = "s390x"; |
| static const char kPPC64[] = "ppc64"; |
| static const char kRISCV32[] = "riscv32"; |
| static const char kRISCV64[] = "riscv64"; |
| static const char kE2K[] = "e2k"; |
| const char* arch = nullptr; |
| |
| // Set the host CPU architecture based on the underlying OS, not |
| // whatever the current bit-tedness of the GN binary is. |
| std::string os_arch = OperatingSystemArchitecture(); |
| if (os_arch == "x86" || os_arch == "BePC") |
| arch = kX86; |
| else if (os_arch == "x86_64") |
| arch = kX64; |
| else if (os_arch == "aarch64" || os_arch == "arm64") |
| arch = kArm64; |
| else if (os_arch.substr(0, 3) == "arm") |
| arch = kArm; |
| else if (os_arch == "mips") |
| arch = kMips; |
| else if (os_arch == "mips64") |
| arch = kMips64; |
| else if (os_arch == "s390x") |
| arch = kS390X; |
| else if (os_arch == "ppc64" || os_arch == "ppc64le") |
| // We handle the endianness inside //build/config/host_byteorder.gni. |
| // This allows us to use the same toolchain as ppc64 BE |
| // and specific flags are included using the host_byteorder logic. |
| arch = kPPC64; |
| else if (os_arch == "riscv32") |
| arch = kRISCV32; |
| else if (os_arch == "riscv64") |
| arch = kRISCV64; |
| else if (os_arch == "e2k") |
| arch = kE2K; |
| else |
| CHECK(false) << "OS architecture not handled. (" << os_arch << ")"; |
| |
| // Save the OS and architecture as build arguments that are implicitly |
| // declared. This is so they can be overridden in a toolchain build args |
| // override, and so that they will appear in the "gn args" output. |
| Value empty_string(nullptr, std::string()); |
| |
| Value os_val(nullptr, std::string(os)); |
| dest->SetValue(variables::kHostOs, os_val, nullptr); |
| dest->SetValue(variables::kTargetOs, empty_string, nullptr); |
| dest->SetValue(variables::kCurrentOs, empty_string, nullptr); |
| |
| Value arch_val(nullptr, std::string(arch)); |
| dest->SetValue(variables::kHostCpu, arch_val, nullptr); |
| dest->SetValue(variables::kTargetCpu, empty_string, nullptr); |
| dest->SetValue(variables::kCurrentCpu, empty_string, nullptr); |
| |
| Scope::KeyValueMap& declared_arguments( |
| DeclaredArgumentsForToolchainLocked(dest)); |
| declared_arguments[variables::kHostOs] = os_val; |
| declared_arguments[variables::kCurrentOs] = empty_string; |
| declared_arguments[variables::kTargetOs] = empty_string; |
| declared_arguments[variables::kHostCpu] = arch_val; |
| declared_arguments[variables::kCurrentCpu] = empty_string; |
| declared_arguments[variables::kTargetCpu] = empty_string; |
| |
| // Mark these variables used so the build config file can override them |
| // without geting a warning about overwriting an unused variable. |
| dest->MarkUsed(variables::kHostCpu); |
| dest->MarkUsed(variables::kCurrentCpu); |
| dest->MarkUsed(variables::kTargetCpu); |
| dest->MarkUsed(variables::kHostOs); |
| dest->MarkUsed(variables::kCurrentOs); |
| dest->MarkUsed(variables::kTargetOs); |
| } |
| |
| void Args::ApplyOverridesLocked(const Scope::KeyValueMap& values, |
| Scope* scope) const { |
| const Scope::KeyValueMap& declared_arguments( |
| DeclaredArgumentsForToolchainLocked(scope)); |
| |
| // Only set a value if it has been declared. |
| for (const auto& val : values) { |
| Scope::KeyValueMap::const_iterator declared = |
| declared_arguments.find(val.first); |
| |
| if (declared == declared_arguments.end()) |
| continue; |
| |
| scope->SetValue(val.first, val.second, val.second.origin()); |
| } |
| } |
| |
| void Args::SaveOverrideRecordLocked(const Scope::KeyValueMap& values) const { |
| for (const auto& val : values) |
| all_overrides_[val.first] = val.second; |
| } |
| |
| Scope::KeyValueMap& Args::DeclaredArgumentsForToolchainLocked( |
| Scope* scope) const { |
| return declared_arguments_per_toolchain_[scope->settings()]; |
| } |
| |
| Scope::KeyValueMap& Args::OverridesForToolchainLocked(Scope* scope) const { |
| return toolchain_overrides_[scope->settings()]; |
| } |