const std = @import("std"); const path = std.fs.path; const assert = std.debug.assert; const target_util = @import("target.zig"); const Compilation = @import("Compilation.zig"); const Module = @import("Package/Module.zig"); const build_options = @import("build_options"); const trace = @import("tracy.zig").trace; pub const BuildError = error{ OutOfMemory, SubCompilationFailed, ZigCompilerNotBuiltWithLLVMExtensions, }; pub fn buildStaticLib(comp: *Compilation, prog_node: std.Progress.Node) BuildError!void { if (!build_options.have_llvm) { return error.ZigCompilerNotBuiltWithLLVMExtensions; } const tracy = trace(@src()); defer tracy.end(); var arena_allocator = std.heap.ArenaAllocator.init(comp.gpa); defer arena_allocator.deinit(); const arena = arena_allocator.allocator(); const output_mode = .Lib; const target = comp.root_mod.resolved_target.result; const unwind_tables: std.builtin.UnwindTables = if (target.cpu.arch == .x86 and target.os.tag == .windows) .none else .@"async"; const config = Compilation.Config.resolve(.{ .output_mode = .Lib, .resolved_target = comp.root_mod.resolved_target, .is_test = false, .have_zcu = false, .emit_bin = true, .root_optimize_mode = comp.compilerRtOptMode(), .root_strip = comp.compilerRtStrip(), .link_libc = true, .any_unwind_tables = unwind_tables != .none, .lto = comp.config.lto, }) catch |err| { comp.setMiscFailure( .libunwind, "unable to build libunwind: resolving configuration failed: {s}", .{@errorName(err)}, ); return error.SubCompilationFailed; }; const root_mod = Module.create(arena, .{ .global_cache_directory = comp.global_cache_directory, .paths = .{ .root = .{ .root_dir = comp.zig_lib_directory }, .root_src_path = "", }, .fully_qualified_name = "root", .inherited = .{ .resolved_target = comp.root_mod.resolved_target, .strip = comp.compilerRtStrip(), .stack_check = false, .stack_protector = 0, .red_zone = comp.root_mod.red_zone, .omit_frame_pointer = comp.root_mod.omit_frame_pointer, .valgrind = false, .sanitize_c = false, .sanitize_thread = false, // necessary so that libunwind can unwind through its own stack frames // The old 32-bit x86 variant of SEH doesn't use tables. .unwind_tables = unwind_tables, .pic = if (target_util.supports_fpic(target)) true else null, .optimize_mode = comp.compilerRtOptMode(), .code_model = comp.root_mod.code_model, }, .global = config, .cc_argv = &.{}, .parent = null, .builtin_mod = null, .builtin_modules = null, // there is only one module in this compilation }) catch |err| { comp.setMiscFailure( .libunwind, "unable to build libunwind: creating module failed: {s}", .{@errorName(err)}, ); return error.SubCompilationFailed; }; const root_name = "unwind"; const link_mode = .static; const basename = try std.zig.binNameAlloc(arena, .{ .root_name = root_name, .target = target, .output_mode = output_mode, .link_mode = link_mode, }); const emit_bin = Compilation.EmitLoc{ .directory = null, // Put it in the cache directory. .basename = basename, }; var c_source_files: [unwind_src_list.len]Compilation.CSourceFile = undefined; for (unwind_src_list, 0..) |unwind_src, i| { var cflags = std.ArrayList([]const u8).init(arena); switch (Compilation.classifyFileExt(unwind_src)) { .c => { try cflags.appendSlice(&.{ "-std=c99", "-fexceptions", }); }, .cpp => { try cflags.append("-fno-exceptions"); try cflags.append("-fno-rtti"); }, .assembly_with_cpp => {}, else => unreachable, // See `unwind_src_list`. } try cflags.append("-I"); try cflags.append(try comp.zig_lib_directory.join(arena, &[_][]const u8{ "libunwind", "include" })); try cflags.append("-D_LIBUNWIND_HIDE_SYMBOLS"); try cflags.append("-Wa,--noexecstack"); try cflags.append("-fvisibility=hidden"); try cflags.append("-fvisibility-inlines-hidden"); try cflags.append("-fvisibility-global-new-delete=force-hidden"); // This is intentionally always defined because the macro definition means, should it only // build for the target specified by compiler defines. Since we pass -target the compiler // defines will be correct. try cflags.append("-D_LIBUNWIND_IS_NATIVE_ONLY"); if (comp.root_mod.optimize_mode == .Debug) { try cflags.append("-D_DEBUG"); } if (!comp.config.any_non_single_threaded) { try cflags.append("-D_LIBUNWIND_HAS_NO_THREADS"); } if (target.cpu.arch.isArm() and target.abi.float() == .hard) { try cflags.append("-DCOMPILER_RT_ARMHF_TARGET"); } try cflags.append("-Wno-bitwise-conditional-parentheses"); try cflags.append("-Wno-visibility"); try cflags.append("-Wno-incompatible-pointer-types"); if (target.os.tag == .windows) { try cflags.append("-Wno-dll-attribute-on-redeclaration"); } c_source_files[i] = .{ .src_path = try comp.zig_lib_directory.join(arena, &[_][]const u8{unwind_src}), .extra_flags = cflags.items, .owner = root_mod, }; } const sub_compilation = Compilation.create(comp.gpa, arena, .{ .self_exe_path = comp.self_exe_path, .local_cache_directory = comp.global_cache_directory, .global_cache_directory = comp.global_cache_directory, .zig_lib_directory = comp.zig_lib_directory, .config = config, .root_mod = root_mod, .cache_mode = .whole, .root_name = root_name, .main_mod = null, .thread_pool = comp.thread_pool, .libc_installation = comp.libc_installation, .emit_bin = emit_bin, .function_sections = comp.function_sections, .c_source_files = &c_source_files, .verbose_cc = comp.verbose_cc, .verbose_link = comp.verbose_link, .verbose_air = comp.verbose_air, .verbose_llvm_ir = comp.verbose_llvm_ir, .verbose_llvm_bc = comp.verbose_llvm_bc, .verbose_cimport = comp.verbose_cimport, .verbose_llvm_cpu_features = comp.verbose_llvm_cpu_features, .clang_passthrough_mode = comp.clang_passthrough_mode, .skip_linker_dependencies = true, }) catch |err| { comp.setMiscFailure( .libunwind, "unable to build libunwind: create compilation failed: {s}", .{@errorName(err)}, ); return error.SubCompilationFailed; }; defer sub_compilation.destroy(); comp.updateSubCompilation(sub_compilation, .libunwind, prog_node) catch |err| switch (err) { error.SubCompilationFailed => return error.SubCompilationFailed, else => |e| { comp.setMiscFailure( .libunwind, "unable to build libunwind: compilation failed: {s}", .{@errorName(e)}, ); return error.SubCompilationFailed; }, }; const crt_file = try sub_compilation.toCrtFile(); comp.queueLinkTaskMode(crt_file.full_object_path, output_mode); assert(comp.libunwind_static_lib == null); comp.libunwind_static_lib = crt_file; } const unwind_src_list = [_][]const u8{ "libunwind" ++ path.sep_str ++ "src" ++ path.sep_str ++ "libunwind.cpp", "libunwind" ++ path.sep_str ++ "src" ++ path.sep_str ++ "Unwind-EHABI.cpp", "libunwind" ++ path.sep_str ++ "src" ++ path.sep_str ++ "Unwind-seh.cpp", "libunwind" ++ path.sep_str ++ "src" ++ path.sep_str ++ "UnwindLevel1.c", "libunwind" ++ path.sep_str ++ "src" ++ path.sep_str ++ "UnwindLevel1-gcc-ext.c", "libunwind" ++ path.sep_str ++ "src" ++ path.sep_str ++ "Unwind-sjlj.c", "libunwind" ++ path.sep_str ++ "src" ++ path.sep_str ++ "Unwind-wasm.c", "libunwind" ++ path.sep_str ++ "src" ++ path.sep_str ++ "UnwindRegistersRestore.S", "libunwind" ++ path.sep_str ++ "src" ++ path.sep_str ++ "UnwindRegistersSave.S", "libunwind" ++ path.sep_str ++ "src" ++ path.sep_str ++ "Unwind_AIXExtras.cpp", "libunwind" ++ path.sep_str ++ "src" ++ path.sep_str ++ "gcc_personality_v0.c", };