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build.zig
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build.zig
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const recommended_zig_version = "0.12.0-dev.1297+a9e66ed73";
const zig_version = @import("builtin").zig_version;
const std = @import("std");
const pathRel = std.fs.path.relative;
const Wyhash = @import("./src/wyhash.zig").Wyhash;
var is_debug_build = false;
fn moduleSource(comptime out: []const u8) FileSource {
if (comptime std.fs.path.dirname(@src().file)) |base| {
const outpath = comptime base ++ std.fs.path.sep_str ++ out;
return FileSource.relative(outpath);
} else {
return FileSource.relative(out);
}
}
fn exists(path: []const u8) bool {
_ = std.fs.openFileAbsolute(path, .{ .mode = .read_only }) catch return false;
return true;
}
const color_map = std.ComptimeStringMap([]const u8, .{
&.{ "black", "30m" },
&.{ "blue", "34m" },
&.{ "b", "1m" },
&.{ "d", "2m" },
&.{ "cyan", "36m" },
&.{ "green", "32m" },
&.{ "magenta", "35m" },
&.{ "red", "31m" },
&.{ "white", "37m" },
&.{ "yellow", "33m" },
});
fn addInternalPackages(b: *Build, step: *CompileStep, _: std.mem.Allocator, _: []const u8, target: anytype) !void {
var io: *Module = brk: {
if (target.isDarwin()) {
break :brk b.createModule(.{
.source_file = FileSource.relative("src/io/io_darwin.zig"),
});
} else if (target.isLinux()) {
break :brk b.createModule(.{
.source_file = FileSource.relative("src/io/io_linux.zig"),
});
} else if (target.isWindows()) {
break :brk b.createModule(.{
.source_file = FileSource.relative("src/io/io_windows.zig"),
});
}
break :brk b.createModule(.{
.source_file = FileSource.relative("src/io/io_stub.zig"),
});
};
step.addModule("async_io", io);
step.addModule("zlib-internal", brk: {
if (target.isWindows()) {
break :brk b.createModule(.{ .source_file = FileSource.relative("src/deps/zlib.win32.zig") });
}
break :brk b.createModule(.{ .source_file = FileSource.relative("src/deps/zlib.posix.zig") });
});
var async_: *Module = brk: {
if (target.isDarwin() or target.isLinux() or target.isFreeBSD()) {
break :brk b.createModule(.{
.source_file = FileSource.relative("src/async/posix_event_loop.zig"),
});
} else if (target.isWindows()) {
break :brk b.createModule(.{
.source_file = FileSource.relative("src/async/windows_event_loop.zig"),
});
}
break :brk b.createModule(.{
.source_file = FileSource.relative("src/async/stub_event_loop.zig"),
});
};
step.addModule("async", async_);
}
const BunBuildOptions = struct {
is_canary: bool = false,
canary_revision: u32 = 0,
sha: [:0]const u8 = "",
version: []const u8 = "",
baseline: bool = false,
bindgen: bool = false,
sizegen: bool = false,
base_path: [:0]const u8 = "",
runtime_js_version: u64 = 0,
fallback_html_version: u64 = 0,
tinycc: bool = true,
pub fn updateRuntime(this: *BunBuildOptions) anyerror!void {
if (std.fs.cwd().openFile("src/runtime.out.js", .{ .mode = .read_only })) |file| {
defer file.close();
const runtime_hash = Wyhash.hash(
0,
try file.readToEndAlloc(std.heap.page_allocator, try file.getEndPos()),
);
this.runtime_js_version = runtime_hash;
} else |_| {
if (!is_debug_build) {
@panic("Runtime file was not read successfully. Please run `make setup`");
}
}
if (std.fs.cwd().openFile("src/fallback.out.js", .{ .mode = .read_only })) |file| {
defer file.close();
const fallback_hash = Wyhash.hash(
0,
try file.readToEndAlloc(std.heap.page_allocator, try file.getEndPos()),
);
this.fallback_html_version = fallback_hash;
} else |_| {
if (!is_debug_build) {
@panic("Fallback file was not read successfully. Please run `make setup`");
}
}
}
pub fn step(this: BunBuildOptions, b: anytype) *std.build.OptionsStep {
var opts = b.addOptions();
opts.addOption(@TypeOf(this.is_canary), "is_canary", this.is_canary);
opts.addOption(@TypeOf(this.canary_revision), "canary_revision", this.canary_revision);
opts.addOption(
std.SemanticVersion,
"version",
std.SemanticVersion.parse(this.version) catch @panic(b.fmt("Invalid version: {s}", .{this.version})),
);
opts.addOption(@TypeOf(this.sha), "sha", this.sha);
opts.addOption(@TypeOf(this.baseline), "baseline", this.baseline);
opts.addOption(@TypeOf(this.bindgen), "bindgen", this.bindgen);
opts.addOption(@TypeOf(this.sizegen), "sizegen", this.sizegen);
opts.addOption(@TypeOf(this.base_path), "base_path", this.base_path);
opts.addOption(@TypeOf(this.runtime_js_version), "runtime_js_version", this.runtime_js_version);
opts.addOption(@TypeOf(this.fallback_html_version), "fallback_html_version", this.fallback_html_version);
opts.addOption(@TypeOf(this.tinycc), "tinycc", this.tinycc);
return opts;
}
};
// relative to the prefix
var output_dir: []const u8 = "";
fn panicIfNotFound(comptime filepath: []const u8) []const u8 {
var file = std.fs.cwd().openFile(filepath, .{ .optimize = .read_only }) catch |err| {
std.debug.panic("error: {s} opening {s}. Please ensure you've downloaded git submodules, and ran `make vendor`, `make jsc`.", .{ filepath, @errorName(err) });
};
file.close();
return filepath;
}
const fmt = struct {
pub usingnamespace @import("std").fmt;
pub fn hexInt(value: anytype) @TypeOf(std.fmt.fmtSliceHexLower("")) {
return std.fmt.fmtSliceHexLower(std.mem.asBytes(&value));
}
pub fn hexIntUp(value: anytype) @TypeOf(std.fmt.fmtSliceHexUpper("")) {
return std.fmt.fmtSliceHexUpper(std.mem.asBytes(&value));
}
};
var x64 = "x64";
var optimize: std.builtin.OptimizeMode = undefined;
const Build = std.Build;
const CrossTarget = std.zig.CrossTarget;
const OptimizeMode = std.builtin.OptimizeMode;
const CompileStep = std.build.CompileStep;
const FileSource = std.build.FileSource;
const Module = std.build.Module;
const fs = std.fs;
pub fn build(b: *Build) !void {
build_(b) catch |err| {
if (@errorReturnTrace()) |trace| {
std.debug.dumpStackTrace(trace.*);
}
return err;
};
}
pub fn build_(b: *Build) !void {
switch (comptime zig_version.order(std.SemanticVersion.parse(recommended_zig_version) catch unreachable)) {
.eq => {},
.lt => {
@compileError("The minimum version of Zig required to compile Bun is " ++ recommended_zig_version ++ ", found " ++ @import("builtin").zig_version_string);
},
.gt => {
const colors = std.io.getStdErr().supportsAnsiEscapeCodes();
std.debug.print(
"{s}WARNING:\nBun recommends Zig version '{s}', but found '{s}', build may fail...\nMake sure you installed the right version as per https://bun.sh/docs/project/contributing#install-zig\n{s}You can update to the right version using 'zigup {s}'\n\n",
.{
if (colors) "\x1b[1;33m" else "",
recommended_zig_version,
@import("builtin").zig_version_string,
if (colors) "\x1b[0m" else "",
recommended_zig_version,
},
);
},
}
// Standard target options allows the person running `zig build` to choose
// what target to build for. Here we do not override the defaults, which
// means any target is allowed, and the default is native. Other options
// for restricting supported target set are available.
var target = b.standardTargetOptions(.{});
// Standard release options allow the person running `zig build` to select
// between Debug, ReleaseSafe, ReleaseFast, and ReleaseSmall.
optimize = b.standardOptimizeOption(.{});
const generated_code_directory = b.option([]const u8, "generated-code", "Set the generated code directory") orelse "./build";
var output_dir_buf = std.mem.zeroes([4096]u8);
var bin_label = if (optimize == std.builtin.OptimizeMode.Debug) "packages/debug-bun-" else "packages/bun-";
var triplet_buf: [64]u8 = undefined;
var os_tagname = @tagName(target.getOs().tag);
const arch: std.Target.Cpu.Arch = target.getCpuArch();
if (std.mem.eql(u8, os_tagname, "macos")) {
os_tagname = "darwin";
target.os_version_min = std.zig.CrossTarget.OsVersion{ .semver = .{ .major = 11, .minor = 0, .patch = 0 } };
} else if (target.isLinux()) {
target.setGnuLibCVersion(2, 27, 0);
}
std.mem.copy(
u8,
&triplet_buf,
os_tagname,
);
var osname = triplet_buf[0..os_tagname.len];
triplet_buf[osname.len] = '-';
std.mem.copy(u8, triplet_buf[osname.len + 1 ..], @tagName(target.getCpuArch()));
var cpuArchName = triplet_buf[osname.len + 1 ..][0..@tagName(target.getCpuArch()).len];
std.mem.replaceScalar(u8, cpuArchName, '_', '-');
if (std.mem.eql(u8, cpuArchName, "x86-64")) {
std.mem.copy(u8, cpuArchName, "x64");
cpuArchName = cpuArchName[0..3];
}
var triplet = triplet_buf[0 .. osname.len + cpuArchName.len + 1];
const outfile_maybe = b.option([]const u8, "output-file", "target to install to");
if (outfile_maybe) |outfile| {
output_dir = try pathRel(b.allocator, b.install_prefix, std.fs.path.dirname(outfile) orelse "");
} else {
const output_dir_base = try std.fmt.bufPrint(&output_dir_buf, "{s}{s}", .{ bin_label, triplet });
output_dir = try pathRel(b.allocator, b.install_prefix, output_dir_base);
}
is_debug_build = optimize == OptimizeMode.Debug;
const bun_executable_name = if (outfile_maybe) |outfile| std.fs.path.basename(outfile[0 .. outfile.len - std.fs.path.extension(outfile).len]) else if (is_debug_build) "bun-debug" else "bun";
const root_src = if (target.getOsTag() == std.Target.Os.Tag.freestanding)
"root_wasm.zig"
else
"root.zig";
const min_version: std.SemanticVersion = if (!(target.isWindows() or target.getOsTag() == .freestanding))
target.getOsVersionMin().semver
else
.{ .major = 0, .minor = 0, .patch = 0 };
const max_version: std.SemanticVersion = if (!(target.isWindows() or target.getOsTag() == .freestanding))
target.getOsVersionMax().semver
else
.{ .major = 0, .minor = 0, .patch = 0 };
var obj_step = b.step("obj", "Build bun as a .o file");
var obj = b.addObject(.{
.name = bun_executable_name,
.root_source_file = FileSource.relative(root_src),
.target = target,
.optimize = optimize,
.main_mod_path = .{ .cwd_relative = b.pathFromRoot(".") },
});
if (!exists(b.pathFromRoot(try std.fs.path.join(b.allocator, &.{
"src",
"js_lexer",
"id_continue_bitset.blob",
})))) {
const identifier_data = b.pathFromRoot(try std.fs.path.join(b.allocator, &.{ "src", "js_lexer", "identifier_data.zig" }));
var run_step = b.addSystemCommand(&.{
b.zig_exe,
"run",
identifier_data,
});
run_step.has_side_effects = true;
obj.step.dependOn(&run_step.step);
}
b.reference_trace = if (b.option(u32, "reference-trace", "Set the reference trace")) |trace|
if (trace == 0)
null
else
trace
else
16;
var default_build_options: BunBuildOptions = brk: {
const is_baseline = arch.isX86() and (target.cpu_model == .baseline or
!std.Target.x86.featureSetHas(target.getCpuFeatures(), .avx2));
var git_sha: [:0]const u8 = "";
if (b.env_map.get("GITHUB_SHA") orelse b.env_map.get("GIT_SHA")) |sha| {
git_sha = b.allocator.dupeZ(u8, sha) catch unreachable;
} else {
sha: {
const result = std.ChildProcess.run(.{
.allocator = b.allocator,
.argv = &.{
"git",
"rev-parse",
"HEAD",
},
.cwd = b.pathFromRoot("."),
.expand_arg0 = .expand,
}) catch break :sha;
git_sha = b.allocator.dupeZ(u8, std.mem.trim(u8, result.stdout, "\n \t")) catch unreachable;
}
}
const is_canary, const canary_revision = if (b.option(u32, "canary", "Treat this as a canary build")) |rev|
if (rev == 0)
.{ false, 0 }
else
.{ true, rev }
else
.{ false, 0 };
break :brk .{
.is_canary = is_canary,
.canary_revision = canary_revision,
.version = b.option([]const u8, "version", "Value of `Bun.version`") orelse "0.0.0",
.sha = git_sha,
.baseline = is_baseline,
.bindgen = false,
.base_path = try b.allocator.dupeZ(u8, b.pathFromRoot(".")),
};
};
{
try addInternalPackages(
b,
obj,
b.allocator,
b.zig_exe,
target,
);
if (default_build_options.baseline) {
obj.target.cpu_model = .{ .explicit = &std.Target.x86.cpu.x86_64_v2 };
} else if (arch.isX86()) {
obj.target.cpu_model = .{ .explicit = &std.Target.x86.cpu.haswell };
} else if (arch.isAARCH64() and target.isDarwin()) {
obj.target.cpu_model = .{ .explicit = &std.Target.aarch64.cpu.apple_m1 };
} else if (arch.isAARCH64() and target.isLinux()) {
obj.target.cpu_model = .{ .explicit = &std.Target.aarch64.cpu.generic };
}
try default_build_options.updateRuntime();
// we have to dump to stderr because stdout is read by zls
std.io.getStdErr().writer().print("Build {s} v{} - v{} ({s})\n", .{
triplet,
min_version,
max_version,
obj.target.getCpuModel().name,
}) catch {};
std.io.getStdErr().writer().print("Zig {s}\n", .{@import("builtin").zig_version_string}) catch {};
// std.io.getStdErr().writer().print("Output: {s}/{s}\n\n", .{ output_dir, bun_executable_name }) catch unreachable;
defer obj_step.dependOn(&obj.step);
var install = b.addInstallFileWithDir(
obj.getEmittedBin(),
.{ .custom = output_dir },
b.fmt("{s}.o", .{bun_executable_name}),
);
install.step.dependOn(&obj.step);
obj_step.dependOn(&install.step);
var actual_build_options = default_build_options;
if (b.option(bool, "generate-sizes", "Generate sizes of things") orelse false) {
actual_build_options.sizegen = true;
}
obj.addOptions("build_options", actual_build_options.step(b));
// Generated Code
// TODO: exit with a better error early if these files do not exist. it is an indication someone ran `zig build` directly without the code generators.
obj.addModule("generated/ZigGeneratedClasses.zig", b.createModule(.{
.source_file = .{ .path = b.fmt("{s}/ZigGeneratedClasses.zig", .{generated_code_directory}) },
}));
obj.addModule("generated/ResolvedSourceTag.zig", b.createModule(.{
.source_file = .{ .path = b.fmt("{s}/ResolvedSourceTag.zig", .{generated_code_directory}) },
}));
obj.linkLibC();
obj.dll_export_fns = true;
obj.strip = false;
obj.omit_frame_pointer = optimize != .Debug;
obj.subsystem = .Console;
// Disable stack probing on x86 so we don't need to include compiler_rt
if (target.getCpuArch().isX86() or target.isWindows()) obj.disable_stack_probing = true;
if (b.option(bool, "for-editor", "Do not emit bin, just check for errors") orelse false) {
// obj.emit_bin = .no_emit;
obj.generated_bin = null;
}
if (target.getOsTag() == .linux) {
// obj.want_lto = tar;
obj.link_emit_relocs = true;
obj.link_eh_frame_hdr = true;
obj.link_function_sections = true;
}
}
{
const headers_step = b.step("headers-obj", "Build JavaScriptCore headers");
var headers_obj = b.addObject(.{
.name = "headers",
.root_source_file = FileSource.relative("src/bindgen.zig"),
.target = target,
.optimize = optimize,
.main_mod_path = obj.main_mod_path,
});
defer headers_step.dependOn(&headers_obj.step);
try configureObjectStep(b, headers_obj, headers_step, @TypeOf(target), target);
var headers_build_options = default_build_options;
headers_build_options.bindgen = true;
headers_obj.addOptions("build_options", default_build_options.step(b));
headers_obj.linkLibCpp();
}
{
const wasm_step = b.step("bun-wasm", "Build WASM");
var wasm = b.addStaticLibrary(.{
.name = "bun-wasm",
.root_source_file = FileSource.relative("root_wasm.zig"),
.target = target,
.optimize = optimize,
.main_mod_path = obj.main_mod_path,
});
defer wasm_step.dependOn(&wasm.step);
wasm.strip = false;
// wasm_step.link_function_sections = true;
// wasm_step.link_emit_relocs = true;
// wasm_step.single_threaded = true;
try configureObjectStep(b, wasm, wasm_step, @TypeOf(target), target);
var build_opts = default_build_options;
wasm.addOptions("build_options", build_opts.step(b));
}
{
const headers_step = b.step("httpbench-obj", "Build HTTPBench tool (object files)");
var headers_obj = b.addObject(.{
.name = "httpbench",
.root_source_file = FileSource.relative("misctools/http_bench.zig"),
.target = target,
.optimize = optimize,
.main_mod_path = obj.main_mod_path,
});
defer headers_step.dependOn(&headers_obj.step);
try configureObjectStep(b, headers_obj, headers_step, @TypeOf(target), target);
headers_obj.addOptions("build_options", default_build_options.step(b));
}
{
const headers_step = b.step("machbench-obj", "Build Machbench tool (object files)");
var headers_obj = b.addObject(.{
.name = "machbench",
.root_source_file = FileSource.relative("misctools/machbench.zig"),
.target = target,
.optimize = optimize,
.main_mod_path = obj.main_mod_path,
});
defer headers_step.dependOn(&headers_obj.step);
try configureObjectStep(b, headers_obj, headers_step, @TypeOf(target), target);
headers_obj.addOptions("build_options", default_build_options.step(b));
}
{
const headers_step = b.step("fetch-obj", "Build fetch (object files)");
var headers_obj = b.addObject(.{
.name = "fetch",
.root_source_file = FileSource.relative("misctools/fetch.zig"),
.target = target,
.optimize = optimize,
.main_mod_path = obj.main_mod_path,
});
defer headers_step.dependOn(&headers_obj.step);
try configureObjectStep(b, headers_obj, headers_step, @TypeOf(target), target);
headers_obj.addOptions("build_options", default_build_options.step(b));
}
{
const headers_step = b.step("string-bench", "Build string bench");
var headers_obj = b.addExecutable(.{
.name = "string-bench",
.root_source_file = FileSource.relative("src/bench/string-handling.zig"),
.target = target,
.optimize = optimize,
.main_mod_path = obj.main_mod_path,
});
defer headers_step.dependOn(&headers_obj.step);
try configureObjectStep(b, headers_obj, headers_step, @TypeOf(target), target);
headers_obj.addOptions("build_options", default_build_options.step(b));
}
{
const headers_step = b.step("sha-bench-obj", "Build sha bench");
var headers_obj = b.addObject(.{
.name = "sha",
.root_source_file = FileSource.relative("src/sha.zig"),
.target = target,
.optimize = optimize,
.main_mod_path = obj.main_mod_path,
});
defer headers_step.dependOn(&headers_obj.step);
try configureObjectStep(b, headers_obj, headers_step, @TypeOf(target), target);
headers_obj.addOptions("build_options", default_build_options.step(b));
}
{
const headers_step = b.step("vlq-bench", "Build vlq bench");
var headers_obj: *CompileStep = b.addExecutable(.{
.name = "vlq-bench",
.root_source_file = FileSource.relative("src/sourcemap/vlq_bench.zig"),
.target = target,
.optimize = optimize,
.main_mod_path = obj.main_mod_path,
});
defer headers_step.dependOn(&headers_obj.step);
try configureObjectStep(b, headers_obj, headers_step, @TypeOf(target), target);
headers_obj.addOptions("build_options", default_build_options.step(b));
}
{
const headers_step = b.step("tgz-obj", "Build tgz (object files)");
var headers_obj: *CompileStep = b.addObject(.{
.name = "tgz",
.root_source_file = FileSource.relative("misctools/tgz.zig"),
.target = target,
.optimize = optimize,
.main_mod_path = obj.main_mod_path,
});
defer headers_step.dependOn(&headers_obj.step);
try configureObjectStep(b, headers_obj, headers_step, @TypeOf(target), target);
headers_obj.addOptions("build_options", default_build_options.step(b));
}
{
const headers_step = b.step("test", "Build test");
var test_file = b.option([]const u8, "test-file", "Input file for test");
var test_bin_ = b.option([]const u8, "test-bin", "Emit bin to");
var test_filter = b.option([]const u8, "test-filter", "Filter for test");
var headers_obj: *CompileStep = b.addTest(.{
.root_source_file = FileSource.relative(test_file orelse "src/main.zig"),
.target = target,
.main_mod_path = obj.main_mod_path,
});
headers_obj.filter = test_filter;
if (test_bin_) |test_bin| {
headers_obj.name = std.fs.path.basename(test_bin);
if (std.fs.path.dirname(test_bin)) |dir| {
var install = b.addInstallFileWithDir(
headers_obj.getEmittedBin(),
.{ .custom = try std.fs.path.relative(b.allocator, output_dir, dir) },
headers_obj.name,
);
install.step.dependOn(&headers_obj.step);
headers_step.dependOn(&install.step);
}
}
try configureObjectStep(b, headers_obj, headers_step, @TypeOf(target), target);
headers_step.dependOn(&headers_obj.step);
headers_obj.addOptions("build_options", default_build_options.step(b));
}
b.default_step.dependOn(obj_step);
}
pub var original_make_fn: ?*const fn (step: *std.build.Step) anyerror!void = null;
pub fn configureObjectStep(b: *std.build.Builder, obj: *CompileStep, obj_step: *std.build.Step, comptime Target: type, target: Target) !void {
// obj.setTarget(target);
try addInternalPackages(b, obj, std.heap.page_allocator, b.zig_exe, target);
obj.strip = false;
// obj.setBuildMode(optimize);
obj.bundle_compiler_rt = false;
if (obj.emit_directory == null) {
var install = b.addInstallFileWithDir(
obj.getEmittedBin(),
.{ .custom = output_dir },
b.fmt("{s}.o", .{obj.name}),
);
install.step.dependOn(&obj.step);
obj_step.dependOn(&install.step);
}
if (target.getOsTag() != .freestanding) obj.linkLibC();
if (target.getOsTag() != .freestanding) obj.bundle_compiler_rt = false;
// Disable stack probing on x86 so we don't need to include compiler_rt
// Needs to be disabled here too so headers object will build without the `__zig_probe_stack` symbol
if (target.getCpuArch().isX86()) obj.disable_stack_probing = true;
if (target.getOsTag() == .linux) {
// obj.want_lto = tar;
obj.link_emit_relocs = true;
obj.link_eh_frame_hdr = true;
obj.link_function_sections = true;
}
}