const std = @import("std"); const bun = @import("root").bun; const string = bun.string; const Output = bun.Output; const Global = bun.Global; const Environment = bun.Environment; const strings = bun.strings; const MutableString = bun.MutableString; const stringZ = bun.stringZ; const default_allocator = bun.default_allocator; const URL = @import("./url.zig").URL; const C = bun.C; const options = @import("./options.zig"); const logger = @import("root").bun.logger; const js_ast = bun.JSAst; const js_lexer = bun.js_lexer; const Defines = @import("./defines.zig"); const ConditionsMap = @import("./resolver/package_json.zig").ESModule.ConditionsMap; const Api = @import("./api/schema.zig").Api; const Npm = @import("./install/npm.zig"); const PackageJSON = @import("./resolver/package_json.zig").PackageJSON; const resolver = @import("./resolver/resolver.zig"); pub const MacroImportReplacementMap = bun.StringArrayHashMap(string); pub const MacroMap = bun.StringArrayHashMapUnmanaged(MacroImportReplacementMap); pub const BundlePackageOverride = bun.StringArrayHashMapUnmanaged(options.BundleOverride); const LoaderMap = bun.StringArrayHashMapUnmanaged(options.Loader); const Analytics = @import("./analytics.zig"); const JSONParser = bun.JSON; const Command = @import("cli.zig").Command; const TOML = @import("./toml/toml_parser.zig").TOML; // TODO: replace Api.TransformOptions with Bunfig pub const Bunfig = struct { pub const OfflineMode = enum { online, latest, offline, }; pub const Prefer = bun.ComptimeStringMap(OfflineMode, .{ &.{ "offline", OfflineMode.offline }, &.{ "latest", OfflineMode.latest }, &.{ "online", OfflineMode.online }, }); const Parser = struct { json: js_ast.Expr, source: *const logger.Source, log: *logger.Log, allocator: std.mem.Allocator, bunfig: *Api.TransformOptions, ctx: *Command.Context, fn addError(this: *Parser, loc: logger.Loc, comptime text: string) !void { this.log.addError(this.source, loc, text) catch unreachable; return error.@"Invalid Bunfig"; } fn parseRegistry(this: *Parser, expr: js_ast.Expr) !Api.NpmRegistry { var registry = std.mem.zeroes(Api.NpmRegistry); switch (expr.data) { .e_string => |str| { const url = URL.parse(str.data); // Token if (url.username.len == 0 and url.password.len > 0) { registry.token = url.password; registry.url = try std.fmt.allocPrint(this.allocator, "{s}://{s}/{s}", .{ url.displayProtocol(), url.displayHostname(), std.mem.trimLeft(u8, url.pathname, "/") }); } else if (url.username.len > 0 and url.password.len > 0) { registry.username = url.username; registry.password = url.password; registry.url = try std.fmt.allocPrint(this.allocator, "{s}://{s}/{s}", .{ url.displayProtocol(), url.displayHostname(), std.mem.trimLeft(u8, url.pathname, "/") }); } else { registry.url = url.href; } }, .e_object => |obj| { if (obj.get("url")) |url| { try this.expect(url, .e_string); registry.url = url.data.e_string.data; } if (obj.get("username")) |username| { try this.expect(username, .e_string); registry.username = username.data.e_string.data; } if (obj.get("password")) |password| { try this.expect(password, .e_string); registry.password = password.data.e_string.data; } if (obj.get("token")) |token| { try this.expect(token, .e_string); registry.token = token.data.e_string.data; } }, else => { try this.addError(expr.loc, "Expected registry to be a URL string or an object"); }, } return registry; } fn loadLogLevel(this: *Parser, expr: js_ast.Expr) !void { try this.expect(expr, .e_string); const Matcher = strings.ExactSizeMatcher(8); this.bunfig.log_level = switch (Matcher.match(expr.asString(this.allocator).?)) { Matcher.case("debug") => Api.MessageLevel.debug, Matcher.case("error") => Api.MessageLevel.err, Matcher.case("warn") => Api.MessageLevel.warn, Matcher.case("info") => Api.MessageLevel.info, else => { try this.addError(expr.loc, "Invalid log level, must be one of debug, error, or warn"); unreachable; }, }; } fn loadPreload( this: *Parser, allocator: std.mem.Allocator, expr: js_ast.Expr, ) !void { if (expr.asArray()) |array_| { var array = array_; var preloads = try std.ArrayList(string).initCapacity(allocator, array.array.items.len); errdefer preloads.deinit(); while (array.next()) |item| { try this.expect(item, .e_string); if (item.data.e_string.len() > 0) preloads.appendAssumeCapacity(try item.data.e_string.string(allocator)); } this.ctx.preloads = preloads.items; } else if (expr.data == .e_string) { if (expr.data.e_string.len() > 0) { var preloads = try allocator.alloc(string, 1); preloads[0] = try expr.data.e_string.string(allocator); this.ctx.preloads = preloads; } } else if (expr.data != .e_null) { try this.addError(expr.loc, "Expected preload to be an array"); } } pub fn parse(this: *Parser, comptime cmd: Command.Tag) !void { const json = this.json; var allocator = this.allocator; if (json.data != .e_object) { try this.addError(json.loc, "bunfig expects an object { } at the root"); } if (json.get("logLevel")) |expr| { try this.loadLogLevel(expr); } if (json.get("define")) |expr| { try this.expect(expr, .e_object); var valid_count: usize = 0; const properties = expr.data.e_object.properties.slice(); for (properties) |prop| { if (prop.value.?.data != .e_string) continue; valid_count += 1; } var buffer = allocator.alloc([]const u8, valid_count * 2) catch unreachable; var keys = buffer[0..valid_count]; var values = buffer[valid_count..]; var i: usize = 0; for (properties) |prop| { if (prop.value.?.data != .e_string) continue; keys[i] = prop.key.?.data.e_string.string(allocator) catch unreachable; values[i] = prop.value.?.data.e_string.string(allocator) catch unreachable; i += 1; } this.bunfig.define = Api.StringMap{ .keys = keys, .values = values, }; } if (json.get("origin")) |expr| { try this.expect(expr, .e_string); this.bunfig.origin = try expr.data.e_string.string(allocator); } if (comptime cmd == .RunCommand or cmd == .AutoCommand) { if (json.get("serve")) |expr| { if (expr.get("port")) |port| { try this.expect(port, .e_number); this.bunfig.port = port.data.e_number.toU16(); if (this.bunfig.port.? == 0) { this.bunfig.port = 3000; } } } if (json.get("preload")) |expr| { try this.loadPreload(allocator, expr); } } if (comptime cmd == .RunCommand or cmd == .AutoCommand) { if (json.get("smol")) |expr| { try this.expect(expr, .e_boolean); this.ctx.runtime_options.smol = expr.data.e_boolean.value; } } if (comptime cmd == .DevCommand or cmd == .AutoCommand) { if (json.get("dev")) |expr| { if (expr.get("disableBunJS")) |disable| { this.ctx.debug.fallback_only = disable.asBool() orelse false; } if (expr.get("logLevel")) |expr2| { try this.loadLogLevel(expr2); } if (expr.get("port")) |port| { try this.expect(port, .e_number); this.bunfig.port = port.data.e_number.toU16(); if (this.bunfig.port.? == 0) { this.bunfig.port = 3000; } } } } if (comptime cmd == .TestCommand) { if (json.get("test")) |test_| { if (test_.get("root")) |root| { this.ctx.debug.test_directory = root.asString(this.allocator) orelse ""; } if (test_.get("preload")) |expr| { try this.loadPreload(allocator, expr); } if (test_.get("smol")) |expr| { try this.expect(expr, .e_boolean); this.ctx.runtime_options.smol = expr.data.e_boolean.value; } if (test_.get("coverage")) |expr| { try this.expect(expr, .e_boolean); this.ctx.test_options.coverage.enabled = expr.data.e_boolean.value; } if (test_.get("coverageThreshold")) |expr| outer: { if (expr.data == .e_number) { this.ctx.test_options.coverage.fractions.functions = expr.data.e_number.value; this.ctx.test_options.coverage.fractions.lines = expr.data.e_number.value; this.ctx.test_options.coverage.fractions.stmts = expr.data.e_number.value; this.ctx.test_options.coverage.fail_on_low_coverage = true; break :outer; } try this.expect(expr, .e_object); if (expr.get("functions")) |functions| { try this.expect(functions, .e_number); this.ctx.test_options.coverage.fractions.functions = functions.data.e_number.value; this.ctx.test_options.coverage.fail_on_low_coverage = true; } if (expr.get("lines")) |lines| { try this.expect(lines, .e_number); this.ctx.test_options.coverage.fractions.lines = lines.data.e_number.value; this.ctx.test_options.coverage.fail_on_low_coverage = true; } if (expr.get("statements")) |stmts| { try this.expect(stmts, .e_number); this.ctx.test_options.coverage.fractions.stmts = stmts.data.e_number.value; this.ctx.test_options.coverage.fail_on_low_coverage = true; } } // This mostly exists for debugging. if (test_.get("coverageIgnoreSourcemaps")) |expr| { try this.expect(expr, .e_boolean); this.ctx.test_options.coverage.ignore_sourcemap = expr.data.e_boolean.value; } if (test_.get("coverageSkipTestFiles")) |expr| { try this.expect(expr, .e_boolean); this.ctx.test_options.coverage.skip_test_files = expr.data.e_boolean.value; } } } if (comptime cmd.isNPMRelated() or cmd == .RunCommand or cmd == .AutoCommand) { if (json.get("install")) |_bun| { var install: *Api.BunInstall = this.ctx.install orelse brk: { var install_ = try this.allocator.create(Api.BunInstall); install_.* = std.mem.zeroes(Api.BunInstall); this.ctx.install = install_; break :brk install_; }; if (json.get("auto")) |auto_install_expr| { if (auto_install_expr.data == .e_string) { this.ctx.debug.global_cache = options.GlobalCache.Map.get(auto_install_expr.asString(this.allocator) orelse "") orelse { try this.addError(auto_install_expr.loc, "Invalid auto install setting, must be one of true, false, or \"force\" \"fallback\" \"disable\""); return; }; } else if (auto_install_expr.data == .e_boolean) { this.ctx.debug.global_cache = if (auto_install_expr.asBool().?) options.GlobalCache.allow_install else options.GlobalCache.disable; } else { try this.addError(auto_install_expr.loc, "Invalid auto install setting, must be one of true, false, or \"force\" \"fallback\" \"disable\""); return; } } if (json.get("exact")) |exact_install_expr| { try this.expect(exact_install_expr, .e_boolean); if (exact_install_expr.asBool().?) { install.exact = true; } } if (json.get("prefer")) |prefer_expr| { try this.expect(prefer_expr, .e_string); if (Prefer.get(prefer_expr.asString(bun.default_allocator) orelse "")) |setting| { this.ctx.debug.offline_mode_setting = setting; } else { try this.addError(prefer_expr.loc, "Invalid prefer setting, must be one of online or offline"); } } if (_bun.get("registry")) |registry| { install.default_registry = try this.parseRegistry(registry); } if (_bun.get("scopes")) |scopes| { var registry_map = install.scoped orelse std.mem.zeroes(Api.NpmRegistryMap); try this.expect(scopes, .e_object); const count = scopes.data.e_object.properties.len + registry_map.registries.len; var registries = try std.ArrayListUnmanaged(Api.NpmRegistry).initCapacity(this.allocator, count); registries.appendSliceAssumeCapacity(registry_map.registries); var names = try std.ArrayListUnmanaged(string).initCapacity(this.allocator, count); names.appendSliceAssumeCapacity(registry_map.scopes); for (scopes.data.e_object.properties.slice()) |prop| { const name_ = prop.key.?.asString(this.allocator) orelse continue; const value = prop.value orelse continue; if (name_.len == 0) continue; const name = if (name_[0] == '@') name_[1..] else name_; var index = names.items.len; for (names.items, 0..) |comparator, i| { if (strings.eql(name, comparator)) { index = i; break; } } if (index == names.items.len) { names.items.len += 1; registries.items.len += 1; } names.items[index] = name; registries.items[index] = try this.parseRegistry(value); } registry_map.registries = registries.items; registry_map.scopes = names.items; install.scoped = registry_map; } if (_bun.get("dryRun")) |dry_run| { if (dry_run.asBool()) |value| { install.dry_run = value; } } if (_bun.get("production")) |production| { if (production.asBool()) |value| { install.production = value; } } if (_bun.get("frozenLockfile")) |frozen_lockfile| { if (frozen_lockfile.asBool()) |value| { install.frozen_lockfile = value; } } if (_bun.get("lockfile")) |lockfile_expr| { if (lockfile_expr.get("print")) |lockfile| { try this.expect(lockfile, .e_string); if (lockfile.asString(this.allocator)) |value| { if (!(strings.eqlComptime(value, "bun"))) { if (!strings.eqlComptime(value, "yarn")) { try this.addError(lockfile.loc, "Invalid lockfile format, only 'yarn' output is implemented"); } install.save_yarn_lockfile = true; } } } if (lockfile_expr.get("save")) |lockfile| { if (lockfile.asBool()) |value| { install.save_lockfile = value; } } if (lockfile_expr.get("path")) |lockfile| { if (lockfile.asString(allocator)) |value| { install.lockfile_path = value; } } if (lockfile_expr.get("savePath")) |lockfile| { if (lockfile.asString(allocator)) |value| { install.save_lockfile_path = value; } } } if (_bun.get("optional")) |optional| { if (optional.asBool()) |value| { install.save_optional = value; } } if (_bun.get("peer")) |optional| { if (optional.asBool()) |value| { install.save_peer = value; } } if (_bun.get("dev")) |optional| { if (optional.asBool()) |value| { install.save_dev = value; } } if (_bun.get("globalDir")) |dir| { if (dir.asString(allocator)) |value| { install.global_dir = value; } } if (_bun.get("globalBinDir")) |dir| { if (dir.asString(allocator)) |value| { install.global_bin_dir = value; } } if (_bun.get("logLevel")) |expr| { try this.loadLogLevel(expr); } if (_bun.get("cache")) |cache| { load: { if (cache.asBool()) |value| { if (!value) { install.disable_cache = true; install.disable_manifest_cache = true; } break :load; } if (cache.asString(allocator)) |value| { install.cache_directory = value; break :load; } if (cache.data == .e_object) { if (cache.get("disable")) |disable| { if (disable.asBool()) |value| { install.disable_cache = value; } } if (cache.get("disableManifest")) |disable| { if (disable.asBool()) |value| { install.disable_manifest_cache = value; } } if (cache.get("dir")) |directory| { if (directory.asString(allocator)) |value| { install.cache_directory = value; } } } } } } } if (json.get("bundle")) |_bun| { if (comptime cmd == .DevCommand or cmd == .BuildCommand or cmd == .RunCommand or cmd == .AutoCommand or cmd == .BuildCommand) { if (_bun.get("outdir")) |dir| { try this.expect(dir, .e_string); this.bunfig.output_dir = try dir.data.e_string.string(allocator); } } if (comptime cmd == .BuildCommand) { if (_bun.get("logLevel")) |expr2| { try this.loadLogLevel(expr2); } if (_bun.get("entryPoints")) |entryPoints| { try this.expect(entryPoints, .e_array); const items = entryPoints.data.e_array.items.slice(); var names = try this.allocator.alloc(string, items.len); for (items, 0..) |item, i| { try this.expect(item, .e_string); names[i] = try item.data.e_string.string(allocator); } this.bunfig.entry_points = names; } if (_bun.get("packages")) |expr| { try this.expect(expr, .e_object); var valid_count: usize = 0; Analytics.Features.always_bundle = true; const object = expr.data.e_object; const properties = object.properties.slice(); for (properties) |prop| { if (prop.value.?.data != .e_boolean) continue; valid_count += 1; } try this.ctx.debug.package_bundle_map.ensureTotalCapacity(allocator, valid_count); for (properties) |prop| { if (prop.value.?.data != .e_boolean) continue; const path = try prop.key.?.data.e_string.string(allocator); if (!resolver.isPackagePath(path)) { try this.addError(prop.key.?.loc, "Expected package name"); } this.ctx.debug.package_bundle_map.putAssumeCapacity(path, switch (prop.value.?.asBool() orelse false) { true => options.BundlePackage.always, false => options.BundlePackage.never, }); } } } } var jsx_factory: string = ""; var jsx_fragment: string = ""; var jsx_import_source: string = ""; var jsx_runtime = Api.JsxRuntime.automatic; var jsx_dev = true; if (json.get("jsx")) |expr| { if (expr.asString(allocator)) |value| { if (strings.eqlComptime(value, "react")) { jsx_runtime = Api.JsxRuntime.classic; } else if (strings.eqlComptime(value, "solid")) { jsx_runtime = Api.JsxRuntime.solid; } else if (strings.eqlComptime(value, "react-jsx")) { jsx_runtime = Api.JsxRuntime.automatic; jsx_dev = false; } else if (strings.eqlComptime(value, "react-jsxDEV")) { jsx_runtime = Api.JsxRuntime.automatic; jsx_dev = true; } else { try this.addError(expr.loc, "Invalid jsx runtime, only 'react', 'solid', 'react-jsx', and 'react-jsxDEV' are supported"); } } } if (json.get("jsxImportSource")) |expr| { if (expr.asString(allocator)) |value| { jsx_import_source = try allocator.dupe(u8, value); } } if (json.get("jsxFragment")) |expr| { if (expr.asString(allocator)) |value| { jsx_fragment = try allocator.dupe(u8, value); } } if (json.get("jsxFactory")) |expr| { if (expr.asString(allocator)) |value| { jsx_factory = try allocator.dupe(u8, value); } } if (this.bunfig.jsx == null) { this.bunfig.jsx = Api.Jsx{ .factory = bun.constStrToU8(jsx_factory), .fragment = bun.constStrToU8(jsx_fragment), .import_source = bun.constStrToU8(jsx_import_source), .runtime = jsx_runtime, .development = jsx_dev, .react_fast_refresh = false, }; } else { var jsx: *Api.Jsx = &this.bunfig.jsx.?; if (jsx_factory.len > 0) { jsx.factory = bun.constStrToU8(jsx_factory); } if (jsx_fragment.len > 0) { jsx.fragment = bun.constStrToU8(jsx_fragment); } if (jsx_import_source.len > 0) { jsx.import_source = bun.constStrToU8(jsx_import_source); } jsx.runtime = jsx_runtime; jsx.development = jsx_dev; } switch (comptime cmd) { .AutoCommand, .DevCommand, .BuildCommand => { if (json.get("publicDir")) |public_dir| { try this.expect(public_dir, .e_string); this.bunfig.router = Api.RouteConfig{ .extensions = &.{}, .dir = &.{}, .static_dir = try public_dir.data.e_string.string(allocator), }; } }, else => {}, } if (json.get("debug")) |expr| { if (expr.get("editor")) |editor| { if (editor.asString(allocator)) |value| { this.ctx.debug.editor = value; } } } if (json.get("macros")) |expr| { if (expr.data == .e_boolean) { if (expr.data.e_boolean.value == false) { this.ctx.debug.macros = .{ .disable = {} }; } } else { this.ctx.debug.macros = .{ .map = PackageJSON.parseMacrosJSON(allocator, expr, this.log, this.source) }; } Analytics.Features.macros = true; } if (json.get("external")) |expr| { switch (expr.data) { .e_string => |str| { var externals = try allocator.alloc(string, 1); externals[0] = try str.string(allocator); this.bunfig.external = externals; }, .e_array => |array| { var externals = try allocator.alloc(string, array.items.len); for (array.items.slice(), 0..) |item, i| { try this.expect(item, .e_string); externals[i] = try item.data.e_string.string(allocator); } this.bunfig.external = externals; }, else => try this.addError(expr.loc, "Expected string or array"), } } if (json.get("framework")) |expr| { try this.expect(expr, .e_string); this.bunfig.framework = Api.FrameworkConfig{ .package = expr.asString(allocator).?, }; } if (json.get("loader")) |expr| { try this.expect(expr, .e_object); const properties = expr.data.e_object.properties.slice(); var loader_names = try this.allocator.alloc(string, properties.len); var loader_values = try this.allocator.alloc(Api.Loader, properties.len); for (properties, 0..) |item, i| { var key = item.key.?.asString(allocator).?; if (key.len == 0) continue; if (key[0] != '.') { try this.addError(item.key.?.loc, "file extension for loader must start with a '.'"); } var value = item.value.?; try this.expect(value, .e_string); const loader = options.Loader.fromString(value.asString(allocator).?) orelse { try this.addError(value.loc, "Invalid loader"); unreachable; }; loader_names[i] = key; loader_values[i] = loader.toAPI(); } this.bunfig.loaders = Api.LoaderMap{ .extensions = loader_names, .loaders = loader_values, }; } Analytics.Features.bunfig = true; } pub fn expect(this: *Parser, expr: js_ast.Expr, token: js_ast.Expr.Tag) !void { if (@as(js_ast.Expr.Tag, expr.data) != token) { this.log.addErrorFmt(this.source, expr.loc, this.allocator, "expected {} but received {}", .{ token, @as(js_ast.Expr.Tag, expr.data), }) catch unreachable; return error.@"Invalid Bunfig"; } } }; pub fn parse(allocator: std.mem.Allocator, source: logger.Source, ctx: *Command.Context, comptime cmd: Command.Tag) !void { const log_count = ctx.log.errors + ctx.log.warnings; var expr = if (strings.eqlComptime(source.path.name.ext[1..], "toml")) TOML.parse(&source, ctx.log, allocator) catch |err| { if (ctx.log.errors + ctx.log.warnings == log_count) { ctx.log.addErrorFmt(&source, logger.Loc.Empty, allocator, "Failed to parse", .{}) catch unreachable; } return err; } else JSONParser.ParseTSConfig(&source, ctx.log, allocator) catch |err| { if (ctx.log.errors + ctx.log.warnings == log_count) { ctx.log.addErrorFmt(&source, logger.Loc.Empty, allocator, "Failed to parse", .{}) catch unreachable; } return err; }; var parser = Parser{ .json = expr, .log = ctx.log, .allocator = allocator, .source = &source, .bunfig = &ctx.args, .ctx = ctx, }; try parser.parse(cmd); } };