"use strict";
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Object.defineProperty(exports, "__esModule", { value: true });
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exports.WinPackager = void 0;
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const bluebird_lst_1 = require("bluebird-lst");
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const builder_util_1 = require("builder-util");
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const builder_util_runtime_1 = require("builder-util-runtime");
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const fs_1 = require("builder-util/out/fs");
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const crypto_1 = require("crypto");
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const promises_1 = require("fs/promises");
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const isCI = require("is-ci");
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const lazy_val_1 = require("lazy-val");
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const path = require("path");
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const codesign_1 = require("./codeSign/codesign");
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const windowsCodeSign_1 = require("./codeSign/windowsCodeSign");
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const core_1 = require("./core");
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const platformPackager_1 = require("./platformPackager");
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const NsisTarget_1 = require("./targets/nsis/NsisTarget");
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const nsisUtil_1 = require("./targets/nsis/nsisUtil");
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const WebInstallerTarget_1 = require("./targets/nsis/WebInstallerTarget");
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const targetFactory_1 = require("./targets/targetFactory");
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const cacheManager_1 = require("./util/cacheManager");
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const flags_1 = require("./util/flags");
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const timer_1 = require("./util/timer");
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const vm_1 = require("./vm/vm");
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const wine_1 = require("./wine");
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class WinPackager extends platformPackager_1.PlatformPackager {
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constructor(info) {
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super(info, core_1.Platform.WINDOWS);
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this.cscInfo = new lazy_val_1.Lazy(() => {
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const platformSpecificBuildOptions = this.platformSpecificBuildOptions;
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if (platformSpecificBuildOptions.certificateSubjectName != null || platformSpecificBuildOptions.certificateSha1 != null) {
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return this.vm.value
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.then(vm => windowsCodeSign_1.getCertificateFromStoreInfo(platformSpecificBuildOptions, vm))
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.catch(e => {
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// https://github.com/electron-userland/electron-builder/pull/2397
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if (platformSpecificBuildOptions.sign == null) {
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throw e;
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}
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else {
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builder_util_1.log.debug({ error: e }, "getCertificateFromStoreInfo error");
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return null;
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}
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});
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}
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const certificateFile = platformSpecificBuildOptions.certificateFile;
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if (certificateFile != null) {
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const certificatePassword = this.getCscPassword();
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return Promise.resolve({
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file: certificateFile,
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password: certificatePassword == null ? null : certificatePassword.trim(),
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});
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}
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const cscLink = this.getCscLink("WIN_CSC_LINK");
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if (cscLink == null) {
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return Promise.resolve(null);
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}
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return (codesign_1.importCertificate(cscLink, this.info.tempDirManager, this.projectDir)
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// before then
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.catch(e => {
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if (e instanceof builder_util_1.InvalidConfigurationError) {
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throw new builder_util_1.InvalidConfigurationError(`Env WIN_CSC_LINK is not correct, cannot resolve: ${e.message}`);
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}
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else {
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throw e;
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}
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})
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.then(path => {
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return {
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file: path,
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password: this.getCscPassword(),
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};
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}));
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});
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this._iconPath = new lazy_val_1.Lazy(() => this.getOrConvertIcon("ico"));
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this.vm = new lazy_val_1.Lazy(() => (process.platform === "win32" ? Promise.resolve(new vm_1.VmManager()) : vm_1.getWindowsVm(this.debugLogger)));
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this.computedPublisherName = new lazy_val_1.Lazy(async () => {
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const publisherName = this.platformSpecificBuildOptions.publisherName;
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if (publisherName === null) {
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return null;
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}
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else if (publisherName != null) {
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return builder_util_1.asArray(publisherName);
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}
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const certInfo = await this.lazyCertInfo.value;
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return certInfo == null ? null : [certInfo.commonName];
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});
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this.lazyCertInfo = new lazy_val_1.Lazy(async () => {
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const cscInfo = await this.cscInfo.value;
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if (cscInfo == null) {
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return null;
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}
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if ("subject" in cscInfo) {
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const bloodyMicrosoftSubjectDn = cscInfo.subject;
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return {
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commonName: builder_util_runtime_1.parseDn(bloodyMicrosoftSubjectDn).get("CN"),
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bloodyMicrosoftSubjectDn,
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};
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}
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const cscFile = cscInfo.file;
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if (cscFile == null) {
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return null;
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}
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return await windowsCodeSign_1.getCertInfo(cscFile, cscInfo.password || "");
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});
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}
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get isForceCodeSigningVerification() {
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return this.platformSpecificBuildOptions.verifyUpdateCodeSignature !== false;
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}
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get defaultTarget() {
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return ["nsis"];
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}
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doGetCscPassword() {
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return platformPackager_1.chooseNotNull(platformPackager_1.chooseNotNull(this.platformSpecificBuildOptions.certificatePassword, process.env.WIN_CSC_KEY_PASSWORD), super.doGetCscPassword());
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}
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createTargets(targets, mapper) {
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let copyElevateHelper;
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const getCopyElevateHelper = () => {
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if (copyElevateHelper == null) {
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copyElevateHelper = new nsisUtil_1.CopyElevateHelper();
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}
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return copyElevateHelper;
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};
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let helper;
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const getHelper = () => {
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if (helper == null) {
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helper = new nsisUtil_1.AppPackageHelper(getCopyElevateHelper());
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}
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return helper;
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};
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for (const name of targets) {
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if (name === core_1.DIR_TARGET) {
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continue;
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}
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if (name === "nsis" || name === "portable") {
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mapper(name, outDir => new NsisTarget_1.NsisTarget(this, outDir, name, getHelper()));
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}
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else if (name === "nsis-web") {
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// package file format differs from nsis target
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mapper(name, outDir => new WebInstallerTarget_1.WebInstallerTarget(this, path.join(outDir, name), name, new nsisUtil_1.AppPackageHelper(getCopyElevateHelper())));
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}
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else {
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const targetClass = (() => {
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switch (name) {
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case "squirrel":
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try {
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return require("electron-builder-squirrel-windows").default;
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}
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catch (e) {
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throw new builder_util_1.InvalidConfigurationError(`Module electron-builder-squirrel-windows must be installed in addition to build Squirrel.Windows: ${e.stack || e}`);
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}
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case "appx":
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return require("./targets/AppxTarget").default;
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case "msi":
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return require("./targets/MsiTarget").default;
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default:
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return null;
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}
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})();
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mapper(name, outDir => (targetClass === null ? targetFactory_1.createCommonTarget(name, outDir, this) : new targetClass(this, outDir, name)));
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}
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}
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}
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getIconPath() {
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return this._iconPath.value;
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}
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async sign(file, logMessagePrefix) {
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const signOptions = {
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path: file,
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name: this.appInfo.productName,
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site: await this.appInfo.computePackageUrl(),
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options: this.platformSpecificBuildOptions,
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};
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const cscInfo = await this.cscInfo.value;
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if (cscInfo == null) {
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if (this.platformSpecificBuildOptions.sign != null) {
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await windowsCodeSign_1.sign(signOptions, this);
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}
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else if (this.forceCodeSigning) {
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throw new builder_util_1.InvalidConfigurationError(`App is not signed and "forceCodeSigning" is set to true, please ensure that code signing configuration is correct, please see https://electron.build/code-signing`);
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}
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return;
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}
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if (logMessagePrefix == null) {
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logMessagePrefix = "signing";
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}
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if ("file" in cscInfo) {
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builder_util_1.log.info({
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file: builder_util_1.log.filePath(file),
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certificateFile: cscInfo.file,
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}, logMessagePrefix);
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}
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else {
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const info = cscInfo;
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builder_util_1.log.info({
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file: builder_util_1.log.filePath(file),
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subject: info.subject,
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thumbprint: info.thumbprint,
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store: info.store,
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user: info.isLocalMachineStore ? "local machine" : "current user",
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}, logMessagePrefix);
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}
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await this.doSign({
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...signOptions,
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cscInfo,
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options: {
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...this.platformSpecificBuildOptions,
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},
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});
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}
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async doSign(options) {
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for (let i = 0; i < 3; i++) {
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try {
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await windowsCodeSign_1.sign(options, this);
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break;
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}
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catch (e) {
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// https://github.com/electron-userland/electron-builder/issues/1414
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const message = e.message;
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if (message != null && message.includes("Couldn't resolve host name")) {
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builder_util_1.log.warn({ error: message, attempt: i + 1 }, `cannot sign`);
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continue;
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}
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throw e;
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}
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}
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}
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async signAndEditResources(file, arch, outDir, internalName, requestedExecutionLevel) {
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const appInfo = this.appInfo;
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const files = [];
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const args = [
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file,
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"--set-version-string",
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"FileDescription",
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appInfo.productName,
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"--set-version-string",
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"ProductName",
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appInfo.productName,
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"--set-version-string",
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"LegalCopyright",
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appInfo.copyright,
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"--set-file-version",
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appInfo.shortVersion || appInfo.buildVersion,
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"--set-product-version",
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appInfo.shortVersionWindows || appInfo.getVersionInWeirdWindowsForm(),
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];
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if (internalName != null) {
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args.push("--set-version-string", "InternalName", internalName, "--set-version-string", "OriginalFilename", "");
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}
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if (requestedExecutionLevel != null && requestedExecutionLevel !== "asInvoker") {
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args.push("--set-requested-execution-level", requestedExecutionLevel);
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}
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builder_util_1.use(appInfo.companyName, it => args.push("--set-version-string", "CompanyName", it));
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builder_util_1.use(this.platformSpecificBuildOptions.legalTrademarks, it => args.push("--set-version-string", "LegalTrademarks", it));
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const iconPath = await this.getIconPath();
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builder_util_1.use(iconPath, it => {
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files.push(it);
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args.push("--set-icon", it);
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});
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const config = this.config;
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const cscInfoForCacheDigest = !flags_1.isBuildCacheEnabled() || isCI || config.electronDist != null ? null : await this.cscInfo.value;
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let buildCacheManager = null;
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// resources editing doesn't change executable for the same input and executed quickly - no need to complicate
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if (cscInfoForCacheDigest != null) {
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const cscFile = cscInfoForCacheDigest.file;
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if (cscFile != null) {
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files.push(cscFile);
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}
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const timer = timer_1.time("executable cache");
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const hash = crypto_1.createHash("sha512");
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hash.update(config.electronVersion || "no electronVersion");
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hash.update(JSON.stringify(this.platformSpecificBuildOptions));
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hash.update(JSON.stringify(args));
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hash.update(this.platformSpecificBuildOptions.certificateSha1 || "no certificateSha1");
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hash.update(this.platformSpecificBuildOptions.certificateSubjectName || "no subjectName");
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buildCacheManager = new cacheManager_1.BuildCacheManager(outDir, file, arch);
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if (await buildCacheManager.copyIfValid(await cacheManager_1.digest(hash, files))) {
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timer.end();
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return;
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}
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timer.end();
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}
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const timer = timer_1.time("wine&sign");
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// rcedit crashed of executed using wine, resourcehacker works
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if (process.platform === "win32" || process.platform === "darwin") {
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await builder_util_1.executeAppBuilder(["rcedit", "--args", JSON.stringify(args)], undefined /* child-process */, {}, 3 /* retry three times */);
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}
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else if (this.info.framework.name === "electron") {
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const vendorPath = await windowsCodeSign_1.getSignVendorPath();
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await wine_1.execWine(path.join(vendorPath, "rcedit-ia32.exe"), path.join(vendorPath, "rcedit-x64.exe"), args);
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}
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await this.sign(file);
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timer.end();
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if (buildCacheManager != null) {
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await buildCacheManager.save();
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}
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}
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isSignDlls() {
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return this.platformSpecificBuildOptions.signDlls === true;
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}
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createTransformerForExtraFiles(packContext) {
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if (this.platformSpecificBuildOptions.signAndEditExecutable === false) {
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return null;
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}
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return file => {
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if (file.endsWith(".exe") || (this.isSignDlls() && file.endsWith(".dll"))) {
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const parentDir = path.dirname(file);
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if (parentDir !== packContext.appOutDir) {
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return new fs_1.CopyFileTransformer(file => this.sign(file));
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}
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}
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return null;
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};
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}
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async signApp(packContext, isAsar) {
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const exeFileName = `${this.appInfo.productFilename}.exe`;
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if (this.platformSpecificBuildOptions.signAndEditExecutable === false) {
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return;
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}
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await bluebird_lst_1.default.map(promises_1.readdir(packContext.appOutDir), (file) => {
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if (file === exeFileName) {
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return this.signAndEditResources(path.join(packContext.appOutDir, exeFileName), packContext.arch, packContext.outDir, path.basename(exeFileName, ".exe"), this.platformSpecificBuildOptions.requestedExecutionLevel);
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}
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else if (file.endsWith(".exe") || (this.isSignDlls() && file.endsWith(".dll"))) {
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return this.sign(path.join(packContext.appOutDir, file));
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}
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return null;
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});
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if (!isAsar) {
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return;
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}
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const signPromise = (filepath) => {
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const outDir = path.join(packContext.appOutDir, ...filepath);
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return fs_1.walk(outDir, (file, stat) => stat.isDirectory() || file.endsWith(".exe") || (this.isSignDlls() && file.endsWith(".dll")));
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};
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const filesToSign = await Promise.all([signPromise(["resources", "app.asar.unpacked"]), signPromise(["swiftshader"])]);
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await bluebird_lst_1.default.map(filesToSign.flat(1), file => this.sign(file), { concurrency: 4 });
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}
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}
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exports.WinPackager = WinPackager;
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//# sourceMappingURL=winPackager.js.map
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