"use strict";
Object.defineProperty(exports, "__esModule", {
value: true
});
exports.default = void 0;
function _bluebirdLst() {
const data = _interopRequireDefault(require("bluebird-lst"));
_bluebirdLst = function () {
return data;
};
return data;
}
function _builderUtil() {
const data = require("builder-util");
_builderUtil = function () {
return data;
};
return data;
}
function _fs() {
const data = require("builder-util/out/fs");
_fs = function () {
return data;
};
return data;
}
function _fsExtra() {
const data = require("fs-extra");
_fsExtra = function () {
return data;
};
return data;
}
var path = _interopRequireWildcard(require("path"));
function _windowsCodeSign() {
const data = require("../codeSign/windowsCodeSign");
_windowsCodeSign = function () {
return data;
};
return data;
}
function _core() {
const data = require("../core");
_core = function () {
return data;
};
return data;
}
function _pathManager() {
const data = require("../util/pathManager");
_pathManager = function () {
return data;
};
return data;
}
function _targetUtil() {
const data = require("./targetUtil");
_targetUtil = function () {
return data;
};
return data;
}
function _interopRequireWildcard(obj) { if (obj && obj.__esModule) { return obj; } else { var newObj = {}; if (obj != null) { for (var key in obj) { if (Object.prototype.hasOwnProperty.call(obj, key)) { var desc = Object.defineProperty && Object.getOwnPropertyDescriptor ? Object.getOwnPropertyDescriptor(obj, key) : {}; if (desc.get || desc.set) { Object.defineProperty(newObj, key, desc); } else { newObj[key] = obj[key]; } } } } newObj.default = obj; return newObj; } }
function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }
const APPX_ASSETS_DIR_NAME = "appx";
const vendorAssetsForDefaultAssets = {
"StoreLogo.png": "SampleAppx.50x50.png",
"Square150x150Logo.png": "SampleAppx.150x150.png",
"Square44x44Logo.png": "SampleAppx.44x44.png",
"Wide310x150Logo.png": "SampleAppx.310x150.png"
};
const DEFAULT_RESOURCE_LANG = "en-US";
class AppXTarget extends _core().Target {
constructor(packager, outDir) {
super("appx");
this.packager = packager;
this.outDir = outDir;
this.options = (0, _builderUtil().deepAssign)({}, this.packager.platformSpecificBuildOptions, this.packager.config.appx);
if (process.platform !== "darwin" && (process.platform !== "win32" || (0, _windowsCodeSign().isOldWin6)())) {
throw new Error("AppX is supported only on Windows 10 or Windows Server 2012 R2 (version number 6.3+)");
}
} // https://docs.microsoft.com/en-us/windows/uwp/packaging/create-app-package-with-makeappx-tool#mapping-files
async build(appOutDir, arch) {
const packager = this.packager;
const artifactName = packager.expandArtifactBeautyNamePattern(this.options, "appx", arch);
const artifactPath = path.join(this.outDir, artifactName);
await packager.info.callArtifactBuildStarted({
targetPresentableName: "AppX",
file: artifactPath,
arch
});
const vendorPath = await (0, _windowsCodeSign().getSignVendorPath)();
const vm = await packager.vm.value;
const stageDir = await (0, _targetUtil().createStageDir)(this, packager, arch);
const mappingFile = stageDir.getTempFile("mapping.txt");
const makeAppXArgs = ["pack", "/o"
/* overwrite the output file if it exists */
, "/f", vm.toVmFile(mappingFile), "/p", vm.toVmFile(artifactPath)];
if (packager.compression === "store") {
makeAppXArgs.push("/nc");
}
const mappingList = [];
mappingList.push((await _bluebirdLst().default.map((0, _fs().walk)(appOutDir), file => {
let appxPath = file.substring(appOutDir.length + 1);
if (path.sep !== "\\") {
appxPath = appxPath.replace(/\//g, "\\");
}
return `"${vm.toVmFile(file)}" "app\\${appxPath}"`;
})));
const userAssetDir = await this.packager.getResource(undefined, APPX_ASSETS_DIR_NAME);
const assetInfo = await AppXTarget.computeUserAssets(vm, vendorPath, userAssetDir);
const userAssets = assetInfo.userAssets;
const manifestFile = stageDir.getTempFile("AppxManifest.xml");
await this.writeManifest(manifestFile, arch, (await this.computePublisherName()), userAssets);
mappingList.push(assetInfo.mappings);
mappingList.push([`"${vm.toVmFile(manifestFile)}" "AppxManifest.xml"`]);
if (isScaledAssetsProvided(userAssets)) {
const outFile = vm.toVmFile(stageDir.getTempFile("resources.pri"));
const makePriPath = vm.toVmFile(path.join(vendorPath, "windows-10", _builderUtil().Arch[arch], "makepri.exe"));
const assetRoot = stageDir.getTempFile("appx/assets");
await (0, _fsExtra().emptyDir)(assetRoot);
await _bluebirdLst().default.map(assetInfo.allAssets, it => (0, _fs().copyOrLinkFile)(it, path.join(assetRoot, path.basename(it))));
await vm.exec(makePriPath, ["new", "/Overwrite", "/Manifest", vm.toVmFile(manifestFile), "/ProjectRoot", vm.toVmFile(path.dirname(assetRoot)), "/ConfigXml", vm.toVmFile(path.join((0, _pathManager().getTemplatePath)("appx"), "priconfig.xml")), "/OutputFile", outFile]); // in addition to resources.pri, resources.scale-140.pri and other such files will be generated
for (const resourceFile of (await (0, _fsExtra().readdir)(stageDir.dir)).filter(it => it.startsWith("resources.")).sort()) {
mappingList.push([`"${vm.toVmFile(stageDir.getTempFile(resourceFile))}" "${resourceFile}"`]);
}
makeAppXArgs.push("/l");
}
let mapping = "[Files]";
for (const list of mappingList) {
mapping += "\r\n" + list.join("\r\n");
}
await (0, _fsExtra().writeFile)(mappingFile, mapping);
packager.debugLogger.add("appx.mapping", mapping);
if (this.options.makeappxArgs != null) {
makeAppXArgs.push(...this.options.makeappxArgs);
}
await vm.exec(vm.toVmFile(path.join(vendorPath, "windows-10", _builderUtil().Arch[arch], "makeappx.exe")), makeAppXArgs);
await packager.sign(artifactPath);
await stageDir.cleanup();
await packager.info.callArtifactBuildCompleted({
file: artifactPath,
packager,
arch,
safeArtifactName: packager.computeSafeArtifactName(artifactName, "appx"),
target: this,
isWriteUpdateInfo: this.options.electronUpdaterAware
});
}
static async computeUserAssets(vm, vendorPath, userAssetDir) {
const mappings = [];
let userAssets;
const allAssets = [];
if (userAssetDir == null) {
userAssets = [];
} else {
userAssets = (await (0, _fsExtra().readdir)(userAssetDir)).filter(it => !it.startsWith(".") && !it.endsWith(".db") && it.includes("."));
for (const name of userAssets) {
mappings.push(`"${vm.toVmFile(userAssetDir)}${vm.pathSep}${name}" "assets\\${name}"`);
allAssets.push(path.join(userAssetDir, name));
}
}
for (const defaultAsset of Object.keys(vendorAssetsForDefaultAssets)) {
if (userAssets.length === 0 || !isDefaultAssetIncluded(userAssets, defaultAsset)) {
const file = path.join(vendorPath, "appxAssets", vendorAssetsForDefaultAssets[defaultAsset]);
mappings.push(`"${vm.toVmFile(file)}" "assets\\${defaultAsset}"`);
allAssets.push(file);
}
} // we do not use process.arch to build path to tools, because even if you are on x64, ia32 appx tool must be used if you build appx for ia32
return {
userAssets,
mappings,
allAssets
};
} // https://github.com/electron-userland/electron-builder/issues/2108#issuecomment-333200711
async computePublisherName() {
if ((await this.packager.cscInfo.value) == null) {
_builderUtil().log.info({
reason: "Windows Store only build"
}, "AppX is not signed");
return this.options.publisher || "CN=ms";
}
const certInfo = await this.packager.lazyCertInfo.value;
const publisher = certInfo == null ? null : certInfo.bloodyMicrosoftSubjectDn;
if (publisher == null) {
throw new Error("Internal error: cannot compute subject using certificate info");
}
return publisher;
}
async writeManifest(outFile, arch, publisher, userAssets) {
const appInfo = this.packager.appInfo;
const options = this.options;
const executable = `app\\${appInfo.productFilename}.exe`;
const displayName = options.displayName || appInfo.productName;
const manifest = (await (0, _fsExtra().readFile)(path.join((0, _pathManager().getTemplatePath)("appx"), "appxmanifest.xml"), "utf8")).replace(/\${([a-zA-Z0-9]+)}/g, (match, p1) => {
switch (p1) {
case "publisher":
return publisher;
case "publisherDisplayName":
const name = options.publisherDisplayName || appInfo.companyName;
if (name == null) {
throw new (_builderUtil().InvalidConfigurationError)(`Please specify "author" in the application package.json — it is required because "appx.publisherDisplayName" is not set.`);
}
return name;
case "version":
return appInfo.getVersionInWeirdWindowsForm(options.setBuildNumber === true);
case "applicationId":
const result = options.applicationId || options.identityName || appInfo.name;
if (!isNaN(parseInt(result[0], 10))) {
let message = `AppX Application.Id can’t start with numbers: "${result}"`;
if (options.applicationId == null) {
message += `\nPlease set appx.applicationId (or correct appx.identityName or name)`;
}
throw new (_builderUtil().InvalidConfigurationError)(message);
}
return result;
case "identityName":
return options.identityName || appInfo.name;
case "executable":
return executable;
case "displayName":
return displayName;
case "description":
return appInfo.description || appInfo.productName;
case "backgroundColor":
return options.backgroundColor || "#464646";
case "logo":
return "assets\\StoreLogo.png";
case "square150x150Logo":
return "assets\\Square150x150Logo.png";
case "square44x44Logo":
return "assets\\Square44x44Logo.png";
case "lockScreen":
return lockScreenTag(userAssets);
case "defaultTile":
return defaultTileTag(userAssets, options.showNameOnTiles || false);
case "splashScreen":
return splashScreenTag(userAssets);
case "arch":
return arch === _builderUtil().Arch.ia32 ? "x86" : "x64";
case "resourceLanguages":
return resourceLanguageTag((0, _builderUtil().asArray)(options.languages));
case "extensions":
return this.getExtensions(executable, displayName);
default:
throw new Error(`Macro ${p1} is not defined`);
}
});
await (0, _fsExtra().writeFile)(outFile, manifest);
}
getExtensions(executable, displayName) {
const uriSchemes = (0, _builderUtil().asArray)(this.packager.config.protocols).concat((0, _builderUtil().asArray)(this.packager.platformSpecificBuildOptions.protocols));
let isAddAutoLaunchExtension = this.options.addAutoLaunchExtension;
if (isAddAutoLaunchExtension === undefined) {
const deps = this.packager.info.metadata.dependencies;
isAddAutoLaunchExtension = deps != null && deps["electron-winstore-auto-launch"] != null;
}
if (!isAddAutoLaunchExtension && uriSchemes.length === 0) {
return "";
}
let extensions = "";
if (isAddAutoLaunchExtension) {
extensions += `
`;
}
for (const protocol of uriSchemes) {
for (const scheme of (0, _builderUtil().asArray)(protocol.schemes)) {
extensions += `
${protocol.name}
`;
}
}
extensions += "";
return extensions;
}
} // get the resource - language tag, see https://docs.microsoft.com/en-us/windows/uwp/globalizing/manage-language-and-region#specify-the-supported-languages-in-the-apps-manifest
exports.default = AppXTarget;
function resourceLanguageTag(userLanguages) {
if (userLanguages == null || userLanguages.length === 0) {
userLanguages = [DEFAULT_RESOURCE_LANG];
}
return userLanguages.map(it => ``).join("\n");
}
function lockScreenTag(userAssets) {
if (isDefaultAssetIncluded(userAssets, "BadgeLogo.png")) {
return '';
} else {
return "";
}
}
function defaultTileTag(userAssets, showNameOnTiles) {
const defaultTiles = ["");
defaultTiles.push("");
defaultTiles.push("");
defaultTiles.push("");
defaultTiles.push("");
defaultTiles.push("");
} else {
defaultTiles.push("/>");
}
return defaultTiles.join(" ");
}
function splashScreenTag(userAssets) {
if (isDefaultAssetIncluded(userAssets, "SplashScreen.png")) {
return '';
} else {
return "";
}
}
function isDefaultAssetIncluded(userAssets, defaultAsset) {
const defaultAssetName = defaultAsset.substring(0, defaultAsset.indexOf("."));
return userAssets.some(it => it.includes(defaultAssetName));
}
function isScaledAssetsProvided(userAssets) {
return userAssets.some(it => it.includes(".scale-") || it.includes(".targetsize-"));
}
// __ts-babel@6.0.4
//# sourceMappingURL=AppxTarget.js.map