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cache/dist/restore/index.js
2020-05-10 10:36:06 -04:00

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187 KiB
JavaScript

module.exports =
/******/ (function(modules, runtime) { // webpackBootstrap
/******/ "use strict";
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/******/ return installedModules[moduleId].exports;
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/************************************************************************/
/******/ ({
/***/ 1:
/***/ (function(__unusedmodule, exports, __webpack_require__) {
"use strict";
var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) {
function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); }
return new (P || (P = Promise))(function (resolve, reject) {
function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } }
function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } }
function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); }
step((generator = generator.apply(thisArg, _arguments || [])).next());
});
};
Object.defineProperty(exports, "__esModule", { value: true });
const childProcess = __webpack_require__(129);
const path = __webpack_require__(622);
const util_1 = __webpack_require__(669);
const ioUtil = __webpack_require__(672);
const exec = util_1.promisify(childProcess.exec);
/**
* Copies a file or folder.
* Based off of shelljs - https://github.com/shelljs/shelljs/blob/9237f66c52e5daa40458f94f9565e18e8132f5a6/src/cp.js
*
* @param source source path
* @param dest destination path
* @param options optional. See CopyOptions.
*/
function cp(source, dest, options = {}) {
return __awaiter(this, void 0, void 0, function* () {
const { force, recursive } = readCopyOptions(options);
const destStat = (yield ioUtil.exists(dest)) ? yield ioUtil.stat(dest) : null;
// Dest is an existing file, but not forcing
if (destStat && destStat.isFile() && !force) {
return;
}
// If dest is an existing directory, should copy inside.
const newDest = destStat && destStat.isDirectory()
? path.join(dest, path.basename(source))
: dest;
if (!(yield ioUtil.exists(source))) {
throw new Error(`no such file or directory: ${source}`);
}
const sourceStat = yield ioUtil.stat(source);
if (sourceStat.isDirectory()) {
if (!recursive) {
throw new Error(`Failed to copy. ${source} is a directory, but tried to copy without recursive flag.`);
}
else {
yield cpDirRecursive(source, newDest, 0, force);
}
}
else {
if (path.relative(source, newDest) === '') {
// a file cannot be copied to itself
throw new Error(`'${newDest}' and '${source}' are the same file`);
}
yield copyFile(source, newDest, force);
}
});
}
exports.cp = cp;
/**
* Moves a path.
*
* @param source source path
* @param dest destination path
* @param options optional. See MoveOptions.
*/
function mv(source, dest, options = {}) {
return __awaiter(this, void 0, void 0, function* () {
if (yield ioUtil.exists(dest)) {
let destExists = true;
if (yield ioUtil.isDirectory(dest)) {
// If dest is directory copy src into dest
dest = path.join(dest, path.basename(source));
destExists = yield ioUtil.exists(dest);
}
if (destExists) {
if (options.force == null || options.force) {
yield rmRF(dest);
}
else {
throw new Error('Destination already exists');
}
}
}
yield mkdirP(path.dirname(dest));
yield ioUtil.rename(source, dest);
});
}
exports.mv = mv;
/**
* Remove a path recursively with force
*
* @param inputPath path to remove
*/
function rmRF(inputPath) {
return __awaiter(this, void 0, void 0, function* () {
if (ioUtil.IS_WINDOWS) {
// Node doesn't provide a delete operation, only an unlink function. This means that if the file is being used by another
// program (e.g. antivirus), it won't be deleted. To address this, we shell out the work to rd/del.
try {
if (yield ioUtil.isDirectory(inputPath, true)) {
yield exec(`rd /s /q "${inputPath}"`);
}
else {
yield exec(`del /f /a "${inputPath}"`);
}
}
catch (err) {
// if you try to delete a file that doesn't exist, desired result is achieved
// other errors are valid
if (err.code !== 'ENOENT')
throw err;
}
// Shelling out fails to remove a symlink folder with missing source, this unlink catches that
try {
yield ioUtil.unlink(inputPath);
}
catch (err) {
// if you try to delete a file that doesn't exist, desired result is achieved
// other errors are valid
if (err.code !== 'ENOENT')
throw err;
}
}
else {
let isDir = false;
try {
isDir = yield ioUtil.isDirectory(inputPath);
}
catch (err) {
// if you try to delete a file that doesn't exist, desired result is achieved
// other errors are valid
if (err.code !== 'ENOENT')
throw err;
return;
}
if (isDir) {
yield exec(`rm -rf "${inputPath}"`);
}
else {
yield ioUtil.unlink(inputPath);
}
}
});
}
exports.rmRF = rmRF;
/**
* Make a directory. Creates the full path with folders in between
* Will throw if it fails
*
* @param fsPath path to create
* @returns Promise<void>
*/
function mkdirP(fsPath) {
return __awaiter(this, void 0, void 0, function* () {
yield ioUtil.mkdirP(fsPath);
});
}
exports.mkdirP = mkdirP;
/**
* Returns path of a tool had the tool actually been invoked. Resolves via paths.
* If you check and the tool does not exist, it will throw.
*
* @param tool name of the tool
* @param check whether to check if tool exists
* @returns Promise<string> path to tool
*/
function which(tool, check) {
return __awaiter(this, void 0, void 0, function* () {
if (!tool) {
throw new Error("parameter 'tool' is required");
}
// recursive when check=true
if (check) {
const result = yield which(tool, false);
if (!result) {
if (ioUtil.IS_WINDOWS) {
throw new Error(`Unable to locate executable file: ${tool}. Please verify either the file path exists or the file can be found within a directory specified by the PATH environment variable. Also verify the file has a valid extension for an executable file.`);
}
else {
throw new Error(`Unable to locate executable file: ${tool}. Please verify either the file path exists or the file can be found within a directory specified by the PATH environment variable. Also check the file mode to verify the file is executable.`);
}
}
}
try {
// build the list of extensions to try
const extensions = [];
if (ioUtil.IS_WINDOWS && process.env.PATHEXT) {
for (const extension of process.env.PATHEXT.split(path.delimiter)) {
if (extension) {
extensions.push(extension);
}
}
}
// if it's rooted, return it if exists. otherwise return empty.
if (ioUtil.isRooted(tool)) {
const filePath = yield ioUtil.tryGetExecutablePath(tool, extensions);
if (filePath) {
return filePath;
}
return '';
}
// if any path separators, return empty
if (tool.includes('/') || (ioUtil.IS_WINDOWS && tool.includes('\\'))) {
return '';
}
// build the list of directories
//
// Note, technically "where" checks the current directory on Windows. From a toolkit perspective,
// it feels like we should not do this. Checking the current directory seems like more of a use
// case of a shell, and the which() function exposed by the toolkit should strive for consistency
// across platforms.
const directories = [];
if (process.env.PATH) {
for (const p of process.env.PATH.split(path.delimiter)) {
if (p) {
directories.push(p);
}
}
}
// return the first match
for (const directory of directories) {
const filePath = yield ioUtil.tryGetExecutablePath(directory + path.sep + tool, extensions);
if (filePath) {
return filePath;
}
}
return '';
}
catch (err) {
throw new Error(`which failed with message ${err.message}`);
}
});
}
exports.which = which;
function readCopyOptions(options) {
const force = options.force == null ? true : options.force;
const recursive = Boolean(options.recursive);
return { force, recursive };
}
function cpDirRecursive(sourceDir, destDir, currentDepth, force) {
return __awaiter(this, void 0, void 0, function* () {
// Ensure there is not a run away recursive copy
if (currentDepth >= 255)
return;
currentDepth++;
yield mkdirP(destDir);
const files = yield ioUtil.readdir(sourceDir);
for (const fileName of files) {
const srcFile = `${sourceDir}/${fileName}`;
const destFile = `${destDir}/${fileName}`;
const srcFileStat = yield ioUtil.lstat(srcFile);
if (srcFileStat.isDirectory()) {
// Recurse
yield cpDirRecursive(srcFile, destFile, currentDepth, force);
}
else {
yield copyFile(srcFile, destFile, force);
}
}
// Change the mode for the newly created directory
yield ioUtil.chmod(destDir, (yield ioUtil.stat(sourceDir)).mode);
});
}
// Buffered file copy
function copyFile(srcFile, destFile, force) {
return __awaiter(this, void 0, void 0, function* () {
if ((yield ioUtil.lstat(srcFile)).isSymbolicLink()) {
// unlink/re-link it
try {
yield ioUtil.lstat(destFile);
yield ioUtil.unlink(destFile);
}
catch (e) {
// Try to override file permission
if (e.code === 'EPERM') {
yield ioUtil.chmod(destFile, '0666');
yield ioUtil.unlink(destFile);
}
// other errors = it doesn't exist, no work to do
}
// Copy over symlink
const symlinkFull = yield ioUtil.readlink(srcFile);
yield ioUtil.symlink(symlinkFull, destFile, ioUtil.IS_WINDOWS ? 'junction' : null);
}
else if (!(yield ioUtil.exists(destFile)) || force) {
yield ioUtil.copyFile(srcFile, destFile);
}
});
}
//# sourceMappingURL=io.js.map
/***/ }),
/***/ 9:
/***/ (function(__unusedmodule, exports, __webpack_require__) {
"use strict";
var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) {
function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); }
return new (P || (P = Promise))(function (resolve, reject) {
function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } }
function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } }
function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); }
step((generator = generator.apply(thisArg, _arguments || [])).next());
});
};
Object.defineProperty(exports, "__esModule", { value: true });
const os = __webpack_require__(87);
const events = __webpack_require__(614);
const child = __webpack_require__(129);
/* eslint-disable @typescript-eslint/unbound-method */
const IS_WINDOWS = process.platform === 'win32';
/*
* Class for running command line tools. Handles quoting and arg parsing in a platform agnostic way.
*/
class ToolRunner extends events.EventEmitter {
constructor(toolPath, args, options) {
super();
if (!toolPath) {
throw new Error("Parameter 'toolPath' cannot be null or empty.");
}
this.toolPath = toolPath;
this.args = args || [];
this.options = options || {};
}
_debug(message) {
if (this.options.listeners && this.options.listeners.debug) {
this.options.listeners.debug(message);
}
}
_getCommandString(options, noPrefix) {
const toolPath = this._getSpawnFileName();
const args = this._getSpawnArgs(options);
let cmd = noPrefix ? '' : '[command]'; // omit prefix when piped to a second tool
if (IS_WINDOWS) {
// Windows + cmd file
if (this._isCmdFile()) {
cmd += toolPath;
for (const a of args) {
cmd += ` ${a}`;
}
}
// Windows + verbatim
else if (options.windowsVerbatimArguments) {
cmd += `"${toolPath}"`;
for (const a of args) {
cmd += ` ${a}`;
}
}
// Windows (regular)
else {
cmd += this._windowsQuoteCmdArg(toolPath);
for (const a of args) {
cmd += ` ${this._windowsQuoteCmdArg(a)}`;
}
}
}
else {
// OSX/Linux - this can likely be improved with some form of quoting.
// creating processes on Unix is fundamentally different than Windows.
// on Unix, execvp() takes an arg array.
cmd += toolPath;
for (const a of args) {
cmd += ` ${a}`;
}
}
return cmd;
}
_processLineBuffer(data, strBuffer, onLine) {
try {
let s = strBuffer + data.toString();
let n = s.indexOf(os.EOL);
while (n > -1) {
const line = s.substring(0, n);
onLine(line);
// the rest of the string ...
s = s.substring(n + os.EOL.length);
n = s.indexOf(os.EOL);
}
strBuffer = s;
}
catch (err) {
// streaming lines to console is best effort. Don't fail a build.
this._debug(`error processing line. Failed with error ${err}`);
}
}
_getSpawnFileName() {
if (IS_WINDOWS) {
if (this._isCmdFile()) {
return process.env['COMSPEC'] || 'cmd.exe';
}
}
return this.toolPath;
}
_getSpawnArgs(options) {
if (IS_WINDOWS) {
if (this._isCmdFile()) {
let argline = `/D /S /C "${this._windowsQuoteCmdArg(this.toolPath)}`;
for (const a of this.args) {
argline += ' ';
argline += options.windowsVerbatimArguments
? a
: this._windowsQuoteCmdArg(a);
}
argline += '"';
return [argline];
}
}
return this.args;
}
_endsWith(str, end) {
return str.endsWith(end);
}
_isCmdFile() {
const upperToolPath = this.toolPath.toUpperCase();
return (this._endsWith(upperToolPath, '.CMD') ||
this._endsWith(upperToolPath, '.BAT'));
}
_windowsQuoteCmdArg(arg) {
// for .exe, apply the normal quoting rules that libuv applies
if (!this._isCmdFile()) {
return this._uvQuoteCmdArg(arg);
}
// otherwise apply quoting rules specific to the cmd.exe command line parser.
// the libuv rules are generic and are not designed specifically for cmd.exe
// command line parser.
//
// for a detailed description of the cmd.exe command line parser, refer to
// http://stackoverflow.com/questions/4094699/how-does-the-windows-command-interpreter-cmd-exe-parse-scripts/7970912#7970912
// need quotes for empty arg
if (!arg) {
return '""';
}
// determine whether the arg needs to be quoted
const cmdSpecialChars = [
' ',
'\t',
'&',
'(',
')',
'[',
']',
'{',
'}',
'^',
'=',
';',
'!',
"'",
'+',
',',
'`',
'~',
'|',
'<',
'>',
'"'
];
let needsQuotes = false;
for (const char of arg) {
if (cmdSpecialChars.some(x => x === char)) {
needsQuotes = true;
break;
}
}
// short-circuit if quotes not needed
if (!needsQuotes) {
return arg;
}
// the following quoting rules are very similar to the rules that by libuv applies.
//
// 1) wrap the string in quotes
//
// 2) double-up quotes - i.e. " => ""
//
// this is different from the libuv quoting rules. libuv replaces " with \", which unfortunately
// doesn't work well with a cmd.exe command line.
//
// note, replacing " with "" also works well if the arg is passed to a downstream .NET console app.
// for example, the command line:
// foo.exe "myarg:""my val"""
// is parsed by a .NET console app into an arg array:
// [ "myarg:\"my val\"" ]
// which is the same end result when applying libuv quoting rules. although the actual
// command line from libuv quoting rules would look like:
// foo.exe "myarg:\"my val\""
//
// 3) double-up slashes that precede a quote,
// e.g. hello \world => "hello \world"
// hello\"world => "hello\\""world"
// hello\\"world => "hello\\\\""world"
// hello world\ => "hello world\\"
//
// technically this is not required for a cmd.exe command line, or the batch argument parser.
// the reasons for including this as a .cmd quoting rule are:
//
// a) this is optimized for the scenario where the argument is passed from the .cmd file to an
// external program. many programs (e.g. .NET console apps) rely on the slash-doubling rule.
//
// b) it's what we've been doing previously (by deferring to node default behavior) and we
// haven't heard any complaints about that aspect.
//
// note, a weakness of the quoting rules chosen here, is that % is not escaped. in fact, % cannot be
// escaped when used on the command line directly - even though within a .cmd file % can be escaped
// by using %%.
//
// the saving grace is, on the command line, %var% is left as-is if var is not defined. this contrasts
// the line parsing rules within a .cmd file, where if var is not defined it is replaced with nothing.
//
// one option that was explored was replacing % with ^% - i.e. %var% => ^%var^%. this hack would
// often work, since it is unlikely that var^ would exist, and the ^ character is removed when the
// variable is used. the problem, however, is that ^ is not removed when %* is used to pass the args
// to an external program.
//
// an unexplored potential solution for the % escaping problem, is to create a wrapper .cmd file.
// % can be escaped within a .cmd file.
let reverse = '"';
let quoteHit = true;
for (let i = arg.length; i > 0; i--) {
// walk the string in reverse
reverse += arg[i - 1];
if (quoteHit && arg[i - 1] === '\\') {
reverse += '\\'; // double the slash
}
else if (arg[i - 1] === '"') {
quoteHit = true;
reverse += '"'; // double the quote
}
else {
quoteHit = false;
}
}
reverse += '"';
return reverse
.split('')
.reverse()
.join('');
}
_uvQuoteCmdArg(arg) {
// Tool runner wraps child_process.spawn() and needs to apply the same quoting as
// Node in certain cases where the undocumented spawn option windowsVerbatimArguments
// is used.
//
// Since this function is a port of quote_cmd_arg from Node 4.x (technically, lib UV,
// see https://github.com/nodejs/node/blob/v4.x/deps/uv/src/win/process.c for details),
// pasting copyright notice from Node within this function:
//
// Copyright Joyent, Inc. and other Node contributors. All rights reserved.
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to
// deal in the Software without restriction, including without limitation the
// rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
// sell copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
// FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
// IN THE SOFTWARE.
if (!arg) {
// Need double quotation for empty argument
return '""';
}
if (!arg.includes(' ') && !arg.includes('\t') && !arg.includes('"')) {
// No quotation needed
return arg;
}
if (!arg.includes('"') && !arg.includes('\\')) {
// No embedded double quotes or backslashes, so I can just wrap
// quote marks around the whole thing.
return `"${arg}"`;
}
// Expected input/output:
// input : hello"world
// output: "hello\"world"
// input : hello""world
// output: "hello\"\"world"
// input : hello\world
// output: hello\world
// input : hello\\world
// output: hello\\world
// input : hello\"world
// output: "hello\\\"world"
// input : hello\\"world
// output: "hello\\\\\"world"
// input : hello world\
// output: "hello world\\" - note the comment in libuv actually reads "hello world\"
// but it appears the comment is wrong, it should be "hello world\\"
let reverse = '"';
let quoteHit = true;
for (let i = arg.length; i > 0; i--) {
// walk the string in reverse
reverse += arg[i - 1];
if (quoteHit && arg[i - 1] === '\\') {
reverse += '\\';
}
else if (arg[i - 1] === '"') {
quoteHit = true;
reverse += '\\';
}
else {
quoteHit = false;
}
}
reverse += '"';
return reverse
.split('')
.reverse()
.join('');
}
_cloneExecOptions(options) {
options = options || {};
const result = {
cwd: options.cwd || process.cwd(),
env: options.env || process.env,
silent: options.silent || false,
windowsVerbatimArguments: options.windowsVerbatimArguments || false,
failOnStdErr: options.failOnStdErr || false,
ignoreReturnCode: options.ignoreReturnCode || false,
delay: options.delay || 10000
};
result.outStream = options.outStream || process.stdout;
result.errStream = options.errStream || process.stderr;
return result;
}
_getSpawnOptions(options, toolPath) {
options = options || {};
const result = {};
result.cwd = options.cwd;
result.env = options.env;
result['windowsVerbatimArguments'] =
options.windowsVerbatimArguments || this._isCmdFile();
if (options.windowsVerbatimArguments) {
result.argv0 = `"${toolPath}"`;
}
return result;
}
/**
* Exec a tool.
* Output will be streamed to the live console.
* Returns promise with return code
*
* @param tool path to tool to exec
* @param options optional exec options. See ExecOptions
* @returns number
*/
exec() {
return __awaiter(this, void 0, void 0, function* () {
return new Promise((resolve, reject) => {
this._debug(`exec tool: ${this.toolPath}`);
this._debug('arguments:');
for (const arg of this.args) {
this._debug(` ${arg}`);
}
const optionsNonNull = this._cloneExecOptions(this.options);
if (!optionsNonNull.silent && optionsNonNull.outStream) {
optionsNonNull.outStream.write(this._getCommandString(optionsNonNull) + os.EOL);
}
const state = new ExecState(optionsNonNull, this.toolPath);
state.on('debug', (message) => {
this._debug(message);
});
const fileName = this._getSpawnFileName();
const cp = child.spawn(fileName, this._getSpawnArgs(optionsNonNull), this._getSpawnOptions(this.options, fileName));
const stdbuffer = '';
if (cp.stdout) {
cp.stdout.on('data', (data) => {
if (this.options.listeners && this.options.listeners.stdout) {
this.options.listeners.stdout(data);
}
if (!optionsNonNull.silent && optionsNonNull.outStream) {
optionsNonNull.outStream.write(data);
}
this._processLineBuffer(data, stdbuffer, (line) => {
if (this.options.listeners && this.options.listeners.stdline) {
this.options.listeners.stdline(line);
}
});
});
}
const errbuffer = '';
if (cp.stderr) {
cp.stderr.on('data', (data) => {
state.processStderr = true;
if (this.options.listeners && this.options.listeners.stderr) {
this.options.listeners.stderr(data);
}
if (!optionsNonNull.silent &&
optionsNonNull.errStream &&
optionsNonNull.outStream) {
const s = optionsNonNull.failOnStdErr
? optionsNonNull.errStream
: optionsNonNull.outStream;
s.write(data);
}
this._processLineBuffer(data, errbuffer, (line) => {
if (this.options.listeners && this.options.listeners.errline) {
this.options.listeners.errline(line);
}
});
});
}
cp.on('error', (err) => {
state.processError = err.message;
state.processExited = true;
state.processClosed = true;
state.CheckComplete();
});
cp.on('exit', (code) => {
state.processExitCode = code;
state.processExited = true;
this._debug(`Exit code ${code} received from tool '${this.toolPath}'`);
state.CheckComplete();
});
cp.on('close', (code) => {
state.processExitCode = code;
state.processExited = true;
state.processClosed = true;
this._debug(`STDIO streams have closed for tool '${this.toolPath}'`);
state.CheckComplete();
});
state.on('done', (error, exitCode) => {
if (stdbuffer.length > 0) {
this.emit('stdline', stdbuffer);
}
if (errbuffer.length > 0) {
this.emit('errline', errbuffer);
}
cp.removeAllListeners();
if (error) {
reject(error);
}
else {
resolve(exitCode);
}
});
});
});
}
}
exports.ToolRunner = ToolRunner;
/**
* Convert an arg string to an array of args. Handles escaping
*
* @param argString string of arguments
* @returns string[] array of arguments
*/
function argStringToArray(argString) {
const args = [];
let inQuotes = false;
let escaped = false;
let arg = '';
function append(c) {
// we only escape double quotes.
if (escaped && c !== '"') {
arg += '\\';
}
arg += c;
escaped = false;
}
for (let i = 0; i < argString.length; i++) {
const c = argString.charAt(i);
if (c === '"') {
if (!escaped) {
inQuotes = !inQuotes;
}
else {
append(c);
}
continue;
}
if (c === '\\' && escaped) {
append(c);
continue;
}
if (c === '\\' && inQuotes) {
escaped = true;
continue;
}
if (c === ' ' && !inQuotes) {
if (arg.length > 0) {
args.push(arg);
arg = '';
}
continue;
}
append(c);
}
if (arg.length > 0) {
args.push(arg.trim());
}
return args;
}
exports.argStringToArray = argStringToArray;
class ExecState extends events.EventEmitter {
constructor(options, toolPath) {
super();
this.processClosed = false; // tracks whether the process has exited and stdio is closed
this.processError = '';
this.processExitCode = 0;
this.processExited = false; // tracks whether the process has exited
this.processStderr = false; // tracks whether stderr was written to
this.delay = 10000; // 10 seconds
this.done = false;
this.timeout = null;
if (!toolPath) {
throw new Error('toolPath must not be empty');
}
this.options = options;
this.toolPath = toolPath;
if (options.delay) {
this.delay = options.delay;
}
}
CheckComplete() {
if (this.done) {
return;
}
if (this.processClosed) {
this._setResult();
}
else if (this.processExited) {
this.timeout = setTimeout(ExecState.HandleTimeout, this.delay, this);
}
}
_debug(message) {
this.emit('debug', message);
}
_setResult() {
// determine whether there is an error
let error;
if (this.processExited) {
if (this.processError) {
error = new Error(`There was an error when attempting to execute the process '${this.toolPath}'. This may indicate the process failed to start. Error: ${this.processError}`);
}
else if (this.processExitCode !== 0 && !this.options.ignoreReturnCode) {
error = new Error(`The process '${this.toolPath}' failed with exit code ${this.processExitCode}`);
}
else if (this.processStderr && this.options.failOnStdErr) {
error = new Error(`The process '${this.toolPath}' failed because one or more lines were written to the STDERR stream`);
}
}
// clear the timeout
if (this.timeout) {
clearTimeout(this.timeout);
this.timeout = null;
}
this.done = true;
this.emit('done', error, this.processExitCode);
}
static HandleTimeout(state) {
if (state.done) {
return;
}
if (!state.processClosed && state.processExited) {
const message = `The STDIO streams did not close within ${state.delay /
1000} seconds of the exit event from process '${state.toolPath}'. This may indicate a child process inherited the STDIO streams and has not yet exited.`;
state._debug(message);
}
state._setResult();
}
}
//# sourceMappingURL=toolrunner.js.map
/***/ }),
/***/ 16:
/***/ (function(module) {
module.exports = require("tls");
/***/ }),
/***/ 87:
/***/ (function(module) {
module.exports = require("os");
/***/ }),
/***/ 93:
/***/ (function(module, __unusedexports, __webpack_require__) {
module.exports = minimatch
minimatch.Minimatch = Minimatch
var path = { sep: '/' }
try {
path = __webpack_require__(622)
} catch (er) {}
var GLOBSTAR = minimatch.GLOBSTAR = Minimatch.GLOBSTAR = {}
var expand = __webpack_require__(306)
var plTypes = {
'!': { open: '(?:(?!(?:', close: '))[^/]*?)'},
'?': { open: '(?:', close: ')?' },
'+': { open: '(?:', close: ')+' },
'*': { open: '(?:', close: ')*' },
'@': { open: '(?:', close: ')' }
}
// any single thing other than /
// don't need to escape / when using new RegExp()
var qmark = '[^/]'
// * => any number of characters
var star = qmark + '*?'
// ** when dots are allowed. Anything goes, except .. and .
// not (^ or / followed by one or two dots followed by $ or /),
// followed by anything, any number of times.
var twoStarDot = '(?:(?!(?:\\\/|^)(?:\\.{1,2})($|\\\/)).)*?'
// not a ^ or / followed by a dot,
// followed by anything, any number of times.
var twoStarNoDot = '(?:(?!(?:\\\/|^)\\.).)*?'
// characters that need to be escaped in RegExp.
var reSpecials = charSet('().*{}+?[]^$\\!')
// "abc" -> { a:true, b:true, c:true }
function charSet (s) {
return s.split('').reduce(function (set, c) {
set[c] = true
return set
}, {})
}
// normalizes slashes.
var slashSplit = /\/+/
minimatch.filter = filter
function filter (pattern, options) {
options = options || {}
return function (p, i, list) {
return minimatch(p, pattern, options)
}
}
function ext (a, b) {
a = a || {}
b = b || {}
var t = {}
Object.keys(b).forEach(function (k) {
t[k] = b[k]
})
Object.keys(a).forEach(function (k) {
t[k] = a[k]
})
return t
}
minimatch.defaults = function (def) {
if (!def || !Object.keys(def).length) return minimatch
var orig = minimatch
var m = function minimatch (p, pattern, options) {
return orig.minimatch(p, pattern, ext(def, options))
}
m.Minimatch = function Minimatch (pattern, options) {
return new orig.Minimatch(pattern, ext(def, options))
}
return m
}
Minimatch.defaults = function (def) {
if (!def || !Object.keys(def).length) return Minimatch
return minimatch.defaults(def).Minimatch
}
function minimatch (p, pattern, options) {
if (typeof pattern !== 'string') {
throw new TypeError('glob pattern string required')
}
if (!options) options = {}
// shortcut: comments match nothing.
if (!options.nocomment && pattern.charAt(0) === '#') {
return false
}
// "" only matches ""
if (pattern.trim() === '') return p === ''
return new Minimatch(pattern, options).match(p)
}
function Minimatch (pattern, options) {
if (!(this instanceof Minimatch)) {
return new Minimatch(pattern, options)
}
if (typeof pattern !== 'string') {
throw new TypeError('glob pattern string required')
}
if (!options) options = {}
pattern = pattern.trim()
// windows support: need to use /, not \
if (path.sep !== '/') {
pattern = pattern.split(path.sep).join('/')
}
this.options = options
this.set = []
this.pattern = pattern
this.regexp = null
this.negate = false
this.comment = false
this.empty = false
// make the set of regexps etc.
this.make()
}
Minimatch.prototype.debug = function () {}
Minimatch.prototype.make = make
function make () {
// don't do it more than once.
if (this._made) return
var pattern = this.pattern
var options = this.options
// empty patterns and comments match nothing.
if (!options.nocomment && pattern.charAt(0) === '#') {
this.comment = true
return
}
if (!pattern) {
this.empty = true
return
}
// step 1: figure out negation, etc.
this.parseNegate()
// step 2: expand braces
var set = this.globSet = this.braceExpand()
if (options.debug) this.debug = console.error
this.debug(this.pattern, set)
// step 3: now we have a set, so turn each one into a series of path-portion
// matching patterns.
// These will be regexps, except in the case of "**", which is
// set to the GLOBSTAR object for globstar behavior,
// and will not contain any / characters
set = this.globParts = set.map(function (s) {
return s.split(slashSplit)
})
this.debug(this.pattern, set)
// glob --> regexps
set = set.map(function (s, si, set) {
return s.map(this.parse, this)
}, this)
this.debug(this.pattern, set)
// filter out everything that didn't compile properly.
set = set.filter(function (s) {
return s.indexOf(false) === -1
})
this.debug(this.pattern, set)
this.set = set
}
Minimatch.prototype.parseNegate = parseNegate
function parseNegate () {
var pattern = this.pattern
var negate = false
var options = this.options
var negateOffset = 0
if (options.nonegate) return
for (var i = 0, l = pattern.length
; i < l && pattern.charAt(i) === '!'
; i++) {
negate = !negate
negateOffset++
}
if (negateOffset) this.pattern = pattern.substr(negateOffset)
this.negate = negate
}
// Brace expansion:
// a{b,c}d -> abd acd
// a{b,}c -> abc ac
// a{0..3}d -> a0d a1d a2d a3d
// a{b,c{d,e}f}g -> abg acdfg acefg
// a{b,c}d{e,f}g -> abdeg acdeg abdeg abdfg
//
// Invalid sets are not expanded.
// a{2..}b -> a{2..}b
// a{b}c -> a{b}c
minimatch.braceExpand = function (pattern, options) {
return braceExpand(pattern, options)
}
Minimatch.prototype.braceExpand = braceExpand
function braceExpand (pattern, options) {
if (!options) {
if (this instanceof Minimatch) {
options = this.options
} else {
options = {}
}
}
pattern = typeof pattern === 'undefined'
? this.pattern : pattern
if (typeof pattern === 'undefined') {
throw new TypeError('undefined pattern')
}
if (options.nobrace ||
!pattern.match(/\{.*\}/)) {
// shortcut. no need to expand.
return [pattern]
}
return expand(pattern)
}
// parse a component of the expanded set.
// At this point, no pattern may contain "/" in it
// so we're going to return a 2d array, where each entry is the full
// pattern, split on '/', and then turned into a regular expression.
// A regexp is made at the end which joins each array with an
// escaped /, and another full one which joins each regexp with |.
//
// Following the lead of Bash 4.1, note that "**" only has special meaning
// when it is the *only* thing in a path portion. Otherwise, any series
// of * is equivalent to a single *. Globstar behavior is enabled by
// default, and can be disabled by setting options.noglobstar.
Minimatch.prototype.parse = parse
var SUBPARSE = {}
function parse (pattern, isSub) {
if (pattern.length > 1024 * 64) {
throw new TypeError('pattern is too long')
}
var options = this.options
// shortcuts
if (!options.noglobstar && pattern === '**') return GLOBSTAR
if (pattern === '') return ''
var re = ''
var hasMagic = !!options.nocase
var escaping = false
// ? => one single character
var patternListStack = []
var negativeLists = []
var stateChar
var inClass = false
var reClassStart = -1
var classStart = -1
// . and .. never match anything that doesn't start with .,
// even when options.dot is set.
var patternStart = pattern.charAt(0) === '.' ? '' // anything
// not (start or / followed by . or .. followed by / or end)
: options.dot ? '(?!(?:^|\\\/)\\.{1,2}(?:$|\\\/))'
: '(?!\\.)'
var self = this
function clearStateChar () {
if (stateChar) {
// we had some state-tracking character
// that wasn't consumed by this pass.
switch (stateChar) {
case '*':
re += star
hasMagic = true
break
case '?':
re += qmark
hasMagic = true
break
default:
re += '\\' + stateChar
break
}
self.debug('clearStateChar %j %j', stateChar, re)
stateChar = false
}
}
for (var i = 0, len = pattern.length, c
; (i < len) && (c = pattern.charAt(i))
; i++) {
this.debug('%s\t%s %s %j', pattern, i, re, c)
// skip over any that are escaped.
if (escaping && reSpecials[c]) {
re += '\\' + c
escaping = false
continue
}
switch (c) {
case '/':
// completely not allowed, even escaped.
// Should already be path-split by now.
return false
case '\\':
clearStateChar()
escaping = true
continue
// the various stateChar values
// for the "extglob" stuff.
case '?':
case '*':
case '+':
case '@':
case '!':
this.debug('%s\t%s %s %j <-- stateChar', pattern, i, re, c)
// all of those are literals inside a class, except that
// the glob [!a] means [^a] in regexp
if (inClass) {
this.debug(' in class')
if (c === '!' && i === classStart + 1) c = '^'
re += c
continue
}
// if we already have a stateChar, then it means
// that there was something like ** or +? in there.
// Handle the stateChar, then proceed with this one.
self.debug('call clearStateChar %j', stateChar)
clearStateChar()
stateChar = c
// if extglob is disabled, then +(asdf|foo) isn't a thing.
// just clear the statechar *now*, rather than even diving into
// the patternList stuff.
if (options.noext) clearStateChar()
continue
case '(':
if (inClass) {
re += '('
continue
}
if (!stateChar) {
re += '\\('
continue
}
patternListStack.push({
type: stateChar,
start: i - 1,
reStart: re.length,
open: plTypes[stateChar].open,
close: plTypes[stateChar].close
})
// negation is (?:(?!js)[^/]*)
re += stateChar === '!' ? '(?:(?!(?:' : '(?:'
this.debug('plType %j %j', stateChar, re)
stateChar = false
continue
case ')':
if (inClass || !patternListStack.length) {
re += '\\)'
continue
}
clearStateChar()
hasMagic = true
var pl = patternListStack.pop()
// negation is (?:(?!js)[^/]*)
// The others are (?:<pattern>)<type>
re += pl.close
if (pl.type === '!') {
negativeLists.push(pl)
}
pl.reEnd = re.length
continue
case '|':
if (inClass || !patternListStack.length || escaping) {
re += '\\|'
escaping = false
continue
}
clearStateChar()
re += '|'
continue
// these are mostly the same in regexp and glob
case '[':
// swallow any state-tracking char before the [
clearStateChar()
if (inClass) {
re += '\\' + c
continue
}
inClass = true
classStart = i
reClassStart = re.length
re += c
continue
case ']':
// a right bracket shall lose its special
// meaning and represent itself in
// a bracket expression if it occurs
// first in the list. -- POSIX.2 2.8.3.2
if (i === classStart + 1 || !inClass) {
re += '\\' + c
escaping = false
continue
}
// handle the case where we left a class open.
// "[z-a]" is valid, equivalent to "\[z-a\]"
if (inClass) {
// split where the last [ was, make sure we don't have
// an invalid re. if so, re-walk the contents of the
// would-be class to re-translate any characters that
// were passed through as-is
// TODO: It would probably be faster to determine this
// without a try/catch and a new RegExp, but it's tricky
// to do safely. For now, this is safe and works.
var cs = pattern.substring(classStart + 1, i)
try {
RegExp('[' + cs + ']')
} catch (er) {
// not a valid class!
var sp = this.parse(cs, SUBPARSE)
re = re.substr(0, reClassStart) + '\\[' + sp[0] + '\\]'
hasMagic = hasMagic || sp[1]
inClass = false
continue
}
}
// finish up the class.
hasMagic = true
inClass = false
re += c
continue
default:
// swallow any state char that wasn't consumed
clearStateChar()
if (escaping) {
// no need
escaping = false
} else if (reSpecials[c]
&& !(c === '^' && inClass)) {
re += '\\'
}
re += c
} // switch
} // for
// handle the case where we left a class open.
// "[abc" is valid, equivalent to "\[abc"
if (inClass) {
// split where the last [ was, and escape it
// this is a huge pita. We now have to re-walk
// the contents of the would-be class to re-translate
// any characters that were passed through as-is
cs = pattern.substr(classStart + 1)
sp = this.parse(cs, SUBPARSE)
re = re.substr(0, reClassStart) + '\\[' + sp[0]
hasMagic = hasMagic || sp[1]
}
// handle the case where we had a +( thing at the *end*
// of the pattern.
// each pattern list stack adds 3 chars, and we need to go through
// and escape any | chars that were passed through as-is for the regexp.
// Go through and escape them, taking care not to double-escape any
// | chars that were already escaped.
for (pl = patternListStack.pop(); pl; pl = patternListStack.pop()) {
var tail = re.slice(pl.reStart + pl.open.length)
this.debug('setting tail', re, pl)
// maybe some even number of \, then maybe 1 \, followed by a |
tail = tail.replace(/((?:\\{2}){0,64})(\\?)\|/g, function (_, $1, $2) {
if (!$2) {
// the | isn't already escaped, so escape it.
$2 = '\\'
}
// need to escape all those slashes *again*, without escaping the
// one that we need for escaping the | character. As it works out,
// escaping an even number of slashes can be done by simply repeating
// it exactly after itself. That's why this trick works.
//
// I am sorry that you have to see this.
return $1 + $1 + $2 + '|'
})
this.debug('tail=%j\n %s', tail, tail, pl, re)
var t = pl.type === '*' ? star
: pl.type === '?' ? qmark
: '\\' + pl.type
hasMagic = true
re = re.slice(0, pl.reStart) + t + '\\(' + tail
}
// handle trailing things that only matter at the very end.
clearStateChar()
if (escaping) {
// trailing \\
re += '\\\\'
}
// only need to apply the nodot start if the re starts with
// something that could conceivably capture a dot
var addPatternStart = false
switch (re.charAt(0)) {
case '.':
case '[':
case '(': addPatternStart = true
}
// Hack to work around lack of negative lookbehind in JS
// A pattern like: *.!(x).!(y|z) needs to ensure that a name
// like 'a.xyz.yz' doesn't match. So, the first negative
// lookahead, has to look ALL the way ahead, to the end of
// the pattern.
for (var n = negativeLists.length - 1; n > -1; n--) {
var nl = negativeLists[n]
var nlBefore = re.slice(0, nl.reStart)
var nlFirst = re.slice(nl.reStart, nl.reEnd - 8)
var nlLast = re.slice(nl.reEnd - 8, nl.reEnd)
var nlAfter = re.slice(nl.reEnd)
nlLast += nlAfter
// Handle nested stuff like *(*.js|!(*.json)), where open parens
// mean that we should *not* include the ) in the bit that is considered
// "after" the negated section.
var openParensBefore = nlBefore.split('(').length - 1
var cleanAfter = nlAfter
for (i = 0; i < openParensBefore; i++) {
cleanAfter = cleanAfter.replace(/\)[+*?]?/, '')
}
nlAfter = cleanAfter
var dollar = ''
if (nlAfter === '' && isSub !== SUBPARSE) {
dollar = '$'
}
var newRe = nlBefore + nlFirst + nlAfter + dollar + nlLast
re = newRe
}
// if the re is not "" at this point, then we need to make sure
// it doesn't match against an empty path part.
// Otherwise a/* will match a/, which it should not.
if (re !== '' && hasMagic) {
re = '(?=.)' + re
}
if (addPatternStart) {
re = patternStart + re
}
// parsing just a piece of a larger pattern.
if (isSub === SUBPARSE) {
return [re, hasMagic]
}
// skip the regexp for non-magical patterns
// unescape anything in it, though, so that it'll be
// an exact match against a file etc.
if (!hasMagic) {
return globUnescape(pattern)
}
var flags = options.nocase ? 'i' : ''
try {
var regExp = new RegExp('^' + re + '$', flags)
} catch (er) {
// If it was an invalid regular expression, then it can't match
// anything. This trick looks for a character after the end of
// the string, which is of course impossible, except in multi-line
// mode, but it's not a /m regex.
return new RegExp('$.')
}
regExp._glob = pattern
regExp._src = re
return regExp
}
minimatch.makeRe = function (pattern, options) {
return new Minimatch(pattern, options || {}).makeRe()
}
Minimatch.prototype.makeRe = makeRe
function makeRe () {
if (this.regexp || this.regexp === false) return this.regexp
// at this point, this.set is a 2d array of partial
// pattern strings, or "**".
//
// It's better to use .match(). This function shouldn't
// be used, really, but it's pretty convenient sometimes,
// when you just want to work with a regex.
var set = this.set
if (!set.length) {
this.regexp = false
return this.regexp
}
var options = this.options
var twoStar = options.noglobstar ? star
: options.dot ? twoStarDot
: twoStarNoDot
var flags = options.nocase ? 'i' : ''
var re = set.map(function (pattern) {
return pattern.map(function (p) {
return (p === GLOBSTAR) ? twoStar
: (typeof p === 'string') ? regExpEscape(p)
: p._src
}).join('\\\/')
}).join('|')
// must match entire pattern
// ending in a * or ** will make it less strict.
re = '^(?:' + re + ')$'
// can match anything, as long as it's not this.
if (this.negate) re = '^(?!' + re + ').*$'
try {
this.regexp = new RegExp(re, flags)
} catch (ex) {
this.regexp = false
}
return this.regexp
}
minimatch.match = function (list, pattern, options) {
options = options || {}
var mm = new Minimatch(pattern, options)
list = list.filter(function (f) {
return mm.match(f)
})
if (mm.options.nonull && !list.length) {
list.push(pattern)
}
return list
}
Minimatch.prototype.match = match
function match (f, partial) {
this.debug('match', f, this.pattern)
// short-circuit in the case of busted things.
// comments, etc.
if (this.comment) return false
if (this.empty) return f === ''
if (f === '/' && partial) return true
var options = this.options
// windows: need to use /, not \
if (path.sep !== '/') {
f = f.split(path.sep).join('/')
}
// treat the test path as a set of pathparts.
f = f.split(slashSplit)
this.debug(this.pattern, 'split', f)
// just ONE of the pattern sets in this.set needs to match
// in order for it to be valid. If negating, then just one
// match means that we have failed.
// Either way, return on the first hit.
var set = this.set
this.debug(this.pattern, 'set', set)
// Find the basename of the path by looking for the last non-empty segment
var filename
var i
for (i = f.length - 1; i >= 0; i--) {
filename = f[i]
if (filename) break
}
for (i = 0; i < set.length; i++) {
var pattern = set[i]
var file = f
if (options.matchBase && pattern.length === 1) {
file = [filename]
}
var hit = this.matchOne(file, pattern, partial)
if (hit) {
if (options.flipNegate) return true
return !this.negate
}
}
// didn't get any hits. this is success if it's a negative
// pattern, failure otherwise.
if (options.flipNegate) return false
return this.negate
}
// set partial to true to test if, for example,
// "/a/b" matches the start of "/*/b/*/d"
// Partial means, if you run out of file before you run
// out of pattern, then that's fine, as long as all
// the parts match.
Minimatch.prototype.matchOne = function (file, pattern, partial) {
var options = this.options
this.debug('matchOne',
{ 'this': this, file: file, pattern: pattern })
this.debug('matchOne', file.length, pattern.length)
for (var fi = 0,
pi = 0,
fl = file.length,
pl = pattern.length
; (fi < fl) && (pi < pl)
; fi++, pi++) {
this.debug('matchOne loop')
var p = pattern[pi]
var f = file[fi]
this.debug(pattern, p, f)
// should be impossible.
// some invalid regexp stuff in the set.
if (p === false) return false
if (p === GLOBSTAR) {
this.debug('GLOBSTAR', [pattern, p, f])
// "**"
// a/**/b/**/c would match the following:
// a/b/x/y/z/c
// a/x/y/z/b/c
// a/b/x/b/x/c
// a/b/c
// To do this, take the rest of the pattern after
// the **, and see if it would match the file remainder.
// If so, return success.
// If not, the ** "swallows" a segment, and try again.
// This is recursively awful.
//
// a/**/b/**/c matching a/b/x/y/z/c
// - a matches a
// - doublestar
// - matchOne(b/x/y/z/c, b/**/c)
// - b matches b
// - doublestar
// - matchOne(x/y/z/c, c) -> no
// - matchOne(y/z/c, c) -> no
// - matchOne(z/c, c) -> no
// - matchOne(c, c) yes, hit
var fr = fi
var pr = pi + 1
if (pr === pl) {
this.debug('** at the end')
// a ** at the end will just swallow the rest.
// We have found a match.
// however, it will not swallow /.x, unless
// options.dot is set.
// . and .. are *never* matched by **, for explosively
// exponential reasons.
for (; fi < fl; fi++) {
if (file[fi] === '.' || file[fi] === '..' ||
(!options.dot && file[fi].charAt(0) === '.')) return false
}
return true
}
// ok, let's see if we can swallow whatever we can.
while (fr < fl) {
var swallowee = file[fr]
this.debug('\nglobstar while', file, fr, pattern, pr, swallowee)
// XXX remove this slice. Just pass the start index.
if (this.matchOne(file.slice(fr), pattern.slice(pr), partial)) {
this.debug('globstar found match!', fr, fl, swallowee)
// found a match.
return true
} else {
// can't swallow "." or ".." ever.
// can only swallow ".foo" when explicitly asked.
if (swallowee === '.' || swallowee === '..' ||
(!options.dot && swallowee.charAt(0) === '.')) {
this.debug('dot detected!', file, fr, pattern, pr)
break
}
// ** swallows a segment, and continue.
this.debug('globstar swallow a segment, and continue')
fr++
}
}
// no match was found.
// However, in partial mode, we can't say this is necessarily over.
// If there's more *pattern* left, then
if (partial) {
// ran out of file
this.debug('\n>>> no match, partial?', file, fr, pattern, pr)
if (fr === fl) return true
}
return false
}
// something other than **
// non-magic patterns just have to match exactly
// patterns with magic have been turned into regexps.
var hit
if (typeof p === 'string') {
if (options.nocase) {
hit = f.toLowerCase() === p.toLowerCase()
} else {
hit = f === p
}
this.debug('string match', p, f, hit)
} else {
hit = f.match(p)
this.debug('pattern match', p, f, hit)
}
if (!hit) return false
}
// Note: ending in / means that we'll get a final ""
// at the end of the pattern. This can only match a
// corresponding "" at the end of the file.
// If the file ends in /, then it can only match a
// a pattern that ends in /, unless the pattern just
// doesn't have any more for it. But, a/b/ should *not*
// match "a/b/*", even though "" matches against the
// [^/]*? pattern, except in partial mode, where it might
// simply not be reached yet.
// However, a/b/ should still satisfy a/*
// now either we fell off the end of the pattern, or we're done.
if (fi === fl && pi === pl) {
// ran out of pattern and filename at the same time.
// an exact hit!
return true
} else if (fi === fl) {
// ran out of file, but still had pattern left.
// this is ok if we're doing the match as part of
// a glob fs traversal.
return partial
} else if (pi === pl) {
// ran out of pattern, still have file left.
// this is only acceptable if we're on the very last
// empty segment of a file with a trailing slash.
// a/* should match a/b/
var emptyFileEnd = (fi === fl - 1) && (file[fi] === '')
return emptyFileEnd
}
// should be unreachable.
throw new Error('wtf?')
}
// replace stuff like \* with *
function globUnescape (s) {
return s.replace(/\\(.)/g, '$1')
}
function regExpEscape (s) {
return s.replace(/[-[\]{}()*+?.,\\^$|#\s]/g, '\\$&')
}
/***/ }),
/***/ 129:
/***/ (function(module) {
module.exports = require("child_process");
/***/ }),
/***/ 139:
/***/ (function(module, __unusedexports, __webpack_require__) {
// Unique ID creation requires a high quality random # generator. In node.js
// this is pretty straight-forward - we use the crypto API.
var crypto = __webpack_require__(417);
module.exports = function nodeRNG() {
return crypto.randomBytes(16);
};
/***/ }),
/***/ 141:
/***/ (function(__unusedmodule, exports, __webpack_require__) {
"use strict";
var net = __webpack_require__(631);
var tls = __webpack_require__(16);
var http = __webpack_require__(605);
var https = __webpack_require__(211);
var events = __webpack_require__(614);
var assert = __webpack_require__(357);
var util = __webpack_require__(669);
exports.httpOverHttp = httpOverHttp;
exports.httpsOverHttp = httpsOverHttp;
exports.httpOverHttps = httpOverHttps;
exports.httpsOverHttps = httpsOverHttps;
function httpOverHttp(options) {
var agent = new TunnelingAgent(options);
agent.request = http.request;
return agent;
}
function httpsOverHttp(options) {
var agent = new TunnelingAgent(options);
agent.request = http.request;
agent.createSocket = createSecureSocket;
agent.defaultPort = 443;
return agent;
}
function httpOverHttps(options) {
var agent = new TunnelingAgent(options);
agent.request = https.request;
return agent;
}
function httpsOverHttps(options) {
var agent = new TunnelingAgent(options);
agent.request = https.request;
agent.createSocket = createSecureSocket;
agent.defaultPort = 443;
return agent;
}
function TunnelingAgent(options) {
var self = this;
self.options = options || {};
self.proxyOptions = self.options.proxy || {};
self.maxSockets = self.options.maxSockets || http.Agent.defaultMaxSockets;
self.requests = [];
self.sockets = [];
self.on('free', function onFree(socket, host, port, localAddress) {
var options = toOptions(host, port, localAddress);
for (var i = 0, len = self.requests.length; i < len; ++i) {
var pending = self.requests[i];
if (pending.host === options.host && pending.port === options.port) {
// Detect the request to connect same origin server,
// reuse the connection.
self.requests.splice(i, 1);
pending.request.onSocket(socket);
return;
}
}
socket.destroy();
self.removeSocket(socket);
});
}
util.inherits(TunnelingAgent, events.EventEmitter);
TunnelingAgent.prototype.addRequest = function addRequest(req, host, port, localAddress) {
var self = this;
var options = mergeOptions({request: req}, self.options, toOptions(host, port, localAddress));
if (self.sockets.length >= this.maxSockets) {
// We are over limit so we'll add it to the queue.
self.requests.push(options);
return;
}
// If we are under maxSockets create a new one.
self.createSocket(options, function(socket) {
socket.on('free', onFree);
socket.on('close', onCloseOrRemove);
socket.on('agentRemove', onCloseOrRemove);
req.onSocket(socket);
function onFree() {
self.emit('free', socket, options);
}
function onCloseOrRemove(err) {
self.removeSocket(socket);
socket.removeListener('free', onFree);
socket.removeListener('close', onCloseOrRemove);
socket.removeListener('agentRemove', onCloseOrRemove);
}
});
};
TunnelingAgent.prototype.createSocket = function createSocket(options, cb) {
var self = this;
var placeholder = {};
self.sockets.push(placeholder);
var connectOptions = mergeOptions({}, self.proxyOptions, {
method: 'CONNECT',
path: options.host + ':' + options.port,
agent: false,
headers: {
host: options.host + ':' + options.port
}
});
if (options.localAddress) {
connectOptions.localAddress = options.localAddress;
}
if (connectOptions.proxyAuth) {
connectOptions.headers = connectOptions.headers || {};
connectOptions.headers['Proxy-Authorization'] = 'Basic ' +
new Buffer(connectOptions.proxyAuth).toString('base64');
}
debug('making CONNECT request');
var connectReq = self.request(connectOptions);
connectReq.useChunkedEncodingByDefault = false; // for v0.6
connectReq.once('response', onResponse); // for v0.6
connectReq.once('upgrade', onUpgrade); // for v0.6
connectReq.once('connect', onConnect); // for v0.7 or later
connectReq.once('error', onError);
connectReq.end();
function onResponse(res) {
// Very hacky. This is necessary to avoid http-parser leaks.
res.upgrade = true;
}
function onUpgrade(res, socket, head) {
// Hacky.
process.nextTick(function() {
onConnect(res, socket, head);
});
}
function onConnect(res, socket, head) {
connectReq.removeAllListeners();
socket.removeAllListeners();
if (res.statusCode !== 200) {
debug('tunneling socket could not be established, statusCode=%d',
res.statusCode);
socket.destroy();
var error = new Error('tunneling socket could not be established, ' +
'statusCode=' + res.statusCode);
error.code = 'ECONNRESET';
options.request.emit('error', error);
self.removeSocket(placeholder);
return;
}
if (head.length > 0) {
debug('got illegal response body from proxy');
socket.destroy();
var error = new Error('got illegal response body from proxy');
error.code = 'ECONNRESET';
options.request.emit('error', error);
self.removeSocket(placeholder);
return;
}
debug('tunneling connection has established');
self.sockets[self.sockets.indexOf(placeholder)] = socket;
return cb(socket);
}
function onError(cause) {
connectReq.removeAllListeners();
debug('tunneling socket could not be established, cause=%s\n',
cause.message, cause.stack);
var error = new Error('tunneling socket could not be established, ' +
'cause=' + cause.message);
error.code = 'ECONNRESET';
options.request.emit('error', error);
self.removeSocket(placeholder);
}
};
TunnelingAgent.prototype.removeSocket = function removeSocket(socket) {
var pos = this.sockets.indexOf(socket)
if (pos === -1) {
return;
}
this.sockets.splice(pos, 1);
var pending = this.requests.shift();
if (pending) {
// If we have pending requests and a socket gets closed a new one
// needs to be created to take over in the pool for the one that closed.
this.createSocket(pending, function(socket) {
pending.request.onSocket(socket);
});
}
};
function createSecureSocket(options, cb) {
var self = this;
TunnelingAgent.prototype.createSocket.call(self, options, function(socket) {
var hostHeader = options.request.getHeader('host');
var tlsOptions = mergeOptions({}, self.options, {
socket: socket,
servername: hostHeader ? hostHeader.replace(/:.*$/, '') : options.host
});
// 0 is dummy port for v0.6
var secureSocket = tls.connect(0, tlsOptions);
self.sockets[self.sockets.indexOf(socket)] = secureSocket;
cb(secureSocket);
});
}
function toOptions(host, port, localAddress) {
if (typeof host === 'string') { // since v0.10
return {
host: host,
port: port,
localAddress: localAddress
};
}
return host; // for v0.11 or later
}
function mergeOptions(target) {
for (var i = 1, len = arguments.length; i < len; ++i) {
var overrides = arguments[i];
if (typeof overrides === 'object') {
var keys = Object.keys(overrides);
for (var j = 0, keyLen = keys.length; j < keyLen; ++j) {
var k = keys[j];
if (overrides[k] !== undefined) {
target[k] = overrides[k];
}
}
}
}
return target;
}
var debug;
if (process.env.NODE_DEBUG && /\btunnel\b/.test(process.env.NODE_DEBUG)) {
debug = function() {
var args = Array.prototype.slice.call(arguments);
if (typeof args[0] === 'string') {
args[0] = 'TUNNEL: ' + args[0];
} else {
args.unshift('TUNNEL:');
}
console.error.apply(console, args);
}
} else {
debug = function() {};
}
exports.debug = debug; // for test
/***/ }),
/***/ 154:
/***/ (function(__unusedmodule, exports, __webpack_require__) {
"use strict";
var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) {
function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); }
return new (P || (P = Promise))(function (resolve, reject) {
function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } }
function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } }
function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); }
step((generator = generator.apply(thisArg, _arguments || [])).next());
});
};
var __importStar = (this && this.__importStar) || function (mod) {
if (mod && mod.__esModule) return mod;
var result = {};
if (mod != null) for (var k in mod) if (Object.hasOwnProperty.call(mod, k)) result[k] = mod[k];
result["default"] = mod;
return result;
};
Object.defineProperty(exports, "__esModule", { value: true });
const core = __importStar(__webpack_require__(470));
const http_client_1 = __webpack_require__(539);
const auth_1 = __webpack_require__(226);
const crypto = __importStar(__webpack_require__(417));
const fs = __importStar(__webpack_require__(747));
const stream = __importStar(__webpack_require__(794));
const util = __importStar(__webpack_require__(669));
const constants_1 = __webpack_require__(694);
const utils = __importStar(__webpack_require__(443));
const versionSalt = "1.0";
function isSuccessStatusCode(statusCode) {
if (!statusCode) {
return false;
}
return statusCode >= 200 && statusCode < 300;
}
function isServerErrorStatusCode(statusCode) {
if (!statusCode) {
return true;
}
return statusCode >= 500;
}
function isRetryableStatusCode(statusCode) {
if (!statusCode) {
return false;
}
const retryableStatusCodes = [
http_client_1.HttpCodes.BadGateway,
http_client_1.HttpCodes.ServiceUnavailable,
http_client_1.HttpCodes.GatewayTimeout
];
return retryableStatusCodes.includes(statusCode);
}
function getCacheApiUrl(resource) {
// Ideally we just use ACTIONS_CACHE_URL
const baseUrl = (process.env["ACTIONS_CACHE_URL"] ||
process.env["ACTIONS_RUNTIME_URL"] ||
"").replace("pipelines", "artifactcache");
if (!baseUrl) {
throw new Error("Cache Service Url not found, unable to restore cache.");
}
const url = `${baseUrl}_apis/artifactcache/${resource}`;
core.debug(`Resource Url: ${url}`);
return url;
}
function createAcceptHeader(type, apiVersion) {
return `${type};api-version=${apiVersion}`;
}
function getRequestOptions() {
const requestOptions = {
headers: {
Accept: createAcceptHeader("application/json", "6.0-preview.1")
}
};
return requestOptions;
}
function createHttpClient() {
const token = process.env["ACTIONS_RUNTIME_TOKEN"] || "";
const bearerCredentialHandler = new auth_1.BearerCredentialHandler(token);
return new http_client_1.HttpClient("actions/cache", [bearerCredentialHandler], getRequestOptions());
}
function getCacheVersion(compressionMethod) {
const components = [core.getInput(constants_1.Inputs.Path, { required: true })].concat(compressionMethod == constants_1.CompressionMethod.Zstd ? [compressionMethod] : []);
// Add salt to cache version to support breaking changes in cache entry
components.push(versionSalt);
return crypto
.createHash("sha256")
.update(components.join("|"))
.digest("hex");
}
exports.getCacheVersion = getCacheVersion;
function retry(name, method, getStatusCode, maxAttempts = 2) {
return __awaiter(this, void 0, void 0, function* () {
let response = undefined;
let statusCode = undefined;
let isRetryable = false;
let errorMessage = "";
let attempt = 1;
while (attempt <= maxAttempts) {
try {
response = yield method();
statusCode = getStatusCode(response);
if (!isServerErrorStatusCode(statusCode)) {
return response;
}
isRetryable = isRetryableStatusCode(statusCode);
errorMessage = `Cache service responded with ${statusCode}`;
}
catch (error) {
isRetryable = true;
errorMessage = error.message;
}
core.debug(`${name} - Attempt ${attempt} of ${maxAttempts} failed with error: ${errorMessage}`);
if (!isRetryable) {
core.debug(`${name} - Error is not retryable`);
break;
}
attempt++;
}
throw Error(`${name} failed: ${errorMessage}`);
});
}
exports.retry = retry;
function retryTypedResponse(name, method, maxAttempts = 2) {
return __awaiter(this, void 0, void 0, function* () {
return yield retry(name, method, (response) => response.statusCode, maxAttempts);
});
}
exports.retryTypedResponse = retryTypedResponse;
function retryHttpClientResponse(name, method, maxAttempts = 2) {
return __awaiter(this, void 0, void 0, function* () {
return yield retry(name, method, (response) => response.message.statusCode, maxAttempts);
});
}
exports.retryHttpClientResponse = retryHttpClientResponse;
function getCacheEntry(keys, options) {
var _a, _b;
return __awaiter(this, void 0, void 0, function* () {
const httpClient = createHttpClient();
const version = getCacheVersion((_a = options) === null || _a === void 0 ? void 0 : _a.compressionMethod);
const resource = `cache?keys=${encodeURIComponent(keys.join(","))}&version=${version}`;
const response = yield retryTypedResponse("getCacheEntry", () => httpClient.getJson(getCacheApiUrl(resource)));
if (response.statusCode === 204) {
return null;
}
const cacheResult = response.result;
const cacheDownloadUrl = (_b = cacheResult) === null || _b === void 0 ? void 0 : _b.archiveLocation;
if (!cacheDownloadUrl) {
throw new Error("Cache not found.");
}
core.setSecret(cacheDownloadUrl);
core.debug(`Cache Result:`);
core.debug(JSON.stringify(cacheResult));
return cacheResult;
});
}
exports.getCacheEntry = getCacheEntry;
function pipeResponseToStream(response, output) {
return __awaiter(this, void 0, void 0, function* () {
const pipeline = util.promisify(stream.pipeline);
yield pipeline(response.message, output);
});
}
function downloadCache(archiveLocation, archivePath) {
return __awaiter(this, void 0, void 0, function* () {
const stream = fs.createWriteStream(archivePath);
const httpClient = new http_client_1.HttpClient("actions/cache");
const downloadResponse = yield retryHttpClientResponse("downloadCache", () => httpClient.get(archiveLocation));
// Abort download if no traffic received over the socket.
downloadResponse.message.socket.setTimeout(constants_1.SocketTimeout, () => {
downloadResponse.message.destroy();
core.debug(`Aborting download, socket timed out after ${constants_1.SocketTimeout} ms`);
});
yield pipeResponseToStream(downloadResponse, stream);
// Validate download size.
const contentLengthHeader = downloadResponse.message.headers["content-length"];
if (contentLengthHeader) {
const expectedLength = parseInt(contentLengthHeader);
const actualLength = utils.getArchiveFileSize(archivePath);
if (actualLength != expectedLength) {
throw new Error(`Incomplete download. Expected file size: ${expectedLength}, actual file size: ${actualLength}`);
}
}
else {
core.debug("Unable to validate download, no Content-Length header");
}
});
}
exports.downloadCache = downloadCache;
// Reserve Cache
function reserveCache(key, options) {
var _a, _b, _c, _d;
return __awaiter(this, void 0, void 0, function* () {
const httpClient = createHttpClient();
const version = getCacheVersion((_a = options) === null || _a === void 0 ? void 0 : _a.compressionMethod);
const reserveCacheRequest = {
key,
version
};
const response = yield retryTypedResponse("reserveCache", () => httpClient.postJson(getCacheApiUrl("caches"), reserveCacheRequest));
return _d = (_c = (_b = response) === null || _b === void 0 ? void 0 : _b.result) === null || _c === void 0 ? void 0 : _c.cacheId, (_d !== null && _d !== void 0 ? _d : -1);
});
}
exports.reserveCache = reserveCache;
function getContentRange(start, end) {
// Format: `bytes start-end/filesize
// start and end are inclusive
// filesize can be *
// For a 200 byte chunk starting at byte 0:
// Content-Range: bytes 0-199/*
return `bytes ${start}-${end}/*`;
}
function uploadChunk(httpClient, resourceUrl, openStream, start, end) {
return __awaiter(this, void 0, void 0, function* () {
core.debug(`Uploading chunk of size ${end -
start +
1} bytes at offset ${start} with content range: ${getContentRange(start, end)}`);
const additionalHeaders = {
"Content-Type": "application/octet-stream",
"Content-Range": getContentRange(start, end)
};
const uploadChunkRequest = () => __awaiter(this, void 0, void 0, function* () {
return yield httpClient.sendStream("PATCH", resourceUrl, openStream(), additionalHeaders);
});
yield retryHttpClientResponse(`uploadChunk (start: ${start}, end: ${end})`, uploadChunkRequest);
});
}
function parseEnvNumber(key) {
const value = Number(process.env[key]);
if (Number.isNaN(value) || value < 0) {
return undefined;
}
return value;
}
function uploadFile(httpClient, cacheId, archivePath) {
var _a, _b;
return __awaiter(this, void 0, void 0, function* () {
// Upload Chunks
const fileSize = fs.statSync(archivePath).size;
const resourceUrl = getCacheApiUrl(`caches/${cacheId.toString()}`);
const fd = fs.openSync(archivePath, "r");
const concurrency = (_a = parseEnvNumber("CACHE_UPLOAD_CONCURRENCY"), (_a !== null && _a !== void 0 ? _a : 4)); // # of HTTP requests in parallel
const MAX_CHUNK_SIZE = (_b = parseEnvNumber("CACHE_UPLOAD_CHUNK_SIZE"), (_b !== null && _b !== void 0 ? _b : 32 * 1024 * 1024)); // 32 MB Chunks
core.debug(`Concurrency: ${concurrency} and Chunk Size: ${MAX_CHUNK_SIZE}`);
const parallelUploads = [...new Array(concurrency).keys()];
core.debug("Awaiting all uploads");
let offset = 0;
try {
yield Promise.all(parallelUploads.map(() => __awaiter(this, void 0, void 0, function* () {
while (offset < fileSize) {
const chunkSize = Math.min(fileSize - offset, MAX_CHUNK_SIZE);
const start = offset;
const end = offset + chunkSize - 1;
offset += MAX_CHUNK_SIZE;
yield uploadChunk(httpClient, resourceUrl, () => fs.createReadStream(archivePath, {
fd,
start,
end,
autoClose: false
}), start, end);
}
})));
}
finally {
fs.closeSync(fd);
}
return;
});
}
function commitCache(httpClient, cacheId, filesize) {
return __awaiter(this, void 0, void 0, function* () {
const commitCacheRequest = { size: filesize };
return yield retryTypedResponse("commitCache", () => httpClient.postJson(getCacheApiUrl(`caches/${cacheId.toString()}`), commitCacheRequest));
});
}
function saveCache(cacheId, archivePath) {
return __awaiter(this, void 0, void 0, function* () {
const httpClient = createHttpClient();
core.debug("Upload cache");
yield uploadFile(httpClient, cacheId, archivePath);
// Commit Cache
core.debug("Commiting cache");
const cacheSize = utils.getArchiveFileSize(archivePath);
const commitCacheResponse = yield commitCache(httpClient, cacheId, cacheSize);
if (!isSuccessStatusCode(commitCacheResponse.statusCode)) {
throw new Error(`Cache service responded with ${commitCacheResponse.statusCode} during commit cache.`);
}
core.info("Cache saved successfully");
});
}
exports.saveCache = saveCache;
/***/ }),
/***/ 211:
/***/ (function(module) {
module.exports = require("https");
/***/ }),
/***/ 226:
/***/ (function(__unusedmodule, exports) {
"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
class BasicCredentialHandler {
constructor(username, password) {
this.username = username;
this.password = password;
}
prepareRequest(options) {
options.headers['Authorization'] =
'Basic ' +
Buffer.from(this.username + ':' + this.password).toString('base64');
}
// This handler cannot handle 401
canHandleAuthentication(response) {
return false;
}
handleAuthentication(httpClient, requestInfo, objs) {
return null;
}
}
exports.BasicCredentialHandler = BasicCredentialHandler;
class BearerCredentialHandler {
constructor(token) {
this.token = token;
}
// currently implements pre-authorization
// TODO: support preAuth = false where it hooks on 401
prepareRequest(options) {
options.headers['Authorization'] = 'Bearer ' + this.token;
}
// This handler cannot handle 401
canHandleAuthentication(response) {
return false;
}
handleAuthentication(httpClient, requestInfo, objs) {
return null;
}
}
exports.BearerCredentialHandler = BearerCredentialHandler;
class PersonalAccessTokenCredentialHandler {
constructor(token) {
this.token = token;
}
// currently implements pre-authorization
// TODO: support preAuth = false where it hooks on 401
prepareRequest(options) {
options.headers['Authorization'] =
'Basic ' + Buffer.from('PAT:' + this.token).toString('base64');
}
// This handler cannot handle 401
canHandleAuthentication(response) {
return false;
}
handleAuthentication(httpClient, requestInfo, objs) {
return null;
}
}
exports.PersonalAccessTokenCredentialHandler = PersonalAccessTokenCredentialHandler;
/***/ }),
/***/ 281:
/***/ (function(__unusedmodule, exports, __webpack_require__) {
"use strict";
var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) {
function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); }
return new (P || (P = Promise))(function (resolve, reject) {
function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } }
function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } }
function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); }
step((generator = generator.apply(thisArg, _arguments || [])).next());
});
};
Object.defineProperty(exports, "__esModule", { value: true });
const internal_globber_1 = __webpack_require__(297);
/**
* Constructs a globber
*
* @param patterns Patterns separated by newlines
* @param options Glob options
*/
function create(patterns, options) {
return __awaiter(this, void 0, void 0, function* () {
return yield internal_globber_1.DefaultGlobber.create(patterns, options);
});
}
exports.create = create;
//# sourceMappingURL=glob.js.map
/***/ }),
/***/ 297:
/***/ (function(__unusedmodule, exports, __webpack_require__) {
"use strict";
var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) {
function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); }
return new (P || (P = Promise))(function (resolve, reject) {
function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } }
function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } }
function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); }
step((generator = generator.apply(thisArg, _arguments || [])).next());
});
};
var __asyncValues = (this && this.__asyncValues) || function (o) {
if (!Symbol.asyncIterator) throw new TypeError("Symbol.asyncIterator is not defined.");
var m = o[Symbol.asyncIterator], i;
return m ? m.call(o) : (o = typeof __values === "function" ? __values(o) : o[Symbol.iterator](), i = {}, verb("next"), verb("throw"), verb("return"), i[Symbol.asyncIterator] = function () { return this; }, i);
function verb(n) { i[n] = o[n] && function (v) { return new Promise(function (resolve, reject) { v = o[n](v), settle(resolve, reject, v.done, v.value); }); }; }
function settle(resolve, reject, d, v) { Promise.resolve(v).then(function(v) { resolve({ value: v, done: d }); }, reject); }
};
var __await = (this && this.__await) || function (v) { return this instanceof __await ? (this.v = v, this) : new __await(v); }
var __asyncGenerator = (this && this.__asyncGenerator) || function (thisArg, _arguments, generator) {
if (!Symbol.asyncIterator) throw new TypeError("Symbol.asyncIterator is not defined.");
var g = generator.apply(thisArg, _arguments || []), i, q = [];
return i = {}, verb("next"), verb("throw"), verb("return"), i[Symbol.asyncIterator] = function () { return this; }, i;
function verb(n) { if (g[n]) i[n] = function (v) { return new Promise(function (a, b) { q.push([n, v, a, b]) > 1 || resume(n, v); }); }; }
function resume(n, v) { try { step(g[n](v)); } catch (e) { settle(q[0][3], e); } }
function step(r) { r.value instanceof __await ? Promise.resolve(r.value.v).then(fulfill, reject) : settle(q[0][2], r); }
function fulfill(value) { resume("next", value); }
function reject(value) { resume("throw", value); }
function settle(f, v) { if (f(v), q.shift(), q.length) resume(q[0][0], q[0][1]); }
};
Object.defineProperty(exports, "__esModule", { value: true });
const core = __webpack_require__(470);
const fs = __webpack_require__(747);
const globOptionsHelper = __webpack_require__(601);
const path = __webpack_require__(622);
const patternHelper = __webpack_require__(597);
const internal_match_kind_1 = __webpack_require__(327);
const internal_pattern_1 = __webpack_require__(923);
const internal_search_state_1 = __webpack_require__(728);
const IS_WINDOWS = process.platform === 'win32';
class DefaultGlobber {
constructor(options) {
this.patterns = [];
this.searchPaths = [];
this.options = globOptionsHelper.getOptions(options);
}
getSearchPaths() {
// Return a copy
return this.searchPaths.slice();
}
glob() {
var e_1, _a;
return __awaiter(this, void 0, void 0, function* () {
const result = [];
try {
for (var _b = __asyncValues(this.globGenerator()), _c; _c = yield _b.next(), !_c.done;) {
const itemPath = _c.value;
result.push(itemPath);
}
}
catch (e_1_1) { e_1 = { error: e_1_1 }; }
finally {
try {
if (_c && !_c.done && (_a = _b.return)) yield _a.call(_b);
}
finally { if (e_1) throw e_1.error; }
}
return result;
});
}
globGenerator() {
return __asyncGenerator(this, arguments, function* globGenerator_1() {
// Fill in defaults options
const options = globOptionsHelper.getOptions(this.options);
// Implicit descendants?
const patterns = [];
for (const pattern of this.patterns) {
patterns.push(pattern);
if (options.implicitDescendants &&
(pattern.trailingSeparator ||
pattern.segments[pattern.segments.length - 1] !== '**')) {
patterns.push(new internal_pattern_1.Pattern(pattern.negate, pattern.segments.concat('**')));
}
}
// Push the search paths
const stack = [];
for (const searchPath of patternHelper.getSearchPaths(patterns)) {
core.debug(`Search path '${searchPath}'`);
// Exists?
try {
// Intentionally using lstat. Detection for broken symlink
// will be performed later (if following symlinks).
yield __await(fs.promises.lstat(searchPath));
}
catch (err) {
if (err.code === 'ENOENT') {
continue;
}
throw err;
}
stack.unshift(new internal_search_state_1.SearchState(searchPath, 1));
}
// Search
const traversalChain = []; // used to detect cycles
while (stack.length) {
// Pop
const item = stack.pop();
// Match?
const match = patternHelper.match(patterns, item.path);
const partialMatch = !!match || patternHelper.partialMatch(patterns, item.path);
if (!match && !partialMatch) {
continue;
}
// Stat
const stats = yield __await(DefaultGlobber.stat(item, options, traversalChain)
// Broken symlink, or symlink cycle detected, or no longer exists
);
// Broken symlink, or symlink cycle detected, or no longer exists
if (!stats) {
continue;
}
// Directory
if (stats.isDirectory()) {
// Matched
if (match & internal_match_kind_1.MatchKind.Directory) {
yield yield __await(item.path);
}
// Descend?
else if (!partialMatch) {
continue;
}
// Push the child items in reverse
const childLevel = item.level + 1;
const childItems = (yield __await(fs.promises.readdir(item.path))).map(x => new internal_search_state_1.SearchState(path.join(item.path, x), childLevel));
stack.push(...childItems.reverse());
}
// File
else if (match & internal_match_kind_1.MatchKind.File) {
yield yield __await(item.path);
}
}
});
}
/**
* Constructs a DefaultGlobber
*/
static create(patterns, options) {
return __awaiter(this, void 0, void 0, function* () {
const result = new DefaultGlobber(options);
if (IS_WINDOWS) {
patterns = patterns.replace(/\r\n/g, '\n');
patterns = patterns.replace(/\r/g, '\n');
}
const lines = patterns.split('\n').map(x => x.trim());
for (const line of lines) {
// Empty or comment
if (!line || line.startsWith('#')) {
continue;
}
// Pattern
else {
result.patterns.push(new internal_pattern_1.Pattern(line));
}
}
result.searchPaths.push(...patternHelper.getSearchPaths(result.patterns));
return result;
});
}
static stat(item, options, traversalChain) {
return __awaiter(this, void 0, void 0, function* () {
// Note:
// `stat` returns info about the target of a symlink (or symlink chain)
// `lstat` returns info about a symlink itself
let stats;
if (options.followSymbolicLinks) {
try {
// Use `stat` (following symlinks)
stats = yield fs.promises.stat(item.path);
}
catch (err) {
if (err.code === 'ENOENT') {
if (options.omitBrokenSymbolicLinks) {
core.debug(`Broken symlink '${item.path}'`);
return undefined;
}
throw new Error(`No information found for the path '${item.path}'. This may indicate a broken symbolic link.`);
}
throw err;
}
}
else {
// Use `lstat` (not following symlinks)
stats = yield fs.promises.lstat(item.path);
}
// Note, isDirectory() returns false for the lstat of a symlink
if (stats.isDirectory() && options.followSymbolicLinks) {
// Get the realpath
const realPath = yield fs.promises.realpath(item.path);
// Fixup the traversal chain to match the item level
while (traversalChain.length >= item.level) {
traversalChain.pop();
}
// Test for a cycle
if (traversalChain.some((x) => x === realPath)) {
core.debug(`Symlink cycle detected for path '${item.path}' and realpath '${realPath}'`);
return undefined;
}
// Update the traversal chain
traversalChain.push(realPath);
}
return stats;
});
}
}
exports.DefaultGlobber = DefaultGlobber;
//# sourceMappingURL=internal-globber.js.map
/***/ }),
/***/ 306:
/***/ (function(module, __unusedexports, __webpack_require__) {
var concatMap = __webpack_require__(896);
var balanced = __webpack_require__(621);
module.exports = expandTop;
var escSlash = '\0SLASH'+Math.random()+'\0';
var escOpen = '\0OPEN'+Math.random()+'\0';
var escClose = '\0CLOSE'+Math.random()+'\0';
var escComma = '\0COMMA'+Math.random()+'\0';
var escPeriod = '\0PERIOD'+Math.random()+'\0';
function numeric(str) {
return parseInt(str, 10) == str
? parseInt(str, 10)
: str.charCodeAt(0);
}
function escapeBraces(str) {
return str.split('\\\\').join(escSlash)
.split('\\{').join(escOpen)
.split('\\}').join(escClose)
.split('\\,').join(escComma)
.split('\\.').join(escPeriod);
}
function unescapeBraces(str) {
return str.split(escSlash).join('\\')
.split(escOpen).join('{')
.split(escClose).join('}')
.split(escComma).join(',')
.split(escPeriod).join('.');
}
// Basically just str.split(","), but handling cases
// where we have nested braced sections, which should be
// treated as individual members, like {a,{b,c},d}
function parseCommaParts(str) {
if (!str)
return [''];
var parts = [];
var m = balanced('{', '}', str);
if (!m)
return str.split(',');
var pre = m.pre;
var body = m.body;
var post = m.post;
var p = pre.split(',');
p[p.length-1] += '{' + body + '}';
var postParts = parseCommaParts(post);
if (post.length) {
p[p.length-1] += postParts.shift();
p.push.apply(p, postParts);
}
parts.push.apply(parts, p);
return parts;
}
function expandTop(str) {
if (!str)
return [];
// I don't know why Bash 4.3 does this, but it does.
// Anything starting with {} will have the first two bytes preserved
// but *only* at the top level, so {},a}b will not expand to anything,
// but a{},b}c will be expanded to [a}c,abc].
// One could argue that this is a bug in Bash, but since the goal of
// this module is to match Bash's rules, we escape a leading {}
if (str.substr(0, 2) === '{}') {
str = '\\{\\}' + str.substr(2);
}
return expand(escapeBraces(str), true).map(unescapeBraces);
}
function identity(e) {
return e;
}
function embrace(str) {
return '{' + str + '}';
}
function isPadded(el) {
return /^-?0\d/.test(el);
}
function lte(i, y) {
return i <= y;
}
function gte(i, y) {
return i >= y;
}
function expand(str, isTop) {
var expansions = [];
var m = balanced('{', '}', str);
if (!m || /\$$/.test(m.pre)) return [str];
var isNumericSequence = /^-?\d+\.\.-?\d+(?:\.\.-?\d+)?$/.test(m.body);
var isAlphaSequence = /^[a-zA-Z]\.\.[a-zA-Z](?:\.\.-?\d+)?$/.test(m.body);
var isSequence = isNumericSequence || isAlphaSequence;
var isOptions = m.body.indexOf(',') >= 0;
if (!isSequence && !isOptions) {
// {a},b}
if (m.post.match(/,.*\}/)) {
str = m.pre + '{' + m.body + escClose + m.post;
return expand(str);
}
return [str];
}
var n;
if (isSequence) {
n = m.body.split(/\.\./);
} else {
n = parseCommaParts(m.body);
if (n.length === 1) {
// x{{a,b}}y ==> x{a}y x{b}y
n = expand(n[0], false).map(embrace);
if (n.length === 1) {
var post = m.post.length
? expand(m.post, false)
: [''];
return post.map(function(p) {
return m.pre + n[0] + p;
});
}
}
}
// at this point, n is the parts, and we know it's not a comma set
// with a single entry.
// no need to expand pre, since it is guaranteed to be free of brace-sets
var pre = m.pre;
var post = m.post.length
? expand(m.post, false)
: [''];
var N;
if (isSequence) {
var x = numeric(n[0]);
var y = numeric(n[1]);
var width = Math.max(n[0].length, n[1].length)
var incr = n.length == 3
? Math.abs(numeric(n[2]))
: 1;
var test = lte;
var reverse = y < x;
if (reverse) {
incr *= -1;
test = gte;
}
var pad = n.some(isPadded);
N = [];
for (var i = x; test(i, y); i += incr) {
var c;
if (isAlphaSequence) {
c = String.fromCharCode(i);
if (c === '\\')
c = '';
} else {
c = String(i);
if (pad) {
var need = width - c.length;
if (need > 0) {
var z = new Array(need + 1).join('0');
if (i < 0)
c = '-' + z + c.slice(1);
else
c = z + c;
}
}
}
N.push(c);
}
} else {
N = concatMap(n, function(el) { return expand(el, false) });
}
for (var j = 0; j < N.length; j++) {
for (var k = 0; k < post.length; k++) {
var expansion = pre + N[j] + post[k];
if (!isTop || isSequence || expansion)
expansions.push(expansion);
}
}
return expansions;
}
/***/ }),
/***/ 327:
/***/ (function(__unusedmodule, exports) {
"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
/**
* Indicates whether a pattern matches a path
*/
var MatchKind;
(function (MatchKind) {
/** Not matched */
MatchKind[MatchKind["None"] = 0] = "None";
/** Matched if the path is a directory */
MatchKind[MatchKind["Directory"] = 1] = "Directory";
/** Matched if the path is a regular file */
MatchKind[MatchKind["File"] = 2] = "File";
/** Matched */
MatchKind[MatchKind["All"] = 3] = "All";
})(MatchKind = exports.MatchKind || (exports.MatchKind = {}));
//# sourceMappingURL=internal-match-kind.js.map
/***/ }),
/***/ 357:
/***/ (function(module) {
module.exports = require("assert");
/***/ }),
/***/ 383:
/***/ (function(__unusedmodule, exports, __webpack_require__) {
"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
const assert = __webpack_require__(357);
const path = __webpack_require__(622);
const pathHelper = __webpack_require__(972);
const IS_WINDOWS = process.platform === 'win32';
/**
* Helper class for parsing paths into segments
*/
class Path {
/**
* Constructs a Path
* @param itemPath Path or array of segments
*/
constructor(itemPath) {
this.segments = [];
// String
if (typeof itemPath === 'string') {
assert(itemPath, `Parameter 'itemPath' must not be empty`);
// Normalize slashes and trim unnecessary trailing slash
itemPath = pathHelper.safeTrimTrailingSeparator(itemPath);
// Not rooted
if (!pathHelper.hasRoot(itemPath)) {
this.segments = itemPath.split(path.sep);
}
// Rooted
else {
// Add all segments, while not at the root
let remaining = itemPath;
let dir = pathHelper.dirname(remaining);
while (dir !== remaining) {
// Add the segment
const basename = path.basename(remaining);
this.segments.unshift(basename);
// Truncate the last segment
remaining = dir;
dir = pathHelper.dirname(remaining);
}
// Remainder is the root
this.segments.unshift(remaining);
}
}
// Array
else {
// Must not be empty
assert(itemPath.length > 0, `Parameter 'itemPath' must not be an empty array`);
// Each segment
for (let i = 0; i < itemPath.length; i++) {
let segment = itemPath[i];
// Must not be empty
assert(segment, `Parameter 'itemPath' must not contain any empty segments`);
// Normalize slashes
segment = pathHelper.normalizeSeparators(itemPath[i]);
// Root segment
if (i === 0 && pathHelper.hasRoot(segment)) {
segment = pathHelper.safeTrimTrailingSeparator(segment);
assert(segment === pathHelper.dirname(segment), `Parameter 'itemPath' root segment contains information for multiple segments`);
this.segments.push(segment);
}
// All other segments
else {
// Must not contain slash
assert(!segment.includes(path.sep), `Parameter 'itemPath' contains unexpected path separators`);
this.segments.push(segment);
}
}
}
}
/**
* Converts the path to it's string representation
*/
toString() {
// First segment
let result = this.segments[0];
// All others
let skipSlash = result.endsWith(path.sep) || (IS_WINDOWS && /^[A-Z]:$/i.test(result));
for (let i = 1; i < this.segments.length; i++) {
if (skipSlash) {
skipSlash = false;
}
else {
result += path.sep;
}
result += this.segments[i];
}
return result;
}
}
exports.Path = Path;
//# sourceMappingURL=internal-path.js.map
/***/ }),
/***/ 413:
/***/ (function(module, __unusedexports, __webpack_require__) {
module.exports = __webpack_require__(141);
/***/ }),
/***/ 417:
/***/ (function(module) {
module.exports = require("crypto");
/***/ }),
/***/ 431:
/***/ (function(__unusedmodule, exports, __webpack_require__) {
"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
const os = __webpack_require__(87);
/**
* Commands
*
* Command Format:
* ##[name key=value;key=value]message
*
* Examples:
* ##[warning]This is the user warning message
* ##[set-secret name=mypassword]definitelyNotAPassword!
*/
function issueCommand(command, properties, message) {
const cmd = new Command(command, properties, message);
process.stdout.write(cmd.toString() + os.EOL);
}
exports.issueCommand = issueCommand;
function issue(name, message = '') {
issueCommand(name, {}, message);
}
exports.issue = issue;
const CMD_STRING = '::';
class Command {
constructor(command, properties, message) {
if (!command) {
command = 'missing.command';
}
this.command = command;
this.properties = properties;
this.message = message;
}
toString() {
let cmdStr = CMD_STRING + this.command;
if (this.properties && Object.keys(this.properties).length > 0) {
cmdStr += ' ';
for (const key in this.properties) {
if (this.properties.hasOwnProperty(key)) {
const val = this.properties[key];
if (val) {
// safely append the val - avoid blowing up when attempting to
// call .replace() if message is not a string for some reason
cmdStr += `${key}=${escape(`${val || ''}`)},`;
}
}
}
}
cmdStr += CMD_STRING;
// safely append the message - avoid blowing up when attempting to
// call .replace() if message is not a string for some reason
const message = `${this.message || ''}`;
cmdStr += escapeData(message);
return cmdStr;
}
}
function escapeData(s) {
return s.replace(/\r/g, '%0D').replace(/\n/g, '%0A');
}
function escape(s) {
return s
.replace(/\r/g, '%0D')
.replace(/\n/g, '%0A')
.replace(/]/g, '%5D')
.replace(/;/g, '%3B');
}
//# sourceMappingURL=command.js.map
/***/ }),
/***/ 443:
/***/ (function(__unusedmodule, exports, __webpack_require__) {
"use strict";
var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) {
function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); }
return new (P || (P = Promise))(function (resolve, reject) {
function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } }
function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } }
function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); }
step((generator = generator.apply(thisArg, _arguments || [])).next());
});
};
var __asyncValues = (this && this.__asyncValues) || function (o) {
if (!Symbol.asyncIterator) throw new TypeError("Symbol.asyncIterator is not defined.");
var m = o[Symbol.asyncIterator], i;
return m ? m.call(o) : (o = typeof __values === "function" ? __values(o) : o[Symbol.iterator](), i = {}, verb("next"), verb("throw"), verb("return"), i[Symbol.asyncIterator] = function () { return this; }, i);
function verb(n) { i[n] = o[n] && function (v) { return new Promise(function (resolve, reject) { v = o[n](v), settle(resolve, reject, v.done, v.value); }); }; }
function settle(resolve, reject, d, v) { Promise.resolve(v).then(function(v) { resolve({ value: v, done: d }); }, reject); }
};
var __importStar = (this && this.__importStar) || function (mod) {
if (mod && mod.__esModule) return mod;
var result = {};
if (mod != null) for (var k in mod) if (Object.hasOwnProperty.call(mod, k)) result[k] = mod[k];
result["default"] = mod;
return result;
};
Object.defineProperty(exports, "__esModule", { value: true });
const core = __importStar(__webpack_require__(470));
const exec = __importStar(__webpack_require__(986));
const glob = __importStar(__webpack_require__(281));
const io = __importStar(__webpack_require__(1));
const fs = __importStar(__webpack_require__(747));
const os = __importStar(__webpack_require__(87));
const path = __importStar(__webpack_require__(622));
const util = __importStar(__webpack_require__(669));
const uuidV4 = __importStar(__webpack_require__(826));
const constants_1 = __webpack_require__(694);
// From https://github.com/actions/toolkit/blob/master/packages/tool-cache/src/tool-cache.ts#L23
function createTempDirectory() {
return __awaiter(this, void 0, void 0, function* () {
const IS_WINDOWS = process.platform === "win32";
let tempDirectory = process.env["RUNNER_TEMP"] || "";
if (!tempDirectory) {
let baseLocation;
if (IS_WINDOWS) {
// On Windows use the USERPROFILE env variable
baseLocation = process.env["USERPROFILE"] || "C:\\";
}
else {
if (process.platform === "darwin") {
baseLocation = "/Users";
}
else {
baseLocation = "/home";
}
}
tempDirectory = path.join(baseLocation, "actions", "temp");
}
const dest = path.join(tempDirectory, uuidV4.default());
yield io.mkdirP(dest);
return dest;
});
}
exports.createTempDirectory = createTempDirectory;
function getArchiveFileSize(path) {
return fs.statSync(path).size;
}
exports.getArchiveFileSize = getArchiveFileSize;
function isExactKeyMatch(key, cacheResult) {
return !!(cacheResult &&
cacheResult.cacheKey &&
cacheResult.cacheKey.localeCompare(key, undefined, {
sensitivity: "accent"
}) === 0);
}
exports.isExactKeyMatch = isExactKeyMatch;
function setCacheState(state) {
core.saveState(constants_1.State.CacheResult, JSON.stringify(state));
}
exports.setCacheState = setCacheState;
function setCacheHitOutput(isCacheHit) {
core.setOutput(constants_1.Outputs.CacheHit, isCacheHit.toString());
}
exports.setCacheHitOutput = setCacheHitOutput;
function setOutputAndState(key, cacheResult) {
setCacheHitOutput(isExactKeyMatch(key, cacheResult));
// Store the cache result if it exists
cacheResult && setCacheState(cacheResult);
}
exports.setOutputAndState = setOutputAndState;
function getCacheState() {
const stateData = core.getState(constants_1.State.CacheResult);
core.debug(`State: ${stateData}`);
if (stateData) {
return JSON.parse(stateData);
}
return undefined;
}
exports.getCacheState = getCacheState;
function logWarning(message) {
const warningPrefix = "[warning]";
core.info(`${warningPrefix}${message}`);
}
exports.logWarning = logWarning;
function resolvePaths(patterns) {
var e_1, _a;
var _b;
return __awaiter(this, void 0, void 0, function* () {
const paths = [];
const workspace = (_b = process.env["GITHUB_WORKSPACE"], (_b !== null && _b !== void 0 ? _b : process.cwd()));
const globber = yield glob.create(patterns.join("\n"), {
implicitDescendants: false
});
try {
for (var _c = __asyncValues(globber.globGenerator()), _d; _d = yield _c.next(), !_d.done;) {
const file = _d.value;
const relativeFile = path.relative(workspace, file);
core.debug(`Matched: ${relativeFile}`);
// Paths are made relative so the tar entries are all relative to the root of the workspace.
paths.push(`${relativeFile}`);
}
}
catch (e_1_1) { e_1 = { error: e_1_1 }; }
finally {
try {
if (_d && !_d.done && (_a = _c.return)) yield _a.call(_c);
}
finally { if (e_1) throw e_1.error; }
}
return paths;
});
}
exports.resolvePaths = resolvePaths;
function getSupportedEvents() {
return [constants_1.Events.Push, constants_1.Events.PullRequest];
}
exports.getSupportedEvents = getSupportedEvents;
// Currently the cache token is only authorized for push and pull_request events
// All other events will fail when reading and saving the cache
// See GitHub Context https://help.github.com/actions/automating-your-workflow-with-github-actions/contexts-and-expression-syntax-for-github-actions#github-context
function isValidEvent() {
const githubEvent = process.env[constants_1.Events.Key] || "";
return getSupportedEvents().includes(githubEvent);
}
exports.isValidEvent = isValidEvent;
function unlinkFile(path) {
return util.promisify(fs.unlink)(path);
}
exports.unlinkFile = unlinkFile;
function getVersion(app) {
return __awaiter(this, void 0, void 0, function* () {
core.debug(`Checking ${app} --version`);
let versionOutput = "";
try {
yield exec.exec(`${app} --version`, [], {
ignoreReturnCode: true,
silent: true,
listeners: {
stdout: (data) => (versionOutput += data.toString()),
stderr: (data) => (versionOutput += data.toString())
}
});
}
catch (err) {
core.debug(err.message);
}
versionOutput = versionOutput.trim();
core.debug(versionOutput);
return versionOutput;
});
}
function getCompressionMethod() {
return __awaiter(this, void 0, void 0, function* () {
// Disabling zstd on Windows due to https://github.com/actions/cache/issues/301
if (os.platform() === "win32") {
return constants_1.CompressionMethod.Gzip;
}
const versionOutput = yield getVersion("zstd");
return versionOutput.toLowerCase().includes("zstd command line interface")
? constants_1.CompressionMethod.Zstd
: constants_1.CompressionMethod.Gzip;
});
}
exports.getCompressionMethod = getCompressionMethod;
function getCacheFileName(compressionMethod) {
return compressionMethod == constants_1.CompressionMethod.Zstd
? constants_1.CacheFilename.Zstd
: constants_1.CacheFilename.Gzip;
}
exports.getCacheFileName = getCacheFileName;
function useGnuTar() {
return __awaiter(this, void 0, void 0, function* () {
const versionOutput = yield getVersion("tar");
return versionOutput.toLowerCase().includes("gnu tar");
});
}
exports.useGnuTar = useGnuTar;
/***/ }),
/***/ 470:
/***/ (function(__unusedmodule, exports, __webpack_require__) {
"use strict";
var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) {
function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); }
return new (P || (P = Promise))(function (resolve, reject) {
function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } }
function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } }
function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); }
step((generator = generator.apply(thisArg, _arguments || [])).next());
});
};
Object.defineProperty(exports, "__esModule", { value: true });
const command_1 = __webpack_require__(431);
const os = __webpack_require__(87);
const path = __webpack_require__(622);
/**
* The code to exit an action
*/
var ExitCode;
(function (ExitCode) {
/**
* A code indicating that the action was successful
*/
ExitCode[ExitCode["Success"] = 0] = "Success";
/**
* A code indicating that the action was a failure
*/
ExitCode[ExitCode["Failure"] = 1] = "Failure";
})(ExitCode = exports.ExitCode || (exports.ExitCode = {}));
//-----------------------------------------------------------------------
// Variables
//-----------------------------------------------------------------------
/**
* Sets env variable for this action and future actions in the job
* @param name the name of the variable to set
* @param val the value of the variable
*/
function exportVariable(name, val) {
process.env[name] = val;
command_1.issueCommand('set-env', { name }, val);
}
exports.exportVariable = exportVariable;
/**
* Registers a secret which will get masked from logs
* @param secret value of the secret
*/
function setSecret(secret) {
command_1.issueCommand('add-mask', {}, secret);
}
exports.setSecret = setSecret;
/**
* Prepends inputPath to the PATH (for this action and future actions)
* @param inputPath
*/
function addPath(inputPath) {
command_1.issueCommand('add-path', {}, inputPath);
process.env['PATH'] = `${inputPath}${path.delimiter}${process.env['PATH']}`;
}
exports.addPath = addPath;
/**
* Gets the value of an input. The value is also trimmed.
*
* @param name name of the input to get
* @param options optional. See InputOptions.
* @returns string
*/
function getInput(name, options) {
const val = process.env[`INPUT_${name.replace(/ /g, '_').toUpperCase()}`] || '';
if (options && options.required && !val) {
throw new Error(`Input required and not supplied: ${name}`);
}
return val.trim();
}
exports.getInput = getInput;
/**
* Sets the value of an output.
*
* @param name name of the output to set
* @param value value to store
*/
function setOutput(name, value) {
command_1.issueCommand('set-output', { name }, value);
}
exports.setOutput = setOutput;
//-----------------------------------------------------------------------
// Results
//-----------------------------------------------------------------------
/**
* Sets the action status to failed.
* When the action exits it will be with an exit code of 1
* @param message add error issue message
*/
function setFailed(message) {
process.exitCode = ExitCode.Failure;
error(message);
}
exports.setFailed = setFailed;
//-----------------------------------------------------------------------
// Logging Commands
//-----------------------------------------------------------------------
/**
* Writes debug message to user log
* @param message debug message
*/
function debug(message) {
command_1.issueCommand('debug', {}, message);
}
exports.debug = debug;
/**
* Adds an error issue
* @param message error issue message
*/
function error(message) {
command_1.issue('error', message);
}
exports.error = error;
/**
* Adds an warning issue
* @param message warning issue message
*/
function warning(message) {
command_1.issue('warning', message);
}
exports.warning = warning;
/**
* Writes info to log with console.log.
* @param message info message
*/
function info(message) {
process.stdout.write(message + os.EOL);
}
exports.info = info;
/**
* Begin an output group.
*
* Output until the next `groupEnd` will be foldable in this group
*
* @param name The name of the output group
*/
function startGroup(name) {
command_1.issue('group', name);
}
exports.startGroup = startGroup;
/**
* End an output group.
*/
function endGroup() {
command_1.issue('endgroup');
}
exports.endGroup = endGroup;
/**
* Wrap an asynchronous function call in a group.
*
* Returns the same type as the function itself.
*
* @param name The name of the group
* @param fn The function to wrap in the group
*/
function group(name, fn) {
return __awaiter(this, void 0, void 0, function* () {
startGroup(name);
let result;
try {
result = yield fn();
}
finally {
endGroup();
}
return result;
});
}
exports.group = group;
//-----------------------------------------------------------------------
// Wrapper action state
//-----------------------------------------------------------------------
/**
* Saves state for current action, the state can only be retrieved by this action's post job execution.
*
* @param name name of the state to store
* @param value value to store
*/
function saveState(name, value) {
command_1.issueCommand('save-state', { name }, value);
}
exports.saveState = saveState;
/**
* Gets the value of an state set by this action's main execution.
*
* @param name name of the state to get
* @returns string
*/
function getState(name) {
return process.env[`STATE_${name}`] || '';
}
exports.getState = getState;
//# sourceMappingURL=core.js.map
/***/ }),
/***/ 539:
/***/ (function(__unusedmodule, exports, __webpack_require__) {
"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
const url = __webpack_require__(835);
const http = __webpack_require__(605);
const https = __webpack_require__(211);
const pm = __webpack_require__(950);
let tunnel;
var HttpCodes;
(function (HttpCodes) {
HttpCodes[HttpCodes["OK"] = 200] = "OK";
HttpCodes[HttpCodes["MultipleChoices"] = 300] = "MultipleChoices";
HttpCodes[HttpCodes["MovedPermanently"] = 301] = "MovedPermanently";
HttpCodes[HttpCodes["ResourceMoved"] = 302] = "ResourceMoved";
HttpCodes[HttpCodes["SeeOther"] = 303] = "SeeOther";
HttpCodes[HttpCodes["NotModified"] = 304] = "NotModified";
HttpCodes[HttpCodes["UseProxy"] = 305] = "UseProxy";
HttpCodes[HttpCodes["SwitchProxy"] = 306] = "SwitchProxy";
HttpCodes[HttpCodes["TemporaryRedirect"] = 307] = "TemporaryRedirect";
HttpCodes[HttpCodes["PermanentRedirect"] = 308] = "PermanentRedirect";
HttpCodes[HttpCodes["BadRequest"] = 400] = "BadRequest";
HttpCodes[HttpCodes["Unauthorized"] = 401] = "Unauthorized";
HttpCodes[HttpCodes["PaymentRequired"] = 402] = "PaymentRequired";
HttpCodes[HttpCodes["Forbidden"] = 403] = "Forbidden";
HttpCodes[HttpCodes["NotFound"] = 404] = "NotFound";
HttpCodes[HttpCodes["MethodNotAllowed"] = 405] = "MethodNotAllowed";
HttpCodes[HttpCodes["NotAcceptable"] = 406] = "NotAcceptable";
HttpCodes[HttpCodes["ProxyAuthenticationRequired"] = 407] = "ProxyAuthenticationRequired";
HttpCodes[HttpCodes["RequestTimeout"] = 408] = "RequestTimeout";
HttpCodes[HttpCodes["Conflict"] = 409] = "Conflict";
HttpCodes[HttpCodes["Gone"] = 410] = "Gone";
HttpCodes[HttpCodes["TooManyRequests"] = 429] = "TooManyRequests";
HttpCodes[HttpCodes["InternalServerError"] = 500] = "InternalServerError";
HttpCodes[HttpCodes["NotImplemented"] = 501] = "NotImplemented";
HttpCodes[HttpCodes["BadGateway"] = 502] = "BadGateway";
HttpCodes[HttpCodes["ServiceUnavailable"] = 503] = "ServiceUnavailable";
HttpCodes[HttpCodes["GatewayTimeout"] = 504] = "GatewayTimeout";
})(HttpCodes = exports.HttpCodes || (exports.HttpCodes = {}));
var Headers;
(function (Headers) {
Headers["Accept"] = "accept";
Headers["ContentType"] = "content-type";
})(Headers = exports.Headers || (exports.Headers = {}));
var MediaTypes;
(function (MediaTypes) {
MediaTypes["ApplicationJson"] = "application/json";
})(MediaTypes = exports.MediaTypes || (exports.MediaTypes = {}));
/**
* Returns the proxy URL, depending upon the supplied url and proxy environment variables.
* @param serverUrl The server URL where the request will be sent. For example, https://api.github.com
*/
function getProxyUrl(serverUrl) {
let proxyUrl = pm.getProxyUrl(url.parse(serverUrl));
return proxyUrl ? proxyUrl.href : '';
}
exports.getProxyUrl = getProxyUrl;
const HttpRedirectCodes = [
HttpCodes.MovedPermanently,
HttpCodes.ResourceMoved,
HttpCodes.SeeOther,
HttpCodes.TemporaryRedirect,
HttpCodes.PermanentRedirect
];
const HttpResponseRetryCodes = [
HttpCodes.BadGateway,
HttpCodes.ServiceUnavailable,
HttpCodes.GatewayTimeout
];
const RetryableHttpVerbs = ['OPTIONS', 'GET', 'DELETE', 'HEAD'];
const ExponentialBackoffCeiling = 10;
const ExponentialBackoffTimeSlice = 5;
class HttpClientResponse {
constructor(message) {
this.message = message;
}
readBody() {
return new Promise(async (resolve, reject) => {
let output = Buffer.alloc(0);
this.message.on('data', (chunk) => {
output = Buffer.concat([output, chunk]);
});
this.message.on('end', () => {
resolve(output.toString());
});
});
}
}
exports.HttpClientResponse = HttpClientResponse;
function isHttps(requestUrl) {
let parsedUrl = url.parse(requestUrl);
return parsedUrl.protocol === 'https:';
}
exports.isHttps = isHttps;
class HttpClient {
constructor(userAgent, handlers, requestOptions) {
this._ignoreSslError = false;
this._allowRedirects = true;
this._allowRedirectDowngrade = false;
this._maxRedirects = 50;
this._allowRetries = false;
this._maxRetries = 1;
this._keepAlive = false;
this._disposed = false;
this.userAgent = userAgent;
this.handlers = handlers || [];
this.requestOptions = requestOptions;
if (requestOptions) {
if (requestOptions.ignoreSslError != null) {
this._ignoreSslError = requestOptions.ignoreSslError;
}
this._socketTimeout = requestOptions.socketTimeout;
if (requestOptions.allowRedirects != null) {
this._allowRedirects = requestOptions.allowRedirects;
}
if (requestOptions.allowRedirectDowngrade != null) {
this._allowRedirectDowngrade = requestOptions.allowRedirectDowngrade;
}
if (requestOptions.maxRedirects != null) {
this._maxRedirects = Math.max(requestOptions.maxRedirects, 0);
}
if (requestOptions.keepAlive != null) {
this._keepAlive = requestOptions.keepAlive;
}
if (requestOptions.allowRetries != null) {
this._allowRetries = requestOptions.allowRetries;
}
if (requestOptions.maxRetries != null) {
this._maxRetries = requestOptions.maxRetries;
}
}
}
options(requestUrl, additionalHeaders) {
return this.request('OPTIONS', requestUrl, null, additionalHeaders || {});
}
get(requestUrl, additionalHeaders) {
return this.request('GET', requestUrl, null, additionalHeaders || {});
}
del(requestUrl, additionalHeaders) {
return this.request('DELETE', requestUrl, null, additionalHeaders || {});
}
post(requestUrl, data, additionalHeaders) {
return this.request('POST', requestUrl, data, additionalHeaders || {});
}
patch(requestUrl, data, additionalHeaders) {
return this.request('PATCH', requestUrl, data, additionalHeaders || {});
}
put(requestUrl, data, additionalHeaders) {
return this.request('PUT', requestUrl, data, additionalHeaders || {});
}
head(requestUrl, additionalHeaders) {
return this.request('HEAD', requestUrl, null, additionalHeaders || {});
}
sendStream(verb, requestUrl, stream, additionalHeaders) {
return this.request(verb, requestUrl, stream, additionalHeaders);
}
/**
* Gets a typed object from an endpoint
* Be aware that not found returns a null. Other errors (4xx, 5xx) reject the promise
*/
async getJson(requestUrl, additionalHeaders = {}) {
additionalHeaders[Headers.Accept] = this._getExistingOrDefaultHeader(additionalHeaders, Headers.Accept, MediaTypes.ApplicationJson);
let res = await this.get(requestUrl, additionalHeaders);
return this._processResponse(res, this.requestOptions);
}
async postJson(requestUrl, obj, additionalHeaders = {}) {
let data = JSON.stringify(obj, null, 2);
additionalHeaders[Headers.Accept] = this._getExistingOrDefaultHeader(additionalHeaders, Headers.Accept, MediaTypes.ApplicationJson);
additionalHeaders[Headers.ContentType] = this._getExistingOrDefaultHeader(additionalHeaders, Headers.ContentType, MediaTypes.ApplicationJson);
let res = await this.post(requestUrl, data, additionalHeaders);
return this._processResponse(res, this.requestOptions);
}
async putJson(requestUrl, obj, additionalHeaders = {}) {
let data = JSON.stringify(obj, null, 2);
additionalHeaders[Headers.Accept] = this._getExistingOrDefaultHeader(additionalHeaders, Headers.Accept, MediaTypes.ApplicationJson);
additionalHeaders[Headers.ContentType] = this._getExistingOrDefaultHeader(additionalHeaders, Headers.ContentType, MediaTypes.ApplicationJson);
let res = await this.put(requestUrl, data, additionalHeaders);
return this._processResponse(res, this.requestOptions);
}
async patchJson(requestUrl, obj, additionalHeaders = {}) {
let data = JSON.stringify(obj, null, 2);
additionalHeaders[Headers.Accept] = this._getExistingOrDefaultHeader(additionalHeaders, Headers.Accept, MediaTypes.ApplicationJson);
additionalHeaders[Headers.ContentType] = this._getExistingOrDefaultHeader(additionalHeaders, Headers.ContentType, MediaTypes.ApplicationJson);
let res = await this.patch(requestUrl, data, additionalHeaders);
return this._processResponse(res, this.requestOptions);
}
/**
* Makes a raw http request.
* All other methods such as get, post, patch, and request ultimately call this.
* Prefer get, del, post and patch
*/
async request(verb, requestUrl, data, headers) {
if (this._disposed) {
throw new Error('Client has already been disposed.');
}
let parsedUrl = url.parse(requestUrl);
let info = this._prepareRequest(verb, parsedUrl, headers);
// Only perform retries on reads since writes may not be idempotent.
let maxTries = this._allowRetries && RetryableHttpVerbs.indexOf(verb) != -1
? this._maxRetries + 1
: 1;
let numTries = 0;
let response;
while (numTries < maxTries) {
response = await this.requestRaw(info, data);
// Check if it's an authentication challenge
if (response &&
response.message &&
response.message.statusCode === HttpCodes.Unauthorized) {
let authenticationHandler;
for (let i = 0; i < this.handlers.length; i++) {
if (this.handlers[i].canHandleAuthentication(response)) {
authenticationHandler = this.handlers[i];
break;
}
}
if (authenticationHandler) {
return authenticationHandler.handleAuthentication(this, info, data);
}
else {
// We have received an unauthorized response but have no handlers to handle it.
// Let the response return to the caller.
return response;
}
}
let redirectsRemaining = this._maxRedirects;
while (HttpRedirectCodes.indexOf(response.message.statusCode) != -1 &&
this._allowRedirects &&
redirectsRemaining > 0) {
const redirectUrl = response.message.headers['location'];
if (!redirectUrl) {
// if there's no location to redirect to, we won't
break;
}
let parsedRedirectUrl = url.parse(redirectUrl);
if (parsedUrl.protocol == 'https:' &&
parsedUrl.protocol != parsedRedirectUrl.protocol &&
!this._allowRedirectDowngrade) {
throw new Error('Redirect from HTTPS to HTTP protocol. This downgrade is not allowed for security reasons. If you want to allow this behavior, set the allowRedirectDowngrade option to true.');
}
// we need to finish reading the response before reassigning response
// which will leak the open socket.
await response.readBody();
// strip authorization header if redirected to a different hostname
if (parsedRedirectUrl.hostname !== parsedUrl.hostname) {
for (let header in headers) {
// header names are case insensitive
if (header.toLowerCase() === 'authorization') {
delete headers[header];
}
}
}
// let's make the request with the new redirectUrl
info = this._prepareRequest(verb, parsedRedirectUrl, headers);
response = await this.requestRaw(info, data);
redirectsRemaining--;
}
if (HttpResponseRetryCodes.indexOf(response.message.statusCode) == -1) {
// If not a retry code, return immediately instead of retrying
return response;
}
numTries += 1;
if (numTries < maxTries) {
await response.readBody();
await this._performExponentialBackoff(numTries);
}
}
return response;
}
/**
* Needs to be called if keepAlive is set to true in request options.
*/
dispose() {
if (this._agent) {
this._agent.destroy();
}
this._disposed = true;
}
/**
* Raw request.
* @param info
* @param data
*/
requestRaw(info, data) {
return new Promise((resolve, reject) => {
let callbackForResult = function (err, res) {
if (err) {
reject(err);
}
resolve(res);
};
this.requestRawWithCallback(info, data, callbackForResult);
});
}
/**
* Raw request with callback.
* @param info
* @param data
* @param onResult
*/
requestRawWithCallback(info, data, onResult) {
let socket;
if (typeof data === 'string') {
info.options.headers['Content-Length'] = Buffer.byteLength(data, 'utf8');
}
let callbackCalled = false;
let handleResult = (err, res) => {
if (!callbackCalled) {
callbackCalled = true;
onResult(err, res);
}
};
let req = info.httpModule.request(info.options, (msg) => {
let res = new HttpClientResponse(msg);
handleResult(null, res);
});
req.on('socket', sock => {
socket = sock;
});
// If we ever get disconnected, we want the socket to timeout eventually
req.setTimeout(this._socketTimeout || 3 * 60000, () => {
if (socket) {
socket.end();
}
handleResult(new Error('Request timeout: ' + info.options.path), null);
});
req.on('error', function (err) {
// err has statusCode property
// res should have headers
handleResult(err, null);
});
if (data && typeof data === 'string') {
req.write(data, 'utf8');
}
if (data && typeof data !== 'string') {
data.on('close', function () {
req.end();
});
data.pipe(req);
}
else {
req.end();
}
}
/**
* Gets an http agent. This function is useful when you need an http agent that handles
* routing through a proxy server - depending upon the url and proxy environment variables.
* @param serverUrl The server URL where the request will be sent. For example, https://api.github.com
*/
getAgent(serverUrl) {
let parsedUrl = url.parse(serverUrl);
return this._getAgent(parsedUrl);
}
_prepareRequest(method, requestUrl, headers) {
const info = {};
info.parsedUrl = requestUrl;
const usingSsl = info.parsedUrl.protocol === 'https:';
info.httpModule = usingSsl ? https : http;
const defaultPort = usingSsl ? 443 : 80;
info.options = {};
info.options.host = info.parsedUrl.hostname;
info.options.port = info.parsedUrl.port
? parseInt(info.parsedUrl.port)
: defaultPort;
info.options.path =
(info.parsedUrl.pathname || '') + (info.parsedUrl.search || '');
info.options.method = method;
info.options.headers = this._mergeHeaders(headers);
if (this.userAgent != null) {
info.options.headers['user-agent'] = this.userAgent;
}
info.options.agent = this._getAgent(info.parsedUrl);
// gives handlers an opportunity to participate
if (this.handlers) {
this.handlers.forEach(handler => {
handler.prepareRequest(info.options);
});
}
return info;
}
_mergeHeaders(headers) {
const lowercaseKeys = obj => Object.keys(obj).reduce((c, k) => ((c[k.toLowerCase()] = obj[k]), c), {});
if (this.requestOptions && this.requestOptions.headers) {
return Object.assign({}, lowercaseKeys(this.requestOptions.headers), lowercaseKeys(headers));
}
return lowercaseKeys(headers || {});
}
_getExistingOrDefaultHeader(additionalHeaders, header, _default) {
const lowercaseKeys = obj => Object.keys(obj).reduce((c, k) => ((c[k.toLowerCase()] = obj[k]), c), {});
let clientHeader;
if (this.requestOptions && this.requestOptions.headers) {
clientHeader = lowercaseKeys(this.requestOptions.headers)[header];
}
return additionalHeaders[header] || clientHeader || _default;
}
_getAgent(parsedUrl) {
let agent;
let proxyUrl = pm.getProxyUrl(parsedUrl);
let useProxy = proxyUrl && proxyUrl.hostname;
if (this._keepAlive && useProxy) {
agent = this._proxyAgent;
}
if (this._keepAlive && !useProxy) {
agent = this._agent;
}
// if agent is already assigned use that agent.
if (!!agent) {
return agent;
}
const usingSsl = parsedUrl.protocol === 'https:';
let maxSockets = 100;
if (!!this.requestOptions) {
maxSockets = this.requestOptions.maxSockets || http.globalAgent.maxSockets;
}
if (useProxy) {
// If using proxy, need tunnel
if (!tunnel) {
tunnel = __webpack_require__(413);
}
const agentOptions = {
maxSockets: maxSockets,
keepAlive: this._keepAlive,
proxy: {
proxyAuth: proxyUrl.auth,
host: proxyUrl.hostname,
port: proxyUrl.port
}
};
let tunnelAgent;
const overHttps = proxyUrl.protocol === 'https:';
if (usingSsl) {
tunnelAgent = overHttps ? tunnel.httpsOverHttps : tunnel.httpsOverHttp;
}
else {
tunnelAgent = overHttps ? tunnel.httpOverHttps : tunnel.httpOverHttp;
}
agent = tunnelAgent(agentOptions);
this._proxyAgent = agent;
}
// if reusing agent across request and tunneling agent isn't assigned create a new agent
if (this._keepAlive && !agent) {
const options = { keepAlive: this._keepAlive, maxSockets: maxSockets };
agent = usingSsl ? new https.Agent(options) : new http.Agent(options);
this._agent = agent;
}
// if not using private agent and tunnel agent isn't setup then use global agent
if (!agent) {
agent = usingSsl ? https.globalAgent : http.globalAgent;
}
if (usingSsl && this._ignoreSslError) {
// we don't want to set NODE_TLS_REJECT_UNAUTHORIZED=0 since that will affect request for entire process
// http.RequestOptions doesn't expose a way to modify RequestOptions.agent.options
// we have to cast it to any and change it directly
agent.options = Object.assign(agent.options || {}, {
rejectUnauthorized: false
});
}
return agent;
}
_performExponentialBackoff(retryNumber) {
retryNumber = Math.min(ExponentialBackoffCeiling, retryNumber);
const ms = ExponentialBackoffTimeSlice * Math.pow(2, retryNumber);
return new Promise(resolve => setTimeout(() => resolve(), ms));
}
static dateTimeDeserializer(key, value) {
if (typeof value === 'string') {
let a = new Date(value);
if (!isNaN(a.valueOf())) {
return a;
}
}
return value;
}
async _processResponse(res, options) {
return new Promise(async (resolve, reject) => {
const statusCode = res.message.statusCode;
const response = {
statusCode: statusCode,
result: null,
headers: {}
};
// not found leads to null obj returned
if (statusCode == HttpCodes.NotFound) {
resolve(response);
}
let obj;
let contents;
// get the result from the body
try {
contents = await res.readBody();
if (contents && contents.length > 0) {
if (options && options.deserializeDates) {
obj = JSON.parse(contents, HttpClient.dateTimeDeserializer);
}
else {
obj = JSON.parse(contents);
}
response.result = obj;
}
response.headers = res.message.headers;
}
catch (err) {
// Invalid resource (contents not json); leaving result obj null
}
// note that 3xx redirects are handled by the http layer.
if (statusCode > 299) {
let msg;
// if exception/error in body, attempt to get better error
if (obj && obj.message) {
msg = obj.message;
}
else if (contents && contents.length > 0) {
// it may be the case that the exception is in the body message as string
msg = contents;
}
else {
msg = 'Failed request: (' + statusCode + ')';
}
let err = new Error(msg);
// attach statusCode and body obj (if available) to the error object
err['statusCode'] = statusCode;
if (response.result) {
err['result'] = response.result;
}
reject(err);
}
else {
resolve(response);
}
});
}
}
exports.HttpClient = HttpClient;
/***/ }),
/***/ 597:
/***/ (function(__unusedmodule, exports, __webpack_require__) {
"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
const pathHelper = __webpack_require__(972);
const internal_match_kind_1 = __webpack_require__(327);
const IS_WINDOWS = process.platform === 'win32';
/**
* Given an array of patterns, returns an array of paths to search.
* Duplicates and paths under other included paths are filtered out.
*/
function getSearchPaths(patterns) {
// Ignore negate patterns
patterns = patterns.filter(x => !x.negate);
// Create a map of all search paths
const searchPathMap = {};
for (const pattern of patterns) {
const key = IS_WINDOWS
? pattern.searchPath.toUpperCase()
: pattern.searchPath;
searchPathMap[key] = 'candidate';
}
const result = [];
for (const pattern of patterns) {
// Check if already included
const key = IS_WINDOWS
? pattern.searchPath.toUpperCase()
: pattern.searchPath;
if (searchPathMap[key] === 'included') {
continue;
}
// Check for an ancestor search path
let foundAncestor = false;
let tempKey = key;
let parent = pathHelper.dirname(tempKey);
while (parent !== tempKey) {
if (searchPathMap[parent]) {
foundAncestor = true;
break;
}
tempKey = parent;
parent = pathHelper.dirname(tempKey);
}
// Include the search pattern in the result
if (!foundAncestor) {
result.push(pattern.searchPath);
searchPathMap[key] = 'included';
}
}
return result;
}
exports.getSearchPaths = getSearchPaths;
/**
* Matches the patterns against the path
*/
function match(patterns, itemPath) {
let result = internal_match_kind_1.MatchKind.None;
for (const pattern of patterns) {
if (pattern.negate) {
result &= ~pattern.match(itemPath);
}
else {
result |= pattern.match(itemPath);
}
}
return result;
}
exports.match = match;
/**
* Checks whether to descend further into the directory
*/
function partialMatch(patterns, itemPath) {
return patterns.some(x => !x.negate && x.partialMatch(itemPath));
}
exports.partialMatch = partialMatch;
//# sourceMappingURL=internal-pattern-helper.js.map
/***/ }),
/***/ 601:
/***/ (function(__unusedmodule, exports, __webpack_require__) {
"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
const core = __webpack_require__(470);
/**
* Returns a copy with defaults filled in.
*/
function getOptions(copy) {
const result = {
followSymbolicLinks: true,
implicitDescendants: true,
omitBrokenSymbolicLinks: true
};
if (copy) {
if (typeof copy.followSymbolicLinks === 'boolean') {
result.followSymbolicLinks = copy.followSymbolicLinks;
core.debug(`followSymbolicLinks '${result.followSymbolicLinks}'`);
}
if (typeof copy.implicitDescendants === 'boolean') {
result.implicitDescendants = copy.implicitDescendants;
core.debug(`implicitDescendants '${result.implicitDescendants}'`);
}
if (typeof copy.omitBrokenSymbolicLinks === 'boolean') {
result.omitBrokenSymbolicLinks = copy.omitBrokenSymbolicLinks;
core.debug(`omitBrokenSymbolicLinks '${result.omitBrokenSymbolicLinks}'`);
}
}
return result;
}
exports.getOptions = getOptions;
//# sourceMappingURL=internal-glob-options-helper.js.map
/***/ }),
/***/ 605:
/***/ (function(module) {
module.exports = require("http");
/***/ }),
/***/ 614:
/***/ (function(module) {
module.exports = require("events");
/***/ }),
/***/ 621:
/***/ (function(module) {
"use strict";
module.exports = balanced;
function balanced(a, b, str) {
if (a instanceof RegExp) a = maybeMatch(a, str);
if (b instanceof RegExp) b = maybeMatch(b, str);
var r = range(a, b, str);
return r && {
start: r[0],
end: r[1],
pre: str.slice(0, r[0]),
body: str.slice(r[0] + a.length, r[1]),
post: str.slice(r[1] + b.length)
};
}
function maybeMatch(reg, str) {
var m = str.match(reg);
return m ? m[0] : null;
}
balanced.range = range;
function range(a, b, str) {
var begs, beg, left, right, result;
var ai = str.indexOf(a);
var bi = str.indexOf(b, ai + 1);
var i = ai;
if (ai >= 0 && bi > 0) {
begs = [];
left = str.length;
while (i >= 0 && !result) {
if (i == ai) {
begs.push(i);
ai = str.indexOf(a, i + 1);
} else if (begs.length == 1) {
result = [ begs.pop(), bi ];
} else {
beg = begs.pop();
if (beg < left) {
left = beg;
right = bi;
}
bi = str.indexOf(b, i + 1);
}
i = ai < bi && ai >= 0 ? ai : bi;
}
if (begs.length) {
result = [ left, right ];
}
}
return result;
}
/***/ }),
/***/ 622:
/***/ (function(module) {
module.exports = require("path");
/***/ }),
/***/ 631:
/***/ (function(module) {
module.exports = require("net");
/***/ }),
/***/ 669:
/***/ (function(module) {
module.exports = require("util");
/***/ }),
/***/ 672:
/***/ (function(__unusedmodule, exports, __webpack_require__) {
"use strict";
var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) {
function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); }
return new (P || (P = Promise))(function (resolve, reject) {
function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } }
function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } }
function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); }
step((generator = generator.apply(thisArg, _arguments || [])).next());
});
};
var _a;
Object.defineProperty(exports, "__esModule", { value: true });
const assert_1 = __webpack_require__(357);
const fs = __webpack_require__(747);
const path = __webpack_require__(622);
_a = fs.promises, exports.chmod = _a.chmod, exports.copyFile = _a.copyFile, exports.lstat = _a.lstat, exports.mkdir = _a.mkdir, exports.readdir = _a.readdir, exports.readlink = _a.readlink, exports.rename = _a.rename, exports.rmdir = _a.rmdir, exports.stat = _a.stat, exports.symlink = _a.symlink, exports.unlink = _a.unlink;
exports.IS_WINDOWS = process.platform === 'win32';
function exists(fsPath) {
return __awaiter(this, void 0, void 0, function* () {
try {
yield exports.stat(fsPath);
}
catch (err) {
if (err.code === 'ENOENT') {
return false;
}
throw err;
}
return true;
});
}
exports.exists = exists;
function isDirectory(fsPath, useStat = false) {
return __awaiter(this, void 0, void 0, function* () {
const stats = useStat ? yield exports.stat(fsPath) : yield exports.lstat(fsPath);
return stats.isDirectory();
});
}
exports.isDirectory = isDirectory;
/**
* On OSX/Linux, true if path starts with '/'. On Windows, true for paths like:
* \, \hello, \\hello\share, C:, and C:\hello (and corresponding alternate separator cases).
*/
function isRooted(p) {
p = normalizeSeparators(p);
if (!p) {
throw new Error('isRooted() parameter "p" cannot be empty');
}
if (exports.IS_WINDOWS) {
return (p.startsWith('\\') || /^[A-Z]:/i.test(p) // e.g. \ or \hello or \\hello
); // e.g. C: or C:\hello
}
return p.startsWith('/');
}
exports.isRooted = isRooted;
/**
* Recursively create a directory at `fsPath`.
*
* This implementation is optimistic, meaning it attempts to create the full
* path first, and backs up the path stack from there.
*
* @param fsPath The path to create
* @param maxDepth The maximum recursion depth
* @param depth The current recursion depth
*/
function mkdirP(fsPath, maxDepth = 1000, depth = 1) {
return __awaiter(this, void 0, void 0, function* () {
assert_1.ok(fsPath, 'a path argument must be provided');
fsPath = path.resolve(fsPath);
if (depth >= maxDepth)
return exports.mkdir(fsPath);
try {
yield exports.mkdir(fsPath);
return;
}
catch (err) {
switch (err.code) {
case 'ENOENT': {
yield mkdirP(path.dirname(fsPath), maxDepth, depth + 1);
yield exports.mkdir(fsPath);
return;
}
default: {
let stats;
try {
stats = yield exports.stat(fsPath);
}
catch (err2) {
throw err;
}
if (!stats.isDirectory())
throw err;
}
}
}
});
}
exports.mkdirP = mkdirP;
/**
* Best effort attempt to determine whether a file exists and is executable.
* @param filePath file path to check
* @param extensions additional file extensions to try
* @return if file exists and is executable, returns the file path. otherwise empty string.
*/
function tryGetExecutablePath(filePath, extensions) {
return __awaiter(this, void 0, void 0, function* () {
let stats = undefined;
try {
// test file exists
stats = yield exports.stat(filePath);
}
catch (err) {
if (err.code !== 'ENOENT') {
// eslint-disable-next-line no-console
console.log(`Unexpected error attempting to determine if executable file exists '${filePath}': ${err}`);
}
}
if (stats && stats.isFile()) {
if (exports.IS_WINDOWS) {
// on Windows, test for valid extension
const upperExt = path.extname(filePath).toUpperCase();
if (extensions.some(validExt => validExt.toUpperCase() === upperExt)) {
return filePath;
}
}
else {
if (isUnixExecutable(stats)) {
return filePath;
}
}
}
// try each extension
const originalFilePath = filePath;
for (const extension of extensions) {
filePath = originalFilePath + extension;
stats = undefined;
try {
stats = yield exports.stat(filePath);
}
catch (err) {
if (err.code !== 'ENOENT') {
// eslint-disable-next-line no-console
console.log(`Unexpected error attempting to determine if executable file exists '${filePath}': ${err}`);
}
}
if (stats && stats.isFile()) {
if (exports.IS_WINDOWS) {
// preserve the case of the actual file (since an extension was appended)
try {
const directory = path.dirname(filePath);
const upperName = path.basename(filePath).toUpperCase();
for (const actualName of yield exports.readdir(directory)) {
if (upperName === actualName.toUpperCase()) {
filePath = path.join(directory, actualName);
break;
}
}
}
catch (err) {
// eslint-disable-next-line no-console
console.log(`Unexpected error attempting to determine the actual case of the file '${filePath}': ${err}`);
}
return filePath;
}
else {
if (isUnixExecutable(stats)) {
return filePath;
}
}
}
}
return '';
});
}
exports.tryGetExecutablePath = tryGetExecutablePath;
function normalizeSeparators(p) {
p = p || '';
if (exports.IS_WINDOWS) {
// convert slashes on Windows
p = p.replace(/\//g, '\\');
// remove redundant slashes
return p.replace(/\\\\+/g, '\\');
}
// remove redundant slashes
return p.replace(/\/\/+/g, '/');
}
// on Mac/Linux, test the execute bit
// R W X R W X R W X
// 256 128 64 32 16 8 4 2 1
function isUnixExecutable(stats) {
return ((stats.mode & 1) > 0 ||
((stats.mode & 8) > 0 && stats.gid === process.getgid()) ||
((stats.mode & 64) > 0 && stats.uid === process.getuid()));
}
//# sourceMappingURL=io-util.js.map
/***/ }),
/***/ 694:
/***/ (function(__unusedmodule, exports) {
"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
var Inputs;
(function (Inputs) {
Inputs["Key"] = "key";
Inputs["Path"] = "path";
Inputs["RestoreKeys"] = "restore-keys";
})(Inputs = exports.Inputs || (exports.Inputs = {}));
var Outputs;
(function (Outputs) {
Outputs["CacheHit"] = "cache-hit";
})(Outputs = exports.Outputs || (exports.Outputs = {}));
var State;
(function (State) {
State["CacheKey"] = "CACHE_KEY";
State["CacheResult"] = "CACHE_RESULT";
})(State = exports.State || (exports.State = {}));
var Events;
(function (Events) {
Events["Key"] = "GITHUB_EVENT_NAME";
Events["Push"] = "push";
Events["PullRequest"] = "pull_request";
})(Events = exports.Events || (exports.Events = {}));
var CacheFilename;
(function (CacheFilename) {
CacheFilename["Gzip"] = "cache.tgz";
CacheFilename["Zstd"] = "cache.tzst";
})(CacheFilename = exports.CacheFilename || (exports.CacheFilename = {}));
var CompressionMethod;
(function (CompressionMethod) {
CompressionMethod["Gzip"] = "gzip";
CompressionMethod["Zstd"] = "zstd";
})(CompressionMethod = exports.CompressionMethod || (exports.CompressionMethod = {}));
// Socket timeout in milliseconds during download. If no traffic is received
// over the socket during this period, the socket is destroyed and the download
// is aborted.
exports.SocketTimeout = 5000;
/***/ }),
/***/ 722:
/***/ (function(module) {
/**
* Convert array of 16 byte values to UUID string format of the form:
* XXXXXXXX-XXXX-XXXX-XXXX-XXXXXXXXXXXX
*/
var byteToHex = [];
for (var i = 0; i < 256; ++i) {
byteToHex[i] = (i + 0x100).toString(16).substr(1);
}
function bytesToUuid(buf, offset) {
var i = offset || 0;
var bth = byteToHex;
// join used to fix memory issue caused by concatenation: https://bugs.chromium.org/p/v8/issues/detail?id=3175#c4
return ([bth[buf[i++]], bth[buf[i++]],
bth[buf[i++]], bth[buf[i++]], '-',
bth[buf[i++]], bth[buf[i++]], '-',
bth[buf[i++]], bth[buf[i++]], '-',
bth[buf[i++]], bth[buf[i++]], '-',
bth[buf[i++]], bth[buf[i++]],
bth[buf[i++]], bth[buf[i++]],
bth[buf[i++]], bth[buf[i++]]]).join('');
}
module.exports = bytesToUuid;
/***/ }),
/***/ 728:
/***/ (function(__unusedmodule, exports) {
"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
class SearchState {
constructor(path, level) {
this.path = path;
this.level = level;
}
}
exports.SearchState = SearchState;
//# sourceMappingURL=internal-search-state.js.map
/***/ }),
/***/ 747:
/***/ (function(module) {
module.exports = require("fs");
/***/ }),
/***/ 778:
/***/ (function(__unusedmodule, exports, __webpack_require__) {
"use strict";
var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) {
function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); }
return new (P || (P = Promise))(function (resolve, reject) {
function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } }
function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } }
function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); }
step((generator = generator.apply(thisArg, _arguments || [])).next());
});
};
var __importStar = (this && this.__importStar) || function (mod) {
if (mod && mod.__esModule) return mod;
var result = {};
if (mod != null) for (var k in mod) if (Object.hasOwnProperty.call(mod, k)) result[k] = mod[k];
result["default"] = mod;
return result;
};
Object.defineProperty(exports, "__esModule", { value: true });
const core = __importStar(__webpack_require__(470));
const path = __importStar(__webpack_require__(622));
const cacheHttpClient = __importStar(__webpack_require__(154));
const constants_1 = __webpack_require__(694);
const tar_1 = __webpack_require__(943);
const utils = __importStar(__webpack_require__(443));
function run() {
var _a;
return __awaiter(this, void 0, void 0, function* () {
try {
// Validate inputs, this can cause task failure
if (!utils.isValidEvent()) {
utils.logWarning(`Event Validation Error: The event type ${process.env[constants_1.Events.Key]} is not supported. Only ${utils
.getSupportedEvents()
.join(", ")} events are supported at this time.`);
return;
}
const primaryKey = core.getInput(constants_1.Inputs.Key, { required: true });
core.saveState(constants_1.State.CacheKey, primaryKey);
const restoreKeys = core
.getInput(constants_1.Inputs.RestoreKeys)
.split("\n")
.filter(x => x !== "");
const keys = [primaryKey, ...restoreKeys];
core.debug("Resolved Keys:");
core.debug(JSON.stringify(keys));
if (keys.length > 10) {
core.setFailed(`Key Validation Error: Keys are limited to a maximum of 10.`);
return;
}
for (const key of keys) {
if (key.length > 512) {
core.setFailed(`Key Validation Error: ${key} cannot be larger than 512 characters.`);
return;
}
const regex = /^[^,]*$/;
if (!regex.test(key)) {
core.setFailed(`Key Validation Error: ${key} cannot contain commas.`);
return;
}
}
const compressionMethod = yield utils.getCompressionMethod();
try {
const cacheEntry = yield cacheHttpClient.getCacheEntry(keys, {
compressionMethod: compressionMethod
});
if (!((_a = cacheEntry) === null || _a === void 0 ? void 0 : _a.archiveLocation)) {
core.info(`Cache not found for input keys: ${keys.join(", ")}`);
return;
}
const archivePath = path.join(yield utils.createTempDirectory(), utils.getCacheFileName(compressionMethod));
core.debug(`Archive Path: ${archivePath}`);
// Store the cache result
utils.setCacheState(cacheEntry);
try {
// Download the cache from the cache entry
yield cacheHttpClient.downloadCache(cacheEntry.archiveLocation, archivePath);
const archiveFileSize = utils.getArchiveFileSize(archivePath);
core.info(`Cache Size: ~${Math.round(archiveFileSize / (1024 * 1024))} MB (${archiveFileSize} B)`);
yield tar_1.extractTar(archivePath, compressionMethod);
}
finally {
// Try to delete the archive to save space
try {
yield utils.unlinkFile(archivePath);
}
catch (error) {
core.debug(`Failed to delete archive: ${error}`);
}
}
const isExactKeyMatch = utils.isExactKeyMatch(primaryKey, cacheEntry);
utils.setCacheHitOutput(isExactKeyMatch);
core.info(`Cache restored from key: ${cacheEntry && cacheEntry.cacheKey}`);
}
catch (error) {
utils.logWarning(error.message);
utils.setCacheHitOutput(false);
}
}
catch (error) {
core.setFailed(error.message);
}
});
}
run();
exports.default = run;
/***/ }),
/***/ 794:
/***/ (function(module) {
module.exports = require("stream");
/***/ }),
/***/ 826:
/***/ (function(module, __unusedexports, __webpack_require__) {
var rng = __webpack_require__(139);
var bytesToUuid = __webpack_require__(722);
function v4(options, buf, offset) {
var i = buf && offset || 0;
if (typeof(options) == 'string') {
buf = options === 'binary' ? new Array(16) : null;
options = null;
}
options = options || {};
var rnds = options.random || (options.rng || rng)();
// Per 4.4, set bits for version and `clock_seq_hi_and_reserved`
rnds[6] = (rnds[6] & 0x0f) | 0x40;
rnds[8] = (rnds[8] & 0x3f) | 0x80;
// Copy bytes to buffer, if provided
if (buf) {
for (var ii = 0; ii < 16; ++ii) {
buf[i + ii] = rnds[ii];
}
}
return buf || bytesToUuid(rnds);
}
module.exports = v4;
/***/ }),
/***/ 835:
/***/ (function(module) {
module.exports = require("url");
/***/ }),
/***/ 896:
/***/ (function(module) {
module.exports = function (xs, fn) {
var res = [];
for (var i = 0; i < xs.length; i++) {
var x = fn(xs[i], i);
if (isArray(x)) res.push.apply(res, x);
else res.push(x);
}
return res;
};
var isArray = Array.isArray || function (xs) {
return Object.prototype.toString.call(xs) === '[object Array]';
};
/***/ }),
/***/ 923:
/***/ (function(__unusedmodule, exports, __webpack_require__) {
"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
const assert = __webpack_require__(357);
const os = __webpack_require__(87);
const path = __webpack_require__(622);
const pathHelper = __webpack_require__(972);
const minimatch_1 = __webpack_require__(93);
const internal_match_kind_1 = __webpack_require__(327);
const internal_path_1 = __webpack_require__(383);
const IS_WINDOWS = process.platform === 'win32';
class Pattern {
constructor(patternOrNegate, segments) {
/**
* Indicates whether matches should be excluded from the result set
*/
this.negate = false;
// Pattern overload
let pattern;
if (typeof patternOrNegate === 'string') {
pattern = patternOrNegate.trim();
}
// Segments overload
else {
// Convert to pattern
segments = segments || [];
assert(segments.length, `Parameter 'segments' must not empty`);
const root = Pattern.getLiteral(segments[0]);
assert(root && pathHelper.hasAbsoluteRoot(root), `Parameter 'segments' first element must be a root path`);
pattern = new internal_path_1.Path(segments).toString().trim();
if (patternOrNegate) {
pattern = `!${pattern}`;
}
}
// Negate
while (pattern.startsWith('!')) {
this.negate = !this.negate;
pattern = pattern.substr(1).trim();
}
// Normalize slashes and ensures absolute root
pattern = Pattern.fixupPattern(pattern);
// Segments
this.segments = new internal_path_1.Path(pattern).segments;
// Trailing slash indicates the pattern should only match directories, not regular files
this.trailingSeparator = pathHelper
.normalizeSeparators(pattern)
.endsWith(path.sep);
pattern = pathHelper.safeTrimTrailingSeparator(pattern);
// Search path (literal path prior to the first glob segment)
let foundGlob = false;
const searchSegments = this.segments
.map(x => Pattern.getLiteral(x))
.filter(x => !foundGlob && !(foundGlob = x === ''));
this.searchPath = new internal_path_1.Path(searchSegments).toString();
// Root RegExp (required when determining partial match)
this.rootRegExp = new RegExp(Pattern.regExpEscape(searchSegments[0]), IS_WINDOWS ? 'i' : '');
// Create minimatch
const minimatchOptions = {
dot: true,
nobrace: true,
nocase: IS_WINDOWS,
nocomment: true,
noext: true,
nonegate: true
};
pattern = IS_WINDOWS ? pattern.replace(/\\/g, '/') : pattern;
this.minimatch = new minimatch_1.Minimatch(pattern, minimatchOptions);
}
/**
* Matches the pattern against the specified path
*/
match(itemPath) {
// Last segment is globstar?
if (this.segments[this.segments.length - 1] === '**') {
// Normalize slashes
itemPath = pathHelper.normalizeSeparators(itemPath);
// Append a trailing slash. Otherwise Minimatch will not match the directory immediately
// preceeding the globstar. For example, given the pattern `/foo/**`, Minimatch returns
// false for `/foo` but returns true for `/foo/`. Append a trailing slash to handle that quirk.
if (!itemPath.endsWith(path.sep)) {
// Note, this is safe because the constructor ensures the pattern has an absolute root.
// For example, formats like C: and C:foo on Windows are resolved to an aboslute root.
itemPath = `${itemPath}${path.sep}`;
}
}
else {
// Normalize slashes and trim unnecessary trailing slash
itemPath = pathHelper.safeTrimTrailingSeparator(itemPath);
}
// Match
if (this.minimatch.match(itemPath)) {
return this.trailingSeparator ? internal_match_kind_1.MatchKind.Directory : internal_match_kind_1.MatchKind.All;
}
return internal_match_kind_1.MatchKind.None;
}
/**
* Indicates whether the pattern may match descendants of the specified path
*/
partialMatch(itemPath) {
// Normalize slashes and trim unnecessary trailing slash
itemPath = pathHelper.safeTrimTrailingSeparator(itemPath);
// matchOne does not handle root path correctly
if (pathHelper.dirname(itemPath) === itemPath) {
return this.rootRegExp.test(itemPath);
}
return this.minimatch.matchOne(itemPath.split(IS_WINDOWS ? /\\+/ : /\/+/), this.minimatch.set[0], true);
}
/**
* Escapes glob patterns within a path
*/
static globEscape(s) {
return (IS_WINDOWS ? s : s.replace(/\\/g, '\\\\')) // escape '\' on Linux/macOS
.replace(/(\[)(?=[^/]+\])/g, '[[]') // escape '[' when ']' follows within the path segment
.replace(/\?/g, '[?]') // escape '?'
.replace(/\*/g, '[*]'); // escape '*'
}
/**
* Normalizes slashes and ensures absolute root
*/
static fixupPattern(pattern) {
// Empty
assert(pattern, 'pattern cannot be empty');
// Must not contain `.` segment, unless first segment
// Must not contain `..` segment
const literalSegments = new internal_path_1.Path(pattern).segments.map(x => Pattern.getLiteral(x));
assert(literalSegments.every((x, i) => (x !== '.' || i === 0) && x !== '..'), `Invalid pattern '${pattern}'. Relative pathing '.' and '..' is not allowed.`);
// Must not contain globs in root, e.g. Windows UNC path \\foo\b*r
assert(!pathHelper.hasRoot(pattern) || literalSegments[0], `Invalid pattern '${pattern}'. Root segment must not contain globs.`);
// Normalize slashes
pattern = pathHelper.normalizeSeparators(pattern);
// Replace leading `.` segment
if (pattern === '.' || pattern.startsWith(`.${path.sep}`)) {
pattern = Pattern.globEscape(process.cwd()) + pattern.substr(1);
}
// Replace leading `~` segment
else if (pattern === '~' || pattern.startsWith(`~${path.sep}`)) {
const homedir = os.homedir();
assert(homedir, 'Unable to determine HOME directory');
assert(pathHelper.hasAbsoluteRoot(homedir), `Expected HOME directory to be a rooted path. Actual '${homedir}'`);
pattern = Pattern.globEscape(homedir) + pattern.substr(1);
}
// Replace relative drive root, e.g. pattern is C: or C:foo
else if (IS_WINDOWS &&
(pattern.match(/^[A-Z]:$/i) || pattern.match(/^[A-Z]:[^\\]/i))) {
let root = pathHelper.ensureAbsoluteRoot('C:\\dummy-root', pattern.substr(0, 2));
if (pattern.length > 2 && !root.endsWith('\\')) {
root += '\\';
}
pattern = Pattern.globEscape(root) + pattern.substr(2);
}
// Replace relative root, e.g. pattern is \ or \foo
else if (IS_WINDOWS && (pattern === '\\' || pattern.match(/^\\[^\\]/))) {
let root = pathHelper.ensureAbsoluteRoot('C:\\dummy-root', '\\');
if (!root.endsWith('\\')) {
root += '\\';
}
pattern = Pattern.globEscape(root) + pattern.substr(1);
}
// Otherwise ensure absolute root
else {
pattern = pathHelper.ensureAbsoluteRoot(Pattern.globEscape(process.cwd()), pattern);
}
return pathHelper.normalizeSeparators(pattern);
}
/**
* Attempts to unescape a pattern segment to create a literal path segment.
* Otherwise returns empty string.
*/
static getLiteral(segment) {
let literal = '';
for (let i = 0; i < segment.length; i++) {
const c = segment[i];
// Escape
if (c === '\\' && !IS_WINDOWS && i + 1 < segment.length) {
literal += segment[++i];
continue;
}
// Wildcard
else if (c === '*' || c === '?') {
return '';
}
// Character set
else if (c === '[' && i + 1 < segment.length) {
let set = '';
let closed = -1;
for (let i2 = i + 1; i2 < segment.length; i2++) {
const c2 = segment[i2];
// Escape
if (c2 === '\\' && !IS_WINDOWS && i2 + 1 < segment.length) {
set += segment[++i2];
continue;
}
// Closed
else if (c2 === ']') {
closed = i2;
break;
}
// Otherwise
else {
set += c2;
}
}
// Closed?
if (closed >= 0) {
// Cannot convert
if (set.length > 1) {
return '';
}
// Convert to literal
if (set) {
literal += set;
i = closed;
continue;
}
}
// Otherwise fall thru
}
// Append
literal += c;
}
return literal;
}
/**
* Escapes regexp special characters
* https://javascript.info/regexp-escaping
*/
static regExpEscape(s) {
return s.replace(/[[\\^$.|?*+()]/g, '\\$&');
}
}
exports.Pattern = Pattern;
//# sourceMappingURL=internal-pattern.js.map
/***/ }),
/***/ 943:
/***/ (function(__unusedmodule, exports, __webpack_require__) {
"use strict";
var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) {
function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); }
return new (P || (P = Promise))(function (resolve, reject) {
function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } }
function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } }
function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); }
step((generator = generator.apply(thisArg, _arguments || [])).next());
});
};
var __importStar = (this && this.__importStar) || function (mod) {
if (mod && mod.__esModule) return mod;
var result = {};
if (mod != null) for (var k in mod) if (Object.hasOwnProperty.call(mod, k)) result[k] = mod[k];
result["default"] = mod;
return result;
};
Object.defineProperty(exports, "__esModule", { value: true });
const exec_1 = __webpack_require__(986);
const io = __importStar(__webpack_require__(1));
const fs_1 = __webpack_require__(747);
const path = __importStar(__webpack_require__(622));
const constants_1 = __webpack_require__(694);
const utils = __importStar(__webpack_require__(443));
function getTarPath(args) {
return __awaiter(this, void 0, void 0, function* () {
// Explicitly use BSD Tar on Windows
const IS_WINDOWS = process.platform === "win32";
if (IS_WINDOWS) {
const systemTar = `${process.env["windir"]}\\System32\\tar.exe`;
if (fs_1.existsSync(systemTar)) {
return systemTar;
}
else if (yield utils.useGnuTar()) {
args.push("--force-local");
}
}
return yield io.which("tar", true);
});
}
function execTar(args, cwd) {
var _a;
return __awaiter(this, void 0, void 0, function* () {
try {
yield exec_1.exec(`"${yield getTarPath(args)}"`, args, { cwd: cwd });
}
catch (error) {
throw new Error(`Tar failed with error: ${(_a = error) === null || _a === void 0 ? void 0 : _a.message}`);
}
});
}
function getWorkingDirectory() {
var _a;
return _a = process.env["GITHUB_WORKSPACE"], (_a !== null && _a !== void 0 ? _a : process.cwd());
}
function extractTar(archivePath, compressionMethod) {
return __awaiter(this, void 0, void 0, function* () {
// Create directory to extract tar into
const workingDirectory = getWorkingDirectory();
yield io.mkdirP(workingDirectory);
// --d: Decompress.
// --long=#: Enables long distance matching with # bits. Maximum is 30 (1GB) on 32-bit OS and 31 (2GB) on 64-bit.
// Using 30 here because we also support 32-bit self-hosted runners.
const args = [
...(compressionMethod == constants_1.CompressionMethod.Zstd
? ["--use-compress-program", "zstd -d --long=30"]
: ["-z"]),
"-xf",
archivePath.replace(new RegExp("\\" + path.sep, "g"), "/"),
"-P",
"-C",
workingDirectory.replace(new RegExp("\\" + path.sep, "g"), "/")
];
yield execTar(args);
});
}
exports.extractTar = extractTar;
function createTar(archiveFolder, sourceDirectories, compressionMethod) {
return __awaiter(this, void 0, void 0, function* () {
// Write source directories to manifest.txt to avoid command length limits
const manifestFilename = "manifest.txt";
const cacheFileName = utils.getCacheFileName(compressionMethod);
fs_1.writeFileSync(path.join(archiveFolder, manifestFilename), sourceDirectories.join("\n"));
// -T#: Compress using # working thread. If # is 0, attempt to detect and use the number of physical CPU cores.
// --long=#: Enables long distance matching with # bits. Maximum is 30 (1GB) on 32-bit OS and 31 (2GB) on 64-bit.
// Using 30 here because we also support 32-bit self-hosted runners.
const workingDirectory = getWorkingDirectory();
const args = [
...(compressionMethod == constants_1.CompressionMethod.Zstd
? ["--use-compress-program", "zstd -T0 --long=30"]
: ["-z"]),
"-cf",
cacheFileName.replace(new RegExp("\\" + path.sep, "g"), "/"),
"-P",
"-C",
workingDirectory.replace(new RegExp("\\" + path.sep, "g"), "/"),
"--files-from",
manifestFilename
];
yield execTar(args, archiveFolder);
});
}
exports.createTar = createTar;
/***/ }),
/***/ 950:
/***/ (function(__unusedmodule, exports, __webpack_require__) {
"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
const url = __webpack_require__(835);
function getProxyUrl(reqUrl) {
let usingSsl = reqUrl.protocol === 'https:';
let proxyUrl;
if (checkBypass(reqUrl)) {
return proxyUrl;
}
let proxyVar;
if (usingSsl) {
proxyVar = process.env['https_proxy'] || process.env['HTTPS_PROXY'];
}
else {
proxyVar = process.env['http_proxy'] || process.env['HTTP_PROXY'];
}
if (proxyVar) {
proxyUrl = url.parse(proxyVar);
}
return proxyUrl;
}
exports.getProxyUrl = getProxyUrl;
function checkBypass(reqUrl) {
if (!reqUrl.hostname) {
return false;
}
let noProxy = process.env['no_proxy'] || process.env['NO_PROXY'] || '';
if (!noProxy) {
return false;
}
// Determine the request port
let reqPort;
if (reqUrl.port) {
reqPort = Number(reqUrl.port);
}
else if (reqUrl.protocol === 'http:') {
reqPort = 80;
}
else if (reqUrl.protocol === 'https:') {
reqPort = 443;
}
// Format the request hostname and hostname with port
let upperReqHosts = [reqUrl.hostname.toUpperCase()];
if (typeof reqPort === 'number') {
upperReqHosts.push(`${upperReqHosts[0]}:${reqPort}`);
}
// Compare request host against noproxy
for (let upperNoProxyItem of noProxy
.split(',')
.map(x => x.trim().toUpperCase())
.filter(x => x)) {
if (upperReqHosts.some(x => x === upperNoProxyItem)) {
return true;
}
}
return false;
}
exports.checkBypass = checkBypass;
/***/ }),
/***/ 972:
/***/ (function(__unusedmodule, exports, __webpack_require__) {
"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
const assert = __webpack_require__(357);
const path = __webpack_require__(622);
const IS_WINDOWS = process.platform === 'win32';
/**
* Similar to path.dirname except normalizes the path separators and slightly better handling for Windows UNC paths.
*
* For example, on Linux/macOS:
* - `/ => /`
* - `/hello => /`
*
* For example, on Windows:
* - `C:\ => C:\`
* - `C:\hello => C:\`
* - `C: => C:`
* - `C:hello => C:`
* - `\ => \`
* - `\hello => \`
* - `\\hello => \\hello`
* - `\\hello\world => \\hello\world`
*/
function dirname(p) {
// Normalize slashes and trim unnecessary trailing slash
p = safeTrimTrailingSeparator(p);
// Windows UNC root, e.g. \\hello or \\hello\world
if (IS_WINDOWS && /^\\\\[^\\]+(\\[^\\]+)?$/.test(p)) {
return p;
}
// Get dirname
let result = path.dirname(p);
// Trim trailing slash for Windows UNC root, e.g. \\hello\world\
if (IS_WINDOWS && /^\\\\[^\\]+\\[^\\]+\\$/.test(result)) {
result = safeTrimTrailingSeparator(result);
}
return result;
}
exports.dirname = dirname;
/**
* Roots the path if not already rooted. On Windows, relative roots like `\`
* or `C:` are expanded based on the current working directory.
*/
function ensureAbsoluteRoot(root, itemPath) {
assert(root, `ensureAbsoluteRoot parameter 'root' must not be empty`);
assert(itemPath, `ensureAbsoluteRoot parameter 'itemPath' must not be empty`);
// Already rooted
if (hasAbsoluteRoot(itemPath)) {
return itemPath;
}
// Windows
if (IS_WINDOWS) {
// Check for itemPath like C: or C:foo
if (itemPath.match(/^[A-Z]:[^\\/]|^[A-Z]:$/i)) {
let cwd = process.cwd();
assert(cwd.match(/^[A-Z]:\\/i), `Expected current directory to start with an absolute drive root. Actual '${cwd}'`);
// Drive letter matches cwd? Expand to cwd
if (itemPath[0].toUpperCase() === cwd[0].toUpperCase()) {
// Drive only, e.g. C:
if (itemPath.length === 2) {
// Preserve specified drive letter case (upper or lower)
return `${itemPath[0]}:\\${cwd.substr(3)}`;
}
// Drive + path, e.g. C:foo
else {
if (!cwd.endsWith('\\')) {
cwd += '\\';
}
// Preserve specified drive letter case (upper or lower)
return `${itemPath[0]}:\\${cwd.substr(3)}${itemPath.substr(2)}`;
}
}
// Different drive
else {
return `${itemPath[0]}:\\${itemPath.substr(2)}`;
}
}
// Check for itemPath like \ or \foo
else if (normalizeSeparators(itemPath).match(/^\\$|^\\[^\\]/)) {
const cwd = process.cwd();
assert(cwd.match(/^[A-Z]:\\/i), `Expected current directory to start with an absolute drive root. Actual '${cwd}'`);
return `${cwd[0]}:\\${itemPath.substr(1)}`;
}
}
assert(hasAbsoluteRoot(root), `ensureAbsoluteRoot parameter 'root' must have an absolute root`);
// Otherwise ensure root ends with a separator
if (root.endsWith('/') || (IS_WINDOWS && root.endsWith('\\'))) {
// Intentionally empty
}
else {
// Append separator
root += path.sep;
}
return root + itemPath;
}
exports.ensureAbsoluteRoot = ensureAbsoluteRoot;
/**
* On Linux/macOS, true if path starts with `/`. On Windows, true for paths like:
* `\\hello\share` and `C:\hello` (and using alternate separator).
*/
function hasAbsoluteRoot(itemPath) {
assert(itemPath, `hasAbsoluteRoot parameter 'itemPath' must not be empty`);
// Normalize separators
itemPath = normalizeSeparators(itemPath);
// Windows
if (IS_WINDOWS) {
// E.g. \\hello\share or C:\hello
return itemPath.startsWith('\\\\') || /^[A-Z]:\\/i.test(itemPath);
}
// E.g. /hello
return itemPath.startsWith('/');
}
exports.hasAbsoluteRoot = hasAbsoluteRoot;
/**
* On Linux/macOS, true if path starts with `/`. On Windows, true for paths like:
* `\`, `\hello`, `\\hello\share`, `C:`, and `C:\hello` (and using alternate separator).
*/
function hasRoot(itemPath) {
assert(itemPath, `isRooted parameter 'itemPath' must not be empty`);
// Normalize separators
itemPath = normalizeSeparators(itemPath);
// Windows
if (IS_WINDOWS) {
// E.g. \ or \hello or \\hello
// E.g. C: or C:\hello
return itemPath.startsWith('\\') || /^[A-Z]:/i.test(itemPath);
}
// E.g. /hello
return itemPath.startsWith('/');
}
exports.hasRoot = hasRoot;
/**
* Removes redundant slashes and converts `/` to `\` on Windows
*/
function normalizeSeparators(p) {
p = p || '';
// Windows
if (IS_WINDOWS) {
// Convert slashes on Windows
p = p.replace(/\//g, '\\');
// Remove redundant slashes
const isUnc = /^\\\\+[^\\]/.test(p); // e.g. \\hello
return (isUnc ? '\\' : '') + p.replace(/\\\\+/g, '\\'); // preserve leading \\ for UNC
}
// Remove redundant slashes
return p.replace(/\/\/+/g, '/');
}
exports.normalizeSeparators = normalizeSeparators;
/**
* Normalizes the path separators and trims the trailing separator (when safe).
* For example, `/foo/ => /foo` but `/ => /`
*/
function safeTrimTrailingSeparator(p) {
// Short-circuit if empty
if (!p) {
return '';
}
// Normalize separators
p = normalizeSeparators(p);
// No trailing slash
if (!p.endsWith(path.sep)) {
return p;
}
// Check '/' on Linux/macOS and '\' on Windows
if (p === path.sep) {
return p;
}
// On Windows check if drive root. E.g. C:\
if (IS_WINDOWS && /^[A-Z]:\\$/i.test(p)) {
return p;
}
// Otherwise trim trailing slash
return p.substr(0, p.length - 1);
}
exports.safeTrimTrailingSeparator = safeTrimTrailingSeparator;
//# sourceMappingURL=internal-path-helper.js.map
/***/ }),
/***/ 986:
/***/ (function(__unusedmodule, exports, __webpack_require__) {
"use strict";
var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) {
function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); }
return new (P || (P = Promise))(function (resolve, reject) {
function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } }
function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } }
function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); }
step((generator = generator.apply(thisArg, _arguments || [])).next());
});
};
Object.defineProperty(exports, "__esModule", { value: true });
const tr = __webpack_require__(9);
/**
* Exec a command.
* Output will be streamed to the live console.
* Returns promise with return code
*
* @param commandLine command to execute (can include additional args). Must be correctly escaped.
* @param args optional arguments for tool. Escaping is handled by the lib.
* @param options optional exec options. See ExecOptions
* @returns Promise<number> exit code
*/
function exec(commandLine, args, options) {
return __awaiter(this, void 0, void 0, function* () {
const commandArgs = tr.argStringToArray(commandLine);
if (commandArgs.length === 0) {
throw new Error(`Parameter 'commandLine' cannot be null or empty.`);
}
// Path to tool to execute should be first arg
const toolPath = commandArgs[0];
args = commandArgs.slice(1).concat(args || []);
const runner = new tr.ToolRunner(toolPath, args, options);
return runner.exec();
});
}
exports.exec = exec;
//# sourceMappingURL=exec.js.map
/***/ })
/******/ });