/* * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ /* * Copyright (c) 2018, Joyent, Inc. */ var assert = require('assert-plus'); var child_process = require('child_process'); var crypto = require('crypto'); var fs = require('fs'); var getpass = require('getpass'); var os = require('os'); var path = require('path'); var read = require('read'); var strsplit = require('strsplit'); var tty = require('tty'); var util = require('util'), format = util.format; var wordwrap = require('wordwrap'); var errors = require('./errors'), InternalError = errors.InternalError; var NETWORK_OBJECT_FIELDS = require('./constants').NETWORK_OBJECT_FIELDS; // ---- support stuff function objCopy(obj, target) { assert.object(obj, 'obj'); assert.optionalObject(obj, 'target'); if (target === undefined) { target = {}; } Object.keys(obj).forEach(function (k) { target[k] = obj[k]; }); return target; } function deepObjCopy(obj) { return JSON.parse(JSON.stringify(obj)); } /* * Merge given objects into the given `target` object. Last one wins. * The `target` is modified in place. * * var foo = {bar: 32}; * objMerge(foo, {bar: 42}, {bling: 'blam'}); * * Adapted from tunnel-agent `mergeOptions`. */ function objMerge(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; } function zeroPad(n, width) { var s = String(n); assert.number(width, 'width'); assert.string(s, 'string'); while (s.length < width) { s = '0' + s; } return s; } /** * Convert a boolean or string representation into a boolean, or * raise TypeError trying. * * @param value {Boolean|String} The input value to convert. * @param default_ {Boolean} The default value if `value` is undefined. * @param errName {String} The context to quote in the possibly * raised TypeError. */ function boolFromString(value, default_, errName) { if (value === undefined) { return default_; } else if (value === 'false' || value === '0') { return false; } else if (value === 'true' || value === '1') { return true; } else if (typeof (value) === 'boolean') { return value; } else { var errmsg = format('invalid boolean value: %j', value); if (errName) { errmsg = format('invalid boolean value for %s: %j', errName, value); } throw new TypeError(errmsg); } } /** * given an array return a string with each element * JSON-stringifed separated by newlines */ function jsonStream(arr, stream) { stream = stream || process.stdout; arr.forEach(function (elem) { stream.write(JSON.stringify(elem) + '\n'); }); } /** * Parses the string "kv" of the form 'key=value' and returns an object that * represents it with the form {'key': value}. If "key"" in the "kv" string is * not included in the list "validKeys", it throws an error. It also throws an * error if the string "kv" is malformed. * * By default, converts the values as if they were JSON representations of JS * types, e.g the string 'false' is converted to the boolean primitive "false". * * @param {String} kv * @param {Array} validKeys: Optional array of strings or regexes matching * valid keys. * @param {Object} options: Optional * - @param disableTypeConversions {Boolean} Optional. If true, then no * type conversion of values is performed, and all values are returned as * strings. * - @param typeHintFromKey {Object} Optional. Type hints for input keys. * E.g. if parsing 'foo=false' and `typeHintFromKey={foo: 'string'}`, * then we do NOT parse it to a boolean `false`. * - @param failOnEmptyValue {Boolean} Optional - If true, throws an error * if a given key's value is the empty string. Default is false. */ function _parseKeyValue(kv, validKeys, options) { assert.string(kv, 'kv'); assert.optionalArray(validKeys, 'validKeys'); assert.optionalObject(options, 'options'); options = options || {}; assert.optionalBool(options.disableTypeConversions, 'options.disableTypeConversions'); assert.optionalObject(options.typeHintFromKey, 'options.typeHintFromKey'); assert.optionalBool(options.failOnEmptyValue, 'options.failOnEmptyValue'); var i; var idx = kv.indexOf('='); if (idx === -1) { throw new errors.UsageError(format('invalid key=value: "%s"', kv)); } var k = kv.slice(0, idx); var typeHint; var v = kv.slice(idx + 1); var validKey; if (validKeys) { var foundMatch = false; for (i = 0; i < validKeys.length; i++) { validKey = validKeys[i]; if ((validKey instanceof RegExp && validKey.test(k)) || k === validKey) { foundMatch = true; break; } } if (!foundMatch) { throw new errors.UsageError(format( 'invalid key: "%s" (must match one of: %s)', k, validKeys.join(', '))); } } if (v === '' && options.failOnEmptyValue) { throw new Error(format('key "%s" must have a value', k)); } if (options.disableTypeConversions !== true) { if (options.typeHintFromKey !== undefined) { typeHint = options.typeHintFromKey[k]; } if (typeHint === 'string') { // Leave `v` a string. /* jsl:pass */ } else if (v === '') { v = null; } else { try { v = JSON.parse(v); } catch (e) { /* pass */ } } } return { key: k, value: v }; } /** * given an array of key=value pairs, break them into a JSON predicate * * @param {Array} kvs - an array of key=value pairs * @param {Array} validKeys: Optional array of strings or regexes matching * valid keys. * @param {String} compositionType - the way each key/value pair will be * combined to form a JSON predicate. Valid values are 'or' and 'and'. */ function jsonPredFromKv(kvs, validKeys, compositionType) { assert.arrayOfString(kvs, 'kvs'); assert.string(compositionType, 'string'); assert.ok(compositionType === 'or' || compositionType === 'and', 'compositionType'); var keyName; var predicate = {}; var parsedKeyValue; var parsedKeyValues; var parseOpts = { disableDotted: true, validKeys: validKeys, failOnEmptyValue: true }; if (kvs.length === 0) { return predicate; } if (kvs.length === 1) { parsedKeyValue = _parseKeyValue(kvs[0], validKeys, parseOpts); predicate.eq = [parsedKeyValue.key, parsedKeyValue.value]; } else { predicate[compositionType] = []; parsedKeyValues = objFromKeyValueArgs(kvs, parseOpts); for (keyName in parsedKeyValues) { predicate[compositionType].push({ eq: [keyName, parsedKeyValues[keyName]] }); } } return predicate; } /** * return how long ago something happened * * @param {Date} when - a date object in the past * @param {Date} now (optional) - a date object to compare to * @return {String} - printable string */ function longAgo(when, now) { now = now || new Date(); assert.date(now, 'now'); var seconds = Math.round((now - when) / 1000); var times = [ seconds / 60 / 60 / 24 / 365, // years seconds / 60 / 60 / 24 / 7, // weeks seconds / 60 / 60 / 24, // days seconds / 60 / 60, // hours seconds / 60, // minutes seconds // seconds ]; var names = ['y', 'w', 'd', 'h', 'm', 's']; for (var i = 0; i < names.length; i++) { var time = Math.floor(times[i]); if (time > 0) return util.format('%d%s', time, names[i]); } return '0s'; } /** * checks a string and returns a boolean based on if it * is a UUID or not */ function isUUID(s) { assert.string(s, 's'); return /^([a-f\d]{8}(-[a-f\d]{4}){3}-[a-f\d]{12}?)$/i.test(s); } function humanDurationFromMs(ms) { assert.number(ms, 'ms'); var sizes = [ ['ms', 1000, 's'], ['s', 60, 'm'], ['m', 60, 'h'], ['h', 24, 'd'], ['d', 7, 'w'] ]; if (ms === 0) { return '0ms'; } var bits = []; var n = ms; for (var i = 0; i < sizes.length; i++) { var size = sizes[i]; var remainder = n % size[1]; if (remainder === 0) { bits.unshift(''); } else { bits.unshift(format('%d%s', remainder, size[0])); } n = Math.floor(n / size[1]); if (n === 0) { break; } else if (i === sizes.length - 1) { bits.unshift(format('%d%s', n, size[2])); break; } } if (bits.length > 1 && bits[bits.length - 1].slice(-2) === 'ms') { bits.pop(); } return bits.slice(0, 2).join(''); } /** * Adapted from * * @param {Number} opts.precision The number of decimal places of precision to * include. Note: This is just clipping (i.e. floor) instead of rounding. * TODO: round * @param {Boolean} opts.narrow Make it as narrow as possible: short units, * no space between value and unit, drop precision if it is all zeros. */ function humanSizeFromBytes(opts, bytes) { if (bytes === undefined) { bytes = opts; opts = {}; } assert.number(bytes, 'bytes'); // The number of decimal places, default 1. assert.optionalNumber(opts.precision, 'opts.precision'); var precision = opts.precision === undefined ? 1 : opts.precision; assert.ok(precision >= 0); assert.optionalBool(opts.narrow, 'opts.narrow'); var sizes = ['B', 'KiB', 'MiB', 'GiB', 'TiB', 'PiB']; if (opts.narrow) { sizes = ['B', 'K', 'M', 'G', 'T', 'P']; } var template = opts.narrow ? '%s%s%s' : '%s%s %s'; if (bytes === 0) { return '0 B'; } var sign = bytes < 0 ? '-' : ''; bytes = Math.abs(bytes); var i = Number(Math.floor(Math.log(bytes) / Math.log(1024))); var s = String(bytes / Math.pow(1024, i)); var hasDecimal = s.indexOf('.') !== -1; if (precision === 0) { if (hasDecimal) { s = s.slice(0, s.indexOf('.')); } } else if (opts.narrow && !hasDecimal) { /* skip all-zero precision */ /* jsl:pass */ } else { if (!hasDecimal) { s += '.'; } var places = s.length - s.indexOf('.') - 1; while (places < precision) { s += '0'; places++; } if (places > precision) { s = s.slice(0, s.length - places + precision); } } //var precision1 = (s.indexOf('.') === -1 // ? s + '.0' : s.slice(0, s.indexOf('.') + 2)); return format(template, sign, s, sizes[i]); } /* * capitalize the first character of a string and return the new string */ function capitalize(s) { assert.string(s, 's'); return s[0].toUpperCase() + s.substr(1); } /* * Convert a UUID to a short ID */ function uuidToShortId(s) { assert.uuid(s, 's'); return s.split('-', 1)[0]; } /* * Normalize a short ID. Returns undefined if the given string isn't a valid * short id. * * Short IDs: * - UUID prefix * - allow '-' to be elided (to support using containers IDs from docker) * - support docker ID *longer* than a UUID? The curr implementation does. */ function normShortId(s) { assert.string(s, 's'); var shortIdCharsRe = /^[a-f0-9]+$/; var shortId; if (s.indexOf('-') === -1) { if (!shortIdCharsRe.test(s)) { return; } shortId = s.substr(0, 8) + '-' + s.substr(8, 4) + '-' + s.substr(12, 4) + '-' + s.substr(16, 4) + '-' + s.substr(20, 12); shortId = shortId.replace(/-+$/, ''); } else { // UUID prefix. shortId = ''; var remaining = s; var spans = [8, 4, 4, 4, 12]; for (var i = 0; i < spans.length; i++) { var span = spans[i]; var head = remaining.slice(0, span); remaining = remaining.slice(span + 1); if (!shortIdCharsRe.test(head)) { return; } shortId += head; if (remaining && i + 1 < spans.length) { shortId += '-'; } else { break; } } } return shortId; } /* * Take a "profile" object and return a slug based on: account, url and user. * This is currently used to create a filesystem-safe name to use for caching */ function profileSlug(o) { assert.object(o, 'o'); assert.string(o.account, 'o.account'); assert.string(o.url, 'o.url'); var slug; var account = o.account.replace(/[@]/g, '_'); var url = o.url.replace(/^https?:\/\//, ''); if (o.user) { var user = o.user.replace(/[@]/g, '_'); slug = format('%s-%s@%s', user, account, url); } else { slug = format('%s@%s', account, url); } slug = slug.replace(/[!#$%\^&\*:'"\?\/\\\.]/g, '_'); return slug; } /* * Return a filename-safe slug for the given string. */ function filenameSlug(str) { return str .toLowerCase() .replace(/ +/g, '-') .replace(/[^-\w]/g, ''); } /* * take some basic information and return node-cmdln options suitable for * tabula * * @param {String} (optional) opts.columnDefault Default value for `-o` * @param {String} (optional) opts.sortDefault Default value for `-s` * @param {String} (optional) opts.includeLong Include `-l` option * @return {Array} Array of cmdln options objects */ function getCliTableOptions(opts) { opts = opts || {}; assert.object(opts, 'opts'); assert.optionalString(opts.columnsDefault, 'opts.columnsDefault'); assert.optionalString(opts.sortDefault, 'opts.sortDefault'); assert.optionalBool(opts.includeLong, 'opts.includeLong'); var o; // construct the options object var tOpts = []; // header tOpts.push({ group: 'Output options' }); // -H tOpts.push({ names: ['H'], type: 'bool', help: 'Omit table header row.' }); // -o field1,field2,... o = { names: ['o'], type: 'string', help: 'Specify fields (columns) to output.', helpArg: 'field1,...' }; if (opts.columnsDefault) o.default = opts.columnsDefault; tOpts.push(o); // -l, --long if (opts.includeLong) { tOpts.push({ names: ['long', 'l'], type: 'bool', help: 'Long/wider output. Ignored if "-o ..." is used.' }); } // -s field1,field2,... o = { names: ['s'], type: 'string', help: 'Sort on the given fields.', helpArg: 'field1,...' }; if (opts.sortDefault) { o.default = opts.sortDefault; o.help = format('%s Default is "%s".', o.help, opts.sortDefault); } tOpts.push(o); // -j, --json tOpts.push({ names: ['json', 'j'], type: 'bool', help: 'JSON output.' }); return tOpts; } /** * Prompt a user for a y/n answer. * * cb('y') user entered in the affirmative * cb('n') user entered in the negative * cb(false) user ^C'd * * Dev Note: Borrowed from imgadm's common.js. If this starts showing issues, * we should consider using the npm 'read' module. */ function promptYesNo(opts_, cb) { assert.object(opts_, 'opts'); assert.string(opts_.msg, 'opts.msg'); assert.optionalString(opts_.default, 'opts.default'); var opts = objCopy(opts_); // Setup stdout and stdin to talk to the controlling terminal if // process.stdout or process.stdin is not a TTY. var stdout; if (opts.stdout) { stdout = opts.stdout; } else if (process.stdout.isTTY) { stdout = process.stdout; } else { opts.stdout_fd = fs.openSync('/dev/tty', 'r+'); stdout = opts.stdout = new tty.WriteStream(opts.stdout_fd); } var stdin; if (opts.stdin) { stdin = opts.stdin; } else if (process.stdin.isTTY) { stdin = process.stdin; } else { opts.stdin_fd = fs.openSync('/dev/tty', 'r+'); stdin = opts.stdin = new tty.ReadStream(opts.stdin_fd); } stdout.write(opts.msg); stdin.setEncoding('utf8'); stdin.setRawMode(true); stdin.resume(); var input = ''; stdin.on('data', onData); function postInput() { stdout.write('\n'); stdin.setRawMode(false); stdin.pause(); stdin.removeListener('data', onData); } function finish(rv) { if (opts.stdout_fd !== undefined) { stdout.end(); delete opts.stdout_fd; } if (opts.stdin_fd !== undefined) { stdin.end(); delete opts.stdin_fd; } cb(rv); } function onData(ch) { ch = ch + ''; switch (ch) { case '\n': case '\r': case '\u0004': // EOT. They've finished typing their answer postInput(); var answer = input.toLowerCase(); if (answer === '' && opts.default) { finish(opts.default); } else if (answer === 'yes' || answer === 'y') { finish('y'); } else if (answer === 'no' || answer === 'n') { finish('n'); } else { stdout.write('Please enter "y", "yes", "n" or "no".\n'); promptYesNo(opts, cb); return; } break; case '\u0003': // Ctrl C postInput(); finish(false); break; case '\u007f': // DEL input = input.slice(0, -1); stdout.clearLine(); stdout.cursorTo(0); stdout.write(opts.msg); stdout.write(input); break; default: // Rule out special ASCII chars. var code = ch.charCodeAt(0); if (0 <= code && code <= 31) { break; } // More plaintext characters stdout.write(ch); input += ch; break; } } } /* * Prompt and wait for or Ctrl+C. Usage: * * common.promptEnter('Press to re-edit, Ctrl+C to abort.', * function (err) { * if (err) { * // User hit Ctrl+C * } else { * // User hit Enter * } * } * ); */ function promptEnter(prompt, cb) { read({ prompt: prompt }, function (err, result, isDefault) { cb(err); }); } /* * Prompt the user for a value. * * @params field {Object} * - field.desc {String} Optional. A description of the field to print * before prompting. * - field.key {String} The field name. Used as the prompt. * - field.default Optional default value. * - field.validate {Function} Optional. A validation/manipulation * function of the form: * function (value, cb) * which should callback with * cb([, []]) * examples: * cb(new Error('value is not a number')); * cb(); // value is fine as is * cb(null, Math.floor(Number(value))); // manip to a floored int * - field.required {Boolean} Optional. If `field.validate` is not * given, `required=true` will provide a validate func that requires * a value. * @params cb {Function} `function (err, value)` * If the user aborted, the `err` will be whatever the [read * package](https://www.npmjs.com/package/read) returns, i.e. a * string "cancelled". */ function promptField(field, cb) { var wrap = wordwrap(Math.min(process.stdout.columns, 80)); var validate = field.validate; if (!validate && field.required) { validate = function (value, validateCb) { if (!value) { validateCb(new Error(format('A value for "%s" is required.', field.key))); } else { validateCb(); } }; } function attempt(next) { read({ // read/readline prompting messes up width with ANSI codes here. prompt: field.key + ':', default: field.default, silent: field.password, edit: true }, function (err, result, isDefault) { if (err) { return cb(err); } var value = result.trim(); if (!validate) { return cb(null, value); } validate(value, function (validationErr, newValue) { if (validationErr) { console.log(ansiStylize( wrap(validationErr.message), 'red')); attempt(); } else { if (newValue !== undefined) { value = newValue; } cb(null, value); } }); }); } if (field.desc) { // Wrap, if no newlines. var wrapped = field.desc; if (field.desc.indexOf('\n') === -1) { wrapped = wrap(field.desc); } // Bold up to the first period, or all of it, if no period. var periodIdx = wrapped.indexOf('.'); if (periodIdx !== -1) { console.log( ansiStylize(wrapped.slice(0, periodIdx + 1), 'bold') + wrapped.slice(periodIdx + 1)); } else { console.log(ansiStylize(wrap(field.desc), 'bold')); } } attempt(); } /** * A utility method to unlock a private key on a TritonApi client instance, * if necessary. * * If the client's key is locked, this will prompt for the passphrase on the * TTY (via the `getpass` module) and attempt to unlock. * * @param opts {Object} * - opts.tritonapi {Object} An `.init()`ialized TritonApi instance. * @param cb {Function} `function (err)` */ function promptPassphraseUnlockKey(opts, cb) { assert.object(opts.tritonapi, 'opts.tritonapi'); var kp = opts.tritonapi.keyPair; if (!kp) { cb(new errors.InternalError('TritonApi instance given to ' + 'promptPassphraseUnlockKey is not initialized')); return; } if (!kp.isLocked()) { cb(); return; } var keyDesc; if (kp.source !== undefined) { keyDesc = kp.source; } else if (kp.comment !== undefined && kp.comment.length > 1) { keyDesc = kp.getPublicKey().type.toUpperCase() + ' key for ' + kp.comment; } else { keyDesc = kp.getPublicKey().type.toUpperCase() + ' key ' + kp.getKeyId(); } var getpassOpts = { prompt: 'Enter passphrase for ' + keyDesc }; var tryPass = function (err, pass) { if (err) { cb(err); return; } try { kp.unlock(pass); } catch (unlockErr) { getpassOpts.prompt = 'Bad passphrase, try again for ' + keyDesc; getpass.getPass(getpassOpts, tryPass); return; } cb(null); }; getpass.getPass(getpassOpts, tryPass); } /* * A utility for the `triton` CLI subcommands to `init()`ialize a * `tritonapi` instance and ensure that the profile's key is unlocked * (prompting on a TTY if necessary). This is typically the CLI's * `tritonapi` instance, but a `tritonapi` can also be passed in * directly. * * @param opts.cli {Object} * @param opts.tritonapi {Object} * @param cb {Function} `function (err)` */ function cliSetupTritonApi(opts, cb) { assert.optionalObject(opts.cli, 'opts.cli'); assert.optionalObject(opts.tritonapi, 'opts.tritonapi'); var tritonapi = opts.tritonapi || opts.cli.tritonapi; assert.object(tritonapi, 'tritonapi'); tritonapi.init(function (initErr) { if (initErr) { cb(initErr); return; } promptPassphraseUnlockKey({ tritonapi: tritonapi }, function (keyErr) { cb(keyErr); }); }); } /** * Edit the given text in $EDITOR (defaulting to `vi`) and return the edited * text. * * This callback with `cb(err, updatedText, changed)` where `changed` * is a boolean true if the text was changed. */ function editInEditor(opts, cb) { assert.string(opts.text, 'opts.text'); assert.optionalString(opts.filename, 'opts.filename'); assert.optionalObject(opts.log, 'opts.log'); assert.func(cb, 'cb'); var tmpPath = path.resolve(os.tmpDir(), format('triton-%s-edit-%s', process.pid, opts.filename || 'text')); fs.writeFileSync(tmpPath, opts.text, 'utf8'); var editor = process.env.EDITOR || '/usr/bin/vi'; var argv = argvFromLine(format('%s "%s"', editor, tmpPath)); if (opts.log) { opts.log.trace({argv: argv}, 'editInEditor argv'); } var kid = child_process.spawn(argv[0], argv.slice(1), {stdio: 'inherit'}); kid.on('exit', function (code, signal) { if (code || signal) { cb(new errors.TritonError(format( 'editor terminated abnormally: argv=%j, code=%j, signal=%j', argv, code, signal))); return; } var afterText = fs.readFileSync(tmpPath, 'utf8'); fs.unlinkSync(tmpPath); cb(null, afterText, (afterText !== opts.text)); }); } // http://en.wikipedia.org/wiki/ANSI_escape_code#graphics // Suggested colors (some are unreadable in common cases): // - Good: cyan, yellow (limited use), bold, green, magenta, red // - Bad: blue (not visible on cmd.exe), grey (same color as background on // Solarized Dark theme from , see // issue #160) var colors = { 'bold' : [1, 22], 'italic' : [3, 23], 'underline' : [4, 24], 'inverse' : [7, 27], 'white' : [37, 39], 'grey' : [90, 39], 'black' : [30, 39], 'blue' : [34, 39], 'cyan' : [36, 39], 'green' : [32, 39], 'magenta' : [35, 39], 'red' : [31, 39], 'yellow' : [33, 39] }; function ansiStylize(str, color) { if (!str) return ''; var codes = colors[color]; if (codes) { return '\033[' + codes[0] + 'm' + str + '\033[' + codes[1] + 'm'; } else { return str; } } /* * Style the given string with ANSI style codes *if stdout is a TTY*. */ function ansiStylizeTty(str, color) { if (!process.stdout.isTTY) { return str; } else { return ansiStylize(str, color); } } function indent(s, indentation) { if (!indentation) { indentation = ' '; } var lines = s.split(/\r?\n/g); return indentation + lines.join('\n' + indentation); } // http://perldoc.perl.org/functions/chomp.html function chomp(s) { if (s.length) { while (s.slice(-1) === '\n') { s = s.slice(0, -1); } } return s; } /* * Generate a random password of the specified length (default 20 chars) * using ASCII printable, non-space chars: ASCII 33-126 (inclusive). * * No idea if this is crypto-sound. Doubt it. * * This needs to pass UFDS's "insufficientPasswordQuality". This actually * depends on the pwdcheckquality configurable JS function configured for * the datacenter. By default that is from: * https://github.com/joyent/sdc-ufds/blob/master/data/bootstrap.ldif.in * which at the time of writing requires at least a number and a letter. */ function generatePassword(opts) { assert.optionalObject(opts, 'opts'); opts = opts || {}; assert.optionalNumber(opts.len, 'opts.len'); var buf = crypto.randomBytes(opts.len || 20); var min = 33; var max = 126; var chars = []; for (var i = 0; i < buf.length; i++) { var num = Math.round(((buf[i] / 0xff) * (max - min)) + min); chars.push(String.fromCharCode(num)); } var pwd = chars.join(''); // "quality" checks if (!/[a-zA-Z]+/.test(pwd) || !/[0-9]+/.test(pwd)) { // Try again. return generatePassword(opts); } else { return pwd; } } /** * Convenience wrapper around `child_process.exec`, mostly oriented to * run commands using pipes w/o having to deal with logging/error handling. * * @param args {Object} * - cmd {String} Required. The command to run. * - log {Bunyan Logger} Required. Use to log details at trace level. * - opts {Object} Optional. child_process.exec execution Options. * @param cb {Function} `function (err, stdout, stderr)` where `err` here is * an `errors.InternalError` wrapper around the child_process error. */ function execPlus(args, cb) { assert.object(args, 'args'); assert.string(args.cmd, 'args.cmd'); assert.object(args.log, 'args.log'); assert.optionalObject(args.opts, 'args.opts'); assert.func(cb); var cmd = args.cmd; var execOpts = args.opts || {}; var log = args.log; log.trace({exec: true, cmd: cmd}, 'exec start'); child_process.exec(cmd, execOpts, function execPlusCb(err, stdout, stderr) { log.trace({exec: true, cmd: cmd, err: err, stdout: stdout, stderr: stderr}, 'exec done'); if (err) { var msg = format( 'exec error:\n' + '\tcmd: %s\n' + '\texit status: %s\n' + '\tstdout:\n%s\n' + '\tstderr:\n%s', cmd, err.code, stdout.trim(), stderr.trim()); cb(new errors.InternalError(err, msg), stdout, stderr); } else { cb(null, stdout, stderr); } }); } function deepEqual(a, b) { try { assert.deepEqual(a, b); } catch (err) { return false; } return true; } /** * Resolve "~/..." and "~" to an absolute path. * * Limitations: * - This does not handle "~user/...". * - This depends on the HOME envvar being defined (%USERPROFILE% on Windows). */ function tildeSync(s) { var envvar = (process.platform === 'win32' ? 'USERPROFILE' : 'HOME'); var home = process.env[envvar]; if (!home) { throw new Error(format('cannot determine home dir: %s environment ' + 'variable is not defined', envvar)); } if (s === '~') { return home; } else if (s.slice(0, 2) === '~/' || (process.platform === 'win32' && s.slice(0, 2) === '~'+path.sep)) { return path.resolve(home, s.slice(2)); } else { return s; } } /** * Transform an array of 'key=value' CLI arguments to an object. * * - The use of '.' in the key allows sub-object assignment (only one level * deep). This can be disabled with `opts.disableDotted`. * - An attempt will be made the `JSON.parse` a given value, such that * booleans, numbers, objects, arrays can be specified; at the expense * of not being able to specify, e.g., a literal 'true' string. * If `opts.typeHintFromKey` states that a key is a string, this JSON.parse * is NOT done. * - An empty 'value' is transformed to `null`. Note that 'null' also * JSON.parse's as `null`. * * Example: * > objFromKeyValueArgs(['nm=foo', 'tag.blah=true', 'empty=', 'nada=null']); * { nm: 'foo', * tag: { blah: true }, * empty: null, * nada: null } * * @param args {Array} Array of string args to process. * @param opts {Object} Optional. * - @param disableDotted {Boolean} Optional. Set to true to disable * dotted keys. * - @param typeHintFromKey {Object} Optional. Type hints for input keys. * E.g. if parsing 'foo=false' and `typeHintFromKey={foo: 'string'}`, * then we do NOT parse it to a boolean `false`. * - @param {Array} validKeys: Optional array of strings or regexes * matching valid keys. By default all keys are valid. * - @param failOnEmptyValue {Boolean} Optional. If true, then a key with a * value that is the empty string throws an error. Default is false. */ function objFromKeyValueArgs(args, opts) { assert.arrayOfString(args, 'args'); assert.optionalObject(opts, 'opts'); opts = opts || {}; assert.optionalBool(opts.disableDotted, 'opts.disableDotted'); assert.optionalBool(opts.disableTypeConversions, 'opts.disableTypeConversions'); assert.optionalObject(opts.typeHintFromKey, opts.typeHintFromKey); assert.optionalBool(opts.failOnEmptyValue, 'opts.failOnEmptyValue'); var obj = {}; args.forEach(function (arg) { var parsedKeyValue = _parseKeyValue(arg, opts.validKeys, { typeHintFromKey: opts.typeHintFromKey, disableTypeConversions: opts.disableTypeConversions, failOnEmptyValue: opts.failOnEmptyValue }); if (opts.disableDotted) { obj[parsedKeyValue.key] = parsedKeyValue.value; } else { var dotted = strsplit(parsedKeyValue.key, '.', 2); if (dotted.length > 1) { if (!obj[dotted[0]]) { obj[dotted[0]] = {}; } obj[dotted[0]][dotted[1]] = parsedKeyValue.value; } else { obj[parsedKeyValue.key] = parsedKeyValue.value; } } }); return obj; } /** * Returns the time difference between the current time and the time * represented by "relativeTo" in milliseconds. It doesn't use the built-in * `Date` class internally, and instead uses a node facility that uses a * monotonic clock. Thus, the time difference computed is not subject to time * drifting due to e.g changes in the wall clock system time. * * @param {arrayOfNumber} relativeTo: an array representing the starting time as * returned by `process.hrtime()` from which to compute the * time difference. */ function monotonicTimeDiffMs(relativeTo) { assert.arrayOfNumber(relativeTo, 'relativeTo'); var diff = process.hrtime(relativeTo); var ms = (diff[0] * 1e3) + (diff[1] / 1e6); // in milliseconds return ms; } /* * Parse the given line into an argument vector, e.g. for use in sending to * `child_process.spawn(argv[0], argv.slice(1), ...)`. * * Translated from the Python `line2argv` in https://github.com/trentm/cmdln * See also the tests in "test/unit/argvFromLine.test.js". * * @throws {Error} if there are unbalanced quotes or some other parse failure. */ function argvFromLine(line) { assert.string(line, 'line'); var trimmed = line.trim(); var argv = []; var state = 'default'; var arg = null; // the current argument being parsed var i = -1; var WHITESPACE = { ' ': true, '\t': true, '\n': true, '\r': true // Other whitespace chars? }; while (true) { i += 1; if (i >= trimmed.length) { break; } var ch = trimmed[i]; // An escaped char always added to the arg. if (ch == '\\' && i+1 < trimmed.length) { if (arg === null) { arg = ''; } /* * Include the escaping backslash, unless it is escaping a quote * inside a quoted string. E.g.: * foo\Xbar => foo\Xbar * 'foo\'bar' => foo'bar * "foo\"bar" => foo"bar * * Note that cmdln.py's line2argv had a Windows-specific subtlety * here (dating to cmdln commit 87430930160f) that we are skipping * for now. */ if ((state === 'double-quoted' && trimmed[i+1] !== '"') || (state === 'single-quoted' && trimmed[i+1] !== '\'')) { arg += ch; } i += 1; arg += trimmed[i]; continue; } if (state === 'single-quoted') { if (ch === '\'') { state = 'default'; } else { arg += ch; } } else if (state === 'double-quoted') { if (ch === '"') { state = 'default'; } else { arg += ch; } } else if (state === 'default') { if (ch === '"') { if (arg === null) { arg = ''; } state = 'double-quoted'; } else if (ch === '\'') { if (arg === null) { arg = ''; } state = 'single-quoted'; } else if (WHITESPACE.hasOwnProperty(ch)) { if (arg !== null) { argv.push(arg); } arg = null; } else { if (arg === null) { arg = ''; } arg += ch; } } } if (arg !== null) { argv.push(arg); } /* * Note: cmdln.py's line2argv would not throw this error on Windows, i.e. * allowing unclosed quoted-strings. This impl. is not following that lead. */ if (state !== 'default') { throw new Error(format('unfinished %s segment in line: %j', state, line)); } return argv; } /* * Read stdin in and callback with it as a string * * @param {Function} cb - callback in the form `function (str) {}` */ function readStdin(cb) { assert.func(cb, 'cb'); var stdin = ''; process.stdin.setEncoding('utf8'); process.stdin.resume(); process.stdin.on('data', function stdinOnData(chunk) { stdin += chunk; }); process.stdin.on('end', function stdinOnEnd() { cb(stdin); }); } /* * Validate an object of values against an object of types. * * Example: * var input = { * foo: 'hello', * bar: 42, * baz: true * }; * var valid = { * foo: 'string', * bar: 'number', * baz: 'boolean' * } * validateObject(input, valid); * // no error is thrown * * All keys in `input` are check for their matching counterparts in `valid`. * If the key is not found in `valid`, or the type specified for the key in * `valid` doesn't match the type of the value in `input` an error is thrown. * Also an error is thrown (optionally, enabled by default) if the input object * is empty. Note that any keys found in `valid` not found in `input` are not * considered an error. * * @param {Object} input - Required. Input object of values. * @param {Object} valid - Required. Validation object of types. * @param {Object} opts: Optional * - @param {Boolean} allowEmptyInput - don't consider an empty * input object an error * @throws {Error} if the input object contains a key not found in the * validation object */ function validateObject(input, valid, opts) { opts = opts || {}; assert.object(input, 'input'); assert.object(valid, 'valid'); assert.object(opts, 'opts'); assert.optionalBool(opts.allowEmptyInput, 'opts.allowEmptyInput'); var validFields = Object.keys(valid).sort().join(', '); var i = 0; Object.keys(input).forEach(function (key) { var value = input[key]; var type = valid[key]; if (!type) { throw new errors.UsageError(format('unknown or ' + 'unupdateable field: %s (updateable fields are: %s)', key, validFields)); } assert.string(type, 'type'); if (typeof (value) !== type) { throw new errors.UsageError(format('field "%s" must be ' + 'of type "%s", but got a value of type "%s"', key, type, typeof (value))); } i++; }); if (i === 0 && !opts.allowEmptyInput) { throw new errors.UsageError('Input object must not be empty'); } } /* * Convert an IPv4 address (as a string) to a number */ function ipv4ToLong(ip) { var l = 0; var spl; assert.string(ip, 'ip'); spl = ip.split('.'); assert.equal(spl.length, 4, 'ip octet length'); spl.forEach(function processIpOctet(octet) { octet = parseInt(octet, 10); assert.number(octet, 'octet'); assert(octet >= 0, 'octet >= 0'); assert(octet < 256, 'octet < 256'); l <<= 8; l += octet; }); return l; } /* * Parse the input from the `--nics ` CLI argument. * * @param a {Array} The array of strings formatted as key=value * ex: ['ipv4_uuid=1234', 'ipv4_ips=1.2.3.4|5.6.7.8'] * @return {Object} A network object. From the example above: * { * "ipv4_uuid": 1234, * "ipv4_ips": [ * "1.2.3.4", * "5.6.7.8" * ] * } * Note: "1234" is used as the UUID for this example, but would actually cause * `parseNicStr` to throw as it is not a valid UUID. */ function parseNicStr(nic) { assert.arrayOfString(nic); var obj = objFromKeyValueArgs(nic, { disableDotted: true, typeHintFromKey: NETWORK_OBJECT_FIELDS, validKeys: Object.keys(NETWORK_OBJECT_FIELDS) }); if (!obj.ipv4_uuid) { throw new errors.UsageError( 'ipv4_uuid must be specified in network object'); } if (obj.ipv4_ips) { obj.ipv4_ips = obj.ipv4_ips.split('|'); } assert.uuid(obj.ipv4_uuid, 'obj.ipv4_uuid'); assert.optionalArrayOfString(obj.ipv4_ips, 'obj.ipv4_ips'); /* * Only 1 IP address may be specified at this time. In the future, this * limitation should be removed. */ if (obj.ipv4_ips && obj.ipv4_ips.length !== 1) { throw new errors.UsageError('only 1 ipv4_ip may be specified'); } return obj; } /* * Return a short image string that represents the given image object. * * @param img {Object} The image object. * @returns {String} A network object. E.g. * 'a6cf222d-73f4-414c-a427-5c238ef8e1b7 (jillmin@1.0.0)' */ function imageRepr(img) { assert.object(img); return format('%s (%s@%s)', img.id, img.name, img.version); } //---- exports module.exports = { objCopy: objCopy, deepObjCopy: deepObjCopy, objMerge: objMerge, zeroPad: zeroPad, boolFromString: boolFromString, jsonStream: jsonStream, longAgo: longAgo, isUUID: isUUID, humanDurationFromMs: humanDurationFromMs, humanSizeFromBytes: humanSizeFromBytes, capitalize: capitalize, normShortId: normShortId, uuidToShortId: uuidToShortId, profileSlug: profileSlug, filenameSlug: filenameSlug, getCliTableOptions: getCliTableOptions, promptYesNo: promptYesNo, promptEnter: promptEnter, promptField: promptField, promptPassphraseUnlockKey: promptPassphraseUnlockKey, cliSetupTritonApi: cliSetupTritonApi, editInEditor: editInEditor, ansiStylize: ansiStylize, ansiStylizeTty: ansiStylizeTty, indent: indent, chomp: chomp, generatePassword: generatePassword, execPlus: execPlus, deepEqual: deepEqual, tildeSync: tildeSync, objFromKeyValueArgs: objFromKeyValueArgs, argvFromLine: argvFromLine, jsonPredFromKv: jsonPredFromKv, monotonicTimeDiffMs: monotonicTimeDiffMs, readStdin: readStdin, validateObject: validateObject, ipv4ToLong: ipv4ToLong, parseNicStr: parseNicStr, imageRepr: imageRepr }; // vim: set softtabstop=4 shiftwidth=4: