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/* * lib/jsprim.js: utilities for primitive JavaScript types */ var mod_assert = require('assert-plus'); var mod_util = require('util'); var mod_extsprintf = require('extsprintf'); var mod_verror = require('verror'); var mod_jsonschema = require('json-schema'); /* * Public interface */ exports.deepCopy = deepCopy; exports.deepEqual = deepEqual; exports.isEmpty = isEmpty; exports.hasKey = hasKey; exports.forEachKey = forEachKey; exports.pluck = pluck; exports.flattenObject = flattenObject; exports.flattenIter = flattenIter; exports.validateJsonObject = validateJsonObjectJS; exports.validateJsonObjectJS = validateJsonObjectJS; exports.randElt = randElt; exports.extraProperties = extraProperties; exports.mergeObjects = mergeObjects; exports.startsWith = startsWith; exports.endsWith = endsWith; exports.parseInteger = parseInteger; exports.iso8601 = iso8601; exports.rfc1123 = rfc1123; exports.parseDateTime = parseDateTime; exports.hrtimediff = hrtimeDiff; exports.hrtimeDiff = hrtimeDiff; exports.hrtimeAccum = hrtimeAccum; exports.hrtimeAdd = hrtimeAdd; exports.hrtimeNanosec = hrtimeNanosec; exports.hrtimeMicrosec = hrtimeMicrosec; exports.hrtimeMillisec = hrtimeMillisec; /* * Deep copy an acyclic *basic* Javascript object. This only handles basic * scalars (strings, numbers, booleans) and arbitrarily deep arrays and objects * containing these. This does *not* handle instances of other classes. */ function deepCopy(obj) { var ret, key; var marker = '__deepCopy'; if (obj && obj[marker]) throw (new Error('attempted deep copy of cyclic object')); if (obj && obj.constructor == Object) { ret = {}; obj[marker] = true; for (key in obj) { if (key == marker) continue; ret[key] = deepCopy(obj[key]); } delete (obj[marker]); return (ret); } if (obj && obj.constructor == Array) { ret = []; obj[marker] = true; for (key = 0; key < obj.length; key++) ret.push(deepCopy(obj[key])); delete (obj[marker]); return (ret); } /* * It must be a primitive type -- just return it. */ return (obj); } function deepEqual(obj1, obj2) { if (typeof (obj1) != typeof (obj2)) return (false); if (obj1 === null || obj2 === null || typeof (obj1) != 'object') return (obj1 === obj2); if (obj1.constructor != obj2.constructor) return (false); var k; for (k in obj1) { if (!obj2.hasOwnProperty(k)) return (false); if (!deepEqual(obj1[k], obj2[k])) return (false); } for (k in obj2) { if (!obj1.hasOwnProperty(k)) return (false); } return (true); } function isEmpty(obj) { var key; for (key in obj) return (false); return (true); } function hasKey(obj, key) { mod_assert.equal(typeof (key), 'string'); return (Object.prototype.hasOwnProperty.call(obj, key)); } function forEachKey(obj, callback) { for (var key in obj) { if (hasKey(obj, key)) { callback(key, obj[key]); } } } function pluck(obj, key) { mod_assert.equal(typeof (key), 'string'); return (pluckv(obj, key)); } function pluckv(obj, key) { if (obj === null || typeof (obj) !== 'object') return (undefined); if (obj.hasOwnProperty(key)) return (obj[key]); var i = key.indexOf('.'); if (i == -1) return (undefined); var key1 = key.substr(0, i); if (!obj.hasOwnProperty(key1)) return (undefined); return (pluckv(obj[key1], key.substr(i + 1))); } /* * Invoke callback(row) for each entry in the array that would be returned by * flattenObject(data, depth). This is just like flattenObject(data, * depth).forEach(callback), except that the intermediate array is never * created. */ function flattenIter(data, depth, callback) { doFlattenIter(data, depth, [], callback); } function doFlattenIter(data, depth, accum, callback) { var each; var key; if (depth === 0) { each = accum.slice(0); each.push(data); callback(each); return; } mod_assert.ok(data !== null); mod_assert.equal(typeof (data), 'object'); mod_assert.equal(typeof (depth), 'number'); mod_assert.ok(depth >= 0); for (key in data) { each = accum.slice(0); each.push(key); doFlattenIter(data[key], depth - 1, each, callback); } } function flattenObject(data, depth) { if (depth === 0) return ([ data ]); mod_assert.ok(data !== null); mod_assert.equal(typeof (data), 'object'); mod_assert.equal(typeof (depth), 'number'); mod_assert.ok(depth >= 0); var rv = []; var key; for (key in data) { flattenObject(data[key], depth - 1).forEach(function (p) { rv.push([ key ].concat(p)); }); } return (rv); } function startsWith(str, prefix) { return (str.substr(0, prefix.length) == prefix); } function endsWith(str, suffix) { return (str.substr( str.length - suffix.length, suffix.length) == suffix); } function iso8601(d) { if (typeof (d) == 'number') d = new Date(d); mod_assert.ok(d.constructor === Date); return (mod_extsprintf.sprintf('%4d-%02d-%02dT%02d:%02d:%02d.%03dZ', d.getUTCFullYear(), d.getUTCMonth() + 1, d.getUTCDate(), d.getUTCHours(), d.getUTCMinutes(), d.getUTCSeconds(), d.getUTCMilliseconds())); } var RFC1123_MONTHS = [ 'Jan', 'Feb', 'Mar', 'Apr', 'May', 'Jun', 'Jul', 'Aug', 'Sep', 'Oct', 'Nov', 'Dec']; var RFC1123_DAYS = [ 'Sun', 'Mon', 'Tue', 'Wed', 'Thu', 'Fri', 'Sat']; function rfc1123(date) { return (mod_extsprintf.sprintf('%s, %02d %s %04d %02d:%02d:%02d GMT', RFC1123_DAYS[date.getUTCDay()], date.getUTCDate(), RFC1123_MONTHS[date.getUTCMonth()], date.getUTCFullYear(), date.getUTCHours(), date.getUTCMinutes(), date.getUTCSeconds())); } /* * Parses a date expressed as a string, as either a number of milliseconds since * the epoch or any string format that Date accepts, giving preference to the * former where these two sets overlap (e.g., small numbers). */ function parseDateTime(str) { /* * This is irritatingly implicit, but significantly more concise than * alternatives. The "+str" will convert a string containing only a * number directly to a Number, or NaN for other strings. Thus, if the * conversion succeeds, we use it (this is the milliseconds-since-epoch * case). Otherwise, we pass the string directly to the Date * constructor to parse. */ var numeric = +str; if (!isNaN(numeric)) { return (new Date(numeric)); } else { return (new Date(str)); } } /* * Number.*_SAFE_INTEGER isn't present before node v0.12, so we hardcode * the ES6 definitions here, while allowing for them to someday be higher. */ var MAX_SAFE_INTEGER = Number.MAX_SAFE_INTEGER || 9007199254740991; var MIN_SAFE_INTEGER = Number.MIN_SAFE_INTEGER || -9007199254740991; /* * Default options for parseInteger(). */ var PI_DEFAULTS = { base: 10, allowSign: true, allowPrefix: false, allowTrailing: false, allowImprecise: false, trimWhitespace: false, leadingZeroIsOctal: false }; var CP_0 = 0x30; var CP_9 = 0x39; var CP_A = 0x41; var CP_B = 0x42; var CP_O = 0x4f; var CP_T = 0x54; var CP_X = 0x58; var CP_Z = 0x5a; var CP_a = 0x61; var CP_b = 0x62; var CP_o = 0x6f; var CP_t = 0x74; var CP_x = 0x78; var CP_z = 0x7a; var PI_CONV_DEC = 0x30; var PI_CONV_UC = 0x37; var PI_CONV_LC = 0x57; /* * A stricter version of parseInt() that provides options for changing what * is an acceptable string (for example, disallowing trailing characters). */ function parseInteger(str, uopts) { mod_assert.string(str, 'str'); mod_assert.optionalObject(uopts, 'options'); var baseOverride = false; var options = PI_DEFAULTS; if (uopts) { baseOverride = hasKey(uopts, 'base'); options = mergeObjects(options, uopts); mod_assert.number(options.base, 'options.base'); mod_assert.ok(options.base >= 2, 'options.base >= 2'); mod_assert.ok(options.base <= 36, 'options.base <= 36'); mod_assert.bool(options.allowSign, 'options.allowSign'); mod_assert.bool(options.allowPrefix, 'options.allowPrefix'); mod_assert.bool(options.allowTrailing, 'options.allowTrailing'); mod_assert.bool(options.allowImprecise, 'options.allowImprecise'); mod_assert.bool(options.trimWhitespace, 'options.trimWhitespace'); mod_assert.bool(options.leadingZeroIsOctal, 'options.leadingZeroIsOctal'); if (options.leadingZeroIsOctal) { mod_assert.ok(!baseOverride, '"base" and "leadingZeroIsOctal" are ' + 'mutually exclusive'); } } var c; var pbase = -1; var base = options.base; var start; var mult = 1; var value = 0; var idx = 0; var len = str.length; /* Trim any whitespace on the left side. */ if (options.trimWhitespace) { while (idx < len && isSpace(str.charCodeAt(idx))) { ++idx; } } /* Check the number for a leading sign. */ if (options.allowSign) { if (str[idx] === '-') { idx += 1; mult = -1; } else if (str[idx] === '+') { idx += 1; } } /* Parse the base-indicating prefix if there is one. */ if (str[idx] === '0') { if (options.allowPrefix) { pbase = prefixToBase(str.charCodeAt(idx + 1)); if (pbase !== -1 && (!baseOverride || pbase === base)) { base = pbase; idx += 2; } } if (pbase === -1 && options.leadingZeroIsOctal) { base = 8; } } /* Parse the actual digits. */ for (start = idx; idx < len; ++idx) { c = translateDigit(str.charCodeAt(idx)); if (c !== -1 && c < base) { value *= base; value += c; } else { break; } } /* If we didn't parse any digits, we have an invalid number. */ if (start === idx) { return (new Error('invalid number: ' + JSON.stringify(str))); } /* Trim any whitespace on the right side. */ if (options.trimWhitespace) { while (idx < len && isSpace(str.charCodeAt(idx))) { ++idx; } } /* Check for trailing characters. */ if (idx < len && !options.allowTrailing) { return (new Error('trailing characters after number: ' + JSON.stringify(str.slice(idx)))); } /* If our value is 0, we return now, to avoid returning -0. */ if (value === 0) { return (0); } /* Calculate our final value. */ var result = value * mult; /* * If the string represents a value that cannot be precisely represented * by JavaScript, then we want to check that: * * - We never increased the value past MAX_SAFE_INTEGER * - We don't make the result negative and below MIN_SAFE_INTEGER * * Because we only ever increment the value during parsing, there's no * chance of moving past MAX_SAFE_INTEGER and then dropping below it * again, losing precision in the process. This means that we only need * to do our checks here, at the end. */ if (!options.allowImprecise && (value > MAX_SAFE_INTEGER || result < MIN_SAFE_INTEGER)) { return (new Error('number is outside of the supported range: ' + JSON.stringify(str.slice(start, idx)))); } return (result); } /* * Interpret a character code as a base-36 digit. */ function translateDigit(d) { if (d >= CP_0 && d <= CP_9) { /* '0' to '9' -> 0 to 9 */ return (d - PI_CONV_DEC); } else if (d >= CP_A && d <= CP_Z) { /* 'A' - 'Z' -> 10 to 35 */ return (d - PI_CONV_UC); } else if (d >= CP_a && d <= CP_z) { /* 'a' - 'z' -> 10 to 35 */ return (d - PI_CONV_LC); } else { /* Invalid character code */ return (-1); } } /* * Test if a value matches the ECMAScript definition of trimmable whitespace. */ function isSpace(c) { return (c === 0x20) || (c >= 0x0009 && c <= 0x000d) || (c === 0x00a0) || (c === 0x1680) || (c === 0x180e) || (c >= 0x2000 && c <= 0x200a) || (c === 0x2028) || (c === 0x2029) || (c === 0x202f) || (c === 0x205f) || (c === 0x3000) || (c === 0xfeff); } /* * Determine which base a character indicates (e.g., 'x' indicates hex). */ function prefixToBase(c) { if (c === CP_b || c === CP_B) { /* 0b/0B (binary) */ return (2); } else if (c === CP_o || c === CP_O) { /* 0o/0O (octal) */ return (8); } else if (c === CP_t || c === CP_T) { /* 0t/0T (decimal) */ return (10); } else if (c === CP_x || c === CP_X) { /* 0x/0X (hexadecimal) */ return (16); } else { /* Not a meaningful character */ return (-1); } } function validateJsonObjectJS(schema, input) { var report = mod_jsonschema.validate(input, schema); if (report.errors.length === 0) return (null); /* Currently, we only do anything useful with the first error. */ var error = report.errors[0]; /* The failed property is given by a URI with an irrelevant prefix. */ var propname = error['property']; var reason = error['message'].toLowerCase(); var i, j; /* * There's at least one case where the property error message is * confusing at best. We work around this here. */ if ((i = reason.indexOf('the property ')) != -1 && (j = reason.indexOf(' is not defined in the schema and the ' + 'schema does not allow additional properties')) != -1) { i += 'the property '.length; if (propname === '') propname = reason.substr(i, j - i); else propname = propname + '.' + reason.substr(i, j - i); reason = 'unsupported property'; } var rv = new mod_verror.VError('property "%s": %s', propname, reason); rv.jsv_details = error; return (rv); } function randElt(arr) { mod_assert.ok(Array.isArray(arr) && arr.length > 0, 'randElt argument must be a non-empty array'); return (arr[Math.floor(Math.random() * arr.length)]); } function assertHrtime(a) { mod_assert.ok(a[0] >= 0 && a[1] >= 0, 'negative numbers not allowed in hrtimes'); mod_assert.ok(a[1] < 1e9, 'nanoseconds column overflow'); } /* * Compute the time elapsed between hrtime readings A and B, where A is later * than B. hrtime readings come from Node's process.hrtime(). There is no * defined way to represent negative deltas, so it's illegal to diff B from A * where the time denoted by B is later than the time denoted by A. If this * becomes valuable, we can define a representation and extend the * implementation to support it. */ function hrtimeDiff(a, b) { assertHrtime(a); assertHrtime(b); mod_assert.ok(a[0] > b[0] || (a[0] == b[0] && a[1] >= b[1]), 'negative differences not allowed'); var rv = [ a[0] - b[0], 0 ]; if (a[1] >= b[1]) { rv[1] = a[1] - b[1]; } else { rv[0]--; rv[1] = 1e9 - (b[1] - a[1]); } return (rv); } /* * Convert a hrtime reading from the array format returned by Node's * process.hrtime() into a scalar number of nanoseconds. */ function hrtimeNanosec(a) { assertHrtime(a); return (Math.floor(a[0] * 1e9 + a[1])); } /* * Convert a hrtime reading from the array format returned by Node's * process.hrtime() into a scalar number of microseconds. */ function hrtimeMicrosec(a) { assertHrtime(a); return (Math.floor(a[0] * 1e6 + a[1] / 1e3)); } /* * Convert a hrtime reading from the array format returned by Node's * process.hrtime() into a scalar number of milliseconds. */ function hrtimeMillisec(a) { assertHrtime(a); return (Math.floor(a[0] * 1e3 + a[1] / 1e6)); } /* * Add two hrtime readings A and B, overwriting A with the result of the * addition. This function is useful for accumulating several hrtime intervals * into a counter. Returns A. */ function hrtimeAccum(a, b) { assertHrtime(a); assertHrtime(b); /* * Accumulate the nanosecond component. */ a[1] += b[1]; if (a[1] >= 1e9) { /* * The nanosecond component overflowed, so carry to the seconds * field. */ a[0]++; a[1] -= 1e9; } /* * Accumulate the seconds component. */ a[0] += b[0]; return (a); } /* * Add two hrtime readings A and B, returning the result as a new hrtime array. * Does not modify either input argument. */ function hrtimeAdd(a, b) { assertHrtime(a); var rv = [ a[0], a[1] ]; return (hrtimeAccum(rv, b)); } /* * Check an object for unexpected properties. Accepts the object to check, and * an array of allowed property names (strings). Returns an array of key names * that were found on the object, but did not appear in the list of allowed * properties. If no properties were found, the returned array will be of * zero length. */ function extraProperties(obj, allowed) { mod_assert.ok(typeof (obj) === 'object' && obj !== null, 'obj argument must be a non-null object'); mod_assert.ok(Array.isArray(allowed), 'allowed argument must be an array of strings'); for (var i = 0; i < allowed.length; i++) { mod_assert.ok(typeof (allowed[i]) === 'string', 'allowed argument must be an array of strings'); } return (Object.keys(obj).filter(function (key) { return (allowed.indexOf(key) === -1); })); } /* * Given three sets of properties "provided" (may be undefined), "overrides" * (required), and "defaults" (may be undefined), construct an object containing * the union of these sets with "overrides" overriding "provided", and * "provided" overriding "defaults". None of the input objects are modified. */ function mergeObjects(provided, overrides, defaults) { var rv, k; rv = {}; if (defaults) { for (k in defaults) rv[k] = defaults[k]; } if (provided) { for (k in provided) rv[k] = provided[k]; } if (overrides) { for (k in overrides) rv[k] = overrides[k]; } return (rv); }