@sentry/bundler-plugin-core/dist/esm/index.mjs.map

Sentry Bundler Plugin Core

{"version":3,"file":"index.mjs","sources":["../../node_modules/@sentry/utils/build/esm/is.js","../../node_modules/@sentry/utils/build/esm/string.js","../../node_modules/@sentry/utils/build/esm/version.js","../../node_modules/@sentry/utils/build/esm/worldwide.js","../../node_modules/@sentry/utils/build/esm/browser.js","../../node_modules/@sentry/utils/build/esm/debug-build.js","../../node_modules/@sentry/utils/build/esm/logger.js","../../node_modules/@sentry/utils/build/esm/dsn.js","../../node_modules/@sentry/utils/build/esm/error.js","../../node_modules/@sentry/utils/build/esm/object.js","../../node_modules/@sentry/utils/build/esm/stacktrace.js","../../node_modules/@sentry/utils/build/esm/instrument/handlers.js","../../node_modules/@sentry/utils/build/esm/time.js","../../node_modules/@sentry/utils/build/esm/instrument/globalError.js","../../node_modules/@sentry/utils/build/esm/instrument/globalUnhandledRejection.js","../../node_modules/@sentry/utils/build/esm/memo.js","../../node_modules/@sentry/utils/build/esm/misc.js","../../node_modules/@sentry/utils/build/esm/normalize.js","../../node_modules/@sentry/utils/build/esm/syncpromise.js","../../node_modules/@sentry/utils/build/esm/promisebuffer.js","../../node_modules/@sentry/utils/build/esm/node-stack-trace.js","../../node_modules/@sentry/utils/build/esm/baggage.js","../../node_modules/@sentry/utils/build/esm/tracing.js","../../node_modules/@sentry/utils/build/esm/envelope.js","../../node_modules/@sentry/utils/build/esm/clientreport.js","../../node_modules/@sentry/utils/build/esm/ratelimit.js","../../node_modules/@sentry/utils/build/esm/eventbuilder.js","../../node_modules/@sentry/utils/build/esm/propagationContext.js","../../node_modules/@sentry/core/build/esm/debug-build.js","../../node_modules/@sentry/core/build/esm/carrier.js","../../node_modules/@sentry/core/build/esm/session.js","../../node_modules/@sentry/core/build/esm/utils/spanOnScope.js","../../node_modules/@sentry/core/build/esm/scope.js","../../node_modules/@sentry/core/build/esm/defaultScopes.js","../../node_modules/@sentry/core/build/esm/asyncContext/stackStrategy.js","../../node_modules/@sentry/core/build/esm/asyncContext/index.js","../../node_modules/@sentry/core/build/esm/currentScopes.js","../../node_modules/@sentry/core/build/esm/metrics/metric-summary.js","../../node_modules/@sentry/core/build/esm/semanticAttributes.js","../../node_modules/@sentry/core/build/esm/tracing/spanstatus.js","../../node_modules/@sentry/core/build/esm/utils/spanUtils.js","../../node_modules/@sentry/core/build/esm/tracing/errors.js","../../node_modules/@sentry/core/build/esm/tracing/utils.js","../../node_modules/@sentry/core/build/esm/utils/hasTracingEnabled.js","../../node_modules/@sentry/core/build/esm/tracing/sentryNonRecordingSpan.js","../../node_modules/@sentry/core/build/esm/utils/handleCallbackErrors.js","../../node_modules/@sentry/core/build/esm/constants.js","../../node_modules/@sentry/core/build/esm/tracing/dynamicSamplingContext.js","../../node_modules/@sentry/core/build/esm/tracing/logSpans.js","../../node_modules/@sentry/core/build/esm/utils/parseSampleRate.js","../../node_modules/@sentry/core/build/esm/tracing/sampling.js","../../node_modules/@sentry/core/build/esm/envelope.js","../../node_modules/@sentry/core/build/esm/tracing/measurement.js","../../node_modules/@sentry/core/build/esm/tracing/sentrySpan.js","../../node_modules/@sentry/core/build/esm/tracing/trace.js","../../node_modules/@sentry/core/build/esm/eventProcessors.js","../../node_modules/@sentry/core/build/esm/utils/applyScopeDataToEvent.js","../../node_modules/@sentry/core/build/esm/utils/prepareEvent.js","../../node_modules/@sentry/core/build/esm/sessionflusher.js","../../node_modules/@sentry/core/build/esm/api.js","../../node_modules/@sentry/core/build/esm/integration.js","../../node_modules/@sentry/core/build/esm/baseclient.js","../../node_modules/@sentry/core/build/esm/checkin.js","../../node_modules/@sentry/core/build/esm/server-runtime-client.js","../../node_modules/@sentry/core/build/esm/transports/base.js","../../node_modules/@sentry/core/build/esm/utils/sdkMetadata.js","../../src/utils.ts","../../src/options-mapping.ts","../../src/logger.ts","../../src/sentry/transports.ts","../../src/sentry/telemetry.ts","../../src/debug-id-upload.ts","../../src/build-plugin-manager.ts","../../src/index.ts"],"sourcesContent":["// eslint-disable-next-line @typescript-eslint/unbound-method\nconst objectToString = Object.prototype.toString;\n\n/**\n * Checks whether given value's type is one of a few Error or Error-like\n * {@link isError}.\n *\n * @param wat A value to be checked.\n * @returns A boolean representing the result.\n */\nfunction isError(wat) {\n  switch (objectToString.call(wat)) {\n    case '[object Error]':\n    case '[object Exception]':\n    case '[object DOMException]':\n      return true;\n    default:\n      return isInstanceOf(wat, Error);\n  }\n}\n/**\n * Checks whether given value is an instance of the given built-in class.\n *\n * @param wat The value to be checked\n * @param className\n * @returns A boolean representing the result.\n */\nfunction isBuiltin(wat, className) {\n  return objectToString.call(wat) === `[object ${className}]`;\n}\n\n/**\n * Checks whether given value's type is ErrorEvent\n * {@link isErrorEvent}.\n *\n * @param wat A value to be checked.\n * @returns A boolean representing the result.\n */\nfunction isErrorEvent(wat) {\n  return isBuiltin(wat, 'ErrorEvent');\n}\n\n/**\n * Checks whether given value's type is DOMError\n * {@link isDOMError}.\n *\n * @param wat A value to be checked.\n * @returns A boolean representing the result.\n */\nfunction isDOMError(wat) {\n  return isBuiltin(wat, 'DOMError');\n}\n\n/**\n * Checks whether given value's type is DOMException\n * {@link isDOMException}.\n *\n * @param wat A value to be checked.\n * @returns A boolean representing the result.\n */\nfunction isDOMException(wat) {\n  return isBuiltin(wat, 'DOMException');\n}\n\n/**\n * Checks whether given value's type is a string\n * {@link isString}.\n *\n * @param wat A value to be checked.\n * @returns A boolean representing the result.\n */\nfunction isString(wat) {\n  return isBuiltin(wat, 'String');\n}\n\n/**\n * Checks whether given string is parameterized\n * {@link isParameterizedString}.\n *\n * @param wat A value to be checked.\n * @returns A boolean representing the result.\n */\nfunction isParameterizedString(wat) {\n  return (\n    typeof wat === 'object' &&\n    wat !== null &&\n    '__sentry_template_string__' in wat &&\n    '__sentry_template_values__' in wat\n  );\n}\n\n/**\n * Checks whether given value is a primitive (undefined, null, number, boolean, string, bigint, symbol)\n * {@link isPrimitive}.\n *\n * @param wat A value to be checked.\n * @returns A boolean representing the result.\n */\nfunction isPrimitive(wat) {\n  return wat === null || isParameterizedString(wat) || (typeof wat !== 'object' && typeof wat !== 'function');\n}\n\n/**\n * Checks whether given value's type is an object literal, or a class instance.\n * {@link isPlainObject}.\n *\n * @param wat A value to be checked.\n * @returns A boolean representing the result.\n */\nfunction isPlainObject(wat) {\n  return isBuiltin(wat, 'Object');\n}\n\n/**\n * Checks whether given value's type is an Event instance\n * {@link isEvent}.\n *\n * @param wat A value to be checked.\n * @returns A boolean representing the result.\n */\nfunction isEvent(wat) {\n  return typeof Event !== 'undefined' && isInstanceOf(wat, Event);\n}\n\n/**\n * Checks whether given value's type is an Element instance\n * {@link isElement}.\n *\n * @param wat A value to be checked.\n * @returns A boolean representing the result.\n */\nfunction isElement(wat) {\n  return typeof Element !== 'undefined' && isInstanceOf(wat, Element);\n}\n\n/**\n * Checks whether given value's type is an regexp\n * {@link isRegExp}.\n *\n * @param wat A value to be checked.\n * @returns A boolean representing the result.\n */\nfunction isRegExp(wat) {\n  return isBuiltin(wat, 'RegExp');\n}\n\n/**\n * Checks whether given value has a then function.\n * @param wat A value to be checked.\n */\nfunction isThenable(wat) {\n  // eslint-disable-next-line @typescript-eslint/no-unsafe-member-access\n  return Boolean(wat && wat.then && typeof wat.then === 'function');\n}\n\n/**\n * Checks whether given value's type is a SyntheticEvent\n * {@link isSyntheticEvent}.\n *\n * @param wat A value to be checked.\n * @returns A boolean representing the result.\n */\nfunction isSyntheticEvent(wat) {\n  return isPlainObject(wat) && 'nativeEvent' in wat && 'preventDefault' in wat && 'stopPropagation' in wat;\n}\n\n/**\n * Checks whether given value's type is an instance of provided constructor.\n * {@link isInstanceOf}.\n *\n * @param wat A value to be checked.\n * @param base A constructor to be used in a check.\n * @returns A boolean representing the result.\n */\nfunction isInstanceOf(wat, base) {\n  try {\n    return wat instanceof base;\n  } catch (_e) {\n    return false;\n  }\n}\n\n/**\n * Checks whether given value's type is a Vue ViewModel.\n *\n * @param wat A value to be checked.\n * @returns A boolean representing the result.\n */\nfunction isVueViewModel(wat) {\n  // Not using Object.prototype.toString because in Vue 3 it would read the instance's Symbol(Symbol.toStringTag) property.\n  return !!(typeof wat === 'object' && wat !== null && ((wat ).__isVue || (wat )._isVue));\n}\n\nexport { isDOMError, isDOMException, isElement, isError, isErrorEvent, isEvent, isInstanceOf, isParameterizedString, isPlainObject, isPrimitive, isRegExp, isString, isSyntheticEvent, isThenable, isVueViewModel };\n//# sourceMappingURL=is.js.map\n","import { isVueViewModel, isString, isRegExp } from './is.js';\n\n/**\n * Truncates given string to the maximum characters count\n *\n * @param str An object that contains serializable values\n * @param max Maximum number of characters in truncated string (0 = unlimited)\n * @returns string Encoded\n */\nfunction truncate(str, max = 0) {\n  if (typeof str !== 'string' || max === 0) {\n    return str;\n  }\n  return str.length <= max ? str : `${str.slice(0, max)}...`;\n}\n\n/**\n * This is basically just `trim_line` from\n * https://github.com/getsentry/sentry/blob/master/src/sentry/lang/javascript/processor.py#L67\n *\n * @param str An object that contains serializable values\n * @param max Maximum number of characters in truncated string\n * @returns string Encoded\n */\nfunction snipLine(line, colno) {\n  let newLine = line;\n  const lineLength = newLine.length;\n  if (lineLength <= 150) {\n    return newLine;\n  }\n  if (colno > lineLength) {\n    // eslint-disable-next-line no-param-reassign\n    colno = lineLength;\n  }\n\n  let start = Math.max(colno - 60, 0);\n  if (start < 5) {\n    start = 0;\n  }\n\n  let end = Math.min(start + 140, lineLength);\n  if (end > lineLength - 5) {\n    end = lineLength;\n  }\n  if (end === lineLength) {\n    start = Math.max(end - 140, 0);\n  }\n\n  newLine = newLine.slice(start, end);\n  if (start > 0) {\n    newLine = `'{snip} ${newLine}`;\n  }\n  if (end < lineLength) {\n    newLine += ' {snip}';\n  }\n\n  return newLine;\n}\n\n/**\n * Join values in array\n * @param input array of values to be joined together\n * @param delimiter string to be placed in-between values\n * @returns Joined values\n */\n// eslint-disable-next-line @typescript-eslint/no-explicit-any\nfunction safeJoin(input, delimiter) {\n  if (!Array.isArray(input)) {\n    return '';\n  }\n\n  const output = [];\n  // eslint-disable-next-line @typescript-eslint/prefer-for-of\n  for (let i = 0; i < input.length; i++) {\n    const value = input[i];\n    try {\n      // This is a hack to fix a Vue3-specific bug that causes an infinite loop of\n      // console warnings. This happens when a Vue template is rendered with\n      // an undeclared variable, which we try to stringify, ultimately causing\n      // Vue to issue another warning which repeats indefinitely.\n      // see: https://github.com/getsentry/sentry-javascript/pull/8981\n      if (isVueViewModel(value)) {\n        output.push('[VueViewModel]');\n      } else {\n        output.push(String(value));\n      }\n    } catch (e) {\n      output.push('[value cannot be serialized]');\n    }\n  }\n\n  return output.join(delimiter);\n}\n\n/**\n * Checks if the given value matches a regex or string\n *\n * @param value The string to test\n * @param pattern Either a regex or a string against which `value` will be matched\n * @param requireExactStringMatch If true, `value` must match `pattern` exactly. If false, `value` will match\n * `pattern` if it contains `pattern`. Only applies to string-type patterns.\n */\nfunction isMatchingPattern(\n  value,\n  pattern,\n  requireExactStringMatch = false,\n) {\n  if (!isString(value)) {\n    return false;\n  }\n\n  if (isRegExp(pattern)) {\n    return pattern.test(value);\n  }\n  if (isString(pattern)) {\n    return requireExactStringMatch ? value === pattern : value.includes(pattern);\n  }\n\n  return false;\n}\n\n/**\n * Test the given string against an array of strings and regexes. By default, string matching is done on a\n * substring-inclusion basis rather than a strict equality basis\n *\n * @param testString The string to test\n * @param patterns The patterns against which to test the string\n * @param requireExactStringMatch If true, `testString` must match one of the given string patterns exactly in order to\n * count. If false, `testString` will match a string pattern if it contains that pattern.\n * @returns\n */\nfunction stringMatchesSomePattern(\n  testString,\n  patterns = [],\n  requireExactStringMatch = false,\n) {\n  return patterns.some(pattern => isMatchingPattern(testString, pattern, requireExactStringMatch));\n}\n\nexport { isMatchingPattern, safeJoin, snipLine, stringMatchesSomePattern, truncate };\n//# sourceMappingURL=string.js.map\n","const SDK_VERSION = '8.30.0';\n\nexport { SDK_VERSION };\n//# sourceMappingURL=version.js.map\n","import { SDK_VERSION } from './version.js';\n\n/** Get's the global object for the current JavaScript runtime */\nconst GLOBAL_OBJ = globalThis ;\n\n/**\n * Returns a global singleton contained in the global `__SENTRY__[]` object.\n *\n * If the singleton doesn't already exist in `__SENTRY__`, it will be created using the given factory\n * function and added to the `__SENTRY__` object.\n *\n * @param name name of the global singleton on __SENTRY__\n * @param creator creator Factory function to create the singleton if it doesn't already exist on `__SENTRY__`\n * @param obj (Optional) The global object on which to look for `__SENTRY__`, if not `GLOBAL_OBJ`'s return value\n * @returns the singleton\n */\nfunction getGlobalSingleton(name, creator, obj) {\n  const gbl = (obj || GLOBAL_OBJ) ;\n  const __SENTRY__ = (gbl.__SENTRY__ = gbl.__SENTRY__ || {});\n  const versionedCarrier = (__SENTRY__[SDK_VERSION] = __SENTRY__[SDK_VERSION] || {});\n  return versionedCarrier[name] || (versionedCarrier[name] = creator());\n}\n\nexport { GLOBAL_OBJ, getGlobalSingleton };\n//# sourceMappingURL=worldwide.js.map\n","import { isString } from './is.js';\nimport { GLOBAL_OBJ } from './worldwide.js';\n\nconst WINDOW = GLOBAL_OBJ ;\n\nconst DEFAULT_MAX_STRING_LENGTH = 80;\n\n/**\n * Given a child DOM element, returns a query-selector statement describing that\n * and its ancestors\n * e.g. [HTMLElement] => body > div > input#foo.btn[name=baz]\n * @returns generated DOM path\n */\nfunction htmlTreeAsString(\n  elem,\n  options = {},\n) {\n  if (!elem) {\n    return '<unknown>';\n  }\n\n  // try/catch both:\n  // - accessing event.target (see getsentry/raven-js#838, #768)\n  // - `htmlTreeAsString` because it's complex, and just accessing the DOM incorrectly\n  // - can throw an exception in some circumstances.\n  try {\n    let currentElem = elem ;\n    const MAX_TRAVERSE_HEIGHT = 5;\n    const out = [];\n    let height = 0;\n    let len = 0;\n    const separator = ' > ';\n    const sepLength = separator.length;\n    let nextStr;\n    const keyAttrs = Array.isArray(options) ? options : options.keyAttrs;\n    const maxStringLength = (!Array.isArray(options) && options.maxStringLength) || DEFAULT_MAX_STRING_LENGTH;\n\n    while (currentElem && height++ < MAX_TRAVERSE_HEIGHT) {\n      nextStr = _htmlElementAsString(currentElem, keyAttrs);\n      // bail out if\n      // - nextStr is the 'html' element\n      // - the length of the string that would be created exceeds maxStringLength\n      //   (ignore this limit if we are on the first iteration)\n      if (nextStr === 'html' || (height > 1 && len + out.length * sepLength + nextStr.length >= maxStringLength)) {\n        break;\n      }\n\n      out.push(nextStr);\n\n      len += nextStr.length;\n      currentElem = currentElem.parentNode;\n    }\n\n    return out.reverse().join(separator);\n  } catch (_oO) {\n    return '<unknown>';\n  }\n}\n\n/**\n * Returns a simple, query-selector representation of a DOM element\n * e.g. [HTMLElement] => input#foo.btn[name=baz]\n * @returns generated DOM path\n */\nfunction _htmlElementAsString(el, keyAttrs) {\n  const elem = el\n\n;\n\n  const out = [];\n\n  if (!elem || !elem.tagName) {\n    return '';\n  }\n\n  // @ts-expect-error WINDOW has HTMLElement\n  if (WINDOW.HTMLElement) {\n    // If using the component name annotation plugin, this value may be available on the DOM node\n    if (elem instanceof HTMLElement && elem.dataset) {\n      if (elem.dataset['sentryComponent']) {\n        return elem.dataset['sentryComponent'];\n      }\n      if (elem.dataset['sentryElement']) {\n        return elem.dataset['sentryElement'];\n      }\n    }\n  }\n\n  out.push(elem.tagName.toLowerCase());\n\n  // Pairs of attribute keys defined in `serializeAttribute` and their values on element.\n  const keyAttrPairs =\n    keyAttrs && keyAttrs.length\n      ? keyAttrs.filter(keyAttr => elem.getAttribute(keyAttr)).map(keyAttr => [keyAttr, elem.getAttribute(keyAttr)])\n      : null;\n\n  if (keyAttrPairs && keyAttrPairs.length) {\n    keyAttrPairs.forEach(keyAttrPair => {\n      out.push(`[${keyAttrPair[0]}=\"${keyAttrPair[1]}\"]`);\n    });\n  } else {\n    if (elem.id) {\n      out.push(`#${elem.id}`);\n    }\n\n    const className = elem.className;\n    if (className && isString(className)) {\n      const classes = className.split(/\\s+/);\n      for (const c of classes) {\n        out.push(`.${c}`);\n      }\n    }\n  }\n  const allowedAttrs = ['aria-label', 'type', 'name', 'title', 'alt'];\n  for (const k of allowedAttrs) {\n    const attr = elem.getAttribute(k);\n    if (attr) {\n      out.push(`[${k}=\"${attr}\"]`);\n    }\n  }\n\n  return out.join('');\n}\n\n/**\n * A safe form of location.href\n */\nfunction getLocationHref() {\n  try {\n    return WINDOW.document.location.href;\n  } catch (oO) {\n    return '';\n  }\n}\n\n/**\n * Gets a DOM element by using document.querySelector.\n *\n * This wrapper will first check for the existance of the function before\n * actually calling it so that we don't have to take care of this check,\n * every time we want to access the DOM.\n *\n * Reason: DOM/querySelector is not available in all environments.\n *\n * We have to cast to any because utils can be consumed by a variety of environments,\n * and we don't want to break TS users. If you know what element will be selected by\n * `document.querySelector`, specify it as part of the generic call. For example,\n * `const element = getDomElement<Element>('selector');`\n *\n * @param selector the selector string passed on to document.querySelector\n */\n// eslint-disable-next-line @typescript-eslint/no-explicit-any\nfunction getDomElement(selector) {\n  if (WINDOW.document && WINDOW.document.querySelector) {\n    return WINDOW.document.querySelector(selector) ;\n  }\n  return null;\n}\n\n/**\n * Given a DOM element, traverses up the tree until it finds the first ancestor node\n * that has the `data-sentry-component` or `data-sentry-element` attribute with `data-sentry-component` taking\n * precendence. This attribute is added at build-time by projects that have the component name annotation plugin installed.\n *\n * @returns a string representation of the component for the provided DOM element, or `null` if not found\n */\nfunction getComponentName(elem) {\n  // @ts-expect-error WINDOW has HTMLElement\n  if (!WINDOW.HTMLElement) {\n    return null;\n  }\n\n  let currentElem = elem ;\n  const MAX_TRAVERSE_HEIGHT = 5;\n  for (let i = 0; i < MAX_TRAVERSE_HEIGHT; i++) {\n    if (!currentElem) {\n      return null;\n    }\n\n    if (currentElem instanceof HTMLElement) {\n      if (currentElem.dataset['sentryComponent']) {\n        return currentElem.dataset['sentryComponent'];\n      }\n      if (currentElem.dataset['sentryElement']) {\n        return currentElem.dataset['sentryElement'];\n      }\n    }\n\n    currentElem = currentElem.parentNode;\n  }\n\n  return null;\n}\n\nexport { getComponentName, getDomElement, getLocationHref, htmlTreeAsString };\n//# sourceMappingURL=browser.js.map\n","/**\n * This serves as a build time flag that will be true by default, but false in non-debug builds or if users replace `__SENTRY_DEBUG__` in their generated code.\n *\n * ATTENTION: This constant must never cross package boundaries (i.e. be exported) to guarantee that it can be used for tree shaking.\n */\nconst DEBUG_BUILD = (typeof __SENTRY_DEBUG__ === 'undefined' || __SENTRY_DEBUG__);\n\nexport { DEBUG_BUILD };\n//# sourceMappingURL=debug-build.js.map\n","import { DEBUG_BUILD } from './debug-build.js';\nimport { getGlobalSingleton, GLOBAL_OBJ } from './worldwide.js';\n\n/** Prefix for logging strings */\nconst PREFIX = 'Sentry Logger ';\n\nconst CONSOLE_LEVELS = [\n  'debug',\n  'info',\n  'warn',\n  'error',\n  'log',\n  'assert',\n  'trace',\n] ;\n\n/** This may be mutated by the console instrumentation. */\nconst originalConsoleMethods\n\n = {};\n\n/** JSDoc */\n\n/**\n * Temporarily disable sentry console instrumentations.\n *\n * @param callback The function to run against the original `console` messages\n * @returns The results of the callback\n */\nfunction consoleSandbox(callback) {\n  if (!('console' in GLOBAL_OBJ)) {\n    return callback();\n  }\n\n  const console = GLOBAL_OBJ.console ;\n  const wrappedFuncs = {};\n\n  const wrappedLevels = Object.keys(originalConsoleMethods) ;\n\n  // Restore all wrapped console methods\n  wrappedLevels.forEach(level => {\n    const originalConsoleMethod = originalConsoleMethods[level] ;\n    wrappedFuncs[level] = console[level] ;\n    console[level] = originalConsoleMethod;\n  });\n\n  try {\n    return callback();\n  } finally {\n    // Revert restoration to wrapped state\n    wrappedLevels.forEach(level => {\n      console[level] = wrappedFuncs[level] ;\n    });\n  }\n}\n\nfunction makeLogger() {\n  let enabled = false;\n  const logger = {\n    enable: () => {\n      enabled = true;\n    },\n    disable: () => {\n      enabled = false;\n    },\n    isEnabled: () => enabled,\n  };\n\n  if (DEBUG_BUILD) {\n    CONSOLE_LEVELS.forEach(name => {\n      // eslint-disable-next-line @typescript-eslint/no-explicit-any\n      logger[name] = (...args) => {\n        if (enabled) {\n          consoleSandbox(() => {\n            GLOBAL_OBJ.console[name](`${PREFIX}[${name}]:`, ...args);\n          });\n        }\n      };\n    });\n  } else {\n    CONSOLE_LEVELS.forEach(name => {\n      logger[name] = () => undefined;\n    });\n  }\n\n  return logger ;\n}\n\n/**\n * This is a logger singleton which either logs things or no-ops if logging is not enabled.\n * The logger is a singleton on the carrier, to ensure that a consistent logger is used throughout the SDK.\n */\nconst logger = getGlobalSingleton('logger', makeLogger);\n\nexport { CONSOLE_LEVELS, consoleSandbox, logger, originalConsoleMethods };\n//# sourceMappingURL=logger.js.map\n","import { DEBUG_BUILD } from './debug-build.js';\nimport { consoleSandbox, logger } from './logger.js';\n\n/** Regular expression used to parse a Dsn. */\nconst DSN_REGEX = /^(?:(\\w+):)\\/\\/(?:(\\w+)(?::(\\w+)?)?@)([\\w.-]+)(?::(\\d+))?\\/(.+)/;\n\nfunction isValidProtocol(protocol) {\n  return protocol === 'http' || protocol === 'https';\n}\n\n/**\n * Renders the string representation of this Dsn.\n *\n * By default, this will render the public representation without the password\n * component. To get the deprecated private representation, set `withPassword`\n * to true.\n *\n * @param withPassword When set to true, the password will be included.\n */\nfunction dsnToString(dsn, withPassword = false) {\n  const { host, path, pass, port, projectId, protocol, publicKey } = dsn;\n  return (\n    `${protocol}://${publicKey}${withPassword && pass ? `:${pass}` : ''}` +\n    `@${host}${port ? `:${port}` : ''}/${path ? `${path}/` : path}${projectId}`\n  );\n}\n\n/**\n * Parses a Dsn from a given string.\n *\n * @param str A Dsn as string\n * @returns Dsn as DsnComponents or undefined if @param str is not a valid DSN string\n */\nfunction dsnFromString(str) {\n  const match = DSN_REGEX.exec(str);\n\n  if (!match) {\n    // This should be logged to the console\n    consoleSandbox(() => {\n      // eslint-disable-next-line no-console\n      console.error(`Invalid Sentry Dsn: ${str}`);\n    });\n    return undefined;\n  }\n\n  const [protocol, publicKey, pass = '', host = '', port = '', lastPath = ''] = match.slice(1);\n  let path = '';\n  let projectId = lastPath;\n\n  const split = projectId.split('/');\n  if (split.length > 1) {\n    path = split.slice(0, -1).join('/');\n    projectId = split.pop() ;\n  }\n\n  if (projectId) {\n    const projectMatch = projectId.match(/^\\d+/);\n    if (projectMatch) {\n      projectId = projectMatch[0];\n    }\n  }\n\n  return dsnFromComponents({ host, pass, path, projectId, port, protocol: protocol , publicKey });\n}\n\nfunction dsnFromComponents(components) {\n  return {\n    protocol: components.protocol,\n    publicKey: components.publicKey || '',\n    pass: components.pass || '',\n    host: components.host,\n    port: components.port || '',\n    path: components.path || '',\n    projectId: components.projectId,\n  };\n}\n\nfunction validateDsn(dsn) {\n  if (!DEBUG_BUILD) {\n    return true;\n  }\n\n  const { port, projectId, protocol } = dsn;\n\n  const requiredComponents = ['protocol', 'publicKey', 'host', 'projectId'];\n  const hasMissingRequiredComponent = requiredComponents.find(component => {\n    if (!dsn[component]) {\n      logger.error(`Invalid Sentry Dsn: ${component} missing`);\n      return true;\n    }\n    return false;\n  });\n\n  if (hasMissingRequiredComponent) {\n    return false;\n  }\n\n  if (!projectId.match(/^\\d+$/)) {\n    logger.error(`Invalid Sentry Dsn: Invalid projectId ${projectId}`);\n    return false;\n  }\n\n  if (!isValidProtocol(protocol)) {\n    logger.error(`Invalid Sentry Dsn: Invalid protocol ${protocol}`);\n    return false;\n  }\n\n  if (port && isNaN(parseInt(port, 10))) {\n    logger.error(`Invalid Sentry Dsn: Invalid port ${port}`);\n    return false;\n  }\n\n  return true;\n}\n\n/**\n * Creates a valid Sentry Dsn object, identifying a Sentry instance and project.\n * @returns a valid DsnComponents object or `undefined` if @param from is an invalid DSN source\n */\nfunction makeDsn(from) {\n  const components = typeof from === 'string' ? dsnFromString(from) : dsnFromComponents(from);\n  if (!components || !validateDsn(components)) {\n    return undefined;\n  }\n  return components;\n}\n\nexport { dsnFromString, dsnToString, makeDsn };\n//# sourceMappingURL=dsn.js.map\n","/** An error emitted by Sentry SDKs and related utilities. */\nclass SentryError extends Error {\n  /** Display name of this error instance. */\n\n   constructor( message, logLevel = 'warn') {\n    super(message);this.message = message;\n    this.name = new.target.prototype.constructor.name;\n    // This sets the prototype to be `Error`, not `SentryError`. It's unclear why we do this, but commenting this line\n    // out causes various (seemingly totally unrelated) playwright tests consistently time out. FYI, this makes\n    // instances of `SentryError` fail `obj instanceof SentryError` checks.\n    Object.setPrototypeOf(this, new.target.prototype);\n    this.logLevel = logLevel;\n  }\n}\n\nexport { SentryError };\n//# sourceMappingURL=error.js.map\n","import { htmlTreeAsString } from './browser.js';\nimport { DEBUG_BUILD } from './debug-build.js';\nimport { isError, isEvent, isInstanceOf, isElement, isPlainObject, isPrimitive } from './is.js';\nimport { logger } from './logger.js';\nimport { truncate } from './string.js';\n\n/**\n * Replace a method in an object with a wrapped version of itself.\n *\n * @param source An object that contains a method to be wrapped.\n * @param name The name of the method to be wrapped.\n * @param replacementFactory A higher-order function that takes the original version of the given method and returns a\n * wrapped version. Note: The function returned by `replacementFactory` needs to be a non-arrow function, in order to\n * preserve the correct value of `this`, and the original method must be called using `origMethod.call(this, <other\n * args>)` or `origMethod.apply(this, [<other args>])` (rather than being called directly), again to preserve `this`.\n * @returns void\n */\nfunction fill(source, name, replacementFactory) {\n  if (!(name in source)) {\n    return;\n  }\n\n  const original = source[name] ;\n  const wrapped = replacementFactory(original) ;\n\n  // Make sure it's a function first, as we need to attach an empty prototype for `defineProperties` to work\n  // otherwise it'll throw \"TypeError: Object.defineProperties called on non-object\"\n  if (typeof wrapped === 'function') {\n    markFunctionWrapped(wrapped, original);\n  }\n\n  source[name] = wrapped;\n}\n\n/**\n * Defines a non-enumerable property on the given object.\n *\n * @param obj The object on which to set the property\n * @param name The name of the property to be set\n * @param value The value to which to set the property\n */\nfunction addNonEnumerableProperty(obj, name, value) {\n  try {\n    Object.defineProperty(obj, name, {\n      // enumerable: false, // the default, so we can save on bundle size by not explicitly setting it\n      value: value,\n      writable: true,\n      configurable: true,\n    });\n  } catch (o_O) {\n    DEBUG_BUILD && logger.log(`Failed to add non-enumerable property \"${name}\" to object`, obj);\n  }\n}\n\n/**\n * Remembers the original function on the wrapped function and\n * patches up the prototype.\n *\n * @param wrapped the wrapper function\n * @param original the original function that gets wrapped\n */\nfunction markFunctionWrapped(wrapped, original) {\n  try {\n    const proto = original.prototype || {};\n    wrapped.prototype = original.prototype = proto;\n    addNonEnumerableProperty(wrapped, '__sentry_original__', original);\n  } catch (o_O) {} // eslint-disable-line no-empty\n}\n\n/**\n * This extracts the original function if available.  See\n * `markFunctionWrapped` for more information.\n *\n * @param func the function to unwrap\n * @returns the unwrapped version of the function if available.\n */\nfunction getOriginalFunction(func) {\n  return func.__sentry_original__;\n}\n\n/**\n * Encodes given object into url-friendly format\n *\n * @param object An object that contains serializable values\n * @returns string Encoded\n */\nfunction urlEncode(object) {\n  return Object.keys(object)\n    .map(key => `${encodeURIComponent(key)}=${encodeURIComponent(object[key])}`)\n    .join('&');\n}\n\n/**\n * Transforms any `Error` or `Event` into a plain object with all of their enumerable properties, and some of their\n * non-enumerable properties attached.\n *\n * @param value Initial source that we have to transform in order for it to be usable by the serializer\n * @returns An Event or Error turned into an object - or the value argurment itself, when value is neither an Event nor\n *  an Error.\n */\nfunction convertToPlainObject(\n  value,\n)\n\n {\n  if (isError(value)) {\n    return {\n      message: value.message,\n      name: value.name,\n      stack: value.stack,\n      ...getOwnProperties(value),\n    };\n  } else if (isEvent(value)) {\n    const newObj\n\n = {\n      type: value.type,\n      target: serializeEventTarget(value.target),\n      currentTarget: serializeEventTarget(value.currentTarget),\n      ...getOwnProperties(value),\n    };\n\n    if (typeof CustomEvent !== 'undefined' && isInstanceOf(value, CustomEvent)) {\n      newObj.detail = value.detail;\n    }\n\n    return newObj;\n  } else {\n    return value;\n  }\n}\n\n/** Creates a string representation of the target of an `Event` object */\nfunction serializeEventTarget(target) {\n  try {\n    return isElement(target) ? htmlTreeAsString(target) : Object.prototype.toString.call(target);\n  } catch (_oO) {\n    return '<unknown>';\n  }\n}\n\n/** Filters out all but an object's own properties */\nfunction getOwnProperties(obj) {\n  if (typeof obj === 'object' && obj !== null) {\n    const extractedProps = {};\n    for (const property in obj) {\n      if (Object.prototype.hasOwnProperty.call(obj, property)) {\n        extractedProps[property] = (obj )[property];\n      }\n    }\n    return extractedProps;\n  } else {\n    return {};\n  }\n}\n\n/**\n * Given any captured exception, extract its keys and create a sorted\n * and truncated list that will be used inside the event message.\n * eg. `Non-error exception captured with keys: foo, bar, baz`\n */\nfunction extractExceptionKeysForMessage(exception, maxLength = 40) {\n  const keys = Object.keys(convertToPlainObject(exception));\n  keys.sort();\n\n  const firstKey = keys[0];\n\n  if (!firstKey) {\n    return '[object has no keys]';\n  }\n\n  if (firstKey.length >= maxLength) {\n    return truncate(firstKey, maxLength);\n  }\n\n  for (let includedKeys = keys.length; includedKeys > 0; includedKeys--) {\n    const serialized = keys.slice(0, includedKeys).join(', ');\n    if (serialized.length > maxLength) {\n      continue;\n    }\n    if (includedKeys === keys.length) {\n      return serialized;\n    }\n    return truncate(serialized, maxLength);\n  }\n\n  return '';\n}\n\n/**\n * Given any object, return a new object having removed all fields whose value was `undefined`.\n * Works recursively on objects and arrays.\n *\n * Attention: This function keeps circular references in the returned object.\n */\nfunction dropUndefinedKeys(inputValue) {\n  // This map keeps track of what already visited nodes map to.\n  // Our Set - based memoBuilder doesn't work here because we want to the output object to have the same circular\n  // references as the input object.\n  const memoizationMap = new Map();\n\n  // This function just proxies `_dropUndefinedKeys` to keep the `memoBuilder` out of this function's API\n  return _dropUndefinedKeys(inputValue, memoizationMap);\n}\n\nfunction _dropUndefinedKeys(inputValue, memoizationMap) {\n  if (isPojo(inputValue)) {\n    // If this node has already been visited due to a circular reference, return the object it was mapped to in the new object\n    const memoVal = memoizationMap.get(inputValue);\n    if (memoVal !== undefined) {\n      return memoVal ;\n    }\n\n    const returnValue = {};\n    // Store the mapping of this value in case we visit it again, in case of circular data\n    memoizationMap.set(inputValue, returnValue);\n\n    for (const key of Object.keys(inputValue)) {\n      if (typeof inputValue[key] !== 'undefined') {\n        returnValue[key] = _dropUndefinedKeys(inputValue[key], memoizationMap);\n      }\n    }\n\n    return returnValue ;\n  }\n\n  if (Array.isArray(inputValue)) {\n    // If this node has already been visited due to a circular reference, return the array it was mapped to in the new object\n    const memoVal = memoizationMap.get(inputValue);\n    if (memoVal !== undefined) {\n      return memoVal ;\n    }\n\n    const returnValue = [];\n    // Store the mapping of this value in case we visit it again, in case of circular data\n    memoizationMap.set(inputValue, returnValue);\n\n    inputValue.forEach((item) => {\n      returnValue.push(_dropUndefinedKeys(item, memoizationMap));\n    });\n\n    return returnValue ;\n  }\n\n  return inputValue;\n}\n\nfunction isPojo(input) {\n  if (!isPlainObject(input)) {\n    return false;\n  }\n\n  try {\n    const name = (Object.getPrototypeOf(input) ).constructor.name;\n    return !name || name === 'Object';\n  } catch (e) {\n    return true;\n  }\n}\n\n/**\n * Ensure that something is an object.\n *\n * Turns `undefined` and `null` into `String`s and all other primitives into instances of their respective wrapper\n * classes (String, Boolean, Number, etc.). Acts as the identity function on non-primitives.\n *\n * @param wat The subject of the objectification\n * @returns A version of `wat` which can safely be used with `Object` class methods\n */\nfunction objectify(wat) {\n  let objectified;\n  switch (true) {\n    case wat === undefined || wat === null:\n      objectified = new String(wat);\n      break;\n\n    // Though symbols and bigints do have wrapper classes (`Symbol` and `BigInt`, respectively), for whatever reason\n    // those classes don't have constructors which can be used with the `new` keyword. We therefore need to cast each as\n    // an object in order to wrap it.\n    case typeof wat === 'symbol' || typeof wat === 'bigint':\n      objectified = Object(wat);\n      break;\n\n    // this will catch the remaining primitives: `String`, `Number`, and `Boolean`\n    case isPrimitive(wat):\n      // eslint-disable-next-line @typescript-eslint/no-unsafe-member-access\n      objectified = new (wat ).constructor(wat);\n      break;\n\n    // by process of elimination, at this point we know that `wat` must already be an object\n    default:\n      objectified = wat;\n      break;\n  }\n  return objectified;\n}\n\nexport { addNonEnumerableProperty, convertToPlainObject, dropUndefinedKeys, extractExceptionKeysForMessage, fill, getOriginalFunction, markFunctionWrapped, objectify, urlEncode };\n//# sourceMappingURL=object.js.map\n","const STACKTRACE_FRAME_LIMIT = 50;\nconst UNKNOWN_FUNCTION = '?';\n// Used to sanitize webpack (error: *) wrapped stack errors\nconst WEBPACK_ERROR_REGEXP = /\\(error: (.*)\\)/;\nconst STRIP_FRAME_REGEXP = /captureMessage|captureException/;\n\n/**\n * Creates a stack parser with the supplied line parsers\n *\n * StackFrames are returned in the correct order for Sentry Exception\n * frames and with Sentry SDK internal frames removed from the top and bottom\n *\n */\nfunction createStackParser(...parsers) {\n  const sortedParsers = parsers.sort((a, b) => a[0] - b[0]).map(p => p[1]);\n\n  return (stack, skipFirstLines = 0, framesToPop = 0) => {\n    const frames = [];\n    const lines = stack.split('\\n');\n\n    for (let i = skipFirstLines; i < lines.length; i++) {\n      const line = lines[i] ;\n      // Ignore lines over 1kb as they are unlikely to be stack frames.\n      // Many of the regular expressions use backtracking which results in run time that increases exponentially with\n      // input size. Huge strings can result in hangs/Denial of Service:\n      // https://github.com/getsentry/sentry-javascript/issues/2286\n      if (line.length > 1024) {\n        continue;\n      }\n\n      // https://github.com/getsentry/sentry-javascript/issues/5459\n      // Remove webpack (error: *) wrappers\n      const cleanedLine = WEBPACK_ERROR_REGEXP.test(line) ? line.replace(WEBPACK_ERROR_REGEXP, '$1') : line;\n\n      // https://github.com/getsentry/sentry-javascript/issues/7813\n      // Skip Error: lines\n      if (cleanedLine.match(/\\S*Error: /)) {\n        continue;\n      }\n\n      for (const parser of sortedParsers) {\n        const frame = parser(cleanedLine);\n\n        if (frame) {\n          frames.push(frame);\n          break;\n        }\n      }\n\n      if (frames.length >= STACKTRACE_FRAME_LIMIT + framesToPop) {\n        break;\n      }\n    }\n\n    return stripSentryFramesAndReverse(frames.slice(framesToPop));\n  };\n}\n\n/**\n * Gets a stack parser implementation from Options.stackParser\n * @see Options\n *\n * If options contains an array of line parsers, it is converted into a parser\n */\nfunction stackParserFromStackParserOptions(stackParser) {\n  if (Array.isArray(stackParser)) {\n    return createStackParser(...stackParser);\n  }\n  return stackParser;\n}\n\n/**\n * Removes Sentry frames from the top and bottom of the stack if present and enforces a limit of max number of frames.\n * Assumes stack input is ordered from top to bottom and returns the reverse representation so call site of the\n * function that caused the crash is the last frame in the array.\n * @hidden\n */\nfunction stripSentryFramesAndReverse(stack) {\n  if (!stack.length) {\n    return [];\n  }\n\n  const localStack = Array.from(stack);\n\n  // If stack starts with one of our API calls, remove it (starts, meaning it's the top of the stack - aka last call)\n  if (/sentryWrapped/.test(getLastStackFrame(localStack).function || '')) {\n    localStack.pop();\n  }\n\n  // Reversing in the middle of the procedure allows us to just pop the values off the stack\n  localStack.reverse();\n\n  // If stack ends with one of our internal API calls, remove it (ends, meaning it's the bottom of the stack - aka top-most call)\n  if (STRIP_FRAME_REGEXP.test(getLastStackFrame(localStack).function || '')) {\n    localStack.pop();\n\n    // When using synthetic events, we will have a 2 levels deep stack, as `new Error('Sentry syntheticException')`\n    // is produced within the hub itself, making it:\n    //\n    //   Sentry.captureException()\n    //   getCurrentHub().captureException()\n    //\n    // instead of just the top `Sentry` call itself.\n    // This forces us to possibly strip an additional frame in the exact same was as above.\n    if (STRIP_FRAME_REGEXP.test(getLastStackFrame(localStack).function || '')) {\n      localStack.pop();\n    }\n  }\n\n  return localStack.slice(0, STACKTRACE_FRAME_LIMIT).map(frame => ({\n    ...frame,\n    filename: frame.filename || getLastStackFrame(localStack).filename,\n    function: frame.function || UNKNOWN_FUNCTION,\n  }));\n}\n\nfunction getLastStackFrame(arr) {\n  return arr[arr.length - 1] || {};\n}\n\nconst defaultFunctionName = '<anonymous>';\n\n/**\n * Safely extract function name from itself\n */\nfunction getFunctionName(fn) {\n  try {\n    if (!fn || typeof fn !== 'function') {\n      return defaultFunctionName;\n    }\n    return fn.name || defaultFunctionName;\n  } catch (e) {\n    // Just accessing custom props in some Selenium environments\n    // can cause a \"Permission denied\" exception (see raven-js#495).\n    return defaultFunctionName;\n  }\n}\n\n/**\n * Get's stack frames from an event without needing to check for undefined properties.\n */\nfunction getFramesFromEvent(event) {\n  const exception = event.exception;\n\n  if (exception) {\n    const frames = [];\n    try {\n      // @ts-expect-error Object could be undefined\n      exception.values.forEach(value => {\n        // @ts-expect-error Value could be undefined\n        if (value.stacktrace.frames) {\n          // @ts-expect-error Value could be undefined\n          frames.push(...value.stacktrace.frames);\n        }\n      });\n      return frames;\n    } catch (_oO) {\n      return undefined;\n    }\n  }\n  return undefined;\n}\n\nexport { UNKNOWN_FUNCTION, createStackParser, getFramesFromEvent, getFunctionName, stackParserFromStackParserOptions, stripSentryFramesAndReverse };\n//# sourceMappingURL=stacktrace.js.map\n","import { DEBUG_BUILD } from '../debug-build.js';\nimport { logger } from '../logger.js';\nimport { getFunctionName } from '../stacktrace.js';\n\n// We keep the handlers globally\nconst handlers = {};\nconst instrumented = {};\n\n/** Add a handler function. */\nfunction addHandler(type, handler) {\n  handlers[type] = handlers[type] || [];\n  (handlers[type] ).push(handler);\n}\n\n/**\n * Reset all instrumentation handlers.\n * This can be used by tests to ensure we have a clean slate of instrumentation handlers.\n */\nfunction resetInstrumentationHandlers() {\n  Object.keys(handlers).forEach(key => {\n    handlers[key ] = undefined;\n  });\n}\n\n/** Maybe run an instrumentation function, unless it was already called. */\nfunction maybeInstrument(type, instrumentFn) {\n  if (!instrumented[type]) {\n    instrumentFn();\n    instrumented[type] = true;\n  }\n}\n\n/** Trigger handlers for a given instrumentation type. */\nfunction triggerHandlers(type, data) {\n  const typeHandlers = type && handlers[type];\n  if (!typeHandlers) {\n    return;\n  }\n\n  for (const handler of typeHandlers) {\n    try {\n      handler(data);\n    } catch (e) {\n      DEBUG_BUILD &&\n        logger.error(\n          `Error while triggering instrumentation handler.\\nType: ${type}\\nName: ${getFunctionName(handler)}\\nError:`,\n          e,\n        );\n    }\n  }\n}\n\nexport { addHandler, maybeInstrument, resetInstrumentationHandlers, triggerHandlers };\n//# sourceMappingURL=handlers.js.map\n","import { GLOBAL_OBJ } from './worldwide.js';\n\nconst ONE_SECOND_IN_MS = 1000;\n\n/**\n * A partial definition of the [Performance Web API]{@link https://developer.mozilla.org/en-US/docs/Web/API/Performance}\n * for accessing a high-resolution monotonic clock.\n */\n\n/**\n * Returns a timestamp in seconds since the UNIX epoch using the Date API.\n *\n * TODO(v8): Return type should be rounded.\n */\nfunction dateTimestampInSeconds() {\n  return Date.now() / ONE_SECOND_IN_MS;\n}\n\n/**\n * Returns a wrapper around the native Performance API browser implementation, or undefined for browsers that do not\n * support the API.\n *\n * Wrapping the native API works around differences in behavior from different browsers.\n */\nfunction createUnixTimestampInSecondsFunc() {\n  const { performance } = GLOBAL_OBJ ;\n  if (!performance || !performance.now) {\n    return dateTimestampInSeconds;\n  }\n\n  // Some browser and environments don't have a timeOrigin, so we fallback to\n  // using Date.now() to compute the starting time.\n  const approxStartingTimeOrigin = Date.now() - performance.now();\n  const timeOrigin = performance.timeOrigin == undefined ? approxStartingTimeOrigin : performance.timeOrigin;\n\n  // performance.now() is a monotonic clock, which means it starts at 0 when the process begins. To get the current\n  // wall clock time (actual UNIX timestamp), we need to add the starting time origin and the current time elapsed.\n  //\n  // TODO: This does not account for the case where the monotonic clock that powers performance.now() drifts from the\n  // wall clock time, which causes the returned timestamp to be inaccurate. We should investigate how to detect and\n  // correct for this.\n  // See: https://github.com/getsentry/sentry-javascript/issues/2590\n  // See: https://github.com/mdn/content/issues/4713\n  // See: https://dev.to/noamr/when-a-millisecond-is-not-a-millisecond-3h6\n  return () => {\n    return (timeOrigin + performance.now()) / ONE_SECOND_IN_MS;\n  };\n}\n\n/**\n * Returns a timestamp in seconds since the UNIX epoch using either the Performance or Date APIs, depending on the\n * availability of the Performance API.\n *\n * BUG: Note that because of how browsers implement the Performance API, the clock might stop when the computer is\n * asleep. This creates a skew between `dateTimestampInSeconds` and `timestampInSeconds`. The\n * skew can grow to arbitrary amounts like days, weeks or months.\n * See https://github.com/getsentry/sentry-javascript/issues/2590.\n */\nconst timestampInSeconds = createUnixTimestampInSecondsFunc();\n\n/**\n * Internal helper to store what is the source of browserPerformanceTimeOrigin below. For debugging only.\n */\nlet _browserPerformanceTimeOriginMode;\n\n/**\n * The number of milliseconds since the UNIX epoch. This value is only usable in a browser, and only when the\n * performance API is available.\n */\nconst browserPerformanceTimeOrigin = (() => {\n  // Unfortunately browsers may report an inaccurate time origin data, through either performance.timeOrigin or\n  // performance.timing.navigationStart, which results in poor results in performance data. We only treat time origin\n  // data as reliable if they are within a reasonable threshold of the current time.\n\n  const { performance } = GLOBAL_OBJ ;\n  if (!performance || !performance.now) {\n    _browserPerformanceTimeOriginMode = 'none';\n    return undefined;\n  }\n\n  const threshold = 3600 * 1000;\n  const performanceNow = performance.now();\n  const dateNow = Date.now();\n\n  // if timeOrigin isn't available set delta to threshold so it isn't used\n  const timeOriginDelta = performance.timeOrigin\n    ? Math.abs(performance.timeOrigin + performanceNow - dateNow)\n    : threshold;\n  const timeOriginIsReliable = timeOriginDelta < threshold;\n\n  // While performance.timing.navigationStart is deprecated in favor of performance.timeOrigin, performance.timeOrigin\n  // is not as widely supported. Namely, performance.timeOrigin is undefined in Safari as of writing.\n  // Also as of writing, performance.timing is not available in Web Workers in mainstream browsers, so it is not always\n  // a valid fallback. In the absence of an initial time provided by the browser, fallback to the current time from the\n  // Date API.\n  // eslint-disable-next-line deprecation/deprecation\n  const navigationStart = performance.timing && performance.timing.navigationStart;\n  const hasNavigationStart = typeof navigationStart === 'number';\n  // if navigationStart isn't available set delta to threshold so it isn't used\n  const navigationStartDelta = hasNavigationStart ? Math.abs(navigationStart + performanceNow - dateNow) : threshold;\n  const navigationS