swc/bundler/tests/.cache/untrusted/bffcaab555719e2ff0fadc7864bda0a4b6fea0cb.ts
강동윤 bbaf619f63
fix(bundler): Fix bugs (#1437)
swc_bundler:
 - [x] Fix wrapped esms. (denoland/deno#9307)
 - [x] Make test secure.
2021-03-02 17:33:03 +09:00

343 lines
11 KiB
TypeScript

// Loaded from https://raw.githubusercontent.com/denjucks/dex/master/lib/util/make-knex.js
import { EventEmitter } from '../deps/@jspm/core@1.1.0/nodelibs/events.js';
import { Migrator } from '../migrate/Migrator.js';
import Seeder from '../seed/Seeder.js';
import FunctionHelper from '../functionhelper.js';
import QueryInterface from '../query/methods.js';
import _ from '../deps/lodash@4.17.15/index.js';
const merge = _.merge;
import batchInsert from './batchInsert.js';
// Javascript does not officially support "callable objects". Instead,
// you must create a regular Function and inject properties/methods
// into it. In other words: you can't leverage Prototype Inheritance
// to share the property/method definitions.
//
// To work around this, we're creating an Object Property Definition.
// This allow us to quickly inject everything into the `knex` function
// via the `Object.defineProperties(..)` function. More importantly,
// it allows the same definitions to be shared across `knex` instances.
const KNEX_PROPERTY_DEFINITIONS = {
client: {
get() {
return this.context.client;
},
set(client) {
this.context.client = client;
},
configurable: true,
},
userParams: {
get() {
return this.context.userParams;
},
set(userParams) {
this.context.userParams = userParams;
},
configurable: true,
},
schema: {
get() {
return this.client.schemaBuilder();
},
configurable: true,
},
migrate: {
get() {
return new Migrator(this);
},
configurable: true,
},
seed: {
get() {
return new Seeder(this);
},
configurable: true,
},
fn: {
get() {
return new FunctionHelper(this.client);
},
configurable: true,
},
};
// `knex` instances serve as proxies around `context` objects. So, calling
// any of these methods on the `knex` instance will forward the call to
// the `knex.context` object. This ensures that `this` will correctly refer
// to `context` within each of these methods.
const CONTEXT_METHODS = [
'raw',
'batchInsert',
'transaction',
'transactionProvider',
'initialize',
'destroy',
'ref',
'withUserParams',
'queryBuilder',
'disableProcessing',
'enableProcessing',
];
for (const m of CONTEXT_METHODS) {
KNEX_PROPERTY_DEFINITIONS[m] = {
value: function (...args) {
return this.context[m](...args);
},
configurable: true,
};
}
function makeKnex(client) {
// The object we're potentially using to kick off an initial chain.
function knex(tableName, options) {
return createQueryBuilder(knex.context, tableName, options);
}
redefineProperties(knex, client);
return knex;
}
function initContext(knexFn) {
const knexContext = knexFn.context || {};
Object.assign(knexContext, {
queryBuilder() {
return this.client.queryBuilder();
},
raw() {
return this.client.raw.apply(this.client, arguments);
},
batchInsert(table, batch, chunkSize = 1000) {
return batchInsert(this, table, batch, chunkSize);
},
// Creates a new transaction.
// If container is provided, returns a promise for when the transaction is resolved.
// If container is not provided, returns a promise with a transaction that is resolved
// when transaction is ready to be used.
transaction(container, _config) {
const config = Object.assign({}, _config);
config.userParams = this.userParams || {};
if (config.doNotRejectOnRollback === undefined) {
// Backwards-compatibility: default value changes depending upon
// whether or not a `container` was provided.
config.doNotRejectOnRollback = !container;
}
return this._transaction(container, config);
},
// Internal method that actually establishes the Transaction. It makes no assumptions
// about the `config` or `outerTx`, and expects the caller to handle these details.
_transaction(container, config, outerTx = null) {
if (container) {
const trx = this.client.transaction(container, config, outerTx);
return trx;
} else {
return new Promise((resolve, reject) => {
const trx = this.client.transaction(resolve, config, outerTx);
trx.catch(reject);
});
}
},
transactionProvider(config) {
let trx;
return () => {
if (!trx) {
trx = this.transaction(undefined, config);
}
return trx;
};
},
// Typically never needed, initializes the pool for a knex client.
initialize(config) {
return this.client.initializePool(config);
},
// Convenience method for tearing down the pool.
destroy(callback) {
return this.client.destroy(callback);
},
ref(ref) {
return this.client.ref(ref);
},
// Do not document this as public API until naming and API is improved for general consumption
// This method exists to disable processing of internal queries in migrations
disableProcessing() {
if (this.userParams.isProcessingDisabled) {
return;
}
this.userParams.wrapIdentifier = this.client.config.wrapIdentifier;
this.userParams.postProcessResponse = this.client.config.postProcessResponse;
this.client.config.wrapIdentifier = null;
this.client.config.postProcessResponse = null;
this.userParams.isProcessingDisabled = true;
},
// Do not document this as public API until naming and API is improved for general consumption
// This method exists to enable execution of non-internal queries with consistent identifier naming in migrations
enableProcessing() {
if (!this.userParams.isProcessingDisabled) {
return;
}
this.client.config.wrapIdentifier = this.userParams.wrapIdentifier;
this.client.config.postProcessResponse = this.userParams.postProcessResponse;
this.userParams.isProcessingDisabled = false;
},
withUserParams(params) {
const knexClone = shallowCloneFunction(knexFn); // We need to include getters in our clone
if (this.client) {
knexClone.client = Object.create(this.client.constructor.prototype); // Clone client to avoid leaking listeners that are set on it
merge(knexClone.client, this.client);
knexClone.client.config = Object.assign({}, this.client.config); // Clone client config to make sure they can be modified independently
}
redefineProperties(knexClone, knexClone.client);
_copyEventListeners('query', knexFn, knexClone);
_copyEventListeners('query-error', knexFn, knexClone);
_copyEventListeners('query-response', knexFn, knexClone);
_copyEventListeners('start', knexFn, knexClone);
knexClone.userParams = params;
return knexClone;
},
});
if (!knexFn.context) {
knexFn.context = knexContext;
}
}
function _copyEventListeners(eventName, sourceKnex, targetKnex) {
const listeners = sourceKnex.listeners(eventName);
listeners.forEach((listener) => {
targetKnex.on(eventName, listener);
});
}
function redefineProperties(knex, client) {
// Allow chaining methods from the root object, before
// any other information is specified.
//
// TODO: `QueryBuilder.extend(..)` allows new QueryBuilder
// methods to be introduced via external components.
// As a side-effect, it also pushes the new method names
// into the `QueryInterface` array.
//
// The Problem: due to the way the code is currently
// structured, these new methods cannot be retroactively
// injected into existing `knex` instances! As a result,
// some `knex` instances will support the methods, and
// others will not.
//
// We should revisit this once we figure out the desired
// behavior / usage. For instance: do we really want to
// allow external components to directly manipulate `knex`
// data structures? Or, should we come up w/ a different
// approach that avoids side-effects / mutation?
//
// (FYI: I noticed this issue because I attempted to integrate
// this logic directly into the `KNEX_PROPERTY_DEFINITIONS`
// construction. However, `KNEX_PROPERTY_DEFINITIONS` is
// constructed before any `knex` instances are created.
// As a result, the method extensions were missing from all
// `knex` instances.)
QueryInterface.forEach(function (method) {
knex[method] = function () {
const builder = this.queryBuilder();
return builder[method].apply(builder, arguments);
};
});
Object.defineProperties(knex, KNEX_PROPERTY_DEFINITIONS);
initContext(knex);
knex.client = client;
// TODO: It looks like this field is never actually used.
// It should probably be removed in a future PR.
knex.client.makeKnex = makeKnex;
knex.userParams = {};
// Hook up the "knex" object as an EventEmitter.
const ee = new EventEmitter();
for (const key in ee) {
knex[key] = ee[key];
}
// Unfortunately, something seems to be broken in Node 6 and removing events from a clone also mutates original Knex,
// which is highly undesirable
if (knex._internalListeners) {
knex._internalListeners.forEach(({ eventName, listener }) => {
knex.client.removeListener(eventName, listener); // Remove duplicates for copies
});
}
knex._internalListeners = [];
// Passthrough all "start" and "query" events to the knex object.
_addInternalListener(knex, 'start', (obj) => {
knex.emit('start', obj);
});
_addInternalListener(knex, 'query', (obj) => {
knex.emit('query', obj);
});
_addInternalListener(knex, 'query-error', (err, obj) => {
knex.emit('query-error', err, obj);
});
_addInternalListener(knex, 'query-response', (response, obj, builder) => {
knex.emit('query-response', response, obj, builder);
});
}
function _addInternalListener(knex, eventName, listener) {
knex.client.on(eventName, listener);
knex._internalListeners.push({
eventName,
listener,
});
}
function createQueryBuilder(knexContext, tableName, options) {
const qb = knexContext.queryBuilder();
if (!tableName)
knexContext.client.logger.warn(
'calling knex without a tableName is deprecated. Use knex.queryBuilder() instead.'
);
return tableName ? qb.table(tableName, options) : qb;
}
function shallowCloneFunction(originalFunction) {
const fnContext = Object.create(
Object.getPrototypeOf(originalFunction),
Object.getOwnPropertyDescriptors(originalFunction)
);
const knexContext = {};
const knexFnWrapper = (tableName, options) => {
return createQueryBuilder(knexContext, tableName, options);
};
const clonedFunction = knexFnWrapper.bind(fnContext);
Object.assign(clonedFunction, originalFunction);
clonedFunction.context = knexContext;
return clonedFunction;
}
export default makeKnex;