/** * @fileoverview Rule that warns when identifier names that are * specified in the configuration are used. * @author Keith Cirkel (http://keithcirkel.co.uk) * @deprecated in ESLint v7.5.0 */ "use strict"; //------------------------------------------------------------------------------ // Helpers //------------------------------------------------------------------------------ /** * Checks whether the given node represents assignment target in a normal assignment or destructuring. * @param {ASTNode} node The node to check. * @returns {boolean} `true` if the node is assignment target. */ function isAssignmentTarget(node) { const parent = node.parent; return ( // normal assignment ( parent.type === "AssignmentExpression" && parent.left === node ) || // destructuring parent.type === "ArrayPattern" || parent.type === "RestElement" || ( parent.type === "Property" && parent.value === node && parent.parent.type === "ObjectPattern" ) || ( parent.type === "AssignmentPattern" && parent.left === node ) ); } /** * Checks whether the given node represents an imported name that is renamed in the same import/export specifier. * * Examples: * import { a as b } from 'mod'; // node `a` is renamed import * export { a as b } from 'mod'; // node `a` is renamed import * @param {ASTNode} node `Identifier` node to check. * @returns {boolean} `true` if the node is a renamed import. */ function isRenamedImport(node) { const parent = node.parent; return ( ( parent.type === "ImportSpecifier" && parent.imported !== parent.local && parent.imported === node ) || ( parent.type === "ExportSpecifier" && parent.parent.source && // re-export parent.local !== parent.exported && parent.local === node ) ); } /** * Checks whether the given node is a renamed identifier node in an ObjectPattern destructuring. * * Examples: * const { a : b } = foo; // node `a` is renamed node. * @param {ASTNode} node `Identifier` node to check. * @returns {boolean} `true` if the node is a renamed node in an ObjectPattern destructuring. */ function isRenamedInDestructuring(node) { const parent = node.parent; return ( ( !parent.computed && parent.type === "Property" && parent.parent.type === "ObjectPattern" && parent.value !== node && parent.key === node ) ); } /** * Checks whether the given node represents shorthand definition of a property in an object literal. * @param {ASTNode} node `Identifier` node to check. * @returns {boolean} `true` if the node is a shorthand property definition. */ function isShorthandPropertyDefinition(node) { const parent = node.parent; return ( parent.type === "Property" && parent.parent.type === "ObjectExpression" && parent.shorthand ); } //------------------------------------------------------------------------------ // Rule Definition //------------------------------------------------------------------------------ /** @type {import('../shared/types').Rule} */ module.exports = { meta: { deprecated: true, replacedBy: ["id-denylist"], type: "suggestion", docs: { description: "Disallow specified identifiers", recommended: false, url: "https://eslint.org/docs/rules/id-blacklist" }, schema: { type: "array", items: { type: "string" }, uniqueItems: true }, messages: { restricted: "Identifier '{{name}}' is restricted." } }, create(context) { const denyList = new Set(context.options); const reportedNodes = new Set(); let globalScope; /** * Checks whether the given name is restricted. * @param {string} name The name to check. * @returns {boolean} `true` if the name is restricted. * @private */ function isRestricted(name) { return denyList.has(name); } /** * Checks whether the given node represents a reference to a global variable that is not declared in the source code. * These identifiers will be allowed, as it is assumed that user has no control over the names of external global variables. * @param {ASTNode} node `Identifier` node to check. * @returns {boolean} `true` if the node is a reference to a global variable. */ function isReferenceToGlobalVariable(node) { const variable = globalScope.set.get(node.name); return variable && variable.defs.length === 0 && variable.references.some(ref => ref.identifier === node); } /** * Determines whether the given node should be checked. * @param {ASTNode} node `Identifier` node. * @returns {boolean} `true` if the node should be checked. */ function shouldCheck(node) { const parent = node.parent; /* * Member access has special rules for checking property names. * Read access to a property with a restricted name is allowed, because it can be on an object that user has no control over. * Write access isn't allowed, because it potentially creates a new property with a restricted name. */ if ( parent.type === "MemberExpression" && parent.property === node && !parent.computed ) { return isAssignmentTarget(parent); } return ( parent.type !== "CallExpression" && parent.type !== "NewExpression" && !isRenamedImport(node) && !isRenamedInDestructuring(node) && !( isReferenceToGlobalVariable(node) && !isShorthandPropertyDefinition(node) ) ); } /** * Reports an AST node as a rule violation. * @param {ASTNode} node The node to report. * @returns {void} * @private */ function report(node) { /* * We used the range instead of the node because it's possible * for the same identifier to be represented by two different * nodes, with the most clear example being shorthand properties: * { foo } * In this case, "foo" is represented by one node for the name * and one for the value. The only way to know they are the same * is to look at the range. */ if (!reportedNodes.has(node.range.toString())) { context.report({ node, messageId: "restricted", data: { name: node.name } }); reportedNodes.add(node.range.toString()); } } return { Program() { globalScope = context.getScope(); }, Identifier(node) { if (isRestricted(node.name) && shouldCheck(node)) { report(node); } } }; } };