/* 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/. */ import { FormAutofill } from "resource://autofill/FormAutofill.sys.mjs"; const lazy = {}; ChromeUtils.defineESModuleGetters(lazy, { AddressParser: "resource://gre/modules/shared/AddressParser.sys.mjs", FormAutofillNameUtils: "resource://gre/modules/shared/FormAutofillNameUtils.sys.mjs", FormAutofillUtils: "resource://gre/modules/shared/FormAutofillUtils.sys.mjs", PhoneNumber: "resource://gre/modules/shared/PhoneNumber.sys.mjs", PhoneNumberNormalizer: "resource://gre/modules/shared/PhoneNumberNormalizer.sys.mjs", }); /** * Class representing a collection of tokens extracted from a string. */ class Tokens { #tokens = null; // By default we split passed string with whitespace. constructor(value, sep = /\s+/) { this.#tokens = value.split(sep); } get tokens() { return this.#tokens; } /** * Checks if all the tokens in the current object can be found in another * token object. * * @param {Tokens} other The other Tokens instance to compare with. * @param {Function} compare An optional custom comparison function. * @returns {boolean} True if the current Token object is a subset of the * other Token object, false otherwise. */ isSubset(other, compare = (a, b) => a == b) { return this.tokens.every(tokenSelf => { for (const tokenOther of other.tokens) { if (compare(tokenSelf, tokenOther)) { return true; } } return false; }); } /** * Checks if all the tokens in the current object can be found in another * Token object's tokens (in order). * For example, ["John", "Doe"] is a subset of ["John", "Michael", "Doe"] * in order but not a subset of ["Doe", "Michael", "John"] in order. * * @param {Tokens} other The other Tokens instance to compare with. * @param {Function} compare An optional custom comparison function. * @returns {boolean} True if the current Token object is a subset of the * other Token object, false otherwise. */ isSubsetInOrder(other, compare = (a, b) => a == b) { if (this.tokens.length > other.tokens.length) { return false; } let idx = 0; return this.tokens.every(tokenSelf => { for (; idx < other.tokens.length; idx++) { if (compare(tokenSelf, other.tokens[idx])) { return true; } } return false; }); } } /** * The AddressField class is a base class representing a single address field. */ class AddressField { #userValue = null; #region = null; /** * Create a representation of a single address field. * * @param {string} value * The unnormalized value of an address field. * * @param {string} region * The region of a single address field. Used to determine what collator should be * for string comparisons of the address's field value. */ constructor(value, region) { this.#userValue = value?.trim(); this.#region = region; } /** * Get the unnormalized value of the address field. * * @returns {string} The unnormalized field value. */ get userValue() { return this.#userValue; } /** * Get the collator used for string comparisons. * * @returns {Intl.Collator} The collator. */ get collator() { return lazy.FormAutofillUtils.getSearchCollators(this.#region, { ignorePunctuation: false, }); } get region() { return this.#region; } /** * Compares two strings using the collator. * * @param {string} a The first string to compare. * @param {string} b The second string to compare. * @returns {number} A negative, zero, or positive value, depending on the comparison result. */ localeCompare(a, b) { return lazy.FormAutofillUtils.strCompare(a, b, this.collator); } /** * Checks if the field value is empty. * * @returns {boolean} True if the field value is empty, false otherwise. */ isEmpty() { return !this.#userValue; } /** * Normalizes the unnormalized field value using the provided options. * * @param {object} options - Options for normalization. * @returns {string} The normalized field value. */ normalizeUserValue(options) { return lazy.AddressParser.normalizeString(this.#userValue, options); } /** * Returns a string representation of the address field. * Ex. "Country: US", "PostalCode: 55123", etc. */ toString() { return `${this.constructor.name}: ${this.#userValue}\n`; } /** * Checks if the field value is valid. * * @returns {boolean} True if the field value is valid, false otherwise. */ isValid() { throw Components.Exception("", Cr.NS_ERROR_NOT_IMPLEMENTED); } /** * Compares the current field value with another field value for equality. */ equals() { throw Components.Exception("", Cr.NS_ERROR_NOT_IMPLEMENTED); } /** * Checks if the current field value contains another field value. */ contains() { throw Components.Exception("", Cr.NS_ERROR_NOT_IMPLEMENTED); } } /** * A street address. * See autocomplete="street-address". */ class StreetAddress extends AddressField { static ac = "street-address"; #structuredStreetAddress = null; constructor(value, region) { super(value, region); this.#structuredStreetAddress = lazy.AddressParser.parseStreetAddress( lazy.AddressParser.replaceControlCharacters(this.userValue) ); } get structuredStreetAddress() { return this.#structuredStreetAddress; } get street_number() { return this.#structuredStreetAddress?.street_number; } get street_name() { return this.#structuredStreetAddress?.street_name; } get floor_number() { return this.#structuredStreetAddress?.floor_number; } get apartment_number() { return this.#structuredStreetAddress?.apartment_number; } isValid() { return this.userValue ? !!/[\p{Letter}]/u.exec(this.userValue) : true; } equals(other) { if (this.structuredStreetAddress && other.structuredStreetAddress) { return ( this.street_number?.toLowerCase() == other.street_number?.toLowerCase() && this.street_name?.toLowerCase() == other.street_name?.toLowerCase() && this.apartment_number?.toLowerCase() == other.apartment_number?.toLowerCase() && this.floor_number?.toLowerCase() == other.floor_number?.toLowerCase() ); } const options = { ignore_case: true, }; return ( this.normalizeUserValue(options) == other.normalizeUserValue(options) ); } contains(other) { let selfStreetName = this.userValue; let otherStreetName = other.userValue; // Compare street number, apartment number and floor number if // both addresses are parsed successfully. if (this.structuredStreetAddress && other.structuredStreetAddress) { if ( (other.street_number && this.street_number != other.street_number) || (other.apartment_number && this.apartment_number != other.apartment_number) || (other.floor_number && this.floor_number != other.floor_number) ) { return false; } // Use parsed street name to compare selfStreetName = this.street_name; otherStreetName = other.street_name; } // Check if one street name contains the other const options = { ignore_case: true, replace_punctuation: " ", }; const selfTokens = new Tokens( lazy.AddressParser.normalizeString(selfStreetName, options), /[\s\n\r]+/ ); const otherTokens = new Tokens( lazy.AddressParser.normalizeString(otherStreetName, options), /[\s\n\r]+/ ); return otherTokens.isSubsetInOrder(selfTokens, (a, b) => this.localeCompare(a, b) ); } static fromRecord(record, region) { return new StreetAddress(record[StreetAddress.ac], region); } } /** * A postal code / zip code * See autocomplete="postal-code" */ class PostalCode extends AddressField { static ac = "postal-code"; constructor(value, region) { super(value, region); } isValid() { const { postalCodePattern } = lazy.FormAutofillUtils.getFormFormat( this.region ); const regexp = new RegExp(`^${postalCodePattern}$`); return regexp.test(this.userValue); } equals(other) { const options = { ignore_case: true, remove_whitespace: true, remove_punctuation: true, }; return ( this.normalizeUserValue(options) == other.normalizeUserValue(options) ); } contains(other) { const options = { ignore_case: true, remove_whitespace: true, remove_punctuation: true, }; const self_normalized_value = this.normalizeUserValue(options); const other_normalized_value = other.normalizeUserValue(options); return ( self_normalized_value.endsWith(other_normalized_value) || self_normalized_value.startsWith(other_normalized_value) ); } static fromRecord(record, region) { return new PostalCode(record[PostalCode.ac], region); } } /** * City name. * See autocomplete="address-level2" */ class City extends AddressField { static ac = "address-level2"; #city = null; constructor(value, region) { super(value, region); const options = { ignore_case: true, }; this.#city = this.normalizeUserValue(options); } get city() { return this.#city; } isValid() { return this.userValue ? !!/[\p{Letter}]/u.exec(this.userValue) : true; } equals(other) { return this.city == other.city; } contains(other) { const options = { ignore_case: true, replace_punctuation: " ", merge_whitespace: true, }; const selfTokens = new Tokens(this.normalizeUserValue(options)); const otherTokens = new Tokens(other.normalizeUserValue(options)); return otherTokens.isSubsetInOrder(selfTokens, (a, b) => this.localeCompare(a, b) ); } static fromRecord(record, region) { return new City(record[City.ac], region); } } /** * State. * See autocomplete="address-level1" */ class State extends AddressField { static ac = "address-level1"; // The abbreviated region name. For example, California is abbreviated as CA #state = null; constructor(value, region) { super(value, region); if (!this.userValue) { return; } const options = { merge_whitespace: true, remove_punctuation: true, }; this.#state = lazy.FormAutofillUtils.getAbbreviatedSubregionName( this.normalizeUserValue(options), region ); } get state() { return this.#state; } isValid() { // If we can't get the abbreviated name, assume this is an invalid state name return !!this.#state; } equals(other) { // If we have an abbreviated name, compare with it. if (this.state) { return this.state == other.state; } // If we don't have an abbreviated name, just compare the userValue return this.userValue == other.userValue; } contains(other) { return this.equals(other); } static fromRecord(record, region) { return new State(record[State.ac], region); } } /** * A country or territory code. * See autocomplete="country" */ class Country extends AddressField { static ac = "country"; // iso 3166 2-alpha code #country_code = null; constructor(value, region) { super(value, region); if (this.isEmpty()) { return; } const options = { merge_whitespace: true, remove_punctuation: true, }; const country = this.normalizeUserValue(options); this.#country_code = lazy.FormAutofillUtils.identifyCountryCode(country); // When the country name is not a valid one, we use the current region instead if (!this.#country_code) { this.#country_code = lazy.FormAutofillUtils.identifyCountryCode(region); } } get country_code() { return this.#country_code; } isValid() { return !!this.#country_code; } equals(other) { return this.country_code == other.country_code; } contains(_other) { return false; } static fromRecord(record, region) { return new Country(record[Country.ac], region); } } /** * The field expects the value to be a person's full name. * See autocomplete="name" */ class Name extends AddressField { static ac = "name"; constructor(value, region) { super(value, region); } // Reference: // https://source.chromium.org/chromium/chromium/src/+/main:components/autofill/core/browser/data_model/autofill_profile_comparator.cc;drc=566369da19275cc306eeb51a3d3451885299dabb;bpv=1;bpt=1;l=935 static createNameVariants(name) { let tokens = name.trim().split(" "); let variants = [""]; if (!tokens[0]) { return variants; } for (const token of tokens) { let tmp = []; for (const variant of variants) { tmp.push(variant + " " + token); tmp.push(variant + " " + token[0]); } variants = variants.concat(tmp); } const options = { merge_whitespace: true, }; return variants.map(v => lazy.AddressParser.normalizeString(v, options)); } isValid() { return this.userValue ? !!/[\p{Letter}]/u.exec(this.userValue) : true; } equals(other) { const options = { ignore_case: true, }; return ( this.normalizeUserValue(options) == other.normalizeUserValue(options) ); } contains(other) { // Unify puncutation while comparing so users can choose the right one // if the only different part is puncutation // Ex. John O'Brian is similar to John O`Brian let options = { ignore_case: true, replace_punctuation: " ", merge_whitespace: true, }; let selfName = this.normalizeUserValue(options); let otherName = other.normalizeUserValue(options); let selfTokens = new Tokens(selfName); let otherTokens = new Tokens(otherName); if ( otherTokens.isSubsetInOrder(selfTokens, (a, b) => this.localeCompare(a, b) ) ) { return true; } // Remove puncutation from self and test whether current contains other // Ex. John O'Brian is similar to John OBrian selfName = this.normalizeUserValue({ ignore_case: true, remove_punctuation: true, merge_whitespace: true, }); otherName = other.normalizeUserValue({ ignore_case: true, remove_punctuation: true, merge_whitespace: true, }); selfTokens = new Tokens(selfName); otherTokens = new Tokens(otherName); if ( otherTokens.isSubsetInOrder(selfTokens, (a, b) => this.localeCompare(a, b) ) ) { return true; } // Create variants of the names by generating initials for given and middle names. selfName = lazy.FormAutofillNameUtils.splitName(selfName); otherName = lazy.FormAutofillNameUtils.splitName(otherName); // In the following we compare cases when people abbreviate first name // and middle name with initials. So if family name is different, // we can just skip and assume the two names are different if (!this.localeCompare(selfName.family, otherName.family)) { return false; } const otherNameWithoutFamily = lazy.FormAutofillNameUtils.joinNameParts({ given: otherName.given, middle: otherName.middle, }); let givenVariants = Name.createNameVariants(selfName.given); let middleVariants = Name.createNameVariants(selfName.middle); for (const given of givenVariants) { for (const middle of middleVariants) { const nameVariant = lazy.FormAutofillNameUtils.joinNameParts({ given, middle, }); if (this.localeCompare(nameVariant, otherNameWithoutFamily)) { return true; } } } // Check cases when given name and middle name are abbreviated with initial // and the initials are put together. ex. John Michael Doe to JM. Doe if (selfName.given && selfName.middle) { const nameVariant = [ ...selfName.given.split(" "), ...selfName.middle.split(" "), ].reduce((initials, name) => { initials += name[0]; return initials; }, ""); if (this.localeCompare(nameVariant, otherNameWithoutFamily)) { return true; } } return false; } static fromRecord(record, region) { return new Name(record[Name.ac], region); } } /** * A full telephone number, including the country code. * See autocomplete="tel" */ class Tel extends AddressField { static ac = "tel"; #valid = false; // The country code part of a telphone number, such as "1" for the United States #country_code = null; // The national part of a telphone number. For example, the phone number "+1 520-248-6621" // national part is "520-248-6621". #national_number = null; constructor(value, region) { super(value, region); if (!this.userValue) { return; } // TODO: Support parse telephone extension // We compress all tel-related fields into a single tel field when an an form // is submitted, so we need to decompress it here. const parsed_tel = lazy.PhoneNumber.Parse(this.userValue, region); if (parsed_tel) { this.#national_number = parsed_tel?.nationalNumber; this.#country_code = parsed_tel?.countryCode; this.#valid = true; } else { this.#national_number = lazy.PhoneNumberNormalizer.Normalize( this.userValue ); const md = lazy.PhoneNumber.FindMetaDataForRegion(region); this.#country_code = md ? "+" + md.nationalPrefix : null; this.#valid = lazy.PhoneNumber.IsValid(this.#national_number, md); } } get country_code() { return this.#country_code; } get national_number() { return this.#national_number; } isValid() { return this.#valid; } equals(other) { return ( this.national_number == other.national_number && this.country_code == other.country_code ); } contains(other) { if (!this.country_code || this.country_code != other.country_code) { return false; } return this.national_number.endsWith(other.national_number); } toString() { return `${this.constructor.name}: ${this.country_code} ${this.national_number}\n`; } static fromRecord(record, region) { return new Tel(record[Tel.ac], region); } } /** * A company or organization name. * See autocomplete="organization". */ class Organization extends AddressField { static ac = "organization"; constructor(value, region) { super(value, region); } isValid() { return this.userValue ? !!/[\p{Letter}\p{Number}]/u.exec(this.userValue) : true; } /** * Two company names are considered equal only when everything is the same. */ equals(other) { return this.userValue == other.userValue; } // Mergeable use locale compare contains(other) { const options = { replace_punctuation: " ", // mozilla org vs mozilla-org merge_whitespace: true, ignore_case: true, // mozilla vs Mozilla }; // If every token in B can be found in A without considering order // Example, 'Food & Pharmacy' contains 'Pharmacy & Food' const selfTokens = new Tokens(this.normalizeUserValue(options)); const otherTokens = new Tokens(other.normalizeUserValue(options)); return otherTokens.isSubset(selfTokens, (a, b) => this.localeCompare(a, b)); } static fromRecord(record, region) { return new Organization(record[Organization.ac], region); } } /** * An email address * See autocomplete="email". */ class Email extends AddressField { static ac = "email"; constructor(value, region) { super(value, region); } // Since we are using the valid check to determine whether we capture the email field when users submitting a forma, // use a less restrict email verification method so we capture an email for most of the cases. // The current algorithm is based on the regular expression defined in // https://html.spec.whatwg.org/multipage/input.html#valid-e-mail-address // // We might also change this to something similar to the algorithm used in // EmailInputType::IsValidEmailAddress if we want a more strict email validation algorithm. isValid() { const regex = /^[a-zA-Z0-9.!#$%&'*+\/=?^_`{|}~-]+@[a-zA-Z0-9](?:[a-zA-Z0-9-]{0,61}[a-zA-Z0-9])?(?:\.[a-zA-Z0-9](?:[a-zA-Z0-9-]{0,61}[a-zA-Z0-9])?)*$/; const match = this.userValue.match(regex); if (!match) { return false; } return true; } /* // JS version of EmailInputType::IsValidEmailAddress isValid() { const regex = /^([a-zA-Z0-9.!#$%&'*+-/=?^_`{|}~]+)@([a-zA-Z0-9-]+\.[a-zA-Z]{2,})$/; const match = this.userValue.match(regex); if (!match) { return false; } const local = match[1]; const domain = match[2]; // The domain name can't begin with a dot or a dash. if (['-', '.'].includes(domain[0])) { return false; } // A dot can't follow a dot or a dash. // A dash can't follow a dot. const pattern = /(\.\.)|(\.-)|(-\.)/; if (pattern.test(domain)) { return false; } return true; } */ equals(other) { const options = { ignore_case: true, }; // email is case-insenstive return ( this.normalizeUserValue(options) == other.normalizeUserValue(options) ); } contains(_other) { return false; } static fromRecord(record, region) { return new Email(record[Email.ac], region); } } /** * The AddressComparison class compares two AddressComponent instances and * provides information about the differences or similarities between them. * * The comparison result is stored and the object and can be retrieved by calling * 'result' getter. */ export class AddressComparison { // Const to define the comparison result for two address fields static BOTH_EMPTY = 0; static A_IS_EMPTY = 1; static B_IS_EMPTY = 2; static A_CONTAINS_B = 3; static B_CONTAINS_A = 4; // When A contains B and B contains A Ex. "Pizza & Food vs Food & Pizza" static SIMILAR = 5; static SAME = 6; static DIFFERENT = 7; // The comparion result, keyed by field name. #result = {}; /** * Constructs AddressComparison by comparing two AddressComponent objects. * * @class * @param {AddressComponent} addressA - The first address to compare. * @param {AddressComponent} addressB - The second address to compare. */ constructor(addressA, addressB) { for (const fieldA of addressA.getAllFields()) { const fieldName = fieldA.constructor.ac; const fieldB = addressB.getField(fieldName); if (fieldB) { this.#result[fieldName] = AddressComparison.compare(fieldA, fieldB); } else { this.#result[fieldName] = AddressComparison.B_IS_EMPTY; } } for (const fieldB of addressB.getAllFields()) { const fieldName = fieldB.constructor.ac; if (!addressB.getField(fieldName)) { this.#result[fieldName] = AddressComparison.A_IS_EMPTY; } } } /** * Retrieves the result object containing the comparison results. * * @returns {object} The result object with keys corresponding to field names * and values being comparison constants. */ get result() { return this.#result; } /** * Compares two address fields and returns the comparison result. * * @param {AddressField} fieldA The first field to compare. * @param {AddressField} fieldB The second field to compare. * @returns {number} A constant representing the comparison result. */ static compare(fieldA, fieldB) { if (fieldA.isEmpty()) { return fieldB.isEmpty() ? AddressComparison.BOTH_EMPTY : AddressComparison.A_IS_EMPTY; } else if (fieldB.isEmpty()) { return AddressComparison.B_IS_EMPTY; } if (fieldA.equals(fieldB)) { return AddressComparison.SAME; } if (fieldB.contains(fieldA)) { if (fieldA.contains(fieldB)) { return AddressComparison.SIMILAR; } return AddressComparison.B_CONTAINS_A; } else if (fieldA.contains(fieldB)) { return AddressComparison.A_CONTAINS_B; } return AddressComparison.DIFFERENT; } /** * Converts a comparison result constant to a readable string. * * @param {number} result The comparison result constant. * @returns {string} A readable string representing the comparison result. */ static resultToString(result) { switch (result) { case AddressComparison.BOTH_EMPTY: return "both fields are empty"; case AddressComparison.A_IS_EMPTY: return "field A is empty"; case AddressComparison.B_IS_EMPTY: return "field B is empty"; case AddressComparison.A_CONTAINS_B: return "field A contains field B"; case AddressComparison.B_CONTAINS_B: return "field B contains field A"; case AddressComparison.SIMILAR: return "field A and field B are similar"; case AddressComparison.SAME: return "two fields are the same"; case AddressComparison.DIFFERENT: return "two fields are different"; } return ""; } /** * Returns a formatted string representing the comparison results for each field. * * @returns {string} A formatted string with field names and their respective * comparison results. */ toString() { let string = "Comparison Result:\n"; for (const [name, result] of Object.entries(this.#result)) { string += `${name}: ${AddressComparison.resultToString(result)}\n`; } return string; } } /** * The AddressComponent class represents a structured address that is transformed * from address record created in FormAutofillHandler 'createRecord' function. * * An AddressComponent object consisting of various fields such as state, city, * country, postal code, etc. The class provides a compare methods * to compare another AddressComponent against the current instance. * * Note. This class assumes records that pass to it have already been normalized. */ export class AddressComponent { /** * An object that stores individual address field instances * (e.g., class State, class City, class Country, etc.), keyed by the * field's clas name. */ #fields = {}; /** * Constructs an AddressComponent object by converting passed address record object. * * @class * @param {object} record The address record object containing address data. * @param {object} [options = {}] a list of options for this method * @param {boolean} [options.ignoreInvalid = true] Whether to ignore invalid address * fields in the AddressComponent object. If set to true, * invalid fields will be ignored. */ constructor(record, { ignoreInvalid = true } = {}) { this.record = {}; // Get country code first so we can use it to parse other fields const country = new Country( record[Country.ac], FormAutofill.DEFAULT_REGION ); const region = country.country_code || lazy.FormAutofillUtils.identifyCountryCode(FormAutofill.DEFAULT_REGION); // Build an mapping that the key is field name and the value is the AddressField object [ country, new StreetAddress(record[StreetAddress.ac], region), new PostalCode(record[PostalCode.ac], region), new State(record[State.ac], region), new City(record[City.ac], region), new Name(record[Name.ac], region), new Tel(record[Tel.ac], region), new Organization(record[Organization.ac], region), new Email(record[Email.ac], region), ].forEach(addressField => { if ( !addressField.isEmpty() && (!ignoreInvalid || addressField.isValid()) ) { const fieldName = addressField.constructor.ac; this.#fields[fieldName] = addressField; this.record[fieldName] = record[fieldName]; } }); } /** * Retrieves all the address fields. * * @returns {Array} An array of address field objects. */ getAllFields() { return Object.values(this.#fields); } /** * Retrieves the field object with the specified name. * * @param {string} name The name of the field to retrieve. * @returns {object} The address field object with the specified name, * or undefined if the field is not found. */ getField(name) { return this.#fields[name]; } /** * Compares the current AddressComponent with another AddressComponent. * * @param {AddressComponent} address The AddressComponent object to compare * against the current one. * @returns {object} An object containing comparison results. The keys of the object represent * individual address field, and the values are strings indicating the comparison result: * - "same" if both components are either empty or the same, * - "superset" if the current contains the input or the input is empty, * - "subset" if the input contains the current or the current is empty, * - "similar" if the two address components are similar, * - "different" if the two address components are different. */ compare(address) { let result = {}; const comparison = new AddressComparison(this, address); for (const [k, v] of Object.entries(comparison.result)) { if ([AddressComparison.BOTH_EMPTY, AddressComparison.SAME].includes(v)) { result[k] = "same"; } else if ( [AddressComparison.B_IS_EMPTY, AddressComparison.A_CONTAINS_B].includes( v ) ) { result[k] = "superset"; } else if ( [AddressComparison.A_IS_EMPTY, AddressComparison.B_CONTAINS_A].includes( v ) ) { result[k] = "subset"; } else if ([AddressComparison.SIMILAR].includes(v)) { result[k] = "similar"; } else { result[k] = "different"; } } return result; } /** * Print all the fields in this AddressComponent object. */ toString() { let string = ""; for (const field of Object.values(this.#fields)) { string += field.toString(); } return string; } }