gecko-dev/toolkit/components/satchel/FormHistory.jsm

1220 строки
40 KiB
JavaScript

/* 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/. */
"use strict";
/**
* FormHistory
*
* Used to store values that have been entered into forms which may later
* be used to automatically fill in the values when the form is visited again.
*
* search(terms, queryData, callback)
* Look up values that have been previously stored.
* terms - array of terms to return data for
* queryData - object that contains the query terms
* The query object contains properties for each search criteria to match, where the value
* of the property specifies the value that term must have. For example,
* { term1: value1, term2: value2 }
* callback - callback that is called when results are available or an error occurs.
* The callback is passed a result array containing each found entry. Each element in
* the array is an object containing a property for each search term specified by 'terms'.
* count(queryData, callback)
* Find the number of stored entries that match the given criteria.
* queryData - array of objects that indicate the query. See the search method for details.
* callback - callback that is called when results are available or an error occurs.
* The callback is passed the number of found entries.
* update(changes, callback)
* Write data to form history storage.
* changes - an array of changes to be made. If only one change is to be made, it
* may be passed as an object rather than a one-element array.
* Each change object is of the form:
* { op: operation, term1: value1, term2: value2, ... }
* Valid operations are:
* add - add a new entry
* update - update an existing entry
* remove - remove an entry
* bump - update the last accessed time on an entry
* The terms specified allow matching of one or more specific entries. If no terms
* are specified then all entries are matched. This means that { op: "remove" } is
* used to remove all entries and clear the form history.
* callback - callback that is called when results have been stored.
* getAutoCompeteResults(searchString, params, callback)
* Retrieve an array of form history values suitable for display in an autocomplete list.
* Returns an mozIStoragePendingStatement that can be used to cancel the operation if
* needed.
* searchString - the string to search for, typically the entered value of a textbox
* params - zero or more filter arguments:
* fieldname - form field name
* agedWeight
* bucketSize
* expiryDate
* maxTimeGroundings
* timeGroupingSize
* prefixWeight
* boundaryWeight
* callback - callback that is called with the array of results. Each result in the array
* is an object with four arguments:
* text, textLowerCase, frecency, totalScore
* schemaVersion
* This property holds the version of the database schema
*
* Terms:
* guid - entry identifier. For 'add', a guid will be generated.
* fieldname - form field name
* value - form value
* timesUsed - the number of times the entry has been accessed
* firstUsed - the time the the entry was first created
* lastUsed - the time the entry was last accessed
* firstUsedStart - search for entries created after or at this time
* firstUsedEnd - search for entries created before or at this time
* lastUsedStart - search for entries last accessed after or at this time
* lastUsedEnd - search for entries last accessed before or at this time
* newGuid - a special case valid only for 'update' and allows the guid for
* an existing record to be updated. The 'guid' term is the only
* other term which can be used (ie, you can not also specify a
* fieldname, value etc) and indicates the guid of the existing
* record that should be updated.
*
* In all of the above methods, the callback argument should be an object with
* handleResult(result), handleFailure(error) and handleCompletion(reason) functions.
* For search and getAutoCompeteResults, result is an object containing the desired
* properties. For count, result is the integer count. For, update, handleResult is
* not called. For handleCompletion, reason is either 0 if successful or 1 if
* an error occurred.
*/
var EXPORTED_SYMBOLS = ["FormHistory"];
ChromeUtils.import("resource://gre/modules/XPCOMUtils.jsm");
ChromeUtils.import("resource://gre/modules/Services.jsm");
ChromeUtils.import("resource://gre/modules/AppConstants.jsm");
XPCOMUtils.defineLazyServiceGetter(this, "uuidService",
"@mozilla.org/uuid-generator;1",
"nsIUUIDGenerator");
ChromeUtils.defineModuleGetter(this, "OS",
"resource://gre/modules/osfile.jsm");
ChromeUtils.defineModuleGetter(this, "Sqlite",
"resource://gre/modules/Sqlite.jsm");
const DB_SCHEMA_VERSION = 4;
const DAY_IN_MS = 86400000; // 1 day in milliseconds
const MAX_SEARCH_TOKENS = 10;
const NOOP = function noop() {};
const DB_FILENAME = "formhistory.sqlite";
var supportsDeletedTable = AppConstants.platform == "android";
var Prefs = {
initialized: false,
get debug() { this.ensureInitialized(); return this._debug; },
get enabled() { this.ensureInitialized(); return this._enabled; },
get expireDays() { this.ensureInitialized(); return this._expireDays; },
ensureInitialized() {
if (this.initialized) {
return;
}
this.initialized = true;
this._debug = Services.prefs.getBoolPref("browser.formfill.debug");
this._enabled = Services.prefs.getBoolPref("browser.formfill.enable");
this._expireDays = Services.prefs.getIntPref("browser.formfill.expire_days");
},
};
function log(aMessage) {
if (Prefs.debug) {
Services.console.logStringMessage("FormHistory: " + aMessage);
}
}
function sendNotification(aType, aData) {
if (typeof aData == "string") {
let strWrapper = Cc["@mozilla.org/supports-string;1"]
.createInstance(Ci.nsISupportsString);
strWrapper.data = aData;
aData = strWrapper;
} else if (typeof aData == "number") {
let intWrapper = Cc["@mozilla.org/supports-PRInt64;1"]
.createInstance(Ci.nsISupportsPRInt64);
intWrapper.data = aData;
aData = intWrapper;
} else if (aData) {
throw Components.Exception("Invalid type " + (typeof aType) + " passed to sendNotification",
Cr.NS_ERROR_ILLEGAL_VALUE);
}
Services.obs.notifyObservers(aData, "satchel-storage-changed", aType);
}
/**
* Current database schema
*/
const dbSchema = {
tables: {
moz_formhistory: {
"id": "INTEGER PRIMARY KEY",
"fieldname": "TEXT NOT NULL",
"value": "TEXT NOT NULL",
"timesUsed": "INTEGER",
"firstUsed": "INTEGER",
"lastUsed": "INTEGER",
"guid": "TEXT",
},
moz_deleted_formhistory: {
"id": "INTEGER PRIMARY KEY",
"timeDeleted": "INTEGER",
"guid": "TEXT",
},
},
indices: {
moz_formhistory_index: {
table: "moz_formhistory",
columns: ["fieldname"],
},
moz_formhistory_lastused_index: {
table: "moz_formhistory",
columns: ["lastUsed"],
},
moz_formhistory_guid_index: {
table: "moz_formhistory",
columns: ["guid"],
},
},
};
/**
* Validating and processing API querying data
*/
const validFields = [
"fieldname",
"value",
"timesUsed",
"firstUsed",
"lastUsed",
"guid",
];
const searchFilters = [
"firstUsedStart",
"firstUsedEnd",
"lastUsedStart",
"lastUsedEnd",
];
function validateOpData(aData, aDataType) {
let thisValidFields = validFields;
// A special case to update the GUID - in this case there can be a 'newGuid'
// field and of the normally valid fields, only 'guid' is accepted.
if (aDataType == "Update" && "newGuid" in aData) {
thisValidFields = ["guid", "newGuid"];
}
for (let field in aData) {
if (field != "op" && !thisValidFields.includes(field)) {
throw Components.Exception(
aDataType + " query contains an unrecognized field: " + field,
Cr.NS_ERROR_ILLEGAL_VALUE);
}
}
return aData;
}
function validateSearchData(aData, aDataType) {
for (let field in aData) {
if (field != "op" && !validFields.includes(field) && !searchFilters.includes(field)) {
throw Components.Exception(
aDataType + " query contains an unrecognized field: " + field,
Cr.NS_ERROR_ILLEGAL_VALUE);
}
}
}
function makeQueryPredicates(aQueryData, delimiter = " AND ") {
return Object.keys(aQueryData).map(field => {
switch (field) {
case "firstUsedStart": {
return "firstUsed >= :" + field;
}
case "firstUsedEnd": {
return "firstUsed <= :" + field;
}
case "lastUsedStart": {
return "lastUsed >= :" + field;
}
case "lastUsedEnd": {
return "lastUsed <= :" + field;
}
}
return field + " = :" + field;
}).join(delimiter);
}
function generateGUID() {
// string like: "{f60d9eac-9421-4abc-8491-8e8322b063d4}"
let uuid = uuidService.generateUUID().toString();
let raw = ""; // A string with the low bytes set to random values
let bytes = 0;
for (let i = 1; bytes < 12; i += 2) {
// Skip dashes
if (uuid[i] == "-") {
i++;
}
let hexVal = parseInt(uuid[i] + uuid[i + 1], 16);
raw += String.fromCharCode(hexVal);
bytes++;
}
return btoa(raw);
}
var Migrators = {
/*
* Updates the DB schema to v3 (bug 506402).
* Adds deleted form history table.
*/
async dbAsyncMigrateToVersion4(conn) {
const TABLE_NAME = "moz_deleted_formhistory";
let tableExists = await conn.tableExists(TABLE_NAME);
if (!tableExists) {
let table = dbSchema.tables[TABLE_NAME];
let tSQL = Object.keys(table).map(col => [col, table[col]].join(" ")).join(", ");
await conn.execute(`CREATE TABLE ${TABLE_NAME} (${tSQL})`);
}
},
};
/**
* @typedef {Object} InsertQueryData
* @property {Object} updatedChange
* A change requested by FormHistory.
* @property {String} query
* The insert query string.
*/
/**
* Prepares a query and some default parameters when inserting an entry
* to the database.
*
* @param {Object} change
* The change requested by FormHistory.
* @param {number} now
* The current timestamp in microseconds.
* @returns {InsertQueryData}
* The query information needed to pass along to the database.
*/
function prepareInsertQuery(change, now) {
let updatedChange = Object.assign({}, change);
let query = "INSERT INTO moz_formhistory " +
"(fieldname, value, timesUsed, firstUsed, lastUsed, guid) " +
"VALUES (:fieldname, :value, :timesUsed, :firstUsed, :lastUsed, :guid)";
updatedChange.timesUsed = updatedChange.timesUsed || 1;
updatedChange.firstUsed = updatedChange.firstUsed || now;
updatedChange.lastUsed = updatedChange.lastUsed || now;
return {
updatedChange,
query,
};
}
// There is a fieldname / value uniqueness constraint that's at this time
// only enforced at this level. This Map maps fieldnames => values that
// are in the process of being inserted into the database so that we know
// not to try to insert the same ones on top. Attempts to do so will be
// ignored.
var InProgressInserts = {
_inProgress: new Map(),
add(fieldname, value) {
let fieldnameSet = this._inProgress.get(fieldname);
if (!fieldnameSet) {
this._inProgress.set(fieldname, new Set([value]));
return true;
}
if (!fieldnameSet.has(value)) {
fieldnameSet.add(value);
return true;
}
return false;
},
clear(fieldnamesAndValues) {
for (let [fieldname, value] of fieldnamesAndValues) {
let fieldnameSet = this._inProgress.get(fieldname);
if (fieldnameSet &&
fieldnameSet.delete(value) &&
fieldnameSet.size == 0) {
this._inProgress.delete(fieldname);
}
}
},
};
/**
* Constructs and executes database statements from a pre-processed list of
* inputted changes.
*
* @param {Array.<Object>} aChanges changes to form history
* @param {Object} aPreparedHandlers
*/
// XXX This should be split up and the complexity reduced.
// eslint-disable-next-line complexity
async function updateFormHistoryWrite(aChanges, aPreparedHandlers) {
log("updateFormHistoryWrite " + aChanges.length);
// pass 'now' down so that every entry in the batch has the same timestamp
let now = Date.now() * 1000;
let queries = [];
let notifications = [];
let adds = [];
let conn = await FormHistory.db;
for (let change of aChanges) {
let operation = change.op;
delete change.op;
switch (operation) {
case "remove": {
log("Remove from form history " + change);
let queryTerms = makeQueryPredicates(change);
// Fetch the GUIDs we are going to delete.
try {
let query = "SELECT guid FROM moz_formhistory";
if (queryTerms) {
query += " WHERE " + queryTerms;
}
await conn.executeCached(query, change, row => {
notifications.push(["formhistory-remove", row.getResultByName("guid")]);
});
} catch (e) {
log("Error getting guids from moz_formhistory: " + e);
}
if (supportsDeletedTable) {
log("Moving to deleted table " + change);
let query = "INSERT INTO moz_deleted_formhistory (guid, timeDeleted)";
// TODO: Add these items to the deleted items table once we've sorted
// out the issues from bug 756701
if (change.guid || queryTerms) {
query +=
change.guid ? " VALUES (:guid, :timeDeleted)"
: " SELECT guid, :timeDeleted FROM moz_formhistory WHERE " + queryTerms;
change.timeDeleted = now;
queries.push({ query, params: Object.assign({}, change) });
}
if ("timeDeleted" in change) {
delete change.timeDeleted;
}
}
let query = "DELETE FROM moz_formhistory";
if (queryTerms) {
log("removeEntries");
query += " WHERE " + queryTerms;
} else {
log("removeAllEntries");
// Not specifying any fields means we should remove all entries. We
// won't need to modify the query in this case.
}
queries.push({ query, params: change });
break;
}
case "update": {
log("Update form history " + change);
let guid = change.guid;
delete change.guid;
// a special case for updating the GUID - the new value can be
// specified in newGuid.
if (change.newGuid) {
change.guid = change.newGuid;
delete change.newGuid;
}
let query = "UPDATE moz_formhistory SET ";
let queryTerms = makeQueryPredicates(change, ", ");
if (!queryTerms) {
throw Components.Exception("Update query must define fields to modify.",
Cr.NS_ERROR_ILLEGAL_VALUE);
}
query += queryTerms + " WHERE guid = :existing_guid";
change.existing_guid = guid;
queries.push({ query, params: change });
notifications.push(["formhistory-update", guid]);
break;
}
case "bump": {
log("Bump form history " + change);
if (change.guid) {
let query = "UPDATE moz_formhistory " +
"SET timesUsed = timesUsed + 1, lastUsed = :lastUsed WHERE guid = :guid";
let queryParams = {
lastUsed: now,
guid: change.guid,
};
queries.push({ query, params: queryParams });
notifications.push(["formhistory-update", change.guid]);
} else {
if (!InProgressInserts.add(change.fieldname, change.value)) {
// This updateFormHistoryWrite call, or a previous one, is already
// going to add this fieldname / value pair, so we can ignore this.
continue;
}
adds.push([change.fieldname, change.value]);
change.guid = generateGUID();
let { query, updatedChange } = prepareInsertQuery(change, now);
queries.push({ query, params: updatedChange });
notifications.push(["formhistory-add", updatedChange.guid]);
}
break;
}
case "add": {
if (!InProgressInserts.add(change.fieldname, change.value)) {
// This updateFormHistoryWrite call, or a previous one, is already
// going to add this fieldname / value pair, so we can ignore this.
continue;
}
adds.push([change.fieldname, change.value]);
log("Add to form history " + change);
if (!change.guid) {
change.guid = generateGUID();
}
let { query, updatedChange } = prepareInsertQuery(change, now);
queries.push({ query, params: updatedChange });
notifications.push(["formhistory-add", updatedChange.guid]);
break;
}
default: {
// We should've already guaranteed that change.op is one of the above
throw Components.Exception("Invalid operation " + operation,
Cr.NS_ERROR_ILLEGAL_VALUE);
}
}
}
try {
await runUpdateQueries(conn, queries);
for (let [notification, param] of notifications) {
// We're either sending a GUID or nothing at all.
sendNotification(notification, param);
}
aPreparedHandlers.handleCompletion(0);
} catch (e) {
aPreparedHandlers.handleError(e);
aPreparedHandlers.handleCompletion(1);
} finally {
InProgressInserts.clear(adds);
}
}
/**
* Runs queries for an update operation to the database. This
* is separated out from updateFormHistoryWrite to avoid shutdown
* leaks where the handlers passed to updateFormHistoryWrite would
* leak from the closure around the executeTransaction function.
*
* @param {SqliteConnection} conn the database connection
* @param {Object} queries query string and param pairs generated
* by updateFormHistoryWrite
*/
async function runUpdateQueries(conn, queries) {
await conn.executeTransaction(async () => {
for (let { query, params } of queries) {
await conn.executeCached(query, params);
}
});
}
/**
* Functions that expire entries in form history and shrinks database
* afterwards as necessary initiated by expireOldEntries.
*/
/**
* Removes entries from database.
*
* @param {number} aExpireTime expiration timestamp
* @param {number} aBeginningCount numer of entries at first
*/
function expireOldEntriesDeletion(aExpireTime, aBeginningCount) {
log("expireOldEntriesDeletion(" + aExpireTime + "," + aBeginningCount + ")");
FormHistory.update([{
op: "remove",
lastUsedEnd: aExpireTime,
}], {
handleCompletion() {
expireOldEntriesVacuum(aExpireTime, aBeginningCount);
},
handleError(aError) {
log("expireOldEntriesDeletionFailure");
},
});
}
/**
* Counts number of entries removed and shrinks database as necessary.
*
* @param {number} aExpireTime expiration timestamp
* @param {number} aBeginningCount number of entries at first
*/
function expireOldEntriesVacuum(aExpireTime, aBeginningCount) {
FormHistory.count({}, {
handleResult(aEndingCount) {
if (aBeginningCount - aEndingCount > 500) {
log("expireOldEntriesVacuum");
FormHistory.db.then(async conn => {
try {
await conn.executeCached("VACUUM");
} catch (e) {
log("expireVacuumError");
}
});
}
sendNotification("formhistory-expireoldentries", aExpireTime);
},
handleError(aError) {
log("expireEndCountFailure");
},
});
}
/**
* Database creation and access. Used by FormHistory and some of the
* utility functions, but is not exposed to the outside world.
* @class
*/
var DB = {
// Once we establish a database connection, we have to hold a reference
// to it so that it won't get GC'd.
_instance: null,
// MAX_ATTEMPTS is how many times we'll try to establish a connection
// or migrate a database before giving up.
MAX_ATTEMPTS: 2,
/** String representing where the FormHistory database is on the filesystem */
get path() {
return OS.Path.join(OS.Constants.Path.profileDir, DB_FILENAME);
},
/**
* Sets up and returns a connection to the FormHistory database. The
* connection also registers itself with AsyncShutdown so that the
* connection is closed on when the profile-before-change observer
* notification is fired.
*
* @returns {Promise}
* @resolves An Sqlite.jsm connection to the database.
* @rejects If connecting to the database, or migrating the database
* failed after MAX_ATTEMPTS attempts (where each attempt
* backs up and deletes the old database), this will reject
* with the Sqlite.jsm error.
*/
get conn() {
delete this.conn;
let conn = new Promise(async (resolve, reject) => {
try {
this._instance = await this._establishConn();
} catch (e) {
log("Failed to establish database connection: " + e);
reject(e);
return;
}
resolve(this._instance);
});
return this.conn = conn;
},
// Private functions
/**
* Tries to connect to the Sqlite database at this.path, and then
* migrates the database as necessary. If any of the steps to do this
* fail, this function should re-enter itself with an incremented
* attemptNum so that another attempt can be made after backing up
* and deleting the old database.
*
* @async
* @param {number} attemptNum
* The optional number of the attempt that is being made to connect
* to the database. Defaults to 0.
* @returns {Promise}
* @resolves An Sqlite.jsm connection to the database.
* @rejects After MAX_ATTEMPTS, this will reject with the Sqlite.jsm
* error.
*/
async _establishConn(attemptNum = 0) {
log(`Establishing database connection - attempt # ${attemptNum}`);
let conn;
try {
conn = await Sqlite.openConnection({ path: this.path });
Sqlite.shutdown.addBlocker(
"Closing FormHistory database.", () => conn.close());
} catch (e) {
// Bug 1423729 - We should check the reason for the connection failure,
// in case this is due to the disk being full or the database file being
// inaccessible due to third-party software (like anti-virus software).
// In that case, we should probably fail right away.
if (attemptNum < this.MAX_ATTEMPTS) {
log("Establishing connection failed.");
await this._failover(conn);
return this._establishConn(++attemptNum);
}
if (conn) {
await conn.close();
}
log("Establishing connection failed too many times. Giving up.");
throw e;
}
try {
let dbVersion = parseInt(await conn.getSchemaVersion(), 10);
// Case 1: Database is up to date and we're ready to go.
if (dbVersion == DB_SCHEMA_VERSION) {
return conn;
}
// Case 2: Downgrade
if (dbVersion > DB_SCHEMA_VERSION) {
log("Downgrading to version " + DB_SCHEMA_VERSION);
// User's DB is newer. Sanity check that our expected columns are
// present, and if so mark the lower version and merrily continue
// on. If the columns are borked, something is wrong so blow away
// the DB and start from scratch. [Future incompatible upgrades
// should switch to a different table or file.]
if (!(await this._expectedColumnsPresent(conn))) {
throw Components.Exception("DB is missing expected columns",
Cr.NS_ERROR_FILE_CORRUPTED);
}
// Change the stored version to the current version. If the user
// runs the newer code again, it will see the lower version number
// and re-upgrade (to fixup any entries the old code added).
await conn.setSchemaVersion(DB_SCHEMA_VERSION);
return conn;
}
// Case 3: Very old database that cannot be migrated.
//
// When FormHistory is released, we will no longer support the various
// schema versions prior to this release that nsIFormHistory2 once did.
// We'll throw an NS_ERROR_FILE_CORRUPTED, which should cause us to wipe
// out this DB and create a new one (unless this is our MAX_ATTEMPTS
// attempt).
if (dbVersion > 0 && dbVersion < 3) {
throw Components.Exception("DB version is unsupported.",
Cr.NS_ERROR_FILE_CORRUPTED);
}
if (dbVersion == 0) {
// Case 4: New database
await conn.executeTransaction(async () => {
log("Creating DB -- tables");
for (let name in dbSchema.tables) {
let table = dbSchema.tables[name];
let tSQL = Object.keys(table).map(col => [col, table[col]].join(" ")).join(", ");
log("Creating table " + name + " with " + tSQL);
await conn.execute(`CREATE TABLE ${name} (${tSQL})`);
}
log("Creating DB -- indices");
for (let name in dbSchema.indices) {
let index = dbSchema.indices[name];
let statement = "CREATE INDEX IF NOT EXISTS " + name + " ON " + index.table +
"(" + index.columns.join(", ") + ")";
await conn.execute(statement);
}
});
} else {
// Case 5: Old database requiring a migration
await conn.executeTransaction(async () => {
for (let v = dbVersion + 1; v <= DB_SCHEMA_VERSION; v++) {
log("Upgrading to version " + v + "...");
await Migrators["dbAsyncMigrateToVersion" + v](conn);
}
});
}
await conn.setSchemaVersion(DB_SCHEMA_VERSION);
return conn;
} catch (e) {
if (e.result != Cr.NS_ERROR_FILE_CORRUPTED) {
throw e;
}
if (attemptNum < this.MAX_ATTEMPTS) {
log("Setting up database failed.");
await this._failover(conn);
return this._establishConn(++attemptNum);
}
if (conn) {
await conn.close();
}
log("Setting up database failed too many times. Giving up.");
throw e;
}
},
/**
* Closes a connection to the database, then backs up the database before
* deleting it.
*
* @async
* @param {SqliteConnection | null} conn
* The connection to the database that we failed to establish or
* migrate.
* @throws If any file operations fail.
*/
async _failover(conn) {
log("Cleaning up DB file - close & remove & backup.");
if (conn) {
await conn.close();
}
let backupFile = this.path + ".corrupt";
let { file, path: uniquePath } =
await OS.File.openUnique(backupFile, { humanReadable: true });
await file.close();
await OS.File.copy(this.path, uniquePath);
await OS.File.remove(this.path);
log("Completed DB cleanup.");
},
/**
* Tests that a database connection contains the tables that we expect.
*
* @async
* @param {SqliteConnection | null} conn
* The connection to the database that we're testing.
* @returns {Promise}
* @resolves true if all expected columns are present.
*/
async _expectedColumnsPresent(conn) {
for (let name in dbSchema.tables) {
let table = dbSchema.tables[name];
let query = "SELECT " +
Object.keys(table).join(", ") +
" FROM " + name;
try {
await conn.execute(query, null, (row, cancel) => {
// One row is enough to let us know this worked.
cancel();
});
} catch (e) {
return false;
}
}
log("Verified that expected columns are present in DB.");
return true;
},
};
this.FormHistory = {
get db() {
return DB.conn;
},
get enabled() {
return Prefs.enabled;
},
_prepareHandlers(handlers) {
let defaultHandlers = {
handleResult: NOOP,
handleError: NOOP,
handleCompletion: NOOP,
};
if (!handlers) {
return defaultHandlers;
}
if (handlers.handleResult) {
defaultHandlers.handleResult = handlers.handleResult;
}
if (handlers.handleError) {
defaultHandlers.handleError = handlers.handleError;
}
if (handlers.handleCompletion) {
defaultHandlers.handleCompletion = handlers.handleCompletion;
}
return defaultHandlers;
},
search(aSelectTerms, aSearchData, aRowFuncOrHandlers) {
// if no terms selected, select everything
if (!aSelectTerms) {
aSelectTerms = validFields;
}
validateSearchData(aSearchData, "Search");
let query = "SELECT " + aSelectTerms.join(", ") + " FROM moz_formhistory";
let queryTerms = makeQueryPredicates(aSearchData);
if (queryTerms) {
query += " WHERE " + queryTerms;
}
let handlers;
if (typeof aRowFuncOrHandlers == "function") {
handlers = this._prepareHandlers();
handlers.handleResult = aRowFuncOrHandlers;
} else if (typeof aRowFuncOrHandlers == "object") {
handlers = this._prepareHandlers(aRowFuncOrHandlers);
}
let allResults = [];
return new Promise((resolve, reject) => {
this.db.then(async conn => {
try {
await conn.executeCached(query, aSearchData, row => {
let result = {};
for (let field of aSelectTerms) {
result[field] = row.getResultByName(field);
}
if (handlers) {
handlers.handleResult(result);
} else {
allResults.push(result);
}
});
if (handlers) {
handlers.handleCompletion(0);
}
resolve(allResults);
} catch (e) {
if (handlers) {
handlers.handleError(e);
handlers.handleCompletion(1);
}
reject(e);
}
});
});
},
count(aSearchData, aHandlers) {
validateSearchData(aSearchData, "Count");
let query = "SELECT COUNT(*) AS numEntries FROM moz_formhistory";
let queryTerms = makeQueryPredicates(aSearchData);
if (queryTerms) {
query += " WHERE " + queryTerms;
}
let handlers = this._prepareHandlers(aHandlers);
return new Promise((resolve, reject) => {
this.db.then(async conn => {
try {
let rows = await conn.executeCached(query, aSearchData);
let count = rows[0].getResultByName("numEntries");
handlers.handleResult(count);
handlers.handleCompletion(0);
resolve(count);
} catch (e) {
handlers.handleError(e);
handlers.handleCompletion(1);
reject(e);
}
});
});
},
update(aChanges, aHandlers) {
// Used to keep track of how many searches have been started. When that number
// are finished, updateFormHistoryWrite can be called.
let numSearches = 0;
let completedSearches = 0;
let searchFailed = false;
function validIdentifier(change) {
// The identifier is only valid if one of either the guid
// or the (fieldname/value) are set (so an X-OR)
return Boolean(change.guid) != Boolean(change.fieldname && change.value);
}
if (!("length" in aChanges)) {
aChanges = [aChanges];
}
let handlers = this._prepareHandlers(aHandlers);
let isRemoveOperation = aChanges.every(change => change && change.op && change.op == "remove");
if (!Prefs.enabled && !isRemoveOperation) {
handlers.handleError({
message: "Form history is disabled, only remove operations are allowed",
result: Ci.mozIStorageError.MISUSE,
});
handlers.handleCompletion(1);
return;
}
for (let change of aChanges) {
switch (change.op) {
case "remove":
validateSearchData(change, "Remove");
continue;
case "update":
if (validIdentifier(change)) {
validateOpData(change, "Update");
if (change.guid) {
continue;
}
} else {
throw Components.Exception(
"update op='update' does not correctly reference a entry.",
Cr.NS_ERROR_ILLEGAL_VALUE);
}
break;
case "bump":
if (validIdentifier(change)) {
validateOpData(change, "Bump");
if (change.guid) {
continue;
}
} else {
throw Components.Exception(
"update op='bump' does not correctly reference a entry.",
Cr.NS_ERROR_ILLEGAL_VALUE);
}
break;
case "add":
if (change.fieldname && change.value) {
validateOpData(change, "Add");
} else {
throw Components.Exception(
"update op='add' must have a fieldname and a value.",
Cr.NS_ERROR_ILLEGAL_VALUE);
}
break;
default:
throw Components.Exception(
"update does not recognize op='" + change.op + "'",
Cr.NS_ERROR_ILLEGAL_VALUE);
}
numSearches++;
let changeToUpdate = change;
FormHistory.search(
["guid"],
{
fieldname: change.fieldname,
value: change.value,
}, {
foundResult: false,
handleResult(aResult) {
if (this.foundResult) {
log("Database contains multiple entries with the same fieldname/value pair.");
handlers.handleError({
message:
"Database contains multiple entries with the same fieldname/value pair.",
result: 19, // Constraint violation
});
searchFailed = true;
return;
}
this.foundResult = true;
changeToUpdate.guid = aResult.guid;
},
handleError(aError) {
handlers.handleError(aError);
},
handleCompletion(aReason) {
completedSearches++;
if (completedSearches == numSearches) {
if (!aReason && !searchFailed) {
updateFormHistoryWrite(aChanges, handlers);
} else {
handlers.handleCompletion(1);
}
}
},
});
}
if (numSearches == 0) {
// We don't have to wait for any statements to return.
updateFormHistoryWrite(aChanges, handlers);
}
},
getAutoCompleteResults(searchString, params, aHandlers) {
// only do substring matching when the search string contains more than one character
let searchTokens;
let where = "";
let boundaryCalc = "";
if (searchString.length >= 1) {
params.valuePrefix = searchString + "%";
}
if (searchString.length > 1) {
searchTokens = searchString.split(/\s+/);
// build up the word boundary and prefix match bonus calculation
boundaryCalc = "MAX(1, :prefixWeight * (value LIKE :valuePrefix ESCAPE '/') + (";
// for each word, calculate word boundary weights for the SELECT clause and
// add word to the WHERE clause of the query
let tokenCalc = [];
let searchTokenCount = Math.min(searchTokens.length, MAX_SEARCH_TOKENS);
for (let i = 0; i < searchTokenCount; i++) {
let escapedToken = searchTokens[i];
params["tokenBegin" + i] = escapedToken + "%";
params["tokenBoundary" + i] = "% " + escapedToken + "%";
params["tokenContains" + i] = "%" + escapedToken + "%";
tokenCalc.push("(value LIKE :tokenBegin" + i + " ESCAPE '/') + " +
"(value LIKE :tokenBoundary" + i + " ESCAPE '/')");
where += "AND (value LIKE :tokenContains" + i + " ESCAPE '/') ";
}
// add more weight if we have a traditional prefix match and
// multiply boundary bonuses by boundary weight
boundaryCalc += tokenCalc.join(" + ") + ") * :boundaryWeight)";
} else if (searchString.length == 1) {
where = "AND (value LIKE :valuePrefix ESCAPE '/') ";
boundaryCalc = "1";
delete params.prefixWeight;
delete params.boundaryWeight;
} else {
where = "";
boundaryCalc = "1";
delete params.prefixWeight;
delete params.boundaryWeight;
}
params.now = Date.now() * 1000; // convert from ms to microseconds
let handlers = this._prepareHandlers(aHandlers);
/* Three factors in the frecency calculation for an entry (in order of use in calculation):
* 1) average number of times used - items used more are ranked higher
* 2) how recently it was last used - items used recently are ranked higher
* 3) additional weight for aged entries surviving expiry - these entries are relevant
* since they have been used multiple times over a large time span so rank them higher
* The score is then divided by the bucket size and we round the result so that entries
* with a very similar frecency are bucketed together with an alphabetical sort. This is
* to reduce the amount of moving around by entries while typing.
*/
let query = "/* do not warn (bug 496471): can't use an index */ " +
"SELECT value, guid, " +
"ROUND( " +
"timesUsed / MAX(1.0, (lastUsed - firstUsed) / :timeGroupingSize) * " +
"MAX(1.0, :maxTimeGroupings - (:now - lastUsed) / :timeGroupingSize) * " +
"MAX(1.0, :agedWeight * (firstUsed < :expiryDate)) / " +
":bucketSize " +
", 3) AS frecency, " +
boundaryCalc + " AS boundaryBonuses " +
"FROM moz_formhistory " +
"WHERE fieldname=:fieldname " + where +
"ORDER BY ROUND(frecency * boundaryBonuses) DESC, UPPER(value) ASC";
let cancelled = false;
let cancellableQuery = {
cancel() {
cancelled = true;
},
};
this.db.then(async conn => {
try {
await conn.executeCached(query, params, (row, cancel) => {
if (cancelled) {
cancel();
return;
}
let value = row.getResultByName("value");
let guid = row.getResultByName("guid");
let frecency = row.getResultByName("frecency");
let entry = {
text: value,
guid,
textLowerCase: value.toLowerCase(),
frecency,
totalScore: Math.round(frecency * row.getResultByName("boundaryBonuses")),
};
handlers.handleResult(entry);
});
handlers.handleCompletion(0);
} catch (e) {
handlers.handleError(e);
handlers.handleCompletion(1);
}
});
return cancellableQuery;
},
// This is used only so that the test can verify deleted table support.
get _supportsDeletedTable() {
return supportsDeletedTable;
},
set _supportsDeletedTable(val) {
supportsDeletedTable = val;
},
// The remaining methods are called by FormHistoryStartup.js
updatePrefs() {
Prefs.initialized = false;
},
expireOldEntries() {
log("expireOldEntries");
// Determine how many days of history we're supposed to keep.
// Calculate expireTime in microseconds
let expireTime = (Date.now() - Prefs.expireDays * DAY_IN_MS) * 1000;
sendNotification("formhistory-beforeexpireoldentries", expireTime);
FormHistory.count({}, {
handleResult(aBeginningCount) {
expireOldEntriesDeletion(expireTime, aBeginningCount);
},
handleError(aError) {
log("expireStartCountFailure");
},
});
},
};
// Prevent add-ons from redefining this API
Object.freeze(FormHistory);