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|
/* 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/. */
/* This file looks to Myk Melez <myk@mozilla.org>'s Mozilla Labs snowl
* project's (http://hg.mozilla.org/labs/snowl/) modules/datastore.js
* for inspiration and idioms (and also a name :).
*/
this.EXPORTED_SYMBOLS = ["GlodaDatastore"];
var Cc = Components.classes;
var Ci = Components.interfaces;
var Cr = Components.results;
var Cu = Components.utils;
Cu.import("resource:///modules/IOUtils.js");
Cu.import("resource://gre/modules/Services.jsm");
Cu.import("resource:///modules/gloda/log4moz.js");
Cu.import("resource:///modules/gloda/datamodel.js");
Cu.import("resource:///modules/gloda/databind.js");
Cu.import("resource:///modules/gloda/collection.js");
var MIN_CACHE_SIZE = 8 * 1048576;
var MAX_CACHE_SIZE = 64 * 1048576;
var MEMSIZE_FALLBACK_BYTES = 256 * 1048576;
var PCH_LOG = Log4Moz.repository.getLogger("gloda.ds.pch");
/**
* Commit async handler; hands off the notification to
* |GlodaDatastore._asyncCompleted|.
*/
function PostCommitHandler(aCallbacks) {
this.callbacks = aCallbacks;
GlodaDatastore._pendingAsyncStatements++;
}
PostCommitHandler.prototype = {
handleResult: function gloda_ds_pch_handleResult(aResultSet) {
},
handleError: function gloda_ds_pch_handleError(aError) {
PCH_LOG.error("database error:" + aError);
},
handleCompletion: function gloda_ds_pch_handleCompletion(aReason) {
// just outright bail if we are shutdown
if (GlodaDatastore.datastoreIsShutdown)
return;
if (aReason == Ci.mozIStorageStatementCallback.REASON_FINISHED) {
for (let callback of this.callbacks) {
try {
callback();
}
catch (ex) {
PCH_LOG.error("PostCommitHandler callback (" + ex.fileName + ":" +
ex.lineNumber + ") threw: " + ex);
}
}
}
try {
GlodaDatastore._asyncCompleted();
}
catch (e) {
PCH_LOG.error("Exception in handleCompletion:", e);
}
}
};
var QFQ_LOG = Log4Moz.repository.getLogger("gloda.ds.qfq");
/**
* Singleton collection listener used by |QueryFromQueryCallback| to assist in
* the loading of referenced noun instances. Which is to say, messages have
* identities (specific e-mail addresses) associated with them via attributes.
* And these identities in turn reference / are referenced by contacts (the
* notion of a person).
*
* This listener is primarily concerned with fixing up the references in each
* noun instance to its referenced instances once they have been loaded. It
* also deals with caching so that our identity invariant is maintained: user
* code should only ever see one distinct instance of a thing at a time.
*/
var QueryFromQueryResolver = {
onItemsAdded: function(aIgnoredItems, aCollection, aFake) {
let originColl = aCollection.dataStack ? aCollection.dataStack.pop()
: aCollection.data;
//QFQ_LOG.debug("QFQR: originColl: " + originColl);
if (aCollection.completionShifter)
aCollection.completionShifter.push(originColl);
else
aCollection.completionShifter = [originColl];
if (!aFake) {
originColl.deferredCount--;
originColl.resolvedCount++;
}
// bail if we are still pending on some other load completion
if (originColl.deferredCount > 0) {
//QFQ_LOG.debug("QFQR: bailing " + originColl._nounDef.name);
return;
}
let referencesByNounID = originColl.masterCollection.referencesByNounID;
let inverseReferencesByNounID =
originColl.masterCollection.inverseReferencesByNounID;
if (originColl.pendingItems) {
for (let [, item] in Iterator(originColl.pendingItems)) {
//QFQ_LOG.debug("QFQR: loading deferred " + item.NOUN_ID + ":" + item.id);
GlodaDatastore.loadNounDeferredDeps(item, referencesByNounID,
inverseReferencesByNounID);
}
// we need to consider the possibility that we are racing a collection very
// much like our own. as such, this means we need to perform cache
// unification as our last step.
GlodaCollectionManager.cacheLoadUnify(originColl._nounDef.id,
originColl.pendingItems, false);
// just directly tell the collection about the items. we know the query
// matches (at least until we introduce predicates that we cannot express
// in SQL.)
//QFQ_LOG.debug(" QFQR: about to trigger listener: " + originColl._listener +
// "with collection: " + originColl._nounDef.name);
originColl._onItemsAdded(originColl.pendingItems);
delete originColl.pendingItems;
delete originColl._pendingIdMap;
}
},
onItemsModified: function() {
},
onItemsRemoved: function() {
},
onQueryCompleted: function(aCollection) {
let originColl = aCollection.completionShifter ?
aCollection.completionShifter.shift() : aCollection.data;
//QFQ_LOG.debug(" QFQR about to trigger completion with collection: " +
// originColl._nounDef.name);
if (originColl.deferredCount <= 0) {
originColl._onQueryCompleted();
}
},
};
/**
* Handles the results from a GlodaDatastore.queryFromQuery call in cooperation
* with the |QueryFromQueryResolver| collection listener. We do a lot of
* legwork related to satisfying references to other noun instances on the
* noun instances the user directy queried. Messages reference identities
* reference contacts which in turn (implicitly) reference identities again.
* We have to spin up those other queries and stitch things together.
*
* While the code is generally up to the existing set of tasks it is called to
* handle, I would not be surprised for it to fall down if things get more
* complex. Some of the logic here 'evolved' a bit and could benefit from
* additional documentation and a fresh go-through.
*/
function QueryFromQueryCallback(aStatement, aNounDef, aCollection) {
this.statement = aStatement;
this.nounDef = aNounDef;
this.collection = aCollection;
//QFQ_LOG.debug("Creating QFQCallback for noun: " + aNounDef.name);
// the master collection holds the referencesByNounID
this.referencesByNounID = {};
this.masterReferencesByNounID =
this.collection.masterCollection.referencesByNounID;
this.inverseReferencesByNounID = {};
this.masterInverseReferencesByNounID =
this.collection.masterCollection.inverseReferencesByNounID;
// we need to contribute our references as we load things; we need this
// because of the potential for circular dependencies and our inability to
// put things into the caching layer (or collection's _idMap) until we have
// fully resolved things.
if (this.nounDef.id in this.masterReferencesByNounID)
this.selfReferences = this.masterReferencesByNounID[this.nounDef.id];
else
this.selfReferences = this.masterReferencesByNounID[this.nounDef.id] = {};
if (this.nounDef.parentColumnAttr) {
if (this.nounDef.id in this.masterInverseReferencesByNounID)
this.selfInverseReferences =
this.masterInverseReferencesByNounID[this.nounDef.id];
else
this.selfInverseReferences =
this.masterInverseReferencesByNounID[this.nounDef.id] = {};
}
this.needsLoads = false;
GlodaDatastore._pendingAsyncStatements++;
}
QueryFromQueryCallback.prototype = {
handleResult: function gloda_ds_qfq_handleResult(aResultSet) {
try {
// just outright bail if we are shutdown
if (GlodaDatastore.datastoreIsShutdown)
return;
let pendingItems = this.collection.pendingItems;
let pendingIdMap = this.collection._pendingIdMap;
let row;
let nounDef = this.nounDef;
let nounID = nounDef.id;
while ((row = aResultSet.getNextRow())) {
let item = nounDef.objFromRow.call(nounDef.datastore, row);
if (this.collection.stashedColumns) {
let stashed = this.collection.stashedColumns[item.id] = [];
for (let [,iCol] in
Iterator(this.collection.query.options.stashColumns)) {
stashed.push(GlodaDatastore._getVariant(row, iCol));
}
}
// try and replace the item with one from the cache, if we can
let cachedItem = GlodaCollectionManager.cacheLookupOne(nounID, item.id,
false);
// if we already have a copy in the pending id map, skip it
if (item.id in pendingIdMap)
continue;
//QFQ_LOG.debug("loading item " + nounDef.id + ":" + item.id + " existing: " +
// this.selfReferences[item.id] + " cached: " + cachedItem);
if (cachedItem)
item = cachedItem;
// we may already have been loaded by this process
else if (this.selfReferences[item.id] != null)
item = this.selfReferences[item.id];
// perform loading logic which may produce reference dependencies
else
this.needsLoads =
GlodaDatastore.loadNounItem(item, this.referencesByNounID,
this.inverseReferencesByNounID) ||
this.needsLoads;
// add ourself to the references by our id
// QFQ_LOG.debug("saving item " + nounDef.id + ":" + item.id + " to self-refs");
this.selfReferences[item.id] = item;
// if we're tracking it, add ourselves to our parent's list of children
// too
if (this.selfInverseReferences) {
let parentID = item[nounDef.parentColumnAttr.idStorageAttributeName];
let childrenList = this.selfInverseReferences[parentID];
if (childrenList === undefined)
childrenList = this.selfInverseReferences[parentID] = [];
childrenList.push(item);
}
pendingItems.push(item);
pendingIdMap[item.id] = item;
}
}
catch (e) {
GlodaDatastore._log.error("Exception in handleResult:", e);
}
},
handleError: function gloda_ds_qfq_handleError(aError) {
GlodaDatastore._log.error("Async queryFromQuery error: " +
aError.result + ": " + aError.message);
},
handleCompletion: function gloda_ds_qfq_handleCompletion(aReason) {
try {
try {
this.statement.finalize();
this.statement = null;
// just outright bail if we are shutdown
if (GlodaDatastore.datastoreIsShutdown)
return;
//QFQ_LOG.debug("handleCompletion: " + this.collection._nounDef.name);
if (this.needsLoads) {
for (let nounID in this.referencesByNounID) {
let references = this.referencesByNounID[nounID];
if (nounID == this.nounDef.id)
continue;
let nounDef = GlodaDatastore._nounIDToDef[nounID];
//QFQ_LOG.debug(" have references for noun: " + nounDef.name);
// try and load them out of the cache/existing collections. items in the
// cache will be fully formed, which is nice for us.
// XXX this mechanism will get dubious when we have multiple paths to a
// single noun-type. For example, a -> b -> c, a-> c; two paths to c
// and we're looking at issuing two requests to c, the latter of which
// will be a superset of the first one. This does not currently pose
// a problem because we only have a -> b -> c -> b, and sequential
// processing means no alarms and no surprises.
let masterReferences = this.masterReferencesByNounID[nounID];
if (masterReferences === undefined)
masterReferences = this.masterReferencesByNounID[nounID] = {};
let outReferences;
if (nounDef.parentColumnAttr)
outReferences = {};
else
outReferences = masterReferences;
let [foundCount, notFoundCount, notFound] =
GlodaCollectionManager.cacheLookupMany(nounDef.id, references,
outReferences);
if (nounDef.parentColumnAttr) {
let inverseReferences;
if (nounDef.id in this.masterInverseReferencesByNounID)
inverseReferences =
this.masterInverseReferencesByNounID[nounDef.id];
else
inverseReferences =
this.masterInverseReferencesByNounID[nounDef.id] = {};
for (let key in outReferences) {
let item = outReferences[key];
masterReferences[item.id] = item;
let parentID = item[nounDef.parentColumnAttr.idStorageAttributeName];
let childrenList = inverseReferences[parentID];
if (childrenList === undefined)
childrenList = inverseReferences[parentID] = [];
childrenList.push(item);
}
}
//QFQ_LOG.debug(" found: " + foundCount + " not found: " + notFoundCount);
if (notFoundCount === 0) {
this.collection.resolvedCount++;
}
else {
this.collection.deferredCount++;
let query = new nounDef.queryClass();
query.id.apply(query, Object.keys(notFound));
this.collection.masterCollection.subCollections[nounDef.id] =
GlodaDatastore.queryFromQuery(query, QueryFromQueryResolver,
this.collection,
// we fully expect/allow for there being no such subcollection yet.
this.collection.masterCollection.subCollections[nounDef.id],
this.collection.masterCollection,
{becomeExplicit: true});
}
}
for (let nounID in this.inverseReferencesByNounID) {
let inverseReferences = this.inverseReferencesByNounID[nounID];
this.collection.deferredCount++;
let nounDef = GlodaDatastore._nounIDToDef[nounID];
//QFQ_LOG.debug("Want to load inverse via " + nounDef.parentColumnAttr.boundName);
let query = new nounDef.queryClass();
// we want to constrain using the parent column
let queryConstrainer = query[nounDef.parentColumnAttr.boundName];
queryConstrainer.apply(query, Object.keys(inverseReferences));
this.collection.masterCollection.subCollections[nounDef.id] =
GlodaDatastore.queryFromQuery(query, QueryFromQueryResolver,
this.collection,
// we fully expect/allow for there being no such subcollection yet.
this.collection.masterCollection.subCollections[nounDef.id],
this.collection.masterCollection,
{becomeExplicit: true});
}
}
else {
this.collection.deferredCount--;
this.collection.resolvedCount++;
}
//QFQ_LOG.debug(" defer: " + this.collection.deferredCount +
// " resolved: " + this.collection.resolvedCount);
// process immediately and kick-up to the master collection...
if (this.collection.deferredCount <= 0) {
// this guy will resolve everyone using referencesByNounID and issue the
// call to this.collection._onItemsAdded to propagate things to the
// next concerned subCollection or the actual listener if this is the
// master collection. (Also, call _onQueryCompleted).
QueryFromQueryResolver.onItemsAdded(null, {data: this.collection}, true);
QueryFromQueryResolver.onQueryCompleted({data: this.collection});
}
}
catch (e) {
Components.utils.reportError(e);
QFQ_LOG.error("Exception:", e);
}
}
finally {
GlodaDatastore._asyncCompleted();
}
}
};
/**
* Used by |GlodaDatastore.folderCompactionPassBlockFetch| to accumulate the
* results and pass them back in to the compaction process in
* |GlodaMsgIndexer._worker_folderCompactionPass|.
*/
function CompactionBlockFetcherHandler(aCallback) {
this.callback = aCallback;
this.idsAndMessageKeys = [];
GlodaDatastore._pendingAsyncStatements++;
}
CompactionBlockFetcherHandler.prototype = {
handleResult: function gloda_ds_cbfh_handleResult(aResultSet) {
let row;
while ((row = aResultSet.getNextRow())) {
this.idsAndMessageKeys.push([
row.getInt64(0), // id
row.getInt64(1), // messageKey
row.getString(2), // headerMessageID
]);
}
},
handleError: function gloda_ds_cbfh_handleError(aError) {
GlodaDatastore._log.error("CompactionBlockFetcherHandler error: " +
aError.result + ": " + aError.message);
},
handleCompletion: function gloda_ds_cbfh_handleCompletion(aReason) {
GlodaDatastore._asyncCompleted();
this.callback(this.idsAndMessageKeys);
}
};
/**
* Use this as the callback handler when you have a SQL query that returns a
* single row with a single integer column value, like a COUNT() query.
*/
function SingletonResultValueHandler(aCallback) {
this.callback = aCallback;
this.result = null;
GlodaDatastore._pendingAsyncStatements++;
}
SingletonResultValueHandler.prototype = {
handleResult: function gloda_ds_cbfh_handleResult(aResultSet) {
let row;
while ((row = aResultSet.getNextRow())) {
this.result = row.getInt64(0);
}
},
handleError: function gloda_ds_cbfh_handleError(aError) {
GlodaDatastore._log.error("SingletonResultValueHandler error: " +
aError.result + ": " + aError.message);
},
handleCompletion: function gloda_ds_cbfh_handleCompletion(aReason) {
GlodaDatastore._asyncCompleted();
this.callback(this.result);
}
};
/**
* Wrapper that duplicates actions taken on a real statement to an explain
* statement. Currently only fires an explain statement once.
*/
function ExplainedStatementWrapper(aRealStatement, aExplainStatement,
aSQLString, aExplainHandler) {
this.real = aRealStatement;
this.explain = aExplainStatement;
this.sqlString = aSQLString;
this.explainHandler = aExplainHandler;
this.done = false;
}
ExplainedStatementWrapper.prototype = {
bindNullParameter: function(aColIndex) {
this.real.bindNullParameter(aColIndex);
if (!this.done)
this.explain.bindNullParameter(aColIndex);
},
bindStringParameter: function(aColIndex, aValue) {
this.real.bindStringParameter(aColIndex, aValue);
if (!this.done)
this.explain.bindStringParameter(aColIndex, aValue);
},
bindInt64Parameter: function(aColIndex, aValue) {
this.real.bindInt64Parameter(aColIndex, aValue);
if (!this.done)
this.explain.bindInt64Parameter(aColIndex, aValue);
},
bindDoubleParameter: function(aColIndex, aValue) {
this.real.bindDoubleParameter(aColIndex, aValue);
if (!this.done)
this.explain.bindDoubleParameter(aColIndex, aValue);
},
executeAsync: function wrapped_executeAsync(aCallback) {
if (!this.done) {
this.explainHandler.sqlEnRoute(this.sqlString);
this.explain.executeAsync(this.explainHandler);
this.explain.finalize();
this.done = true;
}
return this.real.executeAsync(aCallback);
},
finalize: function wrapped_finalize() {
if (!this.done)
this.explain.finalize();
this.real.finalize();
},
};
/**
* Writes a single JSON document to the provide file path in a streaming
* fashion. At startup we open an array to place the queries in and at
* shutdown we close it.
*/
function ExplainedStatementProcessor(aDumpPath) {
Services.obs.addObserver(this, "quit-application", false);
this._sqlStack = [];
this._curOps = [];
this._objsWritten = 0;
let filePath = Cc["@mozilla.org/file/local;1"]
.createInstance(Ci.nsILocalFile);
filePath.initWithPath(aDumpPath);
this._ostream = Cc["@mozilla.org/network/file-output-stream;1"]
.createInstance(Ci.nsIFileOutputStream);
this._ostream.init(filePath, -1, -1, 0);
let s = '{"queries": [';
this._ostream.write(s, s.length);
}
ExplainedStatementProcessor.prototype = {
sqlEnRoute: function esp_sqlEnRoute(aSQLString) {
this._sqlStack.push(aSQLString);
},
handleResult: function esp_handleResult(aResultSet) {
let row;
// addr opcode (s) p1 p2 p3 p4 (s) p5 comment (s)
while ((row = aResultSet.getNextRow())) {
this._curOps.push([
row.getInt64(0), // addr
row.getString(1), // opcode
row.getInt64(2), // p1
row.getInt64(3), // p2
row.getInt64(4), // p3
row.getString(5), // p4
row.getString(6), // p5
row.getString(7) // comment
]);
}
},
handleError: function esp_handleError(aError) {
Cu.reportError("Unexpected error in EXPLAIN handler: " + aError);
},
handleCompletion: function esp_handleCompletion(aReason) {
let obj = {
sql: this._sqlStack.shift(),
operations: this._curOps,
};
let s = (this._objsWritten++ ? ", " : "") + JSON.stringify(obj, null, 2);
this._ostream.write(s, s.length);
this._curOps = [];
},
observe: function esp_observe(aSubject, aTopic, aData) {
if (aTopic == "quit-application")
this.shutdown();
},
shutdown: function esp_shutdown() {
let s = "]}";
this._ostream.write(s, s.length);
this._ostream.close();
Services.obs.removeObserver(this, "quit-application");
}
};
// See the documentation on GlodaDatastore._schemaVersion to understand these:
var DB_SCHEMA_ACCEPT_LEAVE_LOW = 31,
DB_SCHEMA_ACCEPT_LEAVE_HIGH = 34,
DB_SCHEMA_ACCEPT_DOWNGRADE_LOW = 35,
DB_SCHEMA_ACCEPT_DOWNGRADE_HIGH = 39,
DB_SCHEMA_DOWNGRADE_DELTA = 5;
/**
* Database abstraction layer. Contains explicit SQL schemas for our
* fundamental representations (core 'nouns', if you will) as well as
* specialized functions for then dealing with each type of object. At the
* same time, we are beginning to support extension-provided tables, which
* call into question whether we really need our hand-rolled code, or could
* simply improve the extension-provided table case to work for most of our
* hand-rolled cases.
* For now, the argument can probably be made that our explicit schemas and code
* is readable/intuitive (not magic) and efficient (although generic stuff
* could also be made efficient, if slightly evil through use of eval or some
* other code generation mechanism.)
*
* === Data Model Interaction / Dependencies
*
* Dependent on and assumes limited knowledge of the datamodel.js
* implementations. datamodel.js actually has an implicit dependency on
* our implementation, reaching back into the datastore via the _datastore
* attribute which we pass into every instance we create.
* We pass a reference to ourself as we create the datamodel.js instances (and
* they store it as _datastore) because of a half-implemented attempt to make
* it possible to live in a world where we have multiple datastores. This
* would be desirable in the cases where we are dealing with multiple SQLite
* databases. This could be because of per-account global databases or
* some other segmentation. This was abandoned when the importance of
* per-account databases was diminished following public discussion, at least
* for the short-term, but no attempted was made to excise the feature or
* preclude it. (Merely a recognition that it's too much to try and implement
* correct right now, especially because our solution might just be another
* (aggregating) layer on top of things, rather than complicating the lower
* levels.)
*
* === Object Identity / Caching
*
* The issue of object identity is handled by integration with the collection.js
* provided GlodaCollectionManager. By "Object Identity", I mean that we only
* should ever have one object instance alive at a time that corresponds to
* an underlying database row in the database. Where possible we avoid
* performing database look-ups when we can check if the object is already
* present in memory; in practice, this means when we are asking for an object
* by ID. When we cannot avoid a database query, we attempt to make sure that
* we do not return a duplicate object instance, instead replacing it with the
* 'live' copy of the object. (Ideally, we would avoid any redundant
* construction costs, but that is not currently the case.)
* Although you should consult the GlodaCollectionManager for details, the
* general idea is that we have 'collections' which represent views of the
* database (based on a query) which use a single mechanism for double duty.
* The collections are registered with the collection manager via weak
* reference. The first 'duty' is that since the collections may be desired
* to be 'live views' of the data, we want them to update as changes occur.
* The weak reference allows the collection manager to track the 'live'
* collections and update them. The second 'duty' is the caching/object
* identity duty. In theory, every live item should be referenced by at least
* one collection, making it reachable for object identity/caching purposes.
* There is also an explicit (inclusive) caching layer present to both try and
* avoid poor performance from some of the costs of this strategy, as well as
* to try and keep track of objects that are being worked with that are not
* (yet) tracked by a collection. Using a size-bounded cache is clearly not
* a guarantee of correctness for this, but is suspected will work quite well.
* (Well enough to be dangerous because the inevitable failure case will not be
* expected.)
*
* The current strategy may not be the optimal one, feel free to propose and/or
* implement better ones, especially if you have numbers.
* The current strategy is not fully implemented in this file, but the common
* cases are believed to be covered. (Namely, we fail to purge items from the
* cache as they are purged from the database.)
*
* === Things That May Not Be Obvious (Gotchas)
*
* Although the schema includes "triggers", they are currently not used
* and were added when thinking about implementing the feature. We will
* probably implement this feature at some point, which is why they are still
* in there.
*
* We, and the layers above us, are not sufficiently thorough at cleaning out
* data from the database, and may potentially orphan it _as new functionality
* is added in the future at layers above us_. That is, currently we should
* not be leaking database rows, but we may in the future. This is because
* we/the layers above us lack a mechanism to track dependencies based on
* attributes. Say a plugin exists that extracts recipes from messages and
* relates them via an attribute. To do so, it must create new recipe rows
* in its own table as new recipes are discovered. No automatic mechanism
* will purge recipes as their source messages are purged, nor does any
* event-driven mechanism explicitly inform the plugin. (It could infer
* such an event from the indexing/attribute-providing process, or poll the
* states of attributes to accomplish this, but that is not desirable.) This
* needs to be addressed, and may be best addressed at layers above
* datastore.js.
* @namespace
*/
var GlodaDatastore = {
_log: null,
/* see Gloda's documentation for these constants */
kSpecialNotAtAll: 0,
kSpecialColumn: 16,
kSpecialColumnChildren: 16|1,
kSpecialColumnParent: 16|2,
kSpecialString: 32,
kSpecialFulltext: 64,
IGNORE_FACET: {},
kConstraintIdIn: 0,
kConstraintIn: 1,
kConstraintRanges: 2,
kConstraintEquals: 3,
kConstraintStringLike: 4,
kConstraintFulltext: 5,
/* ******************* SCHEMA ******************* */
/**
* Schema version policy. IMPORTANT! We expect the following potential things
* to happen in the life of gloda that can impact our schema and the ability
* to move between different versions of Thunderbird:
*
* - Fundamental changes to the schema so that two versions of Thunderbird
* cannot use the same global database. To wit, Thunderbird N+1 needs to
* blow away the database of Thunderbird N and reindex from scratch.
* Likewise, Thunderbird N will need to blow away Thunderbird N+1's
* database because it can't understand it. And we can't simply use a
* different file because there would be fatal bookkeeping losses.
*
* - Bidirectional minor schema changes (rare).
* Thunderbird N+1 does something that does not affect Thunderbird N's use
* of the database, and a user switching back to Thunderbird N will not be
* negatively impacted. It will also be fine when they go back to N+1 and
* N+1 will not be missing any vital data. The historic example of this is
* when we added a missing index that was important for performance. In
* that case, Thunderbird N could have potentially left the schema revision
* intact (if there was a safe revision), rather than swapping it on the
* downgrade, compelling N+1 to redo the transform on upgrade.
*
* - Backwards compatible, upgrade-transition minor schema changes.
* Thunderbird N+1 does something that does not require nuking the
* database / a full re-index, but does require processing on upgrade from
* a version of the database previously used by Thunderbird. These changes
* do not impact N's ability to use the database. For example, adding a
* new indexed attribute that affects a small number of messages could be
* handled by issuing a query on upgrade to dirty/index those messages.
* However, if the user goes back to N from N+1, when they upgrade to N+1
* again, we need to re-index. In this case N would need to have downgrade
* the schema revision.
*
* - Backwards incompatible, minor schema changes.
* Thunderbird N+1 does something that does not require nuking the database
* but will break Thunderbird N's ability to use the database.
*
* - Regression fixes. Sometimes we may land something that screws up
* databases, or the platform changes in a way that breaks our code and we
* had insufficient unit test coverage and so don't detect it until some
* databases have gotten messed up.
*
* Accordingly, every version of Thunderbird has a concept of potential schema
* versions with associated semantics to prepare for the minor schema upgrade
* cases were inter-op is possible. These ranges and their semantics are:
* - accepts and leaves intact. Covers:
* - regression fixes that no longer exist with the landing of the upgrade
* code as long as users never go back a build in the given channel.
* - bidirectional minor schema changes.
* - accepts but downgrades version to self. Covers:
* - backwards compatible, upgrade-transition minor schema changes.
* - nuke range (anything beyond a specific revision needs to be nuked):
* - backwards incompatible, minor scheme changes
* - fundamental changes
*
*
* SO, YOU WANT TO CHANGE THE SCHEMA?
*
* Use the ranges below for Thunderbird 11 as a guide, bumping things as little
* as possible. If we start to use up the "accepts and leaves intact" range
* without majorly changing things up, re-do the numbering acceptance range
* to give us additional runway.
*
* Also, if we keep needing non-nuking upgrades, consider adding an additional
* table to the database that can tell older versions of Thunderbird what to
* do when confronted with a newer database and where it can set flags to tell
* the newer Thunderbird what the older Thunderbird got up to. For example,
* it would be much easier if we just tell Thunderbird N what to do when it's
* confronted with the database.
*
*
* CURRENT STATE OF THE MIGRATION LOGIC:
*
* Thunderbird 11: uses 30 (regression fix from 26)
* - accepts and leaves intact: 31-34
* - accepts and downgrades by 5: 35-39
* - nukes: 40+
*/
_schemaVersion: 30,
// what is the schema in the database right now?
_actualSchemaVersion: 0,
_schema: {
tables: {
// ----- Messages
folderLocations: {
columns: [
["id", "INTEGER PRIMARY KEY"],
["folderURI", "TEXT NOT NULL"],
["dirtyStatus", "INTEGER NOT NULL"],
["name", "TEXT NOT NULL"],
["indexingPriority", "INTEGER NOT NULL"],
],
triggers: {
delete: "DELETE from messages WHERE folderID = OLD.id",
},
},
conversations: {
columns: [
["id", "INTEGER PRIMARY KEY"],
["subject", "TEXT NOT NULL"],
["oldestMessageDate", "INTEGER"],
["newestMessageDate", "INTEGER"],
],
indices: {
subject: ['subject'],
oldestMessageDate: ['oldestMessageDate'],
newestMessageDate: ['newestMessageDate'],
},
fulltextColumns: [
["subject", "TEXT"],
],
triggers: {
delete: "DELETE from messages WHERE conversationID = OLD.id",
},
},
/**
* A message record correspond to an actual message stored in a folder
* somewhere, or is a ghost record indicating a message that we know
* should exist, but which we have not seen (and which we may never see).
* We represent these ghost messages by storing NULL values in the
* folderID and messageKey fields; this may need to change to other
* sentinel values if this somehow impacts performance.
*/
messages: {
columns: [
["id", "INTEGER PRIMARY KEY"],
["folderID", "INTEGER"],
["messageKey", "INTEGER"],
// conversationID used to have a REFERENCES but I'm losing it for
// presumed performance reasons and it doesn't do anything for us.
["conversationID", "INTEGER NOT NULL"],
["date", "INTEGER"],
// we used to have the parentID, but because of the very real
// possibility of multiple copies of a message with a given
// message-id, the parentID concept is unreliable.
["headerMessageID", "TEXT"],
["deleted", "INTEGER NOT NULL default 0"],
["jsonAttributes", "TEXT"],
// Notability attempts to capture the static 'interestingness' of a
// message as a result of being starred/flagged, labeled, read
// multiple times, authored by someone in your address book or that
// you converse with a lot, etc.
["notability", "INTEGER NOT NULL default 0"],
],
indices: {
messageLocation: ['folderID', 'messageKey'],
headerMessageID: ['headerMessageID'],
conversationID: ['conversationID'],
date: ['date'],
deleted: ['deleted'],
},
// note: if reordering the columns, you need to change this file's
// row-loading logic, msg_search.js's ranking usages and also the
// column saturations in nsGlodaRankerFunction
fulltextColumns: [
["body", "TEXT"],
["subject", "TEXT"],
["attachmentNames", "TEXT"],
["author", "TEXT"],
["recipients", "TEXT"],
],
triggers: {
delete: "DELETE FROM messageAttributes WHERE messageID = OLD.id",
},
},
// ----- Attributes
attributeDefinitions: {
columns: [
["id", "INTEGER PRIMARY KEY"],
["attributeType", "INTEGER NOT NULL"],
["extensionName", "TEXT NOT NULL"],
["name", "TEXT NOT NULL"],
["parameter", "BLOB"],
],
triggers: {
delete: "DELETE FROM messageAttributes WHERE attributeID = OLD.id",
},
},
messageAttributes: {
columns: [
// conversationID and messageID used to have REFERENCES back to their
// appropriate types. I removed it when removing attributeID for
// better reasons and because the code is not capable of violating
// this constraint, so the check is just added cost. (And we have
// unit tests that sanity check my assertions.)
["conversationID", "INTEGER NOT NULL"],
["messageID", "INTEGER NOT NULL"],
// This used to be REFERENCES attributeDefinitions(id) but then we
// introduced sentinel values and it's hard to justify the effort
// to compel injection of the record or the overhead to do the
// references checking.
["attributeID", "INTEGER NOT NULL"],
["value", "NUMERIC"],
],
indices: {
attribQuery: [
"attributeID", "value",
/* covering: */ "conversationID", "messageID"],
// This is required for deletion of a message's attributes to be
// performant. We could optimize this index away if we changed our
// deletion logic to issue specific attribute deletions based on the
// information it already has available in the message's JSON blob.
// The rub there is that if we screwed up we could end up leaking
// attributes and there is a non-trivial performance overhead to
// the many requests it would cause (which can also be reduced in
// the future by changing our SQL dispatch code.)
messageAttribFastDeletion: [
"messageID"],
},
},
// ----- Contacts / Identities
/**
* Corresponds to a human being and roughly to an address book entry.
* Constrast with an identity, which is a specific e-mail address, IRC
* nick, etc. Identities belong to contacts, and this relationship is
* expressed on the identityAttributes table.
*/
contacts: {
columns: [
["id", "INTEGER PRIMARY KEY"],
["directoryUUID", "TEXT"],
["contactUUID", "TEXT"],
["popularity", "INTEGER"],
["frecency", "INTEGER"],
["name", "TEXT"],
["jsonAttributes", "TEXT"],
],
indices: {
popularity: ["popularity"],
frecency: ["frecency"],
},
},
contactAttributes: {
columns: [
["contactID", "INTEGER NOT NULL"],
["attributeID",
"INTEGER NOT NULL"],
["value", "NUMERIC"]
],
indices: {
contactAttribQuery: [
"attributeID", "value",
/* covering: */ "contactID"],
}
},
/**
* Identities correspond to specific e-mail addresses, IRC nicks, etc.
*/
identities: {
columns: [
["id", "INTEGER PRIMARY KEY"],
["contactID", "INTEGER NOT NULL"],
["kind", "TEXT NOT NULL"], // ex: email, irc, etc.
["value", "TEXT NOT NULL"], // ex: e-mail address, irc nick/handle...
["description", "NOT NULL"], // what makes this identity different
// from the others? (ex: home, work, etc.)
["relay", "INTEGER NOT NULL"], // is the identity just a relay
// mechanism? (ex: mailing list, twitter 'bouncer', IRC gateway, etc.)
],
indices: {
contactQuery: ["contactID"],
valueQuery: ["kind", "value"]
}
},
},
},
/* ******************* LOGIC ******************* */
/**
* We only have one connection; this name exists for legacy reasons but helps
* track when we are intentionally doing synchronous things during startup.
* We do nothing synchronous once our setup has completed.
*/
syncConnection: null,
/**
* We only have one connection and we only do asynchronous things after setup;
* this name still exists mainly for legacy reasons.
*/
asyncConnection: null,
/**
* Our "mailnews.database.global.datastore." preferences branch for debug
* notification handling. We register as an observer against this.
*/
_prefBranch: null,
/**
* The unique ID assigned to an index when it has been built. This value
* changes once the index has been rebuilt.
*/
_datastoreID: null,
/**
* Initialize logging, create the database if it doesn't exist, "upgrade" it
* if it does and it's not up-to-date, fill our authoritative folder uri/id
* mapping.
*/
_init: function gloda_ds_init(aNounIDToDef) {
this._log = Log4Moz.repository.getLogger("gloda.datastore");
this._log.debug("Beginning datastore initialization.");
this._nounIDToDef = aNounIDToDef;
let branch = Services.prefs.getBranch("mailnews.database.global.datastore.");
this._prefBranch = branch;
// Not sure the weak reference really makes a difference given that we are a
// GC root.
branch.addObserver("", this, false);
// claim the pref changed so we can centralize our logic there.
this.observe(null, "nsPref:changed", "explainToPath");
// Get the path to our global database
var dbFile = Services.dirsvc.get("ProfD", Ci.nsIFile);
dbFile.append("global-messages-db.sqlite");
var dbConnection;
// Report about the size of the database through telemetry (if there's a
// database, naturally).
if (dbFile.exists()) {
try {
let h = Services.telemetry.getHistogramById("THUNDERBIRD_GLODA_SIZE_MB");
h.add(dbFile.fileSize/1048576);
} catch (e) {
this._log.warn("Couldn't report telemetry", e);
}
}
// Create the file if it does not exist
if (!dbFile.exists()) {
this._log.debug("Creating database because it doesn't exist.");
dbConnection = this._createDB(dbFile);
}
// It does exist, but we (someday) might need to upgrade the schema
else {
// (Exceptions may be thrown if the database is corrupt)
try {
dbConnection = Services.storage.openUnsharedDatabase(dbFile);
let cacheSize = this._determineCachePages(dbConnection);
// see _createDB...
dbConnection.executeSimpleSQL("PRAGMA cache_size = "+cacheSize);
dbConnection.executeSimpleSQL("PRAGMA synchronous = FULL");
// Register custom tokenizer to index all language text
var tokenizer = Cc["@mozilla.org/messenger/fts3tokenizer;1"].
getService(Ci.nsIFts3Tokenizer);
tokenizer.registerTokenizer(dbConnection);
// -- database schema changes
let dbSchemaVersion = this._actualSchemaVersion =
dbConnection.schemaVersion;
// - database from the future!
if (dbSchemaVersion > this._schemaVersion) {
if (dbSchemaVersion >= DB_SCHEMA_ACCEPT_LEAVE_LOW &&
dbSchemaVersion <= DB_SCHEMA_ACCEPT_LEAVE_HIGH) {
this._log.debug("db from the future in acceptable range; leaving " +
"version at: " + dbSchemaVersion);
}
else if (dbSchemaVersion >= DB_SCHEMA_ACCEPT_DOWNGRADE_LOW &&
dbSchemaVersion <= DB_SCHEMA_ACCEPT_DOWNGRADE_HIGH) {
let newVersion = dbSchemaVersion - DB_SCHEMA_DOWNGRADE_DELTA;
this._log.debug("db from the future in downgrade range; setting " +
"version to " + newVersion + " down from " +
dbSchemaVersion);
dbConnection.schemaVersion = this._actualSchemaVersion = newVersion;
}
// too far from the future, nuke it.
else {
dbConnection = this._nukeMigration(dbFile, dbConnection);
}
}
// - database from the past! migrate it, possibly.
else if (dbSchemaVersion < this._schemaVersion) {
this._log.debug("Need to migrate database. (DB version: " +
this._actualSchemaVersion + " desired version: " +
this._schemaVersion);
dbConnection = this._migrate(dbFile,
dbConnection,
this._actualSchemaVersion,
this._schemaVersion);
this._log.debug("Migration call completed.");
}
// else: this database is juuust right.
// If we never had a datastore ID, make sure to create one now.
if (!this._prefBranch.prefHasUserValue("id")) {
this._datastoreID = this._generateDatastoreID();
this._prefBranch.setCharPref("id", this._datastoreID);
} else {
this._datastoreID = this._prefBranch.getCharPref("id");
}
}
// Handle corrupt databases, other oddities
catch (ex) {
if (ex.result == Cr.NS_ERROR_FILE_CORRUPTED) {
this._log.warn("Database was corrupt, removing the old one.");
dbFile.remove(false);
this._log.warn("Removed old database, creating a new one.");
dbConnection = this._createDB(dbFile);
}
else {
this._log.error("Unexpected error when trying to open the database:",
ex);
throw ex;
}
}
}
this.syncConnection = dbConnection;
this.asyncConnection = dbConnection;
this._log.debug("Initializing folder mappings.");
this._getAllFolderMappings();
// we need to figure out the next id's for all of the tables where we
// manage that.
this._log.debug("Populating managed id counters.");
this._populateAttributeDefManagedId();
this._populateConversationManagedId();
this._populateMessageManagedId();
this._populateContactManagedId();
this._populateIdentityManagedId();
// create the timer we use to periodically drop our references to folders
// we no longer need XPCOM references to (or more significantly, their
// message databases.)
this._folderCleanupTimer =
Cc["@mozilla.org/timer;1"].createInstance(Ci.nsITimer);
this._log.debug("Completed datastore initialization.");
},
observe: function gloda_ds_observe(aSubject, aTopic, aData) {
if(aTopic != "nsPref:changed")
return;
if (aData == "explainToPath") {
let explainToPath = null;
try {
explainToPath = this._prefBranch.getCharPref("explainToPath");
if (explainToPath.trim() == "")
explainToPath = null;
}
catch (ex) {
// don't care if the pref is not there.
}
// It is conceivable that the name is changing and this isn't a boolean
// toggle, so always clean out the explain processor.
if (this._explainProcessor) {
this._explainProcessor.shutdown();
this._explainProcessor = null;
}
if (explainToPath) {
this._createAsyncStatement = this._createExplainedAsyncStatement;
this._explainProcessor = new ExplainedStatementProcessor(
explainToPath);
}
else {
this._createAsyncStatement = this._realCreateAsyncStatement;
}
}
},
datastoreIsShutdown: false,
/**
* Perform datastore shutdown.
*/
shutdown: function gloda_ds_shutdown() {
// Clear out any pending transaction by committing it.
// The indexer has been shutdown by this point; it no longer has any active
// indexing logic and it no longer has active event listeners capable of
// generating new activity.
// Semantic consistency of the database is guaranteed by the indexer's
// strategy of only yielding control at coherent times. Although it takes
// multiple calls and multiple SQL operations to update the state of our
// database representations, the generator does not yield until it has
// issued all the database statements required for said update. As such,
// this commit will leave us in a good way (and the commit will happen
// because closing the connection will drain the async execution queue.)
while (this._transactionDepth) {
this._log.info("Closing pending transaction out for shutdown.");
// just schedule this function to be run again once the transaction has
// been closed out.
this._commitTransaction();
}
this.datastoreIsShutdown = true;
// shutdown our folder cleanup timer, if active and null it out.
if (this._folderCleanupActive)
this._folderCleanupTimer.cancel();
this._folderCleanupTimer = null;
this._log.info("Closing db connection");
// we do not expect exceptions, but it's a good idea to avoid having our
// shutdown process explode.
try {
this._cleanupAsyncStatements();
this._cleanupSyncStatements();
}
catch (ex) {
this._log.debug("Unexpected exception during statement cleanup: " + ex);
}
// it's conceivable we might get a spurious exception here, but we really
// shouldn't get one. again, we want to ensure shutdown runs to completion
// and doesn't break our caller.
try {
// This currently causes all pending asynchronous operations to be run to
// completion. this simplifies things from a correctness perspective,
// and, honestly, is a lot easier than us tracking all of the async
// event tasks so that we can explicitly cancel them.
// This is a reasonable thing to do because we don't actually ever have
// a huge number of statements outstanding. The indexing process needs
// to issue async requests periodically, so the most we have in-flight
// from a write perspective is strictly less than the work required to
// update the database state for a single message.
// However, the potential for multiple pending expensive queries does
// exist, and it may be advisable to attempt to track and cancel those.
// For simplicity we don't currently do this, and I expect this should
// not pose a major problem, but those are famous last words.
// Note: asyncClose does not spin a nested event loop, but the thread
// manager shutdown code will spin the async thread's event loop, so it
// nets out to be the same.
this.asyncConnection.asyncClose();
}
catch (ex) {
this._log.debug("Potentially expected exception during connection " +
"closure: " + ex);
}
this.asyncConnection = null;
this.syncConnection = null;
},
/**
* Generates and returns a UUID.
*
* @return a UUID as a string, ex: "c4dd0159-9287-480f-a648-a4613e147fdb"
*/
_generateDatastoreID: function gloda_ds_generateDatastoreID() {
let uuidGen = Cc["@mozilla.org/uuid-generator;1"]
.getService(Ci.nsIUUIDGenerator);
let uuid = uuidGen.generateUUID().toString();
// We snip off the { and } from each end of the UUID.
return uuid.substring(1, uuid.length - 2);
},
_determineCachePages: function gloda_ds_determineCachePages(aDBConn) {
try {
// For the details of the computations, one should read
// nsNavHistory::InitDB. We're slightly diverging from them in the sense
// that we won't allow gloda to use insane amounts of memory cache, and
// we start with 1% instead of 6% like them.
let pageStmt = aDBConn.createStatement("PRAGMA page_size");
pageStmt.executeStep();
let pageSize = pageStmt.row.page_size;
pageStmt.finalize();
let cachePermillage = this._prefBranch
.getIntPref("cache_to_memory_permillage");
cachePermillage = Math.min(cachePermillage, 50);
cachePermillage = Math.max(cachePermillage, 0);
let physMem = IOUtils.getPhysicalMemorySize();
if (physMem == 0)
physMem = MEMSIZE_FALLBACK_BYTES;
let cacheSize = Math.round(physMem * cachePermillage / 1000);
cacheSize = Math.max(cacheSize, MIN_CACHE_SIZE);
cacheSize = Math.min(cacheSize, MAX_CACHE_SIZE);
let cachePages = Math.round(cacheSize / pageSize);
return cachePages;
} catch (ex) {
this._log.warn("Error determining cache size: " + ex);
// A little bit lower than on my personal machine, will result in ~40M.
return 1000;
}
},
/**
* Create our database; basically a wrapper around _createSchema.
*/
_createDB: function gloda_ds_createDB(aDBFile) {
var dbConnection = Services.storage.openUnsharedDatabase(aDBFile);
// We now follow the Firefox strategy for places, which mainly consists in
// picking a default 32k page size, and then figuring out the amount of
// cache accordingly. The default 32k come from mozilla/toolkit/storage,
// but let's get it directly from sqlite in case they change it.
let cachePages = this._determineCachePages(dbConnection);
// This is a maximum number of pages to be used. If the database does not
// get this large, then the memory does not get used.
// Do not forget to update the code in _init if you change this value.
dbConnection.executeSimpleSQL("PRAGMA cache_size = "+cachePages);
// The mozStorage default is NORMAL which shaves off some fsyncs in the
// interest of performance. Since everything we do after bootstrap is
// async, we do not care about the performance, but we really want the
// correctness. Bug reports and support avenues indicate a non-zero number
// of corrupt databases. Note that this may not fix everything; OS X
// also supports an F_FULLSYNC flag enabled by PRAGMA fullfsync that we are
// not enabling that is much more comprehensive. We can think about
// turning that on after we've seen how this reduces our corruption count.
dbConnection.executeSimpleSQL("PRAGMA synchronous = FULL");
// Register custom tokenizer to index all language text
var tokenizer = Cc["@mozilla.org/messenger/fts3tokenizer;1"].
getService(Ci.nsIFts3Tokenizer);
tokenizer.registerTokenizer(dbConnection);
// We're creating a new database, so let's generate a new ID for this
// version of the datastore. This way, indexers can know when the index
// has been rebuilt in the event that they need to rebuild dependent data.
this._datastoreID = this._generateDatastoreID();
this._prefBranch.setCharPref("id", this._datastoreID);
dbConnection.beginTransaction();
try {
this._createSchema(dbConnection);
dbConnection.commitTransaction();
}
catch(ex) {
dbConnection.rollbackTransaction();
throw ex;
}
return dbConnection;
},
_createTableSchema: function gloda_ds_createTableSchema(aDBConnection,
aTableName, aTableDef) {
// - Create the table
this._log.info("Creating table: " + aTableName);
let columnDefs = [];
for (let [column, type] of aTableDef.columns) {
columnDefs.push(column + " " + type);
}
aDBConnection.createTable(aTableName, columnDefs.join(", "));
// - Create the fulltext table if applicable
if (aTableDef.fulltextColumns) {
let columnDefs = [];
for (let [column, type] of aTableDef.fulltextColumns) {
columnDefs.push(column + " " + type);
}
let createFulltextSQL = "CREATE VIRTUAL TABLE " + aTableName + "Text" +
" USING fts3(tokenize mozporter, " + columnDefs.join(", ") + ")";
this._log.info("Creating fulltext table: " + createFulltextSQL);
aDBConnection.executeSimpleSQL(createFulltextSQL);
}
// - Create its indices
if (aTableDef.indices) {
for (let indexName in aTableDef.indices) {
let indexColumns = aTableDef.indices[indexName];
aDBConnection.executeSimpleSQL(
"CREATE INDEX " + indexName + " ON " + aTableName +
"(" + indexColumns.join(", ") + ")");
}
}
// - Create the attributes table if applicable
if (aTableDef.genericAttributes) {
aTableDef.genericAttributes = {
columns: [
["nounID", "INTEGER NOT NULL"],
["attributeID", "INTEGER NOT NULL"],
["value", "NUMERIC"]
],
indices: {}
};
aTableDef.genericAttributes.indices[aTableName + "AttribQuery"] =
["attributeID", "value", /* covering: */ "nounID"];
// let's use this very function! (since we created genericAttributes,
// explodey recursion is avoided.)
this._createTableSchema(aDBConnection, aTableName + "Attributes",
aTableDef.genericAttributes);
}
},
/**
* Create our database schema assuming a newly created database. This
* comes down to creating normal tables, their full-text variants (if
* applicable), and their indices.
*/
_createSchema: function gloda_ds_createSchema(aDBConnection) {
// -- For each table...
for (let tableName in this._schema.tables) {
let tableDef = this._schema.tables[tableName];
this._createTableSchema(aDBConnection, tableName, tableDef);
}
aDBConnection.schemaVersion = this._actualSchemaVersion =
this._schemaVersion;
},
/**
* Create a table for a noun, replete with data binding.
*/
createNounTable: function gloda_ds_createTableIfNotExists(aNounDef) {
// give it a _jsonText attribute if appropriate...
if (aNounDef.allowsArbitraryAttrs)
aNounDef.schema.columns.push(['jsonAttributes', 'STRING', '_jsonText']);
// check if the table exists
if (!this.asyncConnection.tableExists(aNounDef.tableName)) {
// it doesn't! create it (and its potentially many variants)
try {
this._createTableSchema(this.asyncConnection, aNounDef.tableName,
aNounDef.schema);
}
catch (ex) {
this._log.error("Problem creating table " + aNounDef.tableName + " " +
"because: " + ex + " at " + ex.fileName + ":" + ex.lineNumber);
return;
}
}
aNounDef._dataBinder = new GlodaDatabind(aNounDef, this);
aNounDef.datastore = aNounDef._dataBinder;
aNounDef.objFromRow = aNounDef._dataBinder.objFromRow;
aNounDef.objInsert = aNounDef._dataBinder.objInsert;
aNounDef.objUpdate = aNounDef._dataBinder.objUpdate;
aNounDef.dbAttribAdjuster = aNounDef._dataBinder.adjustAttributes;
if (aNounDef.schema.genericAttributes) {
aNounDef.attrTableName = aNounDef.tableName + "Attributes";
aNounDef.attrIDColumnName = "nounID";
}
},
_nukeMigration: function gloda_ds_nukeMigration(aDBFile, aDBConnection) {
aDBConnection.close();
aDBFile.remove(false);
this._log.warn("Global database has been purged due to schema change. " +
"old version was " + this._actualSchemaVersion +
", new version is: " + this._schemaVersion);
return this._createDB(aDBFile);
},
/**
* Migrate the database _to the latest version_ from an older version. We
* only keep enough logic around to get us to the recent version. This code
* is not a time machine! If we need to blow away the database to get to the
* most recent version, then that's the sum total of the migration!
*/
_migrate: function gloda_ds_migrate(aDBFile, aDBConnection,
aCurVersion, aNewVersion) {
// version 12:
// - notability column added
// version 13:
// - we are adding a new fulltext index column. blow away!
// - note that I screwed up and failed to mark the schema change; apparently
// no database will claim to be version 13...
// version 14ish, still labeled 13?:
// - new attributes: forwarded, repliedTo, bcc, recipients
// - altered fromMeTo and fromMeCc to fromMe
// - altered toMe and ccMe to just be toMe
// - exposes bcc to cc-related attributes
// - MIME type DB schema overhaul
// version 15ish, still labeled 13:
// - change tokenizer to mozporter to support CJK
// (We are slip-streaming this so that only people who want to test CJK
// have to test it. We will properly bump the schema revision when the
// gloda correctness patch lands.)
// version 16ish, labeled 14 and now 16
// - gloda message id's start from 32 now
// - all kinds of correctness changes (blow away)
// version 17
// - more correctness fixes. (blow away)
// version 18
// - significant empty set support (blow away)
// version 19
// - there was a typo that was resulting in deleted getting set to the
// numeric value of the javascript undefined value. (migrate-able)
// version 20
// - tokenizer changes to provide for case/accent-folding. (blow away)
// version 21
// - add the messagesAttribFastDeletion index we thought was already covered
// by an index we removed a while ago (migrate-able)
// version 26
// - bump page size and also cache size (blow away)
// version 30
// - recover from bug 732372 that affected TB 11 beta / TB 12 alpha / TB 13
// trunk. The fix is bug 734507. The revision bump happens
// asynchronously. (migrate-able)
// nuke if prior to 26
if (aCurVersion < 26)
return this._nukeMigration(aDBFile, aDBConnection);
// They must be desiring our "a.contact is undefined" fix!
// This fix runs asynchronously as the first indexing job the indexer ever
// performs. It is scheduled by the enabling of the message indexer and
// it is the one that updates the schema version when done.
// return the same DB connection since we didn't create a new one or do
// anything.
return aDBConnection;
},
/**
* Asynchronously update the schema version; only for use by in-tree callers
* who asynchronously perform migration work triggered by their initial
* indexing sweep and who have properly updated the schema version in all
* the appropriate locations in this file.
*
* This is done without doing anything about the current transaction state,
* which is desired.
*/
_updateSchemaVersion: function(newSchemaVersion) {
this._actualSchemaVersion = newSchemaVersion;
let stmt = this._createAsyncStatement(
// we need to concat; pragmas don't like "?1" binds
"PRAGMA user_version = " + newSchemaVersion, true);
stmt.executeAsync(this.trackAsync());
stmt.finalize();
},
_outstandingAsyncStatements: [],
/**
* Unless debugging, this is just _realCreateAsyncStatement, but in some
* debugging modes this is instead the helpful wrapper
* _createExplainedAsyncStatement.
*/
_createAsyncStatement: null,
_realCreateAsyncStatement: function gloda_ds_createAsyncStatement(aSQLString,
aWillFinalize) {
let statement = null;
try {
statement = this.asyncConnection.createAsyncStatement(aSQLString);
}
catch(ex) {
throw new Error("error creating async statement " + aSQLString + " - " +
this.asyncConnection.lastError + ": " +
this.asyncConnection.lastErrorString + " - " + ex);
}
if (!aWillFinalize)
this._outstandingAsyncStatements.push(statement);
return statement;
},
/**
* The ExplainedStatementProcessor instance used by
* _createExplainedAsyncStatement. This will be null if
* _createExplainedAsyncStatement is not being used as _createAsyncStatement.
*/
_explainProcessor: null,
/**
* Wrapped version of _createAsyncStatement that EXPLAINs the statement. When
* used this decorates _createAsyncStatement, in which case we are found at
* that name and the original is at _orig_createAsyncStatement. This is
* controlled by the explainToPath preference (see |_init|).
*/
_createExplainedAsyncStatement:
function gloda_ds__createExplainedAsyncStatement(aSQLString,
aWillFinalize) {
let realStatement = this._realCreateAsyncStatement(aSQLString,
aWillFinalize);
// don't wrap transaction control statements.
if (aSQLString == "COMMIT" ||
aSQLString == "BEGIN TRANSACTION" ||
aSQLString == "ROLLBACK")
return realStatement;
let explainSQL = "EXPLAIN " + aSQLString;
let explainStatement = this._realCreateAsyncStatement(explainSQL);
return new ExplainedStatementWrapper(realStatement, explainStatement,
aSQLString, this._explainProcessor);
},
_cleanupAsyncStatements: function gloda_ds_cleanupAsyncStatements() {
this._outstandingAsyncStatements.forEach(stmt => stmt.finalize());
},
_outstandingSyncStatements: [],
_createSyncStatement: function gloda_ds_createSyncStatement(aSQLString,
aWillFinalize) {
let statement = null;
try {
statement = this.syncConnection.createStatement(aSQLString);
}
catch(ex) {
throw new Error("error creating sync statement " + aSQLString + " - " +
this.syncConnection.lastError + ": " +
this.syncConnection.lastErrorString + " - " + ex);
}
if (!aWillFinalize)
this._outstandingSyncStatements.push(statement);
return statement;
},
_cleanupSyncStatements: function gloda_ds_cleanupSyncStatements() {
this._outstandingSyncStatements.forEach(stmt => stmt.finalize());
},
/**
* Perform a synchronous executeStep on the statement, handling any
* SQLITE_BUSY fallout that could conceivably happen from a collision on our
* read with the async writes.
* Basically we keep trying until we succeed or run out of tries.
* We believe this to be a reasonable course of action because we don't
* expect this to happen much.
*/
_syncStep: function gloda_ds_syncStep(aStatement) {
let tries = 0;
while (tries < 32000) {
try {
return aStatement.executeStep();
}
catch (e) {
// SQLITE_BUSY becomes NS_ERROR_FAILURE
if (e.result == 0x80004005) {
tries++;
// we really need to delay here, somehow. unfortunately, we can't
// allow event processing to happen, and most of the things we could
// do to delay ourselves result in event processing happening. (Use
// of a timer, a synchronous dispatch, etc.)
// in theory, nsIThreadEventFilter could allow us to stop other events
// that aren't our timer from happening, but it seems slightly
// dangerous and 'notxpcom' suggests it ain't happening anyways...
// so, let's just be dumb and hope that the underlying file I/O going
// on makes us more likely to yield to the other thread so it can
// finish what it is doing...
} else {
throw e;
}
}
}
this._log.error("Synchronous step gave up after " + tries + " tries.");
},
/**
* Helper to bind based on the actual type of the javascript value. Note
* that we always use int64 because under the hood sqlite just promotes the
* normal 'int' call to 'int64' anyways.
*/
_bindVariant: function gloda_ds_bindBlob(aStatement, aIndex, aVariant) {
if (aVariant == null) // catch both null and undefined
aStatement.bindNullParameter(aIndex);
else if (typeof aVariant == "string")
aStatement.bindStringParameter(aIndex, aVariant);
else if (typeof aVariant == "number") {
// we differentiate for storage representation reasons only.
if (Math.floor(aVariant) === aVariant)
aStatement.bindInt64Parameter(aIndex, aVariant);
else
aStatement.bindDoubleParameter(aIndex, aVariant);
}
else
throw new Error("Attempt to bind variant with unsupported type: " +
(typeof aVariant));
},
/**
* Helper that uses the appropriate getter given the data type; should be
* mooted once we move to 1.9.2 and can use built-in variant support.
*/
_getVariant: function gloda_ds_getBlob(aRow, aIndex) {
let typeOfIndex = aRow.getTypeOfIndex(aIndex);
if (typeOfIndex == Ci.mozIStorageValueArray.VALUE_TYPE_NULL)
return null;
// XPConnect would just end up going through an intermediary double stage
// for the int64 case anyways...
else if (typeOfIndex == Ci.mozIStorageValueArray.VALUE_TYPE_INTEGER ||
typeOfIndex == Ci.mozIStorageValueArray.VALUE_TYPE_DOUBLE)
return aRow.getDouble(aIndex);
else // typeOfIndex == Ci.mozIStorageValueArray.VALUE_TYPE_TEXT
return aRow.getString(aIndex);
},
/** Simple nested transaction support as a performance optimization. */
_transactionDepth: 0,
_transactionGood: false,
/**
* Self-memoizing BEGIN TRANSACTION statement.
*/
get _beginTransactionStatement() {
let statement = this._createAsyncStatement("BEGIN TRANSACTION");
this.__defineGetter__("_beginTransactionStatement", () => statement);
return this._beginTransactionStatement;
},
/**
* Self-memoizing COMMIT statement.
*/
get _commitTransactionStatement() {
let statement = this._createAsyncStatement("COMMIT");
this.__defineGetter__("_commitTransactionStatement", () => statement);
return this._commitTransactionStatement;
},
/**
* Self-memoizing ROLLBACK statement.
*/
get _rollbackTransactionStatement() {
let statement = this._createAsyncStatement("ROLLBACK");
this.__defineGetter__("_rollbackTransactionStatement", () => statement);
return this._rollbackTransactionStatement;
},
_pendingPostCommitCallbacks: null,
/**
* Register a callback to be invoked when the current transaction's commit
* completes.
*/
runPostCommit: function gloda_ds_runPostCommit(aCallback) {
this._pendingPostCommitCallbacks.push(aCallback);
},
/**
* Begin a potentially nested transaction; only the outermost transaction gets
* to be an actual transaction, and the failure of any nested transaction
* results in a rollback of the entire outer transaction. If you really
* need an atomic transaction
*/
_beginTransaction: function gloda_ds_beginTransaction() {
if (this._transactionDepth == 0) {
this._pendingPostCommitCallbacks = [];
this._beginTransactionStatement.executeAsync(this.trackAsync());
this._transactionGood = true;
}
this._transactionDepth++;
},
/**
* Commit a potentially nested transaction; if we are the outer-most
* transaction and no sub-transaction issues a rollback
* (via _rollbackTransaction) then we commit, otherwise we rollback.
*/
_commitTransaction: function gloda_ds_commitTransaction() {
this._transactionDepth--;
if (this._transactionDepth == 0) {
try {
if (this._transactionGood)
this._commitTransactionStatement.executeAsync(
new PostCommitHandler(this._pendingPostCommitCallbacks));
else
this._rollbackTransactionStatement.executeAsync(this.trackAsync());
}
catch (ex) {
this._log.error("Commit problem:", ex);
}
this._pendingPostCommitCallbacks = [];
}
},
/**
* Abort the commit of the potentially nested transaction. If we are not the
* outermost transaction, we set a flag that tells the outermost transaction
* that it must roll back.
*/
_rollbackTransaction: function gloda_ds_rollbackTransaction() {
this._transactionDepth--;
this._transactionGood = false;
if (this._transactionDepth == 0) {
try {
this._rollbackTransactionStatement.executeAsync(this.trackAsync());
}
catch (ex) {
this._log.error("Rollback problem:", ex);
}
}
},
_pendingAsyncStatements: 0,
/**
* The function to call, if any, when we hit 0 pending async statements.
*/
_pendingAsyncCompletedListener: null,
_asyncCompleted: function () {
if (--this._pendingAsyncStatements == 0) {
if (this._pendingAsyncCompletedListener !== null) {
this._pendingAsyncCompletedListener();
this._pendingAsyncCompletedListener = null;
}
}
},
_asyncTrackerListener: {
handleResult: function () {},
handleError: function(aError) {
GlodaDatastore._log.error("got error in _asyncTrackerListener.handleError(): " +
aError.result + ": " + aError.message);
},
handleCompletion: function () {
try {
// the helper method exists because the other classes need to call it too
GlodaDatastore._asyncCompleted();
}
catch (e) {
this._log.error("Exception in handleCompletion:", e);
}
}
},
/**
* Increments _pendingAsyncStatements and returns a listener that will
* decrement the value when the statement completes.
*/
trackAsync: function() {
this._pendingAsyncStatements++;
return this._asyncTrackerListener;
},
/* ********** Attribute Definitions ********** */
/** Maps (attribute def) compound names to the GlodaAttributeDBDef objects. */
_attributeDBDefs: {},
/** Map attribute ID to the definition and parameter value that produce it. */
_attributeIDToDBDefAndParam: {},
/**
* This attribute id indicates that we are encoding that a non-singular
* attribute has an empty set. The value payload that goes with this should
* the attribute id of the attribute we are talking about.
*/
kEmptySetAttrId: 1,
/**
* We maintain the attributeDefinitions next id counter mainly because we can.
* Since we mediate the access, there's no real risk to doing so, and it
* allows us to keep the writes on the async connection without having to
* wait for a completion notification.
*
* Start from 32 so we can have a number of sentinel values.
*/
_nextAttributeId: 32,
_populateAttributeDefManagedId: function () {
let stmt = this._createSyncStatement(
"SELECT MAX(id) FROM attributeDefinitions", true);
if (stmt.executeStep()) { // no chance of this SQLITE_BUSY on this call
// 0 gets returned even if there are no messages...
let highestSeen = stmt.getInt64(0);
if (highestSeen != 0)
this._nextAttributeId = highestSeen + 1;
}
stmt.finalize();
},
get _insertAttributeDefStatement() {
let statement = this._createAsyncStatement(
"INSERT INTO attributeDefinitions (id, attributeType, extensionName, \
name, parameter) \
VALUES (?1, ?2, ?3, ?4, ?5)");
this.__defineGetter__("_insertAttributeDefStatement", () => statement);
return this._insertAttributeDefStatement;
},
/**
* Create an attribute definition and return the row ID. Special/atypical
* in that it doesn't directly return a GlodaAttributeDBDef; we leave that up
* to the caller since they know much more than actually needs to go in the
* database.
*
* @return The attribute id allocated to this attribute.
*/
_createAttributeDef: function gloda_ds_createAttributeDef(aAttrType,
aExtensionName, aAttrName, aParameter) {
let attributeId = this._nextAttributeId++;
let iads = this._insertAttributeDefStatement;
iads.bindInt64Parameter(0, attributeId);
iads.bindInt64Parameter(1, aAttrType);
iads.bindStringParameter(2, aExtensionName);
iads.bindStringParameter(3, aAttrName);
this._bindVariant(iads, 4, aParameter);
iads.executeAsync(this.trackAsync());
return attributeId;
},
/**
* Sync-ly look-up all the attribute definitions, populating our authoritative
* _attributeDBDefss and _attributeIDToDBDefAndParam maps. (In other words,
* once this method is called, those maps should always be in sync with the
* underlying database.)
*/
getAllAttributes: function gloda_ds_getAllAttributes() {
let stmt = this._createSyncStatement(
"SELECT id, attributeType, extensionName, name, parameter \
FROM attributeDefinitions", true);
// map compound name to the attribute
let attribs = {};
// map the attribute id to [attribute, parameter] where parameter is null
// in cases where parameter is unused.
let idToAttribAndParam = {};
this._log.info("loading all attribute defs");
while (stmt.executeStep()) { // no chance of this SQLITE_BUSY on this call
let rowId = stmt.getInt64(0);
let rowAttributeType = stmt.getInt64(1);
let rowExtensionName = stmt.getString(2);
let rowName = stmt.getString(3);
let rowParameter = this._getVariant(stmt, 4);
let compoundName = rowExtensionName + ":" + rowName;
let attrib;
if (compoundName in attribs) {
attrib = attribs[compoundName];
} else {
attrib = new GlodaAttributeDBDef(this, /* aID */ null,
compoundName, rowAttributeType, rowExtensionName, rowName);
attribs[compoundName] = attrib;
}
// if the parameter is null, the id goes on the attribute def, otherwise
// it is a parameter binding and goes in the binding map.
if (rowParameter == null) {
this._log.debug(compoundName + " primary: " + rowId);
attrib._id = rowId;
idToAttribAndParam[rowId] = [attrib, null];
} else {
this._log.debug(compoundName + " binding: " + rowParameter +
" = " + rowId);
attrib._parameterBindings[rowParameter] = rowId;
idToAttribAndParam[rowId] = [attrib, rowParameter];
}
}
stmt.finalize();
this._log.info("done loading all attribute defs");
this._attributeDBDefs = attribs;
this._attributeIDToDBDefAndParam = idToAttribAndParam;
},
/**
* Helper method for GlodaAttributeDBDef to tell us when their bindParameter
* method is called and they have created a new binding (using
* GlodaDatastore._createAttributeDef). In theory, that method could take
* an additional argument and obviate the need for this method.
*/
reportBinding: function gloda_ds_reportBinding(aID, aAttrDef, aParamValue) {
this._attributeIDToDBDefAndParam[aID] = [aAttrDef, aParamValue];
},
/* ********** Folders ********** */
/** next folder (row) id to issue, populated by _getAllFolderMappings. */
_nextFolderId: 1,
get _insertFolderLocationStatement() {
let statement = this._createAsyncStatement(
"INSERT INTO folderLocations (id, folderURI, dirtyStatus, name, \
indexingPriority) VALUES \
(?1, ?2, ?3, ?4, ?5)");
this.__defineGetter__("_insertFolderLocationStatement",
() => statement);
return this._insertFolderLocationStatement;
},
/**
* Authoritative map from folder URI to folder ID. (Authoritative in the
* sense that this map exactly represents the state of the underlying
* database. If it does not, it's a bug in updating the database.)
*/
_folderByURI: {},
/** Authoritative map from folder ID to folder URI */
_folderByID: {},
/** Intialize our _folderByURI/_folderByID mappings, called by _init(). */
_getAllFolderMappings: function gloda_ds_getAllFolderMappings() {
let stmt = this._createSyncStatement(
"SELECT id, folderURI, dirtyStatus, name, indexingPriority \
FROM folderLocations", true);
while (stmt.executeStep()) { // no chance of this SQLITE_BUSY on this call
let folderID = stmt.getInt64(0);
let folderURI = stmt.getString(1);
let dirtyStatus = stmt.getInt32(2);
let folderName = stmt.getString(3);
let indexingPriority = stmt.getInt32(4);
let folder = new GlodaFolder(this, folderID, folderURI, dirtyStatus,
folderName, indexingPriority);
this._folderByURI[folderURI] = folder;
this._folderByID[folderID] = folder;
if (folderID >= this._nextFolderId)
this._nextFolderId = folderID + 1;
}
stmt.finalize();
},
_folderKnown: function gloda_ds_folderKnown(aFolder) {
let folderURI = aFolder.URI;
return folderURI in this._folderByURI;
},
_folderIdKnown: function gloda_ds_folderIdKnown(aFolderID) {
return (aFolderID in this._folderByID);
},
/**
* Return the default messaging priority for a folder of this type, based
* on the folder's flags. If aAllowSpecialFolderIndexing is true, then
* folders suchs as Trash and Junk will be indexed.
*
* @param {nsIMsgFolder} aFolder
* @param {boolean} aAllowSpecialFolderIndexing
* @returns {Number}
*/
getDefaultIndexingPriority: function gloda_ds_getDefaultIndexingPriority(aFolder, aAllowSpecialFolderIndexing) {
let indexingPriority = GlodaFolder.prototype.kIndexingDefaultPriority;
// Do not walk into trash/junk folders, unless the user is explicitly
// telling us to do so.
let specialFolderFlags = Ci.nsMsgFolderFlags.Trash | Ci.nsMsgFolderFlags.Junk;
if (aFolder.isSpecialFolder(specialFolderFlags, true))
indexingPriority = aAllowSpecialFolderIndexing ?
GlodaFolder.prototype.kIndexingDefaultPriority :
GlodaFolder.prototype.kIndexingNeverPriority;
// Queue folders should always be ignored just because messages should not
// spend much time in there.
// We hate newsgroups, and public IMAP folders are similar.
// Other user IMAP folders should be ignored because it's not this user's
// mail.
else if (aFolder.flags & (Ci.nsMsgFolderFlags.Queue
| Ci.nsMsgFolderFlags.Newsgroup
// In unit testing at least folders can be
// confusingly labeled ImapPublic when they
// should not be. Or at least I don't think they
// should be. So they're legit for now.
//| Ci.nsMsgFolderFlags.ImapPublic
//| Ci.nsMsgFolderFlags.ImapOtherUser
))
indexingPriority = GlodaFolder.prototype.kIndexingNeverPriority;
else if (aFolder.flags & Ci.nsMsgFolderFlags.Inbox)
indexingPriority = GlodaFolder.prototype.kIndexingInboxPriority;
else if (aFolder.flags & Ci.nsMsgFolderFlags.SentMail)
indexingPriority = GlodaFolder.prototype.kIndexingSentMailPriority;
else if (aFolder.flags & Ci.nsMsgFolderFlags.Favorite)
indexingPriority = GlodaFolder.prototype.kIndexingFavoritePriority;
else if (aFolder.flags & Ci.nsMsgFolderFlags.CheckNew)
indexingPriority = GlodaFolder.prototype.kIndexingCheckNewPriority;
return indexingPriority;
},
/**
* Map a folder URI to a GlodaFolder instance, creating the mapping if it does
* not yet exist.
*
* @param aFolder The nsIMsgFolder instance you would like the GlodaFolder
* instance for.
* @returns The existing or newly created GlodaFolder instance.
*/
_mapFolder: function gloda_ds_mapFolderURI(aFolder) {
let folderURI = aFolder.URI;
if (folderURI in this._folderByURI) {
return this._folderByURI[folderURI];
}
let folderID = this._nextFolderId++;
// if there's an indexingPriority stored on the folder, just use that
let indexingPriority;
let stringPrio = aFolder.getStringProperty("indexingPriority");
if (stringPrio.length)
indexingPriority = parseInt(stringPrio);
else
// otherwise, fall back to the default for folders of this type
indexingPriority = this.getDefaultIndexingPriority(aFolder);
// If there are messages in the folder, it is filthy. If there are no
// messages, it can be clean.
let dirtyStatus = aFolder.getTotalMessages(false) ?
GlodaFolder.prototype.kFolderFilthy :
GlodaFolder.prototype.kFolderClean;
let folder = new GlodaFolder(this, folderID, folderURI, dirtyStatus,
aFolder.prettiestName, indexingPriority);
this._insertFolderLocationStatement.bindInt64Parameter(0, folder.id);
this._insertFolderLocationStatement.bindStringParameter(1, folder.uri);
this._insertFolderLocationStatement.bindInt64Parameter(2,
folder.dirtyStatus);
this._insertFolderLocationStatement.bindStringParameter(3, folder.name);
this._insertFolderLocationStatement.bindInt64Parameter(
4, folder.indexingPriority);
this._insertFolderLocationStatement.executeAsync(this.trackAsync());
this._folderByURI[folderURI] = folder;
this._folderByID[folderID] = folder;
this._log.debug("!! mapped " + folder.id + " from " + folderURI);
return folder;
},
/**
* Map an integer gloda folder ID to the corresponding GlodaFolder instance.
*
* @param aFolderID The known valid gloda folder ID for which you would like
* a GlodaFolder instance.
* @return The GlodaFolder instance with the given id. If no such instance
* exists, we will throw an exception.
*/
_mapFolderID: function gloda_ds_mapFolderID(aFolderID) {
if (aFolderID === null)
return null;
if (aFolderID in this._folderByID)
return this._folderByID[aFolderID];
throw new Error("Got impossible folder ID: " + aFolderID);
},
/**
* Mark the gloda folder as deleted for any outstanding references to it and
* remove it from our tables so we don't hand out any new references. The
* latter is especially important in the case a folder with the same name
* is created afterwards; we don't want to confuse the new one with the old
* one!
*/
_killGlodaFolderIntoTombstone:
function gloda_ds__killGlodaFolderIntoTombstone(aGlodaFolder) {
aGlodaFolder._deleted = true;
delete this._folderByURI[aGlodaFolder.uri];
delete this._folderByID[aGlodaFolder.id];
},
get _updateFolderDirtyStatusStatement() {
let statement = this._createAsyncStatement(
"UPDATE folderLocations SET dirtyStatus = ?1 \
WHERE id = ?2");
this.__defineGetter__("_updateFolderDirtyStatusStatement",
() => statement);
return this._updateFolderDirtyStatusStatement;
},
updateFolderDirtyStatus: function gloda_ds_updateFolderDirtyStatus(aFolder) {
let ufds = this._updateFolderDirtyStatusStatement;
ufds.bindInt64Parameter(1, aFolder.id);
ufds.bindInt64Parameter(0, aFolder.dirtyStatus);
ufds.executeAsync(this.trackAsync());
},
get _updateFolderIndexingPriorityStatement() {
let statement = this._createAsyncStatement(
"UPDATE folderLocations SET indexingPriority = ?1 \
WHERE id = ?2");
this.__defineGetter__("_updateFolderIndexingPriorityStatement",
() => statement);
return this._updateFolderIndexingPriorityStatement;
},
updateFolderIndexingPriority: function gloda_ds_updateFolderIndexingPriority(aFolder) {
let ufip = this._updateFolderIndexingPriorityStatement;
ufip.bindInt64Parameter(1, aFolder.id);
ufip.bindInt64Parameter(0, aFolder.indexingPriority);
ufip.executeAsync(this.trackAsync());
},
get _updateFolderLocationStatement() {
let statement = this._createAsyncStatement(
"UPDATE folderLocations SET folderURI = ?1 \
WHERE id = ?2");
this.__defineGetter__("_updateFolderLocationStatement",
() => statement);
return this._updateFolderLocationStatement;
},
/**
* Non-recursive asynchronous folder renaming based on the URI.
*
* @TODO provide a mechanism for recursive folder renames or have a higher
* layer deal with it and remove this note.
*/
renameFolder: function gloda_ds_renameFolder(aOldFolder, aNewURI) {
if (!(aOldFolder.URI in this._folderByURI))
return;
let folder = this._mapFolder(aOldFolder); // ensure the folder is mapped
let oldURI = folder.uri;
this._folderByURI[aNewURI] = folder;
folder._uri = aNewURI;
this._log.info("renaming folder URI " + oldURI + " to " + aNewURI);
this._updateFolderLocationStatement.bindStringParameter(1, folder.id);
this._updateFolderLocationStatement.bindStringParameter(0, aNewURI);
this._updateFolderLocationStatement.executeAsync(this.trackAsync());
delete this._folderByURI[oldURI];
},
get _deleteFolderByIDStatement() {
let statement = this._createAsyncStatement(
"DELETE FROM folderLocations WHERE id = ?1");
this.__defineGetter__("_deleteFolderByIDStatement",
() => statement);
return this._deleteFolderByIDStatement;
},
deleteFolderByID: function gloda_ds_deleteFolder(aFolderID) {
let dfbis = this._deleteFolderByIDStatement;
dfbis.bindInt64Parameter(0, aFolderID);
dfbis.executeAsync(this.trackAsync());
},
/**
* This timer drives our folder cleanup logic that is in charge of dropping
* our folder references and more importantly the folder's msgDatabase
* reference, but only if they are no longer in use.
* This timer is only active when we have one or more live gloda folders (as
* tracked by _liveGlodaFolders). Although we choose our timer interval to
* be power-friendly, it doesn't really matter because unless the user or the
* indexing process is actively doing things, all of the folders will 'die'
* and so we will stop scheduling the timer.
*/
_folderCleanupTimer: null,
/**
* When true, we have a folder cleanup timer event active.
*/
_folderCleanupActive: false,
/**
* Interval at which we call the folder cleanup code, in milliseconds.
*/
_folderCleanupTimerInterval: 2000,
/**
* Maps the id of 'live' GlodaFolders to the instances. If a GlodaFolder is
* in here, it means that it has a reference to its nsIMsgDBFolder which
* should have an open nsIMsgDatabase that we will need to close. This does
* not count folders that are being indexed unless they have also been used
* for header retrieval.
*/
_liveGlodaFolders: {},
/**
* Mark a GlodaFolder as having a live reference to its nsIMsgFolder with an
* implied opened associated message database. GlodaFolder calls this when
* it first acquires its reference. It is removed from the list of live
* folders only when our timer check calls the GlodaFolder's
* forgetFolderIfUnused method and that method returns true.
*/
markFolderLive: function gloda_ds_markFolderLive(aGlodaFolder) {
this._liveGlodaFolders[aGlodaFolder.id] = aGlodaFolder;
if (!this._folderCleanupActive) {
this._folderCleanupTimer.initWithCallback(this._performFolderCleanup,
this._folderCleanupTimerInterval, Ci.nsITimer.TYPE_REPEATING_SLACK);
this._folderCleanupActive = true;
}
},
/**
* Timer-driven folder cleanup logic. For every live folder tracked in
* _liveGlodaFolders, we call their forgetFolderIfUnused method each time
* until they return true indicating they have cleaned themselves up.
* This method is called without a 'this' context!
*/
_performFolderCleanup: function gloda_ds_performFolderCleanup() {
// we only need to keep going if there is at least one folder in the table
// that is still alive after this pass.
let keepGoing = false;
for (let id in GlodaDatastore._liveGlodaFolders) {
let glodaFolder = GlodaDatastore._liveGlodaFolders[id];
// returns true if it is now 'dead' and doesn't need this heartbeat check
if (glodaFolder.forgetFolderIfUnused())
delete GlodaDatastore._liveGlodaFolders[glodaFolder.id];
else
keepGoing = true;
}
if (!keepGoing) {
GlodaDatastore._folderCleanupTimer.cancel();
GlodaDatastore._folderCleanupActive = false;
}
},
/* ********** Conversation ********** */
/** The next conversation id to allocate. Initialize at startup. */
_nextConversationId: 1,
_populateConversationManagedId: function () {
let stmt = this._createSyncStatement(
"SELECT MAX(id) FROM conversations", true);
if (stmt.executeStep()) { // no chance of this SQLITE_BUSY on this call
this._nextConversationId = stmt.getInt64(0) + 1;
}
stmt.finalize();
},
get _insertConversationStatement() {
let statement = this._createAsyncStatement(
"INSERT INTO conversations (id, subject, oldestMessageDate, \
newestMessageDate) \
VALUES (?1, ?2, ?3, ?4)");
this.__defineGetter__("_insertConversationStatement", () => statement);
return this._insertConversationStatement;
},
get _insertConversationTextStatement() {
let statement = this._createAsyncStatement(
"INSERT INTO conversationsText (docid, subject) \
VALUES (?1, ?2)");
this.__defineGetter__("_insertConversationTextStatement",
() => statement);
return this._insertConversationTextStatement;
},
/**
* Asynchronously create a conversation.
*/
createConversation: function gloda_ds_createConversation(aSubject,
aOldestMessageDate, aNewestMessageDate) {
// create the data row
let conversationID = this._nextConversationId++;
let ics = this._insertConversationStatement;
ics.bindInt64Parameter(0, conversationID);
ics.bindStringParameter(1, aSubject);
if (aOldestMessageDate == null)
ics.bindNullParameter(2);
else
ics.bindInt64Parameter(2, aOldestMessageDate);
if (aNewestMessageDate == null)
ics.bindNullParameter(3);
else
ics.bindInt64Parameter(3, aNewestMessageDate);
ics.executeAsync(this.trackAsync());
// create the fulltext row, using the same rowid/docid
let icts = this._insertConversationTextStatement;
icts.bindInt64Parameter(0, conversationID);
icts.bindStringParameter(1, aSubject);
icts.executeAsync(this.trackAsync());
// create it
let conversation = new GlodaConversation(this, conversationID,
aSubject, aOldestMessageDate,
aNewestMessageDate);
// it's new! let the collection manager know about it.
GlodaCollectionManager.itemsAdded(conversation.NOUN_ID, [conversation]);
// return it
return conversation;
},
get _deleteConversationByIDStatement() {
let statement = this._createAsyncStatement(
"DELETE FROM conversations WHERE id = ?1");
this.__defineGetter__("_deleteConversationByIDStatement",
() => statement);
return this._deleteConversationByIDStatement;
},
/**
* Asynchronously delete a conversation given its ID.
*/
deleteConversationByID: function gloda_ds_deleteConversationByID(
aConversationID) {
let dcbids = this._deleteConversationByIDStatement;
dcbids.bindInt64Parameter(0, aConversationID);
dcbids.executeAsync(this.trackAsync());
GlodaCollectionManager.itemsDeleted(GlodaConversation.prototype.NOUN_ID,
[aConversationID]);
},
_conversationFromRow: function gloda_ds_conversationFromRow(aStmt) {
let oldestMessageDate, newestMessageDate;
if (aStmt.getTypeOfIndex(2) == Ci.mozIStorageValueArray.VALUE_TYPE_NULL)
oldestMessageDate = null;
else
oldestMessageDate = aStmt.getInt64(2);
if (aStmt.getTypeOfIndex(3) == Ci.mozIStorageValueArray.VALUE_TYPE_NULL)
newestMessageDate = null;
else
newestMessageDate = aStmt.getInt64(3);
return new GlodaConversation(this, aStmt.getInt64(0),
aStmt.getString(1), oldestMessageDate, newestMessageDate);
},
/* ********** Message ********** */
/**
* Next message id, managed because of our use of asynchronous inserts.
* Initialized by _populateMessageManagedId called by _init.
*
* Start from 32 to leave us all kinds of magical sentinel values at the
* bottom.
*/
_nextMessageId: 32,
_populateMessageManagedId: function () {
let stmt = this._createSyncStatement(
"SELECT MAX(id) FROM messages", true);
if (stmt.executeStep()) { // no chance of this SQLITE_BUSY on this call
// 0 gets returned even if there are no messages...
let highestSeen = stmt.getInt64(0);
if (highestSeen != 0)
this._nextMessageId = highestSeen + 1;
}
stmt.finalize();
},
get _insertMessageStatement() {
let statement = this._createAsyncStatement(
"INSERT INTO messages (id, folderID, messageKey, conversationID, date, \
headerMessageID, jsonAttributes, notability) \
VALUES (?1, ?2, ?3, ?4, ?5, ?6, ?7, ?8)");
this.__defineGetter__("_insertMessageStatement", () => statement);
return this._insertMessageStatement;
},
get _insertMessageTextStatement() {
let statement = this._createAsyncStatement(
"INSERT INTO messagesText (docid, subject, body, attachmentNames, \
author, recipients) \
VALUES (?1, ?2, ?3, ?4, ?5, ?6)");
this.__defineGetter__("_insertMessageTextStatement", () => statement);
return this._insertMessageTextStatement;
},
/**
* Create a GlodaMessage with the given properties. Because this is only half
* of the process of creating a message (the attributes still need to be
* completed), it's on the caller's head to call GlodaCollectionManager's
* itemAdded method once the message is fully created.
*
* This method uses the async connection, any downstream logic that depends on
* this message actually existing in the database must be done using an
* async query.
*/
createMessage: function gloda_ds_createMessage(aFolder, aMessageKey,
aConversationID, aDatePRTime, aHeaderMessageID) {
let folderID;
if (aFolder != null) {
folderID = this._mapFolder(aFolder).id;
}
else {
folderID = null;
}
let messageID = this._nextMessageId++;
let message = new GlodaMessage(
this, messageID, folderID,
aMessageKey,
aConversationID, /* conversation */ null,
aDatePRTime ? new Date(aDatePRTime / 1000) : null,
aHeaderMessageID,
/* deleted */ false, /* jsonText */ undefined, /* notability*/ 0);
// We would love to notify the collection manager about the message at this
// point (at least if it's not a ghost), but we can't yet. We need to wait
// until the attributes have been indexed, which means it's out of our
// hands. (Gloda.processMessage does it.)
return message;
},
insertMessage: function gloda_ds_insertMessage(aMessage) {
let ims = this._insertMessageStatement;
ims.bindInt64Parameter(0, aMessage.id);
if (aMessage.folderID == null)
ims.bindNullParameter(1);
else
ims.bindInt64Parameter(1, aMessage.folderID);
if (aMessage.messageKey == null)
ims.bindNullParameter(2);
else
ims.bindInt64Parameter(2, aMessage.messageKey);
ims.bindInt64Parameter(3, aMessage.conversationID);
if (aMessage.date == null)
ims.bindNullParameter(4);
else
ims.bindInt64Parameter(4, aMessage.date * 1000);
ims.bindStringParameter(5, aMessage.headerMessageID);
if (aMessage._jsonText)
ims.bindStringParameter(6, aMessage._jsonText);
else
ims.bindNullParameter(6);
ims.bindInt64Parameter(7, aMessage.notability);
try {
ims.executeAsync(this.trackAsync());
}
catch(ex) {
throw new Error("error executing statement... " +
this.asyncConnection.lastError + ": " +
this.asyncConnection.lastErrorString + " - " + ex);
}
// we create the full-text row for any message that isn't a ghost,
// whether we have the body or not
if (aMessage.folderID !== null)
this._insertMessageText(aMessage);
},
/**
* Inserts a full-text row. This should only be called if you're sure you want
* to insert a row into the table.
*/
_insertMessageText: function gloda_ds__insertMessageText(aMessage) {
if (aMessage._content && aMessage._content.hasContent())
aMessage._indexedBodyText = aMessage._content.getContentString(true);
else if (aMessage._bodyLines)
aMessage._indexedBodyText = aMessage._bodyLines.join("\n");
else
aMessage._indexedBodyText = null;
let imts = this._insertMessageTextStatement;
imts.bindInt64Parameter(0, aMessage.id);
imts.bindStringParameter(1, aMessage._subject);
if (aMessage._indexedBodyText == null)
imts.bindNullParameter(2);
else
imts.bindStringParameter(2, aMessage._indexedBodyText);
if (aMessage._attachmentNames === null)
imts.bindNullParameter(3);
else
imts.bindStringParameter(3, aMessage._attachmentNames.join("\n"));
imts.bindStringParameter(4, aMessage._indexAuthor);
imts.bindStringParameter(5, aMessage._indexRecipients);
try {
imts.executeAsync(this.trackAsync());
}
catch(ex) {
throw new Error("error executing fulltext statement... " +
this.asyncConnection.lastError + ": " +
this.asyncConnection.lastErrorString + " - " + ex);
}
},
get _updateMessageStatement() {
let statement = this._createAsyncStatement(
"UPDATE messages SET folderID = ?1, \
messageKey = ?2, \
conversationID = ?3, \
date = ?4, \
headerMessageID = ?5, \
jsonAttributes = ?6, \
notability = ?7, \
deleted = ?8 \
WHERE id = ?9");
this.__defineGetter__("_updateMessageStatement", () => statement);
return this._updateMessageStatement;
},
get _updateMessageTextStatement() {
let statement = this._createAsyncStatement(
"UPDATE messagesText SET body = ?1, \
attachmentNames = ?2 \
WHERE docid = ?3");
this.__defineGetter__("_updateMessageTextStatement", () => statement);
return this._updateMessageTextStatement;
},
/**
* Update the database row associated with the message. If the message is
* not a ghost and has _isNew defined, messagesText is affected.
*
* aMessage._isNew is currently equivalent to the fact that there is no
* full-text row associated with this message, and we work with this
* assumption here. Note that if aMessage._isNew is not defined, then
* we don't do anything.
*/
updateMessage: function gloda_ds_updateMessage(aMessage) {
let ums = this._updateMessageStatement;
ums.bindInt64Parameter(8, aMessage.id);
if (aMessage.folderID === null)
ums.bindNullParameter(0);
else
ums.bindInt64Parameter(0, aMessage.folderID);
if (aMessage.messageKey === null)
ums.bindNullParameter(1);
else
ums.bindInt64Parameter(1, aMessage.messageKey);
ums.bindInt64Parameter(2, aMessage.conversationID);
if (aMessage.date === null)
ums.bindNullParameter(3);
else
ums.bindInt64Parameter(3, aMessage.date * 1000);
ums.bindStringParameter(4, aMessage.headerMessageID);
if (aMessage._jsonText)
ums.bindStringParameter(5, aMessage._jsonText);
else
ums.bindNullParameter(5);
ums.bindInt64Parameter(6, aMessage.notability);
ums.bindInt64Parameter(7, aMessage._isDeleted ? 1 : 0);
ums.executeAsync(this.trackAsync());
if (aMessage.folderID !== null) {
if (aMessage._isNew === true)
this._insertMessageText(aMessage);
else
this._updateMessageText(aMessage);
}
},
/**
* Updates the full-text row associated with this message. This only performs
* the UPDATE query if the indexed body text has changed, which means that if
* the body hasn't changed but the attachments have, we don't update.
*/
_updateMessageText: function gloda_ds__updateMessageText(aMessage) {
let newIndexedBodyText;
if (aMessage._content && aMessage._content.hasContent())
newIndexedBodyText = aMessage._content.getContentString(true);
else if (aMessage._bodyLines)
newIndexedBodyText = aMessage._bodyLines.join("\n");
else
newIndexedBodyText = null;
// If the body text matches, don't perform an update
if (newIndexedBodyText == aMessage._indexedBodyText) {
this._log.debug("in _updateMessageText, skipping update because body matches");
return;
}
aMessage._indexedBodyText = newIndexedBodyText;
let umts = this._updateMessageTextStatement;
umts.bindInt64Parameter(2, aMessage.id);
if (aMessage._indexedBodyText == null)
umts.bindNullParameter(0);
else
umts.bindStringParameter(0, aMessage._indexedBodyText);
if (aMessage._attachmentNames == null)
umts.bindNullParameter(1);
else
umts.bindStringParameter(1, aMessage._attachmentNames.join("\n"));
try {
umts.executeAsync(this.trackAsync());
}
catch(ex) {
throw new Error("error executing fulltext statement... " +
this.asyncConnection.lastError + ": " +
this.asyncConnection.lastErrorString + " - " + ex);
}
},
get _updateMessageLocationStatement() {
let statement = this._createAsyncStatement(
"UPDATE messages SET folderID = ?1, messageKey = ?2 WHERE id = ?3");
this.__defineGetter__("_updateMessageLocationStatement",
() => statement);
return this._updateMessageLocationStatement;
},
/**
* Given a list of gloda message ids, and a list of their new message keys in
* the given new folder location, asynchronously update the message's
* database locations. Also, update the in-memory representations.
*/
updateMessageLocations: function gloda_ds_updateMessageLocations(aMessageIds,
aNewMessageKeys, aDestFolder, aDoNotNotify) {
let statement = this._updateMessageLocationStatement;
let destFolderID = (typeof(aDestFolder) == "number") ? aDestFolder :
this._mapFolder(aDestFolder).id;
// map gloda id to the new message key for in-memory rep transform below
let cacheLookupMap = {};
for (let iMsg = 0; iMsg < aMessageIds.length; iMsg++) {
let id = aMessageIds[iMsg], msgKey = aNewMessageKeys[iMsg];
statement.bindInt64Parameter(0, destFolderID);
statement.bindInt64Parameter(1, msgKey);
statement.bindInt64Parameter(2, id);
statement.executeAsync(this.trackAsync());
cacheLookupMap[id] = msgKey;
}
// - perform the cache lookup so we can update in-memory representations
// found in memory items, and converted to list form for notification
let inMemoryItems = {}, modifiedItems = [];
GlodaCollectionManager.cacheLookupMany(GlodaMessage.prototype.NOUN_ID,
cacheLookupMap,
inMemoryItems,
/* do not cache */ false);
for (let glodaId in inMemoryItems) {
let glodaMsg = inMemoryItems[glodaId];
glodaMsg._folderID = destFolderID;
glodaMsg._messageKey = cacheLookupMap[glodaId];
modifiedItems.push(glodaMsg);
}
// tell the collection manager about the modified messages so it can update
// any existing views...
if (!aDoNotNotify && modifiedItems.length) {
GlodaCollectionManager.itemsModified(GlodaMessage.prototype.NOUN_ID,
modifiedItems);
}
},
get _updateMessageKeyStatement() {
let statement = this._createAsyncStatement(
"UPDATE messages SET messageKey = ?1 WHERE id = ?2");
this.__defineGetter__("_updateMessageKeyStatement",
() => statement);
return this._updateMessageKeyStatement;
},
/**
* Update the message keys for the gloda messages with the given id's. This
* is to be used in response to msgKeyChanged notifications and is similar to
* `updateMessageLocations` except that we do not update the folder and we
* do not perform itemsModified notifications (because message keys are not
* intended to be relevant to the gloda message abstraction).
*/
updateMessageKeys: function(aMessageIds, aNewMessageKeys) {
let statement = this._updateMessageKeyStatement;
// map gloda id to the new message key for in-memory rep transform below
let cacheLookupMap = {};
for (let iMsg = 0; iMsg < aMessageIds.length; iMsg++) {
let id = aMessageIds[iMsg], msgKey = aNewMessageKeys[iMsg];
statement.bindInt64Parameter(0, msgKey);
statement.bindInt64Parameter(1, id);
statement.executeAsync(this.trackAsync());
cacheLookupMap[id] = msgKey;
}
// - perform the cache lookup so we can update in-memory representations
let inMemoryItems = {};
GlodaCollectionManager.cacheLookupMany(GlodaMessage.prototype.NOUN_ID,
cacheLookupMap,
inMemoryItems,
/* do not cache */ false);
for (let glodaId in inMemoryItems) {
let glodaMsg = inMemoryItems[glodaId];
glodaMsg._messageKey = cacheLookupMap[glodaId];
}
},
/**
* Asynchronously mutate message folder id/message keys for the given
* messages, indicating that we are moving them to the target folder, but
* don't yet know their target message keys.
*
* Updates in-memory representations too.
*/
updateMessageFoldersByKeyPurging:
function gloda_ds_updateMessageFoldersByKeyPurging(aGlodaIds,
aDestFolder) {
let destFolderID = this._mapFolder(aDestFolder).id;
let sqlStr = "UPDATE messages SET folderID = ?1, \
messageKey = ?2 \
WHERE id IN (" + aGlodaIds.join(", ") + ")";
let statement = this._createAsyncStatement(sqlStr, true);
statement.bindInt64Parameter(0, destFolderID);
statement.bindNullParameter(1);
statement.executeAsync(this.trackAsync());
statement.finalize();
let cached =
GlodaCollectionManager.cacheLookupManyList(GlodaMessage.prototype.NOUN_ID,
aGlodaIds);
for (let id in cached) {
let glodaMsg = cached[id];
glodaMsg._folderID = destFolderID;
glodaMsg._messageKey = null;
}
},
_messageFromRow: function gloda_ds_messageFromRow(aRow) {
let folderId, messageKey, date, jsonText, subject, indexedBodyText,
attachmentNames;
if (aRow.getTypeOfIndex(1) == Ci.mozIStorageValueArray.VALUE_TYPE_NULL)
folderId = null;
else
folderId = aRow.getInt64(1);
if (aRow.getTypeOfIndex(2) == Ci.mozIStorageValueArray.VALUE_TYPE_NULL)
messageKey = null;
else
messageKey = aRow.getInt64(2);
if (aRow.getTypeOfIndex(4) == Ci.mozIStorageValueArray.VALUE_TYPE_NULL)
date = null;
else
date = new Date(aRow.getInt64(4) / 1000);
if (aRow.getTypeOfIndex(7) == Ci.mozIStorageValueArray.VALUE_TYPE_NULL)
jsonText = undefined;
else
jsonText = aRow.getString(7);
// only queryFromQuery queries will have these columns
if (aRow.numEntries >= 14) {
if (aRow.getTypeOfIndex(10) == Ci.mozIStorageValueArray.VALUE_TYPE_NULL)
subject = undefined;
else
subject = aRow.getString(10);
if (aRow.getTypeOfIndex(9) == Ci.mozIStorageValueArray.VALUE_TYPE_NULL)
indexedBodyText = undefined;
else
indexedBodyText = aRow.getString(9);
if (aRow.getTypeOfIndex(11) == Ci.mozIStorageValueArray.VALUE_TYPE_NULL)
attachmentNames = null;
else {
attachmentNames = aRow.getString(11);
if (attachmentNames)
attachmentNames = attachmentNames.split("\n");
else
attachmentNames = null;
}
// we ignore 12, author
// we ignore 13, recipients
}
return new GlodaMessage(this, aRow.getInt64(0), folderId, messageKey,
aRow.getInt64(3), null, date, aRow.getString(5),
aRow.getInt64(6), jsonText, aRow.getInt64(8),
subject, indexedBodyText, attachmentNames);
},
get _updateMessagesMarkDeletedByFolderID() {
// When marking deleted clear the folderID and messageKey so that the
// indexing process can reuse it without any location constraints.
let statement = this._createAsyncStatement(
"UPDATE messages SET folderID = NULL, messageKey = NULL, \
deleted = 1 WHERE folderID = ?1");
this.__defineGetter__("_updateMessagesMarkDeletedByFolderID",
() => statement);
return this._updateMessagesMarkDeletedByFolderID;
},
/**
* Efficiently mark all the messages in a folder as deleted. Unfortunately,
* we obviously do not know the id's of the messages affected by this which
* complicates in-memory updates. The options are sending out to the SQL
* database for a list of the message id's or some form of in-memory
* traversal. I/O costs being what they are, users having a propensity to
* have folders with tens of thousands of messages, and the unlikeliness
* of all of those messages being gloda-memory-resident, we go with the
* in-memory traversal.
*/
markMessagesDeletedByFolderID:
function gloda_ds_markMessagesDeletedByFolderID(aFolderID) {
let statement = this._updateMessagesMarkDeletedByFolderID;
statement.bindInt64Parameter(0, aFolderID);
statement.executeAsync(this.trackAsync());
// Have the collection manager generate itemsRemoved events for any
// in-memory messages in that folder.
GlodaCollectionManager.itemsDeletedByAttribute(
GlodaMessage.prototype.NOUN_ID,
aMsg => aMsg._folderID == aFolderID);
},
/**
* Mark all the gloda messages as deleted blind-fire. Check if any of the
* messages are known to the collection manager and update them to be deleted
* along with the requisite collection notifications.
*/
markMessagesDeletedByIDs: function gloda_ds_markMessagesDeletedByIDs(
aMessageIDs) {
// When marking deleted clear the folderID and messageKey so that the
// indexing process can reuse it without any location constraints.
let sqlString = "UPDATE messages SET folderID = NULL, messageKey = NULL, " +
"deleted = 1 WHERE id IN (" +
aMessageIDs.join(",") + ")";
let statement = this._createAsyncStatement(sqlString, true);
statement.executeAsync(this.trackAsync());
statement.finalize();
GlodaCollectionManager.itemsDeleted(GlodaMessage.prototype.NOUN_ID,
aMessageIDs);
},
get _countDeletedMessagesStatement() {
let statement = this._createAsyncStatement(
"SELECT COUNT(*) FROM messages WHERE deleted = 1");
this.__defineGetter__("_countDeletedMessagesStatement",
() => statement);
return this._countDeletedMessagesStatement;
},
/**
* Count how many messages are currently marked as deleted in the database.
*/
countDeletedMessages: function gloda_ds_countDeletedMessages(aCallback) {
let cms = this._countDeletedMessagesStatement;
cms.executeAsync(new SingletonResultValueHandler(aCallback));
},
get _deleteMessageByIDStatement() {
let statement = this._createAsyncStatement(
"DELETE FROM messages WHERE id = ?1");
this.__defineGetter__("_deleteMessageByIDStatement",
() => statement);
return this._deleteMessageByIDStatement;
},
get _deleteMessageTextByIDStatement() {
let statement = this._createAsyncStatement(
"DELETE FROM messagesText WHERE docid = ?1");
this.__defineGetter__("_deleteMessageTextByIDStatement",
() => statement);
return this._deleteMessageTextByIDStatement;
},
/**
* Delete a message and its fulltext from the database. It is assumed that
* the message was already marked as deleted and so is not visible to the
* collection manager and so nothing needs to be done about that.
*/
deleteMessageByID: function gloda_ds_deleteMessageByID(aMessageID) {
let dmbids = this._deleteMessageByIDStatement;
dmbids.bindInt64Parameter(0, aMessageID);
dmbids.executeAsync(this.trackAsync());
this.deleteMessageTextByID(aMessageID);
},
deleteMessageTextByID: function gloda_ds_deleteMessageTextByID(aMessageID) {
let dmt = this._deleteMessageTextByIDStatement;
dmt.bindInt64Parameter(0, aMessageID);
dmt.executeAsync(this.trackAsync());
},
get _folderCompactionStatement() {
let statement = this._createAsyncStatement(
"SELECT id, messageKey, headerMessageID FROM messages \
WHERE folderID = ?1 AND \
messageKey >= ?2 AND +deleted = 0 ORDER BY messageKey LIMIT ?3");
this.__defineGetter__("_folderCompactionStatement",
() => statement);
return this._folderCompactionStatement;
},
folderCompactionPassBlockFetch:
function gloda_ds_folderCompactionPassBlockFetch(
aFolderID, aStartingMessageKey, aLimit, aCallback) {
let fcs = this._folderCompactionStatement;
fcs.bindInt64Parameter(0, aFolderID);
fcs.bindInt64Parameter(1, aStartingMessageKey);
fcs.bindInt64Parameter(2, aLimit);
fcs.executeAsync(new CompactionBlockFetcherHandler(aCallback));
},
/* ********** Message Attributes ********** */
get _insertMessageAttributeStatement() {
let statement = this._createAsyncStatement(
"INSERT INTO messageAttributes (conversationID, messageID, attributeID, \
value) \
VALUES (?1, ?2, ?3, ?4)");
this.__defineGetter__("_insertMessageAttributeStatement",
() => statement);
return this._insertMessageAttributeStatement;
},
get _deleteMessageAttributeStatement() {
let statement = this._createAsyncStatement(
"DELETE FROM messageAttributes WHERE attributeID = ?1 AND value = ?2 \
AND conversationID = ?3 AND messageID = ?4");
this.__defineGetter__("_deleteMessageAttributeStatement",
() => statement);
return this._deleteMessageAttributeStatement;
},
/**
* Insert and remove attributes relating to a GlodaMessage. This is performed
* inside a pseudo-transaction (we create one if we aren't in one, using
* our _beginTransaction wrapper, but if we are in one, no additional
* meaningful semantics are added).
* No attempt is made to verify uniqueness of inserted attributes, either
* against the current database or within the provided list of attributes.
* The caller is responsible for ensuring that unwanted duplicates are
* avoided.
*
* @param aMessage The GlodaMessage the attributes belong to. This is used
* to provide the message id and conversation id.
* @param aAddDBAttributes A list of attribute tuples to add, where each tuple
* contains an attribute ID and a value. Lest you forget, an attribute ID
* corresponds to a row in the attribute definition table. The attribute
* definition table stores the 'parameter' for the attribute, if any.
* (Which is to say, our frequent Attribute-Parameter-Value triple has
* the Attribute-Parameter part distilled to a single attribute id.)
* @param aRemoveDBAttributes A list of attribute tuples to remove.
*/
adjustMessageAttributes: function gloda_ds_adjustMessageAttributes(aMessage,
aAddDBAttributes, aRemoveDBAttributes) {
let imas = this._insertMessageAttributeStatement;
let dmas = this._deleteMessageAttributeStatement;
this._beginTransaction();
try {
for (let iAttrib = 0; iAttrib < aAddDBAttributes.length; iAttrib++) {
let attribValueTuple = aAddDBAttributes[iAttrib];
imas.bindInt64Parameter(0, aMessage.conversationID);
imas.bindInt64Parameter(1, aMessage.id);
imas.bindInt64Parameter(2, attribValueTuple[0]);
// use 0 instead of null, otherwise the db gets upset. (and we don't
// really care anyways.)
if (attribValueTuple[1] == null)
imas.bindInt64Parameter(3, 0);
else if (Math.floor(attribValueTuple[1]) == attribValueTuple[1])
imas.bindInt64Parameter(3, attribValueTuple[1]);
else
imas.bindDoubleParameter(3, attribValueTuple[1]);
imas.executeAsync(this.trackAsync());
}
for (let iAttrib = 0; iAttrib < aRemoveDBAttributes.length; iAttrib++) {
let attribValueTuple = aRemoveDBAttributes[iAttrib];
dmas.bindInt64Parameter(0, attribValueTuple[0]);
// use 0 instead of null, otherwise the db gets upset. (and we don't
// really care anyways.)
if (attribValueTuple[1] == null)
dmas.bindInt64Parameter(1, 0);
else if (Math.floor(attribValueTuple[1]) == attribValueTuple[1])
dmas.bindInt64Parameter(1, attribValueTuple[1]);
else
dmas.bindDoubleParameter(1, attribValueTuple[1]);
dmas.bindInt64Parameter(2, aMessage.conversationID);
dmas.bindInt64Parameter(3, aMessage.id);
dmas.executeAsync(this.trackAsync());
}
this._commitTransaction();
}
catch (ex) {
this._log.error("adjustMessageAttributes:", ex);
this._rollbackTransaction();
throw ex;
}
},
get _deleteMessageAttributesByMessageIDStatement() {
let statement = this._createAsyncStatement(
"DELETE FROM messageAttributes WHERE messageID = ?1");
this.__defineGetter__("_deleteMessageAttributesByMessageIDStatement",
() => statement);
return this._deleteMessageAttributesByMessageIDStatement;
},
/**
* Clear all the message attributes for a given GlodaMessage. No changes
* are made to the in-memory representation of the message; it is up to the
* caller to ensure that it handles things correctly.
*
* @param aMessage The GlodaMessage whose database attributes should be
* purged.
*/
clearMessageAttributes: function gloda_ds_clearMessageAttributes(aMessage) {
if (aMessage.id != null) {
this._deleteMessageAttributesByMessageIDStatement.bindInt64Parameter(0,
aMessage.id);
this._deleteMessageAttributesByMessageIDStatement.executeAsync(
this.trackAsync());
}
},
_stringSQLQuoter: function(aString) {
return "'" + aString.replace(/\'/g, "''") + "'";
},
_numberQuoter: function(aNum) {
return aNum;
},
/* ===== Generic Attribute Support ===== */
adjustAttributes: function gloda_ds_adjustAttributes(aItem, aAddDBAttributes,
aRemoveDBAttributes) {
let nounDef = aItem.NOUN_DEF;
let dbMeta = nounDef._dbMeta;
if (dbMeta.insertAttrStatement === undefined) {
dbMeta.insertAttrStatement = this._createAsyncStatement(
"INSERT INTO " + nounDef.attrTableName +
" (" + nounDef.attrIDColumnName + ", attributeID, value) " +
" VALUES (?1, ?2, ?3)");
// we always create this at the same time (right here), no need to check
dbMeta.deleteAttrStatement = this._createAsyncStatement(
"DELETE FROM " + nounDef.attrTableName + " WHERE " +
" attributeID = ?1 AND value = ?2 AND " +
nounDef.attrIDColumnName + " = ?3");
}
let ias = dbMeta.insertAttrStatement;
let das = dbMeta.deleteAttrStatement;
this._beginTransaction();
try {
for (let iAttr = 0; iAttr < aAddDBAttributes.length; iAttr++) {
let attribValueTuple = aAddDBAttributes[iAttr];
ias.bindInt64Parameter(0, aItem.id);
ias.bindInt64Parameter(1, attribValueTuple[0]);
// use 0 instead of null, otherwise the db gets upset. (and we don't
// really care anyways.)
if (attribValueTuple[1] == null)
ias.bindInt64Parameter(2, 0);
else if (Math.floor(attribValueTuple[1]) == attribValueTuple[1])
ias.bindInt64Parameter(2, attribValueTuple[1]);
else
ias.bindDoubleParameter(2, attribValueTuple[1]);
ias.executeAsync(this.trackAsync());
}
for (let iAttr = 0; iAttr < aRemoveDBAttributes.length; iAttr++) {
let attribValueTuple = aRemoveDBAttributes[iAttr];
das.bindInt64Parameter(0, attribValueTuple[0]);
// use 0 instead of null, otherwise the db gets upset. (and we don't
// really care anyways.)
if (attribValueTuple[1] == null)
das.bindInt64Parameter(1, 0);
else if (Math.floor(attribValueTuple[1]) == attribValueTuple[1])
das.bindInt64Parameter(1, attribValueTuple[1]);
else
das.bindDoubleParameter(1, attribValueTuple[1]);
das.bindInt64Parameter(2, aItem.id);
das.executeAsync(this.trackAsync());
}
this._commitTransaction();
}
catch (ex) {
this._log.error("adjustAttributes:", ex);
this._rollbackTransaction();
throw ex;
}
},
clearAttributes: function gloda_ds_clearAttributes(aItem) {
let nounDef = aItem.NOUN_DEF;
let dbMeta = nounMeta._dbMeta;
if (dbMeta.clearAttrStatement === undefined) {
dbMeta.clearAttrStatement = this._createAsyncStatement(
"DELETE FROM " + nounDef.attrTableName + " WHERE " +
nounDef.attrIDColumnName + " = ?1");
}
if (aItem.id != null) {
dbMeta.clearAttrStatement.bindInt64Parameter(0, aItem.id);
dbMeta.clearAttrStatement.executeAsync(this.trackAsync());
}
},
/**
* escapeStringForLIKE is only available on statements, and sometimes we want
* to use it before we create our statement, so we create a statement just
* for this reason.
*/
get _escapeLikeStatement() {
let statement = this._createAsyncStatement("SELECT 0");
this.__defineGetter__("_escapeLikeStatement", () => statement);
return this._escapeLikeStatement;
},
_convertToDBValuesAndGroupByAttributeID:
function* gloda_ds__convertToDBValuesAndGroupByAttributeID(aAttrDef,
aValues) {
let objectNounDef = aAttrDef.objectNounDef;
if (!objectNounDef.usesParameter) {
let dbValues = [];
for (let iValue = 0; iValue < aValues.length; iValue++) {
let value = aValues[iValue];
// If the empty set is significant and it's an empty signifier, emit
// the appropriate dbvalue.
if (value == null && aAttrDef.emptySetIsSignificant) {
yield [this.kEmptySetAttrId, [aAttrDef.id]];
// Bail if the only value was us; we don't want to add a
// value-posessing wildcard into the mix.
if (aValues.length == 1)
return;
continue;
}
let dbValue = objectNounDef.toParamAndValue(value)[1];
if (dbValue != null)
dbValues.push(dbValue);
}
yield [aAttrDef.special ? undefined : aAttrDef.id, dbValues];
return;
}
let curParam, attrID, dbValues;
let attrDBDef = aAttrDef.dbDef;
for (let iValue = 0; iValue < aValues.length; iValue++) {
let value = aValues[iValue];
// If the empty set is significant and it's an empty signifier, emit
// the appropriate dbvalue.
if (value == null && aAttrDef.emptySetIsSignificant) {
yield [this.kEmptySetAttrId, [aAttrDef.id]];
// Bail if the only value was us; we don't want to add a
// value-posessing wildcard into the mix.
if (aValues.length == 1)
return;
continue;
}
let [dbParam, dbValue] = objectNounDef.toParamAndValue(value);
if (curParam === undefined) {
curParam = dbParam;
attrID = attrDBDef.bindParameter(curParam);
if (dbValue != null)
dbValues = [dbValue];
else
dbValues = [];
}
else if (curParam == dbParam) {
if (dbValue != null)
dbValues.push(dbValue);
}
else {
yield [attrID, dbValues];
curParam = dbParam;
attrID = attrDBDef.bindParameter(curParam);
if (dbValue != null)
dbValues = [dbValue];
else
dbValues = [];
}
}
if (dbValues !== undefined)
yield [attrID, dbValues];
},
_convertRangesToDBStringsAndGroupByAttributeID:
function* gloda_ds__convertRangesToDBStringsAndGroupByAttributeID(aAttrDef,
aValues, aValueColumnName) {
let objectNounDef = aAttrDef.objectNounDef;
if (!objectNounDef.usesParameter) {
let dbStrings = [];
for (let iValue = 0; iValue < aValues.length; iValue++) {
let [lowerVal, upperVal] = aValues[iValue];
// they both can't be null. that is the law.
if (lowerVal == null)
dbStrings.push(aValueColumnName + " <= " +
objectNounDef.toParamAndValue(upperVal)[1]);
else if (upperVal == null)
dbStrings.push(aValueColumnName + " >= " +
objectNounDef.toParamAndValue(lowerVal)[1]);
else // no one is null!
dbStrings.push(aValueColumnName + " BETWEEN " +
objectNounDef.toParamAndValue(lowerVal)[1] + " AND " +
objectNounDef.toParamAndValue(upperVal)[1]);
}
yield [aAttrDef.special ? undefined : aAttrDef.id, dbStrings];
return;
}
let curParam, attrID, dbStrings;
let attrDBDef = aAttrDef.dbDef;
for (let iValue = 0; iValue < aValues.length; iValue++) {
let [lowerVal, upperVal] = aValues[iValue];
let dbString, dbParam, lowerDBVal, upperDBVal;
// they both can't be null. that is the law.
if (lowerVal == null) {
[dbParam, upperDBVal] = objectNounDef.toParamAndValue(upperVal);
dbString = aValueColumnName + " <= " + upperDBVal;
}
else if (upperVal == null) {
[dbParam, lowerDBVal] = objectNounDef.toParamAndValue(lowerVal);
dbString = aValueColumnName + " >= " + lowerDBVal;
}
else { // no one is null!
[dbParam, lowerDBVal] = objectNounDef.toParamAndValue(lowerVal);
dbString = aValueColumnName + " BETWEEN " + lowerDBVal + " AND " +
objectNounDef.toParamAndValue(upperVal)[1];
}
if (curParam === undefined) {
curParam = dbParam;
attrID = attrDBDef.bindParameter(curParam);
dbStrings = [dbString];
}
else if (curParam === dbParam) {
dbStrings.push(dbString);
}
else {
yield [attrID, dbStrings];
curParam = dbParam;
attrID = attrDBDef.bindParameter(curParam);
dbStrings = [dbString];
}
}
if (dbStrings !== undefined)
yield [attrID, dbStrings];
},
/**
* Perform a database query given a GlodaQueryClass instance that specifies
* a set of constraints relating to the noun type associated with the query.
* A GlodaCollection is returned containing the results of the look-up.
* By default the collection is "live", and will mutate (generating events to
* its listener) as the state of the database changes.
* This functionality is made user/extension visible by the Query's
* getCollection (asynchronous).
*
* @param [aArgs] See |GlodaQuery.getCollection| for info.
*/
queryFromQuery: function gloda_ds_queryFromQuery(aQuery, aListener,
aListenerData, aExistingCollection, aMasterCollection, aArgs) {
// when changing this method, be sure that GlodaQuery's testMatch function
// likewise has its changes made.
let nounDef = aQuery._nounDef;
let whereClauses = [];
let unionQueries = [aQuery].concat(aQuery._unions);
let boundArgs = [];
// Use the dbQueryValidityConstraintSuffix to provide constraints that
// filter items down to those that are valid for the query mechanism to
// return. For example, in the case of messages, deleted or ghost
// messages should not be returned by this query layer. We require
// hand-rolled SQL to do that for now.
let validityConstraintSuffix;
if (nounDef.dbQueryValidityConstraintSuffix &&
!aQuery.options.noDbQueryValidityConstraints)
validityConstraintSuffix = nounDef.dbQueryValidityConstraintSuffix;
else
validityConstraintSuffix = "";
for (let iUnion = 0; iUnion < unionQueries.length; iUnion++) {
let curQuery = unionQueries[iUnion];
let selects = [];
let lastConstraintWasSpecial = false;
let curConstraintIsSpecial;
for (let iConstraint = 0; iConstraint < curQuery._constraints.length;
iConstraint++) {
let constraint = curQuery._constraints[iConstraint];
let [constraintType, attrDef] = constraint;
let constraintValues = constraint.slice(2);
let tableName, idColumnName, tableColumnName, valueColumnName;
if (constraintType == this.kConstraintIdIn) {
// we don't need any of the next cases' setup code, and we especially
// would prefer that attrDef isn't accessed since it's null for us.
}
else if (attrDef.special) {
tableName = nounDef.tableName;
idColumnName = "id"; // canonical id for a table is "id".
valueColumnName = attrDef.specialColumnName;
curConstraintIsSpecial = true;
}
else {
tableName = nounDef.attrTableName;
idColumnName = nounDef.attrIDColumnName;
valueColumnName = "value";
curConstraintIsSpecial = false;
}
let select = null, test = null, bindArgs = null;
if (constraintType === this.kConstraintIdIn) {
// this is somewhat of a trick. this does mean that this can be the
// only constraint. Namely, our idiom is:
// SELECT * FROM blah WHERE id IN (a INTERSECT b INTERSECT c)
// but if we only have 'a', then that becomes "...IN (a)", and if
// 'a' is not a select but a list of id's... tricky, no?
select = constraintValues.join(",");
}
// @testpoint gloda.datastore.sqlgen.kConstraintIn
else if (constraintType === this.kConstraintIn) {
let clauses = [];
for (let [attrID, values] of
this._convertToDBValuesAndGroupByAttributeID(attrDef,
constraintValues)) {
let clausePart;
if (attrID !== undefined)
clausePart = "(attributeID = " + attrID +
(values.length ? " AND " : "");
else
clausePart = "(";
if (values.length) {
// strings need to be escaped, we would use ? binding, except
// that gets mad if we have too many strings... so we use our
// own escaping logic. correctly escaping is easy, but it still
// feels wrong to do it. (just double the quote character...)
if (attrDef.special == this.kSpecialString)
clausePart += valueColumnName + " IN (" +
values.map(v => "'" + v.replace(/\'/g, "''") + "'").
join(",") + "))";
else
clausePart += valueColumnName + " IN (" + values.join(",") +
"))";
}
else
clausePart += ")";
clauses.push(clausePart);
}
test = clauses.join(" OR ");
}
// @testpoint gloda.datastore.sqlgen.kConstraintRanges
else if (constraintType === this.kConstraintRanges) {
let clauses = [];
for (let [attrID, dbStrings] of
this._convertRangesToDBStringsAndGroupByAttributeID(attrDef,
constraintValues, valueColumnName)) {
if (attrID !== undefined)
clauses.push("(attributeID = " + attrID +
" AND (" + dbStrings.join(" OR ") + "))");
else
clauses.push("(" + dbStrings.join(" OR ") + ")");
}
test = clauses.join(" OR ");
}
// @testpoint gloda.datastore.sqlgen.kConstraintEquals
else if (constraintType === this.kConstraintEquals) {
let clauses = [];
for (let [attrID, values] of
this._convertToDBValuesAndGroupByAttributeID(attrDef,
constraintValues)) {
if (attrID !== undefined)
clauses.push("(attributeID = " + attrID +
" AND (" + values.map(_ => valueColumnName + " = ?").
join(" OR ") + "))");
else
clauses.push("(" + values.map(_ => valueColumnName + " = ?").
join(" OR ") + ")");
boundArgs.push.apply(boundArgs, values);
}
test = clauses.join(" OR ");
}
// @testpoint gloda.datastore.sqlgen.kConstraintStringLike
else if (constraintType === this.kConstraintStringLike) {
let likePayload = '';
for (let valuePart of constraintValues) {
if (typeof valuePart == "string")
likePayload += this._escapeLikeStatement.escapeStringForLIKE(
valuePart, "/");
else
likePayload += "%";
}
test = valueColumnName + " LIKE ? ESCAPE '/'";
boundArgs.push(likePayload);
}
// @testpoint gloda.datastore.sqlgen.kConstraintFulltext
else if (constraintType === this.kConstraintFulltext) {
let matchStr = constraintValues[0];
select = "SELECT docid FROM " + nounDef.tableName + "Text" +
" WHERE " + attrDef.specialColumnName + " MATCH ?";
boundArgs.push(matchStr);
}
if (curConstraintIsSpecial && lastConstraintWasSpecial && test) {
selects[selects.length-1] += " AND " + test;
}
else if (select)
selects.push(select);
else if (test) {
select = "SELECT " + idColumnName + " FROM " + tableName + " WHERE " +
test;
selects.push(select);
}
else
this._log.warn("Unable to translate constraint of type " +
constraintType + " on attribute bound as " + nounDef.name);
lastConstraintWasSpecial = curConstraintIsSpecial;
}
if (selects.length)
whereClauses.push("id IN (" + selects.join(" INTERSECT ") + ")" +
validityConstraintSuffix);
}
let sqlString = "SELECT * FROM " + nounDef.tableName;
if (!aQuery.options.noMagic) {
if (aQuery.options.noDbQueryValidityConstraints &&
nounDef.dbQueryJoinMagicWithNoValidityConstraints)
sqlString += nounDef.dbQueryJoinMagicWithNoValidityConstraints;
else if (nounDef.dbQueryJoinMagic)
sqlString += nounDef.dbQueryJoinMagic;
}
if (whereClauses.length)
sqlString += " WHERE (" + whereClauses.join(") OR (") + ")";
if (aQuery.options.explicitSQL)
sqlString = aQuery.options.explicitSQL;
if (aQuery.options.outerWrapColumns)
sqlString = "SELECT *, " + aQuery.options.outerWrapColumns.join(", ") +
" FROM (" + sqlString + ")";
if (aQuery._order.length) {
let orderClauses = [];
for (let [, colName] in Iterator(aQuery._order)) {
if (colName.startsWith("-"))
orderClauses.push(colName.substring(1) + " DESC");
else
orderClauses.push(colName + " ASC");
}
sqlString += " ORDER BY " + orderClauses.join(", ");
}
if (aQuery._limit) {
if (!("limitClauseAlreadyIncluded" in aQuery.options))
sqlString += " LIMIT ?";
boundArgs.push(aQuery._limit);
}
this._log.debug("QUERY FROM QUERY: " + sqlString + " ARGS: " + boundArgs);
// if we want to become explicit, replace the query (which has already
// provided our actual SQL query) with an explicit query. This will be
// what gets attached to the collection in the event we create a new
// collection. If we are reusing one, we assume that the explicitness,
// if desired, already happened.
// (we do not need to pass an argument to the explicitQueryClass constructor
// because it will be passed in to the collection's constructor, which will
// ensure that the collection attribute gets set.)
if (aArgs && ("becomeExplicit" in aArgs) && aArgs.becomeExplicit)
aQuery = new nounDef.explicitQueryClass();
else if (aArgs && ("becomeNull" in aArgs) && aArgs.becomeNull)
aQuery = new nounDef.nullQueryClass();
return this._queryFromSQLString(sqlString, boundArgs, nounDef, aQuery,
aListener, aListenerData, aExistingCollection, aMasterCollection);
},
_queryFromSQLString: function gloda_ds__queryFromSQLString(aSqlString,
aBoundArgs, aNounDef, aQuery, aListener, aListenerData,
aExistingCollection, aMasterCollection) {
let statement = this._createAsyncStatement(aSqlString, true);
for (let [iBinding, bindingValue] in Iterator(aBoundArgs)) {
this._bindVariant(statement, iBinding, bindingValue);
}
let collection;
if (aExistingCollection)
collection = aExistingCollection;
else {
collection = new GlodaCollection(aNounDef, [], aQuery, aListener,
aMasterCollection);
GlodaCollectionManager.registerCollection(collection);
// we don't want to overwrite the existing listener or its data, but this
// does raise the question about what should happen if we get passed in
// a different listener and/or data.
if (aListenerData !== undefined)
collection.data = aListenerData;
}
if (aListenerData) {
if (collection.dataStack)
collection.dataStack.push(aListenerData);
else
collection.dataStack = [aListenerData];
}
statement.executeAsync(new QueryFromQueryCallback(statement, aNounDef,
collection));
statement.finalize();
return collection;
},
/**
*
*
*/
loadNounItem: function gloda_ds_loadNounItem(aItem, aReferencesByNounID,
aInverseReferencesByNounID) {
let attribIDToDBDefAndParam = this._attributeIDToDBDefAndParam;
let hadDeps = aItem._deps != null;
let deps = aItem._deps || {};
let hasDeps = false;
//this._log.debug(" hadDeps: " + hadDeps + " deps: " +
// Log4Moz.enumerateProperties(deps).join(","));
for (let attrib of aItem.NOUN_DEF.specialLoadAttribs) {
let objectNounDef = attrib.objectNounDef;
if (attrib.special === this.kSpecialColumnChildren) {
let invReferences = aInverseReferencesByNounID[objectNounDef.id];
if (invReferences === undefined)
invReferences = aInverseReferencesByNounID[objectNounDef.id] = {};
// only contribute if it's not already pending or there
if (!(attrib.id in deps) && aItem[attrib.storageAttributeName] == null){
//this._log.debug(" Adding inv ref for: " + aItem.id);
if (!(aItem.id in invReferences))
invReferences[aItem.id] = null;
deps[attrib.id] = null;
hasDeps = true;
}
}
else if (attrib.special === this.kSpecialColumnParent) {
let references = aReferencesByNounID[objectNounDef.id];
if (references === undefined)
references = aReferencesByNounID[objectNounDef.id] = {};
// nothing to contribute if it's already there
if (!(attrib.id in deps) &&
aItem[attrib.valueStorageAttributeName] == null) {
let parentID = aItem[attrib.idStorageAttributeName];
if (!(parentID in references))
references[parentID] = null;
//this._log.debug(" Adding parent ref for: " +
// aItem[attrib.idStorageAttributeName]);
deps[attrib.id] = null;
hasDeps = true;
}
else {
this._log.debug(" paranoia value storage: " + aItem[attrib.valueStorageAttributeName]);
}
}
}
// bail here if arbitrary values are not allowed, there just is no
// encoded json, or we already had dependencies for this guy, implying
// the json pass has already been performed
if (!aItem.NOUN_DEF.allowsArbitraryAttrs || !aItem._jsonText || hadDeps) {
if (hasDeps)
aItem._deps = deps;
return hasDeps;
}
//this._log.debug(" load json: " + aItem._jsonText);
let jsonDict = JSON.parse(aItem._jsonText);
delete aItem._jsonText;
// Iterate over the attributes on the item
for (let attribId in jsonDict) {
let jsonValue = jsonDict[attribId];
// It is technically impossible for attribute ids to go away at this
// point in time. This would require someone to monkey around with
// our schema. But we will introduce this functionality one day, so
// prepare for it now.
if (!(attribId in attribIDToDBDefAndParam))
continue;
// find the attribute definition that corresponds to this key
let dbAttrib = attribIDToDBDefAndParam[attribId][0];
let attrib = dbAttrib.attrDef;
// The attribute definition will fail to exist if no one defines the
// attribute anymore. This can happen for many reasons: an extension
// was uninstalled, an extension was changed and no longer defines the
// attribute, or patches are being applied/unapplied. Ignore this
// attribute if missing.
if (attrib == null)
continue;
let objectNounDef = attrib.objectNounDef;
// If it has a tableName member but no fromJSON, then it's a persistent
// object that needs to be loaded, which also means we need to hold it in
// a collection owned by our collection.
// (If it has a fromJSON method, then it's a special case like
// MimeTypeNoun where it is authoritatively backed by a table but caches
// everything into memory. There is no case where fromJSON would be
// implemented but we should still be doing database lookups.)
if (objectNounDef.tableName && !objectNounDef.fromJSON) {
let references = aReferencesByNounID[objectNounDef.id];
if (references === undefined)
references = aReferencesByNounID[objectNounDef.id] = {};
if (attrib.singular) {
if (!(jsonValue in references))
references[jsonValue] = null;
}
else {
for (let key in jsonValue) {
let anID = jsonValue[key];
if (!(anID in references))
references[anID] = null;
}
}
deps[attribId] = jsonValue;
hasDeps = true;
}
/* if it has custom contribution logic, use it */
else if (objectNounDef.contributeObjDependencies) {
if (objectNounDef.contributeObjDependencies(jsonValue,
aReferencesByNounID, aInverseReferencesByNounID)) {
deps[attribId] = jsonValue;
hasDeps = true;
}
else // just propagate the value, it's some form of simple sentinel
aItem[attrib.boundName] = jsonValue;
}
// otherwise, the value just needs to be de-persisted, or...
else if (objectNounDef.fromJSON) {
if (attrib.singular) {
// For consistency with the non-singular case, we don't assign the
// attribute if undefined is returned.
let deserialized = objectNounDef.fromJSON(jsonValue, aItem);
if (deserialized !== undefined)
aItem[attrib.boundName] = deserialized;
}
else {
// Convert all the entries in the list filtering out any undefined
// values. (TagNoun will do this if the tag is now dead.)
let outList = [];
for (let key in jsonValue) {
let val = jsonValue[key];
let deserialized = objectNounDef.fromJSON(val, aItem);
if (deserialized !== undefined)
outList.push(deserialized);
}
// Note: It's possible if we filtered things out that this is an empty
// list. This is acceptable because this is somewhat of an unusual
// case and I don't think we want to further complicate our
// semantics.
aItem[attrib.boundName] = outList;
}
}
// it's fine as is
else
aItem[attrib.boundName] = jsonValue;
}
if (hasDeps)
aItem._deps = deps;
return hasDeps;
},
loadNounDeferredDeps: function gloda_ds_loadNounDeferredDeps(aItem,
aReferencesByNounID, aInverseReferencesByNounID) {
if (aItem._deps === undefined)
return;
//this._log.debug(" loading deferred, deps: " +
// Log4Moz.enumerateProperties(aItem._deps).join(","));
let attribIDToDBDefAndParam = this._attributeIDToDBDefAndParam;
for (let [attribId, jsonValue] in Iterator(aItem._deps)) {
let dbAttrib = attribIDToDBDefAndParam[attribId][0];
let attrib = dbAttrib.attrDef;
let objectNounDef = attrib.objectNounDef;
let references = aReferencesByNounID[objectNounDef.id];
if (attrib.special) {
if (attrib.special === this.kSpecialColumnChildren) {
let inverseReferences = aInverseReferencesByNounID[objectNounDef.id];
//this._log.info("inverse assignment: " + objectNounDef.id +
// " of " + aItem.id)
aItem[attrib.storageAttributeName] = inverseReferences[aItem.id];
}
else if (attrib.special === this.kSpecialColumnParent) {
//this._log.info("parent column load: " + objectNounDef.id +
// " storage value: " + aItem[attrib.idStorageAttributeName]);
aItem[attrib.valueStorageAttributeName] =
references[aItem[attrib.idStorageAttributeName]];
}
}
else if (objectNounDef.tableName) {
//this._log.info("trying to load: " + objectNounDef.id + " refs: " +
// jsonValue + ": " + Log4Moz.enumerateProperties(jsonValue).join(","));
if (attrib.singular)
aItem[attrib.boundName] = references[jsonValue];
else
aItem[attrib.boundName] = Object.keys(jsonValue).
map(key => references[jsonValue[key]]);
}
else if (objectNounDef.contributeObjDependencies) {
aItem[attrib.boundName] =
objectNounDef.resolveObjDependencies(jsonValue, aReferencesByNounID,
aInverseReferencesByNounID);
}
// there is no other case
}
delete aItem._deps;
},
/* ********** Contact ********** */
_nextContactId: 1,
_populateContactManagedId: function () {
let stmt = this._createSyncStatement("SELECT MAX(id) FROM contacts", true);
if (stmt.executeStep()) { // no chance of this SQLITE_BUSY on this call
this._nextContactId = stmt.getInt64(0) + 1;
}
stmt.finalize();
},
get _insertContactStatement() {
let statement = this._createAsyncStatement(
"INSERT INTO contacts (id, directoryUUID, contactUUID, name, popularity,\
frecency, jsonAttributes) \
VALUES (?1, ?2, ?3, ?4, ?5, ?6, ?7)");
this.__defineGetter__("_insertContactStatement", () => statement);
return this._insertContactStatement;
},
createContact: function gloda_ds_createContact(aDirectoryUUID, aContactUUID,
aName, aPopularity, aFrecency) {
let contactID = this._nextContactId++;
let contact = new GlodaContact(this, contactID,
aDirectoryUUID, aContactUUID, aName,
aPopularity, aFrecency);
return contact;
},
insertContact: function gloda_ds_insertContact(aContact) {
let ics = this._insertContactStatement;
ics.bindInt64Parameter(0, aContact.id);
if (aContact.directoryUUID == null)
ics.bindNullParameter(1);
else
ics.bindStringParameter(1, aContact.directoryUUID);
if (aContact.contactUUID == null)
ics.bindNullParameter(2);
else
ics.bindStringParameter(2, aContact.contactUUID);
ics.bindStringParameter(3, aContact.name);
ics.bindInt64Parameter(4, aContact.popularity);
ics.bindInt64Parameter(5, aContact.frecency);
if (aContact._jsonText)
ics.bindStringParameter(6, aContact._jsonText);
else
ics.bindNullParameter(6);
ics.executeAsync(this.trackAsync());
return aContact;
},
get _updateContactStatement() {
let statement = this._createAsyncStatement(
"UPDATE contacts SET directoryUUID = ?1, \
contactUUID = ?2, \
name = ?3, \
popularity = ?4, \
frecency = ?5, \
jsonAttributes = ?6 \
WHERE id = ?7");
this.__defineGetter__("_updateContactStatement", () => statement);
return this._updateContactStatement;
},
updateContact: function gloda_ds_updateContact(aContact) {
let ucs = this._updateContactStatement;
ucs.bindInt64Parameter(6, aContact.id);
ucs.bindStringParameter(0, aContact.directoryUUID);
ucs.bindStringParameter(1, aContact.contactUUID);
ucs.bindStringParameter(2, aContact.name);
ucs.bindInt64Parameter(3, aContact.popularity);
ucs.bindInt64Parameter(4, aContact.frecency);
if (aContact._jsonText)
ucs.bindStringParameter(5, aContact._jsonText);
else
ucs.bindNullParameter(5);
ucs.executeAsync(this.trackAsync());
},
_contactFromRow: function gloda_ds_contactFromRow(aRow) {
let directoryUUID, contactUUID, jsonText;
if (aRow.getTypeOfIndex(1) == Ci.mozIStorageValueArray.VALUE_TYPE_NULL)
directoryUUID = null;
else
directoryUUID = aRow.getString(1);
if (aRow.getTypeOfIndex(2) == Ci.mozIStorageValueArray.VALUE_TYPE_NULL)
contactUUID = null;
else
contactUUID = aRow.getString(2);
if (aRow.getTypeOfIndex(6) == Ci.mozIStorageValueArray.VALUE_TYPE_NULL)
jsonText = undefined;
else
jsonText = aRow.getString(6);
return new GlodaContact(this, aRow.getInt64(0), directoryUUID,
contactUUID, aRow.getString(5),
aRow.getInt64(3), aRow.getInt64(4), jsonText);
},
get _selectContactByIDStatement() {
let statement = this._createSyncStatement(
"SELECT * FROM contacts WHERE id = ?1");
this.__defineGetter__("_selectContactByIDStatement",
() => statement);
return this._selectContactByIDStatement;
},
/**
* Synchronous contact lookup currently only for use by gloda's creation
* of the concept of "me". It is okay for it to be doing synchronous work
* because it is part of the startup process before any user code could
* have gotten a reference to Gloda, but no one else should do this.
*/
getContactByID: function gloda_ds_getContactByID(aContactID) {
let contact = GlodaCollectionManager.cacheLookupOne(
GlodaContact.prototype.NOUN_ID, aContactID);
if (contact === null) {
let scbi = this._selectContactByIDStatement;
scbi.bindInt64Parameter(0, aContactID);
if (this._syncStep(scbi)) {
contact = this._contactFromRow(scbi);
GlodaCollectionManager.itemLoaded(contact);
}
scbi.reset();
}
return contact;
},
/* ********** Identity ********** */
/** next identity id, managed for async use reasons. */
_nextIdentityId: 1,
_populateIdentityManagedId: function () {
let stmt = this._createSyncStatement(
"SELECT MAX(id) FROM identities", true);
if (stmt.executeStep()) { // no chance of this SQLITE_BUSY on this call
this._nextIdentityId = stmt.getInt64(0) + 1;
}
stmt.finalize();
},
get _insertIdentityStatement() {
let statement = this._createAsyncStatement(
"INSERT INTO identities (id, contactID, kind, value, description, relay) \
VALUES (?1, ?2, ?3, ?4, ?5, ?6)");
this.__defineGetter__("_insertIdentityStatement", () => statement);
return this._insertIdentityStatement;
},
createIdentity: function gloda_ds_createIdentity(aContactID, aContact, aKind,
aValue, aDescription,
aIsRelay) {
let identityID = this._nextIdentityId++;
let iis = this._insertIdentityStatement;
iis.bindInt64Parameter(0, identityID);
iis.bindInt64Parameter(1, aContactID);
iis.bindStringParameter(2, aKind);
iis.bindStringParameter(3, aValue);
iis.bindStringParameter(4, aDescription);
iis.bindInt64Parameter(5, aIsRelay ? 1 : 0);
iis.executeAsync(this.trackAsync());
let identity = new GlodaIdentity(this, identityID,
aContactID, aContact, aKind, aValue,
aDescription, aIsRelay);
GlodaCollectionManager.itemsAdded(identity.NOUN_ID, [identity]);
return identity;
},
_identityFromRow: function gloda_ds_identityFromRow(aRow) {
return new GlodaIdentity(this, aRow.getInt64(0), aRow.getInt64(1), null,
aRow.getString(2), aRow.getString(3),
aRow.getString(4),
aRow.getInt32(5) ? true : false);
},
get _selectIdentityByKindValueStatement() {
let statement = this._createSyncStatement(
"SELECT * FROM identities WHERE kind = ?1 AND value = ?2");
this.__defineGetter__("_selectIdentityByKindValueStatement",
() => statement);
return this._selectIdentityByKindValueStatement;
},
/**
* Synchronous lookup of an identity by kind and value, only for use by
* the legacy gloda core code that creates a concept of "me".
* Ex: (email, foo@example.com)
*/
getIdentity: function gloda_ds_getIdentity(aKind, aValue) {
let identity = GlodaCollectionManager.cacheLookupOneByUniqueValue(
GlodaIdentity.prototype.NOUN_ID, aKind + "@" + aValue);
let ibkv = this._selectIdentityByKindValueStatement;
ibkv.bindStringParameter(0, aKind);
ibkv.bindStringParameter(1, aValue);
if (this._syncStep(ibkv)) {
identity = this._identityFromRow(ibkv);
GlodaCollectionManager.itemLoaded(identity);
}
ibkv.reset();
return identity;
},
};
GlodaAttributeDBDef.prototype._datastore = GlodaDatastore;
GlodaConversation.prototype._datastore = GlodaDatastore;
GlodaFolder.prototype._datastore = GlodaDatastore;
GlodaMessage.prototype._datastore = GlodaDatastore;
GlodaContact.prototype._datastore = GlodaDatastore;
GlodaIdentity.prototype._datastore = GlodaDatastore;
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