1 files changed, 1094 insertions, 0 deletions

diff --git a/toolkit/modules/tests/xpcshell/test_sqlite.js b/toolkit/modules/tests/xpcshell/test_sqlite.js
new file mode 100644
index 000000000..edd39d977
--- /dev/null
+++ b/toolkit/modules/tests/xpcshell/test_sqlite.js
@@ -0,0 +1,1094 @@
+/* Any copyright is dedicated to the Public Domain.
+ * http://creativecommons.org/publicdomain/zero/1.0/ */
+
+"use strict";
+
+var {classes: Cc, interfaces: Ci, utils: Cu} = Components;
+
+do_get_profile();
+
+Cu.import("resource://gre/modules/Promise.jsm");
+Cu.import("resource://gre/modules/PromiseUtils.jsm");
+Cu.import("resource://gre/modules/osfile.jsm");
+Cu.import("resource://gre/modules/FileUtils.jsm");
+Cu.import("resource://gre/modules/Services.jsm");
+Cu.import("resource://gre/modules/Sqlite.jsm");
+Cu.import("resource://gre/modules/Task.jsm");
+Cu.import("resource://gre/modules/XPCOMUtils.jsm");
+
+// To spin the event loop in test.
+Cu.import("resource://services-common/async.js");
+
+function sleep(ms) {
+  let deferred = Promise.defer();
+
+  let timer = Cc["@mozilla.org/timer;1"]
+                .createInstance(Ci.nsITimer);
+
+  timer.initWithCallback({
+    notify: function () {
+      deferred.resolve();
+    },
+  }, ms, timer.TYPE_ONE_SHOT);
+
+  return deferred.promise;
+}
+
+// When testing finalization, use this to tell Sqlite.jsm to not throw
+// an uncatchable `Promise.reject`
+function failTestsOnAutoClose(enabled)  {
+  Cu.getGlobalForObject(Sqlite).Debugging.failTestsOnAutoClose = enabled;
+}
+
+function getConnection(dbName, extraOptions={}) {
+  let path = dbName + ".sqlite";
+  let options = {path: path};
+  for (let [k, v] of Object.entries(extraOptions)) {
+    options[k] = v;
+  }
+
+  return Sqlite.openConnection(options);
+}
+
+function* getDummyDatabase(name, extraOptions={}) {
+  const TABLES = {
+    dirs: "id INTEGER PRIMARY KEY AUTOINCREMENT, path TEXT",
+    files: "id INTEGER PRIMARY KEY AUTOINCREMENT, dir_id INTEGER, path TEXT",
+  };
+
+  let c = yield getConnection(name, extraOptions);
+  c._initialStatementCount = 0;
+
+  for (let [k, v] of Object.entries(TABLES)) {
+    yield c.execute("CREATE TABLE " + k + "(" + v + ")");
+    c._initialStatementCount++;
+  }
+
+  return c;
+}
+
+function* getDummyTempDatabase(name, extraOptions={}) {
+  const TABLES = {
+    dirs: "id INTEGER PRIMARY KEY AUTOINCREMENT, path TEXT",
+    files: "id INTEGER PRIMARY KEY AUTOINCREMENT, dir_id INTEGER, path TEXT",
+  };
+
+  let c = yield getConnection(name, extraOptions);
+  c._initialStatementCount = 0;
+
+  for (let [k, v] of Object.entries(TABLES)) {
+    yield c.execute("CREATE TEMP TABLE " + k + "(" + v + ")");
+    c._initialStatementCount++;
+  }
+
+  return c;
+}
+
+function run_test() {
+  Cu.import("resource://testing-common/services/common/logging.js");
+  initTestLogging("Trace");
+
+  run_next_test();
+}
+
+add_task(function* test_open_normal() {
+  let c = yield Sqlite.openConnection({path: "test_open_normal.sqlite"});
+  yield c.close();
+});
+
+add_task(function* test_open_unshared() {
+  let path = OS.Path.join(OS.Constants.Path.profileDir, "test_open_unshared.sqlite");
+
+  let c = yield Sqlite.openConnection({path: path, sharedMemoryCache: false});
+  yield c.close();
+});
+
+add_task(function* test_get_dummy_database() {
+  let db = yield getDummyDatabase("get_dummy_database");
+
+  do_check_eq(typeof(db), "object");
+  yield db.close();
+});
+
+add_task(function* test_schema_version() {
+  let db = yield getDummyDatabase("schema_version");
+
+  let version = yield db.getSchemaVersion();
+  do_check_eq(version, 0);
+
+  db.setSchemaVersion(14);
+  version = yield db.getSchemaVersion();
+  do_check_eq(version, 14);
+
+  for (let v of [0.5, "foobar", NaN]) {
+    let success;
+    try {
+      yield db.setSchemaVersion(v);
+      do_print("Schema version " + v + " should have been rejected");
+      success = false;
+    } catch (ex) {
+      if (!ex.message.startsWith("Schema version must be an integer."))
+        throw ex;
+      success = true;
+    }
+    do_check_true(success);
+
+    version = yield db.getSchemaVersion();
+    do_check_eq(version, 14);
+  }
+
+  yield db.close();
+});
+
+add_task(function* test_simple_insert() {
+  let c = yield getDummyDatabase("simple_insert");
+
+  let result = yield c.execute("INSERT INTO dirs VALUES (NULL, 'foo')");
+  do_check_true(Array.isArray(result));
+  do_check_eq(result.length, 0);
+  yield c.close();
+});
+
+add_task(function* test_simple_bound_array() {
+  let c = yield getDummyDatabase("simple_bound_array");
+
+  let result = yield c.execute("INSERT INTO dirs VALUES (?, ?)", [1, "foo"]);
+  do_check_eq(result.length, 0);
+  yield c.close();
+});
+
+add_task(function* test_simple_bound_object() {
+  let c = yield getDummyDatabase("simple_bound_object");
+  let result = yield c.execute("INSERT INTO dirs VALUES (:id, :path)",
+                               {id: 1, path: "foo"});
+  do_check_eq(result.length, 0);
+  result = yield c.execute("SELECT id, path FROM dirs");
+  do_check_eq(result.length, 1);
+  do_check_eq(result[0].getResultByName("id"), 1);
+  do_check_eq(result[0].getResultByName("path"), "foo");
+  yield c.close();
+});
+
+// This is mostly a sanity test to ensure simple executions work.
+add_task(function* test_simple_insert_then_select() {
+  let c = yield getDummyDatabase("simple_insert_then_select");
+
+  yield c.execute("INSERT INTO dirs VALUES (NULL, 'foo')");
+  yield c.execute("INSERT INTO dirs (path) VALUES (?)", ["bar"]);
+
+  let result = yield c.execute("SELECT * FROM dirs");
+  do_check_eq(result.length, 2);
+
+  let i = 0;
+  for (let row of result) {
+    i++;
+
+    do_check_eq(row.numEntries, 2);
+    do_check_eq(row.getResultByIndex(0), i);
+
+    let expected = {1: "foo", 2: "bar"}[i];
+    do_check_eq(row.getResultByName("path"), expected);
+  }
+
+  yield c.close();
+});
+
+add_task(function* test_repeat_execution() {
+  let c = yield getDummyDatabase("repeat_execution");
+
+  let sql = "INSERT INTO dirs (path) VALUES (:path)";
+  yield c.executeCached(sql, {path: "foo"});
+  yield c.executeCached(sql);
+
+  let result = yield c.execute("SELECT * FROM dirs");
+
+  do_check_eq(result.length, 2);
+
+  yield c.close();
+});
+
+add_task(function* test_table_exists() {
+  let c = yield getDummyDatabase("table_exists");
+
+  do_check_false(yield c.tableExists("does_not_exist"));
+  do_check_true(yield c.tableExists("dirs"));
+  do_check_true(yield c.tableExists("files"));
+
+  yield c.close();
+});
+
+add_task(function* test_index_exists() {
+  let c = yield getDummyDatabase("index_exists");
+
+  do_check_false(yield c.indexExists("does_not_exist"));
+
+  yield c.execute("CREATE INDEX my_index ON dirs (path)");
+  do_check_true(yield c.indexExists("my_index"));
+
+  yield c.close();
+});
+
+add_task(function* test_temp_table_exists() {
+  let c = yield getDummyTempDatabase("temp_table_exists");
+
+  do_check_false(yield c.tableExists("temp_does_not_exist"));
+  do_check_true(yield c.tableExists("dirs"));
+  do_check_true(yield c.tableExists("files"));
+
+  yield c.close();
+});
+
+add_task(function* test_temp_index_exists() {
+  let c = yield getDummyTempDatabase("temp_index_exists");
+
+  do_check_false(yield c.indexExists("temp_does_not_exist"));
+
+  yield c.execute("CREATE INDEX my_index ON dirs (path)");
+  do_check_true(yield c.indexExists("my_index"));
+
+  yield c.close();
+});
+
+add_task(function* test_close_cached() {
+  let c = yield getDummyDatabase("close_cached");
+
+  yield c.executeCached("SELECT * FROM dirs");
+  yield c.executeCached("SELECT * FROM files");
+
+  yield c.close();
+});
+
+add_task(function* test_execute_invalid_statement() {
+  let c = yield getDummyDatabase("invalid_statement");
+
+  let deferred = Promise.defer();
+
+  do_check_eq(c._connectionData._anonymousStatements.size, 0);
+
+  c.execute("SELECT invalid FROM unknown").then(do_throw, function onError(error) {
+    deferred.resolve();
+  });
+
+  yield deferred.promise;
+
+  // Ensure we don't leak the statement instance.
+  do_check_eq(c._connectionData._anonymousStatements.size, 0);
+
+  yield c.close();
+});
+
+add_task(function* test_incorrect_like_bindings() {
+  let c = yield getDummyDatabase("incorrect_like_bindings");
+
+  let sql = "select * from dirs where path LIKE 'non%'";
+  Assert.throws(() => c.execute(sql), /Please enter a LIKE clause/);
+  Assert.throws(() => c.executeCached(sql), /Please enter a LIKE clause/);
+
+  yield c.close();
+});
+add_task(function* test_on_row_exception_ignored() {
+  let c = yield getDummyDatabase("on_row_exception_ignored");
+
+  let sql = "INSERT INTO dirs (path) VALUES (?)";
+  for (let i = 0; i < 10; i++) {
+    yield c.executeCached(sql, ["dir" + i]);
+  }
+
+  let i = 0;
+  let hasResult = yield c.execute("SELECT * FROM DIRS", null, function onRow(row) {
+    i++;
+
+    throw new Error("Some silly error.");
+  });
+
+  do_check_eq(hasResult, true);
+  do_check_eq(i, 10);
+
+  yield c.close();
+});
+
+// Ensure StopIteration during onRow causes processing to stop.
+add_task(function* test_on_row_stop_iteration() {
+  let c = yield getDummyDatabase("on_row_stop_iteration");
+
+  let sql = "INSERT INTO dirs (path) VALUES (?)";
+  for (let i = 0; i < 10; i++) {
+    yield c.executeCached(sql, ["dir" + i]);
+  }
+
+  let i = 0;
+  let hasResult = yield c.execute("SELECT * FROM dirs", null, function onRow(row) {
+    i++;
+
+    if (i == 5) {
+      throw StopIteration;
+    }
+  });
+
+  do_check_eq(hasResult, true);
+  do_check_eq(i, 5);
+
+  yield c.close();
+});
+
+// Ensure execute resolves to false when no rows are selected.
+add_task(function* test_on_row_stop_iteration() {
+  let c = yield getDummyDatabase("no_on_row");
+
+  let i = 0;
+  let hasResult = yield c.execute(`SELECT * FROM dirs WHERE path="nonexistent"`, null, function onRow(row) {
+    i++;
+  });
+
+  do_check_eq(hasResult, false);
+  do_check_eq(i, 0);
+
+  yield c.close();
+});
+
+add_task(function* test_invalid_transaction_type() {
+  let c = yield getDummyDatabase("invalid_transaction_type");
+
+  Assert.throws(() => c.executeTransaction(function* () {}, "foobar"),
+                /Unknown transaction type/,
+                "Unknown transaction type should throw");
+
+  yield c.close();
+});
+
+add_task(function* test_execute_transaction_success() {
+  let c = yield getDummyDatabase("execute_transaction_success");
+
+  do_check_false(c.transactionInProgress);
+
+  yield c.executeTransaction(function* transaction(conn) {
+    do_check_eq(c, conn);
+    do_check_true(conn.transactionInProgress);
+
+    yield conn.execute("INSERT INTO dirs (path) VALUES ('foo')");
+  });
+
+  do_check_false(c.transactionInProgress);
+  let rows = yield c.execute("SELECT * FROM dirs");
+  do_check_true(Array.isArray(rows));
+  do_check_eq(rows.length, 1);
+
+  yield c.close();
+});
+
+add_task(function* test_execute_transaction_rollback() {
+  let c = yield getDummyDatabase("execute_transaction_rollback");
+
+  let deferred = Promise.defer();
+
+  c.executeTransaction(function* transaction(conn) {
+    yield conn.execute("INSERT INTO dirs (path) VALUES ('foo')");
+    print("Expecting error with next statement.");
+    yield conn.execute("INSERT INTO invalid VALUES ('foo')");
+
+    // We should never get here.
+    do_throw();
+  }).then(do_throw, function onError(error) {
+    deferred.resolve();
+  });
+
+  yield deferred.promise;
+
+  let rows = yield c.execute("SELECT * FROM dirs");
+  do_check_eq(rows.length, 0);
+
+  yield c.close();
+});
+
+add_task(function* test_close_during_transaction() {
+  let c = yield getDummyDatabase("close_during_transaction");
+
+  yield c.execute("INSERT INTO dirs (path) VALUES ('foo')");
+
+  let promise = c.executeTransaction(function* transaction(conn) {
+    yield c.execute("INSERT INTO dirs (path) VALUES ('bar')");
+  });
+  yield c.close();
+
+  yield Assert.rejects(promise,
+                       /Transaction canceled due to a closed connection/,
+                       "closing a connection in the middle of a transaction should reject it");
+
+  let c2 = yield getConnection("close_during_transaction");
+  let rows = yield c2.execute("SELECT * FROM dirs");
+  do_check_eq(rows.length, 1);
+
+  yield c2.close();
+});
+
+// Verify that we support concurrent transactions.
+add_task(function* test_multiple_transactions() {
+  let c = yield getDummyDatabase("detect_multiple_transactions");
+
+  for (let i = 0; i < 10; ++i) {
+    // We don't wait for these transactions.
+    c.executeTransaction(function* () {
+      yield c.execute("INSERT INTO dirs (path) VALUES (:path)",
+                      { path: `foo${i}` });
+      yield c.execute("SELECT * FROM dirs");
+    });
+  }
+  for (let i = 0; i < 10; ++i) {
+    yield c.executeTransaction(function* () {
+      yield c.execute("INSERT INTO dirs (path) VALUES (:path)",
+                      { path: `bar${i}` });
+      yield c.execute("SELECT * FROM dirs");
+    });
+  }
+
+  let rows = yield c.execute("SELECT * FROM dirs");
+  do_check_eq(rows.length, 20);
+
+  yield c.close();
+});
+
+// Verify that wrapped transactions ignore a BEGIN TRANSACTION failure, when
+// an externally opened transaction exists.
+add_task(function* test_wrapped_connection_transaction() {
+  let file = new FileUtils.File(OS.Path.join(OS.Constants.Path.profileDir,
+                                             "test_wrapStorageConnection.sqlite"));
+  let c = yield new Promise((resolve, reject) => {
+    Services.storage.openAsyncDatabase(file, null, (status, db) => {
+      if (Components.isSuccessCode(status)) {
+        resolve(db.QueryInterface(Ci.mozIStorageAsyncConnection));
+      } else {
+        reject(new Error(status));
+      }
+    });
+  });
+
+  let wrapper = yield Sqlite.wrapStorageConnection({ connection: c });
+  // Start a transaction on the raw connection.
+  yield c.executeSimpleSQLAsync("BEGIN");
+  // Now use executeTransaction, it will be executed, but not in a transaction.
+  yield wrapper.executeTransaction(function* () {
+    yield wrapper.execute("CREATE TABLE test (id INTEGER PRIMARY KEY AUTOINCREMENT)");
+  });
+  // This should not fail cause the internal transaction has not been created.
+  yield c.executeSimpleSQLAsync("COMMIT");
+
+  yield wrapper.execute("SELECT * FROM test");
+
+  // Closing the wrapper should just finalize statements but not close the
+  // database.
+  yield wrapper.close();
+  yield c.asyncClose();
+});
+
+add_task(function* test_shrink_memory() {
+  let c = yield getDummyDatabase("shrink_memory");
+
+  // It's just a simple sanity test. We have no way of measuring whether this
+  // actually does anything.
+
+  yield c.shrinkMemory();
+  yield c.close();
+});
+
+add_task(function* test_no_shrink_on_init() {
+  let c = yield getConnection("no_shrink_on_init",
+                              {shrinkMemoryOnConnectionIdleMS: 200});
+
+  let oldShrink = c._connectionData.shrinkMemory;
+  let count = 0;
+  Object.defineProperty(c._connectionData, "shrinkMemory", {
+    value: function () {
+      count++;
+    },
+  });
+
+  // We should not shrink until a statement has been executed.
+  yield sleep(220);
+  do_check_eq(count, 0);
+
+  yield c.execute("SELECT 1");
+  yield sleep(220);
+  do_check_eq(count, 1);
+
+  yield c.close();
+});
+
+add_task(function* test_idle_shrink_fires() {
+  let c = yield getDummyDatabase("idle_shrink_fires",
+                                 {shrinkMemoryOnConnectionIdleMS: 200});
+  c._connectionData._clearIdleShrinkTimer();
+
+  let oldShrink = c._connectionData.shrinkMemory;
+  let shrinkPromises = [];
+
+  let count = 0;
+  Object.defineProperty(c._connectionData, "shrinkMemory", {
+    value: function () {
+      count++;
+      let promise = oldShrink.call(c._connectionData);
+      shrinkPromises.push(promise);
+      return promise;
+    },
+  });
+
+  // We reset the idle shrink timer after monkeypatching because otherwise the
+  // installed timer callback will reference the non-monkeypatched function.
+  c._connectionData._startIdleShrinkTimer();
+
+  yield sleep(220);
+  do_check_eq(count, 1);
+  do_check_eq(shrinkPromises.length, 1);
+  yield shrinkPromises[0];
+  shrinkPromises.shift();
+
+  // We shouldn't shrink again unless a statement was executed.
+  yield sleep(300);
+  do_check_eq(count, 1);
+
+  yield c.execute("SELECT 1");
+  yield sleep(300);
+
+  do_check_eq(count, 2);
+  do_check_eq(shrinkPromises.length, 1);
+  yield shrinkPromises[0];
+
+  yield c.close();
+});
+
+add_task(function* test_idle_shrink_reset_on_operation() {
+  const INTERVAL = 500;
+  let c = yield getDummyDatabase("idle_shrink_reset_on_operation",
+                                 {shrinkMemoryOnConnectionIdleMS: INTERVAL});
+
+  c._connectionData._clearIdleShrinkTimer();
+
+  let oldShrink = c._connectionData.shrinkMemory;
+  let shrinkPromises = [];
+  let count = 0;
+
+  Object.defineProperty(c._connectionData, "shrinkMemory", {
+    value: function () {
+      count++;
+      let promise = oldShrink.call(c._connectionData);
+      shrinkPromises.push(promise);
+      return promise;
+    },
+  });
+
+  let now = new Date();
+  c._connectionData._startIdleShrinkTimer();
+
+  let initialIdle = new Date(now.getTime() + INTERVAL);
+
+  // Perform database operations until initial scheduled time has been passed.
+  let i = 0;
+  while (new Date() < initialIdle) {
+    yield c.execute("INSERT INTO dirs (path) VALUES (?)", ["" + i]);
+    i++;
+  }
+
+  do_check_true(i > 0);
+
+  // We should not have performed an idle while doing operations.
+  do_check_eq(count, 0);
+
+  // Wait for idle timer.
+  yield sleep(INTERVAL);
+
+  // Ensure we fired.
+  do_check_eq(count, 1);
+  do_check_eq(shrinkPromises.length, 1);
+  yield shrinkPromises[0];
+
+  yield c.close();
+});
+
+add_task(function* test_in_progress_counts() {
+  let c = yield getDummyDatabase("in_progress_counts");
+  do_check_eq(c._connectionData._statementCounter, c._initialStatementCount);
+  do_check_eq(c._connectionData._pendingStatements.size, 0);
+  yield c.executeCached("INSERT INTO dirs (path) VALUES ('foo')");
+  do_check_eq(c._connectionData._statementCounter, c._initialStatementCount + 1);
+  do_check_eq(c._connectionData._pendingStatements.size, 0);
+
+  let expectOne;
+  let expectTwo;
+
+  // Please forgive me.
+  let inner = Async.makeSpinningCallback();
+  let outer = Async.makeSpinningCallback();
+
+  // We want to make sure that two queries executing simultaneously
+  // result in `_pendingStatements.size` reaching 2, then dropping back to 0.
+  //
+  // To do so, we kick off a second statement within the row handler
+  // of the first, then wait for both to finish.
+
+  yield c.executeCached("SELECT * from dirs", null, function onRow() {
+    // In the onRow handler, we're still an outstanding query.
+    // Expect a single in-progress entry.
+    expectOne = c._connectionData._pendingStatements.size;
+
+    // Start another query, checking that after its statement has been created
+    // there are two statements in progress.
+    let p = c.executeCached("SELECT 10, path from dirs");
+    expectTwo = c._connectionData._pendingStatements.size;
+
+    // Now wait for it to be done before we return from the row handler …
+    p.then(function onInner() {
+      inner();
+    });
+  }).then(function onOuter() {
+    // … and wait for the inner to be done before we finish …
+    inner.wait();
+    outer();
+  });
+
+  // … and wait for both queries to have finished before we go on and
+  // test postconditions.
+  outer.wait();
+
+  do_check_eq(expectOne, 1);
+  do_check_eq(expectTwo, 2);
+  do_check_eq(c._connectionData._statementCounter, c._initialStatementCount + 3);
+  do_check_eq(c._connectionData._pendingStatements.size, 0);
+
+  yield c.close();
+});
+
+add_task(function* test_discard_while_active() {
+  let c = yield getDummyDatabase("discard_while_active");
+
+  yield c.executeCached("INSERT INTO dirs (path) VALUES ('foo')");
+  yield c.executeCached("INSERT INTO dirs (path) VALUES ('bar')");
+
+  let discarded = -1;
+  let first = true;
+  let sql = "SELECT * FROM dirs";
+  yield c.executeCached(sql, null, function onRow(row) {
+    if (!first) {
+      return;
+    }
+    first = false;
+    discarded = c.discardCachedStatements();
+  });
+
+  // We discarded everything, because the SELECT had already started to run.
+  do_check_eq(3, discarded);
+
+  // And again is safe.
+  do_check_eq(0, c.discardCachedStatements());
+
+  yield c.close();
+});
+
+add_task(function* test_discard_cached() {
+  let c = yield getDummyDatabase("discard_cached");
+
+  yield c.executeCached("SELECT * from dirs");
+  do_check_eq(1, c._connectionData._cachedStatements.size);
+
+  yield c.executeCached("SELECT * from files");
+  do_check_eq(2, c._connectionData._cachedStatements.size);
+
+  yield c.executeCached("SELECT * from dirs");
+  do_check_eq(2, c._connectionData._cachedStatements.size);
+
+  c.discardCachedStatements();
+  do_check_eq(0, c._connectionData._cachedStatements.size);
+
+  yield c.close();
+});
+
+add_task(function* test_programmatic_binding() {
+  let c = yield getDummyDatabase("programmatic_binding");
+
+  let bindings = [
+    {id: 1,    path: "foobar"},
+    {id: null, path: "baznoo"},
+    {id: 5,    path: "toofoo"},
+  ];
+
+  let sql = "INSERT INTO dirs VALUES (:id, :path)";
+  let result = yield c.execute(sql, bindings);
+  do_check_eq(result.length, 0);
+
+  let rows = yield c.executeCached("SELECT * from dirs");
+  do_check_eq(rows.length, 3);
+  yield c.close();
+});
+
+add_task(function* test_programmatic_binding_transaction() {
+  let c = yield getDummyDatabase("programmatic_binding_transaction");
+
+  let bindings = [
+    {id: 1,    path: "foobar"},
+    {id: null, path: "baznoo"},
+    {id: 5,    path: "toofoo"},
+  ];
+
+  let sql = "INSERT INTO dirs VALUES (:id, :path)";
+  yield c.executeTransaction(function* transaction() {
+    let result = yield c.execute(sql, bindings);
+    do_check_eq(result.length, 0);
+
+    let rows = yield c.executeCached("SELECT * from dirs");
+    do_check_eq(rows.length, 3);
+  });
+
+  // Transaction committed.
+  let rows = yield c.executeCached("SELECT * from dirs");
+  do_check_eq(rows.length, 3);
+  yield c.close();
+});
+
+add_task(function* test_programmatic_binding_transaction_partial_rollback() {
+  let c = yield getDummyDatabase("programmatic_binding_transaction_partial_rollback");
+
+  let bindings = [
+    {id: 2, path: "foobar"},
+    {id: 3, path: "toofoo"},
+  ];
+
+  let sql = "INSERT INTO dirs VALUES (:id, :path)";
+
+  // Add some data in an implicit transaction before beginning the batch insert.
+  yield c.execute(sql, {id: 1, path: "works"});
+
+  let secondSucceeded = false;
+  try {
+    yield c.executeTransaction(function* transaction() {
+      // Insert one row. This won't implicitly start a transaction.
+      let result = yield c.execute(sql, bindings[0]);
+
+      // Insert multiple rows. mozStorage will want to start a transaction.
+      // One of the inserts will fail, so the transaction should be rolled back.
+      result = yield c.execute(sql, bindings);
+      secondSucceeded = true;
+    });
+  } catch (ex) {
+    print("Caught expected exception: " + ex);
+  }
+
+  // We did not get to the end of our in-transaction block.
+  do_check_false(secondSucceeded);
+
+  // Everything that happened in *our* transaction, not mozStorage's, got
+  // rolled back, but the first row still exists.
+  let rows = yield c.executeCached("SELECT * from dirs");
+  do_check_eq(rows.length, 1);
+  do_check_eq(rows[0].getResultByName("path"), "works");
+  yield c.close();
+});
+
+// Just like the previous test, but relying on the implicit
+// transaction established by mozStorage.
+add_task(function* test_programmatic_binding_implicit_transaction() {
+  let c = yield getDummyDatabase("programmatic_binding_implicit_transaction");
+
+  let bindings = [
+    {id: 2, path: "foobar"},
+    {id: 1, path: "toofoo"},
+  ];
+
+  let sql = "INSERT INTO dirs VALUES (:id, :path)";
+  let secondSucceeded = false;
+  yield c.execute(sql, {id: 1, path: "works"});
+  try {
+    let result = yield c.execute(sql, bindings);
+    secondSucceeded = true;
+  } catch (ex) {
+    print("Caught expected exception: " + ex);
+  }
+
+  do_check_false(secondSucceeded);
+
+  // The entire batch failed.
+  let rows = yield c.executeCached("SELECT * from dirs");
+  do_check_eq(rows.length, 1);
+  do_check_eq(rows[0].getResultByName("path"), "works");
+  yield c.close();
+});
+
+// Test that direct binding of params and execution through mozStorage doesn't
+// error when we manually create a transaction. See Bug 856925.
+add_task(function* test_direct() {
+  let file = FileUtils.getFile("TmpD", ["test_direct.sqlite"]);
+  file.createUnique(Ci.nsIFile.NORMAL_FILE_TYPE, FileUtils.PERMS_FILE);
+  print("Opening " + file.path);
+
+  let db = Services.storage.openDatabase(file);
+  print("Opened " + db);
+
+  db.executeSimpleSQL("CREATE TABLE types (id INTEGER PRIMARY KEY AUTOINCREMENT, name TEXT, UNIQUE (name))");
+  print("Executed setup.");
+
+  let statement = db.createAsyncStatement("INSERT INTO types (name) VALUES (:name)");
+  let params = statement.newBindingParamsArray();
+  let one = params.newBindingParams();
+  one.bindByName("name", null);
+  params.addParams(one);
+  let two = params.newBindingParams();
+  two.bindByName("name", "bar");
+  params.addParams(two);
+
+  print("Beginning transaction.");
+  let begin = db.createAsyncStatement("BEGIN DEFERRED TRANSACTION");
+  let end = db.createAsyncStatement("COMMIT TRANSACTION");
+
+  let deferred = Promise.defer();
+  begin.executeAsync({
+    handleCompletion: function (reason) {
+      deferred.resolve();
+    }
+  });
+  yield deferred.promise;
+
+  statement.bindParameters(params);
+
+  deferred = Promise.defer();
+  print("Executing async.");
+  statement.executeAsync({
+    handleResult: function (resultSet) {
+    },
+
+    handleError:  function (error) {
+      print("Error when executing SQL (" + error.result + "): " +
+            error.message);
+      print("Original error: " + error.error);
+      errors.push(error);
+      deferred.reject();
+    },
+
+    handleCompletion: function (reason) {
+      print("Completed.");
+      deferred.resolve();
+    }
+  });
+
+  yield deferred.promise;
+
+  deferred = Promise.defer();
+  end.executeAsync({
+    handleCompletion: function (reason) {
+      deferred.resolve();
+    }
+  });
+  yield deferred.promise;
+
+  statement.finalize();
+  begin.finalize();
+  end.finalize();
+
+  deferred = Promise.defer();
+  db.asyncClose(function () {
+    deferred.resolve()
+  });
+  yield deferred.promise;
+});
+
+// Test Sqlite.cloneStorageConnection.
+add_task(function* test_cloneStorageConnection() {
+  let file = new FileUtils.File(OS.Path.join(OS.Constants.Path.profileDir,
+                                             "test_cloneStorageConnection.sqlite"));
+  let c = yield new Promise((resolve, reject) => {
+    Services.storage.openAsyncDatabase(file, null, (status, db) => {
+      if (Components.isSuccessCode(status)) {
+        resolve(db.QueryInterface(Ci.mozIStorageAsyncConnection));
+      } else {
+        reject(new Error(status));
+      }
+    });
+  });
+
+  let clone = yield Sqlite.cloneStorageConnection({ connection: c, readOnly: true });
+  // Just check that it works.
+  yield clone.execute("SELECT 1");
+
+  let clone2 = yield Sqlite.cloneStorageConnection({ connection: c, readOnly: false });
+  // Just check that it works.
+  yield clone2.execute("CREATE TABLE test (id INTEGER PRIMARY KEY)");
+
+  // Closing order should not matter.
+  yield c.asyncClose();
+  yield clone2.close();
+  yield clone.close();
+});
+
+// Test Sqlite.cloneStorageConnection invalid argument.
+add_task(function* test_cloneStorageConnection() {
+  try {
+    let clone = yield Sqlite.cloneStorageConnection({ connection: null });
+    do_throw(new Error("Should throw on invalid connection"));
+  } catch (ex) {
+    if (ex.name != "TypeError") {
+      throw ex;
+    }
+  }
+});
+
+// Test clone() method.
+add_task(function* test_clone() {
+  let c = yield getDummyDatabase("clone");
+
+  let clone = yield c.clone();
+  // Just check that it works.
+  yield clone.execute("SELECT 1");
+  // Closing order should not matter.
+  yield c.close();
+  yield clone.close();
+});
+
+// Test clone(readOnly) method.
+add_task(function* test_readOnly_clone() {
+  let path = OS.Path.join(OS.Constants.Path.profileDir, "test_readOnly_clone.sqlite");
+  let c = yield Sqlite.openConnection({path: path, sharedMemoryCache: false});
+
+  let clone = yield c.clone(true);
+  // Just check that it works.
+  yield clone.execute("SELECT 1");
+  // But should not be able to write.
+
+  yield Assert.rejects(clone.execute("CREATE TABLE test (id INTEGER PRIMARY KEY)"),
+                       /readonly/);
+  // Closing order should not matter.
+  yield c.close();
+  yield clone.close();
+});
+
+// Test Sqlite.wrapStorageConnection.
+add_task(function* test_wrapStorageConnection() {
+  let file = new FileUtils.File(OS.Path.join(OS.Constants.Path.profileDir,
+                                             "test_wrapStorageConnection.sqlite"));
+  let c = yield new Promise((resolve, reject) => {
+    Services.storage.openAsyncDatabase(file, null, (status, db) => {
+      if (Components.isSuccessCode(status)) {
+        resolve(db.QueryInterface(Ci.mozIStorageAsyncConnection));
+      } else {
+        reject(new Error(status));
+      }
+    });
+  });
+
+  let wrapper = yield Sqlite.wrapStorageConnection({ connection: c });
+  // Just check that it works.
+  yield wrapper.execute("SELECT 1");
+  yield wrapper.executeCached("SELECT 1");
+
+  // Closing the wrapper should just finalize statements but not close the
+  // database.
+  yield wrapper.close();
+  yield c.asyncClose();
+});
+
+// Test finalization
+add_task(function* test_closed_by_witness() {
+  failTestsOnAutoClose(false);
+  let c = yield getDummyDatabase("closed_by_witness");
+
+  Services.obs.notifyObservers(null, "sqlite-finalization-witness",
+                               c._connectionData._identifier);
+  // Since we triggered finalization ourselves, tell the witness to
+  // forget the connection so it does not trigger a finalization again
+  c._witness.forget();
+  yield c._connectionData._deferredClose.promise;
+  do_check_false(c._connectionData._open);
+  failTestsOnAutoClose(true);
+});
+
+add_task(function* test_warning_message_on_finalization() {
+  failTestsOnAutoClose(false);
+  let c = yield getDummyDatabase("warning_message_on_finalization");
+  let identifier = c._connectionData._identifier;
+  let deferred = Promise.defer();
+
+  let listener = {
+    observe: function(msg) {
+      let messageText = msg.message;
+      // Make sure the message starts with a warning containing the
+      // connection identifier
+      if (messageText.indexOf("Warning: Sqlite connection '" + identifier + "'") !== -1) {
+        deferred.resolve();
+      }
+    }
+  };
+  Services.console.registerListener(listener);
+
+  Services.obs.notifyObservers(null, "sqlite-finalization-witness", identifier);
+  // Since we triggered finalization ourselves, tell the witness to
+  // forget the connection so it does not trigger a finalization again
+  c._witness.forget();
+
+  yield deferred.promise;
+  Services.console.unregisterListener(listener);
+  failTestsOnAutoClose(true);
+});
+
+add_task(function* test_error_message_on_unknown_finalization() {
+  failTestsOnAutoClose(false);
+  let deferred = Promise.defer();
+
+  let listener = {
+    observe: function(msg) {
+      let messageText = msg.message;
+      if (messageText.indexOf("Error: Attempt to finalize unknown " +
+                              "Sqlite connection: foo") !== -1) {
+        deferred.resolve();
+      }
+    }
+  };
+  Services.console.registerListener(listener);
+  Services.obs.notifyObservers(null, "sqlite-finalization-witness", "foo");
+
+  yield deferred.promise;
+  Services.console.unregisterListener(listener);
+  failTestsOnAutoClose(true);
+});
+
+add_task(function* test_forget_witness_on_close() {
+  let c = yield getDummyDatabase("forget_witness_on_close");
+
+  let forgetCalled = false;
+  let oldWitness = c._witness;
+  c._witness = {
+    forget: function () {
+      forgetCalled = true;
+      oldWitness.forget();
+    },
+  };
+
+  yield c.close();
+  // After close, witness should have forgotten the connection
+  do_check_true(forgetCalled);
+});
+
+add_task(function* test_close_database_on_gc() {
+  failTestsOnAutoClose(false);
+  let finalPromise;
+
+  {
+    let collectedPromises = [];
+    for (let i = 0; i < 100; ++i) {
+      let deferred = PromiseUtils.defer();
+      let c = yield getDummyDatabase("gc_" + i);
+      c._connectionData._deferredClose.promise.then(deferred.resolve);
+      collectedPromises.push(deferred.promise);
+    }
+    finalPromise = Promise.all(collectedPromises);
+  }
+
+  // Call getDummyDatabase once more to clear any remaining
+  // references. This is needed at the moment, otherwise
+  // garbage-collection takes place after the shutdown barrier and the
+  // test will timeout. Once that is fixed, we can remove this line
+  // and be fine as long as the connections are garbage-collected.
+  let last = yield getDummyDatabase("gc_last");
+  yield last.close();
+
+  Components.utils.forceGC();
+  Components.utils.forceCC();
+  Components.utils.forceShrinkingGC();
+
+  yield finalPromise;
+  failTestsOnAutoClose(true);
+});