зеркало из https://github.com/mozilla/pjs.git
356 строки
11 KiB
C++
356 строки
11 KiB
C++
/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*-
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* vim: sw=2 ts=2 et lcs=trail\:.,tab\:>~ :
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* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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#include "storage_test_harness.h"
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#include "prthread.h"
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#include "nsIEventTarget.h"
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#include "nsIInterfaceRequestorUtils.h"
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#include "sqlite3.h"
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#include "mozilla/ReentrantMonitor.h"
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using mozilla::ReentrantMonitor;
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using mozilla::ReentrantMonitorAutoEnter;
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/**
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* Verify that mozIStorageAsyncStatement's life-cycle never triggers a mutex on
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* the caller (generally main) thread. We do this by decorating the sqlite
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* mutex logic with our own code that checks what thread it is being invoked on
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* and sets a flag if it is invoked on the main thread. We are able to easily
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* decorate the SQLite mutex logic because SQLite allows us to retrieve the
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* current function pointers being used and then provide a new set.
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*/
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/* ===== Mutex Watching ===== */
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sqlite3_mutex_methods orig_mutex_methods;
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sqlite3_mutex_methods wrapped_mutex_methods;
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bool mutex_used_on_watched_thread = false;
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PRThread *watched_thread = NULL;
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/**
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* Ugly hack to let us figure out what a connection's async thread is. If we
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* were MOZILLA_INTERNAL_API and linked as such we could just include
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* mozStorageConnection.h and just ask Connection directly. But that turns out
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* poorly.
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*
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* When the thread a mutex is invoked on isn't watched_thread we save it to this
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* variable.
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*/
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PRThread *last_non_watched_thread = NULL;
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/**
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* Set a flag if the mutex is used on the thread we are watching, but always
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* call the real mutex function.
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*/
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extern "C" void wrapped_MutexEnter(sqlite3_mutex *mutex)
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{
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PRThread *curThread = ::PR_GetCurrentThread();
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if (curThread == watched_thread)
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mutex_used_on_watched_thread = true;
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else
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last_non_watched_thread = curThread;
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orig_mutex_methods.xMutexEnter(mutex);
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}
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extern "C" int wrapped_MutexTry(sqlite3_mutex *mutex)
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{
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if (::PR_GetCurrentThread() == watched_thread)
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mutex_used_on_watched_thread = true;
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return orig_mutex_methods.xMutexTry(mutex);
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}
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#define do_check_ok(aInvoc) do_check_true((aInvoc) == SQLITE_OK)
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void hook_sqlite_mutex()
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{
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// We need to initialize and teardown SQLite to get it to set up the
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// default mutex handlers for us so we can steal them and wrap them.
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do_check_ok(sqlite3_initialize());
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do_check_ok(sqlite3_shutdown());
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do_check_ok(::sqlite3_config(SQLITE_CONFIG_GETMUTEX, &orig_mutex_methods));
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do_check_ok(::sqlite3_config(SQLITE_CONFIG_GETMUTEX, &wrapped_mutex_methods));
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wrapped_mutex_methods.xMutexEnter = wrapped_MutexEnter;
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wrapped_mutex_methods.xMutexTry = wrapped_MutexTry;
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do_check_ok(::sqlite3_config(SQLITE_CONFIG_MUTEX, &wrapped_mutex_methods));
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}
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/**
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* Call to clear the watch state and to set the watching against this thread.
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*
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* Check |mutex_used_on_watched_thread| to see if the mutex has fired since
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* this method was last called. Since we're talking about the current thread,
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* there are no race issues to be concerned about
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*/
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void watch_for_mutex_use_on_this_thread()
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{
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watched_thread = ::PR_GetCurrentThread();
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mutex_used_on_watched_thread = false;
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}
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////////////////////////////////////////////////////////////////////////////////
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//// Thread Wedgers
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/**
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* A runnable that blocks until code on another thread invokes its unwedge
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* method. By dispatching this to a thread you can ensure that no subsequent
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* runnables dispatched to the thread will execute until you invoke unwedge.
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*
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* The wedger is self-dispatching, just construct it with its target.
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*/
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class ThreadWedger : public nsRunnable
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{
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public:
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ThreadWedger(nsIEventTarget *aTarget)
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: mReentrantMonitor("thread wedger")
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, unwedged(false)
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{
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aTarget->Dispatch(this, aTarget->NS_DISPATCH_NORMAL);
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}
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NS_IMETHOD Run()
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{
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ReentrantMonitorAutoEnter automon(mReentrantMonitor);
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if (!unwedged)
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automon.Wait();
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return NS_OK;
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}
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void unwedge()
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{
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ReentrantMonitorAutoEnter automon(mReentrantMonitor);
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unwedged = true;
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automon.Notify();
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}
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private:
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ReentrantMonitor mReentrantMonitor;
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bool unwedged;
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};
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////////////////////////////////////////////////////////////////////////////////
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//// Async Helpers
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/**
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* A horrible hack to figure out what the connection's async thread is. By
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* creating a statement and async dispatching we can tell from the mutex who
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* is the async thread, PRThread style. Then we map that to an nsIThread.
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*/
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already_AddRefed<nsIThread>
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get_conn_async_thread(mozIStorageConnection *db)
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{
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// Make sure we are tracking the current thread as the watched thread
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watch_for_mutex_use_on_this_thread();
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// - statement with nothing to bind
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nsCOMPtr<mozIStorageAsyncStatement> stmt;
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db->CreateAsyncStatement(
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NS_LITERAL_CSTRING("SELECT 1"),
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getter_AddRefs(stmt));
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blocking_async_execute(stmt);
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stmt->Finalize();
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nsCOMPtr<nsIThreadManager> threadMan =
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do_GetService("@mozilla.org/thread-manager;1");
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nsCOMPtr<nsIThread> asyncThread;
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threadMan->GetThreadFromPRThread(last_non_watched_thread,
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getter_AddRefs(asyncThread));
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// Additionally, check that the thread we get as the background thread is the
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// same one as the one we report from getInterface.
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nsCOMPtr<nsIEventTarget> target = do_GetInterface(db);
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nsCOMPtr<nsIThread> allegedAsyncThread = do_QueryInterface(target);
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PRThread *allegedPRThread;
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(void)allegedAsyncThread->GetPRThread(&allegedPRThread);
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do_check_eq(allegedPRThread, last_non_watched_thread);
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return asyncThread.forget();
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}
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////////////////////////////////////////////////////////////////////////////////
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//// Tests
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void
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test_TrueAsyncStatement()
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{
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// (only the first test needs to call this)
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hook_sqlite_mutex();
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nsCOMPtr<mozIStorageConnection> db(getMemoryDatabase());
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// Start watching for forbidden mutex usage.
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watch_for_mutex_use_on_this_thread();
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// - statement with nothing to bind
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nsCOMPtr<mozIStorageAsyncStatement> stmt;
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db->CreateAsyncStatement(
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NS_LITERAL_CSTRING("CREATE TABLE test (id INTEGER PRIMARY KEY)"),
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getter_AddRefs(stmt)
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);
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blocking_async_execute(stmt);
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stmt->Finalize();
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do_check_false(mutex_used_on_watched_thread);
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// - statement with something to bind ordinally
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db->CreateAsyncStatement(
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NS_LITERAL_CSTRING("INSERT INTO test (id) VALUES (?)"),
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getter_AddRefs(stmt)
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);
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stmt->BindInt32ByIndex(0, 1);
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blocking_async_execute(stmt);
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stmt->Finalize();
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do_check_false(mutex_used_on_watched_thread);
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// - statement with something to bind by name
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db->CreateAsyncStatement(
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NS_LITERAL_CSTRING("INSERT INTO test (id) VALUES (:id)"),
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getter_AddRefs(stmt)
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);
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nsCOMPtr<mozIStorageBindingParamsArray> paramsArray;
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stmt->NewBindingParamsArray(getter_AddRefs(paramsArray));
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nsCOMPtr<mozIStorageBindingParams> params;
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paramsArray->NewBindingParams(getter_AddRefs(params));
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params->BindInt32ByName(NS_LITERAL_CSTRING("id"), 2);
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paramsArray->AddParams(params);
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params = nsnull;
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stmt->BindParameters(paramsArray);
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paramsArray = nsnull;
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blocking_async_execute(stmt);
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stmt->Finalize();
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do_check_false(mutex_used_on_watched_thread);
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// - now, make sure creating a sync statement does trigger our guard.
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// (If this doesn't happen, our test is bunk and it's important to know that.)
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nsCOMPtr<mozIStorageStatement> syncStmt;
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db->CreateStatement(NS_LITERAL_CSTRING("SELECT * FROM test"),
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getter_AddRefs(syncStmt));
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syncStmt->Finalize();
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do_check_true(mutex_used_on_watched_thread);
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blocking_async_close(db);
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}
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/**
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* Test that cancellation before a statement is run successfully stops the
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* statement from executing.
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*/
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void
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test_AsyncCancellation()
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{
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nsCOMPtr<mozIStorageConnection> db(getMemoryDatabase());
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// -- wedge the thread
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nsCOMPtr<nsIThread> target(get_conn_async_thread(db));
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do_check_true(target);
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nsRefPtr<ThreadWedger> wedger (new ThreadWedger(target));
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// -- create statements and cancel them
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// - async
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nsCOMPtr<mozIStorageAsyncStatement> asyncStmt;
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db->CreateAsyncStatement(
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NS_LITERAL_CSTRING("CREATE TABLE asyncTable (id INTEGER PRIMARY KEY)"),
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getter_AddRefs(asyncStmt)
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);
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nsRefPtr<AsyncStatementSpinner> asyncSpin(new AsyncStatementSpinner());
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nsCOMPtr<mozIStoragePendingStatement> asyncPend;
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(void)asyncStmt->ExecuteAsync(asyncSpin, getter_AddRefs(asyncPend));
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do_check_true(asyncPend);
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asyncPend->Cancel();
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// - sync
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nsCOMPtr<mozIStorageStatement> syncStmt;
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db->CreateStatement(
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NS_LITERAL_CSTRING("CREATE TABLE syncTable (id INTEGER PRIMARY KEY)"),
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getter_AddRefs(syncStmt)
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);
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nsRefPtr<AsyncStatementSpinner> syncSpin(new AsyncStatementSpinner());
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nsCOMPtr<mozIStoragePendingStatement> syncPend;
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(void)syncStmt->ExecuteAsync(syncSpin, getter_AddRefs(syncPend));
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do_check_true(syncPend);
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syncPend->Cancel();
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// -- unwedge the async thread
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wedger->unwedge();
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// -- verify that both statements report they were canceled
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asyncSpin->SpinUntilCompleted();
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do_check_true(asyncSpin->completionReason ==
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mozIStorageStatementCallback::REASON_CANCELED);
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syncSpin->SpinUntilCompleted();
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do_check_true(syncSpin->completionReason ==
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mozIStorageStatementCallback::REASON_CANCELED);
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// -- verify that neither statement constructed their tables
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nsresult rv;
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bool exists;
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rv = db->TableExists(NS_LITERAL_CSTRING("asyncTable"), &exists);
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do_check_true(rv == NS_OK);
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do_check_false(exists);
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rv = db->TableExists(NS_LITERAL_CSTRING("syncTable"), &exists);
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do_check_true(rv == NS_OK);
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do_check_false(exists);
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// -- cleanup
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asyncStmt->Finalize();
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syncStmt->Finalize();
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blocking_async_close(db);
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}
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/**
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* Test that the destructor for an asynchronous statement which has a
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* sqlite3_stmt will dispatch that statement to the async thread for
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* finalization rather than trying to finalize it on the main thread
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* (and thereby running afoul of our mutex use detector).
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*/
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void test_AsyncDestructorFinalizesOnAsyncThread()
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{
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// test_TrueAsyncStatement called hook_sqlite_mutex() for us
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nsCOMPtr<mozIStorageConnection> db(getMemoryDatabase());
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watch_for_mutex_use_on_this_thread();
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// -- create an async statement
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nsCOMPtr<mozIStorageAsyncStatement> stmt;
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db->CreateAsyncStatement(
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NS_LITERAL_CSTRING("CREATE TABLE test (id INTEGER PRIMARY KEY)"),
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getter_AddRefs(stmt)
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);
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// -- execute it so it gets a sqlite3_stmt that needs to be finalized
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blocking_async_execute(stmt);
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do_check_false(mutex_used_on_watched_thread);
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// -- forget our reference
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stmt = nsnull;
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// -- verify the mutex was not touched
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do_check_false(mutex_used_on_watched_thread);
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// -- make sure the statement actually gets finalized / cleanup
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// the close will assert if we failed to finalize!
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blocking_async_close(db);
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}
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void (*gTests[])(void) = {
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// this test must be first because it hooks the mutex mechanics
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test_TrueAsyncStatement,
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test_AsyncCancellation,
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test_AsyncDestructorFinalizesOnAsyncThread
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};
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const char *file = __FILE__;
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#define TEST_NAME "true async statement"
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#define TEST_FILE file
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#include "storage_test_harness_tail.h"
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