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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* 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
#include "nsDebug.h"
#include "AutoSQLiteLifetime.h"
#include "sqlite3.h"
#include "sqlite3_static_ext.h"
#include "mozilla/DebugOnly.h"
#ifdef MOZ_MEMORY
# include "mozmemory.h"
# ifdef MOZ_DMD
# include "nsIMemoryReporter.h"
# include "DMD.h"
namespace mozilla {
namespace storage {
extern mozilla::Atomic<size_t> gSqliteMemoryUsed;
}
} // namespace mozilla
using mozilla::storage::gSqliteMemoryUsed;
# endif
namespace {
// By default, SQLite tracks the size of all its heap blocks by adding an extra
// 8 bytes at the start of the block to hold the size. Unfortunately, this
// causes a lot of 2^N-sized allocations to be rounded up by jemalloc
// allocator, wasting memory. For example, a request for 1024 bytes has 8
// bytes added, becoming a request for 1032 bytes, and jemalloc rounds this up
//
// So we register jemalloc as the malloc implementation, which avoids this
// 8-byte overhead, and thus a lot of waste. This requires us to provide a
// function, sqliteMemRoundup(), which computes the actual size that will be
// allocated for a given request. SQLite uses this function before all
// allocations, and may be able to use any excess bytes caused by the rounding.
//
// Note: the wrappers for malloc, realloc and moz_malloc_usable_size are
// necessary because the sqlite_mem_methods type signatures differ slightly
// from the standard ones -- they use int instead of size_t. But we don't need
// a wrapper for free.
# ifdef MOZ_DMD
// sqlite does its own memory accounting, and we use its numbers in our memory
// reporters. But we don't want sqlite's heap blocks to show up in DMD's
// output as unreported, so we mark them as reported when they're allocated and
// mark them as unreported when they are freed.
//
// In other words, we are marking all sqlite heap blocks as reported even
// though we're not reporting them ourselves. Instead we're trusting that
// sqlite is fully and correctly accounting for all of its heap blocks via its
// own memory accounting. Well, we don't have to trust it entirely, because
// it's easy to keep track (while doing this DMD-specific marking) of exactly
// how much memory SQLite is using. And we can compare that against what
// SQLite reports it is using.
MOZ_DEFINE_MALLOC_SIZE_OF_ON_ALLOC(SqliteMallocSizeOfOnAlloc)
MOZ_DEFINE_MALLOC_SIZE_OF_ON_FREE(SqliteMallocSizeOfOnFree)
# endif
static void* sqliteMemMalloc(int n) {
void* p = ::malloc(n);
# ifdef MOZ_DMD
gSqliteMemoryUsed += SqliteMallocSizeOfOnAlloc(p);
# endif
return p;
}
static void sqliteMemFree(void* p) {
# ifdef MOZ_DMD
gSqliteMemoryUsed -= SqliteMallocSizeOfOnFree(p);
# endif
::free(p);
}
static void* sqliteMemRealloc(void* p, int n) {
# ifdef MOZ_DMD
gSqliteMemoryUsed -= SqliteMallocSizeOfOnFree(p);
void* pnew = ::realloc(p, n);
if (pnew) {
gSqliteMemoryUsed += SqliteMallocSizeOfOnAlloc(pnew);
} else {
// realloc failed; undo the SqliteMallocSizeOfOnFree from above
gSqliteMemoryUsed += SqliteMallocSizeOfOnAlloc(p);
}
return pnew;
# else
return ::realloc(p, n);
# endif
}
static int sqliteMemSize(void* p) { return ::moz_malloc_usable_size(p); }
static int sqliteMemRoundup(int n) {
n = malloc_good_size(n);
// jemalloc can return blocks of size 2 and 4, but SQLite requires that all
// allocations be 8-aligned. So we round up sub-8 requests to 8. This
// wastes a small amount of memory but is obviously safe.
return n <= 8 ? 8 : n;
}
static int sqliteMemInit(void* p) { return 0; }
static void sqliteMemShutdown(void* p) {}
const sqlite3_mem_methods memMethods = {
&sqliteMemMalloc, &sqliteMemFree, &sqliteMemRealloc, &sqliteMemSize,
&sqliteMemRoundup, &sqliteMemInit, &sqliteMemShutdown, nullptr};
} // namespace
#endif // MOZ_MEMORY
namespace mozilla {
AutoSQLiteLifetime::AutoSQLiteLifetime() {
if (++AutoSQLiteLifetime::sSingletonEnforcer != 1) {
MOZ_CRASH("multiple instances of AutoSQLiteLifetime constructed!");
}
Init();
}
// static
void AutoSQLiteLifetime::Init() {
#ifdef MOZ_MEMORY
sResult = ::sqlite3_config(SQLITE_CONFIG_MALLOC, &memMethods);
#else
sResult = SQLITE_OK;
#endif
if (sResult == SQLITE_OK) {
// have figured the impact on our consumers and memory.
::sqlite3_config(SQLITE_CONFIG_PAGECACHE, NULL, 0, 0);
// Load the carray extension.
DebugOnly<int> srv =
::sqlite3_auto_extension((void (*)(void))sqlite3_carray_init);
MOZ_ASSERT(srv == SQLITE_OK, "Should succeed loading carray extension");
// Explicitly initialize sqlite3. Although this is implicitly called by
// various sqlite3 functions (and the sqlite3_open calls in our case),
// the documentation suggests calling this directly. So we do.
sResult = ::sqlite3_initialize();
}
}
AutoSQLiteLifetime::~AutoSQLiteLifetime() {
// Shutdown the sqlite3 API. Warn if shutdown did not turn out okay, but
// there is nothing actionable we can do in that case.
sResult = ::sqlite3_shutdown();
NS_WARNING_ASSERTION(sResult == SQLITE_OK,
"sqlite3 did not shutdown cleanly.");
}
int AutoSQLiteLifetime::sSingletonEnforcer = 0;
int AutoSQLiteLifetime::sResult = SQLITE_MISUSE;
} // namespace mozilla