sql/vfs_wrapper.cc - chromium/src - Git at Google

 // Copyright (c) 2017 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "sql/vfs_wrapper.h"

 #include <algorithm>
 #include <string>
 #include <vector>

 #include "base/debug/leak_annotations.h"
 #include "base/logging.h"
 #include "base/memory/ptr_util.h"
 #include "base/metrics/histogram_macros.h"
 #include "base/strings/string_piece.h"

 #if defined(OS_MACOSX) && !defined(OS_IOS)
 #include <CoreFoundation/CoreFoundation.h>
 #include <CoreServices/CoreServices.h>

 #include "base/mac/mac_util.h"
 #include "base/mac/scoped_cftyperef.h"
 #endif

 namespace sql {
 namespace {

 // https://www.sqlite.org/vfs.html - documents the overall VFS system.
 //
 // https://www.sqlite.org/c3ref/vfs.html - VFS methods.  This code tucks the
 // wrapped VFS pointer into the wrapper's pAppData pointer.
 //
 // https://www.sqlite.org/c3ref/file.html - instance of an open file.  This code
 // allocates a VfsFile for this, which contains a pointer to the wrapped file.
 // Idiomatic SQLite would take the wrapped VFS szOsFile and increase it to store
 // additional data as a prefix.

 // This enum must match the numbering from Sqlite.VfsEvents in histograms.xml.
 // Do not reorder or remove items, only add new items before VFS_EVENT_MAX.
 enum VfsEventType {
   // VFS method xOpen() call.
   VFS_OPEN = 0,

   // VFS method xDelete() call.
   VFS_DELETE,

   // VFS method xAccess() call.
   VFS_ACCESS,

   // VFS method xFullPathname() call.
   VFS_FULLPATHNAME,

   // I/O method xClose() call, should balance VFS_OPEN.
   VFS_IO_CLOSE,

   // I/O method xRead() call.
   VFS_IO_READ,

   // I/O method xWrite() call.
   VFS_IO_WRITE,

   // I/O method xTruncate() call.
   VFS_IO_TRUNCATE,

   // I/O method xSync() call.
   VFS_IO_SYNC,

   // I/O method xFileSize() call.
   VFS_IO_FILESIZE,

   // I/O method xFetch() call.  This is like xRead(), but when using
   // memory-mapping.
   VFS_IO_FETCH,

   // Add new items before this one, always keep this one at the end.
   VFS_EVENT_MAX
 };

 // TODO(shess): If the VFS was parameterized, then results could be binned by
 // database.  It would require a separate VFS per database, though the variants
 // could all use the same VFS functions.
 void RecordVfsEvent(VfsEventType vfs_event) {
   UMA_HISTOGRAM_ENUMERATION("Sqlite.Vfs_Events", vfs_event, VFS_EVENT_MAX);
 }

 sqlite3_vfs* GetWrappedVfs(sqlite3_vfs* wrapped_vfs) {
   return static_cast<sqlite3_vfs*>(wrapped_vfs->pAppData);
 }

 // NOTE(shess): This structure is allocated by SQLite using malloc.  Do not add
 // C++ objects, they will not be correctly constructed and destructed.  Instead,
 // manually manage a pointer to a C++ object in Open() and Close().
 struct VfsFile {
   const sqlite3_io_methods* methods;
   sqlite3_file* wrapped_file;
 };

 VfsFile* AsVfsFile(sqlite3_file* wrapper_file) {
   return reinterpret_cast<VfsFile*>(wrapper_file);
 }

 sqlite3_file* GetWrappedFile(sqlite3_file* wrapper_file) {
   return AsVfsFile(wrapper_file)->wrapped_file;
 }

 int Close(sqlite3_file* sqlite_file)
 {
   RecordVfsEvent(VFS_IO_CLOSE);

   VfsFile* file = AsVfsFile(sqlite_file);

   int r = file->wrapped_file->pMethods->xClose(file->wrapped_file);
   sqlite3_free(file->wrapped_file);
   memset(file, '\0', sizeof(*file));
   return r;
 }

 int Read(sqlite3_file* sqlite_file, void* buf, int amt, sqlite3_int64 ofs)
 {
   RecordVfsEvent(VFS_IO_READ);
   UMA_HISTOGRAM_COUNTS("Sqlite.Vfs_Read", amt);

   sqlite3_file* wrapped_file = GetWrappedFile(sqlite_file);
   return wrapped_file->pMethods->xRead(wrapped_file, buf, amt, ofs);
 }

 int Write(sqlite3_file* sqlite_file, const void* buf, int amt,
           sqlite3_int64 ofs)
 {
   RecordVfsEvent(VFS_IO_WRITE);
   UMA_HISTOGRAM_COUNTS("Sqlite.Vfs_Write", amt);

   sqlite3_file* wrapped_file = GetWrappedFile(sqlite_file);
   return wrapped_file->pMethods->xWrite(wrapped_file, buf, amt, ofs);
 }

 int Truncate(sqlite3_file* sqlite_file, sqlite3_int64 size)
 {
   RecordVfsEvent(VFS_IO_TRUNCATE);

   sqlite3_file* wrapped_file = GetWrappedFile(sqlite_file);
   return wrapped_file->pMethods->xTruncate(wrapped_file, size);
 }

 int Sync(sqlite3_file* sqlite_file, int flags)
 {
   RecordVfsEvent(VFS_IO_SYNC);

   sqlite3_file* wrapped_file = GetWrappedFile(sqlite_file);
   return wrapped_file->pMethods->xSync(wrapped_file, flags);
 }

 int FileSize(sqlite3_file* sqlite_file, sqlite3_int64* size)
 {
   RecordVfsEvent(VFS_IO_FILESIZE);

   sqlite3_file* wrapped_file = GetWrappedFile(sqlite_file);
   return wrapped_file->pMethods->xFileSize(wrapped_file, size);
 }

 int Lock(sqlite3_file* sqlite_file, int file_lock)
 {
   sqlite3_file* wrapped_file = GetWrappedFile(sqlite_file);
   return wrapped_file->pMethods->xLock(wrapped_file, file_lock);
 }

 int Unlock(sqlite3_file* sqlite_file, int file_lock)
 {
   sqlite3_file* wrapped_file = GetWrappedFile(sqlite_file);
   return wrapped_file->pMethods->xUnlock(wrapped_file, file_lock);
 }

 int CheckReservedLock(sqlite3_file* sqlite_file, int* result)
 {
   sqlite3_file* wrapped_file = GetWrappedFile(sqlite_file);
   return wrapped_file->pMethods->xCheckReservedLock(wrapped_file, result);
 }

 int FileControl(sqlite3_file* sqlite_file, int op, void* arg)
 {
   sqlite3_file* wrapped_file = GetWrappedFile(sqlite_file);
   return wrapped_file->pMethods->xFileControl(wrapped_file, op, arg);
 }

 int SectorSize(sqlite3_file* sqlite_file)
 {
   sqlite3_file* wrapped_file = GetWrappedFile(sqlite_file);
   return wrapped_file->pMethods->xSectorSize(wrapped_file);
 }

 int DeviceCharacteristics(sqlite3_file* sqlite_file)
 {
   sqlite3_file* wrapped_file = GetWrappedFile(sqlite_file);
   return wrapped_file->pMethods->xDeviceCharacteristics(wrapped_file);
 }

 int ShmMap(sqlite3_file *sqlite_file, int region, int size,
            int extend, void volatile **pp) {
   sqlite3_file* wrapped_file = GetWrappedFile(sqlite_file);
   return wrapped_file->pMethods->xShmMap(
       wrapped_file, region, size, extend, pp);
 }

 int ShmLock(sqlite3_file *sqlite_file, int ofst, int n, int flags) {
   sqlite3_file* wrapped_file = GetWrappedFile(sqlite_file);
   return wrapped_file->pMethods->xShmLock(wrapped_file, ofst, n, flags);
 }

 void ShmBarrier(sqlite3_file *sqlite_file) {
   sqlite3_file* wrapped_file = GetWrappedFile(sqlite_file);
   wrapped_file->pMethods->xShmBarrier(wrapped_file);
 }

 int ShmUnmap(sqlite3_file *sqlite_file, int del) {
   sqlite3_file* wrapped_file = GetWrappedFile(sqlite_file);
   return wrapped_file->pMethods->xShmUnmap(wrapped_file, del);
 }

 int Fetch(sqlite3_file *sqlite_file, sqlite3_int64 off, int amt, void **pp) {
   RecordVfsEvent(VFS_IO_FETCH);
   UMA_HISTOGRAM_COUNTS("Sqlite.Vfs_Fetch", amt);

   sqlite3_file* wrapped_file = GetWrappedFile(sqlite_file);
   return wrapped_file->pMethods->xFetch(wrapped_file, off, amt, pp);
 }

 int Unfetch(sqlite3_file *sqlite_file, sqlite3_int64 off, void *p) {
   sqlite3_file* wrapped_file = GetWrappedFile(sqlite_file);
   return wrapped_file->pMethods->xUnfetch(wrapped_file, off, p);
 }

 #if defined(OS_MACOSX) && !defined(OS_IOS)
 // Helper to convert a POSIX path into a CoreFoundation path.
 base::ScopedCFTypeRef<CFURLRef> CFURLRefForPath(const char* path){
   base::ScopedCFTypeRef<CFStringRef> urlString(
       CFStringCreateWithFileSystemRepresentation(kCFAllocatorDefault, path));
   base::ScopedCFTypeRef<CFURLRef> url(
       CFURLCreateWithFileSystemPath(kCFAllocatorDefault, urlString,
                                     kCFURLPOSIXPathStyle, FALSE));
   return url;
 }
 #endif

 int Open(sqlite3_vfs* vfs, const char* file_name, sqlite3_file* wrapper_file,
          int desired_flags, int* used_flags) {
   RecordVfsEvent(VFS_OPEN);

   sqlite3_vfs* wrapped_vfs = GetWrappedVfs(vfs);

   sqlite3_file* wrapped_file = static_cast<sqlite3_file*>(
       sqlite3_malloc(wrapped_vfs->szOsFile));
   if (!wrapped_file)
     return SQLITE_NOMEM;

   // NOTE(shess): SQLite's unixOpen() makes assumptions about the structure of
   // |file_name|.  Do not pass a local copy, here, only the passed-in value.
   int rc = wrapped_vfs->xOpen(wrapped_vfs,
                               file_name, wrapped_file,
                               desired_flags, used_flags);
   if (rc != SQLITE_OK) {
     sqlite3_free(wrapped_file);
     return rc;
   }
   // NOTE(shess): Any early exit from here needs to call xClose() on
   // |wrapped_file|.

 #if defined(OS_MACOSX) && !defined(OS_IOS)
   // When opening journal files, propagate time-machine exclusion from db.
   static int kJournalFlags =
       SQLITE_OPEN_MAIN_JOURNAL | SQLITE_OPEN_TEMP_JOURNAL |
       SQLITE_OPEN_SUBJOURNAL | SQLITE_OPEN_MASTER_JOURNAL;
   if (file_name && (desired_flags & kJournalFlags)) {
     // https://www.sqlite.org/c3ref/vfs.html indicates that the journal path
     // will have a "-suffix".
     size_t dash_index = base::StringPiece(file_name).rfind('-');
     if (dash_index != base::StringPiece::npos) {
       std::string db_name(file_name, dash_index);
       base::ScopedCFTypeRef<CFURLRef> db_url(CFURLRefForPath(db_name.c_str()));
       if (CSBackupIsItemExcluded(db_url, nullptr)) {
         base::ScopedCFTypeRef<CFURLRef> journal_url(CFURLRefForPath(file_name));
         CSBackupSetItemExcluded(journal_url, TRUE, FALSE);
       }
     }
   }
 #endif

   // The wrapper instances must support a specific |iVersion|, but there is no
   // explicit guarantee that the wrapped VFS will always vend instances with the
   // same |iVersion| (though I believe this is always the case in practice).
   // Vend a distinct set of IO methods for each version supported.
   //
   // |iVersion| determines what methods SQLite may call on the instance.  Having
   // the methods which can't be proxied return an error may cause SQLite to
   // operate differently than if it didn't call those methods at all.  Another
   // solution would be to fail if the wrapped file does not have the expected
   // version, which may cause problems on platforms which use the system SQLite
   // (iOS and some Linux distros).
   VfsFile* file = AsVfsFile(wrapper_file);
   file->wrapped_file = wrapped_file;
   if (wrapped_file->pMethods->iVersion == 1) {
     static const sqlite3_io_methods io_methods = {
       1,
       Close,
       Read,
       Write,
       Truncate,
       Sync,
       FileSize,
       Lock,
       Unlock,
       CheckReservedLock,
       FileControl,
       SectorSize,
       DeviceCharacteristics,
     };
     file->methods = &io_methods;
   } else if (wrapped_file->pMethods->iVersion == 2) {
     static const sqlite3_io_methods io_methods = {
       2,
       Close,
       Read,
       Write,
       Truncate,
       Sync,
       FileSize,
       Lock,
       Unlock,
       CheckReservedLock,
       FileControl,
       SectorSize,
       DeviceCharacteristics,
       // Methods above are valid for version 1.
       ShmMap,
       ShmLock,
       ShmBarrier,
       ShmUnmap,
     };
     file->methods = &io_methods;
   } else {
     static const sqlite3_io_methods io_methods = {
       3,
       Close,
       Read,
       Write,
       Truncate,
       Sync,
       FileSize,
       Lock,
       Unlock,
       CheckReservedLock,
       FileControl,
       SectorSize,
       DeviceCharacteristics,
       // Methods above are valid for version 1.
       ShmMap,
       ShmLock,
       ShmBarrier,
       ShmUnmap,
       // Methods above are valid for version 2.
       Fetch,
       Unfetch,
     };
     file->methods = &io_methods;
   }
   return SQLITE_OK;
 }

 int Delete(sqlite3_vfs* vfs, const char* file_name, int sync_dir) {
   RecordVfsEvent(VFS_DELETE);

   sqlite3_vfs* wrapped_vfs = GetWrappedVfs(vfs);
   return wrapped_vfs->xDelete(wrapped_vfs, file_name, sync_dir);
 }

 int Access(sqlite3_vfs* vfs, const char* file_name, int flag, int* res) {
   RecordVfsEvent(VFS_ACCESS);

   sqlite3_vfs* wrapped_vfs = GetWrappedVfs(vfs);
   return wrapped_vfs->xAccess(wrapped_vfs, file_name, flag, res);
 }

 int FullPathname(sqlite3_vfs* vfs, const char* relative_path,
                  int buf_size, char* absolute_path) {
   RecordVfsEvent(VFS_FULLPATHNAME);

   sqlite3_vfs* wrapped_vfs = GetWrappedVfs(vfs);
   return wrapped_vfs->xFullPathname(
       wrapped_vfs, relative_path, buf_size, absolute_path);
 }

 void* DlOpen(sqlite3_vfs* vfs, const char* filename) {
   sqlite3_vfs* wrapped_vfs = GetWrappedVfs(vfs);
   return wrapped_vfs->xDlOpen(wrapped_vfs, filename);
 }

 void DlError(sqlite3_vfs* vfs, int buf_size, char* error_buffer) {
   sqlite3_vfs* wrapped_vfs = GetWrappedVfs(vfs);
   wrapped_vfs->xDlError(wrapped_vfs, buf_size, error_buffer);
 }

 void(*DlSym(sqlite3_vfs* vfs, void* handle, const char* sym))(void) {
   sqlite3_vfs* wrapped_vfs = GetWrappedVfs(vfs);
   return wrapped_vfs->xDlSym(wrapped_vfs, handle, sym);
 }

 void DlClose(sqlite3_vfs* vfs, void* handle) {
   sqlite3_vfs* wrapped_vfs = GetWrappedVfs(vfs);
   wrapped_vfs->xDlClose(wrapped_vfs, handle);
 }

 int Randomness(sqlite3_vfs* vfs, int buf_size, char* buffer) {
   sqlite3_vfs* wrapped_vfs = GetWrappedVfs(vfs);
   return wrapped_vfs->xRandomness(wrapped_vfs, buf_size, buffer);
 }

 int Sleep(sqlite3_vfs* vfs, int microseconds) {
   sqlite3_vfs* wrapped_vfs = GetWrappedVfs(vfs);
   return wrapped_vfs->xSleep(wrapped_vfs, microseconds);
 }

 int CurrentTime(sqlite3_vfs* vfs, double* now) {
   sqlite3_vfs* wrapped_vfs = GetWrappedVfs(vfs);
   return wrapped_vfs->xCurrentTime(wrapped_vfs, now);
 }

 int GetLastError(sqlite3_vfs* vfs, int e, char* s) {
   sqlite3_vfs* wrapped_vfs = GetWrappedVfs(vfs);
   return wrapped_vfs->xGetLastError(wrapped_vfs, e, s);
 }

 int CurrentTimeInt64(sqlite3_vfs* vfs, sqlite3_int64* now) {
   sqlite3_vfs* wrapped_vfs = GetWrappedVfs(vfs);
   return wrapped_vfs->xCurrentTimeInt64(wrapped_vfs, now);
 }

 int SetSystemCall(sqlite3_vfs* vfs, const char* name,
                   sqlite3_syscall_ptr func) {
   sqlite3_vfs* wrapped_vfs = GetWrappedVfs(vfs);
   return wrapped_vfs->xSetSystemCall(wrapped_vfs, name, func);
 }

 sqlite3_syscall_ptr GetSystemCall(sqlite3_vfs* vfs, const char* name) {
   sqlite3_vfs* wrapped_vfs = GetWrappedVfs(vfs);
   return wrapped_vfs->xGetSystemCall(wrapped_vfs, name);
 }

 const char* NextSystemCall(sqlite3_vfs* vfs, const char* name) {
   sqlite3_vfs* wrapped_vfs = GetWrappedVfs(vfs);
   return wrapped_vfs->xNextSystemCall(wrapped_vfs, name);
 }

 }  // namespace

 sqlite3_vfs* VFSWrapper() {
   const char* kVFSName = "VFSWrapper";

   // Return existing version if already registered.
   {
     sqlite3_vfs* vfs = sqlite3_vfs_find(kVFSName);
     if (vfs != nullptr)
       return vfs;
   }

   // Get the default VFS for this platform.  If no default VFS, give up.
   sqlite3_vfs* wrapped_vfs = sqlite3_vfs_find(nullptr);
   if (!wrapped_vfs)
     return nullptr;

   std::unique_ptr<sqlite3_vfs, std::function<void(sqlite3_vfs*)>> wrapper_vfs(
       static_cast<sqlite3_vfs*>(sqlite3_malloc(sizeof(sqlite3_vfs))),
       [](sqlite3_vfs* v) {
         sqlite3_free(v);
       });
   memset(wrapper_vfs.get(), '\0', sizeof(sqlite3_vfs));

   // VFS implementations should always work with a SQLite that only knows about
   // earlier versions.
   wrapper_vfs->iVersion = std::min(wrapped_vfs->iVersion, 3);

   // Caller of xOpen() allocates this much space.
   wrapper_vfs->szOsFile = sizeof(VfsFile);

   wrapper_vfs->mxPathname = wrapped_vfs->mxPathname;
   wrapper_vfs->pNext = nullptr;
   wrapper_vfs->zName = kVFSName;

   // Keep a reference to the wrapped vfs for use in methods.
   wrapper_vfs->pAppData = wrapped_vfs;

   // VFS methods.
   wrapper_vfs->xOpen = &Open;
   wrapper_vfs->xDelete = &Delete;
   wrapper_vfs->xAccess = &Access;
   wrapper_vfs->xFullPathname = &FullPathname;
   wrapper_vfs->xDlOpen = &DlOpen;
   wrapper_vfs->xDlError = &DlError;
   wrapper_vfs->xDlSym = &DlSym;
   wrapper_vfs->xDlClose = &DlClose;
   wrapper_vfs->xRandomness = &Randomness;
   wrapper_vfs->xSleep = &Sleep;
   wrapper_vfs->xCurrentTime = &CurrentTime;
   wrapper_vfs->xGetLastError = &GetLastError;
   // The methods above are in version 1 of sqlite_vfs.
   // There were VFS implementations with nullptr for |xCurrentTimeInt64|.
   wrapper_vfs->xCurrentTimeInt64 =
       (wrapped_vfs->xCurrentTimeInt64 ? &CurrentTimeInt64 : nullptr);
   // The methods above are in version 2 of sqlite_vfs.
   wrapper_vfs->xSetSystemCall = &SetSystemCall;
   wrapper_vfs->xGetSystemCall = &GetSystemCall;
   wrapper_vfs->xNextSystemCall = &NextSystemCall;
   // The methods above are in version 3 of sqlite_vfs.

   if (SQLITE_OK == sqlite3_vfs_register(wrapper_vfs.get(), 0)) {
     ANNOTATE_LEAKING_OBJECT_PTR(wrapper_vfs.get());
     wrapper_vfs.release();
   }

   return sqlite3_vfs_find(kVFSName);
 }

 }  // namespace sql
	// Copyright (c) 2017 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "sql/vfs_wrapper.h"

	#include <algorithm>
	#include <string>
	#include <vector>

	#include "base/debug/leak_annotations.h"
	#include "base/logging.h"
	#include "base/memory/ptr_util.h"
	#include "base/metrics/histogram_macros.h"
	#include "base/strings/string_piece.h"

	#if defined(OS_MACOSX) && !defined(OS_IOS)
	#include <CoreFoundation/CoreFoundation.h>
	#include <CoreServices/CoreServices.h>

	#include "base/mac/mac_util.h"
	#include "base/mac/scoped_cftyperef.h"
	#endif

	namespace sql {
	namespace {

	// https://www.sqlite.org/vfs.html - documents the overall VFS system.
	//
	// https://www.sqlite.org/c3ref/vfs.html - VFS methods. This code tucks the
	// wrapped VFS pointer into the wrapper's pAppData pointer.
	//
	// https://www.sqlite.org/c3ref/file.html - instance of an open file. This code
	// allocates a VfsFile for this, which contains a pointer to the wrapped file.
	// Idiomatic SQLite would take the wrapped VFS szOsFile and increase it to store
	// additional data as a prefix.

	// This enum must match the numbering from Sqlite.VfsEvents in histograms.xml.
	// Do not reorder or remove items, only add new items before VFS_EVENT_MAX.
	enum VfsEventType {
	// VFS method xOpen() call.
	VFS_OPEN = 0,

	// VFS method xDelete() call.
	VFS_DELETE,

	// VFS method xAccess() call.
	VFS_ACCESS,

	// VFS method xFullPathname() call.
	VFS_FULLPATHNAME,

	// I/O method xClose() call, should balance VFS_OPEN.
	VFS_IO_CLOSE,

	// I/O method xRead() call.
	VFS_IO_READ,

	// I/O method xWrite() call.
	VFS_IO_WRITE,

	// I/O method xTruncate() call.
	VFS_IO_TRUNCATE,

	// I/O method xSync() call.
	VFS_IO_SYNC,

	// I/O method xFileSize() call.
	VFS_IO_FILESIZE,

	// I/O method xFetch() call. This is like xRead(), but when using
	// memory-mapping.
	VFS_IO_FETCH,

	// Add new items before this one, always keep this one at the end.
	VFS_EVENT_MAX
	};

	// TODO(shess): If the VFS was parameterized, then results could be binned by
	// database. It would require a separate VFS per database, though the variants
	// could all use the same VFS functions.
	void RecordVfsEvent(VfsEventType vfs_event) {
	UMA_HISTOGRAM_ENUMERATION("Sqlite.Vfs_Events", vfs_event, VFS_EVENT_MAX);
	}

	sqlite3_vfs* GetWrappedVfs(sqlite3_vfs* wrapped_vfs) {
	return static_cast<sqlite3_vfs*>(wrapped_vfs->pAppData);
	}

	// NOTE(shess): This structure is allocated by SQLite using malloc. Do not add
	// C++ objects, they will not be correctly constructed and destructed. Instead,
	// manually manage a pointer to a C++ object in Open() and Close().
	struct VfsFile {
	const sqlite3_io_methods* methods;
	sqlite3_file* wrapped_file;
	};

	VfsFile* AsVfsFile(sqlite3_file* wrapper_file) {
	return reinterpret_cast<VfsFile*>(wrapper_file);
	}

	sqlite3_file* GetWrappedFile(sqlite3_file* wrapper_file) {
	return AsVfsFile(wrapper_file)->wrapped_file;
	}

	int Close(sqlite3_file* sqlite_file)
	{
	RecordVfsEvent(VFS_IO_CLOSE);

	VfsFile* file = AsVfsFile(sqlite_file);

	int r = file->wrapped_file->pMethods->xClose(file->wrapped_file);
	sqlite3_free(file->wrapped_file);
	memset(file, '\0', sizeof(*file));
	return r;
	}

	int Read(sqlite3_file* sqlite_file, void* buf, int amt, sqlite3_int64 ofs)
	{
	RecordVfsEvent(VFS_IO_READ);
	UMA_HISTOGRAM_COUNTS("Sqlite.Vfs_Read", amt);

	sqlite3_file* wrapped_file = GetWrappedFile(sqlite_file);
	return wrapped_file->pMethods->xRead(wrapped_file, buf, amt, ofs);
	}

	int Write(sqlite3_file* sqlite_file, const void* buf, int amt,
	sqlite3_int64 ofs)
	{
	RecordVfsEvent(VFS_IO_WRITE);
	UMA_HISTOGRAM_COUNTS("Sqlite.Vfs_Write", amt);

	sqlite3_file* wrapped_file = GetWrappedFile(sqlite_file);
	return wrapped_file->pMethods->xWrite(wrapped_file, buf, amt, ofs);
	}

	int Truncate(sqlite3_file* sqlite_file, sqlite3_int64 size)
	{
	RecordVfsEvent(VFS_IO_TRUNCATE);

	sqlite3_file* wrapped_file = GetWrappedFile(sqlite_file);
	return wrapped_file->pMethods->xTruncate(wrapped_file, size);
	}

	int Sync(sqlite3_file* sqlite_file, int flags)
	{
	RecordVfsEvent(VFS_IO_SYNC);

	sqlite3_file* wrapped_file = GetWrappedFile(sqlite_file);
	return wrapped_file->pMethods->xSync(wrapped_file, flags);
	}

	int FileSize(sqlite3_file* sqlite_file, sqlite3_int64* size)
	{
	RecordVfsEvent(VFS_IO_FILESIZE);

	sqlite3_file* wrapped_file = GetWrappedFile(sqlite_file);
	return wrapped_file->pMethods->xFileSize(wrapped_file, size);
	}

	int Lock(sqlite3_file* sqlite_file, int file_lock)
	{
	sqlite3_file* wrapped_file = GetWrappedFile(sqlite_file);
	return wrapped_file->pMethods->xLock(wrapped_file, file_lock);
	}

	int Unlock(sqlite3_file* sqlite_file, int file_lock)
	{
	sqlite3_file* wrapped_file = GetWrappedFile(sqlite_file);
	return wrapped_file->pMethods->xUnlock(wrapped_file, file_lock);
	}

	int CheckReservedLock(sqlite3_file* sqlite_file, int* result)
	{
	sqlite3_file* wrapped_file = GetWrappedFile(sqlite_file);
	return wrapped_file->pMethods->xCheckReservedLock(wrapped_file, result);
	}

	int FileControl(sqlite3_file* sqlite_file, int op, void* arg)
	{
	sqlite3_file* wrapped_file = GetWrappedFile(sqlite_file);
	return wrapped_file->pMethods->xFileControl(wrapped_file, op, arg);
	}

	int SectorSize(sqlite3_file* sqlite_file)
	{
	sqlite3_file* wrapped_file = GetWrappedFile(sqlite_file);
	return wrapped_file->pMethods->xSectorSize(wrapped_file);
	}

	int DeviceCharacteristics(sqlite3_file* sqlite_file)
	{
	sqlite3_file* wrapped_file = GetWrappedFile(sqlite_file);
	return wrapped_file->pMethods->xDeviceCharacteristics(wrapped_file);
	}

	int ShmMap(sqlite3_file *sqlite_file, int region, int size,
	int extend, void volatile **pp) {
	sqlite3_file* wrapped_file = GetWrappedFile(sqlite_file);
	return wrapped_file->pMethods->xShmMap(
	wrapped_file, region, size, extend, pp);
	}

	int ShmLock(sqlite3_file *sqlite_file, int ofst, int n, int flags) {
	sqlite3_file* wrapped_file = GetWrappedFile(sqlite_file);
	return wrapped_file->pMethods->xShmLock(wrapped_file, ofst, n, flags);
	}

	void ShmBarrier(sqlite3_file *sqlite_file) {
	sqlite3_file* wrapped_file = GetWrappedFile(sqlite_file);
	wrapped_file->pMethods->xShmBarrier(wrapped_file);
	}

	int ShmUnmap(sqlite3_file *sqlite_file, int del) {
	sqlite3_file* wrapped_file = GetWrappedFile(sqlite_file);
	return wrapped_file->pMethods->xShmUnmap(wrapped_file, del);
	}

	int Fetch(sqlite3_file sqlite_file, sqlite3_int64 off, int amt, void *pp) {
	RecordVfsEvent(VFS_IO_FETCH);
	UMA_HISTOGRAM_COUNTS("Sqlite.Vfs_Fetch", amt);

	sqlite3_file* wrapped_file = GetWrappedFile(sqlite_file);
	return wrapped_file->pMethods->xFetch(wrapped_file, off, amt, pp);
	}

	int Unfetch(sqlite3_file sqlite_file, sqlite3_int64 off, void p) {
	sqlite3_file* wrapped_file = GetWrappedFile(sqlite_file);
	return wrapped_file->pMethods->xUnfetch(wrapped_file, off, p);
	}

	#if defined(OS_MACOSX) && !defined(OS_IOS)
	// Helper to convert a POSIX path into a CoreFoundation path.
	base::ScopedCFTypeRef<CFURLRef> CFURLRefForPath(const char* path){
	base::ScopedCFTypeRef<CFStringRef> urlString(
	CFStringCreateWithFileSystemRepresentation(kCFAllocatorDefault, path));
	base::ScopedCFTypeRef<CFURLRef> url(
	CFURLCreateWithFileSystemPath(kCFAllocatorDefault, urlString,
	kCFURLPOSIXPathStyle, FALSE));
	return url;
	}
	#endif

	int Open(sqlite3_vfs* vfs, const char* file_name, sqlite3_file* wrapper_file,
	int desired_flags, int* used_flags) {
	RecordVfsEvent(VFS_OPEN);

	sqlite3_vfs* wrapped_vfs = GetWrappedVfs(vfs);

	sqlite3_file* wrapped_file = static_cast<sqlite3_file*>(
	sqlite3_malloc(wrapped_vfs->szOsFile));
	if (!wrapped_file)
	return SQLITE_NOMEM;

	// NOTE(shess): SQLite's unixOpen() makes assumptions about the structure of
	// \|file_name\|. Do not pass a local copy, here, only the passed-in value.
	int rc = wrapped_vfs->xOpen(wrapped_vfs,
	file_name, wrapped_file,
	desired_flags, used_flags);
	if (rc != SQLITE_OK) {
	sqlite3_free(wrapped_file);
	return rc;
	}
	// NOTE(shess): Any early exit from here needs to call xClose() on
	// \|wrapped_file\|.

	#if defined(OS_MACOSX) && !defined(OS_IOS)
	// When opening journal files, propagate time-machine exclusion from db.
	static int kJournalFlags =
	SQLITE_OPEN_MAIN_JOURNAL \| SQLITE_OPEN_TEMP_JOURNAL \|
	SQLITE_OPEN_SUBJOURNAL \| SQLITE_OPEN_MASTER_JOURNAL;
	if (file_name && (desired_flags & kJournalFlags)) {
	// https://www.sqlite.org/c3ref/vfs.html indicates that the journal path
	// will have a "-suffix".
	size_t dash_index = base::StringPiece(file_name).rfind('-');
	if (dash_index != base::StringPiece::npos) {
	std::string db_name(file_name, dash_index);
	base::ScopedCFTypeRef<CFURLRef> db_url(CFURLRefForPath(db_name.c_str()));
	if (CSBackupIsItemExcluded(db_url, nullptr)) {
	base::ScopedCFTypeRef<CFURLRef> journal_url(CFURLRefForPath(file_name));
	CSBackupSetItemExcluded(journal_url, TRUE, FALSE);
	}
	}
	}
	#endif

	// The wrapper instances must support a specific \|iVersion\|, but there is no
	// explicit guarantee that the wrapped VFS will always vend instances with the
	// same \|iVersion\| (though I believe this is always the case in practice).
	// Vend a distinct set of IO methods for each version supported.
	//
	// \|iVersion\| determines what methods SQLite may call on the instance. Having
	// the methods which can't be proxied return an error may cause SQLite to
	// operate differently than if it didn't call those methods at all. Another
	// solution would be to fail if the wrapped file does not have the expected
	// version, which may cause problems on platforms which use the system SQLite
	// (iOS and some Linux distros).
	VfsFile* file = AsVfsFile(wrapper_file);
	file->wrapped_file = wrapped_file;
	if (wrapped_file->pMethods->iVersion == 1) {
	static const sqlite3_io_methods io_methods = {
	1,
	Close,
	Read,
	Write,
	Truncate,
	Sync,
	FileSize,
	Lock,
	Unlock,
	CheckReservedLock,
	FileControl,
	SectorSize,
	DeviceCharacteristics,
	};
	file->methods = &io_methods;
	} else if (wrapped_file->pMethods->iVersion == 2) {
	static const sqlite3_io_methods io_methods = {
	2,
	Close,
	Read,
	Write,
	Truncate,
	Sync,
	FileSize,
	Lock,
	Unlock,
	CheckReservedLock,
	FileControl,
	SectorSize,
	DeviceCharacteristics,
	// Methods above are valid for version 1.
	ShmMap,
	ShmLock,
	ShmBarrier,
	ShmUnmap,
	};
	file->methods = &io_methods;
	} else {
	static const sqlite3_io_methods io_methods = {
	3,
	Close,
	Read,
	Write,
	Truncate,
	Sync,
	FileSize,
	Lock,
	Unlock,
	CheckReservedLock,
	FileControl,
	SectorSize,
	DeviceCharacteristics,
	// Methods above are valid for version 1.
	ShmMap,
	ShmLock,
	ShmBarrier,
	ShmUnmap,
	// Methods above are valid for version 2.
	Fetch,
	Unfetch,
	};
	file->methods = &io_methods;
	}
	return SQLITE_OK;
	}

	int Delete(sqlite3_vfs* vfs, const char* file_name, int sync_dir) {
	RecordVfsEvent(VFS_DELETE);

	sqlite3_vfs* wrapped_vfs = GetWrappedVfs(vfs);
	return wrapped_vfs->xDelete(wrapped_vfs, file_name, sync_dir);
	}

	int Access(sqlite3_vfs* vfs, const char* file_name, int flag, int* res) {
	RecordVfsEvent(VFS_ACCESS);

	sqlite3_vfs* wrapped_vfs = GetWrappedVfs(vfs);
	return wrapped_vfs->xAccess(wrapped_vfs, file_name, flag, res);
	}

	int FullPathname(sqlite3_vfs* vfs, const char* relative_path,
	int buf_size, char* absolute_path) {
	RecordVfsEvent(VFS_FULLPATHNAME);

	sqlite3_vfs* wrapped_vfs = GetWrappedVfs(vfs);
	return wrapped_vfs->xFullPathname(
	wrapped_vfs, relative_path, buf_size, absolute_path);
	}

	void* DlOpen(sqlite3_vfs* vfs, const char* filename) {
	sqlite3_vfs* wrapped_vfs = GetWrappedVfs(vfs);
	return wrapped_vfs->xDlOpen(wrapped_vfs, filename);
	}

	void DlError(sqlite3_vfs* vfs, int buf_size, char* error_buffer) {
	sqlite3_vfs* wrapped_vfs = GetWrappedVfs(vfs);
	wrapped_vfs->xDlError(wrapped_vfs, buf_size, error_buffer);
	}

	void(DlSym(sqlite3_vfs vfs, void* handle, const char* sym))(void) {
	sqlite3_vfs* wrapped_vfs = GetWrappedVfs(vfs);
	return wrapped_vfs->xDlSym(wrapped_vfs, handle, sym);
	}

	void DlClose(sqlite3_vfs* vfs, void* handle) {
	sqlite3_vfs* wrapped_vfs = GetWrappedVfs(vfs);
	wrapped_vfs->xDlClose(wrapped_vfs, handle);
	}

	int Randomness(sqlite3_vfs* vfs, int buf_size, char* buffer) {
	sqlite3_vfs* wrapped_vfs = GetWrappedVfs(vfs);
	return wrapped_vfs->xRandomness(wrapped_vfs, buf_size, buffer);
	}

	int Sleep(sqlite3_vfs* vfs, int microseconds) {
	sqlite3_vfs* wrapped_vfs = GetWrappedVfs(vfs);
	return wrapped_vfs->xSleep(wrapped_vfs, microseconds);
	}

	int CurrentTime(sqlite3_vfs* vfs, double* now) {
	sqlite3_vfs* wrapped_vfs = GetWrappedVfs(vfs);
	return wrapped_vfs->xCurrentTime(wrapped_vfs, now);
	}

	int GetLastError(sqlite3_vfs* vfs, int e, char* s) {
	sqlite3_vfs* wrapped_vfs = GetWrappedVfs(vfs);
	return wrapped_vfs->xGetLastError(wrapped_vfs, e, s);
	}

	int CurrentTimeInt64(sqlite3_vfs* vfs, sqlite3_int64* now) {
	sqlite3_vfs* wrapped_vfs = GetWrappedVfs(vfs);
	return wrapped_vfs->xCurrentTimeInt64(wrapped_vfs, now);
	}

	int SetSystemCall(sqlite3_vfs* vfs, const char* name,
	sqlite3_syscall_ptr func) {
	sqlite3_vfs* wrapped_vfs = GetWrappedVfs(vfs);
	return wrapped_vfs->xSetSystemCall(wrapped_vfs, name, func);
	}

	sqlite3_syscall_ptr GetSystemCall(sqlite3_vfs* vfs, const char* name) {
	sqlite3_vfs* wrapped_vfs = GetWrappedVfs(vfs);
	return wrapped_vfs->xGetSystemCall(wrapped_vfs, name);
	}

	const char* NextSystemCall(sqlite3_vfs* vfs, const char* name) {
	sqlite3_vfs* wrapped_vfs = GetWrappedVfs(vfs);
	return wrapped_vfs->xNextSystemCall(wrapped_vfs, name);
	}

	} // namespace

	sqlite3_vfs* VFSWrapper() {
	const char* kVFSName = "VFSWrapper";

	// Return existing version if already registered.
	{
	sqlite3_vfs* vfs = sqlite3_vfs_find(kVFSName);
	if (vfs != nullptr)
	return vfs;
	}

	// Get the default VFS for this platform. If no default VFS, give up.
	sqlite3_vfs* wrapped_vfs = sqlite3_vfs_find(nullptr);
	if (!wrapped_vfs)
	return nullptr;

	std::unique_ptr<sqlite3_vfs, std::function<void(sqlite3_vfs*)>> wrapper_vfs(
	static_cast<sqlite3_vfs*>(sqlite3_malloc(sizeof(sqlite3_vfs))),
	[](sqlite3_vfs* v) {
	sqlite3_free(v);
	});
	memset(wrapper_vfs.get(), '\0', sizeof(sqlite3_vfs));

	// VFS implementations should always work with a SQLite that only knows about
	// earlier versions.
	wrapper_vfs->iVersion = std::min(wrapped_vfs->iVersion, 3);

	// Caller of xOpen() allocates this much space.
	wrapper_vfs->szOsFile = sizeof(VfsFile);

	wrapper_vfs->mxPathname = wrapped_vfs->mxPathname;
	wrapper_vfs->pNext = nullptr;
	wrapper_vfs->zName = kVFSName;

	// Keep a reference to the wrapped vfs for use in methods.
	wrapper_vfs->pAppData = wrapped_vfs;

	// VFS methods.
	wrapper_vfs->xOpen = &Open;
	wrapper_vfs->xDelete = &Delete;
	wrapper_vfs->xAccess = &Access;
	wrapper_vfs->xFullPathname = &FullPathname;
	wrapper_vfs->xDlOpen = &DlOpen;
	wrapper_vfs->xDlError = &DlError;
	wrapper_vfs->xDlSym = &DlSym;
	wrapper_vfs->xDlClose = &DlClose;
	wrapper_vfs->xRandomness = &Randomness;
	wrapper_vfs->xSleep = &Sleep;
	wrapper_vfs->xCurrentTime = &CurrentTime;
	wrapper_vfs->xGetLastError = &GetLastError;
	// The methods above are in version 1 of sqlite_vfs.
	// There were VFS implementations with nullptr for \|xCurrentTimeInt64\|.
	wrapper_vfs->xCurrentTimeInt64 =
	(wrapped_vfs->xCurrentTimeInt64 ? &CurrentTimeInt64 : nullptr);
	// The methods above are in version 2 of sqlite_vfs.
	wrapper_vfs->xSetSystemCall = &SetSystemCall;
	wrapper_vfs->xGetSystemCall = &GetSystemCall;
	wrapper_vfs->xNextSystemCall = &NextSystemCall;
	// The methods above are in version 3 of sqlite_vfs.

	if (SQLITE_OK == sqlite3_vfs_register(wrapper_vfs.get(), 0)) {
	ANNOTATE_LEAKING_OBJECT_PTR(wrapper_vfs.get());
	wrapper_vfs.release();
	}

	return sqlite3_vfs_find(kVFSName);
	}

	} // namespace sql