SQLite學習手冊(SQLite線上備份)

來源:互聯網
上載者:User

一、常用備份:

    下面的方法是比較簡單且常用的SQLiteDatabase Backup方式,見如下步驟:
    1). 使用SQLite API或Shell工具在來源資料庫檔案上加共用鎖定。
    2). 使用Shell工具(cp或copy)拷貝資料庫檔案到備份目錄。
    3). 解除資料庫檔案上的共用鎖定。
    以上3個步驟可以應用於大多數情境,而且速度也比較快,然而卻存在一定的剛性缺陷,如:
    1). 所有打算在來源資料庫上執行寫操作的串連都不得不被掛起,直到整個拷貝過程結束並釋放檔案分享權限設定鎖。
    2). 不能拷貝資料到in-memory資料庫。
    3). 在拷貝過程中,一旦備份資料庫所在的主機出現任何突發故障,備份資料庫可能會被破壞。
    在SQLite中提供了一組用於線上Database Backup的APIs函數(C介面),可以很好的解決上述方法存在的不足。通過該組函數,可以將來源資料庫中的內容拷貝到另一個資料庫,同時覆蓋目標資料庫中的資料。整個拷貝過程可以以增量的方式完成,在此情況下,來源資料庫也不需要在整個拷貝過程中都被加鎖,而只是在真正讀取資料時加共用鎖定。這樣,其它的使用者在訪問來源資料庫時就不會被掛起。

二、線上備份APIs簡介:

    SQLite提供了以下3個APIs函數用於完成此操作,這裡僅僅給出它們的基本用法,至於使用細節可以參考SQLite官方網站"APIs Reference"(http://www.sqlite.org/c3ref/backup_finish.html)。
    1). 函數sqlite3_backup_init()用於建立sqlite3_backup對象,該對象將作為本次拷貝操作的控制代碼傳給其餘兩個函數。
    2). 函數sqlite3_backup_step()用於資料拷貝,如果該函數的第二個參數為-1,那麼整個拷貝過程都將在該函數的一次調用中完成。
    3). 函數sqlite3_backup_finish()用於釋放sqlite3_backup_init()函數申請的資源,以避免資源流失。
    在整個拷貝過程中如果出現任何錯誤,我們都可以通過調用目的資料庫連接的sqlite3_errcode()函數來擷取具體的錯誤碼。此外,如果sqlite3_backup_step()調用失敗,由於sqlite3_backup_finish()函數並不會修改當前串連的錯誤碼,因此我們可以在調用sqlite3_backup_finish()之後再擷取錯誤碼,從而在代碼中減少了一次錯誤處理。見如下程式碼範例(來自SQLite官網):

複製代碼 代碼如下:
/*
** This function is used to load the contents of a database file on disk
** into the "main" database of open database connection pInMemory, or
** to save the current contents of the database opened by pInMemory into
** a database file on disk. pInMemory is probably an in-memory database,
** but this function will also work fine if it is not.
**
** Parameter zFilename points to a nul-terminated string containing the
** name of the database file on disk to load from or save to. If parameter
** isSave is non-zero, then the contents of the file zFilename are
** overwritten with the contents of the database opened by pInMemory. If
** parameter isSave is zero, then the contents of the database opened by
** pInMemory are replaced by data loaded from the file zFilename.
**
** If the operation is successful, SQLITE_OK is returned. Otherwise, if
** an error occurs, an SQLite error code is returned.
*/
int loadOrSaveDb(sqlite3 *pInMemory, const char *zFilename, int isSave){
  int rc;                   /* Function return code */
  sqlite3 *pFile;           /* Database connection opened on zFilename */
  sqlite3_backup *pBackup;  /* Backup object used to copy data */
  sqlite3 *pTo;             /* Database to copy to (pFile or pInMemory) */
  sqlite3 *pFrom;           /* Database to copy from (pFile or pInMemory) */

  /* Open the database file identified by zFilename. Exit early if this fails
  ** for any reason. */
  rc = sqlite3_open(zFilename, &pFile);
  if( rc==SQLITE_OK ){

    /* If this is a 'load' operation (isSave==0), then data is copied
    ** from the database file just opened to database pInMemory.
    ** Otherwise, if this is a 'save' operation (isSave==1), then data
    ** is copied from pInMemory to pFile.  Set the variables pFrom and
    ** pTo accordingly. */
    pFrom = (isSave ? pInMemory : pFile);
    pTo   = (isSave ? pFile     : pInMemory);

    /* Set up the backup procedure to copy from the "main" database of
    ** connection pFile to the main database of connection pInMemory.
    ** If something goes wrong, pBackup will be set to NULL and an error
    ** code and  message left in connection pTo.
    **
    ** If the backup object is successfully created, call backup_step()
    ** to copy data from pFile to pInMemory. Then call backup_finish()
    ** to release resources associated with the pBackup object.  If an
    ** error occurred, then  an error code and message will be left in
    ** connection pTo. If no error occurred, then the error code belonging
    ** to pTo is set to SQLITE_OK.
*/
    pBackup = sqlite3_backup_init(pTo, "main", pFrom, "main");
    if( pBackup ){
      (void)sqlite3_backup_step(pBackup, -1);
      (void)sqlite3_backup_finish(pBackup);
    }
    rc = sqlite3_errcode(pTo);
  }

  /* Close the database connection opened on database file zFilename
  ** and return the result of this function. */
  (void)sqlite3_close(pFile);
  return rc;
}

三、進階應用程式技巧:

    在上面的例子中,我們是通過sqlite3_backup_step()函數的一次調用完成了整個拷貝過程。該實現方式仍然存在之前說過的掛起其它寫訪問串連的問題,為瞭解決該問題,這裡我們將繼續介紹另外一種更進階的實現方式--分區拷貝,其實現步驟如下:
    1). 函數sqlite3_backup_init()用於建立sqlite3_backup對象,該對象將作為本次拷貝操作的控制代碼傳給其餘兩個函數。
    2). 函數sqlite3_backup_step()被調用用於拷貝資料,和之前方法不同的是,該函數的第二個參數不再是-1,而是一個普通的正整數,表示每次調用將會拷貝的頁面數量,如5。
    3). 如果在函數sqlite3_backup_step()調用結束後,仍然有更多的頁面需要被拷貝,那麼我們將主動休眠250ms,然後再重複步驟2).
    4). 函數sqlite3_backup_finish()用於釋放sqlite3_backup_init()函數申請的資源,以避免資源流失。
    在上述步驟3)中我們主動休眠250ms,此期間,該拷貝操作不會在來源資料庫上持有任何讀鎖,這樣其它的資料庫連接在進行寫操作時亦將不會被掛起。然而在休眠期間,如果另外一個線程或進程對來源資料庫進行了寫操作,SQLite將會檢測到該事件的發生,從而在下一次調用sqlite3_backup_step()函數時重新開始整個拷貝過程。唯一的例外是,如果來源資料庫不是in-memory資料庫,同時寫操作是在與拷貝操作同一個進程內完成,並且在操作時使用的也是同一個資料庫連接控制代碼,那麼目的資料庫中資料也將被此操作同時自動修改。在下一次調用sqlite3_backup_step()時,也將不會有任何影響發生。  
    事實上,在SQLite中仍然提供了另外兩個輔助性函數backup_remaining()和backup_pagecount(),其中前者將返回在當前備份操作中還有多少頁面需要被拷貝,而後者將返回本次操作總共需要拷貝的頁面數量。顯而易見的是,通過這兩個函數的返回結果,我們可以即時顯示本次備份操作的整體進度,計算公式如下:
    Completion = 100% * (pagecount() - remaining()) / pagecount()
    見以下程式碼範例(來自SQLite官網):

複製代碼 代碼如下:
/*
** Perform an online backup of database pDb to the database file named
** by zFilename. This function copies 5 database pages from pDb to
** zFilename, then unlocks pDb and sleeps for 250 ms, then repeats the
** process until the entire database is backed up.
**
** The third argument passed to this function must be a pointer to a progress
** function. After each set of 5 pages is backed up, the progress function
** is invoked with two integer parameters: the number of pages left to
** copy, and the total number of pages in the source file. This information
** may be used, for example, to update a GUI progress bar.
**
** While this function is running, another thread may use the database pDb, or
** another process may access the underlying database file via a separate
** connection.
**
** If the backup process is successfully completed, SQLITE_OK is returned.
** Otherwise, if an error occurs, an SQLite error code is returned.
*/
int backupDb(
  sqlite3 *pDb,               /* Database to back up */
  const char *zFilename,      /* Name of file to back up to */
  void(*xProgress)(int, int)  /* Progress function to invoke */    
){
  int rc;                     /* Function return code */
  sqlite3 *pFile;             /* Database connection opened on zFilename */
  sqlite3_backup *pBackup;    /* Backup handle used to copy data */

  /* Open the database file identified by zFilename. */
  rc = sqlite3_open(zFilename, &pFile);
  if( rc==SQLITE_OK ){

    /* Open the sqlite3_backup object used to accomplish the transfer */
    pBackup = sqlite3_backup_init(pFile, "main", pDb, "main");
    if( pBackup ){

      /* Each iteration of this loop copies 5 database pages from database
      ** pDb to the backup database. If the return value of backup_step()
      ** indicates that there are still further pages to copy, sleep for
      ** 250 ms before repeating. */
      do {
        rc = sqlite3_backup_step(pBackup, 5);
        xProgress(
            sqlite3_backup_remaining(pBackup),
            sqlite3_backup_pagecount(pBackup)
        );
        if( rc==SQLITE_OK || rc==SQLITE_BUSY || rc==SQLITE_LOCKED ){
          sqlite3_sleep(250);
        }
      } while( rc==SQLITE_OK || rc==SQLITE_BUSY || rc==SQLITE_LOCKED );

      /* Release resources allocated by backup_init(). */
      (void)sqlite3_backup_finish(pBackup);
    }
    rc = sqlite3_errcode(pFile);
  }

  /* Close the database connection opened on database file zFilename
  ** and return the result of this function. */
  (void)sqlite3_close(pFile);
  return rc;
}

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