Sindbad~EG File Manager

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          <th colspan="3" align="center">Deadlock detection</th>
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          <th width="60%" align="center">Chapter 11.  Berkeley DB Transactional Data Store Applications </th>
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            <h2 class="title" style="clear: both"><a id="transapp_deadlock"></a>Deadlock detection</h2>
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      <p> 
        The first component of the infrastructure,
        <span class="emphasis"><em>deadlock detection</em></span>, is not so much a
        requirement specific to transaction-protected applications,
        but instead is necessary for almost all applications in which
        more than a single thread of control will be accessing the
        database at one time. Even when Berkeley DB automatically
        handles database locking, it is normally possible for deadlock
        to occur. Because the underlying database access methods may
        update multiple pages during a single Berkeley DB API call,
        deadlock is possible even when threads of control are making
        only single update calls into the database. The exception to
        this rule is when all the threads of control accessing the
        database are read-only or when the Berkeley DB Concurrent Data
        Store product is used; the Berkeley DB Concurrent Data Store
        product guarantees deadlock-free operation at the expense of
        reduced concurrency.
    </p>
      <p> 
        When the deadlock occurs, two (or more) threads of control
        each request additional locks that can never be granted
        because one of the threads of control waiting holds the
        requested resource. For example, consider two processes: A and
        B. Let's say that A obtains a write lock on item X, and B
        obtains a write lock on item Y. Then, A requests a lock on Y,
        and B requests a lock on X. A will wait until resource Y
        becomes available and B will wait until resource X becomes
        available. Unfortunately, because both A and B are waiting,
        neither will release the locks they hold and neither will ever
        obtain the resource on which it is waiting. For another
        example, consider two transactions, A and B, each of which may
        want to modify item X. Assume that transaction A obtains a
        read lock on X and confirms that a modification is needed.
        Then it is descheduled and the thread containing transaction B
        runs. At that time, transaction B obtains a read lock on X and
        confirms that it also wants to make a modification. Both
        transactions A and B will block when they attempt to upgrade
        their read locks to write locks because the other already
        holds a read lock. This is a deadlock. Transaction A cannot
        make forward progress until Transaction B releases its read
        lock on X, but Transaction B cannot make forward progress
        until Transaction A releases its read lock on X. 
    </p>
      <p> 
        In order to detect that deadlock has happened, a separate
        process or thread must review the locks currently held in the
        database. If deadlock has occurred, a victim must be selected,
        and that victim will then return the error <a class="link" href="program_errorret.html#program_errorret.DB_LOCK_DEADLOCK">DB_LOCK_DEADLOCK</a> from 
        whatever Berkeley DB call it was making. Berkeley DB provides the <a href="../api_reference/C/db_deadlock.html" class="olink">db_deadlock</a> utility that 
        can be used to perform this deadlock detection. Alternatively,
        applications can create their own deadlock utility or thread
        using the underlying <a href="../api_reference/C/lockdetect.html" class="olink">DB_ENV-&gt;lock_detect()</a> function, or specify that
        Berkeley DB run the deadlock detector internally whenever
        there is a conflict over a lock (see <a href="../api_reference/C/envset_lk_detect.html" class="olink">DB_ENV-&gt;set_lk_detect()</a> for
        more information). The following code fragment does the
        latter: 
    </p>
      <pre class="programlisting">void
env_open(DB_ENV **dbenvp)
{
    DB_ENV *dbenv;
    int ret;

    /* Create the environment handle. */
    if ((ret = db_env_create(&amp;dbenv, 0)) != 0) {
        fprintf(stderr,
            "txnapp: db_env_create: %s\n", db_strerror(ret));
        exit (1);
    }

    /* Set up error handling. */
    dbenv-&gt;set_errpfx(dbenv, "txnapp");
    dbenv-&gt;set_errfile(dbenv, stderr);

<span class="bold"><strong>    /* Do deadlock detection internally. */
    if ((ret = dbenv-&gt;set_lk_detect(dbenv, DB_LOCK_DEFAULT)) != 0) {
        dbenv-&gt;err(dbenv, ret, "set_lk_detect: DB_LOCK_DEFAULT");
        exit (1);
    }</strong></span>

    /*
     * Open a transactional environment:
     *    create if it doesn't exist
     *    free-threaded handle
     *    run recovery
     *    read/write owner only
     */
    if ((ret = dbenv-&gt;open(dbenv, ENV_DIRECTORY,
        DB_CREATE | DB_INIT_LOCK | DB_INIT_LOG |
        DB_INIT_MPOOL | DB_INIT_TXN | DB_RECOVER | DB_THREAD,
        S_IRUSR | S_IWUSR)) != 0) {
        dbenv-&gt;err(dbenv, ret, "dbenv-&gt;open: %s", ENV_DIRECTORY);
        exit (1);
    }

    *dbenvp = dbenv;
}</pre>
      <p> 
        Deciding how often to run the deadlock detector and which
        of the deadlocked transactions will be forced to abort when
        the deadlock is detected is a common tuning parameter for
        Berkeley DB applications. 
    </p>
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