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123 lines
7.2 KiB
HTML
<?xml version="1.0" encoding="UTF-8" standalone="no"?>
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<!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.0 Transitional//EN" "http://www.w3.org/TR/xhtml1/DTD/xhtml1-transitional.dtd">
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<html xmlns="http://www.w3.org/1999/xhtml">
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<head>
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<meta http-equiv="Content-Type" content="text/html; charset=UTF-8" />
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<title>Deadlock detection</title>
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<link rel="stylesheet" href="gettingStarted.css" type="text/css" />
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<meta name="generator" content="DocBook XSL Stylesheets V1.73.2" />
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<link rel="start" href="index.html" title="Berkeley DB Programmer's Reference Guide" />
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<link rel="up" href="lock.html" title="Chapter 16. The Locking Subsystem" />
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<link rel="prev" href="lock_stdmode.html" title="Standard lock modes" />
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<link rel="next" href="lock_timeout.html" title="Deadlock detection using timers" />
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</head>
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<body>
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<div xmlns="" class="navheader">
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<div class="libver">
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<p>Library Version 11.2.5.2</p>
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</div>
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<table width="100%" summary="Navigation header">
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<tr>
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<th colspan="3" align="center">Deadlock detection</th>
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</tr>
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<tr>
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<td width="20%" align="left"><a accesskey="p" href="lock_stdmode.html">Prev</a> </td>
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<th width="60%" align="center">Chapter 16.
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The Locking Subsystem
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</th>
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<td width="20%" align="right"> <a accesskey="n" href="lock_timeout.html">Next</a></td>
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</tr>
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</table>
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<hr />
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</div>
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<div class="sect1" lang="en" xml:lang="en">
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<div class="titlepage">
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<div>
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<div>
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<h2 class="title" style="clear: both"><a id="lock_dead"></a>Deadlock detection</h2>
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</div>
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</div>
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</div>
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<p>Practically any application that uses locking may deadlock. The
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exceptions to this rule are when all the threads of control accessing
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the database are read-only or when the Berkeley DB Concurrent Data Store product is used; the
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Berkeley DB Concurrent Data Store product guarantees deadlock-free operation at the expense of
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reduced concurrency. While there are data access patterns that are
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deadlock free (for example, an application doing nothing but overwriting
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fixed-length records in an already existing database), they are
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extremely rare.</p>
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<p>When a deadlock exists in the system, all the threads of control
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involved in the deadlock are, by definition, waiting on a lock. The
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deadlock detector examines the state of the lock manager and identifies
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a deadlock, and selects one of the lock requests to reject. (See
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<a class="xref" href="lock_config.html" title="Configuring locking">Configuring locking</a> for a
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discussion of how a participant is selected). The <a href="../api_reference/C/lockget.html" class="olink">DB_ENV->lock_get()</a> or
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<a href="../api_reference/C/lockvec.html" class="olink">DB_ENV->lock_vec()</a> call for which the selected participant is waiting then
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returns a <a class="link" href="program_errorret.html#program_errorret.DB_LOCK_DEADLOCK">DB_LOCK_DEADLOCK</a> error. When using the Berkeley DB access
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methods, this error return is propagated back through the Berkeley DB database
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handle method to the calling application.</p>
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<p>The deadlock detector identifies deadlocks by looking for a cycle in
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what is commonly referred to as its "waits-for" graph. More precisely,
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the deadlock detector reads through the lock table, and reviews each
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lock object currently locked. Each object has lockers that currently
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hold locks on the object and possibly a list of lockers waiting for a
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lock on the object. Each object's list of waiting lockers defines a
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partial ordering. That is, for a particular object, every waiting
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locker comes after every holding locker because that holding locker must
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release its lock before the waiting locker can make forward progress.
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Conceptually, after each object has been examined, the partial orderings
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are topologically sorted. If this topological sort reveals any cycles,
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the lockers forming the cycle are involved in a deadlock. One of the
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lockers is selected for rejection.</p>
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<p>It is possible that rejecting a single lock request involved in a
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deadlock is not enough to allow other lockers to make forward progress.
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Unfortunately, at the time a lock request is selected for rejection,
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there is not enough information available to determine whether rejecting
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that single lock request will allow forward progress or not. Because
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most applications have few deadlocks, Berkeley DB takes the conservative
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approach, rejecting as few requests as may be necessary to resolve the
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existing deadlocks. In particular, for each unique cycle found in the
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waits-for graph described in the previous paragraph, only one lock
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request is selected for rejection. However, if there are multiple
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cycles, one lock request from each cycle is selected for rejection.
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Only after the enclosing transactions have received the lock request
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rejection return and aborted their transactions can it be determined
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whether it is necessary to reject additional lock requests in order to
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allow forward progress.</p>
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<p>The <a href="../api_reference/C/db_deadlock.html" class="olink">db_deadlock</a> utility performs deadlock detection by calling
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the underlying Berkeley DB <a href="../api_reference/C/lockdetect.html" class="olink">DB_ENV->lock_detect()</a> method at regular intervals
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(<a href="../api_reference/C/lockdetect.html" class="olink">DB_ENV->lock_detect()</a> runs a single iteration of the Berkeley DB deadlock
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detector). Alternatively, applications can create their own deadlock
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utility or thread by calling the <a href="../api_reference/C/lockdetect.html" class="olink">DB_ENV->lock_detect()</a> method directly, or by
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using the <a href="../api_reference/C/envset_lk_detect.html" class="olink">DB_ENV->set_lk_detect()</a> method to configure Berkeley DB to
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automatically run the deadlock detector whenever there is a conflict
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over a lock. The tradeoffs between using the <a href="../api_reference/C/lockdetect.html" class="olink">DB_ENV->lock_detect()</a> and
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<a href="../api_reference/C/envset_lk_detect.html" class="olink">DB_ENV->set_lk_detect()</a> methods is that automatic deadlock detection will
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resolve deadlocks more quickly (because the deadlock detector runs
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as soon as the lock request blocks), however, automatic deadlock
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detection often runs the deadlock detector when there is no need for
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it, and for applications with large numbers of locks and/or where many
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operations block temporarily on locks but are soon able to proceed,
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automatic detection can decrease performance.</p>
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</div>
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<div class="navfooter">
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<hr />
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<table width="100%" summary="Navigation footer">
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<tr>
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<td width="40%" align="left"><a accesskey="p" href="lock_stdmode.html">Prev</a> </td>
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<td width="20%" align="center">
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<a accesskey="u" href="lock.html">Up</a>
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</td>
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<td width="40%" align="right"> <a accesskey="n" href="lock_timeout.html">Next</a></td>
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</tr>
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<tr>
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<td width="40%" align="left" valign="top">Standard lock modes </td>
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<td width="20%" align="center">
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<a accesskey="h" href="index.html">Home</a>
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</td>
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<td width="40%" align="right" valign="top"> Deadlock detection using timers</td>
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</tr>
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</table>
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</div>
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</body>
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</html>
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