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><DIV
CLASS="SECT1"
><H1
CLASS="SECT1"
><A
NAME="DYNAMIC-TRACE"
>27.4. Dynamic Tracing</A
></H1
><P
>   <SPAN
CLASS="PRODUCTNAME"
>PostgreSQL</SPAN
> provides facilities to support
   dynamic tracing of the database server. This allows an external
   utility to be called at specific points in the code and thereby trace
   execution.
  </P
><P
>   A number of probes or trace points are already inserted into the source
   code. These probes are intended to be used by database developers and
   administrators. By default the probes are not compiled into
   <SPAN
CLASS="PRODUCTNAME"
>PostgreSQL</SPAN
>; the user needs to explicitly tell
   the configure script to make the probes available.
  </P
><P
>   Currently, only the
   <A
HREF="http://opensolaris.org/os/community/dtrace/"
TARGET="_top"
>DTrace</A
>
   utility is supported, which is available
   on OpenSolaris, Solaris 10, and Mac OS X Leopard. It is expected that
   DTrace will be available in the future on FreeBSD and possibly other
   operating systems.  The
   <A
HREF="http://sourceware.org/systemtap/"
TARGET="_top"
>SystemTap</A
> project
   for Linux also provides a DTrace equivalent.  Supporting other dynamic
   tracing utilities is theoretically possible by changing the definitions for
   the macros in <TT
CLASS="FILENAME"
>src/include/utils/probes.h</TT
>.
  </P
><DIV
CLASS="SECT2"
><H2
CLASS="SECT2"
><A
NAME="COMPILING-FOR-TRACE"
>27.4.1. Compiling for Dynamic Tracing</A
></H2
><P
>   By default, probes are not available, so you will need to
   explicitly tell the configure script to make the probes available
   in <SPAN
CLASS="PRODUCTNAME"
>PostgreSQL</SPAN
>. To include DTrace support
   specify <TT
CLASS="OPTION"
>--enable-dtrace</TT
> to configure.  See <A
HREF="install-procedure.html"
>Section 15.4</A
> for further information.
  </P
></DIV
><DIV
CLASS="SECT2"
><H2
CLASS="SECT2"
><A
NAME="TRACE-POINTS"
>27.4.2. Built-in Probes</A
></H2
><P
>   A number of standard probes are provided in the source code,
   as shown in <A
HREF="dynamic-trace.html#DTRACE-PROBE-POINT-TABLE"
>Table 27-15</A
>;
   <A
HREF="dynamic-trace.html#TYPEDEFS-TABLE"
>Table 27-16</A
>
   shows the types used in the probes.  More probes can certainly be
   added to enhance <SPAN
CLASS="PRODUCTNAME"
>PostgreSQL</SPAN
>'s observability.
  </P
><DIV
CLASS="TABLE"
><A
NAME="DTRACE-PROBE-POINT-TABLE"
></A
><P
><B
>Table 27-15. Built-in DTrace Probes</B
></P
><TABLE
BORDER="1"
CLASS="CALSTABLE"
><COL><COL><COL><THEAD
><TR
><TH
>Name</TH
><TH
>Parameters</TH
><TH
>Description</TH
></TR
></THEAD
><TBODY
><TR
><TD
>transaction-start</TD
><TD
>(LocalTransactionId)</TD
><TD
>Probe that fires at the start of a new transaction.
      arg0 is the transaction ID.</TD
></TR
><TR
><TD
>transaction-commit</TD
><TD
>(LocalTransactionId)</TD
><TD
>Probe that fires when a transaction completes successfully.
      arg0 is the transaction ID.</TD
></TR
><TR
><TD
>transaction-abort</TD
><TD
>(LocalTransactionId)</TD
><TD
>Probe that fires when a transaction completes unsuccessfully.
      arg0 is the transaction ID.</TD
></TR
><TR
><TD
>query-start</TD
><TD
>(const char *)</TD
><TD
>Probe that fires when the processing of a query is started.
      arg0 is the query string.</TD
></TR
><TR
><TD
>query-done</TD
><TD
>(const char *)</TD
><TD
>Probe that fires when the processing of a query is complete.
      arg0 is the query string.</TD
></TR
><TR
><TD
>query-parse-start</TD
><TD
>(const char *)</TD
><TD
>Probe that fires when the parsing of a query is started.
      arg0 is the query string.</TD
></TR
><TR
><TD
>query-parse-done</TD
><TD
>(const char *)</TD
><TD
>Probe that fires when the parsing of a query is complete.
      arg0 is the query string.</TD
></TR
><TR
><TD
>query-rewrite-start</TD
><TD
>(const char *)</TD
><TD
>Probe that fires when the rewriting of a query is started.
      arg0 is the query string.</TD
></TR
><TR
><TD
>query-rewrite-done</TD
><TD
>(const char *)</TD
><TD
>Probe that fires when the rewriting of a query is complete.
      arg0 is the query string.</TD
></TR
><TR
><TD
>query-plan-start</TD
><TD
>()</TD
><TD
>Probe that fires when the planning of a query is started.</TD
></TR
><TR
><TD
>query-plan-done</TD
><TD
>()</TD
><TD
>Probe that fires when the planning of a query is complete.</TD
></TR
><TR
><TD
>query-execute-start</TD
><TD
>()</TD
><TD
>Probe that fires when the execution of a query is started.</TD
></TR
><TR
><TD
>query-execute-done</TD
><TD
>()</TD
><TD
>Probe that fires when the execution of a query is complete.</TD
></TR
><TR
><TD
>statement-status</TD
><TD
>(const char *)</TD
><TD
>Probe that fires anytime the server process updates its
      <TT
CLASS="STRUCTNAME"
>pg_stat_activity</TT
>.<TT
CLASS="STRUCTFIELD"
>status</TT
>.
      arg0 is the new status string.</TD
></TR
><TR
><TD
>checkpoint-start</TD
><TD
>(int)</TD
><TD
>Probe that fires when a checkpoint is started.
      arg0 holds the bitwise flags used to distinguish different checkpoint
      types, such as shutdown, immediate or force.</TD
></TR
><TR
><TD
>checkpoint-done</TD
><TD
>(int, int, int, int, int)</TD
><TD
>Probe that fires when a checkpoint is complete.
      (The probes listed next fire in sequence during checkpoint processing.)
      arg0 is the number of buffers written. arg1 is the total number of
      buffers. arg2, arg3 and arg4 contain the number of xlog file(s) added,
      removed and recycled respectively.</TD
></TR
><TR
><TD
>clog-checkpoint-start</TD
><TD
>(bool)</TD
><TD
>Probe that fires when the CLOG portion of a checkpoint is started.
      arg0 is true for normal checkpoint, false for shutdown
      checkpoint.</TD
></TR
><TR
><TD
>clog-checkpoint-done</TD
><TD
>(bool)</TD
><TD
>Probe that fires when the CLOG portion of a checkpoint is
      complete. arg0 has the same meaning as for clog-checkpoint-start.</TD
></TR
><TR
><TD
>subtrans-checkpoint-start</TD
><TD
>(bool)</TD
><TD
>Probe that fires when the SUBTRANS portion of a checkpoint is
      started.
      arg0 is true for normal checkpoint, false for shutdown
      checkpoint.</TD
></TR
><TR
><TD
>subtrans-checkpoint-done</TD
><TD
>(bool)</TD
><TD
>Probe that fires when the SUBTRANS portion of a checkpoint is
      complete. arg0 has the same meaning as for
      subtrans-checkpoint-start.</TD
></TR
><TR
><TD
>multixact-checkpoint-start</TD
><TD
>(bool)</TD
><TD
>Probe that fires when the MultiXact portion of a checkpoint is
      started.
      arg0 is true for normal checkpoint, false for shutdown
      checkpoint.</TD
></TR
><TR
><TD
>multixact-checkpoint-done</TD
><TD
>(bool)</TD
><TD
>Probe that fires when the MultiXact portion of a checkpoint is
      complete. arg0 has the same meaning as for
      multixact-checkpoint-start.</TD
></TR
><TR
><TD
>buffer-checkpoint-start</TD
><TD
>(int)</TD
><TD
>Probe that fires when the buffer-writing portion of a checkpoint
      is started.
      arg0 holds the bitwise flags used to distinguish different checkpoint
      types, such as shutdown, immediate or force.</TD
></TR
><TR
><TD
>buffer-sync-start</TD
><TD
>(int, int)</TD
><TD
>Probe that fires when we begin to write dirty buffers during
      checkpoint (after identifying which buffers must be written).
      arg0 is the total number of buffers.
      arg1 is the number that are currently dirty and need to be written.</TD
></TR
><TR
><TD
>buffer-sync-written</TD
><TD
>(int)</TD
><TD
>Probe that fires after each buffer is written during checkpoint.
      arg0 is the ID number of the buffer.</TD
></TR
><TR
><TD
>buffer-sync-done</TD
><TD
>(int, int, int)</TD
><TD
>Probe that fires when all dirty buffers have been written.
      arg0 is the total number of buffers.
      arg1 is the number of buffers actually written by the checkpoint process.
      arg2 is the number that were expected to be written (arg1 of
      buffer-sync-start); any difference reflects other processes flushing
      buffers during the checkpoint.</TD
></TR
><TR
><TD
>buffer-checkpoint-sync-start</TD
><TD
>()</TD
><TD
>Probe that fires after dirty buffers have been written to the
      kernel, and before starting to issue fsync requests.</TD
></TR
><TR
><TD
>buffer-checkpoint-done</TD
><TD
>()</TD
><TD
>Probe that fires when syncing of buffers to disk is
      complete.</TD
></TR
><TR
><TD
>twophase-checkpoint-start</TD
><TD
>()</TD
><TD
>Probe that fires when the two-phase portion of a checkpoint is
      started.</TD
></TR
><TR
><TD
>twophase-checkpoint-done</TD
><TD
>()</TD
><TD
>Probe that fires when the two-phase portion of a checkpoint is
      complete.</TD
></TR
><TR
><TD
>buffer-read-start</TD
><TD
>(ForkNumber, BlockNumber, Oid, Oid, Oid, int, bool)</TD
><TD
>Probe that fires when a buffer read is started.
      arg0 and arg1 contain the fork and block numbers of the page (but
      arg1 will be -1 if this is a relation extension request).
      arg2, arg3, and arg4 contain the tablespace, database, and relation OIDs
      identifying the relation.
      arg5 is the ID of the backend which created the temporary relation for a
      local buffer, or InvalidBackendId (-1) for a shared buffer.
      arg6 is true for a relation extension request, false for normal
      read.</TD
></TR
><TR
><TD
>buffer-read-done</TD
><TD
>(ForkNumber, BlockNumber, Oid, Oid, Oid, int, bool, bool)</TD
><TD
>Probe that fires when a buffer read is complete.
      arg0 and arg1 contain the fork and block numbers of the page (if this
      is a relation extension request, arg1 now contains the block number
      of the newly added block).
      arg2, arg3, and arg4 contain the tablespace, database, and relation OIDs
      identifying the relation.
      arg5 is the ID of the backend which created the temporary relation for a
      local buffer, or InvalidBackendId (-1) for a shared buffer.
      arg6 is true for a relation extension request, false for normal
      read.
      arg7 is true if the buffer was found in the pool, false if not.</TD
></TR
><TR
><TD
>buffer-flush-start</TD
><TD
>(ForkNumber, BlockNumber, Oid, Oid, Oid)</TD
><TD
>Probe that fires before issuing any write request for a shared
      buffer.
      arg0 and arg1 contain the fork and block numbers of the page.
      arg2, arg3, and arg4 contain the tablespace, database, and relation OIDs
      identifying the relation.</TD
></TR
><TR
><TD
>buffer-flush-done</TD
><TD
>(ForkNumber, BlockNumber, Oid, Oid, Oid)</TD
><TD
>Probe that fires when a write request is complete.  (Note
      that this just reflects the time to pass the data to the kernel;
      it's typically not actually been written to disk yet.)
      The arguments are the same as for buffer-flush-start.</TD
></TR
><TR
><TD
>buffer-write-dirty-start</TD
><TD
>(ForkNumber, BlockNumber, Oid, Oid, Oid)</TD
><TD
>Probe that fires when a server process begins to write a dirty
      buffer.  (If this happens often, it implies that
      <A
HREF="runtime-config-resource.html#GUC-SHARED-BUFFERS"
>shared_buffers</A
> is too
      small or the bgwriter control parameters need adjustment.)
      arg0 and arg1 contain the fork and block numbers of the page.
      arg2, arg3, and arg4 contain the tablespace, database, and relation OIDs
      identifying the relation.</TD
></TR
><TR
><TD
>buffer-write-dirty-done</TD
><TD
>(ForkNumber, BlockNumber, Oid, Oid, Oid)</TD
><TD
>Probe that fires when a dirty-buffer write is complete.
      The arguments are the same as for buffer-write-dirty-start.</TD
></TR
><TR
><TD
>wal-buffer-write-dirty-start</TD
><TD
>()</TD
><TD
>Probe that fires when a server process begins to write a
      dirty WAL buffer because no more WAL buffer space is available.
      (If this happens often, it implies that
      <A
HREF="runtime-config-wal.html#GUC-WAL-BUFFERS"
>wal_buffers</A
> is too small.)</TD
></TR
><TR
><TD
>wal-buffer-write-dirty-done</TD
><TD
>()</TD
><TD
>Probe that fires when a dirty WAL buffer write is complete.</TD
></TR
><TR
><TD
>xlog-insert</TD
><TD
>(unsigned char, unsigned char)</TD
><TD
>Probe that fires when a WAL record is inserted.
      arg0 is the resource manager (rmid) for the record.
      arg1 contains the info flags.</TD
></TR
><TR
><TD
>xlog-switch</TD
><TD
>()</TD
><TD
>Probe that fires when a WAL segment switch is requested.</TD
></TR
><TR
><TD
>smgr-md-read-start</TD
><TD
>(ForkNumber, BlockNumber, Oid, Oid, Oid, int)</TD
><TD
>Probe that fires when beginning to read a block from a relation.
      arg0 and arg1 contain the fork and block numbers of the page.
      arg2, arg3, and arg4 contain the tablespace, database, and relation OIDs
      identifying the relation.
      arg5 is the ID of the backend which created the temporary relation for a
      local buffer, or InvalidBackendId (-1) for a shared buffer.</TD
></TR
><TR
><TD
>smgr-md-read-done</TD
><TD
>(ForkNumber, BlockNumber, Oid, Oid, Oid, int, int, int)</TD
><TD
>Probe that fires when a block read is complete.
      arg0 and arg1 contain the fork and block numbers of the page.
      arg2, arg3, and arg4 contain the tablespace, database, and relation OIDs
      identifying the relation.
      arg5 is the ID of the backend which created the temporary relation for a
      local buffer, or InvalidBackendId (-1) for a shared buffer.
      arg6 is the number of bytes actually read, while arg7 is the number
      requested (if these are different it indicates trouble).</TD
></TR
><TR
><TD
>smgr-md-write-start</TD
><TD
>(ForkNumber, BlockNumber, Oid, Oid, Oid, int)</TD
><TD
>Probe that fires when beginning to write a block to a relation.
      arg0 and arg1 contain the fork and block numbers of the page.
      arg2, arg3, and arg4 contain the tablespace, database, and relation OIDs
      identifying the relation.
      arg5 is the ID of the backend which created the temporary relation for a
      local buffer, or InvalidBackendId (-1) for a shared buffer.</TD
></TR
><TR
><TD
>smgr-md-write-done</TD
><TD
>(ForkNumber, BlockNumber, Oid, Oid, Oid, int, int, int)</TD
><TD
>Probe that fires when a block write is complete.
      arg0 and arg1 contain the fork and block numbers of the page.
      arg2, arg3, and arg4 contain the tablespace, database, and relation OIDs
      identifying the relation.
      arg5 is the ID of the backend which created the temporary relation for a
      local buffer, or InvalidBackendId (-1) for a shared buffer.
      arg6 is the number of bytes actually written, while arg7 is the number
      requested (if these are different it indicates trouble).</TD
></TR
><TR
><TD
>sort-start</TD
><TD
>(int, bool, int, int, bool)</TD
><TD
>Probe that fires when a sort operation is started.
      arg0 indicates heap, index or datum sort.
      arg1 is true for unique-value enforcement.
      arg2 is the number of key columns.
      arg3 is the number of kilobytes of work memory allowed.
      arg4 is true if random access to the sort result is required.</TD
></TR
><TR
><TD
>sort-done</TD
><TD
>(bool, long)</TD
><TD
>Probe that fires when a sort is complete.
      arg0 is true for external sort, false for internal sort.
      arg1 is the number of disk blocks used for an external sort,
      or kilobytes of memory used for an internal sort.</TD
></TR
><TR
><TD
>lwlock-acquire</TD
><TD
>(LWLockId, LWLockMode)</TD
><TD
>Probe that fires when an LWLock has been acquired.
      arg0 is the LWLock's ID.
      arg1 is the requested lock mode, either exclusive or shared.</TD
></TR
><TR
><TD
>lwlock-release</TD
><TD
>(LWLockId)</TD
><TD
>Probe that fires when an LWLock has been released (but note
      that any released waiters have not yet been awakened).
      arg0 is the LWLock's ID.</TD
></TR
><TR
><TD
>lwlock-wait-start</TD
><TD
>(LWLockId, LWLockMode)</TD
><TD
>Probe that fires when an LWLock was not immediately available and
      a server process has begun to wait for the lock to become available.
      arg0 is the LWLock's ID.
      arg1 is the requested lock mode, either exclusive or shared.</TD
></TR
><TR
><TD
>lwlock-wait-done</TD
><TD
>(LWLockId, LWLockMode)</TD
><TD
>Probe that fires when a server process has been released from its
      wait for an LWLock (it does not actually have the lock yet).
      arg0 is the LWLock's ID.
      arg1 is the requested lock mode, either exclusive or shared.</TD
></TR
><TR
><TD
>lwlock-condacquire</TD
><TD
>(LWLockId, LWLockMode)</TD
><TD
>Probe that fires when an LWLock was successfully acquired when the
      caller specified no waiting.
      arg0 is the LWLock's ID.
      arg1 is the requested lock mode, either exclusive or shared.</TD
></TR
><TR
><TD
>lwlock-condacquire-fail</TD
><TD
>(LWLockId, LWLockMode)</TD
><TD
>Probe that fires when an LWLock was not successfully acquired when
      the caller specified no waiting.
      arg0 is the LWLock's ID.
      arg1 is the requested lock mode, either exclusive or shared.</TD
></TR
><TR
><TD
>lock-wait-start</TD
><TD
>(unsigned int, unsigned int, unsigned int, unsigned int, unsigned int, LOCKMODE)</TD
><TD
>Probe that fires when a request for a heavyweight lock (lmgr lock)
      has begun to wait because the lock is not available.
      arg0 through arg3 are the tag fields identifying the object being
      locked.  arg4 indicates the type of object being locked.
      arg5 indicates the lock type being requested.</TD
></TR
><TR
><TD
>lock-wait-done</TD
><TD
>(unsigned int, unsigned int, unsigned int, unsigned int, unsigned int, LOCKMODE)</TD
><TD
>Probe that fires when a request for a heavyweight lock (lmgr lock)
      has finished waiting (i.e., has acquired the lock).
      The arguments are the same as for lock-wait-start.</TD
></TR
><TR
><TD
>deadlock-found</TD
><TD
>()</TD
><TD
>Probe that fires when a deadlock is found by the deadlock
      detector.</TD
></TR
></TBODY
></TABLE
></DIV
><DIV
CLASS="TABLE"
><A
NAME="TYPEDEFS-TABLE"
></A
><P
><B
>Table 27-16. Defined Types Used in Probe Parameters</B
></P
><TABLE
BORDER="1"
CLASS="CALSTABLE"
><COL><COL><THEAD
><TR
><TH
>Type</TH
><TH
>Definition</TH
></TR
></THEAD
><TBODY
><TR
><TD
>LocalTransactionId</TD
><TD
>unsigned int</TD
></TR
><TR
><TD
>LWLockId</TD
><TD
>int</TD
></TR
><TR
><TD
>LWLockMode</TD
><TD
>int</TD
></TR
><TR
><TD
>LOCKMODE</TD
><TD
>int</TD
></TR
><TR
><TD
>BlockNumber</TD
><TD
>unsigned int</TD
></TR
><TR
><TD
>Oid</TD
><TD
>unsigned int</TD
></TR
><TR
><TD
>ForkNumber</TD
><TD
>int</TD
></TR
><TR
><TD
>bool</TD
><TD
>char</TD
></TR
></TBODY
></TABLE
></DIV
></DIV
><DIV
CLASS="SECT2"
><H2
CLASS="SECT2"
><A
NAME="USING-TRACE-POINTS"
>27.4.3. Using Probes</A
></H2
><P
>   The example below shows a DTrace script for analyzing transaction
   counts in the system, as an alternative to snapshotting
   <TT
CLASS="STRUCTNAME"
>pg_stat_database</TT
> before and after a performance test:
</P><PRE
CLASS="PROGRAMLISTING"
>#!/usr/sbin/dtrace -qs

postgresql$1:::transaction-start
{
      @start["Start"] = count();
      self-&#62;ts  = timestamp;
}

postgresql$1:::transaction-abort
{
      @abort["Abort"] = count();
}

postgresql$1:::transaction-commit
/self-&#62;ts/
{
      @commit["Commit"] = count();
      @time["Total time (ns)"] = sum(timestamp - self-&#62;ts);
      self-&#62;ts=0;
}</PRE
><P>
   When executed, the example D script gives output such as:
</P><PRE
CLASS="SCREEN"
># ./txn_count.d `pgrep -n postgres` or ./txn_count.d &lt;PID&gt;
^C

Start                                          71
Commit                                         70
Total time (ns)                        2312105013</PRE
><P>
  </P
><DIV
CLASS="NOTE"
><BLOCKQUOTE
CLASS="NOTE"
><P
><B
>Note: </B
>    SystemTap uses a different notation for trace scripts than DTrace does,
    even though the underlying trace points are compatible.  One point worth
    noting is that at this writing, SystemTap scripts must reference probe
    names using double underscores in place of hyphens.  This is expected to
    be fixed in future SystemTap releases.
   </P
></BLOCKQUOTE
></DIV
><P
>   You should remember that DTrace scripts need to be carefully written and
   debugged, otherwise the trace information collected might
   be meaningless. In most cases where problems are found it is the
   instrumentation that is at fault, not the underlying system. When
   discussing information found using dynamic tracing, be sure to enclose
   the script used to allow that too to be checked and discussed.
  </P
><P
>   More example scripts can be found in the PgFoundry
   <A
HREF="http://pgfoundry.org/projects/dtrace/"
TARGET="_top"
>dtrace project</A
>.
  </P
></DIV
><DIV
CLASS="SECT2"
><H2
CLASS="SECT2"
><A
NAME="DEFINING-TRACE-POINTS"
>27.4.4. Defining New Probes</A
></H2
><P
>   New probes can be defined within the code wherever the developer
   desires, though this will require a recompilation. Below are the steps
   for inserting new probes:
  </P
><DIV
CLASS="PROCEDURE"
><OL
TYPE="1"
><LI
CLASS="STEP"
><P
>     Decide on probe names and data to be made available through the probes
    </P
></LI
><LI
CLASS="STEP"
><P
>     Add the probe definitions to <TT
CLASS="FILENAME"
>src/backend/utils/probes.d</TT
>
    </P
></LI
><LI
CLASS="STEP"
><P
>     Include <TT
CLASS="FILENAME"
>pg_trace.h</TT
> if it is not already present in the
     module(s) containing the probe points, and insert
     <TT
CLASS="LITERAL"
>TRACE_POSTGRESQL</TT
> probe macros at the desired locations
     in the source code
    </P
></LI
><LI
CLASS="STEP"
><P
>     Recompile and verify that the new probes are available
    </P
></LI
></OL
></DIV
><DIV
CLASS="FORMALPARA"
><P
><B
>Example: </B
>    Here is an example of how you would add a probe to trace all new
    transactions by transaction ID.
   </P
></DIV
><DIV
CLASS="PROCEDURE"
><OL
TYPE="1"
><LI
CLASS="STEP"
><P
>     Decide that the probe will be named <TT
CLASS="LITERAL"
>transaction-start</TT
> and
     requires a parameter of type LocalTransactionId
    </P
></LI
><LI
CLASS="STEP"
><P
>     Add the probe definition to <TT
CLASS="FILENAME"
>src/backend/utils/probes.d</TT
>:
</P><PRE
CLASS="PROGRAMLISTING"
>probe transaction__start(LocalTransactionId);</PRE
><P>
     Note the use of the double underline in the probe name. In a DTrace
     script using the probe, the double underline needs to be replaced with a
     hyphen, so <TT
CLASS="LITERAL"
>transaction-start</TT
> is the name to document for
     users.
    </P
></LI
><LI
CLASS="STEP"
><P
>     At compile time, <TT
CLASS="LITERAL"
>transaction__start</TT
> is converted to a macro
     called <TT
CLASS="LITERAL"
>TRACE_POSTGRESQL_TRANSACTION_START</TT
> (notice the
     underscores are single here), which is available by including
     <TT
CLASS="FILENAME"
>pg_trace.h</TT
>.  Add the macro call to the appropriate location
     in the source code.  In this case, it looks like the following:

</P><PRE
CLASS="PROGRAMLISTING"
>TRACE_POSTGRESQL_TRANSACTION_START(vxid.localTransactionId);</PRE
><P>
    </P
></LI
><LI
CLASS="STEP"
><P
>     After recompiling and running the new binary, check that your newly added
     probe is available by executing the following DTrace command.  You
     should see similar output:
</P><PRE
CLASS="SCREEN"
># dtrace -ln transaction-start
   ID    PROVIDER          MODULE           FUNCTION NAME
18705 postgresql49878     postgres     StartTransactionCommand transaction-start
18755 postgresql49877     postgres     StartTransactionCommand transaction-start
18805 postgresql49876     postgres     StartTransactionCommand transaction-start
18855 postgresql49875     postgres     StartTransactionCommand transaction-start
18986 postgresql49873     postgres     StartTransactionCommand transaction-start</PRE
><P>
    </P
></LI
></OL
></DIV
><P
>   There are a few things to be careful about when adding trace macros
   to the C code:

   <P
></P
></P><UL
><LI
><P
>      You should take care that the data types specified for a probe's
      parameters match the data types of the variables used in the macro.
      Otherwise, you will get compilation errors.
     </P
></LI
><LI
><P
>      On most platforms, if <SPAN
CLASS="PRODUCTNAME"
>PostgreSQL</SPAN
> is
      built with <TT
CLASS="OPTION"
>--enable-dtrace</TT
>, the arguments to a trace
      macro will be evaluated whenever control passes through the
      macro, <SPAN
CLASS="emphasis"
><I
CLASS="EMPHASIS"
>even if no tracing is being done</I
></SPAN
>.  This is
      usually not worth worrying about if you are just reporting the
      values of a few local variables.  But beware of putting expensive
      function calls into the arguments.  If you need to do that,
      consider protecting the macro with a check to see if the trace
      is actually enabled:

</P><PRE
CLASS="PROGRAMLISTING"
>if (TRACE_POSTGRESQL_TRANSACTION_START_ENABLED())
    TRACE_POSTGRESQL_TRANSACTION_START(some_function(...));</PRE
><P>

      Each trace macro has a corresponding <TT
CLASS="LITERAL"
>ENABLED</TT
> macro.
     </P
></LI
></UL
><P>

  </P
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