Trace Reference                                           10 Dec 2004
---------------     				     Steven H. Levine
                                                steve53@earthlink.net


0.  Introduction.

This note explains how to set up and record trace data and how to do basic 
analysis.

1.  Setup.
    ------

The Trace Facility is an optional component, so you if you not have it
installed, now is the time to run Selective Install.

Once you have it installed you need to configure it.

To enable the other trace commands, issue the command:

  TRACE ON /B:512

This tells the kernel to allocate 512Kbytes for the trace buffer. The Trace 
Facility stores trace data in memory until it is retrieved.  Since the 
buffer is fixed size old data will eventually be overwritten. Sometimes the 
hardest part of using the trace is limiting the captured data so that the 
events you are really interested in are not overwritten before you have a 
chance to retrieve them.

If you need to trace earlier in the boot process, add the statement:

  TRACEBUF=512

to config.sys and reboot.

2.  Recording Trace Data
    ---------------------

To use the Trace Facility you need to tell the kernel which events to 
capture. This is done with the TRACE command. The syntax of the command 
options are typically IBM but using the command is otherwise straight 
forward. You can select the events and processes to be traced and you can 
start, stop, suspend and resume tracing.

To make using the trace a bit easier to use, I've supplied a small script. 
Use it to create a .cmd file and customize it for your specific tracing 
needs.  I called this one MyTrc.cmd.  You can name yours whatever you like.

If your system does not boot from the C: drive, edit the drive letter to match.

Replace the:

  trace on kernel(55,56,98,99,212,213,255,256,424,425)

statement with one that captures the data you are interested in.  Note that 
IBM changed the names and organization of the .TDF files for MCP/eCS.  For 
MCP/eCS this would change to:

  trace on os2krnlr(55,56,98,99,212,213,255,256,424,425)

The .TDF files contain tables that tell the Trace Facility where and how to 
patch the kernel for each tracepoint.


::------------ cut here ----------------
:: MyTrc.cmd

start tracefmt

setlocal

:: Best if run from trace directory.
:: Replace c: with boot drive letter.
c:
cd \os2\system\trace

echo Use Ctrl-C to quit

trace off

:loop

echo on
trace on kernel(55,56,98,99,212,213,255,256,424,425)
trace /q
trace /r
@echo off

echo Tracing resumed, press enter to suspend...
pause >nul
trace /s
echo Tracing suspended, press enter to restart...
pause >nul

goto :loop
::------------ cut here ----------------


The script does two things.  It starts the Trace Formatter and it starts the
Trace Facility.  Once the Trace Facility is running the script loops and lets
you suspend and resume to trace. Wnen you are done with the script, press 
Ctrl-C to kill the script and type:

  trace off

from the command line to turn off the Trace Facility.

It is important to suspend tracing as soon as possible
after you have captured the events of interest.
Otherwise, they might be overwritten.

To use to Trace Facility to capture trace data:

 - Start the trace script you created in a command line window.
 - Wait for the Trace Formatter to start.
 - Switch back to the trace script window.
 - Press enter to suspend the trace.
 - Do what ever you need to get the application to just before the point where it
   generates the data you need.
 - Switch to the Trace Formatter window.
 - Use the File -> Recapture option to read in the contents of the trace buffer.
 - This gets rid of the really stale trace data.
 - Switch to the script window.
 - Press Enter to resume the trace.
 - Make the application generate trace data.
 - Switch to the script window.
 - Press enter to suspend the trace.
 - Switch to the Trace Formatter window.
 - Use the File -> Recapture option to read in the contents of the trace buffer.
 - Scan the trace buffer for interesting events.
 
Note that the Trace Formatter lists the most recent entries first.

4.  Analyzing Trace Data - an Example
    ----------------------------------

Now for an example, using the command line to generate a file open error 
with no error message.

Set up as described above.  When ready to generate the error, switch to an 
unused command line window and type:

  copy xxx yyy >nul 2>nul

This should fail without any error information appearing on the screen.

Switch to the script window and press enter to suspend the trace and continue
as described above to retrieve and inspect the formatted trace data.  
Search for the file open request.

If you use 4OS2, you should find a set of reports similar to:

  (OS) DosOpen2 Post-Invocation  Event [9]  Major [5/0x0005]  Minor 
[98/0x0062]  PID [1655/0x0677]  Length [6]  Time [18:23:43.29]  Action = FFFF  
 Handle = 0000  Return Code = 006E

  (OS) DosOpen2 Pre-Invocation
  Event [10]  Major [5/0x0005]  Minor [255/0x00ff]  PID [1655/0x0677]  Length [48]  Time [18:23:43.29]
  Return IP=4285  CS=DFD7
  Filename = D:\TMP\0\xxx
  Mode = 0040   Control = 0001
  Attrib = 0000   Size = 0000 0000


The Pre-Invocation report shows the file name.

The Post-Invocation report shows that the file open request failed with
error code 6E.  Translating the error code from hexadecimal to decimal and
checking the handy error list in the "Control Program Guide and Reference" 
tells us that the code indicates:

  110   ERROR_OPEN_FAILED
          Open/create failed due to explicit fail command.

This is what we expected.

If you use CMD.EXE, the error will be reported for DosFindFirst.

Now the next time you get an application that complains it can't find a 
file, but refuses to report the file name, you can go find the name of that 
mystery file yourself.

This is just a small example of the power of the Trace Facility. It can be 
used for troubleshooting many other kinds of problems. If you have a problem 
and are wondering if a trace can help you diagnose it or if you have a trace 
setup question feel free to contact me.


4.  Caveats
    -------

The .TDF files supplied with the base MCP/eCS are badly broken.  Many of the 
useful shorthand commands such as:

  trace on kernel(fs=pre+api+post)

do not work.  The best solution is to update to a newer kernel.  The 
10/26/2001 kernel (14.086) seem to be fixed.  If you must work the the 
base kernel, you will have to use the numeric codes to supply the trace 
points and some may still not work.

If you are running MCP/eCS, traceref.inf is missing all of the important 
trace code details.  You'll have to use the Warp4 version of traceref.inf.

Hopefully, CP1 or CP2 will fix this.


4.  Other resources
    ---------------

    http://www.scoug.com/os24u/2001/scoug008.mrkia.html

      A worked example of a trace scenario:

    \os2\system\ras\trace.doc

      An overview of the trace facility including  the new featurs

    \os2\book\traceref.inf (Warp4)

      Trace documentation accurate as of 1996

    \os2\book\os2trace.inf (MCP/eCS)

      Trace documentation accurate as of 1999

    \os2\book\traceref.inf (MCP/eCS)

      Trace code documentation.  Current version is badly broken


Good luck.

Steven