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README.PTT
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README.PTT
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-------------------------------------------------------------------------------
Hercules PTT tracing
HISTORY
-------
'PTT' is a misnomer.
The Hercules "Threading and locking trace debugger" is not just for thread
and lock tracing. It is actually a generic Hercules internal event tracing
debugging facility.
Early in Hercules development when threading and locks were introduced, we
had a lot of trouble with incorrect lock management, resulting in deadlocks
and other thread related problems. We've gotten better at it but we still
have problems with it from time to time. (Programmers are not perfect and
make mistakes, Hercules developers included.)
Greg Smith was the one that took up the challenge and created our basic PTT
tracing facility to try and help identify such threading/locking problems.
It was primarily written to intercept lock and condition variable calls and
add a table entry to an internal wraparound event table which could then be
dumped (displayed) on demand whenever it appeared a deadlock had occurred.
He designed it however as pretty much a generic "event tracing" tool, such
that ANY "event" could be traced, and not just locking events.
The 'ptt' command is used to create (allocate) the table and to define what
type (class) of events should be traced.
The "PTT" macro is then used to add events to the table.
The 'ptt' command without any operands is used to dump (display) the table.
As originally written by Greg, the locking call intercept functions were
part of the general PTT facility, and macro redefinitions were created to
automatically route our locking calls (obtain_lock, release_lock, etc) to
the appropriate "ptt_pthread_xxxx" function that would then add the entry
to the trace table.
In June of 2013 however, Fish needed to make some enhancements to the lock
functions to automatically detect and report errors (non-zero return codes
from any of the locking calls) under the guidance of Mark L. Gaubatz.
It was at this time it was recognized that the generalized "PTT intercept"
functions that were originally a part of the pttrace.c module as originally
written/designed by Greg Smith should actually be moved into a separate
"threading/locking" module (hthreads.c), thereby leaving the 'pttrace.c/.h'
modules responsible for only what they were meant for: generalized event
table tracing.
This allowed us to clean up much of the macro redefinition monkey business
originally in the 'hthreads.h' header that was originally coded solely for
the purpose of interfacing with the "PTT" internal trace table facility.
Now, the htreads.c module is responsible for calling the proper threading
implementation function (pthreads on non-Windows or fthreads on Windows)
as well as checking the return code and, if necessary, calling the "PTT"
facility to add an entry to the trace table.
USING 'PTT'
-------------
The PTT tracing facility can be used to add generic "events" to the internal
trace table, and is thus ideal for helping to debug *ANY* module/driver and
not just for debugging lock handling.
To use it, simply add a 'PTT' macro call to your code. The parameters to the
macro are as follows:
PTT( class, msg, p1, p2, rc );
Where:
U32 class; /* Trace class (see header) */
const char* msg; /* Trace message */
const void* p1; /* Data 1 */
const void* p2; /* Data 2 */
int rc; /* Return code */
The message must be a string value which that remains valid for the duration
of Hercules execution. Usually it is coded as a string constant ("message")
and not a pointer variable name (since the variable might go out of scope or
change in value, which would lead to erroneous/misleading trace messages).
The two data pointer values can be anything. They do not need to actually
point to anything. They could be a 64-bit integer value for example. Same
idea with the return code: it can be any integer value meaningful to you and
your code/driver. It does not have to be an actual return code.
The trace class must be one of the predefined classes listed below:
PTT_CL_LOG 0x00000001 /* Logger records */
PTT_CL_TMR 0x00000002 /* Timer/Clock records */
PTT_CL_THR 0x00000004 /* Thread records */
PTT_CL_INF 0x00000008 /* Instruction info */
PTT_CL_ERR 0x00000010 /* Instruction error/unsup */
PTT_CL_PGM 0x00000020 /* Program interrupt */
PTT_CL_CSF 0x00000040 /* Compare&Swap failure */
PTT_CL_SIE 0x00000080 /* Interpretive Execution */
PTT_CL_SIG 0x00000100 /* SIGP signalling */
PTT_CL_IO 0x00000200 /* IO */
For generic event type trace entries (as opposed to, say, instruction type
trace entries), you should use the 'PTT_CL_INF' class. Other classes are
being developed/defined for future use to make it easier to define your own
trace classes separate from the Hercules predefined internal classes.
When a PTT tracing is activated via the 'ptt' command (to define/allocate
a non-zero number of entries trace table), the PTT facility will then add
your trace event to the table.
When the entry is added, the thread id of the thread making the call, the
current time of day and the source file name and line number where the call
was made are added to the trace table entry.
When you later enter the 'ptt' command with no arguments to dump/display
the table, the resulting display might then look something like this:
qeth.c:3180 20:37:50.942314 000015D0 af select 0000000000000000 0000000000000000 00000001
qeth.c:3144 20:37:50.942322 000015D0 b4 procinpq 0000000000000000 0000000000000000 00000000
qeth.c:1297 20:37:50.942325 000015D0 b4 tt read 0000000000000000 000000000000ffff 00000000
qeth.c:1300 20:37:50.942585 000015D0 af tt read 0000000000000000 000000000000ffff 0000003c
qeth.c:3146 20:37:50.942588 000015D0 af procinpq 0000000000000000 0000000000000000 00000000
qeth.c:3178 20:37:50.942598 000015D0 b4 select 0000000000000000 0000000000000000 00000000
qeth.c:3180 20:37:50.942615 000015D0 af select 0000000000000000 0000000000000000 00000001
cpu.c:1022 20:37:50.942617 000011C0 *IOINT 000000000001003d 0000000000f4e2a0 28000000
qeth.c:3144 20:37:50.942617 000015D0 b4 procinpq 0000000000000000 0000000000000000 00000000
qeth.c:1297 20:37:50.942618 000015D0 b4 tt read 0000000000000000 000000000000ffff 00000000
qeth.c:1300 20:37:50.942632 000015D0 af tt read 0000000000000000 000000000000ffff 00000000
qeth.c:3146 20:37:50.942632 000015D0 af procinpq 0000000000000000 0000000000000000 00000000
qeth.c:3178 20:37:50.942634 000015D0 b4 select 0000000000000000 0000000000000000 00000000
FUTURE DIRECTION
------------------
The future direction of the PTT tracing facility is to eventually allow each
module/driver define their own private trace event classes allowing the user
(or especially you the Hercules developer!) to tell PTT which of your private
classes it should trace. The hope is to provide faster and easier debugging
without impacting the overall speed of execution that "logmsg" and "TRACE"
macros (which simply call logmsg) normally incur.
Each module will ideally be able to define their own set of classes and class
names separate from other modules. How exactly this is going to work has not
been thought out yet. It is still in the design / "TODO" stage.
Hopefully someone will find the time to take up the challenge and develop it
for us.
--
"Fish" (David B. Trout)
June 2, 2013
-------------------------------------------------------------------------------