HP OpenVMS DCL Dictionary
DEBUG
Invokes the OpenVMS Debugger.
For a complete description of the OpenVMS Debugger, see the
HP OpenVMS Debugger Manual.
To get help on debugger commands from DCL level, type the following
command:
$ HELP/LIBRARY=SYS$HELP:DBG$HELP DEBUG
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Format
DEBUG
Heap Analyzer
The Heap Analyzer provides a graphical representation of memory use in
real time. This allows you to quickly identify inefficient memory usage
in your application such as allocations that are made too often, memory
blocks that are too large, fragmentation, or memory leaks.
For details on running the Heap Analyzer from within the debugger, see
the HP OpenVMS Debugger Manual.
On OpenVMS Integrity servers, the standalone Heap Analyzer is started
within the kept debugger using the START HEAP_ANALYZER command (see
example).
On OpenVMS Alpha, the standalone Heap Analyzer is started within the
kept debugger using the RUN/HEAP command.
Qualifiers
/CLIENT
Invokes the DEBUG client Motif interface. From the client, use the
network binding string displayed by the server at startup to establish
the connection. The first client to connect to the server is the
primary client, and controls the number of secondary clients allowed to
connect to the server.
/KEEP
Invokes the kept debugger. The kept debugger includes a Run/Rerun
capability that allows you to debug an image multiple times or debug a
series of distinct images without exiting the debugger.
Issuing the DEBUG/KEEP command is the only way to invoke the kept
debugger.
/RESUME (default)
Reinvokes the non-kept debugger after a Ctrl/Y key sequence has
interrupted the execution of a program you are debugging. (The
interrupted program must not have been linked with a /NOTRACEBACK
qualifier on the LINK command.)
If you issue the DEBUG/RESUME command without a previous Ctrl/Y key
sequence, no action occurs.
/SERVER [=( [BINDING_INFO=filespec] [,PROTOCOLS=(protocol[,...])]
)]
Invokes the DEBUG server. The DEBUG server allows up to 30 simultaneous
connections from clients on the same or remote OpenVMS nodes, or from
PC nodes running a supported Microsoft® Windows® platform.
(Optional) If specified, the BINDING_INFO keyword specifies that the
server binding identification strings are to be written to
filespec. If not specified, no file is created.
(Optional) If specified, the PROTOCOLS keyword specifies which network
protocols should be enabled for connection to the DEBUG server. Only
the specified protocols are enabled. If not specified, all protocols
are enabled. The protocol argument can be one or more
of the following keywords:
ALL
[NO]DECNET
[NO]TCP_IP
[NO]UDP
The first client to connect to the server is the primary client. A
client that connects to the server after the primary client establishes
the connection is a secondary client. The primary client controls the
number of secondary clients allowed to connect to the server.
The server displays a series of RPC binding strings that identify the
port numbers through which the client can connect to the server. The
port number appears in square brackets ([]) at the end of the
identification strings.
When connecting from the client, the simplest port identification
string consists of the node name of the server followed by the port
number in square brackets. The following are all valid binding
identification strings:
NODNAM[1234]
NCACN_IP_TCP:16.32.16.25[1112]
16.32.16.25[1112]
NCACN_DNET_NSP:63.1004[RPC20A020DD0001]
Note
You must hold the DBG$ENABLE_SERVER identifier in the rights database
to be able to run the debug server. Exercise care when using the debug
server. Once a debug server is running, anyone on the network has the
ability to connect to the debug server.
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Before granting the DBG$ENABLE_SERVER identifier, the system manager
must create it by entering the command DEBUG/SERVER from an account
with write access to the rights database. The system manager needs to
do this only once. The system manager can then run the Authorize
utility to grant the DBG$ENABLE_SERVER identifier to the user's account
in the rights database.
Examples
#1 |
$ FORTRAN/DEBUG/NOOPTIMIZE WIDGET
$ LINK/DEBUG WIDGET
$ RUN WIDGET
[ Debugger Banner and Version ]
%DEBUG-I-INITIAL, language is FORTRAN, module set to WIDGET
DBG>
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The FORTRAN and LINK commands both specify the /DEBUG qualifier to
compile the program WIDGET.FOR with debugger symbol table information.
Because the program has been compiled and linked with debug
information, the debugger is automatically invoked by the image
activator upon starting the program with the RUN command. No program
code has yet been executed when the debugger is invoked.
#2 |
$ FORTRAN/DEBUG/NOOPTIMIZE WIDGET
$ LINK/DEBUG WIDGET
$ RUN/NODEBUG WIDGET
NAME:
NAME:
NAME:
^Y
$ DEBUG/RESUME
[ Debugger Banner and Version ]
%DEBUG-I-INITIAL, language is FORTRAN, module set to WIDGET
DBG>
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The FORTRAN and LINK commands both specify the /DEBUG qualifier to
compile the program WIDGET.FOR with debugger symbol table information.
The RUN command begins execution of the image WIDGET.EXE, which loops
uncontrollably. Ctrl/Y interrupts the program, and the DEBUG/RESUME
command gives control to the debugger.
#3 |
$ CC/DEBUG/NOOPTIMIZE ECHOARGS
$ LINK/DEBUG ECHOARGS
$ ECHO == "$ sys$disk:[]echoargs.exe"
$ DEBUG/KEEP
[ Debugger Banner and Version ]
DBG> RUN/COMMAND="ECHO"/ARGUMENTS="fa sol la mi"
%DEBUG-I-INITIAL, language is C, module set to ECHOARGS
%DEBUG-I-NOTATMAIN, type GO to get to start of main program
DBG>
.
.
.
DBG> RERUN/ARGUMENTS="fee fii foo fum"
%DEBUG-I-INITIAL, language is C, module set to ECHOARGS
%DEBUG-I-NOTATMAIN, type GO to get to start of main program
DBG>
.
.
.
DBG> RUN/ARGUMENTS="a b c" ECHOARGS
%DEBUG-I-INITIAL, language is C, module set to ECHOARGS
%DEBUG-I-NOTATMAIN, type GO to get to start of main program
DBG>
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The CC and LINK commands both specify the /DEBUG qualifier to compile
the program ECHOARGS.C with debugger symbol table information.
The symbol definition command defines a foreign command for use during
the debugging session.
The DEBUG/KEEP command invokes the kept debugger.
The first RUN command uses the /COMMAND qualifier to specify a foreign
command to invoke the image file and the /ARGUMENTS qualifier to
specify a string of arguments.
The RERUN command reinvokes the same image file and uses the /ARGUMENTS
qualifier to specify a new string of arguments.
The second RUN command specifies a new image file and a new string of
arguments.
On Integrity server systems, start the Heap Analyzer within the kept
debugger:
#4 |
$ debug/keep
DBG> run/heap 8queens
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or, alternately:
#5 |
$ debug/keep
DBG> run 8queens
.
.
.
DBG> deactivate break/all
DBG> deactivate watch/all
DBG> deactivate trace/all
DBG> start heap_analyzer
DBG> activate break/all
DBG> activate watch/all
DBG> activate trace/all
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Using this method, you must first deactivate all watchpoints,
breakpoints, and tracepoints before starting the heap analyzer with the
START HEAP_ANALYZER command. This procedure prevents a potential race
condition from occurring. After starting the heap analyzer, re-activate
the breakpoints, watchpoints, and trace points.
On Alpha systems, start the Heap Analyzer within the kept debugger:
#6 |
$ debug/keep
DBG> run/heap 8queens
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#7 |
$ DEBUG/SERVER=(PROTOCOLS=(TCP_IP,DECNET))
%DEBUG-I-SPEAK: TCP/IP: YES, DECnet: YES, UDP: NO
%DEBUG-I-WATCH: Network Binding: ncacn_ip_tcp:16.32.16.25[1112]
%DEBUG-I-WATCH: Network Binding: ncacn_dnet_nsp:63.1004[RPC20A020DD0001]
%DEBUG-I-AWAIT: Ready for client connection...
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The DEBUG/SERVER command establishes a connection to the debug server,
requesting network protocols TCP/IP and DECnet. Note that the binding
strings are saved in file TEMP.TMP. You can use the TYPE command to
display the contents of TEMP.TMP.
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