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Rev 231 → Rev 232

/openrisc/trunk/gnu-src/gdb-7.1/sim/or32/wrapper.c
110,25 → 110,23
/*!A global record of the simulator description */
static SIM_DESC static_sd = NULL;
 
int local_argc; /* Our local argv with extra args */
char **local_argv;
 
/* If static_sd is not yet allocated, we allocate it and mark the simulator
as not yet open. */
as not yet open. This is the only time we can process any custom
arguments and only time we initialize the simulator. */
if (NULL == static_sd)
{
static_sd = (SIM_DESC) malloc (sizeof (*static_sd));
static_sd->sim_open = 0;
}
int local_argc; /* Our local argv with extra args */
char **local_argv;
 
/* If this is a second call, we cannot take any new configuration
arguments. We silently ignore them. */
if (!static_sd->sim_open)
{
int argc; /* How many args originally */
int i; /* For local argv */
int mem_defined_p = 0; /* Have we requested a memory size? */
 
int res; /* Result of initialization */
 
static_sd = (SIM_DESC) malloc (sizeof (*static_sd));
static_sd->sim_open = 0;
 
/* Count the number of arguments and see if we have specified either a
config file or a memory size. */
for (argc = 1; NULL != argv[argc]; argc++)
163,33 → 161,34
}
 
local_argv[i] = NULL;
 
/* Try to initialize, then we can free the local argument vector. If we
fail to initialize return NULL to indicate that failure. */
res == or1ksim_init (local_argc, local_argv, NULL, NULL, NULL);
free (local_argv);
 
if (res)
{
return NULL; /* Failure */
}
}
 
/* We just pass the arguments to the simulator initialization. No class
image nor upcalls. Having initialized, stall the processor, free the
argument vector and return the SD (or NULL on failure) */
if (0 == or1ksim_init (local_argc, local_argv, NULL, NULL, NULL))
{
/* We have either initialized a new simulator, or already have an intialized
simulator. Populate the descriptor and stall the processor, the return
the descriptor. */
static_sd->callback = callback;
static_sd->is_debug = (kind == SIM_OPEN_DEBUG);
static_sd->myname = (char *)xstrdup (argv[0]);
static_sd->sim_open = 1;
static_sd->last_reason = sim_running;
static_sd->last_rc = TARGET_SIGNAL_NONE;
static_sd->entry_point = OR32_RESET_EXCEPTION;
static_sd->resume_npc = OR32_RESET_EXCEPTION;
 
static_sd->callback = callback;
static_sd->is_debug = (kind == SIM_OPEN_DEBUG);
static_sd->myname = (char *)xstrdup (argv[0]);
static_sd->sim_open = 1;
static_sd->last_reason = sim_running;
static_sd->last_rc = TARGET_SIGNAL_NONE;
static_sd->entry_point = OR32_RESET_EXCEPTION;
static_sd->resume_npc = OR32_RESET_EXCEPTION;
or1ksim_set_stall_state (0);
 
or1ksim_set_stall_state (0);
free (local_argv);
return static_sd;
}
else
{
/* On failure return a NULL sd */
free (local_argv);
return NULL;
}
return static_sd;
 
} /* sim_open () */
 
 
196,7 → 195,8
/* ------------------------------------------------------------------------- */
/*!Destroy a simulator instance.
 
We only have one instance, but we mark it as closed, so it can be reused.
We never actually close the simulator, because we have no way to
reinitialize it. Instead we just stall the processor and mark it closed.
 
@param[in] sd Simulation descriptor from sim_open ().
@param[in] quitting Non-zero if we cannot hang on errors. */
214,6 → 214,7
{
free (sd->myname);
sd->sim_open = 0;
or1ksim_set_stall_state (0);
}
} /* sim_close () */
 
400,8 → 401,8
unsigned char *buf,
int len)
{
unsigned int regval;
int res;
unsigned long int regval;
int res;
 
if (4 != len)
{
544,12 → 545,14
int step,
int siggnal)
{
unsigned int npc; /* Next Program Counter */
unsigned int drr; /* Debug Reason Register */
unsigned int dsr; /* Debug Stop Register */
unsigned int dmr1; /* Debug Mode Register 1*/
unsigned int dmr2; /* Debug Mode Register 2*/
unsigned long int npc; /* Next Program Counter */
unsigned long int drr; /* Debug Reason Register */
unsigned long int dsr; /* Debug Stop Register */
unsigned long int dmr1; /* Debug Mode Register 1*/
unsigned long int dmr2; /* Debug Mode Register 2*/
 
unsigned long int retval; /* Return value on Or1ksim exit */
 
int res; /* Result of a run. */
 
/* Clear Debug Reason Register and watchpoint break generation in Debug Mode
592,7 → 595,8
{
case OR1KSIM_RC_HALTED:
sd->last_reason = sim_exited;
(void) or1ksim_read_reg (OR32_FIRST_ARG_REGNUM, &(sd->last_rc));
(void) or1ksim_read_reg (OR32_FIRST_ARG_REGNUM, &retval);
sd->last_rc = (unsigned int) retval;
sd->resume_npc = OR32_RESET_EXCEPTION;
break;
 
/openrisc/trunk/gnu-src/gdb-7.1/gdb/doc/Makefile.in
155,16 → 155,16
$(ANNOTATE_DOC_BUILD_INCLUDES)
 
# GDB for OpenRISC 1000 User Guide
OR1K_DOC_SOURCE_INCLUDES = \
OR32_DOC_SOURCE_INCLUDES = \
$(srcdir)/fdl.texi \
$(srcdir)/gpl.texi
OR1K_DOC_BUILD_INCLUDES = \
OR32_DOC_BUILD_INCLUDES = \
gdb-cfg.texi \
GDBvn.texi
OR1K_DOC_FILES = \
$(srcdir)/or1k.texinfo \
$(OR1K_DOC_SOURCE_INCLUDES) \
$(OR1K_DOC_BUILD_INCLUDES)
OR32_DOC_FILES = \
$(srcdir)/or32.texinfo \
$(OR32_DOC_SOURCE_INCLUDES) \
$(OR32_DOC_BUILD_INCLUDES)
 
#### Host, target, and site specific Makefile fragments come in here.
###
534,26 → 534,26
# Clean these up before each run. Avoids a catch 22 with not being
# able to re-generate these files (to fix a corruption) because these
# files contain a corruption.
OR1K_TEX_TMPS = or1k.aux or1k.cp* or1k.fn* or1k.ky* \
or1k.log or1k.pg* or1k.toc or1k.tp* or1k.vr*
OR32_TEX_TMPS = or32.aux or32.cp* or32.fn* or32.ky* \
or32.log or32.pg* or32.toc or32.tp* or32.vr*
 
# GDB for OpenRISC 1000 DOCUMENTATION: TeX dvi file
or1k.dvi : $(OR1K_DOC_FILES)
rm -f $(OR1K_TEX_TMPS)
$(SET_TEXINPUTS) $(TEXI2DVI) $(srcdir)/or1k.texinfo
or32.dvi : $(OR32_DOC_FILES)
rm -f $(OR32_TEX_TMPS)
$(SET_TEXINPUTS) $(TEXI2DVI) $(srcdir)/or32.texinfo
 
or1k.ps: or1k.dvi
or32.ps: or32.dvi
$(DVIPS) -o $@ $?
 
or1k.pdf: $(OR1K_DOC_FILES)
rm -f $(OR1K_TEX_TMPS)
$(SET_TEXINPUTS) $(TEXI2DVI) --pdf $(srcdir)/or1k.texinfo
or32.pdf: $(OR32_DOC_FILES)
rm -f $(OR32_TEX_TMPS)
$(SET_TEXINPUTS) $(TEXI2DVI) --pdf $(srcdir)/or32.texinfo
 
or1k.info: $(OR1K_DOC_FILES)
$(MAKEINFO) -I $(srcdir) -o or1k.info $(srcdir)/or1k.texinfo
or32.info: $(OR32_DOC_FILES)
$(MAKEINFO) -I $(srcdir) -o or32.info $(srcdir)/or32.texinfo
 
or1k_toc.html: $(OR1K_DOC_FILES)
$(MAKEHTML) $(MAKEHTMLFLAGS) $(srcdir)/or1k.texinfo
or32_toc.html: $(OR32_DOC_FILES)
$(MAKEHTML) $(MAKEHTMLFLAGS) $(srcdir)/or32.texinfo
 
force:
 
570,7 → 570,7
rm -f $(GDBINT_TEX_TMPS)
rm -f $(STABS_TEX_TMPS)
rm -f $(ANNOTATE_TEX_TMPS)
rm -f $(OR1K_TEX_TMPS)
rm -f $(OR32_TEX_TMPS)
rm -f sedref.dvi sedref.tex tmp.sed
 
clean: mostlyclean
/openrisc/trunk/gnu-src/gdb-7.1/gdb/doc/ChangeLog.or32
1,4 → 1,4
2009-07-26 Jeremy Bennett <jeremy.bennett@embecosm.com>
 
* Makefile.in. Added entries for OR32 manual.
 
* Makefile.in: Added entries for OR32 manual.
* or32.texinfo: Renamed from or1k.texinfo.
/openrisc/trunk/gnu-src/gdb-7.1/gdb/doc/or32.texinfo
4,7 → 4,7
@c %**start of header
@c makeinfo ignores cmds prev to setfilename, so its arg cannot make use
@c of @set vars. However, you can override filename with makeinfo -o.
@setfilename or1k.info
@setfilename or32.info
@c
@include gdb-cfg.texi
@c
37,7 → 37,7
@c manuals to an info tree.
@dircategory Software development
@direntry
* Gdb for OpenRISC 1000: (gdb for Or1K). The GNU debugger for OpenRISC 1000.
* Gdb for OpenRISC 1000: (gdb for Or32). The GNU debugger for OpenRISC 1000.
@end direntry
 
@ifinfo
67,8 → 67,8
@page
@tex
{\parskip=0pt
\hfill Please report bugs using the OpenCores tracker:\par
\hfill @uref{www.opencores.org/ptracker.cgi/list/or1k}.\par
\hfill Please report bugs using the OpenRISC bug tracker:\par
\hfill @uref{http://opencores.org/openrisc,bugtracker}.\par
\hfill {\it Debugging the OpenRISC 1000 with @value{GDBN}}\par
\hfill \TeX{}info \texinfoversion\par
}
79,8 → 79,8
Embecosm Limited.
@sp 2
Published by Embecosm Limited@*
68 Hambledon Road
Bournemouth BH7 6PJ, UK@*
Palamos House #104
Lymington SO41 9AL, UK@*
 
Permission is granted to copy, distribute and/or modify this document
under the terms of the GNU Free Documentation License, Version 3 or
122,7 → 122,7
@contents
 
@node Summary
@unnumbered Summary of @value{GDBN} with OpenRISC 1000
@unnumbered Summary of @value{GDBN} for the OpenRISC 1000
@cindex Overview
@cindex Summary
 
140,12 → 140,19
@cindex JTAG
@cindex jtag, target
@cindex target jtag
For backwards compatibility, @value{GDBN} for OpenRISC also supports the
legacy custom remote protocol, which drives the JTAG interface on the OpenRISC
1000. This is provided by adding a special target, ``jtag'' to @value{GDBN},
allowing the debugger to connect via the JTAG interface. @xref{Connecting to
the Target,,Connecting to the Target}.
Past releases of @value{GDBN} for OpenRISC supported a custom remote
protocol, which drives the JTAG interface on the OpenRISC 1000. This is
now obsolete, since all targets support the @dfn{Remote Serial
Protocol}, with adapters available to drive JTAG. Support has been
dropped from @value{GDBN} release 7.1.
 
@cindex simulator,
@cindex simlator, target
@cindex target simulator
This release implements a simulator, based on Or1ksim, the OpenRISC
architectural simulator. @command{target sim} will connect to a vanilla
Or1ksim model with 8MB of RAM starting at address zero.
 
@cindex SPR
@cindex Special Purpose Registers
@cindex @command{spr} command
177,11 → 184,11
@cindex @command{gdbtui}
@cindex @command{ddd}
For those who like their debugging graphical, the @command{gdbtui} command is
available (typically as @command{or32-uclinux-gdbtui}). @value{GDBN} for
available (typically as @command{or32-elf-gdbtui}). @value{GDBN} for
OpenRISC 1000 can also be run under @command{ddd} as follows:
 
@example
@command{ddd --debugger=or32-uclinux-gdb --gdb}
@command{ddd --debugger=or32-elf-gdb --gdb}
@end example
 
@menu
196,8 → 203,8
 
@cindex contributors, OpenRISC 1000
There is no official history of contributors to the OpenRISC 1000
version. However the current author believes the original GDB 5.0 and 5.3
ports were the work of:
version. However the current author believes the original @value{GDBN}
5.0 and 5.3 ports were the work of:
 
@itemize @bullet
@item
226,8 → 233,8
@cindex Ziomkowski, Chris
@cindex OpenRISC 1000 JTAG interface
@cindex JTAG, OpenRISC 1000 interface
Mark Mlinar at Cygnus Support and Chris Ziomkowski at ASICS.ws,who wrote the
OpenRISC JTAG interface.
Mark Mlinar at Cygnus Support and Chris Ziomkowski at ASICS.ws, who wrote the
OpenRISC JTAG interface (now obsolete).
@end itemize
 
@cindex Jeremy Bennett
252,20 → 259,6
 
@enumerate
@item
@cindex @command{target jtag} command
@cindex commands, @command{target jtag}
@cindex OpenRISC 1000 target, local connecting
@cindex target, local, OpenRISC 1000, connecting
@cindex connecting, OpenRISC 1000 target, local
@cindex local OpenRISC 1000 target, connecting
@cindex OpenRISC 1000 target, direct connecting
@cindex target, direct, OpenRISC 1000, connecting
@cindex connecting, OpenRISC 1000 target, direct
@cindex direct OpenRISC 1000 target, connecting
To hardware directly connected via a JP1 header linked to the parallel
port. This uses the @value{GDBN} command @command{target jtag}.
 
@item
@cindex @command{target remote} command
@cindex commands, @command{target remote}
@cindex @command{target extended-remote} command
280,91 → 273,37
@command{target remote} or @command{target extended-remote}.
 
@item
@cindex @command{target jtag} command
@cindex commands, @command{target jtag}
@cindex OpenRISC 1000 target, remote connecting via JTAG
@cindex @command{target sim} command
@cindex commands, @command{target sim}
@cindex OpenRISC 1000 target, simulator
@cindex sim, target
@cindex target sim
@cindex target, remote, OpenRISC 1000, connecting via JTAG
@cindex connecting, OpenRISC 1000 target, remote via JTAG
@cindex remote OpenRISC 1000 target, connecting via JTAG
Via a TCP/IP socket to a machine which has the hardware connected, or
is running the architectural simulator using the custom OpenRISC 1000 Remote
JTAG protocol. This uses the @value{GDBN} command @command{target jtag}.
To the OpenRISC architectural simulator, Or1ksim, integrated as a GDB
simulator. This uses the @value{GDBN} command @command{target sim}.
 
@end enumerate
 
@quotation Note
This connection mechanism is deprecated. It remains for backward compatibility
only.
Connection via the obsolete proprietary OpenRISC JTAG protocol is no
longer supported.
@end quotation
 
@end enumerate
 
@cindex OpenRISC 1000 Architectural Simulator
@cindex OpenRISC 1000 Architectural Simulator, patch
@cindex patch, OpenRISC 1000 Architectural Simulator
@cindex Or1ksim
@cindex Or1ksim, patch
@cindex patch, Or1ksim
@quotation Caution
If used with version 0.2.0 of the architectural simulator, Or1ksim,
@value{GDBN} version @value{GDBVN} requires a patch to be applied to the
architectural simulator. This should be available on the OpenCores website, or
contact the author directly. Only the legacy OpenRISC 1000 Remote JTAG
Protocol interface is available for this version of the architectural
simualtor.
 
The user is strongly recommended to use Or1ksim 0.3.0 or later, since this
interfaces directly to @value{GDBN} using the @dfn{Remote Serial Protocol}.
This release of GDB requires the latest experimental version of Or1ksim,
built from SVN revision 229 or later.
@end quotation
 
@menu
* Direct JTAG Connection:: Direct connection via a JTAG JP1
interface
* Remote Serial Protocol Connection:: Connection via the @value{GDBN} Remote
Serial Protocol Interface
* Remote JTAG Connection:: Connection via the OpenRISC 1000 Remote
JTAG Interface
* Simulator Connection:: Connection to the built in simulator
@end menu
 
@node Direct JTAG Connection
@section Direct connection via a JTAG JP1 Interface
@cindex OpenRISC 1000 target, local connecting
@cindex target, local, OpenRISC 1000, connecting
@cindex connecting, OpenRISC 1000 target, local
@cindex local OpenRISC 1000 target, connecting
@cindex OpenRISC 1000 target, direct connecting
@cindex target, direct, OpenRISC 1000, connecting
@cindex connecting, OpenRISC 1000 target, direct
@cindex direct OpenRISC 1000 target, connecting
 
In this case the the device to which the JP1 header is connected must be
specifed to the @command{target jtag} command. Typically that will be the
parallel printer port, so the command would be:
 
@cindex local @command{target jtag} command
@cindex direct @command{target jtag} command
@cindex @command{target jtag} command, local
@cindex @command{target jtag} command, direct
@cindex commands, @command{target jtag}, local
@cindex commands, @command{target jtag}, direct
@cindex local target specification
@cindex direct target specification
@cindex target specification, local
@cindex target specification, direct
@example
@command{target jtag /dev/lp}
@end example
 
@cindex @command{target jtag} command, local, testing
@cindex @command{target jtag} command, direct, testing
@cindex commands, @command{target jtag}, local, testing
@cindex commands, @command{target jtag}, direct, testing
@quotation Caution
The current author is not aware of anyone using the JP1
interface. As a result this code has not been tested in the port to
@value{GDBN} version @value{GDBVN}. Modern hardware connections are usually via
interfaces such as USB, for which the OpenRISC Remote Interface can be used
(@pxref{Remote JTAG Connection,,Remote JTAG Connection}).
@end quotation
 
@node Remote Serial Protocol Connection
@section Connection via the @value{GDBN} Remote Serial Protocol
@cindex OpenRISC 1000 target, remote connecting via RSP
405,107 → 344,47
@command{target remote :51000}
@end example
 
@node Remote JTAG Connection
@section Connection via the OpenRISC 1000 Remote JTAG Interface
@cindex OpenRISC 1000 target, remote connecting
@cindex target, remote, OpenRISC 1000, connecting
@cindex connecting, OpenRISC 1000 target, remote
@cindex remote OpenRISC 1000 target, connecting
@node Simulator Connection
@section Connection to the Built in Simulator
@cindex OpenRISC 1000 target, simulator
@cindex target, simulator, OpenRISC 1000, connecting
@cindex connecting, OpenRISC 1000 target, simulator
@cindex simulator OpenRISC 1000 target, connecting
 
Historically, @value{GDBN} communicated with remote OpenRISC 1000 targets
using a customer protocol, the @dfn{OpenRISC 1000 Remote JTAG
Interface}.
The simplest way to run programs under @value{GDBN} is to connect to the
built in simulator. This is the OpenRISC architectural simulator,
Or1ksim, which has been integrated into GDB as a standard simulator.
 
This protocol is maintained for backwards compatibility, but is now
deprecated. It communicates to the target through a TCP/IP socket. The target
must then implement the client side of the interface to drive either physical
hardware (for example through a USB/JTAG connector) or a simulation of the
hardware (such as the OpenRISC Architectural Simulator).
 
Although referred to as the @emph{remote} interface, the target may actually
be on the same machine, just running in a separate process, with its own
terminal window.
 
For example, to connect to the OpenRISC 1000 Architectural simulator, which is
running on machine ``thomas'' and has been configured to talk to @value{GDBN}
on port 50000, I could use the command:
 
@cindex remote @command{target jtag} command
@cindex @command{target jtag} command, remote
@cindex commands, @command{target jtag}, remote
@cindex remote target specification
@cindex target specification, remote
@cindex @command{target sim} command
@cindex commands, @command{target sim}
@example
@command{target jtag jtag://thomas:50000}
@command{target sim}
@end example
 
The target machine is specified after the @b{jtag://} and separated from the
target port by a colon. If the architectural simulator was running on the same
machine, just @b{locahost} would suffice as the machine name, thus:
By default, the simulator is configured with 8MB of RAM running from
address 0x0, and the simulator runs with the Or1ksim @command{--quiet}
option, to mimize extraneous output.
 
@cindex remote target specification, same machine
@cindex target specification, same machine
@example
@command{target jtag jtag://localhost:50000}
@end example
@cindex @command{target sim}, additional options
Additional options may be specified to the underlying Or1ksim engine,
exactly as when using Or1ksim standalone, with the entire argument
string prefixed by @command{-f}. For example.
 
@cindex Igor Mohor
@cindex Mohor, Igor
@cindex Debug interface types
Unfortunately there are now two different flavours of the JTAG
interface used with OpenRISC 1000. The original version was created
for use with the OpenRISC 1000 System-on-Chip, @b{ORPSoC}. A new
(smaller and simpler) JTAG interface was developed by Igor Mohor in
2004, which is used on some designs.
 
The default behavior of @value{GDBN} is to use the original ORPSoC
version of the interface for backwards compatibility. @value{GDBN} can
use the Igor Mohor version by specifying for example:
 
@example
@command{target jtag jtag_mohor://localhost:50000}
@command{target sim "-f --report-memory-errors -f mysim.cfg"}
@end example
 
This interface is only available with remote connections using the legacy
OpenRISC 1000 Remote JTAG Protocol (deprecated). The direct JP1 interface can
support only the ORPSoC version of JTAG.
@quotation Note
It is possible to use @command{target sim} many times. However any arguments
are only applied the first time. Or1ksim can only be instantiated
once. On the completion of a run it is not actually cosed, merely
stalled.
@end quotation
 
The recommended approach is to use the @value{GDBN} @dfn{Remote Serial
Protocol} which interfaces directly to the simulator, and is independent of
the JTAG implementation used.
 
For completeness
 
@example
@command{target jtag jtag_orpsoc://localhost:50000}
@end example
 
is provided as a synonym for:
 
@example
@command{target jtag jtag://localhost:50000}
@end example
 
@cindex reset
@cindex resetting the target
@cindex target reset
By default, establishing a connection @emph{does not} reset the target. This
allows debugging to resume a partially complete program on connection. If a
reset is required, the keyworkd @command{RESET} (case insensitive) may be
added at the end of the @command{target} command. For example:
 
@example
@command{target jtag jtag://localhost:50000 reset}
@end example
 
@cindex robustness, OpenRISC remote JTAG interface
@cindex JTAG, robustness or remote interface
@cindex Remote Serial Protocol
@cindex RSP
@quotation Warning
The OpenRISC remote JTAG interface is not particularly robust. In particular
dropping and reconnecting sessions does not seem to work well. This was a key
factor in its replacement by the generic @value{GDBN} Remote Serial Interface.
@quotation Caution
Any additional configuration must take account of the existing
8MB memory block. At present there is no way to remove that memory
block.
@end quotation
 
@node OpenRISC 1000 Specific Commands
702,7 → 581,7
@example
section debug
enabled = 1
gdb_enabled = 1
rsp_enabled = 1
server_port = 50000
end
@end example
711,7 → 590,7
configuration is in @code{rsp.cfg}, then the command might be:
 
@example
@command{or32-uclinux-sim -f rsp.cfg}
@command{or32-elf-sim -f rsp.cfg}
Reading script file from 'rsp.cfg'...
Building automata... done, num uncovered: 0/213.
Parsing operands data... done.
724,7 → 603,7
In a separate window start up @value{GDBN}.
 
@example
@command{or32-uclinux-gdb}
@command{or32-elf-gdb}
@end example
 
A local copy of the symbol table is needed, specified with the @command{file}
742,7 → 621,7
This is free software: you are free to change and redistribute it.
There is NO WARRANTY, to the extent permitted by law. Type "show copying"
and "show warranty" for details.
This GDB was configured as "--host=i686-pc-linux-gnu --target=or32-uclinux".
This GDB was configured as "--host=i686-pc-linux-gnu --target=or32-elf".
(gdb) @command{file hello}
Reading symbols from /home/jeremy/svntrunk/GNU/gdb-6.8/progs_or32/hello...done.
(gdb)
/openrisc/trunk/gnu-src/gdb-7.1/gdb/NEWS.or32
1,6 → 1,30
What has changed in GDB?
(Organized release by release)
What has changed in GDB for OpenRISC?
(Organized release by release)
 
*** Changes in GDB 7.1 for the 32-bit OpenRISC 1000
 
* OpenRISC Remote JTAG Protocol dropped
 
As planned, support for the proprietary OpenRISC Remote JTAG Protocol has
been dropped. This protocol was introduced in GDB 5.0 in 1999, but the use
of proprietary protocols has since been superceded by use of the standard
GDB Remote Serial Protocol. The OpenRISC architectural simulator, Verilator
RTL and all modern FGPA implementations all support the GDB Remote Serial
Protocol.
 
* Simulator Target
 
"target sim" now works, using the OpenRISC architectural simulator, Or1ksim,
which has been integrated within GDB. This has greatly extended the scope of
regression testing.
 
* Consistent Naming of Source Files
 
For consistency with the rest of the OpenRISC toolchain, all source files
now use "or32" in their name, rather than "or1k". In particular this means
the custom documentation is now found in doc/or32.texinfo.
 
 
*** Changes in GDB 6.8 for the 32-bit OpenRISC 1000
 
* New target

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