debug: Remove catchsegv and libSegfault (BZ #14913)

Trapping SIGSEGV within the process is error-prone, adds security
issues, and modern analysis design tends to happen out of the
process (either by attaching a debugger or by post-mortem analysis).

The libSegfault also has some design problems, it uses non
async-signal-safe function (backtrace) on signal handler.

There are multiple alternatives if users do want to use similar
functionality, such as sigsegv gnulib module or libsegfault.
This commit is contained in:
Adhemerval Zanella 2021-12-20 08:41:55 -03:00
parent c1fc366ec9
commit 65ccd641ba
22 changed files with 6 additions and 3438 deletions

4
NEWS
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@ -135,6 +135,10 @@ Deprecated and removed features, and other changes affecting compatibility:
configuration script now automatically detects static-pie support in the configuration script now automatically detects static-pie support in the
toolchain and architecture and enables it if available. toolchain and architecture and enables it if available.
* The catchsegv script and associated libSegFault.so shared object have
been removed. There are widely-deployed out-of-process alternatives for
catching coredumps and backtraces.
Changes to build and runtime requirements: Changes to build and runtime requirements:
[Add changes to build and runtime requirements here] [Add changes to build and runtime requirements here]

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@ -167,12 +167,9 @@ tests-unsupported = tst-chk4 tst-chk5 tst-chk6 tst-chk8 \
tst-lfschk4 tst-lfschk5 tst-lfschk6 tst-lfschk4 tst-lfschk5 tst-lfschk6
endif endif
extra-libs = libSegFault libpcprofile extra-libs = libpcprofile
extra-libs-others = $(extra-libs) extra-libs-others = $(extra-libs)
libSegFault-routines = segfault
libSegFault-inhibit-o = $(filter-out .os,$(object-suffixes))
libpcprofile-routines = pcprofile libpcprofile-routines = pcprofile
libpcprofile-inhibit-o = $(filter-out .os,$(object-suffixes)) libpcprofile-inhibit-o = $(filter-out .os,$(object-suffixes))
@ -180,10 +177,7 @@ others = pcprofiledump
install-bin = pcprofiledump install-bin = pcprofiledump
install-bin-script = xtrace install-bin-script = xtrace
ifeq ($(build-shared),yes) generated += xtrace
install-bin-script += catchsegv
endif
generated += catchsegv xtrace
include ../Rules include ../Rules
@ -209,15 +203,6 @@ endif
sLIBdir := $(shell echo $(slibdir) | sed 's,lib\(\|64\)$$,\\\\$$LIB,') sLIBdir := $(shell echo $(slibdir) | sed 's,lib\(\|64\)$$,\\\\$$LIB,')
$(objpfx)catchsegv: catchsegv.sh $(common-objpfx)soversions.mk \
$(common-objpfx)config.make
slibpfx=`echo $(slibdir)|sed 's/lib\(64\|\)$$/\\\\\\\\$$LIB/'`; \
sed -e 's|@VERSION@|$(version)|' -e "s|@SLIB@|$$slibpfx|" \
-e 's|@PKGVERSION@|$(PKGVERSION)|' \
-e 's|@REPORT_BUGS_TO@|$(REPORT_BUGS_TO)|' $< > $@.new
chmod 555 $@.new
mv -f $@.new $@
$(objpfx)pcprofiledump: $(objpfx)pcprofiledump.o $(objpfx)pcprofiledump: $(objpfx)pcprofiledump.o
$(objpfx)xtrace: xtrace.sh $(objpfx)xtrace: xtrace.sh

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@ -1,106 +0,0 @@
#!/bin/sh
# Copyright (C) 1998-2022 Free Software Foundation, Inc.
# This file is part of the GNU C Library.
# The GNU C Library is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public
# License as published by the Free Software Foundation; either
# version 2.1 of the License, or (at your option) any later version.
# The GNU C Library is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
# Lesser General Public License for more details.
# You should have received a copy of the GNU Lesser General Public
# License along with the GNU C Library; if not, see
# <https://www.gnu.org/licenses/>.
if test $# -eq 0; then
echo "$0: missing program name" >&2
echo "Try \`$0 --help' for more information." >&2
exit 1
fi
prog="$1"
shift
if test $# -eq 0; then
case "$prog" in
--h | --he | --hel | --help)
echo 'Usage: catchsegv PROGRAM ARGS...'
echo ' --help print this help, then exit'
echo ' --version print version number, then exit'
echo 'For bug reporting instructions, please see:'
cat <<\EOF
@REPORT_BUGS_TO@.
EOF
exit 0
;;
--v | --ve | --ver | --vers | --versi | --versio | --version)
echo 'catchsegv @PKGVERSION@@VERSION@'
echo 'Copyright (C) 2022 Free Software Foundation, Inc.
This is free software; see the source for copying conditions. There is NO
warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
Written by Ulrich Drepper.'
exit 0
;;
*)
;;
esac
fi
segv_output=`mktemp ${TMPDIR:-/tmp}/segv_output.XXXXXX` || exit
# Redirect stderr to avoid termination message from shell.
(exec 3>&2 2>/dev/null
LD_PRELOAD=${LD_PRELOAD:+${LD_PRELOAD}:}@SLIB@/libSegFault.so \
SEGFAULT_USE_ALTSTACK=1 \
SEGFAULT_OUTPUT_NAME=$segv_output \
"$prog" ${1+"$@"} 2>&3 3>&-)
exval=$?
# Check for output. Even if the program terminated correctly it might
# be that a minor process (clone) failed. Therefore we do not check the
# exit code.
if test -s "$segv_output"; then
# The program caught a signal. The output is in the file with the
# name we have in SEGFAULT_OUTPUT_NAME. In the output the names of
# functions in shared objects are available, but names in the static
# part of the program are not. We use addr2line to get this information.
case $prog in
*/*) ;;
*)
old_IFS=$IFS
IFS=:
for p in $PATH; do
test -n "$p" || p=.
if test -f "$p/$prog"; then
prog=$p/$prog
break
fi
done
IFS=$old_IFS
;;
esac
sed '/Backtrace/q' "$segv_output"
sed '1,/Backtrace/d' "$segv_output" |
(while read line; do
line=`echo $line | sed "s@^$prog\\(\\[.*\\)@\1@"`
case "$line" in
\[*) addr=`echo "$line" | sed 's/^\[\(.*\)\]$/\1/'`
complete=`addr2line -f -e "$prog" $addr 2>/dev/null`
if test $? -eq 0; then
echo "`echo "$complete"|sed 'N;s/\(.*\)\n\(.*\)/\2(\1)/;'`$line"
else
echo "$line"
fi
;;
*) echo "$line"
;;
esac
done)
fi
rm -f "$segv_output"
exit $exval

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@ -1,215 +0,0 @@
/* Catch segmentation faults and print backtrace.
Copyright (C) 1998-2022 Free Software Foundation, Inc.
This file is part of the GNU C Library.
The GNU C Library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
The GNU C Library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with the GNU C Library; if not, see
<https://www.gnu.org/licenses/>. */
#include <alloca.h>
#include <ctype.h>
#include <errno.h>
#include <execinfo.h>
#include <fcntl.h>
#include <signal.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <_itoa.h>
#include <ldsodefs.h>
/* This file defines macros to access the content of the sigcontext element
passed up by the signal handler. */
#include <sigcontextinfo.h>
#ifdef SA_SIGINFO
# define SIGCONTEXT siginfo_t *info, void *
#endif
/* Get code to possibly dump the content of all registers. */
#include <register-dump.h>
/* We'll use this a lot. */
#define WRITE_STRING(s) write (fd, s, strlen (s))
/* Name of the output file. */
static const char *fname;
/* Print the signal number SIGNAL. Either strerror or strsignal might
call local internal functions and these in turn call far too many
other functions and might even allocate memory which might fail. */
static void
write_strsignal (int fd, int signal)
{
char buf[30];
char *ptr = _itoa_word (signal, &buf[sizeof (buf)], 10, 0);
WRITE_STRING ("signal ");
write (fd, ptr, &buf[sizeof (buf)] - ptr);
}
/* This function is called when a segmentation fault is caught. The system
is in an unstable state now. This means especially that malloc() might
not work anymore. */
static void
catch_segfault (int signal, SIGCONTEXT ctx)
{
int fd, cnt, i;
void **arr;
struct sigaction sa;
uintptr_t pc;
/* This is the name of the file we are writing to. If none is given
or we cannot write to this file write to stderr. */
fd = 2;
if (fname != NULL)
{
fd = open (fname, O_TRUNC | O_WRONLY | O_CREAT, 0666);
if (fd == -1)
fd = 2;
}
WRITE_STRING ("*** ");
write_strsignal (fd, signal);
WRITE_STRING ("\n");
#ifdef REGISTER_DUMP
REGISTER_DUMP;
#endif
WRITE_STRING ("\nBacktrace:\n");
/* Get the backtrace. */
arr = alloca (256 * sizeof (void *));
cnt = backtrace (arr, 256);
/* Now try to locate the PC from signal context in the backtrace.
Normally it will be found at arr[2], but it might appear later
if there were some signal handler wrappers. Allow a few bytes
difference to cope with as many arches as possible. */
pc = sigcontext_get_pc (ctx);
for (i = 0; i < cnt; ++i)
if ((uintptr_t) arr[i] >= pc - 16 && (uintptr_t) arr[i] <= pc + 16)
break;
/* If we haven't found it, better dump full backtrace even including
the signal handler frames instead of not dumping anything. */
if (i == cnt)
i = 0;
/* Now generate nicely formatted output. */
__backtrace_symbols_fd (arr + i, cnt - i, fd);
#ifdef HAVE_PROC_SELF
/* Now the link map. */
int mapfd = open ("/proc/self/maps", O_RDONLY);
if (mapfd != -1)
{
write (fd, "\nMemory map:\n\n", 14);
char buf[256];
ssize_t n;
while ((n = TEMP_FAILURE_RETRY (read (mapfd, buf, sizeof (buf)))) > 0)
TEMP_FAILURE_RETRY (write (fd, buf, n));
close (mapfd);
}
#endif
/* Pass on the signal (so that a core file is produced). */
sa.sa_handler = SIG_DFL;
sigemptyset (&sa.sa_mask);
sa.sa_flags = 0;
sigaction (signal, &sa, NULL);
raise (signal);
}
static void
__attribute__ ((constructor))
install_handler (void)
{
struct sigaction sa;
const char *sigs = getenv ("SEGFAULT_SIGNALS");
const char *name;
#ifdef SA_SIGINFO
sa.sa_sigaction = catch_segfault;
sa.sa_flags = SA_SIGINFO;
#else
sa.sa_handler = (void*) catch_segfault;
sa.sa_flags = 0;
#endif
sigemptyset (&sa.sa_mask);
sa.sa_flags |= SA_RESTART;
/* Maybe we are expected to use an alternative stack. */
if (getenv ("SEGFAULT_USE_ALTSTACK") != 0)
{
void *stack_mem = malloc (2 * SIGSTKSZ);
stack_t ss;
if (stack_mem != NULL)
{
ss.ss_sp = stack_mem;
ss.ss_flags = 0;
ss.ss_size = 2 * SIGSTKSZ;
if (sigaltstack (&ss, NULL) == 0)
sa.sa_flags |= SA_ONSTACK;
}
}
if (sigs == NULL)
sigaction (SIGSEGV, &sa, NULL);
else if (sigs[0] == '\0')
/* Do not do anything. */
return;
else
{
const char *where;
int all = __strcasecmp (sigs, "all") == 0;
#define INSTALL_FOR_SIG(sig, name) \
where = __strcasestr (sigs, name); \
if (all || (where != NULL \
&& (where == sigs || !isalnum (where[-1])) \
&& !isalnum (where[sizeof (name) - 1]))) \
sigaction (sig, &sa, NULL);
INSTALL_FOR_SIG (SIGSEGV, "segv");
INSTALL_FOR_SIG (SIGILL, "ill");
#ifdef SIGBUS
INSTALL_FOR_SIG (SIGBUS, "bus");
#endif
#ifdef SIGSTKFLT
INSTALL_FOR_SIG (SIGSTKFLT, "stkflt");
#endif
INSTALL_FOR_SIG (SIGABRT, "abrt");
INSTALL_FOR_SIG (SIGFPE, "fpe");
}
/* Preserve the output file name if there is any given. */
name = getenv ("SEGFAULT_OUTPUT_NAME");
if (name != NULL && name[0] != '\0')
{
int ret = access (name, R_OK | W_OK);
if (ret == 0 || (ret == -1 && errno == ENOENT))
fname = __strdup (name);
}
}

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@ -1,19 +0,0 @@
/* Dump registers.
Copyright (C) 1998-2022 Free Software Foundation, Inc.
This file is part of the GNU C Library.
The GNU C Library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
The GNU C Library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with the GNU C Library; if not, see
<https://www.gnu.org/licenses/>. */
/* In general we cannot do anything. */

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@ -1,120 +0,0 @@
/* Dump registers.
Copyright (C) 1998-2022 Free Software Foundation, Inc.
This file is part of the GNU C Library.
The GNU C Library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
The GNU C Library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with the GNU C Library; if not, see
<https://www.gnu.org/licenses/>. */
#include <sys/uio.h>
#include <_itoa.h>
/* This prints out the information in the following form: */
static const char dumpform[] = "\
Register dump:\n\
fp0-3: 0000030%0000031% 0000032%0000033% 0000034%0000035% 0000036%0000037%\n\
fp4-7: 0000038%0000039% 000003a%000003b% 000003c%000003d% 000003e%000003f%\n\
fp8-11: 0000040%0000041% 0000042%0000043% 0000044%0000045% 0000046%0000047%\n\
fp12-15: 0000048%0000049% 000004a%000004b% 000004c%000004d% 000004e%000004f%\n\
fp16-19: 0000050%0000051% 0000052%0000053% 0000054%0000055% 0000056%0000057%\n\
fp20-23: 0000058%0000059% 000005a%000005b% 000005c%000005d% 000005e%000005f%\n\
fp24-27: 0000060%0000061% 0000062%0000063% 0000064%0000065% 0000066%0000067%\n\
fp28-31: 0000068%0000069% 000006a%000006b% 000006c%000006d% 000006e%000006f%\n\
r0 =0000000% sp =0000001% r2 =0000002% r3 =0000003% trap=0000028%\n\
r4 =0000004% r5 =0000005% r6 =0000006% r7 =0000007% sr0=0000020% sr1=0000021%\n\
r8 =0000008% r9 =0000009% r10=000000a% r11=000000b% dar=0000029% dsi=000002a%\n\
r12=000000c% r13=000000d% r14=000000e% r15=000000f% r3*=0000022%\n\
r16=0000010% r17=0000011% r18=0000012% r19=0000013%\n\
r20=0000014% r21=0000015% r22=0000016% r23=0000017% lr=0000024% xer=0000025%\n\
r24=0000018% r25=0000019% r26=000001a% r27=000001b% mq=0000027% ctr=0000023%\n\
r28=000001c% r29=000001d% r30=000001e% r31=000001f% fscr=0000071% ccr=0000026%\n\
";
/* Most of the fields are self-explanatory. 'sr0' is the next
instruction to execute, from SRR0, which may have some relationship
with the instruction that caused the exception. 'r3*' is the value
that will be returned in register 3 when the current system call
returns. 'sr1' is SRR1, bits 16-31 of which are copied from the MSR:
16 - External interrupt enable
17 - Privilege level (1=user, 0=supervisor)
18 - FP available
19 - Machine check enable (if clear, processor locks up on machine check)
20 - FP exception mode bit 0 (FP exceptions recoverable)
21 - Single-step trace enable
22 - Branch trace enable
23 - FP exception mode bit 1
25 - exception prefix (if set, exceptions are taken from 0xFFFnnnnn,
otherwise from 0x000nnnnn).
26 - Instruction address translation enabled.
27 - Data address translation enabled.
30 - Exception is recoverable (otherwise, don't try to return).
31 - Little-endian mode enable.
'Trap' is the address of the exception:
00200 - Machine check exception (memory parity error, for instance)
00300 - Data access exception (memory not mapped, see dsisr for why)
00400 - Instruction access exception (memory not mapped)
00500 - External interrupt
00600 - Alignment exception (see dsisr for more information)
00700 - Program exception (illegal/trap instruction, FP exception)
00800 - FP unavailable (should not be seen by user code)
00900 - Decrementer exception (for instance, SIGALRM)
00A00 - I/O controller interface exception
00C00 - System call exception (for instance, kill(3)).
00E00 - FP assist exception (optional FP instructions, etc.)
'dar' is the memory location, for traps 00300, 00400, 00600, 00A00.
'dsisr' has the following bits under trap 00300:
0 - direct-store error exception
1 - no page table entry for page
4 - memory access not permitted
5 - trying to access I/O controller space or using lwarx/stwcx on
non-write-cached memory
6 - access was store
9 - data access breakpoint hit
10 - segment table search failed to find translation (64-bit ppcs only)
11 - I/O controller instruction not permitted
For trap 00400, the same bits are set in SRR1 instead.
For trap 00600, bits 12-31 of the DSISR set to allow emulation of
the instruction without actually having to read it from memory.
*/
#define xtoi(x) (x >= 'a' ? x + 10 - 'a' : x - '0')
static void
register_dump (int fd, struct sigcontext *ctx)
{
char buffer[sizeof (dumpform)];
char *bufferpos;
unsigned regno;
unsigned *regs = (unsigned *)(ctx->regs);
memcpy(buffer, dumpform, sizeof (dumpform));
/* Generate the output. */
while ((bufferpos = memchr (buffer, '%', sizeof (dumpform))))
{
regno = xtoi (bufferpos[-1]) | xtoi (bufferpos[-2]) << 4;
memset (bufferpos-2, '0', 3);
_itoa_word (regs[regno], bufferpos+1, 16, 0);
}
/* Write the output. */
write (fd, buffer, sizeof (buffer) - 1);
}
#define REGISTER_DUMP \
register_dump (fd, ctx)

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@ -1,124 +0,0 @@
/* Dump registers.
Copyright (C) 1998-2022 Free Software Foundation, Inc.
This file is part of the GNU C Library.
The GNU C Library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
The GNU C Library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with the GNU C Library; if not, see
<https://www.gnu.org/licenses/>. */
#include <sys/uio.h>
#include <_itoa.h>
/* This prints out the information in the following form: */
static const char dumpform[] = "\
Register dump:\n\
sr0=000000000000020% sr1=000000000000021% dar=000000000000029% dsi=000002a%\n\
lr=000000000000024% ctr=000000000000023% gr3*=000000000000022% trap=0000028%\n\
ccr=0000026% xer=0000025%\n\
gr0-3: 000000000000000% 000000000000001% 000000000000002% 000000000000003%\n\
gr4-7: 000000000000004% 000000000000005% 000000000000006% 000000000000007%\n\
gr8-11: 000000000000008% 000000000000009% 00000000000000a% 00000000000000b%\n\
gr12-15: 00000000000000c% 00000000000000d% 00000000000000e% 00000000000000f%\n\
gr16-19: 000000000000010% 000000000000011% 000000000000012% 000000000000013%\n\
gr20-23: 000000000000014% 000000000000015% 000000000000016% 000000000000017%\n\
gr24-27: 000000000000018% 000000000000019% 00000000000001a% 00000000000001b%\n\
gr28-31: 00000000000001c% 00000000000001d% 00000000000001e% 00000000000001f%\n\
fscr=000000000000050%\n\
fp0-3: 000000000000030% 000000000000031% 000000000000032% 000000000000033%\n\
fp4-7: 000000000000034% 000000000000035% 000000000000036% 000000000000037%\n\
fp8-11: 000000000000038% 000000000000038% 00000000000003a% 00000000000003b%\n\
fp12-15: 00000000000003c% 00000000000003d% 00000000000003e% 00000000000003f%\n\
fp16-19: 000000000000040% 000000000000041% 000000000000042% 000000000000043%\n\
fp20-23: 000000000000044% 000000000000045% 000000000000046% 000000000000047%\n\
fp24-27: 000000000000048% 000000000000049% 00000000000004a% 00000000000004b%\n\
fp28-31: 00000000000004c% 00000000000004d% 00000000000004e% 00000000000004f%\n\
";
/* Most of the fields are self-explanatory. 'sr0' is the next
instruction to execute, from SRR0, which may have some relationship
with the instruction that caused the exception. 'r3*' is the value
that will be returned in register 3 when the current system call
returns. 'sr1' is SRR1, bits 16-31 of which are copied from the MSR:
16 - External interrupt enable
17 - Privilege level (1=user, 0=supervisor)
18 - FP available
19 - Machine check enable (if clear, processor locks up on machine check)
20 - FP exception mode bit 0 (FP exceptions recoverable)
21 - Single-step trace enable
22 - Branch trace enable
23 - FP exception mode bit 1
25 - exception prefix (if set, exceptions are taken from 0xFFFnnnnn,
otherwise from 0x000nnnnn).
26 - Instruction address translation enabled.
27 - Data address translation enabled.
30 - Exception is recoverable (otherwise, don't try to return).
31 - Little-endian mode enable.
'Trap' is the address of the exception:
00200 - Machine check exception (memory parity error, for instance)
00300 - Data access exception (memory not mapped, see dsisr for why)
00400 - Instruction access exception (memory not mapped)
00500 - External interrupt
00600 - Alignment exception (see dsisr for more information)
00700 - Program exception (illegal/trap instruction, FP exception)
00800 - FP unavailable (should not be seen by user code)
00900 - Decrementer exception (for instance, SIGALRM)
00A00 - I/O controller interface exception
00C00 - System call exception (for instance, kill(3)).
00E00 - FP assist exception (optional FP instructions, etc.)
'dar' is the memory location, for traps 00300, 00400, 00600, 00A00.
'dsisr' has the following bits under trap 00300:
0 - direct-store error exception
1 - no page table entry for page
4 - memory access not permitted
5 - trying to access I/O controller space or using lwarx/stwcx on
non-write-cached memory
6 - access was store
9 - data access breakpoint hit
10 - segment table search failed to find translation (64-bit ppcs only)
11 - I/O controller instruction not permitted
For trap 00400, the same bits are set in SRR1 instead.
For trap 00600, bits 12-31 of the DSISR set to allow emulation of
the instruction without actually having to read it from memory.
*/
#define xtoi(x) (x >= 'a' ? x + 10 - 'a' : x - '0')
static void
register_dump (int fd, struct sigcontext *ctx)
{
char buffer[sizeof (dumpform)];
char *bufferpos;
unsigned regno;
unsigned long *regs = (unsigned long *)(ctx->regs);
memcpy(buffer, dumpform, sizeof (dumpform));
/* Generate the output. */
while ((bufferpos = memchr (buffer, '%', sizeof (dumpform))))
{
regno = xtoi (bufferpos[-1]) | xtoi (bufferpos[-2]) << 4;
memset (bufferpos-2, '0', 3);
_itoa_word (regs[regno], bufferpos+1, 16, 0);
}
/* Write the output. */
write (fd, buffer, sizeof (buffer) - 1);
}
#define REGISTER_DUMP \
register_dump (fd, ctx)

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@ -1,239 +0,0 @@
/* Dump registers.
Copyright (C) 2004-2022 Free Software Foundation, Inc.
This file is part of the GNU C Library.
The GNU C Library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
The GNU C Library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with the GNU C Library. If not, see
<https://www.gnu.org/licenses/>. */
#include <string.h>
#include <ucontext.h>
#include <sys/uio.h>
#include <_itoa.h>
/* We will print the register dump in this format:
V0: XXXXXXXXXXXXXXXX T0: XXXXXXXXXXXXXXXX T1: XXXXXXXXXXXXXXXX
T2: XXXXXXXXXXXXXXXX T3: XXXXXXXXXXXXXXXX T4: XXXXXXXXXXXXXXXX
T5: XXXXXXXXXXXXXXXX T6: XXXXXXXXXXXXXXXX T7: XXXXXXXXXXXXXXXX
S0: XXXXXXXXXXXXXXXX S1: XXXXXXXXXXXXXXXX S2: XXXXXXXXXXXXXXXX
S3: XXXXXXXXXXXXXXXX S4: XXXXXXXXXXXXXXXX S5: XXXXXXXXXXXXXXXX
S6: XXXXXXXXXXXXXXXX A0: XXXXXXXXXXXXXXXX A1: XXXXXXXXXXXXXXXX
A2: XXXXXXXXXXXXXXXX A3: XXXXXXXXXXXXXXXX A4: XXXXXXXXXXXXXXXX
A5: XXXXXXXXXXXXXXXX T8: XXXXXXXXXXXXXXXX T9: XXXXXXXXXXXXXXXX
T10: XXXXXXXXXXXXXXXX T11: XXXXXXXXXXXXXXXX RA: XXXXXXXXXXXXXXXX
T12: XXXXXXXXXXXXXXXX AT: XXXXXXXXXXXXXXXX GP: XXXXXXXXXXXXXXXX
SP: XXXXXXXXXXXXXXXX PC: XXXXXXXXXXXXXXXX
FP0: XXXXXXXXXXXXXXXX FP1: XXXXXXXXXXXXXXXX FP2: XXXXXXXXXXXXXXXX
FP3: XXXXXXXXXXXXXXXX FP4: XXXXXXXXXXXXXXXX FP5: XXXXXXXXXXXXXXXX
FP6: XXXXXXXXXXXXXXXX FP7: XXXXXXXXXXXXXXXX FP8: XXXXXXXXXXXXXXXX
FP9: XXXXXXXXXXXXXXXX FP10: XXXXXXXXXXXXXXXX FP11: XXXXXXXXXXXXXXXX
FP12: XXXXXXXXXXXXXXXX FP13: XXXXXXXXXXXXXXXX FP14: XXXXXXXXXXXXXXXX
FP15: XXXXXXXXXXXXXXXX FP16: XXXXXXXXXXXXXXXX FP17: XXXXXXXXXXXXXXXX
FP18: XXXXXXXXXXXXXXXX FP19: XXXXXXXXXXXXXXXX FP20: XXXXXXXXXXXXXXXX
FP21: XXXXXXXXXXXXXXXX FP22: XXXXXXXXXXXXXXXX FP23: XXXXXXXXXXXXXXXX
FP24: XXXXXXXXXXXXXXXX FP25: XXXXXXXXXXXXXXXX FP26: XXXXXXXXXXXXXXXX
FP27: XXXXXXXXXXXXXXXX FP28: XXXXXXXXXXXXXXXX FP29: XXXXXXXXXXXXXXXX
FP30: XXXXXXXXXXXXXXXX FPCR: XXXXXXXXXXXXXXXX
TA0: XXXXXXXXXXXXXXXX TA1: XXXXXXXXXXXXXXXX TA2: XXXXXXXXXXXXXXXX
*/
static void
hexvalue (unsigned long int value, char *buf, size_t len)
{
char *cp = _itoa_word (value, buf + len, 16, 0);
while (cp > buf)
*--cp = '0';
}
static void
register_dump (int fd, struct ucontext_t *ctx)
{
struct iovec iov[31 * 2 + 2 /* REGS + PC. */
+ 31 * 2 + 2 /* FREGS + FPCR. */
+ (3 * 2) /* TA0, TA1, TA3. */
+ 1 /* '\n'. */];
size_t nr = 0;
#define ADD_STRING(str) \
iov[nr].iov_base = (char *) str; \
iov[nr].iov_len = strlen (str); \
++nr
#define ADD_MEM(str, len) \
iov[nr].iov_base = str; \
iov[nr].iov_len = len; \
++nr
char regs[31][16];
char pc[16];
for (int i = 0; i < 31; i++)
hexvalue (ctx->uc_mcontext.sc_regs[i], regs[i], 16);
hexvalue (ctx->uc_mcontext.sc_pc, pc, 16);
/* Generate the output. */
ADD_STRING ("Register dump:\n\n V0: ");
ADD_MEM (regs[0], 16);
ADD_STRING (" T0: ");
ADD_MEM (regs[1], 16);
ADD_STRING (" T1: ");
ADD_MEM (regs[2], 16);
ADD_STRING ("\n T2: ");
ADD_MEM (regs[3], 16);
ADD_STRING (" T3: ");
ADD_MEM (regs[4], 16);
ADD_STRING (" T4: ");
ADD_MEM (regs[5], 16);
ADD_STRING ("\n T5: ");
ADD_MEM (regs[6], 16);
ADD_STRING (" T6: ");
ADD_MEM (regs[7], 16);
ADD_STRING (" T7: ");
ADD_MEM (regs[8], 16);
ADD_STRING ("\n S0: ");
ADD_MEM (regs[9], 16);
ADD_STRING (" S1: ");
ADD_MEM (regs[10], 16);
ADD_STRING (" S2: ");
ADD_MEM (regs[11], 16);
ADD_STRING ("\n S3: ");
ADD_MEM (regs[12], 16);
ADD_STRING (" S4: ");
ADD_MEM (regs[13], 16);
ADD_STRING (" S5: ");
ADD_MEM (regs[14], 16);
ADD_STRING ("\n S6: ");
ADD_MEM (regs[15], 16);
ADD_STRING (" A0: ");
ADD_MEM (regs[16], 16);
ADD_STRING (" A1: ");
ADD_MEM (regs[17], 16);
ADD_STRING ("\n A2: ");
ADD_MEM (regs[18], 16);
ADD_STRING (" A3: ");
ADD_MEM (regs[19], 16);
ADD_STRING (" A4: ");
ADD_MEM (regs[20], 16);
ADD_STRING ("\n A5: ");
ADD_MEM (regs[21], 16);
ADD_STRING (" T8: ");
ADD_MEM (regs[22], 16);
ADD_STRING (" T9: ");
ADD_MEM (regs[23], 16);
ADD_STRING ("\n T10: ");
ADD_MEM (regs[24], 16);
ADD_STRING (" T11: ");
ADD_MEM (regs[25], 16);
ADD_STRING (" RA: ");
ADD_MEM (regs[26], 16);
ADD_STRING ("\n T12: ");
ADD_MEM (regs[27], 16);
ADD_STRING (" AT: ");
ADD_MEM (regs[28], 16);
ADD_STRING (" GP: ");
ADD_MEM (regs[29], 16);
ADD_STRING ("\n SP: ");
ADD_MEM (regs[30], 16);
ADD_STRING (" PC: ");
ADD_MEM (pc, 16);
char fpregs[31][16];
char fpcr[16];
for (int i = 0; i < 31; i++)
hexvalue (ctx->uc_mcontext.sc_fpregs[i], fpregs[i], 16);
hexvalue (ctx->uc_mcontext.sc_fpcr, fpcr, 16);
ADD_STRING ("\n\n FP0: ");
ADD_MEM (fpregs[0], 16);
ADD_STRING (" FP1: ");
ADD_MEM (fpregs[1], 16);
ADD_STRING (" FP2: ");
ADD_MEM (fpregs[2], 16);
ADD_STRING ("\n FP3: ");
ADD_MEM (fpregs[3], 16);
ADD_STRING (" FP4: ");
ADD_MEM (fpregs[4], 16);
ADD_STRING (" FP5: ");
ADD_MEM (fpregs[5], 16);
ADD_STRING ("\n FP6: ");
ADD_MEM (fpregs[6], 16);
ADD_STRING (" FP7: ");
ADD_MEM (fpregs[7], 16);
ADD_STRING (" FP8: ");
ADD_MEM (fpregs[8], 16);
ADD_STRING ("\n FP9: ");
ADD_MEM (fpregs[9], 16);
ADD_STRING (" FP10: ");
ADD_MEM (fpregs[10], 16);
ADD_STRING (" FP11: ");
ADD_MEM (fpregs[11], 16);
ADD_STRING ("\n FP12: ");
ADD_MEM (fpregs[12], 16);
ADD_STRING (" FP13: ");
ADD_MEM (fpregs[13], 16);
ADD_STRING (" FP14: ");
ADD_MEM (fpregs[14], 16);
ADD_STRING ("\n FP15: ");
ADD_MEM (fpregs[15], 16);
ADD_STRING (" FP16: ");
ADD_MEM (fpregs[16], 16);
ADD_STRING (" FP17: ");
ADD_MEM (fpregs[17], 16);
ADD_STRING ("\n FP18: ");
ADD_MEM (fpregs[18], 16);
ADD_STRING (" FP19: ");
ADD_MEM (fpregs[19], 16);
ADD_STRING (" FP20: ");
ADD_MEM (fpregs[20], 16);
ADD_STRING ("\n FP21: ");
ADD_MEM (fpregs[21], 16);
ADD_STRING (" FP22: ");
ADD_MEM (fpregs[22], 16);
ADD_STRING (" FP23: ");
ADD_MEM (fpregs[23], 16);
ADD_STRING ("\n FP24: ");
ADD_MEM (fpregs[24], 16);
ADD_STRING (" FP25: ");
ADD_MEM (fpregs[25], 16);
ADD_STRING (" FP26: ");
ADD_MEM (fpregs[26], 16);
ADD_STRING ("\n FP27: ");
ADD_MEM (fpregs[27], 16);
ADD_STRING (" FP28: ");
ADD_MEM (fpregs[28], 16);
ADD_STRING (" FP29: ");
ADD_MEM (fpregs[29], 16);
ADD_STRING ("\n FP30: ");
ADD_MEM (fpregs[30], 16);
ADD_STRING (" FPCR: ");
ADD_MEM (fpcr, 16);
char traparg[3][16];
hexvalue (ctx->uc_mcontext.sc_traparg_a0, traparg[0], 16);
hexvalue (ctx->uc_mcontext.sc_traparg_a1, traparg[1], 16);
hexvalue (ctx->uc_mcontext.sc_traparg_a2, traparg[2], 16);
ADD_STRING ("\n\n TA0: ");
ADD_MEM (traparg[0], 16);
ADD_STRING (" TA1: ");
ADD_MEM (traparg[1], 16);
ADD_STRING (" TA2: ");
ADD_MEM (traparg[2], 16);
ADD_STRING ("\n");
/* Write the stuff out. */
writev (fd, iov, nr);
}
#define REGISTER_DUMP register_dump (fd, ctx)

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@ -1,135 +0,0 @@
/* Dump registers.
Copyright (C) 1998-2022 Free Software Foundation, Inc.
This file is part of the GNU C Library.
The GNU C Library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
The GNU C Library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with the GNU C Library. If not, see
<https://www.gnu.org/licenses/>. */
#include <sys/uio.h>
#include <_itoa.h>
#include <sys/ucontext.h>
/* We will print the register dump in this format:
R0: XXXXXXXX R1: XXXXXXXX R2: XXXXXXXX R3: XXXXXXXX
R4: XXXXXXXX R5: XXXXXXXX R6: XXXXXXXX R7: XXXXXXXX
R8: XXXXXXXX R9: XXXXXXXX SL: XXXXXXXX FP: XXXXXXXX
IP: XXXXXXXX SP: XXXXXXXX LR: XXXXXXXX PC: XXXXXXXX
CPSR: XXXXXXXX
Trap: XXXXXXXX Error: XXXXXXXX OldMask: XXXXXXXX
Addr: XXXXXXXX
*/
static void
hexvalue (unsigned long int value, char *buf, size_t len)
{
char *cp = _itoa_word (value, buf + len, 16, 0);
while (cp > buf)
*--cp = '0';
}
static void
register_dump (int fd, const ucontext_t *ctx)
{
char regs[21][8];
struct iovec iov[97];
size_t nr = 0;
#define ADD_STRING(str) \
iov[nr].iov_base = (char *) str; \
iov[nr].iov_len = strlen (str); \
++nr
#define ADD_MEM(str, len) \
iov[nr].iov_base = str; \
iov[nr].iov_len = len; \
++nr
/* Generate strings of register contents. */
hexvalue (ctx->uc_mcontext.arm_r0, regs[0], 8);
hexvalue (ctx->uc_mcontext.arm_r1, regs[1], 8);
hexvalue (ctx->uc_mcontext.arm_r2, regs[2], 8);
hexvalue (ctx->uc_mcontext.arm_r3, regs[3], 8);
hexvalue (ctx->uc_mcontext.arm_r4, regs[4], 8);
hexvalue (ctx->uc_mcontext.arm_r5, regs[5], 8);
hexvalue (ctx->uc_mcontext.arm_r6, regs[6], 8);
hexvalue (ctx->uc_mcontext.arm_r7, regs[7], 8);
hexvalue (ctx->uc_mcontext.arm_r8, regs[8], 8);
hexvalue (ctx->uc_mcontext.arm_r9, regs[9], 8);
hexvalue (ctx->uc_mcontext.arm_r10, regs[10], 8);
hexvalue (ctx->uc_mcontext.arm_fp, regs[11], 8);
hexvalue (ctx->uc_mcontext.arm_ip, regs[12], 8);
hexvalue (ctx->uc_mcontext.arm_sp, regs[13], 8);
hexvalue (ctx->uc_mcontext.arm_lr, regs[14], 8);
hexvalue (ctx->uc_mcontext.arm_pc, regs[15], 8);
hexvalue (ctx->uc_mcontext.arm_cpsr, regs[16], 8);
hexvalue (ctx->uc_mcontext.trap_no, regs[17], 8);
hexvalue (ctx->uc_mcontext.error_code, regs[18], 8);
hexvalue (ctx->uc_mcontext.oldmask, regs[19], 8);
hexvalue (ctx->uc_mcontext.fault_address, regs[20], 8);
/* Generate the output. */
ADD_STRING ("Register dump:\n\n R0: ");
ADD_MEM (regs[0], 8);
ADD_STRING (" R1: ");
ADD_MEM (regs[1], 8);
ADD_STRING (" R2: ");
ADD_MEM (regs[2], 8);
ADD_STRING (" R3: ");
ADD_MEM (regs[3], 8);
ADD_STRING ("\n R4: ");
ADD_MEM (regs[4], 8);
ADD_STRING (" R5: ");
ADD_MEM (regs[5], 8);
ADD_STRING (" R6: ");
ADD_MEM (regs[6], 8);
ADD_STRING (" R7: ");
ADD_MEM (regs[7], 8);
ADD_STRING ("\n R8: ");
ADD_MEM (regs[8], 8);
ADD_STRING (" R9: ");
ADD_MEM (regs[9], 8);
ADD_STRING (" SL: ");
ADD_MEM (regs[10], 8);
ADD_STRING (" FP: ");
ADD_MEM (regs[11], 8);
ADD_STRING ("\n IP: ");
ADD_MEM (regs[12], 8);
ADD_STRING (" SP: ");
ADD_MEM (regs[13], 8);
ADD_STRING (" LR: ");
ADD_MEM (regs[14], 8);
ADD_STRING (" PC: ");
ADD_MEM (regs[15], 8);
ADD_STRING ("\n\n CPSR: ");
ADD_MEM (regs[16], 8);
ADD_STRING ("\n\n Trap: ");
ADD_MEM (regs[17], 8);
ADD_STRING (" Error: ");
ADD_MEM (regs[18], 8);
ADD_STRING (" OldMask: ");
ADD_MEM (regs[19], 8);
ADD_STRING ("\n Addr: ");
ADD_MEM (regs[20], 8);
ADD_STRING ("\n");
/* Write the stuff out. */
writev (fd, iov, nr);
}
#define REGISTER_DUMP register_dump (fd, ctx)

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@ -1,190 +0,0 @@
/* Dump registers.
Copyright (C) 2018-2022 Free Software Foundation, Inc.
This file is part of the GNU C Library.
The GNU C Library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
The GNU C Library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with the GNU C Library. If not, see
<https://www.gnu.org/licenses/>. */
#include <sys/uio.h>
#include <_itoa.h>
#include <bits/sigcontext.h>
#include <sys/ucontext.h>
/* abiv1 register dump in this format:
PSR: XXXXXXXX PC: XXXXXXXX SP: XXXXXXXX LR: XXXXXXXX
MASK: XXXXXXXX
A0: XXXXXXXX A1: XXXXXXXX A2: XXXXXXXX A3: XXXXXXXX
R6: XXXXXXXX R7: XXXXXXXX R8: XXXXXXXX R9: XXXXXXXX
R10: XXXXXXXX R11: XXXXXXXX R12: XXXXXXXX R13: XXXXXXXX
R14: XXXXXXXX R1: XXXXXXXX
abiv2 register dump in this format:
PSR: XXXXXXXX PC: XXXXXXXX SP: XXXXXXXX LR: XXXXXXXX
MASK: XXXXXXXX
A0: XXXXXXXX A1: XXXXXXXX A2: XXXXXXXX A3: XXXXXXXX
R4: XXXXXXXX R5: XXXXXXXX R6: XXXXXXXX R7: XXXXXXXX
R8: XXXXXXXX R9: XXXXXXXX R10: XXXXXXXX R11: XXXXXXXX
R12: XXXXXXXX R13: XXXXXXXX R14: XXXXXXXX R15: XXXXXXXX
R16: XXXXXXXX R17: XXXXXXXX R18: XXXXXXXX R19: XXXXXXXX
R20: XXXXXXXX R21: XXXXXXXX R22: XXXXXXXX R23: XXXXXXXX
R24: XXXXXXXX R25: XXXXXXXX R26: XXXXXXXX R27: XXXXXXXX
R28: XXXXXXXX R29: XXXXXXXX R30: XXXXXXXX R31: XXXXXXXX
*/
static void
hexvalue (unsigned long int value, char *buf, size_t len)
{
char *cp = _itoa_word (value, buf + len, 16, 0);
while (cp > buf)
*--cp = '0';
}
static void
register_dump (int fd, const struct ucontext_t *ctx)
{
char regs[35][8];
struct iovec iov[97];
size_t nr = 0;
#define ADD_STRING(str) \
iov[nr].iov_base = (char *) str; \
iov[nr].iov_len = strlen (str); \
++nr
#define ADD_MEM(str, len) \
iov[nr].iov_base = str; \
iov[nr].iov_len = len; \
++nr
/* Generate strings of register contents. */
hexvalue (ctx->uc_mcontext.__gregs.__sr, regs[0], 8);
hexvalue (ctx->uc_mcontext.__gregs.__pc, regs[1], 8);
hexvalue (ctx->uc_mcontext.__gregs.__usp, regs[2], 8);
hexvalue (ctx->uc_mcontext.__gregs.__lr, regs[3], 8);
hexvalue (ctx->uc_mcontext.__gregs.__a0, regs[4], 8);
hexvalue (ctx->uc_mcontext.__gregs.__a1, regs[5], 8);
hexvalue (ctx->uc_mcontext.__gregs.__a2, regs[6], 8);
hexvalue (ctx->uc_mcontext.__gregs.__a3, regs[7], 8);
hexvalue (ctx->uc_mcontext.__gregs.__regs[0], regs[8], 8);
hexvalue (ctx->uc_mcontext.__gregs.__regs[1], regs[9], 8);
hexvalue (ctx->uc_mcontext.__gregs.__regs[2], regs[10], 8);
hexvalue (ctx->uc_mcontext.__gregs.__regs[3], regs[11], 8);
hexvalue (ctx->uc_mcontext.__gregs.__regs[4], regs[12], 8);
hexvalue (ctx->uc_mcontext.__gregs.__regs[5], regs[13], 8);
hexvalue (ctx->uc_mcontext.__gregs.__regs[6], regs[14], 8);
hexvalue (ctx->uc_mcontext.__gregs.__regs[7], regs[15], 8);
hexvalue (ctx->uc_mcontext.__gregs.__regs[8], regs[16], 8);
hexvalue (ctx->uc_mcontext.__gregs.__regs[9], regs[17], 8);
hexvalue (ctx->uc_mcontext.__gregs.__exregs[0], regs[18], 8);
hexvalue (ctx->uc_mcontext.__gregs.__exregs[1], regs[19], 8);
hexvalue (ctx->uc_mcontext.__gregs.__exregs[2], regs[20], 8);
hexvalue (ctx->uc_mcontext.__gregs.__exregs[3], regs[21], 8);
hexvalue (ctx->uc_mcontext.__gregs.__exregs[4], regs[22], 8);
hexvalue (ctx->uc_mcontext.__gregs.__exregs[5], regs[23], 8);
hexvalue (ctx->uc_mcontext.__gregs.__exregs[6], regs[24], 8);
hexvalue (ctx->uc_mcontext.__gregs.__exregs[7], regs[25], 8);
hexvalue (ctx->uc_mcontext.__gregs.__exregs[8], regs[26], 8);
hexvalue (ctx->uc_mcontext.__gregs.__exregs[9], regs[27], 8);
hexvalue (ctx->uc_mcontext.__gregs.__exregs[10], regs[28], 8);
hexvalue (ctx->uc_mcontext.__gregs.__exregs[11], regs[29], 8);
hexvalue (ctx->uc_mcontext.__gregs.__exregs[12], regs[30], 8);
hexvalue (ctx->uc_mcontext.__gregs.__exregs[13], regs[31], 8);
hexvalue (ctx->uc_mcontext.__gregs.__exregs[14], regs[32], 8);
hexvalue (ctx->uc_mcontext.__gregs.__tls, regs[33], 8);
/* Generate the output. */
ADD_STRING ("Register dump:\n\n PSR: ");
ADD_MEM (regs[0], 8);
ADD_STRING (" PC: ");
ADD_MEM (regs[1], 8);
ADD_STRING (" SP: ");
ADD_MEM (regs[2], 8);
ADD_STRING (" LR: ");
ADD_MEM (regs[3], 8);
ADD_STRING ("\n\n A0: ");
ADD_MEM (regs[4], 8);
ADD_STRING (" A1: ");
ADD_MEM (regs[5], 8);
ADD_STRING (" A2: ");
ADD_MEM (regs[6], 8);
ADD_STRING (" A3: ");
ADD_MEM (regs[7], 8);
ADD_STRING ("\n R4: ");
ADD_MEM (regs[8], 8);
ADD_STRING (" R5: ");
ADD_MEM (regs[9], 8);
ADD_STRING (" R6: ");
ADD_MEM (regs[10], 8);
ADD_STRING (" R7: ");
ADD_MEM (regs[11], 8);
ADD_STRING ("\n R8: ");
ADD_MEM (regs[12], 8);
ADD_STRING (" R9: ");
ADD_MEM (regs[13], 8);
ADD_STRING (" R10: ");
ADD_MEM (regs[14], 8);
ADD_STRING (" R11: ");
ADD_MEM (regs[15], 8);
ADD_STRING ("\n R12: ");
ADD_MEM (regs[16], 8);
ADD_STRING (" R13: ");
ADD_MEM (regs[17], 8);
ADD_STRING (" R14: ");
ADD_MEM (regs[2], 8);
ADD_STRING (" R15: ");
ADD_MEM (regs[3], 8);
ADD_STRING ("\n R16: ");
ADD_MEM (regs[18], 8);
ADD_STRING (" R17: ");
ADD_MEM (regs[19], 8);
ADD_STRING (" R18: ");
ADD_MEM (regs[20], 8);
ADD_STRING (" R19: ");
ADD_MEM (regs[21], 8);
ADD_STRING ("\n R20: ");
ADD_MEM (regs[22], 8);
ADD_STRING (" R21: ");
ADD_MEM (regs[23], 8);
ADD_STRING (" R22: ");
ADD_MEM (regs[24], 8);
ADD_STRING (" R23: ");
ADD_MEM (regs[25], 8);
ADD_STRING ("\n R24: ");
ADD_MEM (regs[26], 8);
ADD_STRING (" R25: ");
ADD_MEM (regs[27], 8);
ADD_STRING (" R26: ");
ADD_MEM (regs[28], 8);
ADD_STRING (" R27: ");
ADD_MEM (regs[29], 8);
ADD_STRING ("\n R28: ");
ADD_MEM (regs[30], 8);
ADD_STRING (" R29: ");
ADD_MEM (regs[31], 8);
ADD_STRING (" R30: ");
ADD_MEM (regs[32], 8);
ADD_STRING (" R31: ");
ADD_MEM (regs[33], 8);
ADD_STRING ("\n");
/* Write the stuff out. */
writev (fd, iov, nr);
}
#define REGISTER_DUMP register_dump (fd, ctx)

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@ -1,250 +0,0 @@
/* Dump registers.
Copyright (C) 1998-2022 Free Software Foundation, Inc.
This file is part of the GNU C Library.
The GNU C Library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
The GNU C Library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with the GNU C Library; if not, see
<https://www.gnu.org/licenses/>. */
#include <sys/uio.h>
#include <_itoa.h>
/* We will print the register dump in this format:
EAX: XXXXXXXX EBX: XXXXXXXX ECX: XXXXXXXX EDX: XXXXXXXX
ESI: XXXXXXXX EDI: XXXXXXXX EBP: XXXXXXXX ESP: XXXXXXXX
EIP: XXXXXXXX EFLAGS: XXXXXXXX
CS: XXXX DS: XXXX ES: XXXX FS: XXXX GS: XXXX SS: XXXX
Trap: XXXXXXXX Error: XXXXXXXX OldMask: XXXXXXXX
ESP/SIGNAL: XXXXXXXX CR2: XXXXXXXX
FPUCW: XXXXXXXX FPUSW: XXXXXXXX TAG: XXXXXXXX
IPOFF: XXXXXXXX CSSEL: XXXX DATAOFF: XXXXXXXX DATASEL: XXXX
ST(0) XXXX XXXXXXXXXXXXXXXX ST(1) XXXX XXXXXXXXXXXXXXXX
ST(2) XXXX XXXXXXXXXXXXXXXX ST(3) XXXX XXXXXXXXXXXXXXXX
ST(4) XXXX XXXXXXXXXXXXXXXX ST(5) XXXX XXXXXXXXXXXXXXXX
ST(6) XXXX XXXXXXXXXXXXXXXX ST(7) XXXX XXXXXXXXXXXXXXXX
*/
static void
hexvalue (unsigned long int value, char *buf, size_t len)
{
char *cp = _itoa_word (value, buf + len, 16, 0);
while (cp > buf)
*--cp = '0';
}
static void
register_dump (int fd, struct ucontext_t *ctx)
{
char regs[21][8];
char fpregs[31][8];
struct iovec iov[97];
size_t nr = 0;
#define ADD_STRING(str) \
iov[nr].iov_base = (char *) str; \
iov[nr].iov_len = strlen (str); \
++nr
#define ADD_MEM(str, len) \
iov[nr].iov_base = str; \
iov[nr].iov_len = len; \
++nr
/* Generate strings of register contents. */
hexvalue (ctx->uc_mcontext.gregs[REG_EAX], regs[0], 8);
hexvalue (ctx->uc_mcontext.gregs[REG_EBX], regs[1], 8);
hexvalue (ctx->uc_mcontext.gregs[REG_ECX], regs[2], 8);
hexvalue (ctx->uc_mcontext.gregs[REG_EDX], regs[3], 8);
hexvalue (ctx->uc_mcontext.gregs[REG_ESI], regs[4], 8);
hexvalue (ctx->uc_mcontext.gregs[REG_EDI], regs[5], 8);
hexvalue (ctx->uc_mcontext.gregs[REG_EBP], regs[6], 8);
hexvalue (ctx->uc_mcontext.gregs[REG_ESP], regs[7], 8);
hexvalue (ctx->uc_mcontext.gregs[REG_EIP], regs[8], 8);
hexvalue (ctx->uc_flags, regs[9], 8);
hexvalue (ctx->uc_mcontext.gregs[REG_CS], regs[10], 4);
hexvalue (ctx->uc_mcontext.gregs[REG_DS], regs[11], 4);
hexvalue (ctx->uc_mcontext.gregs[REG_ES], regs[12], 4);
hexvalue (ctx->uc_mcontext.gregs[REG_FS], regs[13], 4);
hexvalue (ctx->uc_mcontext.gregs[REG_GS], regs[14], 4);
hexvalue (ctx->uc_mcontext.gregs[REG_SS], regs[15], 4);
hexvalue (ctx->uc_mcontext.gregs[REG_TRAPNO], regs[16], 8);
hexvalue (ctx->uc_mcontext.gregs[REG_ERR], regs[17], 8);
hexvalue (ctx->uc_mcontext.oldmask, regs[18], 8);
hexvalue (ctx->uc_mcontext.gregs[REG_UESP], regs[19], 8);
hexvalue (ctx->uc_mcontext.cr2, regs[20], 8);
/* Generate the output. */
ADD_STRING ("Register dump:\n\n EAX: ");
ADD_MEM (regs[0], 8);
ADD_STRING (" EBX: ");
ADD_MEM (regs[1], 8);
ADD_STRING (" ECX: ");
ADD_MEM (regs[2], 8);
ADD_STRING (" EDX: ");
ADD_MEM (regs[3], 8);
ADD_STRING ("\n ESI: ");
ADD_MEM (regs[4], 8);
ADD_STRING (" EDI: ");
ADD_MEM (regs[5], 8);
ADD_STRING (" EBP: ");
ADD_MEM (regs[6], 8);
ADD_STRING (" ESP: ");
ADD_MEM (regs[7], 8);
ADD_STRING ("\n\n EIP: ");
ADD_MEM (regs[8], 8);
ADD_STRING (" EFLAGS: ");
ADD_MEM (regs[9], 8);
ADD_STRING ("\n\n CS: ");
ADD_MEM (regs[10], 4);
ADD_STRING (" DS: ");
ADD_MEM (regs[11], 4);
ADD_STRING (" ES: ");
ADD_MEM (regs[12], 4);
ADD_STRING (" FS: ");
ADD_MEM (regs[13], 4);
ADD_STRING (" GS: ");
ADD_MEM (regs[14], 4);
ADD_STRING (" SS: ");
ADD_MEM (regs[15], 4);
ADD_STRING ("\n\n Trap: ");
ADD_MEM (regs[16], 8);
ADD_STRING (" Error: ");
ADD_MEM (regs[17], 8);
ADD_STRING (" OldMask: ");
ADD_MEM (regs[18], 8);
ADD_STRING ("\n ESP/signal: ");
ADD_MEM (regs[19], 8);
ADD_STRING (" CR2: ");
ADD_MEM (regs[20], 8);
/* Generate output for the FPU control/status registers. */
hexvalue (ctx->__fpregs_mem.cw, fpregs[0], 8);
hexvalue (ctx->__fpregs_mem.sw, fpregs[1], 8);
hexvalue (ctx->__fpregs_mem.tag, fpregs[2], 8);
hexvalue (ctx->__fpregs_mem.ipoff, fpregs[3], 8);
hexvalue (ctx->__fpregs_mem.cssel, fpregs[4], 4);
hexvalue (ctx->__fpregs_mem.dataoff, fpregs[5], 8);
hexvalue (ctx->__fpregs_mem.datasel, fpregs[6], 4);
ADD_STRING ("\n\n FPUCW: ");
ADD_MEM (fpregs[0], 8);
ADD_STRING (" FPUSW: ");
ADD_MEM (fpregs[1], 8);
ADD_STRING (" TAG: ");
ADD_MEM (fpregs[2], 8);
ADD_STRING ("\n IPOFF: ");
ADD_MEM (fpregs[3], 8);
ADD_STRING (" CSSEL: ");
ADD_MEM (fpregs[4], 4);
ADD_STRING (" DATAOFF: ");
ADD_MEM (fpregs[5], 8);
ADD_STRING (" DATASEL: ");
ADD_MEM (fpregs[6], 4);
/* Now the real FPU registers. */
hexvalue (ctx->__fpregs_mem._st[0].exponent, fpregs[7], 8);
hexvalue (ctx->__fpregs_mem._st[0].significand[3] << 16
| ctx->__fpregs_mem._st[0].significand[2], fpregs[8], 8);
hexvalue (ctx->__fpregs_mem._st[0].significand[1] << 16
| ctx->__fpregs_mem._st[0].significand[0], fpregs[9], 8);
hexvalue (ctx->__fpregs_mem._st[1].exponent, fpregs[10], 8);
hexvalue (ctx->__fpregs_mem._st[1].significand[3] << 16
| ctx->__fpregs_mem._st[1].significand[2], fpregs[11], 8);
hexvalue (ctx->__fpregs_mem._st[1].significand[1] << 16
| ctx->__fpregs_mem._st[1].significand[0], fpregs[12], 8);
hexvalue (ctx->__fpregs_mem._st[2].exponent, fpregs[13], 8);
hexvalue (ctx->__fpregs_mem._st[2].significand[3] << 16
| ctx->__fpregs_mem._st[2].significand[2], fpregs[14], 8);
hexvalue (ctx->__fpregs_mem._st[2].significand[1] << 16
| ctx->__fpregs_mem._st[2].significand[0], fpregs[15], 8);
hexvalue (ctx->__fpregs_mem._st[3].exponent, fpregs[16], 8);
hexvalue (ctx->__fpregs_mem._st[3].significand[3] << 16
| ctx->__fpregs_mem._st[3].significand[2], fpregs[17], 8);
hexvalue (ctx->__fpregs_mem._st[3].significand[1] << 16
| ctx->__fpregs_mem._st[3].significand[0], fpregs[18], 8);
hexvalue (ctx->__fpregs_mem._st[4].exponent, fpregs[19], 8);
hexvalue (ctx->__fpregs_mem._st[4].significand[3] << 16
| ctx->__fpregs_mem._st[4].significand[2], fpregs[20], 8);
hexvalue (ctx->__fpregs_mem._st[4].significand[1] << 16
| ctx->__fpregs_mem._st[4].significand[0], fpregs[21], 8);
hexvalue (ctx->__fpregs_mem._st[5].exponent, fpregs[22], 8);
hexvalue (ctx->__fpregs_mem._st[5].significand[3] << 16
| ctx->__fpregs_mem._st[5].significand[2], fpregs[23], 8);
hexvalue (ctx->__fpregs_mem._st[5].significand[1] << 16
| ctx->__fpregs_mem._st[5].significand[0], fpregs[24], 8);
hexvalue (ctx->__fpregs_mem._st[6].exponent, fpregs[25], 8);
hexvalue (ctx->__fpregs_mem._st[6].significand[3] << 16
| ctx->__fpregs_mem._st[6].significand[2], fpregs[26], 8);
hexvalue (ctx->__fpregs_mem._st[6].significand[1] << 16
| ctx->__fpregs_mem._st[6].significand[0], fpregs[27], 8);
hexvalue (ctx->__fpregs_mem._st[7].exponent, fpregs[28], 8);
hexvalue (ctx->__fpregs_mem._st[7].significand[3] << 16
| ctx->__fpregs_mem._st[7].significand[2], fpregs[29], 8);
hexvalue (ctx->__fpregs_mem._st[7].significand[1] << 16
| ctx->__fpregs_mem._st[7].significand[0], fpregs[30], 8);
ADD_STRING ("\n\n ST(0) ");
ADD_MEM (fpregs[7], 4);
ADD_STRING (" ");
ADD_MEM (fpregs[8], 8);
ADD_MEM (fpregs[9], 8);
ADD_STRING (" ST(1) ");
ADD_MEM (fpregs[10], 4);
ADD_STRING (" ");
ADD_MEM (fpregs[11], 8);
ADD_MEM (fpregs[12], 8);
ADD_STRING ("\n ST(2) ");
ADD_MEM (fpregs[13], 4);
ADD_STRING (" ");
ADD_MEM (fpregs[14], 8);
ADD_MEM (fpregs[15], 8);
ADD_STRING (" ST(3) ");
ADD_MEM (fpregs[16], 4);
ADD_STRING (" ");
ADD_MEM (fpregs[17], 8);
ADD_MEM (fpregs[18], 8);
ADD_STRING ("\n ST(4) ");
ADD_MEM (fpregs[19], 4);
ADD_STRING (" ");
ADD_MEM (fpregs[20], 8);
ADD_MEM (fpregs[21], 8);
ADD_STRING (" ST(5) ");
ADD_MEM (fpregs[22], 4);
ADD_STRING (" ");
ADD_MEM (fpregs[23], 8);
ADD_MEM (fpregs[24], 8);
ADD_STRING ("\n ST(6) ");
ADD_MEM (fpregs[25], 4);
ADD_STRING (" ");
ADD_MEM (fpregs[26], 8);
ADD_MEM (fpregs[27], 8);
ADD_STRING (" ST(7) ");
ADD_MEM (fpregs[28], 4);
ADD_STRING (" ");
ADD_MEM (fpregs[29], 8);
ADD_MEM (fpregs[30], 8);
ADD_STRING ("\n");
/* Write the stuff out. */
writev (fd, iov, nr);
}
#define REGISTER_DUMP register_dump (fd, ctx)

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@ -1,180 +0,0 @@
/* Dump registers.
Copyright (C) 2004-2022 Free Software Foundation, Inc.
This file is part of the GNU C Library.
The GNU C Library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
The GNU C Library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with the GNU C Library; if not, see
<https://www.gnu.org/licenses/>. */
#include <string.h>
#include <sys/uio.h>
#include <_itoa.h>
/* We will print the register dump in this format:
GP: XXXXXXXXXXXXXXXX R2: XXXXXXXXXXXXXXXX R3: XXXXXXXXXXXXXXXX
R8: XXXXXXXXXXXXXXXX R9: XXXXXXXXXXXXXXXX R10: XXXXXXXXXXXXXXXX
R11: XXXXXXXXXXXXXXXX SP: XXXXXXXXXXXXXXXX TP: XXXXXXXXXXXXXXXX
R14: XXXXXXXXXXXXXXXX R15: XXXXXXXXXXXXXXXX R16: XXXXXXXXXXXXXXXX
R17: XXXXXXXXXXXXXXXX R18: XXXXXXXXXXXXXXXX R19: XXXXXXXXXXXXXXXX
R20: XXXXXXXXXXXXXXXX R21: XXXXXXXXXXXXXXXX R22: XXXXXXXXXXXXXXXX
R23: XXXXXXXXXXXXXXXX R24: XXXXXXXXXXXXXXXX R25: XXXXXXXXXXXXXXXX
R26: XXXXXXXXXXXXXXXX R27: XXXXXXXXXXXXXXXX R28: XXXXXXXXXXXXXXXX
R29: XXXXXXXXXXXXXXXX R30: XXXXXXXXXXXXXXXX R31: XXXXXXXXXXXXXXXX
RP: XXXXXXXXXXXXXXXX B6: XXXXXXXXXXXXXXXX B7: XXXXXXXXXXXXXXXX
IP: XXXXXXXXXXXXXXXX RSC: XXXXXXXXXXXXXXXX PR: XXXXXXXXXXXXXXXX
PFS: XXXXXXXXXXXXXXXX UNAT: XXXXXXXXXXXXXXXX CFM: XXXXXXXXXXXXXXXX
CCV: XXXXXXXXXXXXXXXX FPSR: XXXXXXXXXXXXXXXX
F32: XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX F33: XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
F34: XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX F35: XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
...
F124: XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX F125: XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
F126: XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX F127: XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
*/
static void
hexvalue (unsigned long int value, char *buf, size_t len)
{
char *cp = _itoa_word (value, buf + len, 16, 0);
while (cp > buf)
*--cp = '0';
}
static void
regvalue (unsigned long int *value, char letter, int regno, char *buf)
{
int n = regno >= 100 ? 3 : regno >= 10 ? 2 : 1;
buf[0] = ' ';
buf[1] = letter;
_itoa_word (regno, buf + 2 + n, 10, 0);
buf[2 + n] = ':';
for (++n; n <= 4; ++n)
buf[2 + n] = ' ';
hexvalue (value[0], buf + 7, 16);
if (letter == 'F')
{
hexvalue (value[1], buf + 7 + 16, 16);
buf[7 + 32] = '\n';
}
else
buf[7 + 16] = '\n';
}
static void
register_dump (int fd, struct sigcontext *ctx)
{
char gpregs[32 - 5][8 + 16];
char fpregs[128 - 32][8 + 32];
char bpregs[3][8 + 16];
char spregs[8][16];
struct iovec iov[146];
size_t nr = 0;
int i;
#define ADD_STRING(str) \
do \
{ \
iov[nr].iov_base = (char *) str; \
iov[nr].iov_len = strlen (str); \
++nr; \
} \
while (0)
#define ADD_MEM(str, len) \
do \
{ \
iov[nr].iov_base = str; \
iov[nr].iov_len = len; \
++nr; \
} \
while (0)
/* Generate strings of register contents. */
for (i = 1; i < 4; ++i)
{
regvalue (&ctx->sc_gr[i], 'R', i, gpregs[i - 1]);
if (ctx->sc_nat & (1L << i))
memcpy (gpregs[i - 1] + 7, "NaT ", 16);
}
for (i = 8; i < 32; ++i)
{
regvalue (&ctx->sc_gr[i], 'R', i, gpregs[i - 5]);
if (ctx->sc_nat & (1L << i))
memcpy (gpregs[i - 1] + 7, "NaT ", 16);
}
memcpy (gpregs[0] + 1, "GP:", 3);
memcpy (gpregs[7] + 1, "SP: ", 4);
memcpy (gpregs[8] + 1, "TP: ", 4);
regvalue (&ctx->sc_br[0], 'B', 0, bpregs[0]);
regvalue (&ctx->sc_br[6], 'B', 6, bpregs[1]);
regvalue (&ctx->sc_br[7], 'B', 7, bpregs[2]);
memcpy (bpregs[0] + 1, "RP:", 3);
if (ctx->sc_flags & IA64_SC_FLAG_FPH_VALID)
for (i = 32; i < 128; ++i)
regvalue (&ctx->sc_fr[i].u.bits[0], 'F', i, fpregs[i - 32]);
hexvalue (ctx->sc_ip, spregs[0], sizeof (spregs[0]));
hexvalue (ctx->sc_ar_rsc, spregs[1], sizeof (spregs[1]));
hexvalue (ctx->sc_pr, spregs[2], sizeof (spregs[2]));
hexvalue (ctx->sc_ar_pfs, spregs[3], sizeof (spregs[3]));
hexvalue (ctx->sc_ar_unat, spregs[4], sizeof (spregs[4]));
hexvalue (ctx->sc_cfm, spregs[5], sizeof (spregs[5]));
hexvalue (ctx->sc_ar_ccv, spregs[6], sizeof (spregs[6]));
hexvalue (ctx->sc_ar_fpsr, spregs[7], sizeof (spregs[7]));
/* Generate the output. */
ADD_STRING ("Register dump:\n\n");
for (i = 0; i < 32 - 5; ++i)
ADD_MEM (gpregs[i], sizeof (gpregs[0]) - 1 + ((i % 3) == 2));
ADD_STRING ("\n");
for (i = 0; i < 3; ++i)
ADD_MEM (bpregs[i], sizeof (bpregs[0]) - 1);
ADD_STRING ("\n\n IP: ");
ADD_MEM (spregs[0], sizeof (spregs[0]));
ADD_STRING (" RSC: ");
ADD_MEM (spregs[1], sizeof (spregs[0]));
ADD_STRING (" PR: ");
ADD_MEM (spregs[2], sizeof (spregs[0]));
ADD_STRING ("\n PFS: ");
ADD_MEM (spregs[3], sizeof (spregs[0]));
ADD_STRING (" UNAT: ");
ADD_MEM (spregs[4], sizeof (spregs[0]));
ADD_STRING (" CFM: ");
ADD_MEM (spregs[5], sizeof (spregs[0]));
ADD_STRING ("\n CCV: ");
ADD_MEM (spregs[6], sizeof (spregs[0]));
ADD_STRING (" FPSR: ");
ADD_MEM (spregs[7], sizeof (spregs[0]));
ADD_STRING ("\n");
if (ctx->sc_flags & IA64_SC_FLAG_FPH_VALID)
{
ADD_STRING ("\n");
for (i = 0; i < 128 - 32; ++i)
ADD_MEM (fpregs[i], sizeof (fpregs[0]) - 1 + (i & 1));
}
/* Write the stuff out. */
writev (fd, iov, nr);
}
#define REGISTER_DUMP register_dump (fd, ctx)

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@ -1,176 +0,0 @@
/* Dump registers.
Copyright (C) 1998-2022 Free Software Foundation, Inc.
This file is part of the GNU C Library.
The GNU C Library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
The GNU C Library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with the GNU C Library. If not, see
<https://www.gnu.org/licenses/>. */
#include <stddef.h>
#include <sys/uio.h>
#include <_itoa.h>
/* We will print the register dump in this format:
D0: XXXXXXXX D1: XXXXXXXX D2: XXXXXXXX D3: XXXXXXXX
D4: XXXXXXXX D5: XXXXXXXX D6: XXXXXXXX D7: XXXXXXXX
A0: XXXXXXXX A1: XXXXXXXX A2: XXXXXXXX A3: XXXXXXXX
A4: XXXXXXXX A5: XXXXXXXX A6: XXXXXXXX A7: XXXXXXXX
PC: XXXXXXXX SR: XXXX
OldMask: XXXXXXXX Vector: XXXX
FP0: XXXXXXXXXXXXXXXXXXXXXXXX FP1: XXXXXXXXXXXXXXXXXXXXXXXX
FP2: XXXXXXXXXXXXXXXXXXXXXXXX FP3: XXXXXXXXXXXXXXXXXXXXXXXX
FP4: XXXXXXXXXXXXXXXXXXXXXXXX FP5: XXXXXXXXXXXXXXXXXXXXXXXX
FP6: XXXXXXXXXXXXXXXXXXXXXXXX FP7: XXXXXXXXXXXXXXXXXXXXXXXX
FPCR: XXXXXXXX FPSR: XXXXXXXX FPIAR: XXXXXXXX
*/
#define FPCONTEXT_SIZE 216
#define uc_formatvec __glibc_reserved1[FPCONTEXT_SIZE/4]
#define uc_oldmask uc_sigmask.__val[0]
static void
hexvalue (unsigned long int value, char *buf, size_t len)
{
char *cp = _itoa_word (value, buf + len, 16, 0);
while (cp > buf)
*--cp = '0';
}
static void
register_dump (int fd, struct ucontext_t *ctx)
{
char regs[20][8];
char fpregs[11][24];
struct iovec iov[63], *next_iov = iov;
int i, j, fpreg_size;
#define ADD_STRING(str) \
next_iov->iov_base = (char *) (str); \
next_iov->iov_len = strlen (str); \
++next_iov
#define ADD_MEM(str, len) \
next_iov->iov_base = (str); \
next_iov->iov_len = (len); \
++next_iov
#ifdef __mcoldfire__
fpreg_size = 16;
#else
fpreg_size = 24;
#endif
/* Generate strings of register contents. */
hexvalue (ctx->uc_mcontext.gregs[R_D0], regs[0], 8);
hexvalue (ctx->uc_mcontext.gregs[R_D1], regs[1], 8);
hexvalue (ctx->uc_mcontext.gregs[R_D2], regs[2], 8);
hexvalue (ctx->uc_mcontext.gregs[R_D3], regs[3], 8);
hexvalue (ctx->uc_mcontext.gregs[R_D4], regs[4], 8);
hexvalue (ctx->uc_mcontext.gregs[R_D5], regs[5], 8);
hexvalue (ctx->uc_mcontext.gregs[R_D6], regs[6], 8);
hexvalue (ctx->uc_mcontext.gregs[R_D7], regs[7], 8);
hexvalue (ctx->uc_mcontext.gregs[R_A0], regs[8], 8);
hexvalue (ctx->uc_mcontext.gregs[R_A1], regs[9], 8);
hexvalue (ctx->uc_mcontext.gregs[R_A2], regs[10], 8);
hexvalue (ctx->uc_mcontext.gregs[R_A3], regs[11], 8);
hexvalue (ctx->uc_mcontext.gregs[R_A4], regs[12], 8);
hexvalue (ctx->uc_mcontext.gregs[R_A5], regs[13], 8);
hexvalue (ctx->uc_mcontext.gregs[R_A6], regs[14], 8);
hexvalue (ctx->uc_mcontext.gregs[R_SP], regs[15], 8);
hexvalue (ctx->uc_mcontext.gregs[R_PC], regs[16], 8);
hexvalue (ctx->uc_mcontext.gregs[R_PS], regs[17], 4);
hexvalue (ctx->uc_oldmask, regs[18], 8);
hexvalue (ctx->uc_formatvec & 0xfff, regs[19], 4);
for (i = 0; i < 8; i++)
for (j = 0; j < fpreg_size; j += 8)
hexvalue (ctx->uc_mcontext.fpregs.f_fpregs[i][j/8], fpregs[i] + j, 8);
hexvalue (ctx->uc_mcontext.fpregs.f_pcr, fpregs[8], 8);
hexvalue (ctx->uc_mcontext.fpregs.f_psr, fpregs[9], 8);
hexvalue (ctx->uc_mcontext.fpregs.f_fpiaddr, fpregs[10], 8);
/* Generate the output. */
ADD_STRING ("Register dump:\n\n D0: ");
ADD_MEM (regs[0], 8);
ADD_STRING (" D1: ");
ADD_MEM (regs[1], 8);
ADD_STRING (" D2: ");
ADD_MEM (regs[2], 8);
ADD_STRING (" D3: ");
ADD_MEM (regs[3], 8);
ADD_STRING ("\n D4: ");
ADD_MEM (regs[4], 8);
ADD_STRING (" D5: ");
ADD_MEM (regs[5], 8);
ADD_STRING (" D6: ");
ADD_MEM (regs[6], 8);
ADD_STRING (" D7: ");
ADD_MEM (regs[7], 8);
ADD_STRING ("\n A0: ");
ADD_MEM (regs[8], 8);
ADD_STRING (" A1: ");
ADD_MEM (regs[9], 8);
ADD_STRING (" A2: ");
ADD_MEM (regs[10], 8);
ADD_STRING (" A3: ");
ADD_MEM (regs[11], 8);
ADD_STRING ("\n A4: ");
ADD_MEM (regs[12], 8);
ADD_STRING (" A5: ");
ADD_MEM (regs[13], 8);
ADD_STRING (" A6: ");
ADD_MEM (regs[14], 8);
ADD_STRING (" A7: ");
ADD_MEM (regs[15], 8);
ADD_STRING ("\n PC: ");
ADD_MEM (regs[16], 8);
ADD_STRING (" SR: ");
ADD_MEM (regs[17], 4);
ADD_STRING ("\n\n OldMask: ");
ADD_MEM (regs[18], 8);
ADD_STRING (" Vector: ");
ADD_MEM (regs[19], 4);
ADD_STRING ("\n\n FP0: ");
ADD_MEM (fpregs[0], fpreg_size);
ADD_STRING (" FP1: ");
ADD_MEM (fpregs[1], fpreg_size);
ADD_STRING ("\n FP2: ");
ADD_MEM (fpregs[2], fpreg_size);
ADD_STRING (" FP3: ");
ADD_MEM (fpregs[3], fpreg_size);
ADD_STRING ("\n FP4: ");
ADD_MEM (fpregs[4], fpreg_size);
ADD_STRING (" FP5: ");
ADD_MEM (fpregs[5], fpreg_size);
ADD_STRING ("\n FP6: ");
ADD_MEM (fpregs[6], fpreg_size);
ADD_STRING (" FP7: ");
ADD_MEM (fpregs[7], fpreg_size);
ADD_STRING ("\n FPCR: ");
ADD_MEM (fpregs[8], 8);
ADD_STRING (" FPSR: ");
ADD_MEM (fpregs[9], 8);
ADD_STRING (" FPIAR: ");
ADD_MEM (fpregs[10], 8);
ADD_STRING ("\n");
/* Write the stuff out. */
writev (fd, iov, next_iov - iov);
}
#define REGISTER_DUMP register_dump (fd, ctx)

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@ -1,120 +0,0 @@
/* Dump registers.
Copyright (C) 2000-2022 Free Software Foundation, Inc.
This file is part of the GNU C Library.
The GNU C Library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
The GNU C Library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with the GNU C Library. If not, see
<https://www.gnu.org/licenses/>. */
#include <sgidefs.h>
#include <sys/uio.h>
#include <_itoa.h>
#if _MIPS_SIM == _ABIO32
# define CTX_TYPE struct sigcontext *
# define CTX_REG(ctx, i) ((ctx)->sc_regs[(i)])
# define CTX_PC(ctx) ((ctx)->sc_pc)
# define CTX_MDHI(ctx) ((ctx)->sc_mdhi)
# define CTX_MDLO(ctx) ((ctx)->sc_mdlo)
# define REG_HEX_SIZE 8
#else
# define CTX_TYPE ucontext_t *
# define CTX_REG(ctx, i) ((ctx)->uc_mcontext.gregs[(i)])
# define CTX_PC(ctx) ((ctx)->uc_mcontext.pc)
# define CTX_MDHI(ctx) ((ctx)->uc_mcontext.mdhi)
# define CTX_MDLO(ctx) ((ctx)->uc_mcontext.mdhi)
# define REG_HEX_SIZE 16
#endif
/* We will print the register dump in this format:
R0 XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX
R8 XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX
R16 XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX
R24 XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX
pc lo hi
XXXXXXXX XXXXXXXX XXXXXXXX
The FPU registers will not be printed.
*/
static void
hexvalue (_ITOA_WORD_TYPE value, char *buf, size_t len)
{
char *cp = _itoa_word (value, buf + len, 16, 0);
while (cp > buf)
*--cp = '0';
}
static void
register_dump (int fd, CTX_TYPE ctx)
{
char regs[38][REG_HEX_SIZE];
struct iovec iov[38 * 2 + 10];
size_t nr = 0;
int i;
#define ADD_STRING(str) \
iov[nr].iov_base = (char *) str; \
iov[nr].iov_len = strlen (str); \
++nr
#define ADD_MEM(str, len) \
iov[nr].iov_base = str; \
iov[nr].iov_len = len; \
++nr
/* Generate strings of register contents. */
for (i = 0; i < 32; i++)
hexvalue (CTX_REG (ctx, i), regs[i], REG_HEX_SIZE);
hexvalue (CTX_PC (ctx), regs[32], REG_HEX_SIZE);
hexvalue (CTX_MDHI (ctx), regs[33], REG_HEX_SIZE);
hexvalue (CTX_MDLO (ctx), regs[34], REG_HEX_SIZE);
/* Generate the output. */
ADD_STRING ("Register dump:\n\n R0 ");
for (i = 0; i < 8; i++)
{
ADD_MEM (regs[i], REG_HEX_SIZE);
ADD_STRING (" ");
}
ADD_STRING ("\n R8 ");
for (i = 8; i < 16; i++)
{
ADD_MEM (regs[i], REG_HEX_SIZE);
ADD_STRING (" ");
}
ADD_STRING ("\n R16 ");
for (i = 16; i < 24; i++)
{
ADD_MEM (regs[i], REG_HEX_SIZE);
ADD_STRING (" ");
}
ADD_STRING ("\n R24 ");
for (i = 24; i < 32; i++)
{
ADD_MEM (regs[i], REG_HEX_SIZE);
ADD_STRING (" ");
}
ADD_STRING ("\n pc lo hi\n ");
for (i = 32; i < 35; i++)
{
ADD_MEM (regs[i], REG_HEX_SIZE);
ADD_STRING (" ");
}
ADD_STRING ("\n");
/* Write the stuff out. */
writev (fd, iov, nr);
}
#define REGISTER_DUMP register_dump (fd, ctx)

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/* Dump registers.
Copyright (C) 2000-2022 Free Software Foundation, Inc.
This file is part of the GNU C Library.
The GNU C Library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
The GNU C Library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with the GNU C Library. If not, see
<https://www.gnu.org/licenses/>. */
#include <unistd.h>
#include <string.h>
#include <_itoa.h>
static void
hexvalue (unsigned long int value, char *buf, size_t len)
{
char *cp = _itoa_word (value, buf + len, 16, 0);
while (cp > buf)
*--cp = '0';
}
#define REGDUMP_NREGS 32
#define REGDUMP_PER_LINE (80 / (__WORDSIZE / 4 + 4))
static void
register_dump (int fd, ucontext_t *ctx)
{
int i;
char regvalue[__WORDSIZE / 4 + 1];
char str[82 * ((REGDUMP_NREGS + REGDUMP_PER_LINE - 1) / REGDUMP_PER_LINE)];
static const char names[REGDUMP_NREGS][4] = {
"pc", "ra", "sp", "gp", "tp", "t0", "t1", "t2",
"s0", "s1", "a0", "a1", "a2", "a3", "a4", "a5",
"a6", "a7", "s2", "s3", "s4", "s5", "s6", "s7",
"s8", "s9", "sA", "sB", "t3", "t4", "t5", "t6"
};
str[0] = 0;
for (i = 0; i < REGDUMP_NREGS; i++)
{
strcat (str, names[i]);
strcat (str, " ");
hexvalue (ctx->uc_mcontext.__gregs[i], regvalue, __WORDSIZE / 4);
strcat (str, regvalue);
if ((i + 1) % REGDUMP_PER_LINE == 0)
strcat (str, "\n");
}
write (fd, str, strlen (str));
}
#define REGISTER_DUMP register_dump (fd, ctx)

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/* Dump registers.
Copyright (C) 2000-2022 Free Software Foundation, Inc.
This file is part of the GNU C Library.
The GNU C Library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
The GNU C Library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with the GNU C Library; if not, see
<https://www.gnu.org/licenses/>. */
#include <sys/uio.h>
#include <_itoa.h>
/* We will print the register dump in this format:
GPR0: XXXXXXXX GPR1: XXXXXXXX GPR2: XXXXXXXX GPR3: XXXXXXXX
GPR4: XXXXXXXX GPR5: XXXXXXXX GPR6: XXXXXXXX GPR7: XXXXXXXX
GPR8: XXXXXXXX GPR9: XXXXXXXX GPRA: XXXXXXXX GPRB: XXXXXXXX
GPRC: XXXXXXXX GPRD: XXXXXXXX GPRE: XXXXXXXX GPRF: XXXXXXXX
PSW.MASK: XXXXXXXX PSW.ADDR: XXXXXXXX
ST(0) XXXX XXXXXXXXXXXXXXXX ST(1) XXXX XXXXXXXXXXXXXXXX
ST(2) XXXX XXXXXXXXXXXXXXXX ST(3) XXXX XXXXXXXXXXXXXXXX
ST(4) XXXX XXXXXXXXXXXXXXXX ST(5) XXXX XXXXXXXXXXXXXXXX
ST(6) XXXX XXXXXXXXXXXXXXXX ST(7) XXXX XXXXXXXXXXXXXXXX
*/
static void
hexvalue (unsigned long int value, char *buf, size_t len)
{
char *cp = _itoa_word (value, buf + len, 16, 0);
while (cp > buf)
*--cp = '0';
}
static void
register_dump (int fd, struct ucontext_t *ctx)
{
char regs[19][8];
struct iovec iov[40];
size_t nr = 0;
#define ADD_STRING(str) \
iov[nr].iov_base = (char *) str; \
iov[nr].iov_len = strlen (str); \
++nr
#define ADD_MEM(str, len) \
iov[nr].iov_base = str; \
iov[nr].iov_len = len; \
++nr
/* Generate strings of register contents. */
hexvalue (ctx->uc_mcontext.gregs[0], regs[0], 8);
hexvalue (ctx->uc_mcontext.gregs[1], regs[1], 8);
hexvalue (ctx->uc_mcontext.gregs[2], regs[2], 8);
hexvalue (ctx->uc_mcontext.gregs[3], regs[3], 8);
hexvalue (ctx->uc_mcontext.gregs[4], regs[4], 8);
hexvalue (ctx->uc_mcontext.gregs[5], regs[5], 8);
hexvalue (ctx->uc_mcontext.gregs[6], regs[6], 8);
hexvalue (ctx->uc_mcontext.gregs[7], regs[7], 8);
hexvalue (ctx->uc_mcontext.gregs[8], regs[8], 8);
hexvalue (ctx->uc_mcontext.gregs[9], regs[9], 8);
hexvalue (ctx->uc_mcontext.gregs[10], regs[10], 8);
hexvalue (ctx->uc_mcontext.gregs[11], regs[11], 8);
hexvalue (ctx->uc_mcontext.gregs[12], regs[12], 8);
hexvalue (ctx->uc_mcontext.gregs[13], regs[13], 8);
hexvalue (ctx->uc_mcontext.gregs[14], regs[14], 8);
hexvalue (ctx->uc_mcontext.gregs[15], regs[15], 8);
hexvalue (ctx->uc_mcontext.psw.mask, regs[16], 8);
hexvalue (ctx->uc_mcontext.psw.addr, regs[17], 8);
/* Generate the output. */
ADD_STRING ("Register dump:\n\n GPR0: ");
ADD_MEM (regs[0], 8);
ADD_STRING (" GPR1: ");
ADD_MEM (regs[1], 8);
ADD_STRING (" GPR2: ");
ADD_MEM (regs[2], 8);
ADD_STRING (" GPR3: ");
ADD_MEM (regs[3], 8);
ADD_STRING ("\n GPR4: ");
ADD_MEM (regs[4], 8);
ADD_STRING (" GPR5: ");
ADD_MEM (regs[5], 8);
ADD_STRING (" GPR6: ");
ADD_MEM (regs[6], 8);
ADD_STRING (" GPR7: ");
ADD_MEM (regs[7], 8);
ADD_STRING ("\n GPR8: ");
ADD_MEM (regs[8], 8);
ADD_STRING (" GPR9: ");
ADD_MEM (regs[9], 8);
ADD_STRING (" GPRA: ");
ADD_MEM (regs[10], 8);
ADD_STRING (" GPRB: ");
ADD_MEM (regs[11], 8);
ADD_STRING ("\n GPRC: ");
ADD_MEM (regs[12], 8);
ADD_STRING (" GPRD: ");
ADD_MEM (regs[13], 8);
ADD_STRING (" GPRE: ");
ADD_MEM (regs[14], 8);
ADD_STRING (" GPRF: ");
ADD_MEM (regs[15], 8);
ADD_STRING ("\n\n PSW.MASK: ");
ADD_MEM (regs[16], 8);
ADD_STRING (" PSW.ADDR: ");
ADD_MEM (regs[17], 8);
ADD_STRING (" TRAP: ");
ADD_MEM (regs[18], 4);
ADD_STRING ("\n");
/* Write the stuff out. */
writev (fd, iov, nr);
}
#define REGISTER_DUMP register_dump (fd, ctx)

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@ -1,131 +0,0 @@
/* Dump registers. 64 bit S/390 version.
Copyright (C) 2001-2022 Free Software Foundation, Inc.
This file is part of the GNU C Library.
The GNU C Library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
The GNU C Library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with the GNU C Library; if not, see
<https://www.gnu.org/licenses/>. */
#include <sys/uio.h>
#include <_itoa.h>
/* We will print the register dump in this format:
GPR0: XXXXXXXXXXXXXXXX GPR1: XXXXXXXXXXXXXXXX
GPR2: XXXXXXXXXXXXXXXX GPR3: XXXXXXXXXXXXXXXX
GPR4: XXXXXXXXXXXXXXXX GPR5: XXXXXXXXXXXXXXXX
GPR6: XXXXXXXXXXXXXXXX GPR7: XXXXXXXXXXXXXXXX
GPR8: XXXXXXXXXXXXXXXX GPR9: XXXXXXXXXXXXXXXX
GPRA: XXXXXXXXXXXXXXXX GPRB: XXXXXXXXXXXXXXXX
GPRC: XXXXXXXXXXXXXXXX GPRD: XXXXXXXXXXXXXXXX
GPRE: XXXXXXXXXXXXXXXX GPRF: XXXXXXXXXXXXXXXX
PSW.MASK: XXXXXXXXXXXXXXXX PSW.ADDR: XXXXXXXXXXXXXXXX
ST(0) XXXX XXXXXXXXXXXXXXXX ST(1) XXXX XXXXXXXXXXXXXXXX
ST(2) XXXX XXXXXXXXXXXXXXXX ST(3) XXXX XXXXXXXXXXXXXXXX
ST(4) XXXX XXXXXXXXXXXXXXXX ST(5) XXXX XXXXXXXXXXXXXXXX
ST(6) XXXX XXXXXXXXXXXXXXXX ST(7) XXXX XXXXXXXXXXXXXXXX
*/
static void
hexvalue (unsigned long int value, char *buf, size_t len)
{
char *cp = _itoa_word (value, buf + len, 16, 0);
while (cp > buf)
*--cp = '0';
}
static void
register_dump (int fd, struct ucontext_t *ctx)
{
char regs[19][16];
struct iovec iov[40];
size_t nr = 0;
#define ADD_STRING(str) \
iov[nr].iov_base = (char *) str; \
iov[nr].iov_len = strlen (str); \
++nr
#define ADD_MEM(str, len) \
iov[nr].iov_base = str; \
iov[nr].iov_len = len; \
++nr
/* Generate strings of register contents. */
hexvalue (ctx->uc_mcontext.gregs[0], regs[0], 16);
hexvalue (ctx->uc_mcontext.gregs[1], regs[1], 16);
hexvalue (ctx->uc_mcontext.gregs[2], regs[2], 16);
hexvalue (ctx->uc_mcontext.gregs[3], regs[3], 16);
hexvalue (ctx->uc_mcontext.gregs[4], regs[4], 16);
hexvalue (ctx->uc_mcontext.gregs[5], regs[5], 16);
hexvalue (ctx->uc_mcontext.gregs[6], regs[6], 16);
hexvalue (ctx->uc_mcontext.gregs[7], regs[7], 16);
hexvalue (ctx->uc_mcontext.gregs[8], regs[8], 16);
hexvalue (ctx->uc_mcontext.gregs[9], regs[9], 16);
hexvalue (ctx->uc_mcontext.gregs[10], regs[10], 16);
hexvalue (ctx->uc_mcontext.gregs[11], regs[11], 16);
hexvalue (ctx->uc_mcontext.gregs[12], regs[12], 16);
hexvalue (ctx->uc_mcontext.gregs[13], regs[13], 16);
hexvalue (ctx->uc_mcontext.gregs[14], regs[14], 16);
hexvalue (ctx->uc_mcontext.gregs[15], regs[15], 16);
hexvalue (ctx->uc_mcontext.psw.mask, regs[16], 16);
hexvalue (ctx->uc_mcontext.psw.addr, regs[17], 16);
/* Generate the output. */
ADD_STRING ("Register dump:\n\n GPR0: ");
ADD_MEM (regs[0], 16);
ADD_STRING (" GPR1: ");
ADD_MEM (regs[1], 16);
ADD_STRING (" GPR2: ");
ADD_MEM (regs[2], 16);
ADD_STRING (" GPR3: ");
ADD_MEM (regs[3], 16);
ADD_STRING ("\n GPR4: ");
ADD_MEM (regs[4], 16);
ADD_STRING (" GPR5: ");
ADD_MEM (regs[5], 16);
ADD_STRING (" GPR6: ");
ADD_MEM (regs[6], 16);
ADD_STRING (" GPR7: ");
ADD_MEM (regs[7], 16);
ADD_STRING ("\n GPR8: ");
ADD_MEM (regs[8], 16);
ADD_STRING (" GPR9: ");
ADD_MEM (regs[9], 16);
ADD_STRING (" GPRA: ");
ADD_MEM (regs[10], 16);
ADD_STRING (" GPRB: ");
ADD_MEM (regs[11], 16);
ADD_STRING ("\n GPRC: ");
ADD_MEM (regs[12], 16);
ADD_STRING (" GPRD: ");
ADD_MEM (regs[13], 16);
ADD_STRING (" GPRE: ");
ADD_MEM (regs[14], 16);
ADD_STRING (" GPRF: ");
ADD_MEM (regs[15], 16);
ADD_STRING ("\n\n PSW.MASK: ");
ADD_MEM (regs[16], 16);
ADD_STRING (" PSW.ADDR: ");
ADD_MEM (regs[17], 16);
ADD_STRING (" TRAP: ");
ADD_MEM (regs[18], 4);
ADD_STRING ("\n");
/* Write the stuff out. */
writev (fd, iov, nr);
}
#define REGISTER_DUMP register_dump (fd, ctx)

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@ -1,2 +0,0 @@
#define HAVE_PROC_SELF 1
#include <debug/segfault.c>

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@ -1,263 +0,0 @@
/* Dump registers.
Copyright (C) 1999-2022 Free Software Foundation, Inc.
This file is part of the GNU C Library.
The GNU C Library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
The GNU C Library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with the GNU C Library; if not, see
<https://www.gnu.org/licenses/>. */
#include <sys/uio.h>
#include <_itoa.h>
/* We will print the register dump in this format:
R0: XXXXXXXX R1: XXXXXXXX R2: XXXXXXXX R3: XXXXXXXX
R4: XXXXXXXX R5: XXXXXXXX R6: XXXXXXXX R7: XXXXXXXX
R8: XXXXXXXX R9: XXXXXXXX R10: XXXXXXXX R11: XXXXXXXX
R12: XXXXXXXX R13: XXXXXXXX R14: XXXXXXXX R15: XXXXXXXX
MACL: XXXXXXXX MACH: XXXXXXXX
PC: XXXXXXXX PR: XXXXXXXX GBR: XXXXXXXX SR: XXXXXXXX
FR0: XXXXXXXX FR1: XXXXXXXX FR2: XXXXXXXX FR3: XXXXXXXX
FR4: XXXXXXXX FR5: XXXXXXXX FR6: XXXXXXXX FR7: XXXXXXXX
FR8: XXXXXXXX FR9: XXXXXXXX FR10: XXXXXXXX FR11: XXXXXXXX
FR12: XXXXXXXX FR13: XXXXXXXX FR14: XXXXXXXX FR15: XXXXXXXX
XR0: XXXXXXXX XR1: XXXXXXXX XR2: XXXXXXXX XR3: XXXXXXXX
XR4: XXXXXXXX XR5: XXXXXXXX XR6: XXXXXXXX XR7: XXXXXXXX
XR8: XXXXXXXX XR9: XXXXXXXX XR10: XXXXXXXX XR11: XXXXXXXX
XR12: XXXXXXXX XR13: XXXXXXXX XR14: XXXXXXXX XR15: XXXXXXXX
FPSCR: XXXXXXXX FPUL: XXXXXXXX
*/
static void
hexvalue (unsigned long int value, char *buf, size_t len)
{
char *cp = _itoa_word (value, buf + len, 16, 0);
while (cp > buf)
*--cp = '0';
}
static void
register_dump (int fd, struct ucontext_t *ctx)
{
char regs[22][8];
struct iovec iov[22 * 2 + 34 * 2 + 2];
size_t nr = 0;
#define ADD_STRING(str) \
iov[nr].iov_base = (char *) str; \
iov[nr].iov_len = strlen (str); \
++nr
#define ADD_MEM(str, len) \
iov[nr].iov_base = str; \
iov[nr].iov_len = len; \
++nr
/* Generate strings of register contents. */
hexvalue (ctx->uc_mcontext.gregs[REG_R0], regs[0], 8);
hexvalue (ctx->uc_mcontext.gregs[REG_R1], regs[1], 8);
hexvalue (ctx->uc_mcontext.gregs[REG_R2], regs[2], 8);
hexvalue (ctx->uc_mcontext.gregs[REG_R3], regs[3], 8);
hexvalue (ctx->uc_mcontext.gregs[REG_R4], regs[4], 8);
hexvalue (ctx->uc_mcontext.gregs[REG_R5], regs[5], 8);
hexvalue (ctx->uc_mcontext.gregs[REG_R6], regs[6], 8);
hexvalue (ctx->uc_mcontext.gregs[REG_R7], regs[7], 8);
hexvalue (ctx->uc_mcontext.gregs[REG_R8], regs[8], 8);
hexvalue (ctx->uc_mcontext.gregs[REG_R9], regs[9], 8);
hexvalue (ctx->uc_mcontext.gregs[REG_R10], regs[10], 8);
hexvalue (ctx->uc_mcontext.gregs[REG_R11], regs[11], 8);
hexvalue (ctx->uc_mcontext.gregs[REG_R12], regs[12], 8);
hexvalue (ctx->uc_mcontext.gregs[REG_R13], regs[13], 8);
hexvalue (ctx->uc_mcontext.gregs[REG_R14], regs[14], 8);
hexvalue (ctx->uc_mcontext.gregs[REG_R15], regs[15], 8);
hexvalue (ctx->uc_mcontext.macl, regs[16], 8);
hexvalue (ctx->uc_mcontext.mach, regs[17], 8);
hexvalue (ctx->uc_mcontext.pc, regs[18], 8);
hexvalue (ctx->uc_mcontext.pr, regs[19], 8);
hexvalue (ctx->uc_mcontext.gbr, regs[20], 8);
hexvalue (ctx->uc_mcontext.sr, regs[21], 8);
/* Generate the output. */
ADD_STRING ("Register dump:\n\n R0: ");
ADD_MEM (regs[0], 8);
ADD_STRING (" R1: ");
ADD_MEM (regs[1], 8);
ADD_STRING (" R2: ");
ADD_MEM (regs[2], 8);
ADD_STRING (" R3: ");
ADD_MEM (regs[3], 8);
ADD_STRING ("\n R4: ");
ADD_MEM (regs[4], 8);
ADD_STRING (" R5: ");
ADD_MEM (regs[5], 8);
ADD_STRING (" R6: ");
ADD_MEM (regs[6], 8);
ADD_STRING (" R7: ");
ADD_MEM (regs[7], 8);
ADD_STRING ("\n R8: ");
ADD_MEM (regs[8], 8);
ADD_STRING (" R9: ");
ADD_MEM (regs[9], 8);
ADD_STRING (" R10: ");
ADD_MEM (regs[10], 8);
ADD_STRING (" R11: ");
ADD_MEM (regs[11], 8);
ADD_STRING ("\n R12: ");
ADD_MEM (regs[12], 8);
ADD_STRING (" R13: ");
ADD_MEM (regs[13], 8);
ADD_STRING (" R14: ");
ADD_MEM (regs[14], 8);
ADD_STRING (" R15: ");
ADD_MEM (regs[15], 8);
ADD_STRING ("\n\nMACL: ");
ADD_MEM (regs[16], 8);
ADD_STRING (" MACH: ");
ADD_MEM (regs[17], 8);
ADD_STRING ("\n\n PC: ");
ADD_MEM (regs[18], 8);
ADD_STRING (" PR: ");
ADD_MEM (regs[19], 8);
ADD_STRING (" GBR: ");
ADD_MEM (regs[20], 8);
ADD_STRING (" SR: ");
ADD_MEM (regs[21], 8);
ADD_STRING ("\n");
#ifdef __SH_FPU_ANY__
char fpregs[34][8];
if (ctx->uc_mcontext.ownedfp != 0)
{
hexvalue (ctx->uc_mcontext.fpregs[0], fpregs[0], 8);
hexvalue (ctx->uc_mcontext.fpregs[1], fpregs[1], 8);
hexvalue (ctx->uc_mcontext.fpregs[2], fpregs[2], 8);
hexvalue (ctx->uc_mcontext.fpregs[3], fpregs[3], 8);
hexvalue (ctx->uc_mcontext.fpregs[4], fpregs[4], 8);
hexvalue (ctx->uc_mcontext.fpregs[5], fpregs[5], 8);
hexvalue (ctx->uc_mcontext.fpregs[6], fpregs[6], 8);
hexvalue (ctx->uc_mcontext.fpregs[7], fpregs[7], 8);
hexvalue (ctx->uc_mcontext.fpregs[8], fpregs[8], 8);
hexvalue (ctx->uc_mcontext.fpregs[9], fpregs[9], 8);
hexvalue (ctx->uc_mcontext.fpregs[10], fpregs[10], 8);
hexvalue (ctx->uc_mcontext.fpregs[11], fpregs[11], 8);
hexvalue (ctx->uc_mcontext.fpregs[12], fpregs[12], 8);
hexvalue (ctx->uc_mcontext.fpregs[13], fpregs[13], 8);
hexvalue (ctx->uc_mcontext.fpregs[14], fpregs[14], 8);
hexvalue (ctx->uc_mcontext.fpregs[15], fpregs[15], 8);
hexvalue (ctx->uc_mcontext.xfpregs[0], fpregs[16], 8);
hexvalue (ctx->uc_mcontext.xfpregs[1], fpregs[17], 8);
hexvalue (ctx->uc_mcontext.xfpregs[2], fpregs[18], 8);
hexvalue (ctx->uc_mcontext.xfpregs[3], fpregs[19], 8);
hexvalue (ctx->uc_mcontext.xfpregs[4], fpregs[20], 8);
hexvalue (ctx->uc_mcontext.xfpregs[5], fpregs[21], 8);
hexvalue (ctx->uc_mcontext.xfpregs[6], fpregs[22], 8);
hexvalue (ctx->uc_mcontext.xfpregs[7], fpregs[23], 8);
hexvalue (ctx->uc_mcontext.xfpregs[8], fpregs[24], 8);
hexvalue (ctx->uc_mcontext.xfpregs[9], fpregs[25], 8);
hexvalue (ctx->uc_mcontext.xfpregs[10], fpregs[26], 8);
hexvalue (ctx->uc_mcontext.xfpregs[11], fpregs[27], 8);
hexvalue (ctx->uc_mcontext.xfpregs[12], fpregs[28], 8);
hexvalue (ctx->uc_mcontext.xfpregs[13], fpregs[29], 8);
hexvalue (ctx->uc_mcontext.xfpregs[14], fpregs[30], 8);
hexvalue (ctx->uc_mcontext.xfpregs[15], fpregs[31], 8);
hexvalue (ctx->uc_mcontext.fpscr, fpregs[32], 8);
hexvalue (ctx->uc_mcontext.fpul, fpregs[33], 8);
ADD_STRING ("\n\n FR0: ");
ADD_MEM (fpregs[0], 8);
ADD_STRING (" FR1: ");
ADD_MEM (fpregs[1], 8);
ADD_STRING (" FR2: ");
ADD_MEM (fpregs[2], 8);
ADD_STRING (" FR3: ");
ADD_MEM (fpregs[3], 8);
ADD_STRING ("\n FR4: ");
ADD_MEM (fpregs[4], 8);
ADD_STRING (" FR5: ");
ADD_MEM (fpregs[5], 8);
ADD_STRING (" FR6: ");
ADD_MEM (fpregs[6], 8);
ADD_STRING (" FR7: ");
ADD_MEM (fpregs[7], 8);
ADD_STRING ("\n FR8: ");
ADD_MEM (fpregs[8], 8);
ADD_STRING (" FR9: ");
ADD_MEM (fpregs[9], 8);
ADD_STRING (" FR10: ");
ADD_MEM (fpregs[10], 8);
ADD_STRING (" FR11: ");
ADD_MEM (fpregs[11], 8);
ADD_STRING ("\nFR12: ");
ADD_MEM (fpregs[12], 8);
ADD_STRING (" FR13: ");
ADD_MEM (fpregs[13], 8);
ADD_STRING (" FR14: ");
ADD_MEM (fpregs[14], 8);
ADD_STRING (" FR15: ");
ADD_MEM (fpregs[15], 8);
ADD_STRING ("\n\n XR0: ");
ADD_MEM (fpregs[16], 8);
ADD_STRING (" XR1: ");
ADD_MEM (fpregs[17], 8);
ADD_STRING (" XR2: ");
ADD_MEM (fpregs[18], 8);
ADD_STRING (" XR3: ");
ADD_MEM (fpregs[19], 8);
ADD_STRING ("\n XR4: ");
ADD_MEM (fpregs[20], 8);
ADD_STRING (" XR5: ");
ADD_MEM (fpregs[21], 8);
ADD_STRING (" XR6: ");
ADD_MEM (fpregs[22], 8);
ADD_STRING (" XR7: ");
ADD_MEM (fpregs[23], 8);
ADD_STRING ("\n XR8: ");
ADD_MEM (fpregs[24], 8);
ADD_STRING (" XR9: ");
ADD_MEM (fpregs[25], 8);
ADD_STRING (" XR10: ");
ADD_MEM (fpregs[26], 8);
ADD_STRING (" XR11: ");
ADD_MEM (fpregs[27], 8);
ADD_STRING ("\nXR12: ");
ADD_MEM (fpregs[28], 8);
ADD_STRING (" XR13: ");
ADD_MEM (fpregs[29], 8);
ADD_STRING (" XR14: ");
ADD_MEM (fpregs[30], 8);
ADD_STRING (" XR15: ");
ADD_MEM (fpregs[31], 8);
ADD_STRING ("\n\nFPSCR: ");
ADD_MEM (fpregs[32], 8);
ADD_STRING (" FPUL: ");
ADD_MEM (fpregs[33], 8);
ADD_STRING ("\n");
}
#endif /* __SH_FPU_ANY__ */
/* Write the stuff out. */
writev (fd, iov, nr);
}
#define REGISTER_DUMP register_dump (fd, ctx)

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@ -1,342 +0,0 @@
/* Dump registers.
Copyright (C) 1999-2022 Free Software Foundation, Inc.
This file is part of the GNU C Library.
The GNU C Library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
The GNU C Library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with the GNU C Library; if not, see
<https://www.gnu.org/licenses/>. */
#include <sys/uio.h>
#include <_itoa.h>
/* We will print the register dump in this format:
PSR: XXXXXXXX PC: XXXXXXXX NPC: XXXXXXXX Y: XXXXXXXX
g0: 00000000 g1: XXXXXXXX g2: XXXXXXXX g3: XXXXXXXX
g4: XXXXXXXX g5: XXXXXXXX g6: XXXXXXXX g7: XXXXXXXX
o0: XXXXXXXX o1: XXXXXXXX o2: XXXXXXXX o3: XXXXXXXX
o4: XXXXXXXX o5: XXXXXXXX sp: XXXXXXXX o7: XXXXXXXX
l0: XXXXXXXX l1: XXXXXXXX l2: XXXXXXXX l3: XXXXXXXX
l4: XXXXXXXX l5: XXXXXXXX l6: XXXXXXXX l7: XXXXXXXX
i0: XXXXXXXX i1: XXXXXXXX i2: XXXXXXXX i3: XXXXXXXX
i4: XXXXXXXX i5: XXXXXXXX fp: XXXXXXXX i7: XXXXXXXX
followed on sun4, sun4c, sun4d, sun4m by:
Old mask: XXXXXXXX FSR: XXXXXXXX FPQ: XXXXXXXX
f0: XXXXXXXXXXXXXXXX f2: XXXXXXXXXXXXXXXX f4: XXXXXXXXXXXXXXXX
f6: XXXXXXXXXXXXXXXX f8: XXXXXXXXXXXXXXXX f10: XXXXXXXXXXXXXXXX
f12: XXXXXXXXXXXXXXXX f14: XXXXXXXXXXXXXXXX f16: XXXXXXXXXXXXXXXX
f18: XXXXXXXXXXXXXXXX f20: XXXXXXXXXXXXXXXX f22: XXXXXXXXXXXXXXXX
f24: XXXXXXXXXXXXXXXX f26: XXXXXXXXXXXXXXXX f28: XXXXXXXXXXXXXXXX
f30: XXXXXXXXXXXXXXXX
and on sun4u by:
Old mask: XXXXXXXX XFSR: XXXXXXXXXXXXXXXX GSR: XX FPRS: X
f0: XXXXXXXXXXXXXXXX f2: XXXXXXXXXXXXXXXX f4: XXXXXXXXXXXXXXXX
f6: XXXXXXXXXXXXXXXX f8: XXXXXXXXXXXXXXXX f10: XXXXXXXXXXXXXXXX
f12: XXXXXXXXXXXXXXXX f14: XXXXXXXXXXXXXXXX f16: XXXXXXXXXXXXXXXX
f18: XXXXXXXXXXXXXXXX f20: XXXXXXXXXXXXXXXX f22: XXXXXXXXXXXXXXXX
f24: XXXXXXXXXXXXXXXX f26: XXXXXXXXXXXXXXXX f28: XXXXXXXXXXXXXXXX
f30: XXXXXXXXXXXXXXXX f32: XXXXXXXXXXXXXXXX f34: XXXXXXXXXXXXXXXX
f36: XXXXXXXXXXXXXXXX f38: XXXXXXXXXXXXXXXX f40: XXXXXXXXXXXXXXXX
f42: XXXXXXXXXXXXXXXX f44: XXXXXXXXXXXXXXXX f46: XXXXXXXXXXXXXXXX
f48: XXXXXXXXXXXXXXXX f50: XXXXXXXXXXXXXXXX f52: XXXXXXXXXXXXXXXX
f54: XXXXXXXXXXXXXXXX f56: XXXXXXXXXXXXXXXX f58: XXXXXXXXXXXXXXXX
f60: XXXXXXXXXXXXXXXX f62: XXXXXXXXXXXXXXXX
*/
static void
hexvalue (unsigned long int value, char *buf, size_t len)
{
char *cp = _itoa_word (value, buf + len, 16, 0);
while (cp > buf)
*--cp = '0';
}
struct __siginfo_sparc32_fpu
{
unsigned int si_float_regs[32];
unsigned int si_fsr;
unsigned int si_fpq;
};
struct __siginfo_sparc64_fpu
{
unsigned int si_float_regs[64];
unsigned int si_xfsr;
unsigned int si_fsr;
unsigned int _pad1;
unsigned int si_gsr;
unsigned int _pad2;
unsigned int si_fprs;
};
/* Unlike other architectures, sparc32 passes pt_regs32 REGS pointer as
the third argument to a sa_sigaction handler with SA_SIGINFO enabled. */
static void
register_dump (int fd, void *ctx)
{
char regs[36][8];
char fregs[68][8];
struct iovec iov[150];
size_t nr = 0;
int i;
struct pt_regs32 *ptregs = (struct pt_regs32 *) ctx;
struct compat_sigset_t
{
unsigned int sig[2];
};
struct compat_sigset_t *mask = (struct compat_sigset_t *)(ptregs + 1);
unsigned int *r = (unsigned int *) ptregs->u_regs[14];
#define ADD_STRING(str) \
iov[nr].iov_base = (char *) str; \
iov[nr].iov_len = strlen (str); \
++nr
#define ADD_MEM(str, len) \
iov[nr].iov_base = str; \
iov[nr].iov_len = len; \
++nr
/* Generate strings of register contents. */
hexvalue (ptregs->psr, regs[0], 8);
hexvalue (ptregs->pc, regs[1], 8);
hexvalue (ptregs->npc, regs[2], 8);
hexvalue (ptregs->y, regs[3], 8);
for (i = 1; i <= 15; i++)
hexvalue (ptregs->u_regs[i], regs[3+i], 8);
for (i = 0; i <= 15; i++)
hexvalue (r[i], regs[19+i], 8);
hexvalue (mask->sig[0], regs[35], 8);
/* Generate the output. */
ADD_STRING ("Register dump:\n\n PSR: ");
ADD_MEM (regs[0], 8);
ADD_STRING (" PC: ");
ADD_MEM (regs[1], 8);
ADD_STRING (" NPC: ");
ADD_MEM (regs[2], 8);
ADD_STRING (" Y: ");
ADD_MEM (regs[3], 8);
ADD_STRING ("\n g0: 00000000 g1: ");
ADD_MEM (regs[4], 8);
ADD_STRING (" g2: ");
ADD_MEM (regs[5], 8);
ADD_STRING (" g3: ");
ADD_MEM (regs[6], 8);
ADD_STRING ("\n g4: ");
ADD_MEM (regs[7], 8);
ADD_STRING (" g5: ");
ADD_MEM (regs[8], 8);
ADD_STRING (" g6: ");
ADD_MEM (regs[9], 8);
ADD_STRING (" g7: ");
ADD_MEM (regs[10], 8);
ADD_STRING ("\n o0: ");
ADD_MEM (regs[11], 8);
ADD_STRING (" o1: ");
ADD_MEM (regs[12], 8);
ADD_STRING (" o2: ");
ADD_MEM (regs[13], 8);
ADD_STRING (" o3: ");
ADD_MEM (regs[14], 8);
ADD_STRING ("\n o4: ");
ADD_MEM (regs[15], 8);
ADD_STRING (" o5: ");
ADD_MEM (regs[16], 8);
ADD_STRING (" sp: ");
ADD_MEM (regs[17], 8);
ADD_STRING (" o7: ");
ADD_MEM (regs[18], 8);
ADD_STRING ("\n l0: ");
ADD_MEM (regs[19], 8);
ADD_STRING (" l1: ");
ADD_MEM (regs[20], 8);
ADD_STRING (" l2: ");
ADD_MEM (regs[21], 8);
ADD_STRING (" l3: ");
ADD_MEM (regs[22], 8);
ADD_STRING ("\n l4: ");
ADD_MEM (regs[23], 8);
ADD_STRING (" l5: ");
ADD_MEM (regs[24], 8);
ADD_STRING (" l6: ");
ADD_MEM (regs[25], 8);
ADD_STRING (" l7: ");
ADD_MEM (regs[26], 8);
ADD_STRING ("\n i0: ");
ADD_MEM (regs[27], 8);
ADD_STRING (" i1: ");
ADD_MEM (regs[28], 8);
ADD_STRING (" i2: ");
ADD_MEM (regs[29], 8);
ADD_STRING (" i3: ");
ADD_MEM (regs[30], 8);
ADD_STRING ("\n i4: ");
ADD_MEM (regs[31], 8);
ADD_STRING (" i5: ");
ADD_MEM (regs[32], 8);
ADD_STRING (" fp: ");
ADD_MEM (regs[33], 8);
ADD_STRING (" i7: ");
ADD_MEM (regs[34], 8);
ADD_STRING ("\n\n Old mask: ");
ADD_MEM (regs[35], 8);
if ((ptregs->psr & 0xff000000) == 0xff000000)
{
struct __siginfo_sparc64_fpu *f = *(struct __siginfo_sparc64_fpu **)
(mask + 1);
if (f != NULL)
{
for (i = 0; i < 64; i++)
hexvalue (f->si_float_regs[i], fregs[i], 8);
hexvalue (f->si_xfsr, fregs[64], 8);
hexvalue (f->si_fsr, fregs[65], 8);
hexvalue (f->si_gsr, fregs[66], 2);
hexvalue (f->si_fprs, fregs[67], 1);
ADD_STRING (" XFSR: ");
ADD_MEM (fregs[64], 8);
ADD_MEM (fregs[65], 8);
ADD_STRING (" GSR: ");
ADD_MEM (fregs[66], 2);
ADD_STRING (" FPRS: ");
ADD_MEM (fregs[67], 1);
ADD_STRING ("\n f0: ");
ADD_MEM (fregs[0], 16);
ADD_STRING (" f2: ");
ADD_MEM (fregs[2], 16);
ADD_STRING (" f4: ");
ADD_MEM (fregs[4], 16);
ADD_STRING ("\n f6: ");
ADD_MEM (fregs[6], 16);
ADD_STRING (" f8: ");
ADD_MEM (fregs[8], 16);
ADD_STRING (" f10: ");
ADD_MEM (fregs[10], 16);
ADD_STRING ("\n f12: ");
ADD_MEM (fregs[12], 16);
ADD_STRING (" f14: ");
ADD_MEM (fregs[14], 16);
ADD_STRING (" f16: ");
ADD_MEM (fregs[16], 16);
ADD_STRING ("\n f18: ");
ADD_MEM (fregs[18], 16);
ADD_STRING (" f20: ");
ADD_MEM (fregs[20], 16);
ADD_STRING (" f22: ");
ADD_MEM (fregs[22], 16);
ADD_STRING ("\n f24: ");
ADD_MEM (fregs[24], 16);
ADD_STRING (" f26: ");
ADD_MEM (fregs[26], 16);
ADD_STRING (" f28: ");
ADD_MEM (fregs[28], 16);
ADD_STRING ("\n f30: ");
ADD_MEM (fregs[30], 16);
ADD_STRING (" f32: ");
ADD_MEM (fregs[32], 16);
ADD_STRING (" f34: ");
ADD_MEM (fregs[34], 16);
ADD_STRING ("\n f36: ");
ADD_MEM (fregs[36], 16);
ADD_STRING (" f38: ");
ADD_MEM (fregs[38], 16);
ADD_STRING (" f40: ");
ADD_MEM (fregs[40], 16);
ADD_STRING ("\n f42: ");
ADD_MEM (fregs[42], 16);
ADD_STRING (" f44: ");
ADD_MEM (fregs[44], 16);
ADD_STRING (" f46: ");
ADD_MEM (fregs[46], 16);
ADD_STRING ("\n f48: ");
ADD_MEM (fregs[48], 16);
ADD_STRING (" f50: ");
ADD_MEM (fregs[50], 16);
ADD_STRING (" f52: ");
ADD_MEM (fregs[52], 16);
ADD_STRING ("\n f54: ");
ADD_MEM (fregs[54], 16);
ADD_STRING (" f56: ");
ADD_MEM (fregs[56], 16);
ADD_STRING (" f58: ");
ADD_MEM (fregs[58], 16);
ADD_STRING ("\n f60: ");
ADD_MEM (fregs[60], 16);
ADD_STRING (" f62: ");
ADD_MEM (fregs[62], 16);
}
}
else
{
struct __siginfo_sparc32_fpu *f = *(struct __siginfo_sparc32_fpu **)
(mask + 1);
if (f != NULL)
{
for (i = 0; i < 32; i++)
hexvalue (f->si_float_regs[i], fregs[i], 8);
hexvalue (f->si_fsr, fregs[64], 8);
hexvalue (f->si_fpq, fregs[65], 8);
ADD_STRING (" FSR: ");
ADD_MEM (fregs[64], 8);
ADD_STRING (" FPQ: ");
ADD_MEM (fregs[65], 8);
ADD_STRING ("\n f0: ");
ADD_MEM (fregs[0], 16);
ADD_STRING (" f2: ");
ADD_MEM (fregs[2], 16);
ADD_STRING (" f4: ");
ADD_MEM (fregs[4], 16);
ADD_STRING ("\n f6: ");
ADD_MEM (fregs[6], 16);
ADD_STRING (" f8: ");
ADD_MEM (fregs[8], 16);
ADD_STRING (" f10: ");
ADD_MEM (fregs[10], 16);
ADD_STRING ("\n f12: ");
ADD_MEM (fregs[12], 16);
ADD_STRING (" f14: ");
ADD_MEM (fregs[14], 16);
ADD_STRING (" f16: ");
ADD_MEM (fregs[16], 16);
ADD_STRING ("\n f18: ");
ADD_MEM (fregs[18], 16);
ADD_STRING (" f20: ");
ADD_MEM (fregs[20], 16);
ADD_STRING (" f22: ");
ADD_MEM (fregs[22], 16);
ADD_STRING ("\n f24: ");
ADD_MEM (fregs[24], 16);
ADD_STRING (" f26: ");
ADD_MEM (fregs[26], 16);
ADD_STRING (" f28: ");
ADD_MEM (fregs[28], 16);
ADD_STRING ("\n f30: ");
ADD_MEM (fregs[30], 16);
}
}
ADD_STRING ("\n");
/* Write the stuff out. */
writev (fd, iov, nr);
}
#define REGISTER_DUMP register_dump (fd, ctx)

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@ -1,273 +0,0 @@
/* Dump registers.
Copyright (C) 1999-2022 Free Software Foundation, Inc.
This file is part of the GNU C Library.
The GNU C Library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
The GNU C Library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with the GNU C Library; if not, see
<https://www.gnu.org/licenses/>. */
#include <sys/uio.h>
#include <_itoa.h>
/* We will print the register dump in this format:
TSTATE: XXXXXXXXXXXXXXXX TPC: XXXXXXXXXXXXXXXX TNPC: XXXXXXXXXXXXXXXX
Y: XXXXXXXX
g0: 0000000000000000 g1: XXXXXXXXXXXXXXXX g2: XXXXXXXXXXXXXXXX
g3: XXXXXXXXXXXXXXXX g4: XXXXXXXXXXXXXXXX g5: XXXXXXXXXXXXXXXX
g6: XXXXXXXXXXXXXXXX g7: XXXXXXXXXXXXXXXX
o0: XXXXXXXXXXXXXXXX o1: XXXXXXXXXXXXXXXX o2: XXXXXXXXXXXXXXXX
o3: XXXXXXXXXXXXXXXX o4: XXXXXXXXXXXXXXXX o5: XXXXXXXXXXXXXXXX
sp: XXXXXXXXXXXXXXXX o7: XXXXXXXXXXXXXXXX
l0: XXXXXXXXXXXXXXXX l1: XXXXXXXXXXXXXXXX l2: XXXXXXXXXXXXXXXX
l3: XXXXXXXXXXXXXXXX l4: XXXXXXXXXXXXXXXX l5: XXXXXXXXXXXXXXXX
l6: XXXXXXXXXXXXXXXX l7: XXXXXXXXXXXXXXXX
i0: XXXXXXXXXXXXXXXX i1: XXXXXXXXXXXXXXXX i2: XXXXXXXXXXXXXXXX
i3: XXXXXXXXXXXXXXXX i4: XXXXXXXXXXXXXXXX i5: XXXXXXXXXXXXXXXX
fp: XXXXXXXXXXXXXXXX i7: XXXXXXXXXXXXXXXX
Mask: XXXXXXXXXXXXXXXX XFSR: XXXXXXXXXXXXXXXX GSR: XX FPRS: X
f0: XXXXXXXXXXXXXXXX f2: XXXXXXXXXXXXXXXX f4: XXXXXXXXXXXXXXXX
f6: XXXXXXXXXXXXXXXX f8: XXXXXXXXXXXXXXXX f10: XXXXXXXXXXXXXXXX
f12: XXXXXXXXXXXXXXXX f14: XXXXXXXXXXXXXXXX f16: XXXXXXXXXXXXXXXX
f18: XXXXXXXXXXXXXXXX f20: XXXXXXXXXXXXXXXX f22: XXXXXXXXXXXXXXXX
f24: XXXXXXXXXXXXXXXX f26: XXXXXXXXXXXXXXXX f28: XXXXXXXXXXXXXXXX
f30: XXXXXXXXXXXXXXXX f32: XXXXXXXXXXXXXXXX f34: XXXXXXXXXXXXXXXX
f36: XXXXXXXXXXXXXXXX f38: XXXXXXXXXXXXXXXX f40: XXXXXXXXXXXXXXXX
f42: XXXXXXXXXXXXXXXX f44: XXXXXXXXXXXXXXXX f46: XXXXXXXXXXXXXXXX
f48: XXXXXXXXXXXXXXXX f50: XXXXXXXXXXXXXXXX f52: XXXXXXXXXXXXXXXX
f54: XXXXXXXXXXXXXXXX f56: XXXXXXXXXXXXXXXX f58: XXXXXXXXXXXXXXXX
f60: XXXXXXXXXXXXXXXX f62: XXXXXXXXXXXXXXXX
*/
static void
hexvalue (unsigned long int value, char *buf, size_t len)
{
char *cp = _itoa_word (value, buf + len, 16, 0);
while (cp > buf)
*--cp = '0';
}
/* The sparc64 kernel signal frame for SA_SIGINFO is defined as:
struct rt_signal_frame
{
struct sparc_stackf ss;
siginfo_t info;
struct pt_regs regs; <- void *ctx
__siginfo_fpu_t *fpu_save;
stack_t stack;
sigset_t mask;
__siginfo_rwin_t *rwin_save;
};
Unlike other architectures, sparc32 passes pt_regs32 REGS pointers as
the third argument to a sa_sigaction handler with SA_SIGINFO enabled. */
static void
register_dump (int fd, void *ctx)
{
char regs[36][16];
char fregs[68][8];
struct iovec iov[150];
size_t nr = 0;
int i;
struct pt_regs *ptregs = (struct pt_regs*) ((siginfo_t *)ctx + 1);
unsigned long *r = (unsigned long *) (ptregs->u_regs[14] + STACK_BIAS);
__siginfo_fpu_t *f = (__siginfo_fpu_t *)(ptregs + 1);
struct kernel_sigset_t {
unsigned long sig[1];
} *mask = (struct kernel_sigset_t *)((stack_t *)(f + 1) + 1);
#define ADD_STRING(str) \
iov[nr].iov_base = (char *) str; \
iov[nr].iov_len = strlen (str); \
++nr
#define ADD_MEM(str, len) \
iov[nr].iov_base = str; \
iov[nr].iov_len = len; \
++nr
/* Generate strings of register contents. */
hexvalue (ptregs->tstate, regs[0], 16);
hexvalue (ptregs->tpc, regs[1], 16);
hexvalue (ptregs->tnpc, regs[2], 16);
hexvalue (ptregs->y, regs[3], 8);
for (i = 1; i <= 15; i++)
hexvalue (ptregs->u_regs[i], regs[3+i], 16);
for (i = 0; i <= 15; i++)
hexvalue (r[i], regs[19+i], 16);
hexvalue (mask->sig[0], regs[35], 16);
/* Generate the output. */
ADD_STRING ("Register dump:\n\n TSTATE: ");
ADD_MEM (regs[0], 16);
ADD_STRING (" TPC: ");
ADD_MEM (regs[1], 16);
ADD_STRING (" TNPC: ");
ADD_MEM (regs[2], 16);
ADD_STRING ("\n Y: ");
ADD_MEM (regs[3], 8);
ADD_STRING ("\n g0: 0000000000000000 g1: ");
ADD_MEM (regs[4], 16);
ADD_STRING (" g2: ");
ADD_MEM (regs[5], 16);
ADD_STRING ("\n g3: ");
ADD_MEM (regs[6], 16);
ADD_STRING (" g4: ");
ADD_MEM (regs[7], 16);
ADD_STRING (" g5: ");
ADD_MEM (regs[8], 16);
ADD_STRING ("\n g6: ");
ADD_MEM (regs[9], 16);
ADD_STRING (" g7: ");
ADD_MEM (regs[10], 16);
ADD_STRING ("\n o0: ");
ADD_MEM (regs[11], 16);
ADD_STRING (" o1: ");
ADD_MEM (regs[12], 16);
ADD_STRING (" o2: ");
ADD_MEM (regs[13], 16);
ADD_STRING ("\n o3: ");
ADD_MEM (regs[14], 16);
ADD_STRING (" o4: ");
ADD_MEM (regs[15], 16);
ADD_STRING (" o5: ");
ADD_MEM (regs[16], 16);
ADD_STRING ("\n sp: ");
ADD_MEM (regs[17], 16);
ADD_STRING (" o7: ");
ADD_MEM (regs[18], 16);
ADD_STRING ("\n l0: ");
ADD_MEM (regs[19], 16);
ADD_STRING (" l1: ");
ADD_MEM (regs[20], 16);
ADD_STRING (" l2: ");
ADD_MEM (regs[21], 16);
ADD_STRING ("\n l3: ");
ADD_MEM (regs[22], 16);
ADD_STRING (" l4: ");
ADD_MEM (regs[23], 16);
ADD_STRING (" l5: ");
ADD_MEM (regs[24], 16);
ADD_STRING ("\n l6: ");
ADD_MEM (regs[25], 16);
ADD_STRING (" l7: ");
ADD_MEM (regs[26], 16);
ADD_STRING ("\n i0: ");
ADD_MEM (regs[27], 16);
ADD_STRING (" i1: ");
ADD_MEM (regs[28], 16);
ADD_STRING (" i2: ");
ADD_MEM (regs[29], 16);
ADD_STRING ("\n i3: ");
ADD_MEM (regs[30], 16);
ADD_STRING (" i4: ");
ADD_MEM (regs[31], 16);
ADD_STRING (" i5: ");
ADD_MEM (regs[32], 16);
ADD_STRING ("\n fp: ");
ADD_MEM (regs[33], 16);
ADD_STRING (" i7: ");
ADD_MEM (regs[34], 16);
ADD_STRING ("\n\n Mask: ");
ADD_MEM (regs[35], 16);
if (f != NULL)
{
for (i = 0; i < 64; i++)
hexvalue (f->si_float_regs[i], fregs[i], 8);
hexvalue (f->si_fsr, fregs[64], 16);
hexvalue (f->si_gsr, fregs[66], 2);
hexvalue (f->si_fprs, fregs[67], 1);
ADD_STRING (" XFSR: ");
ADD_MEM (fregs[64], 16);
ADD_STRING (" GSR: ");
ADD_MEM (fregs[66], 2);
ADD_STRING (" FPRS: ");
ADD_MEM (fregs[67], 1);
ADD_STRING ("\n f0: ");
ADD_MEM (fregs[0], 16);
ADD_STRING (" f2: ");
ADD_MEM (fregs[2], 16);
ADD_STRING (" f4: ");
ADD_MEM (fregs[4], 16);
ADD_STRING ("\n f6: ");
ADD_MEM (fregs[6], 16);
ADD_STRING (" f8: ");
ADD_MEM (fregs[8], 16);
ADD_STRING (" f10: ");
ADD_MEM (fregs[10], 16);
ADD_STRING ("\n f12: ");
ADD_MEM (fregs[12], 16);
ADD_STRING (" f14: ");
ADD_MEM (fregs[14], 16);
ADD_STRING (" f16: ");
ADD_MEM (fregs[16], 16);
ADD_STRING ("\n f18: ");
ADD_MEM (fregs[18], 16);
ADD_STRING (" f20: ");
ADD_MEM (fregs[20], 16);
ADD_STRING (" f22: ");
ADD_MEM (fregs[22], 16);
ADD_STRING ("\n f24: ");
ADD_MEM (fregs[24], 16);
ADD_STRING (" f26: ");
ADD_MEM (fregs[26], 16);
ADD_STRING (" f28: ");
ADD_MEM (fregs[28], 16);
ADD_STRING ("\n f30: ");
ADD_MEM (fregs[30], 16);
ADD_STRING (" f32: ");
ADD_MEM (fregs[32], 16);
ADD_STRING (" f34: ");
ADD_MEM (fregs[34], 16);
ADD_STRING ("\n f36: ");
ADD_MEM (fregs[36], 16);
ADD_STRING (" f38: ");
ADD_MEM (fregs[38], 16);
ADD_STRING (" f40: ");
ADD_MEM (fregs[40], 16);
ADD_STRING ("\n f42: ");
ADD_MEM (fregs[42], 16);
ADD_STRING (" f44: ");
ADD_MEM (fregs[44], 16);
ADD_STRING (" f46: ");
ADD_MEM (fregs[46], 16);
ADD_STRING ("\n f48: ");
ADD_MEM (fregs[48], 16);
ADD_STRING (" f50: ");
ADD_MEM (fregs[50], 16);
ADD_STRING (" f52: ");
ADD_MEM (fregs[52], 16);
ADD_STRING ("\n f54: ");
ADD_MEM (fregs[54], 16);
ADD_STRING (" f56: ");
ADD_MEM (fregs[56], 16);
ADD_STRING (" f58: ");
ADD_MEM (fregs[58], 16);
ADD_STRING ("\n f60: ");
ADD_MEM (fregs[60], 16);
ADD_STRING (" f62: ");
ADD_MEM (fregs[62], 16);
}
ADD_STRING ("\n");
/* Write the stuff out. */
writev (fd, iov, nr);
}
#define REGISTER_DUMP register_dump (fd, ctx)

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@ -1,345 +0,0 @@
/* Dump registers.
Copyright (C) 2001-2022 Free Software Foundation, Inc.
This file is part of the GNU C Library.
The GNU C Library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
The GNU C Library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with the GNU C Library; if not, see
<https://www.gnu.org/licenses/>. */
#include <sys/uio.h>
#include <_itoa.h>
/* We will print the register dump in this format:
RAX: XXXXXXXXXXXXXXXX RBX: XXXXXXXXXXXXXXXX RCX: XXXXXXXXXXXXXXXX
RDX: XXXXXXXXXXXXXXXX RSI: XXXXXXXXXXXXXXXX RDI: XXXXXXXXXXXXXXXX
RBP: XXXXXXXXXXXXXXXX R8 : XXXXXXXXXXXXXXXX R9 : XXXXXXXXXXXXXXXX
R10: XXXXXXXXXXXXXXXX R11: XXXXXXXXXXXXXXXX R12: XXXXXXXXXXXXXXXX
R13: XXXXXXXXXXXXXXXX R14: XXXXXXXXXXXXXXXX R15: XXXXXXXXXXXXXXXX
RSP: XXXXXXXXXXXXXXXX
RIP: XXXXXXXXXXXXXXXX EFLAGS: XXXXXXXX
CS: XXXX DS: XXXX ES: XXXX FS: XXXX GS: XXXX
Trap: XXXXXXXX Error: XXXXXXXX OldMask: XXXXXXXX
RSP/SIGNAL: XXXXXXXXXXXXXXXX CR2: XXXXXXXX
FPUCW: XXXXXXXX FPUSW: XXXXXXXX TAG: XXXXXXXX
IPOFF: XXXXXXXX CSSEL: XXXX DATAOFF: XXXXXXXX DATASEL: XXXX
ST(0) XXXX XXXXXXXXXXXXXXXX ST(1) XXXX XXXXXXXXXXXXXXXX
ST(2) XXXX XXXXXXXXXXXXXXXX ST(3) XXXX XXXXXXXXXXXXXXXX
ST(4) XXXX XXXXXXXXXXXXXXXX ST(5) XXXX XXXXXXXXXXXXXXXX
ST(6) XXXX XXXXXXXXXXXXXXXX ST(7) XXXX XXXXXXXXXXXXXXXX
mxcsr: XXXX
XMM0 : XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX XMM1 : XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
XMM2 : XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX XMM3 : XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
XMM4 : XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX XMM5 : XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
XMM6 : XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX XMM7 : XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
XMM8 : XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX XMM9 : XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
XMM10: XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX XMM11: XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
XMM12: XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX XMM13: XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
XMM14: XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX XMM15: XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
*/
static void
hexvalue (unsigned long int value, char *buf, size_t len)
{
char *cp = _itoa_word (value, buf + len, 16, 0);
while (cp > buf)
*--cp = '0';
}
static void
register_dump (int fd, ucontext_t *ctx)
{
char regs[25][16];
char fpregs[30][8];
char xmmregs[16][32];
struct iovec iov[147];
size_t nr = 0;
int i;
#define ADD_STRING(str) \
iov[nr].iov_base = (char *) str; \
iov[nr].iov_len = strlen (str); \
++nr
#define ADD_MEM(str, len) \
iov[nr].iov_base = str; \
iov[nr].iov_len = len; \
++nr
/* Generate strings of register contents. */
hexvalue (ctx->uc_mcontext.gregs[REG_RAX], regs[0], 16);
hexvalue (ctx->uc_mcontext.gregs[REG_RBX], regs[1], 16);
hexvalue (ctx->uc_mcontext.gregs[REG_RCX], regs[2], 16);
hexvalue (ctx->uc_mcontext.gregs[REG_RDX], regs[3], 16);
hexvalue (ctx->uc_mcontext.gregs[REG_RSI], regs[4], 16);
hexvalue (ctx->uc_mcontext.gregs[REG_RDI], regs[5], 16);
hexvalue (ctx->uc_mcontext.gregs[REG_RBP], regs[6], 16);
hexvalue (ctx->uc_mcontext.gregs[REG_R8], regs[7], 16);
hexvalue (ctx->uc_mcontext.gregs[REG_R9], regs[8], 16);
hexvalue (ctx->uc_mcontext.gregs[REG_R10], regs[9], 16);
hexvalue (ctx->uc_mcontext.gregs[REG_R11], regs[10], 16);
hexvalue (ctx->uc_mcontext.gregs[REG_R12], regs[11], 16);
hexvalue (ctx->uc_mcontext.gregs[REG_R13], regs[12], 16);
hexvalue (ctx->uc_mcontext.gregs[REG_R14], regs[13], 16);
hexvalue (ctx->uc_mcontext.gregs[REG_R15], regs[14], 16);
hexvalue (ctx->uc_mcontext.gregs[REG_RSP], regs[15], 16);
hexvalue (ctx->uc_mcontext.gregs[REG_RIP], regs[16], 16);
hexvalue (ctx->uc_mcontext.gregs[REG_EFL], regs[17], 8);
hexvalue (ctx->uc_mcontext.gregs[REG_CSGSFS] & 0xffff, regs[18], 4);
hexvalue ((ctx->uc_mcontext.gregs[REG_CSGSFS] >> 16) & 0xffff, regs[19], 4);
hexvalue ((ctx->uc_mcontext.gregs[REG_CSGSFS] >> 32) & 0xffff, regs[20], 4);
/* hexvalue (ctx->ss, regs[23], 4); */
hexvalue (ctx->uc_mcontext.gregs[REG_TRAPNO], regs[21], 8);
hexvalue (ctx->uc_mcontext.gregs[REG_ERR], regs[22], 8);
hexvalue (ctx->uc_mcontext.gregs[REG_OLDMASK], regs[23], 8);
hexvalue (ctx->uc_mcontext.gregs[REG_CR2], regs[24], 8);
/* Generate the output. */
ADD_STRING ("Register dump:\n\n RAX: ");
ADD_MEM (regs[0], 16);
ADD_STRING (" RBX: ");
ADD_MEM (regs[1], 16);
ADD_STRING (" RCX: ");
ADD_MEM (regs[2], 16);
ADD_STRING ("\n RDX: ");
ADD_MEM (regs[3], 16);
ADD_STRING (" RSI: ");
ADD_MEM (regs[4], 16);
ADD_STRING (" RDI: ");
ADD_MEM (regs[5], 16);
ADD_STRING ("\n RBP: ");
ADD_MEM (regs[6], 16);
ADD_STRING (" R8 : ");
ADD_MEM (regs[7], 16);
ADD_STRING (" R9 : ");
ADD_MEM (regs[8], 16);
ADD_STRING ("\n R10: ");
ADD_MEM (regs[9], 16);
ADD_STRING (" R11: ");
ADD_MEM (regs[10], 16);
ADD_STRING (" R12: ");
ADD_MEM (regs[11], 16);
ADD_STRING ("\n R13: ");
ADD_MEM (regs[12], 16);
ADD_STRING (" R14: ");
ADD_MEM (regs[13], 16);
ADD_STRING (" R15: ");
ADD_MEM (regs[14], 16);
ADD_STRING ("\n RSP: ");
ADD_MEM (regs[15], 16);
ADD_STRING ("\n\n RIP: ");
ADD_MEM (regs[16], 16);
ADD_STRING (" EFLAGS: ");
ADD_MEM (regs[17], 8);
ADD_STRING ("\n\n CS: ");
ADD_MEM (regs[18], 4);
ADD_STRING (" FS: ");
ADD_MEM (regs[19], 4);
ADD_STRING (" GS: ");
ADD_MEM (regs[20], 4);
/*
ADD_STRING (" SS: ");
ADD_MEM (regs[23], 4);
*/
ADD_STRING ("\n\n Trap: ");
ADD_MEM (regs[21], 8);
ADD_STRING (" Error: ");
ADD_MEM (regs[22], 8);
ADD_STRING (" OldMask: ");
ADD_MEM (regs[23], 8);
ADD_STRING (" CR2: ");
ADD_MEM (regs[24], 8);
if (ctx->uc_mcontext.fpregs != NULL)
{
/* Generate output for the FPU control/status registers. */
hexvalue (ctx->uc_mcontext.fpregs->cwd, fpregs[0], 8);
hexvalue (ctx->uc_mcontext.fpregs->swd, fpregs[1], 8);
hexvalue (ctx->uc_mcontext.fpregs->ftw, fpregs[2], 8);
hexvalue (ctx->uc_mcontext.fpregs->rip, fpregs[3], 8);
hexvalue (ctx->uc_mcontext.fpregs->rdp, fpregs[4], 8);
ADD_STRING ("\n\n FPUCW: ");
ADD_MEM (fpregs[0], 8);
ADD_STRING (" FPUSW: ");
ADD_MEM (fpregs[1], 8);
ADD_STRING (" TAG: ");
ADD_MEM (fpregs[2], 8);
ADD_STRING ("\n RIP: ");
ADD_MEM (fpregs[3], 8);
ADD_STRING (" RDP: ");
ADD_MEM (fpregs[4], 8);
/* Now the real FPU registers. */
hexvalue (ctx->uc_mcontext.fpregs->_st[0].exponent, fpregs[5], 8);
hexvalue (ctx->uc_mcontext.fpregs->_st[0].significand[3] << 16
| ctx->uc_mcontext.fpregs->_st[0].significand[2], fpregs[6],
8);
hexvalue (ctx->uc_mcontext.fpregs->_st[0].significand[1] << 16
| ctx->uc_mcontext.fpregs->_st[0].significand[0], fpregs[7],
8);
hexvalue (ctx->uc_mcontext.fpregs->_st[1].exponent, fpregs[8], 8);
hexvalue (ctx->uc_mcontext.fpregs->_st[1].significand[3] << 16
| ctx->uc_mcontext.fpregs->_st[1].significand[2], fpregs[9],
8);
hexvalue (ctx->uc_mcontext.fpregs->_st[1].significand[1] << 16
| ctx->uc_mcontext.fpregs->_st[1].significand[0], fpregs[10],
8);
hexvalue (ctx->uc_mcontext.fpregs->_st[2].exponent, fpregs[11], 8);
hexvalue (ctx->uc_mcontext.fpregs->_st[2].significand[3] << 16
| ctx->uc_mcontext.fpregs->_st[2].significand[2], fpregs[12],
8);
hexvalue (ctx->uc_mcontext.fpregs->_st[2].significand[1] << 16
| ctx->uc_mcontext.fpregs->_st[2].significand[0], fpregs[13],
8);
hexvalue (ctx->uc_mcontext.fpregs->_st[3].exponent, fpregs[14], 8);
hexvalue (ctx->uc_mcontext.fpregs->_st[3].significand[3] << 16
| ctx->uc_mcontext.fpregs->_st[3].significand[2], fpregs[15],
8);
hexvalue (ctx->uc_mcontext.fpregs->_st[3].significand[1] << 16
| ctx->uc_mcontext.fpregs->_st[3].significand[0], fpregs[16],
8);
hexvalue (ctx->uc_mcontext.fpregs->_st[4].exponent, fpregs[17], 8);
hexvalue (ctx->uc_mcontext.fpregs->_st[4].significand[3] << 16
| ctx->uc_mcontext.fpregs->_st[4].significand[2], fpregs[18],
8);
hexvalue (ctx->uc_mcontext.fpregs->_st[4].significand[1] << 16
| ctx->uc_mcontext.fpregs->_st[4].significand[0], fpregs[19],
8);
hexvalue (ctx->uc_mcontext.fpregs->_st[5].exponent, fpregs[20], 8);
hexvalue (ctx->uc_mcontext.fpregs->_st[5].significand[3] << 16
| ctx->uc_mcontext.fpregs->_st[5].significand[2], fpregs[21],
8);
hexvalue (ctx->uc_mcontext.fpregs->_st[5].significand[1] << 16
| ctx->uc_mcontext.fpregs->_st[5].significand[0], fpregs[22],
8);
hexvalue (ctx->uc_mcontext.fpregs->_st[6].exponent, fpregs[23], 8);
hexvalue (ctx->uc_mcontext.fpregs->_st[6].significand[3] << 16
| ctx->uc_mcontext.fpregs->_st[6].significand[2], fpregs[24],
8);
hexvalue (ctx->uc_mcontext.fpregs->_st[6].significand[1] << 16
| ctx->uc_mcontext.fpregs->_st[6].significand[0], fpregs[25],
8);
hexvalue (ctx->uc_mcontext.fpregs->_st[7].exponent, fpregs[26], 8);
hexvalue (ctx->uc_mcontext.fpregs->_st[7].significand[3] << 16
| ctx->uc_mcontext.fpregs->_st[7].significand[2], fpregs[27],
8);
hexvalue (ctx->uc_mcontext.fpregs->_st[7].significand[1] << 16
| ctx->uc_mcontext.fpregs->_st[7].significand[0], fpregs[28],
8);
hexvalue (ctx->uc_mcontext.fpregs->mxcsr, fpregs[29], 4);
for (i = 0; i < 16; i++)
hexvalue (ctx->uc_mcontext.fpregs->_xmm[i].element[3] << 24
| ctx->uc_mcontext.fpregs->_xmm[i].element[2] << 16
| ctx->uc_mcontext.fpregs->_xmm[i].element[1] << 8
| ctx->uc_mcontext.fpregs->_xmm[i].element[0], xmmregs[i],
32);
ADD_STRING ("\n\n ST(0) ");
ADD_MEM (fpregs[5], 4);
ADD_STRING (" ");
ADD_MEM (fpregs[6], 8);
ADD_MEM (fpregs[7], 8);
ADD_STRING (" ST(1) ");
ADD_MEM (fpregs[8], 4);
ADD_STRING (" ");
ADD_MEM (fpregs[9], 8);
ADD_MEM (fpregs[10], 8);
ADD_STRING ("\n ST(2) ");
ADD_MEM (fpregs[11], 4);
ADD_STRING (" ");
ADD_MEM (fpregs[12], 8);
ADD_MEM (fpregs[13], 8);
ADD_STRING (" ST(3) ");
ADD_MEM (fpregs[14], 4);
ADD_STRING (" ");
ADD_MEM (fpregs[15], 8);
ADD_MEM (fpregs[16], 8);
ADD_STRING ("\n ST(4) ");
ADD_MEM (fpregs[17], 4);
ADD_STRING (" ");
ADD_MEM (fpregs[18], 8);
ADD_MEM (fpregs[19], 8);
ADD_STRING (" ST(5) ");
ADD_MEM (fpregs[20], 4);
ADD_STRING (" ");
ADD_MEM (fpregs[21], 8);
ADD_MEM (fpregs[22], 8);
ADD_STRING ("\n ST(6) ");
ADD_MEM (fpregs[23], 4);
ADD_STRING (" ");
ADD_MEM (fpregs[24], 8);
ADD_MEM (fpregs[25], 8);
ADD_STRING (" ST(7) ");
ADD_MEM (fpregs[27], 4);
ADD_STRING (" ");
ADD_MEM (fpregs[27], 8);
ADD_MEM (fpregs[28], 8);
ADD_STRING ("\n mxcsr: ");
ADD_MEM (fpregs[29], 4);
ADD_STRING ("\n XMM0: ");
ADD_MEM (xmmregs[0], 32);
ADD_STRING (" XMM1: ");
ADD_MEM (xmmregs[0], 32);
ADD_STRING ("\n XMM2: ");
ADD_MEM (xmmregs[0], 32);
ADD_STRING (" XMM3: ");
ADD_MEM (xmmregs[0], 32);
ADD_STRING ("\n XMM4: ");
ADD_MEM (xmmregs[0], 32);
ADD_STRING (" XMM5: ");
ADD_MEM (xmmregs[0], 32);
ADD_STRING ("\n XMM6: ");
ADD_MEM (xmmregs[0], 32);
ADD_STRING (" XMM7: ");
ADD_MEM (xmmregs[0], 32);
ADD_STRING ("\n XMM8: ");
ADD_MEM (xmmregs[0], 32);
ADD_STRING (" XMM9: ");
ADD_MEM (xmmregs[0], 32);
ADD_STRING ("\n XMM10: ");
ADD_MEM (xmmregs[0], 32);
ADD_STRING (" XMM11: ");
ADD_MEM (xmmregs[0], 32);
ADD_STRING ("\n XMM12: ");
ADD_MEM (xmmregs[0], 32);
ADD_STRING (" XMM13: ");
ADD_MEM (xmmregs[0], 32);
ADD_STRING ("\n XMM14: ");
ADD_MEM (xmmregs[0], 32);
ADD_STRING (" XMM15: ");
ADD_MEM (xmmregs[0], 32);
}
ADD_STRING ("\n");
/* Write the stuff out. */
writev (fd, iov, nr);
}
#define REGISTER_DUMP register_dump (fd, ctx)