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One core dump while building openoffice2
Hi,
I just noticed that there is a core dump when I build openoffice2 on
NetBSD-current/i386.
That core dump was found by the daily cron job:
OOF680_m14/sal/typesconfig/typesconfig.core
>From gdb:
(gdb) bt
#0 0x08048da6 in SetAtAddress ()
#1 0x08048e61 in check ()
#2 0x08048e86 in CheckSetAccess ()
#3 0x08048fce in InfoMemoryAccess ()
#4 0x08049222 in main ()
I see no errors in my build output and this is the typesconfig related
output from the log:
Making: ../unxbsdi3.pro/bin/typesconfig
unx
cat ../unxbsdi3.pro/misc/typesconfig.typesconfig_1.cmd
c++ -z combreloc -z defs -Wl,-rpath,'$ORIGIN'
-L/work.i386/OOF680_m14/solver/680/unxbsdi3.pro/lib -Wl,-export-dynamic
-L../unxbsdi3.pro/lib -L/usr/pkg/lib/firefox ../unxbsdi3.pro/obj/typescon
fig.o \
-lpthread -lm -lc -lgcc_s -lstdc++ -Wl,-Bdynamic -lstlport_gcc -lgcc_s -lstdc++
-o ../unxbsdi3.pro/bin/typesconfig
-rwxr-xr-x 1 bernd wheel 10207 Apr 11 23:23 ../unxbsdi3.pro/bin/typesconfig
-------------
mkdir ../unxbsdi3.pro/inc/sal
../unxbsdi3.pro/bin/typesconfig ../unxbsdi3.pro/inc/sal/typesizes.h
char = signed char
short = signed short
int = signed int
long = signed long
long long = signed long long
sizeof(short) = 2
sizeof(int) = 4
sizeof(long) = 4
sizeof(long long) = 8
sizeof(float) = 4
sizeof(double) = 8
sizeof(void *) = 4
LITTLEENDIAN (Intel, x86-64, PowerPC(LE))
char = signed char
short = signed short
int = signed int
long = signed long
long long = signed long long
sizeof(short) = 2
sizeof(int) = 4
sizeof(long) = 4
sizeof(long long) = 8
sizeof(float) = 4
sizeof(double) = 8
sizeof(void *) = 4
LITTLEENDIAN (Intel, x86-64, PowerPC(LE))
char = signed char
short = signed short
int = signed int
long = signed long
long long = signed long long
sizeof(short) = 2
sizeof(int) = 4
sizeof(long) = 4
sizeof(long long) = 8
sizeof(float) = 4
sizeof(double) = 8
sizeof(void *) = 4
LITTLEENDIAN (Intel, x86-64, PowerPC(LE))
char = signed char
short = signed short
int = signed int
long = signed long
long long = signed long long
sizeof(short) = 2
sizeof(int) = 4
sizeof(long) = 4
sizeof(long long) = 8
sizeof(float) = 4
sizeof(double) = 8
sizeof(void *) = 4
LITTLEENDIAN (Intel, x86-64, PowerPC(LE))
cannot read address 0x0
cannot write address 0x0
char = signed char
short = signed short
int = signed int
long = signed long
long long = signed long long
sizeof(short) = 2
sizeof(int) = 4
sizeof(long) = 4
sizeof(long long) = 8
sizeof(float) = 4
sizeof(double) = 8
sizeof(void *) = 4
LITTLEENDIAN (Intel, x86-64, PowerPC(LE))
cannot read address 0x0
cannot write address 0x0
can read address 0xbfbfb938
char = signed char
short = signed short
int = signed int
long = signed long
long long = signed long long
sizeof(short) = 2
sizeof(int) = 4
sizeof(long) = 4
sizeof(long long) = 8
sizeof(float) = 4
sizeof(double) = 8
sizeof(void *) = 4
LITTLEENDIAN (Intel, x86-64, PowerPC(LE))
cannot read address 0x0
cannot write address 0x0
can read address 0xbfbfb938
can write address 0xbfbfb938
char = signed char
short = signed short
int = signed int
long = signed long
long long = signed long long
sizeof(short) = 2
sizeof(int) = 4
sizeof(long) = 4
sizeof(long long) = 8
sizeof(float) = 4
sizeof(double) = 8
sizeof(void *) = 4
LITTLEENDIAN (Intel, x86-64, PowerPC(LE))
cannot read address 0x0
cannot write address 0x0
can read address 0xbfbfb938
can write address 0xbfbfb938
Access short on 8-Aligned Address : OK
char = signed char
short = signed short
int = signed int
long = signed long
long long = signed long long
sizeof(short) = 2
sizeof(int) = 4
sizeof(long) = 4
sizeof(long long) = 8
sizeof(float) = 4
sizeof(double) = 8
sizeof(void *) = 4
LITTLEENDIAN (Intel, x86-64, PowerPC(LE))
cannot read address 0x0
cannot write address 0x0
can read address 0xbfbfb938
can write address 0xbfbfb938
Access short on 8-Aligned Address : OK
Access short on 4-Aligned Address : OK
char = signed char
short = signed short
int = signed int
long = signed long
long long = signed long long
sizeof(short) = 2
sizeof(int) = 4
sizeof(long) = 4
sizeof(long long) = 8
sizeof(float) = 4
sizeof(double) = 8
sizeof(void *) = 4
LITTLEENDIAN (Intel, x86-64, PowerPC(LE))
cannot read address 0x0
cannot write address 0x0
can read address 0xbfbfb938
can write address 0xbfbfb938
Access short on 8-Aligned Address : OK
Access short on 4-Aligned Address : OK
Access short on 2-Aligned Address : OK
char = signed char
short = signed short
int = signed int
long = signed long
long long = signed long long
sizeof(short) = 2
sizeof(int) = 4
sizeof(long) = 4
sizeof(long long) = 8
sizeof(float) = 4
sizeof(double) = 8
sizeof(void *) = 4
LITTLEENDIAN (Intel, x86-64, PowerPC(LE))
cannot read address 0x0
cannot write address 0x0
can read address 0xbfbfb938
can write address 0xbfbfb938
Access short on 8-Aligned Address : OK
Access short on 4-Aligned Address : OK
Access short on 2-Aligned Address : OK
Access short on 1-Aligned Address : OK
char = signed char
short = signed short
int = signed int
long = signed long
long long = signed long long
sizeof(short) = 2
sizeof(int) = 4
sizeof(long) = 4
sizeof(long long) = 8
sizeof(float) = 4
sizeof(double) = 8
sizeof(void *) = 4
LITTLEENDIAN (Intel, x86-64, PowerPC(LE))
cannot read address 0x0
cannot write address 0x0
can read address 0xbfbfb938
can write address 0xbfbfb938
Access short on 8-Aligned Address : OK
Access short on 4-Aligned Address : OK
Access short on 2-Aligned Address : OK
Access short on 1-Aligned Address : OK
Access int on 8-Aligned Address : OK
char = signed char
short = signed short
int = signed int
long = signed long
long long = signed long long
sizeof(short) = 2
sizeof(int) = 4
sizeof(long) = 4
sizeof(long long) = 8
sizeof(float) = 4
sizeof(double) = 8
sizeof(void *) = 4
LITTLEENDIAN (Intel, x86-64, PowerPC(LE))
cannot read address 0x0
cannot write address 0x0
can read address 0xbfbfb938
can write address 0xbfbfb938
Access short on 8-Aligned Address : OK
Access short on 4-Aligned Address : OK
Access short on 2-Aligned Address : OK
Access short on 1-Aligned Address : OK
Access int on 8-Aligned Address : OK
Access int on 4-Aligned Address : OK
char = signed char
short = signed short
int = signed int
long = signed long
long long = signed long long
sizeof(short) = 2
sizeof(int) = 4
sizeof(long) = 4
sizeof(long long) = 8
sizeof(float) = 4
sizeof(double) = 8
sizeof(void *) = 4
LITTLEENDIAN (Intel, x86-64, PowerPC(LE))
cannot read address 0x0
cannot write address 0x0
can read address 0xbfbfb938
can write address 0xbfbfb938
Access short on 8-Aligned Address : OK
Access short on 4-Aligned Address : OK
Access short on 2-Aligned Address : OK
Access short on 1-Aligned Address : OK
Access int on 8-Aligned Address : OK
Access int on 4-Aligned Address : OK
Access int on 2-Aligned Address : OK
char = signed char
short = signed short
int = signed int
long = signed long
long long = signed long long
sizeof(short) = 2
sizeof(int) = 4
sizeof(long) = 4
sizeof(long long) = 8
sizeof(float) = 4
sizeof(double) = 8
sizeof(void *) = 4
LITTLEENDIAN (Intel, x86-64, PowerPC(LE))
cannot read address 0x0
cannot write address 0x0
can read address 0xbfbfb938
can write address 0xbfbfb938
Access short on 8-Aligned Address : OK
Access short on 4-Aligned Address : OK
Access short on 2-Aligned Address : OK
Access short on 1-Aligned Address : OK
Access int on 8-Aligned Address : OK
Access int on 4-Aligned Address : OK
Access int on 2-Aligned Address : OK
Access int on 1-Aligned Address : OK
char = signed char
short = signed short
int = signed int
long = signed long
long long = signed long long
sizeof(short) = 2
sizeof(int) = 4
sizeof(long) = 4
sizeof(long long) = 8
sizeof(float) = 4
sizeof(double) = 8
sizeof(void *) = 4
LITTLEENDIAN (Intel, x86-64, PowerPC(LE))
cannot read address 0x0
cannot write address 0x0
can read address 0xbfbfb938
can write address 0xbfbfb938
Access short on 8-Aligned Address : OK
Access short on 4-Aligned Address : OK
Access short on 2-Aligned Address : OK
Access short on 1-Aligned Address : OK
Access int on 8-Aligned Address : OK
Access int on 4-Aligned Address : OK
Access int on 2-Aligned Address : OK
Access int on 1-Aligned Address : OK
Access long on 8-Aligned Address : OK
char = signed char
short = signed short
int = signed int
long = signed long
long long = signed long long
sizeof(short) = 2
sizeof(int) = 4
sizeof(long) = 4
sizeof(long long) = 8
sizeof(float) = 4
sizeof(double) = 8
sizeof(void *) = 4
LITTLEENDIAN (Intel, x86-64, PowerPC(LE))
cannot read address 0x0
cannot write address 0x0
can read address 0xbfbfb938
can write address 0xbfbfb938
Access short on 8-Aligned Address : OK
Access short on 4-Aligned Address : OK
Access short on 2-Aligned Address : OK
Access short on 1-Aligned Address : OK
Access int on 8-Aligned Address : OK
Access int on 4-Aligned Address : OK
Access int on 2-Aligned Address : OK
Access int on 1-Aligned Address : OK
Access long on 8-Aligned Address : OK
Access long on 4-Aligned Address : OK
char = signed char
short = signed short
int = signed int
long = signed long
long long = signed long long
sizeof(short) = 2
sizeof(int) = 4
sizeof(long) = 4
sizeof(long long) = 8
sizeof(float) = 4
sizeof(double) = 8
sizeof(void *) = 4
LITTLEENDIAN (Intel, x86-64, PowerPC(LE))
cannot read address 0x0
cannot write address 0x0
can read address 0xbfbfb938
can write address 0xbfbfb938
Access short on 8-Aligned Address : OK
Access short on 4-Aligned Address : OK
Access short on 2-Aligned Address : OK
Access short on 1-Aligned Address : OK
Access int on 8-Aligned Address : OK
Access int on 4-Aligned Address : OK
Access int on 2-Aligned Address : OK
Access int on 1-Aligned Address : OK
Access long on 8-Aligned Address : OK
Access long on 4-Aligned Address : OK
Access long on 2-Aligned Address : OK
char = signed char
short = signed short
int = signed int
long = signed long
long long = signed long long
sizeof(short) = 2
sizeof(int) = 4
sizeof(long) = 4
sizeof(long long) = 8
sizeof(float) = 4
sizeof(double) = 8
sizeof(void *) = 4
LITTLEENDIAN (Intel, x86-64, PowerPC(LE))
cannot read address 0x0
cannot write address 0x0
can read address 0xbfbfb938
can write address 0xbfbfb938
Access short on 8-Aligned Address : OK
Access short on 4-Aligned Address : OK
Access short on 2-Aligned Address : OK
Access short on 1-Aligned Address : OK
Access int on 8-Aligned Address : OK
Access int on 4-Aligned Address : OK
Access int on 2-Aligned Address : OK
Access int on 1-Aligned Address : OK
Access long on 8-Aligned Address : OK
Access long on 4-Aligned Address : OK
Access long on 2-Aligned Address : OK
Access long on 1-Aligned Address : OK
char = signed char
short = signed short
int = signed int
long = signed long
long long = signed long long
sizeof(short) = 2
sizeof(int) = 4
sizeof(long) = 4
sizeof(long long) = 8
sizeof(float) = 4
sizeof(double) = 8
sizeof(void *) = 4
LITTLEENDIAN (Intel, x86-64, PowerPC(LE))
cannot read address 0x0
cannot write address 0x0
can read address 0xbfbfb938
can write address 0xbfbfb938
Access short on 8-Aligned Address : OK
Access short on 4-Aligned Address : OK
Access short on 2-Aligned Address : OK
Access short on 1-Aligned Address : OK
Access int on 8-Aligned Address : OK
Access int on 4-Aligned Address : OK
Access int on 2-Aligned Address : OK
Access int on 1-Aligned Address : OK
Access long on 8-Aligned Address : OK
Access long on 4-Aligned Address : OK
Access long on 2-Aligned Address : OK
Access long on 1-Aligned Address : OK
Access double on 8-Aligned Address : OK
char = signed char
short = signed short
int = signed int
long = signed long
long long = signed long long
sizeof(short) = 2
sizeof(int) = 4
sizeof(long) = 4
sizeof(long long) = 8
sizeof(float) = 4
sizeof(double) = 8
sizeof(void *) = 4
LITTLEENDIAN (Intel, x86-64, PowerPC(LE))
cannot read address 0x0
cannot write address 0x0
can read address 0xbfbfb938
can write address 0xbfbfb938
Access short on 8-Aligned Address : OK
Access short on 4-Aligned Address : OK
Access short on 2-Aligned Address : OK
Access short on 1-Aligned Address : OK
Access int on 8-Aligned Address : OK
Access int on 4-Aligned Address : OK
Access int on 2-Aligned Address : OK
Access int on 1-Aligned Address : OK
Access long on 8-Aligned Address : OK
Access long on 4-Aligned Address : OK
Access long on 2-Aligned Address : OK
Access long on 1-Aligned Address : OK
Access double on 8-Aligned Address : OK
Access double on 4-Aligned Address : OK
char = signed char
short = signed short
int = signed int
long = signed long
long long = signed long long
sizeof(short) = 2
sizeof(int) = 4
sizeof(long) = 4
sizeof(long long) = 8
sizeof(float) = 4
sizeof(double) = 8
sizeof(void *) = 4
LITTLEENDIAN (Intel, x86-64, PowerPC(LE))
cannot read address 0x0
cannot write address 0x0
can read address 0xbfbfb938
can write address 0xbfbfb938
Access short on 8-Aligned Address : OK
Access short on 4-Aligned Address : OK
Access short on 2-Aligned Address : OK
Access short on 1-Aligned Address : OK
Access int on 8-Aligned Address : OK
Access int on 4-Aligned Address : OK
Access int on 2-Aligned Address : OK
Access int on 1-Aligned Address : OK
Access long on 8-Aligned Address : OK
Access long on 4-Aligned Address : OK
Access long on 2-Aligned Address : OK
Access long on 1-Aligned Address : OK
Access double on 8-Aligned Address : OK
Access double on 4-Aligned Address : OK
Access double on 2-Aligned Address : OK
char = signed char
short = signed short
int = signed int
long = signed long
long long = signed long long
sizeof(short) = 2
sizeof(int) = 4
sizeof(long) = 4
sizeof(long long) = 8
sizeof(float) = 4
sizeof(double) = 8
sizeof(void *) = 4
LITTLEENDIAN (Intel, x86-64, PowerPC(LE))
cannot read address 0x0
cannot write address 0x0
can read address 0xbfbfb938
can write address 0xbfbfb938
Access short on 8-Aligned Address : OK
Access short on 4-Aligned Address : OK
Access short on 2-Aligned Address : OK
Access short on 1-Aligned Address : OK
Access int on 8-Aligned Address : OK
Access int on 4-Aligned Address : OK
Access int on 2-Aligned Address : OK
Access int on 1-Aligned Address : OK
Access long on 8-Aligned Address : OK
Access long on 4-Aligned Address : OK
Access long on 2-Aligned Address : OK
Access long on 1-Aligned Address : OK
Access double on 8-Aligned Address : OK
Access double on 4-Aligned Address : OK
Access double on 2-Aligned Address : OK
Access double on 1-Aligned Address : OK
/home/avi/work.i386/OOF680_m14/sal/osl/all
[The build continues normaly and everything seems to be ok]
typesizes.h has the following content:
/* This file is autogenerated from the 'typesconfig' program
* in the sal module
*/
#define SAL_TYPES_ALIGNMENT2 1
#define SAL_TYPES_ALIGNMENT4 1
#define SAL_TYPES_ALIGNMENT8 1
#define SAL_TYPES_SIZEOFSHORT 2
#define SAL_TYPES_SIZEOFINT 4
#define SAL_TYPES_SIZEOFLONG 4
#define SAL_TYPES_SIZEOFLONGLONG 8
#define SAL_TYPES_SIZEOFPOINTER 4
Bernd
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