Dear Paul, First of all, thanks a lot for your response.
I think the problem that I have is that I can’t see expected message (which is AUDIT_SOCKCALL) from 64-bit kernel when it runs 32-bit binary that issues connect() system call. Regarding 32-bit system that I showed from the previous mail is just for a reference case to show normal behavior. For whatever kernel version, I’m pretty sure it will produce a complete set of all 4 messages (1300, 1306, 1304, 1320). I think can run the same experiment from relatively newer version of kernel, but if what I see is true at least for a subset of kernel versions , I think it is still a problem. If you still have any specific item that you want me to perform, please let me know. Thanks for your help again! Regards, Kangkook > On May 9, 2016, at 4:15 PM, Paul Moore <[email protected]> wrote: > > Without looking at the code too closely, have you tried doing these > tests on the same kernel version, preferably a current kernel? The > test below is comparing 3.13 to 2.6.18 which might not be a valid > comparison, and even 3.13 is a few years old. > > On Fri, May 6, 2016 at 6:49 PM, Kangkook Jee <[email protected]> wrote: >> Hi, all >> >> >> This is a bump. >> Could any of you have a look into this case? >> >> Regards, Kangkook >> >> On May 4, 2016, at 5:21 PM, Kangkook Jee <[email protected]> wrote: >> >> Hi all, >> >> We are running a 32-bit program on a 64-bit machine (Ubuntu 14.04, >> 3.13.0-57-generic kernel - x86_64) typically issuing network related system >> calls which, in turn, would invoke the one of socketcall() system call. >> >> However, an expected audit raw message -- AUDIT_SOCKETCALL (1304) is >> reported when we run the 32-bit binary from a 64-bit machine. The following >> is the raw audit messages captured for connect() system from a 64-bit >> machine running 32-bit binary. >> >> MSG (1300): audit(1462273146.351:21482453): arch=40000003 syscall=102 >> success=no exit=-2 a0=3 a1=ffe38240 a2=f7751000 a3=4 items=0 ppid=10269 >> pid=10755 auid=19287 uid=19287 gid=19287 euid=19287 suid=19287 fsuid=19287 >> egid=19287 sgid=19287 fsgid=19287 tty=pts16 ses=12 comm="conn" >> exe="/home/accountname/32bit_test/conn" key=(null) >> MSG (1306): audit(1462273146.351:21482453): >> saddr=01002F7661722F72756E2F6E7363642F736F636B657400B7160054B7160054B71600130000001300000004000000010000000100000000000000000000000000000028791A0028791A000500000000100000CD5D77F734D676F748A15BF7D4811A00E82C0000A858000006000000 >> MSG (1320): audit(1462273146.351:21482453): >> >> And this is the raw audit message captured from a 32-bit machine (CentOS 5 >> 2.6.18-404.el5 i686) running 32-bit binary. >> >> MSG (1300): audit(1462289555.340:807319): arch=40000003 syscall=102 >> success=yes exit=0 a0=3 a1=bfef25b0 a2=67dff4 a3=816840 items=0 ppid=28509 >> pid=28560 auid=500 uid=0 gid=0 euid=0 suid=0 fsuid=0 egid=0 sgid=0 fsgid=0 >> tty=pts2 ses=10 comm="conn" exe="/home/kjee/conn" >> subj=user_u:system_r:unconfined_t:s0 key=(null) >> MSG (1306): audit(1462289555.340:807319): >> saddr=020000358A0F6D630000000000000000000000000000000000000000 >> MSG (1304): audit(1462289555.340:807319): nargs=3 a0=4 a1=859c4b8 a2=1c >> MSG (1320): audit(1462289555.340:807319):• >> >> I hope you to catch the difference. While the first case does not report >> AUDIT_SOCKETCALL (1304) event, but the second case report the entry >> providing the list of arguments starting with "nargs=". >> >> Could you tell me whether this is an expected behavior? Or is there any way >> that I can fix it? >> >> I'm attaching the source code of the test program (conn.c) and summarizes >> the procedure to reproduce the problem. If you have any difficulty producing >> the issue, please let me know. >> >> 1. we added the following the audit rules from a 64-bit machine. It is >> intended to capture events from both 64-bit and 32-bit system calls. >> >> /sbin/auditctl -a exit,always -F arch=b64 -S clone -S close -S creat -S dup >> -S dup2 -S dup3 -S execve -S exit -S exit_group -S fork -S open -S openat -S >> rename -S renameat -S unlink -S unlinkat -S vfork -S 288 -S accept -S >> connect -S listen -S socket -S socketpair >> /sbin/auditctl -a exit,always -F arch=b32 -S clone -S close -S creat -S dup >> -S dup2 -S dup3 -S execve -S exit -S exit_group -S fork -S open -S openat -S >> rename -S renameat -S unlink -S unlinkat -S vfork >> /sbin/auditctl -a exit,always -F arch=b32 -S socketcall -F a0=3 # connect >> /sbin/auditctl -a exit,always -F arch=b32 -S socketcall -F a0=4 # listen >> /sbin/auditctl -a exit,always -F arch=b32 -S socketcall -F a0=5 # accept >> /sbin/auditctl -a exit,always -F arch=b32 -S socketcall -F a0=8 # socketpair >> /sbin/auditctl -a exit,always -F arch=b32 -S socketcall -F a0=18 # accept4 >> >> $ sudo auditctl -l >> LIST_RULES: exit,always arch=3221225534 (0xc000003e) >> syscall=open,close,dup,dup2,socket,connect,accept,listen,socketpair,clone,fork,vfork,execve,exit,rename,creat,unlink,exit_group,openat,unlinkat,renameat,accept4,dup3 >> LIST_RULES: exit,always arch=1073741827 (0x40000003) >> syscall=exit,fork,open,close,creat,unlink,execve,rename,dup,dup2,clone,vfork,exit_group,openat,unlinkat,renameat,dup3 >> LIST_RULES: exit,always arch=1073741827 (0x40000003) a0=1 (0x1) >> syscall=socketcall >> LIST_RULES: exit,always arch=1073741827 (0x40000003) a0=3 (0x3) >> syscall=socketcall >> LIST_RULES: exit,always arch=1073741827 (0x40000003) a0=4 (0x4) >> syscall=socketcall >> LIST_RULES: exit,always arch=1073741827 (0x40000003) a0=5 (0x5) >> syscall=socketcall >> LIST_RULES: exit,always arch=1073741827 (0x40000003) a0=8 (0x8) >> syscall=socketcall >> LIST_RULES: exit,always arch=1073741827 (0x40000003) a0=18 (0x12) >> syscall=socketcall >> >> 2. We added the following the audit rules from a 32-bit machine. >> >> /sbin/auditctl -a exit,always -F arch=b32 -S clone -S close -S creat -S dup >> -S dup2 -S dup3 -S execve -S exit -S exit_group -S fork -S open -S openat -S >> rename -S renameat -S unlink -S unlinkat -S vfork >> /sbin/auditctl -a exit,always -F arch=b32 -S socketcall -F a0=2 >> /sbin/auditctl -a exit,always -F arch=b32 -S socketcall -F a0=3 >> /sbin/auditctl -a exit,always -F arch=b32 -S socketcall -F a0=4 >> /sbin/auditctl -a exit,always -F arch=b32 -S socketcall -F a0=5 >> /sbin/auditctl -a exit,always -F arch=b32 -S socketcall -F a0=8 >> /sbin/auditctl -a exit,always -F arch=b32 -S socketcall -F a0=18 >> >> LIST_RULES: exit,always arch=1073741827 (0x40000003) >> syscall=exit,fork,open,close,creat,unlink,execve,rename,dup,dup2,clone,vfork,exit_group,openat,unlinkat,renameat,dup3 >> LIST_RULES: exit,always arch=1073741827 (0x40000003) a0=1 (0x1) >> syscall=socketcall >> LIST_RULES: exit,always arch=1073741827 (0x40000003) a0=2 (0x2) >> syscall=socketcall >> LIST_RULES: exit,always arch=1073741827 (0x40000003) a0=3 (0x3) >> syscall=socketcall >> LIST_RULES: exit,always arch=1073741827 (0x40000003) a0=4 (0x4) >> syscall=socketcall >> LIST_RULES: exit,always arch=1073741827 (0x40000003) a0=5 (0x5) >> syscall=socketcall >> LIST_RULES: exit,always arch=1073741827 (0x40000003) a0=8 (0x8) >> syscall=socketcall >> LIST_RULES: exit,always arch=1073741827 (0x40000003) a0=18 (0x12) >> syscall=socketcall >> >> 3. Build conn.c source and running >> conn.c is a simple connection client. >> $ cc -o conn conn.c >> $ ./conn <remote_host> <port> >> >> Example run >> >> $ ./conn localhost 22 >> $ Please enter the message: this is random message >> SSH-2.0-OpenSSH_4.3 >> >> Thanks a lot for your help in advance. >> >> >> <conn.c> >> >> >> >> -- >> Linux-audit mailing list >> [email protected] >> https://www.redhat.com/mailman/listinfo/linux-audit > > > > -- > paul moore > www.paul-moore.com -- Linux-audit mailing list [email protected] https://www.redhat.com/mailman/listinfo/linux-audit
