Demonstrations of capable, the Linux eBPF/bcc version. capable traces calls to the kernel cap_capable() function, which does security capability checks, and prints details for each call. For example: # ./capable.py TIME UID PID COMM CAP NAME AUDIT 22:11:23 114 2676 snmpd 12 CAP_NET_ADMIN 1 22:11:23 0 6990 run 24 CAP_SYS_RESOURCE 1 22:11:23 0 7003 chmod 3 CAP_FOWNER 1 22:11:23 0 7003 chmod 4 CAP_FSETID 1 22:11:23 0 7005 chmod 4 CAP_FSETID 1 22:11:23 0 7005 chmod 4 CAP_FSETID 1 22:11:23 0 7006 chown 4 CAP_FSETID 1 22:11:23 0 7006 chown 4 CAP_FSETID 1 22:11:23 0 6990 setuidgid 6 CAP_SETGID 1 22:11:23 0 6990 setuidgid 6 CAP_SETGID 1 22:11:23 0 6990 setuidgid 7 CAP_SETUID 1 22:11:24 0 7013 run 24 CAP_SYS_RESOURCE 1 22:11:24 0 7026 chmod 3 CAP_FOWNER 1 22:11:24 0 7026 chmod 4 CAP_FSETID 1 22:11:24 0 7028 chmod 4 CAP_FSETID 1 22:11:24 0 7028 chmod 4 CAP_FSETID 1 22:11:24 0 7029 chown 4 CAP_FSETID 1 22:11:24 0 7029 chown 4 CAP_FSETID 1 22:11:24 0 7013 setuidgid 6 CAP_SETGID 1 22:11:24 0 7013 setuidgid 6 CAP_SETGID 1 22:11:24 0 7013 setuidgid 7 CAP_SETUID 1 22:11:25 0 7036 run 24 CAP_SYS_RESOURCE 1 22:11:25 0 7049 chmod 3 CAP_FOWNER 1 22:11:25 0 7049 chmod 4 CAP_FSETID 1 22:11:25 0 7051 chmod 4 CAP_FSETID 1 22:11:25 0 7051 chmod 4 CAP_FSETID 1 [...] This can be useful for general debugging, and also security enforcement: determining a whitelist of capabilities an application needs. The output above includes various capability checks: snmpd checking CAP_NET_ADMIN, run checking CAP_SYS_RESOURCES, then some short-lived processes checking CAP_FOWNER, CAP_FSETID, etc. To see what each of these capabilities does, check the capabilities(7) man page and the kernel source. It is possible to include a kernel stack trace to the capable events by passing -K to the command: # ./capable.py -K TIME UID PID COMM CAP NAME AUDIT 15:32:21 1000 10708 fetchmail 7 CAP_SETUID 1 cap_capable+0x1 [kernel] ns_capable_common+0x7a [kernel] __sys_setresuid+0xc8 [kernel] do_syscall_64+0x56 [kernel] entry_SYSCALL_64_after_hwframe+0x49 [kernel] 15:32:21 1000 30047 procmail 6 CAP_SETGID 1 cap_capable+0x1 [kernel] ns_capable_common+0x7a [kernel] may_setgroups+0x2f [kernel] __x64_sys_setgroups+0x18 [kernel] do_syscall_64+0x56 [kernel] entry_SYSCALL_64_after_hwframe+0x49 [kernel] Similarly, it is possible to include user-space stack with -U (or they can be used both at the same time to include user and kernel stack). USAGE: # ./capable.py -h usage: capable.py [-h] [-v] [-p PID] [-K] [-U] Trace security capability checks optional arguments: -h, --help show this help message and exit -v, --verbose include non-audit checks -p PID, --pid PID trace this PID only -K, --kernel-stack output kernel stack trace -U, --user-stack output user stack trace examples: ./capable # trace capability checks ./capable -v # verbose: include non-audit checks ./capable -p 181 # only trace PID 181 ./capable -K # add kernel stacks to trace ./capable -U # add user-space stacks to trace