// syscalls tapset part 2 [N-Z] // Copyright (C) 2005 IBM Corp. // Copyright (C) 2005, 2006, 2007, 2010 Red Hat Inc. // Copyright (C) 2007 Quentin Barnes. // // This file is part of systemtap, and is free software. You can // redistribute it and/or modify it under the terms of the GNU General // Public License (GPL); either version 2, or (at your option) any // later version. /* Each syscall returns the calls parameters. In addition, the following * variables are set: * * name - generally the syscall name minus the "sys_". * * argstr - a string containing the decoded args in an easy-to-read format. * It doesn't need to contain everything, but should have all the * important args. Set in entry probes only. * * retstr - a string containing the return value in an easy-to-read format. * Set in return probes only. */ # nanosleep __________________________________________________ # # long sys_nanosleep(struct timespec __user *rqtp, # struct timespec __user *rmtp) # long compat_sys_nanosleep(struct compat_timespec __user *rqtp, # struct compat_timespec __user *rmtp) # probe nd_syscall.nanosleep = kprobe.function("SyS_nanosleep") ?, kprobe.function("sys_nanosleep") ? { name = "nanosleep" // req_uaddr = $rqtp // rem_uaddr = $rmtp // argstr = sprintf("%s, %p", _struct_timespec_u($rqtp, 1), $rmtp) asmlinkage() req_uaddr = pointer_arg(1) rem_uaddr = pointer_arg(2) argstr = sprintf("%s, %p", _struct_timespec_u(req_uaddr, 1), rem_uaddr) } probe nd_syscall.nanosleep.return = kprobe.function("SyS_nanosleep").return ?, kprobe.function("sys_nanosleep").return ? { name = "nanosleep" retstr = returnstr(1) } probe nd_syscall.compat_nanosleep = kprobe.function("compat_sys_nanosleep") ? { name = "nanosleep" // req_uaddr = $rqtp // rem_uaddr = $rmtp // argstr = sprintf("%s, %p", _struct_compat_timespec_u($rqtp, 1), $rmtp) asmlinkage() req_uaddr = pointer_arg(1) rem_uaddr = pointer_arg(2) argstr = sprintf("%s, %p", _struct_compat_timespec_u(req_uaddr, 1), rem_uaddr) } probe nd_syscall.compat_nanosleep.return = kprobe.function("compat_sys_nanosleep").return ? { name = "nanosleep" retstr = returnstr(1) } # nfsservctl _________________________________________________ # # long sys_nfsservctl(int cmd, struct nfsctl_arg __user *arg, void __user *res) # long compat_sys_nfsservctl(int cmd, struct compat_nfsctl_arg __user *arg, # union compat_nfsctl_res __user *res) # probe nd_syscall.nfsservctl = kprobe.function("sys_nfsservctl") ?, kprobe.function("compat_sys_nfsservctl") ? { name = "nfsservctl" // cmd = $cmd // argp_uaddr = $arg // resp_uaddr = $res // argstr = sprintf("%s, %p, %p", _nfsctl_cmd_str($cmd), $arg, $res) asmlinkage() cmd = int_arg(1) argp_uaddr = pointer_arg(2) resp_uaddr = pointer_arg(3) argstr = sprintf("%s, %p, %p", _nfsctl_cmd_str(cmd), argp_uaddr, resp_uaddr) } probe nd_syscall.nfsservctl.return = kprobe.function("sys_nfsservctl").return ?, kprobe.function("compat_sys_nfsservctl").return ? { name = "nfsservctl" retstr = returnstr(1) } # nice _______________________________________________________ # long sys_nice(int increment) # probe nd_syscall.nice = kprobe.function("SyS_nice") ?, kprobe.function("sys_nice") ? { name = "nice" // inc = $increment // argstr = sprintf("%d", $increment) asmlinkage() inc = int_arg(1) argstr = sprintf("%d", inc) } probe nd_syscall.nice.return = kprobe.function("SyS_nice").return ?, kprobe.function("sys_nice").return ? { name = "nice" retstr = returnstr(1) } # ni_syscall _________________________________________________ # # long sys_ni_syscall(void) # probe nd_syscall.ni_syscall = kprobe.function("sys_ni_syscall") { name = "ni_syscall" argstr = "" } probe nd_syscall.ni_syscall.return = kprobe.function("sys_ni_syscall").return { name = "ni_syscall" retstr = returnstr(1) } # open _______________________________________________________ # long sys_open(const char __user * filename, int flags, int mode) # (obsolete) long sys32_open(const char * filename, int flags, int mode) # probe nd_syscall.open = kprobe.function("compat_sys_open") ?, kprobe.function("sys32_open") ?, kprobe.function("SyS_open") ?, kprobe.function("sys_open") ? { name = "open" // filename = user_string($filename) // flags = $flags // mode = $mode // if (flags & 64) // argstr = sprintf("%s, %s, %#o", user_string_quoted($filename), // _sys_open_flag_str($flags), $mode) // else // argstr = sprintf("%s, %s", user_string_quoted($filename), // _sys_open_flag_str($flags)) asmlinkage() filename = user_string(pointer_arg(1)) flags = int_arg(2) mode = int_arg(3) if (flags & 64) argstr = sprintf("%s, %s, %#o", user_string_quoted(pointer_arg(1)), _sys_open_flag_str(flags), mode) else argstr = sprintf("%s, %s", user_string_quoted(pointer_arg(1)), _sys_open_flag_str(flags)) } probe nd_syscall.open.return = kprobe.function("compat_sys_open").return ?, kprobe.function("sys32_open").return ?, kprobe.function("SyS_open").return ?, kprobe.function("sys_open").return ? { name = "open" retstr = returnstr(1) } # openat _______________________________________________________ # long sys_openat(int dfd, const char __user *filename, int flags, int mode) # long compat_sys_openat(unsigned int dfd, const char __user *filename, int flags, int mode) # probe nd_syscall.openat = kprobe.function("compat_sys_openat") ?, kprobe.function("SyS_openat") ?, kprobe.function("sys_openat") ? { name = "openat" // filename = user_string($filename) // flags = $flags // mode = $mode // if ($flags & 64) // argstr = sprintf("%s, %s, %s, %#o", _dfd_str($dfd), // user_string_quoted($filename), // _sys_open_flag_str($flags), $mode) // else // argstr = sprintf("%s, %s, %s", _dfd_str($dfd), // user_string_quoted($filename), // _sys_open_flag_str($flags)) asmlinkage() filename = user_string(pointer_arg(2)) flags = int_arg(3) mode = int_arg(4) if (flags & 64) argstr = sprintf("%s, %s, %s, %#o", _dfd_str(int_arg(1)), user_string_quoted(pointer_arg(2)), _sys_open_flag_str(flags), mode) else argstr = sprintf("%s, %s, %s", _dfd_str(int_arg(1)), user_string_quoted(pointer_arg(2)), _sys_open_flag_str(flags)) } probe nd_syscall.openat.return = kprobe.function("compat_sys_openat").return ?, kprobe.function("SyS_openat").return ?, kprobe.function("sys_openat").return ? { name = "openat" retstr = returnstr(1) } # pause ______________________________________________________ # # sys_pause(void) # probe nd_syscall.pause = kprobe.function("sys_pause") ?, kprobe.function("sys32_pause") ?, kprobe.function("compat_sys_pause") ? { name = "pause" argstr = "" } probe nd_syscall.pause.return = kprobe.function("sys_pause").return ?, kprobe.function("sys32_pause").return ?, kprobe.function("compat_sys_pause").return ? { name = "pause" retstr = returnstr(1) } # pciconfig_iobase ___________________________________________ # # asmlinkage long # sys_pciconfig_iobase(long which, # unsigned long bus, # unsigned long dfn) # # #probe nd_syscall.pciconfig_iobase = kprobe.function("sys_pciconfig_iobase") #{ # name = "pciconfig_iobase" # which = $which # bus = $bus # dfn = $dfn # argstr = sprintf("%p, %p, %p", which, bus, dfn) #} #probe nd_syscall.pciconfig_iobase.return = kprobe.function("sys_pciconfig_iobase").return #{ # name = "pciconfig_iobase" # retstr = returnstr(1) #} # pciconfig_read _____________________________________________ # # asmlinkage int # sys_pciconfig_read(unsigned long bus, # unsigned long dfn, # unsigned long off, # unsigned long len, # unsigned char *buf) # { return 0; } # # #probe nd_syscall.pciconfig_read = kprobe.function("sys_pciconfig_read") #{ # name = "pciconfig_read" # bus = $bus # dfn = $dfn # off = $off # len = $len # buf_uaddr = $buf # argstr = sprintf("%p, %p, %p, %d, %p", bus, dfn, off, # len, buf_uaddr) #} #probe nd_syscall.pciconfig_read.return = kprobe.function("sys_pciconfig_read").return #{ # name = "pciconfig_read" # retstr = returnstr(1) #} # pciconfig_write ____________________________________________ # # asmlinkage int # sys_pciconfig_write(unsigned long bus, # unsigned long dfn, # unsigned long off, # unsigned long len, # unsigned char *buf) # # #probe nd_syscall.pciconfig_write = kprobe.function("sys_pciconfig_write") #{ # name = "pciconfig_write" # bus = $bus # dfn = $dfn # off = $off # len = $len # buf_uaddr = $buf # argstr = sprintf("%p, %p, %p, %d, %p", bus, dfn, off, # len, buf_uaddr) #} #probe nd_syscall.pciconfig_write.return = kprobe.function("sys_pciconfig_write").return #{ # name = "pciconfig_write" # retstr = returnstr(1) #} # personality ________________________________________________ # # asmlinkage long # sys_personality(u_long personality) # probe nd_syscall.personality = kprobe.function("SyS_personality") ?, kprobe.function("sys_personality") ? { name = "personality" // persona = $personality asmlinkage() persona = ulong_arg(1) argstr = sprintf("%p", persona); } probe nd_syscall.personality.return = kprobe.function("SyS_personality").return ?, kprobe.function("sys_personality").return ? { name = "personality" retstr = returnstr(1) } # pipe _______________________________________________________ # # asmlinkage int # sys_pipe(unsigned long __user * fildes) # probe nd_syscall.pipe = kprobe.function("SyS_pipe") ?, %( arch == "ia64" %? kprobe.function("sys_ia64_pipe") ?, %) kprobe.function("sys_pipe") ? { name = "pipe" %( arch == "ia64" %? # ia64 just returns value directly, so fake the arguments fildes_uaddr = 0 argstr = "[0, 0]" %: // fildes_uaddr = $fildes // argstr = _fildes_u($fildes) %( arch != "powerpc" %? asmlinkage() %) fildes_uaddr = pointer_arg(1) argstr = _fildes_u(fildes_uaddr) %) } probe nd_syscall.pipe.return = kprobe.function("SyS_pipe").return ?, %( arch == "ia64" %? kprobe.function("sys_ia64_pipe").return ?, %) kprobe.function("sys_pipe").return ? { name = "pipe" retstr = returnstr(1) } # pivot_root _________________________________________________ # # long sys_pivot_root(const char __user *new_root, const char __user *put_old) # probe nd_syscall.pivot_root = kprobe.function("SyS_pivot_root") ?, kprobe.function("sys_pivot_root") ? { name = "pivot_root" // new_root_str = user_string($new_root) // old_root_str = user_string($put_old) // argstr = sprintf("%s, %s", user_string_quoted($new_root), // user_string_quoted($put_old)) asmlinkage() new_root_str = user_string(pointer_arg(1)) old_root_str = user_string(pointer_arg(2)) argstr = sprintf("%s, %s", user_string_quoted(pointer_arg(1)), user_string_quoted(pointer_arg(2))) } probe nd_syscall.pivot_root.return = kprobe.function("SyS_pivot_root").return ?, kprobe.function("sys_pivot_root").return ? { name = "pivot_root" retstr = returnstr(1) } # poll _______________________________________________________ # # long sys_poll(struct pollfd __user * ufds, unsigned int nfds, long timeout) # probe nd_syscall.poll = kprobe.function("SyS_poll") ?, kprobe.function("sys_poll") ? { name = "poll" // ufds_uaddr = $ufds // nfds = $nfds // timeout = $timeout // argstr = sprintf("%p, %d, %d", $ufds, $nfds, timeout) asmlinkage() ufds_uaddr = pointer_arg(1) nfds = uint_arg(2) timeout = long_arg(3) argstr = sprintf("%p, %d, %d", ufds_uaddr, nfds, timeout) } probe nd_syscall.poll.return = kprobe.function("SyS_poll").return ?, kprobe.function("sys_poll").return ? { name = "poll" retstr = returnstr(1) } # ppoll _______________________________________________________ # # long sys_ppoll(struct pollfd __user *ufds, unsigned int nfds, # struct timespec __user *tsp, const sigset_t __user *sigmask, # size_t sigsetsize) # probe nd_syscall.ppoll = kprobe.function("SyS_ppoll") ?, kprobe.function("sys_ppoll") ? { name = "ppoll" // argstr = sprintf("%p, %d, %s, %p, %d", // $ufds, // $nfds, // _struct_timespec_u($tsp, 1), // $sigmask, // $sigsetsize) asmlinkage() argstr = sprintf("%p, %d, %s, %p, %d", pointer_arg(1), uint_arg(2), _struct_timespec_u(pointer_arg(3), 1), pointer_arg(4), ulong_arg(5)) } probe nd_syscall.ppoll.return = kprobe.function("SyS_ppoll").return ?, kprobe.function("sys_ppoll").return ? { name = "ppoll" retstr = returnstr(1) } # long compat_sys_ppoll(struct pollfd __user *ufds, # unsigned int nfds, struct compat_timespec __user *tsp, # const compat_sigset_t __user *sigmask, compat_size_t sigsetsize) # probe nd_syscall.compat_ppoll = kprobe.function("compat_sys_ppoll") ? { name = "ppoll" // argstr = sprintf("%p, %d, %s, %p, %d", // $ufds, // $nfds, // _struct_compat_timespec_u($tsp, 1), // $sigmask, // $sigsetsize) asmlinkage() argstr = sprintf("%p, %d, %s, %p, %d", pointer_arg(1), uint_arg(2), _struct_compat_timespec_u(pointer_arg(3), 1), pointer_arg(4), u32_arg(5)) } probe nd_syscall.compat_ppoll.return = kprobe.function("compat_sys_ppoll").return ? { name = "ppoll" retstr = returnstr(1) } # prctl ______________________________________________________ # # asmlinkage long # sys_prctl(int option, # unsigned long arg2, # unsigned long arg3, # unsigned long arg4, # unsigned long arg5) # probe nd_syscall.prctl = kprobe.function("SyS_prctl") ?, kprobe.function("sys_prctl") ? { name = "prctl" // option = $option // arg2 = $arg2 // arg3 = $arg3 // arg4 = $arg4 // arg5 = $arg5 asmlinkage() option = int_arg(1) arg2 = ulong_arg(2) arg3 = ulong_arg(3) arg4 = ulong_arg(4) arg5 = ulong_arg(5) argstr = sprintf("%p, %p, %p, %p, %p", option, arg2, arg3, arg4, arg5) } probe nd_syscall.prctl.return = kprobe.function("SyS_prctl").return ?, kprobe.function("sys_prctl").return ? { name = "prctl" retstr = returnstr(1) } # pread64 ____________________________________________________ # # ssize_t sys_pread64(unsigned int fd, # char __user *buf, # size_t count, # loff_t pos) # probe nd_syscall.pread = kprobe.function("SyS_pread64") ?, kprobe.function("sys_pread64") ? { name = "pread" // fd = $fd // buf_uaddr = $buf // count = $count // offset = $pos // argstr = sprintf("%d, %p, %d, %d", $fd, $buf, $count, $pos) asmlinkage() fd = uint_arg(1) buf_uaddr = pointer_arg(2) count = ulong_arg(3) offset = longlong_arg(4) argstr = sprintf("%d, %p, %d, %d", fd, buf_uaddr, count, offset) } probe nd_syscall.pread.return = kprobe.function("SyS_pread64").return ?, kprobe.function("sys_pread64").return ? { name = "pread" retstr = returnstr(1) } # pselect6 _____________________________________________________ # # long sys_pselect6(int n, fd_set __user *inp, fd_set __user *outp, # fd_set __user *exp, struct timespec __user *tsp, void __user *sig) # probe nd_syscall.pselect6 = kprobe.function("SyS_pselect6") ?, kprobe.function("sys_pselect6") ? { name = "pselect6" // argstr = sprintf("%d, %p, %p, %p, %s, %p", $n, $inp, $outp, $exp, // _struct_timespec_u($tsp, 1), $sig) asmlinkage() argstr = sprintf("%d, %p, %p, %p, %s, %p", int_arg(1) , pointer_arg(2), pointer_arg(3), pointer_arg(4), _struct_timespec_u(pointer_arg(5), 1), pointer_arg(6)) } probe nd_syscall.pselect6.return = kprobe.function("SyS_pselect6").return ?, kprobe.function("sys_pselect6").return ? { name = "pselect6" retstr = returnstr(1) } probe nd_syscall.compat_pselect6 = kprobe.function("compat_sys_pselect6") ? { name = "pselect6" // argstr = sprintf("%d, %p, %p, %p, %s, %p", $n, $inp, $outp, $exp, // _struct_compat_timespec_u($tsp, 1), $sig) asmlinkage() argstr = sprintf("%d, %p, %p, %p, %s, %p", int_arg(1), pointer_arg(2), pointer_arg(3), pointer_arg(4), _struct_compat_timespec_u(pointer_arg(5), 1), pointer_arg(6)) } probe nd_syscall.compat_pselect6.return = kprobe.function("compat_sys_pselect6").return ? { name = "pselect6" retstr = returnstr(1) } # pselect7 _____________________________________________________ # # long sys_pselect7(int n, fd_set __user *inp, fd_set __user *outp, # fd_set __user *exp, struct timespec __user *tsp, # const sigset_t __user *sigmask, size_t sigsetsize) # probe nd_syscall.pselect7 = kprobe.function("sys_pselect7") ? { name = "pselect7" // argstr = sprintf("%d, %p, %p, %p, %s, %p, %d", $n, $inp, $outp, $exp, // _struct_timespec_u($tsp, 1), $sigmask, $sigsetsize) asmlinkage() argstr = sprintf("%d, %p, %p, %p, %s, %p, %d", int_arg(1) , pointer_arg(2), pointer_arg(3), pointer_arg(4), _struct_timespec_u(pointer_arg(5), 1), pointer_arg(6), ulong_arg(7)) } probe nd_syscall.pselect7.return = kprobe.function("sys_pselect7").return ? { name = "pselect7" retstr = returnstr(1) } probe nd_syscall.compat_pselect7a = kprobe.function("compat_sys_pselect7") ? { name = "pselect7" //argstr = sprintf("%d, %p, %p, %p, %s, %p, %d", $n, $inp, $outp, $exp, // _struct_compat_timespec_u($tsp, 1), $sigmask, $sigsetsize) asmlinkage() argstr = sprintf("%d, %p, %p, %p, %s, %p, %d", int_arg(1) , pointer_arg(2), pointer_arg(3), pointer_arg(4), _struct_timespec_u(pointer_arg(5), 1), pointer_arg(6), ulong_arg(7)) } probe nd_syscall.compat_pselect7.return = kprobe.function("compat_sys_pselect7").return ? { name = "pselect7" retstr = returnstr(1) } # ptrace _____________________________________________________ # # int sys_ptrace(long request, # long pid, # long addr, # long data) # probe nd_syscall.ptrace = kprobe.function("SyS_ptrace") ?, kprobe.function("sys_ptrace") ? { name = "ptrace" // request = $request // pid = $pid // addr = $addr // data = $data asmlinkage() request = long_arg(1) pid = long_arg(2) addr = long_arg(3) data = long_arg(4) argstr = sprintf("%d, %d, %p, %p", request, pid, addr, data) } probe nd_syscall.ptrace.return = kprobe.function("SyS_ptrace").return ?, kprobe.function("sys_ptrace").return ? { name = "ptrace" retstr = returnstr(1) } # pwrite64 ___________________________________________________ # # ssize_t sys_pwrite64(unsigned int fd, # const char __user *buf, # size_t count, # loff_t pos) # probe nd_syscall.pwrite = kprobe.function("SyS_pwrite64") ?, kprobe.function("sys_pwrite64") ? { name = "pwrite" // fd = $fd // buf_uaddr = $buf // count = $count // offset = $pos // argstr = sprintf("%d, %s, %d, %d", $fd, // text_strn(user_string($buf), syscall_string_trunc, 1), // $count, $pos) asmlinkage() fd = uint_arg(1) buf_uaddr = pointer_arg(2) count = ulong_arg(3) offset = longlong_arg(4) argstr = sprintf("%d, %s, %d, %d", fd, text_strn(user_string(buf_uaddr), syscall_string_trunc, 1), count, offset) } probe nd_syscall.pwrite.return = kprobe.function("SyS_pwrite64").return ?, kprobe.function("sys_pwrite64").return ? { name = "pwrite" retstr = returnstr(1) } # long sys32_pwrite64(unsigned int fd, const char __user *ubuf, # size_t count, u32 poshi, u32 poslo) probe nd_syscall.pwrite32 = kprobe.function("sys32_pwrite64") ? { name = "pwrite" // fd = $fd // buf_uaddr = $buf // count = $count // offset = ($poshi << 32) + $poslo // %( arch == "s390" %? // buf_uaddr = $ubuf // argstr = sprintf("%d, %s, %d, %d", $fd, // text_strn(user_string($ubuf), syscall_string_trunc, 1), // $count, ($poshi << 32) + $poslo) // %: // buf_uaddr = $buf // argstr = sprintf("%d, %s, %d, %d", $fd, // text_strn(user_string($buf), syscall_string_trunc, 1), // $count, ($poshi << 32) + $poslo) // %) asmlinkage() fd = uint_arg(1) buf_uaddr = pointer_arg(2) count = ulong_arg(3) offset = (u32_arg(4) << 32) + u32_arg(5) argstr = sprintf("%d, %s, %d, %d", fd, text_strn(user_string(buf_uaddr), syscall_string_trunc, 1), count, offset) } probe nd_syscall.pwrite32.return = kprobe.function("sys32_pwrite64").return ? { name = "pwrite" retstr = returnstr(1) } # quotactl ___________________________________________________ # # long sys_quotactl(unsigned int cmd, # const char __user *special, # qid_t id, # void __user *addr) # probe nd_syscall.quotactl = kprobe.function("SyS_quotactl") ?, kprobe.function("sys_quotactl") ? { name = "quotactl" // cmd = $cmd // cmd_str = _quotactl_cmd_str($cmd) // special = $special // special_str = user_string($special) // id = $id // addr_uaddr = $addr // argstr = sprintf("%s, %s, %d, %p", cmd_str, special_str, $id, $addr) asmlinkage() cmd = uint_arg(1) cmd_str = _quotactl_cmd_str(cmd) special = pointer_arg(2) special_str = user_string(special) id = uint_arg(3) addr_uaddr = pointer_arg(4) argstr = sprintf("%s, %s, %d, %p", cmd_str, special_str, id, addr_uaddr) } probe nd_syscall.quotactl.return = kprobe.function("SyS_quotactl").return ?, kprobe.function("sys_quotactl").return ? { name = "quotactl" retstr = returnstr(1) } # read _______________________________________________________ # ssize_t sys_read(unsigned int fd, char __user * buf, size_t count) probe nd_syscall.read = kprobe.function("SyS_read") ?, kprobe.function("sys_read") ? { name = "read" // fd = $fd // buf_uaddr = $buf // count = $count // argstr = sprintf("%d, %p, %d", $fd, $buf, $count) asmlinkage() fd = uint_arg(1) buf_uaddr = pointer_arg(2) count = ulong_arg(3) argstr = sprintf("%d, %p, %d", fd, buf_uaddr, count) } probe nd_syscall.read.return = kprobe.function("SyS_read").return ?, kprobe.function("sys_read").return ? { name = "read" retstr = returnstr(1) } # readahead __________________________________________________ # # asmlinkage ssize_t # sys_readahead(int fd, # loff_t offset, # size_t count) # probe nd_syscall.readahead = kprobe.function("SyS_readahead") ?, kprobe.function("sys_readahead") ? { name = "readahead" // fd = $fd // offset = $offset // count = $count asmlinkage() fd = int_arg(1) offset = longlong_arg(2) count = ulong_arg(3) argstr = sprintf("%d, %p, %p", fd, offset, count) } probe nd_syscall.readahead.return = kprobe.function("SyS_readahead").return ?, kprobe.function("sys_readahead").return ? { name = "readahead" retstr = returnstr(1) } # readdir ___________________________________________________ # # long compat_sys_old_readdir(unsigned int fd, struct compat_old_linux_dirent __user *dirent, unsigned int count) # int old32_readdir(unsigned int fd, struct old_linux_dirent32 *dirent, unsigned int count) # probe nd_syscall.readdir = kprobe.function("compat_sys_old_readdir") ?, kprobe.function("old32_readdir") ? { name = "readdir" // argstr = sprintf("%d, %p, %d", $fd, $dirent, $count) asmlinkage() argstr = sprintf("%d, %p, %d", uint_arg(1), pointer_arg(2), uint_arg(3)) } probe nd_syscall.readdir.return = kprobe.function("compat_sys_old_readdir").return ?, kprobe.function("old32_readdir").return ? { name = "readdir" retstr = returnstr(1) } # readlink ___________________________________________________ # # long sys_readlink(const char __user * path, # char __user * buf, # int bufsiz) # probe nd_syscall.readlink = kprobe.function("SyS_readlink") ?, kprobe.function("sys_readlink") ? { name = "readlink" // path = user_string($path) // buf_uaddr = $buf // bufsiz = $bufsiz // argstr = sprintf("%s, %p, %d", user_string_quoted($path), // $buf, $bufsiz) asmlinkage() path = user_string(pointer_arg(1)) buf_uaddr = pointer_arg(2) bufsiz = int_arg(3) argstr = sprintf("%s, %p, %d", user_string_quoted(pointer_arg(1)), buf_uaddr, bufsiz) } probe nd_syscall.readlink.return = kprobe.function("SyS_readlink").return ?, kprobe.function("sys_readlink").return ? { name = "readlink" retstr = returnstr(1) } # readlinkat ___________________________________________________ # # long sys_readlinkat(int dfd, const char __user * path, # char __user * buf, # int bufsiz) # probe nd_syscall.readlinkat = kprobe.function("SyS_readlinkat") ?, kprobe.function("sys_readlinkat") ? { name = "readlinkat" //dfd = $dfd // path = user_string($path) // buf_uaddr = $buf // bufsiz = $bufsiz // argstr = sprintf("%s, %s, %p, %d", _dfd_str($dfd), user_string_quoted($path), // $buf, $bufsiz) asmlinkage() dfd = int_arg(1) path = user_string(pointer_arg(2)) buf_uaddr = pointer_arg(3) bufsiz = int_arg(4) argstr = sprintf("%s, %s, %p, %d", _dfd_str(dfd), user_string_quoted(pointer_arg(2)), buf_uaddr, bufsiz) } probe nd_syscall.readlinkat.return = kprobe.function("SyS_readlinkat").return ?, kprobe.function("sys_readlinkat").return ? { name = "readlinkat" retstr = returnstr(1) } # readv ______________________________________________________ # # ssize_t sys_readv(unsigned long fd, # const struct iovec __user *vec, # unsigned long vlen) # ssize_t compat_sys_readv(unsigned long fd, # const struct compat_iovec __user *vec, # unsigned long vlen) # probe nd_syscall.readv = kprobe.function("compat_sys_readv") ?, kprobe.function("SyS_readv") ?, kprobe.function("sys_readv") ? { name = "readv" // vector_uaddr = $vec // count = $vlen // fd = $fd // argstr = sprintf("%d, %p, %d", $fd, $vec, $vlen) asmlinkage() vector_uaddr = pointer_arg(2) count = ulong_arg(3) fd = ulong_arg(1) argstr = sprintf("%d, %p, %d", fd, vector_uaddr, count) } probe nd_syscall.readv.return = kprobe.function("compat_sys_readv").return ?, kprobe.function("SyS_readv").return ?, kprobe.function("sys_readv").return ? { name = "readv" retstr = returnstr(1) } # reboot _____________________________________________________ # # long sys_reboot(int magic1, # int magic2, # unsigned int cmd, # void __user * arg) # probe nd_syscall.reboot = kprobe.function("SyS_reboot") ?, kprobe.function("sys_reboot") ? { name = "reboot" // magic = $magic1 // magic_str = _reboot_magic_str($magic1) // magic2 = $magic2 // magic2_str =_reboot_magic_str($magic2) // flag = $cmd // flag_str = _reboot_flag_str($cmd) // arg_uaddr = $arg // argstr = sprintf("%s, %s, %s, %p", magic_str, magic2_str, // flag_str, $arg) asmlinkage() magic = int_arg(1) magic_str = _reboot_magic_str(magic) magic2 = int_arg(2) magic2_str =_reboot_magic_str(magic2) flag = uint_arg(3) flag_str = _reboot_flag_str(flag) arg_uaddr = pointer_arg(4) argstr = sprintf("%s, %s, %s, %p", magic_str, magic2_str, flag_str, arg_uaddr) } probe nd_syscall.reboot.return = kprobe.function("SyS_reboot").return ?, kprobe.function("sys_reboot").return ? { name = "reboot" retstr = returnstr(1) } # recv _______________________________________________________ # # long sys_recv(int fd, void __user *ubuf, size_t size, unsigned flags) # probe nd_syscall.recv = kprobe.function("sys_recv") ? { name = "recv" // s = $fd // buf_uaddr = $ubuf // len = $size // flags = $flags // flags_str = _recvflags_str($flags) // argstr = sprintf("%d, %p, %d, %s", $fd, $ubuf, $size, _recvflags_str($flags)) asmlinkage() s = int_arg(1) buf_uaddr = pointer_arg(2) len = ulong_arg(3) flags = uint_arg(4) flags_str = _recvflags_str(flags) argstr = sprintf("%d, %p, %d, %s", s, buf_uaddr, len, flags_str) } probe nd_syscall.recv.return = kprobe.function("sys_recv").return ? { name = "recv" retstr = returnstr(1) } # recvfrom ___________________________________________________ # # long sys_recvfrom(int fd, # void __user * ubuf, # size_t size, # unsigned flags, # struct sockaddr __user *addr, # int __user *addr_len) # probe nd_syscall.recvfrom = kprobe.function("SyS_recvfrom") ?, kprobe.function("sys_recvfrom") ? { name = "recvfrom" // s = $fd // buf_uaddr = $ubuf // len = $size // flags = $flags // flags_str = _recvflags_str($flags) // addr_uaddr = $addr // addrlen_uaddr = $addr_len // argstr = sprintf("%d, %p, %d, %s, %p, %p", // $fd, $ubuf, $size, _recvflags_str($flags), $addr, $addr_len) asmlinkage() s = int_arg(1) buf_uaddr = pointer_arg(2) len = ulong_arg(3) flags = uint_arg(4) flags_str = _recvflags_str(flags) addr_uaddr = pointer_arg(5) addrlen_uaddr = pointer_arg(6) argstr = sprintf("%d, %p, %d, %s, %p, %p", s, buf_uaddr, len, flags_str, addr_uaddr, addrlen_uaddr) } probe nd_syscall.recvfrom.return = kprobe.function("SyS_recvfrom").return ?, kprobe.function("sys_recvfrom").return ? { name = "recvfrom" retstr = returnstr(1) } # recvmsg ____________________________________________________ # # long sys_recvmsg(int fd, # struct msghdr __user *msg, # unsigned int flags) # probe nd_syscall.recvmsg = kprobe.function("SyS_recvmsg") ?, kprobe.function("sys_recvmsg") ? { name = "recvmsg" // s = $fd // msg_uaddr = $msg // flags = $flags // flags_str = _recvflags_str($flags) // argstr = sprintf("%d, %p, %s", $fd, $msg, _recvflags_str($flags)) asmlinkage() s = int_arg(1) msg_uaddr = pointer_arg(2) flags = uint_arg(3) flags_str = _recvflags_str(flags) argstr = sprintf("%d, %p, %s", s, msg_uaddr, flags_str) } probe nd_syscall.recvmsg.return = kprobe.function("SyS_recvmsg").return ?, kprobe.function("sys_recvmsg").return ? { name = "recvmsg" retstr = returnstr(1) } # compat_sys_recvmsg ________________________________________ # # long compat_sys_recvmsg(int fd, # struct compat_msghdr __user *msg, # unsigned int flags) # probe nd_syscall.compat_sys_recvmsg = kprobe.function("compat_sys_recvmsg") ? { name = "compat_sys_recvmsg" // s = $fd // msg_uaddr = $msg // flags = $flags // argstr = sprintf("%d, %p, %s", $fd, $msg, _recvflags_str($flags)) asmlinkage() s = int_arg(1) msg_uaddr = pointer_arg(2) flags = uint_arg(3) argstr = sprintf("%d, %p, %s", s, msg_uaddr, _recvflags_str(flags)) } probe nd_syscall.compat_sys_recvmsg.return = kprobe.function("compat_sys_recvmsg").return ? { name = "compat_sys_recvmsg" retstr = returnstr(1) } # remap_file_pages ___________________________________________ # # long sys_remap_file_pages(unsigned long start, # unsigned long size, # unsigned long __prot, # unsigned long pgoff, # unsigned long flags) # probe nd_syscall.remap_file_pages = kprobe.function("SyS_remap_file_pages") ?, kprobe.function("sys_remap_file_pages") ? { name = "remap_file_pages" // start = $start // size = $size // prot = (@defined($prot) ? $prot : $__prot) // pgoff = $pgoff // flags = $flags asmlinkage() start = ulong_arg(1) size = ulong_arg(2) prot = ulong_arg(3) pgoff = ulong_arg(4) flags = ulong_arg(5) argstr = sprintf("%p, %p, %p, %p, %p", start, size, prot, pgoff, flags) } probe nd_syscall.remap_file_pages.return = kprobe.function("SyS_remap_file_pages").return ?, kprobe.function("sys_remap_file_pages").return ? { name = "remap_file_pages" retstr = returnstr(1) } # removexattr ________________________________________________ # # asmlinkage long # sys_removexattr(char __user *path, # char __user *name) # probe nd_syscall.removexattr = kprobe.function("SyS_removexattr") ?, kprobe.function("sys_removexattr") ? { name = "removexattr" // path = user_string($path) // name_str = user_string($name) // argstr = sprintf("%s, %s", user_string_quoted($path), // user_string_quoted($name)) asmlinkage() path = user_string(pointer_arg(1)) name_str = user_string(pointer_arg(2)) argstr = sprintf("%s, %s", user_string_quoted(pointer_arg(1)), user_string_quoted(pointer_arg(2))) } probe nd_syscall.removexattr.return = kprobe.function("SyS_removexattr").return ?, kprobe.function("sys_removexattr").return ? { name = "removexattr" retstr = returnstr(1) } # rename _____________________________________________________ # # asmlinkage long # sys_rename(const char __user * oldname, # const char __user * newname) # probe nd_syscall.rename = kprobe.function("SyS_rename") ?, kprobe.function("sys_rename") ? { name = "rename" // oldpath = user_string($oldname) // newpath = user_string($newname) // argstr = sprintf("%s, %s", user_string_quoted($oldname), // user_string_quoted($newname)) asmlinkage() oldpath = user_string(pointer_arg(1)) newpath = user_string(pointer_arg(2)) argstr = sprintf("%s, %s", user_string_quoted(pointer_arg(1)), user_string_quoted(pointer_arg(2))) } probe nd_syscall.rename.return = kprobe.function("SyS_rename").return ?, kprobe.function("sys_rename").return ? { name = "rename" retstr = returnstr(1) } # renameat ___________________________________________________ # new function with 2.6.16 # long sys_renameat(int olddfd, const char __user *oldname, # int newdfd, const char __user *newname) probe nd_syscall.renameat = kprobe.function("SyS_renameat") ?, kprobe.function("sys_renameat") ? { name = "renameat" // olddfd = $olddfd // olddfd_str = _dfd_str($olddfd) // oldname = $oldname // oldname_str = user_string($oldname) // newdfd = $newdfd // newdfd_str = _dfd_str($newdfd) // newname = $newname // newname_str = user_string($newname) // argstr = sprintf("%s, %s, %s, %s", // olddfd_str, user_string_quoted($oldname), // newdfd_str, user_string_quoted($newname)) asmlinkage() olddfd = int_arg(1) olddfd_str = _dfd_str(olddfd) oldname = pointer_arg(2) oldname_str = user_string(oldname) newdfd = int_arg(3) newdfd_str = _dfd_str(newdfd) newname = pointer_arg(4) newname_str = user_string(newname) argstr = sprintf("%s, %s, %s, %s", olddfd_str, user_string_quoted(oldname), newdfd_str, user_string_quoted(newname)) } probe nd_syscall.renameat.return = kprobe.function("SyS_renameat").return ?, kprobe.function("sys_renameat").return ? { name = "renameat" retstr = returnstr(1) } # request_key ________________________________________________ # # long sys_request_key(const char __user *_type, # const char __user *_description, # const char __user *_callout_info, # key_serial_t destringid) # compat_sys_request_key() calls sys_request_key, so don't need probe there. # probe nd_syscall.request_key = kprobe.function("SyS_request_key") ?, kprobe.function("sys_request_key") ? { name = "request_key" // type_uaddr = $_type // description_uaddr = $_description // callout_info_uaddr = $_callout_info // destringid = $destringid // argstr = sprintf("%p, %p, %p, %p", $_type, $_description, $_callout_info, $destringid) asmlinkage() type_uaddr = pointer_arg(1) description_uaddr = pointer_arg(2) callout_info_uaddr = pointer_arg(3) destringid = u32_arg(4) argstr = sprintf("%p, %p, %p, %p", type_uaddr, description_uaddr, callout_info_uaddr, destringid) } probe nd_syscall.request_key.return = kprobe.function("SyS_request_key").return ?, kprobe.function("sys_request_key").return ? { name = "request_key" retstr = returnstr(1) } # restart_syscall ____________________________________________ # # asmlinkage long # sys_restart_syscall(void) # probe nd_syscall.restart_syscall = kprobe.function("sys_restart_syscall") { name = "restart_syscall" argstr = "" } probe nd_syscall.restart_syscall.return = kprobe.function("sys_restart_syscall").return { name = "restart_syscall" retstr = returnstr(1) } # rmdir ______________________________________________________ # # asmlinkage long # sys_rmdir(const char __user * pathname) # probe nd_syscall.rmdir = kprobe.function("SyS_rmdir") ?, kprobe.function("sys_rmdir") ? { name = "rmdir" // pathname = user_string($pathname) // argstr = user_string_quoted($pathname) asmlinkage() pathname = user_string(pointer_arg(1)) argstr = user_string_quoted(pointer_arg(1)) } probe nd_syscall.rmdir.return = kprobe.function("SyS_rmdir").return ?, kprobe.function("sys_rmdir").return ? { name = "rmdir" retstr = returnstr(1) } # rt_sigaction _______________________________________________ # # sys_rt_sigaction(int sig, # const struct sigaction __user *act, # struct sigaction __user *oact, # size_t sigsetsize) # probe nd_syscall.rt_sigaction = kprobe.function("SyS_rt_sigaction") ?, kprobe.function("sys_rt_sigaction") ? { name = "rt_sigaction" // sig = $sig // act_uaddr = $act // oact_uaddr = $oact // sigsetsize = $sigsetsize // argstr = sprintf("%s, {%s}, %p, %d", _signal_name($sig), // _struct_sigaction_u($act), $oact, $sigsetsize) asmlinkage() sig = int_arg(1) act_uaddr = pointer_arg(2) oact_uaddr = pointer_arg(3) sigsetsize = ulong_arg(4) argstr = sprintf("%s, {%s}, %p, %d", _signal_name(sig), _struct_sigaction_u(act_uaddr), oact_uaddr, sigsetsize) } probe nd_syscall.rt_sigaction.return = kprobe.function("SyS_rt_sigaction").return ?, kprobe.function("sys_rt_sigaction").return ? { name = "rt_sigaction" retstr = returnstr(1) } # # long sys32_rt_sigaction(int sig, # struct sigaction32 __user *act, # struct sigaction32 __user *oact, # unsigned int sigsetsize) # ppc only # compat_sys_rt_sigaction(int sig, # const struct sigaction32 __user *act, # struct sigaction32 __user *oact, # size_t sigsetsize) probe nd_syscall.rt_sigaction32 = kprobe.function("sys32_rt_sigaction") ?, kprobe.function("compat_sys_rt_sigaction") ? { name = "rt_sigaction" // sig = $sig // act_uaddr = $act // oact_uaddr = $oact // sigsetsize = $sigsetsize // argstr = sprintf("%s, {%s}, %p, %d", _signal_name($sig), // _struct_sigaction32_u($act), $oact, $sigsetsize) asmlinkage() sig = int_arg(1) act_uaddr = pointer_arg(2) oact_uaddr = pointer_arg(3) sigsetsize = uint_arg(4) argstr = sprintf("%s, {%s}, %p, %d", _signal_name(sig), _struct_sigaction32_u(act_uaddr), oact_uaddr, sigsetsize) } probe nd_syscall.rt_sigaction32.return = kprobe.function("sys32_rt_sigaction").return ?, kprobe.function("compat_sys_rt_sigaction").return ? { name = "rt_sigaction" retstr = returnstr(1) } # rt_sigpending ______________________________________________ # # long sys_rt_sigpending(sigset_t __user *set, size_t sigsetsize) # probe nd_syscall.rt_sigpending = kprobe.function("SyS_rt_sigpending") ?, kprobe.function("sys_rt_sigpending") ? { name = "rt_sigpending" // set_uaddr = $set // sigsetsize = $sigsetsize // argstr = sprintf("%p, %d", $set, $sigsetsize) asmlinkage() set_uaddr = pointer_arg(1) sigsetsize = ulong_arg(2) argstr = sprintf("%p, %d", set_uaddr, sigsetsize) } probe nd_syscall.rt_sigpending.return = kprobe.function("SyS_rt_sigpending").return ?, kprobe.function("sys_rt_sigpending").return ? { name = "rt_sigpending" retstr = returnstr(1) } # rt_sigprocmask _____________________________________________ # long sys32_rt_sigprocmask(u32 how, compat_sigset_t __user *set, compat_sigset_t __user *oset, size_t sigsetsize) # long compat_sys_rt_sigprocmask(int how, compat_sigset_t __user *set, compat_sigset_t __user *oset, compat_size_t sigsetsize) # long sys_rt_sigprocmask(int how, sigset_t __user *set, sigset_t __user *oset, size_t sigsetsize) # probe nd_syscall.rt_sigprocmask = kprobe.function("sys32_rt_sigprocmask") ?, kprobe.function("compat_sys_rt_sigprocmask") ?, kprobe.function("SyS_rt_sigprocmask") ?, kprobe.function("sys_rt_sigprocmask") ? { name = "rt_sigprocmask" // how = $how // how_str = _sigprocmask_how_str($how) // set_uaddr = $set // oldset_uaddr = $oset // argstr = sprintf("%s, [%s], %p, %d", how_str, _stp_sigset_u($set), // $oset, $sigsetsize) if (probefunc() != "compat_sys_rt_sigprocmask") asmlinkage() how = int_arg(1) how_str = _sigprocmask_how_str(how) set_uaddr = pointer_arg(2) oldset_uaddr = pointer_arg(3) argstr = sprintf("%s, [%s], %p, %d", how_str, _stp_sigset_u(set_uaddr), oldset_uaddr, uint_arg(4)) } probe nd_syscall.rt_sigprocmask.return = kprobe.function("sys32_rt_sigprocmask").return ?, kprobe.function("compat_sys_rt_sigprocmask").return ?, kprobe.function("SyS_rt_sigprocmask").return ?, kprobe.function("sys_rt_sigprocmask").return ? { name = "rt_sigprocmask" retstr = returnstr(1) } # rt_sigqueueinfo ____________________________________________ # # long sys_rt_sigqueueinfo(int pid, int sig, siginfo_t __user *uinfo) # probe nd_syscall.rt_sigqueueinfo = kprobe.function("SyS_rt_sigqueueinfo") ?, kprobe.function("sys_rt_sigqueueinfo") ? { name = "rt_sigqueueinfo" // pid = $pid // sig = $sig // uinfo_uaddr = $uinfo // argstr = sprintf("%d, %s, %p", $pid, _signal_name($sig), $uinfo) asmlinkage() pid = int_arg(1) sig = int_arg(2) uinfo_uaddr = pointer_arg(3) argstr = sprintf("%d, %s, %p", pid, _signal_name(sig), uinfo_uaddr) } probe nd_syscall.rt_sigqueueinfo.return = kprobe.function("SyS_rt_sigqueueinfo").return ?, kprobe.function("sys_rt_sigqueueinfo").return ? { name = "rt_sigqueueinfo" retstr = returnstr(1) } # rt_sigreturn _______________________________________________ # int sys_rt_sigreturn(unsigned long __unused) # probe nd_syscall.rt_sigreturn = kprobe.function("sys_rt_sigreturn") ?, kprobe.function("sys32_rt_sigreturn") ? { name = "rt_sigreturn" argstr = "" } probe nd_syscall.rt_sigreturn.return = kprobe.function("sys_rt_sigreturn").return ?, kprobe.function("sys32_rt_sigreturn").return ? { name = "rt_sigreturn" retstr = returnstr(1) } # rt_sigsuspend ______________________________________________ # # sys_rt_sigsuspend(struct pt_regs regs) # probe nd_syscall.rt_sigsuspend = kprobe.function("compat_sys_rt_sigsuspend") ?, kprobe.function("ia64_rt_sigsuspend") ?, kprobe.function("SyS_rt_sigsuspend") ?, kprobe.function("sys_rt_sigsuspend") ? { name = "rt_sigsuspend" argstr = "" } probe nd_syscall.rt_sigsuspend.return = kprobe.function("compat_sys_rt_sigsuspend").return ?, kprobe.function("ia64_rt_sigsuspend").return ?, kprobe.function("SyS_rt_sigsuspend").return ?, kprobe.function("sys_rt_sigsuspend").return ? { name = "rt_sigsuspend" retstr = returnstr(1) } # rt_sigtimedwait ____________________________________________ # # long sys_rt_sigtimedwait(const sigset_t __user *uthese, # siginfo_t __user *uinfo, # const struct timespec __user *uts, # size_t sigsetsize) # long compat_sys_rt_sigtimedwait (compat_sigset_t __user *uthese, # struct compat_siginfo __user *uinfo, # struct compat_timespec __user *uts, compat_size_t sigsetsize) # probe nd_syscall.rt_sigtimedwait = kprobe.function("compat_sys_rt_sigtimedwait") ?, kprobe.function("SyS_rt_sigtimedwait") ?, kprobe.function("sys_rt_sigtimedwait") ? { name = "rt_sigtimedwait" // uthese_uaddr = $uthese // uinfo_uaddr = $uinfo // uts_uaddr = $uts // sigsetsize = $sigsetsize // argstr = sprintf("%p, %p, %p, %d", $uthese, $uinfo, $uts, $sigsetsize) asmlinkage() uthese_uaddr = pointer_arg(1) uinfo_uaddr = pointer_arg(2) uts_uaddr = pointer_arg(3) if (probefunc() == "sys_rt_sigtimedwait") sigsetsize = ulong_arg(4) else sigsetsize = u32_arg(4) argstr = sprintf("%p, %p, %p, %d", uthese_uaddr, uinfo_uaddr, uts_uaddr, sigsetsize) } probe nd_syscall.rt_sigtimedwait.return = kprobe.function("compat_sys_rt_sigtimedwait").return ?, kprobe.function("SyS_rt_sigtimedwait").return ?, kprobe.function("sys_rt_sigtimedwait").return ? { name = "rt_sigtimedwait" retstr = returnstr(1) } # sched_getaffinity __________________________________________ # # asmlinkage long # sys_sched_getaffinity(pid_t pid, # unsigned int len, # unsigned long __user *user_mask_ptr) # probe nd_syscall.sched_getaffinity = kprobe.function("SyS_sched_getaffinity") ?, kprobe.function("sys_sched_getaffinity") ? { name = "sched_getaffinity" // pid = $pid // len = $len // mask_uaddr = $user_mask_ptr asmlinkage() pid = int_arg(1) len = uint_arg(2) mask_uaddr = pointer_arg(3) argstr = sprintf("%d, %p, %p", pid, len, mask_uaddr) } probe nd_syscall.sched_getaffinity.return = kprobe.function("SyS_sched_getaffinity").return ?, kprobe.function("sys_sched_getaffinity").return ? { name = "sched_getaffinity" retstr = returnstr(1) } # sched_getparam _____________________________________________ # # asmlinkage long # sys_sched_getparam(pid_t pid, # struct sched_param __user *param) # probe nd_syscall.sched_getparam = kprobe.function("SyS_sched_getparam") ?, kprobe.function("sys_sched_getparam") ? { name = "sched_getparam" // pid = $pid // p_uaddr = $param asmlinkage() pid = int_arg(1) p_uaddr = pointer_arg(2) argstr = sprintf("%d, %p", pid, p_uaddr) } probe nd_syscall.sched_getparam.return = kprobe.function("SyS_sched_getparam").return ?, kprobe.function("sys_sched_getparam").return ? { name = "sched_getparam" retstr = returnstr(1) } # sched_get_priority_max _____________________________________ # # asmlinkage long # sys_sched_get_priority_max(int policy) # probe nd_syscall.sched_get_priority_max = kprobe.function("SyS_sched_get_priority_max") ?, kprobe.function("sys_sched_get_priority_max") ? { name = "sched_get_priority_max" // policy = $policy asmlinkage() policy = int_arg(1) argstr = sprint(policy) } probe nd_syscall.sched_get_priority_max.return = kprobe.function("SyS_sched_get_priority_max").return ?, kprobe.function("sys_sched_get_priority_max").return ? { name = "sched_get_priority_max" retstr = returnstr(1) } # sched_get_priority_min _____________________________________ # # asmlinkage long # sys_sched_get_priority_min(int policy) # probe nd_syscall.sched_get_priority_min = kprobe.function("SyS_sched_get_priority_min") ?, kprobe.function("sys_sched_get_priority_min") ? { name = "sched_get_priority_min" // policy = $policy asmlinkage() policy = int_arg(1) argstr = sprint(policy) } probe nd_syscall.sched_get_priority_min.return = kprobe.function("SyS_sched_get_priority_min").return ?, kprobe.function("sys_sched_get_priority_min").return ? { name = "sched_get_priority_min" retstr = returnstr(1) } # sched_getscheduler _________________________________________ # # long sys_sched_getscheduler(pid_t pid) # probe nd_syscall.sched_getscheduler = kprobe.function("SyS_sched_getscheduler") ?, kprobe.function("sys_sched_getscheduler") ? { name = "sched_getscheduler" // pid = $pid // argstr = sprint($pid) asmlinkage() pid = int_arg(1) argstr = sprint(pid) } probe nd_syscall.sched_getscheduler.return = kprobe.function("SyS_sched_getscheduler").return ?, kprobe.function("sys_sched_getscheduler").return ? { name = "sched_getscheduler" retstr = returnstr(1) } # sched_rr_get_interval ______________________________________ # # long sys_sched_rr_get_interval(pid_t pid, struct timespec __user *interval) # probe nd_syscall.sched_rr_get_interval = kprobe.function("SyS_sched_rr_get_interval") ?, kprobe.function("sys_sched_rr_get_interval") ? { name = "sched_rr_get_interval" // pid = $pid // tp_uaddr = $interval // argstr = sprintf("%d, %s", $pid, _struct_timespec_u($interval, 1)) asmlinkage() pid = int_arg(1) tp_uaddr = pointer_arg(2) argstr = sprintf("%d, %s", pid, _struct_timespec_u(tp_uaddr, 1)) } probe nd_syscall.sched_rr_get_interval.return = kprobe.function("SyS_sched_rr_get_interval").return ?, kprobe.function("sys_sched_rr_get_interval").return ? { name = "sched_rr_get_interval" retstr = returnstr(1) } # sched_setaffinity __________________________________________ # long sys_sched_setaffinity(pid_t pid, # unsigned int len, # unsigned long __user *user_mask_ptr) # FIXME: why the problem with x86_64? # %( arch != "x86_64" %? probe nd_syscall.sched_setaffinity = kprobe.function("SyS_sched_setaffinity") ?, kprobe.function("sys_sched_setaffinity") ? { name = "sched_setaffinity" // pid = $pid // len = $len // mask_uaddr = $user_mask_ptr // argstr = sprintf("%d, %d, %p", $pid, $len, $user_mask_ptr) asmlinkage() pid = int_arg(1) len = uint_arg(2) mask_uaddr = pointer_arg(3) argstr = sprintf("%d, %d, %p", pid, len, mask_uaddr) } %: probe nd_syscall.sched_setaffinity = kprobe.function("SyS_sched_setaffinity") ?, kprobe.function("sys_sched_setaffinity") ? { name = "sched_setaffinity" // pid = $pid // len = 0 // mask_uaddr = $user_mask_ptr // argstr = sprintf("%d, , %p", $pid, $user_mask_ptr) asmlinkage() pid = int_arg(1) len = 0 mask_uaddr = pointer_arg(3) argstr = sprintf("%d, , %p", pid, mask_uaddr) } %) probe nd_syscall.sched_setaffinity.return = kprobe.function("SyS_sched_setaffinity").return ?, kprobe.function("sys_sched_setaffinity").return ? { name = "sched_setaffinity" retstr = returnstr(1) } # sched_setparam _____________________________________________ # # long sys_sched_setparam(pid_t pid, struct sched_param __user *param) # probe nd_syscall.sched_setparam = kprobe.function("SyS_sched_setparam") ?, kprobe.function("sys_sched_setparam") ? { name = "sched_setparam" // pid = $pid // p_uaddr = $param // argstr = sprintf("%d, %p", $pid, $param) asmlinkage() pid = int_arg(1) p_uaddr = pointer_arg(2) argstr = sprintf("%d, %p", pid, p_uaddr) } probe nd_syscall.sched_setparam.return = kprobe.function("SyS_sched_setparam").return ?, kprobe.function("sys_sched_setparam").return ? { name = "sched_setparam" retstr = returnstr(1) } # sched_setscheduler _________________________________________ # # long sys_sched_setscheduler(pid_t pid, int policy, struct sched_param __user *param) # probe nd_syscall.sched_setscheduler = kprobe.function("SyS_sched_setscheduler") ?, kprobe.function("sys_sched_setscheduler") ? { name = "sched_setscheduler" // pid = $pid // policy = $policy // policy_str = _sched_policy_str($policy) // p_uaddr = $param // argstr = sprintf("%d, %s, %p", $pid, policy_str, $param) asmlinkage() pid = int_arg(1) policy = int_arg(2) policy_str = _sched_policy_str(policy) p_uaddr = pointer_arg(3) argstr = sprintf("%d, %s, %p", pid, policy_str, p_uaddr) } probe nd_syscall.sched_setscheduler.return = kprobe.function("SyS_sched_setscheduler").return ?, kprobe.function("sys_sched_setscheduler").return ? { name = "sched_setscheduler" retstr = returnstr(1) } # sched_yield ________________________________________________ # long sys_sched_yield(void) # probe nd_syscall.sched_yield = kprobe.function("sys_sched_yield") { name = "sched_yield" argstr = "" } probe nd_syscall.sched_yield.return = kprobe.function("sys_sched_yield").return { name = "sched_yield" retstr = returnstr(1) } # select _____________________________________________________ # long sys_select(int n, # fd_set __user *inp, # fd_set __user *outp, # fd_set __user *exp, # struct timeval __user *tvp) # probe nd_syscall.select = kprobe.function("SyS_select") ?, kprobe.function("sys_select") ? { name = "select" // n = $n // readfds_uaddr = $inp // writefds_uaddr = $outp // exceptfds_uaddr = $exp // timeout_uaddr = $tvp // argstr = sprintf("%d, %p, %p, %p, %s", $n, $inp, $outp, $exp, // _struct_timeval_u($tvp, 1)) asmlinkage() n = int_arg(1) readfds_uaddr = pointer_arg(2) writefds_uaddr = pointer_arg(3) exceptfds_uaddr = pointer_arg(4) timeout_uaddr = pointer_arg(5) argstr = sprintf("%d, %p, %p, %p, %s", n, readfds_uaddr, writefds_uaddr, exceptfds_uaddr, _struct_timeval_u(timeout_uaddr, 1)) } probe nd_syscall.select.return = kprobe.function("SyS_select").return ?, kprobe.function("sys_select").return ? { name = "select" retstr = returnstr(1) } # long compat_sys_select(int n, # compat_ulong_t __user *inp, # compat_ulong_t __user *outp, # compat_ulong_t __user *exp, # struct compat_timeval __user *tvp) # probe nd_syscall.compat_select = kprobe.function("compat_sys_select") ? { name = "select" // n = $n // readfds_uaddr = $inp // writefds_uaddr = $outp // exceptfds_uaddr = $exp // timeout_uaddr = $tvp // argstr = sprintf("%d, %p, %p, %p, %s", $n, $inp, $outp, $exp, // _struct_compat_timeval_u($tvp, 1)) asmlinkage() n = int_arg(1) readfds_uaddr = pointer_arg(2) writefds_uaddr = pointer_arg(3) exceptfds_uaddr = pointer_arg(4) timeout_uaddr = pointer_arg(5) argstr = sprintf("%d, %p, %p, %p, %s", n, readfds_uaddr, writefds_uaddr, exceptfds_uaddr, _struct_compat_timeval_u(timeout_uaddr, 1)) } probe nd_syscall.compat_select.return = kprobe.function("compat_sys_select").return ? { name = "select" retstr = returnstr(1) } # semctl _____________________________________________________ # long sys_semctl (int semid, # int semnum, # int cmd, # union semun arg) # probe nd_syscall.semctl = kprobe.function("SyS_semctl") ?, kprobe.function("sys_semctl") ? { name = "semctl" // semid = $semid // semnum = $semnum // cmd = $cmd /* * unsupported type tag identifier '$arg' * arg = $arg */ // argstr = sprintf("%d, %d, %s", $semid, $semnum, _semctl_cmd($cmd)) asmlinkage() semid = int_arg(1) semnum = int_arg(2) cmd = int_arg(3) argstr = sprintf("%d, %d, %s", semid, semnum, _semctl_cmd(cmd)) } probe nd_syscall.semctl.return = kprobe.function("SyS_semctl").return ?, kprobe.function("sys_semctl").return ? { name = "semctl" retstr = returnstr(1) } # compat_sys_semctl ________________________________________ # # long compat_sys_semctl(int first, int second, int third, void __user *uptr) # probe nd_syscall.compat_sys_semctl = kprobe.function("compat_sys_semctl") ? { name = "compat_sys_semctl" // argstr = sprintf("%d, %d, %d, %p", $first, $second, $third, $uptr) // NB: no asmlinkage() argstr = sprintf("%d, %d, %d, %p", int_arg(1), int_arg(2), int_arg(3), pointer_arg(4)) } probe nd_syscall.compat_sys_semctl.return = kprobe.function("compat_sys_semctl").return ? { name = "compat_sys_semctl" retstr = returnstr(1) } # semget _____________________________________________________ # long sys_semget (key_t key, int nsems, int semflg) # probe nd_syscall.semget = kprobe.function("SyS_semget") ?, kprobe.function("sys_semget") ? { name = "semget" // key = $key // nsems = $nsems // semflg = $semflg // argstr = sprintf("%d, %d, %s", $key, $nsems, __sem_flags($semflg)) asmlinkage() key = int_arg(1) nsems = int_arg(2) semflg = int_arg(3) argstr = sprintf("%d, %d, %s", key, nsems, __sem_flags(semflg)) } probe nd_syscall.semget.return = kprobe.function("SyS_semget").return ?, kprobe.function("sys_semget").return ? { name = "semget" retstr = returnstr(1) } # semop ______________________________________________________ # # long sys_semop (int semid, # struct sembuf __user *tsops, # unsigned nsops) # probe nd_syscall.semop = kprobe.function("SyS_semtimedop") ?, kprobe.function("sys_semtimedop") ? { name = "semop" // semid = $semid // tsops_uaddr = $tsops // nsops = $nsops // argstr = sprintf("%d, %p, %d", $semid, $tsops, $nsops) asmlinkage() semid = int_arg(1) tsops_uaddr = pointer_arg(2) nsops = uint_arg(3) argstr = sprintf("%d, %p, %d", semid, tsops_uaddr, nsops) } probe nd_syscall.semop.return = kprobe.function("SyS_semtimedop").return ?, kprobe.function("sys_semtimedop").return ? { name = "semop" retstr = returnstr(1) } # semtimedop _________________________________________________ # # long sys_semtimedop(int semid, # struct sembuf __user *tsops, # unsigned nsops, # const struct timespec __user *timeout) # probe nd_syscall.semtimedop = kprobe.function("SyS_semtimedop") ?, kprobe.function("sys_semtimedop") ? { name = "semtimedop" // semid = $semid // sops_uaddr = $tsops // nsops = $nsops // timeout_uaddr = $timeout // argstr = sprintf("%d, %p, %d, %s", $semid, $tsops, $nsops, // _struct_timespec_u($timeout, 1)) asmlinkage() semid = int_arg(1) sops_uaddr = pointer_arg(2) nsops = uint_arg(3) timeout_uaddr = pointer_arg(4) argstr = sprintf("%d, %p, %d, %s", semid, sops_uaddr, nsops, _struct_timespec_u(timeout_uaddr, 1)) } probe nd_syscall.semtimedop.return = kprobe.function("SyS_semtimedop").return ?, kprobe.function("sys_semtimedop").return ? { name = "semtimedop" retstr = returnstr(1) } # compat_sys_semtimedop ________________________________________ # # long compat_sys_semtimedop(int semid, struct sembuf __user *tsems, # unsigned nsops, const struct compat_timespec __user *timeout) # probe nd_syscall.compat_sys_semtimedop = kprobe.function("compat_sys_semtimedop") ? { name = "compat_sys_semtimedop" // semid = $semid // sops_uaddr = $tsems // nsops = $nsops // timeout_uaddr = $timeout // argstr = sprintf("%d, %p, %d, %s", $semid, $tsems, $nsops, // _struct_compat_timespec_u($timeout, 1)) // no asmlinkage semid = int_arg(1) sops_uaddr = pointer_arg(2) nsops = uint_arg(3) timeout_uaddr = pointer_arg(4) argstr = sprintf("%d, %p, %d, %s", semid, sops_uaddr, nsops, _struct_compat_timespec_u(timeout_uaddr, 1)) } probe nd_syscall.compat_sys_semtimedop.return = kprobe.function("compat_sys_semtimedop").return ? { name = "compat_sys_semtimedop" retstr = returnstr(1) } # send _______________________________________________________ # # long sys_send(int fd, # void __user * buff, # size_t len, # unsigned flags) # probe nd_syscall.send = kprobe.function("SyS_send") ?, kprobe.function("sys_send") ? { name = "send" // s = $fd // buf_uaddr = $buff // len = $len // flags = $flags // flags_str = _sendflags_str($flags) // argstr = sprintf("%d, %p, %d, %s", $fd, $buff, $len, flags_str) asmlinkage() s = int_arg(1) buf_uaddr = pointer_arg(2) len = ulong_arg(3) flags = uint_arg(4) flags_str = _sendflags_str(flags) argstr = sprintf("%d, %p, %d, %s", s, buf_uaddr, len, flags_str) } probe nd_syscall.send.return = kprobe.function("SyS_send").return ?, kprobe.function("sys_send").return ? { name = "send" retstr = returnstr(1) } # sendfile ___________________________________________________ # # ssize_t sys_sendfile[64](int out_fd, # int in_fd, # off_t __user *offset, # size_t count) # probe nd_syscall.sendfile = kprobe.function("SyS_sendfile") ?, kprobe.function("sys_sendfile") ?, kprobe.function("SyS_sendfile64") ?, kprobe.function("sys_sendfile64") ? { name = "sendfile" // out_fd = $out_fd // in_fd = $in_fd // offset_uaddr = $offset // count = $count // argstr = sprintf("%d, %d, %p, %d", $out_fd, $in_fd, $offset, // $count) asmlinkage() out_fd = int_arg(1) in_fd = int_arg(2) offset_uaddr = pointer_arg(3) count = ulong_arg(4) argstr = sprintf("%d, %d, %p, %d", out_fd, in_fd, offset_uaddr, count) } probe nd_syscall.sendfile.return = kprobe.function("SyS_sendfile").return ?, kprobe.function("sys_sendfile").return ?, kprobe.function("SyS_sendfile64").return ?, kprobe.function("sys_sendfile64").return ? { name = "sendfile" retstr = returnstr(1) } # sendmsg ____________________________________________________ # # long sys_sendmsg(int fd, struct msghdr __user *msg, unsigned flags) # probe nd_syscall.sendmsg = kprobe.function("SyS_sendmsg") ?, kprobe.function("sys_sendmsg") ? { name = "sendmsg" // s = $fd // msg_uaddr = $msg // flags = $flags // flags_str = _sendflags_str($flags) // argstr = sprintf("%d, %p, %s", $fd, $msg, _sendflags_str($flags)) asmlinkage() s = int_arg(1) msg_uaddr = pointer_arg(2) flags = uint_arg(3) flags_str = _sendflags_str(flags) argstr = sprintf("%d, %p, %s", s, msg_uaddr, _sendflags_str(flags)) } probe nd_syscall.sendmsg.return = kprobe.function("SyS_sendmsg").return ?, kprobe.function("sys_sendmsg").return ? { name = "sendmsg" retstr = returnstr(1) } # compat_sys_sendmsg ________________________________________ # # long compat_sys_sendmsg(int fd, struct compat_msghdr __user *msg, unsigned flags) # probe nd_syscall.compat_sys_sendmsg = kprobe.function("compat_sys_sendmsg") ? { name = "compat_sys_sendmsg" // s = $fd // msg_uaddr = $msg // flags = $flags // argstr = sprintf("%d, %p, %s", $fd, $msg, _sendflags_str($flags)) asmlinkage() s = int_arg(1) msg_uaddr = pointer_arg(2) flags = uint_arg(3) argstr = sprintf("%d, %p, %s", s, msg_uaddr, _sendflags_str(flags)) } probe nd_syscall.compat_sys_sendmsg.return = kprobe.function("compat_sys_sendmsg").return ? { name = "compat_sys_sendmsg" retstr = returnstr(1) } # sendto _____________________________________________________ # # long sys_sendto(int fd, # void __user * buff, # size_t len, # unsigned flags, # struct sockaddr __user *addr, # int addr_len) # probe nd_syscall.sendto = kprobe.function("SyS_sendto") ?, kprobe.function("sys_sendto") ? { name = "sendto" // s = $fd // buf_uaddr = $buff // len = $len // flags = $flags // flags_str = _sendflags_str($flags) // to_uaddr = $addr // tolen = $addr_len // argstr = sprintf("%d, %p, %d, %s, %s, %d", $fd, $buff, // $len, flags_str, _struct_sockaddr_u($addr, $addr_len), $addr_len) asmlinkage() s = int_arg(1) buf_uaddr = pointer_arg(2) len = ulong_arg(3) flags = uint_arg(4) flags_str = _sendflags_str(flags) to_uaddr = pointer_arg(5) tolen = int_arg(6) argstr = sprintf("%d, %p, %d, %s, %s, %d", s, buf_uaddr, len, flags_str, _struct_sockaddr_u(to_uaddr, tolen), tolen) } probe nd_syscall.sendto.return = kprobe.function("SyS_sendto").return ?, kprobe.function("sys_sendto").return ? { name = "sendto" retstr = returnstr(1) } # setdomainname ______________________________________________ # # asmlinkage long # sys_setdomainname(char __user *name, # int len) # probe nd_syscall.setdomainname = kprobe.function("SyS_setdomainname") ?, kprobe.function("sys_setdomainname") ? { name = "setdomainname" // hostname_uaddr = $name // len = $len // argstr = sprintf("%p, %d", $name, $len) asmlinkage() hostname_uaddr = pointer_arg(1) len = int_arg(2) argstr = sprintf("%p, %d", hostname_uaddr, len) } probe nd_syscall.setdomainname.return = kprobe.function("SyS_setdomainname").return ?, kprobe.function("sys_setdomainname").return ? { name = "setdomainname" retstr = returnstr(1) } # setfsgid ___________________________________________________ # long sys_setfsgid(gid_t gid) # long sys_setfsgid16(old_gid_t gid) # probe nd_syscall.setfsgid = kprobe.function("sys_setfsgid16") ?, kprobe.function("SyS_setfsgid") ?, kprobe.function("sys_setfsgid") ? { name = "setfsgid" // fsgid = $gid // argstr = sprint($gid) asmlinkage() fsgid = uint_arg(1) argstr = sprint(fsgid) } probe nd_syscall.setfsgid.return = kprobe.function("sys_setfsgid16").return ?, kprobe.function("SyS_setfsgid").return ?, kprobe.function("sys_setfsgid").return ? { name = "setfsgid" retstr = returnstr(1) } # setfsuid ___________________________________________________ # long sys_setfsuid(uid_t uid) # long sys_setfsuid16(old_uid_t uid) # probe nd_syscall.setfsuid = kprobe.function("sys_setfsuid16") ?, kprobe.function("SyS_setfsuid") ?, kprobe.function("sys_setfsuid") ? { name = "setfsuid" // fsuid = $uid // argstr = sprint($uid) asmlinkage() fsuid = uint_arg(1) argstr = sprint(fsuid) } probe nd_syscall.setfsuid.return = kprobe.function("sys_setfsuid16").return ?, kprobe.function("SyS_setfsuid").return ?, kprobe.function("sys_setfsuid").return ? { name = "setfsuid" retstr = returnstr(1) } # setgid _____________________________________________________ # # long sys_setgid(gid_t gid) # long sys_setgid16(old_gid_t gid) # probe nd_syscall.setgid = kprobe.function("sys_setgid16") ?, kprobe.function("SyS_setgid") ?, kprobe.function("sys_setgid") ? { name = "setgid" // gid = $gid // argstr = sprint($gid) asmlinkage() gid = uint_arg(1) argstr = sprint(gid) } probe nd_syscall.setgid.return = kprobe.function("sys_setgid16").return ?, kprobe.function("SyS_setgid").return ?, kprobe.function("sys_setgid").return ? { name = "setgid" retstr = returnstr(1) } # setgroups __________________________________________________ # # long sys_setgroups(int gidsetsize, gid_t __user *grouplist) # long sys_setgroups16(int gidsetsize, old_gid_t __user *grouplist) # long sys32_setgroups16(int gidsetsize, u16 __user *grouplist) # probe nd_syscall.setgroups = kprobe.function("sys_setgroups16") ?, kprobe.function("sys32_setgroups16") ?, kprobe.function("SyS_setgroups") ?, kprobe.function("sys_setgroups") ? { name = "setgroups" // size = $gidsetsize // list_uaddr = $grouplist // argstr = sprintf("%d, %p", $gidsetsize, $grouplist) asmlinkage() size = int_arg(1) list_uaddr = pointer_arg(2) argstr = sprintf("%d, %p", size, list_uaddr) } probe nd_syscall.setgroups.return = kprobe.function("sys_setgroups16").return ?, kprobe.function("sys32_setgroups16").return ?, kprobe.function("SyS_setgroups").return ?, kprobe.function("sys_setgroups").return ? { name = "setgroups" retstr = returnstr(1) } # sethostname ________________________________________________ # # asmlinkage long # sys_sethostname(char __user *name, # int len) # probe nd_syscall.sethostname = kprobe.function("SyS_sethostname") ?, kprobe.function("sys_sethostname") ? { name = "sethostname" // hostname_uaddr = $name // name_str = user_string($name) // len = $len // argstr = sprintf("%s, %d", user_string_quoted($name), $len) asmlinkage() hostname_uaddr = pointer_arg(1) name_str = user_string(hostname_uaddr) len = int_arg(2) argstr = sprintf("%s, %d", user_string_quoted(hostname_uaddr), len) } probe nd_syscall.sethostname.return = kprobe.function("SyS_sethostname").return ?, kprobe.function("sys_sethostname").return ? { name = "sethostname" retstr = returnstr(1) } # setitimer __________________________________________________ # # long sys_setitimer(int which, # struct itimerval __user *value, # struct itimerval __user *ovalue) # probe nd_syscall.setitimer = kprobe.function("SyS_setitimer") ?, kprobe.function("sys_setitimer") ? { name = "setitimer" // which = $which // value_uaddr = $value // ovalue_uaddr = $ovalue // argstr = sprintf("%s, %s, %p", _itimer_which_str($which), // _struct_itimerval_u($value), $ovalue) asmlinkage() which = int_arg(1) value_uaddr = pointer_arg(2) ovalue_uaddr = pointer_arg(3) argstr = sprintf("%s, %s, %p", _itimer_which_str(which), _struct_itimerval_u(value_uaddr), ovalue_uaddr) } probe nd_syscall.setitimer.return = kprobe.function("SyS_setitimer").return ?, kprobe.function("sys_setitimer").return ? { name = "setitimer" retstr = returnstr(1) } # # long compat_sys_setitimer(int which, # struct compat_itimerval __user *in, # struct compat_itimerval __user *out) # probe nd_syscall.compat_setitimer = kprobe.function("compat_sys_setitimer") ? { name = "setitimer" // which = $which // value_uaddr = $in // ovalue_uaddr = $out // argstr = sprintf("%s, %s, %p", _itimer_which_str($which), // _struct_compat_itimerval_u($in), $out) asmlinkage() which = int_arg(1) value_uaddr = pointer_arg(2) ovalue_uaddr = pointer_arg(3) argstr = sprintf("%s, %s, %p", _itimer_which_str(which), _struct_compat_itimerval_u(value_uaddr), ovalue_uaddr) } probe nd_syscall.compat_setitimer.return = kprobe.function("compat_sys_setitimer").return ? { name = "setitimer" retstr = returnstr(1) } # set_mempolicy ______________________________________________ # long sys_set_mempolicy(int mode, # unsigned long __user *nmask, # unsigned long maxnode) # probe nd_syscall.set_mempolicy = kprobe.function("compat_sys_set_mempolicy") ?, kprobe.function("SyS_set_mempolicy") ?, kprobe.function("sys_set_mempolicy") ? { name = "set_mempolicy" // mode = $mode // nmask_uaddr = $nmask // maxnode = $maxnode // argstr = sprintf("%d, %p, %d", $mode, $nmask, $maxnode) asmlinkage() mode = int_arg(1) nmask_uaddr = pointer_arg(2) maxnode = ulong_arg(3) argstr = sprintf("%d, %p, %d", mode, nmask_uaddr, maxnode) } probe nd_syscall.set_mempolicy.return = kprobe.function("compat_sys_set_mempolicy").return ?, kprobe.function("SyS_set_mempolicy").return ?, kprobe.function("sys_set_mempolicy").return ? { name = "set_mempolicy" retstr = returnstr(1) } # setpgid ____________________________________________________ # # asmlinkage long # sys_setpgid(pid_t pid, # pid_t pgid) # probe nd_syscall.setpgid = kprobe.function("SyS_setpgid") ?, kprobe.function("sys_setpgid") ? { name = "setpgid" // pid = $pid // pgid = $pgid // argstr = sprintf("%d, %d", $pid, $pgid) asmlinkage() pid = int_arg(1) pgid = int_arg(2) argstr = sprintf("%d, %d", pid, pgid) } probe nd_syscall.setpgid.return = kprobe.function("SyS_setpgid").return ?, kprobe.function("sys_setpgid").return ? { name = "setpgid" retstr = returnstr(1) } # setpriority ________________________________________________ # # asmlinkage long # sys_setpriority(int which, # int who, # int niceval) # probe nd_syscall.setpriority = kprobe.function("SyS_setpriority") ?, kprobe.function("sys_setpriority") ? { name = "setpriority" // which = $which // which_str = _priority_which_str($which) // who = $who // prio = $niceval // argstr = sprintf("%s, %d, %d", which_str, $who, $niceval) asmlinkage() which = int_arg(1) which_str = _priority_which_str(which) who = int_arg(2) prio = int_arg(3) argstr = sprintf("%s, %d, %d", which_str, who, prio) } probe nd_syscall.setpriority.return = kprobe.function("SyS_setpriority").return ?, kprobe.function("sys_setpriority").return ? { name = "setpriority" retstr = returnstr(1) } # setregid ___________________________________________________ # long sys_setregid(gid_t rgid, gid_t egid) # probe nd_syscall.setregid = kprobe.function("SyS_setregid") ?, kprobe.function("sys_setregid") ? { name = "setregid" // rgid = __int32($rgid) // egid = __int32($egid) asmlinkage() rgid = __int32(uint_arg(1)) egid = __int32(uint_arg(2)) argstr = sprintf("%d, %d", rgid, egid) } probe nd_syscall.setregid.return = kprobe.function("SyS_setregid").return ?, kprobe.function("sys_setregid").return ? { name = "setregid" retstr = returnstr(1) } # setregid16 _________________________________________________ # long sys_setregid16(old_gid_t rgid, old_gid_t egid) # probe nd_syscall.setregid16 = kprobe.function("sys_setregid16") ? { name = "setregid" // rgid = __short($rgid) // egid = __short($egid) asmlinkage() rgid = __short(uint_arg(1)) egid = __short(uint_arg(2)) argstr = sprintf("%d, %d", rgid, egid) } probe nd_syscall.setregid16.return = kprobe.function("sys_setregid16").return ? { name = "setregid" retstr = returnstr(1) } # setresgid __________________________________________________ # long sys_setresgid(gid_t rgid, gid_t egid, gid_t sgid) # probe nd_syscall.setresgid = kprobe.function("SyS_setresgid") ?, kprobe.function("sys_setresgid") ? { name = "setresgid" // rgid = __int32($rgid) // egid = __int32($egid) // sgid = __int32($sgid) asmlinkage() rgid = __int32(uint_arg(1)) egid = __int32(uint_arg(2)) sgid = __int32(uint_arg(3)) argstr = sprintf("%d, %d, %d", rgid, egid, sgid) } probe nd_syscall.setresgid.return = kprobe.function("SyS_setresgid").return ?, kprobe.function("sys_setresgid").return ? { name = "setresgid" retstr = returnstr(1) } # setresgid16 ________________________________________________ # # long sys_setresgid16(old_gid_t rgid, # old_gid_t egid, # old_gid_t sgid) # probe nd_syscall.setresgid16 = kprobe.function("sys_setresgid16") ? { name = "setresgid" // rgid = __short($rgid) // egid = __short($egid) // sgid = __short($sgid) asmlinkage() rgid = __short(uint_arg(1)) egid = __short(uint_arg(2)) sgid = __short(uint_arg(3)) argstr = sprintf("%d, %d, %d", rgid, egid, sgid) } probe nd_syscall.setresgid16.return = kprobe.function("sys_setresgid16").return ? { name = "setresgid16" retstr = returnstr(1) } # setresuid __________________________________________________ # # long sys_setresuid(uid_t ruid, uid_t euid, uid_t suid) # probe nd_syscall.setresuid = kprobe.function("SyS_setresuid") ?, kprobe.function("sys_setresuid") ? { name = "setresuid" // ruid = __int32($ruid) // euid = __int32($euid) // suid = __int32($suid) asmlinkage() ruid = __int32(uint_arg(1)) euid = __int32(uint_arg(2)) suid = __int32(uint_arg(3)) argstr = sprintf("%d, %d, %d", ruid, euid, suid) } probe nd_syscall.setresuid.return = kprobe.function("SyS_setresuid").return ?, kprobe.function("sys_setresuid").return ? { name = "setresuid" retstr = returnstr(1) } # setresuid16 ________________________________________________ # # long sys_setresuid16(old_uid_t ruid, old_uid_t euid, old_uid_t suid) # probe nd_syscall.setresuid16 = kprobe.function("sys_setresuid16") ? { name = "setresuid" // ruid = __short($ruid) // reuid = __short($euid) // rsuid = __short($suid) asmlinkage() ruid = __short(uint_arg(1)) euid = __short(uint_arg(2)) suid = __short(uint_arg(3)) argstr = sprintf("%d, %d, %d", ruid, euid, suid) } probe nd_syscall.setresuid16.return = kprobe.function("sys_setresuid16").return ? { name = "setresuid" retstr = returnstr(1) } # setreuid ___________________________________________________ # long sys_setreuid(uid_t ruid, uid_t euid) # probe nd_syscall.setreuid = kprobe.function("SyS_setreuid") ?, kprobe.function("sys_setreuid") ? { name = "setreuid" // ruid = __int32($ruid) // euid = __int32($euid) asmlinkage() ruid = __int32(uint_arg(1)) euid = __int32(uint_arg(2)) argstr = sprintf("%d, %d", ruid, euid) } probe nd_syscall.setreuid.return = kprobe.function("SyS_setreuid").return ?, kprobe.function("sys_setreuid").return ? { name = "setreuid" retstr = returnstr(1) } # setreuid16 _________________________________________________ # long sys_setreuid16(old_uid_t ruid, old_uid_t euid) # probe nd_syscall.setreuid16 = kprobe.function("sys_setreuid16") ? { name = "setreuid" // ruid = __short($ruid) // euid = __short($euid) asmlinkage() ruid = __short(uint_arg(1)) euid = __short(uint_arg(2)) argstr = sprintf("%d, %d", ruid, euid) } probe nd_syscall.setreuid16.return = kprobe.function("sys_setreuid16").return ? { name = "setreuid" retstr = returnstr(1) } # setrlimit __________________________________________________ # # asmlinkage long # sys_setrlimit(unsigned int resource, # struct rlimit __user *rlim) # probe nd_syscall.setrlimit = kprobe.function("SyS_setrlimit") ?, kprobe.function("sys_setrlimit") ? { name = "setrlimit" // resource = $resource // rlim_uaddr = $rlim // argstr = sprintf("%s, %s", _rlimit_resource_str($resource), // _struct_rlimit_u($rlim)) asmlinkage() resource = uint_arg(1) rlim_uaddr = pointer_arg(2) argstr = sprintf("%s, %s", _rlimit_resource_str(resource), _struct_rlimit_u(rlim_uaddr)) } probe nd_syscall.setrlimit.return = kprobe.function("SyS_setrlimit").return ?, kprobe.function("sys_setrlimit").return ? { name = "setrlimit" retstr = returnstr(1) } # setsid _____________________________________________________ # # long sys_setsid(void) # probe nd_syscall.setsid = kprobe.function("sys_setsid") { name = "setsid" argstr = "" } probe nd_syscall.setsid.return = kprobe.function("sys_setsid").return { name = "setsid" retstr = returnstr(1) } # setsockopt _________________________________________________ # # long sys_setsockopt(int fd, # int level, # int optname, # char __user *optval, # int optlen) # probe nd_syscall.setsockopt = kprobe.function("compat_sys_setsockopt") ?, kprobe.function("SyS_setsockopt") ?, kprobe.function("sys_setsockopt") ? { name = "setsockopt" // fd = $fd // level = $level // level_str = _sockopt_level_str($level) // optname = $optname // optname_str = _sockopt_optname_str($optname) // optval_uaddr = $optval // optlen = $optlen // argstr = sprintf("%d, %s, %s, %p, %d", $fd, level_str, // optname_str, $optval, $optlen) asmlinkage() fd = int_arg(1) level = int_arg(2) level_str = _sockopt_level_str(level) optname = int_arg(3) optname_str = _sockopt_optname_str(optname) optval_uaddr = pointer_arg(4) optlen = int_arg(5) argstr = sprintf("%d, %s, %s, %p, %d", fd, level_str, optname_str, optval_uaddr, optlen) } probe nd_syscall.setsockopt.return = kprobe.function("compat_sys_setsockopt").return ?, kprobe.function("SyS_setsockopt").return ?, kprobe.function("sys_setsockopt").return ? { name = "setsockopt" retstr = returnstr(1) } # set_tid_address ____________________________________________ # # asmlinkage long # sys_set_tid_address(int __user *tidptr) # probe nd_syscall.set_tid_address = kprobe.function("SyS_set_tid_address") ?, kprobe.function("sys_set_tid_address") ? { name = "set_tid_address" // tidptr_uaddr = $tidptr asmlinkage() tidptr_uaddr = pointer_arg(1) argstr = sprintf("%p", tidptr_uaddr) } probe nd_syscall.set_tid_address.return = kprobe.function("SyS_set_tid_address").return ?, kprobe.function("sys_set_tid_address").return ? { name = "set_tid_address" retstr = returnstr(1) } # settimeofday _______________________________________________ # # long sys_settimeofday(struct timeval __user *tv, # struct timezone __user *tz) # probe nd_syscall.settimeofday = kprobe.function("SyS_settimeofday") ?, kprobe.function("sys_settimeofday") ? { name = "settimeofday" // ttv_uaddr = $tv // ttz_uaddr = $tz // targstr = sprintf("%s, %s", _struct_timeval_u($tv, 1), _struct_timezone_u($tz)) asmlinkage() tv_uaddr = pointer_arg(1) tz_uaddr = pointer_arg(2) argstr = sprintf("%s, %s", _struct_timeval_u(tv_uaddr, 1), _struct_timezone_u(tz_uaddr)) } probe nd_syscall.settimeofday.return = kprobe.function("SyS_settimeofday").return ?, kprobe.function("sys_settimeofday").return ? { name = "settimeofday" retstr = returnstr(1) } # # long sys32_settimeofday(struct compat_timeval __user *tv, struct timezone __user *tz) # long compat_sys_settimeofday(struct compat_timeval __user *tv, struct timezone __user *tz) # probe nd_syscall.settimeofday32 = kprobe.function("sys32_settimeofday") ?, kprobe.function("compat_sys_settimeofday") ? { name = "settimeofday" // tv_uaddr = $tv // tz_uaddr = $tz // argstr = sprintf("%s, %s", _struct_compat_timeval_u($tv, 1), _struct_timezone_u($tz)) asmlinkage() tv_uaddr = pointer_arg(1) tz_uaddr = pointer_arg(2) argstr = sprintf("%s, %s", _struct_compat_timeval_u(tv_uaddr, 1), _struct_timezone_u(tz_uaddr)) } probe nd_syscall.settimeofday32.return = kprobe.function("sys32_settimeofday").return ?, kprobe.function("compat_sys_settimeofday").return ? { name = "settimeofday" retstr = returnstr(1) } # setuid _____________________________________________________ # # long sys_setuid(uid_t uid) # long sys_setuid16(old_uid_t uid) # probe nd_syscall.setuid = kprobe.function("sys_setuid16") ?, kprobe.function("SyS_setuid") ?, kprobe.function("sys_setuid") ? { name = "setuid" // uid = $uid // argstr = sprint($uid) asmlinkage() uid = uint_arg(1) argstr = sprint(uid) } probe nd_syscall.setuid.return = kprobe.function("sys_setuid16").return ?, kprobe.function("SyS_setuid").return ?, kprobe.function("sys_setuid").return ? { name = "setuid" retstr = returnstr(1) } # setxattr ___________________________________________________ # long sys_setxattr(char __user *path, # char __user *name, # void __user *value, # size_t size, # int flags) # probe nd_syscall.setxattr = kprobe.function("SyS_setxattr") ?, kprobe.function("sys_setxattr") ? { name = "setxattr" // path_uaddr = $path // path = user_string($path) // name_uaddr = $name // name_str = user_string($name) // value_uaddr = $value // size = $size // flags = $flags // argstr = sprintf("%s, %s, %p, %d, %d", // user_string_quoted($path), // user_string_quoted($name), // value_uaddr, $size, $flags) asmlinkage() path_uaddr = pointer_arg(1) path = user_string(path_uaddr) name_uaddr = pointer_arg(2) name_str = user_string(name_uaddr) value_uaddr = pointer_arg(3) size = ulong_arg(4) flags = int_arg(5) argstr = sprintf("%s, %s, %p, %d, %d", user_string_quoted(path_uaddr), user_string_quoted(name_uaddr), value_uaddr, size, flags) } probe nd_syscall.setxattr.return = kprobe.function("SyS_setxattr").return ?, kprobe.function("sys_setxattr").return ? { name = "setxattr" retstr = returnstr(1) } # sgetmask ___________________________________________________ # # sys_sgetmask(void) # probe nd_syscall.sgetmask = kprobe.function("sys_sgetmask") ? { name = "sgetmask" argstr = "" } probe nd_syscall.sgetmask.return = kprobe.function("sys_sgetmask").return ? { name = "sgetmask" retstr = returnstr(1) } # shmat ______________________________________________________ # # long sys_shmat(int shmid, char __user *shmaddr, int shmflg) # probe nd_syscall.shmat = kprobe.function("SyS_shmat") ?, kprobe.function("sys_shmat") ? { name = "shmat" // shmid = $shmid // shmaddr_uaddr = $shmaddr // shmflg = $shmflg // argstr = sprintf("%d, %p, %s", $shmid, $shmaddr, _shmat_flags_str($shmflg)) asmlinkage() shmid = int_arg(1) shmaddr_uaddr = pointer_arg(2) shmflg = int_arg(3) argstr = sprintf("%d, %p, %s", shmid, shmaddr_uaddr, _shmat_flags_str(shmflg)) } probe nd_syscall.shmat.return = kprobe.function("SyS_shmat").return ?, kprobe.function("sys_shmat").return ? { name = "shmat" retstr = returnstr(1) } # compat_sys_shmat ________________________________________ # # long compat_sys_shmat(int first, int second, compat_uptr_t third, # int version, void __user *uptr) # probe nd_syscall.compat_sys_shmat = kprobe.function("compat_sys_shmat") ? { name = "compat_sys_shmat" // first = $first // second = $second // third = $third // uptr_uaddr = $uptr // argstr = sprintf("%d, %d, %d, %d, %p", $first, $second, $third, $version, $uptr) // no asmlinkage first = int_arg(1) second = int_arg(2) third = u32_arg(3) uptr_uaddr = pointer_arg(5) argstr = sprintf("%d, %d, %d, %d, %p", first, second, third, int_arg(4), uptr_uaddr) } probe nd_syscall.compat_sys_shmat.return = kprobe.function("compat_sys_shmat").return ? { name = "compat_sys_shmat" retstr = returnstr(1) } # shmctl _____________________________________________________ # # long sys_shmctl (int shmid, # int cmd, # struct shmid_ds __user *buf) # probe nd_syscall.shmctl = kprobe.function("SyS_shmctl") ?, kprobe.function("sys_shmctl") ? { name = "shmctl" // shmid = $shmid // cmd = $cmd // buf_uaddr = $buf // argstr = sprintf("%d, %s, %p", $shmid, _semctl_cmd($cmd), $buf) asmlinkage() shmid = int_arg(1) cmd = int_arg(2) buf_uaddr = pointer_arg(3) argstr = sprintf("%d, %s, %p", shmid, _semctl_cmd(cmd), buf_uaddr) } probe nd_syscall.shmctl.return = kprobe.function("SyS_shmctl").return ?, kprobe.function("sys_shmctl").return ? { name = "shmctl" retstr = returnstr(1) } # compat_sys_shmctl ________________________________________ # # long compat_sys_shmctl(int first, int second, void __user *uptr) # probe nd_syscall.compat_sys_shmctl = kprobe.function("compat_sys_shmctl") ? { name = "compat_sys_shmctl" // first = $first // second = $second // uptr_uaddr = $uptr // argstr = sprintf("%d, %d, %p", $first, $second, $uptr) // no asmlinkages first = int_arg(1) second = int_arg(2) uptr_uaddr = pointer_arg(3) argstr = sprintf("%d, %d, %p", first, second, uptr_uaddr) } probe nd_syscall.compat_sys_shmctl.return = kprobe.function("compat_sys_shmctl").return ? { name = "compat_sys_shmctl" retstr = returnstr(1) } # shmdt ______________________________________________________ # # long sys_shmdt(char __user *shmaddr) # probe nd_syscall.shmdt = kprobe.function("SyS_shmdt") ?, kprobe.function("sys_shmdt") ? { name = "shmdt" // shmaddr_uaddr = $shmaddr // argstr = sprintf("%p", $shmaddr) asmlinkage() shmaddr_uaddr = pointer_arg(1) argstr = sprintf("%p", shmaddr_uaddr) } probe nd_syscall.shmdt.return = kprobe.function("SyS_shmdt").return ?, kprobe.function("sys_shmdt").return ? { name = "shmdt" retstr = returnstr(1) } # shmget _____________________________________________________ # # long sys_shmget (key_t key, # size_t size, # int shmflg) # probe nd_syscall.shmget = kprobe.function("SyS_shmget") ?, kprobe.function("sys_shmget") ? { name = "shmget" // key = $key // size = $size // shmflg = $shmflg // argstr = sprintf("%d, %d, %d", $key, $size, $shmflg) asmlinkage() key = int_arg(1) size = ulong_arg(2) shmflg = int_arg(3) argstr = sprintf("%d, %d, %d", key, size, shmflg) } probe nd_syscall.shmget.return = kprobe.function("SyS_shmget").return ?, kprobe.function("sys_shmget").return ? { name = "shmget" retstr = returnstr(1) } # shutdown ___________________________________________________ # # long sys_shutdown(int fd, int how) # probe nd_syscall.shutdown = kprobe.function("SyS_shutdown") ?, kprobe.function("sys_shutdown") ? { name = "shutdown" // s = $fd // how = $how // how_str = _shutdown_how_str($how) // argstr = sprintf("%d, %s", $fd, how_str) asmlinkage() s = int_arg(1) how = int_arg(2) how_str = _shutdown_how_str(how) argstr = sprintf("%d, %s", s, how_str) } probe nd_syscall.shutdown.return = kprobe.function("SyS_shutdown").return ?, kprobe.function("sys_shutdown").return ? { name = "shutdown" retstr = returnstr(1) } # sigaction __________________________________________________ # sys_sigaction(int sig, const struct old_sigaction __user *act, struct old_sigaction __user *oact) # sys32_sigaction(int sig, struct old_sigaction32 __user *act, struct old_sigaction32 __user *oact) # probe nd_syscall.sigaction = kprobe.function("sys_sigaction") ? { name = "sigaction" // sig = $sig // act_uaddr = $act // oact_uaddr = $oact // argstr = sprintf("%s, {%s}, %p", _signal_name($sig), _struct_sigaction_u($act), $oact) %( arch != "powerpc" %? asmlinkage() %) sig = int_arg(1) act_uaddr = pointer_arg(2) oact_uaddr = pointer_arg(3) argstr = sprintf("%s, {%s}, %p", _signal_name(sig), _struct_sigaction_u(act_uaddr), oact_uaddr) } probe nd_syscall.sigaction.return = kprobe.function("sys_sigaction").return ? { name = "sigaction" retstr = returnstr(1) } probe nd_syscall.sigaction32 = kprobe.function("sys32_sigaction") ?, kprobe.function("compat_sys_sigaction") ? { name = "sigaction" // sig = $sig // sact_uaddr = $act // soact_uaddr = $oact // argstr = sprintf("%s, {%s}, %p", _signal_name($sig), _struct_old_sigaction32_u($act), $oact) asmlinkage() sig = int_arg(1) act_uaddr = pointer_arg(2) oact_uaddr = pointer_arg(3) argstr = sprintf("%s, {%s}, %p", _signal_name(sig), _struct_old_sigaction32_u(act_uaddr), oact_uaddr) } probe nd_syscall.sigaction32.return = kprobe.function("sys32_sigaction").return ?, kprobe.function("compat_sys_sigaction") ? { name = "sigaction" retstr = returnstr(1) } # signal _____________________________________________________ # unsigned long sys_signal(int sig, __sighandler_t handler) # probe nd_syscall.signal = kprobe.function("SyS_signal") ?, kprobe.function("sys_signal") ? { name = "signal" // sig = $sig // handler = $handler // argstr = sprintf("%s, %s", _signal_name($sig), _sighandler_str($handler)) asmlinkage() sig = int_arg(1) handler = pointer_arg(2) argstr = sprintf("%s, %s", _signal_name(sig), _sighandler_str(handler)) } probe nd_syscall.signal.return = kprobe.function("SyS_signal").return ?, kprobe.function("sys_signal").return ? { name = "signal" retstr = returnstr(1) } # signalfd _____________________________________________________ # # long sys_signalfd(int ufd, sigset_t __user *user_mask, size_t sizemask) # long compat_sys_signalfd(int ufd, const compat_sigset_t __user *sigmask, # compat_size_t sigsetsize) # probe nd_syscall.signalfd = kprobe.function("SyS_signalfd") ?, kprobe.function("sys_signalfd") ? { name = "signalfd" // argstr = sprintf("%d, %p, %d", $ufd, $user_mask, $sizemask) asmlinkage() argstr = sprintf("%d, %p, %d", int_arg(1), pointer_arg(2), ulong_arg(3)) } probe nd_syscall.signalfd.return = kprobe.function("SyS_signalfd").return ?, kprobe.function("sys_signalfd").return ? { name = "signalfd" retstr = returnstr(1) } probe nd_syscall.compat_signalfd = kprobe.function("compat_sys_signalfd") ? { name = "compat_signalfd" // argstr = sprintf("%d, %p, %d", $ufd, $sigmask, $sigsetsize) asmlinkage() argstr = sprintf("%d, %p, %d", int_arg(1), pointer_arg(2), u32_arg(3)) } probe nd_syscall.compat_signalfd.return = kprobe.function("compat_sys_signalfd").return ? { name = "compat_signalfd" retstr = returnstr(1) } # sigpending _________________________________________________ # long sys_sigpending(old_sigset_t __user *set) # probe nd_syscall.sigpending = kprobe.function("SyS_sigpending") ?, kprobe.function("sys_sigpending") ? { name = "sigpending" // argstr = sprintf("%p", $set) asmlinkage() argstr = sprintf("%p", pointer_arg(1)) } probe nd_syscall.sigpending.return = kprobe.function("SyS_sigpending").return ?, kprobe.function("sys_sigpending").return ? { name = "sigpending" retstr = returnstr(1) } # sigprocmask ________________________________________________ # long sys_sigprocmask(int how, old_sigset_t __user *set, old_sigset_t __user *oset) # probe nd_syscall.sigprocmask = kprobe.function("SyS_sigprocmask") ?, kprobe.function("sys_sigprocmask") ? { name = "sigprocmask" // how = $how // how_str = _sigprocmask_how_str($how) // set_uaddr = $set // oldset_uaddr = $oset // argstr = sprintf("%s, %p, %p", how_str, $set, $oset) asmlinkage() how = int_arg(1) how_str = _sigprocmask_how_str(how) set_uaddr = pointer_arg(2) oldset_uaddr = pointer_arg(3) argstr = sprintf("%s, %p, %p", how_str, set_uaddr, oldset_uaddr) } probe nd_syscall.sigprocmask.return = kprobe.function("SyS_sigprocmask").return ?, kprobe.function("sys_sigprocmask").return ? { name = "sigprocmask" retstr = returnstr(1) } # sigreturn __________________________________________________ # int sys_sigreturn(unsigned long __unused) # probe nd_syscall.sigreturn = kprobe.function("sys_sigreturn") ?, kprobe.function("sys32_sigreturn") ? { name = "sigreturn" argstr = "" } probe nd_syscall.sigreturn.return = kprobe.function("sys_sigreturn").return ?, kprobe.function("sys32_sigreturn").return ? { name = "sigreturn" retstr = returnstr(1) } # sigsuspend _________________________________________________ # probe nd_syscall.sigsuspend = kprobe.function("sys_sigsuspend") ?, kprobe.function("sys32_sigsuspend") ? { name = "sigsuspend" argstr = "" } probe nd_syscall.sigsuspend.return = kprobe.function("sys_sigsuspend").return ?, kprobe.function("sys32_sigsuspend").return ? { name = "sigsuspend" retstr = returnstr(1) } # socket _____________________________________________________ # long sys_socket(int family, int type, int protocol) # probe nd_syscall.socket = kprobe.function("SyS_socket") ?, kprobe.function("sys_socket") ? { name = "socket" // family = $family // type = $type // protocol = $protocol // argstr = sprintf("%s, %s, %d", _sock_family_str($family), // _sock_type_str($type), // $protocol) asmlinkage() family = int_arg(1) type = int_arg(2) protocol = int_arg(3) argstr = sprintf("%s, %s, %d", _sock_family_str(family), _sock_type_str(type), protocol) } probe nd_syscall.socket.return = kprobe.function("SyS_socket").return ?, kprobe.function("sys_socket").return ? { name = "socket" retstr = returnstr(1) } # commented out because this seems redundant # socketcall _________________________________________________ # # long sys_socketcall(int call, unsigned long __user *args) # #probe nd_syscall.socketcall = kprobe.function("sys_socketcall") ? #{ # name = "socketcall" # call = $call # args_uaddr = $args # argstr = sprintf("%d, %p", $call, args_uaddr) #} #probe nd_syscall.socketcall.return = kprobe.function("sys_socketcall").return ? #{ # name = "socketcall" # retstr = returnstr(1) #} # socketpair _________________________________________________ # long sys_socketpair(int family, # int type, # int protocol, # int __user *usockvec) # probe nd_syscall.socketpair = kprobe.function("SyS_socketpair") ?, kprobe.function("sys_socketpair") ? { name = "socketpair" // family = $family // type = $type // protocol = $protocol // sv_uaddr = $usockvec // argstr = sprintf("%s, %s, %d, %p", // _sock_family_str($family), // _sock_type_str($type), // $protocol, sv_uaddr) asmlinkage() family = int_arg(1) type = int_arg(2) protocol = int_arg(3) sv_uaddr = pointer_arg(4) argstr = sprintf("%s, %s, %d, %p", _sock_family_str(family), _sock_type_str(type), protocol, sv_uaddr) } probe nd_syscall.socketpair.return = kprobe.function("SyS_socketpair").return ?, kprobe.function("sys_socketpair").return ? { name = "socketpair" retstr = returnstr(1) } # splice ___________________________________________________ # # long sys_splice(int fd_in, loff_t __user *off_in, # int fd_out, loff_t __user *off_out, # size_t len, unsigned int flags) # probe nd_syscall.splice = kprobe.function("SyS_splice") ?, kprobe.function("sys_splice") ? { name = "splice" // argstr = sprintf("%d, %p, %d, %p, %d, 0x%x", // $fd_in, $off_in, $fd_out, $off_out, $len, $flags) asmlinkage() argstr = sprintf("%d, %p, %d, %p, %d, 0x%x", int_arg(1), pointer_arg(2), int_arg(3), pointer_arg(4), ulong_arg(5), uint_arg(6)) } probe nd_syscall.splice.return = kprobe.function("SyS_splice").return ?, kprobe.function("sys_splice").return ? { name = "splice" retstr = returnstr(1) } # ssetmask ___________________________________________________ # # long sys_ssetmask(int newmask) # probe nd_syscall.ssetmask = kprobe.function("SyS_ssetmask") ?, kprobe.function("sys_ssetmask") ? { name = "ssetmask" // newmask = $newmask // argstr = sprint($newmask) asmlinkage() newmask = int_arg(1) argstr = sprint(newmask) } probe nd_syscall.ssetmask.return = kprobe.function("SyS_ssetmask").return ?, kprobe.function("sys_ssetmask").return ? { name = "ssetmask" retstr = returnstr(1) } # stat _______________________________________________________ # long sys_stat(char __user * filename, struct __old_stat __user * statbuf) # long sys32_stat64(char __user * filename, struct stat64 __user *statbuf) # long sys_stat64(char __user * filename, struct stat64 __user * statbuf) # long sys_oabi_stat64(char __user * filename, struct oldabi_stat64 __user * statbuf) # long compat_sys_newstat(char __user * filename, struct compat_stat __user *statbuf) probe nd_syscall.stat = kprobe.function("sys_stat") ?, kprobe.function("SyS_newstat") ?, kprobe.function("sys_newstat") ?, kprobe.function("sys32_stat64") ?, kprobe.function("SyS_stat64") ?, kprobe.function("sys_stat64") ?, kprobe.function("sys_oabi_stat64") ?, kprobe.function("compat_sys_newstat") ? { name = "stat" // filename_uaddr = $filename // filename = user_string($filename) // buf_uaddr = $statbuf // argstr = sprintf("%s, %p", user_string_quoted($filename), buf_uaddr) asmlinkage() filename_uaddr = pointer_arg(1) filename = user_string(filename_uaddr) buf_uaddr = pointer_arg(2) argstr = sprintf("%s, %p", user_string_quoted(filename_uaddr), buf_uaddr) } probe nd_syscall.stat.return = kprobe.function("sys_stat").return ?, kprobe.function("SyS_newstat").return ?, kprobe.function("sys_newstat").return ?, kprobe.function("sys32_stat64").return ?, kprobe.function("SyS_stat64").return ?, kprobe.function("sys_stat64").return ?, kprobe.function("sys_oabi_stat64").return ?, kprobe.function("compat_sys_newstat").return ? { name = "stat" retstr = returnstr(1) } # statfs _____________________________________________________ # long sys_statfs(const char __user * path, struct statfs __user * buf) # long compat_sys_statfs(const char __user *path, struct compat_statfs __user *buf) # probe nd_syscall.statfs = kprobe.function("compat_sys_statfs") ?, kprobe.function("SyS_statfs") ?, kprobe.function("sys_statfs") ? { name = "statfs" // path = user_string($path) // buf_uaddr = $buf // argstr = sprintf("%s, %p", user_string_quoted($path), $buf) asmlinkage() path = user_string(pointer_arg(1)) buf_uaddr = pointer_arg(2) argstr = sprintf("%s, %p", user_string_quoted(pointer_arg(1)), buf_uaddr) } probe nd_syscall.statfs.return = kprobe.function("compat_sys_statfs").return ?, kprobe.function("SyS_statfs").return ?, kprobe.function("sys_statfs").return ? { name = "statfs" retstr = returnstr(1) } # statfs64 ___________________________________________________ # # long sys_statfs64(const char __user *path, size_t sz, struct statfs64 __user *buf) # long compat_sys_statfs64(const char __user *path, compat_size_t sz, struct compat_statfs64 __user *buf) # probe nd_syscall.statfs64 = kprobe.function("compat_sys_statfs64") ?, kprobe.function("SyS_statfs64") ?, kprobe.function("sys_statfs64") ? { name = "statfs" // path = user_string($path) // sz = $sz // buf_uaddr = $buf // argstr = sprintf("%s, %d, %p", user_string_quoted($path), $sz, $buf) asmlinkage() path = user_string(pointer_arg(1)) sz = ulong_arg(2) buf_uaddr = pointer_arg(3) argstr = sprintf("%s, %d, %p", user_string_quoted(pointer_arg(1)), sz, buf_uaddr) } probe nd_syscall.statfs64.return = kprobe.function("compat_sys_statfs64").return ?, kprobe.function("SyS_statfs64").return ?, kprobe.function("sys_statfs64").return ? { name = "statfs" retstr = returnstr(1) } # stime ______________________________________________________ # # long sys_stime(time_t __user *tptr) # long compat_sys_stime(compat_time_t __user *tptr) # probe nd_syscall.stime = kprobe.function("compat_sys_stime") ?, kprobe.function("SyS_stime") ?, kprobe.function("sys_stime") ? { name = "stime" // t_uaddr = $tptr /* FIXME. Decode time */ // argstr = sprintf("%p", $tptr) asmlinkage() t_uaddr = pointer_arg(1) argstr = sprintf("%p", t_uaddr) } probe nd_syscall.stime.return = kprobe.function("compat_sys_stime").return ?, kprobe.function("SyS_stime").return ?, kprobe.function("sys_stime").return ? { name = "stime" retstr = returnstr(1) } # swapoff ____________________________________________________ # # asmlinkage long # sys_swapoff(const char __user * specialfile) # probe nd_syscall.swapoff = kprobe.function("SyS_swapoff") ?, kprobe.function("sys_swapoff") ? { name = "swapoff" // path = user_string($specialfile) // argstr = user_string_quoted($specialfile) asmlinkage() path = user_string(pointer_arg(1)) argstr = user_string_quoted(pointer_arg(1)) } probe nd_syscall.swapoff.return = kprobe.function("SyS_swapoff").return ?, kprobe.function("sys_swapoff").return ? { name = "swapoff" retstr = returnstr(1) } # swapon _____________________________________________________ # # asmlinkage long # sys_swapon(const char __user * specialfile, # int swap_flags) # probe nd_syscall.swapon = kprobe.function("SyS_swapon") ?, kprobe.function("sys_swapon") ? { name = "swapon" // path = user_string($specialfile) // swapflags = $swap_flags // argstr = sprintf("%s, %d", user_string_quoted($specialfile), swapflags) asmlinkage() path = user_string(pointer_arg(1)) swapflags = int_arg(2) argstr = sprintf("%s, %d", user_string_quoted(pointer_arg(1)), swapflags) } probe nd_syscall.swapon.return = kprobe.function("SyS_swapon").return ?, kprobe.function("sys_swapon").return ? { name = "swapon" retstr = returnstr(1) } # symlink ____________________________________________________ # long sys_symlink(const char __user * oldname, # const char __user * newname) probe nd_syscall.symlink = kprobe.function("SyS_symlink") ?, kprobe.function("sys_symlink") ? { name = "symlink" // oldpath = user_string($oldname) // newpath = user_string($newname) // argstr = sprintf("%s, %s", user_string_quoted($oldname), // user_string_quoted($newname)) asmlinkage() oldpath = user_string(pointer_arg(1)) newpath = user_string(pointer_arg(2)) argstr = sprintf("%s, %s", user_string_quoted(pointer_arg(1)), user_string_quoted(pointer_arg(2))) } probe nd_syscall.symlink.return = kprobe.function("SyS_symlink").return ?, kprobe.function("sys_symlink").return ? { name = "symlink" retstr = returnstr(1) } # symlinkat __________________________________________________ # new function with 2.6.16 # long sys_symlinkat(const char __user *oldname, int newdfd, # const char __user *newname) probe nd_syscall.symlinkat = kprobe.function("SyS_symlinkat") ?, kprobe.function("sys_symlinkat") ? { name = "symlinkat" // oldname = $oldname // oldname_str = user_string($oldname) // newdfd = $newdfd // newdfd_str = _dfd_str($newdfd) // newname = $newname // newname_str = user_string($newname) // argstr = sprintf("%s, %s, %s", user_string_quoted($oldname), // newdfd_str, user_string_quoted($newname)) asmlinkage() oldname = pointer_arg(1) oldname_str = user_string(oldname) newdfd = int_arg(2) newdfd_str = _dfd_str(newdfd) newname = pointer_arg(3) newname_str = user_string(newname) argstr = sprintf("%s, %s, %s", user_string_quoted(oldname), newdfd_str, user_string_quoted(newname)) } probe nd_syscall.symlinkat.return = kprobe.function("SyS_symlinkat").return ?, kprobe.function("sys_symlinkat").return ? { name = "symlinkat" retstr = returnstr(1) } # sync _______________________________________________________ # # sys_sync(void) # probe nd_syscall.sync = kprobe.function("sys_sync") { name = "sync" argstr = "" } probe nd_syscall.sync.return = kprobe.function("sys_sync").return { name = "sync" retstr = returnstr(1) } # sysctl _____________________________________________________ # # long sys_sysctl(struct __sysctl_args __user *args) # probe nd_syscall.sysctl = kprobe.function("compat_sys_sysctl") ?, kprobe.function("SyS_sysctl") ?, kprobe.function("sys_sysctl") ? { name = "sysctl" // argstr = sprintf("%p", $args) asmlinkage() argstr = sprintf("%p", pointer_arg(1)) } probe nd_syscall.sysctl.return = kprobe.function("compat_sys_sysctl").return ?, kprobe.function("SyS_sysctl").return ?, kprobe.function("sys_sysctl").return ? { name = "sysctl" retstr = returnstr(1) } # sysfs ______________________________________________________ # # asmlinkage long # sys_sysfs(int option, # unsigned long arg1, # unsigned long arg2) # probe nd_syscall.sysfs = kprobe.function("SyS_sysfs") ?, kprobe.function("sys_sysfs") ? { name = "sysfs" // option = $option // arg1 = $arg1 // arg2 = $arg2 // if (option == 1) // argstr = sprintf("%d, %s, %d", $option, user_string_quoted($arg1), $arg2) // else if (option == 2) // argstr = sprintf("%d, %d, %p", $option, $arg1, $arg2) // else if (option == 3) // argstr = sprintf("%d, %d, %d", $option, $arg1, $arg2) // else // argstr = sprintf("%d, %d, %d", $option, $arg1, $arg2) asmlinkage() option = int_arg(1) arg1 = ulong_arg(2) arg2 = ulong_arg(3) if (option == 1) argstr = sprintf("%d, %s, %d", option, user_string_quoted(arg1), arg2) else if (option == 2) argstr = sprintf("%d, %d, %p", option, arg1, arg2) else argstr = sprintf("%d, %d, %d", option, arg1, arg2) } probe nd_syscall.sysfs.return = kprobe.function("SyS_sysfs").return ?, kprobe.function("sys_sysfs").return ? { name = "sysfs" retstr = returnstr(1) } # sysinfo ____________________________________________________ # # long sys_sysinfo(struct sysinfo __user *info) # long compat_sys_sysinfo(struct compat_sysinfo __user *info) probe nd_syscall.sysinfo = kprobe.function("compat_sys_sysinfo") ?, kprobe.function("SyS_sysinfo") ?, kprobe.function("sys_sysinfo") ? { name = "sysinfo" // info_uaddr = $info // argstr = sprintf("%p", $info) asmlinkage() info_uaddr = pointer_arg(1) argstr = sprintf("%p", info_uaddr) } probe nd_syscall.sysinfo.return = kprobe.function("compat_sys_sysinfo").return ?, kprobe.function("SyS_sysinfo").return ?, kprobe.function("sys_sysinfo").return ? { name = "sysinfo" retstr = returnstr(1) } # syslog _____________________________________________________ # # long sys_syslog(int type, char __user * buf, int len) # probe nd_syscall.syslog = kprobe.function("SyS_syslog") ?, kprobe.function("sys_syslog") ? { name = "syslog" // type = $type // bufp_uaddr = $buf // len = $len // argstr = sprintf("%d, %p, %d", $type, $buf, $len) asmlinkage() type = int_arg(1) bufp_uaddr = pointer_arg(2) len = int_arg(3) argstr = sprintf("%d, %p, %d", type, bufp_uaddr, len) } probe nd_syscall.syslog.return = kprobe.function("SyS_syslog").return ?, kprobe.function("sys_syslog").return ? { name = "syslog" retstr = returnstr(1) } # tee _____________________________________________________ # # long sys_tee(int fdin, int fdout, size_t len, unsigned int flags) # probe nd_syscall.tee = kprobe.function("SyS_tee") ?, kprobe.function("sys_tee") ? { name = "tee" // argstr = sprintf("%d, %d, %d, 0x%x", $fdin, $fdout, $len, $flags) asmlinkage() argstr = sprintf("%d, %d, %d, 0x%x", int_arg(1), int_arg(2), ulong_arg(3), uint_arg(4)) } probe nd_syscall.tee.return = kprobe.function("SyS_tee").return ?, kprobe.function("sys_tee").return ? { name = "tee" retstr = returnstr(1) } # tgkill _____________________________________________________ # # asmlinkage long # sys_tgkill(int tgid, # int pid, # int sig) # probe nd_syscall.tgkill = kprobe.function("SyS_tgkill") ?, kprobe.function("sys_tgkill") ? { name = "tgkill" // tgid = $tgid // pid = $pid // sig = $sig // argstr = sprintf("%d, %d, %s", $tgid, $pid, _signal_name($sig)) asmlinkage() tgid = int_arg(1) pid = int_arg(2) sig = int_arg(3) argstr = sprintf("%d, %d, %s", tgid, pid, _signal_name(sig)) } probe nd_syscall.tgkill.return = kprobe.function("SyS_tgkill").return ?, kprobe.function("sys_tgkill").return ? { name = "tgkill" retstr = returnstr(1) } # time _______________________________________________________ # # long sys_time(time_t __user * tloc) # long sys_time64(long __user * tloc) # long sys32_time(compat_time_t __user * tloc) # long compat_sys_time(compat_time_t __user * tloc) # probe nd_syscall.time = kprobe.function("sys32_time") ?, kprobe.function("sys_time64") ?, kprobe.function("compat_sys_time") ?, kprobe.function("SyS_time") ?, kprobe.function("sys_time") ? { name = "time" // t_uaddr = $tloc // argstr = sprintf("%p", $tloc) asmlinkage() t_uaddr = pointer_arg(1) argstr = sprintf("%p", t_uaddr) } probe nd_syscall.time.return = kprobe.function("sys32_time").return ?, kprobe.function("sys_time64").return ?, kprobe.function("compat_sys_time").return ?, kprobe.function("SyS_time").return ?, kprobe.function("sys_time").return ? { name = "time" retstr = returnstr(1) } # timer_create _______________________________________________ # # long sys_timer_create(clockid_t which_clock, # struct sigevent __user *timer_event_spec, # timer_t __user * created_timer_id) # probe nd_syscall.timer_create = kprobe.function("SyS_timer_create") ?, kprobe.function("sys_timer_create") ? { name = "timer_create" // clockid = $which_clock // clockid_str = _get_wc_str($which_clock) // evp_uaddr = $timer_event_spec // timerid_uaddr = $created_timer_id // argstr = sprintf("%s, %p, %p", clockid_str, $timer_event_spec, $created_timer_id) asmlinkage() clockid = int_arg(1) clockid_str = _get_wc_str(clockid) evp_uaddr = pointer_arg(2) timerid_uaddr = pointer_arg(3) argstr = sprintf("%s, %p, %p", clockid_str, evp_uaddr, timerid_uaddr) } probe nd_syscall.timer_create.return = kprobe.function("SyS_timer_create").return ?, kprobe.function("sys_timer_create").return ? { name = "timer_create" retstr = returnstr(1) } # timer_delete _______________________________________________ # # long sys_timer_delete(timer_t timer_id) # probe nd_syscall.timer_delete = kprobe.function("SyS_timer_delete") ?, kprobe.function("sys_timer_delete") ? { name = "timer_delete" // timerid = $timer_id // argstr = sprint($timer_id) asmlinkage() timerid = int_arg(1) argstr = sprint(timerid) } probe nd_syscall.timer_delete.return = kprobe.function("SyS_timer_delete").return ?, kprobe.function("sys_timer_delete").return ? { name = "timer_delete" retstr = returnstr(1) } # timer_getoverrun ___________________________________________ # # long sys_timer_getoverrun(timer_t timer_id) # probe nd_syscall.timer_getoverrun = kprobe.function("SyS_timer_getoverrun") ?, kprobe.function("sys_timer_getoverrun") ? { name = "timer_getoverrun" // timerid = $timer_id // argstr = sprint($timer_id) asmlinkage() timerid = int_arg(1) argstr = sprint(timerid) } probe nd_syscall.timer_getoverrun.return = kprobe.function("SyS_timer_getoverrun").return ?, kprobe.function("sys_timer_getoverrun").return ? { name = "timer_getoverrun" retstr = returnstr(1) } # timer_gettime ______________________________________________ # # long sys_timer_gettime(timer_t timer_id, # struct itimerspec __user *setting) # probe nd_syscall.timer_gettime = kprobe.function("SyS_timer_gettime") ?, kprobe.function("sys_timer_gettime") ? { name = "timer_gettime" // timerid = $timer_id // value_uaddr = $setting // argstr = sprintf("%d, %p", $timer_id, $setting) asmlinkage() timerid = int_arg(1) value_uaddr = pointer_arg(2) argstr = sprintf("%d, %p", timerid, value_uaddr) } probe nd_syscall.timer_gettime.return = kprobe.function("SyS_timer_gettime").return ?, kprobe.function("sys_timer_gettime").return ? { name = "timer_gettime" retstr = returnstr(1) } # timer_settime ______________________________________________ # # long sys_timer_settime(timer_t timer_id, # int flags, # const struct itimerspec __user *new_setting, # struct itimerspec __user *old_setting) # probe nd_syscall.timer_settime = kprobe.function("SyS_timer_settime") ?, kprobe.function("sys_timer_settime") ? { name = "timer_settime" // timerid = $timer_id // flags = $flags // value_uaddr = $new_setting // ovalue_uaddr = $old_setting // argstr = sprintf("%d, %d, %s, %p", $timer_id, $flags, // _struct_itimerspec_u($new_setting), // $old_setting) asmlinkage() timerid = int_arg(1) flags = int_arg(2) value_uaddr = pointer_arg(3) ovalue_uaddr = pointer_arg(4) argstr = sprintf("%d, %d, %s, %p", timerid, flags, _struct_itimerspec_u(value_uaddr), ovalue_uaddr) } probe nd_syscall.timer_settime.return = kprobe.function("SyS_timer_settime").return ?, kprobe.function("sys_timer_settime").return ? { name = "timer_settime" retstr = returnstr(1) } # timerfd ______________________________________________ # # long sys_timerfd(int ufd, int clockid, int flags, # const struct itimerspec __user *utmr) # long compat_sys_timerfd(int ufd, int clockid, int flags, # const struct compat_itimerspec __user *utmr) # probe nd_syscall.timerfd = kprobe.function("sys_timerfd") ?, kprobe.function("compat_sys_timerfd") ? { name = "timerfd" // argstr = sprintf("%d, %d, 0x%x", $ufd, $clockid, $flags) asmlinkage() argstr = sprintf("%d, %d, 0x%x", int_arg(1), int_arg(2), int_arg(3)) } probe nd_syscall.timerfd.return = kprobe.function("sys_timerfd").return ?, kprobe.function("compat_sys_timerfd").return ? { name = "timerfd" retstr = returnstr(1) } # times ______________________________________________________ # # long sys_times(struct tms __user * tbuf) # long compat_sys_times(struct compat_tms __user *tbuf) probe nd_syscall.times = kprobe.function("compat_sys_times") ?, kprobe.function("SyS_times") ?, kprobe.function("sys_times") ? { name = "times" // argstr = sprintf("%p", $tbuf) asmlinkage() argstr = sprintf("%p", pointer_arg(1)) } probe nd_syscall.times.return = kprobe.function("compat_sys_times").return ?, kprobe.function("SyS_times").return ?, kprobe.function("sys_times").return ? { name = "times" retstr = returnstr(1) } # tkill ______________________________________________________ # # asmlinkage long # sys_tkill(int pid, # int sig) # probe nd_syscall.tkill = kprobe.function("SyS_tkill") ?, kprobe.function("sys_tkill") ? { name = "tkill" // pid = $pid // sig = $sig // argstr = sprintf("%d, %s", $pid, _signal_name($sig)) asmlinkage() pid = int_arg(1) sig = int_arg(2) argstr = sprintf("%d, %s", pid, _signal_name(sig)) } probe nd_syscall.tkill.return = kprobe.function("SyS_tkill").return ?, kprobe.function("sys_tkill").return ? { name = "tkill" retstr = returnstr(1) } # truncate ___________________________________________________ # # sys_truncate(const char __user * path, unsigned long length) # sys_truncate64(const char __user * path, loff_t length) # probe nd_syscall.truncate = kprobe.function("SyS_truncate") ?, kprobe.function("sys_truncate") ?, kprobe.function("sys_truncate64") ? { name = "truncate" // path_uaddr = $path // path = user_string($path) // length = $length // argstr = sprintf("%s, %d", user_string_quoted($path), $length) asmlinkage() path_uaddr = pointer_arg(1) path = user_string(path_uaddr) if (probefunc() == "sys_truncate") length = ulong_arg(2) else length = longlong_arg(2) argstr = sprintf("%s, %d", user_string_quoted(path_uaddr), length) } probe nd_syscall.truncate.return = kprobe.function("SyS_truncate").return ?, kprobe.function("sys_truncate").return ?, kprobe.function("sys_truncate64").return ? { name = "truncate" retstr = returnstr(1) } # tux ________________________________________________________ # long sys_tux (unsigned int action, user_req_t *u_info) # probe nd_syscall.tux = kprobe.function("sys_tux") ? { name = "tux" // action = $action // u_info_uaddr = $u_info // argstr = sprintf("%d, %p", $action, $u_info) // no sys_tux in recent kernels; guessing asmlinkage asmlinkage() action = uint_arg(1) u_info_uaddr = pointer_arg(2) argstr = sprintf("%d, %p", action, u_info_uaddr) } probe nd_syscall.tux.return = kprobe.function("sys_tux").return ? { name = "tux" retstr = returnstr(1) } # umask ______________________________________________________ # long sys_umask(int mask) # probe nd_syscall.umask = kprobe.function("SyS_umask") ?, kprobe.function("sys_umask") ? { name = "umask" // mask = $mask // argstr = sprintf("%#o", $mask) asmlinkage() mask = int_arg(1) argstr = sprintf("%#o", mask) } probe nd_syscall.umask.return = kprobe.function("SyS_umask").return ?, kprobe.function("sys_umask").return ? { name = "umask" retstr = returnstr(3) } # umount _____________________________________________________ # long sys_umount(char __user * name, int flags) # probe nd_syscall.umount = kprobe.function("SyS_umount") ?, kprobe.function("sys_umount") ? { name = "umount" // target = user_string($name) // flags = $flags // flags_str = _umountflags_str($flags) // argstr = sprintf("%s, %s", user_string_quoted($name), flags_str) asmlinkage() target = user_string(pointer_arg(1)) flags = int_arg(2) flags_str = _umountflags_str(flags) argstr = sprintf("%s, %s", user_string_quoted(pointer_arg(1)), flags_str) } probe nd_syscall.umount.return = kprobe.function("SyS_umount").return ?, kprobe.function("sys_umount").return ? { name = "umount" retstr = returnstr(1) } # uname ______________________________________________________ # # int sys_uname(struct old_utsname __user *name) # long sys_newuname(struct new_utsname __user * name) # int sys_olduname(struct oldold_utsname __user * name) # int sys32_olduname(struct oldold_utsname __user * name) # long sys32_uname(struct old_utsname __user * name) # probe nd_syscall.uname = kprobe.function("sys_uname") ?, kprobe.function("sys_olduname") ?, kprobe.function("sys32_olduname") ?, kprobe.function("sys32_uname") ?, kprobe.function("SyS_newuname") ?, kprobe.function("sys_newuname") ? { name = "uname" // argstr = sprintf("%p", $name) _func_name = probefunc() if (_func_name != "sys32_uname") { if (_func_name == "sys_uname" || _func_name == "sys_olduname") { %( arch != "powerpc" %? asmlinkage() %) } else asmlinkage() } argstr = sprintf("%p", pointer_arg(1)) } probe nd_syscall.uname.return = kprobe.function("sys_uname").return ?, kprobe.function("sys_olduname").return ?, kprobe.function("sys32_olduname").return ?, kprobe.function("sys32_uname").return ?, kprobe.function("SyS_newuname").return ?, kprobe.function("sys_newuname").return ? { name = "uname" retstr = returnstr(1) } # unlink _____________________________________________________ # long sys_unlink(const char __user * pathname) # probe nd_syscall.unlink = kprobe.function("SyS_unlink") ?, kprobe.function("sys_unlink") ? { name = "unlink" // pathname_uaddr = $pathname // pathname = user_string($pathname) // argstr = user_string_quoted($pathname) asmlinkage() pathname_uaddr = pointer_arg(1) pathname = user_string(pathname_uaddr) argstr = user_string_quoted(pathname_uaddr) } probe nd_syscall.unlink.return = kprobe.function("SyS_unlink").return ?, kprobe.function("sys_unlink").return ? { name = "unlink" retstr = returnstr(1) } # unlinkat ___________________________________________________ # new function with 2.6.16 # long sys_unlinkat(int dfd, const char __user *pathname, # int flag) probe nd_syscall.unlinkat = kprobe.function("SyS_unlinkat") ?, kprobe.function("sys_unlinkat") ? { name = "unlinkat" // dfd = $dfd // dfd_str = _dfd_str($dfd) // pathname = $pathname // pathname_str = user_string($pathname) // flag = $flag // flag_str = _at_flag_str($flag) // argstr = sprintf("%s, %s, %s", dfd_str, user_string_quoted($pathname), flag_str) asmlinkage() dfd = int_arg(1) dfd_str = _dfd_str(dfd) pathname = pointer_arg(2) pathname_str = user_string(pathname) flag = int_arg(3) flag_str = _at_flag_str(flag) argstr = sprintf("%s, %s, %s", dfd_str, user_string_quoted(pathname), flag_str) } probe nd_syscall.unlinkat.return = kprobe.function("SyS_unlinkat").return ?, kprobe.function("sys_unlinkat").return ? { name = "unlinkat" retstr = returnstr(1) } # unshare ____________________________________________________ # new function with 2.6.16 # long sys_unshare(unsigned long unshare_flags) probe nd_syscall.unshare = kprobe.function("SyS_unshare") ?, kprobe.function("sys_unshare") ? { name = "unshare" // unshare_flags = $unshare_flags asmlinkage() unshare_flags = ulong_arg(1) argstr = __fork_flags(unshare_flags) } probe nd_syscall.unshare.return = kprobe.function("SyS_unshare").return ?, kprobe.function("sys_unshare").return ? { name = "unshare" retstr = returnstr(1) } # uselib _____________________________________________________ # # asmlinkage long # sys_uselib(const char __user * library) # probe nd_syscall.uselib = kprobe.function("SyS_uselib") ?, kprobe.function("sys_uselib") ? { name = "uselib" // library_uaddr = $library // library = user_string($library) // argstr = user_string_quoted($library) asmlinkage() library_uaddr = pointer_arg(1) library = user_string(library_uaddr) argstr = user_string_quoted(library_uaddr) } probe nd_syscall.uselib.return = kprobe.function("SyS_uselib").return ?, kprobe.function("sys_uselib").return ? { name = "uselib" retstr = returnstr(1) } # ustat ______________________________________________________ # long sys_ustat(unsigned dev, struct ustat __user * ubuf) # probe nd_syscall.ustat = kprobe.function("SyS_ustat") ?, kprobe.function("sys_ustat") ? { name = "ustat" // dev = $dev // ubuf_uaddr = $ubuf // argstr = sprintf("%d, %p", $dev, $ubuf) asmlinkage() dev = uint_arg(1) ubuf_uaddr = pointer_arg(2) argstr = sprintf("%d, %p", dev, ubuf_uaddr) } #long sys32_ustat(unsigned dev, struct ustat32 __user *u32p) probe nd_syscall.ustat32 = kprobe.function("sys32_ustat") ? { name = "ustat" // dev = $dev // argstr = sprintf("%d, %p", $dev, $u32p) // no asmlinkage dev = uint_arg(1) argstr = sprintf("%d, %p", dev, pointer_arg(2)) } # Since 2.6.30 sys32_ustat is called compat_sys_ustat and is now asmlinkage. #asmlinkage long compat_sys_ustat(unsigned dev, struct compat_ustat __user *u) probe nd_syscall.ustat32 = kprobe.function("compat_sys_ustat") ? { name = "ustat" // dev = $dev // argstr = sprintf("%d, %p", $dev, $u) // asmlinkage asmlinkage() dev = uint_arg(1) argstr = sprintf("%d, %p", dev, pointer_arg(2)) } probe nd_syscall.ustat.return = kprobe.function("SyS_ustat").return ?, kprobe.function("sys_ustat").return ?, kprobe.function("sys32_ustat").return ?, kprobe.function("compat_sys_ustat").return ? { name = "ustat" retstr = returnstr(1) } # utime ______________________________________________________ # long sys_utime(char __user * filename, struct utimbuf __user * times) probe nd_syscall.utime = kprobe.function("SyS_utime") ?, kprobe.function("sys_utime") ? { name = "utime" asmlinkage() filename_uaddr = pointer_arg(1) filename = user_string_quoted(filename_uaddr) buf_uaddr = pointer_arg(2) actime = _struct_utimbuf_actime(buf_uaddr) modtime = _struct_utimbuf_modtime(buf_uaddr) argstr = sprintf("%s, [%s, %s]", filename, ctime(actime), ctime(modtime)) } probe nd_syscall.utime.return = kprobe.function("SyS_utime").return ?, kprobe.function("sys_utime").return ? { name = "utime" retstr = returnstr(1) } # long compat_sys_utime(char __user *filename, struct compat_utimbuf __user *t) probe nd_syscall.compat_utime = kprobe.function("compat_sys_utime") ? { name = "utime" asmlinkage() filename_uaddr = pointer_arg(1) filename = user_string_quoted(filename_uaddr) buf_uaddr = pointer_arg(2) actime = _struct_compat_utimbuf_actime(buf_uaddr) modtime = _struct_compat_utimbuf_modtime(buf_uaddr) argstr = sprintf("%s, [%s, %s]", filename, ctime(actime), ctime(modtime)) } probe nd_syscall.compat_utime.return = kprobe.function("compat_sys_utime").return ? { name = "utime" retstr = returnstr(1) } # utimes _____________________________________________________ # # long sys_utimes(char __user * filename, struct timeval __user * utimes) # probe nd_syscall.utimes = kprobe.function("SyS_utimes") ?, kprobe.function("sys_utimes") ? { name = "utimes" // filename_uaddr = $filename // filename = user_string($filename) // tvp_uaddr = $utimes // argstr = sprintf("%s, %s", user_string_quoted($filename), // _struct_timeval_u($utimes, 2)) asmlinkage() filename_uaddr = pointer_arg(1) filename = user_string(filename_uaddr) tvp_uaddr = pointer_arg(2) argstr = sprintf("%s, %s", user_string_quoted(filename_uaddr), _struct_timeval_u(tvp_uaddr, 2)) } probe nd_syscall.utimes.return = kprobe.function("SyS_utimes").return ?, kprobe.function("sys_utimes").return ? { name = "utimes" retstr = returnstr(1) } # compat_sys_utimes ________________________________________ # # long compat_sys_utimes(char __user *filename, struct compat_timeval __user *t) # probe nd_syscall.compat_sys_utimes = kprobe.function("compat_sys_utimes") ? { name = "utimes" // filename = user_string($filename) // argstr = sprintf("%s, %s", user_string_quoted($filename), // _struct_compat_timeval_u($t, 2)) asmlinkage() filename = user_string(pointer_arg(1)) argstr = sprintf("%s, %s", user_string_quoted(pointer_arg(1)), _struct_compat_timeval_u(pointer_arg(2), 2)) } probe nd_syscall.compat_sys_utimes.return = kprobe.function("compat_sys_utimes").return ? { name = "utimes" retstr = returnstr(1) } # utimensat ____________________________________________________ # long sys_utimensat(int dfd, char __user *filename, struct timespec __user *utimes, int flags) # long compat_sys_utimensat(unsigned int dfd, char __user *filename, struct compat_timespec __user *t, int flags) # probe nd_syscall.utimensat = kprobe.function("SyS_utimensat") ?, kprobe.function("sys_utimensat") ? { name = "utimensat" // argstr = sprintf("%s, %s, %s, %s", _dfd_str($dfd), user_string_quoted($filename), _struct_timespec_u($utimes, 2), // _at_flag_str($flags)) asmlinkage() argstr = sprintf("%s, %s, %s, %s", _dfd_str(int_arg(1)), user_string_quoted(pointer_arg(2)), _struct_timespec_u(pointer_arg(3), 2), _at_flag_str(int_arg(4))) } probe nd_syscall.compat_utimensat = kprobe.function("compat_sys_utimensat") ? { name = "utimensat" // argstr = sprintf("%s, %s, %s, %s", _dfd_str($dfd), user_string_quoted($filename), _struct_compat_timespec_u($t, 2), // _at_flag_str($flags)) asmlinkage() argstr = sprintf("%s, %s, %s, %s", _dfd_str(uint_arg(1)), user_string_quoted(pointer_arg(2)), _struct_compat_timespec_u(pointer_arg(3), 2), _at_flag_str(int_arg(4))) } probe nd_syscall.utimensat.return = kprobe.function("SyS_utimensat").return ?, kprobe.function("sys_utimensat").return ? { name = "utimensat" retstr = returnstr(1) } probe nd_syscall.compat_utimensat.return = kprobe.function("compat_sys_utimensat").return ? { name = "utimensat" retstr = returnstr(1) } # vhangup ____________________________________________________ # # asmlinkage long # sys_vhangup(void) # probe nd_syscall.vhangup = kprobe.function("sys_vhangup") { name = "vhangup" argstr = "" } probe nd_syscall.vhangup.return = kprobe.function("sys_vhangup").return { name = "vhangup" retstr = returnstr(1) } # vmsplice ___________________________________________________ # # long sys_vmsplice(int fd, const struct iovec __user *iov, # unsigned long nr_segs, unsigned int flags) # long compat_sys_vmsplice(int fd, const struct compat_iovec __user *iov32, # unsigned int nr_segs, unsigned int flags) # probe nd_syscall.vmsplice = kprobe.function("SyS_vmsplice") ?, kprobe.function("sys_vmsplice") ? { name = "vmsplice" // argstr = sprintf("%d, %p, %d, 0x%x", $fd, $iov, $nr_segs, $flags) asmlinkage() argstr = sprintf("%d, %p, %d, 0x%x", int_arg(1), pointer_arg(2), ulong_arg(3), uint_arg(4)) } probe nd_syscall.compat_vmsplice = kprobe.function("compat_sys_vmsplice") ? { name = "vmsplice" // argstr = sprintf("%d, %p, %d, 0x%x", $fd, $iov32, $nr_segs, $flags) asmlinkage() argstr = sprintf("%d, %p, %d, 0x%x", int_arg(1), pointer_arg(2), uint_arg(3), uint_arg(4)) } probe nd_syscall.vmsplice.return = kprobe.function("SyS_vmsplice").return ?, kprobe.function("sys_vmsplice").return ? { name = "vmsplice" retstr = returnstr(1) } probe nd_syscall.compat_vmsplice.return = kprobe.function("compat_sys_vmsplice").return ? { name = "vmsplice" retstr = returnstr(1) } # wait4 ______________________________________________________ # # long sys_wait4(pid_t pid, # int __user *stat_addr, # int options, # struct rusage __user *ru) # probe nd_syscall.wait4 = kprobe.function("SyS_wait4") ?, kprobe.function("sys_wait4") ? { name = "wait4" // pid = (@defined($upid) ? $upid : $pid) // status_uaddr = $stat_addr // options = $options // options_str = _wait4_opt_str($options) // rusage_uaddr = $ru // argstr = sprintf("%d, %p, %s, %p", // (@defined($upid) ? $upid : $pid), // $stat_addr, _wait4_opt_str($options), $ru) asmlinkage() pid = int_arg(1) status_uaddr = pointer_arg(2) options = int_arg(3) options_str = _wait4_opt_str(options) rusage_uaddr = pointer_arg(4) argstr = sprintf("%d, %p, %s, %p", pid, status_uaddr, _wait4_opt_str(options), rusage_uaddr) } probe nd_syscall.wait4.return = kprobe.function("SyS_wait4").return ?, kprobe.function("sys_wait4").return ? { name = "wait4" retstr = returnstr(1) } # waitid _____________________________________________________ # # long sys_waitid(int which, # pid_t pid, # struct siginfo __user *infop, # int options, # struct rusage __user *ru) # probe nd_syscall.waitid = kprobe.function("SyS_waitid") ?, kprobe.function("sys_waitid") ? { name = "waitid" // pid = (@defined($upid) ? $upid : $pid) // which = $which // which_str = _waitid_which_str($which) // infop_uaddr = $infop // options = $options // options_str = _waitid_opt_str($options) // rusage_uaddr = $ru // argstr = sprintf("%d, %d, %p, %s, %p", $which, // (@defined($upid) ? $upid : $pid), $infop, // _waitid_opt_str($options), $ru) asmlinkage() pid = int_arg(1) which = int_arg(2) which_str = _waitid_which_str(which) infop_uaddr = pointer_arg(3) options = int_arg(4) options_str = _waitid_opt_str(options) rusage_uaddr = pointer_arg(5) argstr = sprintf("%d, %d, %p, %s, %p", which, pid, infop_uaddr, _waitid_opt_str(options), rusage_uaddr) } probe nd_syscall.waitid.return = kprobe.function("SyS_waitid").return ?, kprobe.function("sys_waitid").return ? { name = "waitid" retstr = returnstr(1) } /* FIXME: # waitpid ____________________________________________________ # # long sys_wait4(pid_t pid, # int __user *stat_addr, # int options, # struct rusage __user *ru) # probe nd_syscall.waitpid = kprobe.function("SyS_wait4") ?, kprobe.function("sys_wait4") ? { name = "waitpid" pid = $pid status_uaddr = $stat_addr options = $options options_str = _wait4_opt_str($options) rusage_uaddr = $ru argstr = sprintf("%d, %p, %s, %p", $pid, $stat_addr, options_str, $ru) } probe nd_syscall.waitpid.return = kprobe.function("SyS_wait4").return ?, kprobe.function("sys_wait4").return ? { name = "waitpid" retstr = returnstr(1) } */ # write ______________________________________________________ # # ssize_t sys_write(unsigned int fd, # const char __user * buf, # size_t count) # probe nd_syscall.write = kprobe.function("SyS_write") ?, kprobe.function("sys_write") ? { name = "write" // fd = $fd // buf_uaddr = $buf // count = $count // argstr = sprintf("%d, %s, %d", $fd, text_strn(user_string($buf), syscall_string_trunc, 1), $count) asmlinkage() fd = uint_arg(1) buf_uaddr = pointer_arg(2) count = ulong_arg(3) argstr = sprintf("%d, %s, %d", fd, text_strn(user_string(buf_uaddr), syscall_string_trunc, 1), count) } probe nd_syscall.write.return = kprobe.function("SyS_write").return ?, kprobe.function("sys_write").return ? { name = "write" retstr = returnstr(1) } # writev _____________________________________________________ # # ssize_t sys_writev(unsigned long fd, # const struct iovec __user *vec, # unsigned long vlen) # ssize_t compat_sys_writev(unsigned long fd, # const struct compat_iovec __user *vec, # unsigned long vlen) # probe nd_syscall.writev = kprobe.function("compat_sys_writev") ?, kprobe.function("SyS_writev") ?, kprobe.function("sys_writev") ? { name = "writev" // vector_uaddr = $vec // count = $vlen // fd = $fd // argstr = sprintf("%d, %p, %d", $fd, $vec, $vlen) asmlinkage() vector_uaddr = pointer_arg(2) count = ulong_arg(3) fd = ulong_arg(1) argstr = sprintf("%d, %p, %d", fd, vector_uaddr, count) } probe nd_syscall.writev.return = kprobe.function("compat_sys_writev").return ?, kprobe.function("SyS_writev").return ?, kprobe.function("sys_writev").return ? { name = "writev" retstr = returnstr(1) }