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KCMP(2)                                                                 Linux Programmer's Manual                                                                KCMP(2)

NAME
       kcmp - compare two processes to determine if they share a kernel resource

SYNOPSIS
       #include <linux/kcmp.h>       /* Definition of KCMP_* constants */
       #include <sys/syscall.h>      /* Definition of SYS_* constants */
       #include <unistd.h>

       int syscall(SYS_kcmp, pid_t pid1, pid_t pid2, int type,
                   unsigned long idx1, unsigned long idx2);

       Note: glibc provides no wrapper for kcmp(), necessitating the use of syscall(2).

DESCRIPTION
       The  kcmp()  system call can be used to check whether the two processes identified by pid1 and pid2 share a kernel resource such as virtual memory, file descrip‐
       tors, and so on.

       Permission to employ kcmp() is governed by ptrace access mode PTRACE_MODE_READ_REALCREDS checks against both pid1 and pid2; see ptrace(2).

       The type argument specifies which resource is to be compared in the two processes.  It has one of the following values:

       KCMP_FILE
              Check whether a file descriptor idx1 in the process pid1 refers to the same open file description (see open(2)) as file descriptor  idx2  in  the  process
              pid2.   The existence of two file descriptors that refer to the same open file description can occur as a result of dup(2) (and similar) fork(2), or pass‐
              ing file descriptors via a domain socket (see unix(7)).

       KCMP_FILES
              Check whether the processes share the same set of open file descriptors.  The arguments idx1 and idx2 are ignored.  See the discussion of the  CLONE_FILES
              flag in clone(2).

       KCMP_FS
              Check  whether the processes share the same filesystem information (i.e., file mode creation mask, working directory, and filesystem root).  The arguments
              idx1 and idx2 are ignored.  See the discussion of the CLONE_FS flag in clone(2).

       KCMP_IO
              Check whether the processes share I/O context.  The arguments idx1 and idx2 are ignored.  See the discussion of the CLONE_IO flag in clone(2).

       KCMP_SIGHAND
              Check whether the processes share the same table of signal dispositions.  The arguments idx1 and idx2 are ignored.  See the discussion of  the  CLONE_SIG‐
              HAND flag in clone(2).

       KCMP_SYSVSEM
              Check  whether  the  processes share the same list of System V semaphore undo operations.  The arguments idx1 and idx2 are ignored.  See the discussion of
              the CLONE_SYSVSEM flag in clone(2).

       KCMP_VM
              Check whether the processes share the same address space.  The arguments idx1 and idx2 are ignored.  See the discussion of the CLONE_VM flag in clone(2).

       KCMP_EPOLL_TFD (since Linux 4.13)
              Check whether the file descriptor idx1 of the process pid1 is present in the epoll(7) instance described by idx2 of the process pid2.  The  argument  idx2
              is a pointer to a structure where the target file is described.  This structure has the form:

           struct kcmp_epoll_slot {
               __u32 efd;
               __u32 tfd;
               __u64 toff;
           };

       Within  this  structure,  efd is an epoll file descriptor returned from epoll_create(2), tfd is a target file descriptor number, and toff is a target file offset
       counted from zero.  Several different targets may be registered with the same file descriptor number and setting a specific offset helps to investigate  each  of
       them.

       Note  the  kcmp()  is  not  protected  against  false positives which may occur if the processes are currently running.  One should stop the processes by sending
       SIGSTOP (see signal(7)) prior to inspection with this system call to obtain meaningful results.

RETURN VALUE
       The return value of a successful call to kcmp() is simply the result of arithmetic comparison of kernel pointers (when the kernel  compares  resources,  it  uses
       their memory addresses).

       The  easiest  way  to  explain is to consider an example.  Suppose that v1 and v2 are the addresses of appropriate resources, then the return value is one of the
       following:

           0   v1 is equal to v2; in other words, the two processes share the resource.

           1   v1 is less than v2.

           2   v1 is greater than v2.

           3   v1 is not equal to v2, but ordering information is unavailable.

       On error, -1 is returned, and errno is set to indicate the error.

       kcmp() was designed to return values suitable for sorting.  This is particularly handy if one needs to compare a large number of file descriptors.

ERRORS
       EBADF  type is KCMP_FILE and fd1 or fd2 is not an open file descriptor.

       EFAULT The epoll slot addressed by idx2 is outside of the user's address space.

       EINVAL type is invalid.

       ENOENT The target file is not present in epoll(7) instance.

       EPERM  Insufficient permission to inspect process resources.  The CAP_SYS_PTRACE capability is required to inspect processes that you do not own.   Other  ptrace
              limitations  may  also  apply,  such  as  CONFIG_SECURITY_YAMA, which, when /proc/sys/kernel/yama/ptrace_scope is 2, limits kcmp() to child processes; see
              ptrace(2).

       ESRCH  Process pid1 or pid2 does not exist.

VERSIONS
       The kcmp() system call first appeared in Linux 3.5.

CONFORMING TO
       kcmp() is Linux-specific and should not be used in programs intended to be portable.

NOTES
       Before Linux 5.12, this system call is available only if the kernel is configured with CONFIG_CHECKPOINT_RESTORE, since the original purpose of the  system  call
       was for the checkpoint/restore in user space (CRIU) feature.  (The alternative to this system call would have been to expose suitable process information via the
       proc(5) filesystem; this was deemed to be unsuitable for security reasons.)  Since Linux 5.12, this system call is made available unconditionally.

       See clone(2) for some background information on the shared resources referred to on this page.

EXAMPLES
       The program below uses kcmp() to test whether pairs of file descriptors refer to the same open file description.  The program tests different cases for the  file
       descriptor pairs, as described in the program output.  An example run of the program is as follows:

           $ ./a.out
           Parent PID is 1144
           Parent opened file on FD 3

           PID of child of fork() is 1145
                Compare duplicate FDs from different processes:
                     kcmp(1145, 1144, KCMP_FILE, 3, 3) ==> same
           Child opened file on FD 4
                Compare FDs from distinct open()s in same process:
                     kcmp(1145, 1145, KCMP_FILE, 3, 4) ==> different
           Child duplicated FD 3 to create FD 5
                Compare duplicated FDs in same process:
                     kcmp(1145, 1145, KCMP_FILE, 3, 5) ==> same

   Program source

       #define _GNU_SOURCE
       #include <sys/syscall.h>
       #include <sys/wait.h>
       #include <sys/stat.h>
       #include <stdint.h>
       #include <stdlib.h>
       #include <stdio.h>
       #include <unistd.h>
       #include <fcntl.h>
       #include <linux/kcmp.h>

       #define errExit(msg)    do { perror(msg); exit(EXIT_FAILURE); \
                               } while (0)

       static int
       kcmp(pid_t pid1, pid_t pid2, int type,
            unsigned long idx1, unsigned long idx2)
       {
           return syscall(SYS_kcmp, pid1, pid2, type, idx1, idx2);
       }

       static void
       test_kcmp(char *msg, pid_t pid1, pid_t pid2, int fd_a, int fd_b)
       {
           printf("\t%s\n", msg);
           printf("\t\tkcmp(%jd, %jd, KCMP_FILE, %d, %d) ==> %s\n",
                   (intmax_t) pid1, (intmax_t) pid2, fd_a, fd_b,
                   (kcmp(pid1, pid2, KCMP_FILE, fd_a, fd_b) == 0) ?
                               "same" : "different");
       }

       int
       main(int argc, char *argv[])
       {
           int fd1, fd2, fd3;
           char pathname[] = "/tmp/kcmp.test";

           fd1 = open(pathname, O_CREAT | O_RDWR, S_IRUSR | S_IWUSR);
           if (fd1 == -1)
               errExit("open");

           printf("Parent PID is %jd\n", (intmax_t) getpid());
           printf("Parent opened file on FD %d\n\n", fd1);

           switch (fork()) {
           case -1:
               errExit("fork");

           case 0:
               printf("PID of child of fork() is %jd\n", (intmax_t) getpid());

               test_kcmp("Compare duplicate FDs from different processes:",
                       getpid(), getppid(), fd1, fd1);

               fd2 = open(pathname, O_CREAT | O_RDWR, S_IRUSR | S_IWUSR);
               if (fd2 == -1)
                   errExit("open");
               printf("Child opened file on FD %d\n", fd2);

               test_kcmp("Compare FDs from distinct open()s in same process:",
                       getpid(), getpid(), fd1, fd2);

               fd3 = dup(fd1);
               if (fd3 == -1)
                   errExit("dup");
               printf("Child duplicated FD %d to create FD %d\n", fd1, fd3);

               test_kcmp("Compare duplicated FDs in same process:",
                       getpid(), getpid(), fd1, fd3);
               break;

           default:
               wait(NULL);
           }

           exit(EXIT_SUCCESS);
       }

SEE ALSO
       clone(2), unshare(2)

Linux                                                                          2021-03-22                                                                        KCMP(2)