• Andy Lutomirski's avatar
    x86/syscalls: Split the x32 syscalls into their own table · 6365b842
    Andy Lutomirski authored
    For unfortunate historical reasons, the x32 syscalls and the x86_64
    syscalls are not all numbered the same.  As an example, ioctl() is nr 16 on
    x86_64 but 514 on x32.
    
    This has potentially nasty consequences, since it means that there are two
    valid RAX values to do ioctl(2) and two invalid RAX values.  The valid
    values are 16 (i.e. ioctl(2) using the x86_64 ABI) and (514 | 0x40000000)
    (i.e. ioctl(2) using the x32 ABI).
    
    The invalid values are 514 and (16 | 0x40000000).  514 will enter the
    "COMPAT_SYSCALL_DEFINE3(ioctl, ...)" entry point with in_compat_syscall()
    and in_x32_syscall() returning false, whereas (16 | 0x40000000) will enter
    the native entry point with in_compat_syscall() and in_x32_syscall()
    returning true.  Both are bogus, and both will exercise code paths in the
    kernel and in any running seccomp filters that really ought to be
    unreachable.
    
    Splitting out the x32 syscalls into their own tables, allows both bogus
    invocations to return -ENOSYS.  I've checked glibc, musl, and Bionic, and
    all of them appear to call syscalls with their correct numbers, so this
    change should have no effect on them.
    
    There is an added benefit going forward: new syscalls that need special
    handling on x32 can share the same number on x32 and x86_64.  This means
    that the special syscall range 512-547 can be treated as a legacy wart
    instead of something that may need to be extended in the future.
    
    Also add a selftest to verify the new behavior.
    Signed-off-by: default avatarAndy Lutomirski <luto@kernel.org>
    Signed-off-by: default avatarThomas Gleixner <tglx@linutronix.de>
    Link: https://lkml.kernel.org/r/208024256b764312598f014ebfb0a42472c19354.1562185330.git.luto@kernel.org
    6365b842
asm-offsets_64.c 2.39 KB