• O
    pid namespaces: rework forget_original_parent() · 762a24be
    Oleg Nesterov 提交于
    A pid namespace is a "view" of a particular set of tasks on the system.  They
    work in a similar way to filesystem namespaces.  A file (or a process) can be
    accessed in multiple namespaces, but it may have a different name in each.  In
    a filesystem, this name might be /etc/passwd in one namespace, but
    /chroot/etc/passwd in another.
    
    For processes, a process may have pid 1234 in one namespace, but be pid 1 in
    another.  This allows new pid namespaces to have basically arbitrary pids, and
    not have to worry about what pids exist in other namespaces.  This is
    essential for checkpoint/restart where a restarted process's pid might collide
    with an existing process on the system's pid.
    
    In this particular implementation, pid namespaces have a parent-child
    relationship, just like processes.  A process in a pid namespace may see all
    of the processes in the same namespace, as well as all of the processes in all
    of the namespaces which are children of its namespace.  Processes may not,
    however, see others which are in their parent's namespace, but not in their
    own.  The same goes for sibling namespaces.
    
    The know issue to be solved in the nearest future is signal handling in the
    namespace boundary.  That is, currently the namespace's init is treated like
    an ordinary task that can be killed from within an namespace.  Ideally, the
    signal handling by the namespace's init should have two sides: when signaling
    the init from its namespace, the init should look like a real init task, i.e.
    receive only those signals, that is explicitly wants to; when signaling the
    init from one of the parent namespaces, init should look like an ordinary
    task, i.e.  receive any signal, only taking the general permissions into
    account.
    
    The pid namespace was developed by Pavel Emlyanov and Sukadev Bhattiprolu and
    we eventually came to almost the same implementation, which differed in some
    details.  This set is based on Pavel's patches, but it includes comments and
    patches that from Sukadev.
    
    Many thanks to Oleg, who reviewed the patches, pointed out many BUGs and made
    valuable advises on how to make this set cleaner.
    
    This patch:
    
    We have to call exit_task_namespaces() only after the exiting task has
    reparented all his children and is sure that no other threads will reparent
    theirs for it.  Why this is needed is explained in appropriate patch.  This
    one only reworks the forget_original_parent() so that after calling this a
    task cannot be/become parent of any other task.
    
    We check PF_EXITING instead of ->exit_state while choosing the new parent.
    Note that tasklits_lock acts as a barrier, everyone who takes tasklist after
    us (when forget_original_parent() drops it) must see PF_EXITING.
    
    The other changes are just cleanups.  They just move some code from
    exit_notify to forget_original_parent().  It is a bit silly to declare
    ptrace_dead in exit_notify(), take tasklist, pass ptrace_dead to
    forget_original_parent(), unlock-lock-unlock tasklist, and then use
    ptrace_dead.
    Signed-off-by: NOleg Nesterov <oleg@tv-sign.ru>
    Signed-off-by: NPavel Emelyanov <xemul@openvz.org>
    Cc: Sukadev Bhattiprolu <sukadev@us.ibm.com>
    Cc: Paul Menage <menage@google.com>
    Cc: "Eric W. Biederman" <ebiederm@xmission.com>
    Signed-off-by: NAndrew Morton <akpm@linux-foundation.org>
    Signed-off-by: NLinus Torvalds <torvalds@linux-foundation.org>
    762a24be
exit.c 43.3 KB