forked from luck/tmp_suning_uos_patched
44c4e1b258
pid_vnr returns the user space pid with respect to the pid namespace the struct pid was allocated in. What we want before we return a pid to user space is the user space pid with respect to the pid namespace of current. pid_vnr is a very nice optimization but because it isn't quite what we want it is easy to use pid_vnr at times when we aren't certain the struct pid was allocated in our pid namespace. Currently this describes at least tiocgpgrp and tiocgsid in ttyio.c the parent process reported in the core dumps and the parent process in get_signal_to_deliver. So unless the performance impact is huge having an interface that does what we want instead of always what we want should be much more reliable and much less error prone. Signed-off-by: Eric W. Biederman <ebiederm@xmission.com> Cc: Oleg Nesterov <oleg@tv-sign.ru> Acked-by: Pavel Emelyanov <xemul@openvz.org> Signed-off-by: Andrew Morton <akpm@linux-foundation.org> Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
160 lines
4.6 KiB
C
160 lines
4.6 KiB
C
#ifndef _LINUX_PID_H
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#define _LINUX_PID_H
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#include <linux/rcupdate.h>
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enum pid_type
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{
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PIDTYPE_PID,
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PIDTYPE_PGID,
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PIDTYPE_SID,
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PIDTYPE_MAX
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};
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/*
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* What is struct pid?
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*
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* A struct pid is the kernel's internal notion of a process identifier.
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* It refers to individual tasks, process groups, and sessions. While
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* there are processes attached to it the struct pid lives in a hash
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* table, so it and then the processes that it refers to can be found
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* quickly from the numeric pid value. The attached processes may be
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* quickly accessed by following pointers from struct pid.
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*
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* Storing pid_t values in the kernel and refering to them later has a
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* problem. The process originally with that pid may have exited and the
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* pid allocator wrapped, and another process could have come along
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* and been assigned that pid.
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*
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* Referring to user space processes by holding a reference to struct
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* task_struct has a problem. When the user space process exits
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* the now useless task_struct is still kept. A task_struct plus a
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* stack consumes around 10K of low kernel memory. More precisely
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* this is THREAD_SIZE + sizeof(struct task_struct). By comparison
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* a struct pid is about 64 bytes.
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*
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* Holding a reference to struct pid solves both of these problems.
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* It is small so holding a reference does not consume a lot of
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* resources, and since a new struct pid is allocated when the numeric pid
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* value is reused (when pids wrap around) we don't mistakenly refer to new
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* processes.
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*/
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/*
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* struct upid is used to get the id of the struct pid, as it is
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* seen in particular namespace. Later the struct pid is found with
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* find_pid_ns() using the int nr and struct pid_namespace *ns.
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*/
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struct upid {
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/* Try to keep pid_chain in the same cacheline as nr for find_pid */
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int nr;
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struct pid_namespace *ns;
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struct hlist_node pid_chain;
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};
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struct pid
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{
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atomic_t count;
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/* lists of tasks that use this pid */
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struct hlist_head tasks[PIDTYPE_MAX];
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struct rcu_head rcu;
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int level;
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struct upid numbers[1];
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};
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extern struct pid init_struct_pid;
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struct pid_link
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{
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struct hlist_node node;
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struct pid *pid;
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};
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static inline struct pid *get_pid(struct pid *pid)
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{
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if (pid)
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atomic_inc(&pid->count);
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return pid;
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}
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extern void FASTCALL(put_pid(struct pid *pid));
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extern struct task_struct *FASTCALL(pid_task(struct pid *pid, enum pid_type));
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extern struct task_struct *FASTCALL(get_pid_task(struct pid *pid,
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enum pid_type));
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extern struct pid *get_task_pid(struct task_struct *task, enum pid_type type);
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/*
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* attach_pid() and detach_pid() must be called with the tasklist_lock
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* write-held.
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*/
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extern int FASTCALL(attach_pid(struct task_struct *task,
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enum pid_type type, struct pid *pid));
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extern void FASTCALL(detach_pid(struct task_struct *task, enum pid_type));
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extern void FASTCALL(transfer_pid(struct task_struct *old,
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struct task_struct *new, enum pid_type));
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struct pid_namespace;
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extern struct pid_namespace init_pid_ns;
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/*
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* look up a PID in the hash table. Must be called with the tasklist_lock
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* or rcu_read_lock() held.
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*
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* find_pid_ns() finds the pid in the namespace specified
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* find_pid() find the pid by its global id, i.e. in the init namespace
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* find_vpid() finr the pid by its virtual id, i.e. in the current namespace
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*
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* see also find_task_by_pid() set in include/linux/sched.h
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*/
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extern struct pid *FASTCALL(find_pid_ns(int nr, struct pid_namespace *ns));
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extern struct pid *find_vpid(int nr);
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extern struct pid *find_pid(int nr);
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/*
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* Lookup a PID in the hash table, and return with it's count elevated.
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*/
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extern struct pid *find_get_pid(int nr);
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extern struct pid *find_ge_pid(int nr, struct pid_namespace *);
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int next_pidmap(struct pid_namespace *pid_ns, int last);
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extern struct pid *alloc_pid(struct pid_namespace *ns);
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extern void FASTCALL(free_pid(struct pid *pid));
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/*
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* the helpers to get the pid's id seen from different namespaces
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*
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* pid_nr() : global id, i.e. the id seen from the init namespace;
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* pid_vnr() : virtual id, i.e. the id seen from the pid namespace of
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* current.
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* pid_nr_ns() : id seen from the ns specified.
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*
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* see also task_xid_nr() etc in include/linux/sched.h
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*/
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static inline pid_t pid_nr(struct pid *pid)
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{
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pid_t nr = 0;
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if (pid)
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nr = pid->numbers[0].nr;
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return nr;
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}
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pid_t pid_nr_ns(struct pid *pid, struct pid_namespace *ns);
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pid_t pid_vnr(struct pid *pid);
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#define do_each_pid_task(pid, type, task) \
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do { \
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struct hlist_node *pos___; \
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if (pid != NULL) \
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hlist_for_each_entry_rcu((task), pos___, \
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&pid->tasks[type], pids[type].node) {
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#define while_each_pid_task(pid, type, task) \
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} \
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} while (0)
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#endif /* _LINUX_PID_H */
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