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The klist reference counting in the find functions that use klist_iter_init_node is broken. If the function (for example driver_find_device) is called with a NULL start object then everything is fine, the first call to next_device()/klist_next increases the ref-count of the first node on the list and does nothing for the start object which is NULL. If they are called with a valid start object then klist_next will decrement the ref-count for the start object but nobody has incremented it. Logical place to fix this would be klist_iter_init_node because the function puts a reference of the object into the klist_iter struct. Signed-off-by: Martin Schwidefsky <schwidefsky@de.ibm.com> Signed-off-by: Frank Pavlic <pavlic@de.ibm.com> Cc: Patrick Mochel <mochel@digitalimplant.org> Signed-off-by: Andrew Morton <akpm@osdl.org> Signed-off-by: Greg Kroah-Hartman <gregkh@suse.de>
284 lines
6.8 KiB
C
284 lines
6.8 KiB
C
/*
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* klist.c - Routines for manipulating klists.
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*
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*
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* This klist interface provides a couple of structures that wrap around
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* struct list_head to provide explicit list "head" (struct klist) and
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* list "node" (struct klist_node) objects. For struct klist, a spinlock
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* is included that protects access to the actual list itself. struct
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* klist_node provides a pointer to the klist that owns it and a kref
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* reference count that indicates the number of current users of that node
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* in the list.
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*
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* The entire point is to provide an interface for iterating over a list
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* that is safe and allows for modification of the list during the
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* iteration (e.g. insertion and removal), including modification of the
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* current node on the list.
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*
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* It works using a 3rd object type - struct klist_iter - that is declared
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* and initialized before an iteration. klist_next() is used to acquire the
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* next element in the list. It returns NULL if there are no more items.
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* Internally, that routine takes the klist's lock, decrements the reference
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* count of the previous klist_node and increments the count of the next
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* klist_node. It then drops the lock and returns.
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*
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* There are primitives for adding and removing nodes to/from a klist.
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* When deleting, klist_del() will simply decrement the reference count.
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* Only when the count goes to 0 is the node removed from the list.
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* klist_remove() will try to delete the node from the list and block
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* until it is actually removed. This is useful for objects (like devices)
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* that have been removed from the system and must be freed (but must wait
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* until all accessors have finished).
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*
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* Copyright (C) 2005 Patrick Mochel
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*
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* This file is released under the GPL v2.
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*/
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#include <linux/klist.h>
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#include <linux/module.h>
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/**
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* klist_init - Initialize a klist structure.
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* @k: The klist we're initializing.
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* @get: The get function for the embedding object (NULL if none)
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* @put: The put function for the embedding object (NULL if none)
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*
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* Initialises the klist structure. If the klist_node structures are
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* going to be embedded in refcounted objects (necessary for safe
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* deletion) then the get/put arguments are used to initialise
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* functions that take and release references on the embedding
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* objects.
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*/
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void klist_init(struct klist * k, void (*get)(struct klist_node *),
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void (*put)(struct klist_node *))
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{
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INIT_LIST_HEAD(&k->k_list);
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spin_lock_init(&k->k_lock);
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k->get = get;
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k->put = put;
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}
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EXPORT_SYMBOL_GPL(klist_init);
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static void add_head(struct klist * k, struct klist_node * n)
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{
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spin_lock(&k->k_lock);
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list_add(&n->n_node, &k->k_list);
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spin_unlock(&k->k_lock);
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}
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static void add_tail(struct klist * k, struct klist_node * n)
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{
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spin_lock(&k->k_lock);
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list_add_tail(&n->n_node, &k->k_list);
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spin_unlock(&k->k_lock);
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}
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static void klist_node_init(struct klist * k, struct klist_node * n)
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{
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INIT_LIST_HEAD(&n->n_node);
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init_completion(&n->n_removed);
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kref_init(&n->n_ref);
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n->n_klist = k;
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if (k->get)
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k->get(n);
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}
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/**
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* klist_add_head - Initialize a klist_node and add it to front.
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* @n: node we're adding.
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* @k: klist it's going on.
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*/
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void klist_add_head(struct klist_node * n, struct klist * k)
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{
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klist_node_init(k, n);
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add_head(k, n);
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}
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EXPORT_SYMBOL_GPL(klist_add_head);
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/**
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* klist_add_tail - Initialize a klist_node and add it to back.
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* @n: node we're adding.
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* @k: klist it's going on.
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*/
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void klist_add_tail(struct klist_node * n, struct klist * k)
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{
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klist_node_init(k, n);
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add_tail(k, n);
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}
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EXPORT_SYMBOL_GPL(klist_add_tail);
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static void klist_release(struct kref * kref)
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{
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struct klist_node * n = container_of(kref, struct klist_node, n_ref);
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void (*put)(struct klist_node *) = n->n_klist->put;
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list_del(&n->n_node);
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complete(&n->n_removed);
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n->n_klist = NULL;
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if (put)
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put(n);
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}
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static int klist_dec_and_del(struct klist_node * n)
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{
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return kref_put(&n->n_ref, klist_release);
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}
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/**
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* klist_del - Decrement the reference count of node and try to remove.
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* @n: node we're deleting.
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*/
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void klist_del(struct klist_node * n)
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{
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struct klist * k = n->n_klist;
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spin_lock(&k->k_lock);
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klist_dec_and_del(n);
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spin_unlock(&k->k_lock);
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}
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EXPORT_SYMBOL_GPL(klist_del);
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/**
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* klist_remove - Decrement the refcount of node and wait for it to go away.
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* @n: node we're removing.
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*/
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void klist_remove(struct klist_node * n)
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{
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struct klist * k = n->n_klist;
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spin_lock(&k->k_lock);
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klist_dec_and_del(n);
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spin_unlock(&k->k_lock);
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wait_for_completion(&n->n_removed);
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}
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EXPORT_SYMBOL_GPL(klist_remove);
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/**
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* klist_node_attached - Say whether a node is bound to a list or not.
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* @n: Node that we're testing.
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*/
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int klist_node_attached(struct klist_node * n)
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{
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return (n->n_klist != NULL);
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}
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EXPORT_SYMBOL_GPL(klist_node_attached);
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/**
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* klist_iter_init_node - Initialize a klist_iter structure.
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* @k: klist we're iterating.
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* @i: klist_iter we're filling.
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* @n: node to start with.
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*
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* Similar to klist_iter_init(), but starts the action off with @n,
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* instead of with the list head.
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*/
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void klist_iter_init_node(struct klist * k, struct klist_iter * i, struct klist_node * n)
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{
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i->i_klist = k;
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i->i_head = &k->k_list;
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i->i_cur = n;
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if (n)
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kref_get(&n->n_ref);
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}
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EXPORT_SYMBOL_GPL(klist_iter_init_node);
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/**
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* klist_iter_init - Iniitalize a klist_iter structure.
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* @k: klist we're iterating.
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* @i: klist_iter structure we're filling.
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*
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* Similar to klist_iter_init_node(), but start with the list head.
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*/
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void klist_iter_init(struct klist * k, struct klist_iter * i)
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{
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klist_iter_init_node(k, i, NULL);
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}
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EXPORT_SYMBOL_GPL(klist_iter_init);
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/**
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* klist_iter_exit - Finish a list iteration.
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* @i: Iterator structure.
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*
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* Must be called when done iterating over list, as it decrements the
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* refcount of the current node. Necessary in case iteration exited before
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* the end of the list was reached, and always good form.
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*/
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void klist_iter_exit(struct klist_iter * i)
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{
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if (i->i_cur) {
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klist_del(i->i_cur);
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i->i_cur = NULL;
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}
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}
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EXPORT_SYMBOL_GPL(klist_iter_exit);
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static struct klist_node * to_klist_node(struct list_head * n)
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{
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return container_of(n, struct klist_node, n_node);
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}
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/**
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* klist_next - Ante up next node in list.
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* @i: Iterator structure.
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*
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* First grab list lock. Decrement the reference count of the previous
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* node, if there was one. Grab the next node, increment its reference
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* count, drop the lock, and return that next node.
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*/
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struct klist_node * klist_next(struct klist_iter * i)
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{
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struct list_head * next;
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struct klist_node * knode = NULL;
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spin_lock(&i->i_klist->k_lock);
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if (i->i_cur) {
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next = i->i_cur->n_node.next;
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klist_dec_and_del(i->i_cur);
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} else
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next = i->i_head->next;
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if (next != i->i_head) {
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knode = to_klist_node(next);
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kref_get(&knode->n_ref);
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}
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i->i_cur = knode;
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spin_unlock(&i->i_klist->k_lock);
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return knode;
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}
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EXPORT_SYMBOL_GPL(klist_next);
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