xref: /titanic_41/usr/src/lib/libcmdutils/common/avltree.c (revision a6d42e7d71324c5193c3b94d57d96ba2925d52e1)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License, Version 1.0 only
6  * (the "License").  You may not use this file except in compliance
7  * with the License.
8  *
9  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
10  * or http://www.opensolaris.org/os/licensing.
11  * See the License for the specific language governing permissions
12  * and limitations under the License.
13  *
14  * When distributing Covered Code, include this CDDL HEADER in each
15  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
16  * If applicable, add the following below this CDDL HEADER, with the
17  * fields enclosed by brackets "[]" replaced with your own identifying
18  * information: Portions Copyright [yyyy] [name of copyright owner]
19  *
20  * CDDL HEADER END
21  */
22 /*
23  * Copyright 2003 Sun Microsystems, Inc.  All rights reserved.
24  * Use is subject to license terms.
25  */
26 
27 #pragma ident	"%Z%%M%	%I%	%E% SMI"
28 
29 #include <sys/avl.h>
30 #include <sys/types.h>
31 #include <stdlib.h>
32 #include "libcmdutils.h"
33 
34 /*
35  * The following interfaces complement the interfaces available in
36  * libavl.
37  * 	tnode_compare() - tree node comparison routine
38  *	add_tnode() - adds nodes to a tree
39  *	destroy_tree() - destroys a whole tree
40  *
41  * The libavl routines are very generic and don't have any
42  * direct knowledge about the data being stored in the AVL tree,
43  * nor any of the details of the AVL tree representation.
44  * In addition, the libavl routines do not perform any locking
45  * or memory allocation.  Appropriate synchronization and memory
46  * allocation are the responsibility of the user of the libavl
47  * routines.
48  *
49  * These routines, and the structures defined in "libcmdutils.h",
50  * provide the necessary details about the data and AVL tree
51  * representation.  Currently, the routines available in
52  * libcmdutils perform necessary memory allocations, and do not
53  * perform locking, therefore they are not thread safe and
54  * should not be used by multi-threaded applications.
55  *
56  * For more information on the avl tree routines, see the well
57  * documented source code in avl.c, and the header files in
58  * <sys/avl.h> and <sys/avl_impl.h>.
59  *
60  * Note: The tree must be initialized in the calling application
61  * before calling these routines. An example of how this is done:
62  *	static avl_tree_t       *tree = NULL;
63  *
64  * tnode_compare() - This function is used by libavl's avl_find()
65  * routine to abstract out how the data structures are ordered, and
66  * must be an argument to libavl's avl_create() function.  Therefore,
67  * this routine should not be called directly from the calling
68  * application.
69  *
70  * Input:
71  *	const void *p1	(pointer to the 1st node to compare and
72  *			 is the node which we are try to match
73  *			 or insert into the search tree)
74  *	const void *p2	(pointer to the 2nd node to compare and
75  *			 is a node which already exists in the
76  *			 search tree)
77  *
78  * This function returns (as required by the libavl interfaces):
79  * 	* -1 if the 1st argument node is less than the 2nd
80  * 	* 0 if the nodes are equal in value
81  * 	* +1 if the 1st node is greater than the 2nd
82  *
83  * add_tnode() - Builds a height balanced tree of nodes consisting of
84  * a device id and inode number provided by the calling application.
85  * The nodes are stored in the specified search tree by using the
86  * tnode_compare() routine. Duplicate nodes are not stored.
87  *
88  * If the specified search tree does not exist (is NULL), then memory
89  * is allocated for the tree, and libavl's avl_create() routine is
90  * called to initialize the tree with the comparison routine
91  * (tnode_compare()) which will be used to compare the tree nodes
92  * and populate the tree on subsequent calls by add_tnode() to
93  * avl_find().
94  *
95  * This routine creates a node to be added to the search tree by
96  * allocating memory and setting the nodes device id and inode number
97  * to those specified.  If the node does not exist in the search tree,
98  * it is added.  If the node already exists in the tree, it is not
99  * added (remember, duplicate nodes are not stored), and the node is
100  * freed.
101  *
102  * Input:
103  *	avl_tree_t **stree 	(search tree the data is to be stored in)
104  *	dev_t device		(device id of the inode to be stored)
105  *	ino_t inode		(inode number of inode to be stored)
106  *
107  * This function returns:
108  * 	* +1 if the node was added
109  * 	* 0 if the node was not added (node already exists)
110  * 	* -1 if an error occurred (memory allocation problem)
111  *
112  * destroy_tree() - The specified tree is destroyed by calling
113  * libavl's avl_destroy_nodes() routine to delete a tree without
114  * any rebalancing.  Memory is freed that had been previously allocated
115  * by add_tnode() for the tree's nodes and the search tree itself.
116  *
117  * Input:
118  *	avl_tree_t *stree	(search tree to destroy)
119  *
120  * This function does not return anything.  Note:  The calling
121  * application is responsible for setting the search tree to NULL upon
122  * return.
123  */
124 
125 /*
126  * Compare two nodes by first trying to match on the node's device
127  * id, then on the inode number.  Return -1 when p1 < p2,
128  * 0 when p1 == p2, and 1 when p1 > p2.  This function is invoked
129  * by avl_find.  p1 is always the node we are trying to insert or
130  * match in the search database.
131  */
132 int
133 tnode_compare(const void *p1, const void *p2)
134 {
135 	tree_node_t *n1 = (tree_node_t *)p1;
136 	tree_node_t *n2 = (tree_node_t *)p2;
137 
138 	/* first match device id */
139 	if (n1->node_dev < n2->node_dev) {
140 		return (-1);
141 	} else if (n1->node_dev == n2->node_dev) {
142 		/* device id match, now check inode */
143 		if (n1->node_ino < n2->node_ino) {
144 			return (-1);
145 		} else if (n1->node_ino == n2->node_ino) {
146 			return (0);
147 		} else {
148 			return (1);
149 		}
150 	} else {
151 		return (1);
152 	}
153 }
154 
155 /*
156  * Build a height balanced tree of nodes consisting of a device id and
157  * an inode number.  Duplicate nodes are not stored.  Return 1 if
158  * node was added to the tree, return -1 upon error, otherwise return 0.
159  */
160 int
161 add_tnode(avl_tree_t **stree, dev_t device, ino_t inode)
162 {
163 	tree_node_t	*tnode;
164 	avl_index_t	where;
165 
166 	/*
167 	 * Create an AVL search tree to keep track of inodes
168 	 * visited/reported.
169 	 */
170 	if (*stree == NULL) {
171 		if ((*stree = calloc(1, sizeof (avl_tree_t)))
172 		    == NULL) {
173 			return (-1);
174 		}
175 		avl_create(*stree,
176 		    tnode_compare,
177 		    sizeof (tree_node_t),
178 		    OFFSETOF(tree_node_t, avl_link));
179 	}
180 
181 	/* Initialize the node */
182 	if ((tnode = calloc(1, sizeof (*tnode))) == NULL) {
183 		return (-1);
184 	}
185 	tnode->node_dev = device;
186 	tnode->node_ino = inode;
187 
188 	/* If the node is not already in the tree, then insert it */
189 	if (avl_find(*stree, tnode, &where) == NULL) {
190 		avl_insert(*stree, tnode, where);
191 		return (1);
192 	}
193 
194 	/* The node is already in the tree, so just free it */
195 	free(tnode);
196 	return (0);
197 }
198 
199 /*
200  * Destroy a search tree.
201  */
202 void
203 destroy_tree(avl_tree_t *stree)
204 {
205 	void *cookie;
206 	tree_node_t	*tnode;
207 
208 	if (stree != NULL) {
209 
210 		cookie = NULL;
211 		while ((tnode = avl_destroy_nodes(stree, &cookie)) != NULL) {
212 			free(tnode);
213 		}
214 		avl_destroy(stree);
215 		free(stree);
216 	}
217 }
218