1*f273a7a1Sandvar /* $NetBSD: chfs_malloc.c,v 1.7 2021/12/07 21:37:37 andvar Exp $ */
2288addd0Sahoka
3288addd0Sahoka /*-
4288addd0Sahoka * Copyright (c) 2010 Department of Software Engineering,
5288addd0Sahoka * University of Szeged, Hungary
6288addd0Sahoka * Copyright (C) 2010 Tamas Toth <ttoth@inf.u-szeged.hu>
7288addd0Sahoka * Copyright (C) 2010 Adam Hoka <ahoka@NetBSD.org>
8288addd0Sahoka * All rights reserved.
9288addd0Sahoka *
10288addd0Sahoka * This code is derived from software contributed to The NetBSD Foundation
11288addd0Sahoka * by the Department of Software Engineering, University of Szeged, Hungary
12288addd0Sahoka *
13288addd0Sahoka * Redistribution and use in source and binary forms, with or without
14288addd0Sahoka * modification, are permitted provided that the following conditions
15288addd0Sahoka * are met:
16288addd0Sahoka * 1. Redistributions of source code must retain the above copyright
17288addd0Sahoka * notice, this list of conditions and the following disclaimer.
18288addd0Sahoka * 2. Redistributions in binary form must reproduce the above copyright
19288addd0Sahoka * notice, this list of conditions and the following disclaimer in the
20288addd0Sahoka * documentation and/or other materials provided with the distribution.
21288addd0Sahoka *
22288addd0Sahoka * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
23288addd0Sahoka * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
24288addd0Sahoka * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
25288addd0Sahoka * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
26288addd0Sahoka * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
27288addd0Sahoka * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
28288addd0Sahoka * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
29288addd0Sahoka * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
30288addd0Sahoka * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
31288addd0Sahoka * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
32288addd0Sahoka * SUCH DAMAGE.
33288addd0Sahoka */
34288addd0Sahoka
35288addd0Sahoka #include "chfs.h"
36288addd0Sahoka #include <sys/pool.h>
37288addd0Sahoka
38288addd0Sahoka pool_cache_t chfs_vnode_cache;
39288addd0Sahoka pool_cache_t chfs_nrefs_cache;
40288addd0Sahoka pool_cache_t chfs_flash_vnode_cache;
41288addd0Sahoka pool_cache_t chfs_flash_dirent_cache;
42288addd0Sahoka pool_cache_t chfs_flash_dnode_cache;
43288addd0Sahoka pool_cache_t chfs_node_frag_cache;
44288addd0Sahoka pool_cache_t chfs_tmp_dnode_cache;
45288addd0Sahoka pool_cache_t chfs_tmp_dnode_info_cache;
46288addd0Sahoka
47bca84b9eSttoth /* chfs_alloc_pool_caches - allocating pool caches */
48288addd0Sahoka int
chfs_alloc_pool_caches(void)499d4f4a85Schristos chfs_alloc_pool_caches(void)
50288addd0Sahoka {
51288addd0Sahoka chfs_vnode_cache = pool_cache_init(
52288addd0Sahoka sizeof(struct chfs_vnode_cache),
53288addd0Sahoka 0, 0, 0, "chfs_vnode_cache", NULL, IPL_NONE, NULL, NULL,
54288addd0Sahoka NULL);
55288addd0Sahoka if (!chfs_vnode_cache)
56288addd0Sahoka goto err_vnode;
57288addd0Sahoka
58288addd0Sahoka chfs_nrefs_cache = pool_cache_init(
59288addd0Sahoka (REFS_BLOCK_LEN + 1) * sizeof(struct chfs_node_ref), 0, 0,
60288addd0Sahoka 0, "chfs_nrefs_pool", NULL, IPL_NONE, NULL, NULL, NULL);
61288addd0Sahoka if (!chfs_nrefs_cache)
62288addd0Sahoka goto err_nrefs;
63288addd0Sahoka
64288addd0Sahoka chfs_flash_vnode_cache = pool_cache_init(
65288addd0Sahoka sizeof(struct chfs_flash_vnode), 0, 0, 0,
66288addd0Sahoka "chfs_flash_vnode_pool", NULL, IPL_NONE, NULL, NULL, NULL);
67288addd0Sahoka if (!chfs_flash_vnode_cache)
68288addd0Sahoka goto err_flash_vnode;
69288addd0Sahoka
70288addd0Sahoka chfs_flash_dirent_cache = pool_cache_init(
71288addd0Sahoka sizeof(struct chfs_flash_dirent_node), 0, 0, 0,
72288addd0Sahoka "chfs_flash_dirent_pool", NULL, IPL_NONE, NULL, NULL, NULL);
73288addd0Sahoka if (!chfs_flash_dirent_cache)
74288addd0Sahoka goto err_flash_dirent;
75288addd0Sahoka
76288addd0Sahoka chfs_flash_dnode_cache = pool_cache_init(
77288addd0Sahoka sizeof(struct chfs_flash_data_node), 0, 0, 0,
78288addd0Sahoka "chfs_flash_dnode_pool", NULL, IPL_NONE, NULL, NULL, NULL);
79288addd0Sahoka if (!chfs_flash_dnode_cache)
80288addd0Sahoka goto err_flash_dnode;
81288addd0Sahoka
82288addd0Sahoka chfs_node_frag_cache = pool_cache_init(
83288addd0Sahoka sizeof(struct chfs_node_frag), 0, 0, 0,
84288addd0Sahoka "chfs_node_frag_pool", NULL, IPL_NONE, NULL, NULL, NULL);
85288addd0Sahoka if (!chfs_node_frag_cache)
86288addd0Sahoka goto err_node_frag;
87288addd0Sahoka
88288addd0Sahoka chfs_tmp_dnode_cache = pool_cache_init(
89288addd0Sahoka sizeof(struct chfs_tmp_dnode), 0, 0, 0,
90288addd0Sahoka "chfs_tmp_dnode_pool", NULL, IPL_NONE, NULL, NULL, NULL);
91288addd0Sahoka if (!chfs_tmp_dnode_cache)
92288addd0Sahoka goto err_tmp_dnode;
93288addd0Sahoka
94288addd0Sahoka chfs_tmp_dnode_info_cache = pool_cache_init(
95288addd0Sahoka sizeof(struct chfs_tmp_dnode_info), 0, 0, 0,
96288addd0Sahoka "chfs_tmp_dnode_info_pool", NULL, IPL_NONE, NULL, NULL, NULL);
97288addd0Sahoka if (!chfs_tmp_dnode_info_cache)
98288addd0Sahoka goto err_tmp_dnode_info;
99288addd0Sahoka
100288addd0Sahoka return 0;
101288addd0Sahoka
102288addd0Sahoka err_tmp_dnode_info:
103288addd0Sahoka pool_cache_destroy(chfs_tmp_dnode_cache);
104288addd0Sahoka err_tmp_dnode:
105288addd0Sahoka pool_cache_destroy(chfs_node_frag_cache);
106288addd0Sahoka err_node_frag:
107288addd0Sahoka pool_cache_destroy(chfs_flash_dnode_cache);
108288addd0Sahoka err_flash_dnode:
109288addd0Sahoka pool_cache_destroy(chfs_flash_dirent_cache);
110288addd0Sahoka err_flash_dirent:
111288addd0Sahoka pool_cache_destroy(chfs_flash_vnode_cache);
112288addd0Sahoka err_flash_vnode:
113288addd0Sahoka pool_cache_destroy(chfs_nrefs_cache);
114288addd0Sahoka err_nrefs:
115288addd0Sahoka pool_cache_destroy(chfs_vnode_cache);
116288addd0Sahoka err_vnode:
117288addd0Sahoka
118288addd0Sahoka return ENOMEM;
119288addd0Sahoka }
120288addd0Sahoka
121bca84b9eSttoth /* chfs_destroy_pool_caches - destroying pool caches */
122288addd0Sahoka void
chfs_destroy_pool_caches(void)1239d4f4a85Schristos chfs_destroy_pool_caches(void)
124288addd0Sahoka {
125288addd0Sahoka if (chfs_vnode_cache)
126288addd0Sahoka pool_cache_destroy(chfs_vnode_cache);
127288addd0Sahoka
128288addd0Sahoka if (chfs_nrefs_cache)
129288addd0Sahoka pool_cache_destroy(chfs_nrefs_cache);
130288addd0Sahoka
131288addd0Sahoka if (chfs_flash_vnode_cache)
132288addd0Sahoka pool_cache_destroy(chfs_flash_vnode_cache);
133288addd0Sahoka
134288addd0Sahoka if (chfs_flash_dirent_cache)
135288addd0Sahoka pool_cache_destroy(chfs_flash_dirent_cache);
136288addd0Sahoka
137288addd0Sahoka if (chfs_flash_dnode_cache)
138288addd0Sahoka pool_cache_destroy(chfs_flash_dnode_cache);
139288addd0Sahoka
140288addd0Sahoka if (chfs_node_frag_cache)
141288addd0Sahoka pool_cache_destroy(chfs_node_frag_cache);
142288addd0Sahoka
143288addd0Sahoka if (chfs_tmp_dnode_cache)
144288addd0Sahoka pool_cache_destroy(chfs_tmp_dnode_cache);
145288addd0Sahoka
146288addd0Sahoka if (chfs_tmp_dnode_info_cache)
147288addd0Sahoka pool_cache_destroy(chfs_tmp_dnode_info_cache);
148288addd0Sahoka }
149288addd0Sahoka
150bca84b9eSttoth /* chfs_vnode_cache_alloc - allocating and initializing a vnode cache */
151288addd0Sahoka struct chfs_vnode_cache *
chfs_vnode_cache_alloc(ino_t vno)152288addd0Sahoka chfs_vnode_cache_alloc(ino_t vno)
153288addd0Sahoka {
154288addd0Sahoka struct chfs_vnode_cache* vc;
155288addd0Sahoka vc = pool_cache_get(chfs_vnode_cache, PR_WAITOK);
156288addd0Sahoka
157288addd0Sahoka memset(vc, 0, sizeof(*vc));
158288addd0Sahoka vc->vno = vno;
159bca84b9eSttoth /* vnode cache is the last element of all chain */
160288addd0Sahoka vc->v = (void *)vc;
161288addd0Sahoka vc->dirents = (void *)vc;
162288addd0Sahoka vc->dnode = (void *)vc;
163288addd0Sahoka TAILQ_INIT(&vc->scan_dirents);
164288addd0Sahoka vc->highest_version = 0;
165288addd0Sahoka
166288addd0Sahoka return vc;
167288addd0Sahoka }
168288addd0Sahoka
169bca84b9eSttoth /* chfs_vnode_cache_free - freeing a vnode cache */
170288addd0Sahoka void
chfs_vnode_cache_free(struct chfs_vnode_cache * vc)171288addd0Sahoka chfs_vnode_cache_free(struct chfs_vnode_cache *vc)
172288addd0Sahoka {
173288addd0Sahoka pool_cache_put(chfs_vnode_cache, vc);
174288addd0Sahoka }
175288addd0Sahoka
176bca84b9eSttoth /*
177288addd0Sahoka * chfs_alloc_refblock - allocating a refblock
178288addd0Sahoka *
179288addd0Sahoka * Returns a pointer of the first element in the block.
180288addd0Sahoka *
181288addd0Sahoka * We are not allocating just one node ref, instead we allocating REFS_BLOCK_LEN
182288addd0Sahoka * number of node refs, the last element will be a pointer to the next block.
183288addd0Sahoka * We do this, because we need a chain of nodes which have been ordered by the
184288addd0Sahoka * physical address of them.
185288addd0Sahoka *
186288addd0Sahoka */
187288addd0Sahoka struct chfs_node_ref*
chfs_alloc_refblock(void)188288addd0Sahoka chfs_alloc_refblock(void)
189288addd0Sahoka {
190288addd0Sahoka int i;
191288addd0Sahoka struct chfs_node_ref *nref;
192288addd0Sahoka nref = pool_cache_get(chfs_nrefs_cache, PR_WAITOK);
193288addd0Sahoka
194288addd0Sahoka for (i = 0; i < REFS_BLOCK_LEN; i++) {
195288addd0Sahoka nref[i].nref_lnr = REF_EMPTY_NODE;
196288addd0Sahoka nref[i].nref_next = NULL;
197288addd0Sahoka }
198288addd0Sahoka i = REFS_BLOCK_LEN;
199288addd0Sahoka nref[i].nref_lnr = REF_LINK_TO_NEXT;
200288addd0Sahoka nref[i].nref_next = NULL;
201288addd0Sahoka
202288addd0Sahoka return nref;
203288addd0Sahoka }
204288addd0Sahoka
205bca84b9eSttoth /* chfs_free_refblock - freeing a refblock */
206288addd0Sahoka void
chfs_free_refblock(struct chfs_node_ref * nref)207288addd0Sahoka chfs_free_refblock(struct chfs_node_ref *nref)
208288addd0Sahoka {
209288addd0Sahoka pool_cache_put(chfs_nrefs_cache, nref);
210288addd0Sahoka }
211288addd0Sahoka
212bca84b9eSttoth /*
213288addd0Sahoka * chfs_alloc_node_ref - allocating a node ref from a refblock
214288addd0Sahoka *
215288addd0Sahoka * Allocating a node ref from a refblock, it there isn't any free element in the
216288addd0Sahoka * block, a new block will be allocated and be linked to the current block.
217288addd0Sahoka */
218288addd0Sahoka struct chfs_node_ref*
chfs_alloc_node_ref(struct chfs_eraseblock * cheb)219288addd0Sahoka chfs_alloc_node_ref(struct chfs_eraseblock *cheb)
220288addd0Sahoka {
221cadfcb39Sryoon struct chfs_node_ref *nref, *new, *old __diagused;
222288addd0Sahoka old = cheb->last_node;
223288addd0Sahoka nref = cheb->last_node;
224288addd0Sahoka
225288addd0Sahoka if (!nref) {
226bca84b9eSttoth /* There haven't been any nref allocated for this block yet */
227288addd0Sahoka nref = chfs_alloc_refblock();
228288addd0Sahoka
229288addd0Sahoka cheb->first_node = nref;
230288addd0Sahoka cheb->last_node = nref;
231288addd0Sahoka nref->nref_lnr = cheb->lnr;
232288addd0Sahoka KASSERT(cheb->lnr == nref->nref_lnr);
233288addd0Sahoka
234288addd0Sahoka return nref;
235288addd0Sahoka }
236288addd0Sahoka
237288addd0Sahoka nref++;
238288addd0Sahoka if (nref->nref_lnr == REF_LINK_TO_NEXT) {
239bca84b9eSttoth /* this was the last element, allocate a new block */
240288addd0Sahoka new = chfs_alloc_refblock();
241288addd0Sahoka nref->nref_next = new;
242288addd0Sahoka nref = new;
243288addd0Sahoka }
244288addd0Sahoka
245288addd0Sahoka cheb->last_node = nref;
246288addd0Sahoka nref->nref_lnr = cheb->lnr;
247288addd0Sahoka
248288addd0Sahoka KASSERT(old->nref_lnr == nref->nref_lnr &&
249288addd0Sahoka nref->nref_lnr == cheb->lnr);
250288addd0Sahoka
251288addd0Sahoka return nref;
252288addd0Sahoka }
253288addd0Sahoka
254bca84b9eSttoth /* chfs_free_node_refs - freeing an eraseblock's node refs */
255288addd0Sahoka void
chfs_free_node_refs(struct chfs_eraseblock * cheb)256288addd0Sahoka chfs_free_node_refs(struct chfs_eraseblock *cheb)
257288addd0Sahoka {
258288addd0Sahoka struct chfs_node_ref *nref, *block;
259288addd0Sahoka
260288addd0Sahoka block = nref = cheb->first_node;
261288addd0Sahoka
262288addd0Sahoka while (nref) {
263288addd0Sahoka if (nref->nref_lnr == REF_LINK_TO_NEXT) {
264288addd0Sahoka nref = nref->nref_next;
265288addd0Sahoka chfs_free_refblock(block);
266288addd0Sahoka block = nref;
267288addd0Sahoka continue;
268288addd0Sahoka }
269288addd0Sahoka nref++;
270288addd0Sahoka }
271288addd0Sahoka }
272288addd0Sahoka
273bca84b9eSttoth /* chfs_alloc_dirent - allocating a directory entry */
274288addd0Sahoka struct chfs_dirent*
chfs_alloc_dirent(int namesize)275288addd0Sahoka chfs_alloc_dirent(int namesize)
276288addd0Sahoka {
277288addd0Sahoka struct chfs_dirent *ret;
278288addd0Sahoka size_t size = sizeof(struct chfs_dirent) + namesize;
279288addd0Sahoka
280288addd0Sahoka ret = kmem_alloc(size, KM_SLEEP);
281288addd0Sahoka
282288addd0Sahoka return ret;
283288addd0Sahoka }
284288addd0Sahoka
285bca84b9eSttoth /* chfs_free_dirent - freeing a directory entry */
286288addd0Sahoka void
chfs_free_dirent(struct chfs_dirent * dirent)287288addd0Sahoka chfs_free_dirent(struct chfs_dirent *dirent)
288288addd0Sahoka {
289288addd0Sahoka size_t size = sizeof(struct chfs_dirent) + dirent->nsize + 1;
290288addd0Sahoka
291288addd0Sahoka kmem_free(dirent, size);
292288addd0Sahoka }
293288addd0Sahoka
294bca84b9eSttoth /* chfs_alloc_full_dnode - allocating a full data node */
295288addd0Sahoka struct chfs_full_dnode*
chfs_alloc_full_dnode(void)2969d4f4a85Schristos chfs_alloc_full_dnode(void)
297288addd0Sahoka {
298288addd0Sahoka struct chfs_full_dnode *ret;
299288addd0Sahoka ret = kmem_alloc(sizeof(struct chfs_full_dnode), KM_SLEEP);
3003fae61eeSttoth ret->nref = NULL;
3013fae61eeSttoth ret->frags = 0;
302288addd0Sahoka return ret;
303288addd0Sahoka }
304288addd0Sahoka
305bca84b9eSttoth /* chfs_free_full_dnode - freeing a full data node */
306288addd0Sahoka void
chfs_free_full_dnode(struct chfs_full_dnode * fd)307288addd0Sahoka chfs_free_full_dnode(struct chfs_full_dnode *fd)
308288addd0Sahoka {
309288addd0Sahoka kmem_free(fd,(sizeof(struct chfs_full_dnode)));
310288addd0Sahoka }
311288addd0Sahoka
312bca84b9eSttoth /* chfs_alloc_flash_vnode - allocating vnode info (used on flash) */
313288addd0Sahoka struct chfs_flash_vnode*
chfs_alloc_flash_vnode(void)3149d4f4a85Schristos chfs_alloc_flash_vnode(void)
315288addd0Sahoka {
316288addd0Sahoka struct chfs_flash_vnode *ret;
317913317c4Schristos ret = pool_cache_get(chfs_flash_vnode_cache, PR_WAITOK);
318288addd0Sahoka return ret;
319288addd0Sahoka }
320288addd0Sahoka
321bca84b9eSttoth /* chfs_free_flash_vnode - freeing vnode info */
322288addd0Sahoka void
chfs_free_flash_vnode(struct chfs_flash_vnode * fvnode)323288addd0Sahoka chfs_free_flash_vnode(struct chfs_flash_vnode *fvnode)
324288addd0Sahoka {
325288addd0Sahoka pool_cache_put(chfs_flash_vnode_cache, fvnode);
326288addd0Sahoka }
327288addd0Sahoka
328bca84b9eSttoth /* chfs_alloc_flash_dirent - allocating a directory entry (used on flash) */
329288addd0Sahoka struct chfs_flash_dirent_node*
chfs_alloc_flash_dirent(void)3309d4f4a85Schristos chfs_alloc_flash_dirent(void)
331288addd0Sahoka {
332288addd0Sahoka struct chfs_flash_dirent_node *ret;
333913317c4Schristos ret = pool_cache_get(chfs_flash_dirent_cache, PR_WAITOK);
334288addd0Sahoka return ret;
335288addd0Sahoka }
336288addd0Sahoka
337bca84b9eSttoth /* chfs_free_flash_dirent - freeing a (flash) directory entry */
338288addd0Sahoka void
chfs_free_flash_dirent(struct chfs_flash_dirent_node * fdnode)339288addd0Sahoka chfs_free_flash_dirent(struct chfs_flash_dirent_node *fdnode)
340288addd0Sahoka {
341288addd0Sahoka pool_cache_put(chfs_flash_dirent_cache, fdnode);
342288addd0Sahoka }
343288addd0Sahoka
344bca84b9eSttoth /* chfs_alloc_flash_dnode - allocating a data node (used on flash) */
345288addd0Sahoka struct chfs_flash_data_node*
chfs_alloc_flash_dnode(void)3469d4f4a85Schristos chfs_alloc_flash_dnode(void)
347288addd0Sahoka {
348288addd0Sahoka struct chfs_flash_data_node *ret;
349913317c4Schristos ret = pool_cache_get(chfs_flash_dnode_cache, PR_WAITOK);
350288addd0Sahoka return ret;
351288addd0Sahoka }
352288addd0Sahoka
353bca84b9eSttoth /* chfs_free_flash_dnode - freeing a (flash) data node */
354288addd0Sahoka void
chfs_free_flash_dnode(struct chfs_flash_data_node * fdnode)355288addd0Sahoka chfs_free_flash_dnode(struct chfs_flash_data_node *fdnode)
356288addd0Sahoka {
357288addd0Sahoka pool_cache_put(chfs_flash_dnode_cache, fdnode);
358288addd0Sahoka }
359288addd0Sahoka
360bca84b9eSttoth /* chfs_alloc_node_frag - allocating a fragment of a node */
361288addd0Sahoka struct chfs_node_frag*
chfs_alloc_node_frag(void)3629d4f4a85Schristos chfs_alloc_node_frag(void)
363288addd0Sahoka {
364288addd0Sahoka struct chfs_node_frag *ret;
365913317c4Schristos ret = pool_cache_get(chfs_node_frag_cache, PR_WAITOK);
366288addd0Sahoka return ret;
367288addd0Sahoka }
368288addd0Sahoka
369bca84b9eSttoth /* chfs_free_node_frag - freeing a fragment of a node */
370288addd0Sahoka void
chfs_free_node_frag(struct chfs_node_frag * frag)371288addd0Sahoka chfs_free_node_frag(struct chfs_node_frag *frag)
372288addd0Sahoka {
373288addd0Sahoka pool_cache_put(chfs_node_frag_cache, frag);
374288addd0Sahoka }
375288addd0Sahoka
376*f273a7a1Sandvar /* chfs_alloc_tmp_dnode - allocating a temporarily used dnode */
377288addd0Sahoka struct chfs_tmp_dnode *
chfs_alloc_tmp_dnode(void)3789d4f4a85Schristos chfs_alloc_tmp_dnode(void)
379288addd0Sahoka {
380288addd0Sahoka struct chfs_tmp_dnode *ret;
381913317c4Schristos ret = pool_cache_get(chfs_tmp_dnode_cache, PR_WAITOK);
382288addd0Sahoka ret->next = NULL;
383288addd0Sahoka return ret;
384288addd0Sahoka }
385288addd0Sahoka
386*f273a7a1Sandvar /* chfs_free_tmp_dnode - freeing a temporarily used dnode */
387288addd0Sahoka void
chfs_free_tmp_dnode(struct chfs_tmp_dnode * td)388288addd0Sahoka chfs_free_tmp_dnode(struct chfs_tmp_dnode *td)
389288addd0Sahoka {
390288addd0Sahoka pool_cache_put(chfs_tmp_dnode_cache, td);
391288addd0Sahoka }
392288addd0Sahoka
393*f273a7a1Sandvar /* chfs_alloc_tmp_dnode_info - allocating a temporarily used dnode descriptor */
394288addd0Sahoka struct chfs_tmp_dnode_info *
chfs_alloc_tmp_dnode_info(void)3959d4f4a85Schristos chfs_alloc_tmp_dnode_info(void)
396288addd0Sahoka {
397288addd0Sahoka struct chfs_tmp_dnode_info *ret;
398913317c4Schristos ret = pool_cache_get(chfs_tmp_dnode_info_cache, PR_WAITOK);
399288addd0Sahoka ret->tmpnode = NULL;
400288addd0Sahoka return ret;
401288addd0Sahoka }
402288addd0Sahoka
403*f273a7a1Sandvar /* chfs_free_tmp_dnode_info - freeing a temporarily used dnode descriptor */
404288addd0Sahoka void
chfs_free_tmp_dnode_info(struct chfs_tmp_dnode_info * di)405288addd0Sahoka chfs_free_tmp_dnode_info(struct chfs_tmp_dnode_info *di)
406288addd0Sahoka {
407288addd0Sahoka pool_cache_put(chfs_tmp_dnode_info_cache, di);
408288addd0Sahoka }
409288addd0Sahoka
410