/* $NetBSD: kern_fileassoc.c,v 1.34 2009/12/25 20:07:18 elad Exp $ */ /*- * Copyright (c) 2006 Elad Efrat * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include __KERNEL_RCSID(0, "$NetBSD: kern_fileassoc.c,v 1.34 2009/12/25 20:07:18 elad Exp $"); #include "opt_fileassoc.h" #include #include #include #include #include #include #include #include #include #include #define FILEASSOC_INITIAL_TABLESIZE 128 static specificdata_domain_t fileassoc_domain; static specificdata_key_t fileassoc_mountspecific_key; static ONCE_DECL(control); /* * Assoc entry. * Includes the assoc name for identification and private clear callback. */ struct fileassoc { LIST_ENTRY(fileassoc) assoc_list; const char *assoc_name; /* Name. */ fileassoc_cleanup_cb_t assoc_cleanup_cb; /* Clear callback. */ specificdata_key_t assoc_key; }; static LIST_HEAD(, fileassoc) fileassoc_list; /* An entry in the per-mount hash table. */ struct fileassoc_file { fhandle_t *faf_handle; /* File handle */ specificdata_reference faf_data; /* Assoc data. */ u_int faf_nassocs; /* # of assocs. */ LIST_ENTRY(fileassoc_file) faf_list; /* List pointer. */ }; LIST_HEAD(fileassoc_hash_entry, fileassoc_file); struct fileassoc_table { struct fileassoc_hash_entry *tbl_hash; u_long tbl_mask; /* Hash table mask. */ size_t tbl_nslots; /* Number of slots. */ size_t tbl_nused; /* # of used slots. */ specificdata_reference tbl_data; }; /* * Hashing function: Takes a number modulus the mask to give back an * index into the hash table. */ #define FILEASSOC_HASH(tbl, handle) \ (hash32_buf((handle), FHANDLE_SIZE(handle), HASH32_BUF_INIT) \ & ((tbl)->tbl_mask)) static void * file_getdata(struct fileassoc_file *faf, const struct fileassoc *assoc) { return specificdata_getspecific(fileassoc_domain, &faf->faf_data, assoc->assoc_key); } static void file_setdata(struct fileassoc_file *faf, const struct fileassoc *assoc, void *data) { specificdata_setspecific(fileassoc_domain, &faf->faf_data, assoc->assoc_key, data); } static void file_cleanup(struct fileassoc_file *faf, const struct fileassoc *assoc) { fileassoc_cleanup_cb_t cb; void *data; cb = assoc->assoc_cleanup_cb; if (cb == NULL) { return; } data = file_getdata(faf, assoc); (*cb)(data); } static void file_free(struct fileassoc_file *faf) { struct fileassoc *assoc; LIST_REMOVE(faf, faf_list); LIST_FOREACH(assoc, &fileassoc_list, assoc_list) { file_cleanup(faf, assoc); } vfs_composefh_free(faf->faf_handle); specificdata_fini(fileassoc_domain, &faf->faf_data); kmem_free(faf, sizeof(*faf)); } static void table_dtor(void *v) { struct fileassoc_table *tbl = v; u_long i; /* Remove all entries from the table and lists */ for (i = 0; i < tbl->tbl_nslots; i++) { struct fileassoc_file *faf; while ((faf = LIST_FIRST(&tbl->tbl_hash[i])) != NULL) { file_free(faf); } } /* Remove hash table and sysctl node */ hashdone(tbl->tbl_hash, HASH_LIST, tbl->tbl_mask); specificdata_fini(fileassoc_domain, &tbl->tbl_data); kmem_free(tbl, sizeof(*tbl)); } /* * Initialize the fileassoc subsystem. */ static int fileassoc_init(void) { int error; error = mount_specific_key_create(&fileassoc_mountspecific_key, table_dtor); if (error) { return error; } fileassoc_domain = specificdata_domain_create(); return 0; } /* * Register a new assoc. */ int fileassoc_register(const char *name, fileassoc_cleanup_cb_t cleanup_cb, fileassoc_t *result) { int error; specificdata_key_t key; struct fileassoc *assoc; error = RUN_ONCE(&control, fileassoc_init); if (error) { return error; } error = specificdata_key_create(fileassoc_domain, &key, NULL); if (error) { return error; } assoc = kmem_alloc(sizeof(*assoc), KM_SLEEP); assoc->assoc_name = name; assoc->assoc_cleanup_cb = cleanup_cb; assoc->assoc_key = key; LIST_INSERT_HEAD(&fileassoc_list, assoc, assoc_list); *result = assoc; return 0; } /* * Deregister an assoc. */ int fileassoc_deregister(fileassoc_t assoc) { LIST_REMOVE(assoc, assoc_list); specificdata_key_delete(fileassoc_domain, assoc->assoc_key); kmem_free(assoc, sizeof(*assoc)); return 0; } /* * Get the hash table for the specified device. */ static struct fileassoc_table * fileassoc_table_lookup(struct mount *mp) { int error; error = RUN_ONCE(&control, fileassoc_init); if (error) { return NULL; } return mount_getspecific(mp, fileassoc_mountspecific_key); } /* * Perform a lookup on a hash table. If hint is non-zero then use the value * of the hint as the identifier instead of performing a lookup for the * fileid. */ static struct fileassoc_file * fileassoc_file_lookup(struct vnode *vp, fhandle_t *hint) { struct fileassoc_table *tbl; struct fileassoc_hash_entry *hash_entry; struct fileassoc_file *faf; size_t indx; fhandle_t *th; int error; tbl = fileassoc_table_lookup(vp->v_mount); if (tbl == NULL) { return NULL; } if (hint == NULL) { error = vfs_composefh_alloc(vp, &th); if (error) return (NULL); } else { th = hint; } indx = FILEASSOC_HASH(tbl, th); hash_entry = &(tbl->tbl_hash[indx]); LIST_FOREACH(faf, hash_entry, faf_list) { if (((FHANDLE_FILEID(faf->faf_handle)->fid_len == FHANDLE_FILEID(th)->fid_len)) && (memcmp(FHANDLE_FILEID(faf->faf_handle), FHANDLE_FILEID(th), (FHANDLE_FILEID(th))->fid_len) == 0)) { break; } } if (hint == NULL) vfs_composefh_free(th); return faf; } /* * Return assoc data associated with a vnode. */ void * fileassoc_lookup(struct vnode *vp, fileassoc_t assoc) { struct fileassoc_file *faf; faf = fileassoc_file_lookup(vp, NULL); if (faf == NULL) return (NULL); return file_getdata(faf, assoc); } static struct fileassoc_table * fileassoc_table_resize(struct fileassoc_table *tbl) { struct fileassoc_table *newtbl; u_long i; /* * Allocate a new table. Like the condition in fileassoc_file_add(), * this is also temporary -- just double the number of slots. */ newtbl = kmem_zalloc(sizeof(*newtbl), KM_SLEEP); newtbl->tbl_nslots = (tbl->tbl_nslots * 2); if (newtbl->tbl_nslots < tbl->tbl_nslots) newtbl->tbl_nslots = tbl->tbl_nslots; newtbl->tbl_hash = hashinit(newtbl->tbl_nslots, HASH_LIST, true, &newtbl->tbl_mask); newtbl->tbl_nused = 0; specificdata_init(fileassoc_domain, &newtbl->tbl_data); /* XXX we need to make sure nothing uses fileassoc here! */ for (i = 0; i < tbl->tbl_nslots; i++) { struct fileassoc_file *faf; while ((faf = LIST_FIRST(&tbl->tbl_hash[i])) != NULL) { struct fileassoc_hash_entry *hash_entry; size_t indx; LIST_REMOVE(faf, faf_list); indx = FILEASSOC_HASH(newtbl, faf->faf_handle); hash_entry = &(newtbl->tbl_hash[indx]); LIST_INSERT_HEAD(hash_entry, faf, faf_list); newtbl->tbl_nused++; } } if (tbl->tbl_nused != newtbl->tbl_nused) panic("fileassoc_table_resize: inconsistency detected! " "needed %zu entries, got %zu", tbl->tbl_nused, newtbl->tbl_nused); hashdone(tbl->tbl_hash, HASH_LIST, tbl->tbl_mask); specificdata_fini(fileassoc_domain, &tbl->tbl_data); kmem_free(tbl, sizeof(*tbl)); return (newtbl); } /* * Create a new fileassoc table. */ static struct fileassoc_table * fileassoc_table_add(struct mount *mp) { struct fileassoc_table *tbl; /* Check for existing table for device. */ tbl = fileassoc_table_lookup(mp); if (tbl != NULL) return (tbl); /* Allocate and initialize a table. */ tbl = kmem_zalloc(sizeof(*tbl), KM_SLEEP); tbl->tbl_nslots = FILEASSOC_INITIAL_TABLESIZE; tbl->tbl_hash = hashinit(tbl->tbl_nslots, HASH_LIST, true, &tbl->tbl_mask); tbl->tbl_nused = 0; specificdata_init(fileassoc_domain, &tbl->tbl_data); mount_setspecific(mp, fileassoc_mountspecific_key, tbl); return (tbl); } /* * Delete a table. */ int fileassoc_table_delete(struct mount *mp) { struct fileassoc_table *tbl; tbl = fileassoc_table_lookup(mp); if (tbl == NULL) return (EEXIST); mount_setspecific(mp, fileassoc_mountspecific_key, NULL); table_dtor(tbl); return (0); } /* * Run a callback for each assoc in a table. */ int fileassoc_table_run(struct mount *mp, fileassoc_t assoc, fileassoc_cb_t cb, void *cookie) { struct fileassoc_table *tbl; u_long i; tbl = fileassoc_table_lookup(mp); if (tbl == NULL) return (EEXIST); for (i = 0; i < tbl->tbl_nslots; i++) { struct fileassoc_file *faf; LIST_FOREACH(faf, &tbl->tbl_hash[i], faf_list) { void *data; data = file_getdata(faf, assoc); if (data != NULL) cb(data, cookie); } } return (0); } /* * Clear a table for a given assoc. */ int fileassoc_table_clear(struct mount *mp, fileassoc_t assoc) { struct fileassoc_table *tbl; u_long i; tbl = fileassoc_table_lookup(mp); if (tbl == NULL) return (EEXIST); for (i = 0; i < tbl->tbl_nslots; i++) { struct fileassoc_file *faf; LIST_FOREACH(faf, &tbl->tbl_hash[i], faf_list) { file_cleanup(faf, assoc); file_setdata(faf, assoc, NULL); } } return (0); } /* * Add a file entry to a table. */ static struct fileassoc_file * fileassoc_file_add(struct vnode *vp, fhandle_t *hint) { struct fileassoc_table *tbl; struct fileassoc_hash_entry *hash_entry; struct fileassoc_file *faf; size_t indx; fhandle_t *th; int error; if (hint == NULL) { error = vfs_composefh_alloc(vp, &th); if (error) return (NULL); } else th = hint; faf = fileassoc_file_lookup(vp, th); if (faf != NULL) { if (hint == NULL) vfs_composefh_free(th); return (faf); } tbl = fileassoc_table_lookup(vp->v_mount); if (tbl == NULL) { tbl = fileassoc_table_add(vp->v_mount); } indx = FILEASSOC_HASH(tbl, th); hash_entry = &(tbl->tbl_hash[indx]); faf = kmem_zalloc(sizeof(*faf), KM_SLEEP); faf->faf_handle = th; specificdata_init(fileassoc_domain, &faf->faf_data); LIST_INSERT_HEAD(hash_entry, faf, faf_list); /* * This decides when we need to resize the table. For now, * resize it whenever we "filled" up the number of slots it * has. That's not really true unless of course we had zero * collisions. Think positive! :) */ if (++(tbl->tbl_nused) == tbl->tbl_nslots) { struct fileassoc_table *newtbl; newtbl = fileassoc_table_resize(tbl); mount_setspecific(vp->v_mount, fileassoc_mountspecific_key, newtbl); } return (faf); } /* * Delete a file entry from a table. */ int fileassoc_file_delete(struct vnode *vp) { struct fileassoc_table *tbl; struct fileassoc_file *faf; KERNEL_LOCK(1, NULL); faf = fileassoc_file_lookup(vp, NULL); if (faf == NULL) { KERNEL_UNLOCK_ONE(NULL); return (ENOENT); } file_free(faf); tbl = fileassoc_table_lookup(vp->v_mount); --(tbl->tbl_nused); /* XXX gc? */ KERNEL_UNLOCK_ONE(NULL); return (0); } /* * Add an assoc to a vnode. */ int fileassoc_add(struct vnode *vp, fileassoc_t assoc, void *data) { struct fileassoc_file *faf; void *olddata; faf = fileassoc_file_lookup(vp, NULL); if (faf == NULL) { faf = fileassoc_file_add(vp, NULL); if (faf == NULL) return (ENOTDIR); } olddata = file_getdata(faf, assoc); if (olddata != NULL) return (EEXIST); file_setdata(faf, assoc, data); faf->faf_nassocs++; return (0); } /* * Clear an assoc from a vnode. */ int fileassoc_clear(struct vnode *vp, fileassoc_t assoc) { struct fileassoc_file *faf; faf = fileassoc_file_lookup(vp, NULL); if (faf == NULL) return (ENOENT); file_cleanup(faf, assoc); file_setdata(faf, assoc, NULL); --(faf->faf_nassocs); /* XXX gc? */ return (0); }