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FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //sys/amd64/compile/hs32/modules/usr/src/sys/modules/wlan_ccmp/@/gnu/fs/xfs/xfs_trans_item.c |
/* * Copyright (c) 2000-2002,2005 Silicon Graphics, Inc. * All Rights Reserved. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License as * published by the Free Software Foundation. * * This program is distributed in the hope that it would be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA */ #include "xfs.h" #include "xfs_fs.h" #include "xfs_types.h" #include "xfs_log.h" #include "xfs_inum.h" #include "xfs_trans.h" #include "xfs_trans_priv.h" STATIC int xfs_trans_unlock_chunk(xfs_log_item_chunk_t *, int, int, xfs_lsn_t); /* * This is called to add the given log item to the transaction's * list of log items. It must find a free log item descriptor * or allocate a new one and add the item to that descriptor. * The function returns a pointer to item descriptor used to point * to the new item. The log item will now point to its new descriptor * with its li_desc field. */ xfs_log_item_desc_t * xfs_trans_add_item(xfs_trans_t *tp, xfs_log_item_t *lip) { xfs_log_item_desc_t *lidp; xfs_log_item_chunk_t *licp; int i=0; /* * If there are no free descriptors, allocate a new chunk * of them and put it at the front of the chunk list. */ if (tp->t_items_free == 0) { licp = (xfs_log_item_chunk_t*) kmem_alloc(sizeof(xfs_log_item_chunk_t), KM_SLEEP); ASSERT(licp != NULL); /* * Initialize the chunk, and then * claim the first slot in the newly allocated chunk. */ XFS_LIC_INIT(licp); XFS_LIC_CLAIM(licp, 0); licp->lic_unused = 1; XFS_LIC_INIT_SLOT(licp, 0); lidp = XFS_LIC_SLOT(licp, 0); /* * Link in the new chunk and update the free count. */ licp->lic_next = tp->t_items.lic_next; tp->t_items.lic_next = licp; tp->t_items_free = XFS_LIC_NUM_SLOTS - 1; /* * Initialize the descriptor and the generic portion * of the log item. * * Point the new slot at this item and return it. * Also point the log item at its currently active * descriptor and set the item's mount pointer. */ lidp->lid_item = lip; lidp->lid_flags = 0; lidp->lid_size = 0; lip->li_desc = lidp; lip->li_mountp = tp->t_mountp; return lidp; } /* * Find the free descriptor. It is somewhere in the chunklist * of descriptors. */ licp = &tp->t_items; while (licp != NULL) { if (XFS_LIC_VACANCY(licp)) { if (licp->lic_unused <= XFS_LIC_MAX_SLOT) { i = licp->lic_unused; ASSERT(XFS_LIC_ISFREE(licp, i)); break; } for (i = 0; i <= XFS_LIC_MAX_SLOT; i++) { if (XFS_LIC_ISFREE(licp, i)) break; } ASSERT(i <= XFS_LIC_MAX_SLOT); break; } licp = licp->lic_next; } ASSERT(licp != NULL); /* * If we find a free descriptor, claim it, * initialize it, and return it. */ XFS_LIC_CLAIM(licp, i); if (licp->lic_unused <= i) { licp->lic_unused = i + 1; XFS_LIC_INIT_SLOT(licp, i); } lidp = XFS_LIC_SLOT(licp, i); tp->t_items_free--; lidp->lid_item = lip; lidp->lid_flags = 0; lidp->lid_size = 0; lip->li_desc = lidp; lip->li_mountp = tp->t_mountp; return lidp; } /* * Free the given descriptor. * * This requires setting the bit in the chunk's free mask corresponding * to the given slot. */ void xfs_trans_free_item(xfs_trans_t *tp, xfs_log_item_desc_t *lidp) { uint slot; xfs_log_item_chunk_t *licp; xfs_log_item_chunk_t **licpp; slot = XFS_LIC_DESC_TO_SLOT(lidp); licp = XFS_LIC_DESC_TO_CHUNK(lidp); XFS_LIC_RELSE(licp, slot); lidp->lid_item->li_desc = NULL; tp->t_items_free++; /* * If there are no more used items in the chunk and this is not * the chunk embedded in the transaction structure, then free * the chunk. First pull it from the chunk list and then * free it back to the heap. We didn't bother with a doubly * linked list here because the lists should be very short * and this is not a performance path. It's better to save * the memory of the extra pointer. * * Also decrement the transaction structure's count of free items * by the number in a chunk since we are freeing an empty chunk. */ if (XFS_LIC_ARE_ALL_FREE(licp) && (licp != &(tp->t_items))) { licpp = &(tp->t_items.lic_next); while (*licpp != licp) { ASSERT(*licpp != NULL); licpp = &((*licpp)->lic_next); } *licpp = licp->lic_next; kmem_free(licp, sizeof(xfs_log_item_chunk_t)); tp->t_items_free -= XFS_LIC_NUM_SLOTS; } } /* * This is called to find the descriptor corresponding to the given * log item. It returns a pointer to the descriptor. * The log item MUST have a corresponding descriptor in the given * transaction. This routine does not return NULL, it panics. * * The descriptor pointer is kept in the log item's li_desc field. * Just return it. */ /*ARGSUSED*/ xfs_log_item_desc_t * xfs_trans_find_item(xfs_trans_t *tp, xfs_log_item_t *lip) { ASSERT(lip->li_desc != NULL); return lip->li_desc; } /* * Return a pointer to the first descriptor in the chunk list. * This does not return NULL if there are none, it panics. * * The first descriptor must be in either the first or second chunk. * This is because the only chunk allowed to be empty is the first. * All others are freed when they become empty. * * At some point this and xfs_trans_next_item() should be optimized * to quickly look at the mask to determine if there is anything to * look at. */ xfs_log_item_desc_t * xfs_trans_first_item(xfs_trans_t *tp) { xfs_log_item_chunk_t *licp; int i; licp = &tp->t_items; /* * If it's not in the first chunk, skip to the second. */ if (XFS_LIC_ARE_ALL_FREE(licp)) { licp = licp->lic_next; } /* * Return the first non-free descriptor in the chunk. */ ASSERT(!XFS_LIC_ARE_ALL_FREE(licp)); for (i = 0; i < licp->lic_unused; i++) { if (XFS_LIC_ISFREE(licp, i)) { continue; } return XFS_LIC_SLOT(licp, i); } cmn_err(CE_WARN, "xfs_trans_first_item() -- no first item"); return NULL; } /* * Given a descriptor, return the next descriptor in the chunk list. * This returns NULL if there are no more used descriptors in the list. * * We do this by first locating the chunk in which the descriptor resides, * and then scanning forward in the chunk and the list for the next * used descriptor. */ /*ARGSUSED*/ xfs_log_item_desc_t * xfs_trans_next_item(xfs_trans_t *tp, xfs_log_item_desc_t *lidp) { xfs_log_item_chunk_t *licp; int i; licp = XFS_LIC_DESC_TO_CHUNK(lidp); /* * First search the rest of the chunk. The for loop keeps us * from referencing things beyond the end of the chunk. */ for (i = (int)XFS_LIC_DESC_TO_SLOT(lidp) + 1; i < licp->lic_unused; i++) { if (XFS_LIC_ISFREE(licp, i)) { continue; } return XFS_LIC_SLOT(licp, i); } /* * Now search the next chunk. It must be there, because the * next chunk would have been freed if it were empty. * If there is no next chunk, return NULL. */ if (licp->lic_next == NULL) { return NULL; } licp = licp->lic_next; ASSERT(!XFS_LIC_ARE_ALL_FREE(licp)); for (i = 0; i < licp->lic_unused; i++) { if (XFS_LIC_ISFREE(licp, i)) { continue; } return XFS_LIC_SLOT(licp, i); } ASSERT(0); /* NOTREACHED */ return NULL; /* keep gcc quite */ } /* * This is called to unlock all of the items of a transaction and to free * all the descriptors of that transaction. * * It walks the list of descriptors and unlocks each item. It frees * each chunk except that embedded in the transaction as it goes along. */ void xfs_trans_free_items( xfs_trans_t *tp, int flags) { xfs_log_item_chunk_t *licp; xfs_log_item_chunk_t *next_licp; int abort; abort = flags & XFS_TRANS_ABORT; licp = &tp->t_items; /* * Special case the embedded chunk so we don't free it below. */ if (!XFS_LIC_ARE_ALL_FREE(licp)) { (void) xfs_trans_unlock_chunk(licp, 1, abort, NULLCOMMITLSN); XFS_LIC_ALL_FREE(licp); licp->lic_unused = 0; } licp = licp->lic_next; /* * Unlock each item in each chunk and free the chunks. */ while (licp != NULL) { ASSERT(!XFS_LIC_ARE_ALL_FREE(licp)); (void) xfs_trans_unlock_chunk(licp, 1, abort, NULLCOMMITLSN); next_licp = licp->lic_next; kmem_free(licp, sizeof(xfs_log_item_chunk_t)); licp = next_licp; } /* * Reset the transaction structure's free item count. */ tp->t_items_free = XFS_LIC_NUM_SLOTS; tp->t_items.lic_next = NULL; } /* * This is called to unlock the items associated with a transaction. * Items which were not logged should be freed. * Those which were logged must still be tracked so they can be unpinned * when the transaction commits. */ void xfs_trans_unlock_items(xfs_trans_t *tp, xfs_lsn_t commit_lsn) { xfs_log_item_chunk_t *licp; xfs_log_item_chunk_t *next_licp; xfs_log_item_chunk_t **licpp; int freed; freed = 0; licp = &tp->t_items; /* * Special case the embedded chunk so we don't free. */ if (!XFS_LIC_ARE_ALL_FREE(licp)) { freed = xfs_trans_unlock_chunk(licp, 0, 0, commit_lsn); } licpp = &(tp->t_items.lic_next); licp = licp->lic_next; /* * Unlock each item in each chunk, free non-dirty descriptors, * and free empty chunks. */ while (licp != NULL) { ASSERT(!XFS_LIC_ARE_ALL_FREE(licp)); freed += xfs_trans_unlock_chunk(licp, 0, 0, commit_lsn); next_licp = licp->lic_next; if (XFS_LIC_ARE_ALL_FREE(licp)) { *licpp = next_licp; kmem_free(licp, sizeof(xfs_log_item_chunk_t)); freed -= XFS_LIC_NUM_SLOTS; } else { licpp = &(licp->lic_next); } ASSERT(*licpp == next_licp); licp = next_licp; } /* * Fix the free descriptor count in the transaction. */ tp->t_items_free += freed; } /* * Unlock each item pointed to by a descriptor in the given chunk. * Stamp the commit lsn into each item if necessary. * Free descriptors pointing to items which are not dirty if freeing_chunk * is zero. If freeing_chunk is non-zero, then we need to unlock all * items in the chunk. * * Return the number of descriptors freed. */ STATIC int xfs_trans_unlock_chunk( xfs_log_item_chunk_t *licp, int freeing_chunk, int abort, xfs_lsn_t commit_lsn) { xfs_log_item_desc_t *lidp; xfs_log_item_t *lip; int i; int freed; freed = 0; lidp = licp->lic_descs; for (i = 0; i < licp->lic_unused; i++, lidp++) { if (XFS_LIC_ISFREE(licp, i)) { continue; } lip = lidp->lid_item; lip->li_desc = NULL; if (commit_lsn != NULLCOMMITLSN) IOP_COMMITTING(lip, commit_lsn); if (abort) lip->li_flags |= XFS_LI_ABORTED; IOP_UNLOCK(lip); /* * Free the descriptor if the item is not dirty * within this transaction and the caller is not * going to just free the entire thing regardless. */ if (!(freeing_chunk) && (!(lidp->lid_flags & XFS_LID_DIRTY) || abort)) { XFS_LIC_RELSE(licp, i); freed++; } } return freed; } /* * This is called to add the given busy item to the transaction's * list of busy items. It must find a free busy item descriptor * or allocate a new one and add the item to that descriptor. * The function returns a pointer to busy descriptor used to point * to the new busy entry. The log busy entry will now point to its new * descriptor with its ???? field. */ xfs_log_busy_slot_t * xfs_trans_add_busy(xfs_trans_t *tp, xfs_agnumber_t ag, xfs_extlen_t idx) { xfs_log_busy_chunk_t *lbcp; xfs_log_busy_slot_t *lbsp; int i=0; /* * If there are no free descriptors, allocate a new chunk * of them and put it at the front of the chunk list. */ if (tp->t_busy_free == 0) { lbcp = (xfs_log_busy_chunk_t*) kmem_alloc(sizeof(xfs_log_busy_chunk_t), KM_SLEEP); ASSERT(lbcp != NULL); /* * Initialize the chunk, and then * claim the first slot in the newly allocated chunk. */ XFS_LBC_INIT(lbcp); XFS_LBC_CLAIM(lbcp, 0); lbcp->lbc_unused = 1; lbsp = XFS_LBC_SLOT(lbcp, 0); /* * Link in the new chunk and update the free count. */ lbcp->lbc_next = tp->t_busy.lbc_next; tp->t_busy.lbc_next = lbcp; tp->t_busy_free = XFS_LIC_NUM_SLOTS - 1; /* * Initialize the descriptor and the generic portion * of the log item. * * Point the new slot at this item and return it. * Also point the log item at its currently active * descriptor and set the item's mount pointer. */ lbsp->lbc_ag = ag; lbsp->lbc_idx = idx; return lbsp; } /* * Find the free descriptor. It is somewhere in the chunklist * of descriptors. */ lbcp = &tp->t_busy; while (lbcp != NULL) { if (XFS_LBC_VACANCY(lbcp)) { if (lbcp->lbc_unused <= XFS_LBC_MAX_SLOT) { i = lbcp->lbc_unused; break; } else { /* out-of-order vacancy */ printk("OOO vacancy lbcp 0x%p\n", lbcp); ASSERT(0); } } lbcp = lbcp->lbc_next; } ASSERT(lbcp != NULL); /* * If we find a free descriptor, claim it, * initialize it, and return it. */ XFS_LBC_CLAIM(lbcp, i); if (lbcp->lbc_unused <= i) { lbcp->lbc_unused = i + 1; } lbsp = XFS_LBC_SLOT(lbcp, i); tp->t_busy_free--; lbsp->lbc_ag = ag; lbsp->lbc_idx = idx; return lbsp; } /* * xfs_trans_free_busy * Free all of the busy lists from a transaction */ void xfs_trans_free_busy(xfs_trans_t *tp) { xfs_log_busy_chunk_t *lbcp; xfs_log_busy_chunk_t *lbcq; lbcp = tp->t_busy.lbc_next; while (lbcp != NULL) { lbcq = lbcp->lbc_next; kmem_free(lbcp, sizeof(xfs_log_busy_chunk_t)); lbcp = lbcq; } XFS_LBC_INIT(&tp->t_busy); tp->t_busy.lbc_unused = 0; }