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1422 1423 1424 1425 1426 1427 1428 1429 1430 1431 1432 1433 1434 1435 1436 1437 1438 1439 1440 1441 1442 1443 1444 1445 1446 1447 1448 1449 1450 1451 1452 1453 1454 1455 1456 1457 1458 1459 1460 1461 1462 1463 1464 1465 1466 1467 1468 1469 1470 1471 1472 1473 1474 1475 1476 1477 1478 1479 1480 1481 1482 1483 1484 1485 1486 1487 1488 1489 1490 1491 1492 1493 1494 1495 1496 1497 1498 1499 1500 1501 1502 1503 1504 1505 1506 1507 1508 1509 1510 1511 1512 1513 1514 1515 1516 1517 1518 1519 1520 1521 1522 1523 1524 1525 1526 1527 1528 1529 1530 1531 1532 1533 1534 1535 1536 1537 1538 1539 1540 1541 1542 1543 1544 1545 1546 1547 1548 1549 1550 1551 1552 1553 1554 1555 1556 1557 1558 1559 | // SPDX-License-Identifier: GPL-2.0 /* * linux/fs/ext2/balloc.c * * Copyright (C) 1992, 1993, 1994, 1995 * Remy Card (card@masi.ibp.fr) * Laboratoire MASI - Institut Blaise Pascal * Universite Pierre et Marie Curie (Paris VI) * * Enhanced block allocation by Stephen Tweedie (sct@redhat.com), 1993 * Big-endian to little-endian byte-swapping/bitmaps by * David S. Miller (davem@caip.rutgers.edu), 1995 */ #include "ext2.h" #include <linux/quotaops.h> #include <linux/slab.h> #include <linux/sched.h> #include <linux/cred.h> #include <linux/buffer_head.h> #include <linux/capability.h> /* * balloc.c contains the blocks allocation and deallocation routines */ /* * The free blocks are managed by bitmaps. A file system contains several * blocks groups. Each group contains 1 bitmap block for blocks, 1 bitmap * block for inodes, N blocks for the inode table and data blocks. * * The file system contains group descriptors which are located after the * super block. Each descriptor contains the number of the bitmap block and * the free blocks count in the block. The descriptors are loaded in memory * when a file system is mounted (see ext2_fill_super). */ #define in_range(b, first, len) ((b) >= (first) && (b) <= (first) + (len) - 1) struct ext2_group_desc * ext2_get_group_desc(struct super_block * sb, unsigned int block_group, struct buffer_head ** bh) { unsigned long group_desc; unsigned long offset; struct ext2_group_desc * desc; struct ext2_sb_info *sbi = EXT2_SB(sb); if (block_group >= sbi->s_groups_count) { ext2_error (sb, "ext2_get_group_desc", "block_group >= groups_count - " "block_group = %d, groups_count = %lu", block_group, sbi->s_groups_count); return NULL; } group_desc = block_group >> EXT2_DESC_PER_BLOCK_BITS(sb); offset = block_group & (EXT2_DESC_PER_BLOCK(sb) - 1); if (!sbi->s_group_desc[group_desc]) { ext2_error (sb, "ext2_get_group_desc", "Group descriptor not loaded - " "block_group = %d, group_desc = %lu, desc = %lu", block_group, group_desc, offset); return NULL; } desc = (struct ext2_group_desc *) sbi->s_group_desc[group_desc]->b_data; if (bh) *bh = sbi->s_group_desc[group_desc]; return desc + offset; } static int ext2_valid_block_bitmap(struct super_block *sb, struct ext2_group_desc *desc, unsigned int block_group, struct buffer_head *bh) { ext2_grpblk_t offset; ext2_grpblk_t next_zero_bit; ext2_fsblk_t bitmap_blk; ext2_fsblk_t group_first_block; group_first_block = ext2_group_first_block_no(sb, block_group); /* check whether block bitmap block number is set */ bitmap_blk = le32_to_cpu(desc->bg_block_bitmap); offset = bitmap_blk - group_first_block; if (!ext2_test_bit(offset, bh->b_data)) /* bad block bitmap */ goto err_out; /* check whether the inode bitmap block number is set */ bitmap_blk = le32_to_cpu(desc->bg_inode_bitmap); offset = bitmap_blk - group_first_block; if (!ext2_test_bit(offset, bh->b_data)) /* bad block bitmap */ goto err_out; /* check whether the inode table block number is set */ bitmap_blk = le32_to_cpu(desc->bg_inode_table); offset = bitmap_blk - group_first_block; next_zero_bit = ext2_find_next_zero_bit(bh->b_data, offset + EXT2_SB(sb)->s_itb_per_group, offset); if (next_zero_bit >= offset + EXT2_SB(sb)->s_itb_per_group) /* good bitmap for inode tables */ return 1; err_out: ext2_error(sb, __func__, "Invalid block bitmap - " "block_group = %d, block = %lu", block_group, bitmap_blk); return 0; } /* * Read the bitmap for a given block_group,and validate the * bits for block/inode/inode tables are set in the bitmaps * * Return buffer_head on success or NULL in case of failure. */ static struct buffer_head * read_block_bitmap(struct super_block *sb, unsigned int block_group) { struct ext2_group_desc * desc; struct buffer_head * bh = NULL; ext2_fsblk_t bitmap_blk; desc = ext2_get_group_desc(sb, block_group, NULL); if (!desc) return NULL; bitmap_blk = le32_to_cpu(desc->bg_block_bitmap); bh = sb_getblk(sb, bitmap_blk); if (unlikely(!bh)) { ext2_error(sb, __func__, "Cannot read block bitmap - " "block_group = %d, block_bitmap = %u", block_group, le32_to_cpu(desc->bg_block_bitmap)); return NULL; } if (likely(bh_uptodate_or_lock(bh))) return bh; if (bh_submit_read(bh) < 0) { brelse(bh); ext2_error(sb, __func__, "Cannot read block bitmap - " "block_group = %d, block_bitmap = %u", block_group, le32_to_cpu(desc->bg_block_bitmap)); return NULL; } ext2_valid_block_bitmap(sb, desc, block_group, bh); /* * file system mounted not to panic on error, continue with corrupt * bitmap */ return bh; } static void group_adjust_blocks(struct super_block *sb, int group_no, struct ext2_group_desc *desc, struct buffer_head *bh, int count) { if (count) { struct ext2_sb_info *sbi = EXT2_SB(sb); unsigned free_blocks; spin_lock(sb_bgl_lock(sbi, group_no)); free_blocks = le16_to_cpu(desc->bg_free_blocks_count); desc->bg_free_blocks_count = cpu_to_le16(free_blocks + count); spin_unlock(sb_bgl_lock(sbi, group_no)); mark_buffer_dirty(bh); } } /* * The reservation window structure operations * -------------------------------------------- * Operations include: * dump, find, add, remove, is_empty, find_next_reservable_window, etc. * * We use a red-black tree to represent per-filesystem reservation * windows. * */ /** * __rsv_window_dump() -- Dump the filesystem block allocation reservation map * @rb_root: root of per-filesystem reservation rb tree * @verbose: verbose mode * @fn: function which wishes to dump the reservation map * * If verbose is turned on, it will print the whole block reservation * windows(start, end). Otherwise, it will only print out the "bad" windows, * those windows that overlap with their immediate neighbors. */ #if 1 static void __rsv_window_dump(struct rb_root *root, int verbose, const char *fn) { struct rb_node *n; struct ext2_reserve_window_node *rsv, *prev; int bad; restart: n = rb_first(root); bad = 0; prev = NULL; printk("Block Allocation Reservation Windows Map (%s):\n", fn); while (n) { rsv = rb_entry(n, struct ext2_reserve_window_node, rsv_node); if (verbose) printk("reservation window 0x%p " "start: %lu, end: %lu\n", rsv, rsv->rsv_start, rsv->rsv_end); if (rsv->rsv_start && rsv->rsv_start >= rsv->rsv_end) { printk("Bad reservation %p (start >= end)\n", rsv); bad = 1; } if (prev && prev->rsv_end >= rsv->rsv_start) { printk("Bad reservation %p (prev->end >= start)\n", rsv); bad = 1; } if (bad) { if (!verbose) { printk("Restarting reservation walk in verbose mode\n"); verbose = 1; goto restart; } } n = rb_next(n); prev = rsv; } printk("Window map complete.\n"); BUG_ON(bad); } #define rsv_window_dump(root, verbose) \ __rsv_window_dump((root), (verbose), __func__) #else #define rsv_window_dump(root, verbose) do {} while (0) #endif /** * goal_in_my_reservation() * @rsv: inode's reservation window * @grp_goal: given goal block relative to the allocation block group * @group: the current allocation block group * @sb: filesystem super block * * Test if the given goal block (group relative) is within the file's * own block reservation window range. * * If the reservation window is outside the goal allocation group, return 0; * grp_goal (given goal block) could be -1, which means no specific * goal block. In this case, always return 1. * If the goal block is within the reservation window, return 1; * otherwise, return 0; */ static int goal_in_my_reservation(struct ext2_reserve_window *rsv, ext2_grpblk_t grp_goal, unsigned int group, struct super_block * sb) { ext2_fsblk_t group_first_block, group_last_block; group_first_block = ext2_group_first_block_no(sb, group); group_last_block = group_first_block + EXT2_BLOCKS_PER_GROUP(sb) - 1; if ((rsv->_rsv_start > group_last_block) || (rsv->_rsv_end < group_first_block)) return 0; if ((grp_goal >= 0) && ((grp_goal + group_first_block < rsv->_rsv_start) || (grp_goal + group_first_block > rsv->_rsv_end))) return 0; return 1; } /** * search_reserve_window() * @rb_root: root of reservation tree * @goal: target allocation block * * Find the reserved window which includes the goal, or the previous one * if the goal is not in any window. * Returns NULL if there are no windows or if all windows start after the goal. */ static struct ext2_reserve_window_node * search_reserve_window(struct rb_root *root, ext2_fsblk_t goal) { struct rb_node *n = root->rb_node; struct ext2_reserve_window_node *rsv; if (!n) return NULL; do { rsv = rb_entry(n, struct ext2_reserve_window_node, rsv_node); if (goal < rsv->rsv_start) n = n->rb_left; else if (goal > rsv->rsv_end) n = n->rb_right; else return rsv; } while (n); /* * We've fallen off the end of the tree: the goal wasn't inside * any particular node. OK, the previous node must be to one * side of the interval containing the goal. If it's the RHS, * we need to back up one. */ if (rsv->rsv_start > goal) { n = rb_prev(&rsv->rsv_node); rsv = rb_entry(n, struct ext2_reserve_window_node, rsv_node); } return rsv; } /* * ext2_rsv_window_add() -- Insert a window to the block reservation rb tree. * @sb: super block * @rsv: reservation window to add * * Must be called with rsv_lock held. */ void ext2_rsv_window_add(struct super_block *sb, struct ext2_reserve_window_node *rsv) { struct rb_root *root = &EXT2_SB(sb)->s_rsv_window_root; struct rb_node *node = &rsv->rsv_node; ext2_fsblk_t start = rsv->rsv_start; struct rb_node ** p = &root->rb_node; struct rb_node * parent = NULL; struct ext2_reserve_window_node *this; while (*p) { parent = *p; this = rb_entry(parent, struct ext2_reserve_window_node, rsv_node); if (start < this->rsv_start) p = &(*p)->rb_left; else if (start > this->rsv_end) p = &(*p)->rb_right; else { rsv_window_dump(root, 1); BUG(); } } rb_link_node(node, parent, p); rb_insert_color(node, root); } /** * rsv_window_remove() -- unlink a window from the reservation rb tree * @sb: super block * @rsv: reservation window to remove * * Mark the block reservation window as not allocated, and unlink it * from the filesystem reservation window rb tree. Must be called with * rsv_lock held. */ static void rsv_window_remove(struct super_block *sb, struct ext2_reserve_window_node *rsv) { rsv->rsv_start = EXT2_RESERVE_WINDOW_NOT_ALLOCATED; rsv->rsv_end = EXT2_RESERVE_WINDOW_NOT_ALLOCATED; rsv->rsv_alloc_hit = 0; rb_erase(&rsv->rsv_node, &EXT2_SB(sb)->s_rsv_window_root); } /* * rsv_is_empty() -- Check if the reservation window is allocated. * @rsv: given reservation window to check * * returns 1 if the end block is EXT2_RESERVE_WINDOW_NOT_ALLOCATED. */ static inline int rsv_is_empty(struct ext2_reserve_window *rsv) { /* a valid reservation end block could not be 0 */ return (rsv->_rsv_end == EXT2_RESERVE_WINDOW_NOT_ALLOCATED); } /** * ext2_init_block_alloc_info() * @inode: file inode structure * * Allocate and initialize the reservation window structure, and * link the window to the ext2 inode structure at last * * The reservation window structure is only dynamically allocated * and linked to ext2 inode the first time the open file * needs a new block. So, before every ext2_new_block(s) call, for * regular files, we should check whether the reservation window * structure exists or not. In the latter case, this function is called. * Fail to do so will result in block reservation being turned off for that * open file. * * This function is called from ext2_get_blocks_handle(), also called * when setting the reservation window size through ioctl before the file * is open for write (needs block allocation). * * Needs truncate_mutex protection prior to calling this function. */ void ext2_init_block_alloc_info(struct inode *inode) { struct ext2_inode_info *ei = EXT2_I(inode); struct ext2_block_alloc_info *block_i; struct super_block *sb = inode->i_sb; block_i = kmalloc(sizeof(*block_i), GFP_NOFS); if (block_i) { struct ext2_reserve_window_node *rsv = &block_i->rsv_window_node; rsv->rsv_start = EXT2_RESERVE_WINDOW_NOT_ALLOCATED; rsv->rsv_end = EXT2_RESERVE_WINDOW_NOT_ALLOCATED; /* * if filesystem is mounted with NORESERVATION, the goal * reservation window size is set to zero to indicate * block reservation is off */ if (!test_opt(sb, RESERVATION)) rsv->rsv_goal_size = 0; else rsv->rsv_goal_size = EXT2_DEFAULT_RESERVE_BLOCKS; rsv->rsv_alloc_hit = 0; block_i->last_alloc_logical_block = 0; block_i->last_alloc_physical_block = 0; } ei->i_block_alloc_info = block_i; } /** * ext2_discard_reservation() * @inode: inode * * Discard(free) block reservation window on last file close, or truncate * or at last iput(). * * It is being called in three cases: * ext2_release_file(): last writer closes the file * ext2_clear_inode(): last iput(), when nobody links to this file. * ext2_truncate(): when the block indirect map is about to change. */ void ext2_discard_reservation(struct inode *inode) { struct ext2_inode_info *ei = EXT2_I(inode); struct ext2_block_alloc_info *block_i = ei->i_block_alloc_info; struct ext2_reserve_window_node *rsv; spinlock_t *rsv_lock = &EXT2_SB(inode->i_sb)->s_rsv_window_lock; if (!block_i) return; rsv = &block_i->rsv_window_node; if (!rsv_is_empty(&rsv->rsv_window)) { spin_lock(rsv_lock); if (!rsv_is_empty(&rsv->rsv_window)) rsv_window_remove(inode->i_sb, rsv); spin_unlock(rsv_lock); } } /** * ext2_free_blocks() -- Free given blocks and update quota and i_blocks * @inode: inode * @block: start physical block to free * @count: number of blocks to free */ void ext2_free_blocks (struct inode * inode, unsigned long block, unsigned long count) { struct buffer_head *bitmap_bh = NULL; struct buffer_head * bh2; unsigned long block_group; unsigned long bit; unsigned long i; unsigned long overflow; struct super_block * sb = inode->i_sb; struct ext2_sb_info * sbi = EXT2_SB(sb); struct ext2_group_desc * desc; struct ext2_super_block * es = sbi->s_es; unsigned freed = 0, group_freed; if (block < le32_to_cpu(es->s_first_data_block) || block + count < block || block + count > le32_to_cpu(es->s_blocks_count)) { ext2_error (sb, "ext2_free_blocks", "Freeing blocks not in datazone - " "block = %lu, count = %lu", block, count); goto error_return; } ext2_debug ("freeing block(s) %lu-%lu\n", block, block + count - 1); do_more: overflow = 0; block_group = (block - le32_to_cpu(es->s_first_data_block)) / EXT2_BLOCKS_PER_GROUP(sb); bit = (block - le32_to_cpu(es->s_first_data_block)) % EXT2_BLOCKS_PER_GROUP(sb); /* * Check to see if we are freeing blocks across a group * boundary. */ if (bit + count > EXT2_BLOCKS_PER_GROUP(sb)) { overflow = bit + count - EXT2_BLOCKS_PER_GROUP(sb); count -= overflow; } brelse(bitmap_bh); bitmap_bh = read_block_bitmap(sb, block_group); if (!bitmap_bh) goto error_return; desc = ext2_get_group_desc (sb, block_group, &bh2); if (!desc) goto error_return; if (in_range (le32_to_cpu(desc->bg_block_bitmap), block, count) || in_range (le32_to_cpu(desc->bg_inode_bitmap), block, count) || in_range (block, le32_to_cpu(desc->bg_inode_table), sbi->s_itb_per_group) || in_range (block + count - 1, le32_to_cpu(desc->bg_inode_table), sbi->s_itb_per_group)) { ext2_error (sb, "ext2_free_blocks", "Freeing blocks in system zones - " "Block = %lu, count = %lu", block, count); goto error_return; } for (i = 0, group_freed = 0; i < count; i++) { if (!ext2_clear_bit_atomic(sb_bgl_lock(sbi, block_group), bit + i, bitmap_bh->b_data)) { ext2_error(sb, __func__, "bit already cleared for block %lu", block + i); } else { group_freed++; } } mark_buffer_dirty(bitmap_bh); if (sb->s_flags & SB_SYNCHRONOUS) sync_dirty_buffer(bitmap_bh); group_adjust_blocks(sb, block_group, desc, bh2, group_freed); freed += group_freed; if (overflow) { block += count; count = overflow; goto do_more; } error_return: brelse(bitmap_bh); if (freed) { percpu_counter_add(&sbi->s_freeblocks_counter, freed); dquot_free_block_nodirty(inode, freed); mark_inode_dirty(inode); } } /** * bitmap_search_next_usable_block() * @start: the starting block (group relative) of the search * @bh: bufferhead contains the block group bitmap * @maxblocks: the ending block (group relative) of the reservation * * The bitmap search --- search forward through the actual bitmap on disk until * we find a bit free. */ static ext2_grpblk_t bitmap_search_next_usable_block(ext2_grpblk_t start, struct buffer_head *bh, ext2_grpblk_t maxblocks) { ext2_grpblk_t next; next = ext2_find_next_zero_bit(bh->b_data, maxblocks, start); if (next >= maxblocks) return -1; return next; } /** * find_next_usable_block() * @start: the starting block (group relative) to find next * allocatable block in bitmap. * @bh: bufferhead contains the block group bitmap * @maxblocks: the ending block (group relative) for the search * * Find an allocatable block in a bitmap. We perform the "most * appropriate allocation" algorithm of looking for a free block near * the initial goal; then for a free byte somewhere in the bitmap; * then for any free bit in the bitmap. */ static ext2_grpblk_t find_next_usable_block(int start, struct buffer_head *bh, int maxblocks) { ext2_grpblk_t here, next; char *p, *r; if (start > 0) { /* * The goal was occupied; search forward for a free * block within the next XX blocks. * * end_goal is more or less random, but it has to be * less than EXT2_BLOCKS_PER_GROUP. Aligning up to the * next 64-bit boundary is simple.. */ ext2_grpblk_t end_goal = (start + 63) & ~63; if (end_goal > maxblocks) end_goal = maxblocks; here = ext2_find_next_zero_bit(bh->b_data, end_goal, start); if (here < end_goal) return here; ext2_debug("Bit not found near goal\n"); } here = start; if (here < 0) here = 0; p = ((char *)bh->b_data) + (here >> 3); r = memscan(p, 0, ((maxblocks + 7) >> 3) - (here >> 3)); next = (r - ((char *)bh->b_data)) << 3; if (next < maxblocks && next >= here) return next; here = bitmap_search_next_usable_block(here, bh, maxblocks); return here; } /** * ext2_try_to_allocate() * @sb: superblock * @group: given allocation block group * @bitmap_bh: bufferhead holds the block bitmap * @grp_goal: given target block within the group * @count: target number of blocks to allocate * @my_rsv: reservation window * * Attempt to allocate blocks within a give range. Set the range of allocation * first, then find the first free bit(s) from the bitmap (within the range), * and at last, allocate the blocks by claiming the found free bit as allocated. * * To set the range of this allocation: * if there is a reservation window, only try to allocate block(s) * from the file's own reservation window; * Otherwise, the allocation range starts from the give goal block, * ends at the block group's last block. * * If we failed to allocate the desired block then we may end up crossing to a * new bitmap. */ static int ext2_try_to_allocate(struct super_block *sb, int group, struct buffer_head *bitmap_bh, ext2_grpblk_t grp_goal, unsigned long *count, struct ext2_reserve_window *my_rsv) { ext2_fsblk_t group_first_block; ext2_grpblk_t start, end; unsigned long num = 0; /* we do allocation within the reservation window if we have a window */ if (my_rsv) { group_first_block = ext2_group_first_block_no(sb, group); if (my_rsv->_rsv_start >= group_first_block) start = my_rsv->_rsv_start - group_first_block; else /* reservation window cross group boundary */ start = 0; end = my_rsv->_rsv_end - group_first_block + 1; if (end > EXT2_BLOCKS_PER_GROUP(sb)) /* reservation window crosses group boundary */ end = EXT2_BLOCKS_PER_GROUP(sb); if ((start <= grp_goal) && (grp_goal < end)) start = grp_goal; else grp_goal = -1; } else { if (grp_goal > 0) start = grp_goal; else start = 0; end = EXT2_BLOCKS_PER_GROUP(sb); } BUG_ON(start > EXT2_BLOCKS_PER_GROUP(sb)); repeat: if (grp_goal < 0) { grp_goal = find_next_usable_block(start, bitmap_bh, end); if (grp_goal < 0) goto fail_access; if (!my_rsv) { int i; for (i = 0; i < 7 && grp_goal > start && !ext2_test_bit(grp_goal - 1, bitmap_bh->b_data); i++, grp_goal--) ; } } start = grp_goal; if (ext2_set_bit_atomic(sb_bgl_lock(EXT2_SB(sb), group), grp_goal, bitmap_bh->b_data)) { /* * The block was allocated by another thread, or it was * allocated and then freed by another thread */ start++; grp_goal++; if (start >= end) goto fail_access; goto repeat; } num++; grp_goal++; while (num < *count && grp_goal < end && !ext2_set_bit_atomic(sb_bgl_lock(EXT2_SB(sb), group), grp_goal, bitmap_bh->b_data)) { num++; grp_goal++; } *count = num; return grp_goal - num; fail_access: *count = num; return -1; } /** * find_next_reservable_window(): * find a reservable space within the given range. * It does not allocate the reservation window for now: * alloc_new_reservation() will do the work later. * * @search_head: the head of the searching list; * This is not necessarily the list head of the whole filesystem * * We have both head and start_block to assist the search * for the reservable space. The list starts from head, * but we will shift to the place where start_block is, * then start from there, when looking for a reservable space. * * @size: the target new reservation window size * * @group_first_block: the first block we consider to start * the real search from * * @last_block: * the maximum block number that our goal reservable space * could start from. This is normally the last block in this * group. The search will end when we found the start of next * possible reservable space is out of this boundary. * This could handle the cross boundary reservation window * request. * * basically we search from the given range, rather than the whole * reservation double linked list, (start_block, last_block) * to find a free region that is of my size and has not * been reserved. * */ static int find_next_reservable_window( struct ext2_reserve_window_node *search_head, struct ext2_reserve_window_node *my_rsv, struct super_block * sb, ext2_fsblk_t start_block, ext2_fsblk_t last_block) { struct rb_node *next; struct ext2_reserve_window_node *rsv, *prev; ext2_fsblk_t cur; int size = my_rsv->rsv_goal_size; /* TODO: make the start of the reservation window byte-aligned */ /* cur = *start_block & ~7;*/ cur = start_block; rsv = search_head; if (!rsv) return -1; while (1) { if (cur <= rsv->rsv_end) cur = rsv->rsv_end + 1; /* TODO? * in the case we could not find a reservable space * that is what is expected, during the re-search, we could * remember what's the largest reservable space we could have * and return that one. * * For now it will fail if we could not find the reservable * space with expected-size (or more)... */ if (cur > last_block) return -1; /* fail */ prev = rsv; next = rb_next(&rsv->rsv_node); rsv = rb_entry(next,struct ext2_reserve_window_node,rsv_node); /* * Reached the last reservation, we can just append to the * previous one. */ if (!next) break; if (cur + size <= rsv->rsv_start) { /* * Found a reserveable space big enough. We could * have a reservation across the group boundary here */ break; } } /* * we come here either : * when we reach the end of the whole list, * and there is empty reservable space after last entry in the list. * append it to the end of the list. * * or we found one reservable space in the middle of the list, * return the reservation window that we could append to. * succeed. */ if ((prev != my_rsv) && (!rsv_is_empty(&my_rsv->rsv_window))) rsv_window_remove(sb, my_rsv); /* * Let's book the whole available window for now. We will check the * disk bitmap later and then, if there are free blocks then we adjust * the window size if it's larger than requested. * Otherwise, we will remove this node from the tree next time * call find_next_reservable_window. */ my_rsv->rsv_start = cur; my_rsv->rsv_end = cur + size - 1; my_rsv->rsv_alloc_hit = 0; if (prev != my_rsv) ext2_rsv_window_add(sb, my_rsv); return 0; } /** * alloc_new_reservation()--allocate a new reservation window * * To make a new reservation, we search part of the filesystem * reservation list (the list that inside the group). We try to * allocate a new reservation window near the allocation goal, * or the beginning of the group, if there is no goal. * * We first find a reservable space after the goal, then from * there, we check the bitmap for the first free block after * it. If there is no free block until the end of group, then the * whole group is full, we failed. Otherwise, check if the free * block is inside the expected reservable space, if so, we * succeed. * If the first free block is outside the reservable space, then * start from the first free block, we search for next available * space, and go on. * * on succeed, a new reservation will be found and inserted into the list * It contains at least one free block, and it does not overlap with other * reservation windows. * * failed: we failed to find a reservation window in this group * * @rsv: the reservation * * @grp_goal: The goal (group-relative). It is where the search for a * free reservable space should start from. * if we have a goal(goal >0 ), then start from there, * no goal(goal = -1), we start from the first block * of the group. * * @sb: the super block * @group: the group we are trying to allocate in * @bitmap_bh: the block group block bitmap * */ static int alloc_new_reservation(struct ext2_reserve_window_node *my_rsv, ext2_grpblk_t grp_goal, struct super_block *sb, unsigned int group, struct buffer_head *bitmap_bh) { struct ext2_reserve_window_node *search_head; ext2_fsblk_t group_first_block, group_end_block, start_block; ext2_grpblk_t first_free_block; struct rb_root *fs_rsv_root = &EXT2_SB(sb)->s_rsv_window_root; unsigned long size; int ret; spinlock_t *rsv_lock = &EXT2_SB(sb)->s_rsv_window_lock; group_first_block = ext2_group_first_block_no(sb, group); group_end_block = group_first_block + (EXT2_BLOCKS_PER_GROUP(sb) - 1); if (grp_goal < 0) start_block = group_first_block; else start_block = grp_goal + group_first_block; size = my_rsv->rsv_goal_size; if (!rsv_is_empty(&my_rsv->rsv_window)) { /* * if the old reservation is cross group boundary * and if the goal is inside the old reservation window, * we will come here when we just failed to allocate from * the first part of the window. We still have another part * that belongs to the next group. In this case, there is no * point to discard our window and try to allocate a new one * in this group(which will fail). we should * keep the reservation window, just simply move on. * * Maybe we could shift the start block of the reservation * window to the first block of next group. */ if ((my_rsv->rsv_start <= group_end_block) && (my_rsv->rsv_end > group_end_block) && (start_block >= my_rsv->rsv_start)) return -1; if ((my_rsv->rsv_alloc_hit > (my_rsv->rsv_end - my_rsv->rsv_start + 1) / 2)) { /* * if the previously allocation hit ratio is * greater than 1/2, then we double the size of * the reservation window the next time, * otherwise we keep the same size window */ size = size * 2; if (size > EXT2_MAX_RESERVE_BLOCKS) size = EXT2_MAX_RESERVE_BLOCKS; my_rsv->rsv_goal_size= size; } } spin_lock(rsv_lock); /* * shift the search start to the window near the goal block */ search_head = search_reserve_window(fs_rsv_root, start_block); /* * find_next_reservable_window() simply finds a reservable window * inside the given range(start_block, group_end_block). * * To make sure the reservation window has a free bit inside it, we * need to check the bitmap after we found a reservable window. */ retry: ret = find_next_reservable_window(search_head, my_rsv, sb, start_block, group_end_block); if (ret == -1) { if (!rsv_is_empty(&my_rsv->rsv_window)) rsv_window_remove(sb, my_rsv); spin_unlock(rsv_lock); return -1; } /* * On success, find_next_reservable_window() returns the * reservation window where there is a reservable space after it. * Before we reserve this reservable space, we need * to make sure there is at least a free block inside this region. * * Search the first free bit on the block bitmap. Search starts from * the start block of the reservable space we just found. */ spin_unlock(rsv_lock); first_free_block = bitmap_search_next_usable_block( my_rsv->rsv_start - group_first_block, bitmap_bh, group_end_block - group_first_block + 1); if (first_free_block < 0) { /* * no free block left on the bitmap, no point * to reserve the space. return failed. */ spin_lock(rsv_lock); if (!rsv_is_empty(&my_rsv->rsv_window)) rsv_window_remove(sb, my_rsv); spin_unlock(rsv_lock); return -1; /* failed */ } start_block = first_free_block + group_first_block; /* * check if the first free block is within the * free space we just reserved */ if (start_block >= my_rsv->rsv_start && start_block <= my_rsv->rsv_end) return 0; /* success */ /* * if the first free bit we found is out of the reservable space * continue search for next reservable space, * start from where the free block is, * we also shift the list head to where we stopped last time */ search_head = my_rsv; spin_lock(rsv_lock); goto retry; } /** * try_to_extend_reservation() * @my_rsv: given reservation window * @sb: super block * @size: the delta to extend * * Attempt to expand the reservation window large enough to have * required number of free blocks * * Since ext2_try_to_allocate() will always allocate blocks within * the reservation window range, if the window size is too small, * multiple blocks allocation has to stop at the end of the reservation * window. To make this more efficient, given the total number of * blocks needed and the current size of the window, we try to * expand the reservation window size if necessary on a best-effort * basis before ext2_new_blocks() tries to allocate blocks. */ static void try_to_extend_reservation(struct ext2_reserve_window_node *my_rsv, struct super_block *sb, int size) { struct ext2_reserve_window_node *next_rsv; struct rb_node *next; spinlock_t *rsv_lock = &EXT2_SB(sb)->s_rsv_window_lock; if (!spin_trylock(rsv_lock)) return; next = rb_next(&my_rsv->rsv_node); if (!next) my_rsv->rsv_end += size; else { next_rsv = rb_entry(next, struct ext2_reserve_window_node, rsv_node); if ((next_rsv->rsv_start - my_rsv->rsv_end - 1) >= size) my_rsv->rsv_end += size; else my_rsv->rsv_end = next_rsv->rsv_start - 1; } spin_unlock(rsv_lock); } /** * ext2_try_to_allocate_with_rsv() * @sb: superblock * @group: given allocation block group * @bitmap_bh: bufferhead holds the block bitmap * @grp_goal: given target block within the group * @count: target number of blocks to allocate * @my_rsv: reservation window * * This is the main function used to allocate a new block and its reservation * window. * * Each time when a new block allocation is need, first try to allocate from * its own reservation. If it does not have a reservation window, instead of * looking for a free bit on bitmap first, then look up the reservation list to * see if it is inside somebody else's reservation window, we try to allocate a * reservation window for it starting from the goal first. Then do the block * allocation within the reservation window. * * This will avoid keeping on searching the reservation list again and * again when somebody is looking for a free block (without * reservation), and there are lots of free blocks, but they are all * being reserved. * * We use a red-black tree for the per-filesystem reservation list. */ static ext2_grpblk_t ext2_try_to_allocate_with_rsv(struct super_block *sb, unsigned int group, struct buffer_head *bitmap_bh, ext2_grpblk_t grp_goal, struct ext2_reserve_window_node * my_rsv, unsigned long *count) { ext2_fsblk_t group_first_block, group_last_block; ext2_grpblk_t ret = 0; unsigned long num = *count; /* * we don't deal with reservation when * filesystem is mounted without reservation * or the file is not a regular file * or last attempt to allocate a block with reservation turned on failed */ if (my_rsv == NULL) { return ext2_try_to_allocate(sb, group, bitmap_bh, grp_goal, count, NULL); } /* * grp_goal is a group relative block number (if there is a goal) * 0 <= grp_goal < EXT2_BLOCKS_PER_GROUP(sb) * first block is a filesystem wide block number * first block is the block number of the first block in this group */ group_first_block = ext2_group_first_block_no(sb, group); group_last_block = group_first_block + (EXT2_BLOCKS_PER_GROUP(sb) - 1); /* * Basically we will allocate a new block from inode's reservation * window. * * We need to allocate a new reservation window, if: * a) inode does not have a reservation window; or * b) last attempt to allocate a block from existing reservation * failed; or * c) we come here with a goal and with a reservation window * * We do not need to allocate a new reservation window if we come here * at the beginning with a goal and the goal is inside the window, or * we don't have a goal but already have a reservation window. * then we could go to allocate from the reservation window directly. */ while (1) { if (rsv_is_empty(&my_rsv->rsv_window) || (ret < 0) || !goal_in_my_reservation(&my_rsv->rsv_window, grp_goal, group, sb)) { if (my_rsv->rsv_goal_size < *count) my_rsv->rsv_goal_size = *count; ret = alloc_new_reservation(my_rsv, grp_goal, sb, group, bitmap_bh); if (ret < 0) break; /* failed */ if (!goal_in_my_reservation(&my_rsv->rsv_window, grp_goal, group, sb)) grp_goal = -1; } else if (grp_goal >= 0) { int curr = my_rsv->rsv_end - (grp_goal + group_first_block) + 1; if (curr < *count) try_to_extend_reservation(my_rsv, sb, *count - curr); } if ((my_rsv->rsv_start > group_last_block) || (my_rsv->rsv_end < group_first_block)) { rsv_window_dump(&EXT2_SB(sb)->s_rsv_window_root, 1); BUG(); } ret = ext2_try_to_allocate(sb, group, bitmap_bh, grp_goal, &num, &my_rsv->rsv_window); if (ret >= 0) { my_rsv->rsv_alloc_hit += num; *count = num; break; /* succeed */ } num = *count; } return ret; } /** * ext2_has_free_blocks() * @sbi: in-core super block structure. * * Check if filesystem has at least 1 free block available for allocation. */ static int ext2_has_free_blocks(struct ext2_sb_info *sbi) { ext2_fsblk_t free_blocks, root_blocks; free_blocks = percpu_counter_read_positive(&sbi->s_freeblocks_counter); root_blocks = le32_to_cpu(sbi->s_es->s_r_blocks_count); if (free_blocks < root_blocks + 1 && !capable(CAP_SYS_RESOURCE) && !uid_eq(sbi->s_resuid, current_fsuid()) && (gid_eq(sbi->s_resgid, GLOBAL_ROOT_GID) || !in_group_p (sbi->s_resgid))) { return 0; } return 1; } /* * Returns 1 if the passed-in block region is valid; 0 if some part overlaps * with filesystem metadata blocksi. */ int ext2_data_block_valid(struct ext2_sb_info *sbi, ext2_fsblk_t start_blk, unsigned int count) { if ((start_blk <= le32_to_cpu(sbi->s_es->s_first_data_block)) || (start_blk + count < start_blk) || (start_blk > le32_to_cpu(sbi->s_es->s_blocks_count))) return 0; /* Ensure we do not step over superblock */ if ((start_blk <= sbi->s_sb_block) && (start_blk + count >= sbi->s_sb_block)) return 0; return 1; } /* * ext2_new_blocks() -- core block(s) allocation function * @inode: file inode * @goal: given target block(filesystem wide) * @count: target number of blocks to allocate * @errp: error code * * ext2_new_blocks uses a goal block to assist allocation. If the goal is * free, or there is a free block within 32 blocks of the goal, that block * is allocated. Otherwise a forward search is made for a free block; within * each block group the search first looks for an entire free byte in the block * bitmap, and then for any free bit if that fails. * This function also updates quota and i_blocks field. */ ext2_fsblk_t ext2_new_blocks(struct inode *inode, ext2_fsblk_t goal, unsigned long *count, int *errp) { struct buffer_head *bitmap_bh = NULL; struct buffer_head *gdp_bh; int group_no; int goal_group; ext2_grpblk_t grp_target_blk; /* blockgroup relative goal block */ ext2_grpblk_t grp_alloc_blk; /* blockgroup-relative allocated block*/ ext2_fsblk_t ret_block; /* filesyetem-wide allocated block */ int bgi; /* blockgroup iteration index */ int performed_allocation = 0; ext2_grpblk_t free_blocks; /* number of free blocks in a group */ struct super_block *sb; struct ext2_group_desc *gdp; struct ext2_super_block *es; struct ext2_sb_info *sbi; struct ext2_reserve_window_node *my_rsv = NULL; struct ext2_block_alloc_info *block_i; unsigned short windowsz = 0; unsigned long ngroups; unsigned long num = *count; int ret; *errp = -ENOSPC; sb = inode->i_sb; /* * Check quota for allocation of this block. */ ret = dquot_alloc_block(inode, num); if (ret) { *errp = ret; return 0; } sbi = EXT2_SB(sb); es = EXT2_SB(sb)->s_es; ext2_debug("goal=%lu.\n", goal); /* * Allocate a block from reservation only when * filesystem is mounted with reservation(default,-o reservation), and * it's a regular file, and * the desired window size is greater than 0 (One could use ioctl * command EXT2_IOC_SETRSVSZ to set the window size to 0 to turn off * reservation on that particular file) */ block_i = EXT2_I(inode)->i_block_alloc_info; if (block_i) { windowsz = block_i->rsv_window_node.rsv_goal_size; if (windowsz > 0) my_rsv = &block_i->rsv_window_node; } if (!ext2_has_free_blocks(sbi)) { *errp = -ENOSPC; goto out; } /* * First, test whether the goal block is free. */ if (goal < le32_to_cpu(es->s_first_data_block) || goal >= le32_to_cpu(es->s_blocks_count)) goal = le32_to_cpu(es->s_first_data_block); group_no = (goal - le32_to_cpu(es->s_first_data_block)) / EXT2_BLOCKS_PER_GROUP(sb); goal_group = group_no; retry_alloc: gdp = ext2_get_group_desc(sb, group_no, &gdp_bh); if (!gdp) goto io_error; free_blocks = le16_to_cpu(gdp->bg_free_blocks_count); /* * if there is not enough free blocks to make a new resevation * turn off reservation for this allocation */ if (my_rsv && (free_blocks < windowsz) && (free_blocks > 0) && (rsv_is_empty(&my_rsv->rsv_window))) my_rsv = NULL; if (free_blocks > 0) { grp_target_blk = ((goal - le32_to_cpu(es->s_first_data_block)) % EXT2_BLOCKS_PER_GROUP(sb)); bitmap_bh = read_block_bitmap(sb, group_no); if (!bitmap_bh) goto io_error; grp_alloc_blk = ext2_try_to_allocate_with_rsv(sb, group_no, bitmap_bh, grp_target_blk, my_rsv, &num); if (grp_alloc_blk >= 0) goto allocated; } ngroups = EXT2_SB(sb)->s_groups_count; smp_rmb(); /* * Now search the rest of the groups. We assume that * group_no and gdp correctly point to the last group visited. */ for (bgi = 0; bgi < ngroups; bgi++) { group_no++; if (group_no >= ngroups) group_no = 0; gdp = ext2_get_group_desc(sb, group_no, &gdp_bh); if (!gdp) goto io_error; free_blocks = le16_to_cpu(gdp->bg_free_blocks_count); /* * skip this group (and avoid loading bitmap) if there * are no free blocks */ if (!free_blocks) continue; /* * skip this group if the number of * free blocks is less than half of the reservation * window size. */ if (my_rsv && (free_blocks <= (windowsz/2))) continue; brelse(bitmap_bh); bitmap_bh = read_block_bitmap(sb, group_no); if (!bitmap_bh) goto io_error; /* * try to allocate block(s) from this group, without a goal(-1). */ grp_alloc_blk = ext2_try_to_allocate_with_rsv(sb, group_no, bitmap_bh, -1, my_rsv, &num); if (grp_alloc_blk >= 0) goto allocated; } /* * We may end up a bogus earlier ENOSPC error due to * filesystem is "full" of reservations, but * there maybe indeed free blocks available on disk * In this case, we just forget about the reservations * just do block allocation as without reservations. */ if (my_rsv) { my_rsv = NULL; windowsz = 0; group_no = goal_group; goto retry_alloc; } /* No space left on the device */ *errp = -ENOSPC; goto out; allocated: ext2_debug("using block group %d(%d)\n", group_no, gdp->bg_free_blocks_count); ret_block = grp_alloc_blk + ext2_group_first_block_no(sb, group_no); if (in_range(le32_to_cpu(gdp->bg_block_bitmap), ret_block, num) || in_range(le32_to_cpu(gdp->bg_inode_bitmap), ret_block, num) || in_range(ret_block, le32_to_cpu(gdp->bg_inode_table), EXT2_SB(sb)->s_itb_per_group) || in_range(ret_block + num - 1, le32_to_cpu(gdp->bg_inode_table), EXT2_SB(sb)->s_itb_per_group)) { ext2_error(sb, "ext2_new_blocks", "Allocating block in system zone - " "blocks from "E2FSBLK", length %lu", ret_block, num); /* * ext2_try_to_allocate marked the blocks we allocated as in * use. So we may want to selectively mark some of the blocks * as free */ goto retry_alloc; } performed_allocation = 1; if (ret_block + num - 1 >= le32_to_cpu(es->s_blocks_count)) { ext2_error(sb, "ext2_new_blocks", "block("E2FSBLK") >= blocks count(%d) - " "block_group = %d, es == %p ", ret_block, le32_to_cpu(es->s_blocks_count), group_no, es); goto out; } group_adjust_blocks(sb, group_no, gdp, gdp_bh, -num); percpu_counter_sub(&sbi->s_freeblocks_counter, num); mark_buffer_dirty(bitmap_bh); if (sb->s_flags & SB_SYNCHRONOUS) sync_dirty_buffer(bitmap_bh); *errp = 0; brelse(bitmap_bh); if (num < *count) { dquot_free_block_nodirty(inode, *count-num); mark_inode_dirty(inode); *count = num; } return ret_block; io_error: *errp = -EIO; out: /* * Undo the block allocation */ if (!performed_allocation) { dquot_free_block_nodirty(inode, *count); mark_inode_dirty(inode); } brelse(bitmap_bh); return 0; } ext2_fsblk_t ext2_new_block(struct inode *inode, unsigned long goal, int *errp) { unsigned long count = 1; return ext2_new_blocks(inode, goal, &count, errp); } #ifdef EXT2FS_DEBUG unsigned long ext2_count_free(struct buffer_head *map, unsigned int numchars) { return numchars * BITS_PER_BYTE - memweight(map->b_data, numchars); } #endif /* EXT2FS_DEBUG */ unsigned long ext2_count_free_blocks (struct super_block * sb) { struct ext2_group_desc * desc; unsigned long desc_count = 0; int i; #ifdef EXT2FS_DEBUG unsigned long bitmap_count, x; struct ext2_super_block *es; es = EXT2_SB(sb)->s_es; desc_count = 0; bitmap_count = 0; desc = NULL; for (i = 0; i < EXT2_SB(sb)->s_groups_count; i++) { struct buffer_head *bitmap_bh; desc = ext2_get_group_desc (sb, i, NULL); if (!desc) continue; desc_count += le16_to_cpu(desc->bg_free_blocks_count); bitmap_bh = read_block_bitmap(sb, i); if (!bitmap_bh) continue; x = ext2_count_free(bitmap_bh, sb->s_blocksize); printk ("group %d: stored = %d, counted = %lu\n", i, le16_to_cpu(desc->bg_free_blocks_count), x); bitmap_count += x; brelse(bitmap_bh); } printk("ext2_count_free_blocks: stored = %lu, computed = %lu, %lu\n", (long)le32_to_cpu(es->s_free_blocks_count), desc_count, bitmap_count); return bitmap_count; #else for (i = 0; i < EXT2_SB(sb)->s_groups_count; i++) { desc = ext2_get_group_desc (sb, i, NULL); if (!desc) continue; desc_count += le16_to_cpu(desc->bg_free_blocks_count); } return desc_count; #endif } static inline int test_root(int a, int b) { int num = b; while (a > num) num *= b; return num == a; } static int ext2_group_sparse(int group) { if (group <= 1) return 1; return (test_root(group, 3) || test_root(group, 5) || test_root(group, 7)); } /** * ext2_bg_has_super - number of blocks used by the superblock in group * @sb: superblock for filesystem * @group: group number to check * * Return the number of blocks used by the superblock (primary or backup) * in this group. Currently this will be only 0 or 1. */ int ext2_bg_has_super(struct super_block *sb, int group) { if (EXT2_HAS_RO_COMPAT_FEATURE(sb,EXT2_FEATURE_RO_COMPAT_SPARSE_SUPER)&& !ext2_group_sparse(group)) return 0; return 1; } /** * ext2_bg_num_gdb - number of blocks used by the group table in group * @sb: superblock for filesystem * @group: group number to check * * Return the number of blocks used by the group descriptor table * (primary or backup) in this group. In the future there may be a * different number of descriptor blocks in each group. */ unsigned long ext2_bg_num_gdb(struct super_block *sb, int group) { return ext2_bg_has_super(sb, group) ? EXT2_SB(sb)->s_gdb_count : 0; } |