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1822 1823 1824 1825 1826 1827 1828 1829 1830 1831 1832 1833 1834 1835 1836 1837 1838 1839 1840 1841 1842 1843 1844 1845 1846 1847 1848 1849 1850 1851 1852 1853 1854 1855 1856 1857 1858 1859 1860 1861 1862 1863 1864 1865 1866 1867 1868 1869 1870 1871 1872 1873 1874 1875 1876 1877 1878 1879 1880 1881 1882 1883 1884 1885 1886 1887 1888 1889 1890 1891 1892 1893 1894 1895 1896 1897 1898 1899 1900 | /* * Copyright 2000 by Hans Reiser, licensing governed by reiserfs/README */ /* * Now we have all buffers that must be used in balancing of the tree * Further calculations can not cause schedule(), and thus the buffer * tree will be stable until the balancing will be finished * balance the tree according to the analysis made before, * and using buffers obtained after all above. */ #include <linux/uaccess.h> #include <linux/time.h> #include "reiserfs.h" #include <linux/buffer_head.h> #include <linux/kernel.h> static inline void buffer_info_init_left(struct tree_balance *tb, struct buffer_info *bi) { bi->tb = tb; bi->bi_bh = tb->L[0]; bi->bi_parent = tb->FL[0]; bi->bi_position = get_left_neighbor_position(tb, 0); } static inline void buffer_info_init_right(struct tree_balance *tb, struct buffer_info *bi) { bi->tb = tb; bi->bi_bh = tb->R[0]; bi->bi_parent = tb->FR[0]; bi->bi_position = get_right_neighbor_position(tb, 0); } static inline void buffer_info_init_tbS0(struct tree_balance *tb, struct buffer_info *bi) { bi->tb = tb; bi->bi_bh = PATH_PLAST_BUFFER(tb->tb_path); bi->bi_parent = PATH_H_PPARENT(tb->tb_path, 0); bi->bi_position = PATH_H_POSITION(tb->tb_path, 1); } static inline void buffer_info_init_bh(struct tree_balance *tb, struct buffer_info *bi, struct buffer_head *bh) { bi->tb = tb; bi->bi_bh = bh; bi->bi_parent = NULL; bi->bi_position = 0; } inline void do_balance_mark_leaf_dirty(struct tree_balance *tb, struct buffer_head *bh, int flag) { journal_mark_dirty(tb->transaction_handle, bh); } #define do_balance_mark_internal_dirty do_balance_mark_leaf_dirty #define do_balance_mark_sb_dirty do_balance_mark_leaf_dirty /* * summary: * if deleting something ( tb->insert_size[0] < 0 ) * return(balance_leaf_when_delete()); (flag d handled here) * else * if lnum is larger than 0 we put items into the left node * if rnum is larger than 0 we put items into the right node * if snum1 is larger than 0 we put items into the new node s1 * if snum2 is larger than 0 we put items into the new node s2 * Note that all *num* count new items being created. */ static void balance_leaf_when_delete_del(struct tree_balance *tb) { struct buffer_head *tbS0 = PATH_PLAST_BUFFER(tb->tb_path); int item_pos = PATH_LAST_POSITION(tb->tb_path); struct buffer_info bi; #ifdef CONFIG_REISERFS_CHECK struct item_head *ih = item_head(tbS0, item_pos); #endif RFALSE(ih_item_len(ih) + IH_SIZE != -tb->insert_size[0], "vs-12013: mode Delete, insert size %d, ih to be deleted %h", -tb->insert_size[0], ih); buffer_info_init_tbS0(tb, &bi); leaf_delete_items(&bi, 0, item_pos, 1, -1); if (!item_pos && tb->CFL[0]) { if (B_NR_ITEMS(tbS0)) { replace_key(tb, tb->CFL[0], tb->lkey[0], tbS0, 0); } else { if (!PATH_H_POSITION(tb->tb_path, 1)) replace_key(tb, tb->CFL[0], tb->lkey[0], PATH_H_PPARENT(tb->tb_path, 0), 0); } } RFALSE(!item_pos && !tb->CFL[0], "PAP-12020: tb->CFL[0]==%p, tb->L[0]==%p", tb->CFL[0], tb->L[0]); } /* cut item in S[0] */ static void balance_leaf_when_delete_cut(struct tree_balance *tb) { struct buffer_head *tbS0 = PATH_PLAST_BUFFER(tb->tb_path); int item_pos = PATH_LAST_POSITION(tb->tb_path); struct item_head *ih = item_head(tbS0, item_pos); int pos_in_item = tb->tb_path->pos_in_item; struct buffer_info bi; buffer_info_init_tbS0(tb, &bi); if (is_direntry_le_ih(ih)) { /* * UFS unlink semantics are such that you can only * delete one directory entry at a time. * * when we cut a directory tb->insert_size[0] means * number of entries to be cut (always 1) */ tb->insert_size[0] = -1; leaf_cut_from_buffer(&bi, item_pos, pos_in_item, -tb->insert_size[0]); RFALSE(!item_pos && !pos_in_item && !tb->CFL[0], "PAP-12030: can not change delimiting key. CFL[0]=%p", tb->CFL[0]); if (!item_pos && !pos_in_item && tb->CFL[0]) replace_key(tb, tb->CFL[0], tb->lkey[0], tbS0, 0); } else { leaf_cut_from_buffer(&bi, item_pos, pos_in_item, -tb->insert_size[0]); RFALSE(!ih_item_len(ih), "PAP-12035: cut must leave non-zero dynamic " "length of item"); } } static int balance_leaf_when_delete_left(struct tree_balance *tb) { struct buffer_head *tbS0 = PATH_PLAST_BUFFER(tb->tb_path); int n = B_NR_ITEMS(tbS0); /* L[0] must be joined with S[0] */ if (tb->lnum[0] == -1) { /* R[0] must be also joined with S[0] */ if (tb->rnum[0] == -1) { if (tb->FR[0] == PATH_H_PPARENT(tb->tb_path, 0)) { /* * all contents of all the * 3 buffers will be in L[0] */ if (PATH_H_POSITION(tb->tb_path, 1) == 0 && 1 < B_NR_ITEMS(tb->FR[0])) replace_key(tb, tb->CFL[0], tb->lkey[0], tb->FR[0], 1); leaf_move_items(LEAF_FROM_S_TO_L, tb, n, -1, NULL); leaf_move_items(LEAF_FROM_R_TO_L, tb, B_NR_ITEMS(tb->R[0]), -1, NULL); reiserfs_invalidate_buffer(tb, tbS0); reiserfs_invalidate_buffer(tb, tb->R[0]); return 0; } /* all contents of all the 3 buffers will be in R[0] */ leaf_move_items(LEAF_FROM_S_TO_R, tb, n, -1, NULL); leaf_move_items(LEAF_FROM_L_TO_R, tb, B_NR_ITEMS(tb->L[0]), -1, NULL); /* right_delimiting_key is correct in R[0] */ replace_key(tb, tb->CFR[0], tb->rkey[0], tb->R[0], 0); reiserfs_invalidate_buffer(tb, tbS0); reiserfs_invalidate_buffer(tb, tb->L[0]); return -1; } RFALSE(tb->rnum[0] != 0, "PAP-12045: rnum must be 0 (%d)", tb->rnum[0]); /* all contents of L[0] and S[0] will be in L[0] */ leaf_shift_left(tb, n, -1); reiserfs_invalidate_buffer(tb, tbS0); return 0; } /* * a part of contents of S[0] will be in L[0] and * the rest part of S[0] will be in R[0] */ RFALSE((tb->lnum[0] + tb->rnum[0] < n) || (tb->lnum[0] + tb->rnum[0] > n + 1), "PAP-12050: rnum(%d) and lnum(%d) and item " "number(%d) in S[0] are not consistent", tb->rnum[0], tb->lnum[0], n); RFALSE((tb->lnum[0] + tb->rnum[0] == n) && (tb->lbytes != -1 || tb->rbytes != -1), "PAP-12055: bad rbytes (%d)/lbytes (%d) " "parameters when items are not split", tb->rbytes, tb->lbytes); RFALSE((tb->lnum[0] + tb->rnum[0] == n + 1) && (tb->lbytes < 1 || tb->rbytes != -1), "PAP-12060: bad rbytes (%d)/lbytes (%d) " "parameters when items are split", tb->rbytes, tb->lbytes); leaf_shift_left(tb, tb->lnum[0], tb->lbytes); leaf_shift_right(tb, tb->rnum[0], tb->rbytes); reiserfs_invalidate_buffer(tb, tbS0); return 0; } /* * Balance leaf node in case of delete or cut: insert_size[0] < 0 * * lnum, rnum can have values >= -1 * -1 means that the neighbor must be joined with S * 0 means that nothing should be done with the neighbor * >0 means to shift entirely or partly the specified number of items * to the neighbor */ static int balance_leaf_when_delete(struct tree_balance *tb, int flag) { struct buffer_head *tbS0 = PATH_PLAST_BUFFER(tb->tb_path); struct buffer_info bi; int n; RFALSE(tb->FR[0] && B_LEVEL(tb->FR[0]) != DISK_LEAF_NODE_LEVEL + 1, "vs- 12000: level: wrong FR %z", tb->FR[0]); RFALSE(tb->blknum[0] > 1, "PAP-12005: tb->blknum == %d, can not be > 1", tb->blknum[0]); RFALSE(!tb->blknum[0] && !PATH_H_PPARENT(tb->tb_path, 0), "PAP-12010: tree can not be empty"); buffer_info_init_tbS0(tb, &bi); /* Delete or truncate the item */ BUG_ON(flag != M_DELETE && flag != M_CUT); if (flag == M_DELETE) balance_leaf_when_delete_del(tb); else /* M_CUT */ balance_leaf_when_delete_cut(tb); /* * the rule is that no shifting occurs unless by shifting * a node can be freed */ n = B_NR_ITEMS(tbS0); /* L[0] takes part in balancing */ if (tb->lnum[0]) return balance_leaf_when_delete_left(tb); if (tb->rnum[0] == -1) { /* all contents of R[0] and S[0] will be in R[0] */ leaf_shift_right(tb, n, -1); reiserfs_invalidate_buffer(tb, tbS0); return 0; } RFALSE(tb->rnum[0], "PAP-12065: bad rnum parameter must be 0 (%d)", tb->rnum[0]); return 0; } static unsigned int balance_leaf_insert_left(struct tree_balance *tb, struct item_head *const ih, const char * const body) { int ret; struct buffer_info bi; int n = B_NR_ITEMS(tb->L[0]); unsigned body_shift_bytes = 0; if (tb->item_pos == tb->lnum[0] - 1 && tb->lbytes != -1) { /* part of new item falls into L[0] */ int new_item_len, shift; ret = leaf_shift_left(tb, tb->lnum[0] - 1, -1); /* Calculate item length to insert to S[0] */ new_item_len = ih_item_len(ih) - tb->lbytes; /* Calculate and check item length to insert to L[0] */ put_ih_item_len(ih, ih_item_len(ih) - new_item_len); RFALSE(ih_item_len(ih) <= 0, "PAP-12080: there is nothing to insert into L[0]: " "ih_item_len=%d", ih_item_len(ih)); /* Insert new item into L[0] */ buffer_info_init_left(tb, &bi); leaf_insert_into_buf(&bi, n + tb->item_pos - ret, ih, body, min_t(int, tb->zeroes_num, ih_item_len(ih))); /* * Calculate key component, item length and body to * insert into S[0] */ shift = 0; if (is_indirect_le_ih(ih)) shift = tb->tb_sb->s_blocksize_bits - UNFM_P_SHIFT; add_le_ih_k_offset(ih, tb->lbytes << shift); put_ih_item_len(ih, new_item_len); if (tb->lbytes > tb->zeroes_num) { body_shift_bytes = tb->lbytes - tb->zeroes_num; tb->zeroes_num = 0; } else tb->zeroes_num -= tb->lbytes; RFALSE(ih_item_len(ih) <= 0, "PAP-12085: there is nothing to insert into S[0]: " "ih_item_len=%d", ih_item_len(ih)); } else { /* new item in whole falls into L[0] */ /* Shift lnum[0]-1 items to L[0] */ ret = leaf_shift_left(tb, tb->lnum[0] - 1, tb->lbytes); /* Insert new item into L[0] */ buffer_info_init_left(tb, &bi); leaf_insert_into_buf(&bi, n + tb->item_pos - ret, ih, body, tb->zeroes_num); tb->insert_size[0] = 0; tb->zeroes_num = 0; } return body_shift_bytes; } static void balance_leaf_paste_left_shift_dirent(struct tree_balance *tb, struct item_head * const ih, const char * const body) { int n = B_NR_ITEMS(tb->L[0]); struct buffer_info bi; RFALSE(tb->zeroes_num, "PAP-12090: invalid parameter in case of a directory"); /* directory item */ if (tb->lbytes > tb->pos_in_item) { /* new directory entry falls into L[0] */ struct item_head *pasted; int ret, l_pos_in_item = tb->pos_in_item; /* * Shift lnum[0] - 1 items in whole. * Shift lbytes - 1 entries from given directory item */ ret = leaf_shift_left(tb, tb->lnum[0], tb->lbytes - 1); if (ret && !tb->item_pos) { pasted = item_head(tb->L[0], B_NR_ITEMS(tb->L[0]) - 1); l_pos_in_item += ih_entry_count(pasted) - (tb->lbytes - 1); } /* Append given directory entry to directory item */ buffer_info_init_left(tb, &bi); leaf_paste_in_buffer(&bi, n + tb->item_pos - ret, l_pos_in_item, tb->insert_size[0], body, tb->zeroes_num); /* * previous string prepared space for pasting new entry, * following string pastes this entry */ /* * when we have merge directory item, pos_in_item * has been changed too */ /* paste new directory entry. 1 is entry number */ leaf_paste_entries(&bi, n + tb->item_pos - ret, l_pos_in_item, 1, (struct reiserfs_de_head *) body, body + DEH_SIZE, tb->insert_size[0]); tb->insert_size[0] = 0; } else { /* new directory item doesn't fall into L[0] */ /* * Shift lnum[0]-1 items in whole. Shift lbytes * directory entries from directory item number lnum[0] */ leaf_shift_left(tb, tb->lnum[0], tb->lbytes); } /* Calculate new position to append in item body */ tb->pos_in_item -= tb->lbytes; } static unsigned int balance_leaf_paste_left_shift(struct tree_balance *tb, struct item_head * const ih, const char * const body) { struct buffer_head *tbS0 = PATH_PLAST_BUFFER(tb->tb_path); int n = B_NR_ITEMS(tb->L[0]); struct buffer_info bi; int body_shift_bytes = 0; if (is_direntry_le_ih(item_head(tbS0, tb->item_pos))) { balance_leaf_paste_left_shift_dirent(tb, ih, body); return 0; } RFALSE(tb->lbytes <= 0, "PAP-12095: there is nothing to shift to L[0]. " "lbytes=%d", tb->lbytes); RFALSE(tb->pos_in_item != ih_item_len(item_head(tbS0, tb->item_pos)), "PAP-12100: incorrect position to paste: " "item_len=%d, pos_in_item=%d", ih_item_len(item_head(tbS0, tb->item_pos)), tb->pos_in_item); /* appended item will be in L[0] in whole */ if (tb->lbytes >= tb->pos_in_item) { struct item_head *tbS0_pos_ih, *tbL0_ih; struct item_head *tbS0_0_ih; struct reiserfs_key *left_delim_key; int ret, l_n, version, temp_l; tbS0_pos_ih = item_head(tbS0, tb->item_pos); tbS0_0_ih = item_head(tbS0, 0); /* * this bytes number must be appended * to the last item of L[h] */ l_n = tb->lbytes - tb->pos_in_item; /* Calculate new insert_size[0] */ tb->insert_size[0] -= l_n; RFALSE(tb->insert_size[0] <= 0, "PAP-12105: there is nothing to paste into " "L[0]. insert_size=%d", tb->insert_size[0]); ret = leaf_shift_left(tb, tb->lnum[0], ih_item_len(tbS0_pos_ih)); tbL0_ih = item_head(tb->L[0], n + tb->item_pos - ret); /* Append to body of item in L[0] */ buffer_info_init_left(tb, &bi); leaf_paste_in_buffer(&bi, n + tb->item_pos - ret, ih_item_len(tbL0_ih), l_n, body, min_t(int, l_n, tb->zeroes_num)); /* * 0-th item in S0 can be only of DIRECT type * when l_n != 0 */ temp_l = l_n; RFALSE(ih_item_len(tbS0_0_ih), "PAP-12106: item length must be 0"); RFALSE(comp_short_le_keys(&tbS0_0_ih->ih_key, leaf_key(tb->L[0], n + tb->item_pos - ret)), "PAP-12107: items must be of the same file"); if (is_indirect_le_ih(tbL0_ih)) { int shift = tb->tb_sb->s_blocksize_bits - UNFM_P_SHIFT; temp_l = l_n << shift; } /* update key of first item in S0 */ version = ih_version(tbS0_0_ih); add_le_key_k_offset(version, &tbS0_0_ih->ih_key, temp_l); /* update left delimiting key */ left_delim_key = internal_key(tb->CFL[0], tb->lkey[0]); add_le_key_k_offset(version, left_delim_key, temp_l); /* * Calculate new body, position in item and * insert_size[0] */ if (l_n > tb->zeroes_num) { body_shift_bytes = l_n - tb->zeroes_num; tb->zeroes_num = 0; } else tb->zeroes_num -= l_n; tb->pos_in_item = 0; RFALSE(comp_short_le_keys(&tbS0_0_ih->ih_key, leaf_key(tb->L[0], B_NR_ITEMS(tb->L[0]) - 1)) || !op_is_left_mergeable(leaf_key(tbS0, 0), tbS0->b_size) || !op_is_left_mergeable(left_delim_key, tbS0->b_size), "PAP-12120: item must be merge-able with left " "neighboring item"); } else { /* only part of the appended item will be in L[0] */ /* Calculate position in item for append in S[0] */ tb->pos_in_item -= tb->lbytes; RFALSE(tb->pos_in_item <= 0, "PAP-12125: no place for paste. pos_in_item=%d", tb->pos_in_item); /* * Shift lnum[0] - 1 items in whole. * Shift lbytes - 1 byte from item number lnum[0] */ leaf_shift_left(tb, tb->lnum[0], tb->lbytes); } return body_shift_bytes; } /* appended item will be in L[0] in whole */ static void balance_leaf_paste_left_whole(struct tree_balance *tb, struct item_head * const ih, const char * const body) { struct buffer_head *tbS0 = PATH_PLAST_BUFFER(tb->tb_path); int n = B_NR_ITEMS(tb->L[0]); struct buffer_info bi; struct item_head *pasted; int ret; /* if we paste into first item of S[0] and it is left mergable */ if (!tb->item_pos && op_is_left_mergeable(leaf_key(tbS0, 0), tbS0->b_size)) { /* * then increment pos_in_item by the size of the * last item in L[0] */ pasted = item_head(tb->L[0], n - 1); if (is_direntry_le_ih(pasted)) tb->pos_in_item += ih_entry_count(pasted); else tb->pos_in_item += ih_item_len(pasted); } /* * Shift lnum[0] - 1 items in whole. * Shift lbytes - 1 byte from item number lnum[0] */ ret = leaf_shift_left(tb, tb->lnum[0], tb->lbytes); /* Append to body of item in L[0] */ buffer_info_init_left(tb, &bi); leaf_paste_in_buffer(&bi, n + tb->item_pos - ret, tb->pos_in_item, tb->insert_size[0], body, tb->zeroes_num); /* if appended item is directory, paste entry */ pasted = item_head(tb->L[0], n + tb->item_pos - ret); if (is_direntry_le_ih(pasted)) leaf_paste_entries(&bi, n + tb->item_pos - ret, tb->pos_in_item, 1, (struct reiserfs_de_head *)body, body + DEH_SIZE, tb->insert_size[0]); /* * if appended item is indirect item, put unformatted node * into un list */ if (is_indirect_le_ih(pasted)) set_ih_free_space(pasted, 0); tb->insert_size[0] = 0; tb->zeroes_num = 0; } static unsigned int balance_leaf_paste_left(struct tree_balance *tb, struct item_head * const ih, const char * const body) { /* we must shift the part of the appended item */ if (tb->item_pos == tb->lnum[0] - 1 && tb->lbytes != -1) return balance_leaf_paste_left_shift(tb, ih, body); else balance_leaf_paste_left_whole(tb, ih, body); return 0; } /* Shift lnum[0] items from S[0] to the left neighbor L[0] */ static unsigned int balance_leaf_left(struct tree_balance *tb, struct item_head * const ih, const char * const body, int flag) { if (tb->lnum[0] <= 0) return 0; /* new item or it part falls to L[0], shift it too */ if (tb->item_pos < tb->lnum[0]) { BUG_ON(flag != M_INSERT && flag != M_PASTE); if (flag == M_INSERT) return balance_leaf_insert_left(tb, ih, body); else /* M_PASTE */ return balance_leaf_paste_left(tb, ih, body); } else /* new item doesn't fall into L[0] */ leaf_shift_left(tb, tb->lnum[0], tb->lbytes); return 0; } static void balance_leaf_insert_right(struct tree_balance *tb, struct item_head * const ih, const char * const body) { struct buffer_head *tbS0 = PATH_PLAST_BUFFER(tb->tb_path); int n = B_NR_ITEMS(tbS0); struct buffer_info bi; /* new item or part of it doesn't fall into R[0] */ if (n - tb->rnum[0] >= tb->item_pos) { leaf_shift_right(tb, tb->rnum[0], tb->rbytes); return; } /* new item or its part falls to R[0] */ /* part of new item falls into R[0] */ if (tb->item_pos == n - tb->rnum[0] + 1 && tb->rbytes != -1) { loff_t old_key_comp, old_len, r_zeroes_number; const char *r_body; int shift; loff_t offset; leaf_shift_right(tb, tb->rnum[0] - 1, -1); /* Remember key component and item length */ old_key_comp = le_ih_k_offset(ih); old_len = ih_item_len(ih); /* * Calculate key component and item length to insert * into R[0] */ shift = 0; if (is_indirect_le_ih(ih)) shift = tb->tb_sb->s_blocksize_bits - UNFM_P_SHIFT; offset = le_ih_k_offset(ih) + ((old_len - tb->rbytes) << shift); set_le_ih_k_offset(ih, offset); put_ih_item_len(ih, tb->rbytes); /* Insert part of the item into R[0] */ buffer_info_init_right(tb, &bi); if ((old_len - tb->rbytes) > tb->zeroes_num) { r_zeroes_number = 0; r_body = body + (old_len - tb->rbytes) - tb->zeroes_num; } else { r_body = body; r_zeroes_number = tb->zeroes_num - (old_len - tb->rbytes); tb->zeroes_num -= r_zeroes_number; } leaf_insert_into_buf(&bi, 0, ih, r_body, r_zeroes_number); /* Replace right delimiting key by first key in R[0] */ replace_key(tb, tb->CFR[0], tb->rkey[0], tb->R[0], 0); /* * Calculate key component and item length to * insert into S[0] */ set_le_ih_k_offset(ih, old_key_comp); put_ih_item_len(ih, old_len - tb->rbytes); tb->insert_size[0] -= tb->rbytes; } else { /* whole new item falls into R[0] */ /* Shift rnum[0]-1 items to R[0] */ leaf_shift_right(tb, tb->rnum[0] - 1, tb->rbytes); /* Insert new item into R[0] */ buffer_info_init_right(tb, &bi); leaf_insert_into_buf(&bi, tb->item_pos - n + tb->rnum[0] - 1, ih, body, tb->zeroes_num); if (tb->item_pos - n + tb->rnum[0] - 1 == 0) replace_key(tb, tb->CFR[0], tb->rkey[0], tb->R[0], 0); tb->zeroes_num = tb->insert_size[0] = 0; } } static void balance_leaf_paste_right_shift_dirent(struct tree_balance *tb, struct item_head * const ih, const char * const body) { struct buffer_head *tbS0 = PATH_PLAST_BUFFER(tb->tb_path); struct buffer_info bi; int entry_count; RFALSE(tb->zeroes_num, "PAP-12145: invalid parameter in case of a directory"); entry_count = ih_entry_count(item_head(tbS0, tb->item_pos)); /* new directory entry falls into R[0] */ if (entry_count - tb->rbytes < tb->pos_in_item) { int paste_entry_position; RFALSE(tb->rbytes - 1 >= entry_count || !tb->insert_size[0], "PAP-12150: no enough of entries to shift to R[0]: " "rbytes=%d, entry_count=%d", tb->rbytes, entry_count); /* * Shift rnum[0]-1 items in whole. * Shift rbytes-1 directory entries from directory * item number rnum[0] */ leaf_shift_right(tb, tb->rnum[0], tb->rbytes - 1); /* Paste given directory entry to directory item */ paste_entry_position = tb->pos_in_item - entry_count + tb->rbytes - 1; buffer_info_init_right(tb, &bi); leaf_paste_in_buffer(&bi, 0, paste_entry_position, tb->insert_size[0], body, tb->zeroes_num); /* paste entry */ leaf_paste_entries(&bi, 0, paste_entry_position, 1, (struct reiserfs_de_head *) body, body + DEH_SIZE, tb->insert_size[0]); /* change delimiting keys */ if (paste_entry_position == 0) replace_key(tb, tb->CFR[0], tb->rkey[0], tb->R[0], 0); tb->insert_size[0] = 0; tb->pos_in_item++; } else { /* new directory entry doesn't fall into R[0] */ leaf_shift_right(tb, tb->rnum[0], tb->rbytes); } } static void balance_leaf_paste_right_shift(struct tree_balance *tb, struct item_head * const ih, const char * const body) { struct buffer_head *tbS0 = PATH_PLAST_BUFFER(tb->tb_path); int n_shift, n_rem, r_zeroes_number, version; unsigned long temp_rem; const char *r_body; struct buffer_info bi; /* we append to directory item */ if (is_direntry_le_ih(item_head(tbS0, tb->item_pos))) { balance_leaf_paste_right_shift_dirent(tb, ih, body); return; } /* regular object */ /* * Calculate number of bytes which must be shifted * from appended item */ n_shift = tb->rbytes - tb->insert_size[0]; if (n_shift < 0) n_shift = 0; RFALSE(tb->pos_in_item != ih_item_len(item_head(tbS0, tb->item_pos)), "PAP-12155: invalid position to paste. ih_item_len=%d, " "pos_in_item=%d", tb->pos_in_item, ih_item_len(item_head(tbS0, tb->item_pos))); leaf_shift_right(tb, tb->rnum[0], n_shift); /* * Calculate number of bytes which must remain in body * after appending to R[0] */ n_rem = tb->insert_size[0] - tb->rbytes; if (n_rem < 0) n_rem = 0; temp_rem = n_rem; version = ih_version(item_head(tb->R[0], 0)); if (is_indirect_le_key(version, leaf_key(tb->R[0], 0))) { int shift = tb->tb_sb->s_blocksize_bits - UNFM_P_SHIFT; temp_rem = n_rem << shift; } add_le_key_k_offset(version, leaf_key(tb->R[0], 0), temp_rem); add_le_key_k_offset(version, internal_key(tb->CFR[0], tb->rkey[0]), temp_rem); do_balance_mark_internal_dirty(tb, tb->CFR[0], 0); /* Append part of body into R[0] */ buffer_info_init_right(tb, &bi); if (n_rem > tb->zeroes_num) { r_zeroes_number = 0; r_body = body + n_rem - tb->zeroes_num; } else { r_body = body; r_zeroes_number = tb->zeroes_num - n_rem; tb->zeroes_num -= r_zeroes_number; } leaf_paste_in_buffer(&bi, 0, n_shift, tb->insert_size[0] - n_rem, r_body, r_zeroes_number); if (is_indirect_le_ih(item_head(tb->R[0], 0))) set_ih_free_space(item_head(tb->R[0], 0), 0); tb->insert_size[0] = n_rem; if (!n_rem) tb->pos_in_item++; } static void balance_leaf_paste_right_whole(struct tree_balance *tb, struct item_head * const ih, const char * const body) { struct buffer_head *tbS0 = PATH_PLAST_BUFFER(tb->tb_path); int n = B_NR_ITEMS(tbS0); struct item_head *pasted; struct buffer_info bi; buffer_info_init_right(tb, &bi); leaf_shift_right(tb, tb->rnum[0], tb->rbytes); /* append item in R[0] */ if (tb->pos_in_item >= 0) { buffer_info_init_right(tb, &bi); leaf_paste_in_buffer(&bi, tb->item_pos - n + tb->rnum[0], tb->pos_in_item, tb->insert_size[0], body, tb->zeroes_num); } /* paste new entry, if item is directory item */ pasted = item_head(tb->R[0], tb->item_pos - n + tb->rnum[0]); if (is_direntry_le_ih(pasted) && tb->pos_in_item >= 0) { leaf_paste_entries(&bi, tb->item_pos - n + tb->rnum[0], tb->pos_in_item, 1, (struct reiserfs_de_head *)body, body + DEH_SIZE, tb->insert_size[0]); if (!tb->pos_in_item) { RFALSE(tb->item_pos - n + tb->rnum[0], "PAP-12165: directory item must be first " "item of node when pasting is in 0th position"); /* update delimiting keys */ replace_key(tb, tb->CFR[0], tb->rkey[0], tb->R[0], 0); } } if (is_indirect_le_ih(pasted)) set_ih_free_space(pasted, 0); tb->zeroes_num = tb->insert_size[0] = 0; } static void balance_leaf_paste_right(struct tree_balance *tb, struct item_head * const ih, const char * const body) { struct buffer_head *tbS0 = PATH_PLAST_BUFFER(tb->tb_path); int n = B_NR_ITEMS(tbS0); /* new item doesn't fall into R[0] */ if (n - tb->rnum[0] > tb->item_pos) { leaf_shift_right(tb, tb->rnum[0], tb->rbytes); return; } /* pasted item or part of it falls to R[0] */ if (tb->item_pos == n - tb->rnum[0] && tb->rbytes != -1) /* we must shift the part of the appended item */ balance_leaf_paste_right_shift(tb, ih, body); else /* pasted item in whole falls into R[0] */ balance_leaf_paste_right_whole(tb, ih, body); } /* shift rnum[0] items from S[0] to the right neighbor R[0] */ static void balance_leaf_right(struct tree_balance *tb, struct item_head * const ih, const char * const body, int flag) { if (tb->rnum[0] <= 0) return; BUG_ON(flag != M_INSERT && flag != M_PASTE); if (flag == M_INSERT) balance_leaf_insert_right(tb, ih, body); else /* M_PASTE */ balance_leaf_paste_right(tb, ih, body); } static void balance_leaf_new_nodes_insert(struct tree_balance *tb, struct item_head * const ih, const char * const body, struct item_head *insert_key, struct buffer_head **insert_ptr, int i) { struct buffer_head *tbS0 = PATH_PLAST_BUFFER(tb->tb_path); int n = B_NR_ITEMS(tbS0); struct buffer_info bi; int shift; /* new item or it part don't falls into S_new[i] */ if (n - tb->snum[i] >= tb->item_pos) { leaf_move_items(LEAF_FROM_S_TO_SNEW, tb, tb->snum[i], tb->sbytes[i], tb->S_new[i]); return; } /* new item or it's part falls to first new node S_new[i] */ /* part of new item falls into S_new[i] */ if (tb->item_pos == n - tb->snum[i] + 1 && tb->sbytes[i] != -1) { int old_key_comp, old_len, r_zeroes_number; const char *r_body; /* Move snum[i]-1 items from S[0] to S_new[i] */ leaf_move_items(LEAF_FROM_S_TO_SNEW, tb, tb->snum[i] - 1, -1, tb->S_new[i]); /* Remember key component and item length */ old_key_comp = le_ih_k_offset(ih); old_len = ih_item_len(ih); /* * Calculate key component and item length to insert * into S_new[i] */ shift = 0; if (is_indirect_le_ih(ih)) shift = tb->tb_sb->s_blocksize_bits - UNFM_P_SHIFT; set_le_ih_k_offset(ih, le_ih_k_offset(ih) + ((old_len - tb->sbytes[i]) << shift)); put_ih_item_len(ih, tb->sbytes[i]); /* Insert part of the item into S_new[i] before 0-th item */ buffer_info_init_bh(tb, &bi, tb->S_new[i]); if ((old_len - tb->sbytes[i]) > tb->zeroes_num) { r_zeroes_number = 0; r_body = body + (old_len - tb->sbytes[i]) - tb->zeroes_num; } else { r_body = body; r_zeroes_number = tb->zeroes_num - (old_len - tb->sbytes[i]); tb->zeroes_num -= r_zeroes_number; } leaf_insert_into_buf(&bi, 0, ih, r_body, r_zeroes_number); /* * Calculate key component and item length to * insert into S[i] */ set_le_ih_k_offset(ih, old_key_comp); put_ih_item_len(ih, old_len - tb->sbytes[i]); tb->insert_size[0] -= tb->sbytes[i]; } else { /* whole new item falls into S_new[i] */ /* * Shift snum[0] - 1 items to S_new[i] * (sbytes[i] of split item) */ leaf_move_items(LEAF_FROM_S_TO_SNEW, tb, tb->snum[i] - 1, tb->sbytes[i], tb->S_new[i]); /* Insert new item into S_new[i] */ buffer_info_init_bh(tb, &bi, tb->S_new[i]); leaf_insert_into_buf(&bi, tb->item_pos - n + tb->snum[i] - 1, ih, body, tb->zeroes_num); tb->zeroes_num = tb->insert_size[0] = 0; } } /* we append to directory item */ static void balance_leaf_new_nodes_paste_dirent(struct tree_balance *tb, struct item_head * const ih, const char * const body, struct item_head *insert_key, struct buffer_head **insert_ptr, int i) { struct buffer_head *tbS0 = PATH_PLAST_BUFFER(tb->tb_path); struct item_head *aux_ih = item_head(tbS0, tb->item_pos); int entry_count = ih_entry_count(aux_ih); struct buffer_info bi; if (entry_count - tb->sbytes[i] < tb->pos_in_item && tb->pos_in_item <= entry_count) { /* new directory entry falls into S_new[i] */ RFALSE(!tb->insert_size[0], "PAP-12215: insert_size is already 0"); RFALSE(tb->sbytes[i] - 1 >= entry_count, "PAP-12220: there are no so much entries (%d), only %d", tb->sbytes[i] - 1, entry_count); /* * Shift snum[i]-1 items in whole. * Shift sbytes[i] directory entries * from directory item number snum[i] */ leaf_move_items(LEAF_FROM_S_TO_SNEW, tb, tb->snum[i], tb->sbytes[i] - 1, tb->S_new[i]); /* * Paste given directory entry to * directory item */ buffer_info_init_bh(tb, &bi, tb->S_new[i]); leaf_paste_in_buffer(&bi, 0, tb->pos_in_item - entry_count + tb->sbytes[i] - 1, tb->insert_size[0], body, tb->zeroes_num); /* paste new directory entry */ leaf_paste_entries(&bi, 0, tb->pos_in_item - entry_count + tb->sbytes[i] - 1, 1, (struct reiserfs_de_head *) body, body + DEH_SIZE, tb->insert_size[0]); tb->insert_size[0] = 0; tb->pos_in_item++; } else { /* new directory entry doesn't fall into S_new[i] */ leaf_move_items(LEAF_FROM_S_TO_SNEW, tb, tb->snum[i], tb->sbytes[i], tb->S_new[i]); } } static void balance_leaf_new_nodes_paste_shift(struct tree_balance *tb, struct item_head * const ih, const char * const body, struct item_head *insert_key, struct buffer_head **insert_ptr, int i) { struct buffer_head *tbS0 = PATH_PLAST_BUFFER(tb->tb_path); struct item_head *aux_ih = item_head(tbS0, tb->item_pos); int n_shift, n_rem, r_zeroes_number, shift; const char *r_body; struct item_head *tmp; struct buffer_info bi; RFALSE(ih, "PAP-12210: ih must be 0"); if (is_direntry_le_ih(aux_ih)) { balance_leaf_new_nodes_paste_dirent(tb, ih, body, insert_key, insert_ptr, i); return; } /* regular object */ RFALSE(tb->pos_in_item != ih_item_len(item_head(tbS0, tb->item_pos)) || tb->insert_size[0] <= 0, "PAP-12225: item too short or insert_size <= 0"); /* * Calculate number of bytes which must be shifted from appended item */ n_shift = tb->sbytes[i] - tb->insert_size[0]; if (n_shift < 0) n_shift = 0; leaf_move_items(LEAF_FROM_S_TO_SNEW, tb, tb->snum[i], n_shift, tb->S_new[i]); /* * Calculate number of bytes which must remain in body after * append to S_new[i] */ n_rem = tb->insert_size[0] - tb->sbytes[i]; if (n_rem < 0) n_rem = 0; /* Append part of body into S_new[0] */ buffer_info_init_bh(tb, &bi, tb->S_new[i]); if (n_rem > tb->zeroes_num) { r_zeroes_number = 0; r_body = body + n_rem - tb->zeroes_num; } else { r_body = body; r_zeroes_number = tb->zeroes_num - n_rem; tb->zeroes_num -= r_zeroes_number; } leaf_paste_in_buffer(&bi, 0, n_shift, tb->insert_size[0] - n_rem, r_body, r_zeroes_number); tmp = item_head(tb->S_new[i], 0); shift = 0; if (is_indirect_le_ih(tmp)) { set_ih_free_space(tmp, 0); shift = tb->tb_sb->s_blocksize_bits - UNFM_P_SHIFT; } add_le_ih_k_offset(tmp, n_rem << shift); tb->insert_size[0] = n_rem; if (!n_rem) tb->pos_in_item++; } static void balance_leaf_new_nodes_paste_whole(struct tree_balance *tb, struct item_head * const ih, const char * const body, struct item_head *insert_key, struct buffer_head **insert_ptr, int i) { struct buffer_head *tbS0 = PATH_PLAST_BUFFER(tb->tb_path); int n = B_NR_ITEMS(tbS0); int leaf_mi; struct item_head *pasted; struct buffer_info bi; #ifdef CONFIG_REISERFS_CHECK struct item_head *ih_check = item_head(tbS0, tb->item_pos); if (!is_direntry_le_ih(ih_check) && (tb->pos_in_item != ih_item_len(ih_check) || tb->insert_size[0] <= 0)) reiserfs_panic(tb->tb_sb, "PAP-12235", "pos_in_item must be equal to ih_item_len"); #endif leaf_mi = leaf_move_items(LEAF_FROM_S_TO_SNEW, tb, tb->snum[i], tb->sbytes[i], tb->S_new[i]); RFALSE(leaf_mi, "PAP-12240: unexpected value returned by leaf_move_items (%d)", leaf_mi); /* paste into item */ buffer_info_init_bh(tb, &bi, tb->S_new[i]); leaf_paste_in_buffer(&bi, tb->item_pos - n + tb->snum[i], tb->pos_in_item, tb->insert_size[0], body, tb->zeroes_num); pasted = item_head(tb->S_new[i], tb->item_pos - n + tb->snum[i]); if (is_direntry_le_ih(pasted)) leaf_paste_entries(&bi, tb->item_pos - n + tb->snum[i], tb->pos_in_item, 1, (struct reiserfs_de_head *)body, body + DEH_SIZE, tb->insert_size[0]); /* if we paste to indirect item update ih_free_space */ if (is_indirect_le_ih(pasted)) set_ih_free_space(pasted, 0); tb->zeroes_num = tb->insert_size[0] = 0; } static void balance_leaf_new_nodes_paste(struct tree_balance *tb, struct item_head * const ih, const char * const body, struct item_head *insert_key, struct buffer_head **insert_ptr, int i) { struct buffer_head *tbS0 = PATH_PLAST_BUFFER(tb->tb_path); int n = B_NR_ITEMS(tbS0); /* pasted item doesn't fall into S_new[i] */ if (n - tb->snum[i] > tb->item_pos) { leaf_move_items(LEAF_FROM_S_TO_SNEW, tb, tb->snum[i], tb->sbytes[i], tb->S_new[i]); return; } /* pasted item or part if it falls to S_new[i] */ if (tb->item_pos == n - tb->snum[i] && tb->sbytes[i] != -1) /* we must shift part of the appended item */ balance_leaf_new_nodes_paste_shift(tb, ih, body, insert_key, insert_ptr, i); else /* item falls wholly into S_new[i] */ balance_leaf_new_nodes_paste_whole(tb, ih, body, insert_key, insert_ptr, i); } /* Fill new nodes that appear in place of S[0] */ static void balance_leaf_new_nodes(struct tree_balance *tb, struct item_head * const ih, const char * const body, struct item_head *insert_key, struct buffer_head **insert_ptr, int flag) { int i; for (i = tb->blknum[0] - 2; i >= 0; i--) { BUG_ON(flag != M_INSERT && flag != M_PASTE); RFALSE(!tb->snum[i], "PAP-12200: snum[%d] == %d. Must be > 0", i, tb->snum[i]); /* here we shift from S to S_new nodes */ tb->S_new[i] = get_FEB(tb); /* initialized block type and tree level */ set_blkh_level(B_BLK_HEAD(tb->S_new[i]), DISK_LEAF_NODE_LEVEL); if (flag == M_INSERT) balance_leaf_new_nodes_insert(tb, ih, body, insert_key, insert_ptr, i); else /* M_PASTE */ balance_leaf_new_nodes_paste(tb, ih, body, insert_key, insert_ptr, i); memcpy(insert_key + i, leaf_key(tb->S_new[i], 0), KEY_SIZE); insert_ptr[i] = tb->S_new[i]; RFALSE(!buffer_journaled(tb->S_new[i]) || buffer_journal_dirty(tb->S_new[i]) || buffer_dirty(tb->S_new[i]), "PAP-12247: S_new[%d] : (%b)", i, tb->S_new[i]); } } static void balance_leaf_finish_node_insert(struct tree_balance *tb, struct item_head * const ih, const char * const body) { struct buffer_head *tbS0 = PATH_PLAST_BUFFER(tb->tb_path); struct buffer_info bi; buffer_info_init_tbS0(tb, &bi); leaf_insert_into_buf(&bi, tb->item_pos, ih, body, tb->zeroes_num); /* If we insert the first key change the delimiting key */ if (tb->item_pos == 0) { if (tb->CFL[0]) /* can be 0 in reiserfsck */ replace_key(tb, tb->CFL[0], tb->lkey[0], tbS0, 0); } } static void balance_leaf_finish_node_paste_dirent(struct tree_balance *tb, struct item_head * const ih, const char * const body) { struct buffer_head *tbS0 = PATH_PLAST_BUFFER(tb->tb_path); struct item_head *pasted = item_head(tbS0, tb->item_pos); struct buffer_info bi; if (tb->pos_in_item >= 0 && tb->pos_in_item <= ih_entry_count(pasted)) { RFALSE(!tb->insert_size[0], "PAP-12260: insert_size is 0 already"); /* prepare space */ buffer_info_init_tbS0(tb, &bi); leaf_paste_in_buffer(&bi, tb->item_pos, tb->pos_in_item, tb->insert_size[0], body, tb->zeroes_num); /* paste entry */ leaf_paste_entries(&bi, tb->item_pos, tb->pos_in_item, 1, (struct reiserfs_de_head *)body, body + DEH_SIZE, tb->insert_size[0]); if (!tb->item_pos && !tb->pos_in_item) { RFALSE(!tb->CFL[0] || !tb->L[0], "PAP-12270: CFL[0]/L[0] must be specified"); if (tb->CFL[0]) replace_key(tb, tb->CFL[0], tb->lkey[0], tbS0, 0); } tb->insert_size[0] = 0; } } static void balance_leaf_finish_node_paste(struct tree_balance *tb, struct item_head * const ih, const char * const body) { struct buffer_head *tbS0 = PATH_PLAST_BUFFER(tb->tb_path); struct buffer_info bi; struct item_head *pasted = item_head(tbS0, tb->item_pos); /* when directory, may be new entry already pasted */ if (is_direntry_le_ih(pasted)) { balance_leaf_finish_node_paste_dirent(tb, ih, body); return; } /* regular object */ if (tb->pos_in_item == ih_item_len(pasted)) { RFALSE(tb->insert_size[0] <= 0, "PAP-12275: insert size must not be %d", tb->insert_size[0]); buffer_info_init_tbS0(tb, &bi); leaf_paste_in_buffer(&bi, tb->item_pos, tb->pos_in_item, tb->insert_size[0], body, tb->zeroes_num); if (is_indirect_le_ih(pasted)) set_ih_free_space(pasted, 0); tb->insert_size[0] = 0; } #ifdef CONFIG_REISERFS_CHECK else if (tb->insert_size[0]) { print_cur_tb("12285"); reiserfs_panic(tb->tb_sb, "PAP-12285", "insert_size must be 0 (%d)", tb->insert_size[0]); } #endif } /* * if the affected item was not wholly shifted then we * perform all necessary operations on that part or whole * of the affected item which remains in S */ static void balance_leaf_finish_node(struct tree_balance *tb, struct item_head * const ih, const char * const body, int flag) { /* if we must insert or append into buffer S[0] */ if (0 <= tb->item_pos && tb->item_pos < tb->s0num) { if (flag == M_INSERT) balance_leaf_finish_node_insert(tb, ih, body); else /* M_PASTE */ balance_leaf_finish_node_paste(tb, ih, body); } } /** * balance_leaf - reiserfs tree balancing algorithm * @tb: tree balance state * @ih: item header of inserted item (little endian) * @body: body of inserted item or bytes to paste * @flag: i - insert, d - delete, c - cut, p - paste (see do_balance) * passed back: * @insert_key: key to insert new nodes * @insert_ptr: array of nodes to insert at the next level * * In our processing of one level we sometimes determine what must be * inserted into the next higher level. This insertion consists of a * key or two keys and their corresponding pointers. */ static int balance_leaf(struct tree_balance *tb, struct item_head *ih, const char *body, int flag, struct item_head *insert_key, struct buffer_head **insert_ptr) { struct buffer_head *tbS0 = PATH_PLAST_BUFFER(tb->tb_path); PROC_INFO_INC(tb->tb_sb, balance_at[0]); /* Make balance in case insert_size[0] < 0 */ if (tb->insert_size[0] < 0) return balance_leaf_when_delete(tb, flag); tb->item_pos = PATH_LAST_POSITION(tb->tb_path), tb->pos_in_item = tb->tb_path->pos_in_item, tb->zeroes_num = 0; if (flag == M_INSERT && !body) tb->zeroes_num = ih_item_len(ih); /* * for indirect item pos_in_item is measured in unformatted node * pointers. Recalculate to bytes */ if (flag != M_INSERT && is_indirect_le_ih(item_head(tbS0, tb->item_pos))) tb->pos_in_item *= UNFM_P_SIZE; body += balance_leaf_left(tb, ih, body, flag); /* tb->lnum[0] > 0 */ /* Calculate new item position */ tb->item_pos -= (tb->lnum[0] - ((tb->lbytes != -1) ? 1 : 0)); balance_leaf_right(tb, ih, body, flag); /* tb->rnum[0] > 0 */ RFALSE(tb->blknum[0] > 3, "PAP-12180: blknum can not be %d. It must be <= 3", tb->blknum[0]); RFALSE(tb->blknum[0] < 0, "PAP-12185: blknum can not be %d. It must be >= 0", tb->blknum[0]); /* * if while adding to a node we discover that it is possible to split * it in two, and merge the left part into the left neighbor and the * right part into the right neighbor, eliminating the node */ if (tb->blknum[0] == 0) { /* node S[0] is empty now */ RFALSE(!tb->lnum[0] || !tb->rnum[0], "PAP-12190: lnum and rnum must not be zero"); /* * if insertion was done before 0-th position in R[0], right * delimiting key of the tb->L[0]'s and left delimiting key are * not set correctly */ if (tb->CFL[0]) { if (!tb->CFR[0]) reiserfs_panic(tb->tb_sb, "vs-12195", "CFR not initialized"); copy_key(internal_key(tb->CFL[0], tb->lkey[0]), internal_key(tb->CFR[0], tb->rkey[0])); do_balance_mark_internal_dirty(tb, tb->CFL[0], 0); } reiserfs_invalidate_buffer(tb, tbS0); return 0; } balance_leaf_new_nodes(tb, ih, body, insert_key, insert_ptr, flag); balance_leaf_finish_node(tb, ih, body, flag); #ifdef CONFIG_REISERFS_CHECK if (flag == M_PASTE && tb->insert_size[0]) { print_cur_tb("12290"); reiserfs_panic(tb->tb_sb, "PAP-12290", "insert_size is still not 0 (%d)", tb->insert_size[0]); } #endif /* Leaf level of the tree is balanced (end of balance_leaf) */ return 0; } /* Make empty node */ void make_empty_node(struct buffer_info *bi) { struct block_head *blkh; RFALSE(bi->bi_bh == NULL, "PAP-12295: pointer to the buffer is NULL"); blkh = B_BLK_HEAD(bi->bi_bh); set_blkh_nr_item(blkh, 0); set_blkh_free_space(blkh, MAX_CHILD_SIZE(bi->bi_bh)); if (bi->bi_parent) B_N_CHILD(bi->bi_parent, bi->bi_position)->dc_size = 0; /* Endian safe if 0 */ } /* Get first empty buffer */ struct buffer_head *get_FEB(struct tree_balance *tb) { int i; struct buffer_info bi; for (i = 0; i < MAX_FEB_SIZE; i++) if (tb->FEB[i] != NULL) break; if (i == MAX_FEB_SIZE) reiserfs_panic(tb->tb_sb, "vs-12300", "FEB list is empty"); buffer_info_init_bh(tb, &bi, tb->FEB[i]); make_empty_node(&bi); set_buffer_uptodate(tb->FEB[i]); tb->used[i] = tb->FEB[i]; tb->FEB[i] = NULL; return tb->used[i]; } /* This is now used because reiserfs_free_block has to be able to schedule. */ static void store_thrown(struct tree_balance *tb, struct buffer_head *bh) { int i; if (buffer_dirty(bh)) reiserfs_warning(tb->tb_sb, "reiserfs-12320", "called with dirty buffer"); for (i = 0; i < ARRAY_SIZE(tb->thrown); i++) if (!tb->thrown[i]) { tb->thrown[i] = bh; get_bh(bh); /* free_thrown puts this */ return; } reiserfs_warning(tb->tb_sb, "reiserfs-12321", "too many thrown buffers"); } static void free_thrown(struct tree_balance *tb) { int i; b_blocknr_t blocknr; for (i = 0; i < ARRAY_SIZE(tb->thrown); i++) { if (tb->thrown[i]) { blocknr = tb->thrown[i]->b_blocknr; if (buffer_dirty(tb->thrown[i])) reiserfs_warning(tb->tb_sb, "reiserfs-12322", "called with dirty buffer %d", blocknr); brelse(tb->thrown[i]); /* incremented in store_thrown */ reiserfs_free_block(tb->transaction_handle, NULL, blocknr, 0); } } } void reiserfs_invalidate_buffer(struct tree_balance *tb, struct buffer_head *bh) { struct block_head *blkh; blkh = B_BLK_HEAD(bh); set_blkh_level(blkh, FREE_LEVEL); set_blkh_nr_item(blkh, 0); clear_buffer_dirty(bh); store_thrown(tb, bh); } /* Replace n_dest'th key in buffer dest by n_src'th key of buffer src.*/ void replace_key(struct tree_balance *tb, struct buffer_head *dest, int n_dest, struct buffer_head *src, int n_src) { RFALSE(dest == NULL || src == NULL, "vs-12305: source or destination buffer is 0 (src=%p, dest=%p)", src, dest); RFALSE(!B_IS_KEYS_LEVEL(dest), "vs-12310: invalid level (%z) for destination buffer. dest must be leaf", dest); RFALSE(n_dest < 0 || n_src < 0, "vs-12315: src(%d) or dest(%d) key number < 0", n_src, n_dest); RFALSE(n_dest >= B_NR_ITEMS(dest) || n_src >= B_NR_ITEMS(src), "vs-12320: src(%d(%d)) or dest(%d(%d)) key number is too big", n_src, B_NR_ITEMS(src), n_dest, B_NR_ITEMS(dest)); if (B_IS_ITEMS_LEVEL(src)) /* source buffer contains leaf node */ memcpy(internal_key(dest, n_dest), item_head(src, n_src), KEY_SIZE); else memcpy(internal_key(dest, n_dest), internal_key(src, n_src), KEY_SIZE); do_balance_mark_internal_dirty(tb, dest, 0); } int get_left_neighbor_position(struct tree_balance *tb, int h) { int Sh_position = PATH_H_POSITION(tb->tb_path, h + 1); RFALSE(PATH_H_PPARENT(tb->tb_path, h) == NULL || tb->FL[h] == NULL, "vs-12325: FL[%d](%p) or F[%d](%p) does not exist", h, tb->FL[h], h, PATH_H_PPARENT(tb->tb_path, h)); if (Sh_position == 0) return B_NR_ITEMS(tb->FL[h]); else return Sh_position - 1; } int get_right_neighbor_position(struct tree_balance *tb, int h) { int Sh_position = PATH_H_POSITION(tb->tb_path, h + 1); RFALSE(PATH_H_PPARENT(tb->tb_path, h) == NULL || tb->FR[h] == NULL, "vs-12330: F[%d](%p) or FR[%d](%p) does not exist", h, PATH_H_PPARENT(tb->tb_path, h), h, tb->FR[h]); if (Sh_position == B_NR_ITEMS(PATH_H_PPARENT(tb->tb_path, h))) return 0; else return Sh_position + 1; } #ifdef CONFIG_REISERFS_CHECK int is_reusable(struct super_block *s, b_blocknr_t block, int bit_value); static void check_internal_node(struct super_block *s, struct buffer_head *bh, char *mes) { struct disk_child *dc; int i; RFALSE(!bh, "PAP-12336: bh == 0"); if (!bh || !B_IS_IN_TREE(bh)) return; RFALSE(!buffer_dirty(bh) && !(buffer_journaled(bh) || buffer_journal_dirty(bh)), "PAP-12337: buffer (%b) must be dirty", bh); dc = B_N_CHILD(bh, 0); for (i = 0; i <= B_NR_ITEMS(bh); i++, dc++) { if (!is_reusable(s, dc_block_number(dc), 1)) { print_cur_tb(mes); reiserfs_panic(s, "PAP-12338", "invalid child pointer %y in %b", dc, bh); } } } static int locked_or_not_in_tree(struct tree_balance *tb, struct buffer_head *bh, char *which) { if ((!buffer_journal_prepared(bh) && buffer_locked(bh)) || !B_IS_IN_TREE(bh)) { reiserfs_warning(tb->tb_sb, "vs-12339", "%s (%b)", which, bh); return 1; } return 0; } static int check_before_balancing(struct tree_balance *tb) { int retval = 0; if (REISERFS_SB(tb->tb_sb)->cur_tb) { reiserfs_panic(tb->tb_sb, "vs-12335", "suspect that schedule " "occurred based on cur_tb not being null at " "this point in code. do_balance cannot properly " "handle concurrent tree accesses on a same " "mount point."); } /* * double check that buffers that we will modify are unlocked. * (fix_nodes should already have prepped all of these for us). */ if (tb->lnum[0]) { retval |= locked_or_not_in_tree(tb, tb->L[0], "L[0]"); retval |= locked_or_not_in_tree(tb, tb->FL[0], "FL[0]"); retval |= locked_or_not_in_tree(tb, tb->CFL[0], "CFL[0]"); check_leaf(tb->L[0]); } if (tb->rnum[0]) { retval |= locked_or_not_in_tree(tb, tb->R[0], "R[0]"); retval |= locked_or_not_in_tree(tb, tb->FR[0], "FR[0]"); retval |= locked_or_not_in_tree(tb, tb->CFR[0], "CFR[0]"); check_leaf(tb->R[0]); } retval |= locked_or_not_in_tree(tb, PATH_PLAST_BUFFER(tb->tb_path), "S[0]"); check_leaf(PATH_PLAST_BUFFER(tb->tb_path)); return retval; } static void check_after_balance_leaf(struct tree_balance *tb) { if (tb->lnum[0]) { if (B_FREE_SPACE(tb->L[0]) != MAX_CHILD_SIZE(tb->L[0]) - dc_size(B_N_CHILD (tb->FL[0], get_left_neighbor_position(tb, 0)))) { print_cur_tb("12221"); reiserfs_panic(tb->tb_sb, "PAP-12355", "shift to left was incorrect"); } } if (tb->rnum[0]) { if (B_FREE_SPACE(tb->R[0]) != MAX_CHILD_SIZE(tb->R[0]) - dc_size(B_N_CHILD (tb->FR[0], get_right_neighbor_position(tb, 0)))) { print_cur_tb("12222"); reiserfs_panic(tb->tb_sb, "PAP-12360", "shift to right was incorrect"); } } if (PATH_H_PBUFFER(tb->tb_path, 1) && (B_FREE_SPACE(PATH_H_PBUFFER(tb->tb_path, 0)) != (MAX_CHILD_SIZE(PATH_H_PBUFFER(tb->tb_path, 0)) - dc_size(B_N_CHILD(PATH_H_PBUFFER(tb->tb_path, 1), PATH_H_POSITION(tb->tb_path, 1)))))) { int left = B_FREE_SPACE(PATH_H_PBUFFER(tb->tb_path, 0)); int right = (MAX_CHILD_SIZE(PATH_H_PBUFFER(tb->tb_path, 0)) - dc_size(B_N_CHILD(PATH_H_PBUFFER(tb->tb_path, 1), PATH_H_POSITION(tb->tb_path, 1)))); print_cur_tb("12223"); reiserfs_warning(tb->tb_sb, "reiserfs-12363", "B_FREE_SPACE (PATH_H_PBUFFER(tb->tb_path,0)) = %d; " "MAX_CHILD_SIZE (%d) - dc_size( %y, %d ) [%d] = %d", left, MAX_CHILD_SIZE(PATH_H_PBUFFER(tb->tb_path, 0)), PATH_H_PBUFFER(tb->tb_path, 1), PATH_H_POSITION(tb->tb_path, 1), dc_size(B_N_CHILD (PATH_H_PBUFFER(tb->tb_path, 1), PATH_H_POSITION(tb->tb_path, 1))), right); reiserfs_panic(tb->tb_sb, "PAP-12365", "S is incorrect"); } } static void check_leaf_level(struct tree_balance *tb) { check_leaf(tb->L[0]); check_leaf(tb->R[0]); check_leaf(PATH_PLAST_BUFFER(tb->tb_path)); } static void check_internal_levels(struct tree_balance *tb) { int h; /* check all internal nodes */ for (h = 1; tb->insert_size[h]; h++) { check_internal_node(tb->tb_sb, PATH_H_PBUFFER(tb->tb_path, h), "BAD BUFFER ON PATH"); if (tb->lnum[h]) check_internal_node(tb->tb_sb, tb->L[h], "BAD L"); if (tb->rnum[h]) check_internal_node(tb->tb_sb, tb->R[h], "BAD R"); } } #endif /* * Now we have all of the buffers that must be used in balancing of * the tree. We rely on the assumption that schedule() will not occur * while do_balance works. ( Only interrupt handlers are acceptable.) * We balance the tree according to the analysis made before this, * using buffers already obtained. For SMP support it will someday be * necessary to add ordered locking of tb. */ /* * Some interesting rules of balancing: * we delete a maximum of two nodes per level per balancing: we never * delete R, when we delete two of three nodes L, S, R then we move * them into R. * * we only delete L if we are deleting two nodes, if we delete only * one node we delete S * * if we shift leaves then we shift as much as we can: this is a * deliberate policy of extremism in node packing which results in * higher average utilization after repeated random balance operations * at the cost of more memory copies and more balancing as a result of * small insertions to full nodes. * * if we shift internal nodes we try to evenly balance the node * utilization, with consequent less balancing at the cost of lower * utilization. * * one could argue that the policy for directories in leaves should be * that of internal nodes, but we will wait until another day to * evaluate this.... It would be nice to someday measure and prove * these assumptions as to what is optimal.... */ static inline void do_balance_starts(struct tree_balance *tb) { /* use print_cur_tb() to see initial state of struct tree_balance */ /* store_print_tb (tb); */ /* do not delete, just comment it out */ /* print_tb(flag, PATH_LAST_POSITION(tb->tb_path), tb->tb_path->pos_in_item, tb, "check"); */ RFALSE(check_before_balancing(tb), "PAP-12340: locked buffers in TB"); #ifdef CONFIG_REISERFS_CHECK REISERFS_SB(tb->tb_sb)->cur_tb = tb; #endif } static inline void do_balance_completed(struct tree_balance *tb) { #ifdef CONFIG_REISERFS_CHECK check_leaf_level(tb); check_internal_levels(tb); REISERFS_SB(tb->tb_sb)->cur_tb = NULL; #endif /* * reiserfs_free_block is no longer schedule safe. So, we need to * put the buffers we want freed on the thrown list during do_balance, * and then free them now */ REISERFS_SB(tb->tb_sb)->s_do_balance++; /* release all nodes hold to perform the balancing */ unfix_nodes(tb); free_thrown(tb); } /* * do_balance - balance the tree * * @tb: tree_balance structure * @ih: item header of inserted item * @body: body of inserted item or bytes to paste * @flag: 'i' - insert, 'd' - delete, 'c' - cut, 'p' paste * * Cut means delete part of an item (includes removing an entry from a * directory). * * Delete means delete whole item. * * Insert means add a new item into the tree. * * Paste means to append to the end of an existing file or to * insert a directory entry. */ void do_balance(struct tree_balance *tb, struct item_head *ih, const char *body, int flag) { int child_pos; /* position of a child node in its parent */ int h; /* level of the tree being processed */ /* * in our processing of one level we sometimes determine what * must be inserted into the next higher level. This insertion * consists of a key or two keys and their corresponding * pointers */ struct item_head insert_key[2]; /* inserted node-ptrs for the next level */ struct buffer_head *insert_ptr[2]; tb->tb_mode = flag; tb->need_balance_dirty = 0; if (FILESYSTEM_CHANGED_TB(tb)) { reiserfs_panic(tb->tb_sb, "clm-6000", "fs generation has " "changed"); } /* if we have no real work to do */ if (!tb->insert_size[0]) { reiserfs_warning(tb->tb_sb, "PAP-12350", "insert_size == 0, mode == %c", flag); unfix_nodes(tb); return; } atomic_inc(&fs_generation(tb->tb_sb)); do_balance_starts(tb); /* * balance_leaf returns 0 except if combining L R and S into * one node. see balance_internal() for explanation of this * line of code. */ child_pos = PATH_H_B_ITEM_ORDER(tb->tb_path, 0) + balance_leaf(tb, ih, body, flag, insert_key, insert_ptr); #ifdef CONFIG_REISERFS_CHECK check_after_balance_leaf(tb); #endif /* Balance internal level of the tree. */ for (h = 1; h < MAX_HEIGHT && tb->insert_size[h]; h++) child_pos = balance_internal(tb, h, child_pos, insert_key, insert_ptr); do_balance_completed(tb); } |