Beispiel #1
0
/*
 * __wt_btcur_search --
 *	Search for a matching record in the tree.
 */
int
__wt_btcur_search(WT_CURSOR_BTREE *cbt)
{
	WT_BTREE *btree;
	WT_CURSOR *cursor;
	WT_DECL_RET;
	WT_SESSION_IMPL *session;
	WT_UPDATE *upd;

	btree = cbt->btree;
	cursor = &cbt->iface;
	session = (WT_SESSION_IMPL *)cursor->session;

	WT_STAT_FAST_CONN_INCR(session, cursor_search);
	WT_STAT_FAST_DATA_INCR(session, cursor_search);

	if (btree->type == BTREE_ROW)
		WT_RET(__cursor_size_chk(session, &cursor->key));

	WT_RET(__cursor_func_init(cbt, 1));

	WT_ERR(btree->type == BTREE_ROW ?
	    __cursor_row_search(session, cbt, 0) :
	    __cursor_col_search(session, cbt));
	if (cbt->compare == 0 && __cursor_valid(cbt, &upd))
		ret = __wt_kv_return(session, cbt, upd);
	else if (__cursor_fix_implicit(btree, cbt)) {
		/*
		 * Creating a record past the end of the tree in a fixed-length
		 * column-store implicitly fills the gap with empty records.
		 */
		cbt->recno = cursor->recno;
		cbt->v = 0;
		cursor->value.data = &cbt->v;
		cursor->value.size = 1;
	} else
		ret = WT_NOTFOUND;

err:	if (ret != 0)
		WT_TRET(__cursor_reset(cbt));
	return (ret);
}
Beispiel #2
0
/*
 * __wt_btcur_update --
 *	Update a record in the tree.
 */
int
__wt_btcur_update(WT_CURSOR_BTREE *cbt)
{
	WT_BTREE *btree;
	WT_CURSOR *cursor;
	WT_DECL_RET;
	WT_SESSION_IMPL *session;

	btree = cbt->btree;
	cursor = &cbt->iface;
	session = (WT_SESSION_IMPL *)cursor->session;

	WT_STAT_CONN_INCR(session, cursor_update);
	WT_STAT_DATA_INCR(session, cursor_update);
	WT_STAT_DATA_INCRV(session, cursor_update_bytes, cursor->value.size);

	if (btree->type == BTREE_ROW)
		WT_RET(__cursor_size_chk(session, &cursor->key));
	WT_RET(__cursor_size_chk(session, &cursor->value));

	/*
	 * The tree is no longer empty: eviction should pay attention to it,
	 * and it's no longer possible to bulk-load into it.
	 */
	if (btree->bulk_load_ok) {
		btree->bulk_load_ok = false;
		__wt_btree_evictable(session, true);
	}

retry:	WT_RET(__cursor_func_init(cbt, true));

	switch (btree->type) {
	case BTREE_COL_FIX:
	case BTREE_COL_VAR:
		WT_ERR(__cursor_col_search(session, cbt, NULL));

		/*
		 * If not overwriting, fail if the key doesn't exist.  If we
		 * find an update for the key, check for conflicts.  Update the
		 * record if it exists.  Creating a record past the end of the
		 * tree in a fixed-length column-store implicitly fills the gap
		 * with empty records.  Update the record in that case, the
		 * record exists.
		 */
		if (!F_ISSET(cursor, WT_CURSTD_OVERWRITE)) {
			WT_ERR(__curfile_update_check(cbt));
			if ((cbt->compare != 0 || !__cursor_valid(cbt, NULL)) &&
			    !__cursor_fix_implicit(btree, cbt))
				WT_ERR(WT_NOTFOUND);
		}
		ret = __cursor_col_modify(session, cbt, false);
		break;
	case BTREE_ROW:
		WT_ERR(__cursor_row_search(session, cbt, NULL, true));
		/*
		 * If not overwriting, check for conflicts and fail if the key
		 * does not exist.
		 */
		if (!F_ISSET(cursor, WT_CURSTD_OVERWRITE)) {
			WT_ERR(__curfile_update_check(cbt));
			if (cbt->compare != 0 || !__cursor_valid(cbt, NULL))
				WT_ERR(WT_NOTFOUND);
		}
		ret = __cursor_row_modify(session, cbt, false);
		break;
	}

err:	if (ret == WT_RESTART) {
		WT_STAT_CONN_INCR(session, cursor_restart);
		WT_STAT_DATA_INCR(session, cursor_restart);
		goto retry;
	}

	/*
	 * If successful, point the cursor at internal copies of the data.  We
	 * could shuffle memory in the cursor so the key/value pair are in local
	 * buffer memory, but that's a data copy.  We don't want to do another
	 * search (and we might get a different update structure if we race).
	 * To make this work, we add a field to the btree cursor to pass back a
	 * pointer to the modify function's allocated update structure.
	 */
	if (ret == 0)
		WT_TRET(__wt_kv_return(session, cbt, cbt->modify_update));

	if (ret != 0)
		WT_TRET(__cursor_reset(cbt));
	return (ret);
}
Beispiel #3
0
/*
 * __wt_btcur_remove --
 *	Remove a record from the tree.
 */
int
__wt_btcur_remove(WT_CURSOR_BTREE *cbt)
{
	WT_BTREE *btree;
	WT_CURSOR *cursor;
	WT_DECL_RET;
	WT_SESSION_IMPL *session;

	btree = cbt->btree;
	cursor = &cbt->iface;
	session = (WT_SESSION_IMPL *)cursor->session;

	WT_STAT_CONN_INCR(session, cursor_remove);
	WT_STAT_DATA_INCR(session, cursor_remove);
	WT_STAT_DATA_INCRV(session, cursor_remove_bytes, cursor->key.size);

retry:	WT_RET(__cursor_func_init(cbt, true));

	switch (btree->type) {
	case BTREE_COL_FIX:
	case BTREE_COL_VAR:
		WT_ERR(__cursor_col_search(session, cbt, NULL));

		/*
		 * If we find a matching record, check whether an update would
		 * conflict.  Do this before checking if the update is visible
		 * in __cursor_valid, or we can miss conflict.
		 */
		WT_ERR(__curfile_update_check(cbt));

		/* Remove the record if it exists. */
		if (cbt->compare != 0 || !__cursor_valid(cbt, NULL)) {
			if (!__cursor_fix_implicit(btree, cbt))
				WT_ERR(WT_NOTFOUND);
			/*
			 * Creating a record past the end of the tree in a
			 * fixed-length column-store implicitly fills the
			 * gap with empty records.  Return success in that
			 * case, the record was deleted successfully.
			 *
			 * Correct the btree cursor's location: the search
			 * will have pointed us at the previous/next item,
			 * and that's not correct.
			 */
			cbt->recno = cursor->recno;
		} else
			ret = __cursor_col_modify(session, cbt, true);
		break;
	case BTREE_ROW:
		/* Remove the record if it exists. */
		WT_ERR(__cursor_row_search(session, cbt, NULL, false));

		/* Check whether an update would conflict. */
		WT_ERR(__curfile_update_check(cbt));

		if (cbt->compare != 0 || !__cursor_valid(cbt, NULL))
			WT_ERR(WT_NOTFOUND);

		ret = __cursor_row_modify(session, cbt, true);
		break;
	}

err:	if (ret == WT_RESTART) {
		WT_STAT_CONN_INCR(session, cursor_restart);
		WT_STAT_DATA_INCR(session, cursor_restart);
		goto retry;
	}
	/*
	 * If the cursor is configured to overwrite and the record is not
	 * found, that is exactly what we want.
	 */
	if (F_ISSET(cursor, WT_CURSTD_OVERWRITE) && ret == WT_NOTFOUND)
		ret = 0;

	if (ret != 0)
		WT_TRET(__cursor_reset(cbt));

	return (ret);
}
Beispiel #4
0
/*
 * __wt_btcur_insert --
 *	Insert a record into the tree.
 */
int
__wt_btcur_insert(WT_CURSOR_BTREE *cbt)
{
	WT_BTREE *btree;
	WT_CURSOR *cursor;
	WT_DECL_RET;
	WT_SESSION_IMPL *session;

	btree = cbt->btree;
	cursor = &cbt->iface;
	session = (WT_SESSION_IMPL *)cursor->session;

	WT_STAT_CONN_INCR(session, cursor_insert);
	WT_STAT_DATA_INCR(session, cursor_insert);
	WT_STAT_DATA_INCRV(session,
	    cursor_insert_bytes, cursor->key.size + cursor->value.size);

	if (btree->type == BTREE_ROW)
		WT_RET(__cursor_size_chk(session, &cursor->key));
	WT_RET(__cursor_size_chk(session, &cursor->value));

	/*
	 * The tree is no longer empty: eviction should pay attention to it,
	 * and it's no longer possible to bulk-load into it.
	 */
	if (btree->bulk_load_ok) {
		btree->bulk_load_ok = false;
		__wt_btree_evictable(session, true);
	}

retry:	WT_RET(__cursor_func_init(cbt, true));

	switch (btree->type) {
	case BTREE_COL_FIX:
	case BTREE_COL_VAR:
		/*
		 * If WT_CURSTD_APPEND is set, insert a new record (ignoring
		 * the application's record number). The real record number
		 * is assigned by the serialized append operation.
		 */
		if (F_ISSET(cursor, WT_CURSTD_APPEND))
			cbt->iface.recno = WT_RECNO_OOB;

		WT_ERR(__cursor_col_search(session, cbt, NULL));

		/*
		 * If not overwriting, fail if the key exists.  Creating a
		 * record past the end of the tree in a fixed-length
		 * column-store implicitly fills the gap with empty records.
		 * Fail in that case, the record exists.
		 */
		if (!F_ISSET(cursor, WT_CURSTD_OVERWRITE) &&
		    ((cbt->compare == 0 && __cursor_valid(cbt, NULL)) ||
		    (cbt->compare != 0 && __cursor_fix_implicit(btree, cbt))))
			WT_ERR(WT_DUPLICATE_KEY);

		WT_ERR(__cursor_col_modify(session, cbt, false));
		if (F_ISSET(cursor, WT_CURSTD_APPEND))
			cbt->iface.recno = cbt->recno;
		break;
	case BTREE_ROW:
		WT_ERR(__cursor_row_search(session, cbt, NULL, true));
		/*
		 * If not overwriting, fail if the key exists, else insert the
		 * key/value pair.
		 */
		if (!F_ISSET(cursor, WT_CURSTD_OVERWRITE) &&
		    cbt->compare == 0 && __cursor_valid(cbt, NULL))
			WT_ERR(WT_DUPLICATE_KEY);

		ret = __cursor_row_modify(session, cbt, false);
		break;
	}

err:	if (ret == WT_RESTART) {
		WT_STAT_CONN_INCR(session, cursor_restart);
		WT_STAT_DATA_INCR(session, cursor_restart);
		goto retry;
	}
	/* Insert doesn't maintain a position across calls, clear resources. */
	if (ret == 0)
		WT_TRET(__curfile_leave(cbt));
	if (ret != 0)
		WT_TRET(__cursor_reset(cbt));
	return (ret);
}
Beispiel #5
0
/*
 * __wt_btcur_search_near --
 *	Search for a record in the tree.
 */
int
__wt_btcur_search_near(WT_CURSOR_BTREE *cbt, int *exactp)
{
	WT_BTREE *btree;
	WT_CURSOR *cursor;
	WT_DECL_RET;
	WT_SESSION_IMPL *session;
	WT_UPDATE *upd;
	int exact;
	bool valid;

	btree = cbt->btree;
	cursor = &cbt->iface;
	session = (WT_SESSION_IMPL *)cursor->session;
	upd = NULL;					/* -Wuninitialized */
	exact = 0;

	WT_STAT_CONN_INCR(session, cursor_search_near);
	WT_STAT_DATA_INCR(session, cursor_search_near);

	/*
	 * If we have a row-store page pinned, search it; if we don't have a
	 * page pinned, or the search of the pinned page doesn't find an exact
	 * match, search from the root. Unlike WT_CURSOR.search, ignore pinned
	 * pages in the case of column-store, search-near isn't an interesting
	 * enough case for column-store to add the complexity needed to avoid
	 * the tree search.
	 *
	 * Set the "insert" flag for the btree row-store search; we may intend
	 * to position the cursor at the end of the tree, rather than match an
	 * existing record.
	 */
	valid = false;
	if (btree->type == BTREE_ROW &&
	    F_ISSET(cbt, WT_CBT_ACTIVE) &&
	    cbt->ref->page->read_gen != WT_READGEN_OLDEST) {
		__wt_txn_cursor_op(session);

		WT_ERR(__cursor_row_search(session, cbt, cbt->ref, true));

		/*
		 * Search-near is trickier than search when searching an already
		 * pinned page. If search returns the first or last page slots,
		 * discard the results and search the full tree as the neighbor
		 * pages might offer better matches. This test is simplistic as
		 * we're ignoring append lists (there may be no page slots or we
		 * might be legitimately positioned after the last page slot).
		 * Ignore those cases, it makes things too complicated.
		 */
		if (cbt->slot != 0 &&
		    cbt->slot != cbt->ref->page->pg_row_entries - 1)
			valid = __cursor_valid(cbt, &upd);
	}
	if (!valid) {
		WT_ERR(__cursor_func_init(cbt, true));
		WT_ERR(btree->type == BTREE_ROW ?
		    __cursor_row_search(session, cbt, NULL, true) :
		    __cursor_col_search(session, cbt, NULL));
		valid = __cursor_valid(cbt, &upd);
	}

	/*
	 * If we find a valid key, return it.
	 *
	 * Else, creating a record past the end of the tree in a fixed-length
	 * column-store implicitly fills the gap with empty records.  In this
	 * case, we instantiate the empty record, it's an exact match.
	 *
	 * Else, move to the next key in the tree (bias for prefix searches).
	 * Cursor next skips invalid rows, so we don't have to test for them
	 * again.
	 *
	 * Else, redo the search and move to the previous key in the tree.
	 * Cursor previous skips invalid rows, so we don't have to test for
	 * them again.
	 *
	 * If that fails, quit, there's no record to return.
	 */
	if (valid) {
		exact = cbt->compare;
		ret = __wt_kv_return(session, cbt, upd);
	} else if (__cursor_fix_implicit(btree, cbt)) {
		cbt->recno = cursor->recno;
		cbt->v = 0;
		cursor->value.data = &cbt->v;
		cursor->value.size = 1;
		exact = 0;
	} else if ((ret = __wt_btcur_next(cbt, false)) != WT_NOTFOUND)
		exact = 1;
	else {
		WT_ERR(__cursor_func_init(cbt, true));
		WT_ERR(btree->type == BTREE_ROW ?
		    __cursor_row_search(session, cbt, NULL, true) :
		    __cursor_col_search(session, cbt, NULL));
		if (__cursor_valid(cbt, &upd)) {
			exact = cbt->compare;
			ret = __wt_kv_return(session, cbt, upd);
		} else if ((ret = __wt_btcur_prev(cbt, false)) != WT_NOTFOUND)
			exact = -1;
	}

#ifdef HAVE_DIAGNOSTIC
	if (ret == 0)
		WT_ERR(__wt_cursor_key_order_init(session, cbt));
#endif

err:	if (ret != 0)
		WT_TRET(__cursor_reset(cbt));
	if (exactp != NULL && (ret == 0 || ret == WT_NOTFOUND))
		*exactp = exact;
	return (ret);
}
Beispiel #6
0
/*
 * __wt_btcur_search --
 *	Search for a matching record in the tree.
 */
int
__wt_btcur_search(WT_CURSOR_BTREE *cbt)
{
	WT_BTREE *btree;
	WT_CURSOR *cursor;
	WT_DECL_RET;
	WT_SESSION_IMPL *session;
	WT_UPDATE *upd;
	bool valid;

	btree = cbt->btree;
	cursor = &cbt->iface;
	session = (WT_SESSION_IMPL *)cursor->session;
	upd = NULL;					/* -Wuninitialized */

	WT_STAT_CONN_INCR(session, cursor_search);
	WT_STAT_DATA_INCR(session, cursor_search);

	/*
	 * If we have a page pinned, search it; if we don't have a page pinned,
	 * or the search of the pinned page doesn't find an exact match, search
	 * from the root.
	 */
	valid = false;
	if (F_ISSET(cbt, WT_CBT_ACTIVE) &&
	    cbt->ref->page->read_gen != WT_READGEN_OLDEST) {
		__wt_txn_cursor_op(session);

		WT_ERR(btree->type == BTREE_ROW ?
		    __cursor_row_search(session, cbt, cbt->ref, false) :
		    __cursor_col_search(session, cbt, cbt->ref));
		valid = cbt->compare == 0 && __cursor_valid(cbt, &upd);
	}
	if (!valid) {
		WT_ERR(__cursor_func_init(cbt, true));

		WT_ERR(btree->type == BTREE_ROW ?
		    __cursor_row_search(session, cbt, NULL, false) :
		    __cursor_col_search(session, cbt, NULL));
		valid = cbt->compare == 0 && __cursor_valid(cbt, &upd);
	}

	if (valid)
		ret = __wt_kv_return(session, cbt, upd);
	else if (__cursor_fix_implicit(btree, cbt)) {
		/*
		 * Creating a record past the end of the tree in a fixed-length
		 * column-store implicitly fills the gap with empty records.
		 */
		cbt->recno = cursor->recno;
		cbt->v = 0;
		cursor->value.data = &cbt->v;
		cursor->value.size = 1;
	} else
		ret = WT_NOTFOUND;

#ifdef HAVE_DIAGNOSTIC
	if (ret == 0)
		WT_ERR(__wt_cursor_key_order_init(session, cbt));
#endif

err:	if (ret != 0)
		WT_TRET(__cursor_reset(cbt));
	return (ret);
}
Beispiel #7
0
/*
 * __wt_btcur_search_near --
 *	Search for a record in the tree.
 */
int
__wt_btcur_search_near(WT_CURSOR_BTREE *cbt, int *exactp)
{
	WT_BTREE *btree;
	WT_CURSOR *cursor;
	WT_DECL_RET;
	WT_SESSION_IMPL *session;
	WT_UPDATE *upd;
	int exact;

	btree = cbt->btree;
	cursor = &cbt->iface;
	session = (WT_SESSION_IMPL *)cursor->session;
	exact = 0;

	WT_STAT_FAST_CONN_INCR(session, cursor_search_near);
	WT_STAT_FAST_DATA_INCR(session, cursor_search_near);

	if (btree->type == BTREE_ROW)
		WT_RET(__cursor_size_chk(session, &cursor->key));

	WT_RET(__cursor_func_init(cbt, 1));

	/*
	 * Set the "insert" flag for the btree row-store search; we may intend
	 * to position our cursor at the end of the tree, rather than match an
	 * existing record.
	 */
	WT_ERR(btree->type == BTREE_ROW ?
	    __cursor_row_search(session, cbt, 1) :
	    __cursor_col_search(session, cbt));

	/*
	 * If we find an valid key, return it.
	 *
	 * Else, creating a record past the end of the tree in a fixed-length
	 * column-store implicitly fills the gap with empty records.  In this
	 * case, we instantiate the empty record, it's an exact match.
	 *
	 * Else, move to the next key in the tree (bias for prefix searches).
	 * Cursor next skips invalid rows, so we don't have to test for them
	 * again.
	 *
	 * Else, redo the search and move to the previous key in the tree.
	 * Cursor previous skips invalid rows, so we don't have to test for
	 * them again.
	 *
	 * If that fails, quit, there's no record to return.
	 */
	if (__cursor_valid(cbt, &upd)) {
		exact = cbt->compare;
		ret = __wt_kv_return(session, cbt, upd);
	} else if (__cursor_fix_implicit(btree, cbt)) {
		cbt->recno = cursor->recno;
		cbt->v = 0;
		cursor->value.data = &cbt->v;
		cursor->value.size = 1;
		exact = 0;
	} else if ((ret = __wt_btcur_next(cbt, 0)) != WT_NOTFOUND)
		exact = 1;
	else {
		WT_ERR(btree->type == BTREE_ROW ?
		    __cursor_row_search(session, cbt, 1) :
		    __cursor_col_search(session, cbt));
		if (__cursor_valid(cbt, &upd)) {
			exact = cbt->compare;
			ret = __wt_kv_return(session, cbt, upd);
		} else if ((ret = __wt_btcur_prev(cbt, 0)) != WT_NOTFOUND)
			exact = -1;
	}

err:	if (ret != 0)
		WT_TRET(__cursor_reset(cbt));
	if (exactp != NULL && (ret == 0 || ret == WT_NOTFOUND))
		*exactp = exact;
	return (ret);
}