/* $NetBSD: dm_table.c,v 1.5 2010/01/04 00:19:08 haad Exp $ */ /* * Copyright (c) 2010-2011 Alex Hornung * Copyright (c) 2008 The NetBSD Foundation, Inc. * All rights reserved. * * This code is derived from software contributed to The NetBSD Foundation * by Adam Hamsik. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #include #include #include /* * There are two types of users of this interface: * * a) Readers such as * dmstrategy, dmgetdisklabel, dmsize, dm_dev_status_ioctl, * dm_table_deps_ioctl, dm_table_status_ioctl, dm_table_reload_ioctl * * b) Writers such as * dm_dev_remove_ioctl, dm_dev_resume_ioctl, dm_table_clear_ioctl * * Writers can work with table_head only when there are no readers. We * simply use shared/exclusive locking to ensure this. */ /* * Function to increment table user reference counter. Return id * of table_id table. * DM_TABLE_ACTIVE will return active table id. * DM_TABLE_INACTIVE will return inactive table id. */ static int dm_table_busy(dm_table_head_t *head, uint8_t table_id) { uint8_t id; id = 0; lockmgr(&head->table_mtx, LK_SHARED); if (table_id == DM_TABLE_ACTIVE) id = head->cur_active_table; else id = 1 - head->cur_active_table; atomic_add_int(&head->io_cnt, 1); return id; } /* * Function release table lock and eventually wakeup all waiters. */ static void dm_table_unbusy(dm_table_head_t *head) { KKASSERT(head->io_cnt != 0); atomic_subtract_int(&head->io_cnt, 1); lockmgr(&head->table_mtx, LK_RELEASE); } /* * Return current active table to caller, increment io_cnt reference counter. */ dm_table_t * dm_table_get_entry(dm_table_head_t *head, uint8_t table_id) { uint8_t id; id = dm_table_busy(head, table_id); return &head->tables[id]; } /* * Decrement io reference counter and release shared lock. */ void dm_table_release(dm_table_head_t *head, uint8_t table_id) { dm_table_unbusy(head); } /* * Switch table from inactive to active mode. Have to wait until io_cnt is 0. */ void dm_table_switch_tables(dm_table_head_t *head) { lockmgr(&head->table_mtx, LK_EXCLUSIVE); head->cur_active_table = 1 - head->cur_active_table; lockmgr(&head->table_mtx, LK_RELEASE); } /* * Destroy all table data. This function can run when there are no * readers on table lists. */ int dm_table_destroy(dm_table_head_t *head, uint8_t table_id) { dm_table_t *tbl; dm_table_entry_t *table_en; uint8_t id; lockmgr(&head->table_mtx, LK_EXCLUSIVE); aprint_debug("dm_table_destroy called with %d--%d\n", table_id, head->io_cnt); if (table_id == DM_TABLE_ACTIVE) id = head->cur_active_table; else id = 1 - head->cur_active_table; tbl = &head->tables[id]; while ((table_en = TAILQ_FIRST(tbl)) != NULL) { TAILQ_REMOVE(tbl, table_en, next); /* * Remove target specific config data. After successfull * call table_en->target_config must be set to NULL. */ table_en->target->destroy(table_en); dm_table_free_deps(table_en); /* decrement the refcount for the target */ dm_target_unbusy(table_en->target); kfree(table_en, M_DM); } KKASSERT(TAILQ_EMPTY(tbl)); lockmgr(&head->table_mtx, LK_RELEASE); return 0; } /* * Return length of active or inactive table in device. */ static uint64_t _dm_table_size(dm_table_head_t *head, int table) { dm_table_t *tbl; dm_table_entry_t *table_en; uint64_t length; length = 0; /* Select active table */ tbl = dm_table_get_entry(head, table); /* * Find out what tables I want to select. * if length => rawblkno then we should used that table. */ TAILQ_FOREACH(table_en, tbl, next) { length += table_en->length; } dm_table_unbusy(head); return length; } uint64_t dm_table_size(dm_table_head_t *head) { return _dm_table_size(head, DM_TABLE_ACTIVE); } uint64_t dm_inactive_table_size(dm_table_head_t *head) { return _dm_table_size(head, DM_TABLE_INACTIVE); } /* * Return > 0 if table is at least one table entry (returns number of entries) * and return 0 if there is not. Target count returned from this function * doesn't need to be true when userspace user receive it (after return * there can be dm_dev_resume_ioctl), therfore this isonly informative. */ int dm_table_get_target_count(dm_table_head_t *head, uint8_t table_id) { dm_table_entry_t *table_en; dm_table_t *tbl; uint32_t target_count; target_count = 0; tbl = dm_table_get_entry(head, table_id); TAILQ_FOREACH(table_en, tbl, next) target_count++; dm_table_unbusy(head); return target_count; } /* * Initialize table_head structures, I'm trying to keep this structure as * opaque as possible. */ void dm_table_head_init(dm_table_head_t *head) { head->cur_active_table = 0; head->io_cnt = 0; /* Initialize tables. */ TAILQ_INIT(&head->tables[0]); TAILQ_INIT(&head->tables[1]); lockinit(&head->table_mtx, "dmtbl", 0, LK_CANRECURSE); } /* * Destroy all variables in table_head */ void dm_table_head_destroy(dm_table_head_t *head) { KKASSERT(lockcount(&head->table_mtx) == 0); /* tables doens't exists when I call this routine, therefore it * doesn't make sense to have io_cnt != 0 */ KKASSERT(head->io_cnt == 0); lockuninit(&head->table_mtx); } void dm_table_init_target(dm_table_entry_t *table_en, uint32_t type, void *cfg) { table_en->dev->dev_type = type; table_en->target_config = cfg; } int dm_table_add_deps(dm_table_entry_t *table_en, dm_pdev_t *pdev) { dm_table_head_t *head; dm_mapping_t *map; KKASSERT(pdev); head = &table_en->dev->table_head; lockmgr(&head->table_mtx, LK_SHARED); TAILQ_FOREACH(map, &table_en->pdev_maps, next) { if (map->data.pdev->udev == pdev->udev) { lockmgr(&head->table_mtx, LK_RELEASE); return -1; } } map = kmalloc(sizeof(*map), M_DM, M_WAITOK | M_ZERO); map->data.pdev = pdev; TAILQ_INSERT_TAIL(&table_en->pdev_maps, map, next); lockmgr(&head->table_mtx, LK_RELEASE); return 0; } void dm_table_free_deps(dm_table_entry_t *table_en) { dm_table_head_t *head; dm_mapping_t *map; head = &table_en->dev->table_head; lockmgr(&head->table_mtx, LK_SHARED); while ((map = TAILQ_FIRST(&table_en->pdev_maps)) != NULL) { TAILQ_REMOVE(&table_en->pdev_maps, map, next); kfree(map, M_DM); } KKASSERT(TAILQ_EMPTY(&table_en->pdev_maps)); lockmgr(&head->table_mtx, LK_RELEASE); }