// SPDX-License-Identifier: CDDL-1.0 /* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or https://opensource.org/licenses/CDDL-1.0. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2009 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ /* * Copyright (c) 2013, 2019 by Delphix. All rights reserved. */ #ifndef _SYS_RANGE_TREE_H #define _SYS_RANGE_TREE_H #include #include #ifdef __cplusplus extern "C" { #endif #define ZFS_RANGE_TREE_HISTOGRAM_SIZE 64 typedef struct zfs_range_tree_ops zfs_range_tree_ops_t; typedef enum zfs_range_seg_type { ZFS_RANGE_SEG32, ZFS_RANGE_SEG64, ZFS_RANGE_SEG_GAP, ZFS_RANGE_SEG_NUM_TYPES, } zfs_range_seg_type_t; #define ZFS_RT_NAME(rt) (((rt)->rt_name != NULL) ? (rt)->rt_name : "") #define ZFS_RT_F_DYN_NAME (1ULL << 0) /* if rt_name must be freed */ /* * Note: the range_tree may not be accessed concurrently; consumers * must provide external locking if required. */ typedef struct zfs_range_tree { zfs_btree_t rt_root; /* offset-ordered segment b-tree */ uint64_t rt_space; /* sum of all segments in the map */ zfs_range_seg_type_t rt_type; /* type of zfs_range_seg_t in use */ /* * All data that is stored in the range tree must have a start higher * than or equal to rt_start, and all sizes and offsets must be * multiples of 1 << rt_shift. */ uint8_t rt_shift; uint64_t rt_start; const zfs_range_tree_ops_t *rt_ops; void *rt_arg; uint64_t rt_gap; /* allowable inter-segment gap */ uint64_t rt_flags; const char *rt_name; /* details for debugging */ /* * The rt_histogram maintains a histogram of ranges. Each bucket, * rt_histogram[i], contains the number of ranges whose size is: * 2^i <= size of range in bytes < 2^(i+1) */ uint64_t rt_histogram[ZFS_RANGE_TREE_HISTOGRAM_SIZE]; } zfs_range_tree_t; typedef struct zfs_range_seg32 { uint32_t rs_start; /* starting offset of this segment */ uint32_t rs_end; /* ending offset (non-inclusive) */ } zfs_range_seg32_t; /* * Extremely large metaslabs, vdev-wide trees, and dnode-wide trees may * require 64-bit integers for ranges. */ typedef struct zfs_range_seg64 { uint64_t rs_start; /* starting offset of this segment */ uint64_t rs_end; /* ending offset (non-inclusive) */ } zfs_range_seg64_t; typedef struct zfs_range_seg_gap { uint64_t rs_start; /* starting offset of this segment */ uint64_t rs_end; /* ending offset (non-inclusive) */ uint64_t rs_fill; /* actual fill if gap mode is on */ } zfs_range_seg_gap_t; /* * This type needs to be the largest of the range segs, since it will be stack * allocated and then cast the actual type to do tree operations. */ typedef zfs_range_seg_gap_t zfs_range_seg_max_t; /* * This is just for clarity of code purposes, so we can make it clear that a * pointer is to a range seg of some type; when we need to do the actual math, * we'll figure out the real type. */ typedef void zfs_range_seg_t; struct zfs_range_tree_ops { void (*rtop_create)(zfs_range_tree_t *rt, void *arg); void (*rtop_destroy)(zfs_range_tree_t *rt, void *arg); void (*rtop_add)(zfs_range_tree_t *rt, void *rs, void *arg); void (*rtop_remove)(zfs_range_tree_t *rt, void *rs, void *arg); void (*rtop_vacate)(zfs_range_tree_t *rt, void *arg); }; static inline uint64_t zfs_rs_get_start_raw(const zfs_range_seg_t *rs, const zfs_range_tree_t *rt) { ASSERT3U(rt->rt_type, <=, ZFS_RANGE_SEG_NUM_TYPES); switch (rt->rt_type) { case ZFS_RANGE_SEG32: return (((const zfs_range_seg32_t *)rs)->rs_start); case ZFS_RANGE_SEG64: return (((const zfs_range_seg64_t *)rs)->rs_start); case ZFS_RANGE_SEG_GAP: return (((const zfs_range_seg_gap_t *)rs)->rs_start); default: VERIFY(0); return (0); } } static inline uint64_t zfs_rs_get_end_raw(const zfs_range_seg_t *rs, const zfs_range_tree_t *rt) { ASSERT3U(rt->rt_type, <=, ZFS_RANGE_SEG_NUM_TYPES); switch (rt->rt_type) { case ZFS_RANGE_SEG32: return (((const zfs_range_seg32_t *)rs)->rs_end); case ZFS_RANGE_SEG64: return (((const zfs_range_seg64_t *)rs)->rs_end); case ZFS_RANGE_SEG_GAP: return (((const zfs_range_seg_gap_t *)rs)->rs_end); default: VERIFY(0); return (0); } } static inline uint64_t zfs_rs_get_fill_raw(const zfs_range_seg_t *rs, const zfs_range_tree_t *rt) { ASSERT3U(rt->rt_type, <=, ZFS_RANGE_SEG_NUM_TYPES); switch (rt->rt_type) { case ZFS_RANGE_SEG32: { const zfs_range_seg32_t *r32 = (const zfs_range_seg32_t *)rs; return (r32->rs_end - r32->rs_start); } case ZFS_RANGE_SEG64: { const zfs_range_seg64_t *r64 = (const zfs_range_seg64_t *)rs; return (r64->rs_end - r64->rs_start); } case ZFS_RANGE_SEG_GAP: return (((const zfs_range_seg_gap_t *)rs)->rs_fill); default: VERIFY(0); return (0); } } static inline uint64_t zfs_rs_get_start(const zfs_range_seg_t *rs, const zfs_range_tree_t *rt) { return ((zfs_rs_get_start_raw(rs, rt) << rt->rt_shift) + rt->rt_start); } static inline uint64_t zfs_rs_get_end(const zfs_range_seg_t *rs, const zfs_range_tree_t *rt) { return ((zfs_rs_get_end_raw(rs, rt) << rt->rt_shift) + rt->rt_start); } static inline uint64_t zfs_rs_get_fill(const zfs_range_seg_t *rs, const zfs_range_tree_t *rt) { return (zfs_rs_get_fill_raw(rs, rt) << rt->rt_shift); } static inline void zfs_rs_set_start_raw(zfs_range_seg_t *rs, zfs_range_tree_t *rt, uint64_t start) { ASSERT3U(rt->rt_type, <=, ZFS_RANGE_SEG_NUM_TYPES); switch (rt->rt_type) { case ZFS_RANGE_SEG32: ASSERT3U(start, <=, UINT32_MAX); ((zfs_range_seg32_t *)rs)->rs_start = (uint32_t)start; break; case ZFS_RANGE_SEG64: ((zfs_range_seg64_t *)rs)->rs_start = start; break; case ZFS_RANGE_SEG_GAP: ((zfs_range_seg_gap_t *)rs)->rs_start = start; break; default: VERIFY(0); } } static inline void zfs_rs_set_end_raw(zfs_range_seg_t *rs, zfs_range_tree_t *rt, uint64_t end) { ASSERT3U(rt->rt_type, <=, ZFS_RANGE_SEG_NUM_TYPES); switch (rt->rt_type) { case ZFS_RANGE_SEG32: ASSERT3U(end, <=, UINT32_MAX); ((zfs_range_seg32_t *)rs)->rs_end = (uint32_t)end; break; case ZFS_RANGE_SEG64: ((zfs_range_seg64_t *)rs)->rs_end = end; break; case ZFS_RANGE_SEG_GAP: ((zfs_range_seg_gap_t *)rs)->rs_end = end; break; default: VERIFY(0); } } static inline void zfs_rs_set_fill_raw(zfs_range_seg_t *rs, zfs_range_tree_t *rt, uint64_t fill) { ASSERT3U(rt->rt_type, <=, ZFS_RANGE_SEG_NUM_TYPES); switch (rt->rt_type) { case ZFS_RANGE_SEG32: /* fall through */ case ZFS_RANGE_SEG64: ASSERT3U(fill, ==, zfs_rs_get_end_raw(rs, rt) - zfs_rs_get_start_raw(rs, rt)); break; case ZFS_RANGE_SEG_GAP: ((zfs_range_seg_gap_t *)rs)->rs_fill = fill; break; default: VERIFY(0); } } static inline void zfs_rs_set_start(zfs_range_seg_t *rs, zfs_range_tree_t *rt, uint64_t start) { ASSERT3U(start, >=, rt->rt_start); ASSERT(IS_P2ALIGNED(start, 1ULL << rt->rt_shift)); zfs_rs_set_start_raw(rs, rt, (start - rt->rt_start) >> rt->rt_shift); } static inline void zfs_rs_set_end(zfs_range_seg_t *rs, zfs_range_tree_t *rt, uint64_t end) { ASSERT3U(end, >=, rt->rt_start); ASSERT(IS_P2ALIGNED(end, 1ULL << rt->rt_shift)); zfs_rs_set_end_raw(rs, rt, (end - rt->rt_start) >> rt->rt_shift); } static inline void zfs_rs_set_fill(zfs_range_seg_t *rs, zfs_range_tree_t *rt, uint64_t fill) { ASSERT(IS_P2ALIGNED(fill, 1ULL << rt->rt_shift)); zfs_rs_set_fill_raw(rs, rt, fill >> rt->rt_shift); } typedef void zfs_range_tree_func_t(void *arg, uint64_t start, uint64_t size); zfs_range_tree_t *zfs_range_tree_create_gap(const zfs_range_tree_ops_t *ops, zfs_range_seg_type_t type, void *arg, uint64_t start, uint64_t shift, uint64_t gap); zfs_range_tree_t *zfs_range_tree_create(const zfs_range_tree_ops_t *ops, zfs_range_seg_type_t type, void *arg, uint64_t start, uint64_t shift); zfs_range_tree_t *zfs_range_tree_create_flags(const zfs_range_tree_ops_t *ops, zfs_range_seg_type_t type, void *arg, uint64_t start, uint64_t shift, uint64_t flags, const char *name); void zfs_range_tree_destroy(zfs_range_tree_t *rt); boolean_t zfs_range_tree_contains(zfs_range_tree_t *rt, uint64_t start, uint64_t size); zfs_range_seg_t *zfs_range_tree_find(zfs_range_tree_t *rt, uint64_t start, uint64_t size); boolean_t zfs_range_tree_find_in(zfs_range_tree_t *rt, uint64_t start, uint64_t size, uint64_t *ostart, uint64_t *osize); void zfs_range_tree_verify_not_present(zfs_range_tree_t *rt, uint64_t start, uint64_t size); void zfs_range_tree_resize_segment(zfs_range_tree_t *rt, zfs_range_seg_t *rs, uint64_t newstart, uint64_t newsize); uint64_t zfs_range_tree_space(zfs_range_tree_t *rt); uint64_t zfs_range_tree_numsegs(zfs_range_tree_t *rt); boolean_t zfs_range_tree_is_empty(zfs_range_tree_t *rt); void zfs_range_tree_swap(zfs_range_tree_t **rtsrc, zfs_range_tree_t **rtdst); void zfs_range_tree_stat_verify(zfs_range_tree_t *rt); uint64_t zfs_range_tree_min(zfs_range_tree_t *rt); uint64_t zfs_range_tree_max(zfs_range_tree_t *rt); uint64_t zfs_range_tree_span(zfs_range_tree_t *rt); void zfs_range_tree_add(void *arg, uint64_t start, uint64_t size); void zfs_range_tree_remove(void *arg, uint64_t start, uint64_t size); void zfs_range_tree_remove_fill(zfs_range_tree_t *rt, uint64_t start, uint64_t size); void zfs_range_tree_adjust_fill(zfs_range_tree_t *rt, zfs_range_seg_t *rs, int64_t delta); void zfs_range_tree_clear(zfs_range_tree_t *rt, uint64_t start, uint64_t size); void zfs_range_tree_vacate(zfs_range_tree_t *rt, zfs_range_tree_func_t *func, void *arg); void zfs_range_tree_walk(zfs_range_tree_t *rt, zfs_range_tree_func_t *func, void *arg); zfs_range_seg_t *zfs_range_tree_first(zfs_range_tree_t *rt); void zfs_range_tree_remove_xor_add_segment(uint64_t start, uint64_t end, zfs_range_tree_t *removefrom, zfs_range_tree_t *addto); void zfs_range_tree_remove_xor_add(zfs_range_tree_t *rt, zfs_range_tree_t *removefrom, zfs_range_tree_t *addto); #ifdef __cplusplus } #endif #endif /* _SYS_RANGE_TREE_H */