17c478bd9Sstevel@tonic-gate /*
27c478bd9Sstevel@tonic-gate * CDDL HEADER START
37c478bd9Sstevel@tonic-gate *
47c478bd9Sstevel@tonic-gate * The contents of this file are subject to the terms of the
5aaa10e67Sha137994 * Common Development and Distribution License (the "License").
6aaa10e67Sha137994 * You may not use this file except in compliance with the License.
77c478bd9Sstevel@tonic-gate *
87c478bd9Sstevel@tonic-gate * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
97c478bd9Sstevel@tonic-gate * or http://www.opensolaris.org/os/licensing.
107c478bd9Sstevel@tonic-gate * See the License for the specific language governing permissions
117c478bd9Sstevel@tonic-gate * and limitations under the License.
127c478bd9Sstevel@tonic-gate *
137c478bd9Sstevel@tonic-gate * When distributing Covered Code, include this CDDL HEADER in each
147c478bd9Sstevel@tonic-gate * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
157c478bd9Sstevel@tonic-gate * If applicable, add the following below this CDDL HEADER, with the
167c478bd9Sstevel@tonic-gate * fields enclosed by brackets "[]" replaced with your own identifying
177c478bd9Sstevel@tonic-gate * information: Portions Copyright [yyyy] [name of copyright owner]
187c478bd9Sstevel@tonic-gate *
197c478bd9Sstevel@tonic-gate * CDDL HEADER END
207c478bd9Sstevel@tonic-gate */
217c478bd9Sstevel@tonic-gate /*
224a7ceddaSBlake Jones * Copyright 2010 Sun Microsystems, Inc. All rights reserved.
237c478bd9Sstevel@tonic-gate * Use is subject to license terms.
247c478bd9Sstevel@tonic-gate */
257c478bd9Sstevel@tonic-gate
267c478bd9Sstevel@tonic-gate /*
27*47bb2664SMatthew Ahrens * Copyright (c) 2012, 2015 by Delphix. All rights reserved.
280ee475b2SBryan Cantrill * Copyright (c) 2012, Joyent, Inc. All rights reserved.
2994dd93aeSGeorge Wilson */
3094dd93aeSGeorge Wilson
3194dd93aeSGeorge Wilson /*
327c478bd9Sstevel@tonic-gate * Big Theory Statement for the virtual memory allocator.
337c478bd9Sstevel@tonic-gate *
347c478bd9Sstevel@tonic-gate * For a more complete description of the main ideas, see:
357c478bd9Sstevel@tonic-gate *
367c478bd9Sstevel@tonic-gate * Jeff Bonwick and Jonathan Adams,
377c478bd9Sstevel@tonic-gate *
387c478bd9Sstevel@tonic-gate * Magazines and vmem: Extending the Slab Allocator to Many CPUs and
397c478bd9Sstevel@tonic-gate * Arbitrary Resources.
407c478bd9Sstevel@tonic-gate *
417c478bd9Sstevel@tonic-gate * Proceedings of the 2001 Usenix Conference.
427c478bd9Sstevel@tonic-gate * Available as http://www.usenix.org/event/usenix01/bonwick.html
437c478bd9Sstevel@tonic-gate *
447c478bd9Sstevel@tonic-gate *
457c478bd9Sstevel@tonic-gate * 1. General Concepts
467c478bd9Sstevel@tonic-gate * -------------------
477c478bd9Sstevel@tonic-gate *
487c478bd9Sstevel@tonic-gate * 1.1 Overview
497c478bd9Sstevel@tonic-gate * ------------
507c478bd9Sstevel@tonic-gate * We divide the kernel address space into a number of logically distinct
517c478bd9Sstevel@tonic-gate * pieces, or *arenas*: text, data, heap, stack, and so on. Within these
527c478bd9Sstevel@tonic-gate * arenas we often subdivide further; for example, we use heap addresses
537c478bd9Sstevel@tonic-gate * not only for the kernel heap (kmem_alloc() space), but also for DVMA,
547c478bd9Sstevel@tonic-gate * bp_mapin(), /dev/kmem, and even some device mappings like the TOD chip.
557c478bd9Sstevel@tonic-gate * The kernel address space, therefore, is most accurately described as
567c478bd9Sstevel@tonic-gate * a tree of arenas in which each node of the tree *imports* some subset
577c478bd9Sstevel@tonic-gate * of its parent. The virtual memory allocator manages these arenas and
587c478bd9Sstevel@tonic-gate * supports their natural hierarchical structure.
597c478bd9Sstevel@tonic-gate *
607c478bd9Sstevel@tonic-gate * 1.2 Arenas
617c478bd9Sstevel@tonic-gate * ----------
627c478bd9Sstevel@tonic-gate * An arena is nothing more than a set of integers. These integers most
637c478bd9Sstevel@tonic-gate * commonly represent virtual addresses, but in fact they can represent
647c478bd9Sstevel@tonic-gate * anything at all. For example, we could use an arena containing the
657c478bd9Sstevel@tonic-gate * integers minpid through maxpid to allocate process IDs. vmem_create()
667c478bd9Sstevel@tonic-gate * and vmem_destroy() create and destroy vmem arenas. In order to
677c478bd9Sstevel@tonic-gate * differentiate between arenas used for adresses and arenas used for
687c478bd9Sstevel@tonic-gate * identifiers, the VMC_IDENTIFIER flag is passed to vmem_create(). This
697c478bd9Sstevel@tonic-gate * prevents identifier exhaustion from being diagnosed as general memory
707c478bd9Sstevel@tonic-gate * failure.
717c478bd9Sstevel@tonic-gate *
727c478bd9Sstevel@tonic-gate * 1.3 Spans
737c478bd9Sstevel@tonic-gate * ---------
747c478bd9Sstevel@tonic-gate * We represent the integers in an arena as a collection of *spans*, or
757c478bd9Sstevel@tonic-gate * contiguous ranges of integers. For example, the kernel heap consists
767c478bd9Sstevel@tonic-gate * of just one span: [kernelheap, ekernelheap). Spans can be added to an
777c478bd9Sstevel@tonic-gate * arena in two ways: explicitly, by vmem_add(), or implicitly, by
787c478bd9Sstevel@tonic-gate * importing, as described in Section 1.5 below.
797c478bd9Sstevel@tonic-gate *
807c478bd9Sstevel@tonic-gate * 1.4 Segments
817c478bd9Sstevel@tonic-gate * ------------
827c478bd9Sstevel@tonic-gate * Spans are subdivided into *segments*, each of which is either allocated
837c478bd9Sstevel@tonic-gate * or free. A segment, like a span, is a contiguous range of integers.
847c478bd9Sstevel@tonic-gate * Each allocated segment [addr, addr + size) represents exactly one
857c478bd9Sstevel@tonic-gate * vmem_alloc(size) that returned addr. Free segments represent the space
867c478bd9Sstevel@tonic-gate * between allocated segments. If two free segments are adjacent, we
877c478bd9Sstevel@tonic-gate * coalesce them into one larger segment; that is, if segments [a, b) and
887c478bd9Sstevel@tonic-gate * [b, c) are both free, we merge them into a single segment [a, c).
897c478bd9Sstevel@tonic-gate * The segments within a span are linked together in increasing-address order
907c478bd9Sstevel@tonic-gate * so we can easily determine whether coalescing is possible.
917c478bd9Sstevel@tonic-gate *
927c478bd9Sstevel@tonic-gate * Segments never cross span boundaries. When all segments within
937c478bd9Sstevel@tonic-gate * an imported span become free, we return the span to its source.
947c478bd9Sstevel@tonic-gate *
957c478bd9Sstevel@tonic-gate * 1.5 Imported Memory
967c478bd9Sstevel@tonic-gate * -------------------
977c478bd9Sstevel@tonic-gate * As mentioned in the overview, some arenas are logical subsets of
987c478bd9Sstevel@tonic-gate * other arenas. For example, kmem_va_arena (a virtual address cache
997c478bd9Sstevel@tonic-gate * that satisfies most kmem_slab_create() requests) is just a subset
1007c478bd9Sstevel@tonic-gate * of heap_arena (the kernel heap) that provides caching for the most
1017c478bd9Sstevel@tonic-gate * common slab sizes. When kmem_va_arena runs out of virtual memory,
1027c478bd9Sstevel@tonic-gate * it *imports* more from the heap; we say that heap_arena is the
1037c478bd9Sstevel@tonic-gate * *vmem source* for kmem_va_arena. vmem_create() allows you to
1047c478bd9Sstevel@tonic-gate * specify any existing vmem arena as the source for your new arena.
1057c478bd9Sstevel@tonic-gate * Topologically, since every arena is a child of at most one source,
1067c478bd9Sstevel@tonic-gate * the set of all arenas forms a collection of trees.
1077c478bd9Sstevel@tonic-gate *
1087c478bd9Sstevel@tonic-gate * 1.6 Constrained Allocations
1097c478bd9Sstevel@tonic-gate * ---------------------------
1107c478bd9Sstevel@tonic-gate * Some vmem clients are quite picky about the kind of address they want.
1117c478bd9Sstevel@tonic-gate * For example, the DVMA code may need an address that is at a particular
1127c478bd9Sstevel@tonic-gate * phase with respect to some alignment (to get good cache coloring), or
1137c478bd9Sstevel@tonic-gate * that lies within certain limits (the addressable range of a device),
1147c478bd9Sstevel@tonic-gate * or that doesn't cross some boundary (a DMA counter restriction) --
1157c478bd9Sstevel@tonic-gate * or all of the above. vmem_xalloc() allows the client to specify any
1167c478bd9Sstevel@tonic-gate * or all of these constraints.
1177c478bd9Sstevel@tonic-gate *
1187c478bd9Sstevel@tonic-gate * 1.7 The Vmem Quantum
1197c478bd9Sstevel@tonic-gate * --------------------
1207c478bd9Sstevel@tonic-gate * Every arena has a notion of 'quantum', specified at vmem_create() time,
1217c478bd9Sstevel@tonic-gate * that defines the arena's minimum unit of currency. Most commonly the
1227c478bd9Sstevel@tonic-gate * quantum is either 1 or PAGESIZE, but any power of 2 is legal.
1237c478bd9Sstevel@tonic-gate * All vmem allocations are guaranteed to be quantum-aligned.
1247c478bd9Sstevel@tonic-gate *
1257c478bd9Sstevel@tonic-gate * 1.8 Quantum Caching
1267c478bd9Sstevel@tonic-gate * -------------------
1277c478bd9Sstevel@tonic-gate * A vmem arena may be so hot (frequently used) that the scalability of vmem
1287c478bd9Sstevel@tonic-gate * allocation is a significant concern. We address this by allowing the most
1297c478bd9Sstevel@tonic-gate * common allocation sizes to be serviced by the kernel memory allocator,
1307c478bd9Sstevel@tonic-gate * which provides low-latency per-cpu caching. The qcache_max argument to
1317c478bd9Sstevel@tonic-gate * vmem_create() specifies the largest allocation size to cache.
1327c478bd9Sstevel@tonic-gate *
1337c478bd9Sstevel@tonic-gate * 1.9 Relationship to Kernel Memory Allocator
1347c478bd9Sstevel@tonic-gate * -------------------------------------------
1357c478bd9Sstevel@tonic-gate * Every kmem cache has a vmem arena as its slab supplier. The kernel memory
1367c478bd9Sstevel@tonic-gate * allocator uses vmem_alloc() and vmem_free() to create and destroy slabs.
1377c478bd9Sstevel@tonic-gate *
1387c478bd9Sstevel@tonic-gate *
1397c478bd9Sstevel@tonic-gate * 2. Implementation
1407c478bd9Sstevel@tonic-gate * -----------------
1417c478bd9Sstevel@tonic-gate *
1427c478bd9Sstevel@tonic-gate * 2.1 Segment lists and markers
1437c478bd9Sstevel@tonic-gate * -----------------------------
1447c478bd9Sstevel@tonic-gate * The segment structure (vmem_seg_t) contains two doubly-linked lists.
1457c478bd9Sstevel@tonic-gate *
1467c478bd9Sstevel@tonic-gate * The arena list (vs_anext/vs_aprev) links all segments in the arena.
1477c478bd9Sstevel@tonic-gate * In addition to the allocated and free segments, the arena contains
1487c478bd9Sstevel@tonic-gate * special marker segments at span boundaries. Span markers simplify
1497c478bd9Sstevel@tonic-gate * coalescing and importing logic by making it easy to tell both when
1507c478bd9Sstevel@tonic-gate * we're at a span boundary (so we don't coalesce across it), and when
1517c478bd9Sstevel@tonic-gate * a span is completely free (its neighbors will both be span markers).
1527c478bd9Sstevel@tonic-gate *
1537c478bd9Sstevel@tonic-gate * Imported spans will have vs_import set.
1547c478bd9Sstevel@tonic-gate *
1557c478bd9Sstevel@tonic-gate * The next-of-kin list (vs_knext/vs_kprev) links segments of the same type:
1567c478bd9Sstevel@tonic-gate * (1) for allocated segments, vs_knext is the hash chain linkage;
1577c478bd9Sstevel@tonic-gate * (2) for free segments, vs_knext is the freelist linkage;
1587c478bd9Sstevel@tonic-gate * (3) for span marker segments, vs_knext is the next span marker.
1597c478bd9Sstevel@tonic-gate *
1607c478bd9Sstevel@tonic-gate * 2.2 Allocation hashing
1617c478bd9Sstevel@tonic-gate * ----------------------
1627c478bd9Sstevel@tonic-gate * We maintain a hash table of all allocated segments, hashed by address.
1637c478bd9Sstevel@tonic-gate * This allows vmem_free() to discover the target segment in constant time.
1647c478bd9Sstevel@tonic-gate * vmem_update() periodically resizes hash tables to keep hash chains short.
1657c478bd9Sstevel@tonic-gate *
1667c478bd9Sstevel@tonic-gate * 2.3 Freelist management
1677c478bd9Sstevel@tonic-gate * -----------------------
1687c478bd9Sstevel@tonic-gate * We maintain power-of-2 freelists for free segments, i.e. free segments
1697c478bd9Sstevel@tonic-gate * of size >= 2^n reside in vmp->vm_freelist[n]. To ensure constant-time
1707c478bd9Sstevel@tonic-gate * allocation, vmem_xalloc() looks not in the first freelist that *might*
1717c478bd9Sstevel@tonic-gate * satisfy the allocation, but in the first freelist that *definitely*
1727c478bd9Sstevel@tonic-gate * satisfies the allocation (unless VM_BESTFIT is specified, or all larger
1737c478bd9Sstevel@tonic-gate * freelists are empty). For example, a 1000-byte allocation will be
1747c478bd9Sstevel@tonic-gate * satisfied not from the 512..1023-byte freelist, whose members *might*
1757c478bd9Sstevel@tonic-gate * contains a 1000-byte segment, but from a 1024-byte or larger freelist,
1767c478bd9Sstevel@tonic-gate * the first member of which will *definitely* satisfy the allocation.
1777c478bd9Sstevel@tonic-gate * This ensures that vmem_xalloc() works in constant time.
1787c478bd9Sstevel@tonic-gate *
1797c478bd9Sstevel@tonic-gate * We maintain a bit map to determine quickly which freelists are non-empty.
1807c478bd9Sstevel@tonic-gate * vmp->vm_freemap & (1 << n) is non-zero iff vmp->vm_freelist[n] is non-empty.
1817c478bd9Sstevel@tonic-gate *
1827c478bd9Sstevel@tonic-gate * The different freelists are linked together into one large freelist,
1837c478bd9Sstevel@tonic-gate * with the freelist heads serving as markers. Freelist markers simplify
1847c478bd9Sstevel@tonic-gate * the maintenance of vm_freemap by making it easy to tell when we're taking
1857c478bd9Sstevel@tonic-gate * the last member of a freelist (both of its neighbors will be markers).
1867c478bd9Sstevel@tonic-gate *
1877c478bd9Sstevel@tonic-gate * 2.4 Vmem Locking
1887c478bd9Sstevel@tonic-gate * ----------------
1897c478bd9Sstevel@tonic-gate * For simplicity, all arena state is protected by a per-arena lock.
1907c478bd9Sstevel@tonic-gate * For very hot arenas, use quantum caching for scalability.
1917c478bd9Sstevel@tonic-gate *
1927c478bd9Sstevel@tonic-gate * 2.5 Vmem Population
1937c478bd9Sstevel@tonic-gate * -------------------
1947c478bd9Sstevel@tonic-gate * Any internal vmem routine that might need to allocate new segment
1957c478bd9Sstevel@tonic-gate * structures must prepare in advance by calling vmem_populate(), which
1967c478bd9Sstevel@tonic-gate * will preallocate enough vmem_seg_t's to get is through the entire
1977c478bd9Sstevel@tonic-gate * operation without dropping the arena lock.
1987c478bd9Sstevel@tonic-gate *
1997c478bd9Sstevel@tonic-gate * 2.6 Auditing
2007c478bd9Sstevel@tonic-gate * ------------
2017c478bd9Sstevel@tonic-gate * If KMF_AUDIT is set in kmem_flags, we audit vmem allocations as well.
2027c478bd9Sstevel@tonic-gate * Since virtual addresses cannot be scribbled on, there is no equivalent
2037c478bd9Sstevel@tonic-gate * in vmem to redzone checking, deadbeef, or other kmem debugging features.
2047c478bd9Sstevel@tonic-gate * Moreover, we do not audit frees because segment coalescing destroys the
2057c478bd9Sstevel@tonic-gate * association between an address and its segment structure. Auditing is
2067c478bd9Sstevel@tonic-gate * thus intended primarily to keep track of who's consuming the arena.
2077c478bd9Sstevel@tonic-gate * Debugging support could certainly be extended in the future if it proves
2087c478bd9Sstevel@tonic-gate * necessary, but we do so much live checking via the allocation hash table
2097c478bd9Sstevel@tonic-gate * that even non-DEBUG systems get quite a bit of sanity checking already.
2107c478bd9Sstevel@tonic-gate */
2117c478bd9Sstevel@tonic-gate
2127c478bd9Sstevel@tonic-gate #include <sys/vmem_impl.h>
2137c478bd9Sstevel@tonic-gate #include <sys/kmem.h>
2147c478bd9Sstevel@tonic-gate #include <sys/kstat.h>
2157c478bd9Sstevel@tonic-gate #include <sys/param.h>
2167c478bd9Sstevel@tonic-gate #include <sys/systm.h>
2177c478bd9Sstevel@tonic-gate #include <sys/atomic.h>
2187c478bd9Sstevel@tonic-gate #include <sys/bitmap.h>
2197c478bd9Sstevel@tonic-gate #include <sys/sysmacros.h>
2207c478bd9Sstevel@tonic-gate #include <sys/cmn_err.h>
2217c478bd9Sstevel@tonic-gate #include <sys/debug.h>
2227c478bd9Sstevel@tonic-gate #include <sys/panic.h>
2237c478bd9Sstevel@tonic-gate
2247c478bd9Sstevel@tonic-gate #define VMEM_INITIAL 10 /* early vmem arenas */
2257c478bd9Sstevel@tonic-gate #define VMEM_SEG_INITIAL 200 /* early segments */
2267c478bd9Sstevel@tonic-gate
2277c478bd9Sstevel@tonic-gate /*
2287c478bd9Sstevel@tonic-gate * Adding a new span to an arena requires two segment structures: one to
2297c478bd9Sstevel@tonic-gate * represent the span, and one to represent the free segment it contains.
2307c478bd9Sstevel@tonic-gate */
2317c478bd9Sstevel@tonic-gate #define VMEM_SEGS_PER_SPAN_CREATE 2
2327c478bd9Sstevel@tonic-gate
2337c478bd9Sstevel@tonic-gate /*
2347c478bd9Sstevel@tonic-gate * Allocating a piece of an existing segment requires 0-2 segment structures
2357c478bd9Sstevel@tonic-gate * depending on how much of the segment we're allocating.
2367c478bd9Sstevel@tonic-gate *
2377c478bd9Sstevel@tonic-gate * To allocate the entire segment, no new segment structures are needed; we
2387c478bd9Sstevel@tonic-gate * simply move the existing segment structure from the freelist to the
2397c478bd9Sstevel@tonic-gate * allocation hash table.
2407c478bd9Sstevel@tonic-gate *
2417c478bd9Sstevel@tonic-gate * To allocate a piece from the left or right end of the segment, we must
2427c478bd9Sstevel@tonic-gate * split the segment into two pieces (allocated part and remainder), so we
2437c478bd9Sstevel@tonic-gate * need one new segment structure to represent the remainder.
2447c478bd9Sstevel@tonic-gate *
2457c478bd9Sstevel@tonic-gate * To allocate from the middle of a segment, we need two new segment strucures
2467c478bd9Sstevel@tonic-gate * to represent the remainders on either side of the allocated part.
2477c478bd9Sstevel@tonic-gate */
2487c478bd9Sstevel@tonic-gate #define VMEM_SEGS_PER_EXACT_ALLOC 0
2497c478bd9Sstevel@tonic-gate #define VMEM_SEGS_PER_LEFT_ALLOC 1
2507c478bd9Sstevel@tonic-gate #define VMEM_SEGS_PER_RIGHT_ALLOC 1
2517c478bd9Sstevel@tonic-gate #define VMEM_SEGS_PER_MIDDLE_ALLOC 2
2527c478bd9Sstevel@tonic-gate
2537c478bd9Sstevel@tonic-gate /*
2547c478bd9Sstevel@tonic-gate * vmem_populate() preallocates segment structures for vmem to do its work.
2557c478bd9Sstevel@tonic-gate * It must preallocate enough for the worst case, which is when we must import
2567c478bd9Sstevel@tonic-gate * a new span and then allocate from the middle of it.
2577c478bd9Sstevel@tonic-gate */
2587c478bd9Sstevel@tonic-gate #define VMEM_SEGS_PER_ALLOC_MAX \
2597c478bd9Sstevel@tonic-gate (VMEM_SEGS_PER_SPAN_CREATE + VMEM_SEGS_PER_MIDDLE_ALLOC)
2607c478bd9Sstevel@tonic-gate
2617c478bd9Sstevel@tonic-gate /*
2627c478bd9Sstevel@tonic-gate * The segment structures themselves are allocated from vmem_seg_arena, so
2637c478bd9Sstevel@tonic-gate * we have a recursion problem when vmem_seg_arena needs to populate itself.
2647c478bd9Sstevel@tonic-gate * We address this by working out the maximum number of segment structures
2657c478bd9Sstevel@tonic-gate * this act will require, and multiplying by the maximum number of threads
2667c478bd9Sstevel@tonic-gate * that we'll allow to do it simultaneously.
2677c478bd9Sstevel@tonic-gate *
2687c478bd9Sstevel@tonic-gate * The worst-case segment consumption to populate vmem_seg_arena is as
2697c478bd9Sstevel@tonic-gate * follows (depicted as a stack trace to indicate why events are occurring):
2707c478bd9Sstevel@tonic-gate *
2717c478bd9Sstevel@tonic-gate * (In order to lower the fragmentation in the heap_arena, we specify a
2727c478bd9Sstevel@tonic-gate * minimum import size for the vmem_metadata_arena which is the same size
2737c478bd9Sstevel@tonic-gate * as the kmem_va quantum cache allocations. This causes the worst-case
2747c478bd9Sstevel@tonic-gate * allocation from the vmem_metadata_arena to be 3 segments.)
2757c478bd9Sstevel@tonic-gate *
2767c478bd9Sstevel@tonic-gate * vmem_alloc(vmem_seg_arena) -> 2 segs (span create + exact alloc)
2777c478bd9Sstevel@tonic-gate * segkmem_alloc(vmem_metadata_arena)
2787c478bd9Sstevel@tonic-gate * vmem_alloc(vmem_metadata_arena) -> 3 segs (span create + left alloc)
2797c478bd9Sstevel@tonic-gate * vmem_alloc(heap_arena) -> 1 seg (left alloc)
2807c478bd9Sstevel@tonic-gate * page_create()
2817c478bd9Sstevel@tonic-gate * hat_memload()
2827c478bd9Sstevel@tonic-gate * kmem_cache_alloc()
2837c478bd9Sstevel@tonic-gate * kmem_slab_create()
2847c478bd9Sstevel@tonic-gate * vmem_alloc(hat_memload_arena) -> 2 segs (span create + exact alloc)
2857c478bd9Sstevel@tonic-gate * segkmem_alloc(heap_arena)
2867c478bd9Sstevel@tonic-gate * vmem_alloc(heap_arena) -> 1 seg (left alloc)
2877c478bd9Sstevel@tonic-gate * page_create()
2887c478bd9Sstevel@tonic-gate * hat_memload() -> (hat layer won't recurse further)
2897c478bd9Sstevel@tonic-gate *
2907c478bd9Sstevel@tonic-gate * The worst-case consumption for each arena is 3 segment structures.
2917c478bd9Sstevel@tonic-gate * Of course, a 3-seg reserve could easily be blown by multiple threads.
2927c478bd9Sstevel@tonic-gate * Therefore, we serialize all allocations from vmem_seg_arena (which is OK
2937c478bd9Sstevel@tonic-gate * because they're rare). We cannot allow a non-blocking allocation to get
2947c478bd9Sstevel@tonic-gate * tied up behind a blocking allocation, however, so we use separate locks
29510b95589Sbonwick * for VM_SLEEP and VM_NOSLEEP allocations. Similarly, VM_PUSHPAGE allocations
29610b95589Sbonwick * must not block behind ordinary VM_SLEEPs. In addition, if the system is
2977c478bd9Sstevel@tonic-gate * panicking then we must keep enough resources for panic_thread to do its
29810b95589Sbonwick * work. Thus we have at most four threads trying to allocate from
2997c478bd9Sstevel@tonic-gate * vmem_seg_arena, and each thread consumes at most three segment structures,
30010b95589Sbonwick * so we must maintain a 12-seg reserve.
3017c478bd9Sstevel@tonic-gate */
30210b95589Sbonwick #define VMEM_POPULATE_RESERVE 12
3037c478bd9Sstevel@tonic-gate
3047c478bd9Sstevel@tonic-gate /*
3057c478bd9Sstevel@tonic-gate * vmem_populate() ensures that each arena has VMEM_MINFREE seg structures
3067c478bd9Sstevel@tonic-gate * so that it can satisfy the worst-case allocation *and* participate in
3077c478bd9Sstevel@tonic-gate * worst-case allocation from vmem_seg_arena.
3087c478bd9Sstevel@tonic-gate */
3097c478bd9Sstevel@tonic-gate #define VMEM_MINFREE (VMEM_POPULATE_RESERVE + VMEM_SEGS_PER_ALLOC_MAX)
3107c478bd9Sstevel@tonic-gate
3117c478bd9Sstevel@tonic-gate static vmem_t vmem0[VMEM_INITIAL];
3127c478bd9Sstevel@tonic-gate static vmem_t *vmem_populator[VMEM_INITIAL];
3137c478bd9Sstevel@tonic-gate static uint32_t vmem_id;
3147c478bd9Sstevel@tonic-gate static uint32_t vmem_populators;
3157c478bd9Sstevel@tonic-gate static vmem_seg_t vmem_seg0[VMEM_SEG_INITIAL];
3167c478bd9Sstevel@tonic-gate static vmem_seg_t *vmem_segfree;
3177c478bd9Sstevel@tonic-gate static kmutex_t vmem_list_lock;
3187c478bd9Sstevel@tonic-gate static kmutex_t vmem_segfree_lock;
3197c478bd9Sstevel@tonic-gate static kmutex_t vmem_sleep_lock;
3207c478bd9Sstevel@tonic-gate static kmutex_t vmem_nosleep_lock;
32110b95589Sbonwick static kmutex_t vmem_pushpage_lock;
3227c478bd9Sstevel@tonic-gate static kmutex_t vmem_panic_lock;
3237c478bd9Sstevel@tonic-gate static vmem_t *vmem_list;
3247c478bd9Sstevel@tonic-gate static vmem_t *vmem_metadata_arena;
3257c478bd9Sstevel@tonic-gate static vmem_t *vmem_seg_arena;
3267c478bd9Sstevel@tonic-gate static vmem_t *vmem_hash_arena;
3277c478bd9Sstevel@tonic-gate static vmem_t *vmem_vmem_arena;
3287c478bd9Sstevel@tonic-gate static long vmem_update_interval = 15; /* vmem_update() every 15 seconds */
3297c478bd9Sstevel@tonic-gate uint32_t vmem_mtbf; /* mean time between failures [default: off] */
3307c478bd9Sstevel@tonic-gate size_t vmem_seg_size = sizeof (vmem_seg_t);
3317c478bd9Sstevel@tonic-gate
3327c478bd9Sstevel@tonic-gate static vmem_kstat_t vmem_kstat_template = {
3337c478bd9Sstevel@tonic-gate { "mem_inuse", KSTAT_DATA_UINT64 },
3347c478bd9Sstevel@tonic-gate { "mem_import", KSTAT_DATA_UINT64 },
3357c478bd9Sstevel@tonic-gate { "mem_total", KSTAT_DATA_UINT64 },
3367c478bd9Sstevel@tonic-gate { "vmem_source", KSTAT_DATA_UINT32 },
3377c478bd9Sstevel@tonic-gate { "alloc", KSTAT_DATA_UINT64 },
3387c478bd9Sstevel@tonic-gate { "free", KSTAT_DATA_UINT64 },
3397c478bd9Sstevel@tonic-gate { "wait", KSTAT_DATA_UINT64 },
3407c478bd9Sstevel@tonic-gate { "fail", KSTAT_DATA_UINT64 },
3417c478bd9Sstevel@tonic-gate { "lookup", KSTAT_DATA_UINT64 },
3427c478bd9Sstevel@tonic-gate { "search", KSTAT_DATA_UINT64 },
3437c478bd9Sstevel@tonic-gate { "populate_wait", KSTAT_DATA_UINT64 },
3447c478bd9Sstevel@tonic-gate { "populate_fail", KSTAT_DATA_UINT64 },
3457c478bd9Sstevel@tonic-gate { "contains", KSTAT_DATA_UINT64 },
3467c478bd9Sstevel@tonic-gate { "contains_search", KSTAT_DATA_UINT64 },
3477c478bd9Sstevel@tonic-gate };
3487c478bd9Sstevel@tonic-gate
3497c478bd9Sstevel@tonic-gate /*
3507c478bd9Sstevel@tonic-gate * Insert/delete from arena list (type 'a') or next-of-kin list (type 'k').
3517c478bd9Sstevel@tonic-gate */
3527c478bd9Sstevel@tonic-gate #define VMEM_INSERT(vprev, vsp, type) \
3537c478bd9Sstevel@tonic-gate { \
3547c478bd9Sstevel@tonic-gate vmem_seg_t *vnext = (vprev)->vs_##type##next; \
3557c478bd9Sstevel@tonic-gate (vsp)->vs_##type##next = (vnext); \
3567c478bd9Sstevel@tonic-gate (vsp)->vs_##type##prev = (vprev); \
3577c478bd9Sstevel@tonic-gate (vprev)->vs_##type##next = (vsp); \
3587c478bd9Sstevel@tonic-gate (vnext)->vs_##type##prev = (vsp); \
3597c478bd9Sstevel@tonic-gate }
3607c478bd9Sstevel@tonic-gate
3617c478bd9Sstevel@tonic-gate #define VMEM_DELETE(vsp, type) \
3627c478bd9Sstevel@tonic-gate { \
3637c478bd9Sstevel@tonic-gate vmem_seg_t *vprev = (vsp)->vs_##type##prev; \
3647c478bd9Sstevel@tonic-gate vmem_seg_t *vnext = (vsp)->vs_##type##next; \
3657c478bd9Sstevel@tonic-gate (vprev)->vs_##type##next = (vnext); \
3667c478bd9Sstevel@tonic-gate (vnext)->vs_##type##prev = (vprev); \
3677c478bd9Sstevel@tonic-gate }
3687c478bd9Sstevel@tonic-gate
3697c478bd9Sstevel@tonic-gate /*
3707c478bd9Sstevel@tonic-gate * Get a vmem_seg_t from the global segfree list.
3717c478bd9Sstevel@tonic-gate */
3727c478bd9Sstevel@tonic-gate static vmem_seg_t *
vmem_getseg_global(void)3737c478bd9Sstevel@tonic-gate vmem_getseg_global(void)
3747c478bd9Sstevel@tonic-gate {
3757c478bd9Sstevel@tonic-gate vmem_seg_t *vsp;
3767c478bd9Sstevel@tonic-gate
3777c478bd9Sstevel@tonic-gate mutex_enter(&vmem_segfree_lock);
3787c478bd9Sstevel@tonic-gate if ((vsp = vmem_segfree) != NULL)
3797c478bd9Sstevel@tonic-gate vmem_segfree = vsp->vs_knext;
3807c478bd9Sstevel@tonic-gate mutex_exit(&vmem_segfree_lock);
3817c478bd9Sstevel@tonic-gate
3827c478bd9Sstevel@tonic-gate return (vsp);
3837c478bd9Sstevel@tonic-gate }
3847c478bd9Sstevel@tonic-gate
3857c478bd9Sstevel@tonic-gate /*
3867c478bd9Sstevel@tonic-gate * Put a vmem_seg_t on the global segfree list.
3877c478bd9Sstevel@tonic-gate */
3887c478bd9Sstevel@tonic-gate static void
vmem_putseg_global(vmem_seg_t * vsp)3897c478bd9Sstevel@tonic-gate vmem_putseg_global(vmem_seg_t *vsp)
3907c478bd9Sstevel@tonic-gate {
3917c478bd9Sstevel@tonic-gate mutex_enter(&vmem_segfree_lock);
3927c478bd9Sstevel@tonic-gate vsp->vs_knext = vmem_segfree;
3937c478bd9Sstevel@tonic-gate vmem_segfree = vsp;
3947c478bd9Sstevel@tonic-gate mutex_exit(&vmem_segfree_lock);
3957c478bd9Sstevel@tonic-gate }
3967c478bd9Sstevel@tonic-gate
3977c478bd9Sstevel@tonic-gate /*
3987c478bd9Sstevel@tonic-gate * Get a vmem_seg_t from vmp's segfree list.
3997c478bd9Sstevel@tonic-gate */
4007c478bd9Sstevel@tonic-gate static vmem_seg_t *
vmem_getseg(vmem_t * vmp)4017c478bd9Sstevel@tonic-gate vmem_getseg(vmem_t *vmp)
4027c478bd9Sstevel@tonic-gate {
4037c478bd9Sstevel@tonic-gate vmem_seg_t *vsp;
4047c478bd9Sstevel@tonic-gate
4057c478bd9Sstevel@tonic-gate ASSERT(vmp->vm_nsegfree > 0);
4067c478bd9Sstevel@tonic-gate
4077c478bd9Sstevel@tonic-gate vsp = vmp->vm_segfree;
4087c478bd9Sstevel@tonic-gate vmp->vm_segfree = vsp->vs_knext;
4097c478bd9Sstevel@tonic-gate vmp->vm_nsegfree--;
4107c478bd9Sstevel@tonic-gate
4117c478bd9Sstevel@tonic-gate return (vsp);
4127c478bd9Sstevel@tonic-gate }
4137c478bd9Sstevel@tonic-gate
4147c478bd9Sstevel@tonic-gate /*
4157c478bd9Sstevel@tonic-gate * Put a vmem_seg_t on vmp's segfree list.
4167c478bd9Sstevel@tonic-gate */
4177c478bd9Sstevel@tonic-gate static void
vmem_putseg(vmem_t * vmp,vmem_seg_t * vsp)4187c478bd9Sstevel@tonic-gate vmem_putseg(vmem_t *vmp, vmem_seg_t *vsp)
4197c478bd9Sstevel@tonic-gate {
4207c478bd9Sstevel@tonic-gate vsp->vs_knext = vmp->vm_segfree;
4217c478bd9Sstevel@tonic-gate vmp->vm_segfree = vsp;
4227c478bd9Sstevel@tonic-gate vmp->vm_nsegfree++;
4237c478bd9Sstevel@tonic-gate }
4247c478bd9Sstevel@tonic-gate
4257c478bd9Sstevel@tonic-gate /*
4267c478bd9Sstevel@tonic-gate * Add vsp to the appropriate freelist.
4277c478bd9Sstevel@tonic-gate */
4287c478bd9Sstevel@tonic-gate static void
vmem_freelist_insert(vmem_t * vmp,vmem_seg_t * vsp)4297c478bd9Sstevel@tonic-gate vmem_freelist_insert(vmem_t *vmp, vmem_seg_t *vsp)
4307c478bd9Sstevel@tonic-gate {
4317c478bd9Sstevel@tonic-gate vmem_seg_t *vprev;
4327c478bd9Sstevel@tonic-gate
4337c478bd9Sstevel@tonic-gate ASSERT(*VMEM_HASH(vmp, vsp->vs_start) != vsp);
4347c478bd9Sstevel@tonic-gate
4357c478bd9Sstevel@tonic-gate vprev = (vmem_seg_t *)&vmp->vm_freelist[highbit(VS_SIZE(vsp)) - 1];
4367c478bd9Sstevel@tonic-gate vsp->vs_type = VMEM_FREE;
4377c478bd9Sstevel@tonic-gate vmp->vm_freemap |= VS_SIZE(vprev);
4387c478bd9Sstevel@tonic-gate VMEM_INSERT(vprev, vsp, k);
4397c478bd9Sstevel@tonic-gate
4407c478bd9Sstevel@tonic-gate cv_broadcast(&vmp->vm_cv);
4417c478bd9Sstevel@tonic-gate }
4427c478bd9Sstevel@tonic-gate
4437c478bd9Sstevel@tonic-gate /*
4447c478bd9Sstevel@tonic-gate * Take vsp from the freelist.
4457c478bd9Sstevel@tonic-gate */
4467c478bd9Sstevel@tonic-gate static void
vmem_freelist_delete(vmem_t * vmp,vmem_seg_t * vsp)4477c478bd9Sstevel@tonic-gate vmem_freelist_delete(vmem_t *vmp, vmem_seg_t *vsp)
4487c478bd9Sstevel@tonic-gate {
4497c478bd9Sstevel@tonic-gate ASSERT(*VMEM_HASH(vmp, vsp->vs_start) != vsp);
4507c478bd9Sstevel@tonic-gate ASSERT(vsp->vs_type == VMEM_FREE);
4517c478bd9Sstevel@tonic-gate
4527c478bd9Sstevel@tonic-gate if (vsp->vs_knext->vs_start == 0 && vsp->vs_kprev->vs_start == 0) {
4537c478bd9Sstevel@tonic-gate /*
4547c478bd9Sstevel@tonic-gate * The segments on both sides of 'vsp' are freelist heads,
4557c478bd9Sstevel@tonic-gate * so taking vsp leaves the freelist at vsp->vs_kprev empty.
4567c478bd9Sstevel@tonic-gate */
4577c478bd9Sstevel@tonic-gate ASSERT(vmp->vm_freemap & VS_SIZE(vsp->vs_kprev));
4587c478bd9Sstevel@tonic-gate vmp->vm_freemap ^= VS_SIZE(vsp->vs_kprev);
4597c478bd9Sstevel@tonic-gate }
4607c478bd9Sstevel@tonic-gate VMEM_DELETE(vsp, k);
4617c478bd9Sstevel@tonic-gate }
4627c478bd9Sstevel@tonic-gate
4637c478bd9Sstevel@tonic-gate /*
4647c478bd9Sstevel@tonic-gate * Add vsp to the allocated-segment hash table and update kstats.
4657c478bd9Sstevel@tonic-gate */
4667c478bd9Sstevel@tonic-gate static void
vmem_hash_insert(vmem_t * vmp,vmem_seg_t * vsp)4677c478bd9Sstevel@tonic-gate vmem_hash_insert(vmem_t *vmp, vmem_seg_t *vsp)
4687c478bd9Sstevel@tonic-gate {
4697c478bd9Sstevel@tonic-gate vmem_seg_t **bucket;
4707c478bd9Sstevel@tonic-gate
4717c478bd9Sstevel@tonic-gate vsp->vs_type = VMEM_ALLOC;
4727c478bd9Sstevel@tonic-gate bucket = VMEM_HASH(vmp, vsp->vs_start);
4737c478bd9Sstevel@tonic-gate vsp->vs_knext = *bucket;
4747c478bd9Sstevel@tonic-gate *bucket = vsp;
4757c478bd9Sstevel@tonic-gate
4767c478bd9Sstevel@tonic-gate if (vmem_seg_size == sizeof (vmem_seg_t)) {
4777c478bd9Sstevel@tonic-gate vsp->vs_depth = (uint8_t)getpcstack(vsp->vs_stack,
4787c478bd9Sstevel@tonic-gate VMEM_STACK_DEPTH);
4797c478bd9Sstevel@tonic-gate vsp->vs_thread = curthread;
4807c478bd9Sstevel@tonic-gate vsp->vs_timestamp = gethrtime();
4817c478bd9Sstevel@tonic-gate } else {
4827c478bd9Sstevel@tonic-gate vsp->vs_depth = 0;
4837c478bd9Sstevel@tonic-gate }
4847c478bd9Sstevel@tonic-gate
4857c478bd9Sstevel@tonic-gate vmp->vm_kstat.vk_alloc.value.ui64++;
4867c478bd9Sstevel@tonic-gate vmp->vm_kstat.vk_mem_inuse.value.ui64 += VS_SIZE(vsp);
4877c478bd9Sstevel@tonic-gate }
4887c478bd9Sstevel@tonic-gate
4897c478bd9Sstevel@tonic-gate /*
4907c478bd9Sstevel@tonic-gate * Remove vsp from the allocated-segment hash table and update kstats.
4917c478bd9Sstevel@tonic-gate */
4927c478bd9Sstevel@tonic-gate static vmem_seg_t *
vmem_hash_delete(vmem_t * vmp,uintptr_t addr,size_t size)4937c478bd9Sstevel@tonic-gate vmem_hash_delete(vmem_t *vmp, uintptr_t addr, size_t size)
4947c478bd9Sstevel@tonic-gate {
4957c478bd9Sstevel@tonic-gate vmem_seg_t *vsp, **prev_vspp;
4967c478bd9Sstevel@tonic-gate
4977c478bd9Sstevel@tonic-gate prev_vspp = VMEM_HASH(vmp, addr);
4987c478bd9Sstevel@tonic-gate while ((vsp = *prev_vspp) != NULL) {
4997c478bd9Sstevel@tonic-gate if (vsp->vs_start == addr) {
5007c478bd9Sstevel@tonic-gate *prev_vspp = vsp->vs_knext;
5017c478bd9Sstevel@tonic-gate break;
5027c478bd9Sstevel@tonic-gate }
5037c478bd9Sstevel@tonic-gate vmp->vm_kstat.vk_lookup.value.ui64++;
5047c478bd9Sstevel@tonic-gate prev_vspp = &vsp->vs_knext;
5057c478bd9Sstevel@tonic-gate }
5067c478bd9Sstevel@tonic-gate
5077c478bd9Sstevel@tonic-gate if (vsp == NULL)
5087c478bd9Sstevel@tonic-gate panic("vmem_hash_delete(%p, %lx, %lu): bad free",
509903a11ebSrh87107 (void *)vmp, addr, size);
5107c478bd9Sstevel@tonic-gate if (VS_SIZE(vsp) != size)
5117c478bd9Sstevel@tonic-gate panic("vmem_hash_delete(%p, %lx, %lu): wrong size (expect %lu)",
512903a11ebSrh87107 (void *)vmp, addr, size, VS_SIZE(vsp));
5137c478bd9Sstevel@tonic-gate
5147c478bd9Sstevel@tonic-gate vmp->vm_kstat.vk_free.value.ui64++;
5157c478bd9Sstevel@tonic-gate vmp->vm_kstat.vk_mem_inuse.value.ui64 -= size;
5167c478bd9Sstevel@tonic-gate
5177c478bd9Sstevel@tonic-gate return (vsp);
5187c478bd9Sstevel@tonic-gate }
5197c478bd9Sstevel@tonic-gate
5207c478bd9Sstevel@tonic-gate /*
5217c478bd9Sstevel@tonic-gate * Create a segment spanning the range [start, end) and add it to the arena.
5227c478bd9Sstevel@tonic-gate */
5237c478bd9Sstevel@tonic-gate static vmem_seg_t *
vmem_seg_create(vmem_t * vmp,vmem_seg_t * vprev,uintptr_t start,uintptr_t end)5247c478bd9Sstevel@tonic-gate vmem_seg_create(vmem_t *vmp, vmem_seg_t *vprev, uintptr_t start, uintptr_t end)
5257c478bd9Sstevel@tonic-gate {
5267c478bd9Sstevel@tonic-gate vmem_seg_t *newseg = vmem_getseg(vmp);
5277c478bd9Sstevel@tonic-gate
5287c478bd9Sstevel@tonic-gate newseg->vs_start = start;
5297c478bd9Sstevel@tonic-gate newseg->vs_end = end;
5307c478bd9Sstevel@tonic-gate newseg->vs_type = 0;
5317c478bd9Sstevel@tonic-gate newseg->vs_import = 0;
5327c478bd9Sstevel@tonic-gate
5337c478bd9Sstevel@tonic-gate VMEM_INSERT(vprev, newseg, a);
5347c478bd9Sstevel@tonic-gate
5357c478bd9Sstevel@tonic-gate return (newseg);
5367c478bd9Sstevel@tonic-gate }
5377c478bd9Sstevel@tonic-gate
5387c478bd9Sstevel@tonic-gate /*
5397c478bd9Sstevel@tonic-gate * Remove segment vsp from the arena.
5407c478bd9Sstevel@tonic-gate */
5417c478bd9Sstevel@tonic-gate static void
vmem_seg_destroy(vmem_t * vmp,vmem_seg_t * vsp)5427c478bd9Sstevel@tonic-gate vmem_seg_destroy(vmem_t *vmp, vmem_seg_t *vsp)
5437c478bd9Sstevel@tonic-gate {
5447c478bd9Sstevel@tonic-gate ASSERT(vsp->vs_type != VMEM_ROTOR);
5457c478bd9Sstevel@tonic-gate VMEM_DELETE(vsp, a);
5467c478bd9Sstevel@tonic-gate
5477c478bd9Sstevel@tonic-gate vmem_putseg(vmp, vsp);
5487c478bd9Sstevel@tonic-gate }
5497c478bd9Sstevel@tonic-gate
5507c478bd9Sstevel@tonic-gate /*
5517c478bd9Sstevel@tonic-gate * Add the span [vaddr, vaddr + size) to vmp and update kstats.
5527c478bd9Sstevel@tonic-gate */
5537c478bd9Sstevel@tonic-gate static vmem_seg_t *
vmem_span_create(vmem_t * vmp,void * vaddr,size_t size,uint8_t import)5547c478bd9Sstevel@tonic-gate vmem_span_create(vmem_t *vmp, void *vaddr, size_t size, uint8_t import)
5557c478bd9Sstevel@tonic-gate {
5567c478bd9Sstevel@tonic-gate vmem_seg_t *newseg, *span;
5577c478bd9Sstevel@tonic-gate uintptr_t start = (uintptr_t)vaddr;
5587c478bd9Sstevel@tonic-gate uintptr_t end = start + size;
5597c478bd9Sstevel@tonic-gate
5607c478bd9Sstevel@tonic-gate ASSERT(MUTEX_HELD(&vmp->vm_lock));
5617c478bd9Sstevel@tonic-gate
5627c478bd9Sstevel@tonic-gate if ((start | end) & (vmp->vm_quantum - 1))
5637c478bd9Sstevel@tonic-gate panic("vmem_span_create(%p, %p, %lu): misaligned",
564903a11ebSrh87107 (void *)vmp, vaddr, size);
5657c478bd9Sstevel@tonic-gate
5667c478bd9Sstevel@tonic-gate span = vmem_seg_create(vmp, vmp->vm_seg0.vs_aprev, start, end);
5677c478bd9Sstevel@tonic-gate span->vs_type = VMEM_SPAN;
5687c478bd9Sstevel@tonic-gate span->vs_import = import;
5697c478bd9Sstevel@tonic-gate VMEM_INSERT(vmp->vm_seg0.vs_kprev, span, k);
5707c478bd9Sstevel@tonic-gate
5717c478bd9Sstevel@tonic-gate newseg = vmem_seg_create(vmp, span, start, end);
5727c478bd9Sstevel@tonic-gate vmem_freelist_insert(vmp, newseg);
5737c478bd9Sstevel@tonic-gate
5747c478bd9Sstevel@tonic-gate if (import)
5757c478bd9Sstevel@tonic-gate vmp->vm_kstat.vk_mem_import.value.ui64 += size;
5767c478bd9Sstevel@tonic-gate vmp->vm_kstat.vk_mem_total.value.ui64 += size;
5777c478bd9Sstevel@tonic-gate
5787c478bd9Sstevel@tonic-gate return (newseg);
5797c478bd9Sstevel@tonic-gate }
5807c478bd9Sstevel@tonic-gate
5817c478bd9Sstevel@tonic-gate /*
5827c478bd9Sstevel@tonic-gate * Remove span vsp from vmp and update kstats.
5837c478bd9Sstevel@tonic-gate */
5847c478bd9Sstevel@tonic-gate static void
vmem_span_destroy(vmem_t * vmp,vmem_seg_t * vsp)5857c478bd9Sstevel@tonic-gate vmem_span_destroy(vmem_t *vmp, vmem_seg_t *vsp)
5867c478bd9Sstevel@tonic-gate {
5877c478bd9Sstevel@tonic-gate vmem_seg_t *span = vsp->vs_aprev;
5887c478bd9Sstevel@tonic-gate size_t size = VS_SIZE(vsp);
5897c478bd9Sstevel@tonic-gate
5907c478bd9Sstevel@tonic-gate ASSERT(MUTEX_HELD(&vmp->vm_lock));
5917c478bd9Sstevel@tonic-gate ASSERT(span->vs_type == VMEM_SPAN);
5927c478bd9Sstevel@tonic-gate
5937c478bd9Sstevel@tonic-gate if (span->vs_import)
5947c478bd9Sstevel@tonic-gate vmp->vm_kstat.vk_mem_import.value.ui64 -= size;
5957c478bd9Sstevel@tonic-gate vmp->vm_kstat.vk_mem_total.value.ui64 -= size;
5967c478bd9Sstevel@tonic-gate
5977c478bd9Sstevel@tonic-gate VMEM_DELETE(span, k);
5987c478bd9Sstevel@tonic-gate
5997c478bd9Sstevel@tonic-gate vmem_seg_destroy(vmp, vsp);
6007c478bd9Sstevel@tonic-gate vmem_seg_destroy(vmp, span);
6017c478bd9Sstevel@tonic-gate }
6027c478bd9Sstevel@tonic-gate
6037c478bd9Sstevel@tonic-gate /*
6047c478bd9Sstevel@tonic-gate * Allocate the subrange [addr, addr + size) from segment vsp.
6057c478bd9Sstevel@tonic-gate * If there are leftovers on either side, place them on the freelist.
6067c478bd9Sstevel@tonic-gate * Returns a pointer to the segment representing [addr, addr + size).
6077c478bd9Sstevel@tonic-gate */
6087c478bd9Sstevel@tonic-gate static vmem_seg_t *
vmem_seg_alloc(vmem_t * vmp,vmem_seg_t * vsp,uintptr_t addr,size_t size)6097c478bd9Sstevel@tonic-gate vmem_seg_alloc(vmem_t *vmp, vmem_seg_t *vsp, uintptr_t addr, size_t size)
6107c478bd9Sstevel@tonic-gate {
6117c478bd9Sstevel@tonic-gate uintptr_t vs_start = vsp->vs_start;
6127c478bd9Sstevel@tonic-gate uintptr_t vs_end = vsp->vs_end;
6137c478bd9Sstevel@tonic-gate size_t vs_size = vs_end - vs_start;
6147c478bd9Sstevel@tonic-gate size_t realsize = P2ROUNDUP(size, vmp->vm_quantum);
6157c478bd9Sstevel@tonic-gate uintptr_t addr_end = addr + realsize;
6167c478bd9Sstevel@tonic-gate
6177c478bd9Sstevel@tonic-gate ASSERT(P2PHASE(vs_start, vmp->vm_quantum) == 0);
6187c478bd9Sstevel@tonic-gate ASSERT(P2PHASE(addr, vmp->vm_quantum) == 0);
6197c478bd9Sstevel@tonic-gate ASSERT(vsp->vs_type == VMEM_FREE);
6207c478bd9Sstevel@tonic-gate ASSERT(addr >= vs_start && addr_end - 1 <= vs_end - 1);
6217c478bd9Sstevel@tonic-gate ASSERT(addr - 1 <= addr_end - 1);
6227c478bd9Sstevel@tonic-gate
6237c478bd9Sstevel@tonic-gate /*
6247c478bd9Sstevel@tonic-gate * If we're allocating from the start of the segment, and the
6257c478bd9Sstevel@tonic-gate * remainder will be on the same freelist, we can save quite
6267c478bd9Sstevel@tonic-gate * a bit of work.
6277c478bd9Sstevel@tonic-gate */
6287c478bd9Sstevel@tonic-gate if (P2SAMEHIGHBIT(vs_size, vs_size - realsize) && addr == vs_start) {
6297c478bd9Sstevel@tonic-gate ASSERT(highbit(vs_size) == highbit(vs_size - realsize));
6307c478bd9Sstevel@tonic-gate vsp->vs_start = addr_end;
6317c478bd9Sstevel@tonic-gate vsp = vmem_seg_create(vmp, vsp->vs_aprev, addr, addr + size);
6327c478bd9Sstevel@tonic-gate vmem_hash_insert(vmp, vsp);
6337c478bd9Sstevel@tonic-gate return (vsp);
6347c478bd9Sstevel@tonic-gate }
6357c478bd9Sstevel@tonic-gate
6367c478bd9Sstevel@tonic-gate vmem_freelist_delete(vmp, vsp);
6377c478bd9Sstevel@tonic-gate
6387c478bd9Sstevel@tonic-gate if (vs_end != addr_end)
6397c478bd9Sstevel@tonic-gate vmem_freelist_insert(vmp,
6407c478bd9Sstevel@tonic-gate vmem_seg_create(vmp, vsp, addr_end, vs_end));
6417c478bd9Sstevel@tonic-gate
6427c478bd9Sstevel@tonic-gate if (vs_start != addr)
6437c478bd9Sstevel@tonic-gate vmem_freelist_insert(vmp,
6447c478bd9Sstevel@tonic-gate vmem_seg_create(vmp, vsp->vs_aprev, vs_start, addr));
6457c478bd9Sstevel@tonic-gate
6467c478bd9Sstevel@tonic-gate vsp->vs_start = addr;
6477c478bd9Sstevel@tonic-gate vsp->vs_end = addr + size;
6487c478bd9Sstevel@tonic-gate
6497c478bd9Sstevel@tonic-gate vmem_hash_insert(vmp, vsp);
6507c478bd9Sstevel@tonic-gate return (vsp);
6517c478bd9Sstevel@tonic-gate }
6527c478bd9Sstevel@tonic-gate
6537c478bd9Sstevel@tonic-gate /*
6547c478bd9Sstevel@tonic-gate * Returns 1 if we are populating, 0 otherwise.
6557c478bd9Sstevel@tonic-gate * Call it if we want to prevent recursion from HAT.
6567c478bd9Sstevel@tonic-gate */
6577c478bd9Sstevel@tonic-gate int
vmem_is_populator()6587c478bd9Sstevel@tonic-gate vmem_is_populator()
6597c478bd9Sstevel@tonic-gate {
6607c478bd9Sstevel@tonic-gate return (mutex_owner(&vmem_sleep_lock) == curthread ||
6617c478bd9Sstevel@tonic-gate mutex_owner(&vmem_nosleep_lock) == curthread ||
66210b95589Sbonwick mutex_owner(&vmem_pushpage_lock) == curthread ||
6637c478bd9Sstevel@tonic-gate mutex_owner(&vmem_panic_lock) == curthread);
6647c478bd9Sstevel@tonic-gate }
6657c478bd9Sstevel@tonic-gate
6667c478bd9Sstevel@tonic-gate /*
6677c478bd9Sstevel@tonic-gate * Populate vmp's segfree list with VMEM_MINFREE vmem_seg_t structures.
6687c478bd9Sstevel@tonic-gate */
6697c478bd9Sstevel@tonic-gate static int
vmem_populate(vmem_t * vmp,int vmflag)6707c478bd9Sstevel@tonic-gate vmem_populate(vmem_t *vmp, int vmflag)
6717c478bd9Sstevel@tonic-gate {
6727c478bd9Sstevel@tonic-gate char *p;
6737c478bd9Sstevel@tonic-gate vmem_seg_t *vsp;
6747c478bd9Sstevel@tonic-gate ssize_t nseg;
6757c478bd9Sstevel@tonic-gate size_t size;
6767c478bd9Sstevel@tonic-gate kmutex_t *lp;
6777c478bd9Sstevel@tonic-gate int i;
6787c478bd9Sstevel@tonic-gate
6797c478bd9Sstevel@tonic-gate while (vmp->vm_nsegfree < VMEM_MINFREE &&
6807c478bd9Sstevel@tonic-gate (vsp = vmem_getseg_global()) != NULL)
6817c478bd9Sstevel@tonic-gate vmem_putseg(vmp, vsp);
6827c478bd9Sstevel@tonic-gate
6837c478bd9Sstevel@tonic-gate if (vmp->vm_nsegfree >= VMEM_MINFREE)
6847c478bd9Sstevel@tonic-gate return (1);
6857c478bd9Sstevel@tonic-gate
6867c478bd9Sstevel@tonic-gate /*
6877c478bd9Sstevel@tonic-gate * If we're already populating, tap the reserve.
6887c478bd9Sstevel@tonic-gate */
6897c478bd9Sstevel@tonic-gate if (vmem_is_populator()) {
6907c478bd9Sstevel@tonic-gate ASSERT(vmp->vm_cflags & VMC_POPULATOR);
6917c478bd9Sstevel@tonic-gate return (1);
6927c478bd9Sstevel@tonic-gate }
6937c478bd9Sstevel@tonic-gate
6947c478bd9Sstevel@tonic-gate mutex_exit(&vmp->vm_lock);
6957c478bd9Sstevel@tonic-gate
6967c478bd9Sstevel@tonic-gate if (panic_thread == curthread)
6977c478bd9Sstevel@tonic-gate lp = &vmem_panic_lock;
6987c478bd9Sstevel@tonic-gate else if (vmflag & VM_NOSLEEP)
6997c478bd9Sstevel@tonic-gate lp = &vmem_nosleep_lock;
70010b95589Sbonwick else if (vmflag & VM_PUSHPAGE)
70110b95589Sbonwick lp = &vmem_pushpage_lock;
7027c478bd9Sstevel@tonic-gate else
7037c478bd9Sstevel@tonic-gate lp = &vmem_sleep_lock;
7047c478bd9Sstevel@tonic-gate
7057c478bd9Sstevel@tonic-gate mutex_enter(lp);
7067c478bd9Sstevel@tonic-gate
7077c478bd9Sstevel@tonic-gate nseg = VMEM_MINFREE + vmem_populators * VMEM_POPULATE_RESERVE;
7087c478bd9Sstevel@tonic-gate size = P2ROUNDUP(nseg * vmem_seg_size, vmem_seg_arena->vm_quantum);
7097c478bd9Sstevel@tonic-gate nseg = size / vmem_seg_size;
7107c478bd9Sstevel@tonic-gate
7117c478bd9Sstevel@tonic-gate /*
7127c478bd9Sstevel@tonic-gate * The following vmem_alloc() may need to populate vmem_seg_arena
7137c478bd9Sstevel@tonic-gate * and all the things it imports from. When doing so, it will tap
7147c478bd9Sstevel@tonic-gate * each arena's reserve to prevent recursion (see the block comment
7157c478bd9Sstevel@tonic-gate * above the definition of VMEM_POPULATE_RESERVE).
7167c478bd9Sstevel@tonic-gate */
7177c478bd9Sstevel@tonic-gate p = vmem_alloc(vmem_seg_arena, size, vmflag & VM_KMFLAGS);
7187c478bd9Sstevel@tonic-gate if (p == NULL) {
7197c478bd9Sstevel@tonic-gate mutex_exit(lp);
7207c478bd9Sstevel@tonic-gate mutex_enter(&vmp->vm_lock);
7217c478bd9Sstevel@tonic-gate vmp->vm_kstat.vk_populate_fail.value.ui64++;
7227c478bd9Sstevel@tonic-gate return (0);
7237c478bd9Sstevel@tonic-gate }
7247c478bd9Sstevel@tonic-gate
7257c478bd9Sstevel@tonic-gate /*
7267c478bd9Sstevel@tonic-gate * Restock the arenas that may have been depleted during population.
7277c478bd9Sstevel@tonic-gate */
7287c478bd9Sstevel@tonic-gate for (i = 0; i < vmem_populators; i++) {
7297c478bd9Sstevel@tonic-gate mutex_enter(&vmem_populator[i]->vm_lock);
7307c478bd9Sstevel@tonic-gate while (vmem_populator[i]->vm_nsegfree < VMEM_POPULATE_RESERVE)
7317c478bd9Sstevel@tonic-gate vmem_putseg(vmem_populator[i],
7327c478bd9Sstevel@tonic-gate (vmem_seg_t *)(p + --nseg * vmem_seg_size));
7337c478bd9Sstevel@tonic-gate mutex_exit(&vmem_populator[i]->vm_lock);
7347c478bd9Sstevel@tonic-gate }
7357c478bd9Sstevel@tonic-gate
7367c478bd9Sstevel@tonic-gate mutex_exit(lp);
7377c478bd9Sstevel@tonic-gate mutex_enter(&vmp->vm_lock);
7387c478bd9Sstevel@tonic-gate
7397c478bd9Sstevel@tonic-gate /*
7407c478bd9Sstevel@tonic-gate * Now take our own segments.
7417c478bd9Sstevel@tonic-gate */
7427c478bd9Sstevel@tonic-gate ASSERT(nseg >= VMEM_MINFREE);
7437c478bd9Sstevel@tonic-gate while (vmp->vm_nsegfree < VMEM_MINFREE)
7447c478bd9Sstevel@tonic-gate vmem_putseg(vmp, (vmem_seg_t *)(p + --nseg * vmem_seg_size));
7457c478bd9Sstevel@tonic-gate
7467c478bd9Sstevel@tonic-gate /*
7477c478bd9Sstevel@tonic-gate * Give the remainder to charity.
7487c478bd9Sstevel@tonic-gate */
7497c478bd9Sstevel@tonic-gate while (nseg > 0)
7507c478bd9Sstevel@tonic-gate vmem_putseg_global((vmem_seg_t *)(p + --nseg * vmem_seg_size));
7517c478bd9Sstevel@tonic-gate
7527c478bd9Sstevel@tonic-gate return (1);
7537c478bd9Sstevel@tonic-gate }
7547c478bd9Sstevel@tonic-gate
7557c478bd9Sstevel@tonic-gate /*
7567c478bd9Sstevel@tonic-gate * Advance a walker from its previous position to 'afterme'.
7577c478bd9Sstevel@tonic-gate * Note: may drop and reacquire vmp->vm_lock.
7587c478bd9Sstevel@tonic-gate */
7597c478bd9Sstevel@tonic-gate static void
vmem_advance(vmem_t * vmp,vmem_seg_t * walker,vmem_seg_t * afterme)7607c478bd9Sstevel@tonic-gate vmem_advance(vmem_t *vmp, vmem_seg_t *walker, vmem_seg_t *afterme)
7617c478bd9Sstevel@tonic-gate {
7627c478bd9Sstevel@tonic-gate vmem_seg_t *vprev = walker->vs_aprev;
7637c478bd9Sstevel@tonic-gate vmem_seg_t *vnext = walker->vs_anext;
7647c478bd9Sstevel@tonic-gate vmem_seg_t *vsp = NULL;
7657c478bd9Sstevel@tonic-gate
7667c478bd9Sstevel@tonic-gate VMEM_DELETE(walker, a);
7677c478bd9Sstevel@tonic-gate
7687c478bd9Sstevel@tonic-gate if (afterme != NULL)
7697c478bd9Sstevel@tonic-gate VMEM_INSERT(afterme, walker, a);
7707c478bd9Sstevel@tonic-gate
7717c478bd9Sstevel@tonic-gate /*
7727c478bd9Sstevel@tonic-gate * The walker segment's presence may have prevented its neighbors
7737c478bd9Sstevel@tonic-gate * from coalescing. If so, coalesce them now.
7747c478bd9Sstevel@tonic-gate */
7757c478bd9Sstevel@tonic-gate if (vprev->vs_type == VMEM_FREE) {
7767c478bd9Sstevel@tonic-gate if (vnext->vs_type == VMEM_FREE) {
7777c478bd9Sstevel@tonic-gate ASSERT(vprev->vs_end == vnext->vs_start);
7787c478bd9Sstevel@tonic-gate vmem_freelist_delete(vmp, vnext);
7797c478bd9Sstevel@tonic-gate vmem_freelist_delete(vmp, vprev);
7807c478bd9Sstevel@tonic-gate vprev->vs_end = vnext->vs_end;
7817c478bd9Sstevel@tonic-gate vmem_freelist_insert(vmp, vprev);
7827c478bd9Sstevel@tonic-gate vmem_seg_destroy(vmp, vnext);
7837c478bd9Sstevel@tonic-gate }
7847c478bd9Sstevel@tonic-gate vsp = vprev;
7857c478bd9Sstevel@tonic-gate } else if (vnext->vs_type == VMEM_FREE) {
7867c478bd9Sstevel@tonic-gate vsp = vnext;
7877c478bd9Sstevel@tonic-gate }
7887c478bd9Sstevel@tonic-gate
7897c478bd9Sstevel@tonic-gate /*
7907c478bd9Sstevel@tonic-gate * vsp could represent a complete imported span,
7917c478bd9Sstevel@tonic-gate * in which case we must return it to the source.
7927c478bd9Sstevel@tonic-gate */
7937c478bd9Sstevel@tonic-gate if (vsp != NULL && vsp->vs_aprev->vs_import &&
7947c478bd9Sstevel@tonic-gate vmp->vm_source_free != NULL &&
7957c478bd9Sstevel@tonic-gate vsp->vs_aprev->vs_type == VMEM_SPAN &&
7967c478bd9Sstevel@tonic-gate vsp->vs_anext->vs_type == VMEM_SPAN) {
7977c478bd9Sstevel@tonic-gate void *vaddr = (void *)vsp->vs_start;
7987c478bd9Sstevel@tonic-gate size_t size = VS_SIZE(vsp);
7997c478bd9Sstevel@tonic-gate ASSERT(size == VS_SIZE(vsp->vs_aprev));
8007c478bd9Sstevel@tonic-gate vmem_freelist_delete(vmp, vsp);
8017c478bd9Sstevel@tonic-gate vmem_span_destroy(vmp, vsp);
8027c478bd9Sstevel@tonic-gate mutex_exit(&vmp->vm_lock);
8037c478bd9Sstevel@tonic-gate vmp->vm_source_free(vmp->vm_source, vaddr, size);
8047c478bd9Sstevel@tonic-gate mutex_enter(&vmp->vm_lock);
8057c478bd9Sstevel@tonic-gate }
8067c478bd9Sstevel@tonic-gate }
8077c478bd9Sstevel@tonic-gate
8087c478bd9Sstevel@tonic-gate /*
8097c478bd9Sstevel@tonic-gate * VM_NEXTFIT allocations deliberately cycle through all virtual addresses
8107c478bd9Sstevel@tonic-gate * in an arena, so that we avoid reusing addresses for as long as possible.
8117c478bd9Sstevel@tonic-gate * This helps to catch used-after-freed bugs. It's also the perfect policy
8127c478bd9Sstevel@tonic-gate * for allocating things like process IDs, where we want to cycle through
8137c478bd9Sstevel@tonic-gate * all values in order.
8147c478bd9Sstevel@tonic-gate */
8157c478bd9Sstevel@tonic-gate static void *
vmem_nextfit_alloc(vmem_t * vmp,size_t size,int vmflag)8167c478bd9Sstevel@tonic-gate vmem_nextfit_alloc(vmem_t *vmp, size_t size, int vmflag)
8177c478bd9Sstevel@tonic-gate {
8187c478bd9Sstevel@tonic-gate vmem_seg_t *vsp, *rotor;
8197c478bd9Sstevel@tonic-gate uintptr_t addr;
8207c478bd9Sstevel@tonic-gate size_t realsize = P2ROUNDUP(size, vmp->vm_quantum);
8217c478bd9Sstevel@tonic-gate size_t vs_size;
8227c478bd9Sstevel@tonic-gate
8237c478bd9Sstevel@tonic-gate mutex_enter(&vmp->vm_lock);
8247c478bd9Sstevel@tonic-gate
8257c478bd9Sstevel@tonic-gate if (vmp->vm_nsegfree < VMEM_MINFREE && !vmem_populate(vmp, vmflag)) {
8267c478bd9Sstevel@tonic-gate mutex_exit(&vmp->vm_lock);
8277c478bd9Sstevel@tonic-gate return (NULL);
8287c478bd9Sstevel@tonic-gate }
8297c478bd9Sstevel@tonic-gate
8307c478bd9Sstevel@tonic-gate /*
8317c478bd9Sstevel@tonic-gate * The common case is that the segment right after the rotor is free,
8327c478bd9Sstevel@tonic-gate * and large enough that extracting 'size' bytes won't change which
8337c478bd9Sstevel@tonic-gate * freelist it's on. In this case we can avoid a *lot* of work.
8347c478bd9Sstevel@tonic-gate * Instead of the normal vmem_seg_alloc(), we just advance the start
8357c478bd9Sstevel@tonic-gate * address of the victim segment. Instead of moving the rotor, we
8367c478bd9Sstevel@tonic-gate * create the new segment structure *behind the rotor*, which has
8377c478bd9Sstevel@tonic-gate * the same effect. And finally, we know we don't have to coalesce
8387c478bd9Sstevel@tonic-gate * the rotor's neighbors because the new segment lies between them.
8397c478bd9Sstevel@tonic-gate */
8407c478bd9Sstevel@tonic-gate rotor = &vmp->vm_rotor;
8417c478bd9Sstevel@tonic-gate vsp = rotor->vs_anext;
8427c478bd9Sstevel@tonic-gate if (vsp->vs_type == VMEM_FREE && (vs_size = VS_SIZE(vsp)) > realsize &&
8437c478bd9Sstevel@tonic-gate P2SAMEHIGHBIT(vs_size, vs_size - realsize)) {
8447c478bd9Sstevel@tonic-gate ASSERT(highbit(vs_size) == highbit(vs_size - realsize));
8457c478bd9Sstevel@tonic-gate addr = vsp->vs_start;
8467c478bd9Sstevel@tonic-gate vsp->vs_start = addr + realsize;
8477c478bd9Sstevel@tonic-gate vmem_hash_insert(vmp,
8487c478bd9Sstevel@tonic-gate vmem_seg_create(vmp, rotor->vs_aprev, addr, addr + size));
8497c478bd9Sstevel@tonic-gate mutex_exit(&vmp->vm_lock);
8507c478bd9Sstevel@tonic-gate return ((void *)addr);
8517c478bd9Sstevel@tonic-gate }
8527c478bd9Sstevel@tonic-gate
8537c478bd9Sstevel@tonic-gate /*
8547c478bd9Sstevel@tonic-gate * Starting at the rotor, look for a segment large enough to
8557c478bd9Sstevel@tonic-gate * satisfy the allocation.
8567c478bd9Sstevel@tonic-gate */
8577c478bd9Sstevel@tonic-gate for (;;) {
8587c478bd9Sstevel@tonic-gate vmp->vm_kstat.vk_search.value.ui64++;
8597c478bd9Sstevel@tonic-gate if (vsp->vs_type == VMEM_FREE && VS_SIZE(vsp) >= size)
8607c478bd9Sstevel@tonic-gate break;
8617c478bd9Sstevel@tonic-gate vsp = vsp->vs_anext;
8627c478bd9Sstevel@tonic-gate if (vsp == rotor) {
8637c478bd9Sstevel@tonic-gate /*
8647c478bd9Sstevel@tonic-gate * We've come full circle. One possibility is that the
8657c478bd9Sstevel@tonic-gate * there's actually enough space, but the rotor itself
8667c478bd9Sstevel@tonic-gate * is preventing the allocation from succeeding because
8677c478bd9Sstevel@tonic-gate * it's sitting between two free segments. Therefore,
8687c478bd9Sstevel@tonic-gate * we advance the rotor and see if that liberates a
8697c478bd9Sstevel@tonic-gate * suitable segment.
8707c478bd9Sstevel@tonic-gate */
8717c478bd9Sstevel@tonic-gate vmem_advance(vmp, rotor, rotor->vs_anext);
8727c478bd9Sstevel@tonic-gate vsp = rotor->vs_aprev;
8737c478bd9Sstevel@tonic-gate if (vsp->vs_type == VMEM_FREE && VS_SIZE(vsp) >= size)
8747c478bd9Sstevel@tonic-gate break;
8757c478bd9Sstevel@tonic-gate /*
8767c478bd9Sstevel@tonic-gate * If there's a lower arena we can import from, or it's
8777c478bd9Sstevel@tonic-gate * a VM_NOSLEEP allocation, let vmem_xalloc() handle it.
8787c478bd9Sstevel@tonic-gate * Otherwise, wait until another thread frees something.
8797c478bd9Sstevel@tonic-gate */
8807c478bd9Sstevel@tonic-gate if (vmp->vm_source_alloc != NULL ||
8817c478bd9Sstevel@tonic-gate (vmflag & VM_NOSLEEP)) {
8827c478bd9Sstevel@tonic-gate mutex_exit(&vmp->vm_lock);
8837c478bd9Sstevel@tonic-gate return (vmem_xalloc(vmp, size, vmp->vm_quantum,
8847c478bd9Sstevel@tonic-gate 0, 0, NULL, NULL, vmflag & VM_KMFLAGS));
8857c478bd9Sstevel@tonic-gate }
8867c478bd9Sstevel@tonic-gate vmp->vm_kstat.vk_wait.value.ui64++;
8877c478bd9Sstevel@tonic-gate cv_wait(&vmp->vm_cv, &vmp->vm_lock);
8887c478bd9Sstevel@tonic-gate vsp = rotor->vs_anext;
8897c478bd9Sstevel@tonic-gate }
8907c478bd9Sstevel@tonic-gate }
8917c478bd9Sstevel@tonic-gate
8927c478bd9Sstevel@tonic-gate /*
8937c478bd9Sstevel@tonic-gate * We found a segment. Extract enough space to satisfy the allocation.
8947c478bd9Sstevel@tonic-gate */
8957c478bd9Sstevel@tonic-gate addr = vsp->vs_start;
8967c478bd9Sstevel@tonic-gate vsp = vmem_seg_alloc(vmp, vsp, addr, size);
8977c478bd9Sstevel@tonic-gate ASSERT(vsp->vs_type == VMEM_ALLOC &&
8987c478bd9Sstevel@tonic-gate vsp->vs_start == addr && vsp->vs_end == addr + size);
8997c478bd9Sstevel@tonic-gate
9007c478bd9Sstevel@tonic-gate /*
9017c478bd9Sstevel@tonic-gate * Advance the rotor to right after the newly-allocated segment.
9027c478bd9Sstevel@tonic-gate * That's where the next VM_NEXTFIT allocation will begin searching.
9037c478bd9Sstevel@tonic-gate */
9047c478bd9Sstevel@tonic-gate vmem_advance(vmp, rotor, vsp);
9057c478bd9Sstevel@tonic-gate mutex_exit(&vmp->vm_lock);
9067c478bd9Sstevel@tonic-gate return ((void *)addr);
9077c478bd9Sstevel@tonic-gate }
9087c478bd9Sstevel@tonic-gate
9097c478bd9Sstevel@tonic-gate /*
9107c478bd9Sstevel@tonic-gate * Checks if vmp is guaranteed to have a size-byte buffer somewhere on its
9117c478bd9Sstevel@tonic-gate * freelist. If size is not a power-of-2, it can return a false-negative.
9127c478bd9Sstevel@tonic-gate *
9137c478bd9Sstevel@tonic-gate * Used to decide if a newly imported span is superfluous after re-acquiring
9147c478bd9Sstevel@tonic-gate * the arena lock.
9157c478bd9Sstevel@tonic-gate */
9167c478bd9Sstevel@tonic-gate static int
vmem_canalloc(vmem_t * vmp,size_t size)9177c478bd9Sstevel@tonic-gate vmem_canalloc(vmem_t *vmp, size_t size)
9187c478bd9Sstevel@tonic-gate {
9197c478bd9Sstevel@tonic-gate int hb;
9207c478bd9Sstevel@tonic-gate int flist = 0;
9217c478bd9Sstevel@tonic-gate ASSERT(MUTEX_HELD(&vmp->vm_lock));
9227c478bd9Sstevel@tonic-gate
923de710d24SJosef 'Jeff' Sipek if (ISP2(size))
9247c478bd9Sstevel@tonic-gate flist = lowbit(P2ALIGN(vmp->vm_freemap, size));
9257c478bd9Sstevel@tonic-gate else if ((hb = highbit(size)) < VMEM_FREELISTS)
9267c478bd9Sstevel@tonic-gate flist = lowbit(P2ALIGN(vmp->vm_freemap, 1UL << hb));
9277c478bd9Sstevel@tonic-gate
9287c478bd9Sstevel@tonic-gate return (flist);
9297c478bd9Sstevel@tonic-gate }
9307c478bd9Sstevel@tonic-gate
9317c478bd9Sstevel@tonic-gate /*
9327c478bd9Sstevel@tonic-gate * Allocate size bytes at offset phase from an align boundary such that the
9337c478bd9Sstevel@tonic-gate * resulting segment [addr, addr + size) is a subset of [minaddr, maxaddr)
9347c478bd9Sstevel@tonic-gate * that does not straddle a nocross-aligned boundary.
9357c478bd9Sstevel@tonic-gate */
9367c478bd9Sstevel@tonic-gate void *
vmem_xalloc(vmem_t * vmp,size_t size,size_t align_arg,size_t phase,size_t nocross,void * minaddr,void * maxaddr,int vmflag)9377c478bd9Sstevel@tonic-gate vmem_xalloc(vmem_t *vmp, size_t size, size_t align_arg, size_t phase,
9387c478bd9Sstevel@tonic-gate size_t nocross, void *minaddr, void *maxaddr, int vmflag)
9397c478bd9Sstevel@tonic-gate {
9407c478bd9Sstevel@tonic-gate vmem_seg_t *vsp;
9417c478bd9Sstevel@tonic-gate vmem_seg_t *vbest = NULL;
9427c478bd9Sstevel@tonic-gate uintptr_t addr, taddr, start, end;
9437c478bd9Sstevel@tonic-gate uintptr_t align = (align_arg != 0) ? align_arg : vmp->vm_quantum;
9447c478bd9Sstevel@tonic-gate void *vaddr, *xvaddr = NULL;
9457c478bd9Sstevel@tonic-gate size_t xsize;
9467c478bd9Sstevel@tonic-gate int hb, flist, resv;
9477c478bd9Sstevel@tonic-gate uint32_t mtbf;
9487c478bd9Sstevel@tonic-gate
9497c478bd9Sstevel@tonic-gate if ((align | phase | nocross) & (vmp->vm_quantum - 1))
9507c478bd9Sstevel@tonic-gate panic("vmem_xalloc(%p, %lu, %lu, %lu, %lu, %p, %p, %x): "
9517c478bd9Sstevel@tonic-gate "parameters not vm_quantum aligned",
9527c478bd9Sstevel@tonic-gate (void *)vmp, size, align_arg, phase, nocross,
9537c478bd9Sstevel@tonic-gate minaddr, maxaddr, vmflag);
9547c478bd9Sstevel@tonic-gate
9557c478bd9Sstevel@tonic-gate if (nocross != 0 &&
9567c478bd9Sstevel@tonic-gate (align > nocross || P2ROUNDUP(phase + size, align) > nocross))
9577c478bd9Sstevel@tonic-gate panic("vmem_xalloc(%p, %lu, %lu, %lu, %lu, %p, %p, %x): "
9587c478bd9Sstevel@tonic-gate "overconstrained allocation",
9597c478bd9Sstevel@tonic-gate (void *)vmp, size, align_arg, phase, nocross,
9607c478bd9Sstevel@tonic-gate minaddr, maxaddr, vmflag);
9617c478bd9Sstevel@tonic-gate
962de710d24SJosef 'Jeff' Sipek if (phase >= align || !ISP2(align) || !ISP2(nocross))
9637c478bd9Sstevel@tonic-gate panic("vmem_xalloc(%p, %lu, %lu, %lu, %lu, %p, %p, %x): "
9647c478bd9Sstevel@tonic-gate "parameters inconsistent or invalid",
9657c478bd9Sstevel@tonic-gate (void *)vmp, size, align_arg, phase, nocross,
9667c478bd9Sstevel@tonic-gate minaddr, maxaddr, vmflag);
9677c478bd9Sstevel@tonic-gate
9687c478bd9Sstevel@tonic-gate if ((mtbf = vmem_mtbf | vmp->vm_mtbf) != 0 && gethrtime() % mtbf == 0 &&
9697c478bd9Sstevel@tonic-gate (vmflag & (VM_NOSLEEP | VM_PANIC)) == VM_NOSLEEP)
9707c478bd9Sstevel@tonic-gate return (NULL);
9717c478bd9Sstevel@tonic-gate
9727c478bd9Sstevel@tonic-gate mutex_enter(&vmp->vm_lock);
9737c478bd9Sstevel@tonic-gate for (;;) {
9747c478bd9Sstevel@tonic-gate if (vmp->vm_nsegfree < VMEM_MINFREE &&
9757c478bd9Sstevel@tonic-gate !vmem_populate(vmp, vmflag))
9767c478bd9Sstevel@tonic-gate break;
9777c478bd9Sstevel@tonic-gate do_alloc:
9787c478bd9Sstevel@tonic-gate /*
9797c478bd9Sstevel@tonic-gate * highbit() returns the highest bit + 1, which is exactly
9807c478bd9Sstevel@tonic-gate * what we want: we want to search the first freelist whose
9817c478bd9Sstevel@tonic-gate * members are *definitely* large enough to satisfy our
9827c478bd9Sstevel@tonic-gate * allocation. However, there are certain cases in which we
9837c478bd9Sstevel@tonic-gate * want to look at the next-smallest freelist (which *might*
9847c478bd9Sstevel@tonic-gate * be able to satisfy the allocation):
9857c478bd9Sstevel@tonic-gate *
9867c478bd9Sstevel@tonic-gate * (1) The size is exactly a power of 2, in which case
9877c478bd9Sstevel@tonic-gate * the smaller freelist is always big enough;
9887c478bd9Sstevel@tonic-gate *
9897c478bd9Sstevel@tonic-gate * (2) All other freelists are empty;
9907c478bd9Sstevel@tonic-gate *
9917c478bd9Sstevel@tonic-gate * (3) We're in the highest possible freelist, which is
9927c478bd9Sstevel@tonic-gate * always empty (e.g. the 4GB freelist on 32-bit systems);
9937c478bd9Sstevel@tonic-gate *
9947c478bd9Sstevel@tonic-gate * (4) We're doing a best-fit or first-fit allocation.
9957c478bd9Sstevel@tonic-gate */
996de710d24SJosef 'Jeff' Sipek if (ISP2(size)) {
9977c478bd9Sstevel@tonic-gate flist = lowbit(P2ALIGN(vmp->vm_freemap, size));
9987c478bd9Sstevel@tonic-gate } else {
9997c478bd9Sstevel@tonic-gate hb = highbit(size);
10007c478bd9Sstevel@tonic-gate if ((vmp->vm_freemap >> hb) == 0 ||
10017c478bd9Sstevel@tonic-gate hb == VMEM_FREELISTS ||
10027c478bd9Sstevel@tonic-gate (vmflag & (VM_BESTFIT | VM_FIRSTFIT)))
10037c478bd9Sstevel@tonic-gate hb--;
10047c478bd9Sstevel@tonic-gate flist = lowbit(P2ALIGN(vmp->vm_freemap, 1UL << hb));
10057c478bd9Sstevel@tonic-gate }
10067c478bd9Sstevel@tonic-gate
10077c478bd9Sstevel@tonic-gate for (vbest = NULL, vsp = (flist == 0) ? NULL :
10087c478bd9Sstevel@tonic-gate vmp->vm_freelist[flist - 1].vs_knext;
10097c478bd9Sstevel@tonic-gate vsp != NULL; vsp = vsp->vs_knext) {
10107c478bd9Sstevel@tonic-gate vmp->vm_kstat.vk_search.value.ui64++;
10117c478bd9Sstevel@tonic-gate if (vsp->vs_start == 0) {
10127c478bd9Sstevel@tonic-gate /*
10137c478bd9Sstevel@tonic-gate * We're moving up to a larger freelist,
10147c478bd9Sstevel@tonic-gate * so if we've already found a candidate,
10157c478bd9Sstevel@tonic-gate * the fit can't possibly get any better.
10167c478bd9Sstevel@tonic-gate */
10177c478bd9Sstevel@tonic-gate if (vbest != NULL)
10187c478bd9Sstevel@tonic-gate break;
10197c478bd9Sstevel@tonic-gate /*
10207c478bd9Sstevel@tonic-gate * Find the next non-empty freelist.
10217c478bd9Sstevel@tonic-gate */
10227c478bd9Sstevel@tonic-gate flist = lowbit(P2ALIGN(vmp->vm_freemap,
10237c478bd9Sstevel@tonic-gate VS_SIZE(vsp)));
10247c478bd9Sstevel@tonic-gate if (flist-- == 0)
10257c478bd9Sstevel@tonic-gate break;
10267c478bd9Sstevel@tonic-gate vsp = (vmem_seg_t *)&vmp->vm_freelist[flist];
10277c478bd9Sstevel@tonic-gate ASSERT(vsp->vs_knext->vs_type == VMEM_FREE);
10287c478bd9Sstevel@tonic-gate continue;
10297c478bd9Sstevel@tonic-gate }
10307c478bd9Sstevel@tonic-gate if (vsp->vs_end - 1 < (uintptr_t)minaddr)
10317c478bd9Sstevel@tonic-gate continue;
10327c478bd9Sstevel@tonic-gate if (vsp->vs_start > (uintptr_t)maxaddr - 1)
10337c478bd9Sstevel@tonic-gate continue;
10347c478bd9Sstevel@tonic-gate start = MAX(vsp->vs_start, (uintptr_t)minaddr);
10357c478bd9Sstevel@tonic-gate end = MIN(vsp->vs_end - 1, (uintptr_t)maxaddr - 1) + 1;
10367c478bd9Sstevel@tonic-gate taddr = P2PHASEUP(start, align, phase);
103788b7b0f2SMatthew Ahrens if (P2BOUNDARY(taddr, size, nocross))
10387c478bd9Sstevel@tonic-gate taddr +=
10397c478bd9Sstevel@tonic-gate P2ROUNDUP(P2NPHASE(taddr, nocross), align);
10407c478bd9Sstevel@tonic-gate if ((taddr - start) + size > end - start ||
10417c478bd9Sstevel@tonic-gate (vbest != NULL && VS_SIZE(vsp) >= VS_SIZE(vbest)))
10427c478bd9Sstevel@tonic-gate continue;
10437c478bd9Sstevel@tonic-gate vbest = vsp;
10447c478bd9Sstevel@tonic-gate addr = taddr;
10457c478bd9Sstevel@tonic-gate if (!(vmflag & VM_BESTFIT) || VS_SIZE(vbest) == size)
10467c478bd9Sstevel@tonic-gate break;
10477c478bd9Sstevel@tonic-gate }
10487c478bd9Sstevel@tonic-gate if (vbest != NULL)
10497c478bd9Sstevel@tonic-gate break;
10507c478bd9Sstevel@tonic-gate ASSERT(xvaddr == NULL);
10517c478bd9Sstevel@tonic-gate if (size == 0)
10527c478bd9Sstevel@tonic-gate panic("vmem_xalloc(): size == 0");
10537c478bd9Sstevel@tonic-gate if (vmp->vm_source_alloc != NULL && nocross == 0 &&
10547c478bd9Sstevel@tonic-gate minaddr == NULL && maxaddr == NULL) {
10557c478bd9Sstevel@tonic-gate size_t aneeded, asize;
10567c478bd9Sstevel@tonic-gate size_t aquantum = MAX(vmp->vm_quantum,
10577c478bd9Sstevel@tonic-gate vmp->vm_source->vm_quantum);
10587c478bd9Sstevel@tonic-gate size_t aphase = phase;
1059aaa10e67Sha137994 if ((align > aquantum) &&
1060aaa10e67Sha137994 !(vmp->vm_cflags & VMC_XALIGN)) {
10617c478bd9Sstevel@tonic-gate aphase = (P2PHASE(phase, aquantum) != 0) ?
10627c478bd9Sstevel@tonic-gate align - vmp->vm_quantum : align - aquantum;
10637c478bd9Sstevel@tonic-gate ASSERT(aphase >= phase);
10647c478bd9Sstevel@tonic-gate }
10657c478bd9Sstevel@tonic-gate aneeded = MAX(size + aphase, vmp->vm_min_import);
10667c478bd9Sstevel@tonic-gate asize = P2ROUNDUP(aneeded, aquantum);
10677c478bd9Sstevel@tonic-gate
10680ee475b2SBryan Cantrill if (asize < size) {
10690ee475b2SBryan Cantrill /*
10700ee475b2SBryan Cantrill * The rounding induced overflow; return NULL
10710ee475b2SBryan Cantrill * if we are permitted to fail the allocation
10720ee475b2SBryan Cantrill * (and explicitly panic if we aren't).
10730ee475b2SBryan Cantrill */
10740ee475b2SBryan Cantrill if ((vmflag & VM_NOSLEEP) &&
10750ee475b2SBryan Cantrill !(vmflag & VM_PANIC)) {
10760ee475b2SBryan Cantrill mutex_exit(&vmp->vm_lock);
10770ee475b2SBryan Cantrill return (NULL);
10780ee475b2SBryan Cantrill }
10790ee475b2SBryan Cantrill
10800ee475b2SBryan Cantrill panic("vmem_xalloc(): size overflow");
10810ee475b2SBryan Cantrill }
10820ee475b2SBryan Cantrill
10837c478bd9Sstevel@tonic-gate /*
10847c478bd9Sstevel@tonic-gate * Determine how many segment structures we'll consume.
10857c478bd9Sstevel@tonic-gate * The calculation must be precise because if we're
10867c478bd9Sstevel@tonic-gate * here on behalf of vmem_populate(), we are taking
10877c478bd9Sstevel@tonic-gate * segments from a very limited reserve.
10887c478bd9Sstevel@tonic-gate */
10897c478bd9Sstevel@tonic-gate if (size == asize && !(vmp->vm_cflags & VMC_XALLOC))
10907c478bd9Sstevel@tonic-gate resv = VMEM_SEGS_PER_SPAN_CREATE +
10917c478bd9Sstevel@tonic-gate VMEM_SEGS_PER_EXACT_ALLOC;
10927c478bd9Sstevel@tonic-gate else if (phase == 0 &&
10937c478bd9Sstevel@tonic-gate align <= vmp->vm_source->vm_quantum)
10947c478bd9Sstevel@tonic-gate resv = VMEM_SEGS_PER_SPAN_CREATE +
10957c478bd9Sstevel@tonic-gate VMEM_SEGS_PER_LEFT_ALLOC;
10967c478bd9Sstevel@tonic-gate else
10977c478bd9Sstevel@tonic-gate resv = VMEM_SEGS_PER_ALLOC_MAX;
10987c478bd9Sstevel@tonic-gate
10997c478bd9Sstevel@tonic-gate ASSERT(vmp->vm_nsegfree >= resv);
11007c478bd9Sstevel@tonic-gate vmp->vm_nsegfree -= resv; /* reserve our segs */
11017c478bd9Sstevel@tonic-gate mutex_exit(&vmp->vm_lock);
11027c478bd9Sstevel@tonic-gate if (vmp->vm_cflags & VMC_XALLOC) {
11037c478bd9Sstevel@tonic-gate size_t oasize = asize;
11047c478bd9Sstevel@tonic-gate vaddr = ((vmem_ximport_t *)
11057c478bd9Sstevel@tonic-gate vmp->vm_source_alloc)(vmp->vm_source,
1106aaa10e67Sha137994 &asize, align, vmflag & VM_KMFLAGS);
11077c478bd9Sstevel@tonic-gate ASSERT(asize >= oasize);
11087c478bd9Sstevel@tonic-gate ASSERT(P2PHASE(asize,
11097c478bd9Sstevel@tonic-gate vmp->vm_source->vm_quantum) == 0);
1110aaa10e67Sha137994 ASSERT(!(vmp->vm_cflags & VMC_XALIGN) ||
1111aaa10e67Sha137994 IS_P2ALIGNED(vaddr, align));
11127c478bd9Sstevel@tonic-gate } else {
11137c478bd9Sstevel@tonic-gate vaddr = vmp->vm_source_alloc(vmp->vm_source,
11147c478bd9Sstevel@tonic-gate asize, vmflag & VM_KMFLAGS);
11157c478bd9Sstevel@tonic-gate }
11167c478bd9Sstevel@tonic-gate mutex_enter(&vmp->vm_lock);
11177c478bd9Sstevel@tonic-gate vmp->vm_nsegfree += resv; /* claim reservation */
11187c478bd9Sstevel@tonic-gate aneeded = size + align - vmp->vm_quantum;
11197c478bd9Sstevel@tonic-gate aneeded = P2ROUNDUP(aneeded, vmp->vm_quantum);
11207c478bd9Sstevel@tonic-gate if (vaddr != NULL) {
11217c478bd9Sstevel@tonic-gate /*
11227c478bd9Sstevel@tonic-gate * Since we dropped the vmem lock while
11237c478bd9Sstevel@tonic-gate * calling the import function, other
11247c478bd9Sstevel@tonic-gate * threads could have imported space
11257c478bd9Sstevel@tonic-gate * and made our import unnecessary. In
11267c478bd9Sstevel@tonic-gate * order to save space, we return
11277c478bd9Sstevel@tonic-gate * excess imports immediately.
11287c478bd9Sstevel@tonic-gate */
11297c478bd9Sstevel@tonic-gate if (asize > aneeded &&
11307c478bd9Sstevel@tonic-gate vmp->vm_source_free != NULL &&
11317c478bd9Sstevel@tonic-gate vmem_canalloc(vmp, aneeded)) {
11327c478bd9Sstevel@tonic-gate ASSERT(resv >=
11337c478bd9Sstevel@tonic-gate VMEM_SEGS_PER_MIDDLE_ALLOC);
11347c478bd9Sstevel@tonic-gate xvaddr = vaddr;
11357c478bd9Sstevel@tonic-gate xsize = asize;
11367c478bd9Sstevel@tonic-gate goto do_alloc;
11377c478bd9Sstevel@tonic-gate }
11387c478bd9Sstevel@tonic-gate vbest = vmem_span_create(vmp, vaddr, asize, 1);
11397c478bd9Sstevel@tonic-gate addr = P2PHASEUP(vbest->vs_start, align, phase);
11407c478bd9Sstevel@tonic-gate break;
11417c478bd9Sstevel@tonic-gate } else if (vmem_canalloc(vmp, aneeded)) {
11427c478bd9Sstevel@tonic-gate /*
11437c478bd9Sstevel@tonic-gate * Our import failed, but another thread
11447c478bd9Sstevel@tonic-gate * added sufficient free memory to the arena
11457c478bd9Sstevel@tonic-gate * to satisfy our request. Go back and
11467c478bd9Sstevel@tonic-gate * grab it.
11477c478bd9Sstevel@tonic-gate */
11487c478bd9Sstevel@tonic-gate ASSERT(resv >= VMEM_SEGS_PER_MIDDLE_ALLOC);
11497c478bd9Sstevel@tonic-gate goto do_alloc;
11507c478bd9Sstevel@tonic-gate }
11517c478bd9Sstevel@tonic-gate }
11527c478bd9Sstevel@tonic-gate
11537c478bd9Sstevel@tonic-gate /*
11547c478bd9Sstevel@tonic-gate * If the requestor chooses to fail the allocation attempt
11557c478bd9Sstevel@tonic-gate * rather than reap wait and retry - get out of the loop.
11567c478bd9Sstevel@tonic-gate */
11577c478bd9Sstevel@tonic-gate if (vmflag & VM_ABORT)
11587c478bd9Sstevel@tonic-gate break;
11597c478bd9Sstevel@tonic-gate mutex_exit(&vmp->vm_lock);
11607c478bd9Sstevel@tonic-gate if (vmp->vm_cflags & VMC_IDENTIFIER)
11617c478bd9Sstevel@tonic-gate kmem_reap_idspace();
11627c478bd9Sstevel@tonic-gate else
11637c478bd9Sstevel@tonic-gate kmem_reap();
11647c478bd9Sstevel@tonic-gate mutex_enter(&vmp->vm_lock);
11657c478bd9Sstevel@tonic-gate if (vmflag & VM_NOSLEEP)
11667c478bd9Sstevel@tonic-gate break;
11677c478bd9Sstevel@tonic-gate vmp->vm_kstat.vk_wait.value.ui64++;
11687c478bd9Sstevel@tonic-gate cv_wait(&vmp->vm_cv, &vmp->vm_lock);
11697c478bd9Sstevel@tonic-gate }
11707c478bd9Sstevel@tonic-gate if (vbest != NULL) {
11717c478bd9Sstevel@tonic-gate ASSERT(vbest->vs_type == VMEM_FREE);
11727c478bd9Sstevel@tonic-gate ASSERT(vbest->vs_knext != vbest);
11730616c1c3SMichael Corcoran /* re-position to end of buffer */
11740616c1c3SMichael Corcoran if (vmflag & VM_ENDALLOC) {
11750616c1c3SMichael Corcoran addr += ((vbest->vs_end - (addr + size)) / align) *
11760616c1c3SMichael Corcoran align;
11770616c1c3SMichael Corcoran }
11787c478bd9Sstevel@tonic-gate (void) vmem_seg_alloc(vmp, vbest, addr, size);
11797c478bd9Sstevel@tonic-gate mutex_exit(&vmp->vm_lock);
11807c478bd9Sstevel@tonic-gate if (xvaddr)
11817c478bd9Sstevel@tonic-gate vmp->vm_source_free(vmp->vm_source, xvaddr, xsize);
11827c478bd9Sstevel@tonic-gate ASSERT(P2PHASE(addr, align) == phase);
118388b7b0f2SMatthew Ahrens ASSERT(!P2BOUNDARY(addr, size, nocross));
11847c478bd9Sstevel@tonic-gate ASSERT(addr >= (uintptr_t)minaddr);
11857c478bd9Sstevel@tonic-gate ASSERT(addr + size - 1 <= (uintptr_t)maxaddr - 1);
11867c478bd9Sstevel@tonic-gate return ((void *)addr);
11877c478bd9Sstevel@tonic-gate }
11887c478bd9Sstevel@tonic-gate vmp->vm_kstat.vk_fail.value.ui64++;
11897c478bd9Sstevel@tonic-gate mutex_exit(&vmp->vm_lock);
11907c478bd9Sstevel@tonic-gate if (vmflag & VM_PANIC)
11917c478bd9Sstevel@tonic-gate panic("vmem_xalloc(%p, %lu, %lu, %lu, %lu, %p, %p, %x): "
11927c478bd9Sstevel@tonic-gate "cannot satisfy mandatory allocation",
11937c478bd9Sstevel@tonic-gate (void *)vmp, size, align_arg, phase, nocross,
11947c478bd9Sstevel@tonic-gate minaddr, maxaddr, vmflag);
11957c478bd9Sstevel@tonic-gate ASSERT(xvaddr == NULL);
11967c478bd9Sstevel@tonic-gate return (NULL);
11977c478bd9Sstevel@tonic-gate }
11987c478bd9Sstevel@tonic-gate
11997c478bd9Sstevel@tonic-gate /*
12007c478bd9Sstevel@tonic-gate * Free the segment [vaddr, vaddr + size), where vaddr was a constrained
12017c478bd9Sstevel@tonic-gate * allocation. vmem_xalloc() and vmem_xfree() must always be paired because
12027c478bd9Sstevel@tonic-gate * both routines bypass the quantum caches.
12037c478bd9Sstevel@tonic-gate */
12047c478bd9Sstevel@tonic-gate void
vmem_xfree(vmem_t * vmp,void * vaddr,size_t size)12057c478bd9Sstevel@tonic-gate vmem_xfree(vmem_t *vmp, void *vaddr, size_t size)
12067c478bd9Sstevel@tonic-gate {
12077c478bd9Sstevel@tonic-gate vmem_seg_t *vsp, *vnext, *vprev;
12087c478bd9Sstevel@tonic-gate
12097c478bd9Sstevel@tonic-gate mutex_enter(&vmp->vm_lock);
12107c478bd9Sstevel@tonic-gate
12117c478bd9Sstevel@tonic-gate vsp = vmem_hash_delete(vmp, (uintptr_t)vaddr, size);
12127c478bd9Sstevel@tonic-gate vsp->vs_end = P2ROUNDUP(vsp->vs_end, vmp->vm_quantum);
12137c478bd9Sstevel@tonic-gate
12147c478bd9Sstevel@tonic-gate /*
12157c478bd9Sstevel@tonic-gate * Attempt to coalesce with the next segment.
12167c478bd9Sstevel@tonic-gate */
12177c478bd9Sstevel@tonic-gate vnext = vsp->vs_anext;
12187c478bd9Sstevel@tonic-gate if (vnext->vs_type == VMEM_FREE) {
12197c478bd9Sstevel@tonic-gate ASSERT(vsp->vs_end == vnext->vs_start);
12207c478bd9Sstevel@tonic-gate vmem_freelist_delete(vmp, vnext);
12217c478bd9Sstevel@tonic-gate vsp->vs_end = vnext->vs_end;
12227c478bd9Sstevel@tonic-gate vmem_seg_destroy(vmp, vnext);
12237c478bd9Sstevel@tonic-gate }
12247c478bd9Sstevel@tonic-gate
12257c478bd9Sstevel@tonic-gate /*
12267c478bd9Sstevel@tonic-gate * Attempt to coalesce with the previous segment.
12277c478bd9Sstevel@tonic-gate */
12287c478bd9Sstevel@tonic-gate vprev = vsp->vs_aprev;
12297c478bd9Sstevel@tonic-gate if (vprev->vs_type == VMEM_FREE) {
12307c478bd9Sstevel@tonic-gate ASSERT(vprev->vs_end == vsp->vs_start);
12317c478bd9Sstevel@tonic-gate vmem_freelist_delete(vmp, vprev);
12327c478bd9Sstevel@tonic-gate vprev->vs_end = vsp->vs_end;
12337c478bd9Sstevel@tonic-gate vmem_seg_destroy(vmp, vsp);
12347c478bd9Sstevel@tonic-gate vsp = vprev;
12357c478bd9Sstevel@tonic-gate }
12367c478bd9Sstevel@tonic-gate
12377c478bd9Sstevel@tonic-gate /*
12387c478bd9Sstevel@tonic-gate * If the entire span is free, return it to the source.
12397c478bd9Sstevel@tonic-gate */
12407c478bd9Sstevel@tonic-gate if (vsp->vs_aprev->vs_import && vmp->vm_source_free != NULL &&
12417c478bd9Sstevel@tonic-gate vsp->vs_aprev->vs_type == VMEM_SPAN &&
12427c478bd9Sstevel@tonic-gate vsp->vs_anext->vs_type == VMEM_SPAN) {
12437c478bd9Sstevel@tonic-gate vaddr = (void *)vsp->vs_start;
12447c478bd9Sstevel@tonic-gate size = VS_SIZE(vsp);
12457c478bd9Sstevel@tonic-gate ASSERT(size == VS_SIZE(vsp->vs_aprev));
12467c478bd9Sstevel@tonic-gate vmem_span_destroy(vmp, vsp);
12477c478bd9Sstevel@tonic-gate mutex_exit(&vmp->vm_lock);
12487c478bd9Sstevel@tonic-gate vmp->vm_source_free(vmp->vm_source, vaddr, size);
12497c478bd9Sstevel@tonic-gate } else {
12507c478bd9Sstevel@tonic-gate vmem_freelist_insert(vmp, vsp);
12517c478bd9Sstevel@tonic-gate mutex_exit(&vmp->vm_lock);
12527c478bd9Sstevel@tonic-gate }
12537c478bd9Sstevel@tonic-gate }
12547c478bd9Sstevel@tonic-gate
12557c478bd9Sstevel@tonic-gate /*
12567c478bd9Sstevel@tonic-gate * Allocate size bytes from arena vmp. Returns the allocated address
12577c478bd9Sstevel@tonic-gate * on success, NULL on failure. vmflag specifies VM_SLEEP or VM_NOSLEEP,
12587c478bd9Sstevel@tonic-gate * and may also specify best-fit, first-fit, or next-fit allocation policy
12597c478bd9Sstevel@tonic-gate * instead of the default instant-fit policy. VM_SLEEP allocations are
12607c478bd9Sstevel@tonic-gate * guaranteed to succeed.
12617c478bd9Sstevel@tonic-gate */
12627c478bd9Sstevel@tonic-gate void *
vmem_alloc(vmem_t * vmp,size_t size,int vmflag)12637c478bd9Sstevel@tonic-gate vmem_alloc(vmem_t *vmp, size_t size, int vmflag)
12647c478bd9Sstevel@tonic-gate {
12657c478bd9Sstevel@tonic-gate vmem_seg_t *vsp;
12667c478bd9Sstevel@tonic-gate uintptr_t addr;
12677c478bd9Sstevel@tonic-gate int hb;
12687c478bd9Sstevel@tonic-gate int flist = 0;
12697c478bd9Sstevel@tonic-gate uint32_t mtbf;
12707c478bd9Sstevel@tonic-gate
12717c478bd9Sstevel@tonic-gate if (size - 1 < vmp->vm_qcache_max)
12727c478bd9Sstevel@tonic-gate return (kmem_cache_alloc(vmp->vm_qcache[(size - 1) >>
12737c478bd9Sstevel@tonic-gate vmp->vm_qshift], vmflag & VM_KMFLAGS));
12747c478bd9Sstevel@tonic-gate
12757c478bd9Sstevel@tonic-gate if ((mtbf = vmem_mtbf | vmp->vm_mtbf) != 0 && gethrtime() % mtbf == 0 &&
12767c478bd9Sstevel@tonic-gate (vmflag & (VM_NOSLEEP | VM_PANIC)) == VM_NOSLEEP)
12777c478bd9Sstevel@tonic-gate return (NULL);
12787c478bd9Sstevel@tonic-gate
12797c478bd9Sstevel@tonic-gate if (vmflag & VM_NEXTFIT)
12807c478bd9Sstevel@tonic-gate return (vmem_nextfit_alloc(vmp, size, vmflag));
12817c478bd9Sstevel@tonic-gate
12827c478bd9Sstevel@tonic-gate if (vmflag & (VM_BESTFIT | VM_FIRSTFIT))
12837c478bd9Sstevel@tonic-gate return (vmem_xalloc(vmp, size, vmp->vm_quantum, 0, 0,
12847c478bd9Sstevel@tonic-gate NULL, NULL, vmflag));
12857c478bd9Sstevel@tonic-gate
12867c478bd9Sstevel@tonic-gate /*
12877c478bd9Sstevel@tonic-gate * Unconstrained instant-fit allocation from the segment list.
12887c478bd9Sstevel@tonic-gate */
12897c478bd9Sstevel@tonic-gate mutex_enter(&vmp->vm_lock);
12907c478bd9Sstevel@tonic-gate
12917c478bd9Sstevel@tonic-gate if (vmp->vm_nsegfree >= VMEM_MINFREE || vmem_populate(vmp, vmflag)) {
1292de710d24SJosef 'Jeff' Sipek if (ISP2(size))
12937c478bd9Sstevel@tonic-gate flist = lowbit(P2ALIGN(vmp->vm_freemap, size));
12947c478bd9Sstevel@tonic-gate else if ((hb = highbit(size)) < VMEM_FREELISTS)
12957c478bd9Sstevel@tonic-gate flist = lowbit(P2ALIGN(vmp->vm_freemap, 1UL << hb));
12967c478bd9Sstevel@tonic-gate }
12977c478bd9Sstevel@tonic-gate
12987c478bd9Sstevel@tonic-gate if (flist-- == 0) {
12997c478bd9Sstevel@tonic-gate mutex_exit(&vmp->vm_lock);
13007c478bd9Sstevel@tonic-gate return (vmem_xalloc(vmp, size, vmp->vm_quantum,
13017c478bd9Sstevel@tonic-gate 0, 0, NULL, NULL, vmflag));
13027c478bd9Sstevel@tonic-gate }
13037c478bd9Sstevel@tonic-gate
13047c478bd9Sstevel@tonic-gate ASSERT(size <= (1UL << flist));
13057c478bd9Sstevel@tonic-gate vsp = vmp->vm_freelist[flist].vs_knext;
13067c478bd9Sstevel@tonic-gate addr = vsp->vs_start;
13070616c1c3SMichael Corcoran if (vmflag & VM_ENDALLOC) {
13080616c1c3SMichael Corcoran addr += vsp->vs_end - (addr + size);
13090616c1c3SMichael Corcoran }
13107c478bd9Sstevel@tonic-gate (void) vmem_seg_alloc(vmp, vsp, addr, size);
13117c478bd9Sstevel@tonic-gate mutex_exit(&vmp->vm_lock);
13127c478bd9Sstevel@tonic-gate return ((void *)addr);
13137c478bd9Sstevel@tonic-gate }
13147c478bd9Sstevel@tonic-gate
13157c478bd9Sstevel@tonic-gate /*
13167c478bd9Sstevel@tonic-gate * Free the segment [vaddr, vaddr + size).
13177c478bd9Sstevel@tonic-gate */
13187c478bd9Sstevel@tonic-gate void
vmem_free(vmem_t * vmp,void * vaddr,size_t size)13197c478bd9Sstevel@tonic-gate vmem_free(vmem_t *vmp, void *vaddr, size_t size)
13207c478bd9Sstevel@tonic-gate {
13217c478bd9Sstevel@tonic-gate if (size - 1 < vmp->vm_qcache_max)
13227c478bd9Sstevel@tonic-gate kmem_cache_free(vmp->vm_qcache[(size - 1) >> vmp->vm_qshift],
13237c478bd9Sstevel@tonic-gate vaddr);
13247c478bd9Sstevel@tonic-gate else
13257c478bd9Sstevel@tonic-gate vmem_xfree(vmp, vaddr, size);
13267c478bd9Sstevel@tonic-gate }
13277c478bd9Sstevel@tonic-gate
13287c478bd9Sstevel@tonic-gate /*
13297c478bd9Sstevel@tonic-gate * Determine whether arena vmp contains the segment [vaddr, vaddr + size).
13307c478bd9Sstevel@tonic-gate */
13317c478bd9Sstevel@tonic-gate int
vmem_contains(vmem_t * vmp,void * vaddr,size_t size)13327c478bd9Sstevel@tonic-gate vmem_contains(vmem_t *vmp, void *vaddr, size_t size)
13337c478bd9Sstevel@tonic-gate {
13347c478bd9Sstevel@tonic-gate uintptr_t start = (uintptr_t)vaddr;
13357c478bd9Sstevel@tonic-gate uintptr_t end = start + size;
13367c478bd9Sstevel@tonic-gate vmem_seg_t *vsp;
13377c478bd9Sstevel@tonic-gate vmem_seg_t *seg0 = &vmp->vm_seg0;
13387c478bd9Sstevel@tonic-gate
13397c478bd9Sstevel@tonic-gate mutex_enter(&vmp->vm_lock);
13407c478bd9Sstevel@tonic-gate vmp->vm_kstat.vk_contains.value.ui64++;
13417c478bd9Sstevel@tonic-gate for (vsp = seg0->vs_knext; vsp != seg0; vsp = vsp->vs_knext) {
13427c478bd9Sstevel@tonic-gate vmp->vm_kstat.vk_contains_search.value.ui64++;
13437c478bd9Sstevel@tonic-gate ASSERT(vsp->vs_type == VMEM_SPAN);
13447c478bd9Sstevel@tonic-gate if (start >= vsp->vs_start && end - 1 <= vsp->vs_end - 1)
13457c478bd9Sstevel@tonic-gate break;
13467c478bd9Sstevel@tonic-gate }
13477c478bd9Sstevel@tonic-gate mutex_exit(&vmp->vm_lock);
13487c478bd9Sstevel@tonic-gate return (vsp != seg0);
13497c478bd9Sstevel@tonic-gate }
13507c478bd9Sstevel@tonic-gate
13517c478bd9Sstevel@tonic-gate /*
13527c478bd9Sstevel@tonic-gate * Add the span [vaddr, vaddr + size) to arena vmp.
13537c478bd9Sstevel@tonic-gate */
13547c478bd9Sstevel@tonic-gate void *
vmem_add(vmem_t * vmp,void * vaddr,size_t size,int vmflag)13557c478bd9Sstevel@tonic-gate vmem_add(vmem_t *vmp, void *vaddr, size_t size, int vmflag)
13567c478bd9Sstevel@tonic-gate {
13577c478bd9Sstevel@tonic-gate if (vaddr == NULL || size == 0)
1358903a11ebSrh87107 panic("vmem_add(%p, %p, %lu): bad arguments",
1359903a11ebSrh87107 (void *)vmp, vaddr, size);
13607c478bd9Sstevel@tonic-gate
13617c478bd9Sstevel@tonic-gate ASSERT(!vmem_contains(vmp, vaddr, size));
13627c478bd9Sstevel@tonic-gate
13637c478bd9Sstevel@tonic-gate mutex_enter(&vmp->vm_lock);
13647c478bd9Sstevel@tonic-gate if (vmem_populate(vmp, vmflag))
13657c478bd9Sstevel@tonic-gate (void) vmem_span_create(vmp, vaddr, size, 0);
13667c478bd9Sstevel@tonic-gate else
13677c478bd9Sstevel@tonic-gate vaddr = NULL;
13687c478bd9Sstevel@tonic-gate mutex_exit(&vmp->vm_lock);
13697c478bd9Sstevel@tonic-gate return (vaddr);
13707c478bd9Sstevel@tonic-gate }
13717c478bd9Sstevel@tonic-gate
13727c478bd9Sstevel@tonic-gate /*
13737c478bd9Sstevel@tonic-gate * Walk the vmp arena, applying func to each segment matching typemask.
13747c478bd9Sstevel@tonic-gate * If VMEM_REENTRANT is specified, the arena lock is dropped across each
13757c478bd9Sstevel@tonic-gate * call to func(); otherwise, it is held for the duration of vmem_walk()
13767c478bd9Sstevel@tonic-gate * to ensure a consistent snapshot. Note that VMEM_REENTRANT callbacks
13777c478bd9Sstevel@tonic-gate * are *not* necessarily consistent, so they may only be used when a hint
13787c478bd9Sstevel@tonic-gate * is adequate.
13797c478bd9Sstevel@tonic-gate */
13807c478bd9Sstevel@tonic-gate void
vmem_walk(vmem_t * vmp,int typemask,void (* func)(void *,void *,size_t),void * arg)13817c478bd9Sstevel@tonic-gate vmem_walk(vmem_t *vmp, int typemask,
13827c478bd9Sstevel@tonic-gate void (*func)(void *, void *, size_t), void *arg)
13837c478bd9Sstevel@tonic-gate {
13847c478bd9Sstevel@tonic-gate vmem_seg_t *vsp;
13857c478bd9Sstevel@tonic-gate vmem_seg_t *seg0 = &vmp->vm_seg0;
13867c478bd9Sstevel@tonic-gate vmem_seg_t walker;
13877c478bd9Sstevel@tonic-gate
13887c478bd9Sstevel@tonic-gate if (typemask & VMEM_WALKER)
13897c478bd9Sstevel@tonic-gate return;
13907c478bd9Sstevel@tonic-gate
13917c478bd9Sstevel@tonic-gate bzero(&walker, sizeof (walker));
13927c478bd9Sstevel@tonic-gate walker.vs_type = VMEM_WALKER;
13937c478bd9Sstevel@tonic-gate
13947c478bd9Sstevel@tonic-gate mutex_enter(&vmp->vm_lock);
13957c478bd9Sstevel@tonic-gate VMEM_INSERT(seg0, &walker, a);
13967c478bd9Sstevel@tonic-gate for (vsp = seg0->vs_anext; vsp != seg0; vsp = vsp->vs_anext) {
13977c478bd9Sstevel@tonic-gate if (vsp->vs_type & typemask) {
13987c478bd9Sstevel@tonic-gate void *start = (void *)vsp->vs_start;
13997c478bd9Sstevel@tonic-gate size_t size = VS_SIZE(vsp);
14007c478bd9Sstevel@tonic-gate if (typemask & VMEM_REENTRANT) {
14017c478bd9Sstevel@tonic-gate vmem_advance(vmp, &walker, vsp);
14027c478bd9Sstevel@tonic-gate mutex_exit(&vmp->vm_lock);
14037c478bd9Sstevel@tonic-gate func(arg, start, size);
14047c478bd9Sstevel@tonic-gate mutex_enter(&vmp->vm_lock);
14057c478bd9Sstevel@tonic-gate vsp = &walker;
14067c478bd9Sstevel@tonic-gate } else {
14077c478bd9Sstevel@tonic-gate func(arg, start, size);
14087c478bd9Sstevel@tonic-gate }
14097c478bd9Sstevel@tonic-gate }
14107c478bd9Sstevel@tonic-gate }
14117c478bd9Sstevel@tonic-gate vmem_advance(vmp, &walker, NULL);
14127c478bd9Sstevel@tonic-gate mutex_exit(&vmp->vm_lock);
14137c478bd9Sstevel@tonic-gate }
14147c478bd9Sstevel@tonic-gate
14157c478bd9Sstevel@tonic-gate /*
14167c478bd9Sstevel@tonic-gate * Return the total amount of memory whose type matches typemask. Thus:
14177c478bd9Sstevel@tonic-gate *
14187c478bd9Sstevel@tonic-gate * typemask VMEM_ALLOC yields total memory allocated (in use).
14197c478bd9Sstevel@tonic-gate * typemask VMEM_FREE yields total memory free (available).
14207c478bd9Sstevel@tonic-gate * typemask (VMEM_ALLOC | VMEM_FREE) yields total arena size.
14217c478bd9Sstevel@tonic-gate */
14227c478bd9Sstevel@tonic-gate size_t
vmem_size(vmem_t * vmp,int typemask)14237c478bd9Sstevel@tonic-gate vmem_size(vmem_t *vmp, int typemask)
14247c478bd9Sstevel@tonic-gate {
14257c478bd9Sstevel@tonic-gate uint64_t size = 0;
14267c478bd9Sstevel@tonic-gate
14277c478bd9Sstevel@tonic-gate if (typemask & VMEM_ALLOC)
14287c478bd9Sstevel@tonic-gate size += vmp->vm_kstat.vk_mem_inuse.value.ui64;
14297c478bd9Sstevel@tonic-gate if (typemask & VMEM_FREE)
14307c478bd9Sstevel@tonic-gate size += vmp->vm_kstat.vk_mem_total.value.ui64 -
14317c478bd9Sstevel@tonic-gate vmp->vm_kstat.vk_mem_inuse.value.ui64;
14327c478bd9Sstevel@tonic-gate return ((size_t)size);
14337c478bd9Sstevel@tonic-gate }
14347c478bd9Sstevel@tonic-gate
14357c478bd9Sstevel@tonic-gate /*
14367c478bd9Sstevel@tonic-gate * Create an arena called name whose initial span is [base, base + size).
14377c478bd9Sstevel@tonic-gate * The arena's natural unit of currency is quantum, so vmem_alloc()
14387c478bd9Sstevel@tonic-gate * guarantees quantum-aligned results. The arena may import new spans
14397c478bd9Sstevel@tonic-gate * by invoking afunc() on source, and may return those spans by invoking
14407c478bd9Sstevel@tonic-gate * ffunc() on source. To make small allocations fast and scalable,
14417c478bd9Sstevel@tonic-gate * the arena offers high-performance caching for each integer multiple
14427c478bd9Sstevel@tonic-gate * of quantum up to qcache_max.
14437c478bd9Sstevel@tonic-gate */
14447c478bd9Sstevel@tonic-gate static vmem_t *
vmem_create_common(const char * name,void * base,size_t size,size_t quantum,void * (* afunc)(vmem_t *,size_t,int),void (* ffunc)(vmem_t *,void *,size_t),vmem_t * source,size_t qcache_max,int vmflag)14457c478bd9Sstevel@tonic-gate vmem_create_common(const char *name, void *base, size_t size, size_t quantum,
14467c478bd9Sstevel@tonic-gate void *(*afunc)(vmem_t *, size_t, int),
14477c478bd9Sstevel@tonic-gate void (*ffunc)(vmem_t *, void *, size_t),
14487c478bd9Sstevel@tonic-gate vmem_t *source, size_t qcache_max, int vmflag)
14497c478bd9Sstevel@tonic-gate {
14507c478bd9Sstevel@tonic-gate int i;
14517c478bd9Sstevel@tonic-gate size_t nqcache;
14527c478bd9Sstevel@tonic-gate vmem_t *vmp, *cur, **vmpp;
14537c478bd9Sstevel@tonic-gate vmem_seg_t *vsp;
14547c478bd9Sstevel@tonic-gate vmem_freelist_t *vfp;
14551a5e258fSJosef 'Jeff' Sipek uint32_t id = atomic_inc_32_nv(&vmem_id);
14567c478bd9Sstevel@tonic-gate
14577c478bd9Sstevel@tonic-gate if (vmem_vmem_arena != NULL) {
14587c478bd9Sstevel@tonic-gate vmp = vmem_alloc(vmem_vmem_arena, sizeof (vmem_t),
14597c478bd9Sstevel@tonic-gate vmflag & VM_KMFLAGS);
14607c478bd9Sstevel@tonic-gate } else {
14617c478bd9Sstevel@tonic-gate ASSERT(id <= VMEM_INITIAL);
14627c478bd9Sstevel@tonic-gate vmp = &vmem0[id - 1];
14637c478bd9Sstevel@tonic-gate }
14647c478bd9Sstevel@tonic-gate
14657c478bd9Sstevel@tonic-gate /* An identifier arena must inherit from another identifier arena */
14667c478bd9Sstevel@tonic-gate ASSERT(source == NULL || ((source->vm_cflags & VMC_IDENTIFIER) ==
14677c478bd9Sstevel@tonic-gate (vmflag & VMC_IDENTIFIER)));
14687c478bd9Sstevel@tonic-gate
14697c478bd9Sstevel@tonic-gate if (vmp == NULL)
14707c478bd9Sstevel@tonic-gate return (NULL);
14717c478bd9Sstevel@tonic-gate bzero(vmp, sizeof (vmem_t));
14727c478bd9Sstevel@tonic-gate
14737c478bd9Sstevel@tonic-gate (void) snprintf(vmp->vm_name, VMEM_NAMELEN, "%s", name);
14747c478bd9Sstevel@tonic-gate mutex_init(&vmp->vm_lock, NULL, MUTEX_DEFAULT, NULL);
14757c478bd9Sstevel@tonic-gate cv_init(&vmp->vm_cv, NULL, CV_DEFAULT, NULL);
14767c478bd9Sstevel@tonic-gate vmp->vm_cflags = vmflag;
14777c478bd9Sstevel@tonic-gate vmflag &= VM_KMFLAGS;
14787c478bd9Sstevel@tonic-gate
14797c478bd9Sstevel@tonic-gate vmp->vm_quantum = quantum;
14807c478bd9Sstevel@tonic-gate vmp->vm_qshift = highbit(quantum) - 1;
14817c478bd9Sstevel@tonic-gate nqcache = MIN(qcache_max >> vmp->vm_qshift, VMEM_NQCACHE_MAX);
14827c478bd9Sstevel@tonic-gate
14837c478bd9Sstevel@tonic-gate for (i = 0; i <= VMEM_FREELISTS; i++) {
14847c478bd9Sstevel@tonic-gate vfp = &vmp->vm_freelist[i];
14857c478bd9Sstevel@tonic-gate vfp->vs_end = 1UL << i;
14867c478bd9Sstevel@tonic-gate vfp->vs_knext = (vmem_seg_t *)(vfp + 1);
14877c478bd9Sstevel@tonic-gate vfp->vs_kprev = (vmem_seg_t *)(vfp - 1);
14887c478bd9Sstevel@tonic-gate }
14897c478bd9Sstevel@tonic-gate
14907c478bd9Sstevel@tonic-gate vmp->vm_freelist[0].vs_kprev = NULL;
14917c478bd9Sstevel@tonic-gate vmp->vm_freelist[VMEM_FREELISTS].vs_knext = NULL;
14927c478bd9Sstevel@tonic-gate vmp->vm_freelist[VMEM_FREELISTS].vs_end = 0;
14937c478bd9Sstevel@tonic-gate vmp->vm_hash_table = vmp->vm_hash0;
14947c478bd9Sstevel@tonic-gate vmp->vm_hash_mask = VMEM_HASH_INITIAL - 1;
14957c478bd9Sstevel@tonic-gate vmp->vm_hash_shift = highbit(vmp->vm_hash_mask);
14967c478bd9Sstevel@tonic-gate
14977c478bd9Sstevel@tonic-gate vsp = &vmp->vm_seg0;
14987c478bd9Sstevel@tonic-gate vsp->vs_anext = vsp;
14997c478bd9Sstevel@tonic-gate vsp->vs_aprev = vsp;
15007c478bd9Sstevel@tonic-gate vsp->vs_knext = vsp;
15017c478bd9Sstevel@tonic-gate vsp->vs_kprev = vsp;
15027c478bd9Sstevel@tonic-gate vsp->vs_type = VMEM_SPAN;
15037c478bd9Sstevel@tonic-gate
15047c478bd9Sstevel@tonic-gate vsp = &vmp->vm_rotor;
15057c478bd9Sstevel@tonic-gate vsp->vs_type = VMEM_ROTOR;
15067c478bd9Sstevel@tonic-gate VMEM_INSERT(&vmp->vm_seg0, vsp, a);
15077c478bd9Sstevel@tonic-gate
15087c478bd9Sstevel@tonic-gate bcopy(&vmem_kstat_template, &vmp->vm_kstat, sizeof (vmem_kstat_t));
15097c478bd9Sstevel@tonic-gate
15107c478bd9Sstevel@tonic-gate vmp->vm_id = id;
15117c478bd9Sstevel@tonic-gate if (source != NULL)
15127c478bd9Sstevel@tonic-gate vmp->vm_kstat.vk_source_id.value.ui32 = source->vm_id;
15137c478bd9Sstevel@tonic-gate vmp->vm_source = source;
15147c478bd9Sstevel@tonic-gate vmp->vm_source_alloc = afunc;
15157c478bd9Sstevel@tonic-gate vmp->vm_source_free = ffunc;
15167c478bd9Sstevel@tonic-gate
15177c478bd9Sstevel@tonic-gate /*
15187c478bd9Sstevel@tonic-gate * Some arenas (like vmem_metadata and kmem_metadata) cannot
15197c478bd9Sstevel@tonic-gate * use quantum caching to lower fragmentation. Instead, we
15207c478bd9Sstevel@tonic-gate * increase their imports, giving a similar effect.
15217c478bd9Sstevel@tonic-gate */
15227c478bd9Sstevel@tonic-gate if (vmp->vm_cflags & VMC_NO_QCACHE) {
15237c478bd9Sstevel@tonic-gate vmp->vm_min_import =
15247c478bd9Sstevel@tonic-gate VMEM_QCACHE_SLABSIZE(nqcache << vmp->vm_qshift);
15257c478bd9Sstevel@tonic-gate nqcache = 0;
15267c478bd9Sstevel@tonic-gate }
15277c478bd9Sstevel@tonic-gate
15287c478bd9Sstevel@tonic-gate if (nqcache != 0) {
15297c478bd9Sstevel@tonic-gate ASSERT(!(vmflag & VM_NOSLEEP));
15307c478bd9Sstevel@tonic-gate vmp->vm_qcache_max = nqcache << vmp->vm_qshift;
15317c478bd9Sstevel@tonic-gate for (i = 0; i < nqcache; i++) {
15327c478bd9Sstevel@tonic-gate char buf[VMEM_NAMELEN + 21];
15337c478bd9Sstevel@tonic-gate (void) sprintf(buf, "%s_%lu", vmp->vm_name,
15347c478bd9Sstevel@tonic-gate (i + 1) * quantum);
15357c478bd9Sstevel@tonic-gate vmp->vm_qcache[i] = kmem_cache_create(buf,
15367c478bd9Sstevel@tonic-gate (i + 1) * quantum, quantum, NULL, NULL, NULL,
15377c478bd9Sstevel@tonic-gate NULL, vmp, KMC_QCACHE | KMC_NOTOUCH);
15387c478bd9Sstevel@tonic-gate }
15397c478bd9Sstevel@tonic-gate }
15407c478bd9Sstevel@tonic-gate
15417c478bd9Sstevel@tonic-gate if ((vmp->vm_ksp = kstat_create("vmem", vmp->vm_id, vmp->vm_name,
15427c478bd9Sstevel@tonic-gate "vmem", KSTAT_TYPE_NAMED, sizeof (vmem_kstat_t) /
15437c478bd9Sstevel@tonic-gate sizeof (kstat_named_t), KSTAT_FLAG_VIRTUAL)) != NULL) {
15447c478bd9Sstevel@tonic-gate vmp->vm_ksp->ks_data = &vmp->vm_kstat;
15457c478bd9Sstevel@tonic-gate kstat_install(vmp->vm_ksp);
15467c478bd9Sstevel@tonic-gate }
15477c478bd9Sstevel@tonic-gate
15487c478bd9Sstevel@tonic-gate mutex_enter(&vmem_list_lock);
15497c478bd9Sstevel@tonic-gate vmpp = &vmem_list;
15507c478bd9Sstevel@tonic-gate while ((cur = *vmpp) != NULL)
15517c478bd9Sstevel@tonic-gate vmpp = &cur->vm_next;
15527c478bd9Sstevel@tonic-gate *vmpp = vmp;
15537c478bd9Sstevel@tonic-gate mutex_exit(&vmem_list_lock);
15547c478bd9Sstevel@tonic-gate
15557c478bd9Sstevel@tonic-gate if (vmp->vm_cflags & VMC_POPULATOR) {
15567c478bd9Sstevel@tonic-gate ASSERT(vmem_populators < VMEM_INITIAL);
15571a5e258fSJosef 'Jeff' Sipek vmem_populator[atomic_inc_32_nv(&vmem_populators) - 1] = vmp;
15587c478bd9Sstevel@tonic-gate mutex_enter(&vmp->vm_lock);
15597c478bd9Sstevel@tonic-gate (void) vmem_populate(vmp, vmflag | VM_PANIC);
15607c478bd9Sstevel@tonic-gate mutex_exit(&vmp->vm_lock);
15617c478bd9Sstevel@tonic-gate }
15627c478bd9Sstevel@tonic-gate
15637c478bd9Sstevel@tonic-gate if ((base || size) && vmem_add(vmp, base, size, vmflag) == NULL) {
15647c478bd9Sstevel@tonic-gate vmem_destroy(vmp);
15657c478bd9Sstevel@tonic-gate return (NULL);
15667c478bd9Sstevel@tonic-gate }
15677c478bd9Sstevel@tonic-gate
15687c478bd9Sstevel@tonic-gate return (vmp);
15697c478bd9Sstevel@tonic-gate }
15707c478bd9Sstevel@tonic-gate
15717c478bd9Sstevel@tonic-gate vmem_t *
vmem_xcreate(const char * name,void * base,size_t size,size_t quantum,vmem_ximport_t * afunc,vmem_free_t * ffunc,vmem_t * source,size_t qcache_max,int vmflag)15727c478bd9Sstevel@tonic-gate vmem_xcreate(const char *name, void *base, size_t size, size_t quantum,
15737c478bd9Sstevel@tonic-gate vmem_ximport_t *afunc, vmem_free_t *ffunc, vmem_t *source,
15747c478bd9Sstevel@tonic-gate size_t qcache_max, int vmflag)
15757c478bd9Sstevel@tonic-gate {
15767c478bd9Sstevel@tonic-gate ASSERT(!(vmflag & (VMC_POPULATOR | VMC_XALLOC)));
15777c478bd9Sstevel@tonic-gate vmflag &= ~(VMC_POPULATOR | VMC_XALLOC);
15787c478bd9Sstevel@tonic-gate
15797c478bd9Sstevel@tonic-gate return (vmem_create_common(name, base, size, quantum,
15807c478bd9Sstevel@tonic-gate (vmem_alloc_t *)afunc, ffunc, source, qcache_max,
15817c478bd9Sstevel@tonic-gate vmflag | VMC_XALLOC));
15827c478bd9Sstevel@tonic-gate }
15837c478bd9Sstevel@tonic-gate
15847c478bd9Sstevel@tonic-gate vmem_t *
vmem_create(const char * name,void * base,size_t size,size_t quantum,vmem_alloc_t * afunc,vmem_free_t * ffunc,vmem_t * source,size_t qcache_max,int vmflag)15857c478bd9Sstevel@tonic-gate vmem_create(const char *name, void *base, size_t size, size_t quantum,
15867c478bd9Sstevel@tonic-gate vmem_alloc_t *afunc, vmem_free_t *ffunc, vmem_t *source,
15877c478bd9Sstevel@tonic-gate size_t qcache_max, int vmflag)
15887c478bd9Sstevel@tonic-gate {
1589aaa10e67Sha137994 ASSERT(!(vmflag & (VMC_XALLOC | VMC_XALIGN)));
1590aaa10e67Sha137994 vmflag &= ~(VMC_XALLOC | VMC_XALIGN);
15917c478bd9Sstevel@tonic-gate
15927c478bd9Sstevel@tonic-gate return (vmem_create_common(name, base, size, quantum,
15937c478bd9Sstevel@tonic-gate afunc, ffunc, source, qcache_max, vmflag));
15947c478bd9Sstevel@tonic-gate }
15957c478bd9Sstevel@tonic-gate
15967c478bd9Sstevel@tonic-gate /*
15977c478bd9Sstevel@tonic-gate * Destroy arena vmp.
15987c478bd9Sstevel@tonic-gate */
15997c478bd9Sstevel@tonic-gate void
vmem_destroy(vmem_t * vmp)16007c478bd9Sstevel@tonic-gate vmem_destroy(vmem_t *vmp)
16017c478bd9Sstevel@tonic-gate {
16027c478bd9Sstevel@tonic-gate vmem_t *cur, **vmpp;
16037c478bd9Sstevel@tonic-gate vmem_seg_t *seg0 = &vmp->vm_seg0;
16044a7ceddaSBlake Jones vmem_seg_t *vsp, *anext;
16057c478bd9Sstevel@tonic-gate size_t leaked;
16067c478bd9Sstevel@tonic-gate int i;
16077c478bd9Sstevel@tonic-gate
16087c478bd9Sstevel@tonic-gate mutex_enter(&vmem_list_lock);
16097c478bd9Sstevel@tonic-gate vmpp = &vmem_list;
16107c478bd9Sstevel@tonic-gate while ((cur = *vmpp) != vmp)
16117c478bd9Sstevel@tonic-gate vmpp = &cur->vm_next;
16127c478bd9Sstevel@tonic-gate *vmpp = vmp->vm_next;
16137c478bd9Sstevel@tonic-gate mutex_exit(&vmem_list_lock);
16147c478bd9Sstevel@tonic-gate
16157c478bd9Sstevel@tonic-gate for (i = 0; i < VMEM_NQCACHE_MAX; i++)
16167c478bd9Sstevel@tonic-gate if (vmp->vm_qcache[i])
16177c478bd9Sstevel@tonic-gate kmem_cache_destroy(vmp->vm_qcache[i]);
16187c478bd9Sstevel@tonic-gate
16197c478bd9Sstevel@tonic-gate leaked = vmem_size(vmp, VMEM_ALLOC);
16207c478bd9Sstevel@tonic-gate if (leaked != 0)
16217c478bd9Sstevel@tonic-gate cmn_err(CE_WARN, "vmem_destroy('%s'): leaked %lu %s",
16227c478bd9Sstevel@tonic-gate vmp->vm_name, leaked, (vmp->vm_cflags & VMC_IDENTIFIER) ?
16237c478bd9Sstevel@tonic-gate "identifiers" : "bytes");
16247c478bd9Sstevel@tonic-gate
16257c478bd9Sstevel@tonic-gate if (vmp->vm_hash_table != vmp->vm_hash0)
16267c478bd9Sstevel@tonic-gate vmem_free(vmem_hash_arena, vmp->vm_hash_table,
16277c478bd9Sstevel@tonic-gate (vmp->vm_hash_mask + 1) * sizeof (void *));
16287c478bd9Sstevel@tonic-gate
16297c478bd9Sstevel@tonic-gate /*
16307c478bd9Sstevel@tonic-gate * Give back the segment structures for anything that's left in the
16317c478bd9Sstevel@tonic-gate * arena, e.g. the primary spans and their free segments.
16327c478bd9Sstevel@tonic-gate */
16337c478bd9Sstevel@tonic-gate VMEM_DELETE(&vmp->vm_rotor, a);
16344a7ceddaSBlake Jones for (vsp = seg0->vs_anext; vsp != seg0; vsp = anext) {
16354a7ceddaSBlake Jones anext = vsp->vs_anext;
16367c478bd9Sstevel@tonic-gate vmem_putseg_global(vsp);
16374a7ceddaSBlake Jones }
16387c478bd9Sstevel@tonic-gate
16397c478bd9Sstevel@tonic-gate while (vmp->vm_nsegfree > 0)
16407c478bd9Sstevel@tonic-gate vmem_putseg_global(vmem_getseg(vmp));
16417c478bd9Sstevel@tonic-gate
16427c478bd9Sstevel@tonic-gate kstat_delete(vmp->vm_ksp);
16437c478bd9Sstevel@tonic-gate
16447c478bd9Sstevel@tonic-gate mutex_destroy(&vmp->vm_lock);
16457c478bd9Sstevel@tonic-gate cv_destroy(&vmp->vm_cv);
16467c478bd9Sstevel@tonic-gate vmem_free(vmem_vmem_arena, vmp, sizeof (vmem_t));
16477c478bd9Sstevel@tonic-gate }
16487c478bd9Sstevel@tonic-gate
16497c478bd9Sstevel@tonic-gate /*
1650*47bb2664SMatthew Ahrens * Only shrink vmem hashtable if it is 1<<vmem_rescale_minshift times (8x)
1651*47bb2664SMatthew Ahrens * larger than necessary.
1652*47bb2664SMatthew Ahrens */
1653*47bb2664SMatthew Ahrens int vmem_rescale_minshift = 3;
1654*47bb2664SMatthew Ahrens
1655*47bb2664SMatthew Ahrens /*
16567c478bd9Sstevel@tonic-gate * Resize vmp's hash table to keep the average lookup depth near 1.0.
16577c478bd9Sstevel@tonic-gate */
16587c478bd9Sstevel@tonic-gate static void
vmem_hash_rescale(vmem_t * vmp)16597c478bd9Sstevel@tonic-gate vmem_hash_rescale(vmem_t *vmp)
16607c478bd9Sstevel@tonic-gate {
16617c478bd9Sstevel@tonic-gate vmem_seg_t **old_table, **new_table, *vsp;
16627c478bd9Sstevel@tonic-gate size_t old_size, new_size, h, nseg;
16637c478bd9Sstevel@tonic-gate
16647c478bd9Sstevel@tonic-gate nseg = (size_t)(vmp->vm_kstat.vk_alloc.value.ui64 -
16657c478bd9Sstevel@tonic-gate vmp->vm_kstat.vk_free.value.ui64);
16667c478bd9Sstevel@tonic-gate
16677c478bd9Sstevel@tonic-gate new_size = MAX(VMEM_HASH_INITIAL, 1 << (highbit(3 * nseg + 4) - 2));
16687c478bd9Sstevel@tonic-gate old_size = vmp->vm_hash_mask + 1;
16697c478bd9Sstevel@tonic-gate
1670*47bb2664SMatthew Ahrens if ((old_size >> vmem_rescale_minshift) <= new_size &&
1671*47bb2664SMatthew Ahrens new_size <= (old_size << 1))
16727c478bd9Sstevel@tonic-gate return;
16737c478bd9Sstevel@tonic-gate
16747c478bd9Sstevel@tonic-gate new_table = vmem_alloc(vmem_hash_arena, new_size * sizeof (void *),
16757c478bd9Sstevel@tonic-gate VM_NOSLEEP);
16767c478bd9Sstevel@tonic-gate if (new_table == NULL)
16777c478bd9Sstevel@tonic-gate return;
16787c478bd9Sstevel@tonic-gate bzero(new_table, new_size * sizeof (void *));
16797c478bd9Sstevel@tonic-gate
16807c478bd9Sstevel@tonic-gate mutex_enter(&vmp->vm_lock);
16817c478bd9Sstevel@tonic-gate
16827c478bd9Sstevel@tonic-gate old_size = vmp->vm_hash_mask + 1;
16837c478bd9Sstevel@tonic-gate old_table = vmp->vm_hash_table;
16847c478bd9Sstevel@tonic-gate
16857c478bd9Sstevel@tonic-gate vmp->vm_hash_mask = new_size - 1;
16867c478bd9Sstevel@tonic-gate vmp->vm_hash_table = new_table;
16877c478bd9Sstevel@tonic-gate vmp->vm_hash_shift = highbit(vmp->vm_hash_mask);
16887c478bd9Sstevel@tonic-gate
16897c478bd9Sstevel@tonic-gate for (h = 0; h < old_size; h++) {
16907c478bd9Sstevel@tonic-gate vsp = old_table[h];
16917c478bd9Sstevel@tonic-gate while (vsp != NULL) {
16927c478bd9Sstevel@tonic-gate uintptr_t addr = vsp->vs_start;
16937c478bd9Sstevel@tonic-gate vmem_seg_t *next_vsp = vsp->vs_knext;
16947c478bd9Sstevel@tonic-gate vmem_seg_t **hash_bucket = VMEM_HASH(vmp, addr);
16957c478bd9Sstevel@tonic-gate vsp->vs_knext = *hash_bucket;
16967c478bd9Sstevel@tonic-gate *hash_bucket = vsp;
16977c478bd9Sstevel@tonic-gate vsp = next_vsp;
16987c478bd9Sstevel@tonic-gate }
16997c478bd9Sstevel@tonic-gate }
17007c478bd9Sstevel@tonic-gate
17017c478bd9Sstevel@tonic-gate mutex_exit(&vmp->vm_lock);
17027c478bd9Sstevel@tonic-gate
17037c478bd9Sstevel@tonic-gate if (old_table != vmp->vm_hash0)
17047c478bd9Sstevel@tonic-gate vmem_free(vmem_hash_arena, old_table,
17057c478bd9Sstevel@tonic-gate old_size * sizeof (void *));
17067c478bd9Sstevel@tonic-gate }
17077c478bd9Sstevel@tonic-gate
17087c478bd9Sstevel@tonic-gate /*
17097c478bd9Sstevel@tonic-gate * Perform periodic maintenance on all vmem arenas.
17107c478bd9Sstevel@tonic-gate */
17117c478bd9Sstevel@tonic-gate void
vmem_update(void * dummy)17127c478bd9Sstevel@tonic-gate vmem_update(void *dummy)
17137c478bd9Sstevel@tonic-gate {
17147c478bd9Sstevel@tonic-gate vmem_t *vmp;
17157c478bd9Sstevel@tonic-gate
17167c478bd9Sstevel@tonic-gate mutex_enter(&vmem_list_lock);
17177c478bd9Sstevel@tonic-gate for (vmp = vmem_list; vmp != NULL; vmp = vmp->vm_next) {
17187c478bd9Sstevel@tonic-gate /*
17197c478bd9Sstevel@tonic-gate * If threads are waiting for resources, wake them up
17207c478bd9Sstevel@tonic-gate * periodically so they can issue another kmem_reap()
17217c478bd9Sstevel@tonic-gate * to reclaim resources cached by the slab allocator.
17227c478bd9Sstevel@tonic-gate */
17237c478bd9Sstevel@tonic-gate cv_broadcast(&vmp->vm_cv);
17247c478bd9Sstevel@tonic-gate
17257c478bd9Sstevel@tonic-gate /*
17267c478bd9Sstevel@tonic-gate * Rescale the hash table to keep the hash chains short.
17277c478bd9Sstevel@tonic-gate */
17287c478bd9Sstevel@tonic-gate vmem_hash_rescale(vmp);
17297c478bd9Sstevel@tonic-gate }
17307c478bd9Sstevel@tonic-gate mutex_exit(&vmem_list_lock);
17317c478bd9Sstevel@tonic-gate
17327c478bd9Sstevel@tonic-gate (void) timeout(vmem_update, dummy, vmem_update_interval * hz);
17337c478bd9Sstevel@tonic-gate }
17347c478bd9Sstevel@tonic-gate
173594dd93aeSGeorge Wilson void
vmem_qcache_reap(vmem_t * vmp)173694dd93aeSGeorge Wilson vmem_qcache_reap(vmem_t *vmp)
173794dd93aeSGeorge Wilson {
173894dd93aeSGeorge Wilson int i;
173994dd93aeSGeorge Wilson
174094dd93aeSGeorge Wilson /*
174194dd93aeSGeorge Wilson * Reap any quantum caches that may be part of this vmem.
174294dd93aeSGeorge Wilson */
174394dd93aeSGeorge Wilson for (i = 0; i < VMEM_NQCACHE_MAX; i++)
174494dd93aeSGeorge Wilson if (vmp->vm_qcache[i])
174594dd93aeSGeorge Wilson kmem_cache_reap_now(vmp->vm_qcache[i]);
174694dd93aeSGeorge Wilson }
174794dd93aeSGeorge Wilson
17487c478bd9Sstevel@tonic-gate /*
17497c478bd9Sstevel@tonic-gate * Prepare vmem for use.
17507c478bd9Sstevel@tonic-gate */
17517c478bd9Sstevel@tonic-gate vmem_t *
vmem_init(const char * heap_name,void * heap_start,size_t heap_size,size_t heap_quantum,void * (* heap_alloc)(vmem_t *,size_t,int),void (* heap_free)(vmem_t *,void *,size_t))17527c478bd9Sstevel@tonic-gate vmem_init(const char *heap_name,
17537c478bd9Sstevel@tonic-gate void *heap_start, size_t heap_size, size_t heap_quantum,
17547c478bd9Sstevel@tonic-gate void *(*heap_alloc)(vmem_t *, size_t, int),
17557c478bd9Sstevel@tonic-gate void (*heap_free)(vmem_t *, void *, size_t))
17567c478bd9Sstevel@tonic-gate {
17577c478bd9Sstevel@tonic-gate uint32_t id;
17587c478bd9Sstevel@tonic-gate int nseg = VMEM_SEG_INITIAL;
17597c478bd9Sstevel@tonic-gate vmem_t *heap;
17607c478bd9Sstevel@tonic-gate
17617c478bd9Sstevel@tonic-gate while (--nseg >= 0)
17627c478bd9Sstevel@tonic-gate vmem_putseg_global(&vmem_seg0[nseg]);
17637c478bd9Sstevel@tonic-gate
17647c478bd9Sstevel@tonic-gate heap = vmem_create(heap_name,
17657c478bd9Sstevel@tonic-gate heap_start, heap_size, heap_quantum,
17667c478bd9Sstevel@tonic-gate NULL, NULL, NULL, 0,
17677c478bd9Sstevel@tonic-gate VM_SLEEP | VMC_POPULATOR);
17687c478bd9Sstevel@tonic-gate
17697c478bd9Sstevel@tonic-gate vmem_metadata_arena = vmem_create("vmem_metadata",
17707c478bd9Sstevel@tonic-gate NULL, 0, heap_quantum,
17717c478bd9Sstevel@tonic-gate vmem_alloc, vmem_free, heap, 8 * heap_quantum,
17727c478bd9Sstevel@tonic-gate VM_SLEEP | VMC_POPULATOR | VMC_NO_QCACHE);
17737c478bd9Sstevel@tonic-gate
17747c478bd9Sstevel@tonic-gate vmem_seg_arena = vmem_create("vmem_seg",
17757c478bd9Sstevel@tonic-gate NULL, 0, heap_quantum,
17767c478bd9Sstevel@tonic-gate heap_alloc, heap_free, vmem_metadata_arena, 0,
17777c478bd9Sstevel@tonic-gate VM_SLEEP | VMC_POPULATOR);
17787c478bd9Sstevel@tonic-gate
17797c478bd9Sstevel@tonic-gate vmem_hash_arena = vmem_create("vmem_hash",
17807c478bd9Sstevel@tonic-gate NULL, 0, 8,
17817c478bd9Sstevel@tonic-gate heap_alloc, heap_free, vmem_metadata_arena, 0,
17827c478bd9Sstevel@tonic-gate VM_SLEEP);
17837c478bd9Sstevel@tonic-gate
17847c478bd9Sstevel@tonic-gate vmem_vmem_arena = vmem_create("vmem_vmem",
17857c478bd9Sstevel@tonic-gate vmem0, sizeof (vmem0), 1,
17867c478bd9Sstevel@tonic-gate heap_alloc, heap_free, vmem_metadata_arena, 0,
17877c478bd9Sstevel@tonic-gate VM_SLEEP);
17887c478bd9Sstevel@tonic-gate
17897c478bd9Sstevel@tonic-gate for (id = 0; id < vmem_id; id++)
17907c478bd9Sstevel@tonic-gate (void) vmem_xalloc(vmem_vmem_arena, sizeof (vmem_t),
17917c478bd9Sstevel@tonic-gate 1, 0, 0, &vmem0[id], &vmem0[id + 1],
17927c478bd9Sstevel@tonic-gate VM_NOSLEEP | VM_BESTFIT | VM_PANIC);
17937c478bd9Sstevel@tonic-gate
17947c478bd9Sstevel@tonic-gate return (heap);
17957c478bd9Sstevel@tonic-gate }
1796