1bf21cd93STycho Nightingale /*-
2*32640292SAndy Fiddaman * SPDX-License-Identifier: BSD-2-Clause
34c87aefeSPatrick Mooney *
4bf21cd93STycho Nightingale * Copyright (c) 2012 NetApp, Inc.
5bf21cd93STycho Nightingale * All rights reserved.
6bf21cd93STycho Nightingale *
7bf21cd93STycho Nightingale * Redistribution and use in source and binary forms, with or without
8bf21cd93STycho Nightingale * modification, are permitted provided that the following conditions
9bf21cd93STycho Nightingale * are met:
10bf21cd93STycho Nightingale * 1. Redistributions of source code must retain the above copyright
11bf21cd93STycho Nightingale * notice, this list of conditions and the following disclaimer.
12bf21cd93STycho Nightingale * 2. Redistributions in binary form must reproduce the above copyright
13bf21cd93STycho Nightingale * notice, this list of conditions and the following disclaimer in the
14bf21cd93STycho Nightingale * documentation and/or other materials provided with the distribution.
15bf21cd93STycho Nightingale *
16bf21cd93STycho Nightingale * THIS SOFTWARE IS PROVIDED BY NETAPP, INC ``AS IS'' AND
17bf21cd93STycho Nightingale * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
18bf21cd93STycho Nightingale * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
19bf21cd93STycho Nightingale * ARE DISCLAIMED. IN NO EVENT SHALL NETAPP, INC OR CONTRIBUTORS BE LIABLE
20bf21cd93STycho Nightingale * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
21bf21cd93STycho Nightingale * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
22bf21cd93STycho Nightingale * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
23bf21cd93STycho Nightingale * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
24bf21cd93STycho Nightingale * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
25bf21cd93STycho Nightingale * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
26bf21cd93STycho Nightingale * SUCH DAMAGE.
27bf21cd93STycho Nightingale */
28e0c0d44eSPatrick Mooney /*
29e0c0d44eSPatrick Mooney * This file and its contents are supplied under the terms of the
30e0c0d44eSPatrick Mooney * Common Development and Distribution License ("CDDL"), version 1.0.
31e0c0d44eSPatrick Mooney * You may only use this file in accordance with the terms of version
32e0c0d44eSPatrick Mooney * 1.0 of the CDDL.
33e0c0d44eSPatrick Mooney *
34e0c0d44eSPatrick Mooney * A full copy of the text of the CDDL should have accompanied this
35e0c0d44eSPatrick Mooney * source. A copy of the CDDL is also available via the Internet at
36e0c0d44eSPatrick Mooney * http://www.illumos.org/license/CDDL.
37e0c0d44eSPatrick Mooney *
38e0c0d44eSPatrick Mooney * Copyright 2020 Oxide Computer Company
39e0c0d44eSPatrick Mooney */
40bf21cd93STycho Nightingale
41bf21cd93STycho Nightingale /*
42bf21cd93STycho Nightingale * Memory ranges are represented with an RB tree. On insertion, the range
43bf21cd93STycho Nightingale * is checked for overlaps. On lookup, the key has the same base and limit
44bf21cd93STycho Nightingale * so it can be searched within the range.
45bf21cd93STycho Nightingale */
46bf21cd93STycho Nightingale
47bf21cd93STycho Nightingale #include <sys/cdefs.h>
48bf21cd93STycho Nightingale
49bf21cd93STycho Nightingale #include <sys/types.h>
50bf21cd93STycho Nightingale #include <sys/errno.h>
514c87aefeSPatrick Mooney #include <sys/tree.h>
52bf21cd93STycho Nightingale #include <machine/vmm.h>
53bf21cd93STycho Nightingale
54bf21cd93STycho Nightingale #include <assert.h>
554c87aefeSPatrick Mooney #include <err.h>
56bf21cd93STycho Nightingale #include <pthread.h>
574c87aefeSPatrick Mooney #include <stdio.h>
584c87aefeSPatrick Mooney #include <stdlib.h>
59*32640292SAndy Fiddaman #include <vmmapi.h>
60bf21cd93STycho Nightingale
61bf21cd93STycho Nightingale #include "mem.h"
62bf21cd93STycho Nightingale
63bf21cd93STycho Nightingale struct mmio_rb_range {
64bf21cd93STycho Nightingale RB_ENTRY(mmio_rb_range) mr_link; /* RB tree links */
65bf21cd93STycho Nightingale struct mem_range mr_param;
66bf21cd93STycho Nightingale uint64_t mr_base;
67bf21cd93STycho Nightingale uint64_t mr_end;
68bf21cd93STycho Nightingale };
69bf21cd93STycho Nightingale
70bf21cd93STycho Nightingale struct mmio_rb_tree;
71bf21cd93STycho Nightingale RB_PROTOTYPE(mmio_rb_tree, mmio_rb_range, mr_link, mmio_rb_range_compare);
72bf21cd93STycho Nightingale
734f3f3e9aSAndy Fiddaman static RB_HEAD(mmio_rb_tree, mmio_rb_range) mmio_rb_root, mmio_rb_fallback;
74bf21cd93STycho Nightingale
75bf21cd93STycho Nightingale /*
76bf21cd93STycho Nightingale * Per-vCPU cache. Since most accesses from a vCPU will be to
77bf21cd93STycho Nightingale * consecutive addresses in a range, it makes sense to cache the
78bf21cd93STycho Nightingale * result of a lookup.
79bf21cd93STycho Nightingale */
80d7b72f7bSAndy Fiddaman static struct mmio_rb_range **mmio_hint;
81d7b72f7bSAndy Fiddaman static int mmio_ncpu;
82bf21cd93STycho Nightingale
83bf21cd93STycho Nightingale static pthread_rwlock_t mmio_rwlock;
84bf21cd93STycho Nightingale
85bf21cd93STycho Nightingale static int
mmio_rb_range_compare(struct mmio_rb_range * a,struct mmio_rb_range * b)86bf21cd93STycho Nightingale mmio_rb_range_compare(struct mmio_rb_range *a, struct mmio_rb_range *b)
87bf21cd93STycho Nightingale {
88bf21cd93STycho Nightingale if (a->mr_end < b->mr_base)
89bf21cd93STycho Nightingale return (-1);
90bf21cd93STycho Nightingale else if (a->mr_base > b->mr_end)
91bf21cd93STycho Nightingale return (1);
92bf21cd93STycho Nightingale return (0);
93bf21cd93STycho Nightingale }
94bf21cd93STycho Nightingale
95bf21cd93STycho Nightingale static int
mmio_rb_lookup(struct mmio_rb_tree * rbt,uint64_t addr,struct mmio_rb_range ** entry)96bf21cd93STycho Nightingale mmio_rb_lookup(struct mmio_rb_tree *rbt, uint64_t addr,
97bf21cd93STycho Nightingale struct mmio_rb_range **entry)
98bf21cd93STycho Nightingale {
99bf21cd93STycho Nightingale struct mmio_rb_range find, *res;
100bf21cd93STycho Nightingale
101bf21cd93STycho Nightingale find.mr_base = find.mr_end = addr;
102bf21cd93STycho Nightingale
103bf21cd93STycho Nightingale res = RB_FIND(mmio_rb_tree, rbt, &find);
104bf21cd93STycho Nightingale
105bf21cd93STycho Nightingale if (res != NULL) {
106bf21cd93STycho Nightingale *entry = res;
107bf21cd93STycho Nightingale return (0);
108bf21cd93STycho Nightingale }
109e0c0d44eSPatrick Mooney
110bf21cd93STycho Nightingale return (ENOENT);
111bf21cd93STycho Nightingale }
112bf21cd93STycho Nightingale
113bf21cd93STycho Nightingale static int
mmio_rb_add(struct mmio_rb_tree * rbt,struct mmio_rb_range * new)114bf21cd93STycho Nightingale mmio_rb_add(struct mmio_rb_tree *rbt, struct mmio_rb_range *new)
115bf21cd93STycho Nightingale {
116bf21cd93STycho Nightingale struct mmio_rb_range *overlap;
117bf21cd93STycho Nightingale
118bf21cd93STycho Nightingale overlap = RB_INSERT(mmio_rb_tree, rbt, new);
119bf21cd93STycho Nightingale
120bf21cd93STycho Nightingale if (overlap != NULL) {
121bf21cd93STycho Nightingale #ifdef RB_DEBUG
122b0de25cbSAndy Fiddaman printf("overlap detected: new %lx:%lx, tree %lx:%lx, '%s' "
123b0de25cbSAndy Fiddaman "claims region already claimed for '%s'\n",
124bf21cd93STycho Nightingale new->mr_base, new->mr_end,
125b0de25cbSAndy Fiddaman overlap->mr_base, overlap->mr_end,
126b0de25cbSAndy Fiddaman new->mr_param.name, overlap->mr_param.name);
127bf21cd93STycho Nightingale #endif
128bf21cd93STycho Nightingale
129bf21cd93STycho Nightingale return (EEXIST);
130bf21cd93STycho Nightingale }
131bf21cd93STycho Nightingale
132bf21cd93STycho Nightingale return (0);
133bf21cd93STycho Nightingale }
134bf21cd93STycho Nightingale
135bf21cd93STycho Nightingale #if 0
136bf21cd93STycho Nightingale static void
137bf21cd93STycho Nightingale mmio_rb_dump(struct mmio_rb_tree *rbt)
138bf21cd93STycho Nightingale {
1394c87aefeSPatrick Mooney int perror;
140bf21cd93STycho Nightingale struct mmio_rb_range *np;
141bf21cd93STycho Nightingale
142bf21cd93STycho Nightingale pthread_rwlock_rdlock(&mmio_rwlock);
143bf21cd93STycho Nightingale RB_FOREACH(np, mmio_rb_tree, rbt) {
144bf21cd93STycho Nightingale printf(" %lx:%lx, %s\n", np->mr_base, np->mr_end,
145bf21cd93STycho Nightingale np->mr_param.name);
146bf21cd93STycho Nightingale }
1474c87aefeSPatrick Mooney perror = pthread_rwlock_unlock(&mmio_rwlock);
1484c87aefeSPatrick Mooney assert(perror == 0);
149bf21cd93STycho Nightingale }
150bf21cd93STycho Nightingale #endif
151bf21cd93STycho Nightingale
152bf21cd93STycho Nightingale RB_GENERATE(mmio_rb_tree, mmio_rb_range, mr_link, mmio_rb_range_compare);
153bf21cd93STycho Nightingale
154*32640292SAndy Fiddaman typedef int (mem_cb_t)(struct vcpu *vcpu, uint64_t gpa, struct mem_range *mr,
155*32640292SAndy Fiddaman void *arg);
1564c87aefeSPatrick Mooney
157bf21cd93STycho Nightingale static int
mem_read(struct vcpu * vcpu,uint64_t gpa,uint64_t * rval,int size,void * arg)158*32640292SAndy Fiddaman mem_read(struct vcpu *vcpu, uint64_t gpa, uint64_t *rval, int size, void *arg)
159bf21cd93STycho Nightingale {
160bf21cd93STycho Nightingale int error;
161bf21cd93STycho Nightingale struct mem_range *mr = arg;
162bf21cd93STycho Nightingale
163*32640292SAndy Fiddaman error = (*mr->handler)(vcpu, MEM_F_READ, gpa, size, rval, mr->arg1,
164*32640292SAndy Fiddaman mr->arg2);
165bf21cd93STycho Nightingale return (error);
166bf21cd93STycho Nightingale }
167bf21cd93STycho Nightingale
168bf21cd93STycho Nightingale static int
mem_write(struct vcpu * vcpu,uint64_t gpa,uint64_t wval,int size,void * arg)169*32640292SAndy Fiddaman mem_write(struct vcpu *vcpu, uint64_t gpa, uint64_t wval, int size, void *arg)
170bf21cd93STycho Nightingale {
171bf21cd93STycho Nightingale int error;
172bf21cd93STycho Nightingale struct mem_range *mr = arg;
173bf21cd93STycho Nightingale
174*32640292SAndy Fiddaman error = (*mr->handler)(vcpu, MEM_F_WRITE, gpa, size, &wval, mr->arg1,
175*32640292SAndy Fiddaman mr->arg2);
176bf21cd93STycho Nightingale return (error);
177bf21cd93STycho Nightingale }
178bf21cd93STycho Nightingale
1794c87aefeSPatrick Mooney static int
access_memory(struct vcpu * vcpu,uint64_t paddr,mem_cb_t * cb,void * arg)180*32640292SAndy Fiddaman access_memory(struct vcpu *vcpu, uint64_t paddr, mem_cb_t *cb, void *arg)
181bf21cd93STycho Nightingale {
182bf21cd93STycho Nightingale struct mmio_rb_range *entry;
183*32640292SAndy Fiddaman int err, perror, immutable, vcpuid;
184e0c0d44eSPatrick Mooney
185*32640292SAndy Fiddaman vcpuid = vcpu_id(vcpu);
186bf21cd93STycho Nightingale pthread_rwlock_rdlock(&mmio_rwlock);
187bf21cd93STycho Nightingale /*
188bf21cd93STycho Nightingale * First check the per-vCPU cache
189bf21cd93STycho Nightingale */
190*32640292SAndy Fiddaman if (mmio_hint[vcpuid] &&
191*32640292SAndy Fiddaman paddr >= mmio_hint[vcpuid]->mr_base &&
192*32640292SAndy Fiddaman paddr <= mmio_hint[vcpuid]->mr_end) {
193*32640292SAndy Fiddaman entry = mmio_hint[vcpuid];
194bf21cd93STycho Nightingale } else
195bf21cd93STycho Nightingale entry = NULL;
196bf21cd93STycho Nightingale
197bf21cd93STycho Nightingale if (entry == NULL) {
198bf21cd93STycho Nightingale if (mmio_rb_lookup(&mmio_rb_root, paddr, &entry) == 0) {
199bf21cd93STycho Nightingale /* Update the per-vCPU cache */
200*32640292SAndy Fiddaman mmio_hint[vcpuid] = entry;
201bf21cd93STycho Nightingale } else if (mmio_rb_lookup(&mmio_rb_fallback, paddr, &entry)) {
2024c87aefeSPatrick Mooney perror = pthread_rwlock_unlock(&mmio_rwlock);
2034c87aefeSPatrick Mooney assert(perror == 0);
204bf21cd93STycho Nightingale return (ESRCH);
205bf21cd93STycho Nightingale }
206bf21cd93STycho Nightingale }
207bf21cd93STycho Nightingale
208bf21cd93STycho Nightingale assert(entry != NULL);
209bf21cd93STycho Nightingale
210bf21cd93STycho Nightingale /*
211bf21cd93STycho Nightingale * An 'immutable' memory range is guaranteed to be never removed
212bf21cd93STycho Nightingale * so there is no need to hold 'mmio_rwlock' while calling the
213bf21cd93STycho Nightingale * handler.
214bf21cd93STycho Nightingale *
215bf21cd93STycho Nightingale * XXX writes to the PCIR_COMMAND register can cause register_mem()
216bf21cd93STycho Nightingale * to be called. If the guest is using PCI extended config space
217bf21cd93STycho Nightingale * to modify the PCIR_COMMAND register then register_mem() can
218bf21cd93STycho Nightingale * deadlock on 'mmio_rwlock'. However by registering the extended
219bf21cd93STycho Nightingale * config space window as 'immutable' the deadlock can be avoided.
220bf21cd93STycho Nightingale */
221bf21cd93STycho Nightingale immutable = (entry->mr_param.flags & MEM_F_IMMUTABLE);
2224c87aefeSPatrick Mooney if (immutable) {
2234c87aefeSPatrick Mooney perror = pthread_rwlock_unlock(&mmio_rwlock);
2244c87aefeSPatrick Mooney assert(perror == 0);
2254c87aefeSPatrick Mooney }
226bf21cd93STycho Nightingale
227*32640292SAndy Fiddaman err = cb(vcpu, paddr, &entry->mr_param, arg);
2284c87aefeSPatrick Mooney
2294c87aefeSPatrick Mooney if (!immutable) {
2304c87aefeSPatrick Mooney perror = pthread_rwlock_unlock(&mmio_rwlock);
2314c87aefeSPatrick Mooney assert(perror == 0);
2324c87aefeSPatrick Mooney }
233bf21cd93STycho Nightingale
234bf21cd93STycho Nightingale return (err);
235bf21cd93STycho Nightingale }
236bf21cd93STycho Nightingale
2374c87aefeSPatrick Mooney static int
emulate_mem_cb(struct vcpu * vcpu,uint64_t paddr,struct mem_range * mr,void * arg)238*32640292SAndy Fiddaman emulate_mem_cb(struct vcpu *vcpu, uint64_t paddr, struct mem_range *mr,
2394c87aefeSPatrick Mooney void *arg)
2404c87aefeSPatrick Mooney {
241e0c0d44eSPatrick Mooney struct vm_mmio *mmio;
242e0c0d44eSPatrick Mooney int err = 0;
243e0c0d44eSPatrick Mooney
244e0c0d44eSPatrick Mooney mmio = arg;
2454c87aefeSPatrick Mooney
246e0c0d44eSPatrick Mooney if (mmio->read != 0) {
247*32640292SAndy Fiddaman err = mem_read(vcpu, paddr, &mmio->data, mmio->bytes, mr);
248e0c0d44eSPatrick Mooney } else {
249*32640292SAndy Fiddaman err = mem_write(vcpu, paddr, mmio->data, mmio->bytes, mr);
250e0c0d44eSPatrick Mooney }
251e0c0d44eSPatrick Mooney
252e0c0d44eSPatrick Mooney return (err);
2534c87aefeSPatrick Mooney }
2544c87aefeSPatrick Mooney
2554c87aefeSPatrick Mooney int
emulate_mem(struct vcpu * vcpu,struct vm_mmio * mmio)256*32640292SAndy Fiddaman emulate_mem(struct vcpu *vcpu, struct vm_mmio *mmio)
2574c87aefeSPatrick Mooney {
258*32640292SAndy Fiddaman return (access_memory(vcpu, mmio->gpa, emulate_mem_cb, mmio));
2594c87aefeSPatrick Mooney }
2604c87aefeSPatrick Mooney
2614c87aefeSPatrick Mooney struct rw_mem_args {
2624c87aefeSPatrick Mooney uint64_t *val;
2634c87aefeSPatrick Mooney int size;
2644c87aefeSPatrick Mooney int operation;
2654c87aefeSPatrick Mooney };
2664c87aefeSPatrick Mooney
2674c87aefeSPatrick Mooney static int
rw_mem_cb(struct vcpu * vcpu,uint64_t paddr,struct mem_range * mr,void * arg)268*32640292SAndy Fiddaman rw_mem_cb(struct vcpu *vcpu, uint64_t paddr, struct mem_range *mr,
2694c87aefeSPatrick Mooney void *arg)
2704c87aefeSPatrick Mooney {
2714c87aefeSPatrick Mooney struct rw_mem_args *rma;
2724c87aefeSPatrick Mooney
2734c87aefeSPatrick Mooney rma = arg;
274*32640292SAndy Fiddaman return (mr->handler(vcpu, rma->operation, paddr, rma->size,
2754c87aefeSPatrick Mooney rma->val, mr->arg1, mr->arg2));
2764c87aefeSPatrick Mooney }
2774c87aefeSPatrick Mooney
2784c87aefeSPatrick Mooney int
read_mem(struct vcpu * vcpu,uint64_t gpa,uint64_t * rval,int size)279*32640292SAndy Fiddaman read_mem(struct vcpu *vcpu, uint64_t gpa, uint64_t *rval, int size)
2804c87aefeSPatrick Mooney {
2814c87aefeSPatrick Mooney struct rw_mem_args rma;
2824c87aefeSPatrick Mooney
2834c87aefeSPatrick Mooney rma.val = rval;
2844c87aefeSPatrick Mooney rma.size = size;
2854c87aefeSPatrick Mooney rma.operation = MEM_F_READ;
286*32640292SAndy Fiddaman return (access_memory(vcpu, gpa, rw_mem_cb, &rma));
2874c87aefeSPatrick Mooney }
2884c87aefeSPatrick Mooney
2894c87aefeSPatrick Mooney int
write_mem(struct vcpu * vcpu,uint64_t gpa,uint64_t wval,int size)290*32640292SAndy Fiddaman write_mem(struct vcpu *vcpu, uint64_t gpa, uint64_t wval, int size)
2914c87aefeSPatrick Mooney {
2924c87aefeSPatrick Mooney struct rw_mem_args rma;
2934c87aefeSPatrick Mooney
2944c87aefeSPatrick Mooney rma.val = &wval;
2954c87aefeSPatrick Mooney rma.size = size;
2964c87aefeSPatrick Mooney rma.operation = MEM_F_WRITE;
297*32640292SAndy Fiddaman return (access_memory(vcpu, gpa, rw_mem_cb, &rma));
2984c87aefeSPatrick Mooney }
2994c87aefeSPatrick Mooney
300bf21cd93STycho Nightingale static int
register_mem_int(struct mmio_rb_tree * rbt,struct mem_range * memp)301bf21cd93STycho Nightingale register_mem_int(struct mmio_rb_tree *rbt, struct mem_range *memp)
302bf21cd93STycho Nightingale {
303bf21cd93STycho Nightingale struct mmio_rb_range *entry, *mrp;
3044c87aefeSPatrick Mooney int err, perror;
305bf21cd93STycho Nightingale
306bf21cd93STycho Nightingale err = 0;
307bf21cd93STycho Nightingale
308bf21cd93STycho Nightingale mrp = malloc(sizeof(struct mmio_rb_range));
3094c87aefeSPatrick Mooney if (mrp == NULL) {
3104c87aefeSPatrick Mooney warn("%s: couldn't allocate memory for mrp\n",
3114c87aefeSPatrick Mooney __func__);
3124c87aefeSPatrick Mooney err = ENOMEM;
3134c87aefeSPatrick Mooney } else {
314bf21cd93STycho Nightingale mrp->mr_param = *memp;
315bf21cd93STycho Nightingale mrp->mr_base = memp->base;
316bf21cd93STycho Nightingale mrp->mr_end = memp->base + memp->size - 1;
317bf21cd93STycho Nightingale pthread_rwlock_wrlock(&mmio_rwlock);
318bf21cd93STycho Nightingale if (mmio_rb_lookup(rbt, memp->base, &entry) != 0)
319bf21cd93STycho Nightingale err = mmio_rb_add(rbt, mrp);
32059d65d31SAndy Fiddaman #ifndef __FreeBSD__
32159d65d31SAndy Fiddaman else /* smatch warn: possible memory leak of 'mrp' */
32259d65d31SAndy Fiddaman free(mrp);
32359d65d31SAndy Fiddaman #endif
3244c87aefeSPatrick Mooney perror = pthread_rwlock_unlock(&mmio_rwlock);
3254c87aefeSPatrick Mooney assert(perror == 0);
326bf21cd93STycho Nightingale if (err)
327bf21cd93STycho Nightingale free(mrp);
3284c87aefeSPatrick Mooney }
329bf21cd93STycho Nightingale
330bf21cd93STycho Nightingale return (err);
331bf21cd93STycho Nightingale }
332bf21cd93STycho Nightingale
333bf21cd93STycho Nightingale int
register_mem(struct mem_range * memp)334bf21cd93STycho Nightingale register_mem(struct mem_range *memp)
335bf21cd93STycho Nightingale {
336bf21cd93STycho Nightingale
337bf21cd93STycho Nightingale return (register_mem_int(&mmio_rb_root, memp));
338bf21cd93STycho Nightingale }
339bf21cd93STycho Nightingale
340bf21cd93STycho Nightingale int
register_mem_fallback(struct mem_range * memp)341bf21cd93STycho Nightingale register_mem_fallback(struct mem_range *memp)
342bf21cd93STycho Nightingale {
343bf21cd93STycho Nightingale
344bf21cd93STycho Nightingale return (register_mem_int(&mmio_rb_fallback, memp));
345bf21cd93STycho Nightingale }
346bf21cd93STycho Nightingale
347e0c0d44eSPatrick Mooney int
unregister_mem(struct mem_range * memp)348bf21cd93STycho Nightingale unregister_mem(struct mem_range *memp)
349bf21cd93STycho Nightingale {
350bf21cd93STycho Nightingale struct mem_range *mr;
351bf21cd93STycho Nightingale struct mmio_rb_range *entry = NULL;
3524c87aefeSPatrick Mooney int err, perror, i;
353e0c0d44eSPatrick Mooney
354bf21cd93STycho Nightingale pthread_rwlock_wrlock(&mmio_rwlock);
355bf21cd93STycho Nightingale err = mmio_rb_lookup(&mmio_rb_root, memp->base, &entry);
356bf21cd93STycho Nightingale if (err == 0) {
357bf21cd93STycho Nightingale mr = &entry->mr_param;
358bf21cd93STycho Nightingale assert(mr->name == memp->name);
359e0c0d44eSPatrick Mooney assert(mr->base == memp->base && mr->size == memp->size);
360bf21cd93STycho Nightingale assert((mr->flags & MEM_F_IMMUTABLE) == 0);
361bf21cd93STycho Nightingale RB_REMOVE(mmio_rb_tree, &mmio_rb_root, entry);
362bf21cd93STycho Nightingale
363e0c0d44eSPatrick Mooney /* flush Per-vCPU cache */
364d7b72f7bSAndy Fiddaman for (i = 0; i < mmio_ncpu; i++) {
365bf21cd93STycho Nightingale if (mmio_hint[i] == entry)
366bf21cd93STycho Nightingale mmio_hint[i] = NULL;
367bf21cd93STycho Nightingale }
368bf21cd93STycho Nightingale }
3694c87aefeSPatrick Mooney perror = pthread_rwlock_unlock(&mmio_rwlock);
3704c87aefeSPatrick Mooney assert(perror == 0);
371bf21cd93STycho Nightingale
372bf21cd93STycho Nightingale if (entry)
373bf21cd93STycho Nightingale free(entry);
374e0c0d44eSPatrick Mooney
375bf21cd93STycho Nightingale return (err);
376bf21cd93STycho Nightingale }
377bf21cd93STycho Nightingale
378bf21cd93STycho Nightingale void
init_mem(int ncpu)379d7b72f7bSAndy Fiddaman init_mem(int ncpu)
380bf21cd93STycho Nightingale {
381bf21cd93STycho Nightingale
382d7b72f7bSAndy Fiddaman mmio_ncpu = ncpu;
383d7b72f7bSAndy Fiddaman mmio_hint = calloc(ncpu, sizeof(*mmio_hint));
384bf21cd93STycho Nightingale RB_INIT(&mmio_rb_root);
385bf21cd93STycho Nightingale RB_INIT(&mmio_rb_fallback);
386bf21cd93STycho Nightingale pthread_rwlock_init(&mmio_rwlock, NULL);
387bf21cd93STycho Nightingale }
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