1843e1988Sjohnlev /*
2843e1988Sjohnlev * CDDL HEADER START
3843e1988Sjohnlev *
4843e1988Sjohnlev * The contents of this file are subject to the terms of the
5843e1988Sjohnlev * Common Development and Distribution License (the "License").
6843e1988Sjohnlev * You may not use this file except in compliance with the License.
7843e1988Sjohnlev *
8843e1988Sjohnlev * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9843e1988Sjohnlev * or http://www.opensolaris.org/os/licensing.
10843e1988Sjohnlev * See the License for the specific language governing permissions
11843e1988Sjohnlev * and limitations under the License.
12843e1988Sjohnlev *
13843e1988Sjohnlev * When distributing Covered Code, include this CDDL HEADER in each
14843e1988Sjohnlev * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15843e1988Sjohnlev * If applicable, add the following below this CDDL HEADER, with the
16843e1988Sjohnlev * fields enclosed by brackets "[]" replaced with your own identifying
17843e1988Sjohnlev * information: Portions Copyright [yyyy] [name of copyright owner]
18843e1988Sjohnlev *
19843e1988Sjohnlev * CDDL HEADER END
20843e1988Sjohnlev */
21843e1988Sjohnlev
22843e1988Sjohnlev /*
23349b53ddSStuart Maybee * Copyright 2009 Sun Microsystems, Inc. All rights reserved.
24843e1988Sjohnlev * Use is subject to license terms.
25843e1988Sjohnlev */
26843e1988Sjohnlev
27843e1988Sjohnlev #include <sys/balloon_impl.h>
28843e1988Sjohnlev #include <sys/hypervisor.h>
29843e1988Sjohnlev #include <xen/sys/xenbus_impl.h>
30843e1988Sjohnlev #include <sys/atomic.h>
31843e1988Sjohnlev #include <sys/cmn_err.h>
32843e1988Sjohnlev #include <sys/disp.h>
33843e1988Sjohnlev #include <sys/callb.h>
34843e1988Sjohnlev #include <xen/public/memory.h>
35843e1988Sjohnlev #include <vm/hat.h>
36843e1988Sjohnlev #include <sys/promif.h>
37843e1988Sjohnlev #include <vm/seg_kmem.h>
38843e1988Sjohnlev #include <sys/memnode.h>
39843e1988Sjohnlev #include <sys/param.h>
40843e1988Sjohnlev #include <vm/vm_dep.h>
41843e1988Sjohnlev #include <sys/mman.h>
42843e1988Sjohnlev #include <sys/memlist.h>
43843e1988Sjohnlev #include <sys/sysmacros.h>
44843e1988Sjohnlev #include <sys/machsystm.h>
45843e1988Sjohnlev #include <sys/sdt.h>
46843e1988Sjohnlev
47843e1988Sjohnlev /*
48843e1988Sjohnlev * This file implements a balloon thread, which controls a domain's memory
49843e1988Sjohnlev * reservation, or the amount of memory a domain is currently allocated.
50843e1988Sjohnlev * The hypervisor provides the current memory reservation through xenbus,
51843e1988Sjohnlev * so we register a watch on this. We will then be signalled when the
52843e1988Sjohnlev * reservation changes. If it goes up, we map the new mfn's to our pfn's
53843e1988Sjohnlev * (allocating page_t's if necessary), and release them into the system.
54843e1988Sjohnlev * If the reservation goes down, we grab pages and release them back to
55843e1988Sjohnlev * the hypervisor, saving the page_t's for later use.
56843e1988Sjohnlev */
57843e1988Sjohnlev
58843e1988Sjohnlev /*
59843e1988Sjohnlev * Various structures needed by the balloon thread
60843e1988Sjohnlev */
61843e1988Sjohnlev static bln_stats_t bln_stats;
62843e1988Sjohnlev static kthread_t *bln_thread;
63843e1988Sjohnlev static kmutex_t bln_mutex;
64843e1988Sjohnlev static kcondvar_t bln_cv;
65843e1988Sjohnlev static struct xenbus_watch bln_watch;
66843e1988Sjohnlev static mfn_t new_high_mfn;
67843e1988Sjohnlev
68843e1988Sjohnlev /*
69843e1988Sjohnlev * For holding spare page_t structures - keep a singly-linked list.
70843e1988Sjohnlev * The list may hold both valid (pagenum < mfn_count) and invalid
71843e1988Sjohnlev * (pagenum >= mfn_count) page_t's. Valid page_t's should be inserted
72843e1988Sjohnlev * at the front, and invalid page_t's at the back. Removal should
73843e1988Sjohnlev * always be from the front. This is a singly-linked list using
74843e1988Sjohnlev * p_next, so p_prev is always NULL.
75843e1988Sjohnlev */
76843e1988Sjohnlev static page_t *bln_spare_list_front, *bln_spare_list_back;
77843e1988Sjohnlev
78843e1988Sjohnlev int balloon_zero_memory = 1;
79843e1988Sjohnlev size_t balloon_minkmem = (8 * 1024 * 1024);
80843e1988Sjohnlev
81843e1988Sjohnlev /*
82843e1988Sjohnlev * reassign_pfn() calls update_contig_pfnlist(), which can cause a large
83843e1988Sjohnlev * slowdown when calling multiple times. If we're reassigning less than the
84843e1988Sjohnlev * quota defined here, we just accept the slowdown. If the count is greater
85843e1988Sjohnlev * than the quota, we tell the contig alloc code to stop its accounting until
86843e1988Sjohnlev * we're done. Setting the quota to less than 2 is not supported.
87843e1988Sjohnlev *
88843e1988Sjohnlev * Note that we define our own wrapper around the external
89843e1988Sjohnlev * clear_and_lock_contig_pfnlist(), but we just use the version of
90843e1988Sjohnlev * unlock_contig_pfnlist() in vm_machdep.c.
91843e1988Sjohnlev */
92843e1988Sjohnlev uint_t bln_contig_list_quota = 50;
93843e1988Sjohnlev
94843e1988Sjohnlev extern void clear_and_lock_contig_pfnlist(void);
95843e1988Sjohnlev extern void unlock_contig_pfnlist(void);
96843e1988Sjohnlev
97843e1988Sjohnlev /*
98843e1988Sjohnlev * Lock the pfnlist if necessary (see above), and return whether we locked it.
99843e1988Sjohnlev */
100843e1988Sjohnlev static int
balloon_lock_contig_pfnlist(int count)101843e1988Sjohnlev balloon_lock_contig_pfnlist(int count) {
102843e1988Sjohnlev if (count > bln_contig_list_quota) {
103843e1988Sjohnlev clear_and_lock_contig_pfnlist();
104843e1988Sjohnlev return (1);
105843e1988Sjohnlev } else {
106843e1988Sjohnlev return (0);
107843e1988Sjohnlev }
108843e1988Sjohnlev }
109843e1988Sjohnlev
110843e1988Sjohnlev /*
111843e1988Sjohnlev * The page represented by pp is being given back to the hypervisor.
112843e1988Sjohnlev * Add the page_t structure to our spare list.
113843e1988Sjohnlev */
114843e1988Sjohnlev static void
balloon_page_add(page_t * pp)115843e1988Sjohnlev balloon_page_add(page_t *pp)
116843e1988Sjohnlev {
117843e1988Sjohnlev /*
118843e1988Sjohnlev * We need to keep the page exclusively locked
119843e1988Sjohnlev * to prevent swrand from grabbing it.
120843e1988Sjohnlev */
121843e1988Sjohnlev ASSERT(PAGE_EXCL(pp));
122843e1988Sjohnlev ASSERT(MUTEX_HELD(&bln_mutex));
123843e1988Sjohnlev
124843e1988Sjohnlev pp->p_prev = NULL;
125843e1988Sjohnlev if (bln_spare_list_front == NULL) {
126843e1988Sjohnlev bln_spare_list_front = bln_spare_list_back = pp;
127843e1988Sjohnlev pp->p_next = NULL;
128843e1988Sjohnlev } else if (pp->p_pagenum >= mfn_count) {
129843e1988Sjohnlev /*
130843e1988Sjohnlev * The pfn is invalid, so add at the end of list. Since these
131843e1988Sjohnlev * adds should *only* be done by balloon_init_new_pages(), and
132843e1988Sjohnlev * that does adds in order, the following ASSERT should
133843e1988Sjohnlev * never trigger.
134843e1988Sjohnlev */
135843e1988Sjohnlev ASSERT(pp->p_pagenum > bln_spare_list_back->p_pagenum);
136843e1988Sjohnlev bln_spare_list_back->p_next = pp;
137843e1988Sjohnlev pp->p_next = NULL;
138843e1988Sjohnlev bln_spare_list_back = pp;
139843e1988Sjohnlev } else {
140843e1988Sjohnlev /* Add at beginning of list */
141843e1988Sjohnlev pp->p_next = bln_spare_list_front;
142843e1988Sjohnlev bln_spare_list_front = pp;
143843e1988Sjohnlev }
144843e1988Sjohnlev }
145843e1988Sjohnlev
146843e1988Sjohnlev /*
147843e1988Sjohnlev * Return a page_t structure from our spare list, or NULL if none are available.
148843e1988Sjohnlev */
149843e1988Sjohnlev static page_t *
balloon_page_sub(void)150843e1988Sjohnlev balloon_page_sub(void)
151843e1988Sjohnlev {
152843e1988Sjohnlev page_t *pp;
153843e1988Sjohnlev
154843e1988Sjohnlev ASSERT(MUTEX_HELD(&bln_mutex));
155843e1988Sjohnlev if (bln_spare_list_front == NULL) {
156843e1988Sjohnlev return (NULL);
157843e1988Sjohnlev }
158843e1988Sjohnlev
159843e1988Sjohnlev pp = bln_spare_list_front;
160843e1988Sjohnlev ASSERT(PAGE_EXCL(pp));
161843e1988Sjohnlev ASSERT(pp->p_pagenum <= mfn_count);
162843e1988Sjohnlev if (pp->p_pagenum == mfn_count) {
163843e1988Sjohnlev return (NULL);
164843e1988Sjohnlev }
165843e1988Sjohnlev
166843e1988Sjohnlev bln_spare_list_front = pp->p_next;
167843e1988Sjohnlev if (bln_spare_list_front == NULL)
168843e1988Sjohnlev bln_spare_list_back = NULL;
169843e1988Sjohnlev pp->p_next = NULL;
170843e1988Sjohnlev return (pp);
171843e1988Sjohnlev }
172843e1988Sjohnlev
173843e1988Sjohnlev /*
174843e1988Sjohnlev * NOTE: We currently do not support growing beyond the boot memory size,
175843e1988Sjohnlev * so the following function will not be called. It is left in here with
176843e1988Sjohnlev * the hope that someday this restriction can be lifted, and this code can
177843e1988Sjohnlev * be used.
178843e1988Sjohnlev */
179843e1988Sjohnlev
180843e1988Sjohnlev /*
181843e1988Sjohnlev * This structure is placed at the start of every block of new pages
182843e1988Sjohnlev */
183843e1988Sjohnlev typedef struct {
184843e1988Sjohnlev struct memseg memseg;
185843e1988Sjohnlev struct memlist memlist;
186843e1988Sjohnlev page_t pages[1];
187843e1988Sjohnlev } mem_structs_t;
188843e1988Sjohnlev
189843e1988Sjohnlev /*
190843e1988Sjohnlev * To make the math below slightly less confusing, we calculate the first
191843e1988Sjohnlev * two parts here. page_t's are handled separately, so they are not included.
192843e1988Sjohnlev */
193843e1988Sjohnlev #define MEM_STRUCT_SIZE (sizeof (struct memseg) + sizeof (struct memlist))
194843e1988Sjohnlev
195843e1988Sjohnlev /*
196843e1988Sjohnlev * We want to add memory, but have no spare page_t structures. Use some of
197843e1988Sjohnlev * our new memory for the page_t structures.
198843e1988Sjohnlev *
199843e1988Sjohnlev * Somewhat similar to kphysm_add_memory_dynamic(), but simpler.
200843e1988Sjohnlev */
201843e1988Sjohnlev static int
balloon_init_new_pages(mfn_t framelist[],pgcnt_t count)202843e1988Sjohnlev balloon_init_new_pages(mfn_t framelist[], pgcnt_t count)
203843e1988Sjohnlev {
204843e1988Sjohnlev pgcnt_t metapgs, totalpgs, num_pages;
205843e1988Sjohnlev paddr_t metasz;
206843e1988Sjohnlev pfn_t meta_start;
207843e1988Sjohnlev page_t *page_array;
208843e1988Sjohnlev caddr_t va;
209843e1988Sjohnlev int i, rv, locked;
210843e1988Sjohnlev mem_structs_t *mem;
211843e1988Sjohnlev struct memseg *segp;
212843e1988Sjohnlev
213843e1988Sjohnlev /* Calculate the number of pages we're going to add */
214843e1988Sjohnlev totalpgs = bln_stats.bln_new_target - bln_stats.bln_current_pages;
215843e1988Sjohnlev
216843e1988Sjohnlev /*
217843e1988Sjohnlev * The following calculates the number of "meta" pages -- the pages
218843e1988Sjohnlev * that will be required to hold page_t structures for all new pages.
219843e1988Sjohnlev * Proof of this calculation is left up to the reader.
220843e1988Sjohnlev */
221843e1988Sjohnlev metapgs = totalpgs - (((uint64_t)(totalpgs) << PAGESHIFT) /
222843e1988Sjohnlev (PAGESIZE + sizeof (page_t)));
223843e1988Sjohnlev
224843e1988Sjohnlev /*
225843e1988Sjohnlev * Given the number of page_t structures we need, is there also
226843e1988Sjohnlev * room in our meta pages for a memseg and memlist struct?
227843e1988Sjohnlev * If not, we'll need one more meta page.
228843e1988Sjohnlev */
229843e1988Sjohnlev if ((metapgs << PAGESHIFT) < (totalpgs * sizeof (page_t) +
230843e1988Sjohnlev MEM_STRUCT_SIZE))
231843e1988Sjohnlev metapgs++;
232843e1988Sjohnlev
233843e1988Sjohnlev /*
234843e1988Sjohnlev * metapgs is calculated from totalpgs, which may be much larger than
235843e1988Sjohnlev * count. If we don't have enough pages, all of the pages in this
236843e1988Sjohnlev * batch will be made meta pages, and a future trip through
237843e1988Sjohnlev * balloon_inc_reservation() will add the rest of the meta pages.
238843e1988Sjohnlev */
239843e1988Sjohnlev if (metapgs > count)
240843e1988Sjohnlev metapgs = count;
241843e1988Sjohnlev
242843e1988Sjohnlev /*
243843e1988Sjohnlev * Figure out the number of page_t structures that can fit in metapgs
244843e1988Sjohnlev *
245843e1988Sjohnlev * This will cause us to initialize more page_t structures than we
246843e1988Sjohnlev * need - these may be used in future memory increases.
247843e1988Sjohnlev */
248843e1988Sjohnlev metasz = pfn_to_pa(metapgs);
249843e1988Sjohnlev num_pages = (metasz - MEM_STRUCT_SIZE) / sizeof (page_t);
250843e1988Sjohnlev
251843e1988Sjohnlev DTRACE_PROBE3(balloon__alloc__stats, pgcnt_t, totalpgs, pgcnt_t,
252843e1988Sjohnlev num_pages, pgcnt_t, metapgs);
253843e1988Sjohnlev
254843e1988Sjohnlev /*
255843e1988Sjohnlev * We only increment mfn_count by count, not num_pages, to keep the
256843e1988Sjohnlev * space of all valid pfns contiguous. This means we create page_t
257843e1988Sjohnlev * structures with invalid pagenums -- we deal with this situation
258843e1988Sjohnlev * in balloon_page_sub.
259843e1988Sjohnlev */
260843e1988Sjohnlev mfn_count += count;
261843e1988Sjohnlev
262843e1988Sjohnlev /*
263843e1988Sjohnlev * Get a VA for the pages that will hold page_t and other structures.
264843e1988Sjohnlev * The memseg and memlist structures will go at the beginning, with
265843e1988Sjohnlev * the page_t structures following.
266843e1988Sjohnlev */
267843e1988Sjohnlev va = (caddr_t)vmem_alloc(heap_arena, metasz, VM_SLEEP);
268843e1988Sjohnlev /* LINTED: improper alignment */
269843e1988Sjohnlev mem = (mem_structs_t *)va;
270843e1988Sjohnlev page_array = mem->pages;
271843e1988Sjohnlev
272843e1988Sjohnlev meta_start = bln_stats.bln_max_pages;
273843e1988Sjohnlev
274843e1988Sjohnlev /*
275843e1988Sjohnlev * Set the mfn to pfn mapping for the meta pages.
276843e1988Sjohnlev */
277843e1988Sjohnlev locked = balloon_lock_contig_pfnlist(metapgs);
278843e1988Sjohnlev for (i = 0; i < metapgs; i++) {
279843e1988Sjohnlev reassign_pfn(bln_stats.bln_max_pages + i, framelist[i]);
280843e1988Sjohnlev }
281843e1988Sjohnlev if (locked)
282843e1988Sjohnlev unlock_contig_pfnlist();
283843e1988Sjohnlev
284843e1988Sjohnlev /*
285843e1988Sjohnlev * For our meta pages, map them in and zero the page.
286843e1988Sjohnlev * This will be the first time touching the new pages.
287843e1988Sjohnlev */
288843e1988Sjohnlev hat_devload(kas.a_hat, va, metasz, bln_stats.bln_max_pages,
289843e1988Sjohnlev PROT_READ | PROT_WRITE,
290843e1988Sjohnlev HAT_LOAD | HAT_LOAD_LOCK | HAT_LOAD_NOCONSIST);
291843e1988Sjohnlev bzero(va, metasz);
292843e1988Sjohnlev
293843e1988Sjohnlev /*
294843e1988Sjohnlev * Initialize the page array for the new pages.
295843e1988Sjohnlev */
296843e1988Sjohnlev for (i = 0; i < metapgs; i++) {
297843e1988Sjohnlev page_array[i].p_pagenum = bln_stats.bln_max_pages++;
298843e1988Sjohnlev page_array[i].p_offset = (u_offset_t)-1;
299843e1988Sjohnlev page_iolock_init(&page_array[i]);
300843e1988Sjohnlev rv = page_lock(&page_array[i], SE_EXCL, NULL, P_NO_RECLAIM);
301843e1988Sjohnlev ASSERT(rv == 1);
302843e1988Sjohnlev }
303843e1988Sjohnlev
304843e1988Sjohnlev /*
305843e1988Sjohnlev * For the rest of the pages, initialize the page_t struct and
306843e1988Sjohnlev * add them to the free list
307843e1988Sjohnlev */
308843e1988Sjohnlev for (i = metapgs; i < num_pages; i++) {
309843e1988Sjohnlev page_array[i].p_pagenum = bln_stats.bln_max_pages++;
310843e1988Sjohnlev page_array[i].p_offset = (u_offset_t)-1;
311843e1988Sjohnlev page_iolock_init(&page_array[i]);
312843e1988Sjohnlev rv = page_lock(&page_array[i], SE_EXCL, NULL, P_NO_RECLAIM);
313843e1988Sjohnlev ASSERT(rv == 1);
314843e1988Sjohnlev balloon_page_add(&page_array[i]);
315843e1988Sjohnlev }
316843e1988Sjohnlev
317843e1988Sjohnlev /*
318843e1988Sjohnlev * Remember where I said that we don't call this function? The missing
319843e1988Sjohnlev * code right here is why. We need to set up kpm mappings for any new
320843e1988Sjohnlev * pages coming in. However, if someone starts up a domain with small
321843e1988Sjohnlev * memory, then greatly increases it, we could get in some horrible
322843e1988Sjohnlev * deadlock situations as we steal page tables for kpm use, and
323843e1988Sjohnlev * userland applications take them right back before we can use them
324843e1988Sjohnlev * to set up our new memory. Once a way around that is found, and a
325843e1988Sjohnlev * few other changes are made, we'll be able to enable this code.
326843e1988Sjohnlev */
327843e1988Sjohnlev
328843e1988Sjohnlev /*
329843e1988Sjohnlev * Update kernel structures, part 1: memsegs list
330843e1988Sjohnlev */
331843e1988Sjohnlev mem->memseg.pages_base = meta_start;
332843e1988Sjohnlev mem->memseg.pages_end = bln_stats.bln_max_pages - 1;
333843e1988Sjohnlev mem->memseg.pages = &page_array[0];
334843e1988Sjohnlev mem->memseg.epages = &page_array[num_pages - 1];
335843e1988Sjohnlev mem->memseg.next = NULL;
336843e1988Sjohnlev memsegs_lock(1);
337843e1988Sjohnlev for (segp = memsegs; segp->next != NULL; segp = segp->next)
338843e1988Sjohnlev ;
339843e1988Sjohnlev segp->next = &mem->memseg;
340843e1988Sjohnlev memsegs_unlock(1);
341843e1988Sjohnlev
342843e1988Sjohnlev /*
343843e1988Sjohnlev * Update kernel structures, part 2: mem_node array
344843e1988Sjohnlev */
345843e1988Sjohnlev mem_node_add_slice(meta_start, bln_stats.bln_max_pages);
346843e1988Sjohnlev
347843e1988Sjohnlev /*
348843e1988Sjohnlev * Update kernel structures, part 3: phys_install array
349843e1988Sjohnlev * (*sigh* how many of these things do we need?)
350843e1988Sjohnlev */
351843e1988Sjohnlev memlist_write_lock();
352843e1988Sjohnlev memlist_add(pfn_to_pa(meta_start), num_pages, &mem->memlist,
353843e1988Sjohnlev &phys_install);
354843e1988Sjohnlev memlist_write_unlock();
355843e1988Sjohnlev
356843e1988Sjohnlev build_pfn_hash();
357843e1988Sjohnlev
358843e1988Sjohnlev return (metapgs);
359843e1988Sjohnlev }
360843e1988Sjohnlev
361843e1988Sjohnlev /* How many ulong_t's can we fit on a page? */
362843e1988Sjohnlev #define FRAME_ARRAY_SIZE (PAGESIZE / sizeof (ulong_t))
363843e1988Sjohnlev
364843e1988Sjohnlev /*
365843e1988Sjohnlev * These are too large to declare on the stack, so we make them static instead
366843e1988Sjohnlev */
367843e1988Sjohnlev static ulong_t mfn_frames[FRAME_ARRAY_SIZE];
368843e1988Sjohnlev static pfn_t pfn_frames[FRAME_ARRAY_SIZE];
369843e1988Sjohnlev
370843e1988Sjohnlev /*
371843e1988Sjohnlev * This function is called when our reservation is increasing. Make a
372843e1988Sjohnlev * hypervisor call to get our new pages, then integrate them into the system.
373843e1988Sjohnlev */
374843e1988Sjohnlev static spgcnt_t
balloon_inc_reservation(ulong_t credit)375843e1988Sjohnlev balloon_inc_reservation(ulong_t credit)
376843e1988Sjohnlev {
377843e1988Sjohnlev int i, cnt, locked;
378843e1988Sjohnlev int meta_pg_start, meta_pg_end;
379843e1988Sjohnlev long rv;
380843e1988Sjohnlev page_t *pp;
381843e1988Sjohnlev page_t *new_list_front, *new_list_back;
382843e1988Sjohnlev
383d2b85481Srscott /* Make sure we're single-threaded. */
384d2b85481Srscott ASSERT(MUTEX_HELD(&bln_mutex));
385d2b85481Srscott
386843e1988Sjohnlev rv = 0;
387843e1988Sjohnlev new_list_front = new_list_back = NULL;
388843e1988Sjohnlev meta_pg_start = meta_pg_end = 0;
389843e1988Sjohnlev bzero(mfn_frames, PAGESIZE);
390843e1988Sjohnlev
391843e1988Sjohnlev if (credit > FRAME_ARRAY_SIZE)
392843e1988Sjohnlev credit = FRAME_ARRAY_SIZE;
393843e1988Sjohnlev
394843e1988Sjohnlev xen_block_migrate();
395843e1988Sjohnlev rv = balloon_alloc_pages(credit, mfn_frames);
396843e1988Sjohnlev
397843e1988Sjohnlev if (rv < 0) {
398843e1988Sjohnlev xen_allow_migrate();
399843e1988Sjohnlev return (0);
400843e1988Sjohnlev }
401843e1988Sjohnlev for (i = 0; i < rv; i++) {
402843e1988Sjohnlev if (mfn_frames[i] > new_high_mfn)
403843e1988Sjohnlev new_high_mfn = mfn_frames[i];
404843e1988Sjohnlev
405843e1988Sjohnlev pp = balloon_page_sub();
406843e1988Sjohnlev if (pp == NULL) {
407843e1988Sjohnlev /*
408843e1988Sjohnlev * We pass the index into the current mfn array,
409843e1988Sjohnlev * then move the counter past the mfns we used
410843e1988Sjohnlev */
411843e1988Sjohnlev meta_pg_start = i;
412843e1988Sjohnlev cnt = balloon_init_new_pages(&mfn_frames[i], rv - i);
413843e1988Sjohnlev i += cnt;
414843e1988Sjohnlev meta_pg_end = i;
415843e1988Sjohnlev if (i < rv) {
416843e1988Sjohnlev pp = balloon_page_sub();
417843e1988Sjohnlev } else {
418843e1988Sjohnlev ASSERT(i == rv);
419843e1988Sjohnlev }
420843e1988Sjohnlev }
421843e1988Sjohnlev if (pp == NULL) {
422843e1988Sjohnlev break;
423843e1988Sjohnlev }
424843e1988Sjohnlev
425843e1988Sjohnlev if (new_list_back == NULL) {
426843e1988Sjohnlev new_list_front = new_list_back = pp;
427843e1988Sjohnlev } else {
428843e1988Sjohnlev new_list_back->p_next = pp;
429843e1988Sjohnlev new_list_back = pp;
430843e1988Sjohnlev }
431843e1988Sjohnlev pp->p_next = NULL;
432843e1988Sjohnlev }
433843e1988Sjohnlev cnt = i;
434843e1988Sjohnlev locked = balloon_lock_contig_pfnlist(cnt);
435d2b85481Srscott for (i = 0, pp = new_list_front; i < meta_pg_start;
436843e1988Sjohnlev i++, pp = pp->p_next) {
437843e1988Sjohnlev reassign_pfn(pp->p_pagenum, mfn_frames[i]);
438843e1988Sjohnlev }
439d2b85481Srscott for (i = meta_pg_end; i < cnt; i++, pp = pp->p_next) {
440843e1988Sjohnlev reassign_pfn(pp->p_pagenum, mfn_frames[i]);
441843e1988Sjohnlev }
442843e1988Sjohnlev if (locked)
443843e1988Sjohnlev unlock_contig_pfnlist();
444d2b85481Srscott
445d2b85481Srscott /*
446d2b85481Srscott * Make sure we don't allow pages without pfn->mfn mappings
447d2b85481Srscott * into the system.
448d2b85481Srscott */
449d2b85481Srscott ASSERT(pp == NULL);
450d2b85481Srscott
451843e1988Sjohnlev while (new_list_front != NULL) {
452843e1988Sjohnlev pp = new_list_front;
453843e1988Sjohnlev new_list_front = pp->p_next;
454843e1988Sjohnlev page_free(pp, 1);
455843e1988Sjohnlev }
456843e1988Sjohnlev
457d2b85481Srscott /*
458d2b85481Srscott * Variable review: at this point, rv contains the number of pages
459d2b85481Srscott * the hypervisor gave us. cnt contains the number of pages for which
460d2b85481Srscott * we had page_t structures. i contains the number of pages
461d2b85481Srscott * where we set up pfn <-> mfn mappings. If this ASSERT trips, that
462d2b85481Srscott * means we somehow lost page_t's from our local list.
463d2b85481Srscott */
464d2b85481Srscott ASSERT(cnt == i);
465843e1988Sjohnlev if (cnt < rv) {
466843e1988Sjohnlev /*
467843e1988Sjohnlev * We couldn't get page structures.
468843e1988Sjohnlev *
469843e1988Sjohnlev * This shouldn't happen, but causes no real harm if it does.
470843e1988Sjohnlev * On debug kernels, we'll flag it. On all kernels, we'll
471843e1988Sjohnlev * give back the pages we couldn't assign.
472d2b85481Srscott *
473d2b85481Srscott * Since these pages are new to the system and haven't been
474d2b85481Srscott * used, we don't bother zeroing them.
475843e1988Sjohnlev */
476843e1988Sjohnlev #ifdef DEBUG
477d2b85481Srscott cmn_err(CE_WARN, "Could only assign %d of %ld pages", cnt, rv);
478843e1988Sjohnlev #endif /* DEBUG */
479843e1988Sjohnlev
480d2b85481Srscott (void) balloon_free_pages(rv - cnt, &mfn_frames[i], NULL, NULL);
481843e1988Sjohnlev
482d2b85481Srscott rv = cnt;
483843e1988Sjohnlev }
484843e1988Sjohnlev
485843e1988Sjohnlev xen_allow_migrate();
486d2b85481Srscott page_unresv(rv - (meta_pg_end - meta_pg_start));
487843e1988Sjohnlev return (rv);
488843e1988Sjohnlev }
489843e1988Sjohnlev
490843e1988Sjohnlev /*
491843e1988Sjohnlev * This function is called when we want to decrease the memory reservation
492843e1988Sjohnlev * of our domain. Allocate the memory and make a hypervisor call to give
493843e1988Sjohnlev * it back.
494843e1988Sjohnlev */
495843e1988Sjohnlev static spgcnt_t
balloon_dec_reservation(ulong_t debit)496843e1988Sjohnlev balloon_dec_reservation(ulong_t debit)
497843e1988Sjohnlev {
498843e1988Sjohnlev int i, locked;
499843e1988Sjohnlev long rv;
500d2b85481Srscott ulong_t request;
501843e1988Sjohnlev page_t *pp;
502843e1988Sjohnlev
503843e1988Sjohnlev bzero(mfn_frames, sizeof (mfn_frames));
504843e1988Sjohnlev bzero(pfn_frames, sizeof (pfn_frames));
505843e1988Sjohnlev
506843e1988Sjohnlev if (debit > FRAME_ARRAY_SIZE) {
507843e1988Sjohnlev debit = FRAME_ARRAY_SIZE;
508843e1988Sjohnlev }
509d2b85481Srscott request = debit;
510843e1988Sjohnlev
511843e1988Sjohnlev /*
512843e1988Sjohnlev * Don't bother if there isn't a safe amount of kmem left.
513843e1988Sjohnlev */
514843e1988Sjohnlev if (kmem_avail() < balloon_minkmem) {
515843e1988Sjohnlev kmem_reap();
516843e1988Sjohnlev if (kmem_avail() < balloon_minkmem)
517843e1988Sjohnlev return (0);
518843e1988Sjohnlev }
519843e1988Sjohnlev
520d2b85481Srscott if (page_resv(request, KM_NOSLEEP) == 0) {
521843e1988Sjohnlev return (0);
522843e1988Sjohnlev }
523843e1988Sjohnlev xen_block_migrate();
524843e1988Sjohnlev for (i = 0; i < debit; i++) {
525843e1988Sjohnlev pp = page_get_high_mfn(new_high_mfn);
526843e1988Sjohnlev new_high_mfn = 0;
527843e1988Sjohnlev if (pp == NULL) {
528843e1988Sjohnlev /*
529843e1988Sjohnlev * Call kmem_reap(), then try once more,
530843e1988Sjohnlev * but only if there is a safe amount of
531843e1988Sjohnlev * kmem left.
532843e1988Sjohnlev */
533843e1988Sjohnlev kmem_reap();
534843e1988Sjohnlev if (kmem_avail() < balloon_minkmem ||
535843e1988Sjohnlev (pp = page_get_high_mfn(0)) == NULL) {
536843e1988Sjohnlev debit = i;
537843e1988Sjohnlev break;
538843e1988Sjohnlev }
539843e1988Sjohnlev }
540843e1988Sjohnlev ASSERT(PAGE_EXCL(pp));
541843e1988Sjohnlev ASSERT(!hat_page_is_mapped(pp));
542843e1988Sjohnlev
543843e1988Sjohnlev balloon_page_add(pp);
544843e1988Sjohnlev pfn_frames[i] = pp->p_pagenum;
545843e1988Sjohnlev mfn_frames[i] = pfn_to_mfn(pp->p_pagenum);
546843e1988Sjohnlev }
547843e1988Sjohnlev if (debit == 0) {
548843e1988Sjohnlev xen_allow_migrate();
549d2b85481Srscott page_unresv(request);
550843e1988Sjohnlev return (0);
551843e1988Sjohnlev }
552843e1988Sjohnlev
553843e1988Sjohnlev /*
554d2b85481Srscott * We zero all the pages before we start reassigning them in order to
555d2b85481Srscott * minimize the time spent holding the lock on the contig pfn list.
556d2b85481Srscott */
557d2b85481Srscott if (balloon_zero_memory) {
558d2b85481Srscott for (i = 0; i < debit; i++) {
559d2b85481Srscott pfnzero(pfn_frames[i], 0, PAGESIZE);
560d2b85481Srscott }
561d2b85481Srscott }
562d2b85481Srscott
563d2b85481Srscott /*
564843e1988Sjohnlev * Remove all mappings for the pfns from the system
565843e1988Sjohnlev */
566843e1988Sjohnlev locked = balloon_lock_contig_pfnlist(debit);
567843e1988Sjohnlev for (i = 0; i < debit; i++) {
568843e1988Sjohnlev reassign_pfn(pfn_frames[i], MFN_INVALID);
569843e1988Sjohnlev }
570843e1988Sjohnlev if (locked)
571843e1988Sjohnlev unlock_contig_pfnlist();
572843e1988Sjohnlev
573843e1988Sjohnlev rv = balloon_free_pages(debit, mfn_frames, NULL, NULL);
574843e1988Sjohnlev
575843e1988Sjohnlev if (rv < 0) {
576843e1988Sjohnlev cmn_err(CE_WARN, "Attempt to return pages to the hypervisor "
577843e1988Sjohnlev "failed - up to %lu pages lost (error = %ld)", debit, rv);
578843e1988Sjohnlev rv = 0;
579843e1988Sjohnlev } else if (rv != debit) {
580843e1988Sjohnlev panic("Unexpected return value (%ld) from decrease reservation "
581843e1988Sjohnlev "hypervisor call", rv);
582843e1988Sjohnlev }
583843e1988Sjohnlev
584843e1988Sjohnlev xen_allow_migrate();
585d2b85481Srscott if (debit != request)
586d2b85481Srscott page_unresv(request - debit);
587843e1988Sjohnlev return (rv);
588843e1988Sjohnlev }
589843e1988Sjohnlev
590843e1988Sjohnlev /*
591843e1988Sjohnlev * This function is the callback which is called when the memory/target
592843e1988Sjohnlev * node is changed. When it is fired, we will read a new reservation
593843e1988Sjohnlev * target for our domain and signal the worker thread to make the change.
594843e1988Sjohnlev *
595843e1988Sjohnlev * If the reservation is larger than we can handle, we issue a warning. dom0
596843e1988Sjohnlev * does this automatically every boot, so we skip the first warning on dom0.
597843e1988Sjohnlev */
598843e1988Sjohnlev /*ARGSUSED*/
599843e1988Sjohnlev static void
balloon_handler(struct xenbus_watch * watch,const char ** vec,uint_t len)600843e1988Sjohnlev balloon_handler(struct xenbus_watch *watch, const char **vec, uint_t len)
601843e1988Sjohnlev {
602843e1988Sjohnlev ulong_t new_target_kb;
603843e1988Sjohnlev pgcnt_t new_target_pages;
604843e1988Sjohnlev int rv;
605843e1988Sjohnlev static uchar_t warning_cnt = 0;
606843e1988Sjohnlev
607843e1988Sjohnlev rv = xenbus_scanf(NULL, "memory", "target", "%lu", &new_target_kb);
608843e1988Sjohnlev if (rv != 0) {
609843e1988Sjohnlev return;
610843e1988Sjohnlev }
611843e1988Sjohnlev
612843e1988Sjohnlev /* new_target is in kB - change this to pages */
613843e1988Sjohnlev new_target_pages = kbtop(new_target_kb);
614843e1988Sjohnlev
615843e1988Sjohnlev DTRACE_PROBE1(balloon__new__target, pgcnt_t, new_target_pages);
616843e1988Sjohnlev
617843e1988Sjohnlev /*
618843e1988Sjohnlev * Unfortunately, dom0 may give us a target that is larger than
619843e1988Sjohnlev * our max limit. Re-check the limit, and, if the new target is
620843e1988Sjohnlev * too large, adjust it downwards.
621843e1988Sjohnlev */
622843e1988Sjohnlev mutex_enter(&bln_mutex);
623843e1988Sjohnlev if (new_target_pages > bln_stats.bln_max_pages) {
624843e1988Sjohnlev DTRACE_PROBE2(balloon__target__too__large, pgcnt_t,
625843e1988Sjohnlev new_target_pages, pgcnt_t, bln_stats.bln_max_pages);
626843e1988Sjohnlev if (!DOMAIN_IS_INITDOMAIN(xen_info) || warning_cnt != 0) {
627843e1988Sjohnlev cmn_err(CE_WARN, "New balloon target (0x%lx pages) is "
628843e1988Sjohnlev "larger than original memory size (0x%lx pages). "
629843e1988Sjohnlev "Ballooning beyond original memory size is not "
630843e1988Sjohnlev "allowed.",
631843e1988Sjohnlev new_target_pages, bln_stats.bln_max_pages);
632843e1988Sjohnlev }
633843e1988Sjohnlev warning_cnt = 1;
634843e1988Sjohnlev bln_stats.bln_new_target = bln_stats.bln_max_pages;
635843e1988Sjohnlev } else {
636843e1988Sjohnlev bln_stats.bln_new_target = new_target_pages;
637843e1988Sjohnlev }
638843e1988Sjohnlev
639843e1988Sjohnlev mutex_exit(&bln_mutex);
640843e1988Sjohnlev cv_signal(&bln_cv);
641843e1988Sjohnlev }
642843e1988Sjohnlev
643843e1988Sjohnlev /*
644843e1988Sjohnlev * bln_wait_sec can be used to throttle the hv calls, but by default it's
645843e1988Sjohnlev * turned off. If a balloon attempt fails, the wait time is forced on, and
646843e1988Sjohnlev * then is exponentially increased as further attempts fail.
647843e1988Sjohnlev */
648843e1988Sjohnlev uint_t bln_wait_sec = 0;
649843e1988Sjohnlev uint_t bln_wait_shift = 1;
650843e1988Sjohnlev
651843e1988Sjohnlev /*
652843e1988Sjohnlev * This is the main balloon thread. Wait on the cv. When woken, if our
653843e1988Sjohnlev * reservation has changed, call the appropriate function to adjust the
654843e1988Sjohnlev * reservation.
655843e1988Sjohnlev */
656843e1988Sjohnlev static void
balloon_worker_thread(void)657843e1988Sjohnlev balloon_worker_thread(void)
658843e1988Sjohnlev {
659843e1988Sjohnlev uint_t bln_wait;
660843e1988Sjohnlev callb_cpr_t cprinfo;
661843e1988Sjohnlev spgcnt_t rv;
662843e1988Sjohnlev
663843e1988Sjohnlev bln_wait = bln_wait_sec;
664843e1988Sjohnlev
665843e1988Sjohnlev CALLB_CPR_INIT(&cprinfo, &bln_mutex, callb_generic_cpr, "balloon");
666843e1988Sjohnlev for (;;) {
667843e1988Sjohnlev rv = 0;
668843e1988Sjohnlev
669843e1988Sjohnlev mutex_enter(&bln_mutex);
670843e1988Sjohnlev CALLB_CPR_SAFE_BEGIN(&cprinfo);
671843e1988Sjohnlev if (bln_stats.bln_new_target != bln_stats.bln_current_pages) {
672843e1988Sjohnlev /*
673843e1988Sjohnlev * We weren't able to fully complete the request
674843e1988Sjohnlev * last time through, so try again.
675843e1988Sjohnlev */
676*d3d50737SRafael Vanoni (void) cv_reltimedwait(&bln_cv, &bln_mutex,
677*d3d50737SRafael Vanoni (bln_wait * hz), TR_CLOCK_TICK);
678843e1988Sjohnlev } else {
679843e1988Sjohnlev cv_wait(&bln_cv, &bln_mutex);
680843e1988Sjohnlev }
681843e1988Sjohnlev CALLB_CPR_SAFE_END(&cprinfo, &bln_mutex);
682843e1988Sjohnlev
683843e1988Sjohnlev if (bln_stats.bln_new_target != bln_stats.bln_current_pages) {
684843e1988Sjohnlev if (bln_stats.bln_new_target <
685843e1988Sjohnlev bln_stats.bln_current_pages) {
686843e1988Sjohnlev /* reservation shrunk */
687843e1988Sjohnlev rv = -balloon_dec_reservation(
688843e1988Sjohnlev bln_stats.bln_current_pages -
689843e1988Sjohnlev bln_stats.bln_new_target);
690843e1988Sjohnlev } else if (bln_stats.bln_new_target >
691843e1988Sjohnlev bln_stats.bln_current_pages) {
692843e1988Sjohnlev /* reservation grew */
693843e1988Sjohnlev rv = balloon_inc_reservation(
694843e1988Sjohnlev bln_stats.bln_new_target -
695843e1988Sjohnlev bln_stats.bln_current_pages);
696843e1988Sjohnlev }
697843e1988Sjohnlev }
698843e1988Sjohnlev if (rv == 0) {
699843e1988Sjohnlev if (bln_wait == 0) {
700843e1988Sjohnlev bln_wait = 1;
701843e1988Sjohnlev } else {
702843e1988Sjohnlev bln_wait <<= bln_wait_shift;
703843e1988Sjohnlev }
704843e1988Sjohnlev } else {
705843e1988Sjohnlev bln_stats.bln_current_pages += rv;
706843e1988Sjohnlev bln_wait = bln_wait_sec;
707843e1988Sjohnlev }
708843e1988Sjohnlev if (bln_stats.bln_current_pages < bln_stats.bln_low)
709843e1988Sjohnlev bln_stats.bln_low = bln_stats.bln_current_pages;
710843e1988Sjohnlev else if (bln_stats.bln_current_pages > bln_stats.bln_high)
711843e1988Sjohnlev bln_stats.bln_high = bln_stats.bln_current_pages;
712843e1988Sjohnlev mutex_exit(&bln_mutex);
713843e1988Sjohnlev }
714843e1988Sjohnlev }
715843e1988Sjohnlev
716843e1988Sjohnlev /*
717843e1988Sjohnlev * Called after balloon_init(), which is below. The xenbus thread is up
718843e1988Sjohnlev * and running, so we can register our watch and create the balloon thread.
719843e1988Sjohnlev */
720843e1988Sjohnlev static void
balloon_config_watch(int state)721843e1988Sjohnlev balloon_config_watch(int state)
722843e1988Sjohnlev {
723843e1988Sjohnlev if (state != XENSTORE_UP)
724843e1988Sjohnlev return;
725843e1988Sjohnlev
726843e1988Sjohnlev bln_watch.node = "memory/target";
727843e1988Sjohnlev bln_watch.callback = balloon_handler;
728843e1988Sjohnlev if (register_xenbus_watch(&bln_watch)) {
729843e1988Sjohnlev cmn_err(CE_WARN, "Failed to register balloon watcher; balloon "
730843e1988Sjohnlev "thread will be disabled");
731843e1988Sjohnlev return;
732843e1988Sjohnlev }
733843e1988Sjohnlev
734843e1988Sjohnlev if (bln_thread == NULL)
735843e1988Sjohnlev bln_thread = thread_create(NULL, 0, balloon_worker_thread,
736843e1988Sjohnlev NULL, 0, &p0, TS_RUN, minclsyspri);
737843e1988Sjohnlev }
738843e1988Sjohnlev
739843e1988Sjohnlev /*
740843e1988Sjohnlev * Basic initialization of the balloon thread. Set all of our variables,
741843e1988Sjohnlev * and register a callback for later when we can register a xenbus watch.
742843e1988Sjohnlev */
743843e1988Sjohnlev void
balloon_init(pgcnt_t nr_pages)744843e1988Sjohnlev balloon_init(pgcnt_t nr_pages)
745843e1988Sjohnlev {
746843e1988Sjohnlev domid_t domid = DOMID_SELF;
747843e1988Sjohnlev
748843e1988Sjohnlev bln_stats.bln_current_pages = bln_stats.bln_low = nr_pages;
749843e1988Sjohnlev bln_stats.bln_new_target = bln_stats.bln_high = nr_pages;
750843e1988Sjohnlev bln_stats.bln_max_pages = nr_pages;
751843e1988Sjohnlev cv_init(&bln_cv, NULL, CV_DEFAULT, NULL);
752843e1988Sjohnlev
753843e1988Sjohnlev bln_stats.bln_hard_limit = (spgcnt_t)HYPERVISOR_memory_op(
754843e1988Sjohnlev XENMEM_maximum_reservation, &domid);
755843e1988Sjohnlev
756843e1988Sjohnlev (void) xs_register_xenbus_callback(balloon_config_watch);
757843e1988Sjohnlev }
758843e1988Sjohnlev
759843e1988Sjohnlev /*
760843e1988Sjohnlev * These functions are called from the network drivers when they gain a page
761843e1988Sjohnlev * or give one away. We simply update our count. Note that the counter
762843e1988Sjohnlev * tracks the number of pages we give away, so we need to subtract any
763843e1988Sjohnlev * amount passed to balloon_drv_added.
764843e1988Sjohnlev */
765843e1988Sjohnlev void
balloon_drv_added(int64_t delta)766843e1988Sjohnlev balloon_drv_added(int64_t delta)
767843e1988Sjohnlev {
768843e1988Sjohnlev atomic_add_long((ulong_t *)&bln_stats.bln_hv_pages, -delta);
769843e1988Sjohnlev }
770843e1988Sjohnlev
771843e1988Sjohnlev void
balloon_drv_subtracted(int64_t delta)772843e1988Sjohnlev balloon_drv_subtracted(int64_t delta)
773843e1988Sjohnlev {
774843e1988Sjohnlev atomic_add_long((ulong_t *)&bln_stats.bln_hv_pages, delta);
775843e1988Sjohnlev }
776843e1988Sjohnlev
777843e1988Sjohnlev /*
778843e1988Sjohnlev * balloon_alloc_pages()
779843e1988Sjohnlev * Allocate page_cnt mfns. mfns storage provided by the caller. Returns
780843e1988Sjohnlev * the number of pages allocated, which could be less than page_cnt, or
781843e1988Sjohnlev * a negative number if an error occurred.
782843e1988Sjohnlev */
783843e1988Sjohnlev long
balloon_alloc_pages(uint_t page_cnt,mfn_t * mfns)784843e1988Sjohnlev balloon_alloc_pages(uint_t page_cnt, mfn_t *mfns)
785843e1988Sjohnlev {
786843e1988Sjohnlev xen_memory_reservation_t memres;
787843e1988Sjohnlev long rv;
788843e1988Sjohnlev
789843e1988Sjohnlev bzero(&memres, sizeof (memres));
790843e1988Sjohnlev /*LINTED: constant in conditional context*/
791843e1988Sjohnlev set_xen_guest_handle(memres.extent_start, mfns);
792843e1988Sjohnlev memres.domid = DOMID_SELF;
793843e1988Sjohnlev memres.nr_extents = page_cnt;
794843e1988Sjohnlev
795843e1988Sjohnlev rv = HYPERVISOR_memory_op(XENMEM_increase_reservation, &memres);
796843e1988Sjohnlev if (rv > 0)
797843e1988Sjohnlev atomic_add_long((ulong_t *)&bln_stats.bln_hv_pages, -rv);
798843e1988Sjohnlev return (rv);
799843e1988Sjohnlev }
800843e1988Sjohnlev
801843e1988Sjohnlev /*
802843e1988Sjohnlev * balloon_free_pages()
803843e1988Sjohnlev * free page_cnt pages, using any combination of mfns, pfns, and kva as long
804d2b85481Srscott * as they refer to the same mapping. If an array of mfns is passed in, we
805d2b85481Srscott * assume they were already cleared. Otherwise, we need to zero the pages
806d2b85481Srscott * before giving them back to the hypervisor. kva space is not free'd up in
807d2b85481Srscott * case the caller wants to re-use it.
808843e1988Sjohnlev */
809843e1988Sjohnlev long
balloon_free_pages(uint_t page_cnt,mfn_t * mfns,caddr_t kva,pfn_t * pfns)810843e1988Sjohnlev balloon_free_pages(uint_t page_cnt, mfn_t *mfns, caddr_t kva, pfn_t *pfns)
811843e1988Sjohnlev {
812843e1988Sjohnlev xen_memory_reservation_t memdec;
813843e1988Sjohnlev mfn_t mfn;
814843e1988Sjohnlev pfn_t pfn;
815843e1988Sjohnlev uint_t i;
816843e1988Sjohnlev long e;
817843e1988Sjohnlev
818843e1988Sjohnlev
819843e1988Sjohnlev #if DEBUG
820843e1988Sjohnlev /* make sure kva is page aligned and maps to first pfn */
821843e1988Sjohnlev if (kva != NULL) {
822843e1988Sjohnlev ASSERT(((uintptr_t)kva & PAGEOFFSET) == 0);
823843e1988Sjohnlev if (pfns != NULL) {
824843e1988Sjohnlev ASSERT(hat_getpfnum(kas.a_hat, kva) == pfns[0]);
825843e1988Sjohnlev }
826843e1988Sjohnlev }
827843e1988Sjohnlev #endif
828843e1988Sjohnlev
829843e1988Sjohnlev /* if we have a kva, we can clean all pages with just one bzero */
830843e1988Sjohnlev if ((kva != NULL) && balloon_zero_memory) {
831843e1988Sjohnlev bzero(kva, (page_cnt * PAGESIZE));
832843e1988Sjohnlev }
833843e1988Sjohnlev
834843e1988Sjohnlev /* if we were given a kva and/or a pfn */
835843e1988Sjohnlev if ((kva != NULL) || (pfns != NULL)) {
836843e1988Sjohnlev
837843e1988Sjohnlev /*
838843e1988Sjohnlev * All the current callers only pass 1 page when using kva or
839843e1988Sjohnlev * pfns, and use mfns when passing multiple pages. If that
840843e1988Sjohnlev * assumption is changed, the following code will need some
841843e1988Sjohnlev * work. The following ASSERT() guarantees we're respecting
842843e1988Sjohnlev * the io locking quota.
843843e1988Sjohnlev */
844843e1988Sjohnlev ASSERT(page_cnt < bln_contig_list_quota);
845843e1988Sjohnlev
846843e1988Sjohnlev /* go through all the pages */
847843e1988Sjohnlev for (i = 0; i < page_cnt; i++) {
848843e1988Sjohnlev
849843e1988Sjohnlev /* get the next pfn */
850843e1988Sjohnlev if (pfns == NULL) {
851843e1988Sjohnlev pfn = hat_getpfnum(kas.a_hat,
852843e1988Sjohnlev (kva + (PAGESIZE * i)));
853843e1988Sjohnlev } else {
854843e1988Sjohnlev pfn = pfns[i];
855843e1988Sjohnlev }
856843e1988Sjohnlev
857843e1988Sjohnlev /*
858843e1988Sjohnlev * if we didn't already zero this page, do it now. we
859843e1988Sjohnlev * need to do this *before* we give back the MFN
860843e1988Sjohnlev */
861843e1988Sjohnlev if ((kva == NULL) && (balloon_zero_memory)) {
862d2b85481Srscott pfnzero(pfn, 0, PAGESIZE);
863843e1988Sjohnlev }
864843e1988Sjohnlev
865843e1988Sjohnlev /*
866843e1988Sjohnlev * unmap the pfn. We don't free up the kva vmem space
867843e1988Sjohnlev * so the caller can re-use it. The page must be
868843e1988Sjohnlev * unmapped before it is given back to the hypervisor.
869843e1988Sjohnlev */
870843e1988Sjohnlev if (kva != NULL) {
871843e1988Sjohnlev hat_unload(kas.a_hat, (kva + (PAGESIZE * i)),
872843e1988Sjohnlev PAGESIZE, HAT_UNLOAD_UNMAP);
873843e1988Sjohnlev }
874843e1988Sjohnlev
875843e1988Sjohnlev /* grab the mfn before the pfn is marked as invalid */
876843e1988Sjohnlev mfn = pfn_to_mfn(pfn);
877843e1988Sjohnlev
878843e1988Sjohnlev /* mark the pfn as invalid */
879843e1988Sjohnlev reassign_pfn(pfn, MFN_INVALID);
880843e1988Sjohnlev
881843e1988Sjohnlev /*
882843e1988Sjohnlev * if we weren't given an array of MFNs, we need to
883843e1988Sjohnlev * free them up one at a time. Otherwise, we'll wait
884843e1988Sjohnlev * until later and do it in one hypercall
885843e1988Sjohnlev */
886843e1988Sjohnlev if (mfns == NULL) {
887843e1988Sjohnlev bzero(&memdec, sizeof (memdec));
888843e1988Sjohnlev /*LINTED: constant in conditional context*/
889843e1988Sjohnlev set_xen_guest_handle(memdec.extent_start, &mfn);
890843e1988Sjohnlev memdec.domid = DOMID_SELF;
891843e1988Sjohnlev memdec.nr_extents = 1;
892843e1988Sjohnlev e = HYPERVISOR_memory_op(
893843e1988Sjohnlev XENMEM_decrease_reservation, &memdec);
894843e1988Sjohnlev if (e != 1) {
895843e1988Sjohnlev cmn_err(CE_PANIC, "balloon: unable to "
896843e1988Sjohnlev "give a page back to the "
897843e1988Sjohnlev "hypervisor.\n");
898843e1988Sjohnlev }
899843e1988Sjohnlev }
900843e1988Sjohnlev }
901843e1988Sjohnlev }
902843e1988Sjohnlev
903843e1988Sjohnlev /*
904843e1988Sjohnlev * if we were passed in MFNs, we haven't free'd them up yet. We can
905843e1988Sjohnlev * do it with one call.
906843e1988Sjohnlev */
907843e1988Sjohnlev if (mfns != NULL) {
908843e1988Sjohnlev bzero(&memdec, sizeof (memdec));
909843e1988Sjohnlev /*LINTED: constant in conditional context*/
910843e1988Sjohnlev set_xen_guest_handle(memdec.extent_start, mfns);
911843e1988Sjohnlev memdec.domid = DOMID_SELF;
912843e1988Sjohnlev memdec.nr_extents = page_cnt;
913843e1988Sjohnlev e = HYPERVISOR_memory_op(XENMEM_decrease_reservation, &memdec);
914843e1988Sjohnlev if (e != page_cnt) {
915843e1988Sjohnlev cmn_err(CE_PANIC, "balloon: unable to give pages back "
916843e1988Sjohnlev "to the hypervisor.\n");
917843e1988Sjohnlev }
918843e1988Sjohnlev }
919843e1988Sjohnlev
920843e1988Sjohnlev atomic_add_long((ulong_t *)&bln_stats.bln_hv_pages, page_cnt);
921843e1988Sjohnlev return (page_cnt);
922843e1988Sjohnlev }
923843e1988Sjohnlev
924843e1988Sjohnlev
925843e1988Sjohnlev /*
926843e1988Sjohnlev * balloon_replace_pages()
927843e1988Sjohnlev * Try to replace nextexts blocks of 2^order pages. addr_bits specifies
928843e1988Sjohnlev * how many bits of address the pages must be within (i.e. 16 would mean
929843e1988Sjohnlev * that the pages cannot have an address > 64k). The constrints are on
930843e1988Sjohnlev * what the hypervisor gives us -- we are free to give any pages in
931843e1988Sjohnlev * exchange. The array pp is the pages we are giving away. The caller
932843e1988Sjohnlev * provides storage space for mfns, which hold the new physical pages.
933843e1988Sjohnlev */
934843e1988Sjohnlev long
balloon_replace_pages(uint_t nextents,page_t ** pp,uint_t addr_bits,uint_t order,mfn_t * mfns)935843e1988Sjohnlev balloon_replace_pages(uint_t nextents, page_t **pp, uint_t addr_bits,
936843e1988Sjohnlev uint_t order, mfn_t *mfns)
937843e1988Sjohnlev {
938843e1988Sjohnlev xen_memory_reservation_t memres;
939843e1988Sjohnlev long fallback_cnt;
940843e1988Sjohnlev long cnt;
941843e1988Sjohnlev uint_t i, j, page_cnt, extlen;
942843e1988Sjohnlev long e;
943843e1988Sjohnlev int locked;
944843e1988Sjohnlev
945843e1988Sjohnlev
946843e1988Sjohnlev /*
947843e1988Sjohnlev * we shouldn't be allocating constrained pages on a guest. It doesn't
948843e1988Sjohnlev * make any sense. They won't be constrained after a migration.
949843e1988Sjohnlev */
950843e1988Sjohnlev ASSERT(DOMAIN_IS_INITDOMAIN(xen_info));
951843e1988Sjohnlev
952843e1988Sjohnlev extlen = 1 << order;
953843e1988Sjohnlev page_cnt = nextents * extlen;
954843e1988Sjohnlev /* Give back the current pages to the hypervisor */
955843e1988Sjohnlev for (i = 0; i < page_cnt; i++) {
956843e1988Sjohnlev cnt = balloon_free_pages(1, NULL, NULL, &pp[i]->p_pagenum);
957843e1988Sjohnlev if (cnt != 1) {
958843e1988Sjohnlev cmn_err(CE_PANIC, "balloon: unable to give a page back "
959843e1988Sjohnlev "to the hypervisor.\n");
960843e1988Sjohnlev }
961843e1988Sjohnlev }
962843e1988Sjohnlev
963843e1988Sjohnlev /*
964843e1988Sjohnlev * try to allocate the new pages using addr_bits and order. If we can't
965843e1988Sjohnlev * get all of the pages, try to get the remaining pages with no
966843e1988Sjohnlev * constraints and, if that was successful, return the number of
967843e1988Sjohnlev * constrained pages we did allocate.
968843e1988Sjohnlev */
969843e1988Sjohnlev bzero(&memres, sizeof (memres));
970843e1988Sjohnlev /*LINTED: constant in conditional context*/
971843e1988Sjohnlev set_xen_guest_handle(memres.extent_start, mfns);
972843e1988Sjohnlev memres.domid = DOMID_SELF;
973843e1988Sjohnlev memres.nr_extents = nextents;
974349b53ddSStuart Maybee memres.mem_flags = XENMEMF_address_bits(addr_bits);
975843e1988Sjohnlev memres.extent_order = order;
976843e1988Sjohnlev cnt = HYPERVISOR_memory_op(XENMEM_increase_reservation, &memres);
977843e1988Sjohnlev /* assign the new MFNs to the current PFNs */
978843e1988Sjohnlev locked = balloon_lock_contig_pfnlist(cnt * extlen);
979843e1988Sjohnlev for (i = 0; i < cnt; i++) {
980843e1988Sjohnlev for (j = 0; j < extlen; j++) {
981843e1988Sjohnlev reassign_pfn(pp[i * extlen + j]->p_pagenum,
982843e1988Sjohnlev mfns[i] + j);
983843e1988Sjohnlev }
984843e1988Sjohnlev }
985843e1988Sjohnlev if (locked)
986843e1988Sjohnlev unlock_contig_pfnlist();
987843e1988Sjohnlev if (cnt != nextents) {
988843e1988Sjohnlev if (cnt < 0) {
989843e1988Sjohnlev cnt = 0;
990843e1988Sjohnlev }
991843e1988Sjohnlev
992843e1988Sjohnlev /*
993843e1988Sjohnlev * We couldn't get enough memory to satisfy our requirements.
994843e1988Sjohnlev * The above loop will assign the parts of the request that
995843e1988Sjohnlev * were successful (this part may be 0). We need to fill
996843e1988Sjohnlev * in the rest. The bzero below clears out extent_order and
997843e1988Sjohnlev * address_bits, so we'll take anything from the hypervisor
998843e1988Sjohnlev * to replace the pages we gave away.
999843e1988Sjohnlev */
1000843e1988Sjohnlev fallback_cnt = page_cnt - cnt * extlen;
1001843e1988Sjohnlev bzero(&memres, sizeof (memres));
1002843e1988Sjohnlev /*LINTED: constant in conditional context*/
1003843e1988Sjohnlev set_xen_guest_handle(memres.extent_start, mfns);
1004843e1988Sjohnlev memres.domid = DOMID_SELF;
1005843e1988Sjohnlev memres.nr_extents = fallback_cnt;
1006843e1988Sjohnlev e = HYPERVISOR_memory_op(XENMEM_increase_reservation, &memres);
1007843e1988Sjohnlev if (e != fallback_cnt) {
1008843e1988Sjohnlev cmn_err(CE_PANIC, "balloon: unable to recover from "
1009843e1988Sjohnlev "failed increase_reservation.\n");
1010843e1988Sjohnlev }
1011843e1988Sjohnlev locked = balloon_lock_contig_pfnlist(fallback_cnt);
1012843e1988Sjohnlev for (i = 0; i < fallback_cnt; i++) {
1013843e1988Sjohnlev uint_t offset = page_cnt - fallback_cnt;
1014843e1988Sjohnlev
1015843e1988Sjohnlev /*
1016843e1988Sjohnlev * We already used pp[0...(cnt * extlen)] before,
1017843e1988Sjohnlev * so start at the next entry in the pp array.
1018843e1988Sjohnlev */
1019843e1988Sjohnlev reassign_pfn(pp[i + offset]->p_pagenum, mfns[i]);
1020843e1988Sjohnlev }
1021843e1988Sjohnlev if (locked)
1022843e1988Sjohnlev unlock_contig_pfnlist();
1023843e1988Sjohnlev }
1024843e1988Sjohnlev
1025843e1988Sjohnlev /*
1026843e1988Sjohnlev * balloon_free_pages increments our counter. Decrement it here.
1027843e1988Sjohnlev */
1028843e1988Sjohnlev atomic_add_long((ulong_t *)&bln_stats.bln_hv_pages, -(long)page_cnt);
1029843e1988Sjohnlev
1030843e1988Sjohnlev /*
1031843e1988Sjohnlev * return the number of extents we were able to replace. If we got
1032843e1988Sjohnlev * this far, we know all the pp's are valid.
1033843e1988Sjohnlev */
1034843e1988Sjohnlev return (cnt);
1035843e1988Sjohnlev }
1036843e1988Sjohnlev
1037843e1988Sjohnlev
1038843e1988Sjohnlev /*
1039843e1988Sjohnlev * Called from the driver - return the requested stat.
1040843e1988Sjohnlev */
1041843e1988Sjohnlev size_t
balloon_values(int cmd)1042843e1988Sjohnlev balloon_values(int cmd)
1043843e1988Sjohnlev {
1044843e1988Sjohnlev switch (cmd) {
1045843e1988Sjohnlev case BLN_IOCTL_CURRENT:
1046843e1988Sjohnlev return (ptokb(bln_stats.bln_current_pages));
1047843e1988Sjohnlev case BLN_IOCTL_TARGET:
1048843e1988Sjohnlev return (ptokb(bln_stats.bln_new_target));
1049843e1988Sjohnlev case BLN_IOCTL_LOW:
1050843e1988Sjohnlev return (ptokb(bln_stats.bln_low));
1051843e1988Sjohnlev case BLN_IOCTL_HIGH:
1052843e1988Sjohnlev return (ptokb(bln_stats.bln_high));
1053843e1988Sjohnlev case BLN_IOCTL_LIMIT:
1054843e1988Sjohnlev return (ptokb(bln_stats.bln_hard_limit));
1055843e1988Sjohnlev default:
1056843e1988Sjohnlev panic("Unexpected cmd %d in balloon_values()\n", cmd);
1057843e1988Sjohnlev }
1058843e1988Sjohnlev /*NOTREACHED*/
1059843e1988Sjohnlev }
1060