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|
// SPDX-License-Identifier: GPL-2.0
/*
* VMware Balloon driver.
*
* Copyright (C) 2000-2018, VMware, Inc. All Rights Reserved.
*
* This is VMware physical memory management driver for Linux. The driver
* acts like a "balloon" that can be inflated to reclaim physical pages by
* reserving them in the guest and invalidating them in the monitor,
* freeing up the underlying machine pages so they can be allocated to
* other guests. The balloon can also be deflated to allow the guest to
* use more physical memory. Higher level policies can control the sizes
* of balloons in VMs in order to manage physical memory resources.
*/
//#define DEBUG
#define pr_fmt(fmt) KBUILD_MODNAME ": " fmt
#include <linux/types.h>
#include <linux/kernel.h>
#include <linux/mm.h>
#include <linux/vmalloc.h>
#include <linux/sched.h>
#include <linux/module.h>
#include <linux/workqueue.h>
#include <linux/debugfs.h>
#include <linux/seq_file.h>
#include <linux/vmw_vmci_defs.h>
#include <linux/vmw_vmci_api.h>
#include <asm/hypervisor.h>
MODULE_AUTHOR("VMware, Inc.");
MODULE_DESCRIPTION("VMware Memory Control (Balloon) Driver");
MODULE_VERSION("1.5.0.0-k");
MODULE_ALIAS("dmi:*:svnVMware*:*");
MODULE_ALIAS("vmware_vmmemctl");
MODULE_LICENSE("GPL");
/*
* Use __GFP_HIGHMEM to allow pages from HIGHMEM zone. We don't
* allow wait (__GFP_RECLAIM) for NOSLEEP page allocations. Use
* __GFP_NOWARN, to suppress page allocation failure warnings.
*/
#define VMW_PAGE_ALLOC_NOSLEEP (__GFP_HIGHMEM|__GFP_NOWARN)
/*
* Use GFP_HIGHUSER when executing in a separate kernel thread
* context and allocation can sleep. This is less stressful to
* the guest memory system, since it allows the thread to block
* while memory is reclaimed, and won't take pages from emergency
* low-memory pools.
*/
#define VMW_PAGE_ALLOC_CANSLEEP (GFP_HIGHUSER)
/* Maximum number of refused pages we accumulate during inflation cycle */
#define VMW_BALLOON_MAX_REFUSED 16
/*
* Hypervisor communication port definitions.
*/
#define VMW_BALLOON_HV_PORT 0x5670
#define VMW_BALLOON_HV_MAGIC 0x456c6d6f
#define VMW_BALLOON_GUEST_ID 1 /* Linux */
enum vmwballoon_capabilities {
/*
* Bit 0 is reserved and not associated to any capability.
*/
VMW_BALLOON_BASIC_CMDS = (1 << 1),
VMW_BALLOON_BATCHED_CMDS = (1 << 2),
VMW_BALLOON_BATCHED_2M_CMDS = (1 << 3),
VMW_BALLOON_SIGNALLED_WAKEUP_CMD = (1 << 4),
};
#define VMW_BALLOON_CAPABILITIES (VMW_BALLOON_BASIC_CMDS \
| VMW_BALLOON_BATCHED_CMDS \
| VMW_BALLOON_BATCHED_2M_CMDS \
| VMW_BALLOON_SIGNALLED_WAKEUP_CMD)
#define VMW_BALLOON_2M_SHIFT (9)
#define VMW_BALLOON_NUM_PAGE_SIZES (2)
/*
* Backdoor commands availability:
*
* START, GET_TARGET and GUEST_ID are always available,
*
* VMW_BALLOON_BASIC_CMDS:
* LOCK and UNLOCK commands,
* VMW_BALLOON_BATCHED_CMDS:
* BATCHED_LOCK and BATCHED_UNLOCK commands.
* VMW BALLOON_BATCHED_2M_CMDS:
* BATCHED_2M_LOCK and BATCHED_2M_UNLOCK commands,
* VMW VMW_BALLOON_SIGNALLED_WAKEUP_CMD:
* VMW_BALLOON_CMD_VMCI_DOORBELL_SET command.
*/
#define VMW_BALLOON_CMD_START 0
#define VMW_BALLOON_CMD_GET_TARGET 1
#define VMW_BALLOON_CMD_LOCK 2
#define VMW_BALLOON_CMD_UNLOCK 3
#define VMW_BALLOON_CMD_GUEST_ID 4
#define VMW_BALLOON_CMD_BATCHED_LOCK 6
#define VMW_BALLOON_CMD_BATCHED_UNLOCK 7
#define VMW_BALLOON_CMD_BATCHED_2M_LOCK 8
#define VMW_BALLOON_CMD_BATCHED_2M_UNLOCK 9
#define VMW_BALLOON_CMD_VMCI_DOORBELL_SET 10
#define VMW_BALLOON_CMD_NUM 11
/* error codes */
#define VMW_BALLOON_SUCCESS 0
#define VMW_BALLOON_FAILURE -1
#define VMW_BALLOON_ERROR_CMD_INVALID 1
#define VMW_BALLOON_ERROR_PPN_INVALID 2
#define VMW_BALLOON_ERROR_PPN_LOCKED 3
#define VMW_BALLOON_ERROR_PPN_UNLOCKED 4
#define VMW_BALLOON_ERROR_PPN_PINNED 5
#define VMW_BALLOON_ERROR_PPN_NOTNEEDED 6
#define VMW_BALLOON_ERROR_RESET 7
#define VMW_BALLOON_ERROR_BUSY 8
#define VMW_BALLOON_SUCCESS_WITH_CAPABILITIES (0x03000000)
#define VMW_BALLOON_CMD_WITH_TARGET_MASK \
((1UL << VMW_BALLOON_CMD_GET_TARGET) | \
(1UL << VMW_BALLOON_CMD_LOCK) | \
(1UL << VMW_BALLOON_CMD_UNLOCK) | \
(1UL << VMW_BALLOON_CMD_BATCHED_LOCK) | \
(1UL << VMW_BALLOON_CMD_BATCHED_UNLOCK) | \
(1UL << VMW_BALLOON_CMD_BATCHED_2M_LOCK) | \
(1UL << VMW_BALLOON_CMD_BATCHED_2M_UNLOCK))
static const char * const vmballoon_cmd_names[] = {
[VMW_BALLOON_CMD_START] = "start",
[VMW_BALLOON_CMD_GET_TARGET] = "target",
[VMW_BALLOON_CMD_LOCK] = "lock",
[VMW_BALLOON_CMD_UNLOCK] = "unlock",
[VMW_BALLOON_CMD_GUEST_ID] = "guestType",
[VMW_BALLOON_CMD_BATCHED_LOCK] = "batchLock",
[VMW_BALLOON_CMD_BATCHED_UNLOCK] = "batchUnlock",
[VMW_BALLOON_CMD_BATCHED_2M_LOCK] = "2m-lock",
[VMW_BALLOON_CMD_BATCHED_2M_UNLOCK] = "2m-unlock",
[VMW_BALLOON_CMD_VMCI_DOORBELL_SET] = "doorbellSet"
};
#ifdef CONFIG_DEBUG_FS
struct vmballoon_stats {
unsigned int timer;
unsigned int doorbell;
/* allocation statistics */
unsigned int alloc[VMW_BALLOON_NUM_PAGE_SIZES];
unsigned int alloc_fail[VMW_BALLOON_NUM_PAGE_SIZES];
unsigned int sleep_alloc;
unsigned int sleep_alloc_fail;
unsigned int refused_alloc[VMW_BALLOON_NUM_PAGE_SIZES];
unsigned int refused_free[VMW_BALLOON_NUM_PAGE_SIZES];
unsigned int free[VMW_BALLOON_NUM_PAGE_SIZES];
/* Monitor operations. */
unsigned long ops[VMW_BALLOON_CMD_NUM];
unsigned long ops_fail[VMW_BALLOON_CMD_NUM];
};
#define STATS_INC(stat) (stat)++
#else
#define STATS_INC(stat)
#endif
struct vmballoon;
struct vmballoon_ops {
void (*add_page)(struct vmballoon *b, int idx, struct page *p);
int (*lock)(struct vmballoon *b, unsigned int num_pages,
bool is_2m_pages);
int (*unlock)(struct vmballoon *b, unsigned int num_pages,
bool is_2m_pages);
};
struct vmballoon_page_size {
/* list of reserved physical pages */
struct list_head pages;
/* transient list of non-balloonable pages */
struct list_head refused_pages;
unsigned int n_refused_pages;
};
/**
* struct vmballoon_batch_entry - a batch entry for lock or unlock.
*
* @status: the status of the operation, which is written by the hypervisor.
* @reserved: reserved for future use. Must be set to zero.
* @pfn: the physical frame number of the page to be locked or unlocked.
*/
struct vmballoon_batch_entry {
u64 status : 5;
u64 reserved : PAGE_SHIFT - 5;
u64 pfn : 52;
} __packed;
struct vmballoon {
struct vmballoon_page_size page_sizes[VMW_BALLOON_NUM_PAGE_SIZES];
/* supported page sizes. 1 == 4k pages only, 2 == 4k and 2m pages */
unsigned supported_page_sizes;
/* balloon size in pages */
unsigned int size;
unsigned int target;
/* reset flag */
bool reset_required;
unsigned long capabilities;
/**
* @batch_page: pointer to communication batch page.
*
* When batching is used, batch_page points to a page, which holds up to
* %VMW_BALLOON_BATCH_MAX_PAGES entries for locking or unlocking.
*/
struct vmballoon_batch_entry *batch_page;
unsigned int batch_max_pages;
struct page *page;
const struct vmballoon_ops *ops;
#ifdef CONFIG_DEBUG_FS
/* statistics */
struct vmballoon_stats stats;
/* debugfs file exporting statistics */
struct dentry *dbg_entry;
#endif
struct sysinfo sysinfo;
struct delayed_work dwork;
struct vmci_handle vmci_doorbell;
};
static struct vmballoon balloon;
static inline unsigned long
__vmballoon_cmd(struct vmballoon *b, unsigned long cmd, unsigned long arg1,
unsigned long arg2, unsigned long *result)
{
unsigned long status, dummy1, dummy2, dummy3, local_result;
STATS_INC(b->stats.ops[cmd]);
asm volatile ("inl %%dx" :
"=a"(status),
"=c"(dummy1),
"=d"(dummy2),
"=b"(local_result),
"=S"(dummy3) :
"0"(VMW_BALLOON_HV_MAGIC),
"1"(cmd),
"2"(VMW_BALLOON_HV_PORT),
"3"(arg1),
"4"(arg2) :
"memory");
/* update the result if needed */
if (result)
*result = (cmd == VMW_BALLOON_CMD_START) ? dummy1 :
local_result;
/* update target when applicable */
if (status == VMW_BALLOON_SUCCESS &&
((1ul << cmd) & VMW_BALLOON_CMD_WITH_TARGET_MASK))
b->target = local_result;
if (status != VMW_BALLOON_SUCCESS &&
status != VMW_BALLOON_SUCCESS_WITH_CAPABILITIES) {
STATS_INC(b->stats.ops_fail[cmd]);
pr_debug("%s: %s [0x%lx,0x%lx) failed, returned %ld\n",
__func__, vmballoon_cmd_names[cmd], arg1, arg2,
status);
}
/* mark reset required accordingly */
if (status == VMW_BALLOON_ERROR_RESET)
b->reset_required = true;
return status;
}
static __always_inline unsigned long
vmballoon_cmd(struct vmballoon *b, unsigned long cmd, unsigned long arg1,
unsigned long arg2)
{
unsigned long dummy;
return __vmballoon_cmd(b, cmd, arg1, arg2, &dummy);
}
/*
* Send "start" command to the host, communicating supported version
* of the protocol.
*/
static bool vmballoon_send_start(struct vmballoon *b, unsigned long req_caps)
{
unsigned long status, capabilities;
bool success;
status = __vmballoon_cmd(b, VMW_BALLOON_CMD_START, req_caps, 0,
&capabilities);
switch (status) {
case VMW_BALLOON_SUCCESS_WITH_CAPABILITIES:
b->capabilities = capabilities;
success = true;
break;
case VMW_BALLOON_SUCCESS:
b->capabilities = VMW_BALLOON_BASIC_CMDS;
success = true;
break;
default:
success = false;
}
/*
* 2MB pages are only supported with batching. If batching is for some
* reason disabled, do not use 2MB pages, since otherwise the legacy
* mechanism is used with 2MB pages, causing a failure.
*/
if ((b->capabilities & VMW_BALLOON_BATCHED_2M_CMDS) &&
(b->capabilities & VMW_BALLOON_BATCHED_CMDS))
b->supported_page_sizes = 2;
else
b->supported_page_sizes = 1;
return success;
}
/*
* Communicate guest type to the host so that it can adjust ballooning
* algorithm to the one most appropriate for the guest. This command
* is normally issued after sending "start" command and is part of
* standard reset sequence.
*/
static bool vmballoon_send_guest_id(struct vmballoon *b)
{
unsigned long status;
status = vmballoon_cmd(b, VMW_BALLOON_CMD_GUEST_ID,
VMW_BALLOON_GUEST_ID, 0);
if (status == VMW_BALLOON_SUCCESS)
return true;
return false;
}
static u16 vmballoon_page_size(bool is_2m_page)
{
if (is_2m_page)
return 1 << VMW_BALLOON_2M_SHIFT;
return 1;
}
/*
* Retrieve desired balloon size from the host.
*/
static bool vmballoon_send_get_target(struct vmballoon *b)
{
unsigned long status;
unsigned long limit;
u32 limit32;
/*
* si_meminfo() is cheap. Moreover, we want to provide dynamic
* max balloon size later. So let us call si_meminfo() every
* iteration.
*/
si_meminfo(&b->sysinfo);
limit = b->sysinfo.totalram;
/* Ensure limit fits in 32-bits */
limit32 = (u32)limit;
if (limit != limit32)
return false;
status = vmballoon_cmd(b, VMW_BALLOON_CMD_GET_TARGET, limit, 0);
if (status == VMW_BALLOON_SUCCESS)
return true;
return false;
}
/*
* Notify the host about allocated page so that host can use it without
* fear that guest will need it. Host may reject some pages, we need to
* check the return value and maybe submit a different page.
*/
static int vmballoon_send_lock_page(struct vmballoon *b, unsigned long pfn,
unsigned int *hv_status, bool lock)
{
unsigned long status, cmd;
u32 pfn32;
pfn32 = (u32)pfn;
if (pfn32 != pfn)
return -EINVAL;
cmd = lock ? VMW_BALLOON_CMD_LOCK : VMW_BALLOON_CMD_UNLOCK;
*hv_status = status = vmballoon_cmd(b, cmd, pfn, 0);
if (status == VMW_BALLOON_SUCCESS)
return 0;
return -EIO;
}
static int vmballoon_send_batched_lock(struct vmballoon *b,
unsigned int num_pages, bool is_2m_pages,
bool lock)
{
unsigned long pfn = PHYS_PFN(virt_to_phys(b->batch_page));
unsigned long status, cmd;
if (lock)
cmd = is_2m_pages ? VMW_BALLOON_CMD_BATCHED_2M_LOCK :
VMW_BALLOON_CMD_BATCHED_LOCK;
else
cmd = is_2m_pages ? VMW_BALLOON_CMD_BATCHED_2M_UNLOCK :
VMW_BALLOON_CMD_BATCHED_UNLOCK;
status = vmballoon_cmd(b, cmd, pfn, num_pages);
if (status == VMW_BALLOON_SUCCESS)
return 0;
return 1;
}
static struct page *vmballoon_alloc_page(gfp_t flags, bool is_2m_page)
{
if (is_2m_page)
return alloc_pages(flags, VMW_BALLOON_2M_SHIFT);
return alloc_page(flags);
}
static void vmballoon_free_page(struct page *page, bool is_2m_page)
{
if (is_2m_page)
__free_pages(page, VMW_BALLOON_2M_SHIFT);
else
__free_page(page);
}
/*
* Quickly release all pages allocated for the balloon. This function is
* called when host decides to "reset" balloon for one reason or another.
* Unlike normal "deflate" we do not (shall not) notify host of the pages
* being released.
*/
static void vmballoon_pop(struct vmballoon *b)
{
struct page *page, *next;
unsigned is_2m_pages;
for (is_2m_pages = 0; is_2m_pages < VMW_BALLOON_NUM_PAGE_SIZES;
is_2m_pages++) {
struct vmballoon_page_size *page_size =
&b->page_sizes[is_2m_pages];
u16 size_per_page = vmballoon_page_size(is_2m_pages);
list_for_each_entry_safe(page, next, &page_size->pages, lru) {
list_del(&page->lru);
vmballoon_free_page(page, is_2m_pages);
STATS_INC(b->stats.free[is_2m_pages]);
b->size -= size_per_page;
cond_resched();
}
}
/* Clearing the batch_page unconditionally has no adverse effect */
free_page((unsigned long)b->batch_page);
b->batch_page = NULL;
}
/*
* Notify the host of a ballooned page. If host rejects the page put it on the
* refuse list, those refused page are then released at the end of the
* inflation cycle.
*/
static int vmballoon_lock_page(struct vmballoon *b, unsigned int num_pages,
bool is_2m_pages)
{
int locked, hv_status;
struct page *page = b->page;
struct vmballoon_page_size *page_size = &b->page_sizes[false];
/* is_2m_pages can never happen as 2m pages support implies batching */
locked = vmballoon_send_lock_page(b, page_to_pfn(page), &hv_status,
true);
if (locked) {
STATS_INC(b->stats.refused_alloc[false]);
if (locked == -EIO &&
(hv_status == VMW_BALLOON_ERROR_RESET ||
hv_status == VMW_BALLOON_ERROR_PPN_NOTNEEDED)) {
vmballoon_free_page(page, false);
return -EIO;
}
/*
* Place page on the list of non-balloonable pages
* and retry allocation, unless we already accumulated
* too many of them, in which case take a breather.
*/
if (page_size->n_refused_pages < VMW_BALLOON_MAX_REFUSED) {
page_size->n_refused_pages++;
list_add(&page->lru, &page_size->refused_pages);
} else {
vmballoon_free_page(page, false);
}
return locked;
}
/* track allocated page */
list_add(&page->lru, &page_size->pages);
/* update balloon size */
b->size++;
return 0;
}
static int vmballoon_lock_batched_page(struct vmballoon *b,
unsigned int num_pages, bool is_2m_pages)
{
int locked, i;
u16 size_per_page = vmballoon_page_size(is_2m_pages);
locked = vmballoon_send_batched_lock(b, num_pages, is_2m_pages, true);
if (locked > 0) {
for (i = 0; i < num_pages; i++) {
struct page *p = pfn_to_page(b->batch_page[i].pfn);
vmballoon_free_page(p, is_2m_pages);
}
return -EIO;
}
for (i = 0; i < num_pages; i++) {
struct page *p = pfn_to_page(b->batch_page[i].pfn);
struct vmballoon_page_size *page_size =
&b->page_sizes[is_2m_pages];
locked = b->batch_page[i].status;
switch (locked) {
case VMW_BALLOON_SUCCESS:
list_add(&p->lru, &page_size->pages);
b->size += size_per_page;
break;
case VMW_BALLOON_ERROR_PPN_PINNED:
case VMW_BALLOON_ERROR_PPN_INVALID:
if (page_size->n_refused_pages
< VMW_BALLOON_MAX_REFUSED) {
list_add(&p->lru, &page_size->refused_pages);
page_size->n_refused_pages++;
break;
}
/* Fallthrough */
case VMW_BALLOON_ERROR_RESET:
case VMW_BALLOON_ERROR_PPN_NOTNEEDED:
vmballoon_free_page(p, is_2m_pages);
break;
default:
/* This should never happen */
WARN_ON_ONCE(true);
}
}
return 0;
}
/*
* Release the page allocated for the balloon. Note that we first notify
* the host so it can make sure the page will be available for the guest
* to use, if needed.
*/
static int vmballoon_unlock_page(struct vmballoon *b, unsigned int num_pages,
bool is_2m_pages)
{
struct page *page = b->page;
struct vmballoon_page_size *page_size = &b->page_sizes[false];
unsigned int hv_status;
/* is_2m_pages can never happen as 2m pages support implies batching */
if (!vmballoon_send_lock_page(b, page_to_pfn(page), &hv_status,
false)) {
list_add(&page->lru, &page_size->pages);
return -EIO;
}
/* deallocate page */
vmballoon_free_page(page, false);
STATS_INC(b->stats.free[false]);
/* update balloon size */
b->size--;
return 0;
}
static int vmballoon_unlock_batched_page(struct vmballoon *b,
unsigned int num_pages, bool is_2m_pages)
{
int locked, i, ret = 0;
bool hv_success;
u16 size_per_page = vmballoon_page_size(is_2m_pages);
hv_success = vmballoon_send_batched_lock(b, num_pages, is_2m_pages,
false);
if (!hv_success)
ret = -EIO;
for (i = 0; i < num_pages; i++) {
struct page *p = pfn_to_page(b->batch_page[i].pfn);
struct vmballoon_page_size *page_size =
&b->page_sizes[is_2m_pages];
locked = b->batch_page[i].status;
if (!hv_success || locked != VMW_BALLOON_SUCCESS) {
/*
* That page wasn't successfully unlocked by the
* hypervisor, re-add it to the list of pages owned by
* the balloon driver.
*/
list_add(&p->lru, &page_size->pages);
} else {
/* deallocate page */
vmballoon_free_page(p, is_2m_pages);
STATS_INC(b->stats.free[is_2m_pages]);
/* update balloon size */
b->size -= size_per_page;
}
}
return ret;
}
/*
* Release pages that were allocated while attempting to inflate the
* balloon but were refused by the host for one reason or another.
*/
static void vmballoon_release_refused_pages(struct vmballoon *b,
bool is_2m_pages)
{
struct page *page, *next;
struct vmballoon_page_size *page_size =
&b->page_sizes[is_2m_pages];
list_for_each_entry_safe(page, next, &page_size->refused_pages, lru) {
list_del(&page->lru);
vmballoon_free_page(page, is_2m_pages);
STATS_INC(b->stats.refused_free[is_2m_pages]);
}
page_size->n_refused_pages = 0;
}
static void vmballoon_add_page(struct vmballoon *b, int idx, struct page *p)
{
b->page = p;
}
static void vmballoon_add_batched_page(struct vmballoon *b, int idx,
struct page *p)
{
b->batch_page[idx] = (struct vmballoon_batch_entry)
{ .pfn = page_to_pfn(p) };
}
/*
* Inflate the balloon towards its target size. Note that we try to limit
* the rate of allocation to make sure we are not choking the rest of the
* system.
*/
static void vmballoon_inflate(struct vmballoon *b)
{
unsigned int num_pages = 0;
int error = 0;
gfp_t flags = VMW_PAGE_ALLOC_NOSLEEP;
bool is_2m_pages;
pr_debug("%s - size: %d, target %d\n", __func__, b->size, b->target);
/*
* First try NOSLEEP page allocations to inflate balloon.
*
* If we do not throttle nosleep allocations, we can drain all
* free pages in the guest quickly (if the balloon target is high).
* As a side-effect, draining free pages helps to inform (force)
* the guest to start swapping if balloon target is not met yet,
* which is a desired behavior. However, balloon driver can consume
* all available CPU cycles if too many pages are allocated in a
* second. Therefore, we throttle nosleep allocations even when
* the guest is not under memory pressure. OTOH, if we have already
* predicted that the guest is under memory pressure, then we
* slowdown page allocations considerably.
*/
/*
* Start with no sleep allocation rate which may be higher
* than sleeping allocation rate.
*/
is_2m_pages = b->supported_page_sizes == VMW_BALLOON_NUM_PAGE_SIZES;
pr_debug("%s - goal: %d", __func__, b->target - b->size);
while (!b->reset_required &&
b->size + num_pages * vmballoon_page_size(is_2m_pages)
< b->target) {
struct page *page;
if (flags == VMW_PAGE_ALLOC_NOSLEEP)
STATS_INC(b->stats.alloc[is_2m_pages]);
else
STATS_INC(b->stats.sleep_alloc);
page = vmballoon_alloc_page(flags, is_2m_pages);
if (!page) {
STATS_INC(b->stats.alloc_fail[is_2m_pages]);
if (is_2m_pages) {
b->ops->lock(b, num_pages, true);
/*
* ignore errors from locking as we now switch
* to 4k pages and we might get different
* errors.
*/
num_pages = 0;
is_2m_pages = false;
continue;
}
if (flags == VMW_PAGE_ALLOC_CANSLEEP) {
/*
* CANSLEEP page allocation failed, so guest
* is under severe memory pressure. We just log
* the event, but do not stop the inflation
* due to its negative impact on performance.
*/
STATS_INC(b->stats.sleep_alloc_fail);
break;
}
/*
* NOSLEEP page allocation failed, so the guest is
* under memory pressure. Slowing down page alloctions
* seems to be reasonable, but doing so might actually
* cause the hypervisor to throttle us down, resulting
* in degraded performance. We will count on the
* scheduler and standard memory management mechanisms
* for now.
*/
flags = VMW_PAGE_ALLOC_CANSLEEP;
continue;
}
b->ops->add_page(b, num_pages++, page);
if (num_pages == b->batch_max_pages) {
error = b->ops->lock(b, num_pages, is_2m_pages);
num_pages = 0;
if (error)
break;
}
cond_resched();
}
if (num_pages > 0)
b->ops->lock(b, num_pages, is_2m_pages);
vmballoon_release_refused_pages(b, true);
vmballoon_release_refused_pages(b, false);
}
/*
* Decrease the size of the balloon allowing guest to use more memory.
*/
static void vmballoon_deflate(struct vmballoon *b)
{
unsigned is_2m_pages;
pr_debug("%s - size: %d, target %d\n", __func__, b->size, b->target);
/* free pages to reach target */
for (is_2m_pages = 0; is_2m_pages < b->supported_page_sizes;
is_2m_pages++) {
struct page *page, *next;
unsigned int num_pages = 0;
struct vmballoon_page_size *page_size =
&b->page_sizes[is_2m_pages];
list_for_each_entry_safe(page, next, &page_size->pages, lru) {
if (b->reset_required ||
(b->target > 0 &&
b->size - num_pages
* vmballoon_page_size(is_2m_pages)
< b->target + vmballoon_page_size(true)))
break;
list_del(&page->lru);
b->ops->add_page(b, num_pages++, page);
if (num_pages == b->batch_max_pages) {
int error;
error = b->ops->unlock(b, num_pages,
is_2m_pages);
num_pages = 0;
if (error)
return;
}
cond_resched();
}
if (num_pages > 0)
b->ops->unlock(b, num_pages, is_2m_pages);
}
}
static const struct vmballoon_ops vmballoon_basic_ops = {
.add_page = vmballoon_add_page,
.lock = vmballoon_lock_page,
.unlock = vmballoon_unlock_page
};
static const struct vmballoon_ops vmballoon_batched_ops = {
.add_page = vmballoon_add_batched_page,
.lock = vmballoon_lock_batched_page,
.unlock = vmballoon_unlock_batched_page
};
static bool vmballoon_init_batching(struct vmballoon *b)
{
struct page *page;
page = alloc_page(GFP_KERNEL | __GFP_ZERO);
if (!page)
return false;
b->batch_page = page_address(page);
return true;
}
/*
* Receive notification and resize balloon
*/
static void vmballoon_doorbell(void *client_data)
{
struct vmballoon *b = client_data;
STATS_INC(b->stats.doorbell);
mod_delayed_work(system_freezable_wq, &b->dwork, 0);
}
/*
* Clean up vmci doorbell
*/
static void vmballoon_vmci_cleanup(struct vmballoon *b)
{
vmballoon_cmd(b, VMW_BALLOON_CMD_VMCI_DOORBELL_SET,
VMCI_INVALID_ID, VMCI_INVALID_ID);
if (!vmci_handle_is_invalid(b->vmci_doorbell)) {
vmci_doorbell_destroy(b->vmci_doorbell);
b->vmci_doorbell = VMCI_INVALID_HANDLE;
}
}
/*
* Initialize vmci doorbell, to get notified as soon as balloon changes
*/
static int vmballoon_vmci_init(struct vmballoon *b)
{
unsigned long error;
if ((b->capabilities & VMW_BALLOON_SIGNALLED_WAKEUP_CMD) == 0)
return 0;
error = vmci_doorbell_create(&b->vmci_doorbell, VMCI_FLAG_DELAYED_CB,
VMCI_PRIVILEGE_FLAG_RESTRICTED,
vmballoon_doorbell, b);
if (error != VMCI_SUCCESS)
goto fail;
error = __vmballoon_cmd(b, VMW_BALLOON_CMD_VMCI_DOORBELL_SET,
b->vmci_doorbell.context,
b->vmci_doorbell.resource, NULL);
if (error != VMW_BALLOON_SUCCESS)
goto fail;
return 0;
fail:
vmballoon_vmci_cleanup(b);
return -EIO;
}
/*
* Perform standard reset sequence by popping the balloon (in case it
* is not empty) and then restarting protocol. This operation normally
* happens when host responds with VMW_BALLOON_ERROR_RESET to a command.
*/
static void vmballoon_reset(struct vmballoon *b)
{
int error;
vmballoon_vmci_cleanup(b);
/* free all pages, skipping monitor unlock */
vmballoon_pop(b);
if (!vmballoon_send_start(b, VMW_BALLOON_CAPABILITIES))
return;
if ((b->capabilities & VMW_BALLOON_BATCHED_CMDS) != 0) {
b->ops = &vmballoon_batched_ops;
b->batch_max_pages = PAGE_SIZE / sizeof(struct
vmballoon_batch_entry);
if (!vmballoon_init_batching(b)) {
/*
* We failed to initialize batching, inform the monitor
* about it by sending a null capability.
*
* The guest will retry in one second.
*/
vmballoon_send_start(b, 0);
return;
}
} else if ((b->capabilities & VMW_BALLOON_BASIC_CMDS) != 0) {
b->ops = &vmballoon_basic_ops;
b->batch_max_pages = 1;
}
b->reset_required = false;
error = vmballoon_vmci_init(b);
if (error)
pr_err("failed to initialize vmci doorbell\n");
if (!vmballoon_send_guest_id(b))
pr_err("failed to send guest ID to the host\n");
}
/*
* Balloon work function: reset protocol, if needed, get the new size and
* adjust balloon as needed. Repeat in 1 sec.
*/
static void vmballoon_work(struct work_struct *work)
{
struct delayed_work *dwork = to_delayed_work(work);
struct vmballoon *b = container_of(dwork, struct vmballoon, dwork);
STATS_INC(b->stats.timer);
if (b->reset_required)
vmballoon_reset(b);
if (!b->reset_required && vmballoon_send_get_target(b)) {
unsigned long target = b->target;
/* update target, adjust size */
if (b->size < target)
vmballoon_inflate(b);
else if (target == 0 ||
b->size > target + vmballoon_page_size(true))
vmballoon_deflate(b);
}
/*
* We are using a freezable workqueue so that balloon operations are
* stopped while the system transitions to/from sleep/hibernation.
*/
queue_delayed_work(system_freezable_wq,
dwork, round_jiffies_relative(HZ));
}
/*
* DEBUGFS Interface
*/
#ifdef CONFIG_DEBUG_FS
static int vmballoon_debug_show(struct seq_file *f, void *offset)
{
struct vmballoon *b = f->private;
struct vmballoon_stats *stats = &b->stats;
int i;
/* format capabilities info */
seq_printf(f,
"balloon capabilities: %#4x\n"
"used capabilities: %#4lx\n"
"is resetting: %c\n",
VMW_BALLOON_CAPABILITIES, b->capabilities,
b->reset_required ? 'y' : 'n');
/* format size info */
seq_printf(f,
"target: %8d pages\n"
"current: %8d pages\n",
b->target, b->size);
for (i = 0; i < VMW_BALLOON_CMD_NUM; i++) {
if (vmballoon_cmd_names[i] == NULL)
continue;
seq_printf(f, "%-22s: %16lu (%lu failed)\n",
vmballoon_cmd_names[i], stats->ops[i],
stats->ops_fail[i]);
}
seq_printf(f,
"\n"
"timer: %8u\n"
"doorbell: %8u\n"
"prim2mAlloc: %8u (%4u failed)\n"
"primNoSleepAlloc: %8u (%4u failed)\n"
"primCanSleepAlloc: %8u (%4u failed)\n"
"prim2mFree: %8u\n"
"primFree: %8u\n"
"err2mAlloc: %8u\n"
"errAlloc: %8u\n"
"err2mFree: %8u\n"
"errFree: %8u\n",
stats->timer,
stats->doorbell,
stats->alloc[true], stats->alloc_fail[true],
stats->alloc[false], stats->alloc_fail[false],
stats->sleep_alloc, stats->sleep_alloc_fail,
stats->free[true],
stats->free[false],
stats->refused_alloc[true], stats->refused_alloc[false],
stats->refused_free[true], stats->refused_free[false]);
return 0;
}
static int vmballoon_debug_open(struct inode *inode, struct file *file)
{
return single_open(file, vmballoon_debug_show, inode->i_private);
}
static const struct file_operations vmballoon_debug_fops = {
.owner = THIS_MODULE,
.open = vmballoon_debug_open,
.read = seq_read,
.llseek = seq_lseek,
.release = single_release,
};
static int __init vmballoon_debugfs_init(struct vmballoon *b)
{
int error;
b->dbg_entry = debugfs_create_file("vmmemctl", S_IRUGO, NULL, b,
&vmballoon_debug_fops);
if (IS_ERR(b->dbg_entry)) {
error = PTR_ERR(b->dbg_entry);
pr_err("failed to create debugfs entry, error: %d\n", error);
return error;
}
return 0;
}
static void __exit vmballoon_debugfs_exit(struct vmballoon *b)
{
debugfs_remove(b->dbg_entry);
}
#else
static inline int vmballoon_debugfs_init(struct vmballoon *b)
{
return 0;
}
static inline void vmballoon_debugfs_exit(struct vmballoon *b)
{
}
#endif /* CONFIG_DEBUG_FS */
static int __init vmballoon_init(void)
{
int error;
unsigned is_2m_pages;
/*
* Check if we are running on VMware's hypervisor and bail out
* if we are not.
*/
if (x86_hyper_type != X86_HYPER_VMWARE)
return -ENODEV;
for (is_2m_pages = 0; is_2m_pages < VMW_BALLOON_NUM_PAGE_SIZES;
is_2m_pages++) {
INIT_LIST_HEAD(&balloon.page_sizes[is_2m_pages].pages);
INIT_LIST_HEAD(&balloon.page_sizes[is_2m_pages].refused_pages);
}
INIT_DELAYED_WORK(&balloon.dwork, vmballoon_work);
error = vmballoon_debugfs_init(&balloon);
if (error)
return error;
balloon.vmci_doorbell = VMCI_INVALID_HANDLE;
balloon.batch_page = NULL;
balloon.page = NULL;
balloon.reset_required = true;
queue_delayed_work(system_freezable_wq, &balloon.dwork, 0);
return 0;
}
/*
* Using late_initcall() instead of module_init() allows the balloon to use the
* VMCI doorbell even when the balloon is built into the kernel. Otherwise the
* VMCI is probed only after the balloon is initialized. If the balloon is used
* as a module, late_initcall() is equivalent to module_init().
*/
late_initcall(vmballoon_init);
static void __exit vmballoon_exit(void)
{
vmballoon_vmci_cleanup(&balloon);
cancel_delayed_work_sync(&balloon.dwork);
vmballoon_debugfs_exit(&balloon);
/*
* Deallocate all reserved memory, and reset connection with monitor.
* Reset connection before deallocating memory to avoid potential for
* additional spurious resets from guest touching deallocated pages.
*/
vmballoon_send_start(&balloon, 0);
vmballoon_pop(&balloon);
}
module_exit(vmballoon_exit);
|