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1622 1623 1624 1625 1626 1627 1628 1629 1630 1631 1632 1633 1634 1635 1636 1637 1638 1639 1640 1641 1642 1643 1644 1645 1646 1647 1648 1649 1650 1651 1652 1653 1654 1655 1656 1657 1658 1659 1660 1661 1662 1663 1664 1665 1666 1667 1668 1669 1670 1671 1672 1673 1674 1675 1676 1677 1678 1679 1680 1681 1682 1683 1684 1685 1686 1687 1688 1689 1690 1691 1692 1693 1694 1695 1696 1697 1698 1699 1700 1701 1702 1703 1704 1705 1706 1707 1708 1709 1710 1711 1712 1713 1714 1715 1716 1717 1718 1719 1720 1721 1722 1723 1724 1725 1726 1727 1728 1729 1730 1731 1732 1733 1734 1735 1736 1737 1738 1739 1740 1741 1742 1743 1744 1745 1746 1747 1748 1749 1750 1751 1752 1753 1754 1755 1756 1757 1758 1759 1760 1761 1762 1763 1764 1765 1766 1767 1768 1769 1770 1771 1772 1773 1774 1775 1776 | // SPDX-License-Identifier: GPL-2.0-only /* * Copyright (c) 2012, Microsoft Corporation. * * Author: * K. Y. Srinivasan <kys@microsoft.com> */ #define pr_fmt(fmt) KBUILD_MODNAME ": " fmt #include <linux/kernel.h> #include <linux/jiffies.h> #include <linux/mman.h> #include <linux/delay.h> #include <linux/init.h> #include <linux/module.h> #include <linux/slab.h> #include <linux/kthread.h> #include <linux/completion.h> #include <linux/memory_hotplug.h> #include <linux/memory.h> #include <linux/notifier.h> #include <linux/percpu_counter.h> #include <linux/hyperv.h> #define CREATE_TRACE_POINTS #include "hv_trace_balloon.h" /* * We begin with definitions supporting the Dynamic Memory protocol * with the host. * * Begin protocol definitions. */ /* * Protocol versions. The low word is the minor version, the high word the major * version. * * History: * Initial version 1.0 * Changed to 0.1 on 2009/03/25 * Changes to 0.2 on 2009/05/14 * Changes to 0.3 on 2009/12/03 * Changed to 1.0 on 2011/04/05 */ #define DYNMEM_MAKE_VERSION(Major, Minor) ((__u32)(((Major) << 16) | (Minor))) #define DYNMEM_MAJOR_VERSION(Version) ((__u32)(Version) >> 16) #define DYNMEM_MINOR_VERSION(Version) ((__u32)(Version) & 0xff) enum { DYNMEM_PROTOCOL_VERSION_1 = DYNMEM_MAKE_VERSION(0, 3), DYNMEM_PROTOCOL_VERSION_2 = DYNMEM_MAKE_VERSION(1, 0), DYNMEM_PROTOCOL_VERSION_3 = DYNMEM_MAKE_VERSION(2, 0), DYNMEM_PROTOCOL_VERSION_WIN7 = DYNMEM_PROTOCOL_VERSION_1, DYNMEM_PROTOCOL_VERSION_WIN8 = DYNMEM_PROTOCOL_VERSION_2, DYNMEM_PROTOCOL_VERSION_WIN10 = DYNMEM_PROTOCOL_VERSION_3, DYNMEM_PROTOCOL_VERSION_CURRENT = DYNMEM_PROTOCOL_VERSION_WIN10 }; /* * Message Types */ enum dm_message_type { /* * Version 0.3 */ DM_ERROR = 0, DM_VERSION_REQUEST = 1, DM_VERSION_RESPONSE = 2, DM_CAPABILITIES_REPORT = 3, DM_CAPABILITIES_RESPONSE = 4, DM_STATUS_REPORT = 5, DM_BALLOON_REQUEST = 6, DM_BALLOON_RESPONSE = 7, DM_UNBALLOON_REQUEST = 8, DM_UNBALLOON_RESPONSE = 9, DM_MEM_HOT_ADD_REQUEST = 10, DM_MEM_HOT_ADD_RESPONSE = 11, DM_VERSION_03_MAX = 11, /* * Version 1.0. */ DM_INFO_MESSAGE = 12, DM_VERSION_1_MAX = 12 }; /* * Structures defining the dynamic memory management * protocol. */ union dm_version { struct { __u16 minor_version; __u16 major_version; }; __u32 version; } __packed; union dm_caps { struct { __u64 balloon:1; __u64 hot_add:1; /* * To support guests that may have alignment * limitations on hot-add, the guest can specify * its alignment requirements; a value of n * represents an alignment of 2^n in mega bytes. */ __u64 hot_add_alignment:4; __u64 reservedz:58; } cap_bits; __u64 caps; } __packed; union dm_mem_page_range { struct { /* * The PFN number of the first page in the range. * 40 bits is the architectural limit of a PFN * number for AMD64. */ __u64 start_page:40; /* * The number of pages in the range. */ __u64 page_cnt:24; } finfo; __u64 page_range; } __packed; /* * The header for all dynamic memory messages: * * type: Type of the message. * size: Size of the message in bytes; including the header. * trans_id: The guest is responsible for manufacturing this ID. */ struct dm_header { __u16 type; __u16 size; __u32 trans_id; } __packed; /* * A generic message format for dynamic memory. * Specific message formats are defined later in the file. */ struct dm_message { struct dm_header hdr; __u8 data[]; /* enclosed message */ } __packed; /* * Specific message types supporting the dynamic memory protocol. */ /* * Version negotiation message. Sent from the guest to the host. * The guest is free to try different versions until the host * accepts the version. * * dm_version: The protocol version requested. * is_last_attempt: If TRUE, this is the last version guest will request. * reservedz: Reserved field, set to zero. */ struct dm_version_request { struct dm_header hdr; union dm_version version; __u32 is_last_attempt:1; __u32 reservedz:31; } __packed; /* * Version response message; Host to Guest and indicates * if the host has accepted the version sent by the guest. * * is_accepted: If TRUE, host has accepted the version and the guest * should proceed to the next stage of the protocol. FALSE indicates that * guest should re-try with a different version. * * reservedz: Reserved field, set to zero. */ struct dm_version_response { struct dm_header hdr; __u64 is_accepted:1; __u64 reservedz:63; } __packed; /* * Message reporting capabilities. This is sent from the guest to the * host. */ struct dm_capabilities { struct dm_header hdr; union dm_caps caps; __u64 min_page_cnt; __u64 max_page_number; } __packed; /* * Response to the capabilities message. This is sent from the host to the * guest. This message notifies if the host has accepted the guest's * capabilities. If the host has not accepted, the guest must shutdown * the service. * * is_accepted: Indicates if the host has accepted guest's capabilities. * reservedz: Must be 0. */ struct dm_capabilities_resp_msg { struct dm_header hdr; __u64 is_accepted:1; __u64 reservedz:63; } __packed; /* * This message is used to report memory pressure from the guest. * This message is not part of any transaction and there is no * response to this message. * * num_avail: Available memory in pages. * num_committed: Committed memory in pages. * page_file_size: The accumulated size of all page files * in the system in pages. * zero_free: The nunber of zero and free pages. * page_file_writes: The writes to the page file in pages. * io_diff: An indicator of file cache efficiency or page file activity, * calculated as File Cache Page Fault Count - Page Read Count. * This value is in pages. * * Some of these metrics are Windows specific and fortunately * the algorithm on the host side that computes the guest memory * pressure only uses num_committed value. */ struct dm_status { struct dm_header hdr; __u64 num_avail; __u64 num_committed; __u64 page_file_size; __u64 zero_free; __u32 page_file_writes; __u32 io_diff; } __packed; /* * Message to ask the guest to allocate memory - balloon up message. * This message is sent from the host to the guest. The guest may not be * able to allocate as much memory as requested. * * num_pages: number of pages to allocate. */ struct dm_balloon { struct dm_header hdr; __u32 num_pages; __u32 reservedz; } __packed; /* * Balloon response message; this message is sent from the guest * to the host in response to the balloon message. * * reservedz: Reserved; must be set to zero. * more_pages: If FALSE, this is the last message of the transaction. * if TRUE there will atleast one more message from the guest. * * range_count: The number of ranges in the range array. * * range_array: An array of page ranges returned to the host. * */ struct dm_balloon_response { struct dm_header hdr; __u32 reservedz; __u32 more_pages:1; __u32 range_count:31; union dm_mem_page_range range_array[]; } __packed; /* * Un-balloon message; this message is sent from the host * to the guest to give guest more memory. * * more_pages: If FALSE, this is the last message of the transaction. * if TRUE there will atleast one more message from the guest. * * reservedz: Reserved; must be set to zero. * * range_count: The number of ranges in the range array. * * range_array: An array of page ranges returned to the host. * */ struct dm_unballoon_request { struct dm_header hdr; __u32 more_pages:1; __u32 reservedz:31; __u32 range_count; union dm_mem_page_range range_array[]; } __packed; /* * Un-balloon response message; this message is sent from the guest * to the host in response to an unballoon request. * */ struct dm_unballoon_response { struct dm_header hdr; } __packed; /* * Hot add request message. Message sent from the host to the guest. * * mem_range: Memory range to hot add. * * On Linux we currently don't support this since we cannot hot add * arbitrary granularity of memory. */ struct dm_hot_add { struct dm_header hdr; union dm_mem_page_range range; } __packed; /* * Hot add response message. * This message is sent by the guest to report the status of a hot add request. * If page_count is less than the requested page count, then the host should * assume all further hot add requests will fail, since this indicates that * the guest has hit an upper physical memory barrier. * * Hot adds may also fail due to low resources; in this case, the guest must * not complete this message until the hot add can succeed, and the host must * not send a new hot add request until the response is sent. * If VSC fails to hot add memory DYNMEM_NUMBER_OF_UNSUCCESSFUL_HOTADD_ATTEMPTS * times it fails the request. * * * page_count: number of pages that were successfully hot added. * * result: result of the operation 1: success, 0: failure. * */ struct dm_hot_add_response { struct dm_header hdr; __u32 page_count; __u32 result; } __packed; /* * Types of information sent from host to the guest. */ enum dm_info_type { INFO_TYPE_MAX_PAGE_CNT = 0, MAX_INFO_TYPE }; /* * Header for the information message. */ struct dm_info_header { enum dm_info_type type; __u32 data_size; } __packed; /* * This message is sent from the host to the guest to pass * some relevant information (win8 addition). * * reserved: no used. * info_size: size of the information blob. * info: information blob. */ struct dm_info_msg { struct dm_header hdr; __u32 reserved; __u32 info_size; __u8 info[]; }; /* * End protocol definitions. */ /* * State to manage hot adding memory into the guest. * The range start_pfn : end_pfn specifies the range * that the host has asked us to hot add. The range * start_pfn : ha_end_pfn specifies the range that we have * currently hot added. We hot add in multiples of 128M * chunks; it is possible that we may not be able to bring * online all the pages in the region. The range * covered_start_pfn:covered_end_pfn defines the pages that can * be brough online. */ struct hv_hotadd_state { struct list_head list; unsigned long start_pfn; unsigned long covered_start_pfn; unsigned long covered_end_pfn; unsigned long ha_end_pfn; unsigned long end_pfn; /* * A list of gaps. */ struct list_head gap_list; }; struct hv_hotadd_gap { struct list_head list; unsigned long start_pfn; unsigned long end_pfn; }; struct balloon_state { __u32 num_pages; struct work_struct wrk; }; struct hot_add_wrk { union dm_mem_page_range ha_page_range; union dm_mem_page_range ha_region_range; struct work_struct wrk; }; static bool hot_add = true; static bool do_hot_add; /* * Delay reporting memory pressure by * the specified number of seconds. */ static uint pressure_report_delay = 45; /* * The last time we posted a pressure report to host. */ static unsigned long last_post_time; module_param(hot_add, bool, (S_IRUGO | S_IWUSR)); MODULE_PARM_DESC(hot_add, "If set attempt memory hot_add"); module_param(pressure_report_delay, uint, (S_IRUGO | S_IWUSR)); MODULE_PARM_DESC(pressure_report_delay, "Delay in secs in reporting pressure"); static atomic_t trans_id = ATOMIC_INIT(0); static int dm_ring_size = (5 * PAGE_SIZE); /* * Driver specific state. */ enum hv_dm_state { DM_INITIALIZING = 0, DM_INITIALIZED, DM_BALLOON_UP, DM_BALLOON_DOWN, DM_HOT_ADD, DM_INIT_ERROR }; static __u8 recv_buffer[PAGE_SIZE]; static __u8 balloon_up_send_buffer[PAGE_SIZE]; #define PAGES_IN_2M 512 #define HA_CHUNK (32 * 1024) struct hv_dynmem_device { struct hv_device *dev; enum hv_dm_state state; struct completion host_event; struct completion config_event; /* * Number of pages we have currently ballooned out. */ unsigned int num_pages_ballooned; unsigned int num_pages_onlined; unsigned int num_pages_added; /* * State to manage the ballooning (up) operation. */ struct balloon_state balloon_wrk; /* * State to execute the "hot-add" operation. */ struct hot_add_wrk ha_wrk; /* * This state tracks if the host has specified a hot-add * region. */ bool host_specified_ha_region; /* * State to synchronize hot-add. */ struct completion ol_waitevent; bool ha_waiting; /* * This thread handles hot-add * requests from the host as well as notifying * the host with regards to memory pressure in * the guest. */ struct task_struct *thread; /* * Protects ha_region_list, num_pages_onlined counter and individual * regions from ha_region_list. */ spinlock_t ha_lock; /* * A list of hot-add regions. */ struct list_head ha_region_list; /* * We start with the highest version we can support * and downgrade based on the host; we save here the * next version to try. */ __u32 next_version; /* * The negotiated version agreed by host. */ __u32 version; }; static struct hv_dynmem_device dm_device; static void post_status(struct hv_dynmem_device *dm); #ifdef CONFIG_MEMORY_HOTPLUG static inline bool has_pfn_is_backed(struct hv_hotadd_state *has, unsigned long pfn) { struct hv_hotadd_gap *gap; /* The page is not backed. */ if ((pfn < has->covered_start_pfn) || (pfn >= has->covered_end_pfn)) return false; /* Check for gaps. */ list_for_each_entry(gap, &has->gap_list, list) { if ((pfn >= gap->start_pfn) && (pfn < gap->end_pfn)) return false; } return true; } static unsigned long hv_page_offline_check(unsigned long start_pfn, unsigned long nr_pages) { unsigned long pfn = start_pfn, count = 0; struct hv_hotadd_state *has; bool found; while (pfn < start_pfn + nr_pages) { /* * Search for HAS which covers the pfn and when we find one * count how many consequitive PFNs are covered. */ found = false; list_for_each_entry(has, &dm_device.ha_region_list, list) { while ((pfn >= has->start_pfn) && (pfn < has->end_pfn) && (pfn < start_pfn + nr_pages)) { found = true; if (has_pfn_is_backed(has, pfn)) count++; pfn++; } } /* * This PFN is not in any HAS (e.g. we're offlining a region * which was present at boot), no need to account for it. Go * to the next one. */ if (!found) pfn++; } return count; } static int hv_memory_notifier(struct notifier_block *nb, unsigned long val, void *v) { struct memory_notify *mem = (struct memory_notify *)v; unsigned long flags, pfn_count; switch (val) { case MEM_ONLINE: case MEM_CANCEL_ONLINE: if (dm_device.ha_waiting) { dm_device.ha_waiting = false; complete(&dm_device.ol_waitevent); } break; case MEM_OFFLINE: spin_lock_irqsave(&dm_device.ha_lock, flags); pfn_count = hv_page_offline_check(mem->start_pfn, mem->nr_pages); if (pfn_count <= dm_device.num_pages_onlined) { dm_device.num_pages_onlined -= pfn_count; } else { /* * We're offlining more pages than we managed to online. * This is unexpected. In any case don't let * num_pages_onlined wrap around zero. */ WARN_ON_ONCE(1); dm_device.num_pages_onlined = 0; } spin_unlock_irqrestore(&dm_device.ha_lock, flags); break; case MEM_GOING_ONLINE: case MEM_GOING_OFFLINE: case MEM_CANCEL_OFFLINE: break; } return NOTIFY_OK; } static struct notifier_block hv_memory_nb = { .notifier_call = hv_memory_notifier, .priority = 0 }; /* Check if the particular page is backed and can be onlined and online it. */ static void hv_page_online_one(struct hv_hotadd_state *has, struct page *pg) { if (!has_pfn_is_backed(has, page_to_pfn(pg))) { if (!PageOffline(pg)) __SetPageOffline(pg); return; } if (PageOffline(pg)) __ClearPageOffline(pg); /* This frame is currently backed; online the page. */ __online_page_set_limits(pg); __online_page_increment_counters(pg); __online_page_free(pg); lockdep_assert_held(&dm_device.ha_lock); dm_device.num_pages_onlined++; } static void hv_bring_pgs_online(struct hv_hotadd_state *has, unsigned long start_pfn, unsigned long size) { int i; pr_debug("Online %lu pages starting at pfn 0x%lx\n", size, start_pfn); for (i = 0; i < size; i++) hv_page_online_one(has, pfn_to_page(start_pfn + i)); } static void hv_mem_hot_add(unsigned long start, unsigned long size, unsigned long pfn_count, struct hv_hotadd_state *has) { int ret = 0; int i, nid; unsigned long start_pfn; unsigned long processed_pfn; unsigned long total_pfn = pfn_count; unsigned long flags; for (i = 0; i < (size/HA_CHUNK); i++) { start_pfn = start + (i * HA_CHUNK); spin_lock_irqsave(&dm_device.ha_lock, flags); has->ha_end_pfn += HA_CHUNK; if (total_pfn > HA_CHUNK) { processed_pfn = HA_CHUNK; total_pfn -= HA_CHUNK; } else { processed_pfn = total_pfn; total_pfn = 0; } has->covered_end_pfn += processed_pfn; spin_unlock_irqrestore(&dm_device.ha_lock, flags); init_completion(&dm_device.ol_waitevent); dm_device.ha_waiting = !memhp_auto_online; nid = memory_add_physaddr_to_nid(PFN_PHYS(start_pfn)); ret = add_memory(nid, PFN_PHYS((start_pfn)), (HA_CHUNK << PAGE_SHIFT)); if (ret) { pr_err("hot_add memory failed error is %d\n", ret); if (ret == -EEXIST) { /* * This error indicates that the error * is not a transient failure. This is the * case where the guest's physical address map * precludes hot adding memory. Stop all further * memory hot-add. */ do_hot_add = false; } spin_lock_irqsave(&dm_device.ha_lock, flags); has->ha_end_pfn -= HA_CHUNK; has->covered_end_pfn -= processed_pfn; spin_unlock_irqrestore(&dm_device.ha_lock, flags); break; } /* * Wait for the memory block to be onlined when memory onlining * is done outside of kernel (memhp_auto_online). Since the hot * add has succeeded, it is ok to proceed even if the pages in * the hot added region have not been "onlined" within the * allowed time. */ if (dm_device.ha_waiting) wait_for_completion_timeout(&dm_device.ol_waitevent, 5*HZ); post_status(&dm_device); } } static void hv_online_page(struct page *pg, unsigned int order) { struct hv_hotadd_state *has; unsigned long flags; unsigned long pfn = page_to_pfn(pg); spin_lock_irqsave(&dm_device.ha_lock, flags); list_for_each_entry(has, &dm_device.ha_region_list, list) { /* The page belongs to a different HAS. */ if ((pfn < has->start_pfn) || (pfn + (1UL << order) > has->end_pfn)) continue; hv_bring_pgs_online(has, pfn, 1UL << order); break; } spin_unlock_irqrestore(&dm_device.ha_lock, flags); } static int pfn_covered(unsigned long start_pfn, unsigned long pfn_cnt) { struct hv_hotadd_state *has; struct hv_hotadd_gap *gap; unsigned long residual, new_inc; int ret = 0; unsigned long flags; spin_lock_irqsave(&dm_device.ha_lock, flags); list_for_each_entry(has, &dm_device.ha_region_list, list) { /* * If the pfn range we are dealing with is not in the current * "hot add block", move on. */ if (start_pfn < has->start_pfn || start_pfn >= has->end_pfn) continue; /* * If the current start pfn is not where the covered_end * is, create a gap and update covered_end_pfn. */ if (has->covered_end_pfn != start_pfn) { gap = kzalloc(sizeof(struct hv_hotadd_gap), GFP_ATOMIC); if (!gap) { ret = -ENOMEM; break; } INIT_LIST_HEAD(&gap->list); gap->start_pfn = has->covered_end_pfn; gap->end_pfn = start_pfn; list_add_tail(&gap->list, &has->gap_list); has->covered_end_pfn = start_pfn; } /* * If the current hot add-request extends beyond * our current limit; extend it. */ if ((start_pfn + pfn_cnt) > has->end_pfn) { residual = (start_pfn + pfn_cnt - has->end_pfn); /* * Extend the region by multiples of HA_CHUNK. */ new_inc = (residual / HA_CHUNK) * HA_CHUNK; if (residual % HA_CHUNK) new_inc += HA_CHUNK; has->end_pfn += new_inc; } ret = 1; break; } spin_unlock_irqrestore(&dm_device.ha_lock, flags); return ret; } static unsigned long handle_pg_range(unsigned long pg_start, unsigned long pg_count) { unsigned long start_pfn = pg_start; unsigned long pfn_cnt = pg_count; unsigned long size; struct hv_hotadd_state *has; unsigned long pgs_ol = 0; unsigned long old_covered_state; unsigned long res = 0, flags; pr_debug("Hot adding %lu pages starting at pfn 0x%lx.\n", pg_count, pg_start); spin_lock_irqsave(&dm_device.ha_lock, flags); list_for_each_entry(has, &dm_device.ha_region_list, list) { /* * If the pfn range we are dealing with is not in the current * "hot add block", move on. */ if (start_pfn < has->start_pfn || start_pfn >= has->end_pfn) continue; old_covered_state = has->covered_end_pfn; if (start_pfn < has->ha_end_pfn) { /* * This is the case where we are backing pages * in an already hot added region. Bring * these pages online first. */ pgs_ol = has->ha_end_pfn - start_pfn; if (pgs_ol > pfn_cnt) pgs_ol = pfn_cnt; has->covered_end_pfn += pgs_ol; pfn_cnt -= pgs_ol; /* * Check if the corresponding memory block is already * online. It is possible to observe struct pages still * being uninitialized here so check section instead. * In case the section is online we need to bring the * rest of pfns (which were not backed previously) * online too. */ if (start_pfn > has->start_pfn && online_section_nr(pfn_to_section_nr(start_pfn))) hv_bring_pgs_online(has, start_pfn, pgs_ol); } if ((has->ha_end_pfn < has->end_pfn) && (pfn_cnt > 0)) { /* * We have some residual hot add range * that needs to be hot added; hot add * it now. Hot add a multiple of * of HA_CHUNK that fully covers the pages * we have. */ size = (has->end_pfn - has->ha_end_pfn); if (pfn_cnt <= size) { size = ((pfn_cnt / HA_CHUNK) * HA_CHUNK); if (pfn_cnt % HA_CHUNK) size += HA_CHUNK; } else { pfn_cnt = size; } spin_unlock_irqrestore(&dm_device.ha_lock, flags); hv_mem_hot_add(has->ha_end_pfn, size, pfn_cnt, has); spin_lock_irqsave(&dm_device.ha_lock, flags); } /* * If we managed to online any pages that were given to us, * we declare success. */ res = has->covered_end_pfn - old_covered_state; break; } spin_unlock_irqrestore(&dm_device.ha_lock, flags); return res; } static unsigned long process_hot_add(unsigned long pg_start, unsigned long pfn_cnt, unsigned long rg_start, unsigned long rg_size) { struct hv_hotadd_state *ha_region = NULL; int covered; unsigned long flags; if (pfn_cnt == 0) return 0; if (!dm_device.host_specified_ha_region) { covered = pfn_covered(pg_start, pfn_cnt); if (covered < 0) return 0; if (covered) goto do_pg_range; } /* * If the host has specified a hot-add range; deal with it first. */ if (rg_size != 0) { ha_region = kzalloc(sizeof(struct hv_hotadd_state), GFP_KERNEL); if (!ha_region) return 0; INIT_LIST_HEAD(&ha_region->list); INIT_LIST_HEAD(&ha_region->gap_list); ha_region->start_pfn = rg_start; ha_region->ha_end_pfn = rg_start; ha_region->covered_start_pfn = pg_start; ha_region->covered_end_pfn = pg_start; ha_region->end_pfn = rg_start + rg_size; spin_lock_irqsave(&dm_device.ha_lock, flags); list_add_tail(&ha_region->list, &dm_device.ha_region_list); spin_unlock_irqrestore(&dm_device.ha_lock, flags); } do_pg_range: /* * Process the page range specified; bringing them * online if possible. */ return handle_pg_range(pg_start, pfn_cnt); } #endif static void hot_add_req(struct work_struct *dummy) { struct dm_hot_add_response resp; #ifdef CONFIG_MEMORY_HOTPLUG unsigned long pg_start, pfn_cnt; unsigned long rg_start, rg_sz; #endif struct hv_dynmem_device *dm = &dm_device; memset(&resp, 0, sizeof(struct dm_hot_add_response)); resp.hdr.type = DM_MEM_HOT_ADD_RESPONSE; resp.hdr.size = sizeof(struct dm_hot_add_response); #ifdef CONFIG_MEMORY_HOTPLUG pg_start = dm->ha_wrk.ha_page_range.finfo.start_page; pfn_cnt = dm->ha_wrk.ha_page_range.finfo.page_cnt; rg_start = dm->ha_wrk.ha_region_range.finfo.start_page; rg_sz = dm->ha_wrk.ha_region_range.finfo.page_cnt; if ((rg_start == 0) && (!dm->host_specified_ha_region)) { unsigned long region_size; unsigned long region_start; /* * The host has not specified the hot-add region. * Based on the hot-add page range being specified, * compute a hot-add region that can cover the pages * that need to be hot-added while ensuring the alignment * and size requirements of Linux as it relates to hot-add. */ region_start = pg_start; region_size = (pfn_cnt / HA_CHUNK) * HA_CHUNK; if (pfn_cnt % HA_CHUNK) region_size += HA_CHUNK; region_start = (pg_start / HA_CHUNK) * HA_CHUNK; rg_start = region_start; rg_sz = region_size; } if (do_hot_add) resp.page_count = process_hot_add(pg_start, pfn_cnt, rg_start, rg_sz); dm->num_pages_added += resp.page_count; #endif /* * The result field of the response structure has the * following semantics: * * 1. If all or some pages hot-added: Guest should return success. * * 2. If no pages could be hot-added: * * If the guest returns success, then the host * will not attempt any further hot-add operations. This * signifies a permanent failure. * * If the guest returns failure, then this failure will be * treated as a transient failure and the host may retry the * hot-add operation after some delay. */ if (resp.page_count > 0) resp.result = 1; else if (!do_hot_add) resp.result = 1; else resp.result = 0; if (!do_hot_add || (resp.page_count == 0)) pr_err("Memory hot add failed\n"); dm->state = DM_INITIALIZED; resp.hdr.trans_id = atomic_inc_return(&trans_id); vmbus_sendpacket(dm->dev->channel, &resp, sizeof(struct dm_hot_add_response), (unsigned long)NULL, VM_PKT_DATA_INBAND, 0); } static void process_info(struct hv_dynmem_device *dm, struct dm_info_msg *msg) { struct dm_info_header *info_hdr; info_hdr = (struct dm_info_header *)msg->info; switch (info_hdr->type) { case INFO_TYPE_MAX_PAGE_CNT: if (info_hdr->data_size == sizeof(__u64)) { __u64 *max_page_count = (__u64 *)&info_hdr[1]; pr_info("Max. dynamic memory size: %llu MB\n", (*max_page_count) >> (20 - PAGE_SHIFT)); } break; default: pr_warn("Received Unknown type: %d\n", info_hdr->type); } } static unsigned long compute_balloon_floor(void) { unsigned long min_pages; unsigned long nr_pages = totalram_pages(); #define MB2PAGES(mb) ((mb) << (20 - PAGE_SHIFT)) /* Simple continuous piecewiese linear function: * max MiB -> min MiB gradient * 0 0 * 16 16 * 32 24 * 128 72 (1/2) * 512 168 (1/4) * 2048 360 (1/8) * 8192 744 (1/16) * 32768 1512 (1/32) */ if (nr_pages < MB2PAGES(128)) min_pages = MB2PAGES(8) + (nr_pages >> 1); else if (nr_pages < MB2PAGES(512)) min_pages = MB2PAGES(40) + (nr_pages >> 2); else if (nr_pages < MB2PAGES(2048)) min_pages = MB2PAGES(104) + (nr_pages >> 3); else if (nr_pages < MB2PAGES(8192)) min_pages = MB2PAGES(232) + (nr_pages >> 4); else min_pages = MB2PAGES(488) + (nr_pages >> 5); #undef MB2PAGES return min_pages; } /* * Post our status as it relates memory pressure to the * host. Host expects the guests to post this status * periodically at 1 second intervals. * * The metrics specified in this protocol are very Windows * specific and so we cook up numbers here to convey our memory * pressure. */ static void post_status(struct hv_dynmem_device *dm) { struct dm_status status; unsigned long now = jiffies; unsigned long last_post = last_post_time; if (pressure_report_delay > 0) { --pressure_report_delay; return; } if (!time_after(now, (last_post_time + HZ))) return; memset(&status, 0, sizeof(struct dm_status)); status.hdr.type = DM_STATUS_REPORT; status.hdr.size = sizeof(struct dm_status); status.hdr.trans_id = atomic_inc_return(&trans_id); /* * The host expects the guest to report free and committed memory. * Furthermore, the host expects the pressure information to include * the ballooned out pages. For a given amount of memory that we are * managing we need to compute a floor below which we should not * balloon. Compute this and add it to the pressure report. * We also need to report all offline pages (num_pages_added - * num_pages_onlined) as committed to the host, otherwise it can try * asking us to balloon them out. */ status.num_avail = si_mem_available(); status.num_committed = vm_memory_committed() + dm->num_pages_ballooned + (dm->num_pages_added > dm->num_pages_onlined ? dm->num_pages_added - dm->num_pages_onlined : 0) + compute_balloon_floor(); trace_balloon_status(status.num_avail, status.num_committed, vm_memory_committed(), dm->num_pages_ballooned, dm->num_pages_added, dm->num_pages_onlined); /* * If our transaction ID is no longer current, just don't * send the status. This can happen if we were interrupted * after we picked our transaction ID. */ if (status.hdr.trans_id != atomic_read(&trans_id)) return; /* * If the last post time that we sampled has changed, * we have raced, don't post the status. */ if (last_post != last_post_time) return; last_post_time = jiffies; vmbus_sendpacket(dm->dev->channel, &status, sizeof(struct dm_status), (unsigned long)NULL, VM_PKT_DATA_INBAND, 0); } static void free_balloon_pages(struct hv_dynmem_device *dm, union dm_mem_page_range *range_array) { int num_pages = range_array->finfo.page_cnt; __u64 start_frame = range_array->finfo.start_page; struct page *pg; int i; for (i = 0; i < num_pages; i++) { pg = pfn_to_page(i + start_frame); __ClearPageOffline(pg); __free_page(pg); dm->num_pages_ballooned--; } } static unsigned int alloc_balloon_pages(struct hv_dynmem_device *dm, unsigned int num_pages, struct dm_balloon_response *bl_resp, int alloc_unit) { unsigned int i, j; struct page *pg; for (i = 0; i < num_pages / alloc_unit; i++) { if (bl_resp->hdr.size + sizeof(union dm_mem_page_range) > PAGE_SIZE) return i * alloc_unit; /* * We execute this code in a thread context. Furthermore, * we don't want the kernel to try too hard. */ pg = alloc_pages(GFP_HIGHUSER | __GFP_NORETRY | __GFP_NOMEMALLOC | __GFP_NOWARN, get_order(alloc_unit << PAGE_SHIFT)); if (!pg) return i * alloc_unit; dm->num_pages_ballooned += alloc_unit; /* * If we allocatted 2M pages; split them so we * can free them in any order we get. */ if (alloc_unit != 1) split_page(pg, get_order(alloc_unit << PAGE_SHIFT)); /* mark all pages offline */ for (j = 0; j < (1 << get_order(alloc_unit << PAGE_SHIFT)); j++) __SetPageOffline(pg + j); bl_resp->range_count++; bl_resp->range_array[i].finfo.start_page = page_to_pfn(pg); bl_resp->range_array[i].finfo.page_cnt = alloc_unit; bl_resp->hdr.size += sizeof(union dm_mem_page_range); } return i * alloc_unit; } static void balloon_up(struct work_struct *dummy) { unsigned int num_pages = dm_device.balloon_wrk.num_pages; unsigned int num_ballooned = 0; struct dm_balloon_response *bl_resp; int alloc_unit; int ret; bool done = false; int i; long avail_pages; unsigned long floor; /* * We will attempt 2M allocations. However, if we fail to * allocate 2M chunks, we will go back to 4k allocations. */ alloc_unit = 512; avail_pages = si_mem_available(); floor = compute_balloon_floor(); /* Refuse to balloon below the floor. */ if (avail_pages < num_pages || avail_pages - num_pages < floor) { pr_warn("Balloon request will be partially fulfilled. %s\n", avail_pages < num_pages ? "Not enough memory." : "Balloon floor reached."); num_pages = avail_pages > floor ? (avail_pages - floor) : 0; } while (!done) { memset(balloon_up_send_buffer, 0, PAGE_SIZE); bl_resp = (struct dm_balloon_response *)balloon_up_send_buffer; bl_resp->hdr.type = DM_BALLOON_RESPONSE; bl_resp->hdr.size = sizeof(struct dm_balloon_response); bl_resp->more_pages = 1; num_pages -= num_ballooned; num_ballooned = alloc_balloon_pages(&dm_device, num_pages, bl_resp, alloc_unit); if (alloc_unit != 1 && num_ballooned == 0) { alloc_unit = 1; continue; } if (num_ballooned == 0 || num_ballooned == num_pages) { pr_debug("Ballooned %u out of %u requested pages.\n", num_pages, dm_device.balloon_wrk.num_pages); bl_resp->more_pages = 0; done = true; dm_device.state = DM_INITIALIZED; } /* * We are pushing a lot of data through the channel; * deal with transient failures caused because of the * lack of space in the ring buffer. */ do { bl_resp->hdr.trans_id = atomic_inc_return(&trans_id); ret = vmbus_sendpacket(dm_device.dev->channel, bl_resp, bl_resp->hdr.size, (unsigned long)NULL, VM_PKT_DATA_INBAND, 0); if (ret == -EAGAIN) msleep(20); post_status(&dm_device); } while (ret == -EAGAIN); if (ret) { /* * Free up the memory we allocatted. */ pr_err("Balloon response failed\n"); for (i = 0; i < bl_resp->range_count; i++) free_balloon_pages(&dm_device, &bl_resp->range_array[i]); done = true; } } } static void balloon_down(struct hv_dynmem_device *dm, struct dm_unballoon_request *req) { union dm_mem_page_range *range_array = req->range_array; int range_count = req->range_count; struct dm_unballoon_response resp; int i; unsigned int prev_pages_ballooned = dm->num_pages_ballooned; for (i = 0; i < range_count; i++) { free_balloon_pages(dm, &range_array[i]); complete(&dm_device.config_event); } pr_debug("Freed %u ballooned pages.\n", prev_pages_ballooned - dm->num_pages_ballooned); if (req->more_pages == 1) return; memset(&resp, 0, sizeof(struct dm_unballoon_response)); resp.hdr.type = DM_UNBALLOON_RESPONSE; resp.hdr.trans_id = atomic_inc_return(&trans_id); resp.hdr.size = sizeof(struct dm_unballoon_response); vmbus_sendpacket(dm_device.dev->channel, &resp, sizeof(struct dm_unballoon_response), (unsigned long)NULL, VM_PKT_DATA_INBAND, 0); dm->state = DM_INITIALIZED; } static void balloon_onchannelcallback(void *context); static int dm_thread_func(void *dm_dev) { struct hv_dynmem_device *dm = dm_dev; while (!kthread_should_stop()) { wait_for_completion_interruptible_timeout( &dm_device.config_event, 1*HZ); /* * The host expects us to post information on the memory * pressure every second. */ reinit_completion(&dm_device.config_event); post_status(dm); } return 0; } static void version_resp(struct hv_dynmem_device *dm, struct dm_version_response *vresp) { struct dm_version_request version_req; int ret; if (vresp->is_accepted) { /* * We are done; wakeup the * context waiting for version * negotiation. */ complete(&dm->host_event); return; } /* * If there are more versions to try, continue * with negotiations; if not * shutdown the service since we are not able * to negotiate a suitable version number * with the host. */ if (dm->next_version == 0) goto version_error; memset(&version_req, 0, sizeof(struct dm_version_request)); version_req.hdr.type = DM_VERSION_REQUEST; version_req.hdr.size = sizeof(struct dm_version_request); version_req.hdr.trans_id = atomic_inc_return(&trans_id); version_req.version.version = dm->next_version; dm->version = version_req.version.version; /* * Set the next version to try in case current version fails. * Win7 protocol ought to be the last one to try. */ switch (version_req.version.version) { case DYNMEM_PROTOCOL_VERSION_WIN8: dm->next_version = DYNMEM_PROTOCOL_VERSION_WIN7; version_req.is_last_attempt = 0; break; default: dm->next_version = 0; version_req.is_last_attempt = 1; } ret = vmbus_sendpacket(dm->dev->channel, &version_req, sizeof(struct dm_version_request), (unsigned long)NULL, VM_PKT_DATA_INBAND, 0); if (ret) goto version_error; return; version_error: dm->state = DM_INIT_ERROR; complete(&dm->host_event); } static void cap_resp(struct hv_dynmem_device *dm, struct dm_capabilities_resp_msg *cap_resp) { if (!cap_resp->is_accepted) { pr_err("Capabilities not accepted by host\n"); dm->state = DM_INIT_ERROR; } complete(&dm->host_event); } static void balloon_onchannelcallback(void *context) { struct hv_device *dev = context; u32 recvlen; u64 requestid; struct dm_message *dm_msg; struct dm_header *dm_hdr; struct hv_dynmem_device *dm = hv_get_drvdata(dev); struct dm_balloon *bal_msg; struct dm_hot_add *ha_msg; union dm_mem_page_range *ha_pg_range; union dm_mem_page_range *ha_region; memset(recv_buffer, 0, sizeof(recv_buffer)); vmbus_recvpacket(dev->channel, recv_buffer, PAGE_SIZE, &recvlen, &requestid); if (recvlen > 0) { dm_msg = (struct dm_message *)recv_buffer; dm_hdr = &dm_msg->hdr; switch (dm_hdr->type) { case DM_VERSION_RESPONSE: version_resp(dm, (struct dm_version_response *)dm_msg); break; case DM_CAPABILITIES_RESPONSE: cap_resp(dm, (struct dm_capabilities_resp_msg *)dm_msg); break; case DM_BALLOON_REQUEST: if (dm->state == DM_BALLOON_UP) pr_warn("Currently ballooning\n"); bal_msg = (struct dm_balloon *)recv_buffer; dm->state = DM_BALLOON_UP; dm_device.balloon_wrk.num_pages = bal_msg->num_pages; schedule_work(&dm_device.balloon_wrk.wrk); break; case DM_UNBALLOON_REQUEST: dm->state = DM_BALLOON_DOWN; balloon_down(dm, (struct dm_unballoon_request *)recv_buffer); break; case DM_MEM_HOT_ADD_REQUEST: if (dm->state == DM_HOT_ADD) pr_warn("Currently hot-adding\n"); dm->state = DM_HOT_ADD; ha_msg = (struct dm_hot_add *)recv_buffer; if (ha_msg->hdr.size == sizeof(struct dm_hot_add)) { /* * This is a normal hot-add request specifying * hot-add memory. */ dm->host_specified_ha_region = false; ha_pg_range = &ha_msg->range; dm->ha_wrk.ha_page_range = *ha_pg_range; dm->ha_wrk.ha_region_range.page_range = 0; } else { /* * Host is specifying that we first hot-add * a region and then partially populate this * region. */ dm->host_specified_ha_region = true; ha_pg_range = &ha_msg->range; ha_region = &ha_pg_range[1]; dm->ha_wrk.ha_page_range = *ha_pg_range; dm->ha_wrk.ha_region_range = *ha_region; } schedule_work(&dm_device.ha_wrk.wrk); break; case DM_INFO_MESSAGE: process_info(dm, (struct dm_info_msg *)dm_msg); break; default: pr_warn("Unhandled message: type: %d\n", dm_hdr->type); } } } static int balloon_connect_vsp(struct hv_device *dev) { struct dm_version_request version_req; struct dm_capabilities cap_msg; unsigned long t; int ret; ret = vmbus_open(dev->channel, dm_ring_size, dm_ring_size, NULL, 0, balloon_onchannelcallback, dev); if (ret) return ret; /* * Initiate the hand shake with the host and negotiate * a version that the host can support. We start with the * highest version number and go down if the host cannot * support it. */ memset(&version_req, 0, sizeof(struct dm_version_request)); version_req.hdr.type = DM_VERSION_REQUEST; version_req.hdr.size = sizeof(struct dm_version_request); version_req.hdr.trans_id = atomic_inc_return(&trans_id); version_req.version.version = DYNMEM_PROTOCOL_VERSION_WIN10; version_req.is_last_attempt = 0; dm_device.version = version_req.version.version; ret = vmbus_sendpacket(dev->channel, &version_req, sizeof(struct dm_version_request), (unsigned long)NULL, VM_PKT_DATA_INBAND, 0); if (ret) goto out; t = wait_for_completion_timeout(&dm_device.host_event, 5*HZ); if (t == 0) { ret = -ETIMEDOUT; goto out; } /* * If we could not negotiate a compatible version with the host * fail the probe function. */ if (dm_device.state == DM_INIT_ERROR) { ret = -EPROTO; goto out; } pr_info("Using Dynamic Memory protocol version %u.%u\n", DYNMEM_MAJOR_VERSION(dm_device.version), DYNMEM_MINOR_VERSION(dm_device.version)); /* * Now submit our capabilities to the host. */ memset(&cap_msg, 0, sizeof(struct dm_capabilities)); cap_msg.hdr.type = DM_CAPABILITIES_REPORT; cap_msg.hdr.size = sizeof(struct dm_capabilities); cap_msg.hdr.trans_id = atomic_inc_return(&trans_id); cap_msg.caps.cap_bits.balloon = 1; cap_msg.caps.cap_bits.hot_add = 1; /* * Specify our alignment requirements as it relates * memory hot-add. Specify 128MB alignment. */ cap_msg.caps.cap_bits.hot_add_alignment = 7; /* * Currently the host does not use these * values and we set them to what is done in the * Windows driver. */ cap_msg.min_page_cnt = 0; cap_msg.max_page_number = -1; ret = vmbus_sendpacket(dev->channel, &cap_msg, sizeof(struct dm_capabilities), (unsigned long)NULL, VM_PKT_DATA_INBAND, 0); if (ret) goto out; t = wait_for_completion_timeout(&dm_device.host_event, 5*HZ); if (t == 0) { ret = -ETIMEDOUT; goto out; } /* * If the host does not like our capabilities, * fail the probe function. */ if (dm_device.state == DM_INIT_ERROR) { ret = -EPROTO; goto out; } return 0; out: vmbus_close(dev->channel); return ret; } static int balloon_probe(struct hv_device *dev, const struct hv_vmbus_device_id *dev_id) { int ret; #ifdef CONFIG_MEMORY_HOTPLUG do_hot_add = hot_add; #else do_hot_add = false; #endif dm_device.dev = dev; dm_device.state = DM_INITIALIZING; dm_device.next_version = DYNMEM_PROTOCOL_VERSION_WIN8; init_completion(&dm_device.host_event); init_completion(&dm_device.config_event); INIT_LIST_HEAD(&dm_device.ha_region_list); spin_lock_init(&dm_device.ha_lock); INIT_WORK(&dm_device.balloon_wrk.wrk, balloon_up); INIT_WORK(&dm_device.ha_wrk.wrk, hot_add_req); dm_device.host_specified_ha_region = false; #ifdef CONFIG_MEMORY_HOTPLUG set_online_page_callback(&hv_online_page); register_memory_notifier(&hv_memory_nb); #endif hv_set_drvdata(dev, &dm_device); ret = balloon_connect_vsp(dev); if (ret != 0) return ret; dm_device.state = DM_INITIALIZED; dm_device.thread = kthread_run(dm_thread_func, &dm_device, "hv_balloon"); if (IS_ERR(dm_device.thread)) { ret = PTR_ERR(dm_device.thread); goto probe_error; } return 0; probe_error: vmbus_close(dev->channel); #ifdef CONFIG_MEMORY_HOTPLUG unregister_memory_notifier(&hv_memory_nb); restore_online_page_callback(&hv_online_page); #endif return ret; } static int balloon_remove(struct hv_device *dev) { struct hv_dynmem_device *dm = hv_get_drvdata(dev); struct hv_hotadd_state *has, *tmp; struct hv_hotadd_gap *gap, *tmp_gap; unsigned long flags; if (dm->num_pages_ballooned != 0) pr_warn("Ballooned pages: %d\n", dm->num_pages_ballooned); cancel_work_sync(&dm->balloon_wrk.wrk); cancel_work_sync(&dm->ha_wrk.wrk); kthread_stop(dm->thread); vmbus_close(dev->channel); #ifdef CONFIG_MEMORY_HOTPLUG unregister_memory_notifier(&hv_memory_nb); restore_online_page_callback(&hv_online_page); #endif spin_lock_irqsave(&dm_device.ha_lock, flags); list_for_each_entry_safe(has, tmp, &dm->ha_region_list, list) { list_for_each_entry_safe(gap, tmp_gap, &has->gap_list, list) { list_del(&gap->list); kfree(gap); } list_del(&has->list); kfree(has); } spin_unlock_irqrestore(&dm_device.ha_lock, flags); return 0; } static const struct hv_vmbus_device_id id_table[] = { /* Dynamic Memory Class ID */ /* 525074DC-8985-46e2-8057-A307DC18A502 */ { HV_DM_GUID, }, { }, }; MODULE_DEVICE_TABLE(vmbus, id_table); static struct hv_driver balloon_drv = { .name = "hv_balloon", .id_table = id_table, .probe = balloon_probe, .remove = balloon_remove, .driver = { .probe_type = PROBE_PREFER_ASYNCHRONOUS, }, }; static int __init init_balloon_drv(void) { return vmbus_driver_register(&balloon_drv); } module_init(init_balloon_drv); MODULE_DESCRIPTION("Hyper-V Balloon"); MODULE_LICENSE("GPL"); |