#ifndef _VM_VM_PAGEOUT_H_
#define _VM_VM_PAGEOUT_H_
#ifdef KERNEL_PRIVATE
#include <mach/mach_types.h>
#include <mach/boolean.h>
#include <mach/machine/vm_types.h>
#include <mach/memory_object_types.h>
#include <kern/kern_types.h>
#include <kern/locks.h>
#include <libkern/OSAtomic.h>
#include <vm/vm_options.h>
#ifdef MACH_KERNEL_PRIVATE
#include <vm/vm_page.h>
#endif
#include <sys/kdebug.h>
#define VM_PAGE_AVAILABLE_COUNT() ((unsigned int)(vm_page_cleaned_count))
extern unsigned int vm_pageout_cleaned_reactivated, vm_pageout_cleaned_fault_reactivated, vm_pageout_cleaned_commit_reactivated;
#if CONFIG_FREEZE
extern boolean_t memorystatus_freeze_enabled;
#endif
#define VM_DYNAMIC_PAGING_ENABLED() (VM_CONFIG_COMPRESSOR_IS_ACTIVE)
#if VM_PRESSURE_EVENTS
extern boolean_t vm_pressure_events_enabled;
#endif
#define VM_DISCONNECT_ALL_PAGE_MAPPINGS 0x00
#define VM_DISCONNECT_TASK_PAGE_MAPPINGS 0x01
#define VM_REAL_FAULT_ADDR_INTERNAL 0x02
#define VM_REAL_FAULT_ADDR_PURGABLE 0x03
#define VM_REAL_FAULT_ADDR_EXTERNAL 0x04
#define VM_REAL_FAULT_ADDR_SHAREDCACHE 0x05
extern int vm_debug_events;
#define VMF_CHECK_ZFDELAY 0x100
#define VMF_COWDELAY 0x101
#define VMF_ZFDELAY 0x102
#define VMF_COMPRESSORDELAY 0x103
#define VM_PAGEOUT_SCAN 0x104
#define VM_PAGEOUT_BALANCE 0x105
#define VM_PAGEOUT_FREELIST 0x106
#define VM_PAGEOUT_PURGEONE 0x107
#define VM_PAGEOUT_CACHE_EVICT 0x108
#define VM_PAGEOUT_THREAD_BLOCK 0x109
#define VM_PAGEOUT_JETSAM 0x10A
#define VM_INFO1 0x10B
#define VM_INFO2 0x10C
#define VM_INFO3 0x10D
#define VM_INFO4 0x10E
#define VM_INFO5 0x10F
#define VM_INFO6 0x110
#define VM_INFO7 0x111
#define VM_UPL_PAGE_WAIT 0x120
#define VM_IOPL_PAGE_WAIT 0x121
#define VM_PAGE_WAIT_BLOCK 0x122
#if CONFIG_IOSCHED
#define VM_PAGE_SLEEP 0x123
#define VM_PAGE_EXPEDITE 0x124
#define VM_PAGE_EXPEDITE_NO_MEMORY 0x125
#endif
#define VM_PRESSURE_EVENT 0x130
#define VM_EXECVE 0x131
#define VM_WAKEUP_COMPACTOR_SWAPPER 0x132
#define VM_DATA_WRITE 0x140
#define VM_DEBUG_EVENT(name, event, control, arg1, arg2, arg3, arg4) \
MACRO_BEGIN \
if (vm_debug_events) { \
KERNEL_DEBUG_CONSTANT((MACHDBG_CODE(DBG_MACH_VM, event)) | control, arg1, arg2, arg3, arg4, 0); \
} \
MACRO_END
#define VM_DEBUG_CONSTANT_EVENT(name, event, control, arg1, arg2, arg3, arg4) \
MACRO_BEGIN \
KERNEL_DEBUG_CONSTANT((MACHDBG_CODE(DBG_MACH_VM, event)) | control, arg1, arg2, arg3, arg4, 0); \
MACRO_END
extern void memoryshot(unsigned int event, unsigned int control);
extern void update_vm_info(void);
#if CONFIG_IOSCHED
extern int upl_get_cached_tier(
upl_t upl);
#endif
extern ppnum_t upl_get_highest_page(
upl_t upl);
extern upl_size_t upl_get_size(
upl_t upl);
extern upl_t upl_associated_upl(upl_t upl);
extern void upl_set_associated_upl(upl_t upl, upl_t associated_upl);
#ifdef XNU_KERNEL_PRIVATE
extern kern_return_t vm_map_create_upl(
vm_map_t map,
vm_map_address_t offset,
upl_size_t *upl_size,
upl_t *upl,
upl_page_info_array_t page_list,
unsigned int *count,
upl_control_flags_t *flags,
vm_tag_t tag);
extern void iopl_valid_data(
upl_t upl_ptr,
vm_tag_t tag);
#endif
extern struct vnode * upl_lookup_vnode(upl_t upl);
#ifndef MACH_KERNEL_PRIVATE
typedef struct vm_page *vm_page_t;
#endif
extern void vm_page_free_list(
vm_page_t mem,
boolean_t prepare_object);
extern kern_return_t vm_page_alloc_list(
int page_count,
int flags,
vm_page_t * list);
extern void vm_page_set_offset(vm_page_t page, vm_object_offset_t offset);
extern vm_object_offset_t vm_page_get_offset(vm_page_t page);
extern ppnum_t vm_page_get_phys_page(vm_page_t page);
extern vm_page_t vm_page_get_next(vm_page_t page);
extern kern_return_t mach_vm_pressure_level_monitor(boolean_t wait_for_pressure, unsigned int *pressure_level);
#if !CONFIG_EMBEDDED
extern kern_return_t vm_pageout_wait(uint64_t deadline);
#endif
#ifdef MACH_KERNEL_PRIVATE
#include <vm/vm_page.h>
extern unsigned int vm_pageout_scan_event_counter;
extern unsigned int vm_page_anonymous_count;
struct vm_pageout_queue {
vm_page_queue_head_t pgo_pending;
unsigned int pgo_laundry;
unsigned int pgo_maxlaundry;
uint64_t pgo_tid;
uint8_t pgo_lowpriority;
unsigned int pgo_idle:1,
pgo_busy:1,
pgo_throttled:1,
pgo_draining:1,
pgo_inited:1,
:0;
};
#define VM_PAGE_Q_THROTTLED(q) \
((q)->pgo_laundry >= (q)->pgo_maxlaundry)
extern struct vm_pageout_queue vm_pageout_queue_internal;
extern struct vm_pageout_queue vm_pageout_queue_external;
extern void vm_pageout(void);
extern kern_return_t vm_pageout_internal_start(void);
extern void vm_pageout_object_terminate(
vm_object_t object);
extern void vm_pageout_cluster(
vm_page_t m);
extern void vm_pageout_initialize_page(
vm_page_t m);
#define upl_lock_init(object) lck_mtx_init(&(object)->Lock, &vm_object_lck_grp, &vm_object_lck_attr)
#define upl_lock_destroy(object) lck_mtx_destroy(&(object)->Lock, &vm_object_lck_grp)
#define upl_lock(object) lck_mtx_lock(&(object)->Lock)
#define upl_unlock(object) lck_mtx_unlock(&(object)->Lock)
#define upl_try_lock(object) lck_mtx_try_lock(&(object)->Lock)
#define MAX_VECTOR_UPL_ELEMENTS 8
struct _vector_upl_iostates{
upl_offset_t offset;
upl_size_t size;
};
typedef struct _vector_upl_iostates vector_upl_iostates_t;
struct _vector_upl {
upl_size_t size;
uint32_t num_upls;
uint32_t invalid_upls;
uint32_t _reserved;
vm_map_t submap;
vm_offset_t submap_dst_addr;
vm_object_offset_t offset;
upl_t upl_elems[MAX_VECTOR_UPL_ELEMENTS];
upl_page_info_array_t pagelist;
vector_upl_iostates_t upl_iostates[MAX_VECTOR_UPL_ELEMENTS];
};
typedef struct _vector_upl* vector_upl_t;
#if UPL_DEBUG
#define UPL_DEBUG_STACK_FRAMES 16
#define UPL_DEBUG_COMMIT_RECORDS 4
struct ucd {
upl_offset_t c_beg;
upl_offset_t c_end;
int c_aborted;
void * c_retaddr[UPL_DEBUG_STACK_FRAMES];
};
#endif
struct upl {
decl_lck_mtx_data(, Lock)
int ref_count;
int ext_ref_count;
int flags;
vm_object_offset_t offset;
upl_size_t size;
vm_offset_t kaddr;
vm_object_t map_object;
ppnum_t highest_page;
void* vector_upl;
upl_t associated_upl;
#if CONFIG_IOSCHED
int upl_priority;
uint64_t *upl_reprio_info;
void *decmp_io_upl;
#endif
#if CONFIG_IOSCHED || UPL_DEBUG
thread_t upl_creator;
queue_chain_t uplq;
#endif
#if UPL_DEBUG
uintptr_t ubc_alias1;
uintptr_t ubc_alias2;
uint32_t upl_state;
uint32_t upl_commit_index;
void *upl_create_retaddr[UPL_DEBUG_STACK_FRAMES];
struct ucd upl_commit_records[UPL_DEBUG_COMMIT_RECORDS];
#endif
};
#define UPL_PAGE_LIST_MAPPED 0x1
#define UPL_KERNEL_MAPPED 0x2
#define UPL_CLEAR_DIRTY 0x4
#define UPL_COMPOSITE_LIST 0x8
#define UPL_INTERNAL 0x10
#define UPL_PAGE_SYNC_DONE 0x20
#define UPL_DEVICE_MEMORY 0x40
#define UPL_PAGEOUT 0x80
#define UPL_LITE 0x100
#define UPL_IO_WIRE 0x200
#define UPL_ACCESS_BLOCKED 0x400
#define UPL_SHADOWED 0x1000
#define UPL_KERNEL_OBJECT 0x2000
#define UPL_VECTOR 0x4000
#define UPL_SET_DIRTY 0x8000
#define UPL_HAS_BUSY 0x10000
#define UPL_TRACKED_BY_OBJECT 0x20000
#define UPL_EXPEDITE_SUPPORTED 0x40000
#define UPL_DECMP_REQ 0x80000
#define UPL_DECMP_REAL_IO 0x100000
#define UPL_CREATE_EXTERNAL 0
#define UPL_CREATE_INTERNAL 0x1
#define UPL_CREATE_LITE 0x2
#define UPL_CREATE_IO_TRACKING 0x4
#define UPL_CREATE_EXPEDITE_SUP 0x8
extern upl_t vector_upl_create(vm_offset_t);
extern void vector_upl_deallocate(upl_t);
extern boolean_t vector_upl_is_valid(upl_t);
extern boolean_t vector_upl_set_subupl(upl_t, upl_t, u_int32_t);
extern void vector_upl_set_pagelist(upl_t);
extern void vector_upl_set_submap(upl_t, vm_map_t, vm_offset_t);
extern void vector_upl_get_submap(upl_t, vm_map_t*, vm_offset_t*);
extern void vector_upl_set_iostate(upl_t, upl_t, upl_offset_t, upl_size_t);
extern void vector_upl_get_iostate(upl_t, upl_t, upl_offset_t*, upl_size_t*);
extern void vector_upl_get_iostate_byindex(upl_t, uint32_t, upl_offset_t*, upl_size_t*);
extern upl_t vector_upl_subupl_byindex(upl_t , uint32_t);
extern upl_t vector_upl_subupl_byoffset(upl_t , upl_offset_t*, upl_size_t*);
extern void vm_object_set_pmap_cache_attr(
vm_object_t object,
upl_page_info_array_t user_page_list,
unsigned int num_pages,
boolean_t batch_pmap_op);
extern kern_return_t vm_object_iopl_request(
vm_object_t object,
vm_object_offset_t offset,
upl_size_t size,
upl_t *upl_ptr,
upl_page_info_array_t user_page_list,
unsigned int *page_list_count,
upl_control_flags_t cntrl_flags,
vm_tag_t tag);
extern kern_return_t vm_object_super_upl_request(
vm_object_t object,
vm_object_offset_t offset,
upl_size_t size,
upl_size_t super_cluster,
upl_t *upl,
upl_page_info_t *user_page_list,
unsigned int *page_list_count,
upl_control_flags_t cntrl_flags,
vm_tag_t tag);
extern kern_return_t vm_map_enter_upl(
vm_map_t map,
upl_t upl,
vm_map_offset_t *dst_addr);
extern kern_return_t vm_map_remove_upl(
vm_map_t map,
upl_t upl);
typedef uint32_t *wpl_array_t;
extern void vm_page_free_reserve(int pages);
extern void vm_pageout_throttle_down(vm_page_t page);
extern void vm_pageout_throttle_up(vm_page_t page);
extern kern_return_t vm_paging_map_object(
vm_page_t page,
vm_object_t object,
vm_object_offset_t offset,
vm_prot_t protection,
boolean_t can_unlock_object,
vm_map_size_t *size,
vm_map_offset_t *address,
boolean_t *need_unmap);
extern void vm_paging_unmap_object(
vm_object_t object,
vm_map_offset_t start,
vm_map_offset_t end);
decl_simple_lock_data(extern, vm_paging_lock)
extern unsigned int vm_backing_store_low;
extern void vm_pageout_steal_laundry(
vm_page_t page,
boolean_t queues_locked);
extern boolean_t vm_page_is_slideable(vm_page_t m);
extern kern_return_t vm_page_slide(vm_page_t page, vm_map_offset_t kernel_mapping_offset);
#endif
#if UPL_DEBUG
extern kern_return_t upl_ubc_alias_set(
upl_t upl,
uintptr_t alias1,
uintptr_t alias2);
extern int upl_ubc_alias_get(
upl_t upl,
uintptr_t * al,
uintptr_t * al2);
#endif
extern void vm_countdirtypages(void);
extern void vm_backing_store_disable(
boolean_t suspend);
extern kern_return_t upl_transpose(
upl_t upl1,
upl_t upl2);
extern kern_return_t mach_vm_pressure_monitor(
boolean_t wait_for_pressure,
unsigned int nsecs_monitored,
unsigned int *pages_reclaimed_p,
unsigned int *pages_wanted_p);
extern kern_return_t
vm_set_buffer_cleanup_callout(
boolean_t (*func)(int));
struct vm_page_stats_reusable {
SInt32 reusable_count;
uint64_t reusable;
uint64_t reused;
uint64_t reused_wire;
uint64_t reused_remove;
uint64_t all_reusable_calls;
uint64_t partial_reusable_calls;
uint64_t all_reuse_calls;
uint64_t partial_reuse_calls;
uint64_t reusable_pages_success;
uint64_t reusable_pages_failure;
uint64_t reusable_pages_shared;
uint64_t reuse_pages_success;
uint64_t reuse_pages_failure;
uint64_t can_reuse_success;
uint64_t can_reuse_failure;
uint64_t reusable_reclaimed;
uint64_t reusable_nonwritable;
uint64_t reusable_shared;
uint64_t free_shared;
};
extern struct vm_page_stats_reusable vm_page_stats_reusable;
extern int hibernate_flush_memory(void);
extern void hibernate_reset_stats(void);
extern void hibernate_create_paddr_map(void);
extern void vm_set_restrictions(void);
extern int vm_compressor_mode;
extern int vm_compressor_thread_count;
extern boolean_t vm_restricted_to_single_processor;
extern kern_return_t vm_pageout_compress_page(void **, char *, vm_page_t, boolean_t);
extern void vm_pageout_anonymous_pages(void);
extern void vm_pageout_disconnect_all_pages(void);
struct vm_config {
boolean_t compressor_is_present;
boolean_t compressor_is_active;
boolean_t swap_is_present;
boolean_t swap_is_active;
boolean_t freezer_swap_is_active;
};
extern struct vm_config vm_config;
#define VM_PAGER_NOT_CONFIGURED 0x0
#define VM_PAGER_DEFAULT 0x1
#define VM_PAGER_COMPRESSOR_NO_SWAP 0x2
#define VM_PAGER_COMPRESSOR_WITH_SWAP 0x4
#define VM_PAGER_FREEZER_DEFAULT 0x8
#define VM_PAGER_FREEZER_COMPRESSOR_NO_SWAP 0x10
#define VM_PAGER_COMPRESSOR_NO_SWAP_PLUS_FREEZER_COMPRESSOR_WITH_SWAP 0x20
#define VM_PAGER_MAX_MODES 6
#define VM_CONFIG_COMPRESSOR_IS_PRESENT (vm_config.compressor_is_present == TRUE)
#define VM_CONFIG_COMPRESSOR_IS_ACTIVE (vm_config.compressor_is_active == TRUE)
#define VM_CONFIG_SWAP_IS_PRESENT (vm_config.swap_is_present == TRUE)
#define VM_CONFIG_SWAP_IS_ACTIVE (vm_config.swap_is_active == TRUE)
#define VM_CONFIG_FREEZER_SWAP_IS_ACTIVE (vm_config.freezer_swap_is_active == TRUE)
#endif
#ifdef XNU_KERNEL_PRIVATE
#define MAX_COMPRESSOR_THREAD_COUNT 8
#if DEVELOPMENT || DEBUG
typedef struct vmct_stats_s {
uint64_t vmct_runtimes[MAX_COMPRESSOR_THREAD_COUNT];
uint64_t vmct_pages[MAX_COMPRESSOR_THREAD_COUNT];
uint64_t vmct_iterations[MAX_COMPRESSOR_THREAD_COUNT];
uint64_t vmct_cthreads_total;
int32_t vmct_minpages[MAX_COMPRESSOR_THREAD_COUNT];
int32_t vmct_maxpages[MAX_COMPRESSOR_THREAD_COUNT];
} vmct_stats_t;
#endif
#endif
#endif