/* * Copyright (c) 2006-2019 Apple Inc. All rights reserved. * * @APPLE_OSREFERENCE_LICENSE_HEADER_START@ * * This file contains Original Code and/or Modifications of Original Code * as defined in and that are subject to the Apple Public Source License * Version 2.0 (the 'License'). You may not use this file except in * compliance with the License. The rights granted to you under the License * may not be used to create, or enable the creation or redistribution of, * unlawful or unlicensed copies of an Apple operating system, or to * circumvent, violate, or enable the circumvention or violation of, any * terms of an Apple operating system software license agreement. * * Please obtain a copy of the License at * http://www.opensource.apple.com/apsl/ and read it before using this file. * * The Original Code and all software distributed under the License are * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES, * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT. * Please see the License for the specific language governing rights and * limitations under the License. * * @APPLE_OSREFERENCE_LICENSE_HEADER_END@ * */ #ifndef _KERN_MEMORYSTATUS_INTERNAL_H_ #define _KERN_MEMORYSTATUS_INTERNAL_H_ /* * Contains memorystatus subsystem definitions that are not * exported outside of the memorystatus subsystem. * * For example, all of the mechanisms used by kern_memorystatus_policy.c * should be defined in this header. */ #if BSD_KERNEL_PRIVATE #include #include #include #include #include #if CONFIG_FREEZE #include #endif /* CONFIG_FREEZE */ /* * memorystatus subsystem globals */ #if CONFIG_JETSAM extern unsigned int memorystatus_available_pages; extern unsigned int memorystatus_available_pages_pressure; extern unsigned int memorystatus_available_pages_critical; extern uint32_t jetsam_kill_on_low_swap; #else /* CONFIG_JETSAM */ extern uint64_t memorystatus_available_pages; extern uint64_t memorystatus_available_pages_pressure; extern uint64_t memorystatus_available_pages_critical; #endif /* CONFIG_JETSAM */ extern int block_corpses; /* counter to block new corpses if jetsam purges them */ extern int system_procs_aging_band; extern int applications_aging_band; /* * TODO(jason): This should really be calculated dynamically by the zalloc * subsystem before we do a zone map exhaustion kill. But the zone_gc * logic is non-trivial, so for now it just sets this global. */ extern _Atomic bool memorystatus_zone_map_is_exhausted; /* * TODO(jason): We should get rid of this global * and have the memorystatus thread check for compressor space shortages * itself. However, there are 3 async call sites remaining that require more work to get us there: * 2 of them are in vm_swap_defragment. When it's about to swap in a segment, it checks if that * will cause a compressor space shortage & pre-emptively triggers jetsam. vm_compressor_backing_store * needs to keep track of in-flight swapins due to defrag so we can perform those checks * in the memorystatus thread. * The other is in no_paging_space_action. This is only on macOS right now, but will * be needed on iPad when we run out of swap space. This should be a new kill * reason and we need to add a new health check for it. * We need to maintain the macOS behavior though that we kill no more than 1 process * every 5 seconds. */ extern _Atomic bool memorystatus_compressor_space_shortage; /* * TODO(jason): We should also get rid of this global * and check for phantom cache pressure from the memorystatus * thread. But first we need to fix the syncronization in * vm_phantom_cache_check_pressure */ extern _Atomic bool memorystatus_phantom_cache_pressure; extern _Atomic bool memorystatus_pageout_starved; /* * The actions that the memorystatus thread can perform * when we're low on memory. * See memorystatus_pick_action to see when each action is deployed. */ OS_CLOSED_ENUM(memorystatus_action, uint32_t, MEMORYSTATUS_KILL_HIWATER, // Kill 1 highwatermark process MEMORYSTATUS_KILL_AGGRESSIVE, // Do aggressive jetsam MEMORYSTATUS_KILL_TOP_PROCESS, // Kill based on jetsam priority MEMORYSTATUS_WAKE_SWAPPER, // Wake up the swap thread MEMORYSTATUS_PROCESS_SWAPIN_QUEUE, // Compact the swapin queue and move segments to the swapout queue MEMORYSTATUS_KILL_SUSPENDED_SWAPPABLE, // Kill a suspended swap-eligible processes based on jetsam priority MEMORYSTATUS_KILL_SWAPPABLE, // Kill a swap-eligible process (even if it's running) based on jetsam priority MEMORYSTATUS_KILL_NONE, // Do nothing ); /* * Structure to hold state for a jetsam thread. * Typically there should be a single jetsam thread * unless parallel jetsam is enabled. */ typedef struct jetsam_thread_state { uint8_t inited; /* boolean - if the thread is initialized */ uint8_t limit_to_low_bands; /* boolean */ int index; /* jetsam thread index */ thread_t thread; /* jetsam thread pointer */ int jld_idle_kills; /* idle jetsam kill counter for this session */ uint32_t errors; /* Error accumulator */ bool sort_flag; /* Sort the fg band (idle on macOS) before killing? */ bool corpse_list_purged; /* Has the corpse list been purged? */ bool post_snapshot; /* Do we need to post a jetsam snapshot after this session? */ uint64_t memory_reclaimed; /* Amount of memory that was just reclaimed */ uint32_t hwm_kills; /* hwm kill counter for this session */ sched_cond_atomic_t jt_wakeup_cond; /* condition var used to synchronize wake/sleep operations for this jetsam thread */ } jetsam_thread_state_t; /* * The memorystatus thread monitors these conditions * and will continue to act until the system is considered * healthy. */ typedef struct memorystatus_system_health { #if CONFIG_JETSAM bool msh_available_pages_below_pressure; bool msh_available_pages_below_critical; bool msh_compressor_needs_to_swap; bool msh_compressor_is_low_on_space; bool msh_compressor_is_thrashing; bool msh_compressed_pages_nearing_limit; bool msh_filecache_is_thrashing; bool msh_phantom_cache_pressure; bool msh_swappable_compressor_segments_over_limit; bool msh_swapin_queue_over_limit; bool msh_swap_low_on_space; bool msh_swap_out_of_space; bool msh_pageout_starved; #endif /* CONFIG_JETSAM */ bool msh_zone_map_is_exhausted; } memorystatus_system_health_t; void memorystatus_log_system_health(const memorystatus_system_health_t *health); bool memorystatus_is_system_healthy(const memorystatus_system_health_t *status); /* Picks a kill cause given an unhealthy system status */ uint32_t memorystatus_pick_kill_cause(const memorystatus_system_health_t *status); /* * Agressive jetsam tunables */ #define kJetsamAgingPolicyNone (0) #define kJetsamAgingPolicyLegacy (1) #define kJetsamAgingPolicySysProcsReclaimedFirst (2) #define kJetsamAgingPolicyAppsReclaimedFirst (3) #define kJetsamAgingPolicyMax kJetsamAgingPolicyAppsReclaimedFirst extern boolean_t memorystatus_jld_enabled; /* Enable jetsam loop detection */ extern uint32_t memorystatus_jld_eval_period_msecs; /* Init pass sets this based on device memory size */ extern int memorystatus_jld_eval_aggressive_count; /* Raise the priority max after 'n' aggressive loops */ extern int memorystatus_jld_eval_aggressive_priority_band_max; /* Kill aggressively up through this band */ extern int memorystatus_jld_max_kill_loops; /* How many times should we try and kill up to the target band */ extern unsigned int memorystatus_sysproc_aging_aggr_pages; /* Aggressive jetsam pages threshold for sysproc aging policy */ extern int jld_eval_aggressive_count; extern int32_t jld_priority_band_max; extern uint64_t jld_timestamp_msecs; extern int jld_idle_kill_candidates; /* * VM globals read by the memorystatus subsystem */ extern unsigned int vm_page_free_count; extern unsigned int vm_page_active_count; extern unsigned int vm_page_inactive_count; extern unsigned int vm_page_throttled_count; extern unsigned int vm_page_purgeable_count; extern unsigned int vm_page_wire_count; extern unsigned int vm_page_speculative_count; extern uint32_t c_late_swapout_count, c_late_swappedin_count; extern uint32_t c_seg_allocsize; extern bool vm_swapout_thread_running; extern _Atomic bool vm_swapout_wake_pending; #define VM_PAGE_DONATE_DISABLED 0 #define VM_PAGE_DONATE_ENABLED 1 extern uint32_t vm_page_donate_mode; void vm_swapout_thread(void); void vm_compressor_process_special_swapped_in_segments(void); #if CONFIG_JETSAM #define MEMORYSTATUS_LOG_AVAILABLE_PAGES memorystatus_available_pages #else /* CONFIG_JETSAM */ #define MEMORYSTATUS_LOG_AVAILABLE_PAGES (vm_page_active_count + vm_page_inactive_count + vm_page_free_count + vm_page_speculative_count) #endif /* CONFIG_JETSAM */ bool memorystatus_avail_pages_below_pressure(void); bool memorystatus_avail_pages_below_critical(void); #if CONFIG_JETSAM bool memorystatus_swap_over_trigger(uint64_t adjustment_factor); bool memorystatus_swapin_over_trigger(void); #endif /* CONFIG_JETSAM */ /* Does cause indicate vm or fc thrashing? */ bool is_reason_thrashing(unsigned cause); /* Is the zone map almost full? */ bool is_reason_zone_map_exhaustion(unsigned cause); memorystatus_action_t memorystatus_pick_action(struct jetsam_thread_state *jetsam_thread, uint32_t *kill_cause, bool highwater_remaining, bool suspended_swappable_apps_remaining, bool swappable_apps_remaining, int *jld_idle_kills); #define MEMSTAT_PERCENT_TOTAL_PAGES(p) (p * atop_64(max_mem) / 100) #pragma mark Logging Utilities __enum_decl(memorystatus_log_level_t, unsigned int, { MEMORYSTATUS_LOG_LEVEL_DEFAULT = 0, MEMORYSTATUS_LOG_LEVEL_INFO = 1, MEMORYSTATUS_LOG_LEVEL_DEBUG = 2, }); extern os_log_t memorystatus_log_handle; extern memorystatus_log_level_t memorystatus_log_level; /* * NB: Critical memorystatus logs (e.g. jetsam kills) are load-bearing for OS * performance testing infrastructure. Be careful when modifying the log-level for * important system events. * * Memorystatus logs are interpreted by a wide audience. To avoid logging information * that could lead to false diagnoses, INFO and DEBUG messages are only logged if the * system has been configured to do so via `kern.memorystatus_log_level` (sysctl) or * `memorystatus_log_level` (boot-arg). * * os_log supports a mechanism for configuring these properties dynamically; however, * this mechanism is currently unsupported in XNU. * * TODO (JC) Deprecate sysctl/boot-arg and move to subsystem preferences pending: * - rdar://27006343 (Custom kernel log handles) * - rdar://80958044 (Kernel Logging Configuration) */ #define _memorystatus_log_with_type(type, format, ...) os_log_with_type(memorystatus_log_handle, type, format, ##__VA_ARGS__) #define memorystatus_log(format, ...) _memorystatus_log_with_type(OS_LOG_TYPE_DEFAULT, format, ##__VA_ARGS__) #define memorystatus_log_info(format, ...) if (memorystatus_log_level >= MEMORYSTATUS_LOG_LEVEL_INFO) { _memorystatus_log_with_type(OS_LOG_TYPE_INFO, format, ##__VA_ARGS__); } #define memorystatus_log_debug(format, ...) if (memorystatus_log_level >= MEMORYSTATUS_LOG_LEVEL_DEBUG) { _memorystatus_log_with_type(OS_LOG_TYPE_DEBUG, format, ##__VA_ARGS__); } #define memorystatus_log_error(format, ...) _memorystatus_log_with_type(OS_LOG_TYPE_ERROR, format, ##__VA_ARGS__) #define memorystatus_log_fault(format, ...) _memorystatus_log_with_type(OS_LOG_TYPE_FAULT, format, ##__VA_ARGS__) #pragma mark Freezer #if CONFIG_FREEZE /* * Freezer data types */ /* An ordered list of freeze or demotion candidates */ struct memorystatus_freezer_candidate_list { memorystatus_properties_freeze_entry_v1 *mfcl_list; size_t mfcl_length; }; struct memorystatus_freeze_list_iterator { bool refreeze_only; proc_t last_p; size_t global_freeze_list_index; }; /* * Freezer globals */ extern struct memorystatus_freezer_stats_t memorystatus_freezer_stats; extern int memorystatus_freezer_use_ordered_list; extern struct memorystatus_freezer_candidate_list memorystatus_global_freeze_list; extern struct memorystatus_freezer_candidate_list memorystatus_global_demote_list; extern uint64_t memorystatus_freezer_thread_next_run_ts; bool memorystatus_is_process_eligible_for_freeze(proc_t p); bool memorystatus_freeze_proc_is_refreeze_eligible(proc_t p); proc_t memorystatus_freezer_candidate_list_get_proc( struct memorystatus_freezer_candidate_list *list, size_t index, uint64_t *pid_mismatch_counter); /* * Returns the leader of the p's jetsam coalition * and the role of p in that coalition. */ proc_t memorystatus_get_coalition_leader_and_role(proc_t p, int *role_in_coalition); bool memorystatus_freeze_process_is_recommended(const proc_t p); /* * Ordered iterator over all freeze candidates. * The iterator should initially be zeroed out by the caller and * can be zeroed out whenever the caller wishes to start from the beginning * of the list again. * Returns PROC_NULL when all candidates have been iterated over. */ proc_t memorystatus_freeze_pick_process(struct memorystatus_freeze_list_iterator *iterator); /* * Returns the number of processes that the freezer thread should try to freeze * on this wakeup. */ size_t memorystatus_pick_freeze_count_for_wakeup(void); /* * Configure the freezer for app-based swap mode. * Should be called at boot. */ void memorystatus_freeze_configure_for_swap(void); /* * Undo memorystatus_freeze_configure_for_swap */ void memorystatus_freeze_disable_swap(void); #endif /* CONFIG_FREEZE */ #endif /* BSD_KERNEL_PRIVATE */ #endif /* _KERN_MEMORYSTATUS_INTERNAL_H_ */