X-Git-Url: https://git.saurik.com/apple/xnu.git/blobdiff_plain/3e170ce000f1506b7b5d2c5c7faec85ceabb573d..bca245acd4c03fd752d1a45f011ad495e60fe53d:/osfmk/kern/task.c diff --git a/osfmk/kern/task.c b/osfmk/kern/task.c index 498fd09c8..df259cf29 100644 --- a/osfmk/kern/task.c +++ b/osfmk/kern/task.c @@ -1,8 +1,8 @@ /* - * Copyright (c) 2000-2010, 2015 Apple Inc. All rights reserved. + * Copyright (c) 2000-2019 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 @@ -11,10 +11,10 @@ * 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, @@ -22,34 +22,34 @@ * 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@ */ /* * @OSF_FREE_COPYRIGHT@ */ -/* +/* * Mach Operating System * Copyright (c) 1991,1990,1989,1988 Carnegie Mellon University * All Rights Reserved. - * + * * Permission to use, copy, modify and distribute this software and its * documentation is hereby granted, provided that both the copyright * notice and this permission notice appear in all copies of the * software, derivative works or modified versions, and any portions * thereof, and that both notices appear in supporting documentation. - * + * * CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS" * CONDITION. CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND FOR * ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE. - * + * * Carnegie Mellon requests users of this software to return to - * + * * Software Distribution Coordinator or Software.Distribution@CS.CMU.EDU * School of Computer Science * Carnegie Mellon University * Pittsburgh PA 15213-3890 - * + * * any improvements or extensions that they make and grant Carnegie Mellon * the rights to redistribute these changes. */ @@ -94,7 +94,9 @@ #include #include #include +#include #include +#include #include #include @@ -112,7 +114,7 @@ #include #include #include -#include /* for thread_wakeup */ +#include /* for thread_wakeup */ #include #include #include @@ -122,21 +124,32 @@ #include #include #include +#include +#include + #include #if CONFIG_TELEMETRY #include #endif +#if MONOTONIC +#include +#include +#endif /* MONOTONIC */ + +#include + #include #include -#include /* for kernel_map, ipc_kernel_map */ +#include /* for kernel_map, ipc_kernel_map */ #include #include #include +#include #include #include /* for coredump */ - +#include /* * Exported interfaces */ @@ -150,25 +163,34 @@ #include #include +#include + +#include #if CONFIG_ATM #include #endif -#include +#include /* picks up ledger.h */ + +#if CONFIG_MACF +#include +#endif #if KPERF extern int kpc_force_all_ctrs(task_t, int); #endif -uint32_t qos_override_mode; - -task_t kernel_task; -zone_t task_zone; +task_t kernel_task; +zone_t task_zone; lck_attr_t task_lck_attr; lck_grp_t task_lck_grp; lck_grp_attr_t task_lck_grp_attr; +extern int exc_via_corpse_forking; +extern int corpse_for_fatal_memkill; +extern boolean_t proc_send_synchronous_EXC_RESOURCE(void *p); + /* Flag set by core audio when audio is playing. Used to stifle EXC_RESOURCE generation when active. */ int audio_active = 0; @@ -176,38 +198,95 @@ zinfo_usage_store_t tasks_tkm_private; zinfo_usage_store_t tasks_tkm_shared; /* A container to accumulate statistics for expired tasks */ -expired_task_statistics_t dead_task_statistics; -lck_spin_t dead_task_statistics_lock; +expired_task_statistics_t dead_task_statistics; +lck_spin_t dead_task_statistics_lock; ledger_template_t task_ledger_template = NULL; -struct _task_ledger_indices task_ledgers __attribute__((used)) = - {-1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, - { 0 /* initialized at runtime */}, -#ifdef CONFIG_BANK - -1, -1, +SECURITY_READ_ONLY_LATE(struct _task_ledger_indices) task_ledgers __attribute__((used)) = +{.cpu_time = -1, + .tkm_private = -1, + .tkm_shared = -1, + .phys_mem = -1, + .wired_mem = -1, + .internal = -1, + .iokit_mapped = -1, + .alternate_accounting = -1, + .alternate_accounting_compressed = -1, + .page_table = -1, + .phys_footprint = -1, + .internal_compressed = -1, + .purgeable_volatile = -1, + .purgeable_nonvolatile = -1, + .purgeable_volatile_compressed = -1, + .purgeable_nonvolatile_compressed = -1, + .tagged_nofootprint = -1, + .tagged_footprint = -1, + .tagged_nofootprint_compressed = -1, + .tagged_footprint_compressed = -1, + .network_volatile = -1, + .network_nonvolatile = -1, + .network_volatile_compressed = -1, + .network_nonvolatile_compressed = -1, + .media_nofootprint = -1, + .media_footprint = -1, + .media_nofootprint_compressed = -1, + .media_footprint_compressed = -1, + .graphics_nofootprint = -1, + .graphics_footprint = -1, + .graphics_nofootprint_compressed = -1, + .graphics_footprint_compressed = -1, + .neural_nofootprint = -1, + .neural_footprint = -1, + .neural_nofootprint_compressed = -1, + .neural_footprint_compressed = -1, + .platform_idle_wakeups = -1, + .interrupt_wakeups = -1, +#if !CONFIG_EMBEDDED + .sfi_wait_times = { 0 /* initialized at runtime */}, +#endif /* !CONFIG_EMBEDDED */ + .cpu_time_billed_to_me = -1, + .cpu_time_billed_to_others = -1, + .physical_writes = -1, + .logical_writes = -1, + .logical_writes_to_external = -1, +#if DEBUG || DEVELOPMENT + .pages_grabbed = -1, + .pages_grabbed_kern = -1, + .pages_grabbed_iopl = -1, + .pages_grabbed_upl = -1, #endif - }; + .energy_billed_to_me = -1, + .energy_billed_to_others = -1}; + +/* System sleep state */ +boolean_t tasks_suspend_state; + void init_task_ledgers(void); void task_footprint_exceeded(int warning, __unused const void *param0, __unused const void *param1); void task_wakeups_rate_exceeded(int warning, __unused const void *param0, __unused const void *param1); -void __attribute__((noinline)) THIS_PROCESS_IS_CAUSING_TOO_MANY_WAKEUPS__SENDING_EXC_RESOURCE(void); -void __attribute__((noinline)) PROC_CROSSED_HIGH_WATERMARK__SEND_EXC_RESOURCE_AND_SUSPEND(int max_footprint_mb); +void task_io_rate_exceeded(int warning, const void *param0, __unused const void *param1); +void __attribute__((noinline)) SENDING_NOTIFICATION__THIS_PROCESS_IS_CAUSING_TOO_MANY_WAKEUPS(void); +void __attribute__((noinline)) PROC_CROSSED_HIGH_WATERMARK__SEND_EXC_RESOURCE_AND_SUSPEND(int max_footprint_mb, boolean_t is_fatal); +void __attribute__((noinline)) SENDING_NOTIFICATION__THIS_PROCESS_IS_CAUSING_TOO_MUCH_IO(int flavor); kern_return_t task_suspend_internal(task_t); kern_return_t task_resume_internal(task_t); static kern_return_t task_start_halt_locked(task_t task, boolean_t should_mark_corpse); +extern kern_return_t iokit_task_terminate(task_t task); +extern void iokit_task_app_suspended_changed(task_t task); -void proc_init_cpumon_params(void); extern kern_return_t exception_deliver(thread_t, exception_type_t, mach_exception_data_t, mach_msg_type_number_t, struct exception_action *, lck_mtx_t *); +extern void bsd_copythreadname(void *dst_uth, void *src_uth); +extern kern_return_t thread_resume(thread_t thread); // Warn tasks when they hit 80% of their memory limit. -#define PHYS_FOOTPRINT_WARNING_LEVEL 80 +#define PHYS_FOOTPRINT_WARNING_LEVEL 80 -#define TASK_WAKEUPS_MONITOR_DEFAULT_LIMIT 150 /* wakeups per second */ -#define TASK_WAKEUPS_MONITOR_DEFAULT_INTERVAL 300 /* in seconds. */ +#define TASK_WAKEUPS_MONITOR_DEFAULT_LIMIT 150 /* wakeups per second */ +#define TASK_WAKEUPS_MONITOR_DEFAULT_INTERVAL 300 /* in seconds. */ /* * Level (in terms of percentage of the limit) at which the wakeups monitor triggers telemetry. @@ -215,7 +294,7 @@ extern kern_return_t exception_deliver(thread_t, exception_type_t, mach_exceptio * (ie when the task's wakeups rate exceeds 70% of the limit, start taking user * stacktraces, aka micro-stackshots) */ -#define TASK_WAKEUPS_MONITOR_DEFAULT_USTACKSHOTS_TRIGGER 70 +#define TASK_WAKEUPS_MONITOR_DEFAULT_USTACKSHOTS_TRIGGER 70 int task_wakeups_monitor_interval; /* In seconds. Time period over which wakeups rate is observed */ int task_wakeups_monitor_rate; /* In hz. Maximum allowable wakeups per task before EXC_RESOURCE is sent */ @@ -225,63 +304,110 @@ int task_wakeups_monitor_ustackshots_trigger_pct; /* Percentage. Level at which int disable_exc_resource; /* Global override to supress EXC_RESOURCE for resource monitor violations. */ ledger_amount_t max_task_footprint = 0; /* Per-task limit on physical memory consumption in bytes */ +int max_task_footprint_warning_level = 0; /* Per-task limit warning percentage */ int max_task_footprint_mb = 0; /* Per-task limit on physical memory consumption in megabytes */ +/* I/O Monitor Limits */ +#define IOMON_DEFAULT_LIMIT (20480ull) /* MB of logical/physical I/O */ +#define IOMON_DEFAULT_INTERVAL (86400ull) /* in seconds */ + +uint64_t task_iomon_limit_mb; /* Per-task I/O monitor limit in MBs */ +uint64_t task_iomon_interval_secs; /* Per-task I/O monitor interval in secs */ + +#define IO_TELEMETRY_DEFAULT_LIMIT (10ll * 1024ll * 1024ll) +int64_t io_telemetry_limit; /* Threshold to take a microstackshot (0 indicated I/O telemetry is turned off) */ +int64_t global_logical_writes_count = 0; /* Global count for logical writes */ +int64_t global_logical_writes_to_external_count = 0; /* Global count for logical writes to external storage*/ +static boolean_t global_update_logical_writes(int64_t, int64_t*); + +#define TASK_MAX_THREAD_LIMIT 256 + #if MACH_ASSERT int pmap_ledgers_panic = 1; +int pmap_ledgers_panic_leeway = 3; #endif /* MACH_ASSERT */ int task_max = CONFIG_TASK_MAX; /* Max number of tasks */ +#if CONFIG_COREDUMP int hwm_user_cores = 0; /* high watermark violations generate user core files */ +#endif #ifdef MACH_BSD -extern void proc_getexecutableuuid(void *, unsigned char *, unsigned long); -extern int proc_pid(struct proc *p); -extern int proc_selfpid(void); -extern char *proc_name_address(struct proc *p); +extern uint32_t proc_platform(struct proc *); +extern uint32_t proc_sdk(struct proc *); +extern void proc_getexecutableuuid(void *, unsigned char *, unsigned long); +extern int proc_pid(struct proc *p); +extern int proc_selfpid(void); +extern struct proc *current_proc(void); +extern char *proc_name_address(struct proc *p); extern uint64_t get_dispatchqueue_offset_from_proc(void *); -#if CONFIG_JETSAM -extern void proc_memstat_terminated(struct proc* p, boolean_t set); -extern void memorystatus_on_ledger_footprint_exceeded(int warning, const int max_footprint_mb); +extern int kevent_proc_copy_uptrs(void *proc, uint64_t *buf, int bufsize); +extern void workq_proc_suspended(struct proc *p); +extern void workq_proc_resumed(struct proc *p); + +#if CONFIG_MEMORYSTATUS +extern void proc_memstat_terminated(struct proc* p, boolean_t set); +extern void memorystatus_on_ledger_footprint_exceeded(int warning, boolean_t memlimit_is_active, boolean_t memlimit_is_fatal); +extern void memorystatus_log_exception(const int max_footprint_mb, boolean_t memlimit_is_active, boolean_t memlimit_is_fatal); +extern boolean_t memorystatus_allowed_vm_map_fork(task_t task); +extern uint64_t memorystatus_available_memory_internal(proc_t p); + +#if DEVELOPMENT || DEBUG +extern void memorystatus_abort_vm_map_fork(task_t); #endif + +#endif /* CONFIG_MEMORYSTATUS */ + +#endif /* MACH_BSD */ + +#if DEVELOPMENT || DEBUG +int exc_resource_threads_enabled; +#endif /* DEVELOPMENT || DEBUG */ + +#if (DEVELOPMENT || DEBUG) +uint32_t task_exc_guard_default = TASK_EXC_GUARD_MP_DELIVER | TASK_EXC_GUARD_MP_ONCE | TASK_EXC_GUARD_MP_CORPSE | + TASK_EXC_GUARD_VM_DELIVER | TASK_EXC_GUARD_VM_ONCE | TASK_EXC_GUARD_VM_CORPSE; +#else +uint32_t task_exc_guard_default = 0; #endif -#if MACH_ASSERT -extern int pmap_ledgers_panic; -#endif /* MACH_ASSERT */ /* Forwards */ -void task_hold_locked( - task_t task); -void task_wait_locked( - task_t task, - boolean_t until_not_runnable); -void task_release_locked( - task_t task); -void task_free( - task_t task ); -void task_synchronizer_destroy_all( - task_t task); - -int check_for_tasksuspend( - task_t task); - -void -task_backing_store_privileged( - task_t task) -{ - task_lock(task); - task->priv_flags |= VM_BACKING_STORE_PRIV; - task_unlock(task); - return; -} +static void task_hold_locked(task_t task); +static void task_wait_locked(task_t task, boolean_t until_not_runnable); +static void task_release_locked(task_t task); + +static void task_synchronizer_destroy_all(task_t task); +static os_ref_count_t +task_add_turnstile_watchports_locked( + task_t task, + struct task_watchports *watchports, + struct task_watchport_elem **previous_elem_array, + ipc_port_t *portwatch_ports, + uint32_t portwatch_count); + +static os_ref_count_t +task_remove_turnstile_watchports_locked( + task_t task, + struct task_watchports *watchports, + ipc_port_t *port_freelist); + +static struct task_watchports * +task_watchports_alloc_init( + task_t task, + thread_t thread, + uint32_t count); +static void +task_watchports_deallocate( + struct task_watchports *watchports); void task_set_64bit( - task_t task, - boolean_t is64bit) + task_t task, + boolean_t is_64bit, + boolean_t is_64bit_data) { #if defined(__i386__) || defined(__x86_64__) || defined(__arm64__) thread_t thread; @@ -289,15 +415,36 @@ task_set_64bit( task_lock(task); - if (is64bit) { - if (task_has_64BitAddr(task)) + /* + * Switching to/from 64-bit address spaces + */ + if (is_64bit) { + if (!task_has_64Bit_addr(task)) { + task_set_64Bit_addr(task); + } + } else { + if (task_has_64Bit_addr(task)) { + task_clear_64Bit_addr(task); + } + } + + /* + * Switching to/from 64-bit register state. + */ + if (is_64bit_data) { + if (task_has_64Bit_data(task)) { goto out; - task_set_64BitAddr(task); + } + + task_set_64Bit_data(task); } else { - if ( !task_has_64BitAddr(task)) + if (!task_has_64Bit_data(task)) { goto out; - task_clear_64BitAddr(task); + } + + task_clear_64Bit_data(task); } + /* FIXME: On x86, the thread save state flavor can diverge from the * task's 64-bit feature flag due to the 32-bit/64-bit register save * state dichotomy. Since we can be pre-empted in this interval, @@ -305,21 +452,97 @@ task_set_64bit( * state with respect to its task's 64-bitness. */ -#if defined(__i386__) || defined(__x86_64__) || defined(__arm64__) +#if defined(__x86_64__) || defined(__arm64__) queue_iterate(&task->threads, thread, thread_t, task_threads) { thread_mtx_lock(thread); machine_thread_switch_addrmode(thread); thread_mtx_unlock(thread); + +#if defined(__arm64__) + /* specifically, if running on H9 */ + if (thread == current_thread()) { + uint64_t arg1, arg2; + int urgency; + spl_t spl = splsched(); + /* + * This call tell that the current thread changed it's 32bitness. + * Other thread were no more on core when 32bitness was changed, + * but current_thread() is on core and the previous call to + * machine_thread_going_on_core() gave 32bitness which is now wrong. + * + * This is needed for bring-up, a different callback should be used + * in the future. + * + * TODO: Remove this callout when we no longer support 32-bit code on H9 + */ + thread_lock(thread); + urgency = thread_get_urgency(thread, &arg1, &arg2); + machine_thread_going_on_core(thread, urgency, 0, 0, mach_approximate_time()); + thread_unlock(thread); + splx(spl); + } +#endif /* defined(__arm64__) */ } -#endif /* defined(__i386__) || defined(__x86_64__) || defined(__arm64__) */ +#endif /* defined(__x86_64__) || defined(__arm64__) */ out: task_unlock(task); } +boolean_t +task_get_64bit_data(task_t task) +{ + return task_has_64Bit_data(task); +} + +void +task_set_platform_binary( + task_t task, + boolean_t is_platform) +{ + task_lock(task); + if (is_platform) { + task->t_flags |= TF_PLATFORM; + /* set exc guard default behavior for first-party code */ + task->task_exc_guard = (task_exc_guard_default & TASK_EXC_GUARD_ALL); + } else { + task->t_flags &= ~(TF_PLATFORM); + /* set exc guard default behavior for third-party code */ + task->task_exc_guard = ((task_exc_guard_default >> TASK_EXC_GUARD_THIRD_PARTY_DEFAULT_SHIFT) & TASK_EXC_GUARD_ALL); + } + task_unlock(task); +} + +/* + * Set or clear per-task TF_CA_CLIENT_WI flag according to specified argument. + * Returns "false" if flag is already set, and "true" in other cases. + */ +bool +task_set_ca_client_wi( + task_t task, + boolean_t set_or_clear) +{ + bool ret = true; + task_lock(task); + if (set_or_clear) { + /* Tasks can have only one CA_CLIENT work interval */ + if (task->t_flags & TF_CA_CLIENT_WI) { + ret = false; + } else { + task->t_flags |= TF_CA_CLIENT_WI; + } + } else { + task->t_flags &= ~TF_CA_CLIENT_WI; + } + task_unlock(task); + return ret; +} void -task_set_dyld_info(task_t task, mach_vm_address_t addr, mach_vm_size_t size) +task_set_dyld_info( + task_t task, + mach_vm_address_t addr, + mach_vm_size_t size) { task_lock(task); task->all_image_info_addr = addr; @@ -328,62 +551,223 @@ task_set_dyld_info(task_t task, mach_vm_address_t addr, mach_vm_size_t size) } void -task_atm_reset(__unused task_t task) { +task_set_mach_header_address( + task_t task, + mach_vm_address_t addr) +{ + task_lock(task); + task->mach_header_vm_address = addr; + task_unlock(task); +} +void +task_atm_reset(__unused task_t task) +{ #if CONFIG_ATM if (task->atm_context != NULL) { - atm_task_descriptor_destroy(task->atm_context); - task->atm_context = NULL; + atm_task_descriptor_destroy(task->atm_context); + task->atm_context = NULL; } #endif +} +void +task_bank_reset(__unused task_t task) +{ + if (task->bank_context != NULL) { + bank_task_destroy(task); + } } -#if TASK_REFERENCE_LEAK_DEBUG -#include +/* + * NOTE: This should only be called when the P_LINTRANSIT + * flag is set (the proc_trans lock is held) on the + * proc associated with the task. + */ +void +task_bank_init(__unused task_t task) +{ + if (task->bank_context != NULL) { + panic("Task bank init called with non null bank context for task: %p and bank_context: %p", task, task->bank_context); + } + bank_task_initialize(task); +} -decl_simple_lock_data(static,task_ref_lock); -static btlog_t *task_ref_btlog; -#define TASK_REF_OP_INCR 0x1 -#define TASK_REF_OP_DECR 0x2 +void +task_set_did_exec_flag(task_t task) +{ + task->t_procflags |= TPF_DID_EXEC; +} -#define TASK_REF_BTDEPTH 7 +void +task_clear_exec_copy_flag(task_t task) +{ + task->t_procflags &= ~TPF_EXEC_COPY; +} -static void -task_ref_lock_lock(void *context) +event_t +task_get_return_wait_event(task_t task) { - simple_lock((simple_lock_t)context); + return (event_t)&task->returnwait_inheritor; } -static void -task_ref_lock_unlock(void *context) + +void +task_clear_return_wait(task_t task, uint32_t flags) +{ + if (flags & TCRW_CLEAR_INITIAL_WAIT) { + thread_wakeup(task_get_return_wait_event(task)); + } + + if (flags & TCRW_CLEAR_FINAL_WAIT) { + is_write_lock(task->itk_space); + + task->t_returnwaitflags &= ~TRW_LRETURNWAIT; + task->returnwait_inheritor = NULL; + + if (task->t_returnwaitflags & TRW_LRETURNWAITER) { + struct turnstile *turnstile = turnstile_prepare((uintptr_t) task_get_return_wait_event(task), + NULL, TURNSTILE_NULL, TURNSTILE_ULOCK); + + waitq_wakeup64_all(&turnstile->ts_waitq, + CAST_EVENT64_T(task_get_return_wait_event(task)), + THREAD_AWAKENED, 0); + + turnstile_update_inheritor(turnstile, NULL, + TURNSTILE_IMMEDIATE_UPDATE | TURNSTILE_INHERITOR_THREAD); + turnstile_update_inheritor_complete(turnstile, TURNSTILE_INTERLOCK_HELD); + + turnstile_complete((uintptr_t) task_get_return_wait_event(task), NULL, NULL, TURNSTILE_ULOCK); + turnstile_cleanup(); + task->t_returnwaitflags &= ~TRW_LRETURNWAITER; + } + is_write_unlock(task->itk_space); + } +} + +void __attribute__((noreturn)) +task_wait_to_return(void) +{ + task_t task = current_task(); + + is_write_lock(task->itk_space); + + if (task->t_returnwaitflags & TRW_LRETURNWAIT) { + struct turnstile *turnstile = turnstile_prepare((uintptr_t) task_get_return_wait_event(task), + NULL, TURNSTILE_NULL, TURNSTILE_ULOCK); + + do { + task->t_returnwaitflags |= TRW_LRETURNWAITER; + turnstile_update_inheritor(turnstile, task->returnwait_inheritor, + (TURNSTILE_DELAYED_UPDATE | TURNSTILE_INHERITOR_THREAD)); + + waitq_assert_wait64(&turnstile->ts_waitq, + CAST_EVENT64_T(task_get_return_wait_event(task)), + THREAD_UNINT, TIMEOUT_WAIT_FOREVER); + + is_write_unlock(task->itk_space); + + turnstile_update_inheritor_complete(turnstile, TURNSTILE_INTERLOCK_NOT_HELD); + + thread_block(THREAD_CONTINUE_NULL); + + is_write_lock(task->itk_space); + } while (task->t_returnwaitflags & TRW_LRETURNWAIT); + + turnstile_complete((uintptr_t) task_get_return_wait_event(task), NULL, NULL, TURNSTILE_ULOCK); + } + + is_write_unlock(task->itk_space); + turnstile_cleanup(); + + +#if CONFIG_MACF + /* + * Before jumping to userspace and allowing this process to execute any code, + * notify any interested parties. + */ + mac_proc_notify_exec_complete(current_proc()); +#endif + + thread_bootstrap_return(); +} + +#ifdef CONFIG_32BIT_TELEMETRY +boolean_t +task_consume_32bit_log_flag(task_t task) +{ + if ((task->t_procflags & TPF_LOG_32BIT_TELEMETRY) != 0) { + task->t_procflags &= ~TPF_LOG_32BIT_TELEMETRY; + return TRUE; + } else { + return FALSE; + } +} + +void +task_set_32bit_log_flag(task_t task) +{ + task->t_procflags |= TPF_LOG_32BIT_TELEMETRY; +} +#endif /* CONFIG_32BIT_TELEMETRY */ + +boolean_t +task_is_exec_copy(task_t task) +{ + return task_is_exec_copy_internal(task); +} + +boolean_t +task_did_exec(task_t task) +{ + return task_did_exec_internal(task); +} + +boolean_t +task_is_active(task_t task) +{ + return task->active; +} + +boolean_t +task_is_halting(task_t task) { - simple_unlock((simple_lock_t)context); + return task->halting; } +#if TASK_REFERENCE_LEAK_DEBUG +#include + +static btlog_t *task_ref_btlog; +#define TASK_REF_OP_INCR 0x1 +#define TASK_REF_OP_DECR 0x2 + +#define TASK_REF_NUM_RECORDS 100000 +#define TASK_REF_BTDEPTH 7 + void task_reference_internal(task_t task) { void * bt[TASK_REF_BTDEPTH]; int numsaved = 0; + os_ref_retain(&task->ref_count); + numsaved = OSBacktrace(bt, TASK_REF_BTDEPTH); - - (void)hw_atomic_add(&(task)->ref_count, 1); btlog_add_entry(task_ref_btlog, task, TASK_REF_OP_INCR, - bt, numsaved); + bt, numsaved); } -uint32_t +os_ref_count_t task_deallocate_internal(task_t task) { void * bt[TASK_REF_BTDEPTH]; int numsaved = 0; numsaved = OSBacktrace(bt, TASK_REF_BTDEPTH); - btlog_add_entry(task_ref_btlog, task, TASK_REF_OP_DECR, - bt, numsaved); - return hw_atomic_sub(&(task)->ref_count, 1); + bt, numsaved); + + return os_ref_release(&task->ref_count); } #endif /* TASK_REFERENCE_LEAK_DEBUG */ @@ -391,20 +775,24 @@ task_deallocate_internal(task_t task) void task_init(void) { - lck_grp_attr_setdefault(&task_lck_grp_attr); lck_grp_init(&task_lck_grp, "task", &task_lck_grp_attr); lck_attr_setdefault(&task_lck_attr); lck_mtx_init(&tasks_threads_lock, &task_lck_grp, &task_lck_attr); + lck_mtx_init(&tasks_corpse_lock, &task_lck_grp, &task_lck_attr); task_zone = zinit( - sizeof(struct task), - task_max * sizeof(struct task), - TASK_CHUNK * sizeof(struct task), - "tasks"); + sizeof(struct task), + task_max * sizeof(struct task), + TASK_CHUNK * sizeof(struct task), + "tasks"); zone_change(task_zone, Z_NOENCRYPT, TRUE); +#if CONFIG_EMBEDDED + task_watch_init(); +#endif /* CONFIG_EMBEDDED */ + /* * Configure per-task memory limit. * The boot-arg is interpreted as Megabytes, @@ -412,12 +800,12 @@ task_init(void) * Setting the boot-arg to 0 disables task limits. */ if (!PE_parse_boot_argn("max_task_pmem", &max_task_footprint_mb, - sizeof (max_task_footprint_mb))) { + sizeof(max_task_footprint_mb))) { /* * No limit was found in boot-args, so go look in the device tree. */ if (!PE_get_default("kern.max_task_pmem", &max_task_footprint_mb, - sizeof(max_task_footprint_mb))) { + sizeof(max_task_footprint_mb))) { /* * No limit was found in device tree. */ @@ -426,57 +814,105 @@ task_init(void) } if (max_task_footprint_mb != 0) { -#if CONFIG_JETSAM +#if CONFIG_MEMORYSTATUS if (max_task_footprint_mb < 50) { - printf("Warning: max_task_pmem %d below minimum.\n", - max_task_footprint_mb); - max_task_footprint_mb = 50; + printf("Warning: max_task_pmem %d below minimum.\n", + max_task_footprint_mb); + max_task_footprint_mb = 50; } printf("Limiting task physical memory footprint to %d MB\n", - max_task_footprint_mb); + max_task_footprint_mb); max_task_footprint = (ledger_amount_t)max_task_footprint_mb * 1024 * 1024; // Convert MB to bytes + + /* + * Configure the per-task memory limit warning level. + * This is computed as a percentage. + */ + max_task_footprint_warning_level = 0; + + if (max_mem < 0x40000000) { + /* + * On devices with < 1GB of memory: + * -- set warnings to 50MB below the per-task limit. + */ + if (max_task_footprint_mb > 50) { + max_task_footprint_warning_level = ((max_task_footprint_mb - 50) * 100) / max_task_footprint_mb; + } + } else { + /* + * On devices with >= 1GB of memory: + * -- set warnings to 100MB below the per-task limit. + */ + if (max_task_footprint_mb > 100) { + max_task_footprint_warning_level = ((max_task_footprint_mb - 100) * 100) / max_task_footprint_mb; + } + } + + /* + * Never allow warning level to land below the default. + */ + if (max_task_footprint_warning_level < PHYS_FOOTPRINT_WARNING_LEVEL) { + max_task_footprint_warning_level = PHYS_FOOTPRINT_WARNING_LEVEL; + } + + printf("Limiting task physical memory warning to %d%%\n", max_task_footprint_warning_level); + #else - printf("Warning: max_task_footprint specified, but jetsam not configured; ignoring.\n"); -#endif + printf("Warning: max_task_pmem specified, but jetsam not configured; ignoring.\n"); +#endif /* CONFIG_MEMORYSTATUS */ } -#if MACH_ASSERT - PE_parse_boot_argn("pmap_ledgers_panic", &pmap_ledgers_panic, - sizeof (pmap_ledgers_panic)); -#endif /* MACH_ASSERT */ +#if DEVELOPMENT || DEBUG + if (!PE_parse_boot_argn("exc_resource_threads", + &exc_resource_threads_enabled, + sizeof(exc_resource_threads_enabled))) { + exc_resource_threads_enabled = 1; + } + PE_parse_boot_argn("task_exc_guard_default", + &task_exc_guard_default, + sizeof(task_exc_guard_default)); +#endif /* DEVELOPMENT || DEBUG */ +#if CONFIG_COREDUMP if (!PE_parse_boot_argn("hwm_user_cores", &hwm_user_cores, - sizeof (hwm_user_cores))) { + sizeof(hwm_user_cores))) { hwm_user_cores = 0; } - - if (PE_parse_boot_argn("qos_override_mode", &qos_override_mode, sizeof(qos_override_mode))) { - printf("QOS override mode: 0x%08x\n", qos_override_mode); - } else { - qos_override_mode = QOS_OVERRIDE_MODE_FINE_GRAINED_OVERRIDE_BUT_SINGLE_MUTEX_OVERRIDE; - } +#endif proc_init_cpumon_params(); - if (!PE_parse_boot_argn("task_wakeups_monitor_rate", &task_wakeups_monitor_rate, sizeof (task_wakeups_monitor_rate))) { + if (!PE_parse_boot_argn("task_wakeups_monitor_rate", &task_wakeups_monitor_rate, sizeof(task_wakeups_monitor_rate))) { task_wakeups_monitor_rate = TASK_WAKEUPS_MONITOR_DEFAULT_LIMIT; } - if (!PE_parse_boot_argn("task_wakeups_monitor_interval", &task_wakeups_monitor_interval, sizeof (task_wakeups_monitor_interval))) { + if (!PE_parse_boot_argn("task_wakeups_monitor_interval", &task_wakeups_monitor_interval, sizeof(task_wakeups_monitor_interval))) { task_wakeups_monitor_interval = TASK_WAKEUPS_MONITOR_DEFAULT_INTERVAL; } if (!PE_parse_boot_argn("task_wakeups_monitor_ustackshots_trigger_pct", &task_wakeups_monitor_ustackshots_trigger_pct, - sizeof (task_wakeups_monitor_ustackshots_trigger_pct))) { + sizeof(task_wakeups_monitor_ustackshots_trigger_pct))) { task_wakeups_monitor_ustackshots_trigger_pct = TASK_WAKEUPS_MONITOR_DEFAULT_USTACKSHOTS_TRIGGER; } if (!PE_parse_boot_argn("disable_exc_resource", &disable_exc_resource, - sizeof (disable_exc_resource))) { + sizeof(disable_exc_resource))) { disable_exc_resource = 0; } + if (!PE_parse_boot_argn("task_iomon_limit_mb", &task_iomon_limit_mb, sizeof(task_iomon_limit_mb))) { + task_iomon_limit_mb = IOMON_DEFAULT_LIMIT; + } + + if (!PE_parse_boot_argn("task_iomon_interval_secs", &task_iomon_interval_secs, sizeof(task_iomon_interval_secs))) { + task_iomon_interval_secs = IOMON_DEFAULT_INTERVAL; + } + + if (!PE_parse_boot_argn("io_telemetry_limit", &io_telemetry_limit, sizeof(io_telemetry_limit))) { + io_telemetry_limit = IO_TELEMETRY_DEFAULT_LIMIT; + } + /* * If we have coalitions, coalition_init() will call init_task_ledgers() as it * sets up the ledgers for the default coalition. If we don't have coalitions, @@ -489,12 +925,7 @@ task_init(void) #endif /* CONFIG_COALITIONS */ #if TASK_REFERENCE_LEAK_DEBUG - simple_lock_init(&task_ref_lock, 0); - task_ref_btlog = btlog_create(100000, - TASK_REF_BTDEPTH, - task_ref_lock_lock, - task_ref_lock_unlock, - &task_ref_lock); + task_ref_btlog = btlog_create(TASK_REF_NUM_RECORDS, TASK_REF_BTDEPTH, TRUE /* caller_will_remove_entries_for_element? */); assert(task_ref_btlog); #endif @@ -502,16 +933,22 @@ task_init(void) * Create the kernel task as the first task. */ #ifdef __LP64__ - if (task_create_internal(TASK_NULL, NULL, FALSE, TRUE, &kernel_task) != KERN_SUCCESS) + if (task_create_internal(TASK_NULL, NULL, FALSE, TRUE, TRUE, TF_NONE, TPF_NONE, TWF_NONE, &kernel_task) != KERN_SUCCESS) #else - if (task_create_internal(TASK_NULL, NULL, FALSE, FALSE, &kernel_task) != KERN_SUCCESS) + if (task_create_internal(TASK_NULL, NULL, FALSE, FALSE, FALSE, TF_NONE, TPF_NONE, TWF_NONE, &kernel_task) != KERN_SUCCESS) +#endif + { panic("task_init\n");} + +#if defined(HAS_APPLE_PAC) + kernel_task->rop_pid = KERNEL_ROP_ID; + // kernel_task never runs at EL0, but machine_thread_state_convert_from/to_user() relies on + // disable_user_jop to be false for kernel threads (e.g. in exception delivery on thread_exception_daemon) + ml_task_set_disable_user_jop(kernel_task, FALSE); #endif - panic("task_init\n"); vm_map_deallocate(kernel_task->map); kernel_task->map = kernel_map; lck_spin_init(&dead_task_statistics_lock, &task_lck_grp, &task_lck_attr); - } /* @@ -520,54 +957,57 @@ task_init(void) */ kern_return_t kernel_task_create( - __unused task_t parent_task, - __unused vm_offset_t map_base, - __unused vm_size_t map_size, - __unused task_t *child_task) + __unused task_t parent_task, + __unused vm_offset_t map_base, + __unused vm_size_t map_size, + __unused task_t *child_task) { - return (KERN_INVALID_ARGUMENT); + return KERN_INVALID_ARGUMENT; } kern_return_t task_create( - task_t parent_task, - __unused ledger_port_array_t ledger_ports, - __unused mach_msg_type_number_t num_ledger_ports, - __unused boolean_t inherit_memory, - __unused task_t *child_task) /* OUT */ + task_t parent_task, + __unused ledger_port_array_t ledger_ports, + __unused mach_msg_type_number_t num_ledger_ports, + __unused boolean_t inherit_memory, + __unused task_t *child_task) /* OUT */ { - if (parent_task == TASK_NULL) - return(KERN_INVALID_ARGUMENT); + if (parent_task == TASK_NULL) { + return KERN_INVALID_ARGUMENT; + } /* * No longer supported: too many calls assume that a task has a valid * process attached. */ - return(KERN_FAILURE); + return KERN_FAILURE; } kern_return_t host_security_create_task_token( - host_security_t host_security, - task_t parent_task, - __unused security_token_t sec_token, - __unused audit_token_t audit_token, - __unused host_priv_t host_priv, - __unused ledger_port_array_t ledger_ports, - __unused mach_msg_type_number_t num_ledger_ports, - __unused boolean_t inherit_memory, - __unused task_t *child_task) /* OUT */ -{ - if (parent_task == TASK_NULL) - return(KERN_INVALID_ARGUMENT); - - if (host_security == HOST_NULL) - return(KERN_INVALID_SECURITY); + host_security_t host_security, + task_t parent_task, + __unused security_token_t sec_token, + __unused audit_token_t audit_token, + __unused host_priv_t host_priv, + __unused ledger_port_array_t ledger_ports, + __unused mach_msg_type_number_t num_ledger_ports, + __unused boolean_t inherit_memory, + __unused task_t *child_task) /* OUT */ +{ + if (parent_task == TASK_NULL) { + return KERN_INVALID_ARGUMENT; + } + + if (host_security == HOST_NULL) { + return KERN_INVALID_SECURITY; + } /* * No longer supported. */ - return(KERN_FAILURE); + return KERN_FAILURE; } /* @@ -581,6 +1021,7 @@ host_security_create_task_token( * + iokit_mapped * + purgeable_nonvolatile * + purgeable_nonvolatile_compressed + * + page_table * * internal * The task's anonymous memory, which on iOS is always resident. @@ -593,23 +1034,37 @@ host_security_create_task_token( * * iokit_mapped * IOKit mappings: The total size of all IOKit mappings in this task, regardless of - clean/dirty or internal/external state]. + * clean/dirty or internal/external state]. * * alternate_accounting * The number of internal dirty pages which are part of IOKit mappings. By definition, these pages * are counted in both internal *and* iokit_mapped, so we must subtract them from the total to avoid * double counting. + * + * pages_grabbed + * pages_grabbed counts all page grabs in a task. It is also broken out into three subtypes + * which track UPL, IOPL and Kernel page grabs. */ void init_task_ledgers(void) { ledger_template_t t; - + assert(task_ledger_template == NULL); assert(kernel_task == TASK_NULL); - if ((t = ledger_template_create("Per-task ledger")) == NULL) +#if MACH_ASSERT + PE_parse_boot_argn("pmap_ledgers_panic", + &pmap_ledgers_panic, + sizeof(pmap_ledgers_panic)); + PE_parse_boot_argn("pmap_ledgers_panic_leeway", + &pmap_ledgers_panic_leeway, + sizeof(pmap_ledgers_panic_leeway)); +#endif /* MACH_ASSERT */ + + if ((t = ledger_template_create("Per-task ledger")) == NULL) { panic("couldn't create task ledger template"); + } task_ledgers.cpu_time = ledger_entry_add(t, "cpu_time", "sched", "ns"); task_ledgers.tkm_private = ledger_entry_add(t, "tkm_private", @@ -623,24 +1078,54 @@ init_task_ledgers(void) task_ledgers.internal = ledger_entry_add(t, "internal", "physmem", "bytes"); task_ledgers.iokit_mapped = ledger_entry_add(t, "iokit_mapped", "mappings", - "bytes"); + "bytes"); task_ledgers.alternate_accounting = ledger_entry_add(t, "alternate_accounting", "physmem", - "bytes"); + "bytes"); task_ledgers.alternate_accounting_compressed = ledger_entry_add(t, "alternate_accounting_compressed", "physmem", - "bytes"); + "bytes"); + task_ledgers.page_table = ledger_entry_add(t, "page_table", "physmem", + "bytes"); task_ledgers.phys_footprint = ledger_entry_add(t, "phys_footprint", "physmem", - "bytes"); + "bytes"); task_ledgers.internal_compressed = ledger_entry_add(t, "internal_compressed", "physmem", - "bytes"); + "bytes"); task_ledgers.purgeable_volatile = ledger_entry_add(t, "purgeable_volatile", "physmem", "bytes"); task_ledgers.purgeable_nonvolatile = ledger_entry_add(t, "purgeable_nonvolatile", "physmem", "bytes"); task_ledgers.purgeable_volatile_compressed = ledger_entry_add(t, "purgeable_volatile_compress", "physmem", "bytes"); task_ledgers.purgeable_nonvolatile_compressed = ledger_entry_add(t, "purgeable_nonvolatile_compress", "physmem", "bytes"); +#if DEBUG || DEVELOPMENT + task_ledgers.pages_grabbed = ledger_entry_add(t, "pages_grabbed", "physmem", "count"); + task_ledgers.pages_grabbed_kern = ledger_entry_add(t, "pages_grabbed_kern", "physmem", "count"); + task_ledgers.pages_grabbed_iopl = ledger_entry_add(t, "pages_grabbed_iopl", "physmem", "count"); + task_ledgers.pages_grabbed_upl = ledger_entry_add(t, "pages_grabbed_upl", "physmem", "count"); +#endif + task_ledgers.tagged_nofootprint = ledger_entry_add(t, "tagged_nofootprint", "physmem", "bytes"); + task_ledgers.tagged_footprint = ledger_entry_add(t, "tagged_footprint", "physmem", "bytes"); + task_ledgers.tagged_nofootprint_compressed = ledger_entry_add(t, "tagged_nofootprint_compressed", "physmem", "bytes"); + task_ledgers.tagged_footprint_compressed = ledger_entry_add(t, "tagged_footprint_compressed", "physmem", "bytes"); + task_ledgers.network_volatile = ledger_entry_add(t, "network_volatile", "physmem", "bytes"); + task_ledgers.network_nonvolatile = ledger_entry_add(t, "network_nonvolatile", "physmem", "bytes"); + task_ledgers.network_volatile_compressed = ledger_entry_add(t, "network_volatile_compressed", "physmem", "bytes"); + task_ledgers.network_nonvolatile_compressed = ledger_entry_add(t, "network_nonvolatile_compressed", "physmem", "bytes"); + task_ledgers.media_nofootprint = ledger_entry_add(t, "media_nofootprint", "physmem", "bytes"); + task_ledgers.media_footprint = ledger_entry_add(t, "media_footprint", "physmem", "bytes"); + task_ledgers.media_nofootprint_compressed = ledger_entry_add(t, "media_nofootprint_compressed", "physmem", "bytes"); + task_ledgers.media_footprint_compressed = ledger_entry_add(t, "media_footprint_compressed", "physmem", "bytes"); + task_ledgers.graphics_nofootprint = ledger_entry_add(t, "graphics_nofootprint", "physmem", "bytes"); + task_ledgers.graphics_footprint = ledger_entry_add(t, "graphics_footprint", "physmem", "bytes"); + task_ledgers.graphics_nofootprint_compressed = ledger_entry_add(t, "graphics_nofootprint_compressed", "physmem", "bytes"); + task_ledgers.graphics_footprint_compressed = ledger_entry_add(t, "graphics_footprint_compressed", "physmem", "bytes"); + task_ledgers.neural_nofootprint = ledger_entry_add(t, "neural_nofootprint", "physmem", "bytes"); + task_ledgers.neural_footprint = ledger_entry_add(t, "neural_footprint", "physmem", "bytes"); + task_ledgers.neural_nofootprint_compressed = ledger_entry_add(t, "neural_nofootprint_compressed", "physmem", "bytes"); + task_ledgers.neural_footprint_compressed = ledger_entry_add(t, "neural_footprint_compressed", "physmem", "bytes"); + + task_ledgers.platform_idle_wakeups = ledger_entry_add(t, "platform_idle_wakeups", "power", - "count"); + "count"); task_ledgers.interrupt_wakeups = ledger_entry_add(t, "interrupt_wakeups", "power", - "count"); - + "count"); + #if CONFIG_SCHED_SFI sfi_class_id_t class_id, ledger_alias; for (class_id = SFI_CLASS_UNSPECIFIED; class_id < MAX_SFI_CLASS_ID; class_id++) { @@ -667,13 +1152,17 @@ init_task_ledgers(void) } } - assert(task_ledgers.sfi_wait_times[MAX_SFI_CLASS_ID -1] != -1); + assert(task_ledgers.sfi_wait_times[MAX_SFI_CLASS_ID - 1] != -1); #endif /* CONFIG_SCHED_SFI */ -#ifdef CONFIG_BANK task_ledgers.cpu_time_billed_to_me = ledger_entry_add(t, "cpu_time_billed_to_me", "sched", "ns"); task_ledgers.cpu_time_billed_to_others = ledger_entry_add(t, "cpu_time_billed_to_others", "sched", "ns"); -#endif + task_ledgers.physical_writes = ledger_entry_add(t, "physical_writes", "res", "bytes"); + task_ledgers.logical_writes = ledger_entry_add(t, "logical_writes", "res", "bytes"); + task_ledgers.logical_writes_to_external = ledger_entry_add(t, "logical_writes_to_external", "res", "bytes"); + task_ledgers.energy_billed_to_me = ledger_entry_add(t, "energy_billed_to_me", "power", "nj"); + task_ledgers.energy_billed_to_others = ledger_entry_add(t, "energy_billed_to_others", "power", "nj"); + if ((task_ledgers.cpu_time < 0) || (task_ledgers.tkm_private < 0) || (task_ledgers.tkm_shared < 0) || @@ -683,25 +1172,88 @@ init_task_ledgers(void) (task_ledgers.iokit_mapped < 0) || (task_ledgers.alternate_accounting < 0) || (task_ledgers.alternate_accounting_compressed < 0) || + (task_ledgers.page_table < 0) || (task_ledgers.phys_footprint < 0) || (task_ledgers.internal_compressed < 0) || (task_ledgers.purgeable_volatile < 0) || (task_ledgers.purgeable_nonvolatile < 0) || (task_ledgers.purgeable_volatile_compressed < 0) || (task_ledgers.purgeable_nonvolatile_compressed < 0) || + (task_ledgers.tagged_nofootprint < 0) || + (task_ledgers.tagged_footprint < 0) || + (task_ledgers.tagged_nofootprint_compressed < 0) || + (task_ledgers.tagged_footprint_compressed < 0) || + (task_ledgers.network_volatile < 0) || + (task_ledgers.network_nonvolatile < 0) || + (task_ledgers.network_volatile_compressed < 0) || + (task_ledgers.network_nonvolatile_compressed < 0) || + (task_ledgers.media_nofootprint < 0) || + (task_ledgers.media_footprint < 0) || + (task_ledgers.media_nofootprint_compressed < 0) || + (task_ledgers.media_footprint_compressed < 0) || + (task_ledgers.graphics_nofootprint < 0) || + (task_ledgers.graphics_footprint < 0) || + (task_ledgers.graphics_nofootprint_compressed < 0) || + (task_ledgers.graphics_footprint_compressed < 0) || + (task_ledgers.neural_nofootprint < 0) || + (task_ledgers.neural_footprint < 0) || + (task_ledgers.neural_nofootprint_compressed < 0) || + (task_ledgers.neural_footprint_compressed < 0) || (task_ledgers.platform_idle_wakeups < 0) || - (task_ledgers.interrupt_wakeups < 0) -#ifdef CONFIG_BANK - || (task_ledgers.cpu_time_billed_to_me < 0) || (task_ledgers.cpu_time_billed_to_others < 0) -#endif + (task_ledgers.interrupt_wakeups < 0) || + (task_ledgers.cpu_time_billed_to_me < 0) || (task_ledgers.cpu_time_billed_to_others < 0) || + (task_ledgers.physical_writes < 0) || + (task_ledgers.logical_writes < 0) || + (task_ledgers.logical_writes_to_external < 0) || + (task_ledgers.energy_billed_to_me < 0) || + (task_ledgers.energy_billed_to_others < 0) ) { panic("couldn't create entries for task ledger template"); } + ledger_track_credit_only(t, task_ledgers.phys_footprint); + ledger_track_credit_only(t, task_ledgers.page_table); + ledger_track_credit_only(t, task_ledgers.internal); + ledger_track_credit_only(t, task_ledgers.internal_compressed); + ledger_track_credit_only(t, task_ledgers.iokit_mapped); + ledger_track_credit_only(t, task_ledgers.alternate_accounting); + ledger_track_credit_only(t, task_ledgers.alternate_accounting_compressed); + ledger_track_credit_only(t, task_ledgers.purgeable_volatile); + ledger_track_credit_only(t, task_ledgers.purgeable_nonvolatile); + ledger_track_credit_only(t, task_ledgers.purgeable_volatile_compressed); + ledger_track_credit_only(t, task_ledgers.purgeable_nonvolatile_compressed); +#if DEBUG || DEVELOPMENT + ledger_track_credit_only(t, task_ledgers.pages_grabbed); + ledger_track_credit_only(t, task_ledgers.pages_grabbed_kern); + ledger_track_credit_only(t, task_ledgers.pages_grabbed_iopl); + ledger_track_credit_only(t, task_ledgers.pages_grabbed_upl); +#endif + ledger_track_credit_only(t, task_ledgers.tagged_nofootprint); + ledger_track_credit_only(t, task_ledgers.tagged_footprint); + ledger_track_credit_only(t, task_ledgers.tagged_nofootprint_compressed); + ledger_track_credit_only(t, task_ledgers.tagged_footprint_compressed); + ledger_track_credit_only(t, task_ledgers.network_volatile); + ledger_track_credit_only(t, task_ledgers.network_nonvolatile); + ledger_track_credit_only(t, task_ledgers.network_volatile_compressed); + ledger_track_credit_only(t, task_ledgers.network_nonvolatile_compressed); + ledger_track_credit_only(t, task_ledgers.media_nofootprint); + ledger_track_credit_only(t, task_ledgers.media_footprint); + ledger_track_credit_only(t, task_ledgers.media_nofootprint_compressed); + ledger_track_credit_only(t, task_ledgers.media_footprint_compressed); + ledger_track_credit_only(t, task_ledgers.graphics_nofootprint); + ledger_track_credit_only(t, task_ledgers.graphics_footprint); + ledger_track_credit_only(t, task_ledgers.graphics_nofootprint_compressed); + ledger_track_credit_only(t, task_ledgers.graphics_footprint_compressed); + ledger_track_credit_only(t, task_ledgers.neural_nofootprint); + ledger_track_credit_only(t, task_ledgers.neural_footprint); + ledger_track_credit_only(t, task_ledgers.neural_nofootprint_compressed); + ledger_track_credit_only(t, task_ledgers.neural_footprint_compressed); + ledger_track_maximum(t, task_ledgers.phys_footprint, 60); #if MACH_ASSERT if (pmap_ledgers_panic) { ledger_panic_on_negative(t, task_ledgers.phys_footprint); + ledger_panic_on_negative(t, task_ledgers.page_table); ledger_panic_on_negative(t, task_ledgers.internal); ledger_panic_on_negative(t, task_ledgers.internal_compressed); ledger_panic_on_negative(t, task_ledgers.iokit_mapped); @@ -711,47 +1263,86 @@ init_task_ledgers(void) ledger_panic_on_negative(t, task_ledgers.purgeable_nonvolatile); ledger_panic_on_negative(t, task_ledgers.purgeable_volatile_compressed); ledger_panic_on_negative(t, task_ledgers.purgeable_nonvolatile_compressed); + + ledger_panic_on_negative(t, task_ledgers.tagged_nofootprint); + ledger_panic_on_negative(t, task_ledgers.tagged_footprint); + ledger_panic_on_negative(t, task_ledgers.tagged_nofootprint_compressed); + ledger_panic_on_negative(t, task_ledgers.tagged_footprint_compressed); + ledger_panic_on_negative(t, task_ledgers.network_volatile); + ledger_panic_on_negative(t, task_ledgers.network_nonvolatile); + ledger_panic_on_negative(t, task_ledgers.network_volatile_compressed); + ledger_panic_on_negative(t, task_ledgers.network_nonvolatile_compressed); + ledger_panic_on_negative(t, task_ledgers.media_nofootprint); + ledger_panic_on_negative(t, task_ledgers.media_footprint); + ledger_panic_on_negative(t, task_ledgers.media_nofootprint_compressed); + ledger_panic_on_negative(t, task_ledgers.media_footprint_compressed); + ledger_panic_on_negative(t, task_ledgers.graphics_nofootprint); + ledger_panic_on_negative(t, task_ledgers.graphics_footprint); + ledger_panic_on_negative(t, task_ledgers.graphics_nofootprint_compressed); + ledger_panic_on_negative(t, task_ledgers.graphics_footprint_compressed); + ledger_panic_on_negative(t, task_ledgers.neural_nofootprint); + ledger_panic_on_negative(t, task_ledgers.neural_footprint); + ledger_panic_on_negative(t, task_ledgers.neural_nofootprint_compressed); + ledger_panic_on_negative(t, task_ledgers.neural_footprint_compressed); } #endif /* MACH_ASSERT */ -#if CONFIG_JETSAM +#if CONFIG_MEMORYSTATUS ledger_set_callback(t, task_ledgers.phys_footprint, task_footprint_exceeded, NULL, NULL); -#endif +#endif /* CONFIG_MEMORYSTATUS */ ledger_set_callback(t, task_ledgers.interrupt_wakeups, - task_wakeups_rate_exceeded, NULL, NULL); - + task_wakeups_rate_exceeded, NULL, NULL); + ledger_set_callback(t, task_ledgers.physical_writes, task_io_rate_exceeded, (void *)FLAVOR_IO_PHYSICAL_WRITES, NULL); + +#if XNU_MONITOR + ledger_template_complete_secure_alloc(t); +#else /* XNU_MONITOR */ + ledger_template_complete(t); +#endif /* XNU_MONITOR */ task_ledger_template = t; } +os_refgrp_decl(static, task_refgrp, "task", NULL); + kern_return_t task_create_internal( - task_t parent_task, - coalition_t *parent_coalitions __unused, - boolean_t inherit_memory, - boolean_t is_64bit, - task_t *child_task) /* OUT */ + task_t parent_task, + coalition_t *parent_coalitions __unused, + boolean_t inherit_memory, + __unused boolean_t is_64bit, + boolean_t is_64bit_data, + uint32_t t_flags, + uint32_t t_procflags, + uint8_t t_returnwaitflags, + task_t *child_task) /* OUT */ { - task_t new_task; - vm_shared_region_t shared_region; - ledger_t ledger = NULL; + task_t new_task; + vm_shared_region_t shared_region; + ledger_t ledger = NULL; new_task = (task_t) zalloc(task_zone); - if (new_task == TASK_NULL) - return(KERN_RESOURCE_SHORTAGE); + if (new_task == TASK_NULL) { + return KERN_RESOURCE_SHORTAGE; + } /* one ref for just being alive; one for our caller */ - new_task->ref_count = 2; + os_ref_init_count(&new_task->ref_count, &task_refgrp, 2); /* allocate with active entries */ assert(task_ledger_template != NULL); if ((ledger = ledger_instantiate(task_ledger_template, - LEDGER_CREATE_ACTIVE_ENTRIES)) == NULL) { + LEDGER_CREATE_ACTIVE_ENTRIES)) == NULL) { zfree(task_zone, new_task); - return(KERN_RESOURCE_SHORTAGE); + return KERN_RESOURCE_SHORTAGE; } +#if defined(HAS_APPLE_PAC) + ml_task_set_rop_pid(new_task, parent_task, inherit_memory); + ml_task_set_disable_user_jop(new_task, inherit_memory ? parent_task->disable_user_jop : FALSE); +#endif + new_task->ledger = ledger; #if defined(CONFIG_SCHED_MULTIQ) @@ -759,16 +1350,19 @@ task_create_internal( #endif /* if inherit_memory is true, parent_task MUST not be NULL */ - if (inherit_memory) - new_task->map = vm_map_fork(ledger, parent_task->map); - else - new_task->map = vm_map_create(pmap_create(ledger, 0, is_64bit), - (vm_map_offset_t)(VM_MIN_ADDRESS), - (vm_map_offset_t)(VM_MAX_ADDRESS), TRUE); + if (!(t_flags & TF_CORPSE_FORK) && inherit_memory) { + new_task->map = vm_map_fork(ledger, parent_task->map, 0); + } else { + unsigned int pmap_flags = is_64bit ? PMAP_CREATE_64BIT : 0; + new_task->map = vm_map_create(pmap_create_options(ledger, 0, pmap_flags), + (vm_map_offset_t)(VM_MIN_ADDRESS), + (vm_map_offset_t)(VM_MAX_ADDRESS), TRUE); + } /* Inherit memlock limit from parent */ - if (parent_task) + if (parent_task) { vm_map_set_user_wire_limit(new_task->map, (vm_size_t)parent_task->map->user_wire_limit); + } lck_mtx_init(&new_task->lock, &task_lck_grp, &task_lck_attr); queue_init(&new_task->threads); @@ -779,38 +1373,37 @@ task_create_internal( new_task->legacy_stop_count = 0; new_task->active = TRUE; new_task->halting = FALSE; - new_task->user_data = NULL; - new_task->faults = 0; - new_task->cow_faults = 0; - new_task->pageins = 0; - new_task->messages_sent = 0; - new_task->messages_received = 0; - new_task->syscalls_mach = 0; new_task->priv_flags = 0; - new_task->syscalls_unix=0; - new_task->c_switch = new_task->p_switch = new_task->ps_switch = 0; - new_task->t_flags = 0; + new_task->t_flags = t_flags; + new_task->t_procflags = t_procflags; + new_task->t_returnwaitflags = t_returnwaitflags; + new_task->returnwait_inheritor = current_thread(); new_task->importance = 0; + new_task->crashed_thread_id = 0; + new_task->exec_token = 0; + new_task->watchports = NULL; + new_task->restartable_ranges = NULL; + new_task->task_exc_guard = 0; #if CONFIG_ATM new_task->atm_context = NULL; #endif -#if CONFIG_BANK new_task->bank_context = NULL; -#endif - - zinfo_task_init(new_task); #ifdef MACH_BSD new_task->bsd_info = NULL; new_task->corpse_info = NULL; #endif /* MACH_BSD */ -#if CONFIG_JETSAM +#if CONFIG_MACF + new_task->crash_label = NULL; +#endif + +#if CONFIG_MEMORYSTATUS if (max_task_footprint != 0) { ledger_set_limit(ledger, task_ledgers.phys_footprint, max_task_footprint, PHYS_FOOTPRINT_WARNING_LEVEL); } -#endif +#endif /* CONFIG_MEMORYSTATUS */ if (task_wakeups_monitor_rate != 0) { uint32_t flags = WAKEMON_ENABLE | WAKEMON_SET_DEFAULTS; @@ -818,26 +1411,32 @@ task_create_internal( task_wakeups_monitor_ctl(new_task, &flags, &rate); } -#if defined(__i386__) || defined(__x86_64__) - new_task->i386_ldt = 0; -#endif +#if CONFIG_IO_ACCOUNTING + uint32_t flags = IOMON_ENABLE; + task_io_monitor_ctl(new_task, &flags); +#endif /* CONFIG_IO_ACCOUNTING */ + + machine_task_init(new_task, parent_task, inherit_memory); new_task->task_debug = NULL; +#if DEVELOPMENT || DEBUG + new_task->task_unnested = FALSE; + new_task->task_disconnected_count = 0; +#endif queue_init(&new_task->semaphore_list); new_task->semaphores_owned = 0; ipc_task_init(new_task, parent_task); - new_task->total_user_time = 0; - new_task->total_system_time = 0; - new_task->vtimers = 0; new_task->shared_region = NULL; new_task->affinity_space = NULL; + new_task->t_kpc = 0; + new_task->pidsuspended = FALSE; new_task->frozen = FALSE; new_task->changing_freeze_state = FALSE; @@ -854,24 +1453,19 @@ task_create_internal( new_task->hv_task_target = NULL; #endif /* HYPERVISOR */ +#if CONFIG_EMBEDDED + queue_init(&new_task->task_watchers); + new_task->num_taskwatchers = 0; + new_task->watchapplying = 0; +#endif /* CONFIG_EMBEDDED */ - new_task->low_mem_notified_warn = 0; - new_task->low_mem_notified_critical = 0; - new_task->low_mem_privileged_listener = 0; - new_task->purged_memory_warn = 0; - new_task->purged_memory_critical = 0; new_task->mem_notify_reserved = 0; -#if IMPORTANCE_INHERITANCE - new_task->task_imp_base = NULL; -#endif /* IMPORTANCE_INHERITANCE */ - -#if defined(__x86_64__) - new_task->uexc_range_start = new_task->uexc_range_size = new_task->uexc_handler = 0; -#endif + new_task->memlimit_attrs_reserved = 0; new_task->requested_policy = default_task_requested_policy; new_task->effective_policy = default_task_effective_policy; - new_task->pended_policy = default_task_pended_policy; + + task_importance_init_from_parent(new_task, parent_task); if (parent_task != TASK_NULL) { new_task->sec_token = parent_task->sec_token; @@ -881,71 +1475,47 @@ task_create_internal( shared_region = vm_shared_region_get(parent_task); vm_shared_region_set(new_task, shared_region); - if(task_has_64BitAddr(parent_task)) - task_set_64BitAddr(new_task); + if (task_has_64Bit_addr(parent_task)) { + task_set_64Bit_addr(new_task); + } + + if (task_has_64Bit_data(parent_task)) { + task_set_64Bit_data(new_task); + } + new_task->all_image_info_addr = parent_task->all_image_info_addr; new_task->all_image_info_size = parent_task->all_image_info_size; + new_task->mach_header_vm_address = 0; -#if defined(__i386__) || defined(__x86_64__) - if (inherit_memory && parent_task->i386_ldt) - new_task->i386_ldt = user_ldt_copy(parent_task->i386_ldt); -#endif - if (inherit_memory && parent_task->affinity_space) + if (inherit_memory && parent_task->affinity_space) { task_affinity_create(parent_task, new_task); + } new_task->pset_hint = parent_task->pset_hint = task_choose_pset(parent_task); -#if IMPORTANCE_INHERITANCE - ipc_importance_task_t new_task_imp = IIT_NULL; - - if (task_is_marked_importance_donor(parent_task)) { - new_task_imp = ipc_importance_for_task(new_task, FALSE); - assert(IIT_NULL != new_task_imp); - ipc_importance_task_mark_donor(new_task_imp, TRUE); - } - /* Embedded doesn't want this to inherit */ - if (task_is_marked_importance_receiver(parent_task)) { - if (IIT_NULL == new_task_imp) - new_task_imp = ipc_importance_for_task(new_task, FALSE); - assert(IIT_NULL != new_task_imp); - ipc_importance_task_mark_receiver(new_task_imp, TRUE); - } - if (task_is_marked_importance_denap_receiver(parent_task)) { - if (IIT_NULL == new_task_imp) - new_task_imp = ipc_importance_for_task(new_task, FALSE); - assert(IIT_NULL != new_task_imp); - ipc_importance_task_mark_denap_receiver(new_task_imp, TRUE); - } - - if (IIT_NULL != new_task_imp) { - assert(new_task->task_imp_base == new_task_imp); - ipc_importance_task_release(new_task_imp); +#if DEBUG || DEVELOPMENT + if (parent_task->t_flags & TF_NO_SMT) { + new_task->t_flags |= TF_NO_SMT; } -#endif /* IMPORTANCE_INHERITANCE */ +#endif new_task->priority = BASEPRI_DEFAULT; new_task->max_priority = MAXPRI_USER; - new_task->requested_policy.t_apptype = parent_task->requested_policy.t_apptype; - - new_task->requested_policy.int_darwinbg = parent_task->requested_policy.int_darwinbg; - new_task->requested_policy.ext_darwinbg = parent_task->requested_policy.ext_darwinbg; - new_task->requested_policy.int_iotier = parent_task->requested_policy.int_iotier; - new_task->requested_policy.ext_iotier = parent_task->requested_policy.ext_iotier; - new_task->requested_policy.int_iopassive = parent_task->requested_policy.int_iopassive; - new_task->requested_policy.ext_iopassive = parent_task->requested_policy.ext_iopassive; - new_task->requested_policy.bg_iotier = parent_task->requested_policy.bg_iotier; - new_task->requested_policy.terminated = parent_task->requested_policy.terminated; - new_task->requested_policy.t_qos_clamp = parent_task->requested_policy.t_qos_clamp; - - task_policy_create(new_task, parent_task->requested_policy.t_boosted); + task_policy_create(new_task, parent_task); } else { new_task->sec_token = KERNEL_SECURITY_TOKEN; new_task->audit_token = KERNEL_AUDIT_TOKEN; #ifdef __LP64__ - if(is_64bit) - task_set_64BitAddr(new_task); + if (is_64bit) { + task_set_64Bit_addr(new_task); + } #endif + + if (is_64bit_data) { + task_set_64Bit_data(new_task); + } + new_task->all_image_info_addr = (mach_vm_address_t)0; new_task->all_image_info_size = (mach_vm_size_t)0; @@ -961,35 +1531,95 @@ task_create_internal( } bzero(new_task->coalition, sizeof(new_task->coalition)); - for (int i = 0; i < COALITION_NUM_TYPES; i++) + for (int i = 0; i < COALITION_NUM_TYPES; i++) { queue_chain_init(new_task->task_coalition[i]); + } /* Allocate I/O Statistics */ new_task->task_io_stats = (io_stat_info_t)kalloc(sizeof(struct io_stat_info)); assert(new_task->task_io_stats != NULL); bzero(new_task->task_io_stats, sizeof(struct io_stat_info)); - bzero(&(new_task->cpu_time_qos_stats), sizeof(struct _cpu_time_qos_stats)); + bzero(&(new_task->cpu_time_eqos_stats), sizeof(new_task->cpu_time_eqos_stats)); + bzero(&(new_task->cpu_time_rqos_stats), sizeof(new_task->cpu_time_rqos_stats)); bzero(&new_task->extmod_statistics, sizeof(new_task->extmod_statistics)); - new_task->task_timer_wakeups_bin_1 = new_task->task_timer_wakeups_bin_2 = 0; - new_task->task_gpu_ns = 0; -#if CONFIG_COALITIONS + /* Copy resource acc. info from Parent for Corpe Forked task. */ + if (parent_task != NULL && (t_flags & TF_CORPSE_FORK)) { + task_rollup_accounting_info(new_task, parent_task); + } else { + /* Initialize to zero for standard fork/spawn case */ + new_task->total_user_time = 0; + new_task->total_system_time = 0; + new_task->total_ptime = 0; + new_task->total_runnable_time = 0; + new_task->faults = 0; + new_task->pageins = 0; + new_task->cow_faults = 0; + new_task->messages_sent = 0; + new_task->messages_received = 0; + new_task->syscalls_mach = 0; + new_task->syscalls_unix = 0; + new_task->c_switch = 0; + new_task->p_switch = 0; + new_task->ps_switch = 0; + new_task->decompressions = 0; + new_task->low_mem_notified_warn = 0; + new_task->low_mem_notified_critical = 0; + new_task->purged_memory_warn = 0; + new_task->purged_memory_critical = 0; + new_task->low_mem_privileged_listener = 0; + new_task->memlimit_is_active = 0; + new_task->memlimit_is_fatal = 0; + new_task->memlimit_active_exc_resource = 0; + new_task->memlimit_inactive_exc_resource = 0; + new_task->task_timer_wakeups_bin_1 = 0; + new_task->task_timer_wakeups_bin_2 = 0; + new_task->task_gpu_ns = 0; + new_task->task_writes_counters_internal.task_immediate_writes = 0; + new_task->task_writes_counters_internal.task_deferred_writes = 0; + new_task->task_writes_counters_internal.task_invalidated_writes = 0; + new_task->task_writes_counters_internal.task_metadata_writes = 0; + new_task->task_writes_counters_external.task_immediate_writes = 0; + new_task->task_writes_counters_external.task_deferred_writes = 0; + new_task->task_writes_counters_external.task_invalidated_writes = 0; + new_task->task_writes_counters_external.task_metadata_writes = 0; + + new_task->task_energy = 0; +#if MONOTONIC + memset(&new_task->task_monotonic, 0, sizeof(new_task->task_monotonic)); +#endif /* MONOTONIC */ + } - /* TODO: there is no graceful failure path here... */ - if (parent_coalitions && parent_coalitions[COALITION_TYPE_RESOURCE]) { - coalitions_adopt_task(parent_coalitions, new_task); - } else if (parent_task && parent_task->coalition[COALITION_TYPE_RESOURCE]) { + +#if CONFIG_COALITIONS + if (!(t_flags & TF_CORPSE_FORK)) { + /* TODO: there is no graceful failure path here... */ + if (parent_coalitions && parent_coalitions[COALITION_TYPE_RESOURCE]) { + coalitions_adopt_task(parent_coalitions, new_task); + } else if (parent_task && parent_task->coalition[COALITION_TYPE_RESOURCE]) { + /* + * all tasks at least have a resource coalition, so + * if the parent has one then inherit all coalitions + * the parent is a part of + */ + coalitions_adopt_task(parent_task->coalition, new_task); + } else { + /* TODO: assert that new_task will be PID 1 (launchd) */ + coalitions_adopt_init_task(new_task); + } /* - * all tasks at least have a resource coalition, so - * if the parent has one then inherit all coalitions - * the parent is a part of + * on exec, we need to transfer the coalition roles from the + * parent task to the exec copy task. */ - coalitions_adopt_task(parent_task->coalition, new_task); + if (parent_task && (t_procflags & TPF_EXEC_COPY)) { + int coal_roles[COALITION_NUM_TYPES]; + task_coalition_roles(parent_task, coal_roles); + (void)coalitions_set_roles(new_task->coalition, new_task, coal_roles); + } } else { - /* TODO: assert that new_task will be PID 1 (launchd) */ - coalitions_adopt_init_task(new_task); + coalitions_adopt_corpse_task(new_task); } if (new_task->coalition[COALITION_TYPE_RESOURCE] == COALITION_NULL) { @@ -1002,23 +1632,117 @@ task_create_internal( new_task->dispatchqueue_offset = parent_task->dispatchqueue_offset; } - if (vm_backing_store_low && parent_task != NULL) - new_task->priv_flags |= (parent_task->priv_flags&VM_BACKING_STORE_PRIV); - + new_task->task_can_transfer_memory_ownership = FALSE; new_task->task_volatile_objects = 0; new_task->task_nonvolatile_objects = 0; - new_task->task_purgeable_disowning = FALSE; - new_task->task_purgeable_disowned = FALSE; + new_task->task_objects_disowning = FALSE; + new_task->task_objects_disowned = FALSE; + new_task->task_owned_objects = 0; + queue_init(&new_task->task_objq); + task_objq_lock_init(new_task); + +#if __arm64__ + new_task->task_legacy_footprint = FALSE; + new_task->task_extra_footprint_limit = FALSE; + new_task->task_ios13extended_footprint_limit = FALSE; +#endif /* __arm64__ */ + new_task->task_region_footprint = FALSE; + new_task->task_has_crossed_thread_limit = FALSE; + new_task->task_thread_limit = 0; +#if CONFIG_SECLUDED_MEMORY + new_task->task_can_use_secluded_mem = FALSE; + new_task->task_could_use_secluded_mem = FALSE; + new_task->task_could_also_use_secluded_mem = FALSE; + new_task->task_suppressed_secluded = FALSE; +#endif /* CONFIG_SECLUDED_MEMORY */ + + /* + * t_flags is set up above. But since we don't + * support darkwake mode being set that way + * currently, we clear it out here explicitly. + */ + new_task->t_flags &= ~(TF_DARKWAKE_MODE); + + queue_init(&new_task->io_user_clients); + new_task->loadTag = 0; ipc_task_enable(new_task); lck_mtx_lock(&tasks_threads_lock); queue_enter(&tasks, new_task, task_t, tasks); tasks_count++; + if (tasks_suspend_state) { + task_suspend_internal(new_task); + } lck_mtx_unlock(&tasks_threads_lock); *child_task = new_task; - return(KERN_SUCCESS); + return KERN_SUCCESS; +} + +/* + * task_rollup_accounting_info + * + * Roll up accounting stats. Used to rollup stats + * for exec copy task and corpse fork. + */ +void +task_rollup_accounting_info(task_t to_task, task_t from_task) +{ + assert(from_task != to_task); + + to_task->total_user_time = from_task->total_user_time; + to_task->total_system_time = from_task->total_system_time; + to_task->total_ptime = from_task->total_ptime; + to_task->total_runnable_time = from_task->total_runnable_time; + to_task->faults = from_task->faults; + to_task->pageins = from_task->pageins; + to_task->cow_faults = from_task->cow_faults; + to_task->decompressions = from_task->decompressions; + to_task->messages_sent = from_task->messages_sent; + to_task->messages_received = from_task->messages_received; + to_task->syscalls_mach = from_task->syscalls_mach; + to_task->syscalls_unix = from_task->syscalls_unix; + to_task->c_switch = from_task->c_switch; + to_task->p_switch = from_task->p_switch; + to_task->ps_switch = from_task->ps_switch; + to_task->extmod_statistics = from_task->extmod_statistics; + to_task->low_mem_notified_warn = from_task->low_mem_notified_warn; + to_task->low_mem_notified_critical = from_task->low_mem_notified_critical; + to_task->purged_memory_warn = from_task->purged_memory_warn; + to_task->purged_memory_critical = from_task->purged_memory_critical; + to_task->low_mem_privileged_listener = from_task->low_mem_privileged_listener; + *to_task->task_io_stats = *from_task->task_io_stats; + to_task->cpu_time_eqos_stats = from_task->cpu_time_eqos_stats; + to_task->cpu_time_rqos_stats = from_task->cpu_time_rqos_stats; + to_task->task_timer_wakeups_bin_1 = from_task->task_timer_wakeups_bin_1; + to_task->task_timer_wakeups_bin_2 = from_task->task_timer_wakeups_bin_2; + to_task->task_gpu_ns = from_task->task_gpu_ns; + to_task->task_writes_counters_internal.task_immediate_writes = from_task->task_writes_counters_internal.task_immediate_writes; + to_task->task_writes_counters_internal.task_deferred_writes = from_task->task_writes_counters_internal.task_deferred_writes; + to_task->task_writes_counters_internal.task_invalidated_writes = from_task->task_writes_counters_internal.task_invalidated_writes; + to_task->task_writes_counters_internal.task_metadata_writes = from_task->task_writes_counters_internal.task_metadata_writes; + to_task->task_writes_counters_external.task_immediate_writes = from_task->task_writes_counters_external.task_immediate_writes; + to_task->task_writes_counters_external.task_deferred_writes = from_task->task_writes_counters_external.task_deferred_writes; + to_task->task_writes_counters_external.task_invalidated_writes = from_task->task_writes_counters_external.task_invalidated_writes; + to_task->task_writes_counters_external.task_metadata_writes = from_task->task_writes_counters_external.task_metadata_writes; + to_task->task_energy = from_task->task_energy; + + /* Skip ledger roll up for memory accounting entries */ + ledger_rollup_entry(to_task->ledger, from_task->ledger, task_ledgers.cpu_time); + ledger_rollup_entry(to_task->ledger, from_task->ledger, task_ledgers.platform_idle_wakeups); + ledger_rollup_entry(to_task->ledger, from_task->ledger, task_ledgers.interrupt_wakeups); +#if CONFIG_SCHED_SFI + for (sfi_class_id_t class_id = SFI_CLASS_UNSPECIFIED; class_id < MAX_SFI_CLASS_ID; class_id++) { + ledger_rollup_entry(to_task->ledger, from_task->ledger, task_ledgers.sfi_wait_times[class_id]); + } +#endif + ledger_rollup_entry(to_task->ledger, from_task->ledger, task_ledgers.cpu_time_billed_to_me); + ledger_rollup_entry(to_task->ledger, from_task->ledger, task_ledgers.cpu_time_billed_to_others); + ledger_rollup_entry(to_task->ledger, from_task->ledger, task_ledgers.physical_writes); + ledger_rollup_entry(to_task->ledger, from_task->ledger, task_ledgers.logical_writes); + ledger_rollup_entry(to_task->ledger, from_task->ledger, task_ledgers.energy_billed_to_me); + ledger_rollup_entry(to_task->ledger, from_task->ledger, task_ledgers.energy_billed_to_others); } int task_dropped_imp_count = 0; @@ -1030,38 +1754,49 @@ int task_dropped_imp_count = 0; */ void task_deallocate( - task_t task) + task_t task) { ledger_amount_t credit, debit, interrupt_wakeups, platform_idle_wakeups; - uint32_t refs; + os_ref_count_t refs; - if (task == TASK_NULL) - return; + if (task == TASK_NULL) { + return; + } refs = task_deallocate_internal(task); #if IMPORTANCE_INHERITANCE - if (refs > 1) - return; - if (refs == 1) { /* * If last ref potentially comes from the task's importance, * disconnect it. But more task refs may be added before * that completes, so wait for the reference to go to zero - * naturually (it may happen on a recursive task_deallocate() + * naturally (it may happen on a recursive task_deallocate() * from the ipc_importance_disconnect_task() call). */ - if (IIT_NULL != task->task_imp_base) + if (IIT_NULL != task->task_imp_base) { ipc_importance_disconnect_task(task); + } return; } -#else - if (refs > 0) - return; #endif /* IMPORTANCE_INHERITANCE */ + if (refs > 0) { + return; + } + + /* + * The task should be dead at this point. Ensure other resources + * like threads, are gone before we trash the world. + */ + assert(queue_empty(&task->threads)); + assert(task->bsd_info == NULL); + assert(!is_active(task->itk_space)); + assert(!task->active); + assert(task->active_thread_count == 0); + lck_mtx_lock(&tasks_threads_lock); + assert(terminated_tasks_count > 0); queue_remove(&terminated_tasks, task, task_t, tasks); terminated_tasks_count--; lck_mtx_unlock(&tasks_threads_lock); @@ -1069,20 +1804,16 @@ task_deallocate( /* * remove the reference on atm descriptor */ - task_atm_reset(task); + task_atm_reset(task); -#if CONFIG_BANK /* * remove the reference on bank context */ - if (task->bank_context != NULL) { - bank_task_destroy(task->bank_context); - task->bank_context = NULL; - } -#endif + task_bank_reset(task); - if (task->task_io_stats) + if (task->task_io_stats) { kfree(task->task_io_stats, sizeof(struct io_stat_info)); + } /* * Give the machine dependent code a chance @@ -1093,8 +1824,12 @@ task_deallocate( ipc_task_terminate(task); - if (task->affinity_space) + /* let iokit know */ + iokit_task_terminate(task); + + if (task->affinity_space) { task_affinity_deallocate(task); + } #if MACH_ASSERT if (task->ledger != NULL && @@ -1105,24 +1840,29 @@ task_deallocate( } #endif /* MACH_ASSERT */ - vm_purgeable_disown(task); - assert(task->task_purgeable_disowned); + vm_owned_objects_disown(task); + assert(task->task_objects_disowned); if (task->task_volatile_objects != 0 || - task->task_nonvolatile_objects != 0) { + task->task_nonvolatile_objects != 0 || + task->task_owned_objects != 0) { panic("task_deallocate(%p): " - "volatile_objects=%d nonvolatile_objects=%d\n", - task, - task->task_volatile_objects, - task->task_nonvolatile_objects); + "volatile_objects=%d nonvolatile_objects=%d owned=%d\n", + task, + task->task_volatile_objects, + task->task_nonvolatile_objects, + task->task_owned_objects); } vm_map_deallocate(task->map); is_release(task->itk_space); + if (task->restartable_ranges) { + restartable_ranges_release(task->restartable_ranges); + } ledger_get_entries(task->ledger, task_ledgers.interrupt_wakeups, - &interrupt_wakeups, &debit); + &interrupt_wakeups, &debit); ledger_get_entries(task->ledger, task_ledgers.platform_idle_wakeups, - &platform_idle_wakeups, &debit); + &platform_idle_wakeups, &debit); #if defined(CONFIG_SCHED_MULTIQ) sched_group_destroy(task->sched_group); @@ -1138,6 +1878,10 @@ task_deallocate( dead_task_statistics.task_timer_wakeups_bin_1 += task->task_timer_wakeups_bin_1; dead_task_statistics.task_timer_wakeups_bin_2 += task->task_timer_wakeups_bin_2; + dead_task_statistics.total_ptime += task->total_ptime; + dead_task_statistics.total_pset_switches += task->ps_switch; + dead_task_statistics.task_gpu_ns += task->task_gpu_ns; + dead_task_statistics.task_energy += task->task_energy; lck_spin_unlock(&dead_task_statistics_lock); lck_mtx_destroy(&task->lock, &task_lck_grp); @@ -1153,15 +1897,12 @@ task_deallocate( OSAddAtomic64(debit, (int64_t *)&tasks_tkm_shared.free); } ledger_dereference(task->ledger); - zinfo_task_free(task); #if TASK_REFERENCE_LEAK_DEBUG btlog_remove_entries_for_element(task_ref_btlog, task); #endif #if CONFIG_COALITIONS - if (!task->coalition[COALITION_TYPE_RESOURCE]) - panic("deallocating task was not a member of a resource coalition"); task_release_coalitions(task); #endif /* CONFIG_COALITIONS */ @@ -1170,11 +1911,24 @@ task_deallocate( #if MACH_BSD /* clean up collected information since last reference to task is gone */ if (task->corpse_info) { + void *corpse_info_kernel = kcdata_memory_get_begin_addr(task->corpse_info); task_crashinfo_destroy(task->corpse_info); task->corpse_info = NULL; + if (corpse_info_kernel) { + kfree(corpse_info_kernel, CORPSEINFO_ALLOCATION_SIZE); + } } #endif +#if CONFIG_MACF + if (task->crash_label) { + mac_exc_free_label(task->crash_label); + task->crash_label = NULL; + } +#endif + + assert(queue_empty(&task->task_objq)); + zfree(task_zone, task); } @@ -1185,9 +1939,21 @@ task_deallocate( */ void task_name_deallocate( - task_name_t task_name) + task_name_t task_name) { - return(task_deallocate((task_t)task_name)); + return task_deallocate((task_t)task_name); +} + +/* + * task_inspect_deallocate: + * + * Drop a task inspection reference. + */ +void +task_inspect_deallocate( + task_inspect_t task_inspect) +{ + return task_deallocate((task_t)task_inspect); } /* @@ -1197,9 +1963,9 @@ task_name_deallocate( */ void task_suspension_token_deallocate( - task_suspension_token_t token) + task_suspension_token_t token) { - return(task_deallocate((task_t)token)); + return task_deallocate((task_t)token); } @@ -1209,52 +1975,86 @@ task_suspension_token_deallocate( * collect crash info from bsd and mach based data */ kern_return_t -task_collect_crash_info(task_t task) +task_collect_crash_info( + task_t task, +#ifdef CONFIG_MACF + struct label *crash_label, +#endif + int is_corpse_fork) { kern_return_t kr = KERN_SUCCESS; kcdata_descriptor_t crash_data = NULL; kcdata_descriptor_t crash_data_release = NULL; mach_msg_type_number_t size = CORPSEINFO_ALLOCATION_SIZE; - mach_vm_offset_t crash_data_user_ptr = 0; + mach_vm_offset_t crash_data_ptr = 0; + void *crash_data_kernel = NULL; + void *crash_data_kernel_release = NULL; +#if CONFIG_MACF + struct label *label, *free_label; +#endif if (!corpses_enabled()) { return KERN_NOT_SUPPORTED; } +#if CONFIG_MACF + free_label = label = mac_exc_create_label(); +#endif + task_lock(task); - assert(task->bsd_info != NULL); - if (task->corpse_info == NULL && task->bsd_info != NULL) { + + assert(is_corpse_fork || task->bsd_info != NULL); + if (task->corpse_info == NULL && (is_corpse_fork || task->bsd_info != NULL)) { +#if CONFIG_MACF + /* Set the crash label, used by the exception delivery mac hook */ + free_label = task->crash_label; // Most likely NULL. + task->crash_label = label; + mac_exc_update_task_crash_label(task, crash_label); +#endif task_unlock(task); - /* map crash data memory in task's vm map */ - kr = mach_vm_allocate(task->map, &crash_data_user_ptr, size, (VM_MAKE_TAG(VM_MEMORY_CORPSEINFO) | VM_FLAGS_ANYWHERE)); - if (kr != KERN_SUCCESS) + crash_data_kernel = (void *) kalloc(CORPSEINFO_ALLOCATION_SIZE); + if (crash_data_kernel == NULL) { + kr = KERN_RESOURCE_SHORTAGE; goto out_no_lock; + } + bzero(crash_data_kernel, CORPSEINFO_ALLOCATION_SIZE); + crash_data_ptr = (mach_vm_offset_t) crash_data_kernel; - crash_data = task_crashinfo_alloc_init((mach_vm_address_t)crash_data_user_ptr, size); + /* Do not get a corpse ref for corpse fork */ + crash_data = task_crashinfo_alloc_init((mach_vm_address_t)crash_data_ptr, size, + is_corpse_fork ? 0 : CORPSE_CRASHINFO_HAS_REF, + KCFLAG_USE_MEMCOPY); if (crash_data) { task_lock(task); crash_data_release = task->corpse_info; + crash_data_kernel_release = kcdata_memory_get_begin_addr(crash_data_release); task->corpse_info = crash_data; + task_unlock(task); kr = KERN_SUCCESS; } else { - /* if failed to create corpse info, free the mapping */ - if (KERN_SUCCESS != mach_vm_deallocate(task->map, crash_data_user_ptr, size)) { - printf("mach_vm_deallocate failed to clear corpse_data for pid %d.\n", task_pid(task)); - } + kfree(crash_data_kernel, CORPSEINFO_ALLOCATION_SIZE); kr = KERN_FAILURE; } if (crash_data_release != NULL) { task_crashinfo_destroy(crash_data_release); } + if (crash_data_kernel_release != NULL) { + kfree(crash_data_kernel_release, CORPSEINFO_ALLOCATION_SIZE); + } } else { task_unlock(task); } out_no_lock: +#if CONFIG_MACF + if (free_label != NULL) { + mac_exc_free_label(free_label); + } +#endif return kr; } @@ -1264,58 +2064,68 @@ out_no_lock: * Makes outcall to registered host port for a corpse. */ kern_return_t -task_deliver_crash_notification(task_t task) +task_deliver_crash_notification( + task_t task, + thread_t thread, + exception_type_t etype, + mach_exception_subcode_t subcode) { kcdata_descriptor_t crash_info = task->corpse_info; thread_t th_iter = NULL; kern_return_t kr = KERN_SUCCESS; wait_interrupt_t wsave; mach_exception_data_type_t code[EXCEPTION_CODE_MAX]; + ipc_port_t task_port, old_notify; - if (crash_info == NULL) + if (crash_info == NULL) { return KERN_FAILURE; - - code[0] = crash_info->kcd_addr_begin; - code[1] = crash_info->kcd_length; + } task_lock(task); + if (task_is_a_corpse_fork(task)) { + /* Populate code with EXC_{RESOURCE,GUARD} for corpse fork */ + code[0] = etype; + code[1] = subcode; + } else { + /* Populate code with EXC_CRASH for corpses */ + code[0] = EXC_CRASH; + code[1] = 0; + /* Update the code[1] if the boot-arg corpse_for_fatal_memkill is set */ + if (corpse_for_fatal_memkill) { + code[1] = subcode; + } + } + queue_iterate(&task->threads, th_iter, thread_t, task_threads) { - ipc_thread_reset(th_iter); + if (th_iter->corpse_dup == FALSE) { + ipc_thread_reset(th_iter); + } } task_unlock(task); + /* Arm the no-sender notification for taskport */ + task_reference(task); + task_port = convert_task_to_port(task); + ip_lock(task_port); + require_ip_active(task_port); + ipc_port_nsrequest(task_port, task_port->ip_mscount, ipc_port_make_sonce_locked(task_port), &old_notify); + /* port unlocked */ + assert(IP_NULL == old_notify); + wsave = thread_interrupt_level(THREAD_UNINT); - kr = exception_triage(EXC_CORPSE_NOTIFY, code, EXCEPTION_CODE_MAX); + kr = exception_triage_thread(EXC_CORPSE_NOTIFY, code, EXCEPTION_CODE_MAX, thread); if (kr != KERN_SUCCESS) { printf("Failed to send exception EXC_CORPSE_NOTIFY. error code: %d for pid %d\n", kr, task_pid(task)); } - /* - * crash reporting is done. Now release threads - * for reaping by thread_terminate_daemon - */ - task_lock(task); - assert(task->active_thread_count == 0); - queue_iterate(&task->threads, th_iter, thread_t, task_threads) - { - thread_mtx_lock(th_iter); - assert(th_iter->inspection == TRUE); - th_iter->inspection = FALSE; - /* now that the corpse has been autopsied, dispose of the thread name */ - uthread_cleanup_name(th_iter->uthread); - thread_mtx_unlock(th_iter); - } - - thread_terminate_crashed_threads(); - /* remove the pending corpse report flag */ - task_clear_corpse_pending_report(task); - - task_unlock(task); - (void)thread_interrupt_level(wsave); - task_terminate_internal(task); + /* + * Drop the send right on task port, will fire the + * no-sender notification if exception deliver failed. + */ + ipc_port_release_send(task_port); return kr; } @@ -1328,15 +2138,17 @@ task_deliver_crash_notification(task_t task) kern_return_t task_terminate( - task_t task) + task_t task) { - if (task == TASK_NULL) - return (KERN_INVALID_ARGUMENT); + if (task == TASK_NULL) { + return KERN_INVALID_ARGUMENT; + } - if (task->bsd_info) - return (KERN_FAILURE); + if (task->bsd_info) { + return KERN_FAILURE; + } - return (task_terminate_internal(task)); + return task_terminate_internal(task); } #if MACH_ASSERT @@ -1348,19 +2160,19 @@ extern void proc_name_kdp(task_t t, char *buf, int size); static void __unused task_partial_reap(task_t task, __unused int pid) { - unsigned int reclaimed_resident = 0; - unsigned int reclaimed_compressed = 0; + unsigned int reclaimed_resident = 0; + unsigned int reclaimed_compressed = 0; uint64_t task_page_count; task_page_count = (get_task_phys_footprint(task) / PAGE_SIZE_64); KERNEL_DEBUG_CONSTANT((MACHDBG_CODE(DBG_MACH_VM, VM_MAP_PARTIAL_REAP) | DBG_FUNC_START), - pid, task_page_count, 0, 0, 0); + pid, task_page_count, 0, 0, 0); vm_map_partial_reap(task->map, &reclaimed_resident, &reclaimed_compressed); - KERNEL_DEBUG_CONSTANT((MACHDBG_CODE(DBG_MACH_VM, VM_MAP_PARTIAL_REAP) | DBG_FUNC_END), - pid, reclaimed_resident, reclaimed_compressed, 0, 0); + KERNEL_DEBUG_CONSTANT((MACHDBG_CODE(DBG_MACH_VM, VM_MAP_PARTIAL_REAP) | DBG_FUNC_END), + pid, reclaimed_resident, reclaimed_compressed, 0, 0); } kern_return_t @@ -1370,14 +2182,25 @@ task_mark_corpse(task_t task) thread_t self_thread; (void) self_thread; wait_interrupt_t wsave; +#if CONFIG_MACF + struct label *crash_label = NULL; +#endif assert(task != kernel_task); assert(task == current_task()); assert(!task_is_a_corpse(task)); - kr = task_collect_crash_info(task); +#if CONFIG_MACF + crash_label = mac_exc_create_label_for_proc((struct proc*)task->bsd_info); +#endif + + kr = task_collect_crash_info(task, +#if CONFIG_MACF + crash_label, +#endif + FALSE); if (kr != KERN_SUCCESS) { - return kr; + goto out; } self_thread = current_thread(); @@ -1387,99 +2210,377 @@ task_mark_corpse(task_t task) task_set_corpse_pending_report(task); task_set_corpse(task); + task->crashed_thread_id = thread_tid(self_thread); kr = task_start_halt_locked(task, TRUE); assert(kr == KERN_SUCCESS); + ipc_task_reset(task); + /* Remove the naked send right for task port, needed to arm no sender notification */ + task_set_special_port_internal(task, TASK_KERNEL_PORT, IPC_PORT_NULL); ipc_task_enable(task); task_unlock(task); /* terminate the ipc space */ ipc_space_terminate(task->itk_space); - + + /* Add it to global corpse task list */ + task_add_to_corpse_task_list(task); + task_start_halt(task); thread_terminate_internal(self_thread); + (void) thread_interrupt_level(wsave); assert(task->halting == TRUE); + +out: +#if CONFIG_MACF + mac_exc_free_label(crash_label); +#endif return kr; } -kern_return_t -task_terminate_internal( - task_t task) +/* + * task_clear_corpse + * + * Clears the corpse pending bit on task. + * Removes inspection bit on the threads. + */ +void +task_clear_corpse(task_t task) { - thread_t thread, self; - task_t self_task; - boolean_t interrupt_save; - int pid = 0; + thread_t th_iter = NULL; - assert(task != kernel_task); + task_lock(task); + queue_iterate(&task->threads, th_iter, thread_t, task_threads) + { + thread_mtx_lock(th_iter); + th_iter->inspection = FALSE; + thread_mtx_unlock(th_iter); + } - self = current_thread(); - self_task = self->task; + thread_terminate_crashed_threads(); + /* remove the pending corpse report flag */ + task_clear_corpse_pending_report(task); - /* - * Get the task locked and make sure that we are not racing - * with someone else trying to terminate us. - */ - if (task == self_task) - task_lock(task); - else - if (task < self_task) { - task_lock(task); - task_lock(self_task); - } - else { - task_lock(self_task); - task_lock(task); - } + task_unlock(task); +} - if (!task->active) { - /* - * Task is already being terminated. - * Just return an error. If we are dying, this will - * just get us to our AST special handler and that - * will get us to finalize the termination of ourselves. - */ - task_unlock(task); - if (self_task != task) - task_unlock(self_task); +/* + * task_port_notify + * + * Called whenever the Mach port system detects no-senders on + * the task port of a corpse. + * Each notification that comes in should terminate the task (corpse). + */ +void +task_port_notify(mach_msg_header_t *msg) +{ + mach_no_senders_notification_t *notification = (void *)msg; + ipc_port_t port = notification->not_header.msgh_remote_port; + task_t task; - return (KERN_FAILURE); - } + require_ip_active(port); + assert(IKOT_TASK == ip_kotype(port)); + task = (task_t) ip_get_kobject(port); - if (task_corpse_pending_report(task)) { - /* - * Task is marked for reporting as corpse. - * Just return an error. This will - * just get us to our AST special handler and that - * will get us to finish the path to death - */ + assert(task_is_a_corpse(task)); + + /* Remove the task from global corpse task list */ + task_remove_from_corpse_task_list(task); + + task_clear_corpse(task); + task_terminate_internal(task); +} + +/* + * task_wait_till_threads_terminate_locked + * + * Wait till all the threads in the task are terminated. + * Might release the task lock and re-acquire it. + */ +void +task_wait_till_threads_terminate_locked(task_t task) +{ + /* wait for all the threads in the task to terminate */ + while (task->active_thread_count != 0) { + assert_wait((event_t)&task->active_thread_count, THREAD_UNINT); task_unlock(task); - if (self_task != task) - task_unlock(self_task); + thread_block(THREAD_CONTINUE_NULL); - return (KERN_FAILURE); + task_lock(task); } +} - if (self_task != task) - task_unlock(self_task); +/* + * task_duplicate_map_and_threads + * + * Copy vmmap of source task. + * Copy active threads from source task to destination task. + * Source task would be suspended during the copy. + */ +kern_return_t +task_duplicate_map_and_threads( + task_t task, + void *p, + task_t new_task, + thread_t *thread_ret, + uint64_t **udata_buffer, + int *size, + int *num_udata) +{ + kern_return_t kr = KERN_SUCCESS; + int active; + thread_t thread, self, thread_return = THREAD_NULL; + thread_t new_thread = THREAD_NULL, first_thread = THREAD_NULL; + thread_t *thread_array; + uint32_t active_thread_count = 0, array_count = 0, i; + vm_map_t oldmap; + uint64_t *buffer = NULL; + int buf_size = 0; + int est_knotes = 0, num_knotes = 0; - /* - * Make sure the current thread does not get aborted out of - * the waits inside these operations. - */ - interrupt_save = thread_interrupt_level(THREAD_UNINT); + self = current_thread(); /* - * Indicate that we want all the threads to stop executing - * at user space by holding the task (we would have held - * each thread independently in thread_terminate_internal - - * but this way we may be more likely to already find it - * held there). Mark the task inactive, and prevent - * further task operations via the task port. + * Suspend the task to copy thread state, use the internal + * variant so that no user-space process can resume + * the task from under us */ - task_hold_locked(task); + kr = task_suspend_internal(task); + if (kr != KERN_SUCCESS) { + return kr; + } + + if (task->map->disable_vmentry_reuse == TRUE) { + /* + * Quite likely GuardMalloc (or some debugging tool) + * is being used on this task. And it has gone through + * its limit. Making a corpse will likely encounter + * a lot of VM entries that will need COW. + * + * Skip it. + */ +#if DEVELOPMENT || DEBUG + memorystatus_abort_vm_map_fork(task); +#endif + task_resume_internal(task); + return KERN_FAILURE; + } + + /* Check with VM if vm_map_fork is allowed for this task */ + if (memorystatus_allowed_vm_map_fork(task)) { + /* Setup new task's vmmap, switch from parent task's map to it COW map */ + oldmap = new_task->map; + new_task->map = vm_map_fork(new_task->ledger, + task->map, + (VM_MAP_FORK_SHARE_IF_INHERIT_NONE | + VM_MAP_FORK_PRESERVE_PURGEABLE | + VM_MAP_FORK_CORPSE_FOOTPRINT)); + vm_map_deallocate(oldmap); + + /* copy ledgers that impact the memory footprint */ + vm_map_copy_footprint_ledgers(task, new_task); + + /* Get all the udata pointers from kqueue */ + est_knotes = kevent_proc_copy_uptrs(p, NULL, 0); + if (est_knotes > 0) { + buf_size = (est_knotes + 32) * sizeof(uint64_t); + buffer = (uint64_t *) kalloc(buf_size); + num_knotes = kevent_proc_copy_uptrs(p, buffer, buf_size); + if (num_knotes > est_knotes + 32) { + num_knotes = est_knotes + 32; + } + } + } + + active_thread_count = task->active_thread_count; + if (active_thread_count == 0) { + if (buffer != NULL) { + kfree(buffer, buf_size); + } + task_resume_internal(task); + return KERN_FAILURE; + } + + thread_array = (thread_t *) kalloc(sizeof(thread_t) * active_thread_count); + + /* Iterate all the threads and drop the task lock before calling thread_create_with_continuation */ + task_lock(task); + queue_iterate(&task->threads, thread, thread_t, task_threads) { + /* Skip inactive threads */ + active = thread->active; + if (!active) { + continue; + } + + if (array_count >= active_thread_count) { + break; + } + + thread_array[array_count++] = thread; + thread_reference(thread); + } + task_unlock(task); + + for (i = 0; i < array_count; i++) { + kr = thread_create_with_continuation(new_task, &new_thread, (thread_continue_t)thread_corpse_continue); + if (kr != KERN_SUCCESS) { + break; + } + + /* Equivalent of current thread in corpse */ + if (thread_array[i] == self) { + thread_return = new_thread; + new_task->crashed_thread_id = thread_tid(new_thread); + } else if (first_thread == NULL) { + first_thread = new_thread; + } else { + /* drop the extra ref returned by thread_create_with_continuation */ + thread_deallocate(new_thread); + } + + kr = thread_dup2(thread_array[i], new_thread); + if (kr != KERN_SUCCESS) { + thread_mtx_lock(new_thread); + new_thread->corpse_dup = TRUE; + thread_mtx_unlock(new_thread); + continue; + } + + /* Copy thread name */ + bsd_copythreadname(new_thread->uthread, thread_array[i]->uthread); + new_thread->thread_tag = thread_array[i]->thread_tag; + thread_copy_resource_info(new_thread, thread_array[i]); + } + + /* return the first thread if we couldn't find the equivalent of current */ + if (thread_return == THREAD_NULL) { + thread_return = first_thread; + } else if (first_thread != THREAD_NULL) { + /* drop the extra ref returned by thread_create_with_continuation */ + thread_deallocate(first_thread); + } + + task_resume_internal(task); + + for (i = 0; i < array_count; i++) { + thread_deallocate(thread_array[i]); + } + kfree(thread_array, sizeof(thread_t) * active_thread_count); + + if (kr == KERN_SUCCESS) { + *thread_ret = thread_return; + *udata_buffer = buffer; + *size = buf_size; + *num_udata = num_knotes; + } else { + if (thread_return != THREAD_NULL) { + thread_deallocate(thread_return); + } + if (buffer != NULL) { + kfree(buffer, buf_size); + } + } + + return kr; +} + +#if CONFIG_SECLUDED_MEMORY +extern void task_set_can_use_secluded_mem_locked( + task_t task, + boolean_t can_use_secluded_mem); +#endif /* CONFIG_SECLUDED_MEMORY */ + +kern_return_t +task_terminate_internal( + task_t task) +{ + thread_t thread, self; + task_t self_task; + boolean_t interrupt_save; + int pid = 0; + + assert(task != kernel_task); + + self = current_thread(); + self_task = self->task; + + /* + * Get the task locked and make sure that we are not racing + * with someone else trying to terminate us. + */ + if (task == self_task) { + task_lock(task); + } else if (task < self_task) { + task_lock(task); + task_lock(self_task); + } else { + task_lock(self_task); + task_lock(task); + } + +#if CONFIG_SECLUDED_MEMORY + if (task->task_can_use_secluded_mem) { + task_set_can_use_secluded_mem_locked(task, FALSE); + } + task->task_could_use_secluded_mem = FALSE; + task->task_could_also_use_secluded_mem = FALSE; + + if (task->task_suppressed_secluded) { + stop_secluded_suppression(task); + } +#endif /* CONFIG_SECLUDED_MEMORY */ + + if (!task->active) { + /* + * Task is already being terminated. + * Just return an error. If we are dying, this will + * just get us to our AST special handler and that + * will get us to finalize the termination of ourselves. + */ + task_unlock(task); + if (self_task != task) { + task_unlock(self_task); + } + + return KERN_FAILURE; + } + + if (task_corpse_pending_report(task)) { + /* + * Task is marked for reporting as corpse. + * Just return an error. This will + * just get us to our AST special handler and that + * will get us to finish the path to death + */ + task_unlock(task); + if (self_task != task) { + task_unlock(self_task); + } + + return KERN_FAILURE; + } + + if (self_task != task) { + task_unlock(self_task); + } + + /* + * Make sure the current thread does not get aborted out of + * the waits inside these operations. + */ + interrupt_save = thread_interrupt_level(THREAD_UNINT); + + /* + * Indicate that we want all the threads to stop executing + * at user space by holding the task (we would have held + * each thread independently in thread_terminate_internal - + * but this way we may be more likely to already find it + * held there). Mark the task inactive, and prevent + * further task operations via the task port. + */ + task_hold_locked(task); task->active = FALSE; ipc_task_disable(task); @@ -1494,31 +2595,43 @@ task_terminate_internal( * Terminate each thread in the task. */ queue_iterate(&task->threads, thread, thread_t, task_threads) { - thread_terminate_internal(thread); + thread_terminate_internal(thread); } #ifdef MACH_BSD - if (task->bsd_info != NULL) { + if (task->bsd_info != NULL && !task_is_exec_copy(task)) { pid = proc_pid(task->bsd_info); } #endif /* MACH_BSD */ task_unlock(task); - proc_set_task_policy(task, THREAD_NULL, TASK_POLICY_ATTRIBUTE, - TASK_POLICY_TERMINATED, TASK_POLICY_ENABLE); + proc_set_task_policy(task, TASK_POLICY_ATTRIBUTE, + TASK_POLICY_TERMINATED, TASK_POLICY_ENABLE); - /* Early object reap phase */ + /* Early object reap phase */ // PR-17045188: Revisit implementation // task_partial_reap(task, pid); +#if CONFIG_EMBEDDED + /* + * remove all task watchers + */ + task_removewatchers(task); + +#endif /* CONFIG_EMBEDDED */ /* * Destroy all synchronizers owned by the task. */ task_synchronizer_destroy_all(task); + /* + * Clear the watchport boost on the task. + */ + task_remove_turnstile_watchports(task); + /* * Destroy the IPC space, leaving just a reference for it. */ @@ -1527,17 +2640,17 @@ task_terminate_internal( #if 00 /* if some ledgers go negative on tear-down again... */ ledger_disable_panic_on_negative(task->map->pmap->ledger, - task_ledgers.phys_footprint); + task_ledgers.phys_footprint); ledger_disable_panic_on_negative(task->map->pmap->ledger, - task_ledgers.internal); + task_ledgers.internal); ledger_disable_panic_on_negative(task->map->pmap->ledger, - task_ledgers.internal_compressed); + task_ledgers.internal_compressed); ledger_disable_panic_on_negative(task->map->pmap->ledger, - task_ledgers.iokit_mapped); + task_ledgers.iokit_mapped); ledger_disable_panic_on_negative(task->map->pmap->ledger, - task_ledgers.alternate_accounting); + task_ledgers.alternate_accounting); ledger_disable_panic_on_negative(task->map->pmap->ledger, - task_ledgers.alternate_accounting_compressed); + task_ledgers.alternate_accounting_compressed); #endif /* @@ -1553,32 +2666,28 @@ task_terminate_internal( vm_map_disable_hole_optimization(task->map); vm_map_unlock(task->map); - vm_map_remove(task->map, - task->map->min_offset, - task->map->max_offset, - /* no unnesting on final cleanup: */ - VM_MAP_REMOVE_NO_UNNESTING); - - /* release our shared region */ - vm_shared_region_set(task, NULL); - - #if MACH_ASSERT /* * Identify the pmap's process, in case the pmap ledgers drift * and we have to report it. */ char procname[17]; - if (task->bsd_info) { + if (task->bsd_info && !task_is_exec_copy(task)) { pid = proc_pid(task->bsd_info); - proc_name_kdp(task, procname, sizeof (procname)); + proc_name_kdp(task, procname, sizeof(procname)); } else { pid = 0; - strlcpy(procname, "", sizeof (procname)); + strlcpy(procname, "", sizeof(procname)); } pmap_set_process(task->map->pmap, pid, procname); #endif /* MACH_ASSERT */ + vm_map_terminate(task->map); + + /* release our shared region */ + vm_shared_region_set(task, NULL); + + lck_mtx_lock(&tasks_threads_lock); queue_remove(&tasks, task, task_t, tasks); queue_enter(&terminated_tasks, task, task_t, tasks); @@ -1592,11 +2701,12 @@ task_terminate_internal( */ thread_interrupt_level(interrupt_save); -#if KPERF +#if KPC /* force the task to release all ctrs */ - if (task->t_chud & TASK_KPC_FORCED_ALL_CTRS) + if (task->t_kpc & TASK_KPC_FORCED_ALL_CTRS) { kpc_force_all_ctrs(task, 0); -#endif + } +#endif /* KPC */ #if CONFIG_COALITIONS /* @@ -1610,13 +2720,30 @@ task_terminate_internal( */ task_deallocate(task); - return (KERN_SUCCESS); + return KERN_SUCCESS; +} + +void +tasks_system_suspend(boolean_t suspend) +{ + task_t task; + + lck_mtx_lock(&tasks_threads_lock); + assert(tasks_suspend_state != suspend); + tasks_suspend_state = suspend; + queue_iterate(&tasks, task, task_t, tasks) { + if (task == kernel_task) { + continue; + } + suspend ? task_suspend_internal(task) : task_resume_internal(task); + } + lck_mtx_unlock(&tasks_threads_lock); } /* * task_start_halt: * - * Shut the current task down (except for the current thread) in + * Shut the current task down (except for the current thread) in * preparation for dramatic changes to the task (probably exec). * We hold the task and mark all other threads in the task for * termination. @@ -1641,8 +2768,9 @@ task_start_halt_locked(task_t task, boolean_t should_mark_corpse) self = current_thread(); - if (task != self->task) - return (KERN_INVALID_ARGUMENT); + if (task != self->task && !task_is_a_corpse_fork(task)) { + return KERN_INVALID_ARGUMENT; + } if (task->halting || !task->active || !self->active) { /* @@ -1651,7 +2779,7 @@ task_start_halt_locked(task_t task, boolean_t should_mark_corpse) * so that we run our AST special handler to terminate * ourselves. */ - return (KERN_FAILURE); + return KERN_FAILURE; } task->halting = TRUE; @@ -1675,8 +2803,9 @@ task_start_halt_locked(task_t task, boolean_t should_mark_corpse) thread->inspection = TRUE; thread_mtx_unlock(thread); } - if (thread != self) + if (thread != self) { thread_terminate_internal(thread); + } } task->dispatchqueue_offset = dispatchqueue_offset; @@ -1692,6 +2821,9 @@ task_start_halt_locked(task_t task, boolean_t should_mark_corpse) * Complete task halt by waiting for threads to terminate, then clean * up task resources (VM, port namespace, etc...) and then let the * current thread go in the (practically empty) task context. + * + * Note: task->halting flag is not cleared in order to avoid creation + * of new thread in old exec'ed task. */ void task_complete_halt(task_t task) @@ -1737,11 +2869,22 @@ task_complete_halt(task_t task) * getting a new one. */ vm_map_remove(task->map, task->map->min_offset, - task->map->max_offset, - /* no unnesting on final cleanup: */ - VM_MAP_REMOVE_NO_UNNESTING); + task->map->max_offset, + /* + * Final cleanup: + * + no unnesting + * + remove immutable mappings + * + allow gaps in the range + */ + (VM_MAP_REMOVE_NO_UNNESTING | + VM_MAP_REMOVE_IMMUTABLE | + VM_MAP_REMOVE_GAPS_OK)); - task->halting = FALSE; + /* + * Kick out any IOKitUser handles to the task. At best they're stale, + * at worst someone is racing a SUID exec. + */ + iokit_task_terminate(task); } /* @@ -1751,18 +2894,23 @@ task_complete_halt(task_t task) * This is a recursive-style suspension of the task, a count of * suspends is maintained. * - * CONDITIONS: the task is locked and active. + * CONDITIONS: the task is locked and active. */ void task_hold_locked( - register task_t task) + task_t task) { - register thread_t thread; + thread_t thread; assert(task->active); - if (task->suspend_count++ > 0) + if (task->suspend_count++ > 0) { return; + } + + if (task->bsd_info) { + workq_proc_suspended(task->bsd_info); + } /* * Iterate through all the threads and hold them. @@ -1779,53 +2927,55 @@ task_hold_locked( * * Same as the internal routine above, except that is must lock * and verify that the task is active. This differs from task_suspend - * in that it places a kernel hold on the task rather than just a + * in that it places a kernel hold on the task rather than just a * user-level hold. This keeps users from over resuming and setting * it running out from under the kernel. * - * CONDITIONS: the caller holds a reference on the task + * CONDITIONS: the caller holds a reference on the task */ kern_return_t task_hold( - register task_t task) + task_t task) { - if (task == TASK_NULL) - return (KERN_INVALID_ARGUMENT); + if (task == TASK_NULL) { + return KERN_INVALID_ARGUMENT; + } task_lock(task); if (!task->active) { task_unlock(task); - return (KERN_FAILURE); + return KERN_FAILURE; } task_hold_locked(task); task_unlock(task); - return (KERN_SUCCESS); + return KERN_SUCCESS; } kern_return_t task_wait( - task_t task, - boolean_t until_not_runnable) + task_t task, + boolean_t until_not_runnable) { - if (task == TASK_NULL) - return (KERN_INVALID_ARGUMENT); + if (task == TASK_NULL) { + return KERN_INVALID_ARGUMENT; + } task_lock(task); if (!task->active) { task_unlock(task); - return (KERN_FAILURE); + return KERN_FAILURE; } task_wait_locked(task, until_not_runnable); task_unlock(task); - return (KERN_SUCCESS); + return KERN_SUCCESS; } /* @@ -1838,10 +2988,10 @@ task_wait( */ void task_wait_locked( - register task_t task, - boolean_t until_not_runnable) + task_t task, + boolean_t until_not_runnable) { - register thread_t thread, self; + thread_t thread, self; assert(task->active); assert(task->suspend_count > 0); @@ -1854,29 +3004,41 @@ task_wait_locked( * the task. */ queue_iterate(&task->threads, thread, thread_t, task_threads) { - if (thread != self) + if (thread != self) { thread_wait(thread, until_not_runnable); + } } } +boolean_t +task_is_app_suspended(task_t task) +{ + return task->pidsuspended; +} + /* * task_release_locked: * * Release a kernel hold on a task. * - * CONDITIONS: the task is locked and active + * CONDITIONS: the task is locked and active */ void task_release_locked( - register task_t task) + task_t task) { - register thread_t thread; + thread_t thread; assert(task->active); assert(task->suspend_count > 0); - if (--task->suspend_count > 0) + if (--task->suspend_count > 0) { return; + } + + if (task->bsd_info) { + workq_proc_resumed(task->bsd_info); + } queue_iterate(&task->threads, thread, thread_t, task_threads) { thread_mtx_lock(thread); @@ -1891,44 +3053,46 @@ task_release_locked( * Same as the internal routine above, except that it must lock * and verify that the task is active. * - * CONDITIONS: The caller holds a reference to the task + * CONDITIONS: The caller holds a reference to the task */ kern_return_t task_release( - task_t task) + task_t task) { - if (task == TASK_NULL) - return (KERN_INVALID_ARGUMENT); + if (task == TASK_NULL) { + return KERN_INVALID_ARGUMENT; + } task_lock(task); if (!task->active) { task_unlock(task); - return (KERN_FAILURE); + return KERN_FAILURE; } task_release_locked(task); task_unlock(task); - return (KERN_SUCCESS); + return KERN_SUCCESS; } kern_return_t task_threads( - task_t task, - thread_act_array_t *threads_out, - mach_msg_type_number_t *count) + task_t task, + thread_act_array_t *threads_out, + mach_msg_type_number_t *count) { - mach_msg_type_number_t actual; - thread_t *thread_list; - thread_t thread; - vm_size_t size, size_needed; - void *addr; - unsigned int i, j; + mach_msg_type_number_t actual; + thread_t *thread_list; + thread_t thread; + vm_size_t size, size_needed; + void *addr; + unsigned int i, j; - if (task == TASK_NULL) - return (KERN_INVALID_ARGUMENT); + if (task == TASK_NULL) { + return KERN_INVALID_ARGUMENT; + } size = 0; addr = NULL; @@ -1937,31 +3101,35 @@ task_threads( if (!task->active) { task_unlock(task); - if (size != 0) + if (size != 0) { kfree(addr, size); + } - return (KERN_FAILURE); + return KERN_FAILURE; } actual = task->thread_count; /* do we have the memory we need? */ - size_needed = actual * sizeof (mach_port_t); - if (size_needed <= size) + size_needed = actual * sizeof(mach_port_t); + if (size_needed <= size) { break; + } /* unlock the task and allocate more memory */ task_unlock(task); - if (size != 0) + if (size != 0) { kfree(addr, size); + } assert(size_needed > 0); size = size_needed; addr = kalloc(size); - if (addr == 0) - return (KERN_RESOURCE_SHORTAGE); + if (addr == 0) { + return KERN_RESOURCE_SHORTAGE; + } } /* OK, have memory and the task is locked & active */ @@ -1970,7 +3138,7 @@ task_threads( i = j = 0; for (thread = (thread_t)queue_first(&task->threads); i < actual; - ++i, thread = (thread_t)queue_next(&thread->task_threads)) { + ++i, thread = (thread_t)queue_next(&thread->task_threads)) { thread_reference_internal(thread); thread_list[j++] = thread; } @@ -1978,7 +3146,7 @@ task_threads( assert(queue_end(&task->threads, (queue_entry_t)thread)); actual = j; - size_needed = actual * sizeof (mach_port_t); + size_needed = actual * sizeof(mach_port_t); /* can unlock task now that we've got the thread refs */ task_unlock(task); @@ -1989,10 +3157,10 @@ task_threads( *threads_out = NULL; *count = 0; - if (size != 0) + if (size != 0) { kfree(addr, size); - } - else { + } + } else { /* if we allocated too much, must copy */ if (size_needed < size) { @@ -2000,10 +3168,11 @@ task_threads( newaddr = kalloc(size_needed); if (newaddr == 0) { - for (i = 0; i < actual; ++i) + for (i = 0; i < actual; ++i) { thread_deallocate(thread_list[i]); + } kfree(addr, size); - return (KERN_RESOURCE_SHORTAGE); + return KERN_RESOURCE_SHORTAGE; } bcopy(addr, newaddr, size_needed); @@ -2016,29 +3185,35 @@ task_threads( /* do the conversion that Mig should handle */ - for (i = 0; i < actual; ++i) + for (i = 0; i < actual; ++i) { ((ipc_port_t *) thread_list)[i] = convert_thread_to_port(thread_list[i]); + } } - return (KERN_SUCCESS); + return KERN_SUCCESS; } -#define TASK_HOLD_NORMAL 0 -#define TASK_HOLD_PIDSUSPEND 1 -#define TASK_HOLD_LEGACY 2 -#define TASK_HOLD_LEGACY_ALL 3 +#define TASK_HOLD_NORMAL 0 +#define TASK_HOLD_PIDSUSPEND 1 +#define TASK_HOLD_LEGACY 2 +#define TASK_HOLD_LEGACY_ALL 3 static kern_return_t -place_task_hold ( - register task_t task, +place_task_hold( + task_t task, int mode) -{ - if (!task->active) { - return (KERN_FAILURE); +{ + if (!task->active && !task_is_a_corpse(task)) { + return KERN_FAILURE; + } + + /* Return success for corpse task */ + if (task_is_a_corpse(task)) { + return KERN_SUCCESS; } KERNEL_DEBUG_CONSTANT_IST(KDEBUG_TRACE, - MACHDBG_CODE(DBG_MACH_IPC,MACH_TASK_SUSPEND) | DBG_FUNC_NONE, + MACHDBG_CODE(DBG_MACH_IPC, MACH_TASK_SUSPEND) | DBG_FUNC_NONE, task_pid(task), ((thread_t)queue_first(&task->threads))->thread_id, task->user_stop_count, task->user_stop_count + 1, 0); @@ -2046,15 +3221,16 @@ place_task_hold ( current_task()->suspends_outstanding++; #endif - if (mode == TASK_HOLD_LEGACY) + if (mode == TASK_HOLD_LEGACY) { task->legacy_stop_count++; + } if (task->user_stop_count++ > 0) { /* * If the stop count was positive, the task is * already stopped and we can exit. */ - return (KERN_SUCCESS); + return KERN_SUCCESS; } /* @@ -2065,32 +3241,36 @@ place_task_hold ( */ task_hold_locked(task); task_wait_locked(task, FALSE); - - return (KERN_SUCCESS); + + return KERN_SUCCESS; } static kern_return_t -release_task_hold ( - register task_t task, - int mode) +release_task_hold( + task_t task, + int mode) { - register boolean_t release = FALSE; - - if (!task->active) { - return (KERN_FAILURE); + boolean_t release = FALSE; + + if (!task->active && !task_is_a_corpse(task)) { + return KERN_FAILURE; + } + + /* Return success for corpse task */ + if (task_is_a_corpse(task)) { + return KERN_SUCCESS; } - + if (mode == TASK_HOLD_PIDSUSPEND) { - if (task->pidsuspended == FALSE) { - return (KERN_FAILURE); - } - task->pidsuspended = FALSE; + if (task->pidsuspended == FALSE) { + return KERN_FAILURE; + } + task->pidsuspended = FALSE; } if (task->user_stop_count > (task->pidsuspended ? 1 : 0)) { - KERNEL_DEBUG_CONSTANT_IST(KDEBUG_TRACE, - MACHDBG_CODE(DBG_MACH_IPC,MACH_TASK_RESUME) | DBG_FUNC_NONE, + MACHDBG_CODE(DBG_MACH_IPC, MACH_TASK_RESUME) | DBG_FUNC_NONE, task_pid(task), ((thread_t)queue_first(&task->threads))->thread_id, task->user_stop_count, mode, task->legacy_stop_count); @@ -2112,25 +3292,32 @@ release_task_hold ( } task->legacy_stop_count = 0; } else { - if (mode == TASK_HOLD_LEGACY && task->legacy_stop_count > 0) + if (mode == TASK_HOLD_LEGACY && task->legacy_stop_count > 0) { task->legacy_stop_count--; - if (--task->user_stop_count == 0) + } + if (--task->user_stop_count == 0) { release = TRUE; + } } - } - else { - return (KERN_FAILURE); + } else { + return KERN_FAILURE; } /* * Release the task if necessary. */ - if (release) + if (release) { task_release_locked(task); - - return (KERN_SUCCESS); + } + + return KERN_SUCCESS; } +boolean_t +get_task_suspended(task_t task) +{ + return 0 != task->user_stop_count; +} /* * task_suspend: @@ -2145,56 +3332,38 @@ release_task_hold ( * unique send-once right). * * Conditions: - * The caller holds a reference to the task + * The caller holds a reference to the task */ kern_return_t task_suspend( - register task_t task) + task_t task) { - kern_return_t kr; - mach_port_t port, send, old_notify; - mach_port_name_t name; + kern_return_t kr; + mach_port_t port; + mach_port_name_t name; - if (task == TASK_NULL || task == kernel_task) - return (KERN_INVALID_ARGUMENT); + if (task == TASK_NULL || task == kernel_task) { + return KERN_INVALID_ARGUMENT; + } task_lock(task); - /* - * Claim a send right on the task resume port, and request a no-senders - * notification on that port (if none outstanding). + /* + * place a legacy hold on the task. */ - if (task->itk_resume == IP_NULL) { - task->itk_resume = ipc_port_alloc_kernel(); - if (!IP_VALID(task->itk_resume)) - panic("failed to create resume port"); - ipc_kobject_set(task->itk_resume, (ipc_kobject_t)task, IKOT_TASK_RESUME); - } - - port = task->itk_resume; - ip_lock(port); - assert(ip_active(port)); - - send = ipc_port_make_send_locked(port); - assert(IP_VALID(send)); - - if (port->ip_nsrequest == IP_NULL) { - ipc_port_nsrequest(port, port->ip_mscount, ipc_port_make_sonce_locked(port), &old_notify); - assert(old_notify == IP_NULL); - /* port unlocked */ - } else { - ip_unlock(port); + kr = place_task_hold(task, TASK_HOLD_LEGACY); + if (kr != KERN_SUCCESS) { + task_unlock(task); + return kr; } /* - * place a legacy hold on the task. + * Claim a send right on the task resume port, and request a no-senders + * notification on that port (if none outstanding). */ - kr = place_task_hold(task, TASK_HOLD_LEGACY); - if (kr != KERN_SUCCESS) { - task_unlock(task); - ipc_port_release_send(send); - return kr; - } + (void)ipc_kobject_make_send_lazy_alloc_port(&task->itk_resume, + (ipc_kobject_t)task, IKOT_TASK_RESUME); + port = task->itk_resume; task_unlock(task); @@ -2203,35 +3372,36 @@ task_suspend( * but we'll look it up when calling a traditional resume. Any IPC operations that * deallocate the send right will auto-release the suspension. */ - if ((kr = ipc_kmsg_copyout_object(current_task()->itk_space, (ipc_object_t)send, - MACH_MSG_TYPE_MOVE_SEND, &name)) != KERN_SUCCESS) { + if ((kr = ipc_kmsg_copyout_object(current_task()->itk_space, ip_to_object(port), + MACH_MSG_TYPE_MOVE_SEND, NULL, NULL, &name)) != KERN_SUCCESS) { printf("warning: %s(%d) failed to copyout suspension token for pid %d with error: %d\n", - proc_name_address(current_task()->bsd_info), proc_pid(current_task()->bsd_info), - task_pid(task), kr); - return (kr); + proc_name_address(current_task()->bsd_info), proc_pid(current_task()->bsd_info), + task_pid(task), kr); + return kr; } - return (kr); + return kr; } /* * task_resume: * Release a user hold on a task. - * + * * Conditions: * The caller holds a reference to the task */ -kern_return_t +kern_return_t task_resume( - register task_t task) + task_t task) { - kern_return_t kr; + kern_return_t kr; mach_port_name_t resume_port_name; - ipc_entry_t resume_port_entry; - ipc_space_t space = current_task()->itk_space; + ipc_entry_t resume_port_entry; + ipc_space_t space = current_task()->itk_space; - if (task == TASK_NULL || task == kernel_task ) - return (KERN_INVALID_ARGUMENT); + if (task == TASK_NULL || task == kernel_task) { + return KERN_INVALID_ARGUMENT; + } /* release a legacy task hold */ task_lock(task); @@ -2240,24 +3410,26 @@ task_resume( is_write_lock(space); if (is_active(space) && IP_VALID(task->itk_resume) && - ipc_hash_lookup(space, (ipc_object_t)task->itk_resume, &resume_port_name, &resume_port_entry) == TRUE) { + ipc_hash_lookup(space, ip_to_object(task->itk_resume), &resume_port_name, &resume_port_entry) == TRUE) { /* * We found a suspension token in the caller's IPC space. Release a send right to indicate that * we are holding one less legacy hold on the task from this caller. If the release failed, * go ahead and drop all the rights, as someone either already released our holds or the task * is gone. */ - if (kr == KERN_SUCCESS) + if (kr == KERN_SUCCESS) { ipc_right_dealloc(space, resume_port_name, resume_port_entry); - else + } else { ipc_right_destroy(space, resume_port_name, resume_port_entry, FALSE, 0); + } /* space unlocked */ } else { is_write_unlock(space); - if (kr == KERN_SUCCESS) + if (kr == KERN_SUCCESS) { printf("warning: %s(%d) performed out-of-band resume on pid %d\n", - proc_name_address(current_task()->bsd_info), proc_pid(current_task()->bsd_info), - task_pid(task)); + proc_name_address(current_task()->bsd_info), proc_pid(current_task()->bsd_info), + task_pid(task)); + } } return kr; @@ -2270,15 +3442,16 @@ task_resume( kern_return_t task_suspend_internal(task_t task) { - kern_return_t kr; - - if (task == TASK_NULL || task == kernel_task) - return (KERN_INVALID_ARGUMENT); + kern_return_t kr; + + if (task == TASK_NULL || task == kernel_task) { + return KERN_INVALID_ARGUMENT; + } task_lock(task); kr = place_task_hold(task, TASK_HOLD_NORMAL); task_unlock(task); - return (kr); + return kr; } /* @@ -2287,15 +3460,15 @@ task_suspend_internal(task_t task) */ kern_return_t task_suspend2( - register task_t task, + task_t task, task_suspension_token_t *suspend_token) { - kern_return_t kr; - + kern_return_t kr; + kr = task_suspend_internal(task); if (kr != KERN_SUCCESS) { *suspend_token = TASK_NULL; - return (kr); + return kr; } /* @@ -2306,7 +3479,7 @@ task_suspend2( task_reference_internal(task); *suspend_token = task; - return (KERN_SUCCESS); + return KERN_SUCCESS; } /* @@ -2315,17 +3488,18 @@ task_suspend2( */ kern_return_t task_resume_internal( - register task_suspension_token_t task) + task_suspension_token_t task) { kern_return_t kr; - if (task == TASK_NULL || task == kernel_task) - return (KERN_INVALID_ARGUMENT); + if (task == TASK_NULL || task == kernel_task) { + return KERN_INVALID_ARGUMENT; + } task_lock(task); kr = release_task_hold(task, TASK_HOLD_NORMAL); task_unlock(task); - return (kr); + return kr; } /* @@ -2333,28 +3507,27 @@ task_resume_internal( */ kern_return_t task_resume2( - register task_suspension_token_t task) + task_suspension_token_t task) { kern_return_t kr; kr = task_resume_internal(task); task_suspension_token_deallocate(task); - return (kr); + return kr; } boolean_t task_suspension_notify(mach_msg_header_t *request_header) { - ipc_port_t port = (ipc_port_t) request_header->msgh_remote_port; + ipc_port_t port = request_header->msgh_remote_port; task_t task = convert_port_to_task_suspension_token(port); mach_msg_type_number_t not_count; - if (task == TASK_NULL || task == kernel_task) + if (task == TASK_NULL || task == kernel_task) { return TRUE; /* nothing to do */ - + } switch (request_header->msgh_id) { - case MACH_NOTIFY_SEND_ONCE: /* release the hold held by this specific send-once right */ task_lock(task); @@ -2368,13 +3541,11 @@ task_suspension_notify(mach_msg_header_t *request_header) task_lock(task); ip_lock(port); if (port->ip_mscount == not_count) { - /* release all the [remaining] outstanding legacy holds */ assert(port->ip_nsrequest == IP_NULL); ip_unlock(port); release_task_hold(task, TASK_HOLD_LEGACY_ALL); task_unlock(task); - } else if (port->ip_nsrequest == IP_NULL) { ipc_port_t old_notify; @@ -2397,7 +3568,7 @@ task_suspension_notify(mach_msg_header_t *request_header) return TRUE; } -kern_return_t +static kern_return_t task_pidsuspend_locked(task_t task) { kern_return_t kr; @@ -2414,7 +3585,7 @@ task_pidsuspend_locked(task_t task) task->pidsuspended = FALSE; } out: - return(kr); + return kr; } @@ -2424,16 +3595,17 @@ out: * Suspends a task by placing a hold on its threads. * * Conditions: - * The caller holds a reference to the task + * The caller holds a reference to the task */ kern_return_t task_pidsuspend( - register task_t task) + task_t task) { - kern_return_t kr; - - if (task == TASK_NULL || task == kernel_task) - return (KERN_INVALID_ARGUMENT); + kern_return_t kr; + + if (task == TASK_NULL || task == kernel_task) { + return KERN_INVALID_ARGUMENT; + } task_lock(task); @@ -2441,34 +3613,35 @@ task_pidsuspend( task_unlock(task); - return (kr); -} + if ((KERN_SUCCESS == kr) && task->message_app_suspended) { + iokit_task_app_suspended_changed(task); + } -/* If enabled, we bring all the frozen pages back in prior to resumption; otherwise, they're faulted back in on demand */ -#define THAW_ON_RESUME 1 + return kr; +} /* * task_pidresume: * Resumes a previously suspended task. - * + * * Conditions: * The caller holds a reference to the task */ -kern_return_t +kern_return_t task_pidresume( - register task_t task) + task_t task) { - kern_return_t kr; + kern_return_t kr; - if (task == TASK_NULL || task == kernel_task) - return (KERN_INVALID_ARGUMENT); + if (task == TASK_NULL || task == kernel_task) { + return KERN_INVALID_ARGUMENT; + } task_lock(task); - -#if (CONFIG_FREEZE && THAW_ON_RESUME) - while (task->changing_freeze_state) { +#if CONFIG_FREEZE + while (task->changing_freeze_state) { assert_wait((event_t)&task->changing_freeze_state, THREAD_UNINT); task_unlock(task); thread_block(THREAD_CONTINUE_NULL); @@ -2482,2038 +3655,3840 @@ task_pidresume( task_unlock(task); -#if (CONFIG_FREEZE && THAW_ON_RESUME) - if ((kr == KERN_SUCCESS) && (task->frozen == TRUE)) { - - if (COMPRESSED_PAGER_IS_ACTIVE || DEFAULT_FREEZER_COMPRESSED_PAGER_IS_ACTIVE) { + if ((KERN_SUCCESS == kr) && task->message_app_suspended) { + iokit_task_app_suspended_changed(task); + } - kr = KERN_SUCCESS; - } else { +#if CONFIG_FREEZE - kr = vm_map_thaw(task->map); - } - } task_lock(task); - if (kr == KERN_SUCCESS) + if (kr == KERN_SUCCESS) { task->frozen = FALSE; + } task->changing_freeze_state = FALSE; thread_wakeup(&task->changing_freeze_state); - + task_unlock(task); #endif - return (kr); + return kr; } -#if CONFIG_FREEZE +os_refgrp_decl(static, task_watchports_refgrp, "task_watchports", NULL); /* - * task_freeze: + * task_add_turnstile_watchports: + * Setup watchports to boost the main thread of the task. * - * Freeze a task. + * Arguments: + * task: task being spawned + * thread: main thread of task + * portwatch_ports: array of watchports + * portwatch_count: number of watchports * - * Conditions: - * The caller holds a reference to the task + * Conditions: + * Nothing locked. */ -extern void vm_wake_compactor_swapper(); -extern queue_head_t c_swapout_list_head; - -kern_return_t -task_freeze( - register task_t task, - uint32_t *purgeable_count, - uint32_t *wired_count, - uint32_t *clean_count, - uint32_t *dirty_count, - uint32_t dirty_budget, - boolean_t *shared, - boolean_t walk_only) +void +task_add_turnstile_watchports( + task_t task, + thread_t thread, + ipc_port_t *portwatch_ports, + uint32_t portwatch_count) { - kern_return_t kr; - - if (task == TASK_NULL || task == kernel_task) - return (KERN_INVALID_ARGUMENT); + struct task_watchports *watchports = NULL; + struct task_watchport_elem *previous_elem_array[TASK_MAX_WATCHPORT_COUNT] = {}; + os_ref_count_t refs; - task_lock(task); + /* Check if the task has terminated */ + if (!task->active) { + return; + } - while (task->changing_freeze_state) { + assert(portwatch_count <= TASK_MAX_WATCHPORT_COUNT); - assert_wait((event_t)&task->changing_freeze_state, THREAD_UNINT); - task_unlock(task); - thread_block(THREAD_CONTINUE_NULL); + watchports = task_watchports_alloc_init(task, thread, portwatch_count); - task_lock(task); + /* Lock the ipc space */ + is_write_lock(task->itk_space); + + /* Setup watchports to boost the main thread */ + refs = task_add_turnstile_watchports_locked(task, + watchports, previous_elem_array, portwatch_ports, + portwatch_count); + + /* Drop the space lock */ + is_write_unlock(task->itk_space); + + if (refs == 0) { + task_watchports_deallocate(watchports); } - if (task->frozen) { - task_unlock(task); - return (KERN_FAILURE); + + /* Drop the ref on previous_elem_array */ + for (uint32_t i = 0; i < portwatch_count && previous_elem_array[i] != NULL; i++) { + task_watchport_elem_deallocate(previous_elem_array[i]); } - task->changing_freeze_state = TRUE; +} - task_unlock(task); +/* + * task_remove_turnstile_watchports: + * Clear all turnstile boost on the task from watchports. + * + * Arguments: + * task: task being terminated + * + * Conditions: + * Nothing locked. + */ +void +task_remove_turnstile_watchports( + task_t task) +{ + os_ref_count_t refs = TASK_MAX_WATCHPORT_COUNT; + struct task_watchports *watchports = NULL; + ipc_port_t port_freelist[TASK_MAX_WATCHPORT_COUNT] = {}; + uint32_t portwatch_count; - if (walk_only) { - kr = vm_map_freeze_walk(task->map, purgeable_count, wired_count, clean_count, dirty_count, dirty_budget, shared); - } else { - kr = vm_map_freeze(task->map, purgeable_count, wired_count, clean_count, dirty_count, dirty_budget, shared); + /* Lock the ipc space */ + is_write_lock(task->itk_space); + + /* Check if watchport boost exist */ + if (task->watchports == NULL) { + is_write_unlock(task->itk_space); + return; } + watchports = task->watchports; + portwatch_count = watchports->tw_elem_array_count; - task_lock(task); + refs = task_remove_turnstile_watchports_locked(task, watchports, + port_freelist); - if (walk_only == FALSE && kr == KERN_SUCCESS) - task->frozen = TRUE; - task->changing_freeze_state = FALSE; - thread_wakeup(&task->changing_freeze_state); - - task_unlock(task); + is_write_unlock(task->itk_space); - if (COMPRESSED_PAGER_IS_ACTIVE || DEFAULT_FREEZER_COMPRESSED_PAGER_IS_ACTIVE) { - vm_wake_compactor_swapper(); - /* - * We do an explicit wakeup of the swapout thread here - * because the compact_and_swap routines don't have - * knowledge about these kind of "per-task packed c_segs" - * and so will not be evaluating whether we need to do - * a wakeup there. - */ - thread_wakeup((event_t)&c_swapout_list_head); + /* Drop all the port references */ + for (uint32_t i = 0; i < portwatch_count && port_freelist[i] != NULL; i++) { + ip_release(port_freelist[i]); } - return (kr); + /* Clear the task and thread references for task_watchport */ + if (refs == 0) { + task_watchports_deallocate(watchports); + } } /* - * task_thaw: + * task_transfer_turnstile_watchports: + * Transfer all watchport turnstile boost from old task to new task. * - * Thaw a currently frozen task. + * Arguments: + * old_task: task calling exec + * new_task: new exec'ed task + * thread: main thread of new task * - * Conditions: - * The caller holds a reference to the task + * Conditions: + * Nothing locked. */ -kern_return_t -task_thaw( - register task_t task) +void +task_transfer_turnstile_watchports( + task_t old_task, + task_t new_task, + thread_t new_thread) { - kern_return_t kr; - - if (task == TASK_NULL || task == kernel_task) - return (KERN_INVALID_ARGUMENT); - - task_lock(task); - - while (task->changing_freeze_state) { - - assert_wait((event_t)&task->changing_freeze_state, THREAD_UNINT); - task_unlock(task); - thread_block(THREAD_CONTINUE_NULL); + struct task_watchports *old_watchports = NULL; + struct task_watchports *new_watchports = NULL; + os_ref_count_t old_refs = TASK_MAX_WATCHPORT_COUNT; + os_ref_count_t new_refs = TASK_MAX_WATCHPORT_COUNT; + uint32_t portwatch_count; - task_lock(task); + if (old_task->watchports == NULL || !new_task->active) { + return; } - if (!task->frozen) { - task_unlock(task); - return (KERN_FAILURE); + + /* Get the watch port count from the old task */ + is_write_lock(old_task->itk_space); + if (old_task->watchports == NULL) { + is_write_unlock(old_task->itk_space); + return; } - task->changing_freeze_state = TRUE; - if (DEFAULT_PAGER_IS_ACTIVE || DEFAULT_FREEZER_IS_ACTIVE) { - task_unlock(task); + portwatch_count = old_task->watchports->tw_elem_array_count; + is_write_unlock(old_task->itk_space); - kr = vm_map_thaw(task->map); + new_watchports = task_watchports_alloc_init(new_task, new_thread, portwatch_count); - task_lock(task); - - if (kr == KERN_SUCCESS) - task->frozen = FALSE; - } else { - task->frozen = FALSE; - kr = KERN_SUCCESS; - } + /* Lock the ipc space for old task */ + is_write_lock(old_task->itk_space); - task->changing_freeze_state = FALSE; - thread_wakeup(&task->changing_freeze_state); - - task_unlock(task); + /* Lock the ipc space for new task */ + is_write_lock(new_task->itk_space); - if (COMPRESSED_PAGER_IS_ACTIVE || DEFAULT_FREEZER_COMPRESSED_PAGER_IS_ACTIVE) { - vm_wake_compactor_swapper(); + /* Check if watchport boost exist */ + if (old_task->watchports == NULL || !new_task->active) { + is_write_unlock(new_task->itk_space); + is_write_unlock(old_task->itk_space); + (void)task_watchports_release(new_watchports); + task_watchports_deallocate(new_watchports); + return; } - return (kr); -} - -#endif /* CONFIG_FREEZE */ + old_watchports = old_task->watchports; + assert(portwatch_count == old_task->watchports->tw_elem_array_count); -kern_return_t -host_security_set_task_token( - host_security_t host_security, - task_t task, - security_token_t sec_token, - audit_token_t audit_token, - host_priv_t host_priv) -{ - ipc_port_t host_port; - kern_return_t kr; + /* Setup new task watchports */ + new_task->watchports = new_watchports; - if (task == TASK_NULL) - return(KERN_INVALID_ARGUMENT); + for (uint32_t i = 0; i < portwatch_count; i++) { + ipc_port_t port = old_watchports->tw_elem[i].twe_port; - if (host_security == HOST_NULL) - return(KERN_INVALID_SECURITY); + if (port == NULL) { + task_watchport_elem_clear(&new_watchports->tw_elem[i]); + continue; + } - task_lock(task); - task->sec_token = sec_token; - task->audit_token = audit_token; + /* Lock the port and check if it has the entry */ + ip_lock(port); + imq_lock(&port->ip_messages); - task_unlock(task); + task_watchport_elem_init(&new_watchports->tw_elem[i], new_task, port); - if (host_priv != HOST_PRIV_NULL) { - kr = host_get_host_priv_port(host_priv, &host_port); - } else { - kr = host_get_host_port(host_priv_self(), &host_port); - } - assert(kr == KERN_SUCCESS); - kr = task_set_special_port(task, TASK_HOST_PORT, host_port); - return(kr); -} + if (ipc_port_replace_watchport_elem_conditional_locked(port, + &old_watchports->tw_elem[i], &new_watchports->tw_elem[i]) == KERN_SUCCESS) { + task_watchport_elem_clear(&old_watchports->tw_elem[i]); -kern_return_t -task_send_trace_memory( - task_t target_task, - __unused uint32_t pid, - __unused uint64_t uniqueid) -{ - kern_return_t kr = KERN_INVALID_ARGUMENT; - if (target_task == TASK_NULL) - return (KERN_INVALID_ARGUMENT); + task_watchports_retain(new_watchports); + old_refs = task_watchports_release(old_watchports); -#if CONFIG_ATM - kr = atm_send_proc_inspect_notification(target_task, - pid, - uniqueid); + /* Check if all ports are cleaned */ + if (old_refs == 0) { + old_task->watchports = NULL; + } + } else { + task_watchport_elem_clear(&new_watchports->tw_elem[i]); + } + /* mqueue and port unlocked by ipc_port_replace_watchport_elem_conditional_locked */ + } -#endif - return (kr); -} -/* - * This routine was added, pretty much exclusively, for registering the - * RPC glue vector for in-kernel short circuited tasks. Rather than - * removing it completely, I have only disabled that feature (which was - * the only feature at the time). It just appears that we are going to - * want to add some user data to tasks in the future (i.e. bsd info, - * task names, etc...), so I left it in the formal task interface. - */ -kern_return_t -task_set_info( - task_t task, - task_flavor_t flavor, - __unused task_info_t task_info_in, /* pointer to IN array */ - __unused mach_msg_type_number_t task_info_count) -{ - if (task == TASK_NULL) - return(KERN_INVALID_ARGUMENT); + /* Drop the reference on new task_watchports struct returned by task_watchports_alloc_init */ + new_refs = task_watchports_release(new_watchports); + if (new_refs == 0) { + new_task->watchports = NULL; + } - switch (flavor) { + is_write_unlock(new_task->itk_space); + is_write_unlock(old_task->itk_space); -#if CONFIG_ATM - case TASK_TRACE_MEMORY_INFO: - { - if (task_info_count != TASK_TRACE_MEMORY_INFO_COUNT) - return (KERN_INVALID_ARGUMENT); - - assert(task_info_in != NULL); - task_trace_memory_info_t mem_info; - mem_info = (task_trace_memory_info_t) task_info_in; - kern_return_t kr = atm_register_trace_memory(task, - mem_info->user_memory_address, - mem_info->buffer_size); - return kr; - break; - } + /* Clear the task and thread references for old_watchport */ + if (old_refs == 0) { + task_watchports_deallocate(old_watchports); + } -#endif - default: - return (KERN_INVALID_ARGUMENT); + /* Clear the task and thread references for new_watchport */ + if (new_refs == 0) { + task_watchports_deallocate(new_watchports); } - return (KERN_SUCCESS); } -int radar_20146450 = 1; -kern_return_t -task_info( - task_t task, - task_flavor_t flavor, - task_info_t task_info_out, - mach_msg_type_number_t *task_info_count) +/* + * task_add_turnstile_watchports_locked: + * Setup watchports to boost the main thread of the task. + * + * Arguments: + * task: task to boost + * watchports: watchport structure to be attached to the task + * previous_elem_array: an array of old watchport_elem to be returned to caller + * portwatch_ports: array of watchports + * portwatch_count: number of watchports + * + * Conditions: + * ipc space of the task locked. + * returns array of old watchport_elem in previous_elem_array + */ +static os_ref_count_t +task_add_turnstile_watchports_locked( + task_t task, + struct task_watchports *watchports, + struct task_watchport_elem **previous_elem_array, + ipc_port_t *portwatch_ports, + uint32_t portwatch_count) { - kern_return_t error = KERN_SUCCESS; + os_ref_count_t refs = TASK_MAX_WATCHPORT_COUNT; - if (task == TASK_NULL) - return (KERN_INVALID_ARGUMENT); - - task_lock(task); - - if ((task != current_task()) && (!task->active)) { - task_unlock(task); - return (KERN_INVALID_ARGUMENT); + /* Check if the task is still active */ + if (!task->active) { + refs = task_watchports_release(watchports); + return refs; } - switch (flavor) { + assert(task->watchports == NULL); + task->watchports = watchports; - case TASK_BASIC_INFO_32: - case TASK_BASIC2_INFO_32: - { - task_basic_info_32_t basic_info; - vm_map_t map; - clock_sec_t secs; - clock_usec_t usecs; + for (uint32_t i = 0, j = 0; i < portwatch_count; i++) { + ipc_port_t port = portwatch_ports[i]; - if (*task_info_count < TASK_BASIC_INFO_32_COUNT) { - error = KERN_INVALID_ARGUMENT; - break; + task_watchport_elem_init(&watchports->tw_elem[i], task, port); + if (port == NULL) { + task_watchport_elem_clear(&watchports->tw_elem[i]); + continue; } - basic_info = (task_basic_info_32_t)task_info_out; + ip_lock(port); + imq_lock(&port->ip_messages); - map = (task == kernel_task)? kernel_map: task->map; - basic_info->virtual_size = (typeof(basic_info->virtual_size))map->size; - if (flavor == TASK_BASIC2_INFO_32) { - /* - * The "BASIC2" flavor gets the maximum resident - * size instead of the current resident size... - */ - basic_info->resident_size = pmap_resident_max(map->pmap); - } else { - basic_info->resident_size = pmap_resident_count(map->pmap); + /* Check if port is in valid state to be setup as watchport */ + if (ipc_port_add_watchport_elem_locked(port, &watchports->tw_elem[i], + &previous_elem_array[j]) != KERN_SUCCESS) { + task_watchport_elem_clear(&watchports->tw_elem[i]); + continue; } - basic_info->resident_size *= PAGE_SIZE; - - basic_info->policy = ((task != kernel_task)? - POLICY_TIMESHARE: POLICY_RR); - basic_info->suspend_count = task->user_stop_count; + /* port and mqueue unlocked on return */ - absolutetime_to_microtime(task->total_user_time, &secs, &usecs); - basic_info->user_time.seconds = - (typeof(basic_info->user_time.seconds))secs; - basic_info->user_time.microseconds = usecs; - - absolutetime_to_microtime(task->total_system_time, &secs, &usecs); - basic_info->system_time.seconds = - (typeof(basic_info->system_time.seconds))secs; - basic_info->system_time.microseconds = usecs; + ip_reference(port); + task_watchports_retain(watchports); + if (previous_elem_array[j] != NULL) { + j++; + } + } - *task_info_count = TASK_BASIC_INFO_32_COUNT; - break; + /* Drop the reference on task_watchport struct returned by os_ref_init */ + refs = task_watchports_release(watchports); + if (refs == 0) { + task->watchports = NULL; } - case TASK_BASIC_INFO_64: - { - task_basic_info_64_t basic_info; - vm_map_t map; - clock_sec_t secs; - clock_usec_t usecs; + return refs; +} - if (*task_info_count < TASK_BASIC_INFO_64_COUNT) { - error = KERN_INVALID_ARGUMENT; - break; +/* + * task_remove_turnstile_watchports_locked: + * Clear all turnstile boost on the task from watchports. + * + * Arguments: + * task: task to remove watchports from + * watchports: watchports structure for the task + * port_freelist: array of ports returned with ref to caller + * + * + * Conditions: + * ipc space of the task locked. + * array of ports with refs are returned in port_freelist + */ +static os_ref_count_t +task_remove_turnstile_watchports_locked( + task_t task, + struct task_watchports *watchports, + ipc_port_t *port_freelist) +{ + os_ref_count_t refs = TASK_MAX_WATCHPORT_COUNT; + + for (uint32_t i = 0, j = 0; i < watchports->tw_elem_array_count; i++) { + ipc_port_t port = watchports->tw_elem[i].twe_port; + if (port == NULL) { + continue; } - basic_info = (task_basic_info_64_t)task_info_out; + /* Lock the port and check if it has the entry */ + ip_lock(port); + imq_lock(&port->ip_messages); + if (ipc_port_clear_watchport_elem_internal_conditional_locked(port, + &watchports->tw_elem[i]) == KERN_SUCCESS) { + task_watchport_elem_clear(&watchports->tw_elem[i]); + port_freelist[j++] = port; + refs = task_watchports_release(watchports); + + /* Check if all ports are cleaned */ + if (refs == 0) { + task->watchports = NULL; + break; + } + } + /* mqueue and port unlocked by ipc_port_clear_watchport_elem_internal_conditional_locked */ + } + return refs; +} - map = (task == kernel_task)? kernel_map: task->map; - basic_info->virtual_size = map->size; - basic_info->resident_size = - (mach_vm_size_t)(pmap_resident_count(map->pmap)) - * PAGE_SIZE_64; +/* + * task_watchports_alloc_init: + * Allocate and initialize task watchport struct. + * + * Conditions: + * Nothing locked. + */ +static struct task_watchports * +task_watchports_alloc_init( + task_t task, + thread_t thread, + uint32_t count) +{ + struct task_watchports *watchports = kalloc(sizeof(struct task_watchports) + + count * sizeof(struct task_watchport_elem)); - basic_info->policy = ((task != kernel_task)? - POLICY_TIMESHARE: POLICY_RR); - basic_info->suspend_count = task->user_stop_count; + task_reference(task); + thread_reference(thread); + watchports->tw_task = task; + watchports->tw_thread = thread; + watchports->tw_elem_array_count = count; + os_ref_init(&watchports->tw_refcount, &task_watchports_refgrp); - absolutetime_to_microtime(task->total_user_time, &secs, &usecs); - basic_info->user_time.seconds = - (typeof(basic_info->user_time.seconds))secs; - basic_info->user_time.microseconds = usecs; + return watchports; +} - absolutetime_to_microtime(task->total_system_time, &secs, &usecs); - basic_info->system_time.seconds = - (typeof(basic_info->system_time.seconds))secs; - basic_info->system_time.microseconds = usecs; +/* + * task_watchports_deallocate: + * Deallocate task watchport struct. + * + * Conditions: + * Nothing locked. + */ +static void +task_watchports_deallocate( + struct task_watchports *watchports) +{ + uint32_t portwatch_count = watchports->tw_elem_array_count; - *task_info_count = TASK_BASIC_INFO_64_COUNT; - break; - } + task_deallocate(watchports->tw_task); + thread_deallocate(watchports->tw_thread); + kfree(watchports, sizeof(struct task_watchports) + portwatch_count * sizeof(struct task_watchport_elem)); +} - case MACH_TASK_BASIC_INFO: - { - mach_task_basic_info_t basic_info; - vm_map_t map; - clock_sec_t secs; - clock_usec_t usecs; +/* + * task_watchport_elem_deallocate: + * Deallocate task watchport element and release its ref on task_watchport. + * + * Conditions: + * Nothing locked. + */ +void +task_watchport_elem_deallocate( + struct task_watchport_elem *watchport_elem) +{ + os_ref_count_t refs = TASK_MAX_WATCHPORT_COUNT; + task_t task = watchport_elem->twe_task; + struct task_watchports *watchports = NULL; + ipc_port_t port = NULL; - if (*task_info_count < MACH_TASK_BASIC_INFO_COUNT) { - error = KERN_INVALID_ARGUMENT; - break; - } + assert(task != NULL); - basic_info = (mach_task_basic_info_t)task_info_out; + /* Take the space lock to modify the elememt */ + is_write_lock(task->itk_space); - map = (task == kernel_task) ? kernel_map : task->map; + watchports = task->watchports; + assert(watchports != NULL); - basic_info->virtual_size = map->size; + port = watchport_elem->twe_port; + assert(port != NULL); - basic_info->resident_size = - (mach_vm_size_t)(pmap_resident_count(map->pmap)); - basic_info->resident_size *= PAGE_SIZE_64; + task_watchport_elem_clear(watchport_elem); + refs = task_watchports_release(watchports); - basic_info->resident_size_max = - (mach_vm_size_t)(pmap_resident_max(map->pmap)); - basic_info->resident_size_max *= PAGE_SIZE_64; + if (refs == 0) { + task->watchports = NULL; + } - basic_info->policy = ((task != kernel_task) ? - POLICY_TIMESHARE : POLICY_RR); + is_write_unlock(task->itk_space); - basic_info->suspend_count = task->user_stop_count; + ip_release(port); + if (refs == 0) { + task_watchports_deallocate(watchports); + } +} - absolutetime_to_microtime(task->total_user_time, &secs, &usecs); - basic_info->user_time.seconds = - (typeof(basic_info->user_time.seconds))secs; - basic_info->user_time.microseconds = usecs; +/* + * task_has_watchports: + * Return TRUE if task has watchport boosts. + * + * Conditions: + * Nothing locked. + */ +boolean_t +task_has_watchports(task_t task) +{ + return task->watchports != NULL; +} - absolutetime_to_microtime(task->total_system_time, &secs, &usecs); - basic_info->system_time.seconds = - (typeof(basic_info->system_time.seconds))secs; - basic_info->system_time.microseconds = usecs; +#if DEVELOPMENT || DEBUG - *task_info_count = MACH_TASK_BASIC_INFO_COUNT; - break; +extern void IOSleep(int); + +kern_return_t +task_disconnect_page_mappings(task_t task) +{ + int n; + + if (task == TASK_NULL || task == kernel_task) { + return KERN_INVALID_ARGUMENT; } - case TASK_THREAD_TIMES_INFO: - { - register task_thread_times_info_t times_info; - register thread_t thread; + /* + * this function is used to strip all of the mappings from + * the pmap for the specified task to force the task to + * re-fault all of the pages it is actively using... this + * allows us to approximate the true working set of the + * specified task. We only engage if at least 1 of the + * threads in the task is runnable, but we want to continuously + * sweep (at least for a while - I've arbitrarily set the limit at + * 100 sweeps to be re-looked at as we gain experience) to get a better + * view into what areas within a page are being visited (as opposed to only + * seeing the first fault of a page after the task becomes + * runnable)... in the future I may + * try to block until awakened by a thread in this task + * being made runnable, but for now we'll periodically poll from the + * user level debug tool driving the sysctl + */ + for (n = 0; n < 100; n++) { + thread_t thread; + boolean_t runnable; + boolean_t do_unnest; + int page_count; - if (*task_info_count < TASK_THREAD_TIMES_INFO_COUNT) { - error = KERN_INVALID_ARGUMENT; - break; + runnable = FALSE; + do_unnest = FALSE; + + task_lock(task); + + queue_iterate(&task->threads, thread, thread_t, task_threads) { + if (thread->state & TH_RUN) { + runnable = TRUE; + break; + } + } + if (n == 0) { + task->task_disconnected_count++; } - times_info = (task_thread_times_info_t) task_info_out; - times_info->user_time.seconds = 0; - times_info->user_time.microseconds = 0; - times_info->system_time.seconds = 0; - times_info->system_time.microseconds = 0; + if (task->task_unnested == FALSE) { + if (runnable == TRUE) { + task->task_unnested = TRUE; + do_unnest = TRUE; + } + } + task_unlock(task); + if (runnable == FALSE) { + break; + } - queue_iterate(&task->threads, thread, thread_t, task_threads) { - time_value_t user_time, system_time; + KERNEL_DEBUG_CONSTANT_IST(KDEBUG_TRACE, (MACHDBG_CODE(DBG_MACH_WORKINGSET, VM_DISCONNECT_TASK_PAGE_MAPPINGS)) | DBG_FUNC_START, + task, do_unnest, task->task_disconnected_count, 0, 0); - if (thread->options & TH_OPT_IDLE_THREAD) - continue; + page_count = vm_map_disconnect_page_mappings(task->map, do_unnest); - thread_read_times(thread, &user_time, &system_time); + KERNEL_DEBUG_CONSTANT_IST(KDEBUG_TRACE, (MACHDBG_CODE(DBG_MACH_WORKINGSET, VM_DISCONNECT_TASK_PAGE_MAPPINGS)) | DBG_FUNC_END, + task, page_count, 0, 0, 0); - time_value_add(×_info->user_time, &user_time); - time_value_add(×_info->system_time, &system_time); + if ((n % 5) == 4) { + IOSleep(1); } - - *task_info_count = TASK_THREAD_TIMES_INFO_COUNT; - break; } + return KERN_SUCCESS; +} - case TASK_ABSOLUTETIME_INFO: - { - task_absolutetime_info_t info; - register thread_t thread; +#endif - if (*task_info_count < TASK_ABSOLUTETIME_INFO_COUNT) { - error = KERN_INVALID_ARGUMENT; - break; - } - info = (task_absolutetime_info_t)task_info_out; - info->threads_user = info->threads_system = 0; +#if CONFIG_FREEZE +/* + * task_freeze: + * + * Freeze a task. + * + * Conditions: + * The caller holds a reference to the task + */ +extern void vm_wake_compactor_swapper(void); +extern queue_head_t c_swapout_list_head; - info->total_user = task->total_user_time; - info->total_system = task->total_system_time; +kern_return_t +task_freeze( + task_t task, + uint32_t *purgeable_count, + uint32_t *wired_count, + uint32_t *clean_count, + uint32_t *dirty_count, + uint32_t dirty_budget, + uint32_t *shared_count, + int *freezer_error_code, + boolean_t eval_only) +{ + kern_return_t kr = KERN_SUCCESS; - queue_iterate(&task->threads, thread, thread_t, task_threads) { - uint64_t tval; - spl_t x; + if (task == TASK_NULL || task == kernel_task) { + return KERN_INVALID_ARGUMENT; + } - if (thread->options & TH_OPT_IDLE_THREAD) - continue; + task_lock(task); - x = splsched(); - thread_lock(thread); + while (task->changing_freeze_state) { + assert_wait((event_t)&task->changing_freeze_state, THREAD_UNINT); + task_unlock(task); + thread_block(THREAD_CONTINUE_NULL); - tval = timer_grab(&thread->user_timer); - info->threads_user += tval; - info->total_user += tval; + task_lock(task); + } + if (task->frozen) { + task_unlock(task); + return KERN_FAILURE; + } + task->changing_freeze_state = TRUE; - tval = timer_grab(&thread->system_timer); - if (thread->precise_user_kernel_time) { - info->threads_system += tval; - info->total_system += tval; - } else { - /* system_timer may represent either sys or user */ - info->threads_user += tval; - info->total_user += tval; - } + task_unlock(task); - thread_unlock(thread); - splx(x); - } + kr = vm_map_freeze(task, + purgeable_count, + wired_count, + clean_count, + dirty_count, + dirty_budget, + shared_count, + freezer_error_code, + eval_only); + task_lock(task); - *task_info_count = TASK_ABSOLUTETIME_INFO_COUNT; - break; + if ((kr == KERN_SUCCESS) && (eval_only == FALSE)) { + task->frozen = TRUE; } - case TASK_DYLD_INFO: - { - task_dyld_info_t info; + task->changing_freeze_state = FALSE; + thread_wakeup(&task->changing_freeze_state); + + task_unlock(task); + if (VM_CONFIG_COMPRESSOR_IS_PRESENT && + (kr == KERN_SUCCESS) && + (eval_only == FALSE)) { + vm_wake_compactor_swapper(); /* - * We added the format field to TASK_DYLD_INFO output. For - * temporary backward compatibility, accept the fact that - * clients may ask for the old version - distinquished by the - * size of the expected result structure. + * We do an explicit wakeup of the swapout thread here + * because the compact_and_swap routines don't have + * knowledge about these kind of "per-task packed c_segs" + * and so will not be evaluating whether we need to do + * a wakeup there. */ -#define TASK_LEGACY_DYLD_INFO_COUNT \ - offsetof(struct task_dyld_info, all_image_info_format)/sizeof(natural_t) + thread_wakeup((event_t)&c_swapout_list_head); + } - if (*task_info_count < TASK_LEGACY_DYLD_INFO_COUNT) { - error = KERN_INVALID_ARGUMENT; - break; - } + return kr; +} - info = (task_dyld_info_t)task_info_out; - info->all_image_info_addr = task->all_image_info_addr; - info->all_image_info_size = task->all_image_info_size; +/* + * task_thaw: + * + * Thaw a currently frozen task. + * + * Conditions: + * The caller holds a reference to the task + */ +kern_return_t +task_thaw( + task_t task) +{ + if (task == TASK_NULL || task == kernel_task) { + return KERN_INVALID_ARGUMENT; + } - /* only set format on output for those expecting it */ - if (*task_info_count >= TASK_DYLD_INFO_COUNT) { - info->all_image_info_format = task_has_64BitAddr(task) ? - TASK_DYLD_ALL_IMAGE_INFO_64 : - TASK_DYLD_ALL_IMAGE_INFO_32 ; - *task_info_count = TASK_DYLD_INFO_COUNT; - } else { - *task_info_count = TASK_LEGACY_DYLD_INFO_COUNT; - } - break; + task_lock(task); + + while (task->changing_freeze_state) { + assert_wait((event_t)&task->changing_freeze_state, THREAD_UNINT); + task_unlock(task); + thread_block(THREAD_CONTINUE_NULL); + + task_lock(task); + } + if (!task->frozen) { + task_unlock(task); + return KERN_FAILURE; } + task->frozen = FALSE; - case TASK_EXTMOD_INFO: - { - task_extmod_info_t info; - void *p; + task_unlock(task); - if (*task_info_count < TASK_EXTMOD_INFO_COUNT) { - error = KERN_INVALID_ARGUMENT; - break; - } + return KERN_SUCCESS; +} - info = (task_extmod_info_t)task_info_out; +#endif /* CONFIG_FREEZE */ - p = get_bsdtask_info(task); - if (p) { - proc_getexecutableuuid(p, info->task_uuid, sizeof(info->task_uuid)); - } else { - bzero(info->task_uuid, sizeof(info->task_uuid)); - } - info->extmod_statistics = task->extmod_statistics; - *task_info_count = TASK_EXTMOD_INFO_COUNT; +kern_return_t +host_security_set_task_token( + host_security_t host_security, + task_t task, + security_token_t sec_token, + audit_token_t audit_token, + host_priv_t host_priv) +{ + ipc_port_t host_port; + kern_return_t kr; - break; + if (task == TASK_NULL) { + return KERN_INVALID_ARGUMENT; } - case TASK_KERNELMEMORY_INFO: - { - task_kernelmemory_info_t tkm_info; - ledger_amount_t credit, debit; + if (host_security == HOST_NULL) { + return KERN_INVALID_SECURITY; + } - if (*task_info_count < TASK_KERNELMEMORY_INFO_COUNT) { - error = KERN_INVALID_ARGUMENT; - break; + task_lock(task); + task->sec_token = sec_token; + task->audit_token = audit_token; + task_unlock(task); + + if (host_priv != HOST_PRIV_NULL) { + kr = host_get_host_priv_port(host_priv, &host_port); + } else { + kr = host_get_host_port(host_priv_self(), &host_port); + } + assert(kr == KERN_SUCCESS); + + kr = task_set_special_port_internal(task, TASK_HOST_PORT, host_port); + return kr; +} + +kern_return_t +task_send_trace_memory( + __unused task_t target_task, + __unused uint32_t pid, + __unused uint64_t uniqueid) +{ + return KERN_INVALID_ARGUMENT; +} + +/* + * This routine was added, pretty much exclusively, for registering the + * RPC glue vector for in-kernel short circuited tasks. Rather than + * removing it completely, I have only disabled that feature (which was + * the only feature at the time). It just appears that we are going to + * want to add some user data to tasks in the future (i.e. bsd info, + * task names, etc...), so I left it in the formal task interface. + */ +kern_return_t +task_set_info( + task_t task, + task_flavor_t flavor, + __unused task_info_t task_info_in, /* pointer to IN array */ + __unused mach_msg_type_number_t task_info_count) +{ + if (task == TASK_NULL) { + return KERN_INVALID_ARGUMENT; + } + + switch (flavor) { +#if CONFIG_ATM + case TASK_TRACE_MEMORY_INFO: + { + if (task_info_count != TASK_TRACE_MEMORY_INFO_COUNT) { + return KERN_INVALID_ARGUMENT; } - tkm_info = (task_kernelmemory_info_t) task_info_out; - tkm_info->total_palloc = 0; - tkm_info->total_pfree = 0; - tkm_info->total_salloc = 0; - tkm_info->total_sfree = 0; + assert(task_info_in != NULL); + task_trace_memory_info_t mem_info; + mem_info = (task_trace_memory_info_t) task_info_in; + kern_return_t kr = atm_register_trace_memory(task, + mem_info->user_memory_address, + mem_info->buffer_size); + return kr; + } - if (task == kernel_task) { - /* - * All shared allocs/frees from other tasks count against - * the kernel private memory usage. If we are looking up - * info for the kernel task, gather from everywhere. - */ - task_unlock(task); +#endif + default: + return KERN_INVALID_ARGUMENT; + } + return KERN_SUCCESS; +} - /* start by accounting for all the terminated tasks against the kernel */ - tkm_info->total_palloc = tasks_tkm_private.alloc + tasks_tkm_shared.alloc; - tkm_info->total_pfree = tasks_tkm_private.free + tasks_tkm_shared.free; +int radar_20146450 = 1; +kern_return_t +task_info( + task_t task, + task_flavor_t flavor, + task_info_t task_info_out, + mach_msg_type_number_t *task_info_count) +{ + kern_return_t error = KERN_SUCCESS; + mach_msg_type_number_t original_task_info_count; - /* count all other task/thread shared alloc/free against the kernel */ - lck_mtx_lock(&tasks_threads_lock); + if (task == TASK_NULL) { + return KERN_INVALID_ARGUMENT; + } - /* XXX this really shouldn't be using the function parameter 'task' as a local var! */ - queue_iterate(&tasks, task, task_t, tasks) { - if (task == kernel_task) { - if (ledger_get_entries(task->ledger, - task_ledgers.tkm_private, &credit, - &debit) == KERN_SUCCESS) { - tkm_info->total_palloc += credit; - tkm_info->total_pfree += debit; - } - } - if (!ledger_get_entries(task->ledger, - task_ledgers.tkm_shared, &credit, &debit)) { - tkm_info->total_palloc += credit; - tkm_info->total_pfree += debit; - } - } - lck_mtx_unlock(&tasks_threads_lock); - } else { - if (!ledger_get_entries(task->ledger, - task_ledgers.tkm_private, &credit, &debit)) { - tkm_info->total_palloc = credit; - tkm_info->total_pfree = debit; + original_task_info_count = *task_info_count; + task_lock(task); + + if ((task != current_task()) && (!task->active)) { + task_unlock(task); + return KERN_INVALID_ARGUMENT; + } + + switch (flavor) { + case TASK_BASIC_INFO_32: + case TASK_BASIC2_INFO_32: +#if defined(__arm__) || defined(__arm64__) + case TASK_BASIC_INFO_64: +#endif + { + task_basic_info_32_t basic_info; + vm_map_t map; + clock_sec_t secs; + clock_usec_t usecs; + + if (*task_info_count < TASK_BASIC_INFO_32_COUNT) { + error = KERN_INVALID_ARGUMENT; + break; } - if (!ledger_get_entries(task->ledger, - task_ledgers.tkm_shared, &credit, &debit)) { - tkm_info->total_salloc = credit; - tkm_info->total_sfree = debit; + + basic_info = (task_basic_info_32_t)task_info_out; + + map = (task == kernel_task)? kernel_map: task->map; + basic_info->virtual_size = (typeof(basic_info->virtual_size))map->size; + if (flavor == TASK_BASIC2_INFO_32) { + /* + * The "BASIC2" flavor gets the maximum resident + * size instead of the current resident size... + */ + basic_info->resident_size = pmap_resident_max(map->pmap); + } else { + basic_info->resident_size = pmap_resident_count(map->pmap); } - task_unlock(task); - } + basic_info->resident_size *= PAGE_SIZE; - *task_info_count = TASK_KERNELMEMORY_INFO_COUNT; - return KERN_SUCCESS; - } + basic_info->policy = ((task != kernel_task)? + POLICY_TIMESHARE: POLICY_RR); + basic_info->suspend_count = task->user_stop_count; - /* OBSOLETE */ - case TASK_SCHED_FIFO_INFO: - { + absolutetime_to_microtime(task->total_user_time, &secs, &usecs); + basic_info->user_time.seconds = + (typeof(basic_info->user_time.seconds))secs; + basic_info->user_time.microseconds = usecs; - if (*task_info_count < POLICY_FIFO_BASE_COUNT) { - error = KERN_INVALID_ARGUMENT; + absolutetime_to_microtime(task->total_system_time, &secs, &usecs); + basic_info->system_time.seconds = + (typeof(basic_info->system_time.seconds))secs; + basic_info->system_time.microseconds = usecs; + + *task_info_count = TASK_BASIC_INFO_32_COUNT; break; } - error = KERN_INVALID_POLICY; - break; - } - - /* OBSOLETE */ - case TASK_SCHED_RR_INFO: +#if defined(__arm__) || defined(__arm64__) + case TASK_BASIC_INFO_64_2: { - register policy_rr_base_t rr_base; - uint32_t quantum_time; - uint64_t quantum_ns; + task_basic_info_64_2_t basic_info; + vm_map_t map; + clock_sec_t secs; + clock_usec_t usecs; - if (*task_info_count < POLICY_RR_BASE_COUNT) { + if (*task_info_count < TASK_BASIC_INFO_64_2_COUNT) { error = KERN_INVALID_ARGUMENT; break; } - rr_base = (policy_rr_base_t) task_info_out; + basic_info = (task_basic_info_64_2_t)task_info_out; - if (task != kernel_task) { - error = KERN_INVALID_POLICY; - break; - } + map = (task == kernel_task)? kernel_map: task->map; + basic_info->virtual_size = map->size; + basic_info->resident_size = + (mach_vm_size_t)(pmap_resident_count(map->pmap)) + * PAGE_SIZE_64; - rr_base->base_priority = task->priority; + basic_info->policy = ((task != kernel_task)? + POLICY_TIMESHARE: POLICY_RR); + basic_info->suspend_count = task->user_stop_count; - quantum_time = SCHED(initial_quantum_size)(THREAD_NULL); - absolutetime_to_nanoseconds(quantum_time, &quantum_ns); - - rr_base->quantum = (uint32_t)(quantum_ns / 1000 / 1000); + absolutetime_to_microtime(task->total_user_time, &secs, &usecs); + basic_info->user_time.seconds = + (typeof(basic_info->user_time.seconds))secs; + basic_info->user_time.microseconds = usecs; - *task_info_count = POLICY_RR_BASE_COUNT; + absolutetime_to_microtime(task->total_system_time, &secs, &usecs); + basic_info->system_time.seconds = + (typeof(basic_info->system_time.seconds))secs; + basic_info->system_time.microseconds = usecs; + + *task_info_count = TASK_BASIC_INFO_64_2_COUNT; break; } - /* OBSOLETE */ - case TASK_SCHED_TIMESHARE_INFO: +#else /* defined(__arm__) || defined(__arm64__) */ + case TASK_BASIC_INFO_64: { - register policy_timeshare_base_t ts_base; + task_basic_info_64_t basic_info; + vm_map_t map; + clock_sec_t secs; + clock_usec_t usecs; - if (*task_info_count < POLICY_TIMESHARE_BASE_COUNT) { + if (*task_info_count < TASK_BASIC_INFO_64_COUNT) { error = KERN_INVALID_ARGUMENT; break; } - ts_base = (policy_timeshare_base_t) task_info_out; + basic_info = (task_basic_info_64_t)task_info_out; - if (task == kernel_task) { - error = KERN_INVALID_POLICY; - break; - } + map = (task == kernel_task)? kernel_map: task->map; + basic_info->virtual_size = map->size; + basic_info->resident_size = + (mach_vm_size_t)(pmap_resident_count(map->pmap)) + * PAGE_SIZE_64; - ts_base->base_priority = task->priority; + basic_info->policy = ((task != kernel_task)? + POLICY_TIMESHARE: POLICY_RR); + basic_info->suspend_count = task->user_stop_count; - *task_info_count = POLICY_TIMESHARE_BASE_COUNT; + absolutetime_to_microtime(task->total_user_time, &secs, &usecs); + basic_info->user_time.seconds = + (typeof(basic_info->user_time.seconds))secs; + basic_info->user_time.microseconds = usecs; + + absolutetime_to_microtime(task->total_system_time, &secs, &usecs); + basic_info->system_time.seconds = + (typeof(basic_info->system_time.seconds))secs; + basic_info->system_time.microseconds = usecs; + + *task_info_count = TASK_BASIC_INFO_64_COUNT; break; } +#endif /* defined(__arm__) || defined(__arm64__) */ - case TASK_SECURITY_TOKEN: + case MACH_TASK_BASIC_INFO: { - register security_token_t *sec_token_p; + mach_task_basic_info_t basic_info; + vm_map_t map; + clock_sec_t secs; + clock_usec_t usecs; - if (*task_info_count < TASK_SECURITY_TOKEN_COUNT) { - error = KERN_INVALID_ARGUMENT; - break; + if (*task_info_count < MACH_TASK_BASIC_INFO_COUNT) { + error = KERN_INVALID_ARGUMENT; + break; } - sec_token_p = (security_token_t *) task_info_out; + basic_info = (mach_task_basic_info_t)task_info_out; - *sec_token_p = task->sec_token; + map = (task == kernel_task) ? kernel_map : task->map; - *task_info_count = TASK_SECURITY_TOKEN_COUNT; - break; - } - - case TASK_AUDIT_TOKEN: - { - register audit_token_t *audit_token_p; + basic_info->virtual_size = map->size; - if (*task_info_count < TASK_AUDIT_TOKEN_COUNT) { - error = KERN_INVALID_ARGUMENT; - break; - } + basic_info->resident_size = + (mach_vm_size_t)(pmap_resident_count(map->pmap)); + basic_info->resident_size *= PAGE_SIZE_64; - audit_token_p = (audit_token_t *) task_info_out; + basic_info->resident_size_max = + (mach_vm_size_t)(pmap_resident_max(map->pmap)); + basic_info->resident_size_max *= PAGE_SIZE_64; - *audit_token_p = task->audit_token; + basic_info->policy = ((task != kernel_task) ? + POLICY_TIMESHARE : POLICY_RR); - *task_info_count = TASK_AUDIT_TOKEN_COUNT; + basic_info->suspend_count = task->user_stop_count; + + absolutetime_to_microtime(task->total_user_time, &secs, &usecs); + basic_info->user_time.seconds = + (typeof(basic_info->user_time.seconds))secs; + basic_info->user_time.microseconds = usecs; + + absolutetime_to_microtime(task->total_system_time, &secs, &usecs); + basic_info->system_time.seconds = + (typeof(basic_info->system_time.seconds))secs; + basic_info->system_time.microseconds = usecs; + + *task_info_count = MACH_TASK_BASIC_INFO_COUNT; break; } - - case TASK_SCHED_INFO: - error = KERN_INVALID_ARGUMENT; - break; - case TASK_EVENTS_INFO: + case TASK_THREAD_TIMES_INFO: { - register task_events_info_t events_info; - register thread_t thread; + task_thread_times_info_t times_info; + thread_t thread; - if (*task_info_count < TASK_EVENTS_INFO_COUNT) { - error = KERN_INVALID_ARGUMENT; - break; + if (*task_info_count < TASK_THREAD_TIMES_INFO_COUNT) { + error = KERN_INVALID_ARGUMENT; + break; } - events_info = (task_events_info_t) task_info_out; + times_info = (task_thread_times_info_t) task_info_out; + times_info->user_time.seconds = 0; + times_info->user_time.microseconds = 0; + times_info->system_time.seconds = 0; + times_info->system_time.microseconds = 0; - events_info->faults = task->faults; - events_info->pageins = task->pageins; - events_info->cow_faults = task->cow_faults; - events_info->messages_sent = task->messages_sent; - events_info->messages_received = task->messages_received; - events_info->syscalls_mach = task->syscalls_mach; - events_info->syscalls_unix = task->syscalls_unix; + queue_iterate(&task->threads, thread, thread_t, task_threads) { + time_value_t user_time, system_time; - events_info->csw = task->c_switch; + if (thread->options & TH_OPT_IDLE_THREAD) { + continue; + } - queue_iterate(&task->threads, thread, thread_t, task_threads) { - events_info->csw += thread->c_switch; - events_info->syscalls_mach += thread->syscalls_mach; - events_info->syscalls_unix += thread->syscalls_unix; - } + thread_read_times(thread, &user_time, &system_time, NULL); - - *task_info_count = TASK_EVENTS_INFO_COUNT; - break; - } - case TASK_AFFINITY_TAG_INFO: - { - if (*task_info_count < TASK_AFFINITY_TAG_INFO_COUNT) { - error = KERN_INVALID_ARGUMENT; - break; + time_value_add(×_info->user_time, &user_time); + time_value_add(×_info->system_time, &system_time); } - error = task_affinity_info(task, task_info_out, task_info_count); + *task_info_count = TASK_THREAD_TIMES_INFO_COUNT; break; } - case TASK_POWER_INFO: + + case TASK_ABSOLUTETIME_INFO: { - if (*task_info_count < TASK_POWER_INFO_COUNT) { + task_absolutetime_info_t info; + thread_t thread; + + if (*task_info_count < TASK_ABSOLUTETIME_INFO_COUNT) { error = KERN_INVALID_ARGUMENT; break; } - task_power_info_locked(task, (task_power_info_t)task_info_out, NULL); + info = (task_absolutetime_info_t)task_info_out; + info->threads_user = info->threads_system = 0; + + + info->total_user = task->total_user_time; + info->total_system = task->total_system_time; + + queue_iterate(&task->threads, thread, thread_t, task_threads) { + uint64_t tval; + spl_t x; + + if (thread->options & TH_OPT_IDLE_THREAD) { + continue; + } + + x = splsched(); + thread_lock(thread); + + tval = timer_grab(&thread->user_timer); + info->threads_user += tval; + info->total_user += tval; + + tval = timer_grab(&thread->system_timer); + if (thread->precise_user_kernel_time) { + info->threads_system += tval; + info->total_system += tval; + } else { + /* system_timer may represent either sys or user */ + info->threads_user += tval; + info->total_user += tval; + } + + thread_unlock(thread); + splx(x); + } + + + *task_info_count = TASK_ABSOLUTETIME_INFO_COUNT; break; } - case TASK_POWER_INFO_V2: + case TASK_DYLD_INFO: { - if (*task_info_count < TASK_POWER_INFO_V2_COUNT) { + task_dyld_info_t info; + + /* + * We added the format field to TASK_DYLD_INFO output. For + * temporary backward compatibility, accept the fact that + * clients may ask for the old version - distinquished by the + * size of the expected result structure. + */ +#define TASK_LEGACY_DYLD_INFO_COUNT \ + offsetof(struct task_dyld_info, all_image_info_format)/sizeof(natural_t) + + if (*task_info_count < TASK_LEGACY_DYLD_INFO_COUNT) { error = KERN_INVALID_ARGUMENT; break; } - task_power_info_v2_t tpiv2 = (task_power_info_v2_t) task_info_out; - task_power_info_locked(task, &tpiv2->cpu_energy, &tpiv2->gpu_energy); + + info = (task_dyld_info_t)task_info_out; + info->all_image_info_addr = task->all_image_info_addr; + info->all_image_info_size = task->all_image_info_size; + + /* only set format on output for those expecting it */ + if (*task_info_count >= TASK_DYLD_INFO_COUNT) { + info->all_image_info_format = task_has_64Bit_addr(task) ? + TASK_DYLD_ALL_IMAGE_INFO_64 : + TASK_DYLD_ALL_IMAGE_INFO_32; + *task_info_count = TASK_DYLD_INFO_COUNT; + } else { + *task_info_count = TASK_LEGACY_DYLD_INFO_COUNT; + } break; } - case TASK_VM_INFO: - case TASK_VM_INFO_PURGEABLE: + case TASK_EXTMOD_INFO: { - task_vm_info_t vm_info; - vm_map_t map; + task_extmod_info_t info; + void *p; - if (*task_info_count < TASK_VM_INFO_REV0_COUNT) { - error = KERN_INVALID_ARGUMENT; - break; + if (*task_info_count < TASK_EXTMOD_INFO_COUNT) { + error = KERN_INVALID_ARGUMENT; + break; } - vm_info = (task_vm_info_t)task_info_out; + info = (task_extmod_info_t)task_info_out; - if (task == kernel_task) { - map = kernel_map; - /* no lock */ + p = get_bsdtask_info(task); + if (p) { + proc_getexecutableuuid(p, info->task_uuid, sizeof(info->task_uuid)); } else { - map = task->map; - vm_map_lock_read(map); + bzero(info->task_uuid, sizeof(info->task_uuid)); } + info->extmod_statistics = task->extmod_statistics; + *task_info_count = TASK_EXTMOD_INFO_COUNT; - vm_info->virtual_size = (typeof(vm_info->virtual_size))map->size; - vm_info->region_count = map->hdr.nentries; - vm_info->page_size = vm_map_page_size(map); + break; + } - vm_info->resident_size = pmap_resident_count(map->pmap); - vm_info->resident_size *= PAGE_SIZE; - vm_info->resident_size_peak = pmap_resident_max(map->pmap); - vm_info->resident_size_peak *= PAGE_SIZE; + case TASK_KERNELMEMORY_INFO: + { + task_kernelmemory_info_t tkm_info; + ledger_amount_t credit, debit; -#define _VM_INFO(_name) \ - vm_info->_name = ((mach_vm_size_t) map->pmap->stats._name) * PAGE_SIZE + if (*task_info_count < TASK_KERNELMEMORY_INFO_COUNT) { + error = KERN_INVALID_ARGUMENT; + break; + } - _VM_INFO(device); - _VM_INFO(device_peak); - _VM_INFO(external); - _VM_INFO(external_peak); - _VM_INFO(internal); - _VM_INFO(internal_peak); - _VM_INFO(reusable); - _VM_INFO(reusable_peak); - _VM_INFO(compressed); - _VM_INFO(compressed_peak); - _VM_INFO(compressed_lifetime); + tkm_info = (task_kernelmemory_info_t) task_info_out; + tkm_info->total_palloc = 0; + tkm_info->total_pfree = 0; + tkm_info->total_salloc = 0; + tkm_info->total_sfree = 0; - vm_info->purgeable_volatile_pmap = 0; - vm_info->purgeable_volatile_resident = 0; - vm_info->purgeable_volatile_virtual = 0; if (task == kernel_task) { /* - * We do not maintain the detailed stats for the - * kernel_pmap, so just count everything as - * "internal"... - */ - vm_info->internal = vm_info->resident_size; - /* - * ... but since the memory held by the VM compressor - * in the kernel address space ought to be attributed - * to user-space tasks, we subtract it from "internal" - * to give memory reporting tools a more accurate idea - * of what the kernel itself is actually using, instead - * of making it look like the kernel is leaking memory - * when the system is under memory pressure. + * All shared allocs/frees from other tasks count against + * the kernel private memory usage. If we are looking up + * info for the kernel task, gather from everywhere. */ - vm_info->internal -= (VM_PAGE_COMPRESSOR_COUNT * - PAGE_SIZE); - } else { - mach_vm_size_t volatile_virtual_size; - mach_vm_size_t volatile_resident_size; - mach_vm_size_t volatile_compressed_size; - mach_vm_size_t volatile_pmap_size; - mach_vm_size_t volatile_compressed_pmap_size; - kern_return_t kr; + task_unlock(task); - if (flavor == TASK_VM_INFO_PURGEABLE) { - kr = vm_map_query_volatile( - map, - &volatile_virtual_size, - &volatile_resident_size, - &volatile_compressed_size, - &volatile_pmap_size, - &volatile_compressed_pmap_size); - if (kr == KERN_SUCCESS) { - vm_info->purgeable_volatile_pmap = - volatile_pmap_size; - if (radar_20146450) { - vm_info->compressed -= - volatile_compressed_pmap_size; + /* start by accounting for all the terminated tasks against the kernel */ + tkm_info->total_palloc = tasks_tkm_private.alloc + tasks_tkm_shared.alloc; + tkm_info->total_pfree = tasks_tkm_private.free + tasks_tkm_shared.free; + + /* count all other task/thread shared alloc/free against the kernel */ + lck_mtx_lock(&tasks_threads_lock); + + /* XXX this really shouldn't be using the function parameter 'task' as a local var! */ + queue_iterate(&tasks, task, task_t, tasks) { + if (task == kernel_task) { + if (ledger_get_entries(task->ledger, + task_ledgers.tkm_private, &credit, + &debit) == KERN_SUCCESS) { + tkm_info->total_palloc += credit; + tkm_info->total_pfree += debit; } - vm_info->purgeable_volatile_resident = - volatile_resident_size; - vm_info->purgeable_volatile_virtual = - volatile_virtual_size; + } + if (!ledger_get_entries(task->ledger, + task_ledgers.tkm_shared, &credit, &debit)) { + tkm_info->total_palloc += credit; + tkm_info->total_pfree += debit; } } - vm_map_unlock_read(map); + lck_mtx_unlock(&tasks_threads_lock); + } else { + if (!ledger_get_entries(task->ledger, + task_ledgers.tkm_private, &credit, &debit)) { + tkm_info->total_palloc = credit; + tkm_info->total_pfree = debit; + } + if (!ledger_get_entries(task->ledger, + task_ledgers.tkm_shared, &credit, &debit)) { + tkm_info->total_salloc = credit; + tkm_info->total_sfree = debit; + } + task_unlock(task); } - if (*task_info_count >= TASK_VM_INFO_COUNT) { - vm_info->phys_footprint = 0; - *task_info_count = TASK_VM_INFO_COUNT; - } else { - *task_info_count = TASK_VM_INFO_REV0_COUNT; + *task_info_count = TASK_KERNELMEMORY_INFO_COUNT; + return KERN_SUCCESS; + } + + /* OBSOLETE */ + case TASK_SCHED_FIFO_INFO: + { + if (*task_info_count < POLICY_FIFO_BASE_COUNT) { + error = KERN_INVALID_ARGUMENT; + break; } + error = KERN_INVALID_POLICY; break; } - case TASK_WAIT_STATE_INFO: + /* OBSOLETE */ + case TASK_SCHED_RR_INFO: { - /* - * Deprecated flavor. Currently allowing some results until all users - * stop calling it. The results may not be accurate. - */ - task_wait_state_info_t wait_state_info; - uint64_t total_sfi_ledger_val = 0; + policy_rr_base_t rr_base; + uint32_t quantum_time; + uint64_t quantum_ns; - if (*task_info_count < TASK_WAIT_STATE_INFO_COUNT) { - error = KERN_INVALID_ARGUMENT; - break; + if (*task_info_count < POLICY_RR_BASE_COUNT) { + error = KERN_INVALID_ARGUMENT; + break; } - wait_state_info = (task_wait_state_info_t) task_info_out; + rr_base = (policy_rr_base_t) task_info_out; - wait_state_info->total_wait_state_time = 0; - bzero(wait_state_info->_reserved, sizeof(wait_state_info->_reserved)); + if (task != kernel_task) { + error = KERN_INVALID_POLICY; + break; + } -#if CONFIG_SCHED_SFI - int i, prev_lentry = -1; - int64_t val_credit, val_debit; + rr_base->base_priority = task->priority; - for (i = 0; i < MAX_SFI_CLASS_ID; i++){ - val_credit =0; - /* - * checking with prev_lentry != entry ensures adjacent classes - * which share the same ledger do not add wait times twice. - * Note: Use ledger() call to get data for each individual sfi class. - */ - if (prev_lentry != task_ledgers.sfi_wait_times[i] && - KERN_SUCCESS == ledger_get_entries(task->ledger, - task_ledgers.sfi_wait_times[i], &val_credit, &val_debit)) { - total_sfi_ledger_val += val_credit; - } - prev_lentry = task_ledgers.sfi_wait_times[i]; - } + quantum_time = SCHED(initial_quantum_size)(THREAD_NULL); + absolutetime_to_nanoseconds(quantum_time, &quantum_ns); -#endif /* CONFIG_SCHED_SFI */ - wait_state_info->total_wait_sfi_state_time = total_sfi_ledger_val; - *task_info_count = TASK_WAIT_STATE_INFO_COUNT; + rr_base->quantum = (uint32_t)(quantum_ns / 1000 / 1000); + *task_info_count = POLICY_RR_BASE_COUNT; break; } - case TASK_VM_INFO_PURGEABLE_ACCOUNT: + + /* OBSOLETE */ + case TASK_SCHED_TIMESHARE_INFO: { -#if DEVELOPMENT || DEBUG - pvm_account_info_t acnt_info; + policy_timeshare_base_t ts_base; - if (*task_info_count < PVM_ACCOUNT_INFO_COUNT) { + if (*task_info_count < POLICY_TIMESHARE_BASE_COUNT) { error = KERN_INVALID_ARGUMENT; break; } - if (task_info_out == NULL) { - error = KERN_INVALID_ARGUMENT; + ts_base = (policy_timeshare_base_t) task_info_out; + + if (task == kernel_task) { + error = KERN_INVALID_POLICY; break; } - acnt_info = (pvm_account_info_t) task_info_out; - - error = vm_purgeable_account(task, acnt_info); - - *task_info_count = PVM_ACCOUNT_INFO_COUNT; + ts_base->base_priority = task->priority; + *task_info_count = POLICY_TIMESHARE_BASE_COUNT; break; -#else /* DEVELOPMENT || DEBUG */ - error = KERN_NOT_SUPPORTED; - break; -#endif /* DEVELOPMENT || DEBUG */ } - case TASK_FLAGS_INFO: + + case TASK_SECURITY_TOKEN: { - task_flags_info_t flags_info; + security_token_t *sec_token_p; - if (*task_info_count < TASK_FLAGS_INFO_COUNT) { - error = KERN_INVALID_ARGUMENT; - break; + if (*task_info_count < TASK_SECURITY_TOKEN_COUNT) { + error = KERN_INVALID_ARGUMENT; + break; } - flags_info = (task_flags_info_t)task_info_out; + sec_token_p = (security_token_t *) task_info_out; - /* only publish the 64-bit flag of the task */ - flags_info->flags = task->t_flags & TF_64B_ADDR; + *sec_token_p = task->sec_token; - *task_info_count = TASK_FLAGS_INFO_COUNT; + *task_info_count = TASK_SECURITY_TOKEN_COUNT; break; } - case TASK_DEBUG_INFO_INTERNAL: + case TASK_AUDIT_TOKEN: { -#if DEVELOPMENT || DEBUG - task_debug_info_internal_t dbg_info; - if (*task_info_count < TASK_DEBUG_INFO_INTERNAL_COUNT) { - error = KERN_NOT_SUPPORTED; - break; - } + audit_token_t *audit_token_p; - if (task_info_out == NULL) { + if (*task_info_count < TASK_AUDIT_TOKEN_COUNT) { error = KERN_INVALID_ARGUMENT; break; } - dbg_info = (task_debug_info_internal_t) task_info_out; - dbg_info->ipc_space_size = 0; - if (task->itk_space){ - dbg_info->ipc_space_size = task->itk_space->is_table_size; - } - - error = KERN_SUCCESS; - *task_info_count = TASK_DEBUG_INFO_INTERNAL_COUNT; - break; -#else /* DEVELOPMENT || DEBUG */ - error = KERN_NOT_SUPPORTED; - break; -#endif /* DEVELOPMENT || DEBUG */ - } - default: - error = KERN_INVALID_ARGUMENT; - } - task_unlock(task); - return (error); -} + audit_token_p = (audit_token_t *) task_info_out; -/* - * task_power_info - * - * Returns power stats for the task. - * Note: Called with task locked. - */ -void -task_power_info_locked( - task_t task, - task_power_info_t info, - gpu_energy_data_t ginfo) -{ - thread_t thread; - ledger_amount_t tmp; + *audit_token_p = task->audit_token; - task_lock_assert_owned(task); + *task_info_count = TASK_AUDIT_TOKEN_COUNT; + break; + } - ledger_get_entries(task->ledger, task_ledgers.interrupt_wakeups, - (ledger_amount_t *)&info->task_interrupt_wakeups, &tmp); - ledger_get_entries(task->ledger, task_ledgers.platform_idle_wakeups, - (ledger_amount_t *)&info->task_platform_idle_wakeups, &tmp); + case TASK_SCHED_INFO: + error = KERN_INVALID_ARGUMENT; + break; - info->task_timer_wakeups_bin_1 = task->task_timer_wakeups_bin_1; - info->task_timer_wakeups_bin_2 = task->task_timer_wakeups_bin_2; + case TASK_EVENTS_INFO: + { + task_events_info_t events_info; + thread_t thread; - info->total_user = task->total_user_time; - info->total_system = task->total_system_time; + if (*task_info_count < TASK_EVENTS_INFO_COUNT) { + error = KERN_INVALID_ARGUMENT; + break; + } - if (ginfo) { - ginfo->task_gpu_utilisation = task->task_gpu_ns; - } + events_info = (task_events_info_t) task_info_out; - queue_iterate(&task->threads, thread, thread_t, task_threads) { - uint64_t tval; - spl_t x; - if (thread->options & TH_OPT_IDLE_THREAD) - continue; + events_info->faults = task->faults; + events_info->pageins = task->pageins; + events_info->cow_faults = task->cow_faults; + events_info->messages_sent = task->messages_sent; + events_info->messages_received = task->messages_received; + events_info->syscalls_mach = task->syscalls_mach; + events_info->syscalls_unix = task->syscalls_unix; - x = splsched(); - thread_lock(thread); + events_info->csw = task->c_switch; - info->task_timer_wakeups_bin_1 += thread->thread_timer_wakeups_bin_1; - info->task_timer_wakeups_bin_2 += thread->thread_timer_wakeups_bin_2; + queue_iterate(&task->threads, thread, thread_t, task_threads) { + events_info->csw += thread->c_switch; + events_info->syscalls_mach += thread->syscalls_mach; + events_info->syscalls_unix += thread->syscalls_unix; + } - tval = timer_grab(&thread->user_timer); - info->total_user += tval; - tval = timer_grab(&thread->system_timer); - if (thread->precise_user_kernel_time) { - info->total_system += tval; - } else { - /* system_timer may represent either sys or user */ - info->total_user += tval; + *task_info_count = TASK_EVENTS_INFO_COUNT; + break; + } + case TASK_AFFINITY_TAG_INFO: + { + if (*task_info_count < TASK_AFFINITY_TAG_INFO_COUNT) { + error = KERN_INVALID_ARGUMENT; + break; } - if (ginfo) { - ginfo->task_gpu_utilisation += ml_gpu_stat(thread); - } - thread_unlock(thread); - splx(x); + error = task_affinity_info(task, task_info_out, task_info_count); + break; } -} - -/* - * task_gpu_utilisation - * - * Returns the total gpu time used by the all the threads of the task - * (both dead and alive) - */ -uint64_t -task_gpu_utilisation( - task_t task) -{ - uint64_t gpu_time = 0; - thread_t thread; - - task_lock(task); - gpu_time += task->task_gpu_ns; + case TASK_POWER_INFO: + { + if (*task_info_count < TASK_POWER_INFO_COUNT) { + error = KERN_INVALID_ARGUMENT; + break; + } - queue_iterate(&task->threads, thread, thread_t, task_threads) { - spl_t x; - x = splsched(); - thread_lock(thread); - gpu_time += ml_gpu_stat(thread); - thread_unlock(thread); - splx(x); + task_power_info_locked(task, (task_power_info_t)task_info_out, NULL, NULL, NULL); + break; } - task_unlock(task); - return gpu_time; -} - -kern_return_t -task_purgable_info( - task_t task, - task_purgable_info_t *stats) -{ - if (task == TASK_NULL || stats == NULL) - return KERN_INVALID_ARGUMENT; - /* Take task reference */ - task_reference(task); - vm_purgeable_stats((vm_purgeable_info_t)stats, task); - /* Drop task reference */ - task_deallocate(task); - return KERN_SUCCESS; -} - -void -task_vtimer_set( - task_t task, - integer_t which) -{ - thread_t thread; - spl_t x; - - /* assert(task == current_task()); */ /* bogus assert 4803227 4807483 */ - - task_lock(task); - - task->vtimers |= which; - - switch (which) { - - case TASK_VTIMER_USER: - queue_iterate(&task->threads, thread, thread_t, task_threads) { - x = splsched(); - thread_lock(thread); - if (thread->precise_user_kernel_time) - thread->vtimer_user_save = timer_grab(&thread->user_timer); - else - thread->vtimer_user_save = timer_grab(&thread->system_timer); - thread_unlock(thread); - splx(x); + case TASK_POWER_INFO_V2: + { + if (*task_info_count < TASK_POWER_INFO_V2_COUNT_OLD) { + error = KERN_INVALID_ARGUMENT; + break; } + task_power_info_v2_t tpiv2 = (task_power_info_v2_t) task_info_out; + task_power_info_locked(task, &tpiv2->cpu_energy, &tpiv2->gpu_energy, tpiv2, NULL); break; + } - case TASK_VTIMER_PROF: - queue_iterate(&task->threads, thread, thread_t, task_threads) { - x = splsched(); - thread_lock(thread); - thread->vtimer_prof_save = timer_grab(&thread->user_timer); - thread->vtimer_prof_save += timer_grab(&thread->system_timer); - thread_unlock(thread); - splx(x); + case TASK_VM_INFO: + case TASK_VM_INFO_PURGEABLE: + { + task_vm_info_t vm_info; + vm_map_t map; + +#if __arm64__ + struct proc *p; + uint32_t platform, sdk; + p = current_proc(); + platform = proc_platform(p); + sdk = proc_sdk(p); + if (original_task_info_count > TASK_VM_INFO_REV2_COUNT && + platform == PLATFORM_IOS && + sdk != 0 && + (sdk >> 16) <= 12) { + /* + * Some iOS apps pass an incorrect value for + * task_info_count, expressed in number of bytes + * instead of number of "natural_t" elements. + * For the sake of backwards binary compatibility + * for apps built with an iOS12 or older SDK and using + * the "rev2" data structure, let's fix task_info_count + * for them, to avoid stomping past the actual end + * of their buffer. + */ +#if DEVELOPMENT || DEBUG + printf("%s:%d %d[%s] rdar://49484582 task_info_count %d -> %d platform %d sdk %d.%d.%d\n", __FUNCTION__, __LINE__, proc_pid(p), proc_name_address(p), original_task_info_count, TASK_VM_INFO_REV2_COUNT, platform, (sdk >> 16), ((sdk >> 8) & 0xff), (sdk & 0xff)); +#endif /* DEVELOPMENT || DEBUG */ + DTRACE_VM4(workaround_task_vm_info_count, + mach_msg_type_number_t, original_task_info_count, + mach_msg_type_number_t, TASK_VM_INFO_REV2_COUNT, + uint32_t, platform, + uint32_t, sdk); + original_task_info_count = TASK_VM_INFO_REV2_COUNT; + *task_info_count = original_task_info_count; } - break; +#endif /* __arm64__ */ - case TASK_VTIMER_RLIM: - queue_iterate(&task->threads, thread, thread_t, task_threads) { - x = splsched(); - thread_lock(thread); - thread->vtimer_rlim_save = timer_grab(&thread->user_timer); - thread->vtimer_rlim_save += timer_grab(&thread->system_timer); - thread_unlock(thread); - splx(x); + if (*task_info_count < TASK_VM_INFO_REV0_COUNT) { + error = KERN_INVALID_ARGUMENT; + break; } - break; - } - task_unlock(task); -} + vm_info = (task_vm_info_t)task_info_out; -void -task_vtimer_clear( - task_t task, - integer_t which) -{ - assert(task == current_task()); + if (task == kernel_task) { + map = kernel_map; + /* no lock */ + } else { + map = task->map; + vm_map_lock_read(map); + } - task_lock(task); + vm_info->virtual_size = (typeof(vm_info->virtual_size))map->size; + vm_info->region_count = map->hdr.nentries; + vm_info->page_size = vm_map_page_size(map); + + vm_info->resident_size = pmap_resident_count(map->pmap); + vm_info->resident_size *= PAGE_SIZE; + vm_info->resident_size_peak = pmap_resident_max(map->pmap); + vm_info->resident_size_peak *= PAGE_SIZE; + +#define _VM_INFO(_name) \ + vm_info->_name = ((mach_vm_size_t) map->pmap->stats._name) * PAGE_SIZE + + _VM_INFO(device); + _VM_INFO(device_peak); + _VM_INFO(external); + _VM_INFO(external_peak); + _VM_INFO(internal); + _VM_INFO(internal_peak); + _VM_INFO(reusable); + _VM_INFO(reusable_peak); + _VM_INFO(compressed); + _VM_INFO(compressed_peak); + _VM_INFO(compressed_lifetime); + + vm_info->purgeable_volatile_pmap = 0; + vm_info->purgeable_volatile_resident = 0; + vm_info->purgeable_volatile_virtual = 0; + if (task == kernel_task) { + /* + * We do not maintain the detailed stats for the + * kernel_pmap, so just count everything as + * "internal"... + */ + vm_info->internal = vm_info->resident_size; + /* + * ... but since the memory held by the VM compressor + * in the kernel address space ought to be attributed + * to user-space tasks, we subtract it from "internal" + * to give memory reporting tools a more accurate idea + * of what the kernel itself is actually using, instead + * of making it look like the kernel is leaking memory + * when the system is under memory pressure. + */ + vm_info->internal -= (VM_PAGE_COMPRESSOR_COUNT * + PAGE_SIZE); + } else { + mach_vm_size_t volatile_virtual_size; + mach_vm_size_t volatile_resident_size; + mach_vm_size_t volatile_compressed_size; + mach_vm_size_t volatile_pmap_size; + mach_vm_size_t volatile_compressed_pmap_size; + kern_return_t kr; + + if (flavor == TASK_VM_INFO_PURGEABLE) { + kr = vm_map_query_volatile( + map, + &volatile_virtual_size, + &volatile_resident_size, + &volatile_compressed_size, + &volatile_pmap_size, + &volatile_compressed_pmap_size); + if (kr == KERN_SUCCESS) { + vm_info->purgeable_volatile_pmap = + volatile_pmap_size; + if (radar_20146450) { + vm_info->compressed -= + volatile_compressed_pmap_size; + } + vm_info->purgeable_volatile_resident = + volatile_resident_size; + vm_info->purgeable_volatile_virtual = + volatile_virtual_size; + } + } + } + *task_info_count = TASK_VM_INFO_REV0_COUNT; + + if (original_task_info_count >= TASK_VM_INFO_REV1_COUNT) { + vm_info->phys_footprint = + (mach_vm_size_t) get_task_phys_footprint(task); + *task_info_count = TASK_VM_INFO_REV1_COUNT; + } + if (original_task_info_count >= TASK_VM_INFO_REV2_COUNT) { + vm_info->min_address = map->min_offset; + vm_info->max_address = map->max_offset; + *task_info_count = TASK_VM_INFO_REV2_COUNT; + } + if (original_task_info_count >= TASK_VM_INFO_REV3_COUNT) { + ledger_get_lifetime_max(task->ledger, + task_ledgers.phys_footprint, + &vm_info->ledger_phys_footprint_peak); + ledger_get_balance(task->ledger, + task_ledgers.purgeable_nonvolatile, + &vm_info->ledger_purgeable_nonvolatile); + ledger_get_balance(task->ledger, + task_ledgers.purgeable_nonvolatile_compressed, + &vm_info->ledger_purgeable_novolatile_compressed); + ledger_get_balance(task->ledger, + task_ledgers.purgeable_volatile, + &vm_info->ledger_purgeable_volatile); + ledger_get_balance(task->ledger, + task_ledgers.purgeable_volatile_compressed, + &vm_info->ledger_purgeable_volatile_compressed); + ledger_get_balance(task->ledger, + task_ledgers.network_nonvolatile, + &vm_info->ledger_tag_network_nonvolatile); + ledger_get_balance(task->ledger, + task_ledgers.network_nonvolatile_compressed, + &vm_info->ledger_tag_network_nonvolatile_compressed); + ledger_get_balance(task->ledger, + task_ledgers.network_volatile, + &vm_info->ledger_tag_network_volatile); + ledger_get_balance(task->ledger, + task_ledgers.network_volatile_compressed, + &vm_info->ledger_tag_network_volatile_compressed); + ledger_get_balance(task->ledger, + task_ledgers.media_footprint, + &vm_info->ledger_tag_media_footprint); + ledger_get_balance(task->ledger, + task_ledgers.media_footprint_compressed, + &vm_info->ledger_tag_media_footprint_compressed); + ledger_get_balance(task->ledger, + task_ledgers.media_nofootprint, + &vm_info->ledger_tag_media_nofootprint); + ledger_get_balance(task->ledger, + task_ledgers.media_nofootprint_compressed, + &vm_info->ledger_tag_media_nofootprint_compressed); + ledger_get_balance(task->ledger, + task_ledgers.graphics_footprint, + &vm_info->ledger_tag_graphics_footprint); + ledger_get_balance(task->ledger, + task_ledgers.graphics_footprint_compressed, + &vm_info->ledger_tag_graphics_footprint_compressed); + ledger_get_balance(task->ledger, + task_ledgers.graphics_nofootprint, + &vm_info->ledger_tag_graphics_nofootprint); + ledger_get_balance(task->ledger, + task_ledgers.graphics_nofootprint_compressed, + &vm_info->ledger_tag_graphics_nofootprint_compressed); + ledger_get_balance(task->ledger, + task_ledgers.neural_footprint, + &vm_info->ledger_tag_neural_footprint); + ledger_get_balance(task->ledger, + task_ledgers.neural_footprint_compressed, + &vm_info->ledger_tag_neural_footprint_compressed); + ledger_get_balance(task->ledger, + task_ledgers.neural_nofootprint, + &vm_info->ledger_tag_neural_nofootprint); + ledger_get_balance(task->ledger, + task_ledgers.neural_nofootprint_compressed, + &vm_info->ledger_tag_neural_nofootprint_compressed); + *task_info_count = TASK_VM_INFO_REV3_COUNT; + } + if (original_task_info_count >= TASK_VM_INFO_REV4_COUNT) { + if (task->bsd_info) { + vm_info->limit_bytes_remaining = + memorystatus_available_memory_internal(task->bsd_info); + } else { + vm_info->limit_bytes_remaining = 0; + } + *task_info_count = TASK_VM_INFO_REV4_COUNT; + } + if (original_task_info_count >= TASK_VM_INFO_REV5_COUNT) { + thread_t thread; + integer_t total = task->decompressions; + queue_iterate(&task->threads, thread, thread_t, task_threads) { + total += thread->decompressions; + } + vm_info->decompressions = total; + *task_info_count = TASK_VM_INFO_REV5_COUNT; + } + + if (task != kernel_task) { + vm_map_unlock_read(map); + } + + break; + } + + case TASK_WAIT_STATE_INFO: + { + /* + * Deprecated flavor. Currently allowing some results until all users + * stop calling it. The results may not be accurate. + */ + task_wait_state_info_t wait_state_info; + uint64_t total_sfi_ledger_val = 0; + + if (*task_info_count < TASK_WAIT_STATE_INFO_COUNT) { + error = KERN_INVALID_ARGUMENT; + break; + } + + wait_state_info = (task_wait_state_info_t) task_info_out; + + wait_state_info->total_wait_state_time = 0; + bzero(wait_state_info->_reserved, sizeof(wait_state_info->_reserved)); + +#if CONFIG_SCHED_SFI + int i, prev_lentry = -1; + int64_t val_credit, val_debit; + + for (i = 0; i < MAX_SFI_CLASS_ID; i++) { + val_credit = 0; + /* + * checking with prev_lentry != entry ensures adjacent classes + * which share the same ledger do not add wait times twice. + * Note: Use ledger() call to get data for each individual sfi class. + */ + if (prev_lentry != task_ledgers.sfi_wait_times[i] && + KERN_SUCCESS == ledger_get_entries(task->ledger, + task_ledgers.sfi_wait_times[i], &val_credit, &val_debit)) { + total_sfi_ledger_val += val_credit; + } + prev_lentry = task_ledgers.sfi_wait_times[i]; + } + +#endif /* CONFIG_SCHED_SFI */ + wait_state_info->total_wait_sfi_state_time = total_sfi_ledger_val; + *task_info_count = TASK_WAIT_STATE_INFO_COUNT; + + break; + } + case TASK_VM_INFO_PURGEABLE_ACCOUNT: + { +#if DEVELOPMENT || DEBUG + pvm_account_info_t acnt_info; + + if (*task_info_count < PVM_ACCOUNT_INFO_COUNT) { + error = KERN_INVALID_ARGUMENT; + break; + } + + if (task_info_out == NULL) { + error = KERN_INVALID_ARGUMENT; + break; + } + + acnt_info = (pvm_account_info_t) task_info_out; + + error = vm_purgeable_account(task, acnt_info); + + *task_info_count = PVM_ACCOUNT_INFO_COUNT; + + break; +#else /* DEVELOPMENT || DEBUG */ + error = KERN_NOT_SUPPORTED; + break; +#endif /* DEVELOPMENT || DEBUG */ + } + case TASK_FLAGS_INFO: + { + task_flags_info_t flags_info; + + if (*task_info_count < TASK_FLAGS_INFO_COUNT) { + error = KERN_INVALID_ARGUMENT; + break; + } + + flags_info = (task_flags_info_t)task_info_out; + + /* only publish the 64-bit flag of the task */ + flags_info->flags = task->t_flags & (TF_64B_ADDR | TF_64B_DATA); + + *task_info_count = TASK_FLAGS_INFO_COUNT; + break; + } + + case TASK_DEBUG_INFO_INTERNAL: + { +#if DEVELOPMENT || DEBUG + task_debug_info_internal_t dbg_info; + ipc_space_t space = task->itk_space; + if (*task_info_count < TASK_DEBUG_INFO_INTERNAL_COUNT) { + error = KERN_NOT_SUPPORTED; + break; + } + + if (task_info_out == NULL) { + error = KERN_INVALID_ARGUMENT; + break; + } + dbg_info = (task_debug_info_internal_t) task_info_out; + dbg_info->ipc_space_size = 0; + + if (space) { + is_read_lock(space); + dbg_info->ipc_space_size = space->is_table_size; + is_read_unlock(space); + } + + dbg_info->suspend_count = task->suspend_count; + + error = KERN_SUCCESS; + *task_info_count = TASK_DEBUG_INFO_INTERNAL_COUNT; + break; +#else /* DEVELOPMENT || DEBUG */ + error = KERN_NOT_SUPPORTED; + break; +#endif /* DEVELOPMENT || DEBUG */ + } + default: + error = KERN_INVALID_ARGUMENT; + } + + task_unlock(task); + return error; +} + +/* + * task_info_from_user + * + * When calling task_info from user space, + * this function will be executed as mig server side + * instead of calling directly into task_info. + * This gives the possibility to perform more security + * checks on task_port. + * + * In the case of TASK_DYLD_INFO, we require the more + * privileged task_port not the less-privileged task_name_port. + * + */ +kern_return_t +task_info_from_user( + mach_port_t task_port, + task_flavor_t flavor, + task_info_t task_info_out, + mach_msg_type_number_t *task_info_count) +{ + task_t task; + kern_return_t ret; + + if (flavor == TASK_DYLD_INFO) { + task = convert_port_to_task(task_port); + } else { + task = convert_port_to_task_name(task_port); + } + + ret = task_info(task, flavor, task_info_out, task_info_count); + + task_deallocate(task); + + return ret; +} + +/* + * task_power_info + * + * Returns power stats for the task. + * Note: Called with task locked. + */ +void +task_power_info_locked( + task_t task, + task_power_info_t info, + gpu_energy_data_t ginfo, + task_power_info_v2_t infov2, + uint64_t *runnable_time) +{ + thread_t thread; + ledger_amount_t tmp; + + uint64_t runnable_time_sum = 0; + + task_lock_assert_owned(task); + + ledger_get_entries(task->ledger, task_ledgers.interrupt_wakeups, + (ledger_amount_t *)&info->task_interrupt_wakeups, &tmp); + ledger_get_entries(task->ledger, task_ledgers.platform_idle_wakeups, + (ledger_amount_t *)&info->task_platform_idle_wakeups, &tmp); + + info->task_timer_wakeups_bin_1 = task->task_timer_wakeups_bin_1; + info->task_timer_wakeups_bin_2 = task->task_timer_wakeups_bin_2; + + info->total_user = task->total_user_time; + info->total_system = task->total_system_time; + runnable_time_sum = task->total_runnable_time; + +#if CONFIG_EMBEDDED + if (infov2) { + infov2->task_energy = task->task_energy; + } +#endif + + if (ginfo) { + ginfo->task_gpu_utilisation = task->task_gpu_ns; + } + + if (infov2) { + infov2->task_ptime = task->total_ptime; + infov2->task_pset_switches = task->ps_switch; + } + + queue_iterate(&task->threads, thread, thread_t, task_threads) { + uint64_t tval; + spl_t x; + + if (thread->options & TH_OPT_IDLE_THREAD) { + continue; + } + + x = splsched(); + thread_lock(thread); + + info->task_timer_wakeups_bin_1 += thread->thread_timer_wakeups_bin_1; + info->task_timer_wakeups_bin_2 += thread->thread_timer_wakeups_bin_2; + +#if CONFIG_EMBEDDED + if (infov2) { + infov2->task_energy += ml_energy_stat(thread); + } +#endif + + tval = timer_grab(&thread->user_timer); + info->total_user += tval; + + if (infov2) { + tval = timer_grab(&thread->ptime); + infov2->task_ptime += tval; + infov2->task_pset_switches += thread->ps_switch; + } + + tval = timer_grab(&thread->system_timer); + if (thread->precise_user_kernel_time) { + info->total_system += tval; + } else { + /* system_timer may represent either sys or user */ + info->total_user += tval; + } + + tval = timer_grab(&thread->runnable_timer); + + runnable_time_sum += tval; + + if (ginfo) { + ginfo->task_gpu_utilisation += ml_gpu_stat(thread); + } + thread_unlock(thread); + splx(x); + } + + if (runnable_time) { + *runnable_time = runnable_time_sum; + } +} + +/* + * task_gpu_utilisation + * + * Returns the total gpu time used by the all the threads of the task + * (both dead and alive) + */ +uint64_t +task_gpu_utilisation( + task_t task) +{ + uint64_t gpu_time = 0; +#if !CONFIG_EMBEDDED + thread_t thread; + + task_lock(task); + gpu_time += task->task_gpu_ns; + + queue_iterate(&task->threads, thread, thread_t, task_threads) { + spl_t x; + x = splsched(); + thread_lock(thread); + gpu_time += ml_gpu_stat(thread); + thread_unlock(thread); + splx(x); + } + + task_unlock(task); +#else /* CONFIG_EMBEDDED */ + /* silence compiler warning */ + (void)task; +#endif /* !CONFIG_EMBEDDED */ + return gpu_time; +} + +/* + * task_energy + * + * Returns the total energy used by the all the threads of the task + * (both dead and alive) + */ +uint64_t +task_energy( + task_t task) +{ + uint64_t energy = 0; + thread_t thread; + + task_lock(task); + energy += task->task_energy; + + queue_iterate(&task->threads, thread, thread_t, task_threads) { + spl_t x; + x = splsched(); + thread_lock(thread); + energy += ml_energy_stat(thread); + thread_unlock(thread); + splx(x); + } + + task_unlock(task); + return energy; +} + +#if __AMP__ + +uint64_t +task_cpu_ptime( + task_t task) +{ + uint64_t cpu_ptime = 0; + thread_t thread; + + task_lock(task); + cpu_ptime += task->total_ptime; + + queue_iterate(&task->threads, thread, thread_t, task_threads) { + cpu_ptime += timer_grab(&thread->ptime); + } + + task_unlock(task); + return cpu_ptime; +} + +#else /* __AMP__ */ + +uint64_t +task_cpu_ptime( + __unused task_t task) +{ + return 0; +} + +#endif /* __AMP__ */ + +/* This function updates the cpu time in the arrays for each + * effective and requested QoS class + */ +void +task_update_cpu_time_qos_stats( + task_t task, + uint64_t *eqos_stats, + uint64_t *rqos_stats) +{ + if (!eqos_stats && !rqos_stats) { + return; + } + + task_lock(task); + thread_t thread; + queue_iterate(&task->threads, thread, thread_t, task_threads) { + if (thread->options & TH_OPT_IDLE_THREAD) { + continue; + } + + thread_update_qos_cpu_time(thread); + } + + if (eqos_stats) { + eqos_stats[THREAD_QOS_DEFAULT] += task->cpu_time_eqos_stats.cpu_time_qos_default; + eqos_stats[THREAD_QOS_MAINTENANCE] += task->cpu_time_eqos_stats.cpu_time_qos_maintenance; + eqos_stats[THREAD_QOS_BACKGROUND] += task->cpu_time_eqos_stats.cpu_time_qos_background; + eqos_stats[THREAD_QOS_UTILITY] += task->cpu_time_eqos_stats.cpu_time_qos_utility; + eqos_stats[THREAD_QOS_LEGACY] += task->cpu_time_eqos_stats.cpu_time_qos_legacy; + eqos_stats[THREAD_QOS_USER_INITIATED] += task->cpu_time_eqos_stats.cpu_time_qos_user_initiated; + eqos_stats[THREAD_QOS_USER_INTERACTIVE] += task->cpu_time_eqos_stats.cpu_time_qos_user_interactive; + } + + if (rqos_stats) { + rqos_stats[THREAD_QOS_DEFAULT] += task->cpu_time_rqos_stats.cpu_time_qos_default; + rqos_stats[THREAD_QOS_MAINTENANCE] += task->cpu_time_rqos_stats.cpu_time_qos_maintenance; + rqos_stats[THREAD_QOS_BACKGROUND] += task->cpu_time_rqos_stats.cpu_time_qos_background; + rqos_stats[THREAD_QOS_UTILITY] += task->cpu_time_rqos_stats.cpu_time_qos_utility; + rqos_stats[THREAD_QOS_LEGACY] += task->cpu_time_rqos_stats.cpu_time_qos_legacy; + rqos_stats[THREAD_QOS_USER_INITIATED] += task->cpu_time_rqos_stats.cpu_time_qos_user_initiated; + rqos_stats[THREAD_QOS_USER_INTERACTIVE] += task->cpu_time_rqos_stats.cpu_time_qos_user_interactive; + } + + task_unlock(task); +} + +kern_return_t +task_purgable_info( + task_t task, + task_purgable_info_t *stats) +{ + if (task == TASK_NULL || stats == NULL) { + return KERN_INVALID_ARGUMENT; + } + /* Take task reference */ + task_reference(task); + vm_purgeable_stats((vm_purgeable_info_t)stats, task); + /* Drop task reference */ + task_deallocate(task); + return KERN_SUCCESS; +} + +void +task_vtimer_set( + task_t task, + integer_t which) +{ + thread_t thread; + spl_t x; + + task_lock(task); + + task->vtimers |= which; + + switch (which) { + case TASK_VTIMER_USER: + queue_iterate(&task->threads, thread, thread_t, task_threads) { + x = splsched(); + thread_lock(thread); + if (thread->precise_user_kernel_time) { + thread->vtimer_user_save = timer_grab(&thread->user_timer); + } else { + thread->vtimer_user_save = timer_grab(&thread->system_timer); + } + thread_unlock(thread); + splx(x); + } + break; + + case TASK_VTIMER_PROF: + queue_iterate(&task->threads, thread, thread_t, task_threads) { + x = splsched(); + thread_lock(thread); + thread->vtimer_prof_save = timer_grab(&thread->user_timer); + thread->vtimer_prof_save += timer_grab(&thread->system_timer); + thread_unlock(thread); + splx(x); + } + break; + + case TASK_VTIMER_RLIM: + queue_iterate(&task->threads, thread, thread_t, task_threads) { + x = splsched(); + thread_lock(thread); + thread->vtimer_rlim_save = timer_grab(&thread->user_timer); + thread->vtimer_rlim_save += timer_grab(&thread->system_timer); + thread_unlock(thread); + splx(x); + } + break; + } + + task_unlock(task); +} + +void +task_vtimer_clear( + task_t task, + integer_t which) +{ + assert(task == current_task()); + + task_lock(task); task->vtimers &= ~which; - task_unlock(task); + task_unlock(task); +} + +void +task_vtimer_update( + __unused + task_t task, + integer_t which, + uint32_t *microsecs) +{ + thread_t thread = current_thread(); + uint32_t tdelt = 0; + clock_sec_t secs = 0; + uint64_t tsum; + + assert(task == current_task()); + + spl_t s = splsched(); + thread_lock(thread); + + if ((task->vtimers & which) != (uint32_t)which) { + thread_unlock(thread); + splx(s); + return; + } + + switch (which) { + case TASK_VTIMER_USER: + if (thread->precise_user_kernel_time) { + tdelt = (uint32_t)timer_delta(&thread->user_timer, + &thread->vtimer_user_save); + } else { + tdelt = (uint32_t)timer_delta(&thread->system_timer, + &thread->vtimer_user_save); + } + absolutetime_to_microtime(tdelt, &secs, microsecs); + break; + + case TASK_VTIMER_PROF: + tsum = timer_grab(&thread->user_timer); + tsum += timer_grab(&thread->system_timer); + tdelt = (uint32_t)(tsum - thread->vtimer_prof_save); + absolutetime_to_microtime(tdelt, &secs, microsecs); + /* if the time delta is smaller than a usec, ignore */ + if (*microsecs != 0) { + thread->vtimer_prof_save = tsum; + } + break; + + case TASK_VTIMER_RLIM: + tsum = timer_grab(&thread->user_timer); + tsum += timer_grab(&thread->system_timer); + tdelt = (uint32_t)(tsum - thread->vtimer_rlim_save); + thread->vtimer_rlim_save = tsum; + absolutetime_to_microtime(tdelt, &secs, microsecs); + break; + } + + thread_unlock(thread); + splx(s); +} + +/* + * task_assign: + * + * Change the assigned processor set for the task + */ +kern_return_t +task_assign( + __unused task_t task, + __unused processor_set_t new_pset, + __unused boolean_t assign_threads) +{ + return KERN_FAILURE; +} + +/* + * task_assign_default: + * + * Version of task_assign to assign to default processor set. + */ +kern_return_t +task_assign_default( + task_t task, + boolean_t assign_threads) +{ + return task_assign(task, &pset0, assign_threads); +} + +/* + * task_get_assignment + * + * Return name of processor set that task is assigned to. + */ +kern_return_t +task_get_assignment( + task_t task, + processor_set_t *pset) +{ + if (!task || !task->active) { + return KERN_FAILURE; + } + + *pset = &pset0; + + return KERN_SUCCESS; +} + +uint64_t +get_task_dispatchqueue_offset( + task_t task) +{ + return task->dispatchqueue_offset; +} + +/* + * task_policy + * + * Set scheduling policy and parameters, both base and limit, for + * the given task. Policy must be a policy which is enabled for the + * processor set. Change contained threads if requested. + */ +kern_return_t +task_policy( + __unused task_t task, + __unused policy_t policy_id, + __unused policy_base_t base, + __unused mach_msg_type_number_t count, + __unused boolean_t set_limit, + __unused boolean_t change) +{ + return KERN_FAILURE; +} + +/* + * task_set_policy + * + * Set scheduling policy and parameters, both base and limit, for + * the given task. Policy can be any policy implemented by the + * processor set, whether enabled or not. Change contained threads + * if requested. + */ +kern_return_t +task_set_policy( + __unused task_t task, + __unused processor_set_t pset, + __unused policy_t policy_id, + __unused policy_base_t base, + __unused mach_msg_type_number_t base_count, + __unused policy_limit_t limit, + __unused mach_msg_type_number_t limit_count, + __unused boolean_t change) +{ + return KERN_FAILURE; +} + +kern_return_t +task_set_ras_pc( + __unused task_t task, + __unused vm_offset_t pc, + __unused vm_offset_t endpc) +{ + return KERN_FAILURE; +} + +void +task_synchronizer_destroy_all(task_t task) +{ + /* + * Destroy owned semaphores + */ + semaphore_destroy_all(task); +} + +/* + * Install default (machine-dependent) initial thread state + * on the task. Subsequent thread creation will have this initial + * state set on the thread by machine_thread_inherit_taskwide(). + * Flavors and structures are exactly the same as those to thread_set_state() + */ +kern_return_t +task_set_state( + task_t task, + int flavor, + thread_state_t state, + mach_msg_type_number_t state_count) +{ + kern_return_t ret; + + if (task == TASK_NULL) { + return KERN_INVALID_ARGUMENT; + } + + task_lock(task); + + if (!task->active) { + task_unlock(task); + return KERN_FAILURE; + } + + ret = machine_task_set_state(task, flavor, state, state_count); + + task_unlock(task); + return ret; +} + +/* + * Examine the default (machine-dependent) initial thread state + * on the task, as set by task_set_state(). Flavors and structures + * are exactly the same as those passed to thread_get_state(). + */ +kern_return_t +task_get_state( + task_t task, + int flavor, + thread_state_t state, + mach_msg_type_number_t *state_count) +{ + kern_return_t ret; + + if (task == TASK_NULL) { + return KERN_INVALID_ARGUMENT; + } + + task_lock(task); + + if (!task->active) { + task_unlock(task); + return KERN_FAILURE; + } + + ret = machine_task_get_state(task, flavor, state, state_count); + + task_unlock(task); + return ret; +} + + +static kern_return_t __attribute__((noinline, not_tail_called)) +PROC_VIOLATED_GUARD__SEND_EXC_GUARD_AND_SUSPEND( + mach_exception_code_t code, + mach_exception_subcode_t subcode, + void *reason) +{ +#ifdef MACH_BSD + if (1 == proc_selfpid()) { + return KERN_NOT_SUPPORTED; // initproc is immune + } +#endif + mach_exception_data_type_t codes[EXCEPTION_CODE_MAX] = { + [0] = code, + [1] = subcode, + }; + task_t task = current_task(); + kern_return_t kr; + + /* (See jetsam-related comments below) */ + + proc_memstat_terminated(task->bsd_info, TRUE); + kr = task_enqueue_exception_with_corpse(task, EXC_GUARD, codes, 2, reason); + proc_memstat_terminated(task->bsd_info, FALSE); + return kr; +} + +kern_return_t +task_violated_guard( + mach_exception_code_t code, + mach_exception_subcode_t subcode, + void *reason) +{ + return PROC_VIOLATED_GUARD__SEND_EXC_GUARD_AND_SUSPEND(code, subcode, reason); +} + + +#if CONFIG_MEMORYSTATUS + +boolean_t +task_get_memlimit_is_active(task_t task) +{ + assert(task != NULL); + + if (task->memlimit_is_active == 1) { + return TRUE; + } else { + return FALSE; + } +} + +void +task_set_memlimit_is_active(task_t task, boolean_t memlimit_is_active) +{ + assert(task != NULL); + + if (memlimit_is_active) { + task->memlimit_is_active = 1; + } else { + task->memlimit_is_active = 0; + } +} + +boolean_t +task_get_memlimit_is_fatal(task_t task) +{ + assert(task != NULL); + + if (task->memlimit_is_fatal == 1) { + return TRUE; + } else { + return FALSE; + } +} + +void +task_set_memlimit_is_fatal(task_t task, boolean_t memlimit_is_fatal) +{ + assert(task != NULL); + + if (memlimit_is_fatal) { + task->memlimit_is_fatal = 1; + } else { + task->memlimit_is_fatal = 0; + } +} + +boolean_t +task_has_triggered_exc_resource(task_t task, boolean_t memlimit_is_active) +{ + boolean_t triggered = FALSE; + + assert(task == current_task()); + + /* + * Returns true, if task has already triggered an exc_resource exception. + */ + + if (memlimit_is_active) { + triggered = (task->memlimit_active_exc_resource ? TRUE : FALSE); + } else { + triggered = (task->memlimit_inactive_exc_resource ? TRUE : FALSE); + } + + return triggered; +} + +void +task_mark_has_triggered_exc_resource(task_t task, boolean_t memlimit_is_active) +{ + assert(task == current_task()); + + /* + * We allow one exc_resource per process per active/inactive limit. + * The limit's fatal attribute does not come into play. + */ + + if (memlimit_is_active) { + task->memlimit_active_exc_resource = 1; + } else { + task->memlimit_inactive_exc_resource = 1; + } +} + +#define HWM_USERCORE_MINSPACE 250 // free space (in MB) required *after* core file creation + +void __attribute__((noinline)) +PROC_CROSSED_HIGH_WATERMARK__SEND_EXC_RESOURCE_AND_SUSPEND(int max_footprint_mb, boolean_t is_fatal) +{ + task_t task = current_task(); + int pid = 0; + const char *procname = "unknown"; + mach_exception_data_type_t code[EXCEPTION_CODE_MAX]; + boolean_t send_sync_exc_resource = FALSE; + +#ifdef MACH_BSD + pid = proc_selfpid(); + + if (pid == 1) { + /* + * Cannot have ReportCrash analyzing + * a suspended initproc. + */ + return; + } + + if (task->bsd_info != NULL) { + procname = proc_name_address(current_task()->bsd_info); + send_sync_exc_resource = proc_send_synchronous_EXC_RESOURCE(current_task()->bsd_info); + } +#endif +#if CONFIG_COREDUMP + if (hwm_user_cores) { + int error; + uint64_t starttime, end; + clock_sec_t secs = 0; + uint32_t microsecs = 0; + + starttime = mach_absolute_time(); + /* + * Trigger a coredump of this process. Don't proceed unless we know we won't + * be filling up the disk; and ignore the core size resource limit for this + * core file. + */ + if ((error = coredump(current_task()->bsd_info, HWM_USERCORE_MINSPACE, COREDUMP_IGNORE_ULIMIT)) != 0) { + printf("couldn't take coredump of %s[%d]: %d\n", procname, pid, error); + } + /* + * coredump() leaves the task suspended. + */ + task_resume_internal(current_task()); + + end = mach_absolute_time(); + absolutetime_to_microtime(end - starttime, &secs, µsecs); + printf("coredump of %s[%d] taken in %d secs %d microsecs\n", + proc_name_address(current_task()->bsd_info), pid, (int)secs, microsecs); + } +#endif /* CONFIG_COREDUMP */ + + if (disable_exc_resource) { + printf("process %s[%d] crossed memory high watermark (%d MB); EXC_RESOURCE " + "supressed by a boot-arg.\n", procname, pid, max_footprint_mb); + return; + } + + /* + * A task that has triggered an EXC_RESOURCE, should not be + * jetsammed when the device is under memory pressure. Here + * we set the P_MEMSTAT_TERMINATED flag so that the process + * will be skipped if the memorystatus_thread wakes up. + */ + proc_memstat_terminated(current_task()->bsd_info, TRUE); + + code[0] = code[1] = 0; + EXC_RESOURCE_ENCODE_TYPE(code[0], RESOURCE_TYPE_MEMORY); + EXC_RESOURCE_ENCODE_FLAVOR(code[0], FLAVOR_HIGH_WATERMARK); + EXC_RESOURCE_HWM_ENCODE_LIMIT(code[0], max_footprint_mb); + + /* + * Do not generate a corpse fork if the violation is a fatal one + * or the process wants synchronous EXC_RESOURCE exceptions. + */ + if (is_fatal || send_sync_exc_resource || exc_via_corpse_forking == 0) { + /* Do not send a EXC_RESOURCE if corpse_for_fatal_memkill is set */ + if (send_sync_exc_resource || corpse_for_fatal_memkill == 0) { + /* + * Use the _internal_ variant so that no user-space + * process can resume our task from under us. + */ + task_suspend_internal(task); + exception_triage(EXC_RESOURCE, code, EXCEPTION_CODE_MAX); + task_resume_internal(task); + } + } else { + if (audio_active) { + printf("process %s[%d] crossed memory high watermark (%d MB); EXC_RESOURCE " + "supressed due to audio playback.\n", procname, pid, max_footprint_mb); + } else { + task_enqueue_exception_with_corpse(task, EXC_RESOURCE, + code, EXCEPTION_CODE_MAX, NULL); + } + } + + /* + * After the EXC_RESOURCE has been handled, we must clear the + * P_MEMSTAT_TERMINATED flag so that the process can again be + * considered for jetsam if the memorystatus_thread wakes up. + */ + proc_memstat_terminated(current_task()->bsd_info, FALSE); /* clear the flag */ } +/* + * Callback invoked when a task exceeds its physical footprint limit. + */ void -task_vtimer_update( -__unused - task_t task, - integer_t which, - uint32_t *microsecs) +task_footprint_exceeded(int warning, __unused const void *param0, __unused const void *param1) { - thread_t thread = current_thread(); - uint32_t tdelt; - clock_sec_t secs; - uint64_t tsum; + ledger_amount_t max_footprint, max_footprint_mb; + task_t task; + boolean_t is_warning; + boolean_t memlimit_is_active; + boolean_t memlimit_is_fatal; - assert(task == current_task()); + if (warning == LEDGER_WARNING_DIPPED_BELOW) { + /* + * Task memory limits only provide a warning on the way up. + */ + return; + } else if (warning == LEDGER_WARNING_ROSE_ABOVE) { + /* + * This task is in danger of violating a memory limit, + * It has exceeded a percentage level of the limit. + */ + is_warning = TRUE; + } else { + /* + * The task has exceeded the physical footprint limit. + * This is not a warning but a true limit violation. + */ + is_warning = FALSE; + } - assert(task->vtimers & which); + task = current_task(); - secs = tdelt = 0; + ledger_get_limit(task->ledger, task_ledgers.phys_footprint, &max_footprint); + max_footprint_mb = max_footprint >> 20; - switch (which) { + memlimit_is_active = task_get_memlimit_is_active(task); + memlimit_is_fatal = task_get_memlimit_is_fatal(task); - case TASK_VTIMER_USER: - if (thread->precise_user_kernel_time) { - tdelt = (uint32_t)timer_delta(&thread->user_timer, - &thread->vtimer_user_save); + /* + * If this is an actual violation (not a warning), then generate EXC_RESOURCE exception. + * We only generate the exception once per process per memlimit (active/inactive limit). + * To enforce this, we monitor state based on the memlimit's active/inactive attribute + * and we disable it by marking that memlimit as exception triggered. + */ + if ((is_warning == FALSE) && (!task_has_triggered_exc_resource(task, memlimit_is_active))) { + PROC_CROSSED_HIGH_WATERMARK__SEND_EXC_RESOURCE_AND_SUSPEND((int)max_footprint_mb, memlimit_is_fatal); + memorystatus_log_exception((int)max_footprint_mb, memlimit_is_active, memlimit_is_fatal); + task_mark_has_triggered_exc_resource(task, memlimit_is_active); + } + + memorystatus_on_ledger_footprint_exceeded(is_warning, memlimit_is_active, memlimit_is_fatal); +} + +extern int proc_check_footprint_priv(void); + +kern_return_t +task_set_phys_footprint_limit( + task_t task, + int new_limit_mb, + int *old_limit_mb) +{ + kern_return_t error; + + boolean_t memlimit_is_active; + boolean_t memlimit_is_fatal; + + if ((error = proc_check_footprint_priv())) { + return KERN_NO_ACCESS; + } + + /* + * This call should probably be obsoleted. + * But for now, we default to current state. + */ + memlimit_is_active = task_get_memlimit_is_active(task); + memlimit_is_fatal = task_get_memlimit_is_fatal(task); + + return task_set_phys_footprint_limit_internal(task, new_limit_mb, old_limit_mb, memlimit_is_active, memlimit_is_fatal); +} + +kern_return_t +task_convert_phys_footprint_limit( + int limit_mb, + int *converted_limit_mb) +{ + if (limit_mb == -1) { + /* + * No limit + */ + if (max_task_footprint != 0) { + *converted_limit_mb = (int)(max_task_footprint / 1024 / 1024); /* bytes to MB */ } else { - tdelt = (uint32_t)timer_delta(&thread->system_timer, - &thread->vtimer_user_save); + *converted_limit_mb = (int)(LEDGER_LIMIT_INFINITY >> 20); } - absolutetime_to_microtime(tdelt, &secs, microsecs); - break; + } else { + /* nothing to convert */ + *converted_limit_mb = limit_mb; + } + return KERN_SUCCESS; +} - case TASK_VTIMER_PROF: - tsum = timer_grab(&thread->user_timer); - tsum += timer_grab(&thread->system_timer); - tdelt = (uint32_t)(tsum - thread->vtimer_prof_save); - absolutetime_to_microtime(tdelt, &secs, microsecs); - /* if the time delta is smaller than a usec, ignore */ - if (*microsecs != 0) - thread->vtimer_prof_save = tsum; - break; - case TASK_VTIMER_RLIM: - tsum = timer_grab(&thread->user_timer); - tsum += timer_grab(&thread->system_timer); - tdelt = (uint32_t)(tsum - thread->vtimer_rlim_save); - thread->vtimer_rlim_save = tsum; - absolutetime_to_microtime(tdelt, &secs, microsecs); - break; +kern_return_t +task_set_phys_footprint_limit_internal( + task_t task, + int new_limit_mb, + int *old_limit_mb, + boolean_t memlimit_is_active, + boolean_t memlimit_is_fatal) +{ + ledger_amount_t old; + kern_return_t ret; + + ret = ledger_get_limit(task->ledger, task_ledgers.phys_footprint, &old); + + if (ret != KERN_SUCCESS) { + return ret; + } + + /* + * Check that limit >> 20 will not give an "unexpected" 32-bit + * result. There are, however, implicit assumptions that -1 mb limit + * equates to LEDGER_LIMIT_INFINITY. + */ + assert(((old & 0xFFF0000000000000LL) == 0) || (old == LEDGER_LIMIT_INFINITY)); + + if (old_limit_mb) { + *old_limit_mb = (int)(old >> 20); + } + + if (new_limit_mb == -1) { + /* + * Caller wishes to remove the limit. + */ + ledger_set_limit(task->ledger, task_ledgers.phys_footprint, + max_task_footprint ? max_task_footprint : LEDGER_LIMIT_INFINITY, + max_task_footprint ? max_task_footprint_warning_level : 0); + + task_lock(task); + task_set_memlimit_is_active(task, memlimit_is_active); + task_set_memlimit_is_fatal(task, memlimit_is_fatal); + task_unlock(task); + + return KERN_SUCCESS; + } + +#ifdef CONFIG_NOMONITORS + return KERN_SUCCESS; +#endif /* CONFIG_NOMONITORS */ + + task_lock(task); + + if ((memlimit_is_active == task_get_memlimit_is_active(task)) && + (memlimit_is_fatal == task_get_memlimit_is_fatal(task)) && + (((ledger_amount_t)new_limit_mb << 20) == old)) { + /* + * memlimit state is not changing + */ + task_unlock(task); + return KERN_SUCCESS; + } + + task_set_memlimit_is_active(task, memlimit_is_active); + task_set_memlimit_is_fatal(task, memlimit_is_fatal); + + ledger_set_limit(task->ledger, task_ledgers.phys_footprint, + (ledger_amount_t)new_limit_mb << 20, PHYS_FOOTPRINT_WARNING_LEVEL); + + if (task == current_task()) { + ledger_check_new_balance(current_thread(), task->ledger, + task_ledgers.phys_footprint); + } + + task_unlock(task); + + return KERN_SUCCESS; +} + +kern_return_t +task_get_phys_footprint_limit( + task_t task, + int *limit_mb) +{ + ledger_amount_t limit; + kern_return_t ret; + + ret = ledger_get_limit(task->ledger, task_ledgers.phys_footprint, &limit); + if (ret != KERN_SUCCESS) { + return ret; } + /* + * Check that limit >> 20 will not give an "unexpected" signed, 32-bit + * result. There are, however, implicit assumptions that -1 mb limit + * equates to LEDGER_LIMIT_INFINITY. + */ + assert(((limit & 0xFFF0000000000000LL) == 0) || (limit == LEDGER_LIMIT_INFINITY)); + *limit_mb = (int)(limit >> 20); + + return KERN_SUCCESS; +} +#else /* CONFIG_MEMORYSTATUS */ +kern_return_t +task_set_phys_footprint_limit( + __unused task_t task, + __unused int new_limit_mb, + __unused int *old_limit_mb) +{ + return KERN_FAILURE; +} + +kern_return_t +task_get_phys_footprint_limit( + __unused task_t task, + __unused int *limit_mb) +{ + return KERN_FAILURE; +} +#endif /* CONFIG_MEMORYSTATUS */ + +void +task_set_thread_limit(task_t task, uint16_t thread_limit) +{ + assert(task != kernel_task); + if (thread_limit <= TASK_MAX_THREAD_LIMIT) { + task_lock(task); + task->task_thread_limit = thread_limit; + task_unlock(task); + } } /* - * task_assign: - * - * Change the assigned processor set for the task + * We need to export some functions to other components that + * are currently implemented in macros within the osfmk + * component. Just export them as functions of the same name. */ -kern_return_t -task_assign( - __unused task_t task, - __unused processor_set_t new_pset, - __unused boolean_t assign_threads) +boolean_t +is_kerneltask(task_t t) { - return(KERN_FAILURE); + if (t == kernel_task) { + return TRUE; + } + + return FALSE; } -/* - * task_assign_default: - * - * Version of task_assign to assign to default processor set. - */ -kern_return_t -task_assign_default( - task_t task, - boolean_t assign_threads) +boolean_t +is_corpsetask(task_t t) +{ + return task_is_a_corpse(t); +} + +#undef current_task +task_t current_task(void); +task_t +current_task(void) +{ + return current_task_fast(); +} + +#undef task_reference +void task_reference(task_t task); +void +task_reference( + task_t task) +{ + if (task != TASK_NULL) { + task_reference_internal(task); + } +} + +/* defined in bsd/kern/kern_prot.c */ +extern int get_audit_token_pid(audit_token_t *audit_token); + +int +task_pid(task_t task) { - return (task_assign(task, &pset0, assign_threads)); + if (task) { + return get_audit_token_pid(&task->audit_token); + } + return -1; } + /* - * task_get_assignment + * This routine finds a thread in a task by its unique id + * Returns a referenced thread or THREAD_NULL if the thread was not found * - * Return name of processor set that task is assigned to. + * TODO: This is super inefficient - it's an O(threads in task) list walk! + * We should make a tid hash, or transition all tid clients to thread ports + * + * Precondition: No locks held (will take task lock) */ -kern_return_t -task_get_assignment( - task_t task, - processor_set_t *pset) +thread_t +task_findtid(task_t task, uint64_t tid) { - if (!task->active) - return(KERN_FAILURE); + thread_t self = current_thread(); + thread_t found_thread = THREAD_NULL; + thread_t iter_thread = THREAD_NULL; - *pset = &pset0; + /* Short-circuit the lookup if we're looking up ourselves */ + if (tid == self->thread_id || tid == TID_NULL) { + assert(self->task == task); + + thread_reference(self); + + return self; + } + + task_lock(task); + + queue_iterate(&task->threads, iter_thread, thread_t, task_threads) { + if (iter_thread->thread_id == tid) { + found_thread = iter_thread; + thread_reference(found_thread); + break; + } + } + + task_unlock(task); - return (KERN_SUCCESS); + return found_thread; } -uint64_t -get_task_dispatchqueue_offset( - task_t task) +int +pid_from_task(task_t task) { - return task->dispatchqueue_offset; + int pid = -1; + + if (task->bsd_info) { + pid = proc_pid(task->bsd_info); + } else { + pid = task_pid(task); + } + + return pid; } /* - * task_policy - * - * Set scheduling policy and parameters, both base and limit, for - * the given task. Policy must be a policy which is enabled for the - * processor set. Change contained threads if requested. + * Control the CPU usage monitor for a task. */ kern_return_t -task_policy( - __unused task_t task, - __unused policy_t policy_id, - __unused policy_base_t base, - __unused mach_msg_type_number_t count, - __unused boolean_t set_limit, - __unused boolean_t change) +task_cpu_usage_monitor_ctl(task_t task, uint32_t *flags) { - return(KERN_FAILURE); + int error = KERN_SUCCESS; + + if (*flags & CPUMON_MAKE_FATAL) { + task->rusage_cpu_flags |= TASK_RUSECPU_FLAGS_FATAL_CPUMON; + } else { + error = KERN_INVALID_ARGUMENT; + } + + return error; } /* - * task_set_policy - * - * Set scheduling policy and parameters, both base and limit, for - * the given task. Policy can be any policy implemented by the - * processor set, whether enabled or not. Change contained threads - * if requested. + * Control the wakeups monitor for a task. */ kern_return_t -task_set_policy( - __unused task_t task, - __unused processor_set_t pset, - __unused policy_t policy_id, - __unused policy_base_t base, - __unused mach_msg_type_number_t base_count, - __unused policy_limit_t limit, - __unused mach_msg_type_number_t limit_count, - __unused boolean_t change) +task_wakeups_monitor_ctl(task_t task, uint32_t *flags, int32_t *rate_hz) { - return(KERN_FAILURE); -} + ledger_t ledger = task->ledger; -kern_return_t -task_set_ras_pc( - __unused task_t task, - __unused vm_offset_t pc, - __unused vm_offset_t endpc) -{ - return KERN_FAILURE; + task_lock(task); + if (*flags & WAKEMON_GET_PARAMS) { + ledger_amount_t limit; + uint64_t period; + + ledger_get_limit(ledger, task_ledgers.interrupt_wakeups, &limit); + ledger_get_period(ledger, task_ledgers.interrupt_wakeups, &period); + + if (limit != LEDGER_LIMIT_INFINITY) { + /* + * An active limit means the wakeups monitor is enabled. + */ + *rate_hz = (int32_t)(limit / (int64_t)(period / NSEC_PER_SEC)); + *flags = WAKEMON_ENABLE; + if (task->rusage_cpu_flags & TASK_RUSECPU_FLAGS_FATAL_WAKEUPSMON) { + *flags |= WAKEMON_MAKE_FATAL; + } + } else { + *flags = WAKEMON_DISABLE; + *rate_hz = -1; + } + + /* + * If WAKEMON_GET_PARAMS is present in flags, all other flags are ignored. + */ + task_unlock(task); + return KERN_SUCCESS; + } + + if (*flags & WAKEMON_ENABLE) { + if (*flags & WAKEMON_SET_DEFAULTS) { + *rate_hz = task_wakeups_monitor_rate; + } + +#ifndef CONFIG_NOMONITORS + if (*flags & WAKEMON_MAKE_FATAL) { + task->rusage_cpu_flags |= TASK_RUSECPU_FLAGS_FATAL_WAKEUPSMON; + } +#endif /* CONFIG_NOMONITORS */ + + if (*rate_hz <= 0) { + task_unlock(task); + return KERN_INVALID_ARGUMENT; + } + +#ifndef CONFIG_NOMONITORS + ledger_set_limit(ledger, task_ledgers.interrupt_wakeups, *rate_hz * task_wakeups_monitor_interval, + task_wakeups_monitor_ustackshots_trigger_pct); + ledger_set_period(ledger, task_ledgers.interrupt_wakeups, task_wakeups_monitor_interval * NSEC_PER_SEC); + ledger_enable_callback(ledger, task_ledgers.interrupt_wakeups); +#endif /* CONFIG_NOMONITORS */ + } else if (*flags & WAKEMON_DISABLE) { + /* + * Caller wishes to disable wakeups monitor on the task. + * + * Disable telemetry if it was triggered by the wakeups monitor, and + * remove the limit & callback on the wakeups ledger entry. + */ +#if CONFIG_TELEMETRY + telemetry_task_ctl_locked(task, TF_WAKEMON_WARNING, 0); +#endif + ledger_disable_refill(ledger, task_ledgers.interrupt_wakeups); + ledger_disable_callback(ledger, task_ledgers.interrupt_wakeups); + } + + task_unlock(task); + return KERN_SUCCESS; } void -task_synchronizer_destroy_all(task_t task) +task_wakeups_rate_exceeded(int warning, __unused const void *param0, __unused const void *param1) { - semaphore_t semaphore; + if (warning == LEDGER_WARNING_ROSE_ABOVE) { +#if CONFIG_TELEMETRY + /* + * This task is in danger of violating the wakeups monitor. Enable telemetry on this task + * so there are micro-stackshots available if and when EXC_RESOURCE is triggered. + */ + telemetry_task_ctl(current_task(), TF_WAKEMON_WARNING, 1); +#endif + return; + } +#if CONFIG_TELEMETRY /* - * Destroy owned semaphores + * If the balance has dipped below the warning level (LEDGER_WARNING_DIPPED_BELOW) or + * exceeded the limit, turn telemetry off for the task. */ + telemetry_task_ctl(current_task(), TF_WAKEMON_WARNING, 0); +#endif - while (!queue_empty(&task->semaphore_list)) { - semaphore = (semaphore_t) queue_first(&task->semaphore_list); - (void) semaphore_destroy_internal(task, semaphore); + if (warning == 0) { + SENDING_NOTIFICATION__THIS_PROCESS_IS_CAUSING_TOO_MANY_WAKEUPS(); } } -/* - * Install default (machine-dependent) initial thread state - * on the task. Subsequent thread creation will have this initial - * state set on the thread by machine_thread_inherit_taskwide(). - * Flavors and structures are exactly the same as those to thread_set_state() - */ -kern_return_t -task_set_state( - task_t task, - int flavor, - thread_state_t state, - mach_msg_type_number_t state_count) +void __attribute__((noinline)) +SENDING_NOTIFICATION__THIS_PROCESS_IS_CAUSING_TOO_MANY_WAKEUPS(void) { - kern_return_t ret; + task_t task = current_task(); + int pid = 0; + const char *procname = "unknown"; + boolean_t fatal; + kern_return_t kr; +#ifdef EXC_RESOURCE_MONITORS + mach_exception_data_type_t code[EXCEPTION_CODE_MAX]; +#endif /* EXC_RESOURCE_MONITORS */ + struct ledger_entry_info lei; - if (task == TASK_NULL) { - return (KERN_INVALID_ARGUMENT); +#ifdef MACH_BSD + pid = proc_selfpid(); + if (task->bsd_info != NULL) { + procname = proc_name_address(current_task()->bsd_info); } +#endif - task_lock(task); + ledger_get_entry_info(task->ledger, task_ledgers.interrupt_wakeups, &lei); - if (!task->active) { - task_unlock(task); - return (KERN_FAILURE); + /* + * Disable the exception notification so we don't overwhelm + * the listener with an endless stream of redundant exceptions. + * TODO: detect whether another thread is already reporting the violation. + */ + uint32_t flags = WAKEMON_DISABLE; + task_wakeups_monitor_ctl(task, &flags, NULL); + + fatal = task->rusage_cpu_flags & TASK_RUSECPU_FLAGS_FATAL_WAKEUPSMON; + trace_resource_violation(RMON_CPUWAKES_VIOLATED, &lei); + os_log(OS_LOG_DEFAULT, "process %s[%d] caught waking the CPU %llu times " + "over ~%llu seconds, averaging %llu wakes / second and " + "violating a %slimit of %llu wakes over %llu seconds.\n", + procname, pid, + lei.lei_balance, lei.lei_last_refill / NSEC_PER_SEC, + lei.lei_last_refill == 0 ? 0 : + (NSEC_PER_SEC * lei.lei_balance / lei.lei_last_refill), + fatal ? "FATAL " : "", + lei.lei_limit, lei.lei_refill_period / NSEC_PER_SEC); + + kr = send_resource_violation(send_cpu_wakes_violation, task, &lei, + fatal ? kRNFatalLimitFlag : 0); + if (kr) { + printf("send_resource_violation(CPU wakes, ...): error %#x\n", kr); + } + +#ifdef EXC_RESOURCE_MONITORS + if (disable_exc_resource) { + printf("process %s[%d] caught causing excessive wakeups. EXC_RESOURCE " + "supressed by a boot-arg\n", procname, pid); + return; + } + if (audio_active) { + os_log(OS_LOG_DEFAULT, "process %s[%d] caught causing excessive wakeups. EXC_RESOURCE " + "supressed due to audio playback\n", procname, pid); + return; + } + if (lei.lei_last_refill == 0) { + os_log(OS_LOG_DEFAULT, "process %s[%d] caught causing excessive wakeups. EXC_RESOURCE " + "supressed due to lei.lei_last_refill = 0 \n", procname, pid); } - ret = machine_task_set_state(task, flavor, state, state_count); + code[0] = code[1] = 0; + EXC_RESOURCE_ENCODE_TYPE(code[0], RESOURCE_TYPE_WAKEUPS); + EXC_RESOURCE_ENCODE_FLAVOR(code[0], FLAVOR_WAKEUPS_MONITOR); + EXC_RESOURCE_CPUMONITOR_ENCODE_WAKEUPS_PERMITTED(code[0], + NSEC_PER_SEC * lei.lei_limit / lei.lei_refill_period); + EXC_RESOURCE_CPUMONITOR_ENCODE_OBSERVATION_INTERVAL(code[0], + lei.lei_last_refill); + EXC_RESOURCE_CPUMONITOR_ENCODE_WAKEUPS_OBSERVED(code[1], + NSEC_PER_SEC * lei.lei_balance / lei.lei_last_refill); + exception_triage(EXC_RESOURCE, code, EXCEPTION_CODE_MAX); +#endif /* EXC_RESOURCE_MONITORS */ - task_unlock(task); - return ret; + if (fatal) { + task_terminate_internal(task); + } +} + +static boolean_t +global_update_logical_writes(int64_t io_delta, int64_t *global_write_count) +{ + int64_t old_count, new_count; + boolean_t needs_telemetry; + + do { + new_count = old_count = *global_write_count; + new_count += io_delta; + if (new_count >= io_telemetry_limit) { + new_count = 0; + needs_telemetry = TRUE; + } else { + needs_telemetry = FALSE; + } + } while (!OSCompareAndSwap64(old_count, new_count, global_write_count)); + return needs_telemetry; +} + +void +task_update_logical_writes(task_t task, uint32_t io_size, int flags, void *vp) +{ + int64_t io_delta = 0; + int64_t * global_counter_to_update; + boolean_t needs_telemetry = FALSE; + boolean_t is_external_device = FALSE; + int ledger_to_update = 0; + struct task_writes_counters * writes_counters_to_update; + + if ((!task) || (!io_size) || (!vp)) { + return; + } + + KERNEL_DEBUG_CONSTANT((MACHDBG_CODE(DBG_MACH_VM, VM_DATA_WRITE)) | DBG_FUNC_NONE, + task_pid(task), io_size, flags, (uintptr_t)VM_KERNEL_ADDRPERM(vp), 0); + DTRACE_IO4(logical_writes, struct task *, task, uint32_t, io_size, int, flags, vnode *, vp); + + // Is the drive backing this vnode internal or external to the system? + if (vnode_isonexternalstorage(vp) == false) { + global_counter_to_update = &global_logical_writes_count; + ledger_to_update = task_ledgers.logical_writes; + writes_counters_to_update = &task->task_writes_counters_internal; + is_external_device = FALSE; + } else { + global_counter_to_update = &global_logical_writes_to_external_count; + ledger_to_update = task_ledgers.logical_writes_to_external; + writes_counters_to_update = &task->task_writes_counters_external; + is_external_device = TRUE; + } + + switch (flags) { + case TASK_WRITE_IMMEDIATE: + OSAddAtomic64(io_size, (SInt64 *)&(writes_counters_to_update->task_immediate_writes)); + ledger_credit(task->ledger, ledger_to_update, io_size); + if (!is_external_device) { + coalition_io_ledger_update(task, FLAVOR_IO_LOGICAL_WRITES, TRUE, io_size); + } + break; + case TASK_WRITE_DEFERRED: + OSAddAtomic64(io_size, (SInt64 *)&(writes_counters_to_update->task_deferred_writes)); + ledger_credit(task->ledger, ledger_to_update, io_size); + if (!is_external_device) { + coalition_io_ledger_update(task, FLAVOR_IO_LOGICAL_WRITES, TRUE, io_size); + } + break; + case TASK_WRITE_INVALIDATED: + OSAddAtomic64(io_size, (SInt64 *)&(writes_counters_to_update->task_invalidated_writes)); + ledger_debit(task->ledger, ledger_to_update, io_size); + if (!is_external_device) { + coalition_io_ledger_update(task, FLAVOR_IO_LOGICAL_WRITES, FALSE, io_size); + } + break; + case TASK_WRITE_METADATA: + OSAddAtomic64(io_size, (SInt64 *)&(writes_counters_to_update->task_metadata_writes)); + ledger_credit(task->ledger, ledger_to_update, io_size); + if (!is_external_device) { + coalition_io_ledger_update(task, FLAVOR_IO_LOGICAL_WRITES, TRUE, io_size); + } + break; + } + + io_delta = (flags == TASK_WRITE_INVALIDATED) ? ((int64_t)io_size * -1ll) : ((int64_t)io_size); + if (io_telemetry_limit != 0) { + /* If io_telemetry_limit is 0, disable global updates and I/O telemetry */ + needs_telemetry = global_update_logical_writes(io_delta, global_counter_to_update); + if (needs_telemetry && !is_external_device) { + act_set_io_telemetry_ast(current_thread()); + } + } } /* - * Examine the default (machine-dependent) initial thread state - * on the task, as set by task_set_state(). Flavors and structures - * are exactly the same as those passed to thread_get_state(). + * Control the I/O monitor for a task. */ -kern_return_t -task_get_state( - task_t task, - int flavor, - thread_state_t state, - mach_msg_type_number_t *state_count) +kern_return_t +task_io_monitor_ctl(task_t task, uint32_t *flags) { - kern_return_t ret; - - if (task == TASK_NULL) { - return (KERN_INVALID_ARGUMENT); - } + ledger_t ledger = task->ledger; task_lock(task); - - if (!task->active) { - task_unlock(task); - return (KERN_FAILURE); + if (*flags & IOMON_ENABLE) { + /* Configure the physical I/O ledger */ + ledger_set_limit(ledger, task_ledgers.physical_writes, (task_iomon_limit_mb * 1024 * 1024), 0); + ledger_set_period(ledger, task_ledgers.physical_writes, (task_iomon_interval_secs * NSEC_PER_SEC)); + } else if (*flags & IOMON_DISABLE) { + /* + * Caller wishes to disable I/O monitor on the task. + */ + ledger_disable_refill(ledger, task_ledgers.physical_writes); + ledger_disable_callback(ledger, task_ledgers.physical_writes); } - ret = machine_task_get_state(task, flavor, state, state_count); - task_unlock(task); - return ret; + return KERN_SUCCESS; } -#if CONFIG_JETSAM -#define HWM_USERCORE_MINSPACE 250 // free space (in MB) required *after* core file creation +void +task_io_rate_exceeded(int warning, const void *param0, __unused const void *param1) +{ + if (warning == 0) { + SENDING_NOTIFICATION__THIS_PROCESS_IS_CAUSING_TOO_MUCH_IO((int)param0); + } +} void __attribute__((noinline)) -PROC_CROSSED_HIGH_WATERMARK__SEND_EXC_RESOURCE_AND_SUSPEND(int max_footprint_mb) +SENDING_NOTIFICATION__THIS_PROCESS_IS_CAUSING_TOO_MUCH_IO(int flavor) { - task_t task = current_task(); - int pid = 0; - const char *procname = "unknown"; - mach_exception_data_type_t code[EXCEPTION_CODE_MAX]; + int pid = 0; + task_t task = current_task(); +#ifdef EXC_RESOURCE_MONITORS + mach_exception_data_type_t code[EXCEPTION_CODE_MAX]; +#endif /* EXC_RESOURCE_MONITORS */ + struct ledger_entry_info lei; + kern_return_t kr; #ifdef MACH_BSD pid = proc_selfpid(); - - if (pid == 1) { - /* - * Cannot have ReportCrash analyzing - * a suspended initproc. - */ - return; - } - - if (task->bsd_info != NULL) - procname = proc_name_address(current_task()->bsd_info); #endif + /* + * Get the ledger entry info. We need to do this before disabling the exception + * to get correct values for all fields. + */ + switch (flavor) { + case FLAVOR_IO_PHYSICAL_WRITES: + ledger_get_entry_info(task->ledger, task_ledgers.physical_writes, &lei); + break; + } - if (hwm_user_cores) { - int error; - uint64_t starttime, end; - clock_sec_t secs = 0; - uint32_t microsecs = 0; - starttime = mach_absolute_time(); - /* - * Trigger a coredump of this process. Don't proceed unless we know we won't - * be filling up the disk; and ignore the core size resource limit for this - * core file. - */ - if ((error = coredump(current_task()->bsd_info, HWM_USERCORE_MINSPACE, COREDUMP_IGNORE_ULIMIT)) != 0) { - printf("couldn't take coredump of %s[%d]: %d\n", procname, pid, error); - } - /* - * coredump() leaves the task suspended. - */ - task_resume_internal(current_task()); + /* + * Disable the exception notification so we don't overwhelm + * the listener with an endless stream of redundant exceptions. + * TODO: detect whether another thread is already reporting the violation. + */ + uint32_t flags = IOMON_DISABLE; + task_io_monitor_ctl(task, &flags); - end = mach_absolute_time(); - absolutetime_to_microtime(end - starttime, &secs, µsecs); - printf("coredump of %s[%d] taken in %d secs %d microsecs\n", - proc_name_address(current_task()->bsd_info), pid, (int)secs, microsecs); + if (flavor == FLAVOR_IO_LOGICAL_WRITES) { + trace_resource_violation(RMON_LOGWRITES_VIOLATED, &lei); } + os_log(OS_LOG_DEFAULT, "process [%d] caught causing excessive I/O (flavor: %d). Task I/O: %lld MB. [Limit : %lld MB per %lld secs]\n", + pid, flavor, (lei.lei_balance / (1024 * 1024)), (lei.lei_limit / (1024 * 1024)), (lei.lei_refill_period / NSEC_PER_SEC)); - if (disable_exc_resource) { - printf("process %s[%d] crossed memory high watermark (%d MB); EXC_RESOURCE " - "supressed by a boot-arg.\n", procname, pid, max_footprint_mb); - return; + kr = send_resource_violation(send_disk_writes_violation, task, &lei, kRNFlagsNone); + if (kr) { + printf("send_resource_violation(disk_writes, ...): error %#x\n", kr); } - /* - * A task that has triggered an EXC_RESOURCE, should not be - * jetsammed when the device is under memory pressure. Here - * we set the P_MEMSTAT_TERMINATED flag so that the process - * will be skipped if the memorystatus_thread wakes up. - */ - proc_memstat_terminated(current_task()->bsd_info, TRUE); +#ifdef EXC_RESOURCE_MONITORS + code[0] = code[1] = 0; + EXC_RESOURCE_ENCODE_TYPE(code[0], RESOURCE_TYPE_IO); + EXC_RESOURCE_ENCODE_FLAVOR(code[0], flavor); + EXC_RESOURCE_IO_ENCODE_INTERVAL(code[0], (lei.lei_refill_period / NSEC_PER_SEC)); + EXC_RESOURCE_IO_ENCODE_LIMIT(code[0], (lei.lei_limit / (1024 * 1024))); + EXC_RESOURCE_IO_ENCODE_OBSERVED(code[1], (lei.lei_balance / (1024 * 1024))); + exception_triage(EXC_RESOURCE, code, EXCEPTION_CODE_MAX); +#endif /* EXC_RESOURCE_MONITORS */ +} - printf("process %s[%d] crossed memory high watermark (%d MB); sending " - "EXC_RESOURCE.\n", procname, pid, max_footprint_mb); +/* Placeholders for the task set/get voucher interfaces */ +kern_return_t +task_get_mach_voucher( + task_t task, + mach_voucher_selector_t __unused which, + ipc_voucher_t *voucher) +{ + if (TASK_NULL == task) { + return KERN_INVALID_TASK; + } - code[0] = code[1] = 0; - EXC_RESOURCE_ENCODE_TYPE(code[0], RESOURCE_TYPE_MEMORY); - EXC_RESOURCE_ENCODE_FLAVOR(code[0], FLAVOR_HIGH_WATERMARK); - EXC_RESOURCE_HWM_ENCODE_LIMIT(code[0], max_footprint_mb); + *voucher = NULL; + return KERN_SUCCESS; +} - /* - * Use the _internal_ variant so that no user-space - * process can resume our task from under us. - */ - task_suspend_internal(task); - exception_triage(EXC_RESOURCE, code, EXCEPTION_CODE_MAX); - task_resume_internal(task); +kern_return_t +task_set_mach_voucher( + task_t task, + ipc_voucher_t __unused voucher) +{ + if (TASK_NULL == task) { + return KERN_INVALID_TASK; + } + + return KERN_SUCCESS; +} +kern_return_t +task_swap_mach_voucher( + __unused task_t task, + __unused ipc_voucher_t new_voucher, + ipc_voucher_t *in_out_old_voucher) +{ /* - * After the EXC_RESOURCE has been handled, we must clear the - * P_MEMSTAT_TERMINATED flag so that the process can again be - * considered for jetsam if the memorystatus_thread wakes up. + * Currently this function is only called from a MIG generated + * routine which doesn't release the reference on the voucher + * addressed by in_out_old_voucher. To avoid leaking this reference, + * a call to release it has been added here. */ - proc_memstat_terminated(current_task()->bsd_info, FALSE); /* clear the flag */ + ipc_voucher_release(*in_out_old_voucher); + return KERN_NOT_SUPPORTED; } -/* - * Callback invoked when a task exceeds its physical footprint limit. - */ void -task_footprint_exceeded(int warning, __unused const void *param0, __unused const void *param1) +task_set_gpu_denied(task_t task, boolean_t denied) { - ledger_amount_t max_footprint, max_footprint_mb; - ledger_amount_t footprint_after_purge; - task_t task; + task_lock(task); - if (warning == LEDGER_WARNING_DIPPED_BELOW) { - /* - * Task memory limits only provide a warning on the way up. - */ - return; + if (denied) { + task->t_flags |= TF_GPU_DENIED; + } else { + task->t_flags &= ~TF_GPU_DENIED; } - task = current_task(); + task_unlock(task); +} - ledger_get_limit(task->ledger, task_ledgers.phys_footprint, &max_footprint); - max_footprint_mb = max_footprint >> 20; +boolean_t +task_is_gpu_denied(task_t task) +{ + /* We don't need the lock to read this flag */ + return (task->t_flags & TF_GPU_DENIED) ? TRUE : FALSE; +} - /* - * Try and purge all "volatile" memory in that task first. - */ - (void) task_purge_volatile_memory(task); - /* are we still over the limit ? */ - ledger_get_balance(task->ledger, - task_ledgers.phys_footprint, - &footprint_after_purge); - if ((!warning && - footprint_after_purge <= max_footprint) || - (warning && - footprint_after_purge <= ((max_footprint * - PHYS_FOOTPRINT_WARNING_LEVEL) / 100))) { - /* all better now */ - ledger_reset_callback_state(task->ledger, - task_ledgers.phys_footprint); - return; + +uint64_t +get_task_memory_region_count(task_t task) +{ + vm_map_t map; + map = (task == kernel_task) ? kernel_map: task->map; + return (uint64_t)get_map_nentries(map); +} + +static void +kdebug_trace_dyld_internal(uint32_t base_code, + struct dyld_kernel_image_info *info) +{ + static_assert(sizeof(info->uuid) >= 16); + +#if defined(__LP64__) + uint64_t *uuid = (uint64_t *)&(info->uuid); + + KERNEL_DEBUG_CONSTANT_IST(KDEBUG_TRACE, + KDBG_EVENTID(DBG_DYLD, DBG_DYLD_UUID, base_code), uuid[0], + uuid[1], info->load_addr, + (uint64_t)info->fsid.val[0] | ((uint64_t)info->fsid.val[1] << 32), + 0); + KERNEL_DEBUG_CONSTANT_IST(KDEBUG_TRACE, + KDBG_EVENTID(DBG_DYLD, DBG_DYLD_UUID, base_code + 1), + (uint64_t)info->fsobjid.fid_objno | + ((uint64_t)info->fsobjid.fid_generation << 32), + 0, 0, 0, 0); +#else /* defined(__LP64__) */ + uint32_t *uuid = (uint32_t *)&(info->uuid); + + KERNEL_DEBUG_CONSTANT_IST(KDEBUG_TRACE, + KDBG_EVENTID(DBG_DYLD, DBG_DYLD_UUID, base_code + 2), uuid[0], + uuid[1], uuid[2], uuid[3], 0); + KERNEL_DEBUG_CONSTANT_IST(KDEBUG_TRACE, + KDBG_EVENTID(DBG_DYLD, DBG_DYLD_UUID, base_code + 3), + (uint32_t)info->load_addr, info->fsid.val[0], info->fsid.val[1], + info->fsobjid.fid_objno, 0); + KERNEL_DEBUG_CONSTANT_IST(KDEBUG_TRACE, + KDBG_EVENTID(DBG_DYLD, DBG_DYLD_UUID, base_code + 4), + info->fsobjid.fid_generation, 0, 0, 0, 0); +#endif /* !defined(__LP64__) */ +} + +static kern_return_t +kdebug_trace_dyld(task_t task, uint32_t base_code, + vm_map_copy_t infos_copy, mach_msg_type_number_t infos_len) +{ + kern_return_t kr; + dyld_kernel_image_info_array_t infos; + vm_map_offset_t map_data; + vm_offset_t data; + + if (!infos_copy) { + return KERN_INVALID_ADDRESS; } - /* still over the limit after purging... */ - /* - * If this an actual violation (not a warning), - * generate a non-fatal high watermark EXC_RESOURCE. - */ - if ((warning == 0) && (task->rusage_cpu_flags & TASK_RUSECPU_FLAGS_PHYS_FOOTPRINT_EXCEPTION)) { - PROC_CROSSED_HIGH_WATERMARK__SEND_EXC_RESOURCE_AND_SUSPEND((int)max_footprint_mb); + if (!kdebug_enable || + !kdebug_debugid_enabled(KDBG_EVENTID(DBG_DYLD, DBG_DYLD_UUID, 0))) { + vm_map_copy_discard(infos_copy); + return KERN_SUCCESS; + } + + if (task == NULL || task != current_task()) { + return KERN_INVALID_TASK; + } + + kr = vm_map_copyout(ipc_kernel_map, &map_data, (vm_map_copy_t)infos_copy); + if (kr != KERN_SUCCESS) { + return kr; + } + + infos = CAST_DOWN(dyld_kernel_image_info_array_t, map_data); + + for (mach_msg_type_number_t i = 0; i < infos_len; i++) { + kdebug_trace_dyld_internal(base_code, &(infos[i])); } - memorystatus_on_ledger_footprint_exceeded((warning == LEDGER_WARNING_ROSE_ABOVE) ? TRUE : FALSE, - (int)max_footprint_mb); + data = CAST_DOWN(vm_offset_t, map_data); + mach_vm_deallocate(ipc_kernel_map, data, infos_len * sizeof(infos[0])); + return KERN_SUCCESS; } -extern int proc_check_footprint_priv(void); +kern_return_t +task_register_dyld_image_infos(task_t task, + dyld_kernel_image_info_array_t infos_copy, + mach_msg_type_number_t infos_len) +{ + return kdebug_trace_dyld(task, DBG_DYLD_UUID_MAP_A, + (vm_map_copy_t)infos_copy, infos_len); +} kern_return_t -task_set_phys_footprint_limit( - task_t task, - int new_limit_mb, - int *old_limit_mb) +task_unregister_dyld_image_infos(task_t task, + dyld_kernel_image_info_array_t infos_copy, + mach_msg_type_number_t infos_len) { - kern_return_t error; + return kdebug_trace_dyld(task, DBG_DYLD_UUID_UNMAP_A, + (vm_map_copy_t)infos_copy, infos_len); +} - if ((error = proc_check_footprint_priv())) { - return (KERN_NO_ACCESS); +kern_return_t +task_get_dyld_image_infos(__unused task_t task, + __unused dyld_kernel_image_info_array_t * dyld_images, + __unused mach_msg_type_number_t * dyld_imagesCnt) +{ + return KERN_NOT_SUPPORTED; +} + +kern_return_t +task_register_dyld_shared_cache_image_info(task_t task, + dyld_kernel_image_info_t cache_img, + __unused boolean_t no_cache, + __unused boolean_t private_cache) +{ + if (task == NULL || task != current_task()) { + return KERN_INVALID_TASK; } - return task_set_phys_footprint_limit_internal(task, new_limit_mb, old_limit_mb, FALSE); + kdebug_trace_dyld_internal(DBG_DYLD_UUID_SHARED_CACHE_A, &cache_img); + return KERN_SUCCESS; } kern_return_t -task_convert_phys_footprint_limit( - int limit_mb, - int *converted_limit_mb) +task_register_dyld_set_dyld_state(__unused task_t task, + __unused uint8_t dyld_state) { - if (limit_mb == -1) { - /* - * No limit - */ - if (max_task_footprint != 0) { - *converted_limit_mb = (int)(max_task_footprint / 1024 / 1024); /* bytes to MB */ - } else { - *converted_limit_mb = (int)(LEDGER_LIMIT_INFINITY >> 20); - } - } else { - /* nothing to convert */ - *converted_limit_mb = limit_mb; - } - return (KERN_SUCCESS); + return KERN_NOT_SUPPORTED; } +kern_return_t +task_register_dyld_get_process_state(__unused task_t task, + __unused dyld_kernel_process_info_t * dyld_process_state) +{ + return KERN_NOT_SUPPORTED; +} kern_return_t -task_set_phys_footprint_limit_internal( - task_t task, - int new_limit_mb, - int *old_limit_mb, - boolean_t trigger_exception) +task_inspect(task_inspect_t task_insp, task_inspect_flavor_t flavor, + task_inspect_info_t info_out, mach_msg_type_number_t *size_in_out) { - ledger_amount_t old; +#if MONOTONIC + task_t task = (task_t)task_insp; + kern_return_t kr = KERN_SUCCESS; + mach_msg_type_number_t size; - ledger_get_limit(task->ledger, task_ledgers.phys_footprint, &old); - - if (old_limit_mb) { - /* - * Check that limit >> 20 will not give an "unexpected" 32-bit - * result. There are, however, implicit assumptions that -1 mb limit - * equates to LEDGER_LIMIT_INFINITY. - */ - assert(((old & 0xFFF0000000000000LL) == 0) || (old == LEDGER_LIMIT_INFINITY)); - *old_limit_mb = (int)(old >> 20); + if (task == TASK_NULL) { + return KERN_INVALID_ARGUMENT; } - if (new_limit_mb == -1) { - /* - * Caller wishes to remove the limit. - */ - ledger_set_limit(task->ledger, task_ledgers.phys_footprint, - max_task_footprint ? max_task_footprint : LEDGER_LIMIT_INFINITY, - max_task_footprint ? PHYS_FOOTPRINT_WARNING_LEVEL : 0); - return (KERN_SUCCESS); - } + size = *size_in_out; -#ifdef CONFIG_NOMONITORS - return (KERN_SUCCESS); -#endif /* CONFIG_NOMONITORS */ + switch (flavor) { + case TASK_INSPECT_BASIC_COUNTS: { + struct task_inspect_basic_counts *bc; + uint64_t task_counts[MT_CORE_NFIXED] = { 0 }; - task_lock(task); + if (size < TASK_INSPECT_BASIC_COUNTS_COUNT) { + kr = KERN_INVALID_ARGUMENT; + break; + } - if (trigger_exception) { - task->rusage_cpu_flags |= TASK_RUSECPU_FLAGS_PHYS_FOOTPRINT_EXCEPTION; - } else { - task->rusage_cpu_flags &= ~TASK_RUSECPU_FLAGS_PHYS_FOOTPRINT_EXCEPTION; + mt_fixed_task_counts(task, task_counts); + bc = (struct task_inspect_basic_counts *)info_out; +#ifdef MT_CORE_INSTRS + bc->instructions = task_counts[MT_CORE_INSTRS]; +#else /* defined(MT_CORE_INSTRS) */ + bc->instructions = 0; +#endif /* !defined(MT_CORE_INSTRS) */ + bc->cycles = task_counts[MT_CORE_CYCLES]; + size = TASK_INSPECT_BASIC_COUNTS_COUNT; + break; + } + default: + kr = KERN_INVALID_ARGUMENT; + break; } - ledger_set_limit(task->ledger, task_ledgers.phys_footprint, - (ledger_amount_t)new_limit_mb << 20, PHYS_FOOTPRINT_WARNING_LEVEL); + if (kr == KERN_SUCCESS) { + *size_in_out = size; + } + return kr; +#else /* MONOTONIC */ +#pragma unused(task_insp, flavor, info_out, size_in_out) + return KERN_NOT_SUPPORTED; +#endif /* !MONOTONIC */ +} - if (task == current_task()) { - ledger_check_new_balance(task->ledger, task_ledgers.phys_footprint); - } +#if CONFIG_SECLUDED_MEMORY +int num_tasks_can_use_secluded_mem = 0; +void +task_set_can_use_secluded_mem( + task_t task, + boolean_t can_use_secluded_mem) +{ + if (!task->task_could_use_secluded_mem) { + return; + } + task_lock(task); + task_set_can_use_secluded_mem_locked(task, can_use_secluded_mem); task_unlock(task); - - return (KERN_SUCCESS); } -kern_return_t -task_get_phys_footprint_limit( - task_t task, - int *limit_mb) +void +task_set_can_use_secluded_mem_locked( + task_t task, + boolean_t can_use_secluded_mem) { - ledger_amount_t limit; - - ledger_get_limit(task->ledger, task_ledgers.phys_footprint, &limit); - /* - * Check that limit >> 20 will not give an "unexpected" signed, 32-bit - * result. There are, however, implicit assumptions that -1 mb limit - * equates to LEDGER_LIMIT_INFINITY. - */ - assert(((limit & 0xFFF0000000000000LL) == 0) || (limit == LEDGER_LIMIT_INFINITY)); - *limit_mb = (int)(limit >> 20); - - return (KERN_SUCCESS); -} -#else /* CONFIG_JETSAM */ -kern_return_t -task_set_phys_footprint_limit( - __unused task_t task, - __unused int new_limit_mb, - __unused int *old_limit_mb) + assert(task->task_could_use_secluded_mem); + if (can_use_secluded_mem && + secluded_for_apps && /* global boot-arg */ + !task->task_can_use_secluded_mem) { + assert(num_tasks_can_use_secluded_mem >= 0); + OSAddAtomic(+1, + (volatile SInt32 *)&num_tasks_can_use_secluded_mem); + task->task_can_use_secluded_mem = TRUE; + } else if (!can_use_secluded_mem && + task->task_can_use_secluded_mem) { + assert(num_tasks_can_use_secluded_mem > 0); + OSAddAtomic(-1, + (volatile SInt32 *)&num_tasks_can_use_secluded_mem); + task->task_can_use_secluded_mem = FALSE; + } +} + +void +task_set_could_use_secluded_mem( + task_t task, + boolean_t could_use_secluded_mem) { - return (KERN_FAILURE); + task->task_could_use_secluded_mem = could_use_secluded_mem; } -kern_return_t -task_get_phys_footprint_limit( - __unused task_t task, - __unused int *limit_mb) +void +task_set_could_also_use_secluded_mem( + task_t task, + boolean_t could_also_use_secluded_mem) { - return (KERN_FAILURE); + task->task_could_also_use_secluded_mem = could_also_use_secluded_mem; } -#endif /* CONFIG_JETSAM */ -/* - * We need to export some functions to other components that - * are currently implemented in macros within the osfmk - * component. Just export them as functions of the same name. - */ -boolean_t is_kerneltask(task_t t) +boolean_t +task_can_use_secluded_mem( + task_t task, + boolean_t is_alloc) { - if (t == kernel_task) - return (TRUE); + if (task->task_can_use_secluded_mem) { + assert(task->task_could_use_secluded_mem); + assert(num_tasks_can_use_secluded_mem > 0); + return TRUE; + } + if (task->task_could_also_use_secluded_mem && + num_tasks_can_use_secluded_mem > 0) { + assert(num_tasks_can_use_secluded_mem > 0); + return TRUE; + } - return (FALSE); + /* + * If a single task is using more than some amount of + * memory, allow it to dip into secluded and also begin + * suppression of secluded memory until the tasks exits. + */ + if (is_alloc && secluded_shutoff_trigger != 0) { + uint64_t phys_used = get_task_phys_footprint(task); + if (phys_used > secluded_shutoff_trigger) { + start_secluded_suppression(task); + return TRUE; + } + } + + return FALSE; } -int -check_for_tasksuspend(task_t task) +boolean_t +task_could_use_secluded_mem( + task_t task) { + return task->task_could_use_secluded_mem; +} - if (task == TASK_NULL) - return (0); - - return (task->suspend_count > 0); +boolean_t +task_could_also_use_secluded_mem( + task_t task) +{ + return task->task_could_also_use_secluded_mem; } +#endif /* CONFIG_SECLUDED_MEMORY */ -#undef current_task -task_t current_task(void); -task_t current_task(void) +queue_head_t * +task_io_user_clients(task_t task) { - return (current_task_fast()); + return &task->io_user_clients; } -#undef task_reference -void task_reference(task_t task); void -task_reference( - task_t task) +task_set_message_app_suspended(task_t task, boolean_t enable) { - if (task != TASK_NULL) - task_reference_internal(task); + task->message_app_suspended = enable; } -/* defined in bsd/kern/kern_prot.c */ -extern int get_audit_token_pid(audit_token_t *audit_token); - -int task_pid(task_t task) +void +task_copy_fields_for_exec(task_t dst_task, task_t src_task) { - if (task) - return get_audit_token_pid(&task->audit_token); - return -1; + dst_task->vtimers = src_task->vtimers; } +#if DEVELOPMENT || DEBUG +int vm_region_footprint = 0; +#endif /* DEVELOPMENT || DEBUG */ -/* - * This routine is called always with task lock held. - * And it returns a thread handle without reference as the caller - * operates on it under the task lock held. - */ -thread_t -task_findtid(task_t task, uint64_t tid) +boolean_t +task_self_region_footprint(void) { - thread_t thread= THREAD_NULL; - - queue_iterate(&task->threads, thread, thread_t, task_threads) { - if (thread->thread_id == tid) - return(thread); +#if DEVELOPMENT || DEBUG + if (vm_region_footprint) { + /* system-wide override */ + return TRUE; } - return(THREAD_NULL); +#endif /* DEVELOPMENT || DEBUG */ + return current_task()->task_region_footprint; } -/* - * Control the CPU usage monitor for a task. - */ -kern_return_t -task_cpu_usage_monitor_ctl(task_t task, uint32_t *flags) +void +task_self_region_footprint_set( + boolean_t newval) { - int error = KERN_SUCCESS; + task_t curtask; - if (*flags & CPUMON_MAKE_FATAL) { - task->rusage_cpu_flags |= TASK_RUSECPU_FLAGS_FATAL_CPUMON; + curtask = current_task(); + task_lock(curtask); + if (newval) { + curtask->task_region_footprint = TRUE; } else { - error = KERN_INVALID_ARGUMENT; + curtask->task_region_footprint = FALSE; } - - return error; + task_unlock(curtask); } -/* - * Control the wakeups monitor for a task. - */ -kern_return_t -task_wakeups_monitor_ctl(task_t task, uint32_t *flags, int32_t *rate_hz) +void +task_set_darkwake_mode(task_t task, boolean_t set_mode) { - ledger_t ledger = task->ledger; + assert(task); task_lock(task); - if (*flags & WAKEMON_GET_PARAMS) { - ledger_amount_t limit; - uint64_t period; - - ledger_get_limit(ledger, task_ledgers.interrupt_wakeups, &limit); - ledger_get_period(ledger, task_ledgers.interrupt_wakeups, &period); - - if (limit != LEDGER_LIMIT_INFINITY) { - /* - * An active limit means the wakeups monitor is enabled. - */ - *rate_hz = (int32_t)(limit / (int64_t)(period / NSEC_PER_SEC)); - *flags = WAKEMON_ENABLE; - if (task->rusage_cpu_flags & TASK_RUSECPU_FLAGS_FATAL_WAKEUPSMON) { - *flags |= WAKEMON_MAKE_FATAL; - } - } else { - *flags = WAKEMON_DISABLE; - *rate_hz = -1; - } - /* - * If WAKEMON_GET_PARAMS is present in flags, all other flags are ignored. - */ - task_unlock(task); - return KERN_SUCCESS; + if (set_mode) { + task->t_flags |= TF_DARKWAKE_MODE; + } else { + task->t_flags &= ~(TF_DARKWAKE_MODE); } - if (*flags & WAKEMON_ENABLE) { - if (*flags & WAKEMON_SET_DEFAULTS) { - *rate_hz = task_wakeups_monitor_rate; - } + task_unlock(task); +} -#ifndef CONFIG_NOMONITORS - if (*flags & WAKEMON_MAKE_FATAL) { - task->rusage_cpu_flags |= TASK_RUSECPU_FLAGS_FATAL_WAKEUPSMON; - } -#endif /* CONFIG_NOMONITORS */ +boolean_t +task_get_darkwake_mode(task_t task) +{ + assert(task); + return (task->t_flags & TF_DARKWAKE_MODE) != 0; +} - if (*rate_hz < 0) { - task_unlock(task); - return KERN_INVALID_ARGUMENT; - } +kern_return_t +task_get_exc_guard_behavior( + task_t task, + task_exc_guard_behavior_t *behaviorp) +{ + if (task == TASK_NULL) { + return KERN_INVALID_TASK; + } + *behaviorp = task->task_exc_guard; + return KERN_SUCCESS; +} -#ifndef CONFIG_NOMONITORS - ledger_set_limit(ledger, task_ledgers.interrupt_wakeups, *rate_hz * task_wakeups_monitor_interval, - task_wakeups_monitor_ustackshots_trigger_pct); - ledger_set_period(ledger, task_ledgers.interrupt_wakeups, task_wakeups_monitor_interval * NSEC_PER_SEC); - ledger_enable_callback(ledger, task_ledgers.interrupt_wakeups); -#endif /* CONFIG_NOMONITORS */ - } else if (*flags & WAKEMON_DISABLE) { - /* - * Caller wishes to disable wakeups monitor on the task. - * - * Disable telemetry if it was triggered by the wakeups monitor, and - * remove the limit & callback on the wakeups ledger entry. - */ -#if CONFIG_TELEMETRY - telemetry_task_ctl_locked(current_task(), TF_WAKEMON_WARNING, 0); +#ifndef TASK_EXC_GUARD_ALL +/* Temporary define until two branches are merged */ +#define TASK_EXC_GUARD_ALL (TASK_EXC_GUARD_VM_ALL | 0xf0) #endif - ledger_disable_refill(ledger, task_ledgers.interrupt_wakeups); - ledger_disable_callback(ledger, task_ledgers.interrupt_wakeups); + +kern_return_t +task_set_exc_guard_behavior( + task_t task, + task_exc_guard_behavior_t behavior) +{ + if (task == TASK_NULL) { + return KERN_INVALID_TASK; + } + if (behavior & ~TASK_EXC_GUARD_ALL) { + return KERN_INVALID_VALUE; } + task->task_exc_guard = behavior; + return KERN_SUCCESS; +} +#if __arm64__ +extern int legacy_footprint_entitlement_mode; +extern void memorystatus_act_on_legacy_footprint_entitlement(proc_t, boolean_t); +extern void memorystatus_act_on_ios13extended_footprint_entitlement(proc_t); + +void +task_set_legacy_footprint( + task_t task) +{ + task_lock(task); + task->task_legacy_footprint = TRUE; task_unlock(task); - return KERN_SUCCESS; } void -task_wakeups_rate_exceeded(int warning, __unused const void *param0, __unused const void *param1) +task_set_extra_footprint_limit( + task_t task) { - if (warning == LEDGER_WARNING_ROSE_ABOVE) { -#if CONFIG_TELEMETRY - /* - * This task is in danger of violating the wakeups monitor. Enable telemetry on this task - * so there are micro-stackshots available if and when EXC_RESOURCE is triggered. - */ - telemetry_task_ctl(current_task(), TF_WAKEMON_WARNING, 1); -#endif + if (task->task_extra_footprint_limit) { return; } - -#if CONFIG_TELEMETRY - /* - * If the balance has dipped below the warning level (LEDGER_WARNING_DIPPED_BELOW) or - * exceeded the limit, turn telemetry off for the task. - */ - telemetry_task_ctl(current_task(), TF_WAKEMON_WARNING, 0); -#endif - - if (warning == 0) { - THIS_PROCESS_IS_CAUSING_TOO_MANY_WAKEUPS__SENDING_EXC_RESOURCE(); + task_lock(task); + if (task->task_extra_footprint_limit) { + task_unlock(task); + return; } + task->task_extra_footprint_limit = TRUE; + task_unlock(task); + memorystatus_act_on_legacy_footprint_entitlement(task->bsd_info, TRUE); } -void __attribute__((noinline)) -THIS_PROCESS_IS_CAUSING_TOO_MANY_WAKEUPS__SENDING_EXC_RESOURCE(void) +void +task_set_ios13extended_footprint_limit( + task_t task) { - task_t task = current_task(); - int pid = 0; - const char *procname = "unknown"; - uint64_t observed_wakeups_rate; - uint64_t permitted_wakeups_rate; - uint64_t observation_interval; - mach_exception_data_type_t code[EXCEPTION_CODE_MAX]; - struct ledger_entry_info lei; - -#ifdef MACH_BSD - pid = proc_selfpid(); - if (task->bsd_info != NULL) - procname = proc_name_address(current_task()->bsd_info); -#endif - - ledger_get_entry_info(task->ledger, task_ledgers.interrupt_wakeups, &lei); - - /* - * Disable the exception notification so we don't overwhelm - * the listener with an endless stream of redundant exceptions. - */ - uint32_t flags = WAKEMON_DISABLE; - task_wakeups_monitor_ctl(task, &flags, NULL); - - observed_wakeups_rate = (lei.lei_balance * (int64_t)NSEC_PER_SEC) / lei.lei_last_refill; - permitted_wakeups_rate = lei.lei_limit / task_wakeups_monitor_interval; - observation_interval = lei.lei_refill_period / NSEC_PER_SEC; - - if (disable_exc_resource) { - printf("process %s[%d] caught causing excessive wakeups. EXC_RESOURCE " - "supressed by a boot-arg\n", procname, pid); + if (task->task_ios13extended_footprint_limit) { return; } - if (audio_active) { - printf("process %s[%d] caught causing excessive wakeups. EXC_RESOURCE " - "supressed due to audio playback\n", procname, pid); + task_lock(task); + if (task->task_ios13extended_footprint_limit) { + task_unlock(task); return; } - printf("process %s[%d] caught causing excessive wakeups. Observed wakeups rate " - "(per sec): %lld; Maximum permitted wakeups rate (per sec): %lld; Observation " - "period: %lld seconds; Task lifetime number of wakeups: %lld\n", - procname, pid, observed_wakeups_rate, permitted_wakeups_rate, - observation_interval, lei.lei_credit); - - code[0] = code[1] = 0; - EXC_RESOURCE_ENCODE_TYPE(code[0], RESOURCE_TYPE_WAKEUPS); - EXC_RESOURCE_ENCODE_FLAVOR(code[0], FLAVOR_WAKEUPS_MONITOR); - EXC_RESOURCE_CPUMONITOR_ENCODE_WAKEUPS_PERMITTED(code[0], task_wakeups_monitor_rate); - EXC_RESOURCE_CPUMONITOR_ENCODE_OBSERVATION_INTERVAL(code[0], observation_interval); - EXC_RESOURCE_CPUMONITOR_ENCODE_WAKEUPS_OBSERVED(code[1], lei.lei_balance * (int64_t)NSEC_PER_SEC / lei.lei_last_refill); - exception_triage(EXC_RESOURCE, code, EXCEPTION_CODE_MAX); + task->task_ios13extended_footprint_limit = TRUE; + task_unlock(task); + memorystatus_act_on_ios13extended_footprint_entitlement(task->bsd_info); +} +#endif /* __arm64__ */ - if (task->rusage_cpu_flags & TASK_RUSECPU_FLAGS_FATAL_WAKEUPSMON) { - task_terminate_internal(task); - } +static inline ledger_amount_t +task_ledger_get_balance( + ledger_t ledger, + int ledger_idx) +{ + ledger_amount_t amount; + amount = 0; + ledger_get_balance(ledger, ledger_idx, &amount); + return amount; } -kern_return_t -task_purge_volatile_memory( - task_t task) +/* + * Gather the amount of memory counted in a task's footprint due to + * being in a specific set of ledgers. + */ +void +task_ledgers_footprint( + ledger_t ledger, + ledger_amount_t *ledger_resident, + ledger_amount_t *ledger_compressed) { - vm_map_t map; - int num_object_purged; + *ledger_resident = 0; + *ledger_compressed = 0; - if (task == TASK_NULL) - return KERN_INVALID_TASK; + /* purgeable non-volatile memory */ + *ledger_resident += task_ledger_get_balance(ledger, task_ledgers.purgeable_nonvolatile); + *ledger_compressed += task_ledger_get_balance(ledger, task_ledgers.purgeable_nonvolatile_compressed); - task_lock(task); + /* "default" tagged memory */ + *ledger_resident += task_ledger_get_balance(ledger, task_ledgers.tagged_footprint); + *ledger_compressed += task_ledger_get_balance(ledger, task_ledgers.tagged_footprint_compressed); - if (!task->active) { - task_unlock(task); - return KERN_INVALID_TASK; - } - map = task->map; - if (map == VM_MAP_NULL) { - task_unlock(task); - return KERN_INVALID_TASK; - } - vm_map_reference(task->map); + /* "network" currently never counts in the footprint... */ - task_unlock(task); + /* "media" tagged memory */ + *ledger_resident += task_ledger_get_balance(ledger, task_ledgers.media_footprint); + *ledger_compressed += task_ledger_get_balance(ledger, task_ledgers.media_footprint_compressed); - num_object_purged = vm_map_purge(map); - vm_map_deallocate(map); + /* "graphics" tagged memory */ + *ledger_resident += task_ledger_get_balance(ledger, task_ledgers.graphics_footprint); + *ledger_compressed += task_ledger_get_balance(ledger, task_ledgers.graphics_footprint_compressed); - return KERN_SUCCESS; + /* "neural" tagged memory */ + *ledger_resident += task_ledger_get_balance(ledger, task_ledgers.neural_footprint); + *ledger_compressed += task_ledger_get_balance(ledger, task_ledgers.neural_footprint_compressed); } -/* Placeholders for the task set/get voucher interfaces */ -kern_return_t -task_get_mach_voucher( - task_t task, - mach_voucher_selector_t __unused which, - ipc_voucher_t *voucher) +void +task_set_memory_ownership_transfer( + task_t task, + boolean_t value) { - if (TASK_NULL == task) - return KERN_INVALID_TASK; - - *voucher = NULL; - return KERN_SUCCESS; + task_lock(task); + task->task_can_transfer_memory_ownership = value; + task_unlock(task); } -kern_return_t -task_set_mach_voucher( - task_t task, - ipc_voucher_t __unused voucher) +void +task_copy_vmobjects(task_t task, vm_object_query_t query, int len, int64_t* num) { - if (TASK_NULL == task) - return KERN_INVALID_TASK; - - return KERN_SUCCESS; -} + vm_object_t find_vmo; + unsigned int i = 0; + unsigned int vmobj_limit = len / sizeof(vm_object_query_data_t); -kern_return_t -task_swap_mach_voucher( - task_t task, - ipc_voucher_t new_voucher, - ipc_voucher_t *in_out_old_voucher) -{ - if (TASK_NULL == task) - return KERN_INVALID_TASK; + task_objq_lock(task); + if (query != NULL) { + queue_iterate(&task->task_objq, find_vmo, vm_object_t, task_objq) + { + vm_object_query_t p = &query[i]; - *in_out_old_voucher = new_voucher; - return KERN_SUCCESS; -} + /* + * Clear the entire vm_object_query_t struct as we are using + * only the first 6 bits in the uint64_t bitfield for this + * anonymous struct member. + */ + bzero(p, sizeof(*p)); + + p->object_id = (vm_object_id_t) VM_KERNEL_ADDRPERM(find_vmo); + p->virtual_size = find_vmo->internal ? find_vmo->vo_size : 0; + p->resident_size = find_vmo->resident_page_count * PAGE_SIZE; + p->wired_size = find_vmo->wired_page_count * PAGE_SIZE; + p->reusable_size = find_vmo->reusable_page_count * PAGE_SIZE; + p->vo_no_footprint = find_vmo->vo_no_footprint; + p->vo_ledger_tag = find_vmo->vo_ledger_tag; + p->purgable = find_vmo->purgable; + + if (find_vmo->internal && find_vmo->pager_created && find_vmo->pager != NULL) { + p->compressed_size = vm_compressor_pager_get_count(find_vmo->pager) * PAGE_SIZE; + } else { + p->compressed_size = 0; + } -void task_set_gpu_denied(task_t task, boolean_t denied) -{ - task_lock(task); + i++; - if (denied) { - task->t_flags |= TF_GPU_DENIED; + /* Make sure to not overrun */ + if (i == vmobj_limit) { + break; + } + } } else { - task->t_flags &= ~TF_GPU_DENIED; + i = task->task_owned_objects; } + task_objq_unlock(task); - task_unlock(task); -} - -boolean_t task_is_gpu_denied(task_t task) -{ - /* We don't need the lock to read this flag */ - return (task->t_flags & TF_GPU_DENIED) ? TRUE : FALSE; + *num = i; }