/*
- * Copyright (c) 2000-2009 Apple Inc. All rights reserved.
+ * Copyright (c) 2000-2010 Apple Inc. All rights reserved.
*
* @APPLE_OSREFERENCE_LICENSE_HEADER_START@
*
* Copyright (c) 2005 SPARTA, Inc.
*/
-#include <mach_kdb.h>
-#include <fast_tas.h>
-#include <platforms.h>
-
#include <mach/mach_types.h>
#include <mach/boolean.h>
#include <mach/host_priv.h>
#include <mach/task_info.h>
#include <mach/task_special_ports.h>
+#include <ipc/ipc_importance.h>
#include <ipc/ipc_types.h>
#include <ipc/ipc_space.h>
#include <ipc/ipc_entry.h>
+#include <ipc/ipc_hash.h>
#include <kern/kern_types.h>
#include <kern/mach_param.h>
#include <kern/misc_protos.h>
#include <kern/task.h>
#include <kern/thread.h>
+#include <kern/coalition.h>
#include <kern/zalloc.h>
#include <kern/kalloc.h>
#include <kern/processor.h>
#include <kern/sched_prim.h> /* for thread_wakeup */
#include <kern/ipc_tt.h>
-#include <kern/ledger.h>
#include <kern/host.h>
#include <kern/clock.h>
#include <kern/timer.h>
#include <kern/assert.h>
#include <kern/sync_lock.h>
#include <kern/affinity.h>
+#include <kern/exc_resource.h>
+#if CONFIG_TELEMETRY
+#include <kern/telemetry.h>
+#endif
#include <vm/pmap.h>
#include <vm/vm_map.h>
#include <vm/vm_kern.h> /* for kernel_map, ipc_kernel_map */
#include <vm/vm_pageout.h>
#include <vm/vm_protos.h>
+#include <vm/vm_purgeable_internal.h>
-#if MACH_KDB
-#include <ddb/db_sym.h>
-#endif /* MACH_KDB */
-
-#ifdef __ppc__
-#include <ppc/exception.h>
-#include <ppc/hw_perfmon.h>
-#endif
-
-
+#include <sys/resource.h>
/*
* Exported interfaces
*/
#include <mach/mach_host_server.h>
#include <mach/host_security_server.h>
#include <mach/mach_port_server.h>
-#include <mach/security_server.h>
#include <vm/vm_shared_region.h>
-#if CONFIG_MACF_MACH
-#include <security/mac_mach_internal.h>
-#endif
-
#if CONFIG_COUNTERS
#include <pmc/pmc.h>
#endif /* CONFIG_COUNTERS */
+#include <libkern/OSDebug.h>
+#include <libkern/OSAtomic.h>
+
+#if CONFIG_ATM
+#include <atm/atm_internal.h>
+#endif
+
+#include <kern/sfi.h>
+
+#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;
lck_attr_t task_lck_attr;
lck_grp_t task_lck_grp;
lck_grp_attr_t task_lck_grp_attr;
+/* Flag set by core audio when audio is playing. Used to stifle EXC_RESOURCE generation when active. */
+int audio_active = 0;
+
+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;
+
+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,
+ { 0 /* initialized at runtime */},
+#ifdef CONFIG_BANK
+ -1, -1,
+#endif
+ };
+
+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)) THIS_PROCESS_CROSSED_HIGH_WATERMARK__SENDING_EXC_RESOURCE(int max_footprint_mb);
+int coredump(void *core_proc, int reserve_mb, int ignore_ulimit);
+
+kern_return_t task_suspend_internal(task_t);
+kern_return_t task_resume_internal(task_t);
+
+void proc_init_cpumon_params(void);
+
+// Warn tasks when they hit 80% of their memory limit.
+#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. */
+
+/*
+ * Level (in terms of percentage of the limit) at which the wakeups monitor triggers telemetry.
+ *
+ * (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
+
+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 */
+
+int task_wakeups_monitor_ustackshots_trigger_pct; /* Percentage. Level at which we start gathering telemetry. */
+
+int disable_exc_resource; /* Global override to supress EXC_RESOURCE for resource monitor violations. */
+
+int max_task_footprint = 0; /* Per-task limit on physical memory consumption */
+#if MACH_ASSERT
+int pmap_ledgers_panic = 1;
+#endif /* MACH_ASSERT */
+
int task_max = CONFIG_TASK_MAX; /* Max number of tasks */
+int hwm_user_cores = 0; /* high watermark violations generate user core files */
+
+#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);
+#if CONFIG_JETSAM
+extern void memorystatus_on_ledger_footprint_exceeded(int warning, const int max_footprint_mb);
+#endif
+#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);
+ task_t task,
+ boolean_t until_not_runnable);
void task_release_locked(
task_t task);
void task_free(
void task_synchronizer_destroy_all(
task_t task);
-kern_return_t task_set_ledger(
- task_t task,
- ledger_t wired,
- ledger_t paged);
-
int check_for_tasksuspend(
task_t task);
task_t task,
boolean_t is64bit)
{
-#if defined(__i386__) || defined(__x86_64__)
+#if defined(__i386__) || defined(__x86_64__) || defined(__arm64__)
thread_t thread;
-#endif /* __i386__ */
- int vm_flags = 0;
+#endif /* defined(__i386__) || defined(__x86_64__) || defined(__arm64__) */
+
+ task_lock(task);
if (is64bit) {
if (task_has_64BitAddr(task))
- return;
-
+ goto out;
task_set_64BitAddr(task);
} else {
if ( !task_has_64BitAddr(task))
- return;
-
- /*
- * Deallocate all memory previously allocated
- * above the 32-bit address space, since it won't
- * be accessible anymore.
- */
- /* remove regular VM map entries & pmap mappings */
- (void) vm_map_remove(task->map,
- (vm_map_offset_t) VM_MAX_ADDRESS,
- MACH_VM_MAX_ADDRESS,
- 0);
-#ifdef __ppc__
- /*
- * PPC51: ppc64 is limited to 51-bit addresses.
- * Memory mapped above that limit is handled specially
- * at the pmap level, so let pmap clean the commpage mapping
- * explicitly...
- */
- pmap_unmap_sharedpage(task->map->pmap); /* Unmap commpage */
- /* ... and avoid regular pmap cleanup */
- vm_flags |= VM_MAP_REMOVE_NO_PMAP_CLEANUP;
-#endif /* __ppc__ */
- /* remove the higher VM mappings */
- (void) vm_map_remove(task->map,
- MACH_VM_MAX_ADDRESS,
- 0xFFFFFFFFFFFFF000ULL,
- vm_flags);
+ goto out;
task_clear_64BitAddr(task);
}
/* FIXME: On x86, the thread save state flavor can diverge from the
* certain routines may observe the thread as being in an inconsistent
* state with respect to its task's 64-bitness.
*/
-#if defined(__i386__) || defined(__x86_64__)
- task_lock(task);
+
+#if defined(__i386__) || 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);
}
+#endif /* defined(__i386__) || defined(__x86_64__) || defined(__arm64__) */
+
+out:
task_unlock(task);
-#endif /* __i386__ */
}
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;
+ }
+#endif
+
+}
+
+#if TASK_REFERENCE_LEAK_DEBUG
+#include <kern/btlog.h>
+
+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
+
+#define TASK_REF_BTDEPTH 7
+
+static void
+task_ref_lock_lock(void *context)
+{
+ simple_lock((simple_lock_t)context);
+}
+static void
+task_ref_lock_unlock(void *context)
+{
+ simple_unlock((simple_lock_t)context);
+}
+
+void
+task_reference_internal(task_t task)
+{
+ void * bt[TASK_REF_BTDEPTH];
+ int numsaved = 0;
+
+ 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);
+}
+
+uint32_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);
+}
+
+#endif /* TASK_REFERENCE_LEAK_DEBUG */
+
void
task_init(void)
{
task_max * sizeof(struct task),
TASK_CHUNK * sizeof(struct task),
"tasks");
+
zone_change(task_zone, Z_NOENCRYPT, TRUE);
+ /*
+ * Configure per-task memory limit.
+ * The boot-arg is interpreted as Megabytes,
+ * and takes precedence over the device tree.
+ * Setting the boot-arg to 0 disables task limits.
+ */
+ if (!PE_parse_boot_argn("max_task_pmem", &max_task_footprint,
+ sizeof (max_task_footprint))) {
+ /*
+ * 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,
+ sizeof(max_task_footprint))) {
+ /*
+ * No limit was found in device tree.
+ */
+ max_task_footprint = 0;
+ }
+ }
+
+ if (max_task_footprint != 0) {
+#if CONFIG_JETSAM
+ if (max_task_footprint < 50) {
+ printf("Warning: max_task_pmem %d below minimum.\n",
+ max_task_footprint);
+ max_task_footprint = 50;
+ }
+ printf("Limiting task physical memory footprint to %d MB\n",
+ max_task_footprint);
+ max_task_footprint *= 1024 * 1024; // Convert MB to bytes
+#else
+ printf("Warning: max_task_footprint specified, but jetsam not configured; ignoring.\n");
+#endif
+ }
+
+#if MACH_ASSERT
+ PE_parse_boot_argn("pmap_ledgers_panic", &pmap_ledgers_panic,
+ sizeof (pmap_ledgers_panic));
+#endif /* MACH_ASSERT */
+
+ if (!PE_parse_boot_argn("hwm_user_cores", &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;
+ }
+
+ proc_init_cpumon_params();
+
+ 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))) {
+ 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))) {
+ 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))) {
+ disable_exc_resource = 0;
+ }
+
+/*
+ * 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,
+ * then we have to call it now.
+ */
+#if CONFIG_COALITIONS
+ assert(task_ledger_template);
+#else /* CONFIG_COALITIONS */
+ init_task_ledgers();
+#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);
+ assert(task_ref_btlog);
+#endif
+
/*
* Create the kernel task as the first task.
*/
#ifdef __LP64__
- if (task_create_internal(TASK_NULL, FALSE, TRUE, &kernel_task) != KERN_SUCCESS)
+ if (task_create_internal(TASK_NULL, COALITION_NULL, FALSE, TRUE, &kernel_task) != KERN_SUCCESS)
#else
- if (task_create_internal(TASK_NULL, FALSE, FALSE, &kernel_task) != KERN_SUCCESS)
+ if (task_create_internal(TASK_NULL, COALITION_NULL, FALSE, FALSE, &kernel_task) != KERN_SUCCESS)
#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);
+
}
/*
return(KERN_FAILURE);
}
+/*
+ * Task ledgers
+ * ------------
+ *
+ * phys_footprint
+ * Physical footprint: This is the sum of:
+ * + internal
+ * + internal_compressed
+ * + iokit_mapped
+ * - alternate_accounting
+ *
+ * internal
+ * The task's anonymous memory, which on iOS is always resident.
+ *
+ * internal_compressed
+ * Amount of this task's internal memory which is held by the compressor.
+ * Such memory is no longer actually resident for the task [i.e., resident in its pmap],
+ * and could be either decompressed back into memory, or paged out to storage, depending
+ * on our implementation.
+ *
+ * iokit_mapped
+ * IOKit mappings: The total size of all IOKit mappings in this task, regardless of
+ 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.
+ */
+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)
+ 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",
+ "physmem", "bytes");
+ task_ledgers.tkm_shared = ledger_entry_add(t, "tkm_shared", "physmem",
+ "bytes");
+ task_ledgers.phys_mem = ledger_entry_add(t, "phys_mem", "physmem",
+ "bytes");
+ task_ledgers.wired_mem = ledger_entry_add(t, "wired_mem", "physmem",
+ "bytes");
+ task_ledgers.internal = ledger_entry_add(t, "internal", "physmem",
+ "bytes");
+ task_ledgers.iokit_mapped = ledger_entry_add(t, "iokit_mapped", "mappings",
+ "bytes");
+ task_ledgers.alternate_accounting = ledger_entry_add(t, "alternate_accounting", "physmem",
+ "bytes");
+ task_ledgers.phys_footprint = ledger_entry_add(t, "phys_footprint", "physmem",
+ "bytes");
+ task_ledgers.internal_compressed = ledger_entry_add(t, "internal_compressed", "physmem",
+ "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");
+ task_ledgers.platform_idle_wakeups = ledger_entry_add(t, "platform_idle_wakeups", "power",
+ "count");
+ task_ledgers.interrupt_wakeups = ledger_entry_add(t, "interrupt_wakeups", "power",
+ "count");
+
+ sfi_class_id_t class_id, ledger_alias;
+ for (class_id = SFI_CLASS_UNSPECIFIED; class_id < MAX_SFI_CLASS_ID; class_id++) {
+ task_ledgers.sfi_wait_times[class_id] = -1;
+ }
+
+ /* don't account for UNSPECIFIED */
+ for (class_id = SFI_CLASS_UNSPECIFIED + 1; class_id < MAX_SFI_CLASS_ID; class_id++) {
+ ledger_alias = sfi_get_ledger_alias_for_class(class_id);
+ if (ledger_alias != SFI_CLASS_UNSPECIFIED) {
+ /* Check to see if alias has been registered yet */
+ if (task_ledgers.sfi_wait_times[ledger_alias] != -1) {
+ task_ledgers.sfi_wait_times[class_id] = task_ledgers.sfi_wait_times[ledger_alias];
+ } else {
+ /* Otherwise, initialize it first */
+ task_ledgers.sfi_wait_times[class_id] = task_ledgers.sfi_wait_times[ledger_alias] = sfi_ledger_entry_add(t, ledger_alias);
+ }
+ } else {
+ task_ledgers.sfi_wait_times[class_id] = sfi_ledger_entry_add(t, class_id);
+ }
+
+ if (task_ledgers.sfi_wait_times[class_id] < 0) {
+ panic("couldn't create entries for task ledger template for SFI class 0x%x", class_id);
+ }
+ }
+
+#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
+
+ assert(task_ledgers.sfi_wait_times[MAX_SFI_CLASS_ID -1] != -1);
+
+ if ((task_ledgers.cpu_time < 0) ||
+ (task_ledgers.tkm_private < 0) ||
+ (task_ledgers.tkm_shared < 0) ||
+ (task_ledgers.phys_mem < 0) ||
+ (task_ledgers.wired_mem < 0) ||
+ (task_ledgers.internal < 0) ||
+ (task_ledgers.iokit_mapped < 0) ||
+ (task_ledgers.alternate_accounting < 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.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
+ ) {
+ panic("couldn't create entries for task ledger template");
+ }
+
+ 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.internal);
+ ledger_panic_on_negative(t, task_ledgers.internal_compressed);
+ ledger_panic_on_negative(t, task_ledgers.iokit_mapped);
+ ledger_panic_on_negative(t, task_ledgers.alternate_accounting);
+ ledger_panic_on_negative(t, task_ledgers.purgeable_volatile);
+ 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);
+ }
+#endif /* MACH_ASSERT */
+
+#if CONFIG_JETSAM
+ ledger_set_callback(t, task_ledgers.phys_footprint, task_footprint_exceeded, NULL, NULL);
+#endif
+
+ ledger_set_callback(t, task_ledgers.interrupt_wakeups,
+ task_wakeups_rate_exceeded, NULL, NULL);
+
+ task_ledger_template = t;
+}
+
kern_return_t
task_create_internal(
task_t parent_task,
+ coalition_t parent_coalition __unused,
boolean_t inherit_memory,
boolean_t is_64bit,
task_t *child_task) /* OUT */
{
task_t new_task;
vm_shared_region_t shared_region;
+ ledger_t ledger = NULL;
new_task = (task_t) zalloc(task_zone);
/* one ref for just being alive; one for our caller */
new_task->ref_count = 2;
+ /* allocate with active entries */
+ assert(task_ledger_template != NULL);
+ if ((ledger = ledger_instantiate(task_ledger_template,
+ LEDGER_CREATE_ACTIVE_ENTRIES)) == NULL) {
+ zfree(task_zone, new_task);
+ return(KERN_RESOURCE_SHORTAGE);
+ }
+
+ new_task->ledger = ledger;
+
+#if defined(CONFIG_SCHED_MULTIQ)
+ new_task->sched_group = sched_group_create();
+#endif
+
/* if inherit_memory is true, parent_task MUST not be NULL */
if (inherit_memory)
- new_task->map = vm_map_fork(parent_task->map);
+ new_task->map = vm_map_fork(ledger, parent_task->map);
else
- new_task->map = vm_map_create(pmap_create(0, is_64bit),
- (vm_map_offset_t)(VM_MIN_ADDRESS),
- (vm_map_offset_t)(VM_MAX_ADDRESS), TRUE);
+ 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);
/* Inherit memlock limit from parent */
if (parent_task)
new_task->thread_count = 0;
new_task->active_thread_count = 0;
new_task->user_stop_count = 0;
- new_task->role = TASK_UNSPECIFIED;
+ new_task->legacy_stop_count = 0;
new_task->active = TRUE;
new_task->halting = FALSE;
new_task->user_data = NULL;
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->taskFeatures[0] = 0; /* Init task features */
- new_task->taskFeatures[1] = 0; /* Init task features */
+ new_task->t_flags = 0;
+ new_task->importance = 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;
#endif /* MACH_BSD */
+#if CONFIG_JETSAM
+ if (max_task_footprint != 0) {
+ ledger_set_limit(ledger, task_ledgers.phys_footprint, max_task_footprint, PHYS_FOOTPRINT_WARNING_LEVEL);
+ }
+#endif
+
+ if (task_wakeups_monitor_rate != 0) {
+ uint32_t flags = WAKEMON_ENABLE | WAKEMON_SET_DEFAULTS;
+ int32_t rate; // Ignored because of WAKEMON_SET_DEFAULTS
+ task_wakeups_monitor_ctl(new_task, &flags, &rate);
+ }
+
#if defined(__i386__) || defined(__x86_64__)
new_task->i386_ldt = 0;
- new_task->task_debug = NULL;
-
#endif
-#ifdef __ppc__
- if(BootProcInfo.pf.Available & pf64Bit) new_task->taskFeatures[0] |= tf64BitData; /* If 64-bit machine, show we have 64-bit registers at least */
-#endif
+ new_task->task_debug = NULL;
queue_init(&new_task->semaphore_list);
- queue_init(&new_task->lock_set_list);
new_task->semaphores_owned = 0;
- new_task->lock_sets_owned = 0;
-
-#if CONFIG_MACF_MACH
- new_task->label = labelh_new(1);
- mac_task_label_init (&new_task->maclabel);
-#endif
ipc_task_init(new_task, parent_task);
new_task->t_chud = 0U;
#endif
+ new_task->pidsuspended = FALSE;
+ new_task->frozen = FALSE;
+ new_task->changing_freeze_state = FALSE;
+ new_task->rusage_cpu_flags = 0;
+ new_task->rusage_cpu_percentage = 0;
+ new_task->rusage_cpu_interval = 0;
+ new_task->rusage_cpu_deadline = 0;
+ new_task->rusage_cpu_callt = NULL;
+#if MACH_ASSERT
+ new_task->suspends_outstanding = 0;
+#endif
+
+#if HYPERVISOR
+ new_task->hv_task_target = NULL;
+#endif /* HYPERVISOR */
+
+
+ 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->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->requested_policy = default_task_requested_policy;
+ new_task->effective_policy = default_task_effective_policy;
+ new_task->pended_policy = default_task_pended_policy;
+
if (parent_task != TASK_NULL) {
new_task->sec_token = parent_task->sec_token;
new_task->audit_token = parent_task->audit_token;
shared_region = vm_shared_region_get(parent_task);
vm_shared_region_set(new_task, shared_region);
- new_task->wired_ledger_port = ledger_copy(
- convert_port_to_ledger(parent_task->wired_ledger_port));
- new_task->paged_ledger_port = ledger_copy(
- convert_port_to_ledger(parent_task->paged_ledger_port));
if(task_has_64BitAddr(parent_task))
task_set_64BitAddr(new_task);
new_task->all_image_info_addr = parent_task->all_image_info_addr;
task_affinity_create(parent_task, new_task);
new_task->pset_hint = parent_task->pset_hint = task_choose_pset(parent_task);
- }
- else {
+
+#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);
+ }
+#endif /* IMPORTANCE_INHERITANCE */
+
+ 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);
+ } else {
new_task->sec_token = KERNEL_SECURITY_TOKEN;
new_task->audit_token = KERNEL_AUDIT_TOKEN;
- new_task->wired_ledger_port = ledger_copy(root_wired_ledger);
- new_task->paged_ledger_port = ledger_copy(root_paged_ledger);
#ifdef __LP64__
if(is_64bit)
task_set_64BitAddr(new_task);
#endif
+ new_task->all_image_info_addr = (mach_vm_address_t)0;
+ new_task->all_image_info_size = (mach_vm_size_t)0;
new_task->pset_hint = PROCESSOR_SET_NULL;
+
+ if (kernel_task == TASK_NULL) {
+ new_task->priority = BASEPRI_KERNEL;
+ new_task->max_priority = MAXPRI_KERNEL;
+ } else {
+ new_task->priority = BASEPRI_DEFAULT;
+ new_task->max_priority = MAXPRI_USER;
+ }
}
- if (kernel_task == TASK_NULL) {
- new_task->priority = BASEPRI_KERNEL;
- new_task->max_priority = MAXPRI_KERNEL;
+ new_task->coalition = COALITION_NULL;
+
+#if CONFIG_COALITIONS
+ if (parent_coalition) {
+ coalition_adopt_task(parent_coalition, new_task);
+ } else if (parent_task && parent_task->coalition) {
+ coalition_adopt_task(parent_task->coalition, new_task);
+ } else {
+ coalition_default_adopt_task(new_task);
}
- else {
- new_task->priority = BASEPRI_DEFAULT;
- new_task->max_priority = MAXPRI_USER;
+
+ if (new_task->coalition == COALITION_NULL) {
+ panic("created task is not a member of any coalition");
}
-
+#endif /* CONFIG_COALITIONS */
+
+ /* 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->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;
lck_mtx_lock(&tasks_threads_lock);
queue_enter(&tasks, new_task, task_t, tasks);
tasks_count++;
if (vm_backing_store_low && parent_task != NULL)
new_task->priv_flags |= (parent_task->priv_flags&VM_BACKING_STORE_PRIV);
+ new_task->task_volatile_objects = 0;
+ new_task->task_nonvolatile_objects = 0;
+ new_task->task_purgeable_disowning = FALSE;
+ new_task->task_purgeable_disowned = FALSE;
+
ipc_task_enable(new_task);
*child_task = new_task;
return(KERN_SUCCESS);
}
+int task_dropped_imp_count = 0;
+
/*
* task_deallocate:
*
task_deallocate(
task_t task)
{
+ ledger_amount_t credit, debit, interrupt_wakeups, platform_idle_wakeups;
+ uint32_t refs;
+
if (task == TASK_NULL)
return;
- if (task_deallocate_internal(task) > 0)
+ 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()
+ * from the ipc_importance_disconnect_task() call).
+ */
+ if (IIT_NULL != task->task_imp_base)
+ ipc_importance_disconnect_task(task);
+ return;
+ }
+#else
+ if (refs > 0)
return;
+#endif /* IMPORTANCE_INHERITANCE */
+
+ lck_mtx_lock(&tasks_threads_lock);
+ queue_remove(&terminated_tasks, task, task_t, tasks);
+ terminated_tasks_count--;
+ lck_mtx_unlock(&tasks_threads_lock);
+
+ /*
+ * remove the reference on atm descriptor
+ */
+ 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
+
+ if (task->task_io_stats)
+ kfree(task->task_io_stats, sizeof(struct io_stat_info));
+
+ /*
+ * Give the machine dependent code a chance
+ * to perform cleanup before ripping apart
+ * the task.
+ */
+ machine_task_terminate(task);
ipc_task_terminate(task);
if (task->affinity_space)
task_affinity_deallocate(task);
+#if MACH_ASSERT
+ if (task->ledger != NULL &&
+ task->map != NULL &&
+ task->map->pmap != NULL &&
+ task->map->pmap->ledger != NULL) {
+ assert(task->ledger == task->map->pmap->ledger);
+ }
+#endif /* MACH_ASSERT */
+
+ vm_purgeable_disown(task);
+ assert(task->task_purgeable_disowned);
+ if (task->task_volatile_objects != 0 ||
+ task->task_nonvolatile_objects != 0) {
+ panic("task_deallocate(%p): "
+ "volatile_objects=%d nonvolatile_objects=%d\n",
+ task,
+ task->task_volatile_objects,
+ task->task_nonvolatile_objects);
+ }
+
vm_map_deallocate(task->map);
is_release(task->itk_space);
+ ledger_get_entries(task->ledger, task_ledgers.interrupt_wakeups,
+ &interrupt_wakeups, &debit);
+ ledger_get_entries(task->ledger, task_ledgers.platform_idle_wakeups,
+ &platform_idle_wakeups, &debit);
+
+#if defined(CONFIG_SCHED_MULTIQ)
+ sched_group_destroy(task->sched_group);
+#endif
+
+ /* Accumulate statistics for dead tasks */
+ lck_spin_lock(&dead_task_statistics_lock);
+ dead_task_statistics.total_user_time += task->total_user_time;
+ dead_task_statistics.total_system_time += task->total_system_time;
+
+ dead_task_statistics.task_interrupt_wakeups += interrupt_wakeups;
+ dead_task_statistics.task_platform_idle_wakeups += platform_idle_wakeups;
+
+ 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;
+
+ lck_spin_unlock(&dead_task_statistics_lock);
lck_mtx_destroy(&task->lock, &task_lck_grp);
-#if CONFIG_MACF_MACH
- labelh_release(task->label);
+ if (!ledger_get_entries(task->ledger, task_ledgers.tkm_private, &credit,
+ &debit)) {
+ OSAddAtomic64(credit, (int64_t *)&tasks_tkm_private.alloc);
+ OSAddAtomic64(debit, (int64_t *)&tasks_tkm_private.free);
+ }
+ if (!ledger_get_entries(task->ledger, task_ledgers.tkm_shared, &credit,
+ &debit)) {
+ OSAddAtomic64(credit, (int64_t *)&tasks_tkm_shared.alloc);
+ 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) {
+ panic("deallocating task was not a member of any coalition");
+ }
+ coalition_release(task->coalition);
+#endif /* CONFIG_COALITIONS */
+
+ task->coalition = COALITION_NULL;
+
zfree(task_zone, task);
}
return(task_deallocate((task_t)task_name));
}
-
/*
- * task_terminate:
+ * task_suspension_token_deallocate:
*
- * Terminate the specified task. See comments on thread_terminate
- * (kern/thread.c) about problems with terminating the "current task."
+ * Drop a reference on a task suspension token.
+ */
+void
+task_suspension_token_deallocate(
+ task_suspension_token_t token)
+{
+ return(task_deallocate((task_t)token));
+}
+
+/*
+ * task_terminate:
+ *
+ * Terminate the specified task. See comments on thread_terminate
+ * (kern/thread.c) about problems with terminating the "current task."
*/
kern_return_t
return (task_terminate_internal(task));
}
+#if MACH_ASSERT
+extern int proc_pid(struct proc *);
+extern void proc_name_kdp(task_t t, char *buf, int size);
+#endif /* MACH_ASSERT */
+
+#define VM_MAP_PARTIAL_REAP 0x54 /* 0x150 */
+static void
+__unused task_partial_reap(task_t task, __unused int pid)
+{
+ 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);
+
+ 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);
+}
+
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);
task_lock(task);
}
- if (!task->active || !self->active) {
+ if (!task->active) {
/*
- * Task or current act is already being terminated.
+ * 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->active = FALSE;
ipc_task_disable(task);
+#if CONFIG_TELEMETRY
+ /*
+ * Notify telemetry that this task is going away.
+ */
+ telemetry_task_ctl_locked(task, TF_TELEMETRY, 0);
+#endif
+
/*
* Terminate each thread in the task.
*/
thread_terminate_internal(thread);
}
- /*
- * Give the machine dependent code a chance
- * to perform cleanup before ripping apart
- * the task.
- */
- if (self_task == task)
- machine_thread_terminate_self();
+#ifdef MACH_BSD
+ if (task->bsd_info != NULL) {
+ 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);
+
+ /* Early object reap phase */
+
+// PR-17045188: Revisit implementation
+// task_partial_reap(task, pid);
+
+
/*
* Destroy all synchronizers owned by the task.
*/
/*
* Destroy the IPC space, leaving just a reference for it.
*/
- ipc_space_destroy(task->itk_space);
-
-#ifdef __ppc__
- /*
- * PPC51: ppc64 is limited to 51-bit addresses.
- */
- pmap_unmap_sharedpage(task->map->pmap); /* Unmap commpage */
-#endif /* __ppc__ */
-
- if (vm_map_has_4GB_pagezero(task->map))
- vm_map_clear_4GB_pagezero(task->map);
+ ipc_space_terminate(task->itk_space);
+
+#if 00
+ /* if some ledgers go negative on tear-down again... */
+ ledger_disable_panic_on_negative(task->map->pmap->ledger,
+ task_ledgers.phys_footprint);
+ ledger_disable_panic_on_negative(task->map->pmap->ledger,
+ task_ledgers.internal);
+ ledger_disable_panic_on_negative(task->map->pmap->ledger,
+ task_ledgers.internal_compressed);
+ ledger_disable_panic_on_negative(task->map->pmap->ledger,
+ task_ledgers.iokit_mapped);
+ ledger_disable_panic_on_negative(task->map->pmap->ledger,
+ task_ledgers.alternate_accounting);
+#endif
/*
* If the current thread is a member of the task
/* 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) {
+ pid = proc_pid(task->bsd_info);
+ proc_name_kdp(task, procname, sizeof (procname));
+ } else {
+ pid = 0;
+ strlcpy(procname, "<unknown>", sizeof (procname));
+ }
+ pmap_set_process(task->map->pmap, pid, procname);
+#endif /* MACH_ASSERT */
+
lck_mtx_lock(&tasks_threads_lock);
queue_remove(&tasks, task, task_t, tasks);
+ queue_enter(&terminated_tasks, task, task_t, tasks);
tasks_count--;
+ terminated_tasks_count++;
lck_mtx_unlock(&tasks_threads_lock);
/*
*/
thread_interrupt_level(interrupt_save);
-#if __ppc__
- perfmon_release_facility(task); // notify the perfmon facility
+#if KPERF
+ /* force the task to release all ctrs */
+ if (task->t_chud & TASK_KPC_FORCED_ALL_CTRS)
+ kpc_force_all_ctrs(task, 0);
+#endif
+
+#if CONFIG_COALITIONS
+ /*
+ * Leave our coalition. (drop activation but not reference)
+ */
+ coalition_remove_task(task);
#endif
/*
assert(task->halting);
assert(task == current_task());
- /*
- * Give the machine dependent code a chance
- * to perform cleanup of task-level resources
- * associated with the current thread before
- * ripping apart the task.
- *
- * This must be done with the task locked.
- */
- machine_thread_terminate_self();
-
/*
* Wait for the other threads to get shut down.
* When the last other thread is reaped, we'll be
- * worken up.
+ * woken up.
*/
if (task->thread_count > 1) {
assert_wait((event_t)&task->halting, THREAD_UNINT);
task_unlock(task);
}
+ /*
+ * Give the machine dependent code a chance
+ * to perform cleanup of task-level resources
+ * associated with the current thread before
+ * ripping apart the task.
+ */
+ machine_task_terminate(task);
+
/*
* Destroy all synchronizers owned by the task.
*/
return (KERN_SUCCESS);
}
+kern_return_t
+task_wait(
+ task_t task,
+ boolean_t until_not_runnable)
+{
+ if (task == TASK_NULL)
+ return (KERN_INVALID_ARGUMENT);
+
+ task_lock(task);
+
+ if (!task->active) {
+ task_unlock(task);
+
+ return (KERN_FAILURE);
+ }
+
+ task_wait_locked(task, until_not_runnable);
+ task_unlock(task);
+
+ return (KERN_SUCCESS);
+}
+
/*
* task_wait_locked:
*
*/
void
task_wait_locked(
- register task_t task)
+ register task_t task,
+ boolean_t until_not_runnable)
{
register thread_t thread, self;
*/
queue_iterate(&task->threads, thread, thread_t, task_threads) {
if (thread != self)
- thread_wait(thread);
+ thread_wait(thread, until_not_runnable);
}
}
return (KERN_SUCCESS);
}
-/*
- * task_suspend:
- *
- * Implement a user-level suspension on a task.
- *
- * Conditions:
- * The caller holds a reference to the task
- */
-kern_return_t
-task_suspend(
- register task_t task)
-{
- if (task == TASK_NULL || task == kernel_task)
- return (KERN_INVALID_ARGUMENT);
-
- task_lock(task);
+#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,
+ int mode)
+{
if (!task->active) {
- task_unlock(task);
-
return (KERN_FAILURE);
}
+ KERNEL_DEBUG_CONSTANT_IST(KDEBUG_TRACE,
+ MACHDBG_CODE(DBG_MACH_IPC,MACH_TASK_SUSPEND) | DBG_FUNC_NONE,
+ proc_pid(task->bsd_info), ((thread_t)queue_first(&task->threads))->thread_id,
+ task->user_stop_count, task->user_stop_count + 1, 0);
+
+#if MACH_ASSERT
+ current_task()->suspends_outstanding++;
+#endif
+
+ 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.
*/
- task_unlock(task);
-
return (KERN_SUCCESS);
}
* to stop executing user code.
*/
task_hold_locked(task);
- task_wait_locked(task);
+ task_wait_locked(task, FALSE);
+
+ return (KERN_SUCCESS);
+}
- task_unlock(task);
+static kern_return_t
+release_task_hold (
+ register task_t task,
+ int mode)
+{
+ register boolean_t release = FALSE;
+
+ if (!task->active) {
+ return (KERN_FAILURE);
+ }
+
+ if (mode == TASK_HOLD_PIDSUSPEND) {
+ if (task->pidsuspended == FALSE) {
+ return (KERN_FAILURE);
+ }
+ task->pidsuspended = FALSE;
+ }
- return (KERN_SUCCESS);
+ 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,
+ proc_pid(task->bsd_info), ((thread_t)queue_first(&task->threads))->thread_id,
+ task->user_stop_count, mode, task->legacy_stop_count);
+
+#if MACH_ASSERT
+ /*
+ * This is obviously not robust; if we suspend one task and then resume a different one,
+ * we'll fly under the radar. This is only meant to catch the common case of a crashed
+ * or buggy suspender.
+ */
+ current_task()->suspends_outstanding--;
+#endif
+
+ if (mode == TASK_HOLD_LEGACY_ALL) {
+ if (task->legacy_stop_count >= task->user_stop_count) {
+ task->user_stop_count = 0;
+ release = TRUE;
+ } else {
+ task->user_stop_count -= task->legacy_stop_count;
+ }
+ task->legacy_stop_count = 0;
+ } else {
+ if (mode == TASK_HOLD_LEGACY && task->legacy_stop_count > 0)
+ task->legacy_stop_count--;
+ if (--task->user_stop_count == 0)
+ release = TRUE;
+ }
+ }
+ else {
+ return (KERN_FAILURE);
+ }
+
+ /*
+ * Release the task if necessary.
+ */
+ if (release)
+ task_release_locked(task);
+
+ return (KERN_SUCCESS);
}
+
/*
- * task_resume:
- * Release a kernel hold on a task.
- *
+ * task_suspend:
+ *
+ * Implement an (old-fashioned) user-level suspension on a task.
+ *
+ * Because the user isn't expecting to have to manage a suspension
+ * token, we'll track it for him in the kernel in the form of a naked
+ * send right to the task's resume port. All such send rights
+ * account for a single suspension against the task (unlike task_suspend2()
+ * where each caller gets a unique suspension count represented by a
+ * 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_resume(
- register task_t task)
+kern_return_t
+task_suspend(
+ register task_t task)
{
- register boolean_t release = FALSE;
+ kern_return_t kr;
+ mach_port_t port, send, old_notify;
+ mach_port_name_t name;
if (task == TASK_NULL || task == kernel_task)
return (KERN_INVALID_ARGUMENT);
task_lock(task);
- if (!task->active) {
- task_unlock(task);
-
- return (KERN_FAILURE);
+ /*
+ * Claim a send right on the task resume port, and request a no-senders
+ * notification on that port (if none outstanding).
+ */
+ 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);
}
- if (task->user_stop_count > 0) {
- if (--task->user_stop_count == 0)
- release = TRUE;
- }
- else {
- task_unlock(task);
+ port = task->itk_resume;
+ ip_lock(port);
+ assert(ip_active(port));
- return (KERN_FAILURE);
+ 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);
}
/*
- * Release the task if necessary.
+ * place a legacy hold on the task.
*/
- if (release)
- task_release_locked(task);
+ kr = place_task_hold(task, TASK_HOLD_LEGACY);
+ if (kr != KERN_SUCCESS) {
+ task_unlock(task);
+ ipc_port_release_send(send);
+ return kr;
+ }
task_unlock(task);
- return (KERN_SUCCESS);
+ /*
+ * Copyout the send right into the calling task's IPC space. It won't know it is there,
+ * 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) {
+ printf("warning: %s(%d) failed to copyout suspension token for task %s(%d) with error: %d\n",
+ proc_name_address(current_task()->bsd_info), proc_pid(current_task()->bsd_info),
+ proc_name_address(task->bsd_info), proc_pid(task->bsd_info), kr);
+ return (kr);
+ }
+
+ return (kr);
}
-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)
+/*
+ * task_resume:
+ * Release a user hold on a task.
+ *
+ * Conditions:
+ * The caller holds a reference to the task
+ */
+kern_return_t
+task_resume(
+ register task_t task)
{
- ipc_port_t host_port;
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;
- if (task == TASK_NULL)
- return(KERN_INVALID_ARGUMENT);
-
- if (host_security == HOST_NULL)
- return(KERN_INVALID_SECURITY);
+ if (task == TASK_NULL || task == kernel_task )
+ return (KERN_INVALID_ARGUMENT);
- task_lock(task);
- task->sec_token = sec_token;
- task->audit_token = audit_token;
- task_unlock(task);
+ /* release a legacy task hold */
+ task_lock(task);
+ kr = release_task_hold(task, TASK_HOLD_LEGACY);
+ task_unlock(task);
- if (host_priv != HOST_PRIV_NULL) {
- kr = host_get_host_priv_port(host_priv, &host_port);
+ 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) {
+ /*
+ * 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)
+ ipc_right_dealloc(space, resume_port_name, resume_port_entry);
+ else
+ ipc_right_destroy(space, resume_port_name, resume_port_entry, FALSE, 0);
+ /* space unlocked */
} else {
- kr = host_get_host_port(host_priv_self(), &host_port);
+ is_write_unlock(space);
+ if (kr == KERN_SUCCESS)
+ printf("warning: %s(%d) performed out-of-band resume on %s(%d)\n",
+ proc_name_address(current_task()->bsd_info), proc_pid(current_task()->bsd_info),
+ proc_name_address(task->bsd_info), proc_pid(task->bsd_info));
}
- assert(kr == KERN_SUCCESS);
- kr = task_set_special_port(task, TASK_HOST_PORT, host_port);
- return(kr);
+
+ return kr;
}
/*
- * Utility routine to set a ledger
+ * Suspend the target task.
+ * Making/holding a token/reference/port is the callers responsibility.
*/
kern_return_t
-task_set_ledger(
- task_t task,
- ledger_t wired,
- ledger_t paged)
+task_suspend_internal(task_t task)
{
- if (task == TASK_NULL)
- return(KERN_INVALID_ARGUMENT);
-
- task_lock(task);
- if (wired) {
- ipc_port_release_send(task->wired_ledger_port);
- task->wired_ledger_port = ledger_copy(wired);
- }
- if (paged) {
- ipc_port_release_send(task->paged_ledger_port);
- task->paged_ledger_port = ledger_copy(paged);
- }
- task_unlock(task);
+ kern_return_t kr;
+
+ if (task == TASK_NULL || task == kernel_task)
+ return (KERN_INVALID_ARGUMENT);
- return(KERN_SUCCESS);
+ task_lock(task);
+ kr = place_task_hold(task, TASK_HOLD_NORMAL);
+ task_unlock(task);
+ 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.
+ * Suspend the target task, and return a suspension token. The token
+ * represents a reference on the suspended task.
*/
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)
+task_suspend2(
+ register task_t task,
+ task_suspension_token_t *suspend_token)
{
- if (task == TASK_NULL)
- return(KERN_INVALID_ARGUMENT);
-
- switch (flavor) {
- default:
- return (KERN_INVALID_ARGUMENT);
+ kern_return_t kr;
+
+ kr = task_suspend_internal(task);
+ if (kr != KERN_SUCCESS) {
+ *suspend_token = TASK_NULL;
+ return (kr);
}
+
+ /*
+ * Take a reference on the target task and return that to the caller
+ * as a "suspension token," which can be converted into an SO right to
+ * the now-suspended task's resume port.
+ */
+ task_reference_internal(task);
+ *suspend_token = task;
+
return (KERN_SUCCESS);
}
+/*
+ * Resume the task
+ * (reference/token/port management is caller's responsibility).
+ */
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_resume_internal(
+ register task_suspension_token_t task)
{
- kern_return_t error = KERN_SUCCESS;
+ kern_return_t kr;
- if (task == TASK_NULL)
+ 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);
+}
- if ((task != current_task()) && (!task->active)) {
- task_unlock(task);
- return (KERN_INVALID_ARGUMENT);
- }
-
- switch (flavor) {
+/*
+ * Resume the task using a suspension token. Consumes the token's ref.
+ */
+kern_return_t
+task_resume2(
+ register task_suspension_token_t task)
+{
+ kern_return_t kr;
+
+ kr = task_resume_internal(task);
+ task_suspension_token_deallocate(task);
+
+ 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;
+ task_t task = convert_port_to_task_suspension_token(port);
+ mach_msg_type_number_t not_count;
+
+ 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);
+ release_task_hold(task, TASK_HOLD_NORMAL);
+ task_unlock(task);
+ break;
+
+ case MACH_NOTIFY_NO_SENDERS:
+ not_count = ((mach_no_senders_notification_t *)request_header)->not_count;
+
+ 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;
+
+ task_unlock(task);
+ /* new send rights, re-arm notification at current make-send count */
+ 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);
+ task_unlock(task);
+ }
+ break;
+
+ default:
+ break;
+ }
+
+ task_suspension_token_deallocate(task); /* drop token reference */
+ return TRUE;
+}
+
+kern_return_t
+task_pidsuspend_locked(task_t task)
+{
+ kern_return_t kr;
+
+ if (task->pidsuspended) {
+ kr = KERN_FAILURE;
+ goto out;
+ }
+
+ task->pidsuspended = TRUE;
+
+ kr = place_task_hold(task, TASK_HOLD_PIDSUSPEND);
+ if (kr != KERN_SUCCESS) {
+ task->pidsuspended = FALSE;
+ }
+out:
+ return(kr);
+}
+
+
+/*
+ * task_pidsuspend:
+ *
+ * Suspends a task by placing a hold on its threads.
+ *
+ * Conditions:
+ * The caller holds a reference to the task
+ */
+kern_return_t
+task_pidsuspend(
+ register task_t task)
+{
+ kern_return_t kr;
+
+ if (task == TASK_NULL || task == kernel_task)
+ return (KERN_INVALID_ARGUMENT);
+
+ task_lock(task);
+
+ kr = task_pidsuspend_locked(task);
+
+ task_unlock(task);
+
+ return (kr);
+}
+
+/* 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
+
+/*
+ * task_pidresume:
+ * Resumes a previously suspended task.
+ *
+ * Conditions:
+ * The caller holds a reference to the task
+ */
+kern_return_t
+task_pidresume(
+ register task_t task)
+{
+ kern_return_t kr;
+
+ 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) {
+
+ assert_wait((event_t)&task->changing_freeze_state, THREAD_UNINT);
+ task_unlock(task);
+ thread_block(THREAD_CONTINUE_NULL);
+
+ task_lock(task);
+ }
+ task->changing_freeze_state = TRUE;
+#endif
+
+ kr = release_task_hold(task, TASK_HOLD_PIDSUSPEND);
+
+ 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) {
+
+ kr = KERN_SUCCESS;
+ } else {
+
+ kr = vm_map_thaw(task->map);
+ }
+ }
+ task_lock(task);
+
+ if (kr == KERN_SUCCESS)
+ task->frozen = FALSE;
+ task->changing_freeze_state = FALSE;
+ thread_wakeup(&task->changing_freeze_state);
+
+ task_unlock(task);
+#endif
+
+ return (kr);
+}
+
+#if CONFIG_FREEZE
+
+/*
+ * task_freeze:
+ *
+ * Freeze a task.
+ *
+ * Conditions:
+ * The caller holds a reference to the task
+ */
+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)
+{
+ 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);
+
+ task_lock(task);
+ }
+ if (task->frozen) {
+ task_unlock(task);
+ return (KERN_FAILURE);
+ }
+ task->changing_freeze_state = TRUE;
+
+ task_unlock(task);
+
+ 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);
+ }
+
+ task_lock(task);
+
+ if (walk_only == FALSE && kr == KERN_SUCCESS)
+ task->frozen = TRUE;
+ task->changing_freeze_state = FALSE;
+ thread_wakeup(&task->changing_freeze_state);
+
+ task_unlock(task);
+
+ return (kr);
+}
+
+/*
+ * task_thaw:
+ *
+ * Thaw a currently frozen task.
+ *
+ * Conditions:
+ * The caller holds a reference to the task
+ */
+extern void
+vm_consider_waking_compactor_swapper(void);
+
+kern_return_t
+task_thaw(
+ register task_t task)
+{
+ 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);
+
+ task_lock(task);
+ }
+ if (!task->frozen) {
+ task_unlock(task);
+ return (KERN_FAILURE);
+ }
+ task->changing_freeze_state = TRUE;
+
+ if (DEFAULT_PAGER_IS_ACTIVE || DEFAULT_FREEZER_IS_ACTIVE) {
+ task_unlock(task);
+
+ kr = vm_map_thaw(task->map);
+
+ task_lock(task);
+
+ if (kr == KERN_SUCCESS)
+ task->frozen = FALSE;
+ } else {
+ task->frozen = FALSE;
+ kr = KERN_SUCCESS;
+ }
+
+ task->changing_freeze_state = FALSE;
+ thread_wakeup(&task->changing_freeze_state);
+
+ task_unlock(task);
+
+ if (COMPRESSED_PAGER_IS_ACTIVE || DEFAULT_FREEZER_COMPRESSED_PAGER_IS_ACTIVE) {
+ vm_consider_waking_compactor_swapper();
+ }
+
+ return (kr);
+}
+
+#endif /* CONFIG_FREEZE */
+
+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;
+
+ if (task == TASK_NULL)
+ return(KERN_INVALID_ARGUMENT);
+
+ if (host_security == HOST_NULL)
+ return(KERN_INVALID_SECURITY);
+
+ 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(task, TASK_HOST_PORT, host_port);
+ return(kr);
+}
+
+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);
+
+#if CONFIG_ATM
+ kr = atm_send_proc_inspect_notification(target_task,
+ pid,
+ uniqueid);
+
+#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);
+
+ switch (flavor) {
+
+#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,
+ mem_info->mailbox_array_size);
+ return kr;
+ break;
+ }
+
+#endif
+ default:
+ return (KERN_INVALID_ARGUMENT);
+ }
+ return (KERN_SUCCESS);
+}
+
+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;
+
+ if (task == TASK_NULL)
+ return (KERN_INVALID_ARGUMENT);
+
+ 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:
break;
}
+ case MACH_TASK_BASIC_INFO:
+ {
+ mach_task_basic_info_t basic_info;
+ vm_map_t map;
+ clock_sec_t secs;
+ clock_usec_t usecs;
+
+ if (*task_info_count < MACH_TASK_BASIC_INFO_COUNT) {
+ error = KERN_INVALID_ARGUMENT;
+ break;
+ }
+
+ basic_info = (mach_task_basic_info_t)task_info_out;
+
+ 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));
+ basic_info->resident_size *= PAGE_SIZE_64;
+
+ basic_info->resident_size_max =
+ (mach_vm_size_t)(pmap_resident_max(map->pmap));
+ basic_info->resident_size_max *= PAGE_SIZE_64;
+
+ basic_info->policy = ((task != kernel_task) ?
+ POLICY_TIMESHARE : POLICY_RR);
+
+ 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_THREAD_TIMES_INFO:
{
register task_thread_times_info_t times_info;
queue_iterate(&task->threads, thread, thread_t, task_threads) {
- time_value_t user_time, system_time;
+ time_value_t user_time, system_time;
- thread_read_times(thread, &user_time, &system_time);
+ if (thread->options & TH_OPT_IDLE_THREAD)
+ continue;
- time_value_add(×_info->user_time, &user_time);
- time_value_add(×_info->system_time, &system_time);
- }
+ thread_read_times(thread, &user_time, &system_time);
+ time_value_add(×_info->user_time, &user_time);
+ time_value_add(×_info->system_time, &system_time);
+ }
*task_info_count = TASK_THREAD_TIMES_INFO_COUNT;
break;
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);
- info->threads_system += tval;
- info->total_system += tval;
+ 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_dyld_info_t info;
- if (*task_info_count < TASK_DYLD_INFO_COUNT) {
+ /*
+ * 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;
}
+
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_info_count = TASK_DYLD_INFO_COUNT;
+
+ /* 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;
}
+ case TASK_EXTMOD_INFO:
+ {
+ task_extmod_info_t info;
+ void *p;
+
+ if (*task_info_count < TASK_EXTMOD_INFO_COUNT) {
+ error = KERN_INVALID_ARGUMENT;
+ break;
+ }
+
+ info = (task_extmod_info_t)task_info_out;
+
+ 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;
+
+ break;
+ }
+
+ case TASK_KERNELMEMORY_INFO:
+ {
+ task_kernelmemory_info_t tkm_info;
+ ledger_amount_t credit, debit;
+
+ if (*task_info_count < TASK_KERNELMEMORY_INFO_COUNT) {
+ error = KERN_INVALID_ARGUMENT;
+ break;
+ }
+
+ 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;
+
+ 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);
+
+ /* 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;
+ }
+ }
+ 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;
+ }
+ 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);
+ }
+
+ *task_info_count = TASK_KERNELMEMORY_INFO_COUNT;
+ return KERN_SUCCESS;
+ }
+
/* OBSOLETE */
case TASK_SCHED_FIFO_INFO:
{
}
error = KERN_INVALID_POLICY;
+ break;
}
/* OBSOLETE */
case TASK_SCHED_RR_INFO:
{
register policy_rr_base_t rr_base;
+ uint32_t quantum_time;
+ uint64_t quantum_ns;
if (*task_info_count < POLICY_RR_BASE_COUNT) {
error = KERN_INVALID_ARGUMENT;
rr_base->base_priority = task->priority;
- rr_base->quantum = std_quantum_us / 1000;
+ quantum_time = SCHED(initial_quantum_size)(THREAD_NULL);
+ absolutetime_to_nanoseconds(quantum_time, &quantum_ns);
+
+ rr_base->quantum = (uint32_t)(quantum_ns / 1000 / 1000);
*task_info_count = POLICY_RR_BASE_COUNT;
break;
case TASK_SCHED_INFO:
error = KERN_INVALID_ARGUMENT;
+ break;
case TASK_EVENTS_INFO:
{
events_info->csw = task->c_switch;
queue_iterate(&task->threads, thread, thread_t, task_threads) {
- events_info->csw += thread->c_switch;
+ events_info->csw += thread->c_switch;
+ events_info->syscalls_mach += thread->syscalls_mach;
+ events_info->syscalls_unix += thread->syscalls_unix;
}
break;
}
- error = task_affinity_info(task, task_info_out, task_info_count);
+ error = task_affinity_info(task, task_info_out, task_info_count);
+ break;
+ }
+ case TASK_POWER_INFO:
+ {
+ if (*task_info_count < TASK_POWER_INFO_COUNT) {
+ error = KERN_INVALID_ARGUMENT;
+ break;
+ }
+
+ task_power_info_locked(task, (task_power_info_t)task_info_out, NULL);
+ break;
+ }
+
+ case TASK_POWER_INFO_V2:
+ {
+ if (*task_info_count < TASK_POWER_INFO_V2_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);
+ break;
+ }
+
+ case TASK_VM_INFO:
+ case TASK_VM_INFO_PURGEABLE:
+ {
+ task_vm_info_t vm_info;
+ vm_map_t map;
+
+ if (*task_info_count < TASK_VM_INFO_COUNT) {
+ error = KERN_INVALID_ARGUMENT;
+ break;
+ }
+
+ vm_info = (task_vm_info_t)task_info_out;
+
+ if (task == kernel_task) {
+ map = kernel_map;
+ /* no lock */
+ } else {
+ map = task->map;
+ vm_map_lock_read(map);
+ }
+
+ 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_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_pmap_size);
+ if (kr == KERN_SUCCESS) {
+ vm_info->purgeable_volatile_pmap =
+ volatile_pmap_size;
+ vm_info->purgeable_volatile_resident =
+ volatile_resident_size;
+ vm_info->purgeable_volatile_virtual =
+ volatile_virtual_size;
+ }
+ }
+ vm_map_unlock_read(map);
+ }
+
+ *task_info_count = TASK_VM_INFO_COUNT;
+ 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));
+
+ 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];
+ }
+
+ wait_state_info->total_wait_sfi_state_time = total_sfi_ledger_val;
+ *task_info_count = TASK_WAIT_STATE_INFO_COUNT;
+
+ break;
+ }
+
+ default:
+ error = KERN_INVALID_ARGUMENT;
+ }
+
+ task_unlock(task);
+ return (error);
+}
+
+/*
+ * 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;
+
+ 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;
+
+ if (ginfo) {
+ ginfo->task_gpu_utilisation = task->task_gpu_ns;
+ }
+
+ 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;
+
+ 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;
+ }
+
+ if (ginfo) {
+ ginfo->task_gpu_utilisation += ml_gpu_stat(thread);
+ }
+ thread_unlock(thread);
+ splx(x);
}
+}
- default:
- error = KERN_INVALID_ARGUMENT;
+/*
+ * 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;
+
+ 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);
- return (error);
+ 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
integer_t which)
{
thread_t thread;
+ spl_t x;
/* assert(task == current_task()); */ /* bogus assert 4803227 4807483 */
case TASK_VTIMER_USER:
queue_iterate(&task->threads, thread, thread_t, task_threads) {
- thread->vtimer_user_save = timer_grab(&thread->user_timer);
+ 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;
}
switch (which) {
case TASK_VTIMER_USER:
- tdelt = (uint32_t)timer_delta(&thread->user_timer,
+ 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;
return(KERN_FAILURE);
}
-#if FAST_TAS
-kern_return_t
-task_set_ras_pc(
- task_t task,
- vm_offset_t pc,
- vm_offset_t endpc)
-{
- extern int fast_tas_debug;
-
- if (fast_tas_debug) {
- printf("task 0x%x: setting fast_tas to [0x%x, 0x%x]\n",
- task, pc, endpc);
- }
- task_lock(task);
- task->fast_tas_base = pc;
- task->fast_tas_end = endpc;
- task_unlock(task);
- return KERN_SUCCESS;
-}
-#else /* FAST_TAS */
kern_return_t
task_set_ras_pc(
__unused task_t task,
{
return KERN_FAILURE;
}
-#endif /* FAST_TAS */
void
task_synchronizer_destroy_all(task_t task)
{
semaphore_t semaphore;
- lock_set_t lock_set;
/*
* Destroy owned semaphores
semaphore = (semaphore_t) queue_first(&task->semaphore_list);
(void) semaphore_destroy(task, semaphore);
}
-
- /*
- * Destroy owned lock sets
- */
-
- while (!queue_empty(&task->lock_set_list)) {
- lock_set = (lock_set_t) queue_first(&task->lock_set_list);
- (void) lock_set_destroy(task, lock_set);
- }
}
/*
return ret;
}
+#if CONFIG_JETSAM
+#define HWM_USERCORE_MINSPACE 250 // free space (in MB) required *after* core file creation
+
+void __attribute__((noinline))
+THIS_PROCESS_CROSSED_HIGH_WATERMARK__SENDING_EXC_RESOURCE(int max_footprint_mb)
+{
+ task_t task = current_task();
+ int pid = 0;
+ char *procname = (char *) "unknown";
+ mach_exception_data_type_t code[EXCEPTION_CODE_MAX];
+
+#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
+
+ 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, 1)) != 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);
+ }
+
+ 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;
+ }
+
+ printf("process %s[%d] crossed memory high watermark (%d MB); sending "
+ "EXC_RESOURCE.\n", procname, pid, max_footprint_mb);
+
+ 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);
+
+ /*
+ * 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);
+}
+
+/*
+ * Callback invoked when a task exceeds its physical footprint limit.
+ */
+void
+task_footprint_exceeded(int warning, __unused const void *param0, __unused const void *param1)
+{
+ ledger_amount_t max_footprint, max_footprint_mb;
+ ledger_amount_t footprint_after_purge;
+ task_t task;
+
+ if (warning == LEDGER_WARNING_DIPPED_BELOW) {
+ /*
+ * Task memory limits only provide a warning on the way up.
+ */
+ return;
+ }
+
+ task = current_task();
+
+ ledger_get_limit(task->ledger, task_ledgers.phys_footprint, &max_footprint);
+ max_footprint_mb = max_footprint >> 20;
+
+ /*
+ * 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;
+ }
+ /* 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)) {
+ THIS_PROCESS_CROSSED_HIGH_WATERMARK__SENDING_EXC_RESOURCE((int)max_footprint_mb);
+ }
+
+ memorystatus_on_ledger_footprint_exceeded((warning == LEDGER_WARNING_ROSE_ABOVE) ? TRUE : FALSE,
+ (int)max_footprint_mb);
+}
+
+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;
+
+ if ((error = proc_check_footprint_priv())) {
+ return (KERN_NO_ACCESS);
+ }
+
+ return task_set_phys_footprint_limit_internal(task, new_limit_mb, old_limit_mb, FALSE);
+}
+
+kern_return_t
+task_set_phys_footprint_limit_internal(
+ task_t task,
+ int new_limit_mb,
+ int *old_limit_mb,
+ boolean_t trigger_exception)
+{
+ ledger_amount_t old;
+
+ ledger_get_limit(task->ledger, task_ledgers.phys_footprint, &old);
+
+ if (old_limit_mb) {
+ *old_limit_mb = 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 ? PHYS_FOOTPRINT_WARNING_LEVEL : 0);
+ return (KERN_SUCCESS);
+ }
+
+#ifdef CONFIG_NOMONITORS
+ return (KERN_SUCCESS);
+#endif /* CONFIG_NOMONITORS */
+
+ task_lock(task);
+
+ if (trigger_exception) {
+ task->rusage_cpu_flags |= TASK_RUSECPU_FLAGS_PHYS_FOOTPRINT_EXCEPTION;
+ } else {
+ task->rusage_cpu_flags &= ~TASK_RUSECPU_FLAGS_PHYS_FOOTPRINT_EXCEPTION;
+ }
+
+ ledger_set_limit(task->ledger, task_ledgers.phys_footprint,
+ (ledger_amount_t)new_limit_mb << 20, PHYS_FOOTPRINT_WARNING_LEVEL);
+
+ task_unlock(task);
+
+ return (KERN_SUCCESS);
+}
+
+kern_return_t
+task_get_phys_footprint_limit(
+ task_t task,
+ int *limit_mb)
+{
+ ledger_amount_t limit;
+
+ ledger_get_limit(task->ledger, task_ledgers.phys_footprint, &limit);
+ *limit_mb = 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)
+{
+ return (KERN_FAILURE);
+}
+
+kern_return_t
+task_get_phys_footprint_limit(
+ __unused task_t task,
+ __unused int *limit_mb)
+{
+ return (KERN_FAILURE);
+}
+#endif /* CONFIG_JETSAM */
/*
* We need to export some functions to other components that
task_reference_internal(task);
}
-#if CONFIG_MACF_MACH
+/*
+ * 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)
+{
+ thread_t thread= THREAD_NULL;
+
+ queue_iterate(&task->threads, thread, thread_t, task_threads) {
+ if (thread->thread_id == tid)
+ return(thread);
+ }
+ return(THREAD_NULL);
+}
+
/*
- * Protect 2 task labels against modification by adding a reference on
- * both label handles. The locks do not actually have to be held while
- * using the labels as only labels with one reference can be modified
- * in place.
+ * Control the CPU usage monitor for a task.
*/
+kern_return_t
+task_cpu_usage_monitor_ctl(task_t task, uint32_t *flags)
+{
+ int error = KERN_SUCCESS;
-void
-tasklabel_lock2(
- task_t a,
- task_t b)
+ if (*flags & CPUMON_MAKE_FATAL) {
+ task->rusage_cpu_flags |= TASK_RUSECPU_FLAGS_FATAL_CPUMON;
+ } else {
+ error = KERN_INVALID_ARGUMENT;
+ }
+
+ return error;
+}
+
+/*
+ * Control the wakeups monitor for a task.
+ */
+kern_return_t
+task_wakeups_monitor_ctl(task_t task, uint32_t *flags, int32_t *rate_hz)
{
- labelh_reference(a->label);
- labelh_reference(b->label);
+ ledger_t ledger = task->ledger;
+
+ 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(current_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
-tasklabel_unlock2(
- task_t a,
- task_t b)
+task_wakeups_rate_exceeded(int warning, __unused const void *param0, __unused const void *param1)
+{
+ 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
+ /*
+ * 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();
+ }
+}
+
+void __attribute__((noinline))
+THIS_PROCESS_IS_CAUSING_TOO_MANY_WAKEUPS__SENDING_EXC_RESOURCE(void)
{
- labelh_release(a->label);
- labelh_release(b->label);
+ task_t task = current_task();
+ int pid = 0;
+ char *procname = (char *) "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);
+ return;
+ }
+ if (audio_active) {
+ printf("process %s[%d] caught causing excessive wakeups. EXC_RESOURCE "
+ "supressed due to audio playback\n", procname, pid);
+ 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);
+
+ if (task->rusage_cpu_flags & TASK_RUSECPU_FLAGS_FATAL_WAKEUPSMON) {
+ task_terminate_internal(task);
+ }
}
-void
-mac_task_label_update_internal(
- struct label *pl,
- struct task *task)
+kern_return_t
+task_purge_volatile_memory(
+ task_t task)
+{
+ vm_map_t map;
+ int num_object_purged;
+
+ if (task == TASK_NULL)
+ return KERN_INVALID_TASK;
+
+ task_lock(task);
+
+ 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);
+
+ task_unlock(task);
+
+ num_object_purged = vm_map_purge(map);
+ vm_map_deallocate(map);
+
+ return KERN_SUCCESS;
+}
+
+/* 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;
- tasklabel_lock(task);
- task->label = labelh_modify(task->label);
- mac_task_label_update(pl, &task->maclabel);
- tasklabel_unlock(task);
- ip_lock(task->itk_self);
- mac_port_label_update_cred(pl, &task->itk_self->ip_label);
- ip_unlock(task->itk_self);
+ *voucher = NULL;
+ return KERN_SUCCESS;
}
-void
-mac_task_label_modify(
- struct task *task,
- void *arg,
- void (*f) (struct label *l, void *arg))
+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(
+ task_t task,
+ ipc_voucher_t new_voucher,
+ ipc_voucher_t *in_out_old_voucher)
+{
+ if (TASK_NULL == task)
+ return KERN_INVALID_TASK;
+
+ *in_out_old_voucher = new_voucher;
+ return KERN_SUCCESS;
+}
+
+void task_set_gpu_denied(task_t task, boolean_t denied)
{
+ task_lock(task);
+
+ if (denied) {
+ task->t_flags |= TF_GPU_DENIED;
+ } else {
+ task->t_flags &= ~TF_GPU_DENIED;
+ }
- tasklabel_lock(task);
- task->label = labelh_modify(task->label);
- (*f)(&task->maclabel, arg);
- tasklabel_unlock(task);
+ task_unlock(task);
}
-struct label *
-mac_task_get_label(struct task *task)
+boolean_t task_is_gpu_denied(task_t task)
{
- return (&task->maclabel);
+ /* We don't need the lock to read this flag */
+ return (task->t_flags & TF_GPU_DENIED) ? TRUE : FALSE;
}
-#endif